ML14246A158
ML14246A158 | |
Person / Time | |
---|---|
Site: | Humboldt Bay |
Issue date: | 08/13/2014 |
From: | Pacific Gas & Electric Co |
To: | NRC/FSME |
Shared Package | |
ML14246A164 | List: |
References | |
HBL-14-015 | |
Download: ML14246A158 (336) | |
Text
Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix A Basis for Site-Specific Parameter Values; Building Surfaces A-i Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination Site-specific information was used when available as the basis for the RESRAD-BUILD input parameter discussed below. NUREG/CR-6755, which documents the calculations of site-specific parameter values, provides the information presented below.1. Room Dimensions.
The model room was selected as a representative room for the Humboldt Bay site buildings and was used as the modeling basis for the building surfaces DCGLs. Table A-i shows the dimensions, unit conversion, and the area associated with each source (i.e., floor, walls, and ceiling) for the modeled room.Table A-i: Representative Room for Humboldt Bay Site Recorded Source Dimension No. Description (ft)a mb in2 1 floor N/A 47.77 2 north wall 27.8 8.47 21.09 3 east wall 18.5 5.64 14.04 4 south wall 27.8 8.47 21.09 5 west wall 18.5 5.64 14.04 wall height 8.17 2.49 total source area: 118.03 a Recorded length and width dimensions for representative room.b Feet to meter conversion factor: ift = 0.3048m.The wall length and height dimensions defined the room model and the location of the receptor.2. Source Configuration.
NUREG/CR-6755, Section 4.0, describes three principal assumptions inherent in the building scenario:
a fixed room area, uniforln surface contamination, and the receptor location at the center of the floor at a height of 1 meter. The room dimensions in Table A-I were used as the configuration bases for the source and the receptor locations.
The RESRAD-BUILD input parameters for receptor location and the centers of sources are provided in Table A-2.Table A-2: Location of Center of Sources and Receptor Source Source Location of Center of Source (m)No. Description X-axis Y-axis Z-axis 1 floor 4.24 2.82 0.00 2 north wall 4.24 0.00 1.25 3 east wall 0.00 2.82 1.25 4 south wall 4.24 5.64 1.25 5 west wall 8.47 2.82 1.25 6 ceiling 4.24 2.82 2.49 A-2 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination
- 3. Direct Ingestion Rate.The RESRAD-BUILD source-specific input parameter, Direct Ingestion Rate, is the direct ingestion rate of the source by any receptor in the room. Direct ingestion represents the fraction of the source ingested per hour. NUREG/CR-5512, Volume 3, defines the average ingestion rate of 1.1E-4 m 2/h as representative for the average individual in an industrial setting. The Direct Ingestion Rate for use in the Building Occupancy Scenario was calculated based on the total room surface area (i.e., source area). The surface area is equal to the sun of the surface area of four walls, plus the surface areas of the floor and ceiling (118.03 m-2 , as shown in Table A-i).Direct Ingestion Rate = Average Ingestion Rate/Source Area= (1.1E-04 M2/1)/(1 18.03 M 2)= 9._2E-7 h'A-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix B Input Parameter Values for Sensitivity Analysis:
Building Surfaces B-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Typea Priorityb nmentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 Exposure Duration (d) B 3 D 365.25 NUR-EG/CR-5512, NRe NR NR NR NUREG/CR-55 12.Exposue Duraion (d B 3 D365.25Vol.3,section 5.2.1 Ne N R N Indoor Fraction B 2 D 0.267 NUREG/CR-5512.
NR NR NR NR___________________________________VoI.3,section 5.2.2.4 ____Evaluation Time (y) P 3 D 1 or multiple (e.g., T=I corresponds to dose NR NR NR NR 1,10, 50, 100) over the It year Number of Rooms P 3 D I NUREG/CR-5512 NR NR NR NR NUREG/CR-6755, Section 3.3;Deposition Velocity (mi/s) P 2 S Loguniform Section 3 .3; 2.70E-06 2.70E-03 NUREG/CR-6697, Att.C.section 7.5 Resuspension Rate (sl) P 1 S Loguniform NUREG/CR-6755, 2.5E-11 1.3E-5 Section 3.1 Air Exchange Rate for Roo (11-1) B 2 S Truncated NUREG/CR-6755, 0.4187 0.88 0.001 0.999 Lognonnal Section 3.2 Site-specific data for Room Area (in 2) P 2 D 47.77 representative room NR NR NR NR (-General Office Building)Site-specific data for Room Height (im) P 2 D 2.49 representative room NR NR NR NR (General Office Building)Time Fraction B 3 D I NUREG/CR-5512 NR NR NR NR Inhalation Rate (n13/d) M 2 D 33.6 NUREG/CR-5512, vol. 3, NR NR NR NR section 5.3.4 Indirect Ingestion Rate (m'/h) B 2 D 0.0001 NUREG/CR-5512 NR NR NR NR NUREG/CR-5512; center Receptor Location (x-, y-, z-axis) B 3 D 4.24, 2.82,1.0 of room based on site- NR NR NR NR specific room dimensions Shielding Thickness (cmi) P 2 D 0 Site-specific model-no NR NR NR NR Shielding___Thickness
_______)_
P D_______ _shielding assumed Shielding Density (g/crn 3 P I D 0 Site-specific mnodel-no NR NR NR NR Shielding Density (g/cm 3) P _ _ shielding assumed NR NR_ NR NR B-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Type" Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 Shielding Material P 3 D None Site-specific model-no NR NR NR NR Shielding
_____Material_
_ P 3DNnshielding assumed Site-specific modeling Number of Sources P 3 D 6 (includes floor, 4 walls, and ceiling)External Dose Conversion Factor, (mrem/y M 3 D RESRAD-Build Dose FGR12 per pCi/cm 2) Conversion Library Air Submersion Dose Conversion Factor, RESRAD-Build Dose FGR12 (nr'em/y per pCi/ni 3) M 1 3 D Conversion Library Inhalation Dose Conversion Factor, RESRAD-Build Dose FGRI 1 (mrem/pCi)
N 3 D Conversion Library Ingestionl Dose Conversion Factor, M 3 D RESRAD-Build Dose FGRI I (mrem/pCi)
Conversion Library Source 1: Floor Type P 3 D area NUREG/CR-5512 Direction P 3 D Z NUREG/CR-5512 site-specific data based on Location of Center of Source: xyz (m) P 3 D 4.24, 22.82, 0.0 dimensions for representative room 8.47 site-specific data based on Source length X-axis (mn) P 2 D dimensions for representative room 5.64 site-specific data based on Source length Y-axis (,m) P 2 D dimensions for representative room Area (in) P 2 D --- Source len-th inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att. C Section 8.6 NUREG/CR-6697, Att. C Air Fraction (all nucl ides other than H-3) B 2 D 0.07 Section 8.6 Direct Ingestion (h-) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P I D 0.1 NUREG/CR-6755, section 3.5 B-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build inDut Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Type' Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 NUREG/CR-6755, Time for Source Removal (d) P 2 S Triangular Section 3.6, NUREG/CR-1,000 100.000 10,000 1 6697, Att.C. 8.8 Radionuclide Concentration (pCi/in 2) P 2 D 1.0 Source 2: North Wall Type P 3 D Area NUREG/CR-5512 Direction P 3 D Y NtUREG/CR-5512 site-specific data based on Location of Center of Source: x,y,z (in) P 3 D 4.24, 0.0, 1.25 dimensions for representative room 8.47 site-specific data based on Source length X-axis (in) P 2 D dimensions for representative room 2.49 site-specific data based on Source length Z-axis (m) P 2 D dimensions for representative room Area (M 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2D 1.0 NIUREG/CR-6697, Att. C Section 8.6 NUREG/CR-6697, Att. C Air Fraction (all nuclides other than H-3) B 2 D 0.07 Section 8.6 Direct Ingestion (h-') B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P I D 0.1 NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 S Triangular Section 3.6; NUREG/CR-1,000 100,000 10,000 6697, Att.C, 8.8 Radionuclide Concentration (pCi/in 2) P 2 D 1.0 Source 3: East Wall Type P 3 D Area NUREG/CR-5512 Direction P 3 D X NUREG/CR-5512 site-specific data based on Location of Center of Source: xy,z (in) P 3 D 0.00, 2.82, 1.25 dimensions for I_ I_ representative room B-4 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RF~RAfl-RiiiId Innint P2r2me$er V2IuIp~ fnr ~pn~itivitv AnnIvd~Treat- Value or Value/Distribution Parameter Type' Priorityb ment' Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 site-specific data based on Source length Y-axis (in) P 2 D 5.64 dimensions for representative room site-specific data based on Source length Z-axis (m) P 2 D 2.49 dimensions for representative room Area (M 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2D 1.0 NUREG/CR-6697, Att. C, Section 8.6 NUREG/CR-6697, Att. C, Air Fraction (all nuclides other than H-3) B 2 D 0.07 Section 8.6 Att. C, Direct Ingestion (0-') B 2 D 9.32E-7 NUREG/CR6755, A.3.3 NUREG- 1727, Table Removable Fraction P 1 D 0.1 C.7.1; NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 S Triangular Section 3.6; NUREG/CR-1,000 100,000 10,000 1 6697, Att.C, 8.8 1_1_1 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 Source 4: South Wall Type P 3 D area NUREG/CR-5512 Direction P 3 D Y NUREG/CR-5512 site-specific data based on Location of Center of Source: x.v,z (m) P 3 D 4.24, 5.64, 1.25 dimensions for representative room site-specific data based on Source length X-axis (in) P 2 D 8.47 dimensions for representative room site-specific data based on Source length Z-axis (m) P 2 D 2.49 dimensions for representative room Area (in 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att. C Ir Section 8.6 B-5 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Type' Priori tyb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 NUREG/CR-6697, Att. C Air Fraction (all nuclides other than H-3) B 2 D 0.07 Section 8.6 Section 8.6 Direct Ingestion (h-') B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P I D 0. 1 NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 S Triangular Section 3.6; NUREG/CR-1,000 100,000 10,000 6697, Att.C, 8.8 Radionuclide Concentration (pCi/mr) P 2 D 1.0 Source 5: West Wall Type P 3 D area NUREG/CR-5512 Direction P 3 D X NUREG/CR-5512 site-specific data based on Location of Center of Source: x.v,z (in) P 3 D 8.47, 2.82, 1.25 dimensions for representative room site-specific data based on Source length Y-axis (m) P 2 D 5.64 dimensions for representative room site-specific data based on Source length Z-axis (m) P 2 D 2.49 dimensions for representative room Area (0 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att. C Section 8.6 NLJREG/CR-6697.
Att. C Air Fraction (all nuclides other than H-3) B 2 D 0.07 Section 8.6 Direct Ingestion (h0) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 NUREG- 1727, Table Removable Fraction P 1 D 0.1 C.7.1; NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 S Triangular Section 3.6; NUREG/CR-1.,000 100,000 10,000 6697. Att.C, 8.8 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 -B-6 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Typea Priorityb ment' Distribution Reference Source Distribution's Statistical Parametersd T_ 1 2 3 4 Source 6: Ceiling Type P 3 D area NUREG/CR-5512 Direction P 3 D Z NUREG/CR-5512 site-specific data based on Location of Center of Source: xy.z (m) P 3 D 4.24, 2.82. 2.49 dimensions for representative room site-specific data based on Source length X-axis (im) P 2 D 8.47 dimensions for representative room site-specific data based on Source length Y-axis (m) P 2 D 5.64 dimensions for representative room Area (in 2) P 2 D --- Source length inputs used NUREG/CR-6697, Att. C Air Fraction for H-3 B 2 D 1.0 Section 8.6 Section 8.6 Air Fraction (all nuclides other than H-3) B 2 D 0.07 NUREG/CR-6697, Att. C~Section 8.6 Direct Ingestion (h') B 2 D 9.32E-7 NUREG/CR6755, A.3.3 N UREG-1727, Table Removable Fraction P I D 0.1 C.7.1; NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 S Triangular Section 3.6ý NUREG/CR-L000 100,000 10,000 6697, Att.C, 8.8 Radionuclide Concentration (pCi/min)
P 2 D 1.0 P = physical, B = behavioral.
M = metabolic 1 = high-priority parameter, 2 = medium-priority parameter, 3'D = deterministic.
S = stochastic d Distribution Statistical Parameters:
Logunifomi:
1= minimum, 2 = maximum Triangular:
I = minimum. 2 = maxiimum, 3 = most likely'NR = none recommended Input Rank Correlation Coefficients:
Resuspension Rate and Deposition Velocity = 0.9 Time for source removal (correlation set between sources) = 0.9: low-priority parameter B-7 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination Appendix C Results of Sensitivity Analysis:
Building Surfaces C-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Table C-i: Results of Sensitivity Analysis:
Building Suiface Revision 01 July 2014 Radionuclide LAMBDATa RFOb (source #) UDC (source #) DKSUSd (source #)Am-241 -0.96(1) -0.71(1,4)
NSe (1, 2, 3, 4, 5, NS (1, 2, 3, 4, 5, 6)-0.97 (2, 3,4, 5, 6) -0.70 (2, 6) 6)-0.69 (3, 5)C-14 -0.64 (1, 3, 6) 0.43 (1) 0.27 (1, 2,6) -0.50 (1, 2, 3, 6)-0.62 (2, 4) 0.39 (2) 0.28 (3, 5) -0.51 (4)-0.63 (5) 0.36 (3) 0.30 (4) -0.52 (5)0.46 (4)0.41 (5)0.31 (6)Cm-243 -0.96 (1) -0.71 (1, 2, 4) NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.69 (3, 5, 6)Cm-244 -0.96 (1) -0.71 (1, 2, 4) NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.69 (3, 5, 6)Cm-245 -0.96 (1) -0.71 (1,4) NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5)-0.97 (2, 3, 4, 5, 6) -0.70 (2) -0.11 (6)-0.68 (5)-0.69 (3, 6)Cm-246 -0.96 (1) -0.71 (1,4) NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5)-0.97 (2, 3, 4, 5, 6) -0.70 (2, 6) -0.11 (6)-0.69 (3)-0.68 (5)Co-60 -0.45 (1) 0.56 (1) NS (1, 2, 3) NS (1, 2, 3)-0.73 (2) 0.41 (2) 0.13 (4) -0.14 (4)-0.71 (3) 0.23 (3) 0.11 (5) -0.13 (5)-0.76 (4) 0.46 (4) 0.12 (6) -0.50 (6)-0.72 (5) 0.35 (5)-0.37 (6) 0.73 (6)Cs-137 -0.46(1) 0.69(1) 0.36(1) -0.44(1)-0.40 (2) 0.57 (2) 0.23 (2) -0.27 (2)-0.59 (3) 0.66 (3) 0.41 (3) -0.48 (3)-0.41 (4) 0.54 (4) 0.27 (4) -0.33 (4)-0.57 (5) 0.69 (5) 0.37 (5) -0.44 (5)-0.52 (6) 0.63 (6) 0.35 (6) -0.42 (6)Eu-152 -0.80(1) 0.49(1) NS (1, 2, 4, 6) -0.12 (1)-0.83 (2) 0.13 (2) 0.23 (3) -0.13 (2)-0.94 (3, 5) NS (3, 5) 0.19 (5) -0.24 (3)-0.83 (4) -0.43 (4) NS (4, 6)-0.84 (6) 0.44 (6) -0.22- (5)C-2 Humboldt Bay Power Plant License Termination Plan Revision 01 July 2014 Chapter 6 Compliance with the for License Termination Radiological Criteria Radionuclide LAMBDATa RFOb (source #) UDc (source #) DKSUSd (source #)Eu-154 -0.83 (1) 0.48(1) NS (1, 2, 4, 6) NS (1, 2, 4, 6)-0.87 (2, 4, 6) 0.12 (2) 0.19 (3) -0.20 (3)-0.95 (3, 5) NS (3, 5) 0.15 (5) -0.16 (5)0.11 (4)0.33 (6)H-3 -0.94 (1, 6) -0.45 (1) 0.48 (1) -0.53 (1, 4, 5)-0.95 (2, 3, 4, 5) -0.49 (2) 0.51 (2) -0.57 (2)-0.41 (3) 0.45 (3) -0.52 (3)-0.55 (4) 0.46 (4) -0.55 (6)-0.42 (5) 0.47 (5)-0.47 (6) 0.49 (6)1-129 -0.58 (1,3) 0.48(1) 0.29(1,6)
-0.54 (1, 3, 4, 5, 6)-0.54 (2) 0.43 (2, 5) 0.28 (2) -0.52 (2)-0.56 (4, 5) 0.39 (3) 0.30 (3, 5)-0.57 (6) 0.49 (4) 0.31 (4)0.37 (6)Nb-94 -0.76(1) 0.30(1) 0.19(1) -0.31 (1)-0.90 (2, 4) NS (2, 4) 0.30 (2) -0.44 (2)-0.94 (3, 5) -0.12 (3) 0.33 (3) -0.49 (3)-0.88 (6) -0.20 (5) 0.26 (4) -0.40 (4)0.16 (6) 0.32 (5) -0.48 (5)0.20 (6) -0.36 (6)Ni-59 -0.95 (1, 2, 3, 4, 5, -0.27 (1) 0.27 (1, 4, 5, 6) -0.37 (1, 4)6) -0.28 (2, 4, 5) 0.29 (2) -0.41 (2)-0.22 (3) 0.26 (3) -0.38 (3)-0.35 (6) -0.39 (5, 6)Ni-63 -0.95 (1, 2, 4, 5, 6) -0.16 (1) 0.26 (1, 6) -0.28 (1, 5)-0.96 (3) -0.21 (2) 0.29 (2) -0.33 (2)-0.14 (3) 0.27 (3) -0.30 (3)-0.22 (4) 0.25 (4, 5) -0.29 (4, 5)-0.18 (5) -0.31 (6)-0.25 (6)Np-237 -0.96(1) -0.71 (1,4) NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2)-0.69 (3, 5, 6)Pu-238 -0.96 (1) -0.71 (1) NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2)-0.69 (3, 5, 6)-0.72 (4)Pu-239 -0.96((1)
-0.71 (1,4) NS (1, 2, 3, 4, 5, 6) NS (1, 2,3., 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2, 6)-0.69 (3)-0.68 (5)C-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria Revision 01 July 2014 for License Termination Radionuclide LAMBDATa RFOb (source #) UDc (source #) DKSUSd (source #)Pu-240 -0.96(1) -0.71(1,4)
NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2, 6)-0.69 (3)-0.68 (5)Pu-241 -0.96 (1) -0.71 (1, 2, 4) NS (1, 2, 3, 4, 5, 6) NS (1, 2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5. 6) -0.69 (3, 5, 6)Sr-90 -0.95 (1, 2, 3, 4, 5, NS (1, 2, 3,4, 5, 6) 0.22 (1) -0.22 (1, 4, 6)6) 0.23 (2) -0.26 (2)0.24 (3) -0.25 (3)0.19 (4) -0.23 (5)0.21 (5)0.18(6)Tc-99 -0.90 (1, 3, 4, 5, 6) NS (1, 2, 6) 0.27(1,4)
-0.45(1,5)
-0.91 (2) 0.15 (3) 0.29 (2) -0.46 (2)0.13 (4) 0.28 (3, 5) -0.44 (3, 4)1 0.11 (5) 0.25 (6) -0.43 (6)a LAMBDAT = building air exchange rate b RFO(#) = source removal time (for source number)' UD = deposition velocity d DKSUS = resuspension rate e NS = not sensitive C-4 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix D Input Parameter Values for DCGL Determination:
Building Surfaces D-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for DCGLs Parameter Typea Nuclide Treatmentb Value/Distribution Value Reference Source Exposure Duration (d) B All D 365.25 NUREG/CR-5512, Vol.3,section 5.2.1 Indoor Fraction B All D 0.267 NUREG/CR-5512, Vol.3,section 5.2.2.9 1, 5 Use of ly provides doses at t=Oy and Evaluation Time (y) P All D (1, 5, 10, 25, 50, t=ly; multiple input applied to verify 100 for Pu-241) time of peak dose Number of Rooms P All D 1 NUREG/CR-5512 Am-241, Cm-243, Cm-244, Cm-245, Cm-246, Np- D 1.5179E-05 2 5 th percentile value 237, Pu-238, Pu-239, Pu-240, and Pu-241 Deposition Velocity (m/s) P C-14, Co-60, Cs-137, Eu-152, Eu-154, H-3, 1-129, 7 5 th percentile value Nb-94, Ni-59, Ni-63, Sr-90, and Tc-99 D 4.78217E-04
_percentilevalue Am-241, Cm-243, Cm-244, Np-237, Pu-238, Pu- D 1.79444E-08 5 0 th percentile value 239, Pu-240, and Pu-241 Resuspension Rate (s1) C-14, Cm-245, Cm-246, Co-60, Cs-137, Eu-152, Eu-154, H-3, 1-129, Nb-94, Ni-59, Ni-63, Sr-90, D 6.70403E-10 2 5 th percentile value and Tc-99 Air Exchange Rate for Room (h-1) P All D 8.35789E-01 2 5 th percentile value Room Area (M) P All D 47.77 Humboldt Bay-specific data (General Office Building)Room Height (m) P All D 2.49 Humboldt Bay-specific data (General Office Building)Time Fraction B All D 1 NUREG/CR-5512 Conservative inhalation rate for moderate to heavy activities
-Inhalation Rate (m 3/d) M All D 45.6 NUREG/CR-6697, Attachment C, section 5.1; NUREG/CR-5512, vol. 3, section 5.3.4 Indirect Ingestion Rate (m 2/h) B All D 0.0001 NUREG/CR6755 NUREG/CR-5512; site-specific room Receptor Location B All D 4.24, 2.82,1.0 dimensions (General Office Building)Shielding Thickness (cm) P All D 0 Site-specific model-no shielding assumed RESRAD-Build default value for Shielding Density (g/cm 3) P All D 2.4 concrete -not used in DCGL calculations Default input -not used in DCGL Shielding Material P All D concrete calculatins calculations D-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Parameter Typea Nuclide Treatmentb Value/Distribution Value Reference Source Number of Sources P All 6 Modeling for representative room (includes floor, 4 walls, and ceiling)External Dose Conversion Factor, (mrem/y RESRAD-Build FGR12 per PCi/cm2) M All default Air Submersion Dose Conversion Factor, RESRAD-Build FGR12 (mrem/y per pCi/m 3) M All D default Inhalation Dose Conversion Factor, M All D RESRAD-Build FGRi 1 (mrem/pCi)
Mdefault Ingestionl Dose Conversion Factor, All D RESRAD-Build FGRi 1 (mrem/pCi)
M default Source 1: Floor Type P All area NUREG/CR-5512 Direction P All Z NUREG/CR-5512 site-specific data -center of floor Location of Center of Source: x,y,z (m) P All D 4.24, 2.82, 0.0 based on dimensions for General Office Building room site-specific data based on Source length X-axis (m) P All D 8.47 dimensions for General Office Building room site-specific data based on Source length Y-axis (m) P All D 5.64 dimensions for General Office Building room Area (M 2) P All D -Source length inputs used H-3 1.0 Air Fraction B D NUREG/CR-6697, Att. C Section 8.6 All others 0.07 Direct Ingestion (h 1) B All D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P All D 0.1 NUREG-1727, Table C.7.1;NUREG/CR-6755, section 3.5 Time for Source Removal (d) P C-14, Co-60, Cs-137, Eu-152, Eu-154, 1-129, and D 52695.2 7 5 th percentile value Nb-94 Sr-90 and Tc-99 D 33056.9 5 0 th percentile value Am-241, Cm-243, Cm-244, Cm-245, Cm-246, H- D 18249.3 2 5 Th percentile value 3, Ni-59, Ni-63, Np-237, Pu-238, Pu-239, Pu-240, and Pu-241 Radionuclide Concentration (pCi/m 2) P All D 1.0 D-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for DCGLs Parameter Typea Nuclide Treatmentb Value/Distribution Value Reference Source Source 2: North Wall Type P 3 Area NUREG/CR-5512 Direction P 3 X NUREG/CR-5512 site-specific data -center of floor Location of Center of Source: x,y,z (m) P 3 D 4.24, 0.0, 1.25 based on dimensions for General Office Building room site-specific data based on Source length Y-axis (m) P 2 8.47 dimensions for General Office Building room site-specific data based on Source length Z-axis (m) P 2 D 2.49 dimensions for General Office Building room Area (M 2) P 2 D -Source length inputs used H-3 1.0 Air Fraction B D NUREG/CR-6697, Att. C Section 8.6 All others 0.07 Direct Ingestion (h" 1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P 1 D 0.1 NUREG-1727, Table C.7.1;NUREG/CR-6755, section 3.5 Time for Source Removal (d) C-14, Co-60, Cs-1 37, Eu-1 52, Eu-1 54, and 1-129 D 52718.8 75th percentile value Nb-94, Sr-90, and Tc-99 D 33202.9 5 0 th percentile value Am-241, Cm-243, Cm-244, Cm-245, Cm-246, H-3, Ni-59, Ni-63, Np-237, Pu-238, Pu-239, Pu-240, D 18230.1 2 5 Th percentile value and Pu-241 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 Source 3: East Wall Type P 3 Area NUREG/CR-5512 Direction P 3 Y NUREG/CR-5512 site-specific data -center of floor Location of Center of Source: x,y,z (m) P 3 D 0.00, 2.82, 1.25 based on dimensions for General Office Building room site-specific data based on Source length X-axis (m) P 2 D 5.64 dimensions for General Office I _Building room D-4 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for DCGLs Parameter Typea Nuclide Treatmentb Value/Distribution Value Reference Source site-specific data based on Source length Z-axis (m) P 2 D 2.49 dimensions for General Office Building room Area (M 2) P 2 D --- Source length inputs used H-3 0.07 _____________
Air Fraction B All othsD NUREG/CR-6697, Att. C Section 8.6 All others 0.07 Direct Ingestion (h 1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 NUREG-1727, Table C.7.1;Removable Fraction P 1 D 0.1 NUREG/CR-6755, section 3.5 Time for Source Removal (d) P C-14, Co-60, Cs-1 37, 1-129, and Tc-99 D 52775.6 7 5 th percentile value Eu-1 52, Eu-1 54, and Sr-90 D 33048.9 50th percentile value Am-241, Cm-243, Cm-244, Cm-245, Cm-246, H-3, Nb-94, Ni-59, Ni-63, Np-237, Pu-238, Pu-239, D 18130.2 2 5 Th percentile value Pu-240, and Pu-241 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 Source 4: South Wall Type P 3 area NUREG/CR-5512 Direction P 3 X NUREG/CR-5512 site-specific data -center of floor Location of Center of Source: x,y,z (m) p 3 D 4.24, 5.64, 1.25 based on dimensions for General Office Building room site-specific data based on Source length Y-axis (m) p 2 D 8.47 dimensions for General Office Building room site-specific data based on Source length Z-axis (m) P 2 D 2.49 dimensions for General Office Building room Area (M 2) P 2 D -Source length inputs used H-3 1.0 Air Fraction B Her D NUREG/CR-6697, Att. C Section 8.6 All others 0.07 Direct Ingestion (h" 1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P 1 D 0.1 NUREG-1727, Table C.7.1;b FNUREG/CR-6755, section 3.5 D-5 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for DCGLs Parameter Typea Nuclide Treatmentb Value/Distribution Value Reference Source Time for Source Removal (d) P C-1 4, Co-60, Cs-1 37, Eu-1 54,1-129, and Tc-99 D 52726.9 7 5 th percentile value Nb-94 and Sr-90 D 33041.0 50th percentile value Am-241, Cm-243, Cm-244, Cm-245, Cm-246, Eu-152, H-3, Ni-59, Ni-63, Np-237, Pu-238, Pu-239, D 18207.1 25Th percentile value_Pu-240, and Pu-241 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 Source 5: West Wall Type P 3 area NUREG/CR-5512 Direction P 3 Y NUREG/CR-5512 site-specific data -center of floor Location of Center of Source: x,y,z (m) P 3 D 8.47, 2.82, 1.25 based on dimensions for General Office Building room site-specific data based on Source length X-axis (m) P 2 D 5.64 dimensions for General Office Building room site-specific data based on Source length Z-axis (m) P 2 D 2.49 dimensions for General Office Building room Area (M 2) P 2 D --- Source length inputs used H-3 1.0 Air Fraction B D NUREG/CR-6697, Att. C Section 8.6 All others 0.07 Direct Ingestion (h" 1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P 1 D 0.1 NUREG-1727, Table C.7.1;NUREG/CR-6755, section 3.5 Time for Source Removal (d) C-14, Co-60, Cs-1 37, 1-129, and Tc-99 D 52713.2 7 5 th percentile value Eu-1 52, Eu-1 54, and Sr-90 D 33108.5 5 0 th percentile value Am-241, Cm-243, Cm-244, Cm-245, Cm-246, H-3, Nb-94, Ni-59, Ni-63, Np-237, Pu-238, Pu-239, D 18094.8 2 5 Th percentile value Pu-240, and Pu-241 D-6 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD-Build Input Parameter Values for DCGLs Parameter Type' Nuclide Treatmentb IValue/Distribution Value Reference Source Radionuclide Concentration (pCi/m 2) P 2 1 D 1.0 Source 6: Ceiling Type P 3 area NUREG/CR-5512 Direction P 3 Y NUREG/CR-5512 site-specific data -center of floor Location of Center of Source: x,y,z (m) P 3 D 4.24, 2.82, 2.49 based on dimensions for General Office Building room site-specific data based on Source length X-axis (m) P 2 D 8.47 dimensions for General Office'Building room site-specific data based on Source length Z-axis (m) P 2 D 5.64 dimensions for General Office Building room Area (M 2) P 2 D -Source length inputs used Air Fraction B H-3 D 1.0NUREG/CR-6697, At. C Section 8.6 All others 0.07 Direct Ingestion (h 1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 NUREG-1727, Table C.7.1;Removable Fraction P 1 D 0.1 NUREG/CR-6755, section 3.5 Time for Source Removal (d) P C-14, Co-60, Cs-137, Eu-152, Eu-154, 1-129, and D 52622.2 75'h percentile value Nb-94 D 33050.0 50th percentile value Sr-90 and Tc-99 Am-241, Cm-243, Cm-244, Cm-245, Cm-246, H- D 18246.6 2 5 Th percentile value 3, Ni-59, Ni-63, Np-237, Pu-238, Pu-239, Pu-240, and Pu-241 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 -a p = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)b D = deterministic c Triangular with defining values for distribution:
minimum = 1,000, maximum = 100,000, and most likely = 10,000.D-7 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination Note: The results of the sensitivity analysis for RESRAD-Build input parameters did not identify deposition velocity as a sensitive parameter for Am-241, Cm-243, Cm-244, Cm-245, Cm-246, Np-237, Pu-238, Pu-239, Pu-240, and Pu-241. The "non-sensitive" attribute of deposition velocity for these ROCs provided confidence that the uncertainty associated with the actual deposition velocity would not have a significant impact on dose or resulting DCGL values. Nevertheless, RESRAD-Build code executions were repeated using the 50th percentile value as input for the deposition velocity.
The results from the repeated RESRAD-Build executions confirm insignificant differences (i.e., less than 10 percent) in dose results based on use of the 25th percentile and 50th percentile values as input for deposition velocity.
Moreover, as shown in Table D-1 below, the inadvertent use of the 25h percentile value in the calculations of DCGLs actually resulted in slightly more conservative DCGL values in some cases.RAI 33 Table D- 1. Percentile Value Comparision 2 5 th Percentile 50th Percentile Valuea Valueb Nuclide mrem/y DCGL mrem/y DCGL Am-241 1.84E-04 3.OE+03 1.84E-04 3.OE+03 Cm-243 1.27E-04 4.3E+03 1.27E-04 4.3E+03 Cm-244 9.98E-05 5.5E+03 9.22E-05 6.OE+03 Cm-245 2.48E-04 2.2E+03 2.36E-04 2.3E+03 Cm-246 2.04E-04 2.7E+03 1.92E-04 2.8E+03 Np-237 2.27E-04 2.4E+03 2.11E-04 2.6E+03 Pu-238 1.60E-04 3.4E+03 1.48E-04 3.7E+03 Pu-239 1.78E-04 3.1E+03 1.65E-04 3.3E+03 Pu-240 1.78E-04 3.1E+03 1.65E-04 3.3E+03 Pu-241 3.83E-06 1.4E+05 3.49E-06 1.5E+05 a Deposition velocity = 1.52E-05 mls.b Deposition velocity = 8.52E-05 rn/s.D-8 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix E Building Surface DCGL Results E-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Table E- 1: Building Surface DCGL Results Revision 01 July 2014 DCGL Value Development:
CF (mrem/y per DCGL 2 5 DCGLw Nuclide pCi/m2 ) (pCi/m 2) (dpm/100 cm 2)Am-241 C-14 Cm-243 Cm-244 Cm-245 Cm-246 Co-60 Cs-137 Eu-152 Eu-154 H-3 1-129 Nb-94 Ni-59 Ni-63 Np-237 Pu-238 Pu-239 Pu-240 Pu-241 Sr-90 Tc-99 1.84E-04 7.90E-08 1.27E-04 9.98E-05 2.48E-04 2.04E-04 4.09E-05 1.19E-05 2.02E-05 2.15E-05 3.01E-09 1.12E-05 2.86E-05 8.77E-09 2.28E-08 2.27E-04 1.60E-04 1.78E-04 1.78E-04 3.83E-06 5.71E-06 5.76E-08 1.36E+05 3.16E+08 1.97E+05 2.5 1E+05 1.01E+05 1.23E+05 6.11E+05 2.1OE+06 1.24E+06 1.16E+06 8.3 1E+09 2.23E+06 8.74E+05 2.85E+09 1.1OE+09 1.1OE+05 1.56E+05 1.40E+05 1.40E+05 6.53E+06 4.38E+06 4.34E+08 3.02E+03 7.03E+06 4.37E+03 5.56E+03 2.24E+03 2.72E+03 1.36E+04 4.66E+04 2.75E+04 2.58E+04 1.84E+08 4.96E+04 1.94E+04 6.33E+07 2.43E+07 2.44E+03 3.47E+03 3.12E+03 3.12E+03 1.45E+05 9.72E+04 9.64E+06 E-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix F Basis for Site-Specific Parameters Values: Soil F-i Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination Site-specific information was used when available as the basis for the RESRAD input parameter discussed below. Reference 11, which documents the calculations of site-specific parameter values, provides the information presented below.1. Area of the Contaminated Zone Figure F-i, Area of the Contaminated Zone, was generated with AutoCAD. The size of the contaminated zone is based on the largest contiguous MARSSIM Class 1 and Class 2 at the Humboldt Bay site and includes the Protected Area and adjacent impacted areas. That area, 2 29,781 m2, was then rounded to the nearest thousand.
For modeling purposes, the size of the Humboldt Bay contaminated zone is 30,000 in 2.Figure F-i: Area of Contaminated Zone 2. Length Parallel to Aquifer Flow The length parallel to the aquifer is defined as is the maximum horizontal distance measured in the F-2 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination contaminated zone, from its up gradient edge to the down gradient edge, along the direction of the groundwater flow in the underlying aquifer. It was assumed that the area of the contaminated zone could be approximated by a circle with an area of 30,000 m 2 (the area of the contaminated zone).The diameter of the circle is suitable as input for the length parallel to the aquifer parameter and is calculated as follows: A= 7Er-Where A is the area in m 2 and r is the radius in meters.30000 H r 97.7 m D=2xr=2
- 97.7 D= 195m Therefore, the length of parallel is 195 m.3. Contaminated Zone Erosion Rate The slope of the contaminated zone was determined using elevations from site contour maps provided in the HSA (Reference
- 10) to determine the site grades in three directions within the contaminated zone. This determination is summarized below: Approximate Grade Distance Trial Difference between Pointsa Estimated Slope A 9.1 m lOrm 8%B 6.1 m 151 m 4%C 6.1 m 85 m 7%average 6%a Locations of points shown in Figure 3 in Reference 11.Data from NUREG/CR-6697, Attachment C, Section 3.8, was used to select the appropriate Erosion Rate that corresponds to the Humboldt Bay site slope of 6%.4. Soil Type Contaminated Zone: The thickness of the contaminated zone was determined from characterization soil sample data provided in the HSA (Reference 10). Plant-related radioactivity was detected in surface soil samples (6 inches or less in depth) and in a sub-surface sample collected at a depth of 11.5 feet. To account for the uncertainty of thickness of the contaminated zone, a uniform distribution was established using a minimum thickness equal to 6 inches and a maximum thickness equal to 11.5 feet.Well installation logs for 22 groundwater monitoring wells were reviewed for soil type descriptions to a depth of 11.5 ft to determined a representative soil type for the contaminnated zone. The soil type descriptions and the USCS codes recorded on the well logs were then compared to the soil categories listed Tables 3.1-1 and 3.2-1 in Attachment C to NUREG/CR-6697.
Soil descriptions F-3 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination recorded in the "Lithologic Description" section of the logs served as the primary factor for selecting a RESRAD soil type category from the surface to a depth. When those descriptions did not match one of the soil types given in Attachment C to NUREG/CR-6697, the USCS code was used. Soil type selection focused on two soil characteristics:
density and total porosity.
These characteristics were weighted by depth and overall averages determined.
The soil type for the contaminated zone was selected based on matching the overall average density and total porosity to the soil types given in Tables 3.1-1 and 3.2-1 in Attachment C to NUREG/CR-6697.
Based on that approach, "clay loam" was selected from the soil type provided in NUREG/CR-6697 as reasonably representative soil type for the contaminated zone. The "clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as hydraulic conductivity and the RESRAD soil-b parameter.
Unsaturated zone: The thickness of the unsaturated zone was determined from 2009 groundwater monitoring data, which showed a minimum depth to groundwater equal to approximately 4.9 feet and a maximum depth equal to approximately 27 feet. To account for the uncertainty of thickness of the unsaturated zone, a uniform distribution was established using a minimum thickness equal to 0 inches and a maximum thickness equal to 26.5 feet.Using the same approach as that used to determine the soil type for the contaminated zone; "clay loam" was selected as reasonably representative soil type for the unsaturated zone. "Clay loam" was selected from the soil type provided in NUREG/CR-6697 as reasonably representative soil type for the unsaturated zone. The "clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as effective porosity, hydraulic conductivity, and the RESRAD soil-b parameter.
Saturated zone: Using the same approach as that used to determine the soil type for the contaminated and unsaturated zones; "silty clay loam" was selected as reasonably representative soil type for the saturated zone. The "silty clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as effective porosity, hydraulic conductivity, and the RESRAD soil-b parameter.
- 5. Field Capacity: Field capacity defines the relationship of field capacity (residual water content) to effective porosity.
The field capacity is the ratio of the volume of water retained in the soil sample, after all drainage has ceased, to the total volume of the soil sample. Equation 4.4 in Data Collection Handbook to Support Modeling the Impacts of Radioactive Material in Soil (ANL/EAIS-8, U.S.Department of Energy -Argonne National Laboratory, April 1993) relates total and effective porosities to field capacity as follows: Effective Porosity = Total Porosity -Field Capacity Rearranging this equation: Field Capacity = Total Porosity -Effective Porosity For the Contaminated and Unsaturated Zones, the mean total porosity for clay loam soil is of 0.41 and the mean effective porosity is 0.315. Therefore the field capacity for these two zones is approximately 0.095 For the Saturated Zone, the mean total porosity for silty clay loam soil is of 0.43 and the mean F-4 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination effective porosity is 0.342. Therefore the field capacity for this zone is approximately 0.088.6. Irrigation Rate (Evapotranspiration and Runoff Coefficients)
Attachment C to NUREG/CR-6697 discusses the Irrigation Rate in terms of the Evapotranspiration Coefficient, and provides the following equation for the Evapotranspiration Coefficient:
Ce = (ETr)/(1-Cr)(Pr)
+ IRr Where: ETr = the Evapotransporation Rate (m/y) = 0.61 (Humboldt Bay SAFSTOR Environmental Report, July 1984)Pr = the Precipitation Rate (m/y) = 0.91 (Humboldt Bay SAFSTOR Envirolnental Report, July 1984)IRr = the Irrigation Rate (mly) and Cr = the Runoff Coefficient.
The Data Collection Handbook to Support Modeling the Impacts of Radioactive Material in Soil (ANL/EAIS-8, U.S. Department of Energy -Argonne National Laboratory, April 1993) provides the equation below to calculate the Runoff Coefficient, Cr, for an agricultural environment and also provides values for the terms c 1 , c 2 , and c 3.Cr= 1 -C 1 -c 2-c3 Cl = 0.2 for rolling land with an average slope between 4.6 to 6.1 m/mi. (assumed representative for the Humboldt Bay site)C2 = 0.2 for intermediate combinations of clay and loam c 3 = 0.1 for cultivated lands (consistent with the resident farmer scenario).
Cr = 1 -0.2 -0.2 -0.1 = 0.5 NUREG/CR-6697, Attachment C, Section 4.3 defines the Evapotranspiration Coefficient, Ce, as the ratio of the total volume of water (a combination of evaporation from soil surfaces and transpiration from vegetation) transferred to the atmosphere to the total volume of water available within the root zone of the soil. The NUREG/CR recommends the use of a uniform distribution with minimum and maximum values for Ce equal to 0.5 and 0.75, respectively, and with 0.625 as median.Rearranging thifs equation above, the Irrigation Rate can be expressed as: IRr = (ETr/Ce)-(1 -Cr)(Pr)The input values for the variables in the equation above follow: Variable ETr (m/y)Pr (m/y)Cr Ce IRr (m/y)Use of Min Ce Value 0.61 0.91 0.5 0.5 0.77 Use of Max Ce Value 0.61 0:91 0.5 0.75 0.36 F-5 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination The irrigation rate equation yields a minimum IRr value equal to 0.36 and a maxinmm IRr value equal to 0.77 m/y. A uniform distribution with minimum and maximum value equal to 0.36 and 0.77, respectively, and a median equal to 0.56 was assigned as input for this parameter.
- 7. Well Pumping Rate Well Pumping Rate: Attachment C to NUREG/CR-6697 states that "A site-specific input distribution for well pumping rate can be determined as the sum of individual water needs." The household use component as determined from the domestic use data is sununarized below.Water Use Component (family of four) Median Minimum Maximum Household* (m 3/y) 374 374 374 Livestock (m 3/y) 76.7 76.7 76.7 Contaminated fraction for Irrigation 1 1 1 fp = 1 (assumes irrigation of the entire area))Irrigation rate I, (m/y) 0.56 0.36 0.76 Irrigation water (m 3/y) fp x lr X 2000 1120 720 1520 Drinking Water (m 3/y) 2.04 2.04 2.04 Total for Family of Four (m 3/y) 1573 1173 1973* Household Use: Domestic Water Use for family of four, 376 m 3/y, minus the drinking water component, 1.91 m 3/y, or approximately 374 m 3/y.Domestic water use based on 272 gallons per day per family and drinking water based on use of 511 L/y per individual.
Conversion:
272 gal/day
- 3.79E-3 gal/m 3
- 365.25day/y
= 376 m 3/y 511 L/y-Ind
- 4 Ind
- 1m 3/1OOOL = 2.04 m 3/y.A uniform distribution with a minimum value equal to 1173 m3/y, a maximum value equal to 1973 m 3/y, and a median value equal to 1573 m 3/y was assigned as input for the Well Pump Rate parameter.
F-6 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix G Input Parameter Values for Sensitivity Analysis:
Soil G-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/I_ Median Soil Concentrations Basic radiation dose limit (mrem/y) 3J D 25 10 CFR 20.1402 (Ref. x) NR NR NR NR Initial principal radionuclide (pCi/g) P 2 D 1 Unit Value NR NR NR NR Distribution coefficients (contaminated, unsaturated, and saturated zones) (cm 3/g)Ac-227 (daughter for Cm-243 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Pu-239)Am-241 (also daughter for Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 and Pu-241)Am-243 (daughter for Cm-243) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 C-14 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 2.4 3.22 0.001 0.999 11 Cm-243 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-244 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-246 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Co-60 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.46 2.53 0.001 0.999 235 Cs-1 37 P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 6.1 2.33 0.001 0.999 446 Eu-152 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Eu-154 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Gd-152 (daughter for Eu-1 52) P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 6.72 3.22 0.001 0.999 825 H-3 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -2.81 0.5 0.001 0.999 0.06 1-129 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 1.52 2.19 0.001 0.999 4.6 Nb-94 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.94 3.22 0.001 0.999 380 Ni-59 P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 6.05 1.46 0.001 0.999 424 Ni-63 P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 6.05 1.46 0.001 0.999 424 Np-237 (also daughter for Am-241, P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 2.84 2.25 0.001 0.999 17 Cm-245, and Pu-241)Pa-231 (daughter for Cm-243 and P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 5.94 3.22 0.001 0.999 380 Pu-239)Po-210 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 5.20 1.68 0.001 0.999 181 Pb-210 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.78 2.76 0.001 0.999 2392 Pu-238)Pu-238 P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 6.86 1.89 0.001 0.999 953 G-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-239 (also daughter for Cm-243) P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-240 (also daughter for Cm-244) P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-241 (also daughter for Cm-245) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-242 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Ra-226 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 Pu-238) 8.17 1.7 0.00_ 0.999 3533 Ra-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 Pu-240)Sr-90 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 3.45 2.12 0.001 0.999 32 Tc-99 P S Truncated lognormal-n NUREG/CR-6697, Att. C -0.67 3.16 0.001 0.999 0.51 Th-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 8.68 3.62 0.001 0.999 5884 Pu-240)Th-229 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 245, Np-237, and Pu-241)Th-230 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-238)Th-232 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 8.68 3.62 0.001 0.999 5884 Pu-240)U-233 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 4.84 3.13 0.001 0.999 126 245, Np-237, and Pu-241)U-234 (daughter for Cm-246 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 4.84 3.13 0.001 0.999 126 238) 1 _U-235 (daughter for Cm-243 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 239)U-236 (daughter for Cm-244 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 240)U-238 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 Initial concentration of radionuclides P 3 D 0 Ground water initially NR NR NR NR present in groundwater (pCi/I) uncontaminated for this scenario Calculation Times Time since placement of material (y) I P 3 D 0 1 NR NR NR NR Time for calculations (y) P 3 D 0, 1,3, 10, 30, 100, 300, 1000 RESRAD Default NR NR NR NR Contaminated Zone 'G-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Area of contaminated zone (M 2) P 2 D 30,000 Site-specific:
largest NR NR NR NR contiguous class 1/class 2 area (rounded to nearest thousands)
Thickness of contaminated zone (m) P 2 S Uniform Site-specific; equal to 0.15 3.51 1.83 depth of soil mixing layer (0.15m) and max depth of subsurface sample yielding detectable plant-related radioactivity (11.5 ft, LTP chap 2, Table 2-4)Length parallel to aquifer flow (m) P 2 D 195 Site-specific
-diameter of NR NR NR NR circle with an area of 2 30,000 m 2 Contaminated fraction below water P 2 D 0 Ground water initially NR NR NR NR table uncontaminated for this scenario Cover and Contaminated Zone Hydrological Data Cover depth (m) P 2 D 0 Site-specific
-no cover NR NR NR NR assumed Density of contaminated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Contaminated zone erosion rate P 2 D 2.2E-3 Calculated value based NR NR NR NR (m/y) on site-specific slope of 6%Contaminated zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Contaminated zone field capacity P 3 D 0.095 Site-specific value NR NR NR NR 0.095 calculated in step 6.4 Contaminated zone hydraulic P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 conductivity (m/y) soil type -clay loam Contaminated zone b parameter P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 soil type -clay loam Humidity in air (g/m 3) P 3 D 8.2 Regional value for NR NR NR NR northern CA as represented by San Francisco G-4 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Evapotranspiration coefficient P 2 S Uniform NUREG/CR-6697 Att. C, 0.5 0.75 NR NR 0.625 Ref. 4 Average annual wind speed (m/s) P 2 D 3.04 Site-specific value (from NR NR NR NR NCDC website)Precipitation (m/y) P 2 D 0.91 Site-specific value from NR NR NR NR HB SAFSTOR Environmental Report, section 4.1.1 Irrigation (m/y) B 3 S Uniform NUREG/CR-6697, Att C 0.36 0.76 NR NR 0.56 methodology Irrigation mode B 3 D Overhead Overhead irrigation is NR NR NR NR common practice in U. S.Runoff coefficient P 2 D 0.5 Site-specific value; NR NR NR NR NUREG/CR-6697, Att. C section 4.2 methodology Natershed area for nearby stream or P 3 D 2.52E+07 Site-specific value from NR NR NR NR pond (M 2) (HB SAFSTOR Environmental Report),ccuracy for water/soil computations
-3 D 1.OOE-03 RESRAD Default NR NR NR NR Saturated Zone Hydrological Data Density of saturated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5105 0.1855 0.937 2.084 1.5105 soil type -silty clay loam Saturated zone total porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.43 0.0699 0.214 0.646 0.43 soil type -silty clay loam Saturated zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.342 0.0705 0.124 0.56 0.342 soil type -silty clay loam Saturated zone field capacity P 3 D 0.088 Site-specific value NR NR NR NR 0.088 calculated in step 6.4 Saturated zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 0.362 1.59 0.0106 195 1.44 (m/y) soil type -silty clay loam Saturated zone hydraulic gradient P 2 D 0.002 Site-specific value NR NR NR NR determined using method described in NUREG/CR-6697, App. C (step 6.5)Saturated zone b parameter P 2 S Bounded NUREG 6697 dist for site 1.96 0.265 3.02 15.5 7.1 Log Normal n soil type -silty clay loam Water table drop rate (m/y) P 3 D 1.OOE-03 RESRAD User Manual NR NR NR NR G-5 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Well pump intake depth (m below P 2 S Triangular NUREG/CR-6697, Att. C 6 10 30 10 water table)Model: Nondispersion (ND) or Mass- P 3 D ND ND model recommended NR NR NR NR Balance (MB) for contaminant areas >1,000 m 2 Well pumping rate (m 3/y) P 2 S Uniform Min, Max, median value 1173 1973 1573 based on site irrigation and area and calculated according to NUREG/CR-6697, Att. C section 3.10 method. (see step 6.13) 1 1 Unsaturated Zone Hydrological Data Number of unsaturated zone strata P 3 D 1 Site-specific value NR NR NR NR Unsat. zone thickness (m) P 2 S Uniform Site-specific distribution 0.00 8.08 4.04 base on thickness of CZ and groundwater elevations Unsat. zone soil density (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Unsat. zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Unsat. zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.315 0.0905 0.0349 0.594 0.315 soil type -clay loam Unsat. zone field capacity P 3 D 0.095 Site-specific value NR NR NR NR 0.095 calculated using Equation 4.4 from Ref Unsat. zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 (m/y) soil type -clay loam Unsat. zone soil-specific b parameter P 2 S Bounded NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 Log Normal n soil type -clay loam Occupancy Inhalation rate (m 3/y) B 3 D 8400 NUREG/CR-6697, Att C NR NR NR NR Mass loading for inhalation (g/m 3) P 2 S Continuous linear NUREG/CR-6697, Att. C 2.33E-05 Exposure duration B 3 D 30 User's Manual for NR NR NR NR RESRAD Version 6;parameter value not used_in dose calculation G-6 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD InDUt Parameter Values for Sensitivity Analvsis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Indoor dust filtration factor P 2 S Uniform NUREG/CR-6697, Att. C 0.15 0.95 0.55 Shielding factor, external gamma P 2 S Bounded lognormal-n NUREG/CR-6697, Att. C -1.3 0.59 0.044 1 0.2725 Fraction of time spent indoors B 3 D 0.6571 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Fraction of time spent outdoors (on B 3 D 0.1181 NUREG/CR-5512, Vol. 3 NR NR NR NR site) Table 6.87 (outdoors
+gardening)
Shape factor flag, external gamma P 3 D Circular Circular contaminated NR NR NR NR zone assumed for modeling purposes Ingestion, Dietary Fruits, vegetables, grain consumption B 2 D 112 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/y) (other vegetables
+ fruits Leafy vegetable consumptio______
+ ga)_ __ BD.rainVo3 Leafy vegetable consumption (kg/y) B 3 D 21.4 NUREG/CR-5512, Vol. 3 NR NR NR NR Milk consumption (L/y) B 2 D 233 NUREG/CR-5512, Vol. 3 NR NR NR NR Meat and poultry consumption (kg/y) B 3 D 65.1 NUREG/CR5512, Vol. 3 NR NR NR NR (beef + poultry)Fish consumption (kg/y) B 3 D 20.6 NUREG/CR-5512, Vol. 3 NR NR NR NR Other seafood consumption (kg/y) B 3 D 0.9 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Soil ingestion rate (g/y) B 2 D 18.26 NUREG/CR-5512, Vol. 3 NR NR NR NR Drinking water intake (L/y) B 2 D 511 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 (Ref. 2)Contamination fraction of drinking P 3 D 1 All water assumed NR NR NR NR water contaminated Contamination fraction of household P 3 NA water (if used)Contamination fraction of livestock P 3 D 1 All water assumed NR NR NR NR water contaminated Contamination fraction of irrigation P 3 D 1 AIII water assumed NR NR NR NR water contaminate Contamination fraction of aquatic P 2 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR food Contamination fraction of plant food P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR G-7 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Contamination fraction of meat P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Contamination fraction of milk P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Ingestion, Non-Dietary Livestock fodder intake for meat M 3 D 27.1 NUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, beef cattle +poultry + layer hen Livestock fodder intake for milk M 3 D 63.2 NUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, forage + grain+ hay Livestock water intake for meat M 3 D 50.6 NUREG/CR5512, Vol. 3 NR NR NR NR (L/day) Table 6.87, beef cattle +poultry + layer hen Livestock water intake for milk M 3 D 60 NUREG/CR5512, Vol. 3 NR NR NR NR (L/day) Table 6.87 Livestock soil intake (kg/day) M 3 D 0.5 User's Manual for NR NR NR NR RESRAD Version 6, Appendix L Mass loading for foliar deposition P 3 D 4.OOE-04 NUREG/CR-5512, Vol. 3 NR NR NR NR (g/m 3) Table 6.87, gardening Depth of soil mixing layer (m) P 2 S Triangular NUREG/CR-6697, Att. C 0 0.15 0.6 0.23 Depth of roots (m) P 1 S Uniform Min. from NUREG/CR-0.3 4.0 2.15 6697, Att. C (Ref. 4)Drinking water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR water supplied from groundwater Household water fraction from P 3 NA ground water (if used)Livestock water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR water supplied from groundwater Irrigation fraction from ground water P 3 D 1 All water assumed to be NR NR NR NR supplied from glroundwater Wet weight crop yield for Non-Leafy P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C 0.56 0.48 0.001 0.999 1.75 (kg/m 2)Wet weight crop yield for Leafy P 3 D 2.88921 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/m 2) _Table 6.87 1 G-8 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Wet weight crop yield for Fodder P 3 D 1.8868 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/m 2) Table 6.87 Growing Season for Non-Leafy (y) P 3 D 0.246 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Leafy (y) P 3 D 0.123 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Fodder (y) P 3 D 0.082 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Non-Leafy P 3 D 0.1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Leafy P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Fodder P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Weathering Removal Constant for P 2 S Triangular NUREG/CR-6697, Att. C 5.1 18 84 33 Vegetation (1/y)Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Non-Leafy Table 6.87 Wet Foliar Interception Fraction for P 2 S Triangular NUREG/CR-6697, Aft. C 0.06 0.67 0.95 0.58 Leafy Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Non-Leafy Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Leafy Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Storage times of contaminated foodstuffs (days): Fruits, non-leafy vegetables, and B 3 D 14 NUREG/CR-5512, Vol. 3 NR NR NR NR grain Table 6.87 Leafy vegetables B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Milk B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Meat and poultry B 3 D 20 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 (holdup period for beef)G-9 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RF.SRAD Inn~it Pflr~metPr VaIne~ fnr Sen~itivitv Anzilv~iis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Fish B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Crustacea and mollusks B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Well water B 3 D 1 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Surface water B 3 D 1 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Livestock fodder B 3 D 45 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Special Radionuclides (C-14)C-12 concentration in water (g/cm 3) p 3 D 2.OOE-05 User's Manual for NR NR NR NR RESRAD Version 6, Appendix L C-12 concentration in contaminated P 3 D 3.OOE-02 User's Manual for NR NR NR NR soil (g/g) RESRAD Version 6, Appendix L Fraction of vegetation carbon from P 3 D 2.00E-02 User's Manual for NR NR NR NR soil RESRAD Version 6, Appendix L Fraction of vegetation carbon from P 3 D 9.80E-01 User's Manual for NR NR NR NR air RESRAD Version 6, Appendix L C-14 evasion layer thickness in soil P 2 S Triangular NUREG/CR-6697, Att. C 0.2 0.3 0.6 0.3 (im)C-14 evasion flux rate from soil P 3 D 7.OOE-07 User's Manual for NR NR NR NR (1 /sec) RESRAD Version 6, Appendix L C-12 evasion flux rate from soil P 3 D 1.00E-10 User's Manual for NR NR NR NR (1/sec) RESRAD Version 6, Appendix L Fraction of grain in beef cattle feed B 3 D 0.2500 NUREG/CR-6697, Att. B NR NR NR NR Fraction of grain in milk cow feed B 3 D 0.1000 NUREG/CR-6697, Att. B NR NR NR NR G-1O Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 _j2 3 4 Mean/II Median Dose Conversion Factors (Inhalation mrem/pCi)Ac-227 M 3 D 6.70E+00 FGR11 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 4.44E-01 FGR11 NR NR NR NR Am-243 M 3 D 4.40E-01 FGR11 NR NR NR NR C-14 M 3 D 2.09E-06 FGR1I NR NR NR NR Cm-243 M 3 D 3.07E-01 FGR1I NR NR NR NR Cm-244 M 3 D 2.48E-01 FGR11 NR NR NR NR Cm-245 M 3 D 4.55E-01 FGR1I NR NR NR NR Cm-246 M 3 D 4.51E-01 FGR11 NR NR NR NR Co-60 M 3 D 2.19E-04 FGR11 NR NR NR NR Cs-137 M 3 D 3.19E-05 FGR11 NR NR NR NR Eu-152 M 3 D 2.21E-04 FGR11 NR NR NR NR Eu-154 M 3 D 2.86E-04 FGR11 NR NR NR NR Gd-152 M 3 D 2.43E-01 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR11 NR NR NR NR 1-129 M 3 D 1.74E-04 FGR11 NR NR NR NR Nb-94 M 3 D 4.14E-04 FGR11 NR NR NR NR Ni-59 M 3 D 2.70E-06 FGR11 NR NR NR NR Ni-63 M 3 D 6.29E-06 FGR11 NR NR NR NR Np-237 M 3 D 5.40E-01 FGR1 1 NR NR NR NR Pa-231 M 3 D 1.28E+00 FGR11 NR NR NR NR Pb-210 M 3 D 1.36E-02 FGR11 NR NR NR NR Po-210 M 3 D 9.40E-03 FGR11 NR NR NR NR Pu-238 M 3 D 3.92E-01 FGR11 NR NR NR NR Pu-239 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-240 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-241 M 3 D 8.25E-03 FGR11 NR NR NR NR Pu-242 M 3 D 4.11 E-01 FGR11 NR NR NR NR Ra-226 M 3 D 8.58E-03 FGR11 NR NR NR NR G-1l Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Ra-228 M 3 D 4.77E-03 FGR11 NR NR NR NR Sr-90 M 3 D 1.30E-03 FGR11 NR NR NR NR Tc-99 M 3 D 8.32E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.42E-01 FGR11 NR NR NR NR Th-229 M 3 D 2.15E+00 FGR11 NR NR NR NR Th-230 M 3 D 3.26E-01 FGR11 NR NR NR NR Th232 M 3 D 1.64e+00 FGR11 NR NR NR NR U-233 M 3 D 1.35E-01 FGR11 NR NR NR NR U-234 M 3 D 1.32E-01 FGR11 NR NR NR NR U-235 M 3 D 1.23E-01 FGR11 NR NR NR NR U-236 M 3 D 1.25E-01 FGR11 NR NR NR NR U-238 M 3 D 1.18E-01 FGR1I NR NR NR NR Dose Conversion Factors (Ingestion mrem/pCi)Ac-227 M 3 D 1.41 E-02 FGR11 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 3.64E-03 FGR11 NR NR NR NR Am-243 M 3 D 3.62E-03 FGR11 NR NR NR NR C-14 M 3 D 2.09E-06 FGR11 NR NR NR NR Cm-243 M 3 D 2.51E-03 FGR11 NR NR NR NR Cm-244 M 3 D 2.02E-03 FGR11 NR NR NR NR Cm-245 M 3 D 3.74E-03 FGR11 NR NR NR NR Cm-246 M 3 D 3.70E-03 FGR1 1 NR NR NR NR Co-60 M 3 D 2.69E-05 FGR1 1 NR NR NR NR Cs-137 M 3 D 5.OOE-05 FGR11 NR NR NR NR Eu-152 M 3 D 6.48E-06 FGR11 NR NR NR NR Eu-154 M 3 D 9.55E-06 FGR11 NR NR NR NR Gd-152 M 3 D 1.61 E-04 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR1I1 NR NR NR NR 1-129 M 3 D 2.76E-04 FGR11 NR NR NR NR Nb-94 M 3 D 7.14E-06 FGR11 NR NR NR NR G-12 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Ni-59 M 3 D 2.10E-07 FGR11 NR NR NR NR Ni-63 M 3 D 5.77E-07 FGR11 NR NR NR NR Np-237 M 3 D 4.44E-03 FGR1I NR NR NR NR Pa-231 M 3 D 1.06E-02 FGR11 NR NR NR NR Pb-210 M 3 D 5.37E-03 FGR11 NR NR NR NR Pb-210 M 3 D 1.90E-03 FGR11 NR NR NR NR Pu-238 M 3 D 3.20E-03 FGR1 1 NR NR NR NR Pu-239 M 3 D 3.54E-03 FGR11 NR NR NR NR Pu-240 M 3 D 3.54E-03 FGRI1 NR NR NR NR Pu-241 M 3 D 6.84E-05 FGRI1 NR NR NR NR Pu-242 M 3 D 3.36E-03 FGRI1 NR NR NR NR Ra-226 M 3 D 1.32E-03 FGR11 NR NR NR NR Ra-228 M 3 D 1.44E-03 FGR11 NR NR NR NR Sr-90 M 3 D 1.42E-04 FGR11 NR NR NR NR Tc-99 M 3 D 1.46E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.96E-04 FGR11 NR NR NR NR Th-229 M 3 D 3.53E-03 FGR11 NR NR NR NR Th-230 M 3 D 5.48E-04 FGR11 NR NR NR NR Th-232 M 3 D 2.73E-03 FGR11 NR NR NR NR U-233 M 3 D 2.89E-04 FGR11 NR NR NR NR U-234 M 3 D 2.83E-04 FGR1I NR NR NR NR U-235 M 3 D 2.66E-04 FGR11 NR NR NR NR U-236 M 3 D 2.69E-04 FGR11 NR NR NR NR U-238 M 3 D 2.55E-04 FGR1 1 NR NR NR NR Plant Transfer Factors (pCi/g plant)/(pCi/g soil)Ac-227 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 1.1 0.001 0.999 1.0E-03 Am-241 P I S Truncated Iognormal-n NUREG/CR-6697, Aft. C -6.91 0.9 0.001 0.999 1.0E-03 Am-243 P 1 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -6.91 0.9 0.001 0.999 1.OE-03 C-14 P 1 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -0.36 0.9 0.001 0.999 7.OE-01 Cm-243 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -6.91 0.9 0.001 0.999 1.OE-03 G-13 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Cm-244 P I S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Cm-245 P I S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Cm-246 P I S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Co-60 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -2.53 0.9 0.001 0.999 8.OE-02 Cs-1 37 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.22 1.0 0.001 0.999 4.OE-02 Eu-1 52 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Eu-1 54 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Gd-1 52 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -6.21 1.1 0.001 0.999 2.OE-03 H-3 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C 1.57 1.1 0.001 0.999 4.8E+00 1-129 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.91 0.9 0.001 0.999 2.OE-02 Nb-94 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 1.OE-02 Ni-59 P 1 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -3.0 0.9 0.001 0.999 5.OE-02 Ni-63 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.0 0.9 0.001 0.999 5.OE-02 Np-237 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -3.91 0.9 0.001 0.999 2.OE-02 Pa-231 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -4.61 1.1 0.001 0.999 1.OE-02 Pb-210 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -5.52 0.9 0.001 0.999 4.OE-03 Po-210 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.90 0.9 0.001 0.999 1.OE-03 Pu-238 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-239 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-240 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-241 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-242 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -6.91 0.9 0.001 0.999 1.OE-03 Ra-226 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.22 0.9 0.001 0.999 4.OE-02 Ra-228 P I S Truncated Iognormal-n NUREG/CR-6697, AUt. C -3.22 0.9 0.001 0.999 4.OE-02 Sr-90 P I S Truncated Iognormal-n NUREG/CR-6697, Att. C -1.20 1.0 0.001 0.999 3.OE-01 Tc-99 P 1 S Truncated Iognorrnal-n NUREG/CR-6697, Att. C 1.61 0.9 0.001 0.999 5.OE+00 Th-228 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-229 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-230 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-232 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 U-233 P 1 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -6.21 0.9 0.001 0.999 2.OE-03 G-14 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median U-234 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-235 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-236 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-238 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 Meat Transfer Factors (pCilkg)I(pCild)
Ac-227 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Am-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 Am-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 C-14 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.47 1.0 0.001 0.999 3.1E-02 Cm-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-244 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-245 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-246 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Co-60 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -3.51 1.0 0.001 0.999 3.OE-02 Cs-137 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.00 0.4 0.001 0.999 5.OE-02 Eu-152 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Eu-154 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Gd-1 52 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 H-3 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.42 1.0 0.001 0.999 1.2E-02 1-129 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.22 0.4 0.001 0.999 4.OE-02 Nb-94 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -13.82 0.9 0.001 0.999 1.OE-06 Ni-59 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -5.30 0.9 0.001 0.999 5.OE-03 Ni-63 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -5.30 0.9 0.001 0.999 5.OE-03 Np-237 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -6.91 0.7 0.001 0.999 1.OE-03 Pa-231 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -12.21 1.0 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.30 0.7 0.001 0.999 5.OE-03 Pb-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 Pu-238 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 i.OE-04 Pu-239 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 i.OE-04 Pu-240 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 G-15 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-241 P 2 S Truncated iognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-242 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Ra-226 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Ra-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Sr-90 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -4.61 0.4 0.001 0.999 1.OE-02 Tc-99 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 0.7 0.001 0.999 1.OE-04 Th-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-229 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-230 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-232 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 U-233 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-234 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-235 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-236 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 Milk Transfer Factors (pCiIL)I(pCild)
Ac-227 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Am-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 Am-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -13.12 0.7 0.001 0.999 2.OE-06 C-14 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -4.4 0.9 0.001 0.999 1.2E-02 Cm-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-244 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-245 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-246 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Co-60 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.7 0.001 0.999 2.OE-03 Cs-1 37 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 0.5 0.001 0.999 1.OE-02 Eu-1 52 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 Eu-154 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 Gd-1 52 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 H-3 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -4.6 0.9 0.001 0.999 1.OE-02 G-16 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median 1-129 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 0.5 0.001 0.999 1.OE-03 Nb-94 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 Ni-59 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.91 0.7 0.001 0.999 2.OE-02 Ni-63 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.91 0.7 0.001 0.999 2.OE-02 Np-237 P 2 S Truncated Iognormal-n NUREG/CR-6697, AUt. C -11.51 0.7 0.001 0.999 1.OE-05 Pa-231 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -12.21 0.9 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.7 0.001 0.999 4.OE-04 Pb-210 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -8.11 0.9 0.001 0.999 3.OE-04 Pu-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5. 0.001 0.999 1.OE-06 Pu-239 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-240 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-241 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-242 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Ra-226 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 1.OE-03 Ra-228 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 1.OE-03 Sr-90 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -6.21 0.5 0.001 0.999 2.OE-03 Tc-99 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Th-228 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-229 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-230 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-232 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 U-233 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -7.82 0.6 0.001 0.999 4.OE-04 U-234 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-235 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-236 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 Bioaccumulation Factors for Fish ((pCi/kg)/(pCi/L))
Ac-227 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.7 1.1 1.5E+01 A_-241 P 2 S LognormaI-n NUREG/CR-6697, Aft. C 3.4 1.1 3.0E+01 Am-243 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 G-17 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median C-14 P 2 S Lognormal-n NUREG/CR-6697, Att. C 10.8 1.1 4.9E+04 Cm-243 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-244 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-245 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-246 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Co-60 P 2 S Lognormal-n NUREG/CR-6697, Att. C 5.7 1.1 3.OE+02 Cs-1 37 P 2 S Lognormal-n NUREG/CR-6697, Att. C 7.6 0.7 2.OE+03 Eu-1 52 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Eu-1 54 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Gd-152 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.2 1.1 2.5E+01 H-3 P 2 S Lognormal-n NUREG/CR-6697, Att. C 0 0.1 1.OE+00 1-129 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 3.7 1.1 4.OE+01 Nb-94 P 2 S Lognormal-n NUREG/CR-6697, Af. C 5.7 1.1 3.OE+02 Ni-59 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 4.6 1.1 9.9E+01 Ni-63 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Np-237 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pa-231 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 9.9E+00 Po-210 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 1.OE+01 Pb-210 P 2 S Lognormal-n NUREG/CR-6697, AUt. C 5.7 1.1 3.OE+02 Pu-238 P 2 S Lognormal-n NUREGICR-6697, AUt. C 3.4 1.1 3.OE+01 Pu-239 P 2 S Lognormal-n NUREG/CR-6697, AUt. C 3.4 1.1 3.OE+01 Pu-240 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-241 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-242 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Ra-226 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Ra-228 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Sr-90 P 2 S Lognormal-n NUREG/CR-6697, AUt. C 4.1 1.1 6.OE+01 Tc-99 P 2 S Lognormal-n NUREG/CR-6697, AUt. C 3 1.1 2.OE+01 Th-228 P 2 S Lognormal-n NUREG/CR-6697, AUt. C 4.6 1.1 9.9E+01 Th-229 P 2 S Lognormal-n NUREG/CR-6697, AUt. C 4.6 1.1 9.9E+01 G-18 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Th-230 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-232 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 U-233 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-234 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-235 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 2.3 1.1 1.OE+01 U-236 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-238 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 Bloaccumulation Factors for Crustacea/
Mollusks ((pCilkg)/(pCi/L))
Ac-227 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-241 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-243 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D C-14 P 3 D 9.10E+03 User's Manual for NR NR NR N R RESRAD Version 6, Appendix D Cm-243 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-244 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-245 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6,______________________________
Appendix D ____ ____ ____Cm-246 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Co-60 P 3 D 2.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cs-137 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D G-19 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Eu-152 P 3 D 1.00E+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Eu-154 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Gd-152 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D H-3 P 3 D 1.OOE+O0 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D 1-129 P 3 D 5.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Nb-94 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ni-59 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ni-63 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, ,Appendix D Np-237 P 3 D 4.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6,_Appendix D Pa-231 P 3 D 1.10E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pb-210 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Po-210 P S D 2.OE+04 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-238 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D .I I I G-20 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-239 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-240 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-241 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-242 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ra-226 P 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ra-228 P 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Sr-90 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Tc-99 P 3 D 5.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-228 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-229 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-230 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-232 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-233 P 3 0 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D G-21 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Sensitivity Analysis Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median U-234 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-235 P 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-236 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-238 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Graphics Parameters Number of points 32 RESRAD Default NR NR NR NR Spacing log RESRAD Default NR NR NR NR Time integration parameters Maximum number of points for dose 17 RESRAD Default NR NR NR NR Footnotes:
a P = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)b 1 = high-priority parameter, 2 = medium-priority parameter, 3 = low-priority parameter (see NIUREG/CR-6697, Attachment B, Table 4.1)c D = deterministic, S = stochastic d Distributions Statistical Parameters:
Lognormal-n:
1= mean, 2 = standard deviation Bounded lognormal-n:
1= mean, 2 = standard deviation, 3 = minimum, 4 = maximum Truncated lognormal-n:
I= mean, 2 = standard deviation; 3 = lower quantile, 4 = upper quantile Bounded normal: I = mean, 2 = standard deviation, 3 = minimum, 4 = maximum Triangular:
1 = minimum, 2 = maximum, 3 = most likely Uniform: I = minimum, 2 = maximum* Designates principal radionuclide-of-concern; undesignated radionuclides are included as daughter products.Additional Sensitivity Analysis Data: Sampling technique
= Latin Hypercube Number of observations
=2000 Number of repetitions
= I Input Rank Correlation Coefficients (NUREG/CR-6697):
Total porosity and bulk density = -0.99 (contaminated zone, unsaturated and saturated zones)G-22 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Total porosity and effective porosity = 0.96 (unsaturated and saturated zones)Effective porosity and bulk density = -0.99 (unsaturated and saturated zones)Well Pumping Rate and Irrigation Rate = 0.96 Revision 01 July 2014 G-23 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix H Results of Sensitivity Analysis:
Soil H-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 PRCC Radionuclide Sensitive Parameter Value Am-241 Plant transfer factor for Am 0.93 Thickness of contaminated zone 0.79 Depth of roots -0.59 C-14 Thickness of contaminated zone 0.98 Depth of roots -0.76 Thickness of evasion layer for C-14 in 0.35 soil Cm-243 Plant transfer factor for Cm 0.91 Thickness of contaminated zone 0.73 External gamma shielding factor 0.60 Depth of roots -0.56 Cm-244 Plant transfer factor for Cm 0.92 Thickness of contaminated zone 0.78 Depth of roots -0.60 Cm-245 Plant transfer factor for Cm 0.84 Thickness of contaminated zone 0.80 Depth of roots -0.54 Cm-246 Plant transfer factor for Cm 0.92 Thickness of contaminated zone 0.79 Depth of roots -0.60 Co-60 External gamma shielding factor 0.95 Plant transfer factor for Co 0.65 Thickness of contaminated zone 0.39 Meat transfer factor for Co 0.35 Cs-I 37 Plant transfer factor for Cs 0.86 External gamma shielding factor 0.76 Thickness of contaminated zone 0.58 Milk transfer factor for Cs 0.39 Depth of roots -0.35 Meat transfer factor for Cs 0.28 Eu-152 External gamma shielding factor 1.00 Kd of Eu-152 in contaminated zone 0.26 Eu-1 54 External gamma shielding factor 0.99 H-3 Thickness of contaminated zone 0.93 Depth of roots -0.64 Kd of H-3 in contaminated zone -0.27 1-129 Plant transfer factor for I 0.89 Thickness of contaminated zone 0.75 Milk transfer factor for I 0.60 Depth of roots -0.49 Meat transfer factor for I 0.44 Nb-94 External gamma shielding factor 0.99 Kd of Nb-94 in contaminated zone 0.32 H-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 PRCC Radionuclide Sensitive Parameter Value Ni-59 Plant transfer factor for Ni 0.90 Milk transfer factor for Ni 0.81 Thickness of contaminated zone 0.74 Depth of roots -0.54 Ni-63 Plant transfer factor for Ni 0.90 Milk transfer factor for Ni 0.81 Thickness of contaminated zone 0.74 Depth of roots -0.53 Np-237 Plant transfer factor for Np 0.92 Thickness of contaminated zone 0.79 Depth of roots -0.60 Pu-238 Plant transfer factor for Pu 0.92 Thickness of contaminated zone 0.79 Depth of roots -0.62 Pu-239 Plant transfer factor for Pu 0.93 Thickness of contaminated zone 0.79 Depth of roots -0.60 Pu-240 Plant transfer factor for Pu 0.92 Thickness of contaminated zone 0.79 Depth of roots -0.60 Pu-241 Plant transfer factor for Am 0.84 Thickness of contaminated zone 0.75 Depth of roots -0.51 Kd of Am in contaminated zone 0.26 Sr-90 Plant transfer factor for Sr 0.93 Thickness of contaminated zone 0.78 Depth of roots -0.58 Tc-99 Plant transfer factor for Tc 0.91 Thickness of contaminated zone 0.80 Depth of roots -0.54 Kd of Tc-99 in contaminated zone 0.26 H-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix I RESRAD Parameter Values for Soil DCGL Determination I-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Inout Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/____________________
________________
I _____________Median Soil Concentrations I Median Basic radiation dose limit (mrem/y) ]_ _[ 3 [ D [25 1OCFR 20.1402 [NR [ NIR NR NR Initial principal radionuclide (pCi/g) P 2 D 1 Unit Value NR NR NR NR Distribution coefficients (applied to contaminated, unsaturated, and saturated zones unless otherwise noted) (cm 3/g)Ac-227 (daughter for Cm-243 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Pu-239)Am-241 (also daughter for Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 and Pu-241)D 1.20E+04 7 5 th percentile value -applied to Am-241 as daugther for Pu-241 in contaminated zone Am-243 (daughter for Cm-243) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 C-14 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 2.4 3.22 0.001 0.999 11 Cm-243 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-244 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-246 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Co-60 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.46 2.53 0.001 0.999 235 Cs-1 37 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.1 2.33 0.001 0.999 446 Eu-1 52 P 1 D 7.22E+03 7 5 h percentile value applied to contaminated zone only.Truncated lognormal-n NUREG/CR-6697, Att. C; 6.72 3.22 0.001 0.999 825 distribution applied to saturated and_unsaturated zones. I I Eu-1 54 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Gd-1 52 (daughter for Eu-1 52) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 1-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median H-3 P 1 S 4.30E-02 2 5 h percentile value applied to contaminated zone only.Truncated lognormal-n NUREG/CR-6697, Att. C; -2.81 0.5 0.001 0.999 0.06 distribution applied to saturated and unsaturated zones.25th percentile value 1-129 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 1.52 2.19 0.001 0.999 4.6 Nb-94 P 1 D 3.56E+03 7 5 h percentile value applied to contaminated zone only.Truncated Iognormal-n NUREG/CR-6697, Att. C; 5.94 3.22 0.001 0.999 380 distribution applied to saturated and unsaturated zones.Ni-59 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.05 1.46 0.001 0.999 424 Ni-63 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.05 1.46 0.001 0.999 424 Np-237 (also daughter for Am-241, P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 2.84 2.25 0.001 0.999 17 Cm-245, and Pu-241)Pa-231 (daughter for Cm-243 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.94 3.22 0.001 0.999 380 Pu-239)Po-210 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.20 1.68 0.001 0.999 181 Pb-210 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 7.78 2.76 0.001 0.999 2392 Pu-238)Pu-238 P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 6.86 1.89 0.001 0.999 953 Pu-239 (also daughter for Cm-243) P I S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-240 (also daughter for Cm-244) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-241 (also daughter for Cm-245) P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 6.86 1.89 0.001 0.999 953 Pu-242 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 6.86 1.89 0.001 0.999 953 Ra-226 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 Pu-238)Ra-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 Pu-240) _Sr-90 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 3.45 2.12 0.001 0.999 32 1-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Tc-99 P 1 D 4.28E+00 7 5 h percentile value applied to contaminated zone only.Truncated lognormal-n NUREG/CR-6697, Att. C; -0.67 3.16 0.001 0.999 0.51 distribution applied to saturated and unsaturated zones.Th-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-240)Th-229 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 245, Np-237, and Pu-241)Th-230 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-238)Th-232 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-240)U-233 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 245, Np-237, and Pu-241)U-234 (daughter for Cm-246 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 238)U-235 (daughter for Cm-243 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 239)U-236 (daughter for Cm-244 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 240)U-238 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 Initial concentration of radionuclides P 3 D 0 Ground water initially NR NR NR NR present in groundwater (pCi/I) uncontaminated for this scenario Calculation Times Time since placement of material (y) P 3 0D 0 NR NR NR NR Time for calculations (y) P 3 D 0, 1, 3, 10, 30, 100, 300, 1000 RESRAD Default NR NR NR NR Contaminated Zone Area of contaminated zone (M 2) P 2 D 30,000 Site-specific:
largest NR NR NR NR contiguous class 1/class 2 area (rounded to nearest thousands) 1-4 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Thickness of contaminated zone (m) P 2 D 2.67 7 5 th percentile value -applied to all ROCs except those listed below.Site-specific distribution applied to Eu-1 52, Eu-S Uniform 154, and Nb-94 0.15 3.51 1.83 Length parallel to aquifer flow (m) P 2 D 195 Site-specific
-diameter of NR NR NR NR circle with an area of 2 30,000 m 2 Contaminated fraction below water P 2 D 0 Ground water initially NR NR NR NR table uncontaminated for this I _scenario Cover and Contaminated Zone Hydrological Data Cover depth (m) P 2 D 0 Site-specific
-no cover NR NR NR NR assumed Density of contaminated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Contaminated zone erosion rate P 2 D 2.2E-3 Calculated value based NR NR NR NR (m/y) on site-specific slope of 6%Contaminated zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Contaminated zone field capacity P 3 D 0.095 Calculated site-specific NR NR NR NR 0.095 value (ref. 3.1)Contaminated zone hydraulic P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 conductivity (m/y) soil type -clay loam Contaminated zone b parameter P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 soil type -clay loam Humidity in air (g/m 3) P 3 D 8.2 Regional value for NR NR NR NR northern CA as represented by San Francisco Evapotranspiration coefficient P 2 S Uniform NUREG/CR-6697 Att. C 0.5 0.75 NR NR 0.625 Average annual wind speed (m/s) P 2 D 3.04 Site-specific value (from NR NR NR NR NCDC website)1-5 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD mont Par~imeter V~ilue~ for Soil DCGL Determin~tinn Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Precipitation (m/y) P 2 D 0.91 Site-specific value from NR NR NR NR HB SAFSTOR Environmental Report, section 4.1.1 Irrigation (m/y) B 3 S Uniform NUREG/CR-6697, Att C 0.36 0.76 NR NR 0.56 methodology Irrigation mode B 3 D Overhead Overhead irrigation is NR NR NR NR common practice in U. S.Runoff coefficient P 2 D 0.5 Site-specific value; NR NR NR NR NUREG/CR-6697, Att. C section 4.2 methodologiy Watershed area for nearby stream or P 3 D 2.52E+07 Site-specific value from NR NR NR NR pond (M 2) (HB SAFSTOR Environmental Report)Accuracy for water/soil computations 3 D 1.OOE-03 RESRAD Default NR NR NR NR Saturated Zone Hydrological Data Density of saturated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5105 0.1855 0.937 2.084 1.5105 soil type -silty clay loam Saturated zone total porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.43 0.0699 0.214 0.646 0.43 soil type -silty clay loam Saturated zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.342 0.0705 0.124 0.56 0.342 soil type -silty clay loam Saturated zone field capacity P 3 D 0.088 Calculated site-specific NR NR NR NR 0.088 value (ref. 3.1)Saturated zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 0.362 1.59 0.0106 195 1.44 (m/y) soil type -silty clay loam Saturated zone hydraulic gradient P 2 D 0.002 Site-specific value NR NR NR NR determined using method described in NUREG/CR-6697, App. C (calculated in ref. 3.1)Saturated zone b parameter P 2 S Bounded NUREG 6697 dist for site 1.96 0.265 3.02 15.5 7.1 Log Normal n soil type -silty clay loam Water table drop rate (m/y) P 3 D 1.OOE-03 RESRAD User Manual NR NR NR NR Well pump intake depth (m below P 2 S Triangular NUREG/CR-6697, Att. C 6 10 30 10 water table) I I I I I I I I 1-6 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Model: Nondispersion (ND) or Mass- P 3 D ND ND model recommended NR NR NR NR Balance (MB) for contaminant areas >2 1,000 m 2 Well pumping rate (m 3/y) P 2 S Uniform Min, Max, median value 1173 1973 1573 based on site irrigation and area and calculated according to NUREG/CR-6697, Att. C section 3.10 method. (calculated in ref. 3.1) 1 Unsaturated Zone Hydrological Data Number of unsaturated zone strata P 3 D 1 Site-specific value NR NR NR NR Unsat. zone thickness (m) P 2 S Uniform Site-specific distribution 0.00 8.08 4.04 base on thickness of CZ and groundwater elevations Unsat. zone soil density (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Unsat. zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Unsat. zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.315 0.0905 0.0349 0.594 0.315 soil type -clay loam Unsat. zone field capacity P 3 D 0.095 Site-specific value NR NR NR NR 0.095 (calculated in ref. 3.1)Unsat. zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 (m/y) soil type -clay loam Unsat. zone soil-specific b parameter P 2 S Bounded NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 Log Normal n soil type -clay loam Occupancy Inhalation rate (m 3/y) B 3 D 8400 NUREG/CR-6697, Att C NR NR NR NR Mass loading for inhalation (g/m 3) P 2 S Continuous linear NUREG/CR-6697, Att. C 2.33E-05 Exposure duration B 3 D 30 User's Manual for NR NR NR NR RESRAD Version 6;parameter value not used in dose calculation Indoor dust filtration factor P 2 S Uniform NUREG/CR-6697, Att. C 0.15 0.95 0.55 1-7 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Shielding factor, external gamma p 2 D 3.98E-01 7 5!h percentile value -applied for Cm-243, Co-60, Cs-1 37, Eu-1 52, Eu-154, and Nb-94 NUREG/CR-6697, Att. C Bounded lognormal-n
-applied to all ROCs -1.3 0.59 0.044 0.2725 except those listed above S Fraction of time spent indoors B 3 D 0.6571 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Fraction of time spent outdoors (on B 3 D 0.1181 NUREG/CR-5512, Vol. 3 NR NR NR NR site) Table 6.87 (outdoors
+gardening)
Shape factor flag, external gamma p 3 D Circular Circular contaminated NR NR NR NR zone assumed for modeling purposes Ingestion, Dietary Fruits, vegetables, grain consumption B 2 D 112 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/y) (other vegetables
+ fruits+ grain)Leafy vegetable consumption (kg/y) B 3 D 21.4 NUREG/CR-5512, Vol. 3 NR NR NR NR Milk consumption (L/y) B 2 D 233 NUREG/CR-5512, Vol. 3 NR NR NR NR Meat and poultry consumption (kg/y) B 3 D 65.1 NUREG/CR5512, Vol. 3 NR NR NR NR (beef + poultry)Fish consumption (kg/y) B 3 D 20.6 NUREG/CR-5512, Vol. 3 NR NR NR NR Other seafood consumption (kg/y) B 3 D 0.9 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Soil ingestion rate (g/y) B 2 D 18.26 NUREG/CR-5512, Vol. 3 NR NR NR NR Drinking water intake (L/y) B 2 D 511 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Contamination fraction of drinking P 3 D 1 All water assumed NR NR NR NR water contaminated Contamination fraction of household P 3 NA water (if used) I _ I _1-8 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Contamination fraction of livestock P 3 D 1 All water assumed NR NR NR NR water contaminated Contamination fraction of irrigation P 3 D 1 AIII water assumed NR NR NR NR water contaminate Contamination fraction of aquatic P 2 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR food Contamination fraction of plant food P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Contamination fraction of meat P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Contamination fraction of milk P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Ingestion, Non-Dietary Livestock fodder intake for meat M 3 D 27.1 NUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, beef cattle +poultry + layer hen Livestock fodder intake for milk M 3 D 63.2 NUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, forage + grain+ hay Livestock water intake for meat M 3 D 50.6 NUREG/CR5512, Vol. 3 NR NR NR NR (L/day) Table 6.87, beef cattle +poultry + layer hen Livestock water intake for milk M 3 D 60 NUREG/CR5512, Vol. 3 NR NR NR NR L/Lday) Table 6.87 Livestock soil intake (kg/day) M 3 D 0.5 User's Manual for NR NR NR NR RESRAD Version 6, Appendix L Mass loading for foliar deposition P 3 D 4.OOE-04 NUREG/CR-5512, Vol. 3 NR NR NR NR (g/m 3) Table 6.87, gardening Depth of soil mixing layer (m) P 2 S Triangular NUREG/CR-6697, Att. C 0 0.15 0.6 0.23 Depth of roots (m) P 1 D 1.22E+00 2 5 th percentile value (Ref. 3.1)- applied to all ROCs except those listed below.S Uniform NUREG/CR-6697, Att. C 0.3 4.0 2.15-applied for Eu-1 52, Eu-154, and Nb-94 Drinking water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR water supplied from____________________________________________
_________groundwater_____
_____ _____1-9 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RF.SRAI) Innuit P2r2meter V~iIue~ for Soil DCC.L Determination Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Household water fraction from P 3 NA ground water (if used)Livestock water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR water supplied from groundwater Irrigation fraction from ground water P 3 D 1 All water assumed to be NR NR NR NR supplied from groundwater Wet weight crop yield for Non-Leafy P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C 0.56 0.48 0.001 0.999 1.75 (kg/m 2)Wet weight crop yield for Leafy P 3 D 2.88921 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/m 2) _Table 6.87 Wet weight crop yield for Fodder P 3 D 1.8868 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/m 2) _Table 6.87 Growing Season for Non-Leafy (y) P 3 D 0.246 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Leafy (y) P 3 D 0.123 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Fodder (y) P 3 D 0.082 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Non-Leafy P 3 D 0.1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Leafy P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Fodder P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Weathering Removal Constant for P 2 S Triangular NUREG/CR-6697, Att. C 5.1 18 84 33 Vegetation (l/y)Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Non-Leafy Table 6.87 Wet Foliar Interception Fraction for P 2 S Triangular NUREG/CR-6697, Att. C 0.06 0.67 0.95 0.58 Leafy Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Non-Leafy Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Leafy I 1-10 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Storage times of contaminated foodstuffs (days): Fruits, non-leafy vegetables, and B 3 D 14 NUREG/CR-5512, Vol. 3 NR NR NR NR grain Table 6.87 Leafy vegetables B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Milk B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Meat and poultry B 3 D 20 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 (holdup period for beef)Fish B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Crustacea and mollusks B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Well water B 3 D 1 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Surface water B 3 D I User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Livestock fodder B 3 D 45 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Special Radionuclides (C-14)C-12 concentration in water (g/cm 3) P 3 D 2.OOE-05 User's Manual for NR NR NR NR RESRAD Version 6,_Appendix L C-12 concentration in contaminated P 3 D 3.OOE-02 User's Manual for NR NR NR NR soil (g/g) RESRAD Version 6, Appendix L Fraction of vegetation carbon from P 3 D 2.OOE-02 User's Manual for NR NR NR NR soil RESRAD Version 6, I L I-l1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Fraction of vegetation carbon from P 3 D 9.80E-01 User's Manual for NR NR NR NR air RESRAD Version 6, Appendix L C-14 evasion layer thickness in soil P 2 D 4.27E-01 7 5 th percentile value (m)C-14 evasion flux rate from soil P 3 D 7.OOE-07 User's Manual for NR NR NR NR (1/sec) RESRAD Version 6, Appendix L C-12 evasion flux rate from soil P 3 D 1.OOE-10 User's Manual for NR NR NR NR (1/sec) RESRAD Version 6, Appendix L Fraction of grain in beef cattle feed B 3 D 0.2500 NUREG/CR-6697, Aft. B NR NR NR NR Fraction of grain in milk cow feed B 3 D 0.1000 NUREG/CR-6697, Att. B NR NR NR NR Dose Conversion Factors (Inhalation mrem/pCi)Ac-227 M 3 D 6.72E+00 FGR1 1 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 4.44E-01 FGR11 NR NR NR NR Am-243 M 3 D 4.40E-01 FGR1 1 NR NR NR NR C-14 M 3 D 2.09E-06 FGR11 NR NR NR NR Cm-243 M 3 D 3.07E-01 FGR1 1 NR NR NR NR Cm-244 M 3 D 2.48E-01 FGR1 1 NR NR NR NR Cm-245 M 3 D 4.55E-01 FGR1 1 NR NR NR NR Cm-246 M 3 D 4.51E-01 FGR11 NR NR NR NR Co-60 M 3 D 2.19E-04 FGRI1 NR NR NR NR Cs-137 M 3 D 3.19E-05 FGR11 NR NR NR NR Eu-152 M 3 D 2.21 E-04 FGR11 NR NR NR NR Eu-154 M 3 D 2.86E-04 FGR11 NR NR NR NR Gd-152 M 3 D 2.43E-01 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR11 NR NR NR NR 1-129 M 3 D 1.74E-04 FGR11 NR NR NR NR Nb-94 M 3 D 4.14E-04 FGR11 NR NR NR NR Ni-59 M 3 D 2.70E-06 FGR11 NR NR NR NR 1-12 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Ni-63 M 3 D 6.29E-06 FGRI1 NR NR NR NR Np-237 M 3 D 5.40E-01 FGR11 NR NR NR NR Pa-231 M 3 D 1.28E+00 FGR11 NR NR NR NR Pb-210 M 3 D 1.38E-02 FGR11 NR NR NR NR Po-210 M 3 D 9.40E-03 FGR11 NR NR NR NR Pu-238 M 3 D 3.92E-01 FGR11 NR NR NR NR Pu-239 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-240 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-241 M 3 D 8.25E-03 FGR11 NR NR NR NR Pu-242 M 3 D 4.11E-01 FGR11 NR NR NR NR Ra-226 M 3 D 8.59E-03 FGR1I NR NR NR NR Ra-228 M 3 D 5.08E-03 FGR1I NR NR NR NR Sr-90 M 3 D 1.31 E-03 FGR11 NR NR NR NR Tc-99 M 3 D 8.32E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.43E-01 FGR11 NR NR NR NR Th-229 M 3 D 2.17E+00 FGR11 NR NR NR NR Th-230 M 3 D 3.26E-01 FGR11 NR NR NR NR Th232 M 3 D 1.64e+00 FGR11 NR NR NR NR U-233 M 3 D 1.35E-01 FGR11 NR NR NR NR U-234 M 3 D 1.32E-01 FGR11 NR NR NR NR U-235 M 3 D 1.23E-01 FGR11 NR NR NR NR U-236 M 3 D 1.25E-01 FGR11 NR NR NR NR U-238 M 3 D 1.18E-01 FGR11 NR NR NR NR Dose Conversion Factors (Ingestion mrem/pCi)Ac-227 M 3 0 1.48E-02 FGR11 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 3.64E-03 FGR1I NR NR NR NR Am-243 M 3 D 3.62E-03 FGR1 1 NR NR NR NR C-14 M 3 D 2.09E-06 FGR11 NR NR NR NR Cm-243 M 3 D 2.51E-03 FGR11 NR NR NR NR Cm-244 M 3 D 2.02E-03 FGR11 NR NR NR NR 1-13 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Cm-245 M 3 D 3.74E-03 FGR1 1 NR NR NR NR Cm-246 M 3 D 3.70E-03 FGRI1 NR NR NR NR Co-60 M 3 D 2.69E-05 FGR11 NR NR NR NR Cs-137 M 3 D 5.OOE-05 FGR11 NR NR NR NR Eu-152 M 3 D 6.48E-06 FGR11 NR NR NR NR Eu-154 M 3 D 9.55E-06 FGR11 NR NR NR NR Gd-152 M 3 D 1.61E-04 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR1I NR NR NR NR 1-129 M 3 D 2.76E-04 FGR1I NR NR NR NR Nb-94 M 3 D 7.14E-06 FGR11 NR NR NR NR Ni-59 M 3 D 2.1OE-07 FGR11 NR NR NR NR Ni-63 M 3 D 5.77E-07 FGR1I NR NR NR NR Np-237 M 3 D 4.44E-03 FGR11 NR NR NR NR Pa-231 M 3 D 1.06E-02 FGR11 NR NR NR NR Pb-210 M 3 D 5.38E-03 FGR11 NR NR NR NR Po-210 M 3 D 1.90E-03 FGR11 NR NR NR NR Pu-238 M 3 D 3.20E-03 FGR11 NR NR NR NR Pu-239 M 3 D 3.54E-03 FGR11 NR NR NR NR Pu-240 M 3 D 3.54E-03 FGR11 NR NR NR NR Pu-241 M 3 D 6.84E-05 FGR11 NR NR NR NR Pu-242 M 3 D 3.36E-03 FGR11 NR NR NR NR Ra-226 M 3 D 1.32E-03 FGR11 NR NR NR NR Ra-228 M 3 D 1.44E-03 FGR11 NR NR NR NR Sr-90 M 3 D 1.53E-04 FGR11 NR NR NR NR Tc-99 M 3 D 1.46E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.96E-04 FGR11 NR NR NR NR Th-229 M 3 D 4.03E-03 FGR11 NR NR NR NR Th-230 M 3 D 5.48E-04 FGR11 NR NR NR NR Th-232 M 3 D 2.73E-03 FGR11 NR NR NR NR U-233 M 3 D 2.89E-04 FGR1I NR NR NR NR 1-14 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median U-234 M 3 D 2.83E-04 FGR11 NR NR NR NR U-235 M 3 D 2.67E-04 FGR11 NR NR NR NR U-236 M 3 D 2.69E-04 FGR11 NR NR NR NR U-238 M 3 D 2.55E-04 FGR1I NR NR NR NR Plant Transfer Factors (pCi/g plant)/(pCi/g soil)Ac-227 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 1.1 0.001 0.999 1.OE-03 Am-241 P 1 D 1.83E-03 7 5 th percentile value Am-243 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 C-14 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -0.36 0.9 0.001 0.999 7.OE-01 Cm-243 P 1 S 1.83E-03 7 5 th percentile value Cm-244 P 1 D 1.83E-03 7 5 th percentile value Cm-245 P 1 D 1.83E-03 7 5 th percentile value Cm-246 P 1 D 1.83E-03 7 5 th percentile value Co-60 P 1 D 1.46E-01 751h percentile value Cs-1 37 P 1 D 7.82E-01 7 5 th percentile value Eu-1 52 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Eu-1 54 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Gd-1 52 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 H-3 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 1.57 1.1 0.001 0.999 4.8E+00 1-129 P 1 D 3.67E-02 7 5 1h percentile value Nb-94 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 1.OE-02 Ni-59 P 1 D 9.12E-02 75th percentile value Ni-63 P 1 D 9.12E-02 7 5 th percentile value Np-237 P 1 D 3.67E-02 7 5 th percentile value Pa-231 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 1.OE-02 Pb-210 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.52 0.9 0.001 0.999 4.0E-03 Po-210 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.90 0.9 0.001 0.999 1.OE-03 Pu-238 P 1 D 1.83E-03 7 5 th percentile value Pu-239 P 1 D 1.83E-03 7 5 th percentile value Pu-240 P 1 D 1.83E-03 7 5 th percentile value 1-15 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-241 P 1 D 1.83E-03 7 5 th percentile value Pu-242 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Ra-226 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.22 0.9 0.001 0.999 4.0E-02 Ra-228 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.22 0.9 0.001 0.999 4.OE-02 Sr-90 P 1 D 5.90E-01 75th percentile value Tc-99 P 1 D 9.16E+00 7 5 th percentile value Th-228 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-229 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-230 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-232 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 U-233 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-234 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-235 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-236 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-238 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 Meat Transfer Factors (pCilkg)l(pCild)
Ac-227 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Am-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 Am-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 C-14 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.47 1.0 0.001 0.999 3.1E-02 Cm-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-244 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-245 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-246 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Co-60 P 2 D 5.86E-02 75th percentile value Cs-1 37 P 2 D 6.52E-02 7 5 th percentile value Eu-1 52 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Eu-1 54 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Gd-152 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 H-3 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.42 1.0 0.001 0.999 1.2E-02 1-129 P 2 D 5.23E-02 7 5 th percentile value 1-16 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Nb-94 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.9 0.001 0.999 1.OE-06 Ni-59 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.30 0.9 0.001 0.999 5.OE-03 Ni-63 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.30 0.9 0.001 0.999 5.OE-03 Np-237 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Pa-231 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 1.0 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.30 0.7 0.001 0.999 5.0E-03 Pb-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 Pu-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-239 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-240 P 2 S Truncated Iognorrnai-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-242 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Ra-226 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Ra-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Sr-90 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 0.4 0.001 0.999 1.OE-02 Tc-99 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.7 0.001 0.999 1.OE-04 Th-228 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-229 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-230 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-232 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 U-233 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-234 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-235 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-236 P 2 S Truncated tognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -7.13 0.7 0.001 0.999 8.OE-04 Milk Transfer Factors (pCi/L)/(pCi/d)
Ac-227 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -13.12 0.9 0.001 0.999 2.OE-06 Am-241 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 Am-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 C-14 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.4 0.9 0.001 0.999 1.2E-02 1-17 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Cm-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -13.12 0.9 0.001 0.999 2.0E-06 Cm-244 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-245 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-246 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -13.12 0.9 0.001 0.999 2.OE-06 Co-60 P 2 S Truncated Iognormal-n NUREG/CR-6697, Aft. C -6.21 0.7 0.001 0.999 2.0E-03 Cs-137 P 2 D 1.39E-02 7 5 th percentile value Eu-1 52 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.0E-05 Eu-1 54 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 Gd-1 52 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.0E-05 H-3 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.6 0.9 0.001 0.999 1.OE-02 1-129 P 2 D 1.39E-02 7 5 th percentile value Nb-94 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -13.12 0.7 0.001 0.999 2.OE-06 Ni-59 P 2 D 3.21 E-02 7 5 th percentile value Ni-63 P 2 D 3.21 E-02 7 5 th percentile value Np-237 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -11.51 0.7 0.001 0.999 1.iE-05 Pa-231 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.7 0.001 0.999 4.OE-04 Pb-210 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -8.11 0.9 0.001 0.999 3.OE-04 Pu-238 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-239 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-240 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.0E-06 Pu-242 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Ra-226 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 1.OE-03 Ra-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 1.OE-03 Sr-90 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.5 0.001 0.999 2.OE-03 Tc-99 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Th-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-229 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-230 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 1-18 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Th-232 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.0E-06 U-233 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-234 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-235 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-236 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 Bioaccum ulation Factors for Fish ((pCi/kg)l(pCiIL))
Ac-227 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.7 1.1 1.5E+01 Am-241 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.0E+01 Am-243 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 C-14 P 2 S Lognormal-n NUREG/CR-6697, Att. C 10.8 1.1 4.9E+04 Cm-243 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-244 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-245 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-246 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Co-60 P 2 S Lognormal-n NUREG/CR-6697, Att. C 5.7 1.1 3.OE+02 Cs-137 P 2 S Lognormal-n NUREG/CR-6697, Att. C 7.6 0.7 2.OE+03 Eu-152 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Eu-154 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Gd-1 52 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.2 1.1 2.5E+01 H-3 P 2 S Lognormal-n NUREG/CR-6697, Att. C 0 0.1 1.OE+00 1-129 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.7 1.1 4.OE+01 Nb-94 P 2 S Lognormal-n NUREG/CR-6697, Att. C 5.7 1.1 3.OE+02 Ni-59 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Ni-63 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Np-237 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pa-231 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 2.3 1.1 9.9E+00 Po-210 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 4.6 1.1 1.OE+01 Pb-210 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 5.7 1.1 3.OE+02 Pu-238 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 1-19 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-239 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-240 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-241 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-242 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Ra-226 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Ra-228 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Sr-90 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.1 1.1 6.OE+01 Tc-99 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3 1.1 2.OE+01 Th-228 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-229 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-230 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-232 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 U-233 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-234 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-235 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-236 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-238 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 Bioaccumulation Factors for Crustacea/
Mollusks ((pCi/kg)/(pCi/L))
Ac-227 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-241 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-243 P 3 D 1.00E+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D C-14 P 3 D 9.1OE+03 User's Manual for NR NR NR NR RESRAD Version 6,-Appendix D Cm-243 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6,_Appendix D I 1-20 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Cm-244 p 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-245 p 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-246 p 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Co-60 P 3 D 2.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cs-1 37 p 3 D 1.00E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Eu-1 52 p 3 D 1.00E+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Eu-1 54 p 3 D 1.00E+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Gd-152 p 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D H-3 P 3 D 1.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D 1-129 p 3 D 5.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Nb-94 p 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ni-59 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ni-63 p 3 0 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6,_Appendix D I I I I I 1-21 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment ValuelDistribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Np-237 p 3 D 4.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pa-231 P 3 D 1.10E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pb-210 p 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Po-210 P 3 D 2.OOE+04 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-238 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-239 p 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-240 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-241 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6,__________________________
______Appendix D_____Pu-242 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ra-226 p 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ra-228 P 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Sr-90 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Tc-99 P 3 D 5.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D I _ _1-22 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 RESRAD Input Parameter Values for Soil DCGL Determination Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Th-228 p 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-229 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-230 p 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-232 p 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-233 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-234 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-235 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-236 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-238 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Graphics Parameters Number of points 32 RESRAD Default NR NR NR NR Spacing log RESRAD Default NR NR NR NR Time integration parameters Maximum number of points for dose 17 RESRAD Default NR NR NR NR a P = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)b 1 = high-priority parameter, 2 = medium-priority parameter, 3 = low-priority parameter (see NUREG/CR-6697, c D = deterministic, S = stochastic d Distributions Statistical Parameters:
Attachment B, Table 4.1)1-23 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Lognormal-n:
1= mean, 2 = standard deviation Bounded lognormal-n:
1= mean, 2 = standard deviation, 3 = minimum, 4 = maximum Truncated lognormal-n:
1= mean, 2 = standard deviation, 3 = lower quantile, 4 = upper quantile Bounded normal: 1 = mean, 2 = standard deviation, 3 = minimum, 4 = maximum Triangular:
1 = minimum, 2 = maximum, 3 = most likely Uniform: 1 = minimum, 2 = maximum Revision 01 July 2014 1-24 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix J Soil DCGL Results J-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Table J-1: Soil DCGL Results POM Dosea DCGL ROC (mrem/y) (pCi/g)Am-241 9.68E-01 2.58E+01 C-14 3.97E+00 6.30E+00 Cm-243 8.61E-01 2.90E+01 Cm-244 5.20E-01 4.81E+O1 Cm-245 1.41E+00 1.78E+01 Cm-246 9.70E-01 2.58E+O1 Co-60 6.55E+00 3.82E+00 Cs-137 3.15E+00 7.93E+00 Eu-152 2.48E+00 1.O1E+01 Eu-154 2.66E+00 9.40E+00 H-3 3.65E-02 6.86E+02 1-129 5.17E+00 4.83E+00 Nb-94 3.51E+00 7.13E+00 Ni-59 1.27E-02 1.97E+03 Ni-63 3.45E-02 7.24E+02 Np-237 2.25E+01 1.11E+00 Pu-238 8.43E-01 2.97E+01 Pu-239 9.36E-01 2.67E+01 Pu-240 9.36E-01 2.67E+01 Pu-241 2.90E-02 8.61E+02 Sr-90 1.66E+01 1.51E+00 Tc-99 2.02E+00 1.24E+01 Revision 01 July 2014 a POM Dose = peak of the mean dose J-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix K Input for Building Surface Area Factors K-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Table 1: RESRAD-Build Input Parameter Values for Building Surface Area Factors Parameter Typea Nuclide Treatmentb Value Reference Source Exposure Duration (d) B All D 365.25 NUREGICR-5512, Vol.3,section 5.2.1 Indoor Fraction B All D 0.267 NUREGICR-55i2, Vol.3,section 5.2.2.9 1, 5 Use of ly provides doses at Evaluation Time (y) P All D (1, 5, 10, 25, t=Oy and t=ly; multiple input 50, 100 for applied to verify time of peak Pu-241) dose Number of Rooms P All D 1 NUREG/CR-5512 Am-241, Cm-243, Cm-244, Cm-245, Cm-246, Np-237, Pu-238, Pu-239, Pu- D 1.5179E-05 5 0 th percentile value 240, and Pu-241 Deposition Velocity (m/s) P C-14, Co-60, Cs-1 37, Eu-1 52, Eu-154, D 4.78217E-04 7 5 th percentile value H-3, 1-129, Nb-94, Ni-59, Ni-63, Sr-90, and Tc-99 Am-241, Cm-243, Cm-244, Np-237, Pu- 50th 238, Pu-239, Pu-240, and Pu-241 D 1.79444E-08 percentile value Resuspension Rate (s-') P C-14, Cm-245, Cm-246, Co-60, Cs-137, Eu-152, Eu-154, H-3, 1-129, Nb- D 6.70403E-10 2 5 th percentile value 94, Ni-59, Ni-63, Sr-90, and Tc-99 Air Exchange Rate for Room (h 1) P All D 8.35789E-01 2 5 th percentile value Room Area (m2 P All D 47.77 Humboldt Bay-specific data (General Office Building)2.49 Humboldt Bay-specific data (General Office Building)Time Fraction B All D 1 NUREG/CR-5512 Conservative inhalation rate for moderate to heavy activities
-Inhalation Rate (m 3/d) M All D 45.6 NUREG/CR-6697, Attachment C, section 5.1; NUREG/CR-5512, vol. 3, section 5.3.4 K-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Table 1: RESRAD-Build Input Parameter Values for Building Surface Area Factors Parameter Typea Nuclide Treatmentb Value Reference Source Indirect Ingestion Rate (m2 /h) B All D 0.0001 NUREG/CR6755 4.24, NUREG/CR-5512; site-specific Receptor Location B All D 2.82,1.0 room dimensions (General Office Building)Shielding Thickness (cm) P All D 0 Site-specific model-no shielding assumed RESRAD-Build default value Shielding Density (g/cm 3) P All D 2.4 for concrete -not used in DCGL calculations Default input -not used in Shielding Material P All D concrete DCGl calulatin DCGL calculations Number of Sources P All 1 Various size areas External Dose Conversion Factor, M All D RESRAD- FGR12 (mrem/y per pCi/cm 2) MAllD Build Library Air Submersion Dose Conversion RESRAD- FGR12 Factor, (mrem/y per pCi/m 3) M All D Build Library Inhalation Dose Conversion Factor, M All D RESRAD- FGR1 1 (mrem/pCi)
Build Library Ingestionl Dose Conversion Factor, M All D RESRAD- FGR1 1 (mrem/pCi)
__ Build Library Source 1: Floor Type P All area NUREG/CR-5512 Direction P All Z NUREG/CR-5512 site-specific data -center of Location of Center of Source: x,y,z P All D 4.24, 2.82, 0.0 floor based on dimensions for (m) General Office Building room Source length X-axis (m) P All D 8.47 Not used in calculations Source length Y-axis (m) P All D 5.64 Not used in calculations 100, 50, 10, 8, Recommended size for Class 1 Area (m ) P All D 6, 5, 4, 3, 2, 1 structure used as upper limit for area source size H-3 D 1.0 NUREG/CR-6697, Att. C Air Fraction All others 0.07 Section 8.6 K-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Table 1: RESRAD-Build Input Parameter Values for Building Surface Area Factors Parameter Typea Nuclide Treatmentb Value Reference Source Direct Ingestion (h1) B All D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P All D 0.1 NUREG-1727, Table C.7.1;NUREG/CR-6755, section 3.5 Time for Source Removal (d) P C-14, Co-60, Cs-137, Eu-152, Eu-154, D 52695.2 75th percentile value 1-129, and Nb-94 Sr-90 and Tc-99 D 33056.9 5 0 th percentile value D 18249.3 2 5 Th percentile value Am-24i, Cm-243, Cm-244, Cm-245, Cm-246, H-3, Ni-59, Ni-63, Np-237, Pu-238, Pu-239, Pu-240, and Pu-241 Radionuclide Concentration (pCi/m2) P All D 1.0 a P = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)b D = deterministic K-4 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix L Building Surface Area Factors L-1 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Area Factor Value: (m 2) Am-241 C-14 Cm-243 Cm-244 Cm-245 Cm-246 Co-60 Cs-137 Eu-152 Eu-154 H-3 1 9.7E+01 9.7E+01 8.9E+01 1.OE+02 3.9E+01 6.4E+01 1.3E+01 1.5E+01 1.3E+01 1.3E+01 1.OE+02 2 4.9E+01 4.9E+01 4.5E+01 5.0E+01 2.1E+01 3.3E+01 7.2E+00 8.2E+00 7.2E+00 7.2E+00 5.OE+01 3 3.3E+01 3.3E+01 3.0E+01 3.3E+01 1.5E+01 2.3E+01 5.3E+00 6.OE+00 5.3E+00 5.3E+00 3.3E+01 4 2.5E+01 2.4E+01 2.3E+01 2.5E+01 1.2E+01 1.8E+01 4.3E+00 4.9E+00 4.3E+00 4.3E+00 2.5E+01 5 2.0E+01 2.OE+01 1.9E+01 2.OE+01 9.9E+00 1.5E+01 3.7E+00 4.2E+00 3.7E+00 3.7E+00 2.OE+01 6 1.6E+01 1.6E+01 1.6E+01 1.7E+01 8.6E+00 1.2E+01 3.3E+00 3.8E+00 3.3E+00 3.3E+00 1.7E+01 8 1.2E+01 1.2E+01 1.2E+01 1.2E+01 6.9E+00 9.7E+00 2.8E+00 3.2E+00 2.8E+00 2.8E+00 1.2E+01 10 9.9E+00 9.9E+00 9.5E+00 1.OE+01 5.9E+00 8.OE+00 2.5E+00 2.8E+00 2.5E+00 2.5E+00 1.OE+01 50 2.OE+00 2.OE+00 2.OE+00 2.OE+00 1.8E+00 1.9E+00 1.2E+00 1.3E+00 1.2E+00 1.2E+00 2.OE+00 100 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.0E+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 Area Factor Value: (M 2) 1-129 Nb-94 Ni-59 Ni-63 Np-237 Pu-238 Pu-239 Pu-240 Pu-241 Sr-90 Tc-99 1 6.5E+01 1.3E+01 1.OE+02 1.OE+02 8.9E+01 1.0E+02 1.OE+02 1.0E+02 9.8E+01 9.0E+01 8.7E+01 2 3.4E+01 7.2E+00 5.0E+01 5.OE+01 4.5E+01 5.OE+01 5.OE+01 5.0E+01 4.9E+01 4.5E+01 4.4E+01 3 2.3E+01 5.3E+00 3.3E+01 3.3E+01 3.OE+01 3.3E+01 3.3E+01 3.3E+01 3.3E+01 3.OE+01 3.OE+01 4 1.8E+01 4.3E+00 2.5E+01 2.5E+01 2.3E+01 2.5E+01 2.5E+01 2.5E+01 2.5E+01 2.3E+01 2.3E+01 5 1.5E+01 3.7E+00 2.OE+01 2.OE+01 1.8E+01 2.OE+01 2.OE+01 2.OE+01 2.OE+01 1.9E+01 1.8E+01 6 1.3E+01 3.3E+00 1.7E+01 1.7E+01 1.6E+01 1.7E+01 1.7E+01 1.7E+01 1.7E+01 1.6E+01 1.5E+01 8 9.7E+00 2.8E+00 1.3E+01 1.2E+01 1.2E+01 1.3E+01 1.2E+01 1.2E+01 1.2E+01 1.2E+01 1.2E+01 10 8.OE+00 2.5E+00 1.OE+01 1.OE+01 9.4E+00 1.OE+01 1.OE+01 1.OE+01 9.9E+00 9.5E+00 9.4E+00 50 1.9E+00 1.2E+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 100 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.0E+00 L-2 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix M Input for Soil Area Factors M-1 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination The input parameters for the soil area factor (AF) calculations are the same as those in Appendix I with the following exceptions documented in Reference 15.The resident farmer scenario assumes a reasonably conservative scenario for establishing DCGL values for residual radioactivity in soil. The same scenario is assumed for the AF calculations.
Areas of difference in input values are explained in the following discussion.
- 1. Contaminated Fractions
-Food Pathways As the size of the contaminated area (A) varies, the fraction of the total food consumed by the receptor grown in the contaminated area will also vary. The fraction of the food supply grown in the contaminated is referred to as a "contaminated fraction." Accordingly, with the decrease in the size of the contaminated area, a decrease in the values for the contaminated fraction of plant food ingested (FPLANT), the contaminated fraction of meat ingested (FMEAT), and contaminated fraction of milk ingested (FMILK) will also result.Adjustments to FPLANT were made based on information in the RESRAD User's Manual[Reference 10]. The following shows how the RESRAD code determines the contamination fraction (FA 3) for plants: FA 3 = A/2,000 when 0 < A < 1,000 m 2 FA 3 = 0.5 when A > 1,000 m-2 The above equations from the RESRAD User's Manual were adjusted to vary the input values for FPLANT, FMEAT, and FMILK in order to remain consistent with the approach used for the soil DCGLs (Ref. 3.1). The soil DCGLs were developed using a value of 1.0 for each of the contamination fractions, which incorporated the assumption that 100% of plant food, meat, and milk is obtained from an area equal to 30,000 m 2 (the size of the contaminated zone at the Humboldt Bay site). As applied to plants, use of a FA value equal to 1.0 in the calculation of the soil DCGLs effectively multiplied Equation D.5 by a factor of 2 to yield a FA value of 1.0 for areas equal to or greater than 1,000 n2 Input values for FPLANT used in this calculation are determined as follows: FPLANT = A/1,000 when A< 1,000 m-2 FPLANT = 1.0 when A > 1,000 m 2 In addition, the following information from the RESRAD User Manual (Ref. 3.5) shows how the RESRAD code determines the contaminated fractions for meat (FA 4) and milk (FA 5): FA4&5 = A/20,000 when 0 < A < 20,000 mn 2 FA4&5 = 1.0 when A > 20,000 mi2 The above relationships were used to vary input values for FMEAT and FMILK in order to remain consistent with the approach used for the soil DCGLs [Reference 13]. Table M-1 shows the values for FPLANT, FMEAT, and FMILK as a function of the area of the contaminated zone.2. Size of the Contaminated Zone Another RESRAD input parameter that is influenced by changes in the size of the contaminated zone is the length parallel to aquifer flow (LCZPAQ).
As the area of the contaminated zone M-2 Humboldt Bay Power Plant License Termination Plan Revision 01 Chapter 6 Compliance with the Radiological Criteria July 2014 for License Termination decreases, the value of LCZPAQ will also decrease.
Because the contaminated zone is assumed circular in shape, the value for LCZPAQ is equal to the diameter of the circle: Area of a Circle, A = E r-2 Rearranging and substituting for r = LCZPAQ 2 LCZPAQ (m) = 2 A Table M-1 also shows the values for LCZPAQ as a function of the area of the contaminated zone.Table M-1: Contaminated Fractions as a Function of the Size of the Contaminated Zone RESRAD Parameter Input Value Contaminated Zone (m 2) 30,0000a 2,000 1,000 500 100 LCZPAQ (m) 195a 50 36 25 11 FPLANT 1.0a 1.0 1.0 0.5 0.10 FMEAT 1.0a 0.1 0.05 0.025 0.005 FMILK 1.0a 0.1 0.05 0.025 0.005 Contaminated Zone (m7) 50 10 5 1 LCZPAQ (m) 8.0 3.6 2.5 1.1 FPLANT 0.05 0.01 0.005 0.001 FMEAT 0.0025 0.0005 0.00025 0.00005 FMILK 0.0025 0.0005 0.00025 0.00005 1 a Parameter value for DCGL modeling.M-3 Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Appendix N Soil Area Factors N-i Humboldt Bay Power Plant License Termination Plan Chapter 6 Compliance with the Radiological Criteria for License Termination Revision 01 July 2014 Area Factor for Area Contaminated Zone (M 2): ROC 2000 1000 500 100 50 10 5 1 Am-241 C-14 Cm-243 Cm-244 Cm-245 Cm-246 Co-60 Cs-137 Eu-152 Eu-154 H-3 1-129 Nb-94 Ni-59 Ni-63 Np-237 Pu-238 Pu-239 Pu-240 Pu-241 Sr-90 Tc-99 1.OE+00 I.OE+00 1.OE+00 1.OE+00 I.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 I.OE+00 1.OE+00 1.OE+00 I.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.5E+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.OE+00 1.1E+00 1.1E+00 1.OE+00 1.2E+00 1.2E+00 1.OE+00 1.OE+00 1.OE+00 I.OE+00 I.OE+00 1.OE+00 1.OE+00 2.OE+00 4.OE+00 1.6E+00 2.OE+00 1.9E+00 2.OE+00 1.1E+00 1.3E+00 1.OE+00 1.OE+00 2.1E+00 2.2E+00 1.OE+00 2.3E+00 2.3E+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 2.OE+00 8.7E+00 4.2E+01 3.4E+00 9.7E+00 6.2E+00 9.7E+00 1.3E+00 1.7E+00 1.1E+00 1.2E+00 1.OE+01 1.1E+01 1.2E+00 1.2E+01 1.2E+0 1 9.OE+00 9.7E+00 9.7E+00 9.7E+00 8.8E+00 1.OE+01 1.OE+01 1.6E+01 1.1E+02 4.3E+00 1.9E+01 9.2E+00 1.9E+01 1.4E+00 1.9E+00 1.3E+00 1.3E+00 2.1E+01 2.2E+01 1.3E+00 2.3E+01 2.3E+0 1 1.6E+01 1.9E+01 1.9E+01 1.9E+01 1.6E+01 2.OE+01 2.OE+01 4.9E+0 1 1.OE+03 7.3E+00 7.6E+0 1 1.9E+01 7.6E+01 2.2E+00 3.OE+00 2.OE+00 2.OE+00 1.OE+02 9.9E+01 2.OE+00 1.2E+02 1.2E+02 5.6E+01 7.6E+01 7.6E+01 7.6E+0 1 4.9E+01 9.9E+01 1.OE+02 7.7E+0 1 2.5E+03 1.1E+01 1.2E+02 3.OE+01 1.3E+02 3.3E+00 4.5E+00 3.OE+00 3.OE+00 2.OE+02 1.9E+02 3.OE+00 2.3E+02 2.3E+02 9.8E+01 1.3E+02 1.3E+02 1.3E+02 7.8E+01 2.OE+02 2.OE+02 1.9E+02 1.8E+04 3.2E+01 2.8E+02 8.1E+01 2.8E+02 1.OE+01 1.4E+01 9.1E+00 9.2E+00 9.3E+02 8.3E+02 9.OE+00 1.2E+03 1.2E+03 3.5E+02 2.8E+02 2.9E+02 2.9E+02 1.9E+02 9.6E+02 I.OE+03.1.N-2 2 BARTLETT ENGINEERING CALCULATION Calculation Number: ENG-HB-001 Revision Number: 0 Calculation Title: RESRAD Input Parameter Sensitivitv Analysis -Humboldt Bav Preparer: Date 12/14 t Date / 2 Date c2 -olo--o Approval:-'iV re-sident Engineering/Corporate Project Manager Bartlett.60 Industrial Park Road Plymouth, MA 02360 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 1.0 PURPOSE The purpose of this calculation is to determine which of the input parameters for the resident farmer scenario have a significant impact on the calculated dose (i.e., those parameters whose values greatly influence the calculated dose; aka, "sensitive" input parameters).
The results of this calculation will support the development of soil derived concentration guideline levels (DCGLs) for the Pacific Gas & Electric (PGE) Humboldt Bay nuclear power site. This calculation is a deliverable product specified in the scope of work section in Contract No. GTO12 3500895165.
2.0 APPLICABILITY
This calculation addresses only the sensitivity analysis for input parameters for the resident farmer scenario that will be used to develop the DCGLs for soils at the PGE Humboldt Bay site.
3.0 REFERENCES
3.1 ANL/EAIS-8, Data Collection Handbook to Support Modeling the Impacts of Radioactive Material in Soil; U.S. Department of Energy -Argonne National Laboratory, April 1993.3.2 NUREG/CR-5512, Residual Radioactive Contamination from Decommissioning
- Volume 1: Technical Basis for Translating Contamination Levels to Annual Total Effective Dose Equivalent, Oct. 1992 (PNL-7994)
- Volume 3: Parameter Analysis, Draft Report for Comment, Oct. 1999 (SAND99-2148) 3.3 ANL/EAD-4, User's Manual for RESRAD Version 6, U.S. Department of Energy -Argone National Laboratory, July, 2001.3.4 NUREG/CR-6697, Development of Probabilistic RESRAD 6.0 and RESRAD-BUILD 3.0 Computer Codes, U.S. Nuclear Regulatory Commission, December 2000.3.5 Procedure ENG-AP-02, Verification of Software Operability 3.6 NUREG/CR-6676, Probabilistic Dose Analysis Using Parameter Distributions Developed for RESRAD and RESRAD-Build Codes, May 2000 (ANL/EAD/TM-89) 3.7 NUREG/CR-6692, "Probabilistic Modules for the RESRAD 6.0 and RESRAD-BUILD 3.0 Computer Codes", LePoire, D., et al., US Department of Energy- Argonne National Laboratory, November 2000.3.8 HBPP-TBD-001, Site-Specific Suite of Radionuclides, 8/2007.3.9 Humboldt Bay SAFSTOR Environmental Report, July 1984.3.1 OHumboldt Bay Power Plant Historical Site Assessment, 9/2008 Page 2 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 4.0 METHOD OF CALCULATION The operability of the RESRAD Version 6.5 code was verified on each computer used for code executions in accordance with Bartlett Engineering procedure ENG-AP-02, Verification of Software Operability
[ref. 3.5]. The RESRAD User's manual [ref. 3.3] provided guidance for code operation and execution.
The RESRAD code has undergone extensive review, benchmarking, verification, and vplidation.
Details on reviews, benchmarking, verification, and validation for the RESRAD code are summarized in Sections 5.1-5.4 of RESRAD User's manual [ref. 3.3].The RESidual RADioactivity (RESRAD) model and computer code was developed at Argonne National Laboratory (ANL) as a multifunctional tool to assist in developing radiological criteria for unrestricted release and assessing the dose or risk associated with residual radioactive material.
The RESRAD computer code is a pathway analysis model designed to evaluate the potential radiological dose associated with residual radioactive material for a defined receptor scenario.
The RESRAD software allow the user to evaluate radiation exposure through several pathways:
direct external radiation, inhalation, ingestion of plants, meat, milk, aquatic foods, and drinking water, inadvertent ingestion of contaminated soil, and radon exposure.The code requires input for numerous parameters in order to calculate the dose via various exposure pathways.
The probabilistic modules in RESRAD permit the user to perform a sensitivity analysis to identify parameters that have the greatest impact on dose. In addition, the probabilistic modules allow the evaluation of dose as a function of parameter distributions.
Monte Carlo simulations are executed using the Latin Hypercube Sampling techniques to generate vectors for the input parameters.
The approach taken in this calculation consists of two primary phases: the selection of input parameter values and performing RESRAD runs. The first phase involves classifying and prioritizing the RESRAD input parameters.
The selection process is based on guidance provided in NUREG/CR-6697
[ref. 3.4], NUREG/CR-6676
[ref. 3.6], and NUREG/CR-6692
[ref.3.7]. Figure 1 provides a flow diagram for the parameter selection process.Classification, prioritization, and treatment of input parameters:
Parameters were classified as behavioral, metabolic, or physical parameters consistent to the classifications found in NUREG/CR-6697
[ref. 3.4]. Behavioral parameters depend on the behavior of the receptor and the scenario definition.
Metabolic parameters are independent of the defined scenario, and represent the metabolic characteristics of the receptor.
Physical parameters are those parameters that would not change if the receptor changed.Following the classification process, parameters were assigned priority rankings.
Priority 1 parameters are high priority; Priority 2 parameters are medium priority; and Priority 3 parameters are low priority.
[ref. 3.4] provides prioritization rankings for input parameters.
Those rankings were adopted in this calculation.
The priority of a given parameter is based on:* the relevance of the parameter in dose calculations,* the variability of the dose because of changes in the parameter value,* the parameter type, and* the availability of parameter-specific data.(ABARTLETT Page 3 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 Input parameters were treated as either deterministic (a single value is assigned) or stochastic (a probability distribution is assigned).
Treatment depended on parameter type, availability of site-specific data, and the relevance of the parameter in the dose calculations.
- Behavioral and metabolic parameters were treated as deterministic and the assigned values were from NUREG/CR05512, volume 3 [ref. 3.2], NUREG/CR-6697 [ref. 3.4], or the RESRAD User Manual [ref. 3.3]. Parameters for which site-specific data are available were treated as deterministic.
- Physical parameters for which site-specific data are unavailable were assigned values based on priority.
Priority 1 and 2 physical parameters were treated stochastic and assigned probability distributions from NUREG/CR-6697
[ref. 3.4], or assigned a deterministic value from NUREG/CR-5512, volume 3 [ref. 3.2].Priority 3 physical parameters were treated as deterministic and were assigned values from NUREG/CR-5512, volume 3 [ref. 3.2], or the RESRAD User's Manual [ref. 3.3].Following the parameter selection process, RESRAD input files were developed based on the results of the parameter selection process and a parameter sensitivity analysis was performed, for each radionuclide of concern. Input correlations were applied based on guidance in NUREG/CR-6676
[ref. 3.6]. The following correlations were used for each code execution:
- Total porosity and bulk density = -0.99 (contaminated zone, unsaturated and saturated zones);* Total porosity and effective porosity 0.96 (unsaturated and saturated zones);* Effective porosity and bulk density = -0.99 (unsaturated and saturated zones); and* Well Pumping rate and irrigation
= 0.96.The RESRAD Probabilistic Output Report provides regression and correlation coefficients for the average doses at the user defined evaluation times. The Partial Rank Correlation Coefficient (PRCC) has been used to identify sensitive parameters.
[ref. 3.7]and NUREG/CR-6697
[ref. 3.4] recommend the use of the PRCC for cases where a non-linear relationship and widely disparate scales exists between the input and output. The guidance further recommends the use of the PRCC if strong correlations exist between input parameters.
The criterion for sensitivity used in this calculation was a PRCC value with an absolute value greater than 0.25. In addition, PRCC values greater than zero (positive value) or less than zero (negative value) identify whether sensitive parameters are positively or negatively correlated to dose, respectively.
Therefore, 7 5 th percentile values were determined for sensitive parameters that had positive PRCC values and 2 5 th percentile values were determined for sensitive parameters that had negative PRCC values. These 2 5 th and 7 5 th percentile values address the uncertainties associated with the input parameters and are proposed as reasonably conservative input for the DCGL calculation for the Humboldt Bay site.The 2 5 th and 75t' percentile values were obtained using the following method: 1. Open the RESRAD "*.buo" file generated during from the sensitivity run using the"View Interactive Output" button on the RESRAD navigator.
- 2. Click the "Results" tab in the interactive output window.3. Click on the "Graphics" tab.CIBARTLETT Page 4 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 4. Select "input vector" by scrolling through the choices under the "Primary Object" prompt.5. Select the desired parameter by scrolling through the choices under the "Input Parameter" prompt.6. Right click on the cumulative probability graph and select "Edit Chart Data." 7. Scroll down until the desired fraction (i.e., 0.25 or 0.75) is visible in column C2.The corresponding value in column C1 is the percentile value.The sensitivity analyses were run using 2000 observations and 1 repetition.
The Latin Hypercube Sampling (LHS) technique was used to sample the probability distributions for each of the stochastic input parameters.
The correlated or uncorrelated grouping option and a random seed of 1000 were used to preserve the prescribed correlations.
5.0 ASSUMPTIONS AND INPUT 5.1 Assumptions 5.1.1. Radionuclides of Concern (ROC). Twenty-two ROCs are identified for the Humboldt Bay [refs. 3.8 and 3.10]: Am-241, C-14, Cm243/244/245/246, Co-60, Cs-137, Eu-1 52, Eu-1 54, H-3, 1-129, Nb-94, Ni-59, Ni-63, Np-237, Pu-238/239/240/241, Sr-90, and Tc-99.5.1.2. Resident Farmer Scenario:
The dose model used to perform the sensitivity analyses is based upon the Resident Farmer Scenario defined in NUREG/CR-5512 Volume 3 (ref. 3.2). The average member of the critical group is the resident farmer that lives on the plant site, grows all or a portion of his / her diet onsite, and drinks water from a groundwater source onsite. The pathways used to estimate human radiation exposure resulting from residual radioactivity in the soil for this scenario includes the following:
- Direct external radiation exposure pathway;* Inhalation exposure pathway;* Ingestion exposure pathway:-plant foods grown in the soil material containing residual radioactivity,-meat and milk from livestock fed with fodder grown in soil containing residual radioactivity and watercontaining residual radioactivity,-drinking water containing residual radioactivity from a well, and-aquatic food from a pond containing residual radioactivity;
- Inadvertent ingestion of contaminated soil 5.1.3. Conceptual Model: The conceptual hydrological model for this resident farmer scenario has three geological strata: 1) a contaminated zone, 2) an unsaturated zone, and 3) a saturated zone. The contaminated zone is assumed to be uncovered, equivalent in size to the largest contiguous Class 1 and 2 area at the Humboldt Bay site (see Figure 2), and variable in thickness.
The unsaturated zone is initially uncontaminated and also variable in thickness.
The groundwater in the saturated zone is assumed initially uncontaminated.
5.2 Lnput (BARTLETT Page 5 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 5.2.1. Contaminated zone: The thickness of the contaminated zone was determined from characterization soil sample data provided in the HSA [ref. 3.10]. Plant-related radioactivity was detected in surface soil samples (6 inches or less in depth) and in a sub-surface sample collected at a depth of 11.5 feet. To account for the uncertainty of thickness of the contaminated zone, a uniform distribution was established using a minimum thickness equal to 6 inches and a maximum thickness equal to 11.5 feet.Well installation logs for 22 groundwater monitoring wells were reviewed for soil type descriptions to a depth of 11.5 ft (the maximum thickness of the contaminated zone)to determined a representative soil type for the contaminated zone. The soil type descriptions and the USCS codes recorded on the well logs were then compared to the soil categories listed Tables 3.1-1 and 3.2-1 in Attachment C to NUREG/CR-6697 [ref. 3.4]. Soil descriptions recorded in the "Lithologic Description" section of the logs served as the primary factor for selecting a RESRAD soil type category from the surface to a depth. When those descriptions did not match one of the soil types given in Attachment C to NUREG/CR-6697, the USCS code was used. Soil type selection focused on two soil characteristics:
density and total porosity.
These characteristics were weighted by depth and overall averages determined.
The soil type for the contaminated zone was selected based on matching the overall average density and total porosity to the soil types given in Tables 3.1-1 and 3.2-1 in Attachment C to NUREG/CR-6697.
Based on that approach, "clay loam" was selected from the soil type provided in NUREG/CR-6697
[ref. 3.4] as reasonably representative soil type for the contaminated zone. The "clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as hydraulic conductivity and the RESRAD soil-b parameter.
Table 1 A summarizes the soil type determination for the contaminated zone.5.2.2. Unsaturated zone: The thickness of the unsaturated zone was determined from 2009 groundwater monitoring data, which showed a minimum depth to groundwater equal to approximately 4.9 feet and a maximum depth equal to approximately 27 feet. To account for the uncertainty of thickness of the unsaturated zone, a uniform distribution was established using a minimum thickness equal to 0 inches and a maximum thickness equal to 26.5 feet.Using the same approach as that used to determine the soil type for the contaminated zone; "clay loam" was selected as reasonably representative soil type for the unsaturated zone. "Clay loam" was selected from the soil type provided in NUREG/CR-6697
[ref. 3.4] as reasonably representative soil type for the unsaturated zone. The "clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as effective porosity, hydraulic conductivity, and the RESRAD soil-b parameter.
Table 1 B summarizes the soil type determination for the unsaturated zone.5.2.3. Saturated zone: Using the same approach as that used to determine the soil type for the contaminated and unsaturated zones; "silty clay loam" was selected as reasonably representative soil type for the saturated zone. The "silty clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as effective porosity, hydraulic conductivity, and the RESRAD soil-(&BARTLETT Page 6 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 b parameter.
Table 1C summarizes the soil type determination for the saturated zone.5.2.4. The value of the Lower Elk River Watershed
[from the Humboldt Bay Power Plant FSAR], 2.52E+07 M 2 , was used as input for the RESRAD parameter"Watershed Area for Nearby Streams and Ponds." 5.2.5. Input values for annual precipitation and evapo-transpiration were obtained from the SAFSTOR Environmental Report [ref. 3.9]. NOAA recorded average wind speed data obtained from the National Climate Data Center website were used as the basis for wind speed.5.2.6. Table 2 summarizes the parameter name, type, priority, treatment, values/distribution and the reference source that provides the bases for each input parameter.
Some parameter values required calculations.
These calculations are documented in the next section.6.0 CALCULATIONS AND RESULTS 6.1 Figure 2, Area of the Contaminated Zone, was generated with AutoCAD. The size of the contaminated zone is based on the largest contiguous MARSSIM Class 1 and Class 2 at the Humboldt Bay site and includes the Protected Area and adjacent impacted areas. That area, 29,781 M 2 , was then rounded to the nearest thousand.For modeling purposes, the size of the Humboldt Bay contaminated zone is 30,000 2 m .6.2 The length parallel to the aquifer is defined as is the maximum horizontal distance measured in the contaminated zone, from its up gradient edge to the down gradient edge, along the direction of the groundwater flow in the underlying aquifer. It was assumed that the area of the contaminated zone could be approximated by a circle with an area of 30,000 m 2 (the area of the contaminated zone). The diameter of the circle is suitable as input for the length parallel to the aquifer parameter and is calculated as follows: A =-n- r2 Where A is the area in M2 and r is the radius in meters.r =r = 97.7 m D = 2 x r = 2
- 97.7 D = 195 m Therefore, the length of parallel is 195 m.6.3 Contaminated zone erosion rate: The slope of the contaminated zone was determined using elevations from site contour maps provided in the HSA [ref. 3.10]to determine the site grades in 3 directions within the contaminated zone (shown in Figure 3, Site Slope Directions).
This determination is summarized below: BARTLETT Page 7 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 Approximate Grade Distance Estimated Trial Difference between Points' Slope A 9.1 m 110 m 8%B 6.1 m 151 m 4%C 6.1 m 85 m 7%average 6%'Locations of points shown in Figure 3.Data from NUREG/CR-6697, Attachment C, Section 3.8, was used to select the appropriate Erosion Rate that corresponds to the Humboldt Bay site slope of 6%.The data below was generated using NUREG/CR-6697's row-crop Erosion Rate of 6.0 E-4 for a 2 % slope. As recommended in this section of NUREG/CR-6697, the Erosion Rate of 6.0 E-4 for a 2% slope was assumed based on a farm-garden scenario where the dose contribution from the food ingestion pathway is expected to be significant.
Erosion rates where then calculated for 5, 10 and 15 percent slopes (presented below) using their rate increase factors as specified in the Section 14.2 of Reference 3.1.Percent Erosion Rate Slope (m/y)2 6.OE-4 5 1.8E-3 10 4.2E-3 15 9.OE-3 Figure 5, Erosion Rate vs. Slope, was generated by plotting the above erosion rate/slope data. A value of 2.2E-03 m/y was selected from Figure 5 as input for the Erosion Rate parameter.
6.4 Field capacity defines the relationship of field capacity (residual water content) to effective porosity [ref. 3.1]. The field capacity is the ratio of the volume of water retained in the soil sample, after all drainage has ceased, to the total volume of the soil sample. Equation 4.4 in Reference 3.1 relates total and effective porosities to field capacity as follows: Effective Porosity = Total Porosity -Field Capacity Rearranging this equation: Field Capacity = Total Porosity -Effective Porosity For the Contaminated and Unsaturated Zones, the mean total porosity for clay loam soil is of 0.41 and the mean effective porosity is 0.315 [ref. 3.4]. Therefore the field capacity for these two zones is approximately:
Field Capacity = 0.41 -0.315 = 0.095 For the Saturated Zone, the mean total porosity for silty clay loam soil is of 0.43 and the mean effective porosity is 0.342 [ref. 3.4]. Therefore the field capacity for this zone is approximately:
(&BARTLETT Page 8 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 Field Capacity = 0.43 -0.342 = 0.088 6.5 Hydraulic conductivity in the unsaturated zone: Attachment C to NUREG/CR-6697 discusses this parameter's use in the determination of the groundwater flow rate, which effects the rise time and the dilution of radionuclides in the well water. The method for calculating the hydraulic gradient is given in NUREG/CR-6697, Attachment C, Equation 3.6-1: J, = (hi -h 2)/Ax Where Jx is the hydraulic gradient, h, and h 2 represent the hydraulic heads or the water level elevations at location 1 and 2, and A, is the distance between the two locations.
The water level elevations are referenced to mean sea level (msl). An average value for the Humboldt Bay site was calculated from three separate hydraulic gradient determinations as follows below. Figure 4, Well Locations, shows the well locations.
2009 Average Distance (ft)Well Type GW Elevation Between Wells Jx RCW-SFP-1 intermediate 5.65 RCW-SFP-2 intermediate 5.41 194 0.0012 1C-MW-08 shallow 5.23 1E-MW-13 shallow 5.53 289 0.0028 RCW-CS-1 deep 5.23 RCW-CS-5 deep 6.03 157 0.0020 Average 0.0020 6.6 Runoff Coefficient:
Table 10.1 of Reference 3.1 provides the equation below to calculate the Runoff Coefficient, Cr, for an agricultural environment and also provides values for the terms cl, c 2 , and c 3.Cr = 1 -c 1 -c 2 -C3 cl = 0.2 for rolling land with an average slope between 4.6 to 6.1 m/mi. (assumed representative for the Humboldt Bay site)C2 = 0.2 for intermediate combinations of clay and loam C3 = 0.1 for cultivated lands (consistent with the resident farmer scenario).
Cr = 1 -0.2 -0.2 -0.1 = 0.5 6.7 Fraction of Time Spent Indoors: Table 6.87 in NUREG/CR-5512
[ref. 3.2] provides values for the residential parameters.
The indoors time is given as 240 days.Dividing by 365.25 d/y yields the fraction of time spent indoors equal to 0.6571.6,8 Fraction of Time Spent Outdoor: Table 6.87 in NUREG/CR-5512
[ref. 3.2] provides values for the residential parameters.
The outdoor time value includes the period outdoors, 40.2 days, and time spent gardening, 2.92 days, which yields a sum of 42.92 days outdoor. Dividing by 365.25 d/y gives a fraction of time spent of 0.1175.W, BARTLETT Page 9 Bartlett Engineering ENG-HB-001 RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 6.9 Inhalation Rate: Appendix C to NUREG/CR-6697
[ref. 3.24] provides an estimated daily inhalation rate equal to 23 m 3/d for an adult male. This results an annual inhalation rate equal to approximately 8400 m 3/y.6.10 Soil. Ingestion Rate: Table 6.87 in NUREG/CR-5512
[ref. 3.2] provides values for the residential parameters.
The soil ingestion rate is given as 0.05 g/d; multiplying by 365.25 d/y gives a soil ingestion rate of 18.26 g/y.6.11 Drinking Water Intake: Table 6.87 in NUREG/CR-5512
[ref. 3.2] provides values for the residential parameters.
The drinking water ingestion rate is given as 1.31 liters/d; multiplying by 365.25 d/y gives a drinking water ingestion rate of 478.5 liters/y.6.12 Irrigation Rate: Attachment C to NUREG/CR-6697
[ref. 3.4] discusses the Irrigation Rate in terms of the Evapotranspiration Coefficient, and provides the following equation for the Evapotranspiration Coefficient:
Ce = (ETr)/(1-Cr)(Pr)
+ IRr Where: ETr = the Evapotransporation Rate (m/y) = 0.61 [ref. 3.9]Pr = the Precipitation Rate (m/y) = 0.91 [ref. 3.9]IRr = the Irrigation Rate (m/y) and Cr = the Runoff Coefficient
= 0.5 (from step 6.5).NUREG/CR-6697, Attachment C, Section 4.3 defines the Evapotranspiration Coefficient, Ce, as the ratio of the total volume of water (a combination of evaporation from soil surfaces and transpiration from vegetation) transferred to the atmosphere to the total volume of water available within the root zone of the soil.The NUREG/CR recommends the use of a uniform distribution with minimum and maximum values for Ce equal to 0.5 and 0.75, respectively, and with 0.625 as median.Rearranging this equation above, the Irrigation Rate can be expressed as: IRr = (ETr/Ce)-(1-Cr)(Pr)
The input values for the variables in the equation above follow: Use of Min Use of Max Variable Ce Value Ce Value ETr (m/y) 0.61 0.61 Pr (m/y) 0.91 0.91 Cr 0.5 0.5 Ce 0.5 0.75 IRr (m/y) 0.77 0.36 The irrigation rate equation yields a minimum IRr value equal to 0.36 and a maximum IRr value equal to 0.77 m/y. A uniform distribution with minimum and maximum value equal to 0.36 and 0.77, respectively, and a median equal to 0.56 was assigned as input for this parameter.
(,BARTLETT Page 10 Bartlett Engineering RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-001 Rev. 0 6.13 Well Pumping Rate: Attachment C to NUREG/CR-6697
[ref. 3.4] states that "A site-specific input distribution for well pumping rate can be determined as the sum of individual water needs." The household use component as determined from the domestic use data is summarized below.Water Use Component (family of four) Median Minimum Maximum Household* (m 3/y) 374 374 374 Livestock (m 3/y) 76.7 76.7 76.7 Contaminated fraction for Irrigation 1 1 1 fp = 1 (assumes irrigation of the entire area))Irrigation rate Ir (m/y) 0.56 0.36 0.76 Irrigation water (m 3/y) fp x I, X 2000 1120 720 1520 Drinking Water (m 3/y) 2.04 2.04 2.04 Total for Family of Four (m 3/y)1573 1173 1973* Household Use: Domestic Water Use for family of four, 376 m 3/y, minus the drinking water component, 1.91 m 3/y, or approximately 374 m 3/y.Domestic water use based on 272 gallons per day per family and drinking water based on .use of 511 L/y per individual.
Conversion:
272 gal/day 3.79E-3 gal/i 3
- 365.25day/y
= 376 m 3/y 511 L/y-lnd 4 Ind
- 1 m 3/1 OOOL = 2.04 mi/y.A uniform distribution with a minimum value equal to 1173 m 3/y, a maximum value equal to 1973 m 3/y, and a median value equal to 1573 m 3/y was assigned as input for the Well Pump Rate parameter.
SY BARTLETT Page 11 Bartlett Engineering RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-001 Rev. 0 Classify parameter as"Sensitive" or "Non-sensitive" l 4"Sensitive" if IPRCCI > 0.25 1 -II TEDE positively correlated to parameter if PRCC > 0 Assign site-specific value or distribution, or 75"' percentile TEDE negatively correlated to parameter if PRCC <0 Assign site-specific value or distribution, or 25"' percentile
[ Jr" Non-ensitive" if IPRCCI<02 Assign site-specific value, median value or distribution Input parameter value for DCGL Input parameter value for DCGL Figure 1: Parameter Selection Process (CBARTLETT Page 12 Bartlett Engineering RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-001 Rev. 0 Figure 2: Area of the Contaminated Zone KPARTLETT Page 13 Bartlett Engineering RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-001 Rev. 0 Figure 3: Site Slope Directions iiMARTLETT Page 14 Bartlett Engineering RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-O01 Rev. 0 1--2-1-2-3-4-5 16 17'2 ,i Ow)I* AH I\ \' I/ I"1':©p. Es~~CIV.~PI w MOWM NEU HU-JJ 1v I':h, (5w Figure 4: Well Locations AýEBARTLETT Page 15 Bartlett Engineering RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-001 Rev. 0 1.OOE+00 1.OOE-01 1.OOE-02 E 4k-0 0 wU 1.OOE-03 1.OOE-04% Slope Figure 5: Erosion Rate vs. Slope (V BARTLETT Page 16 Bartlett Engineering RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-001 Rev. 0 7.0 RESULTS 7.1 RESRAD 6.5 was executed for each ROC using the input values provided in Table 2. An absolute PRCC value >0.25 was used as the criterion for identifying sensitive input parameters.
7.2 Table 3 summarizes the sensitive parameters for each ROC. Selected pages from the RESRAD 6.5 Uncertainty Reports from each code execution are provided in Appendix A.7.3 For the sensitive parameters, the 7 5 th percentile value of the distribution was selected when the absolute value of the PRCC was >0.25 and the PRCC had a positive value. The 2 5 th percentile value was selected when the absolute value of the PRCC value was >0.25 but had a negative value. Table 4, RESRAD-Generated Percentile Values for Sensitive Input Parameters, summaries the 2 5 th and 7 5 th percentile values for each identified sensitive input parameter and identifies the ROC for which a parameter was found to be sensitive.
8.0 CONCLUSION
8.1 Sensitive input parameters varied among the ROCs and included parameters such as thickness of the contaminated zone, Kd values, transfer factors (plant, milk, meat), depth of roots, external shielding factor, and thickness of evasion layer (for C-14) in soil.8.2 The 2 5 th and 7 5 th percentile values for sensitive input parameters have been determined from the parameter distributions and provide reasonably conservative input for DCGL development.
I, BARTLETT Page 17 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 A: Soil Type Determination for the Contaminated Zone Weighted Weighted Well Delta Weighting ARCADIS Mean Mean Mean Mean Name Depth (ft) Depth Factor Descriptiona USCS code -Descriptiona Density Density Porosity Porosity 1 H-MW-01 .5 to 2 1.5 0.167 Sandy silt ML silt 1.431 0.239 0.46 0.077 2 to 4 2 --- No Data No Data ............
4 to 5 1 0.111 Sandy silt ML silt 1.431 0.159 0.46 0.051 5 to 6.5 1.5 0.167 Sandy silt ML silt 1.431 0.239 0.46 0.077 6.5 to 8.5 2 0.222 Sandy silt ML silt 1.431 0.318 0.46 0.102 8.5 to 10 1.5 0.167 Silt ML silt 1.431 0.39 0.46 0.077 10 to 11.5 1.5 0.167 Silty Clay CH clay of high plasticity 1.696 0.283 0.36 0.060 Average 1.475 0.443 1 H-MW-02 0-5 5 --- No Data No Data ---.........
5 to 8 3 0.462 Silty Clay CL clay 1.696 0.783 0.36 0.166 8 to 11.5 3.5 0.538 Silty Clay CL clay 1.696 0.913 0.36 0.194 Average 1.70 0.360 5G-MW-03 0 to 4.5 4.5 0.391 Clayey silt ML Silt 1.431 0.56 0.46 0.180 4.5 to 8 3.5 0.304 Silty Clay ML Silt 1.696 0.52 0.36 0.110 8 to 11.5 3.5 0.304 Clayey Silt ML Silt 1.431 0.44 0.46 0.140 Average 1.51 0.430 1A-MW-04 1 to 8 7 0.667 Sandy Clay CL clay 1.643 1.10 0.38 0.253 8 to 11.5 3.5 0.333 Lean Clay CL clay 1.643 0.55 0.38 0.127 Average 1.64 0.380 1 C-MW-05 1 to 8 7 0.667 Silty Clay CL clay 1.696 1.13 0.36 0.240 8 to 11.5 3.5 0.333 Clay CH clay of high plasticity 1.643 0.55 0.38 0.127 Average 1.68 0.367 (f)BARTLETT Page 18 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1A: Soil Type Determination for the Contaminated Zone Weighted Weighted Well Delta Weighting ARCADIS Mean Mean Mean Mean Name Depth (ft) Depth Factor Descriptiona USCS code -Descriptiona Density Density Porosity Porosity 1 C-MW-06 .5 to 3 2.5 0.227 Silty Clay CL clay 1.696 0.39 0.36 0.082 3 to 11 8 0.727 Clay CH clay of high plasticity 1.643 1.19 0.38 0.276 11 to 11.5 0.5 0.045 Silt ML Silt 1.431 0.07 0.46 0.021 Average 1.65 0.379 1C-MW-07 .5 to2 1.5 0.136 Silty Clay CL clay 1.696 0.23 0.36 0.049 2 to 7 5 0.455 Silty Clay CL clay 1.696 0.77 0.36 0.164 7 to 8 1 0.091 Silty Clay CL clay 1.696 0.15 0.36 0.033 8 to 10.5 2.5 0.227 Clay CH clay of high plasticity 1.643 0.37 0.38 0.086 10.5 to 11.5 1 0.091 Clayey Silt ML Silt 1.696 0.15 0.46 0.042 Average 1.68 0.374 1C-MW-08 .5 to 8 7.5 0.682 Silty Clay CL clay 1.696 1.16 0.36 0.245 8 to 11 3 0.273 Silty Clay CL clay 1.696 0.46 0.36 0.098 11 to 11.5 0.5 0.045 Clay CH clay of high plasticity 1.643 0.07 0.38 0.017 Average 1.69 0.361 1D-MW-10 .5 to 4 3.5 0.318 sand SW fine grain Sand 1.5105 0.48 0.43 0.137 4 to 9 5 0.455 clay CH clay of high plasticity 1.643 0.75 0.38 0.173 9 to 11.5 2.5 0.227 clay CL clay 1.643 0.37 0.38 0.086 Average 1.60 0.396 (40 8A RT LETT Page 19 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 A: Soil Type Determination for the Contaminated Zone Weighted Weighted Well Delta Weighting ARCADIS Mean Mean Mean Mean Name Depth (ft) Depth Factor Descriptiona USCS code -Descriptiona Density Density Porosity Porosity 1 E-MW-1 2 0 to 3.5 3.5 0.304 clay CH clay of high plasticity 1.643 0.50 0.38 0.116 3.5 to 5.5 2 0.174 silty clay CH clay of high plasticity 1.696 0.29 0.36 0.063 5.5 to 10.5 5 0.435 clayey silt ML Silt 1.431 0.62 0.46 0.200 10.5 to 11.5 1 0.087 sandy silt ML Silt 1.431 0.12 0.46 0.040 Average 1.54 0.418 RCW-CS-1 .5 to 4 3.5 0.318 silt with clay ML Silt 1.431 0.46 0.46 0.146 4 to 11.5 7.5 0.682 clay with silt CL clay 1.643 1.12 0.38 0.259 Average 1.58 0.405 RCW-CS-2 .5 to 4 3.5 0.318 silt with clay ML Silt 1.431 0.46 0.46 0.146 4 to 11.5 7.5 0.682 clay with silt CL clay 1.643 1.12 0.38 0.259 Average 1.58 0.405 RCW-CS-3 1.5 to 7 5.5 0.550 silt w/ sand ML Silt 1.431 0.79 0.46 0.253 7 to 11 4 0.400 silt w/clay ML Silt 1.431 0.57 0.46 0.184 11 to 11.5 0.5 0.050 clay w/silt CL clay 1.643 0.08 0.38 0.019 Average 1.44 0.456 RCW-CS-4 1 to 11.5 10.5 1.000 silt w/clay ML Silt 1.431 1.43 0.46 0.460 Average 1.43 0.460 RCW-CS-5 .5 to 11.5 11 1.000 silt w/clay ML Silt 1.431 1.43 0.46 0.460 Average 1.43 0.460 (&BARTLETT Page 20 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 A: Soil Type Determination for the Contaminated Zone Weighted Weighted Well Delta Weighting ARCADIS Mean Mean Mean Mean Name Depth (ft) Depth Factor Descriptiona USCS code -Descriptiona Density Density Porosity Porosity RCW-SFP-1 .5 to 5 4.5 0.409 silt w/ sand ML Silt 1.431 0.59 0.46 0.188 5 to 6 1 0.091 clay w/silt CL clay 1.643 0.15 0.38 0.035 6 to 11.5 5.5 0.500 silt w/ sand ML Silt 1.431 0.72 0.46 0.230 Average 1.45 0.453 RCW-SFP-2 1 to 11.5 10.5 1.000 silt w/clay ML Silt 1.431 1.43 0.46 0.460 Average 1.43 0.460 MW-1 .5 to 3 2.5 0.227 sandy clay CL sandy clay 1.643 0.37 0.38 0.086 3 to 9 6 0.545 clay CH clay 1.643 0.90 0.38 0.207 9 to 11.5 2.5 0.227 Clayey Silt ML Silt 1.431 0.33 0.46 0.105 Average 1.59 0.398 MW-2 0 to 7 7 0.609 sand and sand 1.5105 0.92 0.43 0.262 gravel 7 to 8.5 1.5 0.130 clay CH clay 1.643 0.21 0.38 0.050 8.5 to 11.5 3 0.261 Clayey Silt ML Silt 1.431 0.37 0.46 0.120 Average 1.51 0.431 MW-4 1.5 to 5.7 4.2 0.420 silty clay CL silty clay 1.696 0.71 0.36 0.151 5.7 to 9 3.3 0.330 silt ML Silt 1.431 0.47 0.46 0.152 9 to 11.5 2.5 0.250 Clayey Silt CL clay 1.643 0.41 0.38 0.095 Average 1.60 0.398 MW-6 3.7 to 4.5 0.8 0.103 clay CH clay 1.643 0.17 0.38 0.039 4.5 to 11.5 7 0.897 Clayey Silt ML Silt 1.431 1.28 0.46 0.413 Average 1.45 0.452~BARTLETT Page 21 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Table 1A: Soil Type Determination for the Contaminated Zone Weighted Weighted Well Delta Weighting ARCADIS Mean Mean Mean Mean Name Depth (ft) Depth Factor Descriptiona USCS code -Descriptiona Density Density Porosity Porosity MW-11 0 to 4.8 4.8 0.417 sand SP sand 1.5105 0.63 0.43 0.179 4.8 to 11.3 6.5 0.565 clay CH clay 1.643 0.93 0.38 0.215 11.3 to 11.5 0.2 0.017 Clayey Silt ML Silt 1.431 0.02 0.46 0.008 Average 1.58 0.402 Overall Average 1.56 0.413 Selected soil type based on overall averages for density and porosity: Clay Loam a Bold font indicates description used.VIBARTLETT Page 22 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Table 1 B: Soil Type Determination for the Unsaturated Zone Weighted Weighted Delta Weighting ARCADIS Mean Mean Mean Mean Well Name Depth (ft) Depth Factor Description USCS code Density Density Porosity Porosity 1 H-MW-01 .5 to 2 1.5 0.061 Sandy silt ML silt 1.431 0.088 0.46 0.028 2 to 4 --- No Data No Data ............
4 to 5 1 0.041 Sandy silt ML silt 1.431 0.058 0.46 0.019 5 to 6.5 1.5 0.061 silt clay ML silt 1.696 0.104 0.36 0.022 6.5 to 8.5 2 0.082 silt loam ML silt 1.4575 0.119 0.45 0.037 8.5 to 10 1.5 0.061 Silt ML silt 1.431 0.088 0.46 0.028 10 to 12.5 2.5 0.102 Silty Clay CH Clay-high plasticity 1.696 0.173 0.36 0.037 12.5 to 16.5 4 0.163 Clay CH Clay-high plasticity 1.643 0.268 0.38 0.062 16.5 to 20 3.5 0.143 Silt ML silt 1.431 0.20 0.46 0.066 20 to 25.5 5.5 0.224 Sandy silt ML silt 1.431 0.292 0.46 0.094 25.5 to 27 1.5 0.061 Sand SW sand 1.5105 0.09 0.43 0.026 Average: 1.498 0.435 1 H-MW-02 0 -- No Data No Data --- ---.....5 to 8 3 0.136 Silty Clay CL silty clay 1.696 0.231 0.36 0.049 8 to 12.5 4.5 0.205 Silty Clay CL Silty Clay 1.696 0.347 0.36 0.074 12.5 to 16.5 3 0.136 Clay CH clay 1.643 0.224 0.38 0.052 16.5 to 20 4.5 0.205 Clay CH Clay 1.643 0.340 0.38 0.078 20 to 21 1 0.045 Clayey Silt ML silt 1.431 0.075 0.46 0.021 21 to 26 6 0.273 Silty Sand SM loamy sand 1.5635 0.35 0.41 0.091 26 to 27 1 0.045 Silt ML silt 1.431 0.07 0.46 0.021 Average: 1.624 0.387 5G-MW-03 0 to 4.5 4.5 0.167 Clayey silt ML Silt 1.431 0.24 0.46 0.077 4.5 to 8 3.5 0.130 Silty Clay ML Silt 1.696 0.22 0.36 0.047 8 to 12.5 4.5 0.167 Clayey Silt ML Silt 1.431 0.24 0.46 0.077 12.5 to 17 4.5 0.167 Sandy Silt ML silt 1.431 0.24 0.46 0.077 17 to 20 3 0.111 Silty Clay CH Silty Clay 1.696 0.19 0.36 0.040 20 to 24.5 4.5 0.167 Clay CH clay 1.643 0.274 0.38 0.063 LCOBARTLETT Page 23 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 B: Soil Type Determination for the Unsaturated Zone Weighted Weighted Delta Weighting ARCADIS Mean Mean Mean Mean Well Name Depth (ft) Depth Factor Description USCS code Density Density Porosity Porosity 24.5 to 26.5 2 0.074 Clayey silt ML silt 1.431 0.11 0.46 0.034 26.5 to 27 0.5 0.019 Poorly graded Sand SP Sand 1.5105 0.03 0.43 0.008 Average: 1.53 0.422 1A-MW-04 1 to 8 7 0.292 Sandy Clay CL clay 1.643 0.48 0.38 0.111 8 to 14 6 0.250 Lean Clay CL Clay 1.643 0.41 0.38 0.095 14 to 18 4 0.167 Fat Clay CH Clay 1.643 0.27 0.38 0.063 18 to 19 1 0.042 Lean Clay CL clay 1.696 0.07 0.36 0.015 19 to 21.5 2.5 0.104 Clayey Sand SC loamy sand 1.5635 0.16 0.41 0.043 21.5 to 25 3.5 0.146 Sand SP Sand 1.5105 0.22 0.43 0.063 Average: 1.62 0.390 1C-MW-05 1 to 8 7 0.292 Silty Clay CL clay 1.696 0.49 0.36 0.105 8 to 12 4 0.167 Clay CH clay of high plasticity 1.643 0.27 0.38 0.063 12 to 14 2 0.083 Silty Sand SM loamy sand 1.5635. 0.13 0.41 0.034 14 to 17 3 0.125 Sand SP Sand 1.5105 0.19 0.43 0.054 17 to 18.5 1.5 0.063 Clay CH clay 1.696 0.11 0.36 0.023 18.5 to 21.5 3 0.125 Silty Sand SM loamy sand 1.5635 0.20 0.41 0.051 21.5 to 23.5 2 0.083 Sand SP Sand 1.5105 0.13 0.43 0.036 23.5 to 24.5 1 0.042 Sandy Clay CL Sandy Clay 1.643 0.07 0.38 0.016 24.5 to 25 0.5 0.021 Sand SP Sand 1.5105 0.03 0.43 0.009 Average: 1.61 0.391 LFBARTLETT Page 24 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 B: Soil Type Determination for the Unsaturated Zone Weighted Weighted Delta Weighting ARCADIS Mean Mean Mean Mean Well Name Depth (ft) Depth Factor Description USCS code Density Density Porosity Porosity 1 C-MW-06 .5 to 3 2.5 0.102 Silty Clay CL clay 1.696 0.17 0.36 0.037 3 to 11 8 0.327 Clay CH clay of high plasticity 1.643 0.54 0.38 0.124 11 to 14 3 0.122 Silt ML Silt 1.431 0.18 0.46 0.056 14 to 18.5 4.5 0.184 Poorly Graded Sand SP Sand 1.5105 0.28 0.43 0.079 18.5 to 25 6.5 0.265 Silty Sand SM loamy sand 1.5635 0.41 0.41 0.109 Average: 1.58 0.405 1C-MW-07 .5 to2 1.5 0.061 Silty Clay CL clay 1.696 0.10 0.36 0.022 2 to 7 5 0.204 Silty Clay CL clay 1.696 0.35 0.36 0.073 7 to 8 1 0.041 Silty Clay CL clay 1.696 0.07 0.36 0.015 8 to 10.5 2.5 0.102 Clay CH clay of high plasticity 1.643 0.17 0.38 0.039 10.5 to 12 1.5 0.061 Clayey Silt ML Silt 1.431 0.09 0.46 0.028 12 to 14 2 0.082 Clay CL clay 1.696 0.14 0.36 0.029 14 to 15.5 1.5 0.061 Poorly Graded Sand SP Sand 1.5105 0.09 0.43 0.026 15.5 to 21.5 6 0.245 Silty Sand SM loamy sand 1.5635 0.38 0.41 0.100 21.5 to 25 3.5 0.143 Clayey Sand SC clay 1.696 0.24 0.36 0.051 Average: 1.63 0.385 1 C-MW-08 .5 to 8 7.5 0.306 Silty Clay CL clay 1.696 0.52 0.36 0.110 8to 11 3 0.122 Silty Clay CL clay 1.696 0.21 0.36 0.044 11 to 21 10 0.408 Clay CH clay of high plasticity 1.643 0.67 0.38 0.155 21 to 23.5 2.5 0.102 Sandy Clay CL Sandy Clay 1.643 0.17 0.38 0.039 23.5 to 25 1.5 0.061 Clayey Sand SC loamy sand 1.5635 0.10 0.41 0.025 Average: 1.66 0.373 (40 B ART LETT Page 25 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 B: Soil Type Determination for the Unsaturated Zone Weighted Weighted Delta Weighting ARCADIS Mean Mean Mean Mean Well Name Depth (ft) Depth Factor Description USCS code Density Density Porosity Porosity 1D-MW-10 .5 to 4 3.5 0.143 sand SW fine grain Sand 1.5105 0.22 0.43 0.061 4 to 9 5 0.204 clay CH clay of high plasticity 1.643 0.34 0.38 0.078 9 to 13.5 4.5 0.184 clay CL clay 1.643 0.30 0.38 0.070 13.5 to 16 2.5 0.102 Clayey Sand SC loamy sand 1.5635 0.16 0.41 0.042 16 to 18 2 0.082 Clay CH clay 1.643 0.13 0.38 0.031 18to 19 1 0.041 Sand SP Sand 1.5105 0.06 0.43 0.018 19 to 25 6 0.245 Clay CH clay 1.643 0.40 0.38 0.093 Average: 1.61 0.392 1 E-MW-12 0 to 3.5 3.5 0.140 clay CH clay of high plasticity 1.643 0.23 0.38 0.053 3.5 to 5.5 2 0.080 silty clay CH clay of high plasticity 1.696 0.14 0.36 0.029 5.5 to 10.5 5 0.200 clayey silt ML Silt 1.431 0.29 0.46 0.092 10.5 to 15 4.5 0.180 sandy silt ML Silt 1.431 0.26 0.46 0.083 15 to 25 10 0.400 Silty Clay CH Silty Clay 1.696 0.68 0.36 0.144 Average: 1.59 0.401 RCW-CS-1 .5 to 4 3.5 0.132 silt with clay ML Silt 1.431 0.19 0.46 0.061 4 to 12 8 0.302 clay with silt CL clay 1.643 0.50 0.38 0.115 12 to 22 10 0.377 silt with clay ML Silt 1.431 0.54 0.46 0.174 22 to 24 2 0.075 silt with clay ML Silt 1.431 0.11 0.46 0.035 24 to 27 3 0.113 sand w/fines SP sand 1.5105 0.17 0.43 0.049 Average: 1.50 0.432 CBARTLETT Page 26 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 B: Soil Type Determination for the Unsaturated Zone Weighted Weighted Delta Weighting ARCADIS Mean Mean Mean Mean Well Name Depth (ft) Depth Factor Description USCS code Density Density Porosity Porosity RCW-CS-2 .5 to 4 3.5 0.132 silt with clay ML Silt 1.431 0.19 0.46 0.061 4 to 14 10 0.377 clay with silt CL clay 1.643 0.62 0.38 0.143 14 to 17 3 0.113 silt w/sand ML Silt 1.431 0.16 0.46 0.052 17 to 21 4 0.151 Sand w/Silt SM loamy sand 1.5635 0.24 0.41 0.062 21 to 25 4 0.151 Sand w/ Silt SP sand 1.5105 0.23 0.43 0.065 25 to 27 2 0.075 Sand w/ Silt SM loamy sand 1.5635 0.12 0.41 0.031 Average: 1.55 0.414 RCW-CS-3 1.5 to 7 5.5 0.216 silt w/ sand ML Silt 1.431 0.31 0.46 0.099 7 to 11 4 0.157 silt w/clay ML Silt 1.431 0.22 0.46 0.072 11 to 16 5 0.196 clay w/silt CL clay 1.643 0.32 0.38 0.075 16 to 27 11 0.431 silt w/clay ML Silt 1.431 0.62 0.46 0.198 Average: 1.47 0.444 RCW-CS-4 1 to 17 16 0.615 silt w/clay ML Silt 1.431 0.88 0.46 0.283 17 to 23 6 0.231 clay w/silt CL clay 1.643 0.38 0.38 0.088 23 to 27 4 0.154 silt w/ clay ML Silt 1.431 0.22 0.46 0.071 Average: 1.48 0.442 RCW-CS-5 .5 to 17 16.5 0.623 silt w/clay ML Silt 1.431 0.89 0.46 0.286 17 to 20.5 3.5 0.132 Silt w/ Sand ML Silt 1.431 0.19 0.46 0.061 20.5 to 27 6.5 0.245 silt w/ clay ML Silt 1.431 0.35 0.46 0.113 Average: 1.43 0.460 V; BARTLETT Page 27 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 B: Soil Type Determination for the Unsaturated Zone Weighted Weighted Delta Weighting ARCADIS Mean Mean Mean Mean Well Name Depth (ft) Depth Factor Description USCS code Density Density Porosity Porosity RCW-SFP-1
.5 to 5 4.5 0.170 silt w/sand ML Silt 1.431 0.24 0.46 0.078 5 to 6 1 0.038 clay w/ silt CL clay 1.643 0.06 0.38 0.014 6 to 14 8 0.302 silt w/sand ML Silt 1.431 0.43 0.46 0.139 14 to 20 6 0.226 silt w/sand ML Silt 1.431 0.32 0.46 0.104 20 to 21 1 0.038 Sand SP sand 1.5105 0.06 0.43 0.016 21 to 24.5 3.5 0.132 Clay w/silt CL clay 1.643 0.22 0.38 0.050 24.5 to 27 2.5 0.094 Silt w/ Clay ML Silt 1.431 0.14 0.46 0.043 Average: 1.47 0.445 RCW-SFP-2
.5 to 23 22.5 0.849 silt w/ clay ML Silt 1.431 1.22 0.46 0.391 23 to 24 1 0.038 sand w/silt SP sand 1.5105 0.06 0.43 0.016 24 to 26 2 0.075 silt w/ clay ML Silt 1.431 0.11 0.46 0.035 26 to 27 1 0.038 sand w/silt SP sand 1.5105 0.06 0.43 0.016 Average: 1.44 0.458 MW-1 .5 to 3 2.5 0.094 sandy clay CL sandy clay 1.643 0.16 0.38 0.036 3 to 9 6 0.226 clay CH clay 1.643 0.37 0.38 0.086 9 to 18.8 9.8 0.370 Clayey Silt ML Silt 1.431 0.53 0.46 0.170 18.8 to 27 8.2 0.309 Silty Sand SM loamy sand 1.5635 0.48 0.41 0.127 Average: 1.54 0.419 MW-2 0 to 7 7 0.259 sand and gravel sand 1.5105 0.39 0.43 0.111 7 to 8.5 1.5 0.056 clay CH clay 1.643 0.09 0.38 0.021 8.5 to 24.5 16 0.593 Clayey Silt ML Silt 1.431 0.85 0.46 0.273 24.5 to 27 2.5 0.093 Sand sand 1.51 05 0.14 0.43 0.040 Average: 1.47 0.445 (&BARTLETT NmýýPage 28 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1 B: Soil Type Determination for the Unsaturated Zone Weighted Weighted Delta Weighting ARCADIS Mean Mean Mean Mean Well Name Depth (ft) Depth Factor Description USCS code Density Density Porosity Porosity MW-4 1.5 to 5.7 4.2 0.165 silty clay CL silty clay 1.696 0.28 0.36 0.059 5.7 to 9 3.3 0.129 silt ML Silt 1.431 0.19 0.46 0.060 9 to 16.4 7.4 0.290 Clayey Silt CL clay 1.643 0.48 0.38 0.110 16.4 to 27 10.6 0.416 Silty Sand SP sand 1.5105 0.63 0.43 0.179 Average: 1.57 0.408 MW-6 3.7 to 4.5 0.8 0.034 clay CH clay 1.643 0.06 0.38 0.013 4.5 to 13.8 9.3 0.399 Clayey Silt ML Silt 1.431 0.57 0.46 0.184 13.8 to 20.5 6.7 0.288 Sandy Silt ML Silt 1.431 0.41 0.46 0.132 20.5 to 27 6.5 0.279 Sand sand 1.5105 0.42 0.43 0.120 Average: 1.46 0.449 MW-11 0 to 4.8 4.8 0.178 sand SP sand 1.5105 0.27 0.43 0.076 4.8 to 11.3 6.5 0.241 clay CH clay 1.643 0.40 0.38 0.091 11.3 to 22.6 11.3 0.419 Clayey Silt ML Silt 1.431 0.60 0.46 0.193 22.6 to 27 4.4 0.163 Silt ML Silt 1.431 0.23 0.46 0.075 Average: 1.50 0.435 Overall Average: 1.54 0.419 Selected soil type based on overall averages for density and porosity:
Clay Loam a Bold font indicates description used.(ABARTLETT Page 29 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1C: Soil Type Determination for the Saturated Zone Weighted Weighted Delta Weighting Mean Mean Mean Mean Well Name Depth (ft.) Depth Factor ARCADIS Description USCS code Density Density Porosity Porosity 1 H-MW-01 5 to 6.5 1.5 0.038 Sandy Silt ML silt 1.431 0.054 0.46 0.017 6.5 to 8.5 2 0.050 Clayey Silt ML silt 1.431 0.072 0.46 0.023 8.5 to 10 1.5 0.038 Silt ML silt 1.431 0.054 0.46 0.017 10 to 12.5 2.5 0.063 Silty Clay CH clay of high plasticity 1.696 0.106 0.36 0.023 12.5 to 16.5 4 0.100 Clay CH clay of high plasticity 1.643 0.164 0.38 0.038 16.5 to 20 3.5 0.088 Silt ML silt 1.431 0.13 0.46 0.040 20 to 25.5 5.5 0.138 Sandy silt ML silt 1.431 0.197 0.46 0.063 25.5 to 38 12.5 0.313 Well Graded Sand SW Sand 1.5105 0.47 0.43 0.134 38 to 40 2 0.050 Clay CH Clay 1.643 0.082 0.38 0.019 40 to 42 2 0.050 Poorly Graded Sand GP Sand 1.5105 0.08 0.43 0.022 42 to 45 3 0.075 Silty Clay CH clay of high plasticity 1.696 0.127 0.36 0.027 Average: 1.528 0.423 1H-MW-02 5 to 8 3 0.120 Silty Clay CL Silty clay 1.696 0.204 0.36 0.043 8 to 12.5 4.5 0.180 Silty Clay CL Silty Clay 1.696 0.305 0.36 0.065 12.5 to 16.5 3 0.120 Clay CH clay 1.643 0.197 0.38 0.046 16.5 to 20 4.5 0.180 Clay CH Clay 1.643 0.30 0.38 0.068 20 to 21 1 0.040 Clayey Silt ML silt 1.431 0.06 0.46 0.018 21 to 27 6 0.240 Silty Sand SM loamy sand 1.5635 0.38 0.41 0.098 27 to 30 3 0.120 Graded Sand SW Sand 1.5105 0.18 0.43 0.052 Average: 1.62 0.390 (BARTLETT Page 30 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1C: Soil Type Determination for the Saturated Zone Weighted Weighted Delta Weighting Mean Mean Mean Mean Well Name Depth (ft.) Depth Factor ARCADIS Description USCS code Density Density Porosity Porosity 5G-MW-03 5 to 8 3 0.120 Silty Clay ML Silt 1.696 0.20 0.36 0.043 8 to 12.5 4.5 0.180 Clayey Silt ML Silt 1.431 0.26 0.46 0.083 12.5 to 17 4.5 0.180 Sandy Silt ML silt 1.431 0.26 0.46 0.083 17 to 20 3 0.120 Silty Clay CH Silty Clay 1.696 0.20 0.36 0.043 20 to 24.5 4.5 0.180 Clay CH clay 1.643 0.296 0.38 0.068 24.5 to 26.5 2 0.080 Clayey silt ML silt 1.431 0.11 0.46 0.037 26.5 to 29 2.5 0.100 Poorly graded Sand SP Sand 1.5105 0.15 0.43 0.043 29 to 30 1 0.040 Silt ML silt 1.431 0.06 0.46 0.018 Average: 1.54 0.419 RCW-CS-1 5 to 12 7 0.184 clay with silt CL clay 1.643 0.30 0.38 0.070 12 to 22 10 0.263 silt with clay ML Silt 1.431 0.38 0.46 0.121 22 to 24 2 0.053 silt with clay ML Silt 1.431 0.08 0.46 0.024 24 to 27 3 0.079 sand w/ fines SP sand 1.5105 0.12 0.43 0.034 27 to 37 10 0.263 Sand SP sand 1.5105 0.40 0.43 0.113 37 to 41 4 0.105 Sand w/gravel SW Sand 1.5105 0.16 0.43 0.045 41 to 43 2 0.053 Sand w/ silt SP Sand 1.5105 0.08 0.43 0.023 Average: 1.51 0.430 (MBARTLETT Page 31 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1C: Soil Type Determination for the Saturated Zone Weighted Weighted Delta Weighting Mean Mean Mean Mean Well Name Depth (ft.) Depth Factor ARCADIS Description USCS code Density Density Porosity Porosity RCW-CS-2 5 to 14 9 0.188 clay with silt CL clay 1.643 0.31 0.38 0.071 14 to 17 3 0.063 silt w/sand IMIL Silt 1.431 0.09 0.46 0.029 17 to 21 4 0.083 Sand w/ Silt SM loamy sand 1.5635 0.13 0.41 0.034 21 to 25 4 0.083 Sand W/ Silt SP sand 1.5105 0.13 0.43 0.036 25 to 27 2 0.042 Sand w/ Silt SM loamy sand 1.5635 0.07 0.41 0.017 27 to 34 7 0.146 Sand w/silt SP sand 1.5105 0.22 0.43 0.063 34 to 35 1 0.021 gravel SP sand 1.5105 0.03 0.43 0.009 35 to 44 9 0.188 Sand SP sand 1.5105 0.28 0.43 0.081 44 to 48 4 0.083 Silt w/sand IMIL Silt 1.431 0.12 0.46 0.038 48 to 49.5 1.5 0.031 Sand SP sand 1.5105 0.05 0.43 0.013 49.5 to 53 3.5 0.073 Silt w/ clay IMIL Silt 1.431 0.10 0.46 0.034 Average: 1.52 0.425 RCW-CS-3 5 to 7 2 0.042 silt w/ sand ML Silt 1.431 0.06 0.46 0.019 7 to 11 4 0.083 silt w/clay ML Silt 1.431 0.12 0.46 0.038 11 to 16 5. 0.104 clay w/silt CL clay 1.643 0.17 0.38 0.040 16 to 27 11 0.229 silt w/clay ML Silt 1.431 0.33 0.46 0.105 27 to 30 3 0.063 Sand SW Sand 1.5105 0.09 0.43 0.027 30 to 37 7 0.146 Sand SP Sand 1.5105 0.22 0.43 0.063 37 to 44 7 0.146 sand SW Sand 1.5105 0.22 0.43 0.063 44 to 55 9 0.188 Sand SP Sand 1.5105 0.28 0.43 0.081 Average: 1.50 0.435 VV 8A'RT LETT Page 32 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1C: Soil Type Determination for the Saturated Zone Weighted Weighted Delta Weighting Mean Mean Mean Mean Well Name Depth (ft.) Depth Factor ARCADIS Description USCS code Density Density Porosity Porosity RCW-CS-4 5 to 17 12 0.231 silt w/clay ML Silt 1.431 0.33 0.46 0.106 17 to 23 6 0.115 clay w/silt CL clay 1.643 0.19 0.38 0.044 23 to 27 4 0.077 silt w/ clay ML Silt 1.431 0.11 0.46 0.035 27 to 30 3 0.058 sand w/ silt SM loamy sand 1.5635 0.09 0.41 0.024 30 to 32 2 0.038 sand SP Sand 1.5105 0.06 0.43 0.017 32 to 35.5 3.5 0.067 Sand w/silt SP Sand 1.5105 0.10 0.43 0.029 35.5 to 37 1.5 0.029 Silt w clay ML Silt 1.431 0.04 0.46 0.013 37 to 41 4 0.077 sand SP Sand 1.5105 0.12 0.43 0.033 41 to 57 16 0.308 Sand SW Sand 1.5105 0.46 0.43 0.132 Average: 1.50 0.433 RCW-CS-5 5 to 17 12 0.267 silt w/clay ML Silt 1.431 0.38 0.46 0.123 17 to 20.5 3.5 0.078 Silt w/ Sand ML Silt 1.431 0.11 0.46 0.036 20.5 to 27 6.5 0.144 silt w/ clay ML Silt 1.431 0.21 0.46 0.066 27 to 33 6 0.133 Sand w/ silt SM loamy sand 1.5635 0.21 0.41 0.055 33 to 39 6 0.133 Sand w/ silt SP sand 1.5105 0.20 0.43 0.057 39 to 44 5 0.111 Gravel GP sand 1.5105 0.17 0.43 0.048 44 to 45 1 0.022 Sand SP sand 1.5105 0.03 0.43 0.010 45 to 50 5 0.111 Gravel GP sand 1.5105 0.17 0.43 0.048 Average: 1.48 0.442 40,BARTLETT Page 33 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1C: Soil Type Determination for the Saturated Zone Weighted Weighted Delta Weighting Mean Mean Mean Mean Well Name Depth (ft.) Depth Factor ARCADIS Description USCS code Density Density Porosity Porosity RCW-SFP-1 5 to 6 1 0.020 clay w/ silt CL clay 1.643 0.03 0.38 0.008 6 to 14 8 0.163 silt w/sand ML Silt 1.431 0.23 0.46 0.075 14 to 20 6 0.122 silt w/sand ML Silt 1.431 0.18 0.46 0.056 20 to 21 1 0.020 Sand SP sand 1.5105 0.03 0.43 0.009 21 to 24.5 3.5 0.071 Clay w/ silt CL clay 1.643 0.12 0.38 0.027 24.5 to 34.5 10 0.204 Silt w/Clay ML Silt 1.431 0.29 0.46 0.094 34.5 to 38 3.5 0.071 Sand SP sand 1.5105 0.11 0.43 0.031 38 to 41 3 0.061 Silt w/sand ML Silt 1.431 0.09 0.46 0.028 41 to 44 3 0.061 Sand w/ Silt SP sand 1.5105 0.09 0.43 0.026 44 to 45 1 0.020 Sand w/ Gravel SW Sand 1.5105 0.03 0.43 0.009 45 to 54 9 0.184 Sand SP sand 1.5105 0.28 0.43 0.079 Average: 1.48 0.442 RCW-SFP-2 5 to 23 18 0.818 silt w/clay ML Silt 1.431 1.17 0.46 0.376 23 to 24 1 0.045 sand w/silt SP sand 1.5105 0.07 0.43 0.020 24 to 26 2 0.091 silt w/clay ML Silt 1.431 0.13 0.46 0.042 26 to 27 1 0.045 sand w/silt SP sand 1.5105 0.07 0.43 0.020 Average: 1.44 0.457 MW-1 5 to 9 4 0.090 clay CH clay 1.643 0.15 0.38 0.034 9 to 18.8 9.8 0.220 Clayey Silt ML Silt 1.431 0.32 0.46 0.101 18.8 to 43.0 24.2 0.544 Silty Sand SM loamy sand 1.5635 0.85 0.41 0.223 43 to 49.5 6.5 0.146 Gravel SW Sand 1.5105 0.22 0.43 0.063 Average: 1.53 0.421 eBARTLETT Page 34 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 Table 1C: Soil Type Determination for the Saturated Zone Weighted Weighted Delta Weighting Mean Mean Mean Mean Well Name Depth (ft.) Depth Factor ARCADIS Description USCS code Density Density Porosity Porosity MW-2 5 to 7 2 0.084 sand and gravel Fill sand 1.5105 0.13 0.43 0.036 7 to 8.5 1.5 0.063 clay CH clay 1.643 0.10 0.38 0.024 8.5 to 24.5 16 0.675 Clayey Silt MIL Silt 1.431 0.97 0.46 0.311 24.5 to 39.7 15.2 0.641 Sand sand 1.5105 0.97 0.43 0.276 Average: 1.48 0.442 MW-4 5 to 5.7 0.7 0.015 Silty clay CL Silty clay 1.696 0.03 0.36 0.006 5.7 to 9 3.3 0.072 silt ML Silt 1.431 0.10 0.46 0.033 9 to 16.4 7.4 0.162 Clayey Silt CL clay 1.643 0.27 0.38 0.062 16.4 to 50.6 34.2 0.750 Silty Sand SP sand 1.5105 1.13 0.43 0.323 Average: 1.53 0.423 MW-6 5 to 13.8 8.8 0.196 Clayey Silt ML Silt 1.431 0.28 0.46 0.090 13.8 to 20.5 6.7 0.149 Sandy Silt ML Silt 1.431 0.21 0.46 0.068 20.5 to 50 29.5 0.656 Sand sand 1.5105 0.99 0.43 0.282 Average: 1.48 0.440 MW-11 5 to 11.3 6.3 0.140 clay CH clay 1.643 0.23 0.38 0.053 11.3 to 22.6 11.3 0.251 Clayey Silt ML Silt 1.431 0.36 0.46 0.116 22.6 to 32.1 9.5 0.211 Silt ML Silt 1.431 0.30 0.46 0.097 32.1 to 50 17.9 0.398 Sand SP sand 1.5105 0.60 0.43 0.171 Average: 1.49 0.437 Overall Average: 1.51 0.431 Selected soil type based on overall averages for density and porosity:
Silty Clay Loam a Bold font indicates description used. Page 35 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Table 2: Summary of Values for RESRAD Input Parameters Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Soil Concentrations Basic radiation dose limit (mrem/y) 3 D 25 10 CFR 20.1402 NR NR NR NR Initial principal radionuclide (pCi/g) P 2 D 1 Unit Value NR NR NR NR Distribution coefficients (contaminated, unsaturated, and saturated zones) (cm 3/g)Ac-227 (daughter for Cm-243 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Pu-239)Am-241 (also daughter for Cm-245 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 and Pu-241)Am-243 (daughter for Cm-243) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 C-14 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 2.4 3.22 0.001 0.999 11 Cm-243 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-244 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-246 P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 8.82 1.82 0.001 0.999 6761 Co-60 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.46 2.53 0.001 0.999 235 Cs-1 37 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.1 2.33 0.001 0.999 446 Eu-152 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Eu-154 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Gd-1 52 (daughter for Eu-1 52) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 H-3 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -2.81 0.5 0.001 0.999 0.06 1-129 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 1.52 2.19 0.001 0.999 4.6 Nb-94 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.94 3.22 0.001 0.999 380 Ni-59 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.05 1.46 0.001 0.999 424 Ni-63 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.05 1.46 0.001 0.999 424 Np-237 (also daughter for Am-241, P 1 S Truncated lognormal-n NUREG/CR-6697, AUt. C 2.84 2.25 0.001 0.999 17 Cm-245, and Pu-241)Pa-231 (daughter for Cm-243 and P 1 5 Truncated lognormal-n NUREG/CR-6697, Att. C 5.94 3.22 0.001 0.999 380 Pu-239)Po-210 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C 5.20 1.68 0.001 0.999 181 Pb-21 0 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.78 2.76 0.001 0.999 2392 Pu-238) I I Pu-238 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 (ABARTLETT Page 36 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-239 (also daughter for Cm-243) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-240 (also daughter for Cm-244) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-241 (also daughter for Cm-245) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-242 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Ra-226 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 Pu-238)Ra-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 " Pu-240)Sr-90 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 3.45 2.12 0.001 0.999 32 Tc-99 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -0.67 3.16 0.001 0.999 0.51 Th-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-240)Th-229 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 245, Np-237, and Pu-241)Th-230 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-238)Th-232 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-240)U-233 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 245, Np-237, and Pu-241)U-234 (daughter for Cm-246 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 238)U-235 (daughter for Cm-243 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 239)U-236 (daughter for Cm-244 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 240)U-238 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 Initial concentration of radionuclides.
P 3 D 0 Ground water initially NR NR NR NR present in groundwater (pCi/I) uncontaminated for this scenario Calculation Times Time since placement of material (y) P 3 D 0 NR NR NR NR Time for calculations (y) P 3 D 0, 1,3, 10, 30, 100, 300, 1000 RESRAD Default NR NR NR NR Contaminated Zone Area of contaminated zone (M 2) P 2 D 30,000 Site-specific:
largest NR NR NR NR contiguous class 1/class 2 area (rounded to nearest thousands)(ABARTLETT Page 37 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Thickness of contaminated zone (m) P 2 S Uniform Site-specific; equal to 0.15 3.51 1.83 depth of soil mixing layer (0.15m) and max depth of subsurface sample yielding detectable plant-related radioactivity (11.5 ft, LTP chap 2, Table 2-4)Length parallel to aquifer flow (m) P 2 D 195 Site-specific
-diameter of NR NR NR NR circle with an area of 2 30,000 mn 2 Contaminated fraction below water P 2 D 0 Ground water initially NR NR NR NR table uncontaminated for this I _ _ I _ I_ I_ Iscenario I I Cover and Contaminated Zone Hydrological Data Cover depth (m) P 2 D 0 Site-specific
-no cover NR NR NR NR assumed Density of contaminated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Contaminated zone erosion rate P 2 D 2.2E-3 Calculated value based NR NR NR NR (m/y) on site-specific slope of 6%Contaminated zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Contaminated zone field capacity P 3 D 0.095 Site-specific value NR NR NR NR 0.095 calculated in step 6.4 Contaminated zone hydraulic P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 conductivity (m/y) soil type -clay loam Contaminated zone b parameter P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 soil type -clay loam Humidity in air (g/m 3) P 3 D 8.2 Regional value for NR NR NR NR northern CA as represented by San Francisco Evapotranspiration coefficient P 2 S Uniform NUREG/CR-6697 Att. C, 0.5 0.75 NR NR 0.625 Ref. 4 Average annual wind speed (m/s) P 2 D 3.04 Site-specific value (from NR NR NR NR NCDC website) I VIBARTLETT Page 38 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Precipitation (m/y) P 2 D 0.91 Site-specific value from NR NR NR NR HB SAFSTOR Environmental Report, section 4.1.1 Irrigation (m/y) B 3 S Uniform NUREG/CR-6697, Att C 0.36 0.76 NR NR 0.56 methodology Irrigation mode B 3 D Overhead Overhead irrigation is NR NR NR NR common practice in U. S.Runoff coefficient P 2 D 0.5 Site-specific value; NR NR NR NR NUREG/CR-6697, Att. C section 4.2 methodology Watershed area for nearby stream or p 3 D 2.52E+07 Site-specific value from NR NR NR NR pond (M 2) (HB SAFSTOR Environmental Report)Accuracy for water/soil computations
-3 D 1.OOE-03 RESRAD Default NR NR NR NR Saturated Zone Hydrological Data Density of saturated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5105 0.1855 0.937 2.084 1.5105 soil type -silty clay loam Saturated zone total porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.43 0.0699 0.214 0.646 0.43 soil type -silty clay loam Saturated zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.342 0.0705 0.124 0.56 0.342 soil type -silty clay loam Saturated zone field capacity P 3 D 0.088 Site-specific value NR NR NR NR 0.088 calculated in step 6.4 Saturated zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 0.362 1.59 0.0106 195 1.44 (m/y) soil type -silty clay loam Saturated zone hydraulic gradient P 2 D 0.002 Site-specific value NR NR NR NR determined using method described in NUREG/CR-6697, App. C (step 6.5)Saturated zone b parameter P 2 S Bounded NUREG 6697 dist for site 1.96 0.265 3.02 15.5 7.1 Log Normal n soil type -silty clay loam Water table drop rate (m/y) P 3 D 1.OOE-03 RESRAD User Manual NR NR NR NR Well pump intake depth (m below P 2 S Triangular NUREG/CR-6697, Att. C 6 10 30 10 water table) I I _III Model: Nondispersion (ND) or Mass- P 3 D ND ND model recommended NR NR NR NR Balance (MB) for contaminant areas >2___ ___ ___ ___ ___ ___ ___ ___ _ _ __ _ _ ___ __ ___ ___ ___ ___ ___ _ lQ~ _____ __ ___ __ _1,0_00___m
(&BARTLETT Page 39 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Well pumping rate (m 3/y) P 2 S Uniform Min, Max, median value 1173 1973 1573 based on site irrigation and area and calculated according to NUREG/CR-6697, Att. C section 3.10 method. (see step 6.13)Unsaturated Zone Hydrological Data Number of unsaturated zone strata P 3 D 1 Site-specific value NR NR NR NR Unsat. zone thickness (m) P 2 S Uniform Site-specific distribution 0.00 8.08 4.04 base on thickness of CZ and groundwater elevations Unsat. zone soil density (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Unsat. zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Unsat. zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.315 0.0905 0.0349 0.594 0.315 soil type -clay loam Unsat. zone field capacity P 3 D 0.095 Site-specific value NR NR NR NR 0.095 calculated using Equation 4.4 from Ref Unsat. zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 (m/y) soil type -clay loam Unsat. zone soil-specific b parameter P 2 S Bounded NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 Log Normal n soil type -clay loam Occupancy Inhalation rate (m 3/y) B 3 D 8400 NUREG/CR-6697, Att C NR NR NR NR Mass loading for inhalation (g/m 3) P 2 S Continuous linear NUREG/CR-6697, Att. C 2.33E-05 Exposure duration B 3 D 30 User's Manual for NR NR NR NR RESRAD Version 6;parameter value not used in dose calculation Indoor dust filtration factor P 2 S Uniform NUREG/CR-6697, Att. C 0.15 0.95 0.55 Shielding factor, external gamma P 2 S Bounded lognormal-n NUREG/CR-6697, Att. C -1.3 0.59 0.044 1 0.2725 Fraction of time spent indoors B 3 D 0.6571 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Fraction of time spent outdoors (on B 3 D 0.1181 NUREG/CR-5512, Vol. 3 NR NR NR NR site) Table 6.87 (outdoors
+gardening)
(&BARTLETT Page 40 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Shape factor flag, external gamma P 3 D Circular Circular contaminated NR NR NR NR zone assumed for modeling purposes Ingestion, Dietary Fruits, vegetables, grain consumption B 2 D 112 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/y) (other vegetables
+ fruits+ grain)Leafy vegetable consumption (kg/y) B 3 D 21.4 NUREG/CR-5512, Vol. 3 NR NR NR NR Milk consumption (L/y) B 2 D 233 NUREG/CR-5512, Vol. 3 NR NR NR NR Meat and poultry consumption (kg/y) B 3 D 65.1 NUREG/CR5512, Vol. 3 NR NR NR NR (beef + poultry)Fish consumption (kg/y) B 3 D 20.6 NUREG/CR-5512, Vol. 3 NR NR NR NR Other seafood consumption (kg/y) B 3 D 0.9 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Soil ingestion rate (g/y) B 2 D 18.26 NUREG/CR-5512, Vol. 3 NR NR NR NR Drinking water intake (L/y) B 2 D 511 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Contamination fraction of drinking P 3 D 1 All water assumed NR NR NR NR water contaminated Contamination fraction of household P 3 NA water (if used)Contamination fraction of livestock P 3 D 1 All water assumed NR NR NR NR water contaminated Contamination fraction of irrigation P 3 D 1 AIII water assumed NR NR NR NR water contaminate Contamination fraction of aquatic P 2 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR food I I Contamination fraction of plant food P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Contamination fraction of meat P 3 D I NUREG/CR-5512, Vol. 3 NR NR NR NR Contamination fraction of milk P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Ingestion, Non-Dietary Livestock fodder intake for meat M 3D 27.1 ýNUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, beef cattle +poultry + layer hen (&BARTLETT Page 41 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Livestock fodder intake for milk M 3 D 63.2 NUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, forage + grain+ hay Livestock water intake for meat M 3 D 50.6 NUREG/CR5512, Vol. 3 NR NR NR NR (L/day) Table 6.87, beef cattle +poultry + layer hen Livestock water intake for milk M 3 D 60 NUREG/CR5512, Vol. 3 NR NR NR NR (ILday) Table 6.87 Livestock soil intake (kg/day) M 3 D 0.5 User's Manual for NR NR NR NR RESRAD Version 6, Appendix L Mass loading for foliar deposition P 3 D 4.OOE-04 NUREG/CR-5512, Vol. 3 NR NR NR NR (g/m 3) Table 6.87, gardening Depth of soil mixing layer (m) P 2 S Triangular NUREG/CR-6697, Att. C 0 0.15 0.6 0.23 Depth of roots (m) P 1 S Uniform Min. from NUREG/CR-0.3 4.0 2.15 6697, Att. C Drinking water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR water supplied from groundwater Household water fraction from P 3 NA ground water (if used)Livestock water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR water supplied from__________
-groundwater_____
Irrigation fraction from ground water P 3 D 1 All water assumed to be NR NR NR NR supplied from groundwater Wet weight crop yield for Non-Leafy P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C 0.56 0.48 0.001 0.999 1.75 (kg/m 2)Wet weight crop yield for Leafy P 3 D 2.88921 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/m 2) Table 6.87 Wet weight crop yield for Fodder P 3 D 1.8868 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/M 2) Table 6.87 Growing Season for Non-Leafy (y) P 3 D 0.246 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Leafy (y) P 3 D 0.123 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Fodder (y) P 3 D 0.082 NUREG/CR-5512, Vol. 3 NR NR NR NR I_ _Table 6.87 Translocation Factor for Non-Leafy P 3 D 0.1 NUREG/CR-5512, Vol. 3 NR NR NR NR I_ I_ _Table 6.87 1 ABARTLETT Page 42 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Translocation Factor for Leafy P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Fodder P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Weathering Removal Constant for P 2 S Triangular NUREG/CR-6697, Att. C 5.1 18 84 33 Vegetation (1/y)Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Non-Leafy Table 6.87 Wet Foliar Interception Fraction for P 2 S Triangular NUREG/CR-6697, Att. C 0.06 0.67 0.95 0.58 Leafy Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Non-Leafy Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Leafy Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Storage times of contaminated foodstuffs (days): Fruits, non-leafy vegetables, and B 3 D 14 NUREG/CR-5512, Vol. 3 NR NR NR NR grain Table 6.87 Leafy vegetables B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Milk B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Meat and poultry B 3 D 20 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 (holdup period for beef)Fish B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Crustacea and mollusks B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Well water B 3 D 1 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Surface water B 3 D User's Manual for NR NR NR NR RESRAD Version 6, Appendix D (MBARTLETT wvýPage 43 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Livestock fodder B 3 D 45 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Special Radionuclides (C-14)C-12 concentration in water (g/cm 3) P 3 D 2.00E-05 User's Manual for NR NR NR NR RESRAD Version 6, Appendix L C-12 concentration in contaminated P 3 D 3.00E-02 User's Manual for NR NR NR NR soil (g/g) RESRAD Version 6, Appendix L Fraction of vegetation carbon from P 3 D 2.OOE-02 User's Manual for NR NR NR NR soil RESRAD Version 6, Appendix L Fraction of vegetation carbon from P 3 D 9.80E-01 User's Manual for NR NR NR NR air RESRAD Version 6, Appendix L C-14 evasion layer thickness in soil P 2 S Triangular NUREG/CR-6697, Att. C 0.2 0.3 0.6 0.3 (m)C-14 evasion flux rate from soil P 3 D 7.OOE-07 User's Manual for NR NR NR NR (1/sec) RESRAD Version 6, Appendix L C-12 evasion flux rate from soil P 3 D .1.00E-10 User's Manual for NR NR NR NR (1/sec) RESRAD Version 6, Appendix L Fraction of grain in beef cattle feed B 3 D 0.2500 NUREG/CR-6697, Att. B NR NR NR NR Fraction of grain in milk cow feed B 3 D 0.1000 NUREG/CR-6697, Att. B NR NR NR NR Dose Conversion Factors (Inhalation mrem/pCi)Ac-227 M 3 D 6.70E+00 FGR1 1 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 4.44E-01 FGR11 NR NR NR NR Am-243 M 3 D 4.40E-01 FGR11 NR NR NR NR C-14 M 3 D 2.09E-06 FGR11 NR NR NR NR Cm-243 M 3 D 3.07E-01 FGR11 NR NR NR NR Cm-244 M 3 D 2.48E-01 FGR11 NR NR NR NR Cm-245 M 3 D 4.55E-01 FGR11 NR NR NR NR Cm-246 M 3 D 4.51E-01 FGR11 NR NR NR NR Co-60 M 3 D 2.19E-04 FGR11 NR NR NR NR NEYARTLETT Page 44 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Cs-137 M 3 D 3.19E-05 FGR11 NR NR NR NR Eu-152 M 3 D 2.21E-04 FGR11 NR NR NR NR Eu-154 M 3 D 2.86E-04 FGR11 NR NR NR NR Gd-152 M 3 D 2.43E-01 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR11 NR NR NR NR 1-129 M 3 D 1.74E-04 FGR11 NR NR NR NR Nb-94 M 3 D 4.14E-04 FGR11 NR NR NR NR Ni-59 M 3 D 2.70E-06 FGR11 NR NR NR NR Ni-63 M 3 D 6.29E-06 FGR11 NR NR NR NR Np-237 M 3 D 5.40E-01 FGR11 NR NR NR NR Pa-231 M 3 D 1.28E+00 FGR11 NR NR NR NR Pb-210 M 3 D 1.36E-02 FGR11 NR NR NR NR Po-210 M 3 D 9.40E-03 FGR11 NR NR NR NR Pu-238 M 3 D 3.92E-01 FGR11 NR NR NR NR Pu-239 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-240 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-241 M 3 D 8.25E-03 FGR11 NR NR NR NR Pu-242 M 3 D 4.11 E-01 FGR11 NR NR NR NR Ra-226 M 3 D 8.58E-03 FGR11 NR NR NR NR Ra-228 M 3 D 4.77E-03 FGR11 NR NR NR NR Sr-90 M 3 D 1.30E-03 FGR11 NR NR NR NR Tc-99 M 3 D 8.32E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.42E-01 FGR11 NR NR NR NR Th-229 M 3 D 2.15E+00 FGR11 NR NR NR NR Th-230 M 3 D 3.26E-01 FGR11 NR NR NR NR Th232 M 3 D 1.64e+00 FGR11 NR NR NR NR U-233 M 3 D 1.35E-01 FGR11 NR NR NR NR U-234 M 3 D 1.32E-01 FGR11 NR NR NR NR U-235 M 3 D 1.23E-01 FGR11 NR NR NR NR U-236 M 3 D 1.25E-01 FGR11 NR NR NR NR (OBARTLETT Page 45 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median U-238 M 3 D 1.18E-01 FGR11 NR NR NR NR Dose Conversion Factors (Ingestion mrem/pCi)Ac-227 M 3 D 1.41 E-02 FGR11 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 3.64E-03 FGR11 NR NR NR NR Am-243 M 3 D 3.62E-03 FGR11 NR NR NR NR C-14 M 3 D 2.09E-06 FGR1I NR NR NR NR Cm-243 M 3 D 2.51 E-03 FGR11 NR NR NR NR Cm-244 M 3 D 2.02E-03 FGR11 NR NR NR NR Cm-245 M 3 D 3.74E-03 FGR11 NR NR NR NR Cm-246 M 3 D 3.70E-03 FGR11 NR NR NR NR Co-60 M 3 D 2.69E-05 FGR11 NR NR NR NR Cs-137 M 3 D 5.OOE-05 FGR11 NR NR NR NR Eu-152 M 3 D 6.48E-06 FGR11 NR NR NR NR Eu-154 M 3 D 9.55E-06 FGR11 NR NR NR NR Gd-152 M 3 D 1.61 E-04 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR11 NR NR NR NR 1-129 M 3 D 2.76E-04 FGR11 NR NR NR NR Nb-94 M 3 D 7.14E-06 FGR11 NR NR NR NR Ni-59 M 3 D 2.1OE-07 FGR11 NR NR NR NR Ni-63 M 3 D 5.77E-07 FGR11 NR NR NR NR Np-237 M 3 D 4.44E-03 FGR11 NR NR NR NR Pa-231 M 3 D 1.06E-02 FGR11 NR NR NR NR Pb-210 M 3 D 5.37E-03 FGR11 NR NR NR NR Pb-210 M 3 D 1.90E-03 FGR11 NR NR NR NR Pu-238 M 3 D 3.20E-03 FGR11 NR NR NR NR Pu-239 M 3 D 3.54E-03 FGR1I NR NR NR NR Pu-240 M 3 D 3.54E-03 FGR11 NR NR NR NR Pu-241 M 3 D 6.84E-05 FGR11 NR NR NR NR Pu-242 M 3 D 3.36E-03 FGR11 NR NR NR NR Ra-226 M 3 D 1.32E-03 FGR11 NR NR NR NR Ra-228 M 3 D 1.44E-03 FGR11 NR NR NR NR lfBARTLETT Page 46 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Sr-90 M 3 D 1.42E-04 FGR11 NR NR NR NR Tc-99 M 3 D 1.46E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.96E-04 FGR11 NR NR NR NR Th-229 M 3 D 3.53E-03 FGR11 NR NR NR NR Th-230 M 3 D 5.48E-04 FGR11 NR NR NR NR Th-232 M 3 D 2.73E-03 FGR11 NR NR NR NR U-233 M 3 D 2.89E-04 FGR11 NR NR NR NR U-234 M 3 D 2.83E-04 FGR11 NR NR NR NR U-235 M 3 D 2.66E-04 FGR11 NR NR NR NR U-236 M 3 D 2.69E-04 FGR11 NR NR NR NR U-238 M 3 D 2.55E-04 FGR11 NR NR NR NR Plant Transfer Factors (pCi/g plant)/(pCi/g soil)Ac-227 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 1.1 0.001 0.999 1.OE-03 Am-241 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Am-243 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 C-14 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -0.36 0.9 0.001 0.999 7.OE-01 Cm-243 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Cm-244 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Cm-246 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Co-60 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -2.53 0.9 0.001 0.999 8.OE-02 Cs-1 37 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.22 1.0 0.001 0.999 4.OE-02 Eu-1 52 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Eu-1 54 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Gd-152 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 H-3 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 1.57 1.1 0.001 0.999 4.8E+00 1-129 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.91 0.9 0.001 0.999 2.OE-02 Nb-94 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 1.OE-02 Ni-59 P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C -3.0 0.9 0.001 0.999 5.OE-02 Ni-63 P 1 S Truncated lognormal-n NUREG/CR-6697, Aft. C -3.0 0.9 0.001 0.999 5.OE-02 Np-237 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.91 0.9 0.001 0.999 2.OE-02 Pa-231 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 1.OE-02 lojBARTLETT Page 47 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pb-210 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -5.52 0.9 0.001 0.999 4.OE-03 Po-210 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.90 0.9 0.001 0.999 1.OE-03 Pu-238 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-239 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-240 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-241 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Pu-242 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Ra-226 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.22 0.9 0.001 0.999 4.OE-02 Ra-228 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.22 0.9 0.001 0.999 4.OE-02 Sr-90 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -1.20 1.0 0.001 0.999 3.OE-01 Tc-99 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C 1.61 0.9 0.001 0.999 5.OE+00 Th-228 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-229 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-230 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-232 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 U-233 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-234 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-235 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-236 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-238 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 Meat Transfer Factors (pCi/kg)/(pCi/d)
Ac-227 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Am-241 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 Am-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 C-14 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.47 1.0 0.001 0.999 3.1E-02 Cm-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-244 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-245 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-246 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Co-60 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.51 1.0 0.001 0.999 3.0E-02 Cs-137 P 2 S Truncated lognormal-n NUREG/CR-6697, AUt. C -3.00 0.4 0.001 0.999 5.OE-02 Eu-i152 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.0E-03 OhIBARTLETT Page 48 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Eu-1 54 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Gd-1 52 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 H-3 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -4.42 1.0 0.001 0.999 1.2E-02 1-129 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.22 0.4 0.001 0.999 4.OE-02 Nb-94 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.9 0.001 0.999 1.OE-06 Ni-59 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -5.30 0.9 0.001 0.999 5.OE-03 Ni-63 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -5.30 0.9 0.001 0.999 5.OE-03 Np-237 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Pa-231 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 1.0 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -5.30 0.7 0.001 0.999 5.OE-03 Pb-210 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 Pu-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-239 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-240 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-241 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-242 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Ra-226 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Ra-228 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Sr-90 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -4.61 0.4 0.001 0.999 1.OE-02 Tc-99 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 0.7 0.001 0.999 1.OE-04 Th-228 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-229 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-230 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-232 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 U-233 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-234 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-235 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-236 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 Milk Transfer Factors (pCi/L)/(pCi/d)
Ac-227 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C j -13.12 0.9 0.001 0.999 2.0E-06 Am-241 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 ABARTLETT Page 49 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Am-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 C-14 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.4 0.9 0.001 0.999 1.2E-02 Cm-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.0E-06 Cm-244 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-245 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.0E-06 Cm-246 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Co-60 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.7 0.001 0.999 2.OE-03 Cs-1 37 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -4.61 0.5 0.001 0.999 1.OE-02 Eu-1 52 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 Eu-1 54 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 Gd-1 52 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 H-3 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -4.6 0.9 0.001 0.999 1.0E-02 1-129 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -4.61 0.5 0.001 0.999 1.OE-03 Nb-94 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.0E-06 Ni-59 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.91 0.7 0.001 0.999 2.OE-02 Ni-63 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.91 0.7 0.001 0.999 2.OE-02 Np-237 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -11.51 0.7 0.001 0.999 1.OE-05 Pa-231 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.7 0.001 0.999 4.OE-04 Pb-210 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -8.11 0.9 0.001 0.999 3.OE-04 Pu-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-239 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-240 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-241 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-242 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Ra-226 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 i.OE-03 Ra-228 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 i.OE-03 Sr-90 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.5 0.001 0.999 2.OE-03 Tc-99 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Th-228 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-229 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-230 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 lftBARTLETT Page 50 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Th-232 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 U-233 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-234 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-235 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-236 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-238 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 Bloaccumulation Factors for Fish ((pCi/kg)/(pCi/L))
Ac-227 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.7 1.1 1.5E+01 Am-241 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Am-243 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 C-14 P 2 S Lognormal-n NUREG/CR-6697, Att. C 10.8 1.1 4.9E+04 Cm-243 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-244 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-245 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-246 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Co-60 P 2 S Lognormal-n NUREG/CR-6697, Att. C 5.7 1.1 3.OE+02 Cs-1 37 P 2 S Lognormal-n NUREG/CR-6697, Ant. C 7.6 0.7 2.OE+03 Eu-1 52 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Eu-1 54 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Gd-152 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.2 1.1 2.5E+01 H-3 P 2 S Lognormal-n NUREG/CR-6697, Att. C 0 0.1 1.OE+00 1-129 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.7 1.1 4.OE+01 Nb-94 P 2 S Lognormal-n NUREG/CR-6697, Att. 0 5.7 1.1 3.OE+02 Ni-59 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Ni-63 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Np-237 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pa-231 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 9.9E+00 Po-210 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 I.OE+01 Pb-210 P 2 S Lognormal-n NUREG/CR-6697, Att. C 5.7 1.1 3.OE+02 Pu-238 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-239 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-240 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 01 ARTLETT Page 51 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-241 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-242 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Ra-226 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Ra-228 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Sr-90 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.1 1.1 6.OE+01 Tc-99 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3 1.1 2.OE+01 Th-228 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-229 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-230 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-232 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 U-233 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-234 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-235 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-236 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-238 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 Bioaccumulation Factors for Crustacea/
Mollusks ((pCi/kg)/(pCi/L))
Ac-227 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-241 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-243 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D C-14 P 3 D 9.1OE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-243 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-244 P 3 D 1.00E+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-245 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6,_Appendix D ABARTLETT V-1-, Page 52 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Cm-246 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Co-60 P 3 D 2.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cs-137 P 3 D 1.OOE+02 User's Manual for NR NR NR. NR RESRAD Version 6, Appendix D Eu-152 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Eu-154 P 3 D 1.OOE+03 User's Manual for NR' NR NR NR RESRAD Version 6, Appendix D Gd-152 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6,__________
~~~Appendix D ____ ____H-3 P 3 D 1.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D 1-129 P 3 D 5.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Nb-94 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ni-59 P 3 D 1.OOE+02 User's Manual for NR " NR NR NR RESRAD Version 6, Appendix D Ni-63 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Np-237 P 3 D 4.00E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pa-231 P 3 D 1.10E+02 User's Manual for NR NP NR NR RESRAD Version 6, Appendix D Pb-210 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D 19kh.Page 53 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Po-210 P S D 2.OE+04 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-238 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-239 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-240 P 3 D 1.00E+02 User's Manual for NR NR NR NR RESRAD Version 6,__________
~~~~~Appendix D ____ _____ _________Pu-241 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-242 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ra-226 P 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ra-228 P 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6,____________________Appendix D ____ ____Sr-90 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Tc-99 P 3 D 5.00E+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-228 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-229 .P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-230 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-232 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6,_Appendix D lerBARTLETT Page 54 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median U-233 P 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-234 P 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-235 P 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-236 P 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-238 P 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Graphics Parameters Number of points 32 RESRAD Default NR NR NR NR Spacing log RESRAD Default NR NR NR NR Time integration parameters Maximum number of points for dose 17 RESRAD Default NR NR NR NR Table 2 Notes: a p = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)b 1 = high-priority parameter, 2 = medium-priority parameter, 3 = low-priority parameter (see NUREG/CR-6697, Attachment B, Table 4.1)c D = deterministic, S = stochastic d Distributions Statistical Parameters:
Lognormal-n:
1 = mean, 2 = standard deviation Bounded lognormal-n:
1= mean, 2 = standard deviation, 3 = minimum, 4 = maximum Truncated Iognormal-n:
1 = mean, 2 = standard deviation, 3 = lower quantile, 4 = upper quantile Bounded normal: 1 = mean, 2 = standard deviation, 3 = minimum, 4 = maximum Triangular:
1 = minimum, 2 = mode, 3 = maximum Uniform: 1 = minimum, 2 = maximum Additional Sensitivity Analysis Data: Sampling technique
= Latin Hypercube Number of observations
=2000 Number of repetitions
= 1 Input Rank Correlation Coefficients:
Total porosity and bulk density = -0.99 (contaminated zone, unsaturated and saturated zones)Total porosity and effective porosity = 0.96 (unsaturated and saturated zones)Effective porosity and bulk density = -0.99 (unsaturated and saturated zones)Well Pumping Rate and Irrigation Rate = 0.96 ASBARTLETT Page 55 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Table 3: Sensitive Input Parameter by Radionuclide Radionuclide PRCC (RESRAD 6.5 Uncertainty Report file name) Sensitive Parameter Value Am-241 Plant transfer factor for Am .0.93 (MCSUMMARHB soilAm241)
Thickness of contaminated zone 0.79 Depth of roots -0.59 C-14 Thickness of contaminated zone 0.98 (MCSUMMARHB soilC14) Depth of roots -0.76 Thickness of evasion layer for C-14 in soil 0.35 Cm-243 Plant transfer factor for Cm 0.91 (MCSUMMARHB soilCm243)
Thickness of contaminated zone 0.73 External gamma shielding factor 0.60 Depth of roots -0.56 Cm-244 Plant transfer factor for Cm 0.92 (MCSUMMARHB soilCm244)
Thickness of contaminated zone 0.78 Depth of roots -0.60 Cm-245 Plant transfer factor for Cm 0.84 (MCSUMMARHB soilCm245)
Thickness of contaminated zone 0.80 Depth of roots -0.54 Cm-246 Plant transfer factor for Cm 0.92 (MCSUMMARHB soilCm246)
Thickness of contaminated zone 0.79 Depth of roots -0.60 Co-60 External gamma shielding factor 0.95 (MCSUMMARHB soil0Co60)
Plant transfer factor for Co 0.65 Thickness of contaminated zone 0.39 Meat transfer factor for Co 0.35 Cs-137 Plant transfer factor for Cs 0.86 (MCSUMMARHB soilCs137)
External gamma shielding factor 0.76 Thickness of contaminated zone 0.58 Milk transfer factor for Cs 0.39 Depth of roots -0.35 Meat transfer factor for Cs 0.28 Eu-152 External gamma shielding factor 1.00 (MCSUMMARHB soilEu152)
Kd of Eu-152 in contaminated zone 0.26 Eu-1 54 External gamma shielding factor 0.99 (MCSUMMAR HB soil Eu154)H-3 Thickness of contaminated zone 0.93 (MCSUMMARHB soil_H3) Depth of roots -0.64 Kd of H-3 in contaminated zone -0.27 1-129 Plant transfer factor for I 0.89 (MCSUMMARHB soil 1129) Thickness of contaminated zone 0.75 Milk transfer factor for I 0.60 Depth of roots -0.49 Meat transfer factor for I 0.44 Nb-94 External gamma shielding factor 0.99 (MCSUMMAR HB soilNb94)
Kd of Nb-94 in contaminated zone 0.32 Ni-59 Plant transfer factor for Ni 0.90 (MCSUMMARHB soilNi59)
Milk transfer factor for Ni 0.81 Thickness of contaminated zone 0.74 Depth of roots -0.54 C) ARTLETT Page 56 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Radionuclide PRCC (RESRAD 6.5 Uncertainty Report file name) Sensitive Parameter Value Ni-63 Plant transfer factor for Ni 0.90 (MCSUMMARHB soilNi63)
Milk transfer factor for Ni 0.81 Thickness of contaminated zone 0.74 Depth of roots -0.53 Np-237 Plant transfer factor for Np 0.92 (MCSUMMAR_HB soil_Np237)
Thickness of contaminated zone 0.79 Depth of roots -0.60 Pu-238 Plant transfer factor for Pu 0.92 (MCSUMMARHB soilPu238)
Thickness of contaminated zone 0.79 Depth of roots -0.62 Pu-239 Plant transfer factor for Pu 0.93 (MCSUMMARHB soilPu239)
Thickness of contaminated zone 0.79 Depth of roots -0.60 Pu-240 Plant transfer factor for Pu 0.92 (MCSUMMARHB soilPu240)
Thickness of contaminated zone 0.79 Depth of roots -0.60 Pu-241 Plant transfer factor for Am 0.84 (MCSUMMARHB soilPu241)
Thickness of contaminated zone 0.75 Depth of roots -0.51 Kd of Am in contaminated zone 0.25 Sr-90 Plant transfer factor for Sr 0.93 (MCSUMMARHB soilSr90)
Thickness of contaminated zone 0.78 Depth of roots -0.58 Tc-99 Plant transfer factor for Tc 0.91 (MCSUMMARHB soilTc99)
Thickness of contaminated zone 0.80 Depth of roots -0.54 Kd of Tc-99 in contaminated zone 0.26 (C BARTLETT Page 57 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Table 4: RESRAD-Generated Percentile Values for Sensitive Input Parameters RESRAD Percentile Valuea Sensitive Input Parameter Affected Nuclide 2 5 th 7 5 th Thickness of contaminated zone (m) Am-241, C-14, Cm-243/244/245/246, 2.67E+00 Co-60, Cs-137, H-3, 1-129, Ni-59, Ni-63, Np-237, Pu-238/239/240/241, Sr-90, Tc-99 Depth of roots (m) Am-241, C-14, Cm-243/244/245/246, 1.22E+00 Co-60, Cs-137, H-3, 1-129, Ni-59, Ni-63, Np-237, Pu-238/239/240/241, Sr-90, Tc-99 External shielding factor Cm-243, Co-60, Cs-137, Eu-1 52, Eu- 3.98E-01 154, Nb-94 Thickness of evasion layer (m) C-14 4.27E-01 Plant transfer factor Am-241 (the plant transfer factor was 1.83E-03 (pCi/g plant per pCi/g soil) also found sensitive for the Am-241 as a daughter product for Pu-241)Cm-243/244/245/246 1.83E-03 Co-60 1.46E-01 Cs-137 7.82E-02 1-129 3.67E-02 Ni-59/63 9.12E-02 Np-237 3.67E-02 Pu-238/239/240 1.83E-03 Sr-90 5.90E-01 Tc-99 9.16E+00 Meat transfer factor (pCi/kg per pCi/d) Co-60 5.86E-02 Cs-1 37 6.52E-02 1-129 5.23E-02 Milk transfer factor (pCi/I per pCi/d) Cs-137 1.39E-02 1-129 1.39E-02 Ni-59/63 3.21 E-02 Kd in contaminated zone (cm 3/g) Am-241 (as daughter product for Pu- 1.20E+04 241)Eu-1 52 7.22E+03 H-3 4.30E-02 Nb-94 3.56E+03 Tc-99 4.28E+00 a The 7 5 th percentile value was selected when the absolute value of the PRCC for a given parameter was >0.25 and PRCC had a positive value. The 2 5 th percentile value was selected when the absolute value of the PRCC value for a given parameter was >0.25 and the PRCC had a negative value.T, BARTLETT Page 58 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-O01 Rev. 0 Appendix A Selected Pages from RESRAD Code Executions
~(C-BARTLETT Page 59 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Am-241 Results: RESRAD, version 6.5 Limit = 30 days 11/06/2011 10:46 Page Probabilistic results summary : HB sensitivity analysis.soilAm241 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\AM241\HB SOIL SAAM241_1.RAD Table of Contents A4kAAAAAAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
4 Total Risk ....................
.....................
5 Dose vs Pathway: Ground External....................
6 Dose vs Pathway: Inhalation (w/o Radon) ............
7 Dose VS Pathway: Radon (water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ................
9 Dose vs Pathway: Meat (water Ind.) ................
10 Dose vs Pathway: Milk (water Ind.) ................
11 Dose vs Pathway: soil Ingestion
....................
12 Dose vs Pathway: water Ingestion
......................
13 Dose vs Pathway: Fish Ingestion
......................
14 Dose vs Pathway: Radon (water Dep.) ................
15 Dose vs Pathway: Plant (water Oep.) .................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose vs Pathway: Milk (water Dep.) .................
18 Cumulative Probability summary .......................
19 summary of dose at graphical times, reptition 1 ..... 20 Peak of the mean dose at graphical times .............
21 Correlation and Regression coefficients (if any) ..... 22 RESRAD, version 6.5 T1 Limit = 30 days 11/06/2011 10:46 Page Probabilistic results summary : HR sensitivity analysis-soil-Am241 File : C:\RESRAoFAMILY\RESRAD\6.5\USERFILES\AM241\HB SOIL SA..AM241L1.RAD Probabilistic Input Number of Sample Runs: 2000 2 Number AAAAAA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 Name AAAAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 SHF3 SHF1 DM DROOT YV()WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)DCACTC(2)DCACTU1(2)
DCACTS(2)DCACTC(3)DCACTU1(3)
DCACTS(3)DCACTC(4)DCACTU1(4)
DCACTS(4)BRTF(95,1)
BRTF(95,2)
BRTF(95,3)
BBIO(95,1)
BRTF(93,1)
BRTF(93,2)
BRTF(93,3)
BBIO(93,1)
BRTF(90,1)
BRTF(90,2)
BRTF(90,3)
BBIO(90,1)
BRTF(92,1)
BRTF(92,2)
BRTF(92,3)
BBIO(92,1)
Distribution Parameters ,AAAAAA5AA5 AAAAAAAAAAAAAAAAAAAAAA AAAAAWAAAAAAAAAAAAAAAAA.AAAAAAAAAAAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 UNIFORM .5 .75 UNIFORM .36 .76 ROUNDED NORMAL 1.5105 .1855 .937 2.084 BOUNDED NORMAL .43 .0699 .214 .646 BOUNDED NORMAL .342 .0705 .124 .56 BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 TRIANGULAR 6 10 30 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED NORMAL .315 .0905 .0349 .594 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 CONTINUOUS LINEAR 8 0 0 .000008 00004 .9495 .00006 .9937 .000076 .9983 .0001 1 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 .044 1 TRIANGULAR 0 .15 .6 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 TRIANGULAR 5.1 18 84 TRIANGULAR
.06 .67 .95 TRUNCATED LOGNORMAL-N 7.28 3.15 .001 .999 TRUNCATED LOGNORMAL-N 7.28 3.15 .001 .999 TRUNCATED LOGNORMAL-N 7.28 3.15 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-9.9 .2 .001 .999 TRUNCATED LOGNORMAL-N
-13.12 .7 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-3.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-6.91 .7 .001 .999 TRUNCATED LOGNORMAL-N
-11.51 .7 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-9.21 1 .001 .999 TRUNCATED LOGNORMAL-N
-12.21 .9 .001 .999 LOGNORMAL-N 4.6 1.1 TRUNCATED LOGNORMAL-N
-6.21 .9 .001 .999 TRUNCATED LOGNORMAL-N
-7.13 .7 .001 .999 TRUNCATED LOGNORMAL-N
-7.82 .6 .001 .999 LOGNORMAL-N 2.3 1.1 0151 .000016 .1365 BARTLETT Page 60 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 RESRAD Regression and Correlation output 11/06/11 10:52 Page: Coef 1 Title : H6 sensitivity analysis.soilAm241 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\AM241\HB SOIL SAAM241l1.RAD coefficients for peak of mean dose time Dose coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff Sig Coeff Sig Coeff Thickness of contaminated zone 2 0.54 7 0.27 2 0.79 2 0.42 Density of contaminated zone 49 0.00 19 -0.01 35 -0.01 9 -0.02 Contaminated zone total porosity 54 0.00 35 -0.01 40 -0.01 11 -0.02 Contaminated zone hydraulic conductivity 29 0.02 31 0.01 5 -0.06 12 -0.02 contaminated zone b parameter 9 -0.04 15 -0.02 7 -0.04 17 -0.01 Evapotranspiration coefficient 44 -0.01 46 0.00 14 -0.03 24 -0.01 Irrigation 27 -0.02 10 -0.03 22 -0.02 10 -0.02 Density of saturated zone 8 -0.05 2 -0.66 55 0.00 14 -0.02 saturated zone total porosity 7 -0.05 4 -0.34 46 0.00 8 -0.02 Saturated zone effective porosity 10 -0.04 5 -0.32 53 0.00 16 0.01 Saturated zone hydraulic conductivity 25 0.02 28 0.01 20 0.02 27 0.01 Saturated zone b parameter 16 0.03 20 0.01 19 0.02 26 0.01 well pump intake depth 28 -0.02 30 -0.01 50 0.00 52 0.00 well pumping rate 31 0.02 13 0.02 30 0.01 15 0.02 Thickness of unsaturated zone 1 30 0.02 32 0.01 52 0.00 54 0.00 Density of Unsaturated zone 1 14 0.04 3 0.51 16 0.03 3 0.29 Total Porosity of unsaturated zone 1 17 0.03 8 0.24 17 0.03 6 0.14 Effective Porosity of Unsaturated zone 1 13 0.04 6 0.28 15 0.03 5 0.16 Hydraulic Conductivity of unsaturated zone 1 22 -0.03 25 -0.01 37 -0.01 41 0.00 b Parameter of unsaturated zone 1 33 0.01 34 0.01 11 0.04 21 0.01 Mass loading for inhalation 38 0.01 40 0.00 4 0.08 7 0.03 Indoor dust filtration factor 40 0.01 42 0.00 6 0.05 13 0.02 External gamma shielding factor 48 -0.01 50 0.00 43 0.01 46 0.00 Depth of soil mixing layer 18 -0.03 21 -0.01 36 -0.01 40 0.00 Depth of roots 3 -0.39 9 -0.18 3 -0.59 4 -0.24 wet weight crop yield of fruit, grain and non-leafy vegetables 21 -0.03 24 -0.01 24 -0.02 30 -0.01 weathering removal constant of all vegetation 34 -0.01 36 -0.01 21 -0.02 28 -0.01 wet foliar interception fraction of leafy vegetables 5 -0.06 12 -0.02 8 -0.04 18 -0.01 Kd of Am-241 in Contaminated Zone 6 0.05 14 0.02 34 -0.01 39 0.00 Kd of Am-241 in unsaturated zone 1 19 0.03 22 0.01 32 -0.01 37 0.00 Kd of Am-241 in Saturated Zone 35 0.01 37 0.01 47 0.00 49 0.00 Kd of Np-237 in Contaminated Zone 46 0.01 48 0.00 12 -0.03 22 -0.01 Kd of Np-237 in unsaturated zone 1 53 0.00 54 0.00 44 0.01 47 0.00 Kd of Np-237 in Saturated zone 47 -0.01 49 0.00 25 0.02 31 0.01 Kd of Th-229 in Contaminated zone 37 -0.01 39 -0.01 33 -0.01 38 0.00 Kd of Th-229 in unsaturated zone 1 12 -0.04 17 -0.02 45 0.00 48 0.00 Kd of Th-229 in Saturated zone 26 0.02 29 0.01 18 0.02 25 0.01 Kd of U-233 in contaminated zone 32 0.02 33 0.01 31 -0.01 36 0.00 Kd of U-233 in unsaturated zone 1 42 -0.01 44 0.00 13 -0.03 23 -0.01 Kd of U-233 in Saturated Zone 51 0.00 52 0.00 49 0.00 51 0.00 Plant transfer factor for Am 1 0.89 1 0.85 1 0.93 1 0.81 Meat transfer factor for Am 50 0.00 51 0.00 23 0.02 29 0.01 Milk transfer factor for Am 55 0.00 55 0.00 27 0.02 33 0.01 Fish transfer factor for Am 20 0.03 23 0.01 48 0.00 50 0.00 Plant transfer factor for Np 52 0.00 53 0.00 42 -0.01 45 0.00 Meat transfer factor for Np 41 -0.01 43 0.00 56 0.00 56 0.00 Milk transfer factor for Np 4 -0.06 11 -0.02 28 -0.02 34 -0.01 Fish transfer factor for Np 36 -0.01 38 -0.01 38 0.01 42 0.00 Plant transfer factor for Th 23 -0.02 26 -0.01 54 0.00 55 0.00 Meat transfer factor for Th 11 0.04 16 0.02 29 0.02 35 0.00 Milk transfer factor for Th 43 0.01 45 0.00 39 -0.01 43 0.00 Fish transfer factor for Th 56 0.00 56 0.00 26 -0.02 32 -0.01 Plant transfer factor for U 45 -0.01 47 0.00 51 0.00 53 0.00 Meat transfer factor for U 39 0.01 41 0.00 41 0.01 44 0.00 Milk transfer factor for U 24 0.02 27 0.01 9 -0.04 19 -0.01 Fish transfer factor for U 15 -0.04 18 -0.01 10 -0.04 20 -0.01 R-SQUARE 0.82 0.82 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 61 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 C-14 Results: RESRAD, version 6.5 T¢ Limit = 30 days 11/06/2011 11:14 Page Probabilistic results summary : HB sensitivity analysissoilC-14 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\C14\HB SOIL SAC14-1.RAD Table of Contents AAAAAA AAA.AAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ...................
.......................
4 Dose vs Pathway: Ground External....................
5 Dose vs Pathway: Inhalation (W/o Radon) ............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (Water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: soil Ingestion
......................
11 Dose Vs Pathway: water Ingestion
...................
12 Dose vs Pathway: Fish Ingestion
....................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose vs Pathway: Milk (water Dep.) ..................
17 Cumulative Probability Summary ........................
18 Summary of dose at graphical times, reptition 1 19 Peak of the mean dose at graphical times .............
20 correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T- Limit = 30 days 11/06/2011 11:14 Page Probabilistic results summary : HB sensiti.vty analysissoilC-14 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\C14\HB SOIL SAC14-1.RAD Probabilistic Input Number of Sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 Name AAAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUz7()HCUZ(1)BUZ(1)MLINH.8119 SHF3 SHF1 DM DROOT YVW(1)WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)BRTF(6,1)BRTF(6,2)BRTF(6, 3)BBIO(6,1)DMC Distribution AAAAAAAAAAA AAAAAAAAAAAAAAAASAAAAAA UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N UNIFORM UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N TRIANGULAR UNIFORM UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N CONTINUOUS LINEAR.00004 .9495 .00006 .9937 UNIFORM BOUNDED LOGNORMAL-N TRIANGULAR UNIFORM TRUNCATED LOGNORMAL-N TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N LOGNORMAL-N TRIANGULAR Parameters AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
.15 1.5635.41 1.36 1.73.5.36 1.5105.43.342.362 1.96 6 1173 0 1.563S.41.315 1.36 1.73 8 3.51.2385.09 2.17.323.75.76.1855.0699.0705 1.59.265 10 1973 8.08.827 2.3.1319 .6881.00478 3190 2.08 15.3.937.214.124.0106 3.02 30 2.084.646.56 195 15.5.2385 .827 2.3.09 .1319 .6881.0905 .0349 .594 2.17 .00478 3190.323 2.08 15.3 0 0 .000008 .0151 .000016 .1365.9983 .0001 1.000076.15 .95-1.3 .59 0 .15.3 4.56 .48 5.1 18.06 .67 2.4 3.22 2.4 3.22 2.4 3.22-.36 .9-4.47 1-4.4 .9 10.8 1.1.2 .3.044.6 1.001 .999 84.95.001 .999.001 .999.001 .999.001 .999.001 .999.001 .999.6 (&'BARTLETT Page 62 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and correlation output 11/06/11 11:18 Page: coef 1 Title : HB sensitivity analysissoilC-14 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\C14\HB SOIL SAC14-1.RAD Coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone Contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone saturated zone total porosity saturated zone effective porosity Saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic conductivity of unsaturated zone b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of C-14 in Contaminated zone Kd of C-14 in unsaturated zone 1 Kd of C-14 in Saturated zone Plant transfer factor for C Meat transfer factor for C Milk transfer factor for C Fish transfer factor for C Thickness of evasion layer of C-14 in soil PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig Coeff Sig coeff 1 0.97 1 0.91 1 0.98 1 0.92 4 0.09 4 0.14 5 0.09 5 0.13 5 -0.05 9 -0.08 7 -0.05 9 -0.07 22 -0.02 23 0.00 16 -0.02 21 0.00 23 -0.01 24 0.00 17 -0.02 22 0.00 29 0.01 29 0.00 35 0.00 35 0.00 16 0.02 12 0.02 27 0.01 15 0.01 20 -0.02 5 -0.12 10 -0.04 2 -0.24 18 -0.02 10 -0.07 9 -0.04 4 -0.13 24 -0.01 11 -0.05 13 -0.03 6 -0.11 12 0.02 17 0.01 28 0.01 30 0.00 33 0.00 33 0.00 36 0.00 36 0.00 32 0.00 32 0.00 34 0.00 34 0.00 21 -0.02 13 -0.01 30 -0.01 20 -0.01 27 0.01 27 0.00 21 0.01 26 0.00 8 0.03 3 0.23 24 0.01 7 0.08 9 0.03 6 0.11 29 0.01 11 0.04 11 0.03 7 0.11 25 0.01 10 0.04 31 0.01 31 0.00 11 0.03 16 0.01 25 0.01 25 0.00 18 0.02 23 0.00 19 -0.02 22 0.00 33 0.00 33 0.00 13 -0.02 18 -0.01 26 -0.01 29 0.00 34 0.00 34 0.00 22 -0.01 27 0.00 17 -0.02 21 0.00 12 -0.03 17 -0.01 2 -0.71 2 -0.23 2 -0.76 3 -0.24 10 -0.03 16 -0.01 15 -0.03 19 -0.01 36 0.00 36 0.00 32 0.00 32 0.00 30 -0.01 30 0.00 31 -0.01 31 0.00 35 0.00 35 0.00 4 0.11 12 0.02 6 0.05 14 0.01 20 0.02 25 0.00 7 0.04 15 0.01 14 0.03 18 0.01 26 -0.01 26 0.00 19 -0.02 24 0.00 28 0.01 28 0.00 6 0.05 13 0.01 15 0.02 20 0.00 8 0.05 14 0.01 14 -0.02 19 -0.01 23 0.01 28 0.00 3 0.37 8 0.09 3 0.35 8 0.08 R-SQUARE 0.95 0.95 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 63 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Cm-243 Results: RESRAD, version 6.5 T,, Limit = 30 days 11/07/2011 08:56 Page 1 Probabilistic results summary : HB sensitivity analysis.soilCm243 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CM243\HB SOIL SACM243-1.RAD Table of Contents~A1AAA.AASA.AAAAAAAA Part vI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
4 Total Risk .........................
....................
5 Dose vs Pathway: Ground External ...................
6 Dose vs Pathway: Inhalation (w/o Radon) ............
7 Dose vs Pathway: Radon (Water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ................
9 Dose vs Pathway: Meat (water Ind.) ................
10 Dose vs Pathway: Milk (Water Ind.) ................
11 Dose vs Pathway: Soil Ingestion
....................
12 Dose vs Pathway: water Ingestion
...................
13 Dose vs Pathway: Fish Ingestion
.....................
14 Dose VS Pathway: Radon (water Dep.) ................
.15 Dose vs Pathway: Plant (water Dep.) ................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose vs Pathway: Milk (water Dep.) ................
18 Cumulative Probability Summary .........................
19 Summary of dose at graphical times, reptition 1 ..... 20 Peak of the mean dose at graphical times .............
21 correlation and Regression coefficients (if any) ..... 22 RESRAD, Version 6.5 Limit = 30 days 11/07/2011 08:56 Page 2 Probabilistic results summary : HB sensitivity analysis-soil-cm243 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CM243\HB SOIL SACM243-1.
RAD Probabilistic Input Number of Sample Runs: 2000 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 Name AAAAAAAA.AAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H (1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 SHF3 SHF1 DM DROOT Yv(1)WLAM RWET(2)DCACTC(3)DCACTU1(3)
DCACTS(3)DCACTC(1)DCACTU1(1)
DCACTS(1)DCACTC(2)DCACTU1(2)
DCACTS(2)DCACTC(5)DCACTUI(5)
DCACTS(5)DCACTC(6)DCACTU1(6)
DCACTS(6)DCACTC(7)DCACTU1(7)
DCACTS(7)BRTF(96,1)
BRTF(96, 2)BRTF(96, 3)BBIO(96,1)
BRTF(89, 1)BRTF(89,2)
BRTF(89, 3)BBIO(89, 1)BRTF(95, 1)BRTF(95,2)
BRTF(95, 3)BBIO(95, 1)BRTF(91, 1)BRTF(91,2)
BRTF(91, 3)BBIO(91,1)
BRTF(94,1)
BRTF(94,2)
BRTF(94, 3)BBIO(94, 1)BRTF(92, 1)BRTF(92,2)
BRTF(92, 3)Distribution Parameters ,AAAAAAAAA AAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 BOUNDED NORMAL .41 .09 BOUNDED LOGNORMAL-N 1.36 2.17 BOUNDED LOGNORMAL-N 1.73 .323 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 BOUNDED NORMAL .43 .0699 BOUNDED NORMAL .342 .0705 BOUNDED LOGNORMAL-N
.362 1.59 BOUNDED LOGNORMAL-N 1.96 .265 TRIANGULAR 6 10 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 BOUNDED NORMAL .41 .09 BOUNDED NORMAL .315 .0905 BOUNDED LOGNORMAL-N 1.36 2.17 BOUNDED LOGNORMAL-N 1.73 .323 CONTINUOUS LINEAR 8 0 00004 .9495 .00006 .9937 .000076 .9983 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 TRIANGULAR 0 .15 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 TRIANGULAR 5.1 18 TRIANGULAR
.06 .67 TRUNCATED LOGNORMAL-N 8.82 1.82 TRUNCATED LOGNORMAL-N 8.82 1.82 TRUNCATED LOGNORMAL-N 8.82 1.82 TRUNCATED LOGNORMAL-N 6.72 3.22 TRUNCATED LOGNORMAL-N 6.72 3.22 TRUNCATED LOGNORMAL-N 6.72 3.22 TRUNCATED LOGNORMAL-N 7.28 3.15 TRUNCATED LOGNORMAL-N 7.28 3.15 TRUNCATED LOGNORMAL-N 7.28 3.15 TRUNCATED LOGNORMAL-N 5.94 3.22 TRUNCATED LOGNORMAL-N 5.94 3.22 TRUNCATED LOGNORMAL-N 5.94 3.22 TRUNCATED LOGNORMAL-N 6.86 1.89 TRUNCATED LOGNORMAL-N 6.86 1.89 TRUNCATED LOGNORMAL-N 6.86 1.89 TRUNCATED LOGNORMAL-N 4.84 3.13 TRUNCATED LOGNORMAL-N 4.84 3.13 TRUNCATED LOGNORMAL-N 4.84 3.13 TRUNCATED LOGNORMAL-N
-6.91 .9 TRUNCATED LOGNORMAL-N
-10.82 1 TRUNCATED LOGNORMAL-N
-13.12 .9 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.91 1.1 TRUNCATED LOGNORMAL-N
-10.82 1 TRUNCATED LOGNORMAL-N
-13.12 .9 LOGNORMAL-N 2.7 1.1 TRUNCATED LOGNORMAL-N
-6.91 .9 TRUNCATED LOGNORMAL-N
-9.9 .2 TRUNCATED LOGNORMAL-N
-13.12 .7 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-4.61 1.1 TRUNCATED LOGNORMAL-N
-12.21 1 TRUNCATED LOGNORMAL-N
-12.21 .9 LOGNORMAL-N 2.3 1.1 TRUNCATED LOGNORMAL-N
-6.91 .9 TRUNCATED LOGNORMAL-N
-9.21 .2 TRUNCATED LOGNORMAL-N
-13.82 .5 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.21 .9 TRUNCATED LOGNORMAL-N
-7.13 .7 TRUNCATED LOGNORMAL-N
-7.82 .6 AAAAAAAAAAAAAAAAAAAAA
.827 2.3.1319 .6881.00478 3190 2.08 15.3.937 2.084.214 .646.124 .56.0106 195 3.02 15.5 30.827 2.3.1319 .6881.0349 .594.00478 3190 2.08 15.3 0 .000008 0151.000016 .1365.0001.044.6.001 84.95.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001 1 1.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999 BARTLETT Page 64 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 70 BBIO(92,l)
LOGNORMAL-N 2.3 1.1 RESRAD Regression and Correlation output 11/07/11 09:33 Page: Coef 1 Title : HB sensitivity analysis.soil-cm243 Input File : C:\RESRADFAMILY\RESRAD\6.S\USERFILES\CM243\HB SOIL SA-CM243-1.RAD coefficients for peak of mean dose time Dose Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Thickness of contaminated zone 2 0.57 3 0.26 2 0.73 2 0.38 Density of contaminated zone 58 0.01 14 0.02 58 0.00 21 0.01 contaminated zone total porosity 64 0.00 20 0.01 68 0.00 60 0.00 contaminated zone hydraulic conductivity 39 -0.02 45 -0.01 12 0.04 18 0.01 Contaminated zone b parameter 20 0.03 28 0.01 46 0.01 49 0.00 Evapotranspiration coefficient 44 -0.01 50 0.00 28 0.02 35 0.01 Irrigation 68 0.00 58 0.00 61 0.00 48 0.00 Density of saturated zone 31 -0.02 2 -0.26 41 0.01 6 0.16 saturated zone total porosity 32 -0.02 6 -0.13 53 0.01 10 0.06 saturated zone effective porosity 33 -0.02 7 -0.12 29 0.02 7 0.10 saturated zone hydraulic conductivity S2 -0.01 57 0.00 25 -0.02 32 -0.01 saturated zone b parameter 10 -0.03 17 -0.01 36 0.01 40 0.01 well pump intake depth 38 -0.02 44 -0.01 16 -0.03 23 -0.01 well pumping rate 55 -0.01 34 -0.01 70 0.00 70 0.00 Thickness of unsaturated zone 1 18 -0.03 26 -0.01 63 0.00 64 0.00 Density of unsaturated zone 1 53 -0.01 8 -0.09 32 -0.02 5 -0.19 Total Porosity of unsaturated zone 1 66 0.00 10 -0.02 43 -0.01 9 -0.08 Effective Porosity of Unsaturated zone 1 48 -0.01 9 -0.05 30 -0.02 8 -0.10 Hydraulic conductivity of unsaturated zone 1 26 0.02 35 0.01 31 0.02 36 0.01 b Parameter of unsaturated zone 1 67 0.00 68 0.00 39 -0.01 43 0.00 Mass loading for inhalation 50 0.01 56 0.00 14 0.03 20 0.01 Indoor dust filtration factor 11 0.03 18 0.01 13 0.03 19 0.01 External gamma shielding factor 4 0.37 5 0.15 3 0.60 3 0.27 Depth of soil mixing layer 7 -0.04 13 -0.02 50 -0.01 53 0.00 Depth of roots 3 -0.44 4 -0.18 4 -0.56 4 -0.24 wet weight crop yield of fruit, grain and non-leafy vegetables 21 0.03 29 0.01 52 0.01 55 0.00 weathering removal constant of all vegetation 16 0.03 25 0.01 38 -0.01 42 0.00 wet foliar interception fraction of leafy vegetables 22 0.02 30 0.01 69 0.00 69 0.00 Kd of Cm-243 in Contaminated zone 41 0.01 47 0.00 20 -0.02 27 -0.01 Kd of Cm-243 in unsaturated zone 1 24 0.02 32 0.01 9 -0.04 15 -0.01 Kd of Cm-243 in saturated zone 63 0.00 66 0.00 11 0.04 17 0.01 Kd of AC-227 in Contaminated zone 15 0.03 23 0.01 27 0.02 34 0.01 Kd of AC-227 in Unsaturated zone 1 49 0.01 54 0.00 24 -0.02 31 -0.01 Kd of AC-227 in saturated Zone 61 -0.01 64 0.00 56 -0.01 58 0.00 Kd of Am-243 in Contaminated Zone 69 0.00 69 0.00 42 -0.01 45 0.00 Kd of Am-243 in Unsaturated Zone 1 47 -0.01 53 0.00 44 0.01 46 0.00 Kd of Am-243 in Saturated zone 45 0.01 51 0.00 6 -0.06 12 -0.02 Kd of Pa-231 in Contaminated zone 42 -0.01 48 0.00 59 0.00 61 0.00 Kd of Pa-231 in unsaturated zone 1 54 -0.01 59 0.00 8 0.04 14 0.02 Kd of Pa-231 in saturated zone 40 -0.02 46 -0.01 67 0.00 68 0.00 Kd of Pu-239 in contaminated zone 23 0.02 31 0.01 62 0.00 63 0.00 Kd of Pu-239 in unsaturated zone 1 57 0.01 61 0.00 60 0.00 62 0.00 Kd of Pu-239 in saturated zone 6 -0.05 12 -0.02 23 0.02 30 0.01 Kd of U-235 in Contaminated zone 12 0.03 19 0.01 15 0.03 22 0.01 Kd of U-235 in unsaturated zone 1 60 -0.01 63 0.00 40 -0.01 44 0.00 Kd of U-235 in saturated Zone 56 -0.01 60 0.00 26 0.02 33 0.01 Plant transfer factor for Cm 1 0.92 1 0.85 1 0.91 1 0.77 Meat transfer factor for Cm 9 0.04 16 0.01 18 0.02 25 0.01 Milk transfer factor for cm 51 0.01 55 0.00 45 0.01 47 0.00 Fish transfer factor for cm 27 -0.02 36 -0.01 5 -0.06 11 -0.02 Plant transfer factor for AC 29 0.02 38 0.01 66 0.00 67 0.00 Meat transfer factor for AC 30 0.02 39 0.01 22 -0.02 29 -0.01 Milk transfer factor for AC 59 0.01 62 0.00 33 0.02 37 0.01 Fish transfer factor for AC 43 0.01 49 0.00 19 0.02 26 0.01 Plant transfer factor for Am 17 -0.03 24 -0.01 51 -0.01 54 0.00 Meat transfer factor for Am 19 -0.03 27 -0.01 37 -0.01 41 -0.01 Milk transfer factor for Am 70 0.00 70 0.00 49 -0.01 52 0.00 Fish transfer factor for Am 14 -0.03 22 -0.01 35 -0.01 39 -0.01 Plant transfer factor for Pa 13 -0.03 21 -0.01 54 -0.01 56 0.00 Meat transfer factor for Pa 5 0.06 11 0.02 10 0.04 16 0.01 Milk transfer factor for Pa 8 0.04 15 0.01 21 0.02 28 0.01 Fish transfer factor for Pa 62 -0.01 65 0.00 57 0.01 59 0.00 Plant transfer factor for Pu 46 -0.01 52 0.00 34 -0.02 38 -0.01 Meat transfer factor for Pu 34 0.02 40 0.01 55 -0.01 57 0.00 Milk transfer factor for Pu 25 -0.02 33 -0.01 65 0.00 66 0.00 Fish transfer factor for Pu 65 0.00 67 0.00 47 -0.01 50 0.00 Plant transfer factor for U 28 -0.02 37 -0.01 7 -0.06 13 -0.02 Meat transfer factor for U 36 0.02 42 0.01 48 0.01 51 0.00 Milk transfer factor for U 35 -0.02 41 -0.01 64 0.00 65 0.00 Fish transfer factor for U 37 0.02 43 0.01 17 0.03 24 0.01 R-SQUARE 0.87 0.87 0.87 0.87-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in 1jhe dependent variable (Dose) explained by regression on the independent variables.
fBARTLETT Page 65 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Cm-244 Results: RESRAD, Version 6.5 Ta Limit = 30 days 11/07/2011 09:44 Page Probabilistic results Summary 6H sensitivity analysissoilcm244 File :C:\RESRAD.-FAMILY\RESAD\6.
5\USERFILES\CM244\HB SOIL SA-CM244-1.RAD Table of Contents AAAAAAAAAWAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input ........ ...........................
2 Total Dose ..............................................
4 Total Risk ...........
...............................
5 Dose vs Pathway: Ground External ...................
6 Dose vs Pathway: Inhalation (w/o Radon) ..............
7 Dose vs Pathway: Radon (water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ...................
9 Dose vs Pathway: Meat (Water Ind.) ..................
10 Dose vs Pathway: Milk (Water Ind.) ................
11 Dose vs Pathway: soil Ingestion
......................
12 Dose vs Pathway: water Ingestion
.....................
13 Dose vs Pathway: Fish Ingestion
....................
14 Dose vs Pathway: Radon (water Dep.) .................
15 Dose VS Pathway: Plant (water Dep)....................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose vs Pathway: Milk (water Dep)..).................
18 Cumulative Probability summary ........................
19 Summary of dose at graphical times, reptition 1 .. 20 Peak of the mean dose at graphical times .............
21 Correlation and Regression coefficients (if any) ..... 22 RESRAD, version 6.5 T- Limit = 30 days 11/07/2011 09:44 Page Probabilistic results summary : HB sensitivity analysis.soil-cm244 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CM244\HB SOIL SACM244-1.RAD Probabilistic Input Number of sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 5O 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 Name AAAAAAAAWAAAAAAAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)DCACTC(4)DCACTU1(4)
DCACTS(4)DCACTC(6)DCACTU1(6)
DCACTS(6)DCACTC(7)DCACTU1(7)
DCACTS(7)DCACTC(8)DCACTU1(8)
DCACTS(8)DCACTC(9)DCACTU1(9)
DCACTS(9)BRTF(96,1)
BRTF(96,2)
BRTF(96,3)
BBIO(96,1)
BRTF(94,1)
BRTF(94,2)
BRTF(94,3)
BBIO(94,1)
BRTF(88,1)
BRTF(88,2)
BRTF(88,3)
BBIO(88,1)
BRTF(90,1)
BRTF(90,2)
BRTF(90,3)
BBIO(90,1)
BRTF(92,1)
BRTF(92,2)
BRTF(92,3)
BBIO(92,1) 94 Distribution Parameters AAAAAAAAAAAAAAAAAAAAAA AAAAAAAA.AA, UNIFORM .15 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED LOGNORMAL-N 1.36 BOUNDED LOGNORMAL-N 1.73 UNIFORM .5 UNIFORM .36 BOUNDED NORMAL 1.5105 BOUNDED NORMAL .43 BOUNDED NORMAL .342 BOUNDED LOGNORMAL-N
.362 BOUNDED LOGNORMAL-N 1.96 TRIANGULAR 6 UNIFORM 1173 UNIFORM 0 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED NORMAL .315 BOUNDED LOGNORMAL-N 1.36 BOUNDED LOGNORMAL-N 1.73 CONTINUOUS LINEAR 8 495 .00006 .9937 .000076 UNIFORM .15 BOUNDED LOGNORMAL-N
-1.3 TRIANGULAR 0 UNIFORM .3 TRUNCATED LOGNORMAL-N
.56 TRIANGULAR 5.1 TRIANGULAR
.06 TRUNCATED LOGNORMAL-N 8.82 TRUNCATED LOGNORMAL-N 8.82 TRUNCATED LOGNORMAL-N 8.82 TRUNCATED LOGNORMAL-N 6.86 TRUNCATED LOGNORMAL-N 6.86 TRUNCATED LOGNORMAL-N 6.86 TRUNCATED LOGNORMAL-N 8.17 TRUNCATED LOGNORMAL-N 8.17 TRUNCATED LOGNORMAL-N 8.17 TRUNCATED LOGNORMAL-N 8.68 TRUNCATED LOGNORMAL-N 8.68 TRUNCATED LOGNORMAL-N 8.68 TRUNCATED LOGNORMAL-N 8.68 TRUNCATED LOGNORMAL-N 8.68 TRUNCATED LOGNORMAL-N 8.68 TRUNCATED LOGNORMAL-N 4.84 TRUNCATED LOGNORMAL-N 4.84 TRUNCATED LOGNORMAL-N 4.84 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-10.82 TRUNCATED LOGNORMAL-N
-13.12 LOGNORMAL-N 3.4 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-9.21 TRUNCATED LOGNORMAL-N
-13.82 LOGNORMAL-N 3.4 TRUNCATED LOGNORMAL-N
-3.22 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-6.91 LOGNORMAL-N 3.9 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-9.21 TRUNCATED LOGNORMAL-N
-12.21 LOGNORMAL-N 4.6 TRUNCATED LOGNORMAL-N
-6.21 TRUNCATED LOGNORMAL-N
-7.13 TRUNCATED LOGNORMAL-N
-7.82 LOGNORMAL-N 2.3 3.51.2385.09 2.17.323.75.76.1855.0699.0705 1.59.265 10 1973 8.08.2385.09.0905 2.17.323 0.9983.95.59.15 4.48 18.67 1.82 1.82 1.82 1.89 1.89 1.89 1.7 1.7 1.7 3.62 3.62 3.62 3.62 3.62 3.62 3.13 3.13 3.13.9 1.9 1.1.9.2.5 1.1.9.7.5 1.1.9 1.9 1.1.9.7.6 1.1.937.214.124.0106 3.02 30.827.1319.0349.00478 2.08 0.0001.044.6.001 84.95.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001 2.084.646.56 195 15.5 2.3.6881.594 3190 15.3.000008 1 1.0151.000016 .1365.827 2.3.1319 .6881.00478 3190 2.08 15.3.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999~r~BARTLETT Page 66 It) BARTLETT Page 66 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 RESRAD Regression and Correlation output 11/07/11 10:01 Page: Coef 1 Title : HB sensitivity analysis.soilbcm244 Input File : C:\RESRADFAMILY\RESRAo\6.S\USERFILES\CM244\HB SOIL SA__CM244-1.RAD coefficients for peak of mean dose time Dose coefficient PCC SRC PRCC SRRC Repetition 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff Sig coeff Sig Coeff Thickness of contaminated zone 2 0.57 3 0.29 2 0.78 2 0.42 Density of contaminated zone 36 -0.01 11 -0.03 62 0.00 23 0.01 contaminated zone total porosity 44 -0.01 12 -0.03 66 0.00 66 0.00 contaminated zone hydraulic conductivity 7 0.03 17 0.01 37 0.02 41 0.01 contaminated zone b parameter 14 -0.03 24 -0.01 13 0.03 20 0.01 Evapotranspiration coefficient 59 0.00 59 0.00 42 -0.01 44 0.00 Irrigation 29 0.02 13 0.02 41 -0.01 15 -0.02 Density of saturated zone 15 -0.03 2 -0.38 40 -0.02 6 -0.16 Saturated zone total porosity 17 -0.03 7 -0.19 44 -0.01 9 -0.07 saturated zone effective porosity 16 -0.03 6 -0.19 36 -0.02 8 -0.10 Saturated zone hydraulic conductivity 27 -0.02 30 -0.01 12 -0.03 19 -0.01 saturated zone b parameter 24 -0.02 28 -0.01 63 0.00 63 0.00 well pump intake depth 57 0.00 57 0.00 51 0.01 52 0.00 well pumping rate 20 -0.02 10 -0.03 34 0.02 10 0.02 Thickness of unsaturated zone 1 50 -0.01 50 0.00 38 0.02 42 0.01 Density of unsaturated zone 1 23 -0.02 4 -0.28 16 -0.03 3 -0.31 Total Porosity of unsaturated zone 1 26 -0.02 9 -0.13 33 -0.02 7 -0.11 Effective Porosity of unsaturated zone 1 22 -0.02 8 -0.15 11 -0.03 5 -0.19 Hydraulic conductivity of unsaturated zone 1 45 -0.01 45 0.00 6 0.05 13 0.02 b Parameter of unsaturated zone 1 46 -0.01 47 0.00 26 -0.02 33 -0.01 Mass loading for inhalation 8 0.03 18 0.01 4 0.06 11 0.02 Indoor dust filtration factor 63 0.00 63 0.00 35 -0.02 40 -0.01 External gamma shielding factor 6 0.04 16 0.02 19 0.03 26 0.01 Depth of soil mixing layer 13 0.03 23 0.01 65 0.00 65 0.00 Depth of roots 3 -0.43 5 -0.20 3 -0.60 4 -0.25 wet weight crop yield of fruit, grain and non-leafy vegetables 43 -0.01 44 0.00 64 0.00 64 0.00 Weathering removal constant of all vegetation 19 -0.03 26 -0.01 22 -0.02 29 -0.01 wet foliar interception fraction of leafy vegetables 51 0.01 51 0.00 24 0.02 31 0.01 Kd of Cm-244 in Contaminated zone 58 0.00 58 0.00 48 -0.01 49 0.00 Kd of Cm-244 in unsaturated zone 1 33 -0.01 35 -0.01 55 -0.01 56 0.00 Kd of Cm-244 in saturated zone 52 -0.01 52 0.00 45 0.01 46 0.00 Kd of Pu-240 in Contaminated zone 54 -0.01 54 0.00 46 -0.01 47 0.00 Kd of Pu-240 in unsaturated zone 1 4 0.04 14 0.02 17 -0.03 24 -0.01 Kd of Pu-240 in Saturated zone 38 -0.01 39 0.00 57 -0.01 58 0.00 Kd of Ra-228 in Contaminated zone 35 0.01 37 0.00 58 -0.01 59 0.00 Kd of Ra-228 in unsaturated Zone 1 31 0.01 33 0.01 20 -0.03 27 -0.01 Kd of Ra-228 in Saturated zone 10 -0.03 20 -0.01 5 -0.05 12 -0.02 Kd of Th-228 in Contaminated zone 56 0.00 56 0.00 27 0.02 34 0.01 Kd of Th-228 in unsaturated zone 1 47 0.01 46 0.00 43 0.01 45 0.00 Kd of Th-228 in Saturated Zone 37 0.01 38 0.00 30 0.02 37 0.01 Kd of Th-232 in Contaminated zone 32 0.01 34 0.01 54 0.01 55 0.00 Kd of Th-232 in unsaturated zone 1 11 -0.03 21 -0.01 53 -0.01 54 0.00 Kd of Th-232 in saturated zone 28 -0.02 31 -0.01 59 -0.01 60 0.00 Kd of u-236 in contaminated zone 55 -0.01 55 0.00 SO 0.01 51 0.00 Kd of U-236 in unsaturated zone 1 25 -0.02 29 -0.01 10 0.04 18 0.01 Kd of u-236 in Saturated zone 60 0.00 60 0.00 32 -0.02 39 -0.01 Plant transfer factor for cm 1 0.90 1 0.85 1 0.92 1 0.80 Meat transfer factor for Cm 61 0.00 61 0.00 7 0.05 14 0.02 Milk transfer factor for Cm 65 0.00 65 0.00 21 -0.03 28 -0.01 Fish transfer factor for Cm 48 -0.01 48 0.00 31 0.02 38 0.01 Plant transfer factor for Pu 49 -0.01 49 0.00 61 0.00 62 0.00 Meat transfer factor for Pu 21 -0.02 27 -0.01 14 -0.03 21 -0.01 Milk transfer factor for Pu 41 -0.01 42 0.00 56 -0.01 57 0.00 Fish transfer factor for Pu 18 0.03 25 0.01 15 0.03 22 0.01 Plant transfer factor for Ra 53 -0.01 53 0.00 52 -0.01 53 0.00 Meat transfer factor for Ra 66 0.00 66 0.00 29 0.02 36 0.01 Milk transfer factor for Ra 30 -0.02 32 -0.01 60 -0.01 61 0.00 Fish transfer factor for Ra 39 -0.01 40 0.00 39 0.02 43 0.01 Plant transfer factor for Th 9 -0.03 19 -0.01 18 0.03 25 0.01 Meat transfer factor for Th 62 0.00 62 0.00 49 0.01 50 0.00 Milk transfer factor for Th 64 0.00 64 0.00 28 -0.02 35 -0.01 Fish transfer factor for Th 40 0.01 41 0.00 47 0.01 48 0.00 Plant transfer factor for U 5 -0.04 15 -0.02 23 -0.02 30 -0.01 Meat transfer factor for U 12 0.03 22 0.01 9 0.04 17 0.01 Milk transfer factor for u 42 -0.01 43 0.00 25 0.02 32 0.01 Fish transfer factor for U 34 -0.01 36 -0.01 8 -0.05 16 -0.02 R-SQUARE 0.83 0.83 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 67 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Cm-245 Results: RESRAD, version 6.5 T<< Limit = 30 days 11/09/2011 08:13 Probabilistic results summary : HB sensitivity analysis.soil.cm245 File : C:\RESRAIDFAMILY\RESRAD\6.5\HB SOIL SACM245-1.RAD Table of contents Part v": Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
4 Total Risk ....................
.....................
5 Dose vs Pathway: Ground External ........................
6 Dose vs Pathway: Inhalation (w/o Radon) ............
7 Dose vs Pathway: Radon (water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ................
9 Dose vs Pathway: Meat (water Ind.) ................
10 Dose VS Pathway: Milk (water Ind.) ................
11 Dose vs Pathway: soil Ingestion
......................
12 Dose vs Pathway: Water Ingestion
...................
13 Dose vs Pathway: Fish Ingestion
....................
14 Dose vs Pathway: Radon (water Dep.) ................
15 Dose vs Pathway: Plant (water Dep.) .................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose vs Pathway: Milk (water Dep.) ................
18 Cumulative Probability Summary .......................
19 Summary of dose at graphical times, reptition 1 ..... 20 Peak of the mean dose at graphical times .............
21 Correlation and Regression coefficients (if any) ..... 22 RESRAD, version 6.5 T- Limit = 30 days 11/09/2011 08:13 Probabilistic results summary : HB sensltlvity analysis.soil.cm245 File : C:\RESRADFAMILY\RESRAD\6.5\HB SOIL SACM245-1.RAD Probabilistic Input Number of Sample Runs: 2000 Page 1 Page 2 Number AAAIA.A 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 Name AAAAAAAAAA.JA.AAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUz(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(2)DCACTU1(2)
DCACTS(2)DCACTC(1)DCACTU1(1)
DCACTS(1)DCACTC(4)DCACTUI(4)
DCACTS(4)DCACTC(5)DCACTUl(5)
DCACTS(5)DCACTC(7)DCACTUI(7)
DCACTS(7)DCACTC(8)DCACTUI(8)
DCACTS(8)BRTF(96,1)
BRTF(96,2)
BRTF(96,3)
BBIO(96,1)
BRTF(95,1)
BRTF(95,2)
BRTF(95,3)
BBIO(95,1)
BRTF(93,1)
BRTF(93,2)
BRTF(93,3)
BBIO(93,1)
BRTF(94,1)
BRTF(94,2)
BRTF(94,3)
BBIO(94,1)
BRTF(90,1)
BRTF(90,2)
BRTF(90,3)
BBIO(90,1)
BRTF(92,1)
BRTF(92,2)
BRTF(92,3)
BBIO(92,1) 94 Distribution Parameters AAAAAAAAA .AAAAAAAAAAAA AAAAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 .937 2.084 BOUNDED NORMAL .43 .0699 .214 .646 BOUNDED NORMAL .342 .0705 .124 .56 BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 TRIANGULAR 6 10 30 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED NORMAL .315 .0905 .0349 .594 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 CONTINUOUS LINEAR 8 0 0 .000008 495 .00006 .9937 .000076 .9983 .0001 1 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 .044 1 TRIANGULAR 0 .15 .6 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 TRIANGULAR 5.1 18 84 TRIANGULAR
.06 .67 .95 TRUNCATED LOGNORMAL-N 8.82 1.82 .001 .999 TRUNCATED LOGNORMAL-N 8.82 1.82 .001 .999 TRUNCATED LOGNORMAL-N 8.82 1.82 .001 .999 TRUNCATED LOGNORMAL-N 7.28 3.15 .001 .999 TRUNCATED LOGNORMAL-N 7.28 3.15 .001 .999 TRUNCATED LOGNORMAL-N 7.28 3.15 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 6.68 1.89 .001 .999 TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999 TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-10.82 1 .001 .999 TRUNCATED LOGNORMAL-N
-13.12 .9 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-9.9 .2 .001 .999 TRUNCATED LOGNORMAL-N
-13.12 .7 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-3.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-6.91 .7 .001 .999 TRUNCATED LOGNORMAL-N
-11.51 .7 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-9.21 .2 .001 .999 TRUNCATED LOGNORMAL-N
-13.82 .5 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-9.21 1 .001 .999 TRUNCATED LOGNORMAL-N
-12.21 .9 .001 .999 LOGNORMAL-N 4.6 1.1 TRUNCATED LOGNORMAL-N
-6.21 .9 .001 .999 TRUNCATED LOGNORMAL-N
-7.13 .7 .001 .999 TRUNCATED LOGNORMAL-N
-7.82 .6 .001 .999 LOGNORMAL-N 2.3 1.1.0151 .000016 .1365 BARTLETT Page 68 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 1 RESRAD Regression and correlation output 11/09/11 19:41 Page: Coef 1 Title : HB sensitivity analysis.soilCm245 Input File : C:\RESRADFAMILY\RESRAD\6.5\HB SOIL SA.CM245-1.RAD coefficients for peak of mean dose time Dose coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone Contaminated zone total porosity contaminated zone hydraulic conductivity Contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone saturated zone total porosity Saturated zone effective porosity saturated zone hydraulic conductivity Saturated zone b parameter well pump intake depth well pumping rate Thickness of Unsaturated zone 1 Density of Unsaturated zone 1 Total Porosity of unsaturated zone I Effective Porosity of unsaturated zone I Hydraulic Conductivity of unsaturated zone I b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Cm-245 in Contaminated zone Kd of Cm-245 in unsaturated zone 1 Kd of cm-245 in Saturated zone Kd of Am-241 in Contaminated zone Kd of Am-241 in unsaturated zone 1 Kd of Am-241 in saturated zone Kd of Np-237 in Contaminated Zone Kd of Np-237 in Unsaturated zone 1 Kd of Np-237 in saturated zone Kd of Pu-241 in contaminated zone Kd of Pu-241 in unsaturated zone 1 Kd of Pu-241 in Saturated zone Kd of Th-229 in Contaminated Zone Kd of Th-229 in unsaturated Zone 1 Kd of Th-229 in saturated zone Kd of U-233 in Contaminated zone Kd of U-233 in Unsaturated zone 1 Kd of U-233 in saturated zone Plant transfer factor for Cm Meat transfer factor for Cm Milk transfer factor for Cm Fish transfer factor for Cm Plant transfer factor for Am Meat transfer factor for Am Milk transfer factor for Am Fish transfer factor for Am Plant transfer factor for Np Meat transfer factor for Np Milk transfer factor for Np Fish transfer factor for Np Plant transfer factor for Pu Meat transfer factor for Pu Milk transfer factor for Pu Fish transfer factor for Pu Plant transfer factor for Th Meat transfer factor for Th Milk transfer factor for Th Fish transfer factor for Th Plant transfer factor for u Meat transfer factor for u Milk transfer factor for u Fish transfer factor for U R-SQUARE-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provid variation in the dependent variable (Dose) explained by regression on the independent var PCC SRC PRCC SRRC 1 1 1 1 sig coeff Sig Coeff sig coeff Sig Coeff 2 0.64 2 0.35 2 0.80 2 0.55 55 0.01 13 0.02 47 0.01 12 0.03 58 0.00 20 0.01 57 0.01 21 0.01 22 -0.02 30 -0.01 27 0.02 37 0.01 23 0.02 31 0.01 59 0.00 60 0.00 40 -0.01 46 -0.01 14 0.03 22 0.01 52 -0.01 24 -0.01 50 -0.01 25 -0.01 25 -0.02 3 -0.30 42 0.01 4 0.17 21 -0.02 5 -0.16 56 0.01 10 0.04 32 -0.02 6 -0.14 29 0.02 5 0.14 44 -0.01 50 -0.01 10 -0.04 17 -0.02 20 -0.02 29 -0.01 69 0.00 69 0.00 46 -0.01 52 0.00 55 -0.01 58 0.00 66 0.00 58 0.00 54 0.01 36 0.01 8 -0.04 14 -0.02 21 -0.03 30 -0.01 68 0.00 19 -0.01 49 -0.01 6 -0.13 65 0.00 11 0.02 62 0.00 13 -0.03 61 0.00 9 -0.03 39 -0.01 9 -0.09 28 0.02 35 0.01 33 -0.02 42 -0.01 53 0.01 59 0.00 64 0.00 64 0.00 47 0.01 53 0.00 15 0.03 23 0.01 13 0.03 22 0.01 11 0.04 18 0.02 S 0.14 8 0.06 4 0.24 7 0.10 9 -0.04 15 -0.02 32 -0.02 41 -0.01 3 -0.43 4 -0.20 3 -0.54 3 -0.27 15 0.03 23 0.01 43 0.01 50 0.01 37 0.01 43 0.01 68 0.00 68 0.00 33 0.02 39 0.01 30 0.02 39 0.01 16 0.03 25 0.01 26 0.02 35 0.01 27 0.02 34 0.01 13 -0.04 20 -0.01 62 0.00 65 0.00 9 0.05 16 0.02 10 0.04 16 0.02 6 0.07 11 0.03 57 0.01 62 0.00 38 -0.01 47 -0.01 59 0.00 63 0.00 65 0.00 65 0.00 64 0.00 67 0.00 24 -0.02 33 -0.01 41 -0.01 48 -0.01 46 0.01 53 0.00 70 0.00 70 0.00 8 -0.05 15 -0.02 17 -0.03 26 -0.01 63 0.00 63 0.00 38 -0.01 44 -0.01 22 0.03 31 0.01 50 -0.01 56 0.00 52 0.01 56 0.00 31 0.02 37 0.01 40 0.01 48 0.01 69 0.00 69 0.00 45 -0.01 52 0.00 14 -0.03 21 -0.01 35 0.02 44 0.01 12 0.03 18 0.01 18 0.03 27 0.01 67 0.00 68 0.00 48 -0.01 54 0.00 42 -0.01 47 -0.01 41 0.01 49 0.01 1 0.88 1 0.79 1 0.84 1 0.65 11 0.04 17 0.02 53 0.01 57 0.00 35 0.02 41 0.01 31 0.02 40 0.01 49 -0.01 55 0.00 7 -0.05 14 -0.02 4 0.21 7 0.09 5 0.24 8 0.10 19 0.02 28 0.01 58 0.00 59 0.00 51 0.01 57 0.00 51 0.01 S5 0.00 30 0.02 38 0.01 25 0.02 34 0.01 18 -0.02 27 -0.01 37 -0.01 46 -0.01 34 -0.02 40 -0.01 36 -0.01 45 -0.01 60 0.00 64 0.00 70 0.00 70 0.00 24 -0.02 32 -0.01 67 0.00 67 0.00 63 0.00 66 0.00 12 0.04 19 0.02 6 0.05 10 0.02 28 0.02 38 0.01 7 0.04 12 0.02 17 0.03 26 0.01 54 -0.01 60 0.00 19 0.03 28 0.01 39 -0.01 45 -0.01 34 -0.02 43 -0.01 45 0.01 51 0.01 20 0.03 29 0.01 26 -0.02 33 -0.01 44 -0.01 51 0.00 56 -0.01 61 0.00 66 0.00 66 0.00 48 -0.01 54 0.00 16 -0.03 24 -0.01 36 0.02 42 0.01 61 0.00 62 0.00 43 -0.01 49 -0.01 60 0.00 61 0.00 29 0.02 36 0.01 23 0.03 32 0.01 0.82 0.82 0.83 0.83 es a measure of the iables.WBARTLETT Page 69 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Cm-246 Results: RESRAD, version 6.5 T1 Limit = 30 days 01/16/2012 19:25 Page 1 Probabilistic results summary : HB sensitivity analysis-soil-Cm246 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CM246_HB SA\HB SOIL SACM246-1.RAD Table of Contents AAAAAA.AAAAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .....................................
2 Total Dose ..............................................
4 Total Risk .......................
...................
S Dose vs Pathway: Ground External....................
6 Dose vs Pathway: Inhalation (w/o Radon) ...............
7 Dose vs Pathway: Radon (water Ind.) ...................
8 Dose vs Pathway: Plant (water Ind.) ...................
9 Dose vs Pathway: Meat (water Ind.) ..................
10 Dose vs Pathway: Milk (Water Ind.) ..................
11 Dose vs Pathway: soil Ingestion
......................
12 Dose vs Pathway: water Ingestion
.....................
13 Dose vs Pathway: Fish Ingestion
......................
14 Dose vs Pathway: Radon (water Dep.) ..................
15 Dose vs Pathway: Plant (Water Dep.) ..................
16 Dose vs Pathway: Meat (water Dep.) ..................
17 Dose vs Pathway: Milk (water Dep,)..)................
18 Cumulative Probability summary .......................
19 summary of dose at graphical times, reptition 1.... 20 Peak of the mean dose at graphical times .............
21 1RESRAD, Version 6.5 T. Limit = 30 days 01/16/2012 19:25 Page 2 Probabilistic results summary : HR sensitivity analysis-soilCm246 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CM246_HB SA\HB SOIL SACM246-1.RAD Probabilistic ONumber of Sample Runs: 2000 Number Name AAAAA AAAAAAAAAAAAAAAA.AAAAA 1 THICKO 2 DENSCZ 3 TPCZ 4 HCCZ 5 BCZ 6 EVAPTR 7 RI 8 DENSAQ 9 TPSZ 10 EPSZ 11 HCSZ 12 BSZ 13 DWIBWT 14 UW 15 H(1)16 DENSUZ(1)17 TPUZ(1)18 EPUZ(1)19 HCUZ(1)20 BUZ(1)21 MLINH.00003 .8119 .00004 .9 22 SHF3 23 SHF1 24 DM 25 DROOT 26 YV(1)27 WLAM 28 RWET(2)29 DCACTC(1)30 DCACTU1(1) 31 DCACTS(1)32 DCACTC(5)33 DCACTUI(5) 34 DCACTS(S)35 DCACTC(6)36 DCACTU1(6) 37 DCACTS(6)38 DCACTC(7)39 DCACTU1(7) 40 DCACTS(7)41 DCACTC(10) 42 DCACTU1(10) 43 DCACTS(10) 44 DCACTC(11) 45 DCACTU1(11) 46 DCACTS(11) 47 DCACTC(12) 48 DCACTU1(12) 49 DCACTS(12) 50 DCACTC(13) 51 DCACTU1(13) 52 DCACTS(13) 53 BRTF(96,1) 54 BRTF(96,2) 55 BRTF(96,3) 56 BBIO(96,1) 57 BRTF(82,1) 58 BRTF(82,2) 59 BRTF(82,3) 60 BBIO(82,1) 61 BRTF(84,1) 62 BRTF(84,2) 63 BRTF(84,3) 64 BBIO(84,1) 65 BRTF(94,1) 66 BRTF(94,2) 67 BRTF(94,3) 68 BBIO(94,1) 69 BRTF(88,1)
Distribution Parameters iAAAAXA.AAAA.AAAAAAAAAAAA AAAAAWAAAA UNIFORM .15 3 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED LOGNORMAL-N 1.36 2 BOUNDED LOGNORMAL-N 1.73 UNIFORM .5 UNIFORM .36 BOUNDED NORMAL 1.5105 BOUNDED NORMAL .43 BOUNDED NORMAL .342 BOUNDED LOGNORMAL-N
.362 1 BOUNDED LDGNORMAL-N 1.96 TRIANGULAR 6 1 UNIFORM 1173 1 UNIFORM 0 8 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED NORMAL .315 BOUNDED LOGNORMAL-N 1.36 2 BOUNDED LOGNORMAL-N 1.73 CONTINUOUS LINEAR 8 0 495 .00006 .9937 .000076 UNIFORM .15 BOUNDED LOGNORMAL-N
-1.3 TRIANGULAR 0 UNIFORM .3 4 TRUNCATED LOGNORMAL-N 56 TRIANGULAR 5.1 1 TRIANGULAR
.06 TRUNCATED LOGNORMAL-N 8.82 1 TRUNCATED LOGNORMAL-N 8.82 1 TRUNCATED LOGNORMAL-N 8.82 1 TRUNCATED LOGNORMAL-N 7.78 2 TRUNCATED LOGNORMAL-N 7.78 2 TRUNCATED LOGNORMAL-N 7.78 2 TRUNCATED LOGNORMAL-N 5.2 1 TRUNCATED LOGNORMAL-N 5.2 1 TRUNCATED LOGNORMAL-N 5.2 1 TRUNCATED LOGNORMAL-N 6.86 1 TRUNCATED LOGNORMAL-N 6.86 1 TRUNCATED LOGNORMAL-N 6.86 1 TRUNCATED LOGNORMAL-N 8.17 1 TRUNCATED LOGNORMAL-N 8.17 1 TRUNCATED LOGNORMAL-N 8.17 1 TRUNCATED LOGNORMAL-N 8.68 3 TRUNCATED LOGNORMAL-N 8.68 3 TRUNCATED LOGNORMAL-N 8.68 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-10.82 1 TRUNCATED LOGNORMAL-N
-13.12 LOGNORMAL-N 3.4 1 TRUNCATED LOGNORMAL-N
-5.52 TRUNCATED LOGNORMAL-N
-7.13 TRUNCATED LOGNORMAL-N
-8.11 LOGNORMAL-N 5.7 1 TRUNCATED LOGNORMAL-N
-6.9 TRUNCATED LOGNORMAL-N
-5.3 TRUNCATED LOGNORMAL-N
-7.82 LOGNORMAL-N 4.6 1 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-9.21 TRUNCATED LOGNORMAL-N
-13.82 LOGNORMAL-N 3.4 1 TRUNCATED LOGNORMAL-N
-3.22 ,AAAAAAAAAAAAAAAAAAAAAAAAAAAAA
.51 2385 09.17 323 75 76 1855 0699 0705.59 265.0.973.08 2385 09 0905.17 323.9983 95 59 15 48.8 67.82.82.82.76.76.76 1.68..68.68.89.89.89.7.7 1.7 3.62 3.62 3.62.13 3.13 1.13 3.13 1.13 1.13 9 9 9 7 9 1.1 9 7 7.9 2 5 1.1 9.827 2.3.1319 .6881.00478 3190 2.08 15.3.937 2.084.214 .646.124 .56.0106 195 3.02 15.5 30.827.1319.0349.00478 2.08 0.0001.044.6.001 84.95.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001 2.3.6881.594 3190 15.3.000008 1 1.0151 .000016 .1365.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999 f- BARTLETT Page 70 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 70 BRTF(88,2)
TRUNCATED LOGNORMAL-N
-6.91 .7 .001 71 BRTF(88,3)
TRUNCATED LOGNORMAL-N
-6.91 .5 .001 72 BBIO(88,1)
LOGNORMAL-N 3.9 1.1 73 BRTF(90,1)
TRUNCATED LOGNORMAL-N
-6.91 .9 .001 74 BRTF(90,2)
TRUNCATED LOGNORMAL-N
-9.21 1 .001 75 BRTF(90,3)
TRUNCATED LOGNORMAL-N
-12.21 .9 .001 76 BBIO(90,I)
LOGNORMAL-N 4.6 1.1 77 BRTF(92,1)
TRUNCATED LOGNORMAL-N
-6.21 .9 .001 78 BRTF(92,2)
TRUNCATED LOGNORMAL-N
-7.13 .7 .001 79 BRTF(92,3)
TRUNCATED LOGNORMAL-N
-7.82 .6 .001 80 BBIO(92,1)
LOGNORMAL-N 2.3 1.1 1 RESRAD Regression and correlation output 01/16/12 20:04 Page: coef 1 Title : HB sensitivity analysis-soilCm246 Input File : C:\RESRADFAMILY\RESRAO\6.5\USERFILES\CM246.HB SA\HB SOIL SACM246-1.RAD
.999.999.999.999.999.999.999.999 Coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity Contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone saturated zone total porosity saturated zone effective porosity saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of Unsaturated zone 1 Hydraulic conductivity of unsaturated zone 1 b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Cm-246 in Contaminated zone Kd of Cm-246 in unsaturated Zone 1 Kd of Cm-246 in Saturated Zone Kd of Pb-210 in Contaminated zone Kd of Pb-210 in unsaturated zone 1 Kd of Pb-210 in Saturated zone Kd of Po-210 in Contaminated zone Kd of Po-210 in unsaturated zone 1 Kd of Po-210 in saturated zone Kd of Pu-242 in Contaminated zone Kd of Pu-242 in unsaturated zone 1 Kd of Pu-242 in Saturated zone Kd of Ra-226 in Contaminated zone Kd of Ra-226 in Unsaturated zone 1 Kd of Ra-226 in Saturated zone Kd of Th-230 in contaminated zone Kd of Th-230 in unsaturated zone 1 Kd of Th-230 in Saturated zone Kd of u-234 in Contaminated zone Kd of U-234 in unsaturated zone 1 Kd of U-234 in Saturated zone Kd of u-238 in Contaminated zone Kd of U-238 in unsaturated zone 1 Kd of U-238 in saturated zone Plant transfer factor for cm Meat transfer factor for Cm Milk transfer factor for Cm Fish transfer factor for Cm Plant transfer factor for Pb Meat transfer factor for Pb Milk transfer factor for Pb Fish transfer factor for Pb Plant transfer factor for Po Meat transfer factor for Po Milk transfer factor for Po Fish transfer factor for Po Plant transfer factor for Pu Meat transfer factor for Pu Milk transfer factor for Pu Fish transfer factor for Pu Plant transfer factor for Ra Meat transfer factor for Ra Milk transfer factor for Ra Fish transfer factor for Ra Plant transfer factor for Th Meat transfer factor for Th Milk transfer factor for Th Fish transfer factor for Th Plant transfer factor for U Meat transfer factor for U Milk transfer factor for U Fish transfer factor for U R-SQUARE-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provid variation in the dependent variable (Dose) explained by regression on the independent var PCC SRC PRCC SRRC 1 1 1 1 Sig coeff Sig Coeff Sig Coeff Sig coeff 2 0.56 3 0.26 2 0.79 2 0.43 11 0.04 8 0.11 14 0.04 9 0.09 9 0.04 7 0.12 11 0.04 8 0.09 27 0.03 30 0.01 46 0.02 49 0.01 69 0.00 69 0.00 43 -0.02 47 -0.01 80 0.00 80 0.00 64 0.01 64 0.00 10 -0.04 10 -0.06 17 -0.04 13 -0.04 63 0.01 9 0.07 52 -0.01 6 -0.15 67 0.00 13 0.03 56 -0.01 11 -0.07 59 0.01 12 0.04 51 -0.02 10 -0.09 77 0.00 77 0.00 57 -0.01 57 0.00 50 -0.01 S3 0.00 39 -0.02 43 -0.01 57 -0.01 60 0.00 68 -0.01 68 0.00 13 0.04 11 0.05 8 0.05 12 0.05 28 0.03 32 0.01 33 0.03 37 0.01 16 -0.03 2 -0.42 28 -0.03 3 -0.31 14 -0.04 4 -0.25 18 -0.04 5 -0.21 21 -0.03 5 -0.19 44 -0.02 7 -0.10 60 0.01 62 0.00 76 0.00 76 0.00 62 -0.01 64 0.00 21 -0.04 26 -0.01 5 0.06 15 0.02 12 0.04 20 0.01 51 -0.01 54 0.00 49 -0.02 52 -0.01 23 0.03 26 0.01 22 -0.04 27 -0.01 55 -0.01 58 0.00 23 -0.03 28 -0.01 3 -0.42 6 -0.18 3 -0.60 4 -0.25 30 0.02 33 0.01 69 -0.01 69 0.00 47 0.01 50 0.00 75 0.00 75 0.00 40 0.01 43 0.01 47 -0.02 50 -0.01 75 0.00 74 0.00 42 0.02 46 0.01 56 0.01 59 0.00 63 0.01 63 0.00 17 -0.03 21 -0.01 15 -0.04 22 -0.01 73 0.00 72 0.00 6 -0.05 16 -0.02 41 0.01 44 0.01 67 0.01 67 0.00 68 0.00 68 0.00 26 0.03 31 0.01 12 0.04 19 0.02 48 0.02 51 0.01 32 0.02 35 0.01 59 -0.01 59 0.00 42 0.01 45 0.01 37 -0.02 41 -0.01 29 -0.03 31 -0.01 73 0.00 73 0.00 74 0.00 75 0.00 79 0.00 79 0.00 58 -0.01 61 0.00 61 -0.01 61 0.00 44 -0.01 47 -0.01 25 -0.03 30 -0.01 70 0.00 70 0.00 62 -0.01 62 0.00 37 0.02 40 0.01 31 -0.03 35 -0.01 76 0.00 76 0.00 66 -0.01 66 0.00 19 -0.03 23 -0.01 65 -0.01 65 0.00 66 0.00 66 0.00 72 -0.01 72 0.00 49 0.01 51 0.00 19 0.04 24 0.01 65 0.00 67 0.00 34 0.03 38 0.01 52 0.01 55 0.00 78 0.00 78 0.00 79 0.00 79 0.00 71 -0.01 71 0.00 31 0.02 34 0.01 7 0.05 17 0.02 46 -0.01 49 0.00 38 0.02 42 0.01 1 0.92 1 0.86 1 0.92 1 0.80 18 0.03 22 0.01 4 0.11 14 0.04 4 0.07 14 0.03 40 0.02 44 0.01 54 -0.01 56 0.00 5 -0.05 15 -0.02 45 -0.01 48 -0.01 58 -0.01 58 0.00 36 0.02 39 0.01 80 0.00 80 0.00 26 0.03 29 0.01 45 0.02 48 0.01 20 0.03 24 0.01 32 0.03 36 0.01 35 0.02 38 0.01 74 0.00 74 0.00 78 0.00 78 0.00 24 0.03 29 0.01 43 0.01 46 0.01 60 -0.01 60 0.00 15 -0.04 20 -0.01 77 0.00 77 0.00 39 -0.02 42 -0.01 16 0.04 23 0.01 72 0.00 73 0.00 27 -0.03 32 -0.01 61 0.01 63 0.00 50 0.02 53 0.01 34 0.02 37 0.01 29 0.03 33 0.01 71 0.00 71 0.00 30 0.03 34 0.01 48 -0.01 52 0.00 10 -0.04 19 -0.01 22 0.03 25 0.01 70 -0.01 70 0.00 64 -0.01 65 0.00 9 -0.04 18 -0.01 38 0.02 41 0.01 35 -0.02 39 -0.01 33 -0.02 36 -0.01 55 -0.01 56 0.00 8 0.05 18 0.02 54 -0.01 55 0.00 24 0.03 27 0.01 20 0.04 25 0.01 53 -0.01 57 0.00 53 -0.01 54 0.00 25 0.03 28 0.01 13 0.04 21 0.01 6 0.05 16 0.02 36 0.02 40 0.01 7 -0.05 17 -0.02 41 -0.02 45 -0.01 0.86 0.86 0.89 0.89 es a measure of the iables.f, BARTLETT Page 71 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Co-60 Results: RESRAD, Version 6.5 Limit = 30 days 11/07/2011 07:59 Page Probabilistic results summary :B sensitivity analysis-soil-Co-60 File : C:\RESRADFAMILY\REsRAD\6.5
\USERFILES\CO60\HB SOIL SA-C060-1.RAD Table of Contents KAAAAAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input ................
.................
2 Total Dose ...........
...............................
3 Total Risk ................
..........................
4 Dose vs Pathway: Ground External....................
.5 Dose vs Pathway: Inhalation (w/o Radon) ..............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (Water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ..................
10 Dose vs Pathway: soil Ingestion
......................
11 Dose vs Pathway: Water Ingestion
.....................
12 Dose vs Pathway: Fish Ingestion
....................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (Water Dep.) ...........
15 Dose vs Pathway: Meat (water Dep.) ..................
16 Dose vs Pathway: Milk (water Dep.) .................
17 Cumulative Probability Summary ..........................
18 summary of dose at graphical times, reptition 1 ..... 19 Peak of the mean dose at graphical times .............
20 Correlation and Regression coefficients (if any) ..... 21 RESRAD, Version 6.5 T. Limit = 30 days 11/07/2011 07:59 Page Probabilistic results summary : HB sensitivity analysis-soil-co-60 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CO60\HB SOIL SACO60-1.RAD Probabilistic Input Number of Sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name AAAAAAAAAAAAAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)BRTF(27,1)
BRTF(27,2)
BRTF(27,3)
BBIO(27,1)
Distribution AAAAAAAAAAA.AAAAAA.AAAAA UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N UNIFORM UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N TRIANGULAR UNIFORM UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N CONTINUOUS LINEAR 495 .00006 .9937 UNIFORM BOUNDED LOGNORMAL-N TRIANGULAR UNIFORM TRUNCATED LOGNORMAL-N TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N LOGNORMAL-N Parameters AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
.15 1.5635.41 1.36 1.73.5.36 1.5105.43.342.362 1.96 6 1173 0 1.5635.41.315 1.36 1.73 8 3.51.2385.09 2.17.323.75.76.1855.0699.0705 1.59.265 10 1973 8.08.2385.09.0905 2.17.323 0.827 2.3.1319 .6881.00478 3190 2.08 15.3.937.214.124.0106 3.02 30 2.084.646.56 195 15.5.827 2.3.1319 .6881.0349 .594.00478 3190 2.08 15.3 0 .000008 .0151.0001 1.044 1.6.000016 .1365 9..000076 .9983.15 .95-1.3 .59 0 .15.3 4.56 .48 5.1 18.06 .67 5.46 2.53 5.46 2.53 5.46 2.53-2.53 .9-3.51 1-6.21 .7 5.7 1.1.001 84.95.001.001.001.001.001.001.999.999.999.999.999.999.999 BARTLETT Page 72 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and Correlation output 11/07/11 07:59 Page: Coef 1 Title : HB sensitivity analysis.soil.co-60 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CO60\HB SOIL SA_C060-1.RAD coefficients for peak of mean dose time Dose coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity Contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone Saturated zone total porosity saturated zone effective porosity saturated zone hydraulic conductivity Saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic conductivity of unsaturated zone 1 b Parameter of unsaturated zone 1 mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Co-60 in Contaminated Zone Kd of Co-60 in unsaturated zone 1 Kd of Co-60 in saturated zone Plant transfer factor for Co Meat transfer factor for Co Milk transfer factor for co Fish transfer factor for Co R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff sig Coeff Sig coeff 4 0.42 6 0.11 3 0.39 4 0.13 16 -0.02 13 -0.04 8 -0.05 6 -0.10 13 -0.02 11 -0.04 10 -0.05 7 -0.10 10 0.03 18 0.01 32 0.00 33 0.00 14 -0.02 21 -0.01 15 -0.02 21 -0.01 7 0.04 15 0.01 9 0.05 15 0.01 25 -0.01 14 -0.01 30 -0.01 26 -0.01 15 -0.02 3 -0.19 31 0.00 12 0.04 22 -0.02 7 -0.07 23 0.01 11 0.06 11 -0.03 5 -0.12 34 0.00 17 -0.01 27 0.01 29 0.00 19 0.02 25 0.01 12 -0.03 19 -0.01 26 -0.01 30 0.00 17 -0.02 22 -0.01 35 0.00 35 0.00 28 0.01 20 0.01 29 0.01 24 0.01 20 0.02 25 0.00 25 -0.01 29 0.00 29 0.01 10 0.05 20 -0.02 3 -0.16 24 0.01 9 0.06 21 -0.01 9 -0.06 35 0.00 32 0.00 18 -0.02 8 -0.09 34 0.00 35 0.00 24 -0.01 28 0.00 19 0.02 24 0.00 27 0.01 31 0.00 8 -0.03 16 -0.01 12 -0.03 18 -0.01 9 0.03 17 0.01 17 -0.02 23 -0.01 1 0.97 1 0.89 1 0.95 1 0.90 26 0.01 28 0.00 22 0.01 27 0.00 5 -0.26 8 -0.06 5 -0.19 10 -0.06 31 -0.01 31 0.00 16 -0.02 22 -0.01 30 0.01 30 0.00 28 0.01 32 0.00 32 0.00 33 0.00 14 0.02 20 0.01 21 -0.02 26 0.00 7 0.08 14 0.02 18 0.02 23 0.00 11 0.04 16 0.01 33 0.00 34 0.00 13 -0.03 19 -0.01 2 0.80 2 0.32 2 0.65 2 0.25 3 0.56 4 0.16 4 0.35 5 0.11 6 0.16 12 0.04 6 0.12 13 0.04 23 -0.01 27 0.00 33 0.00 34 0.00 0.94 0.94 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 73 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Cs-137 Results: RESRAD, version 6.5 T- Limit = 30 days 11/07/2011 08:01 Page 1 Probabilistic results summary : HB sensitivity analysissoil_cs137 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CS137\HB SOIL SACS137-1.RAD Table of Contents Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk .........................
....................
4 Dose vs Pathway: Ground External ...................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: Soil Ingestion
......................
11 Dose vs Pathway: water Ingestion
.....................
12 Dose VS Pathway: Fish Ingestion
......................
13 Dose vs Pathway: Radon (Water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ..................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose Vs Pathway: Milk (water Dep.) ................
17 Cumulative Probability Summary .......................
18 summary of dose at graphical times, reptition 1 ... 19 Peak of the mean dose at graphical times .............
20 Correlation and Regression coefficients (if any) ..... 21 RESRAD, Version 6.5 T- Limit = 30 days 11/07/2011 08:01 Page 2 Probabilistic results summary : HB sensitivity analysis_soilCs137 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CS137\HB SOIL SACS137-1.RAD Probabilistic Input Number of Sample Runs: 2000 Number AJAAAAA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name AAAAAAA5AA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT W(1)WLAM RWET(2)DCACTC(1)DCACTUI(1)
DCACTS(1)BRTF(55,1)
BRTF(55,2)
RRTF(55,3)
BBIO(55,1)
DiA 495 stribution Parameters.AAAAAAAAAAA....AAAA AAAAAAAAAAAAAAAAAAAAAA.AAAAAA5AAAA.AAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 .937 2.084 BOUNDED NORMAL .43 .0699 .214 .646 BOUNDED NORMAL .342 .0705 .124 .56 BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 TRIANGULAR 6 10 30 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED NORMAL .315 .0905 .0349 .594 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 CONTINUOUS LINEAR 8 0 0 .000008.00006 .9937 .000076 .9983 .0001 1 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 .044 1 TRIANGULAR 0 .15 .6 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 TRIANGULAR 5.1 18 84 TRIANGULAR
.06 .67 .95 TRUNCATED LOGNORMAL-N 6.1 2.33 .001 .999 TRUNCATED LOGNORMAL-N 6.1 2.33 .001 .999 TRUNCATED LOGNORMAL-N 6.1 2.33 .001 .999 TRUNCATED LOGNORMAL-N
-3.22 1 .001 .999 TRUNCATED LOGNORMAL-N
-3 .4 .001 .999 TRUNCATED LOGNORMAL-N
-4.61 .5 .001 .999 LOGNORMAL-N 7.6 .7 0151.000016 .1365 BARTLETT Page 74 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and Correlation output 11/07/11 08:01 Page: Coef I Title : HB sensitivity analysis.soil.cs137 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\CS137\HB SOIL SACs137-1.RAD coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity Contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone Saturated zone total porosity saturated zone effective porosity Saturated zone hydraulic conductivity Saturated zone b parameter well pump intake depth well pumping rate Thickness of Unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic conductivity of unsaturated zone I b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots Wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Cs-137 in Contaminated zone Kd of Cs-137 in unsaturated zone 1 Kd of Cs-137 in Saturated zone Plant transfer factor for Cs Meat transfer factor for Cs Milk transfer factor for Cs Fish transfer factor for Cs R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff sig Coeff sig coeff Sig coeff 3 0.43 4 0.20 3 0.58 3 0.29 10 -0.03 13 -0.09 7 -0.04 9 -0.12 9 -0.03 12 -0.09 8 -0.04 10 -0.11 17 0.02 23 0.01 25 0.01 28 0.00 29 -0.01 30 0.00 16 -0.02 23 -0.01 18 0.02 24 0.01 9 0.04 16 0.02 20 -0.02 15 -0.03 20 0.01 15 0.02 26 -0.01 6 -0.17 30 -0.01 11 -0.07 34 0.00 14 -0.04 35 0.00 31 0.00 22 -0.02 10 -0.14 27 -0.01 12 -0.05 25 0.02 27 0.01 23 0.01 26 0.00 28 -0.01 29 0.00 33 0.00 34 0.00 23 -0.02 26 -0.01 31 0.00 32 0.00 24 0.02 16 0.02 18 -0.02 14 -0.02 31 0.01 32 0.00 34 0.00 35 0.00 15 -0.02 2 -0.35 21 -0.01 5 -0.17 19 -0.02 8 -0.15 29 -0.01 13 -0.04 13 -0.03 S -0.19 17 -0.02 7 -0.13 27 0.01 28 0.00 11 0.03 18 0.01 11 0.03 19 0.01 19 -0.01 24 -0.01 16 -0.02 22 -0.01 13 -0.02 20 -0.01 8 0.03 18 0.01 15 -0.02 22 -0.01 2 0.52 3 0.26 2 0.76 2 0.48 35 0.00 35 0.00 28 0.01 30 0.00 5 -0.30 9 -0.14 5 -0.35 6 -0.15 14 -0.03 21 -0.01 32 0.00 33 0.00 30 0.01 31 0.00 10 0.03 17 0.01 12 -0.03 20 -0.01 14 0.02 21 0.01 7 -0.05 17 -0.02 24 -0.01 27 0.00 32 0.01 33 0.00 12 0.03 19 0.01 33 0.01 34 0.00 22 -0.01 25 0.00 1 0.88 1 0.80 1 0.86 1 0.68 6 0.22 11 0.10 6 0.28 8 0.12 4 0.37 7 0.17 4 0.39 4 0.17 21 -0.02 25 -0.01 26 -0.01 29 0.00 0.82 0.82 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 75 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Eu-152 Results: RESRAD, version 6.5 Limit = 30 days 11/07/2011 08:09 Page Probabilistic results summary : HB sensitivity analysis soilEu-152 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\EU152\HB SOIL SA;_EU152-1.RAD Table of contents AAXAAAAAAAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ..................
........................
4 Dose vs Pathway: Ground External.
...................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose vs Pathway: Radon (Water Ind.) ................
7 Dose vs Pathway: Plant (Water Ind.) ................
8 Dose vs Pathway: Meat (Water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose VS Pathway: soil Ingestion
......................
11 Dose vs Pathway: water Ingestion
....................
12 Dose vs Pathway: Fish Ingestion
....................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose vs Pathway: Milk (water Dep.) ................
17 Cumulative Probability Summary ........................
18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times .............
20 Correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T- Limit = 30 days 11/07/2011 08:09 Page Probabilistic results summary : HB sensitivity analysis ..soilIEU-152 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\EU152\HB SOIL SA.EU152-1.
RAD Probabilistic Input Number of Sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 Name AAAAAAAAAAAAAAAAA.AAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)DCACTC(3)DCACTU1(3)
DCACTS(3)BRTF(63,1)
BRTF(63,2)
BRTF(63,3)
BBIO(63,1)
BRTF(64,1)
BRTF(64,2)
BRTF(64,3) 8810(64,1)
Distribution Parameter~AAAAAAAAAAAAAAAA4AAAAAAA AAAAAAAAA, UNIFORM .15 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED LOGNORMAL-N 1.36 BOUNDED LOGNORMAL-N 1.73 UNIFORM .5 UNIFORM .36 BOUNDED NORMAL 1.5105 BOUNDED NORMAL .43 BOUNDED NORMAL .342 BOUNDED LOGNORMAL-N
.362 BOUNDED LOGNORMAL-N 1.96 TRIANGULAR 6 UNIFORM 1173 UNIFORM 0 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED NORMAL .315 BOUNDED LOGNORMAL-N 1.36 BOUNDED LOGNORMAL-N 1.73 CONTINUOUS LINEAR 8.9495 .00006 .9937 .000076 UNIFORM .15 BOUNDED LOGNORMAL-N
-1.3 TRIANGULAR 0 UNIFORM .3 TRUNCATED LOONORMAL-N
.56 TRIANGULAR 5.1 TRIANGULAR
.06 TRUNCATED LOGNORMAL-N 6.72 TRUNCATED LOGNORMAL-N 6.72 TRUNCATED LOGNORMAL-N 6.72 TRUNCATED LOGNORMAL-N 6.72 TRUNCATED LOGNORMAL-N 6.72 TRUNCATED LOGNORMAL-N 6.72 TRUNCATED LOGNORMAL-N
-6.21 TRUNCATED LOGNORMAL-N
-6.21 TRUNCATED LOGNORMAL-N
-9.72 LOGNORMAL-N 3.9 TRUNCATED LOGNORMAL-N
-6.21 TRUNCATED LOGNORMAL-N
-6.21 TRUNCATED LOGNORMAL-N
-9.72 LOGNORMAL-N 3.2 S 3.51.2385.09 2.17.323.75.76.1855.0699.0705 1.59.265 10 1973 8.08.2385.09.0905 2.17.323 0.9983.95.59.15 4.48 18.67 3.22 3.22 3.22 3.22 3.22 3.22 1.1 1.9 1.1 1.1 1.9 1.1.827 2.3.1319 .6881.00478 3190 2.08 15.3.937.214.124.0106 3.02 30.827.1319.0349.00478 2.08 0.0001.044.6.001 84.95.001.001.001.001.001.001.001.001.001.001.001.001 2.084.646.56 195 15. S 2.3.6881.594 3190 15.3.000008 1 1.0151.000016 .1365.999.999.999.999.999.999.999.999.999.999.999* 999.999 BARTLETT Page 76 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and correlation output 11/07/11 08:10 Page: Coef 1 Title : HB sensitivity analysissoil_Eu-152 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\EU152\HB SOIL SAEU152-1.RAD Coefficients for peak of mean dose time Dose coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone Contaminated zone total porosity Contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone Saturated zone total porosity Saturated zone effective porosity Saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic conductivity of unsaturated zone b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of EU-152 in Contaminated zone Kd of EU-152 in Unsaturated zone 1 Kd of EU-152 in Saturated zone Kd of Gd-152 in Contaminated zone Kd of Gd-152 in unsaturated zone 1 Kd of Gd-152 in Saturated Zone Plant transfer factor for EU Meat transfer factor for EU Milk transfer factor for EU Fish transfer factor for EU Plant transfer factor for Gd Meat transfer factor for Gd Milk transfer factor for Gd Fish transfer factor for Gd R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig coeff sig coeff Sig Coeff Sig Coeff 2 0.23 9 0.02 3 0.23 5 0.02 11 -0.03 10 -0.02 15 -0.03 8 -0.02 7 -0.04 6 -0.02 8 -0.04 3 -0.02 21 0.02 25 0.00 6 0.04 13 0.00 13 -0.03 19 0.00 30 -0.01 36 0.00 5 0.05 13 0.00 5 0.05 12 0.00 29 -0.01 16 0.00 41 0.00 39 0.00 24 -0.02 4 -0.04 34 -0.01 7 -0.02 26 -0.02 8 -0.02 35 -0.01 10 -0.01 23 -0.02 7 -0.02 31 -0.01 9 -0.01 8 -0.04 15 0.00 18 0.02 23 0.00 17 -0.02 23 0.00 29 -0.01 35 0.00 22 0.02 27 0.00 14 0.03 20 0.00 37 0.01 26 0.00 36 0.00 29 0.00 15 -0.02 20 0.00 12 -0.03 18 0.00 14 0.03 2 0.07 32 0.01 4 0.02 10 0.03 3 0.05 24 0.01 6 0.02 20 0.02 5 0.03 42 0.00 30 0.00 19 -0.02 24 0.00 39 0.00 41 0.00 30 -0.01 31 0.00 28 -0.01 34 0.00 38 0.01 38 0.00 38 0.00 40 0.00 12 0.03 18 0.00 9 0.03 15 0.00 1 1.00 1 1.00 1 1.00 1 1.00 31 -0.01 32 0.00 11 -0.03 17 0.00 9 -0.04 17 0.00 4 -0.05 11 0.00 6 -0.05 14 0.00 7 -0.04 14 0.00 36 0.01 37 0.00 33 0.01 37 0.00 35 -0.01 36 0.00 25 -0.01 31 0.00 18 0.02 22 0.00 2 0.26 2 0.02 34 0.01 35 0.00 40 0.00 42 0.00 28 0.01 30 0.00 22 0.02 27 0.00 39 0.00 39 0.00 37 0.00 38 0.00 3 -0.08 11 -0.01 23 -0.02 28 0.00 27 -0.01 29 0.00 27 -0.01 33 0.00 4 0.07 12 0.01 19 0.02 24 0.00 32 -0.01 33 0.00 13 -0.03 19 0.00 33 0.01 34 0.00 20 0.02 25 0.00 42 0.00 42 0.00 21 0.02 26 0.00 40 0.00 40 0.00 16 -0.02 21 0.00 25 0.02 28 0.00 26 0.01 32 0.00 16 -0.02 21 0.00 10 -0.03 16 0.00 41 0.00 41 0.00 17 0.02 22 0.00 0.99 0.99 0.99 0.99-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 77 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Eu-152 Results: RESRAD, version 6.5 T<c Limit = 30 days 11/07/2011 08:12 Page 1 Probabilistic results summary : HB sensitivity analysis.soilEu-154 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\EU154\HB SOIL SA-EU154-1.RAD Table of contents 4AAAAAAAAAAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk .....................
.....................
4 Dose vs Pathway: Ground Eternal ....................
5 Dose vs Pathway: Inhalation (w/o Radon).............
6 Dose vs Pathway: Radon (Water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: soil Ingestion
......................
11 Dose vs Pathway: water Ingestion
.....................
12 Dose vs Pathway: Fish Ingestion
......................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose Vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose VS Pathway: Milk (water Dep.) ................
17 cumulative Probability summary .......................
18 summary of dose at graphical times, reptition 1.... 19 Peak of the mean dose at graphical times .............
20 correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 Thc Limit = 30 days 11/07/2011 08:12 Page 2 Probabilistic results summary : HB sensitivity analysis.soil.Eu-154 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\EU154\HB SOIL SAEU154-1.RAD Probabilistic Input Number of sample Runs: 2000 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name AAAAAAAAAA AAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT uW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT WLAM RWET(2)DCACTC(1)DCACTUI(1)
DCACTS(1)BRTF(63,1)
BRTF(63,2)
BRTF(63,3)
BBIO(63.1)
Distribution Parameters AAAAAAAAAAAAAAAAWAAAA AAAAAAAAAAAAAAAAAP UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 BOUNDED NORMAL .41 .09 BOUNDED LOGNORMAL-N 1.36 2.17 BOUNDED LOGNORMAL-N 1.73 .323 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 BOUNDED NORMAL .43 .0699 BOUNDED NORMAL .342 .0705 BOUNDED LOGNORMAL-N
.362 1.59 BOUNDED LOGNORMAL-N 1.96 .265 TRIANGULAR 6 10 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 BOUNDED NORMAL .41 .09 BOUNDED NORMAL .315 .0905 BOUNDED LOGNORMAL-N 1.36 2.17 BOUNDED LOGNORMAL-N 1.73 .323 CONTINUOUS LINEAR 8 0 495 .00006 .9937 .000076 .9983 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 TRIANGULAR 0 .15 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 TRIANGULAR 5.1 18 TRIANGULAR
.06 .67 TRUNCATED LOGNORMAL-N 6.72 3.22 TRUNCATED LOGNORMAL-N 6.72 3.22 TRUNCATED LOGNORMAL-N 6.72 3.22 TRUNCATED LOGNORMAL-N
-6.21 1.1 TRUNCATED LOGNORMAL-N
-6.21 1 TRUNCATED LOGNORMAL-N
-9.72 .9 LOGNORMAL-N 3.9 1.1 AAAAAAAAAAAAAAAAAAAAAA
.827 2.3.1319 .6881.00478 3190 2.08 15.3.937.214.124.0106 3.02 30 2.084.646.56 195 15.5 94.827 2.3.1319 .6881.0349 .594.00478 3190 2.08 15.3 0 .000008 .0151.0001 1.044 1.6.001 .999 84.95.001 .999.001 .999.001 .999.001 .999.001 .999.001 .999.000016 .1365 C, BARTLETT Page 78 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and correlation output 11/07/11 08:12 Page: coef 1 Title : HB sensitivity analysis.soilEu-154 Input File : C:\RESRADOFAMILY\RESRAD\6.5\USERFILES\EU154\HB SOIL SA-EU154-1.RAD coefficients for peak of mean dose time Dose coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone Contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone Saturated zone total porosity Saturated zone effective porosity Saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic Conductivity of unsaturated zone 1 b Parameter of unsaturated zone I mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots Wet weight crop yield of fruit, grain and non-leafy v weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Eu-154 in Contaminated zone Kd of EU-154 in unsaturated zone 1 Kd of Eu-154 in Saturated zone Plant transfer factor for EU Meat transfer factor for EU Milk transfer factor for EU Fish transfer factor for EU PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff sig Coeff Sig Coeff Sig coeff 2 0.20 6 0.02 3 0.21 9 0.02 19 -0.02 9 -0.01 28 -0.01 11 -0.01 18 -0.02 8 -0.01 27 -0.01 10 -0.01 25 0.01 28 0.00 33 0.01 33 0.00 34 0.00 34 0.00 18 -0.02 25 0.00 15 0.02 20 0.00 16 0.03 23 0.00 30 0.00 25 0.00 32 0.01 21 0.00 24 -0.01 5 -0.03 24 0.02 5 0.05 27 -0.01 10 -0.01 22 0.02 6 0.03 23 -0.01 7 -0.02 26 0.01 8 0.02 21 0.01 26 0.00 10 0.04 18 0.00 4 -0.05 12 0.00 5 -0.05 14 -0.01 32 0.00 32 0.00 35 0.00 35 0.00 29 0.00 24 0.00 21 -0.02 12 -0.01 11 -0.03 16 0.00 12 -0.04 19 0.00 8 0.03 2 0.11 11 0.04 2 0.13 7 0.04 3 0.06 8 0.04 3 0.07 10 0.03 4 0.05 13 0.03 4 0.06 14 -0.02 19 0.00 17 -0.02 24 0.00 6 0.05 14 0.00 4 0.05 13 0.01 22 -0.01 27 0.00 15 -0.03 22 0.00 9 0.03 15 0.00 19 0.02 26 0.00 1 1.00 1 0.99 1 0.99 1 0.99 28 -0.01 30 0.00 20 -0.02 27 0.00 5 -0.05 13 0.00 9 -0.04 17 0.00 33 0.00 33 0.00 30 -0.01 31 0.00 17 -0.02 22 0.00 25 -0.01 29 0.00 12 0.03 17 0.00 14 0.03 20 0.00 13 -0.03 18 0.00 2 0.23 7 0.03 26 0.01 29 0.00 6 0.04 15 0.00 35 0.00 35 0.00 29 -0.01 30 0.00 3 0.07 11 0.01 7 0.04 16 0.00 31 0.00 31 0.00 23 0.02 28 0.00 20 0.02 23 0.00 34 0.00 34 0.00 16 0.02 21 0.00 31 0.01 32 0.00 0.99 0.99 0.99 0.99 egetables R-SQUARE-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
~r~BARTLETT Page 79 C-) BARTLETT Page 79 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 H-3 Results: RESRAD, version 6.5 Tv< Limit = 30 days 11/06/2011 15:14 Page 1 Probabilistic results summary : HB sensitivity analysis.soil.H-3 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\H3\HB SOIL SA..H3-1.RAD Table of Contents 4 W AAAAAA AAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ...............
...........................
4 Dose vs Pathway: Ground External..
..................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: Soil Ingestion
......................
11 Dose vs Pathway: water Ingestion
.....................
12 Dose vs Pathway: Fish Ingestion
......................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) .................
16 Dose VS Pathway: Milk (water Dep.) ................
17 cumulative Probability Summary .........................
18 summary of dose at graphical times, reptition 1 ..... 19 Peak of the mean dose at graphical times .............
20 Correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T. Limit = 30 days 11/06/2011 15:14 Page 2 Probabilistic results summary : HB sensitivity analysis soilH-3 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\H3\HB SOIL SA-H3-1.RAD Probabilistic Input Number of Sample Runs: 2000 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name AAAAAAAAAAAAAAAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT Uw H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(1)DCACTUI(1)
DCACTS(1)BRTF(1,1)BRTF(1,2)BRTF(1,3)BBIO(1,1)Distribution Parameters AAAA-AAAAAAAAAAAAAAAA AAAAAAA.A UNIFORM .15 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED LOGNORMAL-N 1.36 BOUNDED LOGNORMAL-N 1.73 UNIFORM .5 UNIFORM .36 BOUNDED NORMAL 1.5105 BOUNDED NORMAL .43 BOUNDED NORMAL .342 BOUNDED LOGNORMAL-N
.362 BOUNDED LOGNORMAL-N 1.96 TRIANGULAR 6 UNIFORM 1173 UNIFORM 0 BOUNDED NORMAL 1. 5635 BOUNDED NORMAL .41 BOUNDED NORMAL .315 BOUNDED LOGNORMAL-N 1.36 BOUNDED LOGNORMAL-N 1.73 CONTINUOUS LINEAR 8 495 .00006 .9937 .000076 UNIFORM .15 BOUNDED LOGNORMAL-N
-1.3 TRIANGULAR 0 UNIFORM .3 TRUNCATED LOGNORMAL-N
.56 TRIANGULAR 5.1 TRIANGULAR
.06 TRUNCATED LOGNORMAL-N
-2.81 TRUNCATED LOGNORMAL-N
-2.81 TRUNCATED LOGNORMAL-N
-2.81 TRUNCATED LOGNORMAL-N 1.57 TRUNCATED LOGNORMAL-N
-4.42 TRUNCATED LOGNORMAL-N
-4.6 LOGNORMAL-N 0~AAAAAAAAAAAAAAAAAAAAAAAAAAANAA 3.51.2385 .827 2.3.09 .1319 .6881 2.17 .00478 3190.323 2.08 15.3.75.76.1855 .937 2.084.0699 .214 .646.0705 .124 .56 1.59 .0106 195.265 3.02 15.5 10 30 1973 8.08.2385 .827 2.3.09 .1319 .6881.0905 .0349 .594 2.17 .00478 3190.323 2.08 15.3 0 0 .000008.0151.000016 .1365 94.9983.95.59.15 4.48 18.67.5.5.5 1.1 1.9.1.0001 1.044 1.6.001 .999 84.95.001 .999.001 .999.001 .999.001 .999.001 .999.001 .999 UC)BARTLETT Page 80 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and Correlation output 11/06/11 15:15 Page: Coef 1 Title : HB sensitivity analysis.soilH-3 Input File : C:\RESRAD-FAMILY\RESRAD\6.5\USERFILES\H3\HB SOIL SA._H3-1.RAD Coefficients for peak of mean dose time Dose Coefficient
=Repetition
=PCC SRC PRCC 1 1 1 SRRC 1 Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone saturated zone total porosity saturated zone effective porosity saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone I Effective Porosity of unsaturated zone 1 Hydraulic conductivity of unsaturated zone 1 b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of H-3 in Contaminated zone Kd of H-3 in unsaturated zone 1 Kd of H-3 in Saturated zone Plant transfer factor for H Meat transfer factor for H Milk transfer factor for H Fish transfer factor for H R-SQUARE Sig Coeff Sig Coeff sig Coeff Sig Coeff 1 0.92 1 0.80 1 0.93 1 0.83 12 0.05 10 0.12 6 0.06 10 0.14 5 -0.10 8 -0.25 5 -0.08 7 -0.19 4 0.14 13 0.05 4 0.22 12 0.08 8 -0.06 15 -0.02 14 -0.04 19 -0.01 6 0.06 14 0.02 9 0.05 16 0.02 7 -0.06 12 -0.07 16 -0.03 14 -0.04 13 0.05 2 0.55 20 0.03 3 0.31 11 0.05 4 0.29 19 0.03 8 0.16 15 0.04 7 0.26 21 0.03 9 0.16 26 0.01 27 0.00 18 0.03 21 0.01 10 -0.05 17 -0.02 12 -0.04 17 -0.01 27 -0.01 28 0.00 27 -0.02 27 -0.01 32 -0.01 24 -0.01 15 -0.03 13 -0.04 35 0.00 35 0.00 33 0.01 33 0.00 16 0.04 3 0.48 10 0.05 2 0.54 14 0.05 5 0.27 7 0.05 4 0.29 17 0.04 9 0.24 11 0.05 6 0.26 34 0.00 34 0.00 23 0.03 23 0.01 20 -0.04 20 -0.01 24 -0.02 24 -0.01 22 0.02 22 0.01 26 0.02 26 0.01 25 0.01 26 0.00 35 0.01 35 0.00 19 -0.04 19 -0.01 13 -0.04 18 -0.01 23 0.02 23 0.01 31 0.01 31 0.00 2 -0.61 6 -0.27 2 -0.64 5 -0.28 21 0.03 21 0.01 34 0.01 34 0.00 9 0.05 16 0.02 8 0.05 15 0.02 29 -0.01 30 0.00 28 -0.02 28 -0.01 3 -0.31 11 -0.11 3 -0.27 11 -0.09 18 0.04 18 0.01 25 0.02 25 0.01 33 0.00 33 0.00 30 -0.02 30 -0.01 24 0.02 25 0.01 17 0.03 20 0.01 30 -0.01 31 0.00 29 0.02 29 0.01 31 -0.01 32 0.00 32 -0.01 32 0.00 28 0.01 29 0.00 22 0.03 22 0.01 0.88 0.88 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 81 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 1-129 Results: RESRAD, Version 6.5 T< Limit = 30 days 11/07/2011 08:14 Page 1 Probabilistic results summary : HB sensitivity analysis.soilI129 File : C:\RESRADEAMILY\RESRAD\6.5\USERFILEs\I129\HB SOIL SA_1129-1.RAD Table of Contents AAAAAXXAWAAAAAAA ntnllItnllllII~IIIIIIIIIl RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ............
..............................
4 Dose vs Pathway: Ground Esternal....................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose Vs Pathway: Radon (water Ind.) ................
7 Dose VS Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose VS Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: Soil Ingestion
......................
11 Dose vs Pathway: Water Ingestion
.....................
12 Dose vs Pathway: Fish Ingestion
......................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose VS Pathway: Milk (water Dep.) ................
17 Cumulative Probability Summary ......18 Summary of dose at graphical times, reptition 1 19 Peak of the mean dose at graphical times .............
20 correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T. Limit = 30 days 11/07/2011 08:14 Page 2 Probabilistic results summary : HB sensitivity analysis-soilI129 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\I129\HB SOIL SA_1129-1.RAD Probabilistic Input Number of Sample Runs: 2000 Number AAAAAA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name Distribution AAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAA THICKO UNIFORM DENSCZ BOUNDED NORMAL TPCZ BOUNDED NORMAL HCCZ BOUNDED LOGNORMAL-N BCZ BOUNDED LOGNORMAL-N EVAPTR UNIFORM RI UNIFORM DENSAQ BOUNDED NORMAL TPSZ BOUNDED NORMAL EPSZ BOUNDED NORMAL HCSZ BOUNDED LOGNORMAL-N BSZ BOUNDED LOGNORMAL-N DWIBWT TRIANGULAR UW UNIFORM H(1) UNIFORM DENSUZ(1)
BOUNDED NORMAL TPUZ(I) BOUNDED NORMAL EPUZ(1) BOUNDED NORMAL HCUZ(i) BOUNDED LOGNORMAL-N BUZ(1) BOUNDED LOGNORMAL-N MLINH CONTINUOUS LINEAR.8119 .00004 .9495 .00006 .9937 SHF3 UNIFORM SHF1 BOUNDED LOGNORMAL-N DM TRIANGULAR DROOT UNIFORM YV(1) TRUNCATED LOGNORMAL-N WLAM TRIANGULAR RWET(2) TRIANGULAR DCACTC(1)
TRUNCATED LOGNORMAL-N DCACTUI(1)
TRUNCATED LOGNORMAL-N DCACTS(1)
TRUNCATED LOGNORMAL-N BRTF(53,1)
TRUNCATED LOGNORMAL-N BRTF(53,2)
TRUNCATED LOGNORMAL-N BRTF(53,3)
TRUNCATED LOGNORMAL-N BBIO(53,1)
LOGNORMAL-N Parameters AAAAAAAAA/
.15 1.5635.41 1.36 1.73.5.36 1.5105.43.342.362 1.96 6 1173 0 1.5635.41.315 1.36 1.73 8.000076.15-1.3 0.3.56 5.1.06 1.52 1.52 1.52-3.91-3.22-4.61 3.7 AAAAAAAAAAAAAAAAAAAAAAAAAAAAA 3.51.2385.09 2.17.323.75*.76.1855.0699.0705 1.59.265 10 1973 8.08.2385.09.0905 2.17.323 0.9983.95.59.15 4.48 18.67 2.19 2.19 2.19.9.4.5 1.1.827 2.3.1319 .6881.00478 3190 2.08 15.3.937.214.124.0106 3.02 30 2.084.646.S6 195 15. 5.827 2.3.1319 .6881.0349 .594.00478 3190 2.08 15.3 0 .000008.0001 1.044 1.6.001 .999 84.95.001 .999.001 .999.001 .999.001 .999.001 .999.001 .999.0151.000016 .1365 BrSARTLETT Page 82 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and Correlation output 11/07/11 08:15 Page: Coef 1 Title : HB sensitivity analysis-soil1129 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\I129\HB SOIL SA_1129-1.RAD Coefficients for peak of mean dose time Dose coefficient Repetition PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig Coeff Sig Coeff Sig coeff Sig coeff Thickness of contaminated zone 2 0.49 3 0.25 2 0.75 2 0.42 Density of contaminated zone 17 -0.02 12 -0.07 9 -0.04 8 -0.11 Contaminated zone total porosity 16 -0.02 11 -0.07 11 -0.04 11 -0.09 contaminated zone hydraulic conductivity 15 0.02 22 0.01 28 -0.01 30 0.00 Contaminated zone b parameter 27 -0.01 29 0.00 22 -0.02 25 -0.01 Evapotranspiration coefficient 6 0.04 15 0.02 10 0.04 18 0.02 Irrigation 21 -0.02 13 -0.03 13 0.03 15 0.04 Density of saturated zone 29 -0.01 8 -0.14 29 -0.01 9 -0.11 Saturated zone total porosity 35 0.00 25 -0.01 34 0.00 17 -0.02 Saturated zone effective porosity 22 -0.02 9 -0.13 26 -0.01 12 -0.08 Saturated zone hydraulic conductivity 20 0.02 24 0.01 30 0.01 31 0.00 saturated zone b parameter 28 -0.01 30 0.00 15 -0.03 19 -0.01 well pump intake depth 26 -0.01 28 0.00 17 -0.02 21 -0.01 well pumping rate 23 0.01 14 0.02 8 -0.05 14 -0.06 Thickness of unsaturated zone 1 24 0.01 26 0.01 32 0.01 33 0.00 Density of unsaturated zone 1 14 -0.02 2 -0.37 14 0.03 3 0.30 Total Porosity of unsaturated zone 1 19 -0.02 6 -0.16 12 0.04 5 0.22 Effective Porosity of Unsaturated zone 1 12 -0.03 5 -0.21 21 0.02 10 0.10 Hydraulic Conductivity of unsaturated zone 1 32 0.01 33 0.00 7 0.05 16 0.02 b Parameter of Unsaturated zone 1 10 0.03 19 0.01 20 0.02 24 0.01 Mass loading for inhalation 11 -0.03 20 -0.01 33 -0.01 34 0.00 Indoor dust filtration factor 7 0.04 16 0.02 19 -0.02 23 -0.01 External gamma shielding factor 25 0.01 27 0.01 25 0.01 28 0.01 Depth of soil mixing layer 33 -0.01 34 0.00 18 -0.02 22 -0.01 Depth of roots 4 -0.32 7 -0.15 4 -0.49 6 -0.21 wet weight crop yield of fruit, grain and non-leafy vegetables 18 -0.02 23 -0.01 27 -0.01 29 0.00 weathering removal constant of all vegetation 34 0.00 35 0.00 16 0.02 20 0.01 wet foliar interception fraction of leafy vegetables 8 -0.03 17 -0.01 23 0.02 26 0.01 Kd of 1-129 in Contaminated zone 9 -0.03 18 -0.01 6 0.16 13 0.06 Kd of 1-129 in unsaturated zone 1 30 0.01 31 0.00 24 0.02 27 0.01 Kd of 1-129 in Saturated zone 31 0.01 32 0.00 35 0.00 35 0.00 Plant transfer factor for I 1 0.87 1 0.79 1 0.89 1 0.73 Meat transfer factor for I 5 0.25 10 0.12 5 0.44 7 0.18 Milk transfer factor for I 3 0.46 4 0.23 3 0.60 4 0.28 Fish transfer factor for I 13 -0.03 21 -0.01 31 -0.01 32 0.00 R-SQUARE 0.80 0.80 0.86 0.86-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 83 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Nb-94 Results: RESRAD, version 6.5 T'< Limit = 30 days 11/07/2011 08:16 Page 1 Probabilistic results summary : HB sensitivity analysis.soil.Nb-94 File : C:\RESRADFAMILY\RESRAD\6.
5\USERFILES\NB94\HB SOIL SANB94-1.RAD Table of Contents A$AAAAAAAA.AAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ...................
.......................
4 Dose vs Pathway: Ground External ....................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: soil Ingestion
......................
11 Dose vs Pathway: water Ingestion
.....................
12 Dose vs Pathway: Fish Ingestion
......................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose VS Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose VS Pathway: Milk (water Dep.) ................
17 cumulative Probability summary .........................
18 summary of dose at graphical times, reptition 1 ... 19 Peak of the mean dose at graphical times .............
20 correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T. Limit = 30 days 11/07/2011 08:16 Page 2 Probabilistic results summary : HB sensitivity analysis.soilNb-94 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\NB94\HB SOIL SANB94-I.RAD Probabilistic Input Number of sample Runs: 2000 Number AAAAA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name AAAAAAAAAAA.
THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(1)DCACTUI(1)
DCACTS(1)BRTF(41, 1)BRTF(41, 2)BRTF(41, 3)BBIO(41,1)
DiA 00004 .9495 stribution Parameters AAAAAAX"XAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 .937 2.084 BOUNDED NORMAL .43 .0699 .214 .646 BOUNDED NORMAL .342 .0705 .124 .56 BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 TRIANGULAR 6 10 30 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED NORMAL .315 .0905 .0349 .594 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 CONTINUOUS LINEAR 8 0 0 .000008.00006 .9937 .000076 .9983 .0001 1 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 .044 1 TRIANGULAR 0 .15 .6 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 TRIANGULAR 5.1 18 84 TRIANGULAR
.06 .67 .95 TRUNCATED LOGNORMAL-N 5.94 3.33 .001 .999 TRUNCATED LOGNORMAL-N 5.94 3.22 .001 .999 TRUNCATED LOGNORMAL-N 5.94 3.22 .001 .999 TRUNCATED LOGNORMAL-N
-4.61 1.1 .001 .999 TRUNCATED LOGNORMAL-N
-13.82 .9 .001 .999 TRUNCATED LOGNORMAL-N
-13.12 .7 .001 .999 LOGNORMAL-N 5.7 1.1.0151.000016 .1365 (& BARTLETT Page 84 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 RESRAD Regression and correlation output 11/07/11 08:16 Page: Coef 1 Title : HB sensitivity analysis-soilNb-94 Input File : C:\RESRADFAMILY\RESRAD\6.S\USERFILES\NB94\HB SOIL SANB94-1.RAD Coefficients for peak of mean dose time Dose Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig coeff Thickness of contaminated zone 2 0.20 7 0.03 3 0.21 8 0.03 Density of contaminated zone 18 -0.01 10 -0.01 30 -0.01 17 -0.01 contaminated zone total porosity 20 -0.01 11 -0.01 32 -0.01 19 -0.01 Contaminated zone hydraulic conductivity 25 0.01 28 0.00 22 0.01 28 0.00 Contaminated zone b parameter 35 0.00 35 0.00 18 -0.02 25 0.00 Evapotranspiration coefficient 7 0.04 15 0.01 6 0.05 12 0.01 Irrigation 33 0.00 27 0.00 31 0.01 24 0.00 Density of saturated zone 23 -0.01 5 -0.06 24 0.01 5 0.06 Saturated zone total porosity 27 -0.01 8 -0.02 19 0.02 7 0.04 Saturated zone effective porosity 16 -0.02 6 -0.04 29 0.01 9 0.02 Saturated zone hydraulic conductivity 17 0.02 22 0.00 7 0.05 13 0.01 Saturated zone b parameter 5 -0.05 13 -0.01 8 -0.05 14 -0.01 well pump intake depth 28 0.01 30 0.00 26 0.01 30 0.00 well pumping rate 29 0.00 21 0.00 25 -0.01 18 -0.01 Thickness of unsaturated zone 1 9 -0.03 17 0.00 12 -0.03 21 0.00 Density of unsaturated zone 1 11 0.03 2 0.11 14 0.03 2 0.13 Total Porosity of Unsaturated zone 1 10 0.03 3 0.06 13 0.03 3 0.07 Effective Porosity of unsaturated zone 1 13 0.03 4 0.06 16 0.03 4 0.06 Hydraulic conductivity of unsaturated zone 1 12 -0.03 18 0.00 11 -0.03 20 0.00 b Parameter of unsaturated zone 1 6 0.05 14 0.01 5 0.05 11 0.01 Mass loading for inhalation 22 -0.01 25 0.00 15 -0.03 22 0.00 Indoor dust filtration factor 8 0.03 16 0.00 21 0.01 27 0.00 External gamma shielding factor 1 0.99 1 0.99 1 0.99 1 0.99 Depth of soil mixing layer 26 -0.01 29 0.00 17 -0.02 23 0.00 Depth of roots 4 -0.05 12 -0.01 10 -0.04 16 -0.01 wet weight crop yield of fruit, grain and non-leafy vegetables 30 0.00 31 0.00 33 0.00 33 0.00 weathering removal constant of all vegetation 14 -0.02 19 0.00 20 -0.02 26 0.00 wet foliar interception fraction of leafy vegetables 19 0.01 23 0.00 23 0.01 29 0.00 Kd of Nb-94 in Contaminated zone 32 0.00 33 0.00 2 0.32 6 0.05 Kd of Nb-94 in unsaturated zone 1 31 0.00 32 0.00 9 0.04 15 0.01 Kd of Nb-94 in Saturated zone 34 0.00 34 0.00 28 -0.01 32 0.00 Plant transfer factor for Nb 3 0.12 9 0.02 4 0.09 10 0.01 Meat transfer factor for Nb 24 -0.01 26 0.00 27 0.01 31 0.00 Milk transfer factor for Nb 21 0.01 24 0.00 35 0.00 35 0.00 Fish transfer factor for Nb 15 0.02 20 0.00 34 0.00 34 0.00 R-SQUARE 0.98 0.98 0.98 0.98-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
ý__!BARTLETT Page 85 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Ni-59 Results: RESRAD, Version 6.5 Tm Limit = 30 days 11/07/2011 08:18 Page 1 Probabilistic results summary : HB sensitivity analysis.soilNi-59 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\NI59\HB SOIL SAN159-1.RAD Table of contents XAAAAAAAAAAA.AAA Part 'I: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ....................
......................
4 Dose vs Pathway: Ground Esternal .....................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: soil Ingestion
......................
11 Dose vs Pathway: water Ingestion
.....................
12 Dose vs Pathway: Fish Ingestion
.....................
13 Dose vs Pathway: Radon (water Dep.).................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose vs Pathway: Milk (water Dep.) ................
17 Cumulative Probability summary .......................
18 summary of dose at graphical times, reptition 1 ... 19 Peak of the mean dose at graphical times .............
20 correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T< Limit = 30 days 11/07/2011 08:18 Page 2 Probabilistic results summary : HR sensitivity analysis.soilNi-59 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\NI59\HB SOIL SANI59-1.RAD Probabilistic Input Number of sample Runs: 2000 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name Distribution AAAAANAAAAAAAAWaAAAAA AAAAAAAAAAAAAAAAAAAAA THICKO UNIFORM DENSCZ BOUNDED NORMAL TPCZ BOUNDED NORMAL HCCZ .BOUNDED LOGNORMAL-N BCZ BOUNDED LOGNORMAL-N EVAPTR UNIFORM RI UNIFORM DENSAQ BOUNDED NORMAL TPSZ BOUNDED NORMAL EPSZ BOUNDED NORMAL HCSZ BOUNDED LOGNORMAL-N BSZ BOUNDED LOGNORMAL-N DWIBWT TRIANGULAR UW UNIFORM H(1) UNIFORM DENSUS(1)
BOUNDED NORMAL TPUZ(1) BOUNDED NORMAL EPUZ(1) BOUNDED NORMAL HCUZ(1) BOUNDED LOGNORMAL-N BUZ(1) BOUNDED LOGNORMAL-N MLINH CONTINUOUS LINEAR.8119 .00004 .9495 .00006 .9937 SHF3 UNIFORM SHF1 BOUNDED LOGNORMAL-N DM TRIANGULAR DROOT UNIFORM YV(1) TRUNCATED LOGNORMAL-N WLAM TRIANGULAR RWET(2) TRIANGULAR DCACTC(1)
TRUNCATED LOGNORMAL-N DCACTU1(1)
TRUNCATED LOGNORMAL-N DCACTS(1)
TRUNCATED LOGNORMAL-N BRTF(28,1)
TRUNCATED LOGNORMAL-N BRTF(28,2)
TRUNCATED LOGNORMAL-N BRTF(28,3)
TRUNCATED LOGNORMAL-N BBIO(28,1)
LOGNORMAL-N Parameters AAAAAAA WAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
.15 3.51 1.5635 .2385 .827 2.3.41 .09 .1319 .6881 1.36 2.17 .00478 3190 1.73 .323 2.08 15.3.5 .75.36 .76 1.5105 .1855 .937 2.084.43 .0699 .214 .646.342 .0705 .124 .56.362 1.59 .0106 195 1.96 .265 3.02 15.5 6 10 30 1173 1973 0 8.08 1.5635 .2385 .827 2.3.41 .09 .1319 .6881.315 .0905 .0349 .594 1.36 2.17 .00478 3190 1.73 .323 2.08 15.3 8 0 0 .000008 0151.000016 .1365.000076 .9983.15 .95-1.3 .59 0 .15.3 4.56 .48 5.1 18.06 .67 6.05 1.46 6.05 1.46 6.05 1.46-3 .9-5.3 .9-3.91 .7 4.6 1.1.0001 1.044 1.6.001 .999 84.95.001 .999.001 .999.001 .999.001 .999.001 .999.001 .999 B BARTLETT Page 86 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and Correlation output 11/07/11 08:18 Page: Coef 1 Title : HB sensitivity analysis-soilNi-59 Input File : C:\RESRADFAMILY\RESRAD\6.S\USERFILES\Ni59\HB SOIL SAN159-I.RAD coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity Contaminated zone b parameter Evapotranspi ration coefficient Irrigation Density of saturated zone saturated zone total porosity Saturated zone effective porosity saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of Unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of Unsaturated zone 1 Effective Porosity of Unsaturated zone I Hydraulic conductivity of unsaturated zone 1 b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Ni-59 in Contaminated Zone Kd of Ni-59 in unsaturated Zone 1 Kd of Ni-59 in Saturated zone Plant transfer factor for Ni Meat transfer factor for Ni Milk transfer factor for Ni Fish transfer factor for Ni R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff sig coeff Sig Coeff 3 0.31 4 0.18 3 0.74 3 0.36 8 -0.03 6 -0.13 7 -0.05 8 -0.11 6 -0.04 5 -0.14 8 -0.04 9 -0.10 16 0.02 22 0.01 28 -0.01 29 0.00 23 -0.01 25 -0.01 26 -0.01 27 0.00 22 0.01 24 0.01 30 0.01 30 0.00 14 -0.02 13 -0.05 13 0.04 14 0.04 32 0.00 12 -0.05 24 -0.01 7 -0.12 25 0.01 11 0.07 29 -0.01 15 -0.03 21 -0.01 8 -0.12 22 -0.01 10 -0.07 17 0.01 23 0.01 31 0.00 31 0.00 35 0.00 35 0.00 11 -0.04 18 -0.01 28 -0.01 29 0.00 16 -0.03 21 -0.01 15 0.02 14 0.04 9 -0.04 12 -0.05 34 0.00 34 0.00 32 0.00 32 0.00 18 -0.01 3 -0.25 17 0.02 4 0.26 19 -0.01 9 -0.12 12 0.04 6 0.20 20 -0.01 10 -0.12 23 0.01 11 0.07 29 0.01 30 0.00 6 0.06 16 0.02 11 0.03 19 0.01 34 0.00 34 0.00 31 0.00 32 0.00 18 -0.02 22 -0.01 10 0.03 18 0.02 15 -0.03 20 -0.01 33 0.00 33 0.00 21 0.01 25 0.00 27 -0.01 28 0.00 25 -0.01 26 0.00 4 -0.22 7 -0.13 4 -0.54 5 -0.21 13 -0.03 21 -0.01 27 -0.01 28 0.00 24 0.01 26 0.01 14 0.03 19 0.01 12 -0.03 20 -0.01 20 0.02 24 0.01 7 -0.03 16 -0.02 10 -0.04 17 -0.01 26 0.01 27 0.00 19 0.02 23 0.01 30 0.01 31 0.00 35 0.00 35 0.00 1 0.78 1 0.69 1 0.90 1 0.70 5 0.05 15 0.03 5 0.14 13 0.05 2 0.57 2 0.38 2 0.81 2 0.46 9 -0.03 17 -0.02 33 0.00 33 0.00 0.69 0.69 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.(O BARTLETT Page 87 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Ni-63 Results: RESRAD, Version 6.5 T. Limit = 30 days 11/07/2011 08:20 Page I Probabilistic results summary : HB sensitivity analysis-soilNi-63 File : C:\RESRADOFAMILY\RESRAD\6.5\USERFILES\Ni63\HB SOIL SA-N163-1.RAD Table of Contents A WAAAAA.AAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk .........................
....................
4 Dose vs Pathway: Ground External.
.....................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose VS Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose VS Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: soil Ingestion
......................
11 Dose vs Pathway: water Ingestion
.....................
12 Dose vs Pathway: Fish Ingestion
......................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose VS Pathway: Milk (water Dep.) ................
17 Cumulative Probability Summary .........................
18 Summary of dose at graphical times, reptition 1 ... 19 Peak of the mean dose at graphical times .............
20 Correlation and Regression coefficients (if any) ..... 21 RESRAD, Version 6.5 T. Limit = 30 days 11/07/2011 08:20 Page 2 Probabilistic results summary : HB sensitivity analysis-soilNi-63 File : C:\RESRADFAMILY\RESRAD\6.
5\USERFILES\NI63\HB SOIL SAN163-1.RAD Probabilistic Input Number of Sample Runs: 2000 Number A/AmA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name AAAAAAAAWAAAAAAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)BRTF(28,1)
BRTF(28,2)
BRTF(28,3)
BBIO(28,1)
Distribution Parameters AAAAAAAXAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 .937 2.084 BOUNDED NORMAL .43 .0699 .214 .646 BOUNDED NORMAL .342 .0705 .124 .56 BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 TRIANGULAR 6 10 30 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED NORMAL .315 .0905 .0349 .594 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 CONTINUOUS LINEAR 8 0 0 .000008 495 .00006 .9937 .000076 .9983 .0001 1 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 .044 1 TRIANGULAR 0 .15 .6 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 TRIANGULAR 5.1 18 84 TRIANGULAR
.06 .67 .95 TRUNCATED LOGNORMAL 6.05 1.46 .001 .999 TRUNCATED LOGNORMAL-N 6.05 1.46 .001 .999 TRUNCATED LOGNORMAL-N 6.05 1.46 .001 .999 TRUNCATED LOGNORMAL-N
-3 .9 .001 .999 TRUNCATED LOGNORMAL-N
-5.3 .9 .001 .999 TRUNCATED LOGNORMAL-N
-3.91 .7 .001 .999 LOGNORMAL-N 4.6 1.1.0151.000016 .1365 94 S- BARTLETT Page 88 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and Correlation output 11/07/11 08:20 Page: Coef 1 Title : HB sensitivity analysis.soilNi-63 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\Ni63\HB SOIL SAN163-1.RAD coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone saturated zone total porosity Saturated zone effective porosity Saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic Conductivity of unsaturated zone 1 b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Ni-63 in Contaminated zone Kd of Ni-63 in unsaturated zone 1 Kd of Ni-63 in Saturated zone Plant transfer factor for Ni Meat transfer factor for Ni Milk transfer factor for Ni Fish transfer factor for Ni R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff sig coeff Sig coeff 3 0.32 4 0.19 3 0.74 3 0.37 7 -0.03 6 -0.13 7 -0.05 8 -0.11 6 -0.03 5 -0.14 8 -0.04 9 -0.10 15 0.02 21 0.01 29 -0.01 30 0.00 22 -0.01 24 -0.01 27 -0.01 28 0.00 17 0.01 23 0.01 21 0.01 25 0.00 13 -0.02 13 -0.04 11 0.04 14 0.04 32 0.00 12 -0.05 26 -0.01 7 -0.11 25 0.01 11 0.07 32 0.00 15 -0.03 19 -0.01 8 -0.12 24 -0.01 11 -0.07 16 0.01 22 0.01 30 0.01 31 0.00 35 0.00 35 0.00 12 -0.04 17 -0.01 29 -0.01 30 0.00 16 -0.03 21 -0.01 14 0.02 14 0.04 9 -0.04 12 -0.05 34 0.00 34 0.00 31 0.00 32 0.00 18 -0.01 3 -0.24 17 0.02 4 0.26 20 -0.01 9 -0.11 10 0.04 6 0.20 21 -0.01 10 -0.11 23 0.01 10 0.07 28 0.01 29 0.00 6 0.06 16 0.02 10 0.03 18 0.01 34 0.00 34 0.00 31 0.00 32 0.00 18 -0.02 22 -0.01 9 0.03 17 0.02 15 -0.03 20 -0.01 33 0.00 33 0.00 22 0.01 26 0.00 26 -0.01 27 0.00 25 -0.01 27 0.00 4 -0.22 7 -0.13 4 -0.53 5 -0.21 12 -0.03 20 -0.01 28 -0.01 29 0.00 23 0.01 25 0.01 14 0.03 19 0.01 11 -0.03 19 -0.01 20 0.02 24 0.01 24 0.01 26 0.00 13 -0.03 18 -0.01 27 0.01 28 0.00 19 0.02 23 0.01 30 0.01 31 0.00 35 0.00 35 0.00 1 0.78 1 0.69 1 0.90 1 0.70 S 0.05 15 0.03 5 0.14 13 0.05 2 0.56 2 0.38 2 0.81 2 0.46 8 -0.03 16 -0.02 33 0.00 33 0.00 0.69 0.69 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 89 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Np-237 Results: RESRAD, version 6.5 Tv< Limit = 30 days 11/07/2011 11:25 Page 1 Probabilistic results summary : HB sensitivity analysis.soilNp237 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\NP237\HB SOIL SANP237-1.RAD Table of Contents Part VT: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
4 Total Risk .........................
....................
5 Dose vs Pathway: Ground External.
...................
6 Dose vs Pathway: Inhalation (w/o Radon) ............
7 Dose vs Pathway: Radon (water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ................
9 Dose vs Pathway: Meat (water Ind.) ................
10 Dose vs Pathway: Milk (water Ind.) ................
11 Dose vs Pathway: soil Ingestion
......................
12 Dose vs Pathway: water Ingestion
.....................
13 Dose vs Pathway: Fish Ingestion
......................
14 Dose vs Pathway: Radon (water Dep.) ................
15 Dose vs Pathway: Plant (water Dep.) ................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose vs Pathway: Milk (water Dep.) ................
18 Cumulative Probability summary..........................
19 Summary of dose at graphical times, reptition 1 ..... 20 Peak of the mean dose at graphical times .............
21 correlation and Regression coefficients (if any) ..... 22 RESRAD, Version 6.5 T<< Limit = 30 days 11/07/2011 11:25 Page 2 Probabilistic results summary : HB sensitivity analysis.soilNp237 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\NP237\HB SOIL SANP237-1.RAD Probabilistic Input Number of sample Runs: 2000 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 Name iAAAPAAAA.AAAAAAAAAJAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .9 SHF3 SHF1 DM DROOT YV(1)WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)DCACTC(2)DCACTU1(2)
DCACTS(2)DCACTC(3)DCACTU1(3)
DCACTS(3)BRTF(93,1)
BRTF(93,2)
BRTF(93,3)
BBIO(93,1)
BRTF(90,1)
BRTF(90,2)
BRTF(90, 3)BBIO(90, 1)BRTF(92, 1)BRTF(92,2)
BRTF(92,3) 94 Distribution Parameters KAAAAAAAAAAAAAAAAAAN5A AAAAASAAA.5.AAAAAAAAAAAAAAAAAAA.AAAAAAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 .937 2.084 BOUNDED NORMAL .43 .0699 .214 .646 BOUNDED NORMAL .342 .0705 .124 .56 BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 TRIANGULAR 6 10 30 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED NORMAL .315 .0905 .0349 .594 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 CONTINUOUS LINEAR 8 0 0 .000008 495 .00006 .9937 .000076 .9983 .0001 1 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 .044 1 TRIANGULAR 0 .15 .6 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 TRIANGULAR 5.1 18 84 TRIANGULAR
.06 .67 .95 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 2.84 2.25 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N
-3.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-6.91 .7 .001 .999 TRUNCATED LOGNORMAL-N
-11.51 .7 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-9.21 1 .001 .999 TRUNCATED LOGNORMAL-N
-12.21 .9 .001 .999 LOGNORMAL-N 4.6 1.1 TRUNCATED LOGNORMAL-N
-6.21 .9 .001 .999 TRUNCATED LOGNORMAL-N
-7.13 .7 .001 .999 TRUNCATED LOGNORMAL-N
-7.82 .6 .001 .999.0151.000016 .1365 (c BARTLETT Page 90 w Bartlett Engineering.
ENG-HB-O01 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 RESRAD Regression and Correlation output 11/07/11 11:30 Page: Coef 1 Title : HB sensitivity analysissoilNp237 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\NP237\HB SOIL SANP237-1.RAD Coefficients for peak of mean dose time Dose Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig Coeff Thickness of contaminated zone 2 0.56 2 0.29 2 0.79 2 0.44 Density of contaminated zone 8 -0.03 6 -0.09 43 0.00 23 -0.01 contaminated zone total porosity 9 -0.03 7 -0.09 40 -0.01 15 -0.01 Contaminated zone hydraulic conductivity 24 -0.01 31 -0.01 30 -0.01 38 0.00 contaminated zone b parameter 13 0.02 21 0.01 20 0.02 28 0.01 Evapotranspiration coefficient 26 -0.01 33 -0.01 28 0.01 35 0.00 Irrigation 17 -0.02 11 -0.03 48 0.00 45 0.00 Density of saturated zone 34 0.01 4 0.14 49 0.00 37 0.00 saturated zone total porosity 32 0.01 9 0.08 38 -0.01 8 -0.03 Saturated zone effective porosity 35 0.01 10 0.07 39 0.01 9 0.03 Saturated zone hydraulic conductivity 7 0.03 16 0.01 41 0.00 43 0.00 Saturated zone b parameter 49 0.00 49 0.00 44 0.00 46 0.00 well pump intake depth 5 0.04 14 0.02 17 0.02 25 0.01 well pumping rate 37 0.01 19 0.01 25 0.01 12 0.02 Thickness of unsaturated zone 1 14 -0.02 22 -0.01 14 -0.03 21 -0.01 Density of unsaturated zone 1 40 0.01 5 0.10 36 0.01 4 0.08 Total Porosity of unsaturated zone 1 47 0.00 12 0.02 32 0.01 5 0.0S Effective Porosity of Unsaturated zone 1 27 0.01 8 0.08 35 0.01 7 0.04 Hydraulic conductivity of unsaturated zone 1 36 -0.01 39 0.00 12 0.03 19 0.01 b Parameter of unsaturated zone 1 29 -0.01 35 0.00 27 0.01 34 0.00 Mass loading for inhalation 43 0.01 44 0.00 42 0.00 44 0.00 Indoor dust filtration factor 30 -0.01 37 0.00 34 -0.01 41 0.00 External gamma shielding factor 44 0.00 45 0.00 5 0.06 10 0.02 Depth of soil mixing layer 31 0.01 36 0.00 26 -0.01 33 0.00 Depth of roots 3 -0.40 3 -0.19 3 -0.60 3 -0.25 wet weight crop yield of fruit, grain and non-leafy vegetables 10 0.03 17 0.01 16 -0.03 24 -0.01 weathering removal constant of all vegetation 18 0.02 25 0.01 46 0.00 48 0.00 wet foliar interception fraction of leafy vegetables 46 0.00 47 0.00 19 -0.02 27 -0.01 Kd of Np-237 in Contaminated zone 16 0.02 24 0.01 4 0.14 6 0.05 Kd of Np-237 in unsaturated zone 1 12 -0.03 20 -0.01 21 -0.02 29 -0.01 Kd of Np-237 in Saturated zone 28 -0.01 34 0.00 15 0.03 22 0.01 Kd of T -229 in Contaminated zone 15 -0.02 23 -0.01 47 0.00 49 0.00 Kd of Th-229 in unsaturated zone 1 19 -0.02 26 -0.01 22 -0.02 30 -0.01 Kd of Th-229 in Saturated zone 22 0.01 29 0.01 23 0.02 31 0.01 Kd of U-233 in Contaminated zone 20 0.02 27 0.01 24 -0.01 32 0.00 Kd of U-233 in unsaturated zone 1 38 -0.01 40 0.00 9 -0.03 16 -0.01 Kd of u-233 in saturated zone 39 -0.01 41 0.00 11 -0.03 18 -0.01 Plant transfer factor for Np 1 0.89 1 0.84 1 0.92 1 0.79 Meat transfer factor for Np 6 0.04 15 0.02 8 0.04 14 0.01 Milk transfer factor for Np 11 -0.03 18 -0.01 6 0.05 11 0.02 Fish transfer factor for Np 4 -0.04 13 -0.02 13 0.03 20 0.01 Plant transfer factor for Th 41 -0.01 42 0.00 31 -0.01 39 0.00 Meat transfer factor for Th 25 -0.01 32 -0.01 45 0.00 47 0.00 Milk transfer factor for Th 48 0.00 48 0.00 29 0.01 36 0.00 Fish transfer factor for Th 42 0.01 43 0.00 33 0.01 40 0.00 Plant transfer factor for U 45 0.00 46 0.00 10 0.03 17 0.01 Meat transfer factor for U 23 -0.01 30 -0.01 18 -0.02 26 -0.01 Milk transfer factor for U 33 -0.01 38 0.00 7 -0.04 13 -0.01 Fish transfer factor for U 21 0.01 28 0.01 37 0.01 42 0.00 R-SQUARE 0.82 0.82 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 91 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-O01 Rev. 0 Pu-238 Results: RESRAD, version 6.5 Tcc Limit = 30 days 11/07/2011 11:44 Page Probabilistic results summary : HB sensitivity analysis.soilPu-238 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\PU238\HB SOIL SAPu238-1.RAD Table of Contents A.WAAAAAAAAAAAAAA Part VI: Uncertainty Analysis ftft I itt t ttttttt ttttt Iff It RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
4 Total Risk .........................
....................
5 Dose vs Pathway: Ground External ...................
6 Dose vs Pathway: Inhalation (w/o Radon) ............
7 Dose vs Pathway: Radon (water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ................
9 Dose vs Pathway: Meat (water Ind.) ................
10 Dose vs Pathway: Milk (water Ind.) ................
11 Dose vs Pathway: Soil Ingestion
......................
12 Dose vs Pathway: water Ingestion
.....................
13 Dose vS Pathway: Fish Ingestion
......................
14 Dose vs Pathway: Radon (water Dep.) ................
15 Dose vs Pathway: Plant (water Dep.) ................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose vs Pathway: Milk (water Dep.) ................
18 Cumulative Probability summary.......................
19 Summary of dose at graphical times, reptition 1.. 20 Peak of the mean dose at graphical times .............
21 correlation and Regression coefficients (if any) ..... 22 RESRAD, version 6.5 T1< Limit = 30 days 11/07/2011 11:44 Page Probabilistic results summary : HB sensitivity analysis.soilPu-238 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\PU238\HB SOIL SA/PU238-1.RAD Probabilistic Input Number of Sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 Name Distribution Parameters AAAAAAAAA.AAAAAAAAAA AAA A A A AAAAAAAAAAAAAAAAAA AA THICKO UNIFORM .15 3.51 DENSCZ BOUNDED NORMAL 1.5635 .2385 .827 2.3 TPCZ BOUNDED NORMAL .41 .09 .1319 .6881 HCCZ BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BCZ BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 EVAPTR UNIFORM .5 .75 RI UNIFORM .36 .76 DENSAQ BOUNDED NORMAL 1.5105 .1855 .937 2.084 TPSZ BOUNDED NORMAL .43 .0699 .214 .646 EPSZ BOUNDED NORMAL .342 .0705 .124 .56 HCSZ BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BSZ BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 DWIBWT TRIANGULAR 6 10 30 UW UNIFORM 1173 1973 H(1) UNIFORM 0 8.08 DENSUZ(1)
BOUNDED NORMAL 1.5635 .2385 .827 2.3 TPUZ(1) BOUNDED NORMAL .41 .09 .1319 .6881 EPUZ(1) BOUNDED NORMAL .315 .0905 .0349 .594 HCUZ(1) BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BUZ(1) BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 MLINH CONTINUOUS LINEAR 8 0 0 .000008.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 SHF3 UNIFORM .15 .95 SHF1 BOUNDED LOGNORMAL-N
-1.3 .59 .044 1 DM TRIANGULAR 0 .15 .6 DROOT UNIFORM .3 4 YV(1) TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 WLAM TRIANGULAR 5.1 18 84 RWET(2) TRIANGULAR
.06 .67 .95 DCACTC(3)
TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999 DCACTUI(3)
TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999'DCACTS(3)
TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999 DCACTC(1)
TRUNCATED LOGNORMAL-N 7.78 2.76 .001 .999 DCACTU1(1)
TRUNCATED LOGNORMAL-N 7.78 2.76 .001 .999 DCACTS(1)
TRUNCATED LOGNORMAL-N 7.78 2.76 .001 .999 DCACTC(2)
TRUNCATED LOGNORMAL-N 5.2 1.68 .001 .999 DCACTU1(2)
TRUNCATED LOGNORMAL-N 5.2 1.68 .001 .999 DCACTS(2)
TRUNCATED LOGNORMAL-N 5.2 1.68 .001 .999 DCACTC(5)
TRUNCATED LOGNORMAL-N 8.17 1.7 .001 .999 DCACTUl(5)
TRUNCATED LOGNORMAL-N 8.17 1.7 .001 .999 DCACTS(5)
TRUNCATED LOGNORMAL-N 8.17 1.7 .001 .999 DCACTC(6)
TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 DCACTUI(6)
TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 DCACTS(6)
TRUNCATED LOGNORMAL-N 8.68 3.62 .001 .999 DCACTC(7)
TRUNCATED LOGNORMAL 4.48 3.13 .001 .999 DCACTU1(7)
TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 DCACTS(7)
TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 BRTF(94,1)
TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 BRTF(94,2)
TRUNCATED LOGNORMAL-N
-9.21 .2 .001 .999 BRTF(94,3)
TRUNCATED LOGNORMAL-N
-13.82 .5 .001 .999 BBIO(94,1)
LOGNORMAL-N 3.4 1.1 BRTF(82,1)
TRUNCATED LOGNORMAL-N
-5.52 .9 .001 .999 BRTF(82,2)
TRUNCATED LOGNORMAL-N
-7.13 .7 .001 .999 BRTF(82,3)
TRUNCATED LOGNORMAL-N
-8.11 .9 .001 .999 BBIO(82,1)
LOGNORMAL-N 5.7 1.1 BRTF(84,1)
TRUNCATED LOGNORMAL-N
-6.9 .9 .001 .999 BRTF(84,2)
TRUNCATED LOGNORMAL-N
-5.3 .7 .001 .999 BRTF(84,3)
TRUNCATED LOGNORMAL-N
-7.82 .7 .001 .999 BBIO(84,1)
LOGNORMAL-N 4.6 1.1 BRTF(88,1)
TRUNCATED LOGNORMAL-N
-3.22 .9 .001 .999 BRTF(88,2)
TRUNCATED LOGNORMAL-N
-6.91 .7 .001 .999 BRTF(88,3)
TRUNCATED LOGNORMAL-N
-6.91 .5 .001 .999 BBIO(88,1)
LOGNORMAL-N 3.9 1.1 BRTF(90,1)
TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 BRTF(90,2)
TRUNCATED LOGNORMAL-N
-9.21 1 .001 .999 BRTF(90,3)
TRUNCATED LOGNORMAL-N
-12.21 .9 .001 .999 BBIO(90,1)
LOGNORMAL-N 4.6 1.1 0151 .000016 .1365 (^ BARTLETT Page 92 w Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 67 BRTF(92,1) 68 BRTF(92,2) 69 BRTF(92,3) 70 BBIO(92,1)
TRUNCATED LOGNORMAL-N
-6.21 TRUNCATED LOGNORMAL-N
-7.13 TRUNCATED LOGNORMAL-N
-7.82 LOGNORMAL-N 2.3.9.7.6 1. 1.001.001.001.999.999.999 RESRAD Regression and correlation output 11/07/11 11:50 Page: Coef I Title ': HB sensitivity analysis.soilPu-238 Input File : C:\RESRAD.FAMILY\RESRAD\6.S\USERFILES\PU238\HB SOIL SA_Pu238-1.RAD coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone saturated zone total porosity saturated zone effective porosity Saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of Unsaturated zone 1 Hydraulic conductivity of unsaturated zone 1 b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots Wet weight crop yield of fruit, grain and non-leafy vegetables Weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Pu-238 in Contaminated zone Kd of Pu-238 in Unsaturated Zone 1 Kd of Pu-238 in saturated zone Kd of Pb-210 in contaminated zone Kd of Pb-210 in unsaturated zone I Kd of Pb-210 in saturated zone Kd of Po-210 in contaminated zone Kd of Po-210 in unsaturated zone 1 Kd of Po-210 in Saturated zone Kd of Ra-226 in Contaminated zone Kd of Ra-226 in Unsaturated zone 1 Kd of Ra-226 in Saturated Zone Kd of Th-230 in Contaminated zone Kd of Th-230 in unsaturated Zone 1 Kd of Th-230 in Saturated zone Kd of U-234 in contaminated zone Kd of U-234 in unsaturated zone 1 Kd of u-234 in Saturated zone Plant transfer factor for Pu Meat transfer factor for Pu Milk transfer factor for Pu Fish transfer factor for Pu Plant transfer factor for Pb Meat transfer factor for Pb Milk transfer factor for Pb Fish transfer factor for Pb Plant transfer factor for Po Meat transfer factor for Po Milk transfer factor for Po Fish transfer factor for Po Plant transfer factor for Ra Meat transfer factor for Ra Milk transfer factor for Ra Fish transfer factor for Ra Plant transfer factor for Th Meat transfer factor for Th Milk transfer factor for Th Fish transfer factor for Th Plant transfer factor for U Meat transfer factor for u Milk transfer factor for u Fish transfer factor for u R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff sig Coeff Sig Coeff 2 0.57 2 0.26 2 0.79 2 0.42 57 0.01 14 0.01 22 0.02 9 0.05 60 0.00 20 0.01 31 0.02 10 0.04 38 -0.01 44 -0.01 14 0.03 23 0.01 18 0.03 26 0.01 59 -0.01 60 0.00 43 -0.01 49 0.00 10 0.04 18 0.01 67 0.00 55 0.00 57 -0.01 31 -0.01 28 -0.02 3 -0.25 49 0.01 5 0.11 29 -0.02 5 -0.13 63 0.01 11 0.03 32 -0.02 6 -0.12 33 0.02 6 0.08 49 -0.01 54 0.00 8 -0.05 16 -0.02 10 -0.03 17 -0.01 37 0.01 44 0.00 33 -0.02 39 -0.01 15 -0.03 24 -0.01 50 -0.01 31 -0.01 48 0.01 19 0.01 17 -0.03 25 -0.01 30 -0.02 39 -0.01 51 -0.01 7 -0.08 40 -0.01 4 -0.14 61 0.00 9 -0.02 38 -0.01 7 -0.08 48 -0.01 8 -0.05 52 -0.01 8 -0.06 26 0.02 35 0.01 55 -0.01 57 0.00 63 0.00 64 0.00 54 -0.01 56 0.00 47 0.01 53 0.00 7 0.05 15 0.02 9 0.03 16 0.01 11 0.04 20 0.01 64 0.00 65 0.00 41 0.01 46 0.00 6 -0.04 12 -0.02 20 -0.03 29 -0.01 3 -0.44 4 -0.19 3 -0.62 3 -0.26 20 0.02 28 0.01 42 0.01 47 0.00 14 0.03 22 0.01 68 0.00 68 0.00 21 0.02 29 0.01 29 0.02 38 0.01 46 0.01 52 0.00 32 -0.02 40 -0.01 23 0.02 32 0.01 12 -0.04 21 -0.01 66 0.00 67 0.00 13 0.03 22 0.01 13 0.03 21 0.01 27 0.02 36 0.01 52 0.01 56 0.00 36 -0.01 43 0.00 54 -0.01 58 0.00 24 0.02 33 0.01 45 -0.01 51 0.00 39 -0.01 45 0.00 41 -0.01 47 0.00 60 -0.01 61 0.00 62 0.00 63 0.00 6 -0.06 14 -0.02 16 -0.03 24 -0.01 46 -0.01 51 0.00 39 -0.01 45 0.00 9 0.05 17 0.02 44 -0.01 50 0.00 47 0.01 52 0.00 30 0.02 37 0.01 64 0.01 64 0.00 53 0.01 57 0.00 65 -0.01 65 0.00 7 -0.04 13 -0.02 26 0.02 35 0.01 12 0.03 19 0.01 43 0.01 48 0.00 58 0.00 61 0.00 35 -0.01 42 0.00 59 0.00 62 0.00 19 0.03 28 0.01 1 0.92 1 0.86 1 0.92 1 0.80 22 0.02 30 0.01 17 0.03 26 0.01 69 0.00 69 0.00 53 -0.01 55 0.00 24 -0.02 33 -0.01 4 -0.06 12 -0.02 25 0.02 34 0.01 56 0.01 58 0.00 31 0.02 38 0.01 28 -0.02 37 -0.01 55 0.01 59 0.00 21 0.02 30 0.01 40 0.01 46 0.00 16 0.03 25 0.01 15 -0.03 23 -0.01 69 0.00 69 0.00 36 -0.02 43 -0.01 62 0.01 63 0.00 68 0.00 68 0.00 51 -0.01 54 0.00 11 -0.03 18 -0.01 67 0.00 67 0.00 8 -0.03 15 -0.01 58 0.01 59 0.00 4 0.06 10 0.02 25 0.02 34 0.01 5 0.05 11 0.02 18 0.03 27 0.01 56 -0.01 60 0.00 44 0.01 49 0.00 42 -0.01 48 0.00 66 0.00 66 0.00 70 0.00 70 0.00 45 0.01 50 0.00 19 -0.02 27 -0.01 50 0.01 53 0.00 65 0.00 66 0.00 70 0.00 70 0.00 27 -0.02 36 -0.01 5 -0.06 13 -0.02 37 0.02 42 0.01 61 -0.01 62 0.00 34 -0.02 40 -0.01 34 -0.01 41 0.00 35 0.02 41 0.01 23 0.02 32 0.01 0.86 0.86 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 93 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Pu-239 Results: RESRAD, version 6.5 T< Limit = 30 days 11/07/2011 11:51 Page Probabilistic results summary : HB sensitivity analysisasoilPu239 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\PU239\HB SOIL SAPU239-1.
RAD Table of contents AAAAAAA.AAAAAAAA Part.vi:.Uncertainty Analysis 333 IttIIIIII IIlllll RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
4 Total Risk .........................
....................
5 Dose vs Pathway: Ground External ...................
6 Dose vs Pathway: Inhalation (w/o Radon) ............
7 Dose vs Pathway: Radon (water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ................
9 Dose vs Pathway: Meat (water Ind.) ................
10 Dose vs Pathway: Milk (water Ind.) ................
11 Dose vs Pathway: Soil Ingestion
......................
12 Dose vs Pathway: water Ingestion
.....................
13 Dose vs Pathway: Fish Ingestion
......................
14 Dose vs Pathway: Radon (water Dep.) ................
15 Dose vs Pathway: Plant (water Dep.) ................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose VS Pathway: Milk (water Dep.) ................
18 Cumulative Probability Summary .........................
19 Summary of dose at graphical times, reptition 1 ..... 20 Peak of the mean dose at graphical times ..............
21 Correlation and Regression coefficients (if any) ..... 22 RESRAD, version 6.5 T" Limit = 30 days 11/07/2011 11:51 Page Probabilistic results summary : HB sensitivity analysisesoilPu239 File : C:\RESRADFANILY\RESRAD\6.5\USERFILES\PU239\HB SOIL SASPU239-1.RAD Probabilistic Input Number of Sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 Name AAAAAA.AAAA4AAAAAýA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 SHF3 SHF1 DM 0 ROOT YV(1)WLAM RWET(2)DCACTC(3)DCACTUl(3)
DCACTS(3)DCACTC(1)DCACTU1(1)
DCACTS (1)DCACTC(2)DCACTU1(2)
DCACTS(2)DCACTC(4)DCACTU1(4)
DCACTS (4)BRTF(94,1)
BRTF(94,2)
BRTF(94, 3)BBIO(94,1)
BRTF(89,1)
BRTF(89,2)
BRTF(89, 3)BBIO(89,1)
BRTF(91,1)
BRTF(91,2)
BRTF(91, 3)BBIO(91,1)
BRTF(92,1)
BRTF(92,2)
BRTF(92,3)
BBIO(92,1)
Distribution Parameters kAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAA.AAAAAAAAAAAAAAAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 .937 2.084 BOUNDED NORMAL .43 .0699 .214 .646 BOUNDED NORMAL .342 .0705 .124 .56 BOUNDED LOGNORMAL-N
.362 1.59 .0106 195 BOUNDED LOGNORMAL-N 1.96 .265 3.02 15.5 TRIANGULAR 6 10 30 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 .827 2.3 BOUNDED NORMAL .41 .09 .1319 .6881 BOUNDED NORMAL .315 .0905 .0349 .594 BOUNDED LOGNORMAL-N 1.36 2.17 .00478 3190 BOUNDED LOGNORMAL-N 1.73 .323 2.08 15.3 CONTINUOUS LINEAR 8 0 0 .000008.9495 .00006 .9937 .000076 .9983 .0001 1 UNIFORM .15 .95 BOUNDED LOGNORAAL-N
-1.3 .59 .044 1 TRIANGULAR 0 .15 .6 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 .001 .999 TRIANGULAR 5.1 18 84 TRIANGULAR
.06 .67 .95 TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999 TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999 TRUNCATED LOGNORMAL-N 6.86 1.89 .001 .999 TRUNCATED LOGNORMAL-N 6.72 3.22 .001 .999 TRUNCATED LOGNORMAL-N 6.72 3.22 .001 .999 TRUNCATED LOGNORMAL-N 6.72 3.22 .001 .999 TRUNCATED LOGNORMAL-N 5.94 3.22 .001 .999 TRUNCATED LOGNORMAL-N 5.94 3.22 .001 .999 TRUNCATED LOGNORMAL-N 5.94 3.22 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N 4.84 3.13 .001 .999 TRUNCATED LOGNORMAL-N
-6.91 .9 .001 .999 TRUNCATED LOGNORMAL-N
-9.21 .2 .001 .999 TRUNCATED LOGNORMAL-N
-13.82 .5 .001 .999 LOGNORMAL-N 3.4 1.1 TRUNCATED LOGNORMAL-N
-6.91 1.12 .001 .999 TRUNCATED LOGNORMAL-N
-10.82 1 .001 .999 TRUNCATED LOGNORMAL-N
-13.12 .9 .001 .999 LOGNORMAL-N 2.7 1.1 TRUNCATED LOGNORMAL-N
-4.61 1.1 .001 .999 TRUNCATED LOGNORMAL-N
-12.21 1 .001 .999 TRUNCATED LOGNORMAL-N
-12.21 .9 .001 .999 LOGNORMAL-N 2.3 1.1 TRUNCATED LOGNORMAL-N
-6.21 .9 .001 .999 TRUNCATED LOGNORMAL-N
-7.13 .7 .001 .999 TRUNCATED LOGNORMAL-N
-7.82 .6 .001 .999 LOGNORMAL-N 2.3 1.1.0151 .000016 .1365 BARTLETT Page 94 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 RESRAD Regression and Correlation output 11/07/11 11:54 Page: Coef 1 Title : HB sensitivity analysis.soilPu239 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\PU239\HB SOIL SAPU239-1.RAD Coefficients for peak of mean dose time Dose Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of probabilistic variable Sig coeff Sig coeff Sig coeff Sig Coeff Thickness of contaminated zone 2 0.54 7 0.27 2 0.79 2 0.42 Density of contaminated zone 48 -0.01 18 -0.02 37 -0.01 8 -0.03 contaminated zone total porosity 51 0.00 35 -0.01 39 -0.01 10 -0.02 Contaminated zone hydraulic conductivity 31 0.02 33 0.01 5 -0.06 13 -0.02 Contaminated zone b parameter 6 -0.05 14 -0.02 8 -0.04 17 -0.01 Evapotranspiration coefficient 45 -0.01 47 0.00 16 -0.03 26 -0.01 Irrigation 30 -0.02 10 -0.03 25 -0.02 12 -0.02 Density of saturated zone 8 -0.04 2 -0.64 54 0.00 11 -0.02 Saturated zone total porosity 7 -0.04 4 -0.33 46 -0.01 7 -0.03 Saturated zone effective porosity 10 -0.04 5 -0.32 53 0.00 20 0.01 Saturated zone hydraulic conductivity 27 0.02 30 0.01 22 0.02 29 0.01 Saturated zone b parameter 16 0.03 20 0.01 23 0.02 30 0.01 well pump intake depth 29 -0.02 32 -0.01 52 0.00 54 0.00 well pumping rate 36 0.01 13 0.02 31 0.01 15 0.02 Thickness of Unsaturated zone 1 32 0.02 34 0.01 51 0.00 53 0.00 Density of Unsaturated zone 1 14 0.04 3 0.53 18 0.03 3 0.27 Total Porosity of Unsaturated zone 1 17 0.03 8 0.25 20 0.02 6 0.13 Effective Porosity of unsaturated zone 1 13 0.04 6 0.29 17 0.03 5 0.15 Hydraulic Conductivity of unsaturated zone 1 22 -0.03 25 -0.01 33 -0.01 38 0.00 b Parameter of unsaturated zone 1 33 0.02 36 0.01 13 0.03 22 0.01 Mass loading for inhalation 40 0.01 42 0.00 4 0.08 9 0.03 Indoor dust filtration factor 41 0.01 43 0.00 6 0.06 14 0.02 External gamma shielding factor 24 -0.02 28 -0.01 7 -0.05 16 -0.01 Depth of soil mixing layer 18 -0.03 21 -0.01 40 -0.01 43 0.00 Depth of roots 3 -0.39 9 -0.18 3 -0.60 4 -0.24 wet weight crop yield of fruit, grain and non-leafy vegetables 23 -0.02 26 -0.01 27 -0.02 33 -0.01 weathering removal constant of all vegetation 35 -0.02 38 -0.01 24 -0.02 31 -0.01 wet foliar interception fraction of leafy vegetables 4 -0.06 11 -0.02 9 -0.04 18 -0.01 Kd of Pu-239 in Contaminated Zone 9 0.04 15 0.02 19 -0.03 27 -0.01 Kd of Pu-239 in Unsaturated zone 1 19 0.03 22 0.01 36 -0.01 41 0.00 Kd of Pu-239 in Saturated zone 21 0.03 24 0.01 47 0.00 49 0.00 Kd of AC-227 in Contaminated zone 43 0.01 44 0.00 15 -0.03 25 -0.01 Kd of AC-227 in Unsaturated zone 1 55 0.00 55 0.00 48 0.00 50 0.00 Kd of AC-227 in Saturated zone 53 0.00 53 0.00 28 0.02 34 0.01 Kd of Pa-231 in Contaminated Zone 37 -0.01 39 -0.01 34 -0.01 39 0.00 Kd of Pa-231 in unsaturated zone 1 12 -0.04 16 -0.02 44 0.01 47 0.00 Kd of Pa-231 in Saturated zone 28 0.02 31 0.01 21 0.02 28 0.01 Kd of U-235 in Contaminated zone 34 0.02 37 0.01 32 -0.01 37 0.00 Kd of U-235 in Unsaturated zone 1 44 -0.01 46 0.00 14 -0.03 24 -0.01 Kd of U-235 in Saturated zone 52 0.00 S2 0.00 45 -0.01 48 0.00 Plant transfer factor for Pu 1 0.90 1 0.85 1 0.93 1 0.81 Meat transfer factor for Pu 54 0.00 54 0.00 12 0.03 23 0.01 Milk transfer factor for Pu 46 -0.01 48 0.00 38 0.01 42 0.00 Fish transfer factor for Pu 20 0.03 23 0.01 50 0.00 52 0.00 Plant transfer factor for AC 50 0.00 51 0.00 43 -0.01 46 0.00 Meat transfer factor for AC 49 0.00 50 0.00 55 0.00 55 0.00 Milk transfer factor for AC 5 -0.06 12 -0.02 30 -0.01 36 0.00 Fish transfer factor for AC 39 -0.01 41 0.00 41 0.01 44 0.00 Plant transfer factor for Pa 26 -0.02 29 -0.01 49 0.00 51 0.00 Meat transfer factor for Pa 11 0.04 17 0.02 29 0.01 35 0.00 Milk transfer factor for Pa 42 0.01 45 0.00 35 -0.01 40 0.00 Fish transfer factor for Pa 56 0.00 56 0.00 26 -0.02 32 -0.01 Plant transfer factor for u 47 -0.01 49 0.00 56 0.00 56 0.00 Meat transfer factor for U 38 0.01 40 0.01 42 0.01 45 0.00 Milk transfer factor for U 25 0.02 27 0.01 10 -0.04 19 -0.01 Fish transfer factor for U 15 -0.04 19 -0.02 11 -0.04 21 -0.01 R-SQUARE 0.83 0.83 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
N BARTLETT Page 95 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Pu-240 Results: RESRAD, version 6.S T'c Limit = 30 days 11/07/2011 12:00 Page Probabilistic results summary : HB sensitivity analysis.soilPu240 File : C:\RESRADt:AMILY\RESRAD\6.
5\USERFILES\Pu240\HB SOIL SAPU240-1.RAD Table of Contents AkJAAAAAAAAAAAAA Part vI: Uncertainty Analysis 32nnnnttttnIIIIffIIIIIIIIf RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
4 Total Risk ...............
...........................
5 Dose vs Pathway: Ground External ......................
6 Dose vs Pathway: Inhalation (w/o Radon) ............
7 Dose vs Pathway: Radon (Water Ind.) ...................
8 Dose vs Pathway: Plant (water Ind.) ...................
9 Dose vs Pathway: Meat (water Ind.) ..................
10 Dose vS Pathway: Milk (Water Ind.) ..................
11 Dose vs Pathway: Soil Ingestion
.......................
12 Dose vs Pathway: Water Ingestion......................
13 Dose vS Pathway: Fish Ingestion
......................
14 Dose vs Pathway: Radon (water Dep.) ..................
15 Dose vs Pathway: Plant (water Dep.) ..................
16 Dose vs Pathway: Meat (water Dep.) ..................
17 Dose vs Pathway: Milk (water Dep.) ..................
18 cumulative Probability Summary .......................
19 summary of dose at graphical times, reptition 1 ..... 20 Peak of the mean dose at graphical times .............
21 Correlation and Regression coefficients (if any) ..... 22 RESRAD, Version 6.5 T,, Limit = 30 days 11/07/2011 12:00 Page Probabilistic results summary : HB sensitivity analysis-soilPu240 File : C:\RESRADPAMILY\RESRAD\6.5\USERFILES\PU240\HB SOIL SAPU240-1.RAD Probabilistic Input Number of Sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 Name AAAAAAAAMAAAAAAAA THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWI BWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 .5 SHF3 SHF1 DM DROOT YV()WLAM RWET(2)DCACTC(1)DCACTU1(1)
DCACTS(1)DCACTC(3)DCACTU1(3)
DCACTS(3)DCACTC(4)DCACTU1(4)
DCACTS(4)DCACTC(5)DCACTUI(5)
DCACTS(5)DCACTC(6)DCACTU1(6)
DCACTS(6)BRTF(94,1)
BRTF(94,2)
BRTF(94,3)
BBIO(94,1 BRTF(88,1)
BRTF(88,2)
BRTF(88 3'BBIO(88,1 BRTF(90,1 BRTF(90,2)
BRTF(90,3)
BBIO(90,1)
BRTF(92,1 BRTF(92,2)
BRTF(92,3)
BBIO(92,1)
Distribution AAAAAAAAAAAAAAAAAAA.AA UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N UNIFORM UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N TRIANGULAR UNIFORM UNIFORM BOUNDED NORMAL BOUNDED NORMAL BOUNDED NORMAL BOUNDED LOGNORMAL-N BOUNDED LOGNORMAL-N CONTINUOUS LINEAR 9495 .00006 .9937 UNIFORM BOUNDED LOGNORMAL-N TRIANGULAR UNIFORM TRUNCATED LOGNORMAL-N TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N TRUNCATED LOGNORMAL-N LOGNORMAL-N Parameters AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
.15 3.51 1.5635 .2385 .827 2.3.41 .09 .1319 .6881 1.36 2.17 .00478 3190 1.73 .323 2.08 15.3.5 .75.36 .76 1.5105 .1855 .937 2.084.43 .0699 .214 .646.342 .0705 .124 .56.362 1.59 .0106 195 1.96 .265 3.02 15.5 6 10 30 1173 1973 0 8.08 1.5635 .2385 .827 2.3.41 .09 .1319 .6881.315 .0905 .0349 .594 1.36 2.17 .00478 3190 1.73 .323 2.08 15.3 8 0 0 .000008 .0151 .000016 .1365.000076 .9983 .0001 1.15 .95-1.3 .59 .044 1 0 .15 .6.3 4.56 .48 .001 .999 5.1 18 84.06 .67 .95 6.86 1.89 .001 .999 6.86 1.89 .001 .999 6.86 1.89 .001 .999 8.17 1.7 .001 .999 8.17 1.7 .001 .999 8.17 1.7 .001 .999 8.68 3.62 .001 .999 8.68 3.62 .001 .999 8.68 3.62 .001 .999 8.68 3.63 .001 .999 8.68 3.62 .001 .999 8.68 3.62 .001 .999 4.84 3.13 .001 .999 4.84 3.13 .001 .999 4.84 3.13 .001 .999-6.91 .9 .001 .999-9.21 .2 .001 .999-13.82 .5 .001 .999 3.4 1.1-3.22 .9 .001 .999-6.91 .7 .001 .999-6.91 .5 .001 .999 3.9 1.1-6.91 .9 .001 .999-9.21 1 .001 .999-12.21 .9 .001 .999 4.6 1.1-6.21 .9 .001 .999-7.13 .7 .001 .999-7.82 .6 .001 .999 2.3 1.1 CISARTLETT Page 96 (rBARTLETT Page 96 Bartlett Engineering.
ENG-HB-001 RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay Rev. 0 RESRAD Regression and Correlation output 11/07/11 12:05 Page: Coef 1 Title : HB sensitivity analysis.soilPu240 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\PU240\HB SOIL SAPU240-1.RAD Coefficients for peak of mean dose time Dose coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig Coeff Thickness of contaminated zone 2 0.57 4 0.26 2 0.79 2 0.43 Density of contaminated zone 27 -0.02 10 -0.05 49 -0.01 13 -0.02 Contaminated zone total porosity 23 -0.02 8 -0.06 43 -0.01 10 -0.03 contaminated zone hydraulic conductivity 45 -0.01 47 0.00 21 0.02 25 0.01 Contaminated zone b parameter 44 -0.01 46 0.00 53 0.01 53 0.00 Evapotranspiration coefficient 43 0.01 45 0.00 47 -0.01 48 0.00 Irri gatl on 9 0.04 9 0.06 44 0.01 15 0.01 Density of saturated zone 59 0.00 59 0.00 11 0.03 3 0.35 Saturated zone total porosity 51 0.00 12 0.03 14 0.03 8 0.16 Saturated zone effective porosity 46 -0.01 11 -0.04 8 0.03 7 0.19 saturated zone hydraulic conductivity 37 -0.01 39 0.00 18 0.02 22 0.01 Saturated zone b parameter 29 -0.01 31 -0.01 34 0.01 37 0.00 well pump intake depth 58 0.00 58 0.00 20 0.02 24 0.01 well pumping rate 4 -0.05 7 -0.06 29 -0.02 11 -0.02 Thickness of unsaturated zone 1 11 0.04 17 0.01 9 0.03 17 0.01 Density of Unsaturated zone 1 18 0.03 2 0.39 13 0.03 4 0.33 Total Porosity of Unsaturated zone 1 10 0.04 3 0.26 7 0.04 6 0.21 Effective Porosity of unsaturated zone 1 24 0.02 6 0.14 17 0.02 9 0.14 Hydraulic conductivity of unsaturated zone 1 14 0.03 20 0.01 37 0.01 40 0.00 b Parameter of unsaturated zone 1 52 0.00 52 0.00 38 -0.01 41 0.00 Mass loading for inhalation 15 0.03 21 0.01 16 0.03 21 0.01 Indoor dust filtration factor 30 0.01 32 0.01 5 0.05 14 0.02 External gamma shielding factor 8 -0.04 16 -0.02 31 -0.01 34 0.00 Depth of soil mixing layer 12 -0.04 18 -0.01 4 -0.06 12 -0.02 Depth of roots 3 -0.40 5 -0.16 3 -0.60 5 -0.26 wet weight crop yield of fruit, grain and non-leafy vegetables 22 -0.02 27 -0.01 54 0.01 54 0.00 weathering removal constant of all vegetation 6 0.04 15 0.02 33 0.01 36 0.00 wet foliar interception fraction of leafy vegetables 50 0.00 51 0.00 36 -0.01 39 0.00 Kd of Pu-240 in Contaminated zone 32 0.01 34 0.00 25 0.02 29 0.01 Kd of Pu-240 in unsaturated zone 1 42 -0.01 44 0.00 58 0.00 58 0.00 Kd of Pu-240 in Saturated zone 19 0.03 24 0.01 56 0.00 56 0.00 Kd of Ra-228 in contaminated zone 49 0.01 49 0.00 55 0.00 55 0.00 Kd of Ra-228 in unsaturated zone 1 31 -0.01 33 -0.01 32 0.01 35 0.00 Kd of Ra-228 in Saturated zone 7 0.04 14 0.02 23 0.02 27 0.01 Kd of Th-228 in contaminated zone 54 0.00 54 0.00 50 0.01 50 0.00 Kd of Th-228 in Unsaturated zone 1 26 0.02 28 0.01 45 0.01 46 0.00 Kd of Th-228 in Saturated Zone 53 0.00 53 0.00 15 -0.03 20 -0.01 Kd of Th-232 in contaminated zone 33 -0.01 35 0.00 19 0.02 23 0.01 Kd of Th-232 in unsaturated zone 1 47 -0.01 48 0.00 12 -0.03 19 -0.01 Kd of Th-232 in Saturated zone 25 0.02 29 0.01 30 -0.02 33 -0.01 Kd of U-236 in Contaminated zone 35 -0.01 37 0.00 10 0.03 18 0.01 Kd of U-236 in unsaturated Zone 1 56 0.00 56 0.00 51 0.01 51 0.00 Kd of U-236 in saturated zone 36 -0.01 38 0.00 40 -0.01 43 0.00 Plant transfer factor for Pu 1 0.92 1 0.87 1 0.92 1 0.80 Meat transfer factor for Pu 20 0.03 25 0.01 46 -0.01 47 0.00 Milk transfer factor for Pu 38 -0.01 40 0.00 6 -0.04 16 -0.01 Fish transfer factor for Pu 40 -0.01 42 0.00 24 -0.02 28 -0.01 Plant transfer factor for Ra 5 0.05 13 0.02 57 0.00 57 0.00 Meat transfer factor for Ra 21 -0.02 26 -0.01 35 -0.01 38 0.00 Milk transfer factor for Ra 17 0.03 23 0.01 27 0.02 31 0.01 Fish transfer factor for Ra 16 -0.03 22 -0.01 26 -0.02 30 -0.01 Plant transfer factor for Th 55 0.00 55 0.00 48 -0.01 49 0.00 Meat transfer factor for Th 34 -0.01 36 0.00 22 -0.02 26 -0.01 Milk transfer factor for Th 28 0.01 30 0.01 39 -0.01 42 0.00 Fish transfer factor for Th 57 0.00 57 0.00 52 -0.01 52 0.00 Plant transfer factor for U 13 -0.04 19 -0.01 41 0.01 44 0.00 Meat transfer factor for U 39 0.01 41 0.00 42 0.01 45 0.00 Milk transfer factor for U 41 -0.01 43 0.00 59 0.00 59 0.00 Fish transfer factor for U 48 0.01 50 0.00 28 0.02 32 0.01 R-SQUARE 0.86 0.86 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
WBARTLETT Page 97 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Pu-241 Results: RESRAD, version 6.5 T'c Limit = 30 days 10/19/2011 15:41 Page Probabilistic results summary : HB sensitivity analysis.soilPu241 File : C:\RESRADFAMILY\RESRAD\6.S\HB SOIL SAPu241.RAD Table of Contents 4 WAAAAAAAAAAA Part VT: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input ....................................
2 Total Dose ..............................................
4 Total Risk .........................
....................
5 Dose vs Pathway: Ground External ......................
6 Dose vs Pathway: Inhalation (w/o Radon) ..............
7 Dose vs Pathway: Radon (water Ind.) ................
8 Dose vs Pathway: Plant (water Ind.) ................
9 Dose VS Pathway: Meat (water Ind.) ................
10 Dose VS Pathway: Milk (water Ind.) ................
11 Dose vs Pathway: soil Ingestion
......................
12 Dose vs Pathway: water Ingestion
......................
13 Dose vs Pathway: Fish Ingestion
....................
14 Dose vs Pathway: Radon (water Dep.) .................
15 Dose vs Pathway: Plant (water Dep.) ................
16 Dose vs Pathway: Meat (water Dep.) ................
17 Dose vs Pathway: Milk (water Dep.) ................
18 cumulative Probability Summary .......................
19 Summary of dose at graphical times, reptition 1 ..... 20 Peak of the mean dose at graphical times .............
21 correlation and Regression coefficients (if any) ..... 22 RESRAD, version 6.5 T<c Limit = 30 days 10/19/2011 15:41 Probabilistic results summary : HB sensitivity analysis-soil.Pu241 File : C:\RESRAD-FAMILY\RESRAD\6.5\HB SOIL SAsPu241.RAD Page 2 Probabilistic 0Number of Sample Runs: 2000 Number Name AAAAAA AAAAAAAAAAAKAAAAAAAAAA 1 THICKO 2 DENSCZ 3 TPCZ 4 HCCZ 5 BCZ 6 EVAPTR 7 RI 8 DENSAQ 9 TPSZ 10 EPSZ 11 HCSZ 12 BSZ 13 DWIBWT 14 UW 15 H(1)16 DENSUZ(1)17 TPUZ(1)18 EPUZ(1)19 HCUZ(1)20 BUZ(1)21 MLINH.00003 .8119 .00004 .9 22 SHF3 23 SBF1 24 DM 25 DROOT 26 YV(1)27 WLAM 28 RWET(2)29 DCACTC(3)30 DCACTU1(3) 31 DCACTS(3)32 DCACTC(1)33 DCACTUI(1) 34 DCACTS(1)35 DCACTC(2)36 DCACTUl(2) 37 DCACTS(2)38 DCACTC(6)39 DCACTU1(6) 40 DCACTS(6)41 BRTF(94,1) 42 BRTF(94,2) 43 BRTF(94,3) 44 BBio(94,1) 45 BRTF(95,1) 46 BRTF(95,2) 47 BRTF(95,3) 48 BBI0(95,1) 49 BRTF(93,1) 50 BRTF(93,2) 51 BRTF(93,3) 52 BB0(93,1)53 BRTF(90,1) 54 BRTF(90,2) 55 BRTF(90,3) 56 BBI0(90,1) 57 BRTF(92,1) 58 BRTF(92,2) 59 BRTF(92,3) 60 B8IO(92,1)
Distribution Parameters AAAAAAAAAAAAAAAARAAAAA AAAAAAAAAAA UNIFORM .15 3 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED LOGNORMAL-N 1.36 2 BOUNDED LOGNORMAL-N 1.73 UNIFORM .5 UNIFORM .36 BOUNDED NORMAL 1.5105 BOUNDED NORMAL .43 BOUNDED NORMAL .342 BOUNDED LOGNORMAL-N 3.38 1 BOUNDED LOGNORMAL-N 1.96 TRIANGULAR 6 1 UNIFORM 1173 2 UNIFORM 0 8 BOUNDED NORMAL 1.5635 BOUNDED NORMAL .41 BOUNDED NORMAL .315 BOUNDED LOGNORMAL-N 1.36 2 BOUNDED LOGNORMAL-N 1.73 CONTINUOUS LINEAR 8 0 495 .00006 .9937 .000076 UNIFORM .15 BOUNDED LOGNORMAL-N
-1.3 TRIANGULAR 0 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 TRIANGULAR 5.1 3 TRIANGULAR
.06 TRUNCATED LOGNORMAL-N 6.86 1 TRUNCATED LOGNORMAL-N 6.86 1 TRUNCATED LOGNORMAL-N 6.86 1 TRUNCATED LOGNORMAL-N 7.28 3 TRUNCATED LOGNORMAL-N 7.28 3 TRUNCATED LOGNORMAL-N 7.28 3 TRUNCATED LOGNORMAL-N 2.84 2 TRUNCATED LOGNORMAL-N 2.84 2 TRUNCATED LOGNORMAL-N 2.84 2 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N 4.84 3 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-9.21 TRUNCATED LOGNORMAL-N
-13.82 LOGNORMAL-N 3.4 1 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-9.9 TRUNCATED LOGNORMAL-N
-13.12 LOGNORMAL-N 3.4 1 TRUNCATED LOGNORMAL-N
-3.91 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-11.51 LOGNORMAL-N 3.4 1 TRUNCATED LOGNORMAL-N
-6.91 TRUNCATED LOGNORMAL-N
-9.21 1 TRUNCATED LOGNORMAL-N
-12.21 LOGNORMAL-N 4.6 I TRUNCATED LOGNORMAL-N
-6.21 TRUNCATED LOGNORMAL-N
-7.13 TRUNCATED LOGNORMAL-N
-7.82 LOGNORMAL-N 2.3 1 AAAAAAAAAAAAAAAAAAAAAAAAAAAAA
.51 2385 09.17 323 75 76 1855 0699 0705.75 265.0.973*.08 2385 09 0905'.17 323.9983 95 59 15 48 48 67.89.89.89.15.15 3.15.25 2.2S'.25*.13.13.13 9 2 5.1 9 2 7.1 9 7 7.1 9 9 1.1 9 7 6.1.827 2.3.1319 .6881.00478 3190 2.08 15.3.937 2.084.214 .646.124 .56.129 6440 3.02 15.5 30.827.1319.0349.00478 2.08 0.0001.044.6.001 84.95.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001.001 2.3.6881.594 3190 15.3.000008 1 1.0151 .000016 .1365.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999.999 f. BARTLETT Page 98 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and correlation output 10/19/11 19:06 Page: Coef 1 Title : HB sensitivity analysis.soil_..Pu241 Input File : C:\RESRADFAMILY\RESRAD\6.5\HB SOIL SAPU241.RAD Coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone Contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspi ration coefficient Irrigation Density of saturated zone saturated zone total porosity saturated zone effective porosity Saturated zone hydraulic conductivity saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic Conductivity of unsaturated zone I b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Pu-241 in Contaminated Zone Kd of Pu-241 in unsaturated zone 1 Kd of Pu-241 in Saturated zone Kd of Am-241 in Contaminated zone Kd of Am-241 in unsaturated zone 1 Kd of Am-241 in saturated zone Kd of Np-237 in Contaminated zone Kd of Np-237 in Unsaturated zone 1 Kd of Np-237 in saturated zone Kd of U-233 in Contaminated zone Kd of u-233 in unsaturated zone 1 Kd of U-233 in Saturated zone Plant transfer factor for Pu Meat transfer factor for Pu Milk transfer factor for Pu Fish transfer factor for Pu Plant transfer factor for Am Meat transfer factor for Am Milk transfer factor for Am Fish transfer factor for Am Plant transfer factor for Np Meat transfer factor for Np Milk transfer factor for Np Fish transfer factor for Np Plant transfer factor for Th Meat transfer factor for Th Milk transfer factor for Th Fish transfer factor for Th Plant transfer factor for u Meat transfer factor for u Milk transfer factor for u Fish transfer factor for u PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig Coeff Sig Coeff 2 0.58 3 0.33 2 0.75 4 0.50 16 -0.03 10 -0.10 46 0.01 14 0.02 14 -0.03 9 -0.11 55 0.00 33 -0.01 25 0.02 30 0.01 53 0.00 54 0.00 30 0.02 34 0.01 32 0.02 34 0.01 43 0.01 44 0.00 33 0.02 35 0.01 31 0.02 17 0.02 13 0.04 13 0.06 39 0.01 7 0.17 9 0.04 3 0.59 34 0.01 8 0.11 10 0.04 7 0.30 49 0.01 12 0.05 14 0.04 8 0.28 28 -0.02 32 -0.01 44 0.01 46 0.00 53 0.00 53 0.00 42 -0.01 44 0.00 51 -0.01 51 0.00 25 -0.03 26 -0.01 27 -0.02 13 -0.03 12 -0.04 12 -0.06 23 -0.02 28 -0.01 48 0.00 49 0.00 18 0.03 2 0.43 6 0.05 1 0.71 20 0.02 5 0.20 8 0.05 6 0.34 19 0.03 4 0.22 7 0.05 5 0.37 52 0.01 52 0.00 18 -0.03 19 -0.01 57 0.00 57 0.00 19 -0.03 20 -0.01 44 -0.01 45 0.00 22 -0.03 23 -0.01 5 0.06 14 0.03 51 0.00 52 0.00 9 0.05 19 0.02 15 0.04 16 0.02 40 -0.01 42 0.00 20 -0.03 21 -0.01 3 -0.38 6 -0.19 3 -0.50 9 -0.26 22 0.02 27 0.01 60 0.00 60 0.00 12 0.03 22 0.02 26 -0.03 27 -0.01 54 0.00 54 0.00 50 0.00 51 0.00 50 0.01 50 0.00 17 0.03 17 0.02 59 0.00 59 0.00 37 0.01 39 0.01 29 0.02 33 0.01 54 0.00 55 0.00 7 0.05 16 0.03 4 0.25 10 0.12 37 -0.01 38 -0.01 30 -0.02 31 -0.01 46 -0.01 47 0.00 47 0.01 48 0.00 26 -0.02 31 -0.01 16 -0.03 18 -0.02 41 -0.01 41 0.00 52 0.00 53 0.00 36 0.01 39 0.01 40 0.01 42 0.00 8 0.05 18 0.02 56 0.00 56 0.00 10 0.04 20 0.02 29 0.02 30 0.01 24 0.02 29 0.01 34 0.02 36 0.01 4 0.16 11 0.07 5 0.23 11 0.10 6 0.06 15 0.03 23 0.03 25 0.01 55 0.00 55 0.00 21 -0.03 22 -0.01 15 -0.03 24 -0.01 39 -0.01 41 0.00 1 0.86 1 0.79 1 0.84 2 0.68 21 0.02 26 0.01 11 0.04 15 0.02 32 -0.01 35 -0.01 31 -0.02 32 -0.01 60 0.00 60 0.00 43 0.01 45 0.00 47 0.01 48 0.00 41 -0.01 43 0.00 11 -0.04 21 -0.02 57 0.00 57 0.00 33 0.01 36 0.01 27 0.03 28 0.01 17 -0.03 25 -0.01 59 0.00 59 0.00 42 0.01 43 0.00 38 -0.01 40 -0.01 38 -0.01 40 -0.01 36 -0.01 38 -0.01 35 -0.01 37 -0.01 28 -0.03 29 -0.01 58 0.00 58 0.00 58 0.00 58 0.00 48 0.01 49 0.00 45 0.01 47 0.00 45 0.01 46 0.00 24 -0.03 24 -0.01 13 -0.03 23 -0.02 49 0.00 50 0.00 56 0.00 56 0.00 35 0.01 37 0.01 R-SQUARE 0.79 0.79-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
0.81 0.81 At'BARTLETT Page 99 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Sr-90 Results: RESRAD, version 6.5 T. Limit = 30 days 11/07/2011 08:22 Page Probabilistic results summary : HB sensitivity analysis.soil.sr-90 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\SR90\HB SOIL SASR90-1.RAD Table of Contents AAAAAAAAAAAAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ......................
....................
4 Dose vs Pathway: Ground Esternal ...................
5 Dose vs Pathway: Inhalation (w/o Radon) ..............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: Soil Ingestion
......................
11 Dose vs Pathway: Water Ingestion
.....................
12 Dose vS Pathway: Fish Ingestion
......................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (water Dep.) ................
16 Dose vs Pathway: Milk (water Dep.) .................
17 Cumulative Probability Summary.......................
18 summary of dose at graphical times, reptition 1.. 19 Peak of the mean dose at graphical times .............
20 correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T<1 Limit = 30 days 11/07/2011 08:22 Page Probabilistic results summary : HB sensitivity analysis.soil-sr-90 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\SR90\HB SOIL SA.SR90-1.RAD Probabilistic Input 0Number of Sample Runs: 2000 2 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21.00003 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Name AAAAAAAAAAAA.
AAAM THICKO DENSCZ TPCZ HCCZ BCZ EVAPTR RI DENSAQ TPSZ EPSZ HCSZ BSZ DWIBWT UW H(1)DENSUZ(1)TPUZ(1)EPUZ(1)HCUZ(1)BUZ(1)MLINH.8119 .00004 SHF3 SHF1 DM DROOT VW(1)WLAM RWET(2)DCACTC(1)DCACTUI(1)
DCACTS(1)BRTF(38,1)
BRTF(38,2)
BRTF(38,3)
BBIO(38,1)
Distribution Parameters vSAAAA.AAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAA UNIFORM .15 3.51 BOUNDED NORMAL 1.5635 .2385 BOUNDED NORMAL .41 .09 BOUNDED LOGNORMAL-N 1.36 2.17 BOUNDED LOGNORMAL-N 1.73 .323 UNIFORM .5 .75 UNIFORM .36 .76 BOUNDED NORMAL 1.5105 .1855 BOUNDED NORMAL .43 .0699 BOUNDED NORMAL .342 .0705 BOUNDED LOGNORMAL-N
.362 1.59 BOUNDED LOGNORMAL-N 1.96 .265 TRIANGULAR 6 10 UNIFORM 1173 1973 UNIFORM 0 8.08 BOUNDED NORMAL 1.5635 .2385 BOUNDED NORMAL .41 .09 BOUNDED NORMAL .315 .0905 BOUNDED LOGNORMAL-N 1.36 2.17 BOUNDED LOGNORMAL-N 1.73 .323 CONTINUOUS LINEAR 8 0.9495 .00006 .9937 .000076 .9983 UNIFORM .15 .95 BOUNDED LOGNORMAL-N
-1.3 .59 TRIANGULAR 0 .15 UNIFORM .3 4 TRUNCATED LOGNORMAL-N
.56 .48 TRIANGULAR 5.1 18 TRIANGULAR
.06 .67 TRUNCATED LOGNORMAL-N 3.45 2.12 TRUNCATED LOGNORMAL-N 3.45 2.12 TRUNCATED LOGNORMAL-N 3.45 2.12 TRUNCATED LOGNORMAL-N
-1.2 1 TRUNCATED LOGNORMAL-N
-4.61 .4 TRUNCATED LOGNORMAL-N
-6.21 .5 LOGNORMAL-N 4.1 1.1.AAAAkAAAAAkA.eAAAAAAAAAA
.827 2.3.1319 .6881.00478 3190 2.08 15.3.937.214.124.0106 3.02 30 2.084.646.56 195 15.5.827 2.3.1319 .6881.0349 .594.00478 3190 2.08 15.3 0 .000008 .0151.0001 1.044 1.6.001 .999 84.95.001 .999.001 .999.001 .999.001 .999.001 .999.001 .999.000016 .1365_.SA BARTLETT Page 100 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and correlation output 11/07/11 08:22 Page: Coef I Title : HB sensitivity analysis.soil
..Sr-90 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\SR90\HB SOIL SA-SR90-I.RAD Coefficients for peak of mean dose time Dose Coefficient
=Repetition
=Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspiration coefficient Irrigation Density of saturated zone saturated zone total porosity saturated zone effective porosity Saturated zone hydraulic conductivity Saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of Unsaturated zone 1 Total Porosity of Unsaturated zone 1 Effective Porosity of Unsaturated zone 1 Hydraulic conductivity of unsaturated zone 1 b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of Sr-90 in contaminated zone Kd of Sr-90 in Unsaturated zone 1 Kd of Sr-90 in Saturated zone Plant transfer factor for Sr Meat transfer factor for Sr Milk transfer factor for Sr Fish transfer factor for Sr R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig coeff sig Coeff sig Coeff Sig coeff 2 0.49 5 0.23 2 0.78 2 0.39 19 -0.02 11 -0.06 6 -0.05 6 -0.11 18 -0.02 10 -0.06 7 -0.05 7 -0.10 15 0.02 22 0.01 32 0.00 32 0.00 33 0.00 33 0.00 26 -0.01 28 0.00 12 0.03 19 0.01 24 0.01 26 0.00 22 -0.01 15 -0.02 14 0.03 13 0.04 24 -0.01 6 -0.18 29 0.00 14 0.04 32 -0.01 12 -0.05 22 0.01 10 0.07 21 -0.02 8 -0.12 28 0.00 15 -0.02 23 0.01 26 0.01 27 0.01 29 0.00 26 -0.01 28 0.00 12 -0.04 19 -0.01 20 -0.02 25 -0.01 20 -0.02 23 -0.01 27 0.01 17 0.02 11 -0.04 12 -0.04 29 0.01 30 0.00 23 0.01 25 0.00 8 -0.04 2 -0.54 16 0.03 3 0.27 10 -0.04 4 -0.24 13 0.04 5 0.18 7 -0.04 3 -0.29 19 0.02 8 0.10 28 0.01 29 0.00 8 0.04 16 0.01 13 0.03 20 0.01 35 0.00 35 0.00 9 -0.04 16 -0.02 25 -0.01 27 0.00 14 0.02 21 0.01 18 -0.02 22 -0.01 30 0.01 32 0.00 17 0.02 21 0.01 35 0.00 35 0.00 33 0.00 33 0.00 3 -0.35 7 -0.15 3 -0.58 4 -0.23 17 -0.02 24 -0.01 34 0.00 34 0.00 34 0.00 34 0.00 9 0.04 17 0.01 11 -0.03 18 -0.01 15 0.03 20 0.01 6 -0.06 14 -0.02 21 0.02 24 0.01 31 0.01 31 0.00 10 0.04 18 0.01 25 0.01 27 0.00 31 0.00 31 0.00 1 0.91 1 0.87 1 0.93 1 0.83 5 0.09 13 0.04 5 0.16 11 0.05 4 0.18 9 0.07 4 0.22 9 0.07 16 -0.02 23 -0.01 30 0.00 30 0.00 0.84 0.84 0.90 0.90-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 101 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 Tc-99 Results: RESRAD, version 6.5 T. Limit = 30 days 11/07/2011 08:24 Page Probabilistic results summary : HB sensltivity analysis.soilTc-99 File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\TC99\HB SOIL SATC99-1.RAD Table of contents A W AAAAAA.AAAAAAA Part VI: Uncertainty Analysis RESRAD Uncertainty Analysis Results Probabilistic Input .... ................................
2 Total Dose ..............................................
3 Total Risk ......................
....................
4 Dose vs Pathway: Ground Esternal ...................
5 Dose vs Pathway: Inhalation (w/o Radon) ............
6 Dose vs Pathway: Radon (water Ind.) ................
7 Dose vs Pathway: Plant (water Ind.) ................
8 Dose vs Pathway: Meat (water Ind.) ................
9 Dose vs Pathway: Milk (water Ind.) ................
10 Dose vs Pathway: soil Ingestion
....................
11 Dose vs Pathway: water Ingestion
...................
12 Dose vs Pathway: Fish Ingestion
....................
13 Dose vs Pathway: Radon (water Dep.) ................
14 Dose vs Pathway: Plant (water Dep.) ................
15 Dose vs Pathway: Meat (Water Dep.) ................
16 Dose VS Pathway: Milk (water Dep.) ................
17 Cumulative Probability summary .......................
18 summary of dose at graphical times, reptition 1 ... 19 Peak of the mean dose at graphical times .............
20 correlation and Regression coefficients (if any) ..... 21 RESRAD, version 6.5 T<,: Limit = 30 days 11/07/2011 08:24 Page Probabilistic results summary : HB sensitivity analysissoil_Tc-99 File : C:\RESRAD-FAMILY\RESRAD\6.5\USERFILES\TC99\HB SOIL SATC99-1.RAD 2 Probabilistic Input Number of sample Runs: 2000 Number Name Distri AAAAAA AAAAAAAAAAAAAAAAAAAAA A44" 1 THICKO UN]2 DENSCZ BOt 3 TPCZ BOt 4 HCCZ BOt 5 BCZ BOt 6 EVAPTR UN: 7 RI UN 8 DENSAQ BOL 9 TPSZ BOL 10 EPSZ BOt 11 HCSZ BOt 12 BSZ BOt 13 DWIBRWT TR: 14 UW UN]15 H(1) UN: 16 DENSUZ(1)
BOt 17 TPUZ(1) BOt 18 EPUZ(1) BOt 19 HCUZ(1) BOt 20 BUZ(1) BOt 21 MLINH cot.00003 .8119 .00004 .9495 22 SHF3 UN: 23 SHF1 BOC 24 DM TR: 25 DROOT UN: 26 YV(1) TR[27 WLAM TR: 28 RWET(2) TR: 29 DCACTC(1)
TRt 30 DCACTU1(1)
TRt 31 DCACTS(1)
TRt 32 BRTF(43,1)
TRt 33 BRTF(43,2)
TRt 34 BRTF(43,3)
TRt 35 BBIO(43,1)
LOt ibution AAAAAAAAAAAAAAAA IFORM UNDED NORMAL UNDED NORMAL UNDED LOGNORMAL-N UNDED LOGNORMAL-N IFORM IFORM UNDED NORMAL UNDED NORMAL UNDEO NORMAL UNDED LOGNORMAL-N UNDED LOGNORMAL-N IANGULAR IFORM IFORM UNDED NORMAL UNDED NORMAL UNDED NORMAL UNDED LOGNORMAL-N UNDED LOGNORMAL-N NTINUOUS LINEAR.00006 .9937 IFORM UNDED LOGNORMAL-N IANGULAR IFORM UNCATED LOGNORMAL-N IANGULAR IANGULAR UNCATED LOGNORMAL-N UNCATED LOGNORMAL-N UNCATED LOGNORMAL-N UNCATED LOGNORMAL-N UNCATED LOGNORMAL-N UNCATED LOGNORMAL-N GNORMAL-N Parameters AAAXAAAA.AAAAAAAAAAA.AAAAAAAAAAAAAAAA.AAAAA
.15 3.51 1.5635 .2385 .827 2.3.41 .09 .1319 .6881 1.36 2.17 .00478 3190 1.73 .323 2.08 15.3.5 .75.36 .76 1.5105 .1855 .937 2.084.43 .0699 .214 .646.342 .0705 .124 .56.362 1.59 .0106 195 1.96 .265 3.02 15.5 6 10 30 1173 1973 0 8.08 1.5635 .2385 .827 2.3.41 .09 .1319 .6881.315 .0905 .0349 .594 1.36 2.17 .00478 3190 1.73 .323 2.08 15.3 8 0 0 .000008.000076 .9983 .0001 1.15 .95-1.3 .59 .044 1 0 .15 .6.3 4.56 .48 .001 .999 5.1 18 84.06 .67 .95-.67 3.16 .001 .999-.67 3.16 .001 .999-.67 3.16 .001 .999 1.61 .9 .001 .999-9.21 .7 .001 .999-6.91 .7 .001 .999 3 1.1.0151.000016 .1365 3 BA RTLETT P 10 Page 102 Bartlett Engineering.
RESRAD Input Parameter Sensitivity Analyses -Humboldt Bay ENG-HB-001 Rev. 0 RESRAD Regression and Correlation output 11/07/11 08:25 Page: Coef 1 Title : HB sensitivity analysis.soilTc-99 Input File : C:\RESRADFAMILY\RESRAD\6.5\USERFILES\TC99\HB SOIL SA-TC99-1.RAD coefficients for peak of mean dose time Dose coefficient
=Repetition
=PCC SRC PRCC 1 1 1 SRRC 1 Description of Probabilistic variable Thickness of contaminated zone Density of contaminated zone Contaminated zone total porosity contaminated zone hydraulic conductivity contaminated zone b parameter Evapotranspi ration coefficient I rrigation Density of saturated zone Saturated zone total porosity Saturated zone effective porosity Saturated zone hydraulic conductivity Saturated zone b parameter well pump intake depth well pumping rate Thickness of unsaturated zone 1 Density of unsaturated zone 1 Total Porosity of unsaturated zone 1 Effective Porosity of unsaturated zone 1 Hydraulic conductivity of unsaturated zone b Parameter of unsaturated zone 1 Mass loading for inhalation Indoor dust filtration factor External gamma shielding factor Depth of soil mixing layer Depth of roots wet weight crop yield of fruit, grain and non-leafy vegetables weathering removal constant of all vegetation wet foliar interception fraction of leafy vegetables Kd of TC-99 in Contaminated zone Kd of TC-99 in unsaturated zone 1 Kd of TC-99 in Saturated zone Plant transfer factor for TC Meat transfer factor for TC Milk transfer factor for TC Fish transfer factor for TC R-SQUARE Sig Coeff Sig Coeff sig coeff Sig coeff 2 0.55 4 0.29 2 0.80 2 0.47 32 0.00 20 -0.01 11 -0.04 8 -0.09 34 0.00 32 0.00 16 -0.03 11 -0.07 15 0.02 19 0.01 19 -0.02 22 -0.01 21 0.01 26 0.00 33 0.00 34 0.00 5 0.05 10 0.02 6 0.06 15 0.02 17 -0.01 11 -0.02 17 0.03 14 0.03 33 0.00 14 -0.02 27 0.01 10 0.08 28 0.01 9 0.04 24 0.01 9 0.08 26 -0.01 8 -0.05 34 0.00 21 0.01 22 0.01 27 0.00 31 0.00 32 0.00 25 -0.01 30 0.00 13 -0.03 18 -0.01 30 0.00 33 0.00 23 -0.01 26 0.00 29 0.00 22 0.01 9 -0.04 13 -0.05 24 0.01 29 0.00 21 0.02 24 0.01 7 -0.04 2 -0.60 12 0.03 3 0.36 10 -0.04 5 -0.28 10 0.04 4 0.23 6 -0.04 3 -0.32 18 0.02 6 0.14 19 0.01 24 0.00 8 0.04 17 0.02 12 0.03 16 0.01 28 0.00 29 0.00 8 -0.04 12 -0.02 35 0.00 35 0.00 11 0.03 15 0.01 25 -0.01 27 0.00 27 0.01 31 0.00 20 0.02 23 0.01 31 0.00 34 0.00 29 0.00 30 0.00 3 -0.33 6 -0.16 3 -0.54 5 -0.22 20 -0.01 25 0.00 30 0.00 31 0.00 35 0.00 35 0.00 14 0.03 19 0.01 9 -0.04 13 -0.02 22 0.01 25 0.00 13 -0.02 17 -0.01 4 0.26 7 0.10 23 -0.01 28 0.00 15 0.03 20 0.01 18 0.01 23 0.00 26 0.01 28 0.00 1 0.88 1 0.83 1 0.91 1 0.77 16 0.02 21 0.01 7 0.05 16 0.02 4 0.18 7 0.08 5 0.19 12 0.07 14 -0.02 18 -0.01 32 0.00 33 0.00 0.81 0.81 0.88 0.88-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
BARTLETT Page 103 (BARTLETT ENGINEERING CALCULATION Calculation Number: ENG-HB-002 Revision Number: 0 Calculation Title: RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bav Preparer: Reviewer.I* , v ---bL~ &L/NA~J~~Date /17-/-?- 261 Date I Date ,2 ? -) c -,i, A Approval: Vi Pkes,@e~n Engineerin Corporate Project Manager Bartlett Engineering 8 Aldrin Road Plymouth, MA 02360 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 1.0 PURPOSE The purpose of this calculation is to identify input parameters used in the RESRAD-Build code to model the building occupancy scenario that have a significant impact on the calculated dose (i.e., those parameters whose values greatly influence the calculated dose; aka, "sensitive" input parameters).
The results of this calculation will support the development of building surface derived concentration guideline levels (DCGLs) for the Humboldt Bay Power Plant. This calculation is a deliverable product specified in the scope of work section in Contract No. GTO12 3500895165.
2.0 APPLICABILITY
This calculation addresses only the sensitivity analysis for input parameters for the building occupancy scenario as defined for the Humboldt Bay Power Plant.
3.0 REFERENCES
3.1 Procedure ENG-AP-02, Verification of Software Operability 3.2 User's Manual for RESRAD-Build Version 3.0, June 2003 (ANL/EAD/03-1) 3.3 NUREG/CR-5512, Residual Radioactive Contamination from Decommissioning
- Volume 1: Technical Basis for Translating Contamination Levels to Annual Total Effective Dose Equivalent, Oct. 1992 (PNL-7994)" Volume 3: Parameter Analysis, Draft Report for Comment, Oct. 1999 (SAND99-2148) 3.4 NUREG/CR-6697, Development of Probabilistic RESRAD 6.0 and RESRAD-Build 3.0 Computer Codes, Nov. 2000 (ANL/EAD/TM-98) 3.5 NUREG/CR-6755, Technical Basis for Calculating Radiation Doses for the Building Occupancy Scenario Using the Probabilistic RESRAD-Build 3.0 Code, Feb. 2002 (ANL/EAD/TM/02-1) 3.6 NUREG-1 727, NMSS Decommissioning Standard Review Plan, Sept. 2000 3.7 NUREG/CR-6676, Probabilistic Dose Analysis Using Parameter Distributions Developed for RESRAD and RESRAD-Build Codes, May 2000 (ANL/EAD/TM-89) 3.8 NUREG/CR-6692, Probabilistic Modules for the RESRAD and RESRAD-Build Computer Codes, Nov. 2000 (ANL/EAD/TM-91) 4.0 METHOD OF CALCULATION The operability of the RESRAD-Build code version 3.5 was verified on each computer use for code executions in accordance with the Bartlett Engineering procedure ENG-AP-02, Verification of Software Operability
[ref. 3.1]. The RESRAD-Build user's manual [ref. 3.2] provided guidance for code operation.
%BARTLETT Page 2 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 The sensitivity analysis for the building scenario input parameters was performed using Version 3.5 of the RESRAD-Build computer code, which was developed by Argonne National Laboratory under the sponsorship of the U.S. Department of Energy and other federal agencies.
The code requires input for numerous parameters in order to calculate the dose via various exposure pathways to a hypothetical individual working in a laboratory room contaminated with radioactive material.
The probabilistic modules in RESRAD-Build permit the user to perform a sensitivity analysis to identify those parameters that have the greatest impact on dose. In addition, the probabilistic modules allow the evaluation of dose as a function of parameter distributions.
Verification of the RESRAD-Build code is documented in the RESRAD-Build user's manual [ref. 3.2] and testing for the probabilistic codes is discussed in NUREG/CR-6697
[ref. 3.4].The RESRAD-Build computer code is a pathway analysis model designed to evaluate the potential radiological dose incurred by an individual who works in a building contaminated with radioactive material.
The exposure scenario modeled in this calculation is the building occupancy scenario, which provides estimates of human radiation exposures to residual radioactivity on surfaces inside standing buildings and permits the determination of DCGLs for building surfaces.
The exposure pathways considered are:* direct external exposure from the source (i.e., radioactive material deposited on the floor, walls, and ceiling),* external exposure from deposited material,* external exposure due to air submersion,* exposure due to inhalation of airborne radioactive material, and* ingestion of radioactive material directly from the sources and material deposited on the surfaces.The approach taken in this calculation consists of two primary phases: the selection of input parameter values and performing RESRAD-Build runs. The first phase involves classifying and prioritizing the RESRAD-Build input parameters.
The selection process is based on guidance provided in NUREG/CR-6676
[ref 3.7], NUREG/CR-6697
[ref. 3.4], NUREG/CR-6692
[ref. 3.8], and NUREG/CR-6755
[ref. 3.5]. Figure 1 provides a flow diagram for the parameter selection process.Classification, prioritization, and treatment of input parameters:
Parameters were classified as behavioral, metabolic, or physical parameters consistent to the classifications found in NUREG/CR-6697
[ref. 3.4]. Behavioral parameters depend on the behavior of the receptor and the scenario definition.
Metabolic parameters are independent of the defined scenario, and represent the metabolic characteristics of the receptor.
Physical parameters are those parameters that would not change if the receptor changed.Following the classification process, parameters were assigned priority rankings.
Priority 1 parameters are high priority; Priority 2 parameters are medium priority; and Priority 3 parameters are low priority.
[ref. 3.4] provides prioritization rankings for input parameters.
Those rankings were adopted in this calculation.
The priority of a given parameter is based on: " the relevance of the parameter in dose calculations," the variability of the dose because of changes in the parameter
- value, Page 3 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0" the parameter type, and" the availability of parameter-specific data.Input parameters were treated as either deterministic (a single value is assigned) or stochastic (a probability distribution is assigned).
Treatment depended on parameter type, availability of site-specific data, and the relevance of the parameter in the dose calculations." Behavioral and metabolic parameters were treated as deterministic and the assigned values were from NUREG/CR05512, volume 3 [ref. 3.3], NUREG/CR-6697 [ref. 3.4], NUREG/CR-6755
[ref. 3.5], or the RESRAD-Build User's Manual[ref. 3.2]. Parameters for which site-specific data are available were treated as deterministic." Physical parameters for which site-specific data are unavailable were assigned values based on priority.
Priority 1 and 2 physical parameters were treated stochastic and assigned probability distributions from NREG/CR-5512, volume 3[ref. 3.3], NUREG/CR-6697
[ref. 3.4], NUREG/CR-6755
[ref. 3.5], or assigned a deterministic value from NUREG/CR-5512, volume 3 [ref. 3.3], NUREG/CR-6697
[ref.3.4], or NUREG/CR-6755
[ref. 3.5]. Priority 1 and 2 physical parameters for which site-specific data are available were treated as deterministic.
Priority 3 physical parameters were treated as deterministic and were assigned values from NUREG/CR-5512, volume 3 [ref. 3.3], NUREG/CR-6697
[ref.3.4], NUREG/CR-6755
[ref. 3.5], or the RESRAD-Build User's Manual [ref 3.2].Following the parameter selection process, RESRAD-Build input files were developed based on the results of the parameter selection process and a parameter sensitivity analysis was performed for each radionuclide of concern. Input correlations were applied based on guidance in NUREG/CR-6676
[ref. 3.7].The RESRAD-Build Probabilistic Output Report provides regression and correlation coefficients for the average doses at the user defined evaluation times. The Partial Rank Correlation Coefficient (PRCC) has been used to identify sensitive parameters with the limit set at 0.1.NUREG/CR-6692
[ref. 3.8] and NUREG/CR-6697
[ref. 3.4] recommend the use of the PRCC for cases where a non-linear relationship and widely disparate scales exists between the input and output. The guidance further recommends the use of the PRCC if strong correlations exist between input parameters.
The criterion for sensitivity used in this calculation was a PRCC value with an absolute value greater than 0.1. In addition, PRCC values that are greater than zero (positive value) or less than zero (negative value) identify whether sensitive parameters are positively or negatively correlated to dose, respectively.
Therefore, 7 5 th values were determined for sensitive parameters that had positive PRCC values and 2 5 th values were determined for sensitive parameters that had negative PRCC values. These 2 5 th and 7 5 th percentile values are proposed as reasonably conservative input for the DCGL calculation for building surfaces.The 2 5 th and 7 5 th percentile values were obtained using the following method: 1. Open the RESRAD-Build
"*.buo" file generated during from the sensitivity run using the "View Interactive Output" button on the RESRAD-Build navigator.
- 2. Click the "Results" tab in the interactive output window.3. Click on the "Graphics" tab.4. Select "input vector" by scrolling through the choices under the "Primary Object" prompt.IU BARTLETT Page 4 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 5. Select the desired parameter by scrolling through the choices under the "Input Parameter" prompt.6. Right click on the cumulative probability graph and select "Edit Chart Data." 7. Scroll down until the desired fraction (i.e., 0.25 or 0.75) is visible in column C2.The corresponding value in column C1 is the percentile value.5.0 ASSUMPTIONS AND INPUT 5.1 Assumptions Building Scenario description:
The RESRAD-Build code v3.5 was used to model (through use of input parameter values) the building occupancy scenario defined in NUREG/CR-5512, volume 1 [ref. 3.5]. Modeling of this scenario provides an estimate of human radiation exposure to residual radioactivity on surfaces inside standing buildings and permits the determination of DCGLs for building surfaces.
Five exposure pathways are assumed active: (i) direct external exposure from the source (i.e., radioactive material deposited on the floor, walls, and ceiling), (ii) external exposure from deposited material, (iii) external exposure due to air submersion, (iv) exposure due to inhalation of airborne radioactive material, and (v) ingestion of radioactive material directly from the sources and material deposited on the surfaces.The following radionuclides are assumed the only radionuclides-of-concern (ROCs) for the Humboldt Bay site: Am-241, C-14, Cm243/244/245/246, Co-60, Cs-137, Eu-152, Eu-154, H-3, 1-129, Nb-94, Ni-59, Ni-63, Np-237, Pu-238/239/240/241, Sr-90, and Tc-99.The hypothetical worker is assumed to perform activities inside an office room for a full occupational year.Figure 2 provides an illustration of the General Office in the Administration Building, which was selected as representative room for the Humboldt Bay site. The General Office was selected because it represents the type of room that would be occupied by full-time employees after license termination.
For modeling purposes, a rectangular room (18.5 ft by 27.8 ft) with 8.2 ft walls was assumed. This modeled room included 6 area sources (i.e. floor, 4 walls, and ceiling).5.2 Input Table 1 summarizes the classification, prioritization, values and their bases for all input parameters.
Values from NUREG/CR-5512, volume 3 [ref. 3.3], NUEG/CR-6697
[ref. 3.4], NUREG/CR-6755
[ref. 3.5], or NUREG-1727
[ref.3.6]
were assigned for the following scenario-defined parameters:
- Exposure duration:
365.25 d" Indoor fraction:
0.267 (= 97.5 work d/y divided by 365.25 d/y)" Inhalation rate: 33.6 m 3/d (=1.4 m 3/h
- 24 h/d)" Receptor location (center of room, x, y ,z coordinates):
2.82m, 4.24m, 1.0m" Indirect ingestion rate: 1.1 E-04 m 2/h" Air fraction:
0.07 for all nuclides except H-3; 1.0 for H-3 (c. BARTLETT Page 5 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 0 Removable fraction:
0.1 (all ROCs)Site-specific information (i.e., room dimensions) was used as the basis in calculations (see section 6.0) of values for the following parameters:
- Room area* Room height* Receptor location* Location of center of source* Source length* Source area Statistical distributions from NUREG/CR-6755
[ref. 3.5] provided input for: " deposition velocity,* air exchange rate for room,* resuspension rate, and* time for source removal.An input correlation of 0.9 between the deposition velocity and the resuspension rate was applied based on guidance in NUREG/CR-6676
[ref. 3.7]. In addition, because the sources are assumed constructed of the same material and subject to the same environment, an input correlation of 0.9 was applied for the time for source removal between sources.6.0 CALCULATIONS AND RESULTS 6.1 Room dimensions:
dimensions of a representative room are 18.5ft by 27.8ft by 8.17ft (5.64m by 8.47m by 2.49m) shown in Figure 2. Table 2 shows the unit conversion for the room dimensions and the area associated with each source (i.e., floor and walls).6.2 Direct ingestion rate (h 1) is calculated from the indirect ingestion rate from NUREG/CR-6755
[ref. 3.5], 1.1 E-04 m 2/h, and the total source area (using the floor and wall areas), 118.03 M 2 , as follows: (1.1 E-04 m 2/h)/(118.036 M 2) = 9.32E-7 h 1 6.3 Using the dimensions for the designated north and east walls in Figure 2 (18.5 ft and 27.8 ft, respectively) and a wall height of 8.17 ft (Figure 2), the locations of the centers of the sources were determined as the mid-point on the X, Y, and Z-axes.Table 3 presents the locations for the center of the sources.6.4 RESRAD-Build v3.5 results: Table 1 summarizes the input used in each RESRAD-Build code execution.
Appendix A provides copies of selected pages from the RESRAD-Build uncertainty reports.6.4.1 Each of the radionuclides listed in section 5.1 was evaluated in separate code executions.
UBARTLETT Page 6 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 6.5 PRCC values were reviewed against the sensitivity criterion (i.e., I PRCCI >0.1).Deposition velocity, the resuspension rate, and the time for source removal were identified as sensitive input parameters for all ROCs. Table 4 summarizes the sensitive parameters by radionuclide.
6.6 The 2 5 th and 7 5 th percentile values for sensitive input parameters were obtained through use of the interactive output in the RESRAD-Build code. Table 5 presents these values.6.6.1 A comparison of the 2 5 th and 7 5 th percentiles values obtained from the RESRAD-Build code to the distributions given in NUREG/CR-6697
[ref.3.4] indicates that the 2 5 th and 7 5 th percentile values are reasonably conservative.
Table 5 includes this comparison.
7.0 CONCLUSION
7.1 Deposition velocity, resuspension rate, time for source removal, and building air exchange rate are sensitive input parameters to the building occupancy scenario for each of the ROCs.7.2 The 2 5 th and 7 5 th percentile values for sensitive input parameters have been determined from the parameter distributions and are reasonably conservative when compared with the distributions from NUREG/CR-6697
[ref. 3.4].7.3 The 2 5 th and 7 5 th percentile values for sensitive input parameters are recommended for use as input for building surfaces DCGLs.(IC 8A RTL ETT Page 7 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 1 Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Type' Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 Exposure Duration (d) B 3 D 365.25 NUREG/CR-5512, NRe NR NR NR Exposure__Duration
__(d)_B_3 D_365.25Vol.3,section 5.2.1 Indoor Fraction B 2 D 0.267 NUREG/CR-5512, NR NR NR NR Vol.3,section 5.2.2.4 Evaluation Time (y) P 3 D 1 or multiple (e.g., T=1 corresponds to NR NR NR NR 1,10, 50, 100) dose over the 1s' year NR NR N Number of Rooms P 3 D 1 NUREG/CR-5512 NR NR NR NR NUREG/CR-6755, Section 3.3;Deposition Velocity (m/s) P 2 S Loguniform ReGtoR 6697 2.70E-06 2.70E-03 NUREG/CR-6697, Att.C, section 7.5 Resuspension Rate (s1 P 1 S Loguniform NUREG/CR-6755, 2.5E-11 1.3E-5 Section 3.1 Air Exchange Rate for Room B 2 Truncated NUREG/CR-6755, 0.4187 0.88 0.001 0.999 A c R r B 2 SLognormal Section 3.2 Site-specific data for Room Area (M) 2 D 47.77 representative room NR NR NR NR (General Office Building)Site-specific data for Room Height (m) P 2 D 2.49 representative room NR NR NR NR (General Office Building)Time Fraction B 3 D 1 NUREG/CR-5512 NR NR NR NR Inhalation Rate M 2 D 33.6 NUREG/CR-5512, vol. NR NR NR NR Inhalat e(m 3/d) M3, section 5.3.4 Indirect Ingestion Rate (m 2/h) B 2 D 0.0001 NUREG/CR-5512, NR NR NR NR vol.3, section 5.2.3.3 NUREG/CR-5512; Receptor Location (x-, y-, z-axis) B 3 D 4.24, 2.82,1.0 center of room based NR NR NR NR on site-specific room dimensions Shielding Thickness (cm) 2 D 0 Site-specific model-no NR NR NR NR ShieldingThickness__cm)__
shielding assumed I I I BARTLETT Page 8 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 1 Treat- Value or Value/Distribution Parameter Type' Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 Shielding Density (glcm 3 P 1 D N/A Site-specific model-no ShieldingDensity_(g/cm3)_P_1_DN/A shielding assumed NR NR NR NR Shielding Material P 3 D N/A Site-specific model-no NR NR NR NR ShildngMaeril__3D_/Ashielding assumed Site-specific modeling Number of Sources P 3 D 6 (includes floor, 4 walls, and ceiling)External Dose Conversion Factor, RESRAD-Build FGR12 (mrem/y per pCi/cm2) M 3 D Dose Conversion (mrem/y pe p~i/cm 2)Library____
RESRAD-Build FGR12 Air Submersion Dose Conversion M 3 D Dose Conversion Factor, (mrem/y per pCi/in 3) Library I RESRAD-Build FGRi 1 Inhalation Dose Conversion Factor, M 3 D Dose Conversion (mrem/pCi)
Library RESRAD-Build FGRi 1 Ingestionl Dose Conversion Factor, M 3 D Dose Conversion (mrem/pCi)
Library Source 1: Floor Type P 3 D area NUREG/CR-5512 Direction P 3 D Z NUREG/CR-5512 site-specific data based Location of Center of Source: x,y,z (m) P 3 D 4.24, 2.82, 0.0 on dimensions for representative room 8.47 site-specific data based Source length X-axis (m) P 2 D on dimensions for representative room 5.64 site-specific data based Source length Y-axis (m) P 2 D on dimensions for representative room Area (M 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D1.0 NUREG/CR-6697, Att.C Section 8.6 4C) AR TL E TT Page 9 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 1 Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Type Priority' mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 NUREG/CR-6697, Att.Air Fraction (all nuclides other than H-3) B 2 D 0.07 C Section 8.6 Direct Ingestion (h-1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P 1 D 0.1 NUREG/CR-6755, section 3.5 'NUREG/CR-6755, Time for Source Removal (d) P 2 5 Triangular Section 3.6; 1,000 100,000 10,000 NUREG/CR-6697, Att.C, 8.8 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 Source 2: North Wall Type P 3 D Area NUREG/CR-5512 Direction P 3 D Y NUREG/CR-5512 site-specific data based Location of Center of Source: x,y,z (m) P 3 D 4.24, 0.0,1.25 on dimensions for representative room 8.47 site-specific data based Source length X-axis (m) P 2 D on dimensions for representative room 2.49 site-specific data based Source length Z-axis (m) P 2 D on dimensions for representative room Area (m 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att.C Section 8.6 NUREG/CR-6697, Att.Air Fraction (all nuclides other than H-3) B 2 D 0.07 C Section 8.6 Direct Ingestion (h-1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction PD 0.1 NUREG/CR-6755, oP 1 D section 3.5 B ART LETT Page 10 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 1 InDut Parameter Values for Sensitivitv Analvsis Treat- Value or Value/Distribution Parameter Typea Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 NUREG/CR-6755, Time for Source Removal (d) P 2 5 Triangular Section 3.6; 1,000 100,000 10,000 NUREG/CR-6697, Att.C, 8.8 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 Source 3: East Wall Type P 3 D Area NUREG/CR-5512 Direction P 3 D X NUREG/CR-5512 site-specific data based Location of Center of Source: x,y,z (m) P 3 D 0.00, 2.82, 1.25 on dimensions for representative room site-specific data based Source length Y-axis (m) P 2 D 5.64 on dimensions for representative room site-specific data based Source length Z-axis (m) P 2 D 2.49 on dimensions for representative room Area (m 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att.C, Section 8.6 NUREG/CR-6697, Att.Air Fraction (all nuclides other than H-3) B 2 D 0.07 C, Section 8.6 Att.Direct Ingestion (h') B 2 D 9.32E-7 NUREG/CR6755, A.3.3 NUREG-1727, Table Removable Fraction P 1 D 0.1 C.7.1; NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 5 Triangular Section 3.6; 1,000 100,000 10,000 NUREG/CR-6697, Att.C, 8.8 1 1 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 -Source 4: South Wall Type P 3 I D area NUREG/CR-5512 T Direction P 3 D Y NUREG/CR-5512 V BARTLETT Page 11 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 1 InDut Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Typea Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 site-specific data based Location of Center of Source: x,y,z (m) P 3 D 4.24, 5.64, 1.25 on dimensions for representative room site-specific data based Source length X-axis (m) P 2 D 8.47 on dimensions for representative room site-specific data based Source length Z-axis (m) P 2 D 2.49 on dimensions for representative room Area (M 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att.C Section 8.6 NUREG/CR-6697, Att.Air Fraction (all nuclides other than H-3) B 2 D 0.07 C Section 8.6 Direct Ingestion (h-1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 Removable Fraction P 1 D 0.1 NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 5 Triangular Section 3.6; 1,000 100,000 10,000 NUREG/CR-6697, Att.C, 8.8 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 Source 5: West Wall Type P 3 D area NUREG/CR-5512 Direction P 3 D X NUREG/CR-5512 site-specific data based Location of Center of Source: x,y,z (m) P 3 D 8.47, 2.82, 1.25 on dimensions for representative room site-specific data based Source length Y-axis (m) P 2 D 5.64 on dimensions for representative room site-specific data based Source length Z-axis (m) P 2 D 2.49 on dimensions for representative room 3 BARTLETT Page 12 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 1 Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Type' Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 Area (M 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att.C Section 8.6 Air Fraction (all nuclides other than H-3) B 2 D 0.07 NUREG/CR-6697, Att.C Section 8.6 Direct Ingestion (h-1) B. 2 D 9.32E-7 NUREG/CR6755, A.3.3 NUREG-1 727, Table Removable Fraction P 1 D 0.1 C.7.1; NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 5 Triangular Section 3.6; 1,000 100,000 10,000 NUREG/CR-6697, Att.C, 8.8 1 1 1 Radionuclide Concentration (pCi/m 2) P 2 D 1 .0 1 Source 6: Ceiling Type P 3 D area NUREG/CR-5512 Direction P 3 D Z NUREG/CR-5512 site-specific data based Location of Center of Source: x,y,z (m) P 3 D 4.24, 2.82, 2.49 on dimensions for representative room site-specific data based Source length X-axis (m) P 2 D 8.47 on dimensions for representative room site-specific data based Source length Y-axis (m) P 2 D 5.64 on dimensions for representative room Area (M 2) P 2 D --- Source length inputs used Air Fraction for H-3 B 2 D 1.0 NUREG/CR-6697, Att.C Section 8.6 Air Fraction (all nuclides other than H-3) B 2 D 0.07 NUREG/CR-6697, Att.C Section 8.6 Direct Ingestion (h1) B 2 D 9.32E-7 NUREG/CR6755, A.3.3 (N BARTLETT Page 13 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 1 Input Parameter Values for Sensitivity Analysis Treat- Value or Value/Distribution Parameter Typea Priorityb mentc Distribution Reference Source Distribution's Statistical Parametersd 1 2 3 4 NUREG-1 727, Table Removable Fraction P 1 D 0.1 C.7.1; NUREG/CR-6755, section 3.5 NUREG/CR-6755, Time for Source Removal (d) P 2 5 Triangular Section 3.6; 1,000 100,000 10,000 NUREG/CR-6697, Att.C, 8.8 Radionuclide Concentration (pCi/m 2) P 2 D 1.0 -Table 1 notes: a P = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)b 1 = high-priority parameter, 2 = medium-priority parameter, 3 = low-priority parameter (see NUREG/CR-6697, Attachment B, Table 4.1)c D = deterministic, S = stochastic d Distribution Statistical Parameters:
Loguniform:
1= minimum, 2 = maximum Triangular:
1 = minimum, 2 = maximum, 3 = most likely e NR = none recommended Additional Sensitivity Analysis Data: Random Seed = 1000 Number of observations
= 300 Number of repetitions
= 1 Input Rank Correlation Coefficients:
Resuspension Rate and Deposition Velocity = 0.9 Time for source removal (correlation set between sources) = 0.9 0'.SAFTLETT Page 14 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 2: Representative Room Dimensions Recorded Source Dimension No. Description (ft)a mb m 2 1 floor N/A 47.77 2 north wall 27.8 8.47 21.09 3 east wall 18.5 5.64 14.04 4 south wall 27.8 8.47 21.09 5 west wall 18.5 5.64 14.04 wall height 8.17 2.49 total source area: 118.03 a Recorded length and width dimensions for representative room (see Figure 2).b Feet to meter conversion factor: lft = 0.3048m.Table 3: Location of Center of Sources Source Source Location of Center of Source (m)No. Description X-axis Y-axis Z-axis 1 floor 4.24 2.82 0.00 2 north wall 4.24 0.00 1.25 3 east wall 0.00 2.82 1.25 4 south wall 4.24 5.64 1.25 5 west wall 8.47 2.82 1.25 6 ceiling 4.24 2.82 2.49 P)B ARTLETT Page 15 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 4: Sensitive RESRAD-Build Input Parameters by Radionuclide Radionuclide LAMBDATa RFOb (source #) UDc (source #) DKSUSd (source #)Am-241 -0.96 (1) -0.71 (1,4) NSe (1,2, 3, 4, 5, NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2, 6) 6)-0.69 (3, 5)C-14 -0.64 (1, 3, 6) 0.43(1) 0.27 (1,2, 6) -0.50 (1, 2, 3, 6)-0.62 (2, 4) 0.39 (2) 0.28 (3, 5) -0.51 (4)-0.63 (5) 0.36 (3) 0.30 (4) -0.52 (5)0.46 (4)0.41 (5)0.31 (6)Cm-243 -0.96(1) -0.71 (1,2, 4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.69 (3, 5, 6)Cm-244 -0.96(1) -0.71 (1,2, 4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.69 (3, 5, 6)Cm-245 -0.96 (1) -0.71 (1,4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5)-0.97 (2, 3, 4, 5, 6) -0.70 (2) -0.11 (6)-0.68 (5)-0.69 (3, 6)Cm-246 -0.96 (1) -0.71 (1,4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5)-0.97 (2, 3, 4, 5, 6) -0.70 (2, 6) -0.11 (6)-0.69 (3)-0.68 (5)Co-60 -0.45 (1) 0.56(1) NS (1,2, 3) NS (1,2, 3)-0.73 (2) 0.41 (2) 0.13 (4) -0.14 (4)-0.71 (3) 0.23 (3) 0.11 (5) -0.13 (5)-0.76 (4) 0.46 (4) 0.12 (6) -0.50 (6)-0.72 (5) 0.35 (5)-0.37 (6) 0.73 (6)Cs-137 -0.46(1) 0.69(1) 0.36 (1) -0.44(1)-0.40 (2) 0.57 (2) 0.23 (2) -0.27 (2)-0.59 (3) 0.66 (3) 0.41 (3) -0.48 (3)-0.41 (4) 0.54 (4) 0.27 (4) -0.33 (4)-0.57 (5) 0.69 (5) 0.37 (5) -0.44 (5)-0.52 (6) 0.63 (6) 0.35 (6) -0.42 (6)Eu-1 52 -0.80 (1) 0.49 (1) NS (1,2, 4, 6) -0.12 (1)-0.83 (2) 0.13 (2) 0.23 (3) -0.13 (2)-0.94 (3, 5) NS (3, 5) 0.19 (5) -0.24 (3)-0.83 (4) -0.43 (4) NS (4, 6)-0.84 (6) 0.44 (6) -0.22 (5)Eu-1 54 -0.83 (1) 0.48(1) NS (1,2, 4, 6) NS (1,2, 4, 6)-0.87 (2, 4, 6) 0.12 (2) 0.19 (3) -0.20 (3)-0.95 (3, 5) NS (3,5) 0.15 (5) -0.16 (5)0.11 (4)0.33 (6)(C)BARTLETT Page 16 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 4: Sensitive RESRAD-Build Input Parameters by Radionuclide H-3 -0.94(1,6)
-0.45 (1) 0.48 (1) -0.53 (1,4, 5)-0.95 (2, 3, 4, 5) -0.49 (2) 0.51 (2) -0.57 (2)-0.41 (3) 0.45 (3) -0.52 (3)-0.55 (4) 0.46 (4) -0.55 (6)-0.42 (5) 0.47 (5)-0.47 (6) 0.49 (6)1-129 -0.58(1,3) 0.48(1) 0.29(1,6)
-0.54 (1,3, 4, 5, 6)-0.54 (2) 0.43 (2, 5) 0.28 (2) -0.52 (2)-0.56 (4, 5) 0.39 (3) 0.30 (3, 5)-0.57 (6) 0.49 (4) 0.31 (4)0.37 (6)Nb-94 -0.76 (1) 0.30 (1) 0.19 (1) -0.31 (1)-0.90 (2, 4) NS (2, 4) 0.30 (2) -0.44 (2)-0.94 (3, 5) -0.12 (3) 0.33 (3) -0.49 (3)-0.88 (6) -0.20 (5) 0.26 (4) -0.40 (4)0.16 (6) 0.32 (5) -0.48 (5)0.20 (6) -0.36 (6)Ni-59 -0.95 (1, 2, 3, 4, 5, -0.27 (1) 0.27 (1,4, 5, 6) -0.37 (1,4)6) -0.28 (2, 4, 5) 0.29 (2) -0.41 (2)-0.22 (3) 0.26 (3) -0.38 (3)-0.35 (6) -0.39 (5, 6)Ni-63 -0.95 (1, 2, 4, 5, 6) -0.16 (1) 0.26(1,6)
-0.28(1,5)
-0.96 (3) -0.21 (2) 0.29 (2) -0.33 (2)-0.14 (3) 0.27 (3) -0.30 (3)-0.22 (4) 0.25 (4, 5) -0.29 (4, 5)-0.18 (5) -0.31 (6)-0.25 (6)Np-237 -0.96 (1) -0.71 (1,4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2)-0.69 (3, 5, 6)Pu-238 -0.96 (1) -0.71 (1) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2)-0.69 (3, 5, 6)-0.72 (4)Pu-239 -0.96(1) -0.71 (1,4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2, 6)-0.69 (3)-0.68 (5)Pu-240 -0.96(1) -0.71 (1,4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.70 (2, 6)-0.69 (3)-0.68 (5)Pu-241 -0.96 (1) -0.71 (1,2, 4) NS (1,2, 3, 4, 5, 6) NS (1,2, 3, 4, 5, 6)-0.97 (2, 3, 4, 5, 6) -0.69 (3, 5, 6)C, BARTLETT Page 17 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 4: Sensitive RESRAD-Build Input Parameters by Radionuclide Sr-90 -0.95 (1, 2, 3, 4, 5, NS (1,2, 3, 4, 5, 6) 0.22 (1) -0.22 (1, 4, 6)6) 0.23 (2) -0.26 (2)0.24 (3) -0.25 (3)0.19(4) -0.23(5)0.21 (5)0.18(6)Tc-99 -0.90 (1, 3, 4, 5, 6) NS (1, 2, 6) 0.27 (1,4) -0.45 (1,5)-0.91 (2) 0.15 (3) 0.29 (2) -0.46 (2)0.13 (4) 0.28 (3, 5) -0.44 (3, 4)0.11 (5) 0.25 (6) -0.43 (6)a LAMBDAT = building air exchange rate b RFO(#) = source removal time (for source number)c UD = deposition velocity d DKSUS = resuspension rate e NS = not sensitive C, BARTLETT Page 18 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Table 5: 2 5 1h and 7 5 th Percentile Values for Sensitive Parameters Note: The 2 5 th and 7 5 th percentile values are the same for a given number of observations.
Therefore, because 300 observations were used in the sensitivity analysis for each radionuclide, the 2 5 th and 7 5 1h percentile values are the same for each radionuclide.
Percentile Value NUREG/CR-6697
[ref. 3.4] Distribution Parametera 2 5 th 5 0 th 7 5 th Minimum Median Maximum UD 1.51790E-05 8.52364E-05 4.78217E-04 2.7xl 0-6 8.5xl 0-5 2.7xl 0-3 DKSUS 6.70403E-10 1.79444E-08 4.87543E-07 2.8x101° 4.9x10.8 1.4x10-5 RFO(1) 1.82493E+04 3.30569E+04 5.26952E+04 RFO(2) 1.82301E+04 3.32029E+04 5.27188E+04 RFO(3) 1.81302E+04 3.30489E+04 5.27756E+04 1,000 10,000b 100,000 RFO(4) 1.82071E+04 3.30410E+04 5.27269E+04 RFO(5) 1.80948E+04 3.31085E+04 5.27132E+04 RFO(6) 1.82466E+04 3.30500E+04 5.26222E+04 LAMBDAT 8.35789E-01 1.51522E+00 2.72646E+00 1.4x10-1 1.5x10 0 1.6x10 1 a RFO(#) = source removal time (for source number), UD = deposition velocity, DKSUS =resuspension rate, and LAMBDAT = building air exchange rate.b Most likely value.C-1BARTLETT Page 19 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Figure 1: Parameter Selection Process Classify as Behavioral, Metabolic or Physical Assign value from Assign value from NUREG/CR-5512, Vol.3, NUREG/CR-5512, Vol.3, NUREG/CR 6697 NUREG/CR 6697 Input parameter Input parameter valuevalue Assign site-specific value or distribution, or 75h percentile
+I Assign site-specific value or distribution, or 2 5 a percentile I I nput parameter Clplp-aranterD (B ARTLETT Page 20 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Figure 2: Dimensions of Representative Room (Ir'BEARTLETT Page 21 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Appendix A Selected Pages from RESRAD-Build Uncertainty Reports rEBA RTLETT Page 22 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Arn-241 Results:** RESRAD-BUILO Probabilistic Output 3.50 12/02/11 22:35:48 Page: Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRADFamily\BUILD\3.5\HBLSA-Am241.bld 1 **Probabilistic Output Table of Contents Table of Contents ...........................
1 Probabilistic Input ........................
2 statistics for time = O.OOE+00 yr ..... 3 statistics for time = 1.OOE+O0 yr ..... 16 Statistics for time = 5.00E+01 yr ..... 29 statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.00E+02 yr ..... 55 statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation output ........ 81*k RESRAD-BUILD Probabilistic Output 3.50 12/02/11 22:35:48 Page: Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRADFamily\BUILD\3.5\HRBSA-Am241.bld 2 *1 Probabilistic Input Number of Sample Runs: 300 Number Name 1 UD 2 DKSUS 3 RFO( 1, 1)4 RFO( 2, 1)5 RFO( 3, 1)6 RF0( 4, 1)7 RFO( 5, 1)8 RFO( 6, 1)9 LAMBDAT-------------------------------Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999------------------------------
-RESRAD-BUILD Probabilistic output 3.50 12/02/11 22:35:48 Page: Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRADFamily\BUILD\3.5\HBRSA-Am241.bld Evaluation Time: 0.OOOOOOOOE+O0 years 3 **Statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 3.83E-05 Maximum 2.30E-04 Average 4.58E-05 Std.Dev 1.54E-05 Source 2 1. 68E-05 8.01E-05 2.02E-05 6. 54E-06 1. 12E-05 7. 58E-05 1. 35E-05 5.16E-06 1. 68E-05 8.14E-05 2.01E-05 6. 24E-06 5 6 1.12E-05 3.82E-05 4.77E-05 2.46E-04 1.34E-05 4.58E-05 4.29E-06 1.56E-05 Total 1. 32E-04 7. 53E-04 1. 59E-04 5.13E-05*Total *minimum 3.83F-05 maximum- 2.30E-04 Average 4.5SE-OS Std.oev 1.54E-05 1. 68E-05 8. 01E-05 2.02E-05 6. 54E-06 1. 12E-05 7.58E-05 1. 35E-05 5.16E-06 1. 68E-05 8. 14E-05 2.0I-05 6. 24E-06 1.12E-05 4.77E-05 1. 34E-05 4.29E-06 3. 82E-05 2.46E-04 4. 58E-OS 1. 56E-05 1. 32E-04 7. 53E-04 1. 59E-04 5.13E-05 CBARTLETT Page 23 CD BARTLETT Page 23 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Probabilistic Output 3.50 12/02/11 22:35:48 Page: 16 *k Title : Humboldt Bay sensitivity analysis.Am241 Input File : C:\RESRAD_Family\BUILD\3.5\HBSA-Am241.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Source 1 2 Receptor Minimum Maximum Average std.Dev 3. 75E-05 2. 28E-04 4. 51E-05 1. 50E-05 1. 65E-05 7. 92E-05 1. 99E-05 6. 34E-06 1.08E-05 7.49E-05 1. 33E-05 5.04E-06 4 1. 64E-05 8.05E-05 1. 98E-05 6.05E-06 1.09E-05 4. 56E-05 1. 32E-05 4.14E-06 3.71E-05 2.43E-04 4. 51E-05 1. 52E-05 Total 1. 29E-04 7.45E-04 1. 56E-04 5. OE-05* Total *Minimum Maximum Average std.Dev 3. 75E-05 2. 28E-04 4. 51E-05 1. 50E-05 1. 65E-05 7.92E-05 1. 99E-05 6. 34E-06 1.08E-05 7.49E-05 1. 33E-05 5.04E-06 1. 64E-05 8.05E-05 1. 98E-05 6.05E-06 1.09E-05 4. 56E-05 1. 32E-05 4. 14E-06 3.71E-05 2.43E-04 4. SiE-05 1. 52E-05 1. 29E-04 7. 45E-04 1. 56E-04 5.OOE-05** RESRAD-BUILD Probabilistic Output 3.50 12/02/11 22:35:48 Page: 29 Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Am241.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source 1 2 Receptor Minimum Maximum Average std.Dev* Total *Minimum Maximum Average std.Dev 2. 74E-07 3. 92E-05 1. 66E-05 1.12E-05 2.74E-07 3.92E-05 1. 66E-05 1. 12E-05 5.17E-08 1.85E-05 7. 29E-06 4. 96E-06 5.17E-08 1. 85E-05 7. 29E-06 4.96E-06 2.09E-08 1. 33E-05 4.85E-06 3.33E-06 2.09E-08 1. 33E-05 4.85E-06 3. 33E-06 5. 17E-08 1. 90E-05 7. 31E-06 4. 95E-06 5. 17E-08 1. 90E-05 7.31E-06 4. 95E-06 5 2.09E-08 1.17E-05 4.81E-06 3.31E-06 2.09E-08 1.17E-05 4.81E-06 3. 31E-06 2.OOE-07 4. 32E-05 1.68E-05 1.13E-05 2.OOE-07 4. 32E-05 1. 68E-05 1. 13E-05 Total 6. 20E-07 1. 36E-04 5.76E-05 3. 66E-05 6. 20E-07 1. 36E-04 5. 76E-05 3. 66E-05-RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRADFamily\BUILD\3.BLD 22:35:48 Page: 81 *coefficients for Total at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff sig coeff sig Coeff Deposition velocity 3 -0.07 5 -0.11 9 0.02 9 0.01 Resuspension Rate 2 0.09 4 0.13 7 -0.06 8 -0.03 Release time of 1 6 -0.04 6 -0.10 3 -0.30 3 -0.18 Release time of 2 9 -0.01 9 -0.03 5 -0.12 5 -0.07 Release time of 3 4 -0.07 2 -0.16 8 -0.05 7 -0.03 Release time of 4 8 -0.02 8 -0.06 4 -0.17 4 -0.10 Release time of 5 7 0.04 7 0.09 6 -0.08 6 -0.05 Release time of 6 5 -0.06 3 -0.14 2 -0.30 2 -0.18 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
BS ARTLETT Page 24 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 22:35:48 Page: 82 Title : Humboldt Bay sensitivity analysis_Am241 Input File : C:\RESRAD.Family\BUILD\3.BLD coefficients for Source(i) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition Velocity 4 -0.07 6 -0.10 6 0.04 6 0.02 Resuspension Rate 3 0.10 4 0.15 3 -0.07 3 -0.03 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 9 -0.01 9 -0.01 Release time of 3 5 -0.06 3 -0.15 5 0.05 5 0.03 Release time of 4 8 -0.02 8 -0.05 4 -0.05 4 -0.03 Release time of 5 6 0.05 5 0.14 7 0.03 7 0.02 Release time of 6 7 -0.02 7 -0.06 8 -0.02 8 -0.01 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 22:35:48 Page: 83 Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 3 -0.06 4 -0.09 9 0.02 9 0.01 Resuspension Rate S 0.04 6 0.06 3 -0.06 3 -0.03 Release time of 1 9 -0.01 9 -0.02 8 -0.02 8 -0.01 Release time of 2 2 -0.10 2 -0.25 2 -0.70 2 -0.58 Release time of 3 4 -0.05 3 -0.12 5 0.03 5 0.02 Release time of 4 8 -0.01 8 -0.03 4 -0.04 4 -0.02 Release time of 5 6 0.03 5 0.07 7 0.02 7 0.01 Release time of 6 7 -0.02 7 -0.05 6 -0.02 6 -0.01 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.78 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 22:35:48 Page: 84 **Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(3) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 3 -0.10 5 -0.02 5 -0.01 Resuspension Rate 4 0.06 4 0.09 6 -0.02 8 -0.01 Release time of 1 7 -0.02 7 -0.05 9 0.00 9 0.00 Release time of 2 9 0.00 9 0.00 8 0.02 7 0.01 Release time of 3 2 -0.12 1 -0.30 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 3 -0.03 3 -0.02 Release time of 5 5 0.03 5 0.09 7 0.02 6 0.01 Release time of 6 6 -0.03 6 -0.08 4 -0.02 4 -0.01 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.20 0.20 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
U BARTLETT Page 25 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0*- RESRAD-BUILD Regression and correlation output 3.50 12/02/11 22:35:48 Page: 85 Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Source(4) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig Coeff Sig coeff Deposition velocity 3 -0.07 5 -0.10 9 -0.02 9 -0.01 Resuspension Rate 4 0.06 6 0.09 8 -0.02 8 -0.01 Release time of 1 8 -0.01 8 -0.02 7 -0.02 7 -0.01 Release time of 2 9 0.00 9 -0.01 4 0.04 4 0.02 Release time of 3 5 -0.05 3 -0.11 3 0.06 3 0.04 Release time of 4 2 -0.12 2 -0.29 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 6 -0.03 6 -0.02 Release time of 6 7 -0.03 7 -0.07 5 -0.04 5 -0.02 Building Exchange Rate 1 -0.34 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it 0rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 22:35:48 Page: 86 **Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRAD.Family\BUILD\3.BLD coefficients for Source(5) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff sig coeff Sig Coeff Deposition velocity 3 -0.09 4 -0.12 9 0.00 9 0.00 Resuspension Rate 4 0.08 5 0.12 5 -0.03 6 -0.01 Release time of 1 8 0.01 8 0.02 8 0.01 8 0.01 Release time of 2 7 -0.01 7 -0.02 6 0.03 5 0.01 Release time of 3 5 -0.06 3 -0.15 7 0.02 7 0.01 Release time of 4 9 0.00 9 -0.01 3 -0.07 3 -0.04 Release time of 5 2 -0.09 2 -0.21 2 -0.69 2 -0.55 Release time of 6 6 -0.02 6 -0.04 4 -0.04 4 -0.02 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/02/11 22:35:48 Page: 87 Title : Humboldt Bay sensitivity analysisAm241 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff sig coeff Deposition velocity 4 -0.08 6 -0.11 4 0.05 5 0.02 Resuspension Rate 3 0.10 3 0.15 3 -0.08 3 -0.04 Release time of 1 7 -0.01 7 -0.03 7 -0.03 7 -0.02 Release time of 2 9 0.01 9 0.01 8 0.01 8 0.01 Release time of 3 5 -0.06 4 -0.15 6 0.04 6 0.02 Release time of 4 8 -0.01 8 -0.02 5 -0.05 4 -0.03 Release time of 5 6 0.05 5 0.12 9 0.00 9 0.00 Release time of 6 2 -0.12 1 -0.30 2 -0.70 2 -0.57 Building Exchange Rate 1 -0.32 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
BARTLETT Page 26 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 C-14 Results: RESRAD-BUILD Probabilistic output 3.50 12/02/11 06:20:54 Page: Title : Humboldt Bay sensitivity analysis-C14 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-C14.bld I **Probabilistic Output Table of Contents Table of contents ...........................
1 Probabilistic Input ........................
2 Statistics for time = 0.OOE+00 yr .... 3 Statistics for time = 1.OOE+00 yr .... 16 statistics for time = 5.OOE+01 yr.... 29 statistics for time = 1.OOE+02 yr .... 42 statistics for time = 2.OOE+02 yr .... 55 statistics for time = 4.OOE+02 yr .... 68 Regression and correlation output ........ 81" RESRAD-BUILD Probabilistic Output 3.50 12/02/11 06:20:54 Page: Title : Humboldt Bay sensitivity analysis-C14 Input File : C:\RESRADFamily\BUILD\3.5\HRBSA-C14.bld 2 -Probabilistic Input Number of sample Runs: 300 Number Name 1 UD 2 DKSUS 3 RFO( 1, 1)4 RFO( 2, 1)5 RFO( 3, 1)6 RF0( 4, 1)7 RFO( 5, 1)8 RFO( 6, 1)9 LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999** RESRAD-BUILD Probabilistic output 3.50 12/02/11 06:20:54 Page: 3 **Title : Humboldt Bay sensitivity analysisC14 Input File : C:\RESRADFamily\BUILD\3.
5\HBSA-C14.bld Evaluation Time: 0.OOOOOOOOE+O0 years statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 2.01E-08 Maximum 2.51E-08 Average 2.19E-08 std.Dev 3.40E-10 source 2 9.02E-09 1. 11E-08 9. 61E-09 1. 49E-10 6.02E-09 7. 39E-09 6. 39E-09 9.76E-11 4 9. 22E-09 1.09E-08 9. 61E-09 1. 34E-10 6.OOE-09 7.47E-09 6. 39E-09 1.01E-10 2.05E-08 2. 54E-08 2.18E-08 3.07E-10 Total 7. 21E-08 8.68E-08 7. 57E-08 1. 09E-09* Total ** Total I Minimum 2.01E-08 Maximum 2.51E-08 Average 2.19E-08 std.Dev 3.40E-10 9.02E-09 6.02E-09 9.22E-09 6.OOE-09 1.11E-08 7.39E-09 1.09E-08 7.47E-09 9.61E-09 6.39E-09 9.61E-09 6.39E-09 1.49E-10 9.76E-11 1.34E-10 1.01E-10 2.05E-08 2. 54E-08 2.18E-08 3.07E-10 7.21E-08 8.68E-08 7. 57E-08 1.09E-09-RESRAD-BUILD Probabilistic output 3.50 12/02/11 06:20:54 Page: 16 *Title : Humboldt Bay sensitivity analysis C14 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-C14.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 Receptor 1 Minimum 1.60E-08 Maximum 2.46E-08 Average 2.15E-08 std.Dev 5.80E-10 source 2 3 7.19E-09 4.88E-09 1.09E-08 7.09E-09 9.45E-09 6.28E-09 2.55E-10 1.60E-10 7. 58E-09 1.07E-08 9. 45E-09 2.48E-10 5 4.79E-09 7.01E-09 6.28E-09 1.60E-10 1.71E-08 2.48E-08 2. 1SE-08 5.59E-10 Total 6. 35E-08 8. 51E-08 7.44E-08 1. 84E-09 ((as ARTLETT Page 27 OnSARTLETT
ýZtl-7 Page 27 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum Maximum Average std.Dev 1. 60E-08 2. 46E-08 2. ISE-08 5. 80E-10 7.19E-09 4.88E-09 1.09E-08 7.09E-09 9.45E-09 6.28E-09 2.55E-10 1.60E-10 7. 58E-09 1. 07E-08 9.45E-09 2.48E-10 4.79E-09 7.OIE-09 6. 28E-09 1.60E-10 1. 71E-08 2.48E-08 2. 1SE-08 5. 59E-10 6. 35E-08 8. 51E-08 7.44E-08 1. 84E-09** RESRAD-BUILD Probabilistic output 3.50 12/02/11 06:20:54 Page: 29 **Title : Humboldt Bay sensitivity analysisC14 Input File : C:\RESRADFamily\BUILD\3.S\HBSA-C14.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Receptor**ý* 1"***Minimum Maximum Average Std.Dev 1 1. 58E-10 1. 76E-08 8.52E-09 6.24E-09 source 2 3. 15E-11 7. 75E-09 3.72E-09 2.75E-09 3 1. 33E-11 5.14E-09 2.47E-09 1. 83E-09 4 3. ISE-11 7. 74E-09 3.72E-09 2. 75E-09 1. 33E-11 5.15E-09 2.47E-09 1. 83E-09 1. 18E-10 1.76E-08 8.48E-09 6.2 3E-09 Total 3.65E-10 6. OSE-08 2.94E-08 2.04E-08* Total Minimum Maximum Average std.Dev 1. 58E-10 1. 76E-08 8. 52E-09 6. 24E-09 3.15E-11 7.75E-09 3. 72E-09 2. 75E-09 1. 33E-11 5.14E-09 2.47E-09 1.83E-09 3.15E-11 7. 74E-09 3.72E-09 2.75E-09 1. 33E-11 5.15E-09 2.47E-09 1. 83E-09 1.18E-10 1. 76E-08 8.48E-09 6. 23E-09 3.65E-10 6.05E-08 2.94E-08 2.04E-08-' RESRAD-BUILD Regression and Correlation output 3.50 Title : Humboldt Bay sensitivity analysis-C14 Input File : C:\RESRADFamily\BUILD\3.BLD 12/02/11 06:20:54 Page: 81 *1 Coefficients for Total coefficient
=Repetition
=at Time: 1 PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff Sig coeff Sig coeff Deposition velocity 2 -0.07 2 -0.12 3 0.28 3 0.33 Resuspension Rate 6 -0.02 9 -0.03 2 -0.51 1 -0.68 Release time of 1 3 0.04 3 0.11 4 0.18 4 0.26 Release time of 2 8 -0.01 7 -0.04 8 0.02 8 0.03 Release time of 3 9 -0.01 8 -0.04 9 -0.01 9 -0.01 Release time of 4 4 0.03 4 0.07 5 0.14 5 0.20 Release time of 5 5 0.02 5 0.07 6 0.07 6 0.10 Release time of 6 7 -0.02 6 -0.05 7 0.03 7 0.05 Building Exchange Rate 1 -0.21 1 -0.21 1 -0.64 2 -0.43 R-SQUARE 0.08 0.08 0.73 0.73-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination:
it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 06:20:54 Page: 82 Title : Humboldt Bay sensitivity analysisc14 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(I) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff Sig coeff Sig coeff Deposition velocity 2 -0.07 3 -0.11 4 0.27 4 0.32 Resuspension Rate 5 -0.02 9 -0.04 2 -0.50 2 -0.65 Release time of 1 3 0.06 2 0.16 3 0.43 1 0.67 Release time of 2 9 -0.01 8 -0.04 9 -0.03 9 -0.04 Release time of 3 7 -0.02 6 -0.05 7 -0.04 7 -0.06 Release time of 4 6 0.02 5 0.06 5 0.09 5 0.12 Release time of 5 8 0.02 7 0.05 8 0.04 8 0.05 Release time of 6 4 -0.02 4 -0.07 6 -0.08 6 -0.12 Building Exchange Rate 1 -0.20 1 -0.19 1 -0.64 3 -0.43 R-SQUARE 0.07 0.07 0.74 0.74-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(r~S ARTLETT Page 28 lCiBARTLETT Page 28 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0-RESRAD-BUILD Regression and correlation output 3.50 12/02/11 06:20:54 Page: 83 **Title : Humboldt Bay sensitivity analysisC14 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for source(2) at Time: I coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig coeff sig coeff sig coeff Sig coeff 2 -0.08 2 -0.12 4 0.27 4 0.32 9 0.00 9 0.00 2 -0.50 1 -0.67 5 0.03 5 0.07 7 0.05 7 0.08 3 0.04 3 0.10 3 0.39 2 0.63 6 -0.02 6 -0.05 8 -0.04 8 -0.07 8 0.01 8 0.03 6 0.08 6 0.12 7 0.01 7 0.03 9 0.00 9 0.00 4 -0.03 4 -0.07 5 -0.10 5 -0.14 1 -0.20 1 -0.20 .1 -0.62 3 -0.42 0.07 0.07 0.72 0.72-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/02/11 06:20:54 Page: 84 **Title : Humboldt Bay sensitivity analysisC14 Input File : C:\RESRADPamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff sig Coeff Sig Coeff Sig coeff Deposition velocity 2 -0.07 3 -0.11 4 0.28 4 0.33 Resuspension Rate 9 -0.01 9 -0.01 2 -0.50 1 -0.67 Release time of 1 6 0.02 6 0.06 7 0.04 7 0.06 Release time of 2 5 -0.02 5 -0.06 8 -0.03 8 -0.04 Release time of 3 3 0.04 2 0.11 3 0.36 2 0.58 Release time of 4 8 0.01 8 0.02 6 0.07 6 0.11 Release time of 5 7 0.01 7 0.04 9 0.02 9 0.04 Release time of 6 4 -0.03 4 -0.07 5 -0.09 5 -0.14 Building Exchange Rate 1 -0.21 1 -0.21 1 -0.64 3 -0.43 R-SQUARE 0.07 0.07 0.73 0.73-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 06:20:54 Page: 85 Title : Humboldt Bay sensitivity analysisc14 Input File : C:\\RESRADPamily\BUILD\3.BLD coefficients for Source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 2 -0.08 3 -0.12 4 0.30 4 0.35 Resuspension Rate 9 -0.01 9 -0.01 2 -0.51 2 -0.68 Release time of 1 4 0.04 4 0.09 8 0.04 8 0.05 Release time of 2 6 -0.03 6 -0.08 9 -0.04 9 -0.05 Release time of 3 8 -0.03 8 -0.07 6 -0.05 6 -0.08 Release time of 4 3 0.08 1 0.21 3 0.46 1 0.73 Release time of 5 7 0.03 7 0.08 7 0.04 7 0.06 Release time of 6 5 -0.03 5 -0.09 5 -0.07 5 -0.10 Building Exchange Rate 1 -0.20 2 -0.20 1 -0.62 3 -0.41 R-SQUARE 0.08 0.08 0.73 0.73-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARLTTPge2 (r-_1 B A RTL ETT IS%-," Page 29 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/02/11 06:20:54 Page: 86 Title : Humboldt Bay sensitivity analysis.C14 Input File : c:\RESRADFamily\BUILD\3.BLD coefficients for Source(5) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition Velocity 2 -0.07 3 -0.10 4 0.28 4 0.33 Resuspension Rate 4 -0.03 9 -0.05 2 -0.52 1 -0.69 Release time of 1 7 0.02 6 0.06 7 0.08 7 0.11 Release time of 2 6 -0.03 4 -0.08 8 -0.05 8 -0.08 Release time of 3 9 -0.02 8 -0.05 9 -0.05 9 -0.08 Release time of 4 5 0.03 5 0.08 5 0.10 5 0.14 Release time of 5 3 0.05 2 0.13 3 0.41 2 0.64 Release time of 6 8 -0.02 7 -0.05 6 -0.09 6 -0.13 Building Exchange Rate 1 -0.20 1 -0.20 1 -0.63 3 -0.42 R-SQUARE 0.07 0.07 0.74 0.74-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/02/11 06:20:54 Page: 87 Title : Humboldt Bay sensitivity analysis-c14 Input File* : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig coeff sig coeff Sig coeff Deposition velocity 2 -0.08 2 -0.12 4 0.27 4 0.32 Resuspension Rate 5 -0.03 8 -0.04 2 -0.50 1 -0.67 Release time of 1 3 0.04 3 0.10 6 0.06 6 0.09 Release time of 2 6 -0.02 5 -0.07 8 -0.03 8 -0.04 Release time of 3 8 -0.02 7 -0.05 7 -0.05 7 -0.07 Release time of 4 7 0.02 6 0.05 5 0.09 5 0.13 Release time of 5 4 0.03 4 0.08 9 0.01 9 0.02 Release time of 6 9 0.01 9 0.02 3 0.31 2 0.49 Building Exchange Rate 1 -0.22 1 -0.21 1 -0.64 3 -0.44 R-SQUARE 0.09 0.09 0.72 0.72-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
BARTLETT Page 30 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Cm-243 Results:*. RESRAD-BUILD Probabilistic output 3.50 12/06/11 21:35:09 Page: Title : Humboldt Bay sensitivity analysisCm243 Input File : C:\RESRADFamily\BUILD\3.S\HBSA-Cm243-1.bld 1 **Probabilistic output Table of contents Table of Contents ...........................
1 Probabilistic Input ........................
2 statistics for time = 0.OOE+00 yr ..... 3 statistics for time = 1.00E+O0 yr ..... 16 statistics for time = 5.OOE+01 yr ..... 29 statistics for time = 1.ODE+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 statistics for time = 4.OE+02 yr ..... 68 Regression and correlation output ........ 81* RESRAD-BUILD Probabilistic output 3.50 12/06/11 21:35:09 Page: Title : Humboldt Bay sensitivity analysisCm243 Input File : C:\RESRADOFamily\BUILO\3.5\HBSA-Cm243-I.bld 2 " Probabilistic Input Number of sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999** RESRAD-BUILD Probabilistic Output 3.50 12/06/11 21:35:09 Page: 3 *Title : Humboldt Bay sensitivity analysisCm243 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-cm243-1.bld Evaluation Time: O.OOOOOOOOE+00 years Statistics for Dose (mrem) for Time: 1 Receptor Minimum Maximum Average std.oev 1 2.69E-05 1. 58E-04 3. 19E-05 1.03E-05 Source 2 1. 16E-05 5.48E-05 1. 39E-05 4. 38E-06 7.68E-06 5.18E-05 9.23E-06 3.47E-06 4 1. 16E-05 5. 57E-05 1. 38E-05 4. 19E-06 7.68E-06 3.27E-05 9.19E-06 2.86E-06 2.66E-05 1.68E-04 3.17E-05 1.05E-05 Total 9. 21E-05 5.16E-04 1. 1OE-04 3.45E-05* Total *Minimum Maximum Average std.Dev 2.69E-05 1. 58E-04 3.19E-05 1. 03E-05 1. 16E-05 5.48E-05 1. 39E-05 4. 38E-06 7.68E-06 5.18E-05 9.23E-06 3.47E-06 1. 16E-05 5. 57E-05 1. 38E-05 4. 19E-06 7.68E-06 3. 27E-05 9.19E-06 2.86E-06 2.66E-05 1. 68E-04 3.17E-05 1. 05E-05 9. 21E-05 5. 16E-04 1. OE-04 3.45E-05** RESRAD-BUILD Probabilistic Output 3.50 12/06/11 21:35:09 Page: 16 '*Title : Humboldt Bay sensitivity analysisCm243 Input File : C:\RESRADFamily\BUILD\3.5\HB_..SA-Cm243-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Receptor 1 Minimum 2.SSE-05 Maximum 1.53E-04 Average 3.08E-05 std.Dev 9.86E-06 source 2 1. 12E-0S 5.30E-05 1. 33E-0S 4. 1SE-06 3 4 7.29E-06 I.llE-05 5.01E-05 S.39E-05 8.88E-06 1.33E-05 3.31E-06 3.96E-06 5 7. 34E-06 3.05E-05 8.84E-06 2.69E-06 6 2. 53E-05 1.63E-04 3. 05SE-05 1. OOE-05 Total 8.80E-05 4. 99E-04 1. 06E-04 3.29E-05 C,) ARTLETT Page 31 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total *Minimum 2.58E-05 1.12E-05 7.29E-06 1.11E-05 7.34E-06 2.53E-05 8.80E-05 Maximum 1.53E-04 5.30E-05 5.01E-05 5.39E-05 3.05E-05 1.63E-04 4.99E-04 Average 3.08E-05 1.33E-05 8.88E-06 1.33E-05 8.84E-06 3.05E-05 1.06E-04 std.Dev 9.86E-06 4.15E-06 3.31E-06 3.96E-06 2.69E-06 1.OOE-05 3.29E-05** RESRAD-BUILD Probabilistic Output 3.50 12/06/11 21:35:09 Page: 29 *k Title : Humboldt Bay sensitivity analysis.cm243 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-cm243-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 2.72E-07 5.23E-08 2.13E-08 5.23E-08 2.13E-08 2.OOE-07 6.19E-07 Maximum 8.80E-06 4.11E-06 2.93E-06 4.23E-06 2.60E-06 9.65E-06 3.03E-05 Average 3.86E-06 1.64E-06 1.08E-06 1.64E-06 1.07E-06 3.83E-06 1.31E-05 std.Dev 2.46E-06 1.09E-06 7.30E-07 1.09E-06 7.25E-07 2.48E-06 8.03E-06* Total *Minimum 2.72E-07 5.23E-08 2.13E-08 5.23E-08 2.13E-08 2.OOE-07 6.19E-07 Maximum 8.80E-06 4.11E-06 2.93E-06 4.23E-06 2.60E-06 9.65E-06 3.03E-05 Average 3.86E-06 1.64E-06 1.08E-06 1.64E-06 1.07E-06 3.83E-06 1.31E-05 std.Dev 2.46E-06 1.09E-06 7.30E-07 1.09E-06 7.25E-07 2.48E-06 8.03E-06** RESRAD-BUILD Regression and correlation output 3.50 12/06/11 21:35:09 Page: 81 Title Humboldt Bay sensitivity analysisCm243 Input File C:\RESRADFamily\BUILD\3.BLD Coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 5 -0.10 8 -0.04 8 -0.02 Resuspension Rate 2 0.09 4 0.13 9 0.03 9 0.01 Release time of 1 6 -0.04 6 -0.10 2 -0.30 2 -0.18 Release time of 2 9 -0.01 9 -0.03 5 -0.13 5 -0.07 Release time of 3 4 -0.06 2 -0.16 7 -0.06 7 -0.04 Release time of 4 8 -0.02 8 -0.06 4 -0.17 4 -0.10 Release time of 5 7 0.04 7 0.09 6 -0.08 6 -0.04 Release time of 6 5 -0.06 3 -0.14 3 -0.29 3 -0.18 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/06/11 21:35:09 Page: 82 **Title : Humboldt Bay sensitivity analysis-Cm243 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(1) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 4 -0.07 6 -0.10 8 -0.01 8 -0.01 Resuspension Rate 3 0.10 3 0.15 9 0o00 9 0.00 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 7 -0.02 7 -0.01 Release time of 3 5 -0.06 4 -0.15 3 0.05 3 0.03 Release time of 4 8 -0.02 8 -0.05 4 -0.04 4 -0.03 Release time of 5 6 0.05 5 0.14 5 0.03 5 0.02 Release time of 6 7 -0.02 7 -0.06 6 -0.02 6 -0.01 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARTLETT Page 32 7,E riBARTLETT Page 32 Bartleft Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0-RESRAD-BUILD Regression and Correlation output 3.50 12/06/11 21:35:09 Page: 83 Title : Humboldt Bay sensitivity analysiscm243 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.06 4 -0.09 3 -0.03 3 -0.01 Resuspension Rate 5 0.04 6 0.06 9 0.01 9 0.00 Release time of 1 9 -0.01 9 -0.02 4 -0.02 4 -0.01 Release time of 2 2 -0.10 2 -0.25 2 -0.71 2 -0.58 Release time of 3 4 -0.05 3 -0.12 7 0.02 7 0.01 Release time of 4 8 -0.01 8 -0.03 5 -0.02 5 -0.01 Release time of 5 6 0.03 5 0.07 6 0.02 6 0.01 Release time of 6 7 -0.02 7 -0.05 8 -0.02 8 -0.01 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.78 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/06/11 21:35:09 Page: 84 Title : Humboldt Bay sensitivity analysis-cm243 Input File : C:\RESRADoFamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 3 -0.10 3 -0.08 3 -0.04 Resuspension Rate 4 0.06 4 0.10 4 0.06 4 0.03 Release time of 1 7 -0.02 7 -0.05 9 -0.01 9 0.00 Release time of 2 9 0.00 9 0.00 8 0.01 8 0.01 Release time of 3 2 -0.12 1 -0.29 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 5 -0.03 5 -0.02 Release time of 5 5 0.03 5 0.09 6 0.02 6 0.01 Release time of 6 6 -0.03 6 -0.08 7 -0.02 7 -0.01 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.19 0.19 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/06/11 21:35:09 Page: 85 Title : Humboldt Bay sensitivity analysisCm243 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(4) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 5 -0.09 3 -0.09 3 -0.04 Resuspension Rate 4 0.06 6 0.09 4 0.07 4 0.03 Release time of 1 8 -0.01 8 -0.03 7 -0.03 7 -0.02 Release time of 2 9 0.00 9 -0.01 6 0.04 6 0.02 Release time of 3 5 -0.04 3 -0.11 5 0.04 5 0.03 Release time of 4 2 -0.12 2 -0.30 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 9 -0.02 9 -0.01 Release time of 6 7 -0.03 7 -0.07 8 -0.02 8 -0.01 Building Exchange Rate 1 -0.34 1 -0.31 1 -0.97 1 -0.78 R-SQUARE 0.25 0.25 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.,B ARTL ETT Page 33 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0-RESRAD-BUILD Regression and Correlation output 3.50 12/06/11 21:35:09 Page: 86 Title : Humboldt Bay sensitivity analysis_Cm243 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(S) at Time: 1 coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig coeff Sig coeff Deposition velocity 4 -0.08 5 -0.12 4 -0.05 4 -0.02 Resuspension Rate 2 0.09 4 0.13 5 0.04 6 0.02 Release time of 1 7 0.01 8 0.02 8 0.01 8 0.00 Release time of 2 8 -0.01 7 -0.02 7 0.02 7 0.01 Release time of 3 5 -0.06 3 -0.15 9 0.01 9 0.00 Release time of 4 9 0.00 9 -0.01 3 -0.06 3 -0.03 Release time of 5 3 -0.09 2 -0.21 2 -0.69 2 -0.55 Release time of 6 6 -0.02 6 -0.04 6 -0.04 5 -0.02 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Drovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/06/11 21:35:09 Page: 87 **Title : Humboldt Bay sensitivity analysis-cm243 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(6) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of probabilistic variable Sig coeff sig coeff sig coeff Sig coeff Deposition velocity 4 -0.08 6 -0.11 9 0.00 9 0.00 Resuspension Rate 3 0.11 3 0.15 6 -0.01 6 -0.01 Release time of 1 7 -0.01 7 -0.04 4 -0.03 4 -0.02 Release time of 2 9 0.01 9 0.01 8 0.01 8 0.00 Release time of 3 5 -0.06 4 -0.15 5 0.03 5 0.02 Release time of 4 8 -0.01 8 -0.02 3 -0.05 3 -0.03 Release time of 5 6 0.05 5 0.12 7 0.01 7 0.00 Release time of 6 2 -0.12 1 -0.30 2 -0.69 2 -0.56 Building Exchange Rate 1 -0.31 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
3 BARTLETT Page 34 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Cm-244 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/07/11 07:43:58 Page: Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Cm244-1.bld 1 *Probabilistic Output Table of contents Table of Contents ........................
1 Probabilistic Input......................
2 Statistics for time = 0.OOE+00 yr:.... 3 Statistics for time = 1.OOE+00 yr .16 Statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.00E+02 yr ..... 55 Statistics for time = 4.00E+02 yr .... 68 Regression and correlation output ........ 81"' RESRAD-BUILD Probabilistic output 3.50 12/07/11 07:43:58 Page: Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.5\HB_SA-cm244-1.bld 2 **Probabilistic Input Number of sample Runs: 300 Number Name 1 UD 2 DKSUS 3 RFO( 1, 1)4 RFO( 2, 1)5 RFO( 3, 1)6 RFO( 4, 1)7 RFO( 5, 1)8 RFO( 6, 1)9 LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001.999-' RESRAD-BUILD Probabilistic output 3.50 12/07/11 07:43:58 Page: 3 **Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.5\HB_SA-Cm244-1.bld Evaluation Time: O.OOOOOOOOE+O0 years Rec Mini Masi Aver std.statistics for Dose (mrem) for Time: Source eptor 1 2 3 mum 2.07E-05 9.13E-06 6.08E-06 mum 1.26E-04 4.38E-05 4.14E-05 rage 2.47E-05 1.09E-05 7.31E-06 Dev 8.27E-06 3.50E-06 2.78E-06 1 4 9. 13E-06 4.4SE-05 1. 09E-05 3. 34E-06 6.08E-06 2.61E-O5 7.28E-06 2. 28E-06 2.07E-05 1. 34E-04 2.47E-05 8.41E-06 Total 7.18E-05 4. 11E-04 8. 59E-05 2. 76E-05* Total *Minimum Maximum Ave rage stdDev 2. 07E-05 1. 26E-04 2. 47E-05 8.27E-06 9.13E-06 4. 38E-05 1. 09E-05 3. 50E-06 6.08E-06 4.14E-05 7.31E-06 2. 78E-06 9. 13E-06 4. 45E-05 1. 09E-O5 3. 34E-06 6.08E-06 2. 61E-05 7.28E-06 2. 2SE-06 2.07E-05 1. 34E-04 2. 47E-05 8.41E-06 7.18E-05 4. 11E-04 8. 59E-05 2. 76E-05** RESRAD-BUILD Probabilistic Output 3.50 12/07/11 07:43:58 Page: 16 *Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.S\HRSA-Cm244-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 3 Minimum 1.96E-05 8.66E-06 5.69E-06 Maximum 1.20E-04 4.17E-05 3.95E-05 Average 2.35E-05 1.04E-05 6.94E-06 Std.Dev 7.78E-06 3.27E-06 2.61E-06 4 8. 58E-06 4. 24E-05 1. 03E-05 3.12E-06 5. 72E-06 2.40E-05 6. 91E-06 2. 12E-06 1. 94E-05 1. 28E-04 2.35E-05 7.92E-06 Total 6. 76E-05 3.92E-04 8.15E-05 2. 59E-05 C BAARTLETT Page 35 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum 1.96E-05 Maximum 1.20E-04 Average 2.35E-05 Std.Dev 7.78E-06 8.66E-06 5.69E-06 4.17E-05 3.95E-05 1.04E-05 6.94E-06 3.27E-06 2.61E-06 8.58E-06 5.72E-06 1.94E-05 4.24E-05 2.40E-05 1.28E-04 1.03E-05 6.91E-06 2.35E-05 3.12E-06 2.12E-06 7.92E-06 6. 76E-05 3. 92E-04 8. 15E-05?_xqF-M** RESRAD-BUILD Probabilistic Output 3.50 12/07/11 07:43:58 Page: 29 *Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-cm244-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Receptor 1 Minimum 4.47E-10 Maximum 3.46E-06 Average 1.46E-06 std.Dev 9.97E-07 source 2 1. 65E-10 1. 65E-06 6. 46E-07 4. 42E-07 5. 89E-11 1. 19E-06 4. 31E-07 2.97E-07 4 1. 65E-10 1. 70E-06 6.48E-07 4.41E-07 5. 91E-11 1.05 E-06 4.27E-07 2.95E-07 4.47E-10 3.85E-06 1.48E-06 1. 01E-06 Total 1. 34E-09 1. 21E-05 5.09E-06 3.26E-06* Total *Minimum Maximum Average std.Dev 4.47E-10 3.46E-06 1.46E-06 9. 97E-07 1. 65E-10 1. 65E-06 6.46E-07 4.42E-07 5. 89E-11 1.19E-06 4. 31E-07 2.97E-07 1. 65E-10 1. 70E-06 6. 48E-07 4. 41E-07 5.91E-11 1.05E-06 4.27E-07 2.95E-07 4.47E-10 3. 85E-06 1.48E-06 1.01E-06 1. 34E-09 1. 21E-05 5.09E-06 3. 26E-06** RESRAD-BUILD Regression and Correlation output 3.50 Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.BLD 12/07/11 07:43:58 Page: 81 **coefficients for Total at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition Velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 sig Coeff Sig Coeff Sig Coeff Sig Coeff 3 -0.07 5 -0.10 8 -0.06 8 -0.03 2 0.09 4 0.13 9 0.04 9 0.02 6 -0.04 6 -0.10 2 -0.31 2 -0.18 9 -0.01 9 -0.03 5 -0.13 5 -0.07 4 -0.06 2 -0.16 7 -0.06 7 -0.04 8 -0.02 8 -0.06 4 -0.17 4 -0.09 7 0.04 7 0.09 6 -0.07 6 -0.04 5 -0.06 3 -0.14 3 -0.29 3 -0.18 1 -0.33 1 -0.30 1 -0.97 1 -0.79 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it p rovides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/07/11 07:43:58 Page: 82 Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(1) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.07 6 -0.10 6 -0.03 6 -0.01 Resuspension Rate 3 0.11 3 0.15 9 0.02 9 0.01 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 7 -0.02 7 -0.01 Release time of 3 5 -0.06 4 -0.15 3 0.04 3 0.03 Release time of 4 8 -0.02 8 -0.05 4 -0.04 4 -0.02 Release time of 5 6 0.06 5 0.14 5 0.03 5 0.02 Release time of 6 7 -0.02 7 -0.06 8 -0.02 8 -0.01 Building Exchange Rate 1 -0.31 1 -0.28 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
O B A RTL ETT Page 36 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/07/11 07:43:58 Page: 83 Title : Humboldt Bay sensitivity analysis-cm244 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.06 4 -0.09 3 -0.05 3 -0.02 Resuspension Rate 5 0.04 6 0.06 5 0.03 7 0.01 Release time of 1 9 -0.01 9 -0.02 6 -0.02 6 -0.01 Release time of 2 2 -0.10 2 -0.25 2 -0.71 2 -0.58 Release time of 3 4 -0.05 3 -0.12 9 0.02 9 0.01 Release time of 4 8 -0.01 8 -0.03 8 -0.02 8 -0.01 Release time of 5 6 0.03 5 0.07 4 0.03 4 0.02 Release time of 6 7 -0.02 7 -0.05 7 -0.02 5 -0.01 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.78 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/07/11 07:43:58 Page: 84 Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff Sig coeff Sig Coeff Deposition velocity 3 -0.07 3 -0.10 3 -0.09 3 -0.04 Resuspension Rate 4 0.07 4 0.10 4 0.07 4 0.03 Release time of 1 7 -0.02 7 -0.05 9 0.00 9 0.00 Release time of 2 9 0.00 9 0.00 8 0.01 8 0.01 Release time of 3 2 -0.11 1 -0.29 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 5 -0.03 5 -0.02 Release time of 5 5 0.03 5 0.09 7 0.02 7 0.01 Release time of 6 6 -0.03 6 -0.08 6 -0.03 6 -0.02 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.78 R-SQUARE 0.19 0.19 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/07/11 07:43:58 Page: 85 Title : Humboldt Bay sensitivity analysis ..cm244 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig Coeff Sig Coeff Sig coeff Deposition velocity 3 -0.07 5 -0.09 3 -0.10 3 -0.05 Resuspension Rate 4 0.06 6 0.09 4 0.08 4 0.04 Release time of 1 8 -0.01 8 -0.03 8 -0.03 8 -0.02 Release time of 2 9 0.00 9 -0.01 6 0.04 6 0.02 Release time of 3 5 -0.04 3 -0.11 5 0.04 5 0.02 Release time of 4 2 -0.12 2 -0.30 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 9 -0.02 9 -0.01 Release time of 6 7 -0.03 7 -0.07 7 -0.03 7 -0.02 Building Exchange Rate 1 -0.34 1 -0.31 1 -0.97 1 -0.78 R-SQUARE 0.25 0.25 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
VSARTLETT Page 37 (Urlý')BARTLETT Page 37 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/07/11 07:43:58 Page: 86 Title : Humboldt Bay sensitivity analysisCm244 Input File : C:\RESRAD-Family\BUILD\3.BLD Coefficients for source(5) at Time: 1 coefficient
= Pcc SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.08 5 -0.12 3 -0.07 4 -0.03 Resuspension Rate 2 0.09 4 0.13 5 0.06 5 0.03 Release time of 1 8 0.01 8 0.02 8 0.01 8 0.00 Release time of 2 7 -0.01 7 -0.02 7 0.02 7 0.01 Release time of 3 5 -0.06 3 -0.15 9 0.01 9 0.00 Release time of 4 9 0.00 9 -0.01 4 -0.06 3 -0.03 Release time of 5 3 -0.09 2 -0.21 2 -0.69 2 -0.55 Release time of 6 6 -0.02 6 -0.04 6 -0.04 6 -0.02 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/07/11 07:43:58 Page: 87 Title : Humboldt Bay sensitivity analysis.cm244 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.08 6 -0.11 6 -0.02 6 -0.01 Resuspension Rate 3 0.11 3 0.15 9 0.01 9 0.00 Release time of 1 7 -0.01 7 -0.04 4 -0.03 4 -0.02 Release time of 2 9 0.01 9 0.01 7 0.01 7 0.00 Release time of 3 5 -0.06 4 -0.15 5 0.03 5 0.02 Release time of 4 8 -0.01 8 -0.02 3 -0.05 3 -0.03 Release time of 5 6 0.05 5 0.12 8 0.01 8 0.00 Release time of 6 2 -0.12 1 -0.30 2 -0.69 2 -0.56 Building Exchange Rate 1 -0.31 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
VSATET ae3 ED BARTLETT Page 38 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Cm-245 Results:** RESRAD-BUILD Probabilistic output 3.50 12/09/11 08:06:59 Page: Title : Humboldt Bay sensitivity analysisCm245 Input File : C:\RESRADFamily\BUILD\3.5\HBRSA-Cm245-I.bld I1-Probabilistic Output Table of Contents Table of Contents ...........................
1 Probabilistic Input ......................
2 statistics for time = O.00E+00 yr..... 3 Statistics for time = 1.00E+00 yr ..... 16 statistics for time = 5.OOE+01 yr ..... 29 statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation output ........ 81** RESRAD-BUILD Probabilistic Output 3.50 12/09/11 08:06:59 Page: Title : Humboldt Bay sensitivity analysisscm245 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Cm24S-1.bld 2 *Probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
=
Parameters
.0000027 .0027 2.SE-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999----------
== == == == ==** RESRAD-BUILD Probabilistic Output 3.50 12/09/11 08:06:59 Page: Title : Humboldt Bay sensitivity analysisCm24S Input File : C:\RESRADFamily\BUILD\3.S\HBSA-Cm245-1.bld Evaluation Time: 0.OOOOOOOOE+00 years 3 **Statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 6.50E-05 Maximum 2.62E-04 Average 7.28E-05 Std.Dev 1.59E-05 source 2 2.22E-05 8. 71E-05 2.57E-05 6. 77E-06 3 1.35E-05 7.98E-05 1. 59E-05 5. 33E-06 4 2.22E-05 8.8SE-05 2. 57E-05 6. 45E-06 5 1. 3SE-05 5lOE-05 1. 58E-05 4.46E-06 6 5. 81E-05 2. 71E-04 6. 60E-05 1. 60E-05 Total 1. 95E-04 8. 31E-04 2. 22E-04 5. 30E-05* Total Minimum 6.50E-05 Maximum 2.62E-04 Average 7.28E-05 std.Dev 1.59E-05 2.22E-05 8. 71E-05 2. 57E-05 6. 77E-06 1. 35E-0S 7.98E-05 1. 59E-05 5. 33E-06 2. 22E-05 8. 85E-05 2.57E-G5 6. 45E-06 1.35E-05 5.lOE-05 1.58E-05 4.46E-06 5. 81E-05 2. 71E-04 6. 60E-05 1. 60E-05 1. 95E-04 8. 31E-04 2.22E-04 5. 30E-05** RESRAD-BUILD Probabilistic Output 3.50 12/09/11 08:06:59 Page: Title : Humboldt Bay sensitivity analysis-cm245 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-cm245-1.bld Evaluation Time: 1.00000000 years 16 *Statistics for Dose (mrem) for Time: 2 source Receptor 1 2 Minimum 6.43E-05 2.20E-05 Maximum 2.60E-04 8.64E-0S Average 7.21E-05 2.54E-05 std.Dev 1.5SE-0S 6.57E-06 3 1. 32E-05 7.91E-05 1. 57E-05 5.21E-06 2.18E-05 8. 78E-05 2.54E-05 6. 26E-06 5 6 1.33E-05 5.70E-O5 4.95E-05 2.69E-04 1.57E-05 6.53E-05 4.31E-06 1.57E-05 Total 1. 91E-04 8. 24E-04 2.20E-04 5. 17E-05 BARTLETT Page 39 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum 6.43E-05 Maximum 2.60E-04 Average 7.21E-05 std.Dev 1.55E-05 2.20E-05 8.64E-05 2. 54E-05 6. 57E-06 1. 32E-05 7.91E-05 1. 57E-05 5. 21E-06 2. 18E-05 8.78E-05 2.54E-05 6. 26E-06 1. 33E-05 4.95E-05 1. 57E-05 4. 31E-06 5.70E-05 2.69E-04 6. 53E-05 1. 57E-05 1. 91E-04 8. 24E-04 2.20E-04 5. 17E-0S** RESRAD-BUILD Probabilistic output 3.50 12/09/11 08:06:59 Page: 29 **Title : Humboldt Bay sensitivity analysis.Cm245 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Cm245-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Receptor Minimum Maximum Average stdDev 1 2. 33E-05 7. l0E-05 4. 36E-05 1. 39E-05 Source 2 4.49E-06 2.64E-05 1. 32E-05 5.99E-06 3 1. 82E-06 1. 74E-05 7.60E-06 3.99E-06 4 4.49E-06 2. 70E-05 1. 33E-05 S.98E-06 5 1.83E-06 1. 58E-05 7. 56E-06 3.97E-06 1.72E-0S 6.83E-05 3.75E-05 1. 39E-05 Total 5. 31E-05 2. 17E-04 1. 23E-04 4.47E-05* Total *Minimum Maximum Average std.Dev 2.33E-05 7.1OE-05 4. 36E-05 1. 39E-05 4.49E-06 2.64E-05 1. 32E-05 5. 99E-06 1.82E-06 1. 74E-05 7.60E-06 3.99E-06 4.49E-06 2. 70E-05 1. 33E-05 5. 98E-06 1.83E-06 1. 58E-05 7. 56E-06 3.97E-06 1. 72E-0S 6. 83E-05 3. 75E-0O 1. 39E-05 5. 31E-05 2. 17E-04 1. 23E-04 4.47E-05-RESRAD-BUILD Regression and Correlation output 3.50 Title : Humboldt Bay sensitivity analysis-cm245 Input File : C:\RESRADFamily\BUILD\3.BLD 12/09/11 08:06:59 Page: 81 *coefficients for Total coefficient
=Repetition
=at Time: 1 Description of Probabilistic variable Deposition Velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of S Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 sig Coeff Sig Coeff Sig Coeff Sig Coeff 3 -0.08 5 -0.11 9 0.03 9 0.01 2 0.09 4 0.13 7 -0.07 7 -0.03 6 -0.04 6 -0.10 3 -0.30 3 -0.18 9 -0.01 9 -0.03 5 -0.12 5 -0.07 4 -0.07 2 -0.16 8 -0.05 8 -0.03 8 -0.02 8 -0.06 4 -0.16 4 -0.09 7 0.04 7 0.09 6 -0.08 6 -0.05 5 -0.06 3 -0.14 2 -0.30 2 -0.18 1 -0.33 1 -0.31 1 -0.97 1 -0.79 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/09/11 08:06:59 Page: 82 Title : Humboldt Bay sensitivity analysisCm245 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(i) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 4 -0.07 6 -0.10 4 0.05 6 0.02 Resuspension Rate 3 0.10 4 0.15 3 -0.10 3 -0.05 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 9 -0.01 9 0.00 Release time of 3 5 -0.06 3 -0.15 5 0.05 4 0.03 Release time of 4 8 -0.02 8 -0.04 6 -0.04 5 -0.02 Release time of 5 6 0.05 5 0.14 8 0.03 8 0.02 Release time of 6 7 -0.02 7 -0.06 7 -0.04 7 -0.02 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.ARTLETT Page 40 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0";iRESRAD-BUILD Regression and Correlation output 3.50 12/09/11 08:06:59 Page: 83 Title : Humboldt Bay sensitivity analysisCm245 Input rile : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig coeff Sig coeff Deposition velocity 3 -0.07 4 -0.09 6 0.03 7 0.01 Resuspension Rate 5 0.04 6 0.06 3 -0.08 3 -0.04 Release time of 1 9 -0.01 9 -0.02 8 -0.02 8 -0.01 Release time of 2 2 -0.10 2 -0.25 2 -0.70 2 -0.58 Release time of 3 4 -0.05 3 -0.12 4 0.04 4 0.02 Release time of 4 8 -0.01 8 -0.03 5 -0.03 5 -0.02 Release time of 5 6 0.03 5 0.06 9 0.02 9 0.01 Release time of 6 7 -0.02 7 -0.05 7 -0.03 6 -0.02 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.78 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/09/11 08:06:59 Page: 84 **Title : Humboldt Bay sensitivity analysisCm245 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff sig coeff sig coeff Sig coeff Deposition velocity 3 -0.07 3 -0.10 8 -0.01 8 0.00 Resuspension Rate 4 0.06 4 0.09 3 -0.05 3 -0.02 Release time of 1 7 -0.02 7 -0.05 9 -0.01 9 0.00 Release time of 2 9 0.00 9 0.00 5 0.02 6 0.01 Release time of 3 2 -0.12 1 -0.30 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 4 -0.02 4 -0.01 Release time of 5 5 0.03 5 0.09 7 0.01 7 0.01 Release time of 6 6 -0.03 6 -0.08 6 -0.02 5 -0.01 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.20 0.20 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
' RESRAD-BUILD Regression and correlation output 3.50 12/09/11 08:06:59 Page: 85 Title : Humboldt Bay sensitivity analysisCm245 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig Coeff Sig coeff Sig coeff Deposition velocity 3 -0.07 5 -0.10 9 -0.01 9 0.00 Resuspension Rate 4 0.06 6 0.09 4 -0.04 6 -0.02 Release time of 1 8 -0.01 8 -0.02 8 -0.02 8 -0.01 Release time of 2 9 -0.01 9 -0.01 6 0.04 5 0.02 Release time of 3 5 -0.05 3 -0.11 3 0.06 3 0.04 Release time of 4 2 -0.12 2 -0.29 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 7 -0.03 7 -0.02 Release time of 6 7 -0.03 7 -0.07 5 -0.04 4 -0.03 Building Exchange Rate 1 -0.34 1 -0.32 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
t(fl 8A RT LETT Page 41 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0-RESRAD-BUILD Regression and Correlation output 3.50 12/09/11 08:06:59 Page: 86 Title : Humboldt Bay sensitivity analysisCm245 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Source(S) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 2 -0.09 4 -0.12 8 0.01 8 0.00 Resuspension Rate 4 0.08 5 0.12 4 -0.05 5 -0.02 Release time of 1 8 0.01 8 0.02 9 0.01 9 0.00 Release time of 2 7 -0.01 7 -0.02 6 0.03 6 0.01 Release time of 3 5 -0.06 3 -0.15 7 0.02 7 0.01 Release time of 4 9 0.00 9 -0.01 3 -0.07 3 -0.04 Release time of 5 3 -0.09 2 -0.21 2 -0.68 2 -0.54 Release time of 6 6 -0.02 6 -0.04 5 -0.05 4 -0.03 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.25 0.25 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/09/11 08:06:59 Page: 87 **Title : Humboldt Bay sensitivity analysis-Cm245 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff Sig coeff Sig Coeff Deposition velocity 4 -0.08 6 -0.11 4 0.07 4 0.03 Resuspension Rate 3 0.10 4 0.15 3 -0.11 3 -0.05 Release time of 1 7 -0.01 7 -0.03 7 -0.02 7 -0.01 Release time of 2 9 0.01 9 0.01 8 0.01 8 0.01 Release time of 3 5 -0.06 3 -0.15 6 0.04 6 0.02 Release time of 4 8 -0.01 8 -0.02 5 -0.05 5 -0.03 Release time of 5 6 0.05 5 0.12 9 0.00 9 0.00 Release time of 6 2 -0.12 1 -0.31 2 -0.69 2 -0.56 Building Exchange Rate 1 -0.32 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
OI BARTLETT.Page 42 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Cm-246 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/08/11 22:31:56 Page: Title : Humboldt Bay sensitivity analysis.cm246 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Cm246-1.bld 1 **Probabilistic Output Table of contents Table of Contents ...........................
1 Probabilistic Input ........................
2 Statistics for time = O.OOE+00 yr ..... 3 Statistics for time = 1.OOE+00 yr ..... 16 Statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.00E+02 yr ..... 55 statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation Output ........ 81-* RESRAD-BUILD Probabilistic Output 3.50 12/08/11 22:31:56 Page: Title : Humboldt Bay sensitivity analysisacm246 Input File : C:\RESRADFamily\BUILD\3.5\HBLSA-Cm246-1.bld 2 *Probabilistic Input Number of Sample Runs: 300 Number Name 1 UD 2 DKSUS 3 RFO( 1, 1)4 RFO( 2, 1)5 RFO( 3, 1)6 RFO( 4, 1)7 RFO( 5, 1)8 RFO( 6, 1)9 LAMBDAT====== ===== ------------
====Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.SE-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999** RESRAD-BUILD Probabilistic Output 3.50 12/08/11 22:31:56 Page: 3 *Title : Humboldt Bay sensitivity analysisacm246 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-cm246-1.bld Evaluation Time: O.OOOOOOOOE+00 years Statistics for Dose (mrem) for Time: Source ceptor 1 2 3 Re(Minimum Maximum Average std.Dev 4. 63E-05 2. 41E-04 5.40E-05 1. 57E-05 1. 85E-05 8.28E-05 2.20E-05 6. 70E-06 1. 19E-05 7.76E-05 1. 43E-05 5. 28E-06 1. 85E-05 8.41E-05 2.19E-05 6. 38E-06 5 1. 19E-05 4. 91E-05 1.43E-05 4.42E-06 4.43E-05 2.55E-04 5.20E-05 1. 59E-05 Total 1. 51E-04 7. 82E-04 1. 79E-04 5. 25E-05* Total *Minimum Maximum Average Std.Dev 4.63E-05 2.41E-04 5.40E-05 1. 57E-05 1. 85E-05 8. 28E-05 2.20E-05 6. 70E-06 1. 19E-05 7. 76E-05 1.43E-05 5.28E-06 1. 85E-0S 8.41E-05 2.19E-05 6. 38E-06 1.19E-05 4.91E-05 1.43E-05 4.42E-06 4.43E-05 2. 5SE-04 5.20E-05 1. 59E-05 1. 51E-04 7. 82E-04 1. 79E-04 5. 25E-05** RESRAD-BUILD Probabilistic Output 3.50 12/08/11 22:31:56 Page: Title : Humboldt Bay sensitivity analysisacm246 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-cm246-1.bld Evaluation Time: 1.00000000 years 16 **Statistics for Dose (mrem) for Time: 2 Receptor 1 Minimum 4.56E-05 Maximum 2.39E-04 Average 5.34E-05 std.Dev 1.54E-05 source 2 1. 83E-05 8. 21E-05 2.17E-05 6. 51E-06 1. 16E-05 7.68E-05 1. 41E-05 5.16E-06 1. 81E-05 8. 34E-05 2.16E-OS 6. 20E-06 1.17E-05 4. 75E-05 1. 41E-0S 4.27E-06 6 Total 4.32E-05 1.48E-04 2.53E-04 7.75E-04 5.14E-05 1.76E-04 1.55E-OS 5.12E-OS B A RT L E TT Page 43 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum 4.56E-05 Maximum 2.39E-04 Average 5.34E-05 std.Dev 1.54E-05 1. 83E-05 8. 21E-05 2.17E-05 6. 51E-06 1.16E-05 7.68E-05 1.41E-05 5.16E-06 1. 81E-05 8. 34E-05 2. 16E-05 6. 20E-06 1.17E-05 4. 75E-OS 1.41E-OS 4.27E-06 4. 32E-05 2. 53E-04 S. 14E-05 1. 55E-05 1.48E-04 7. 75E-04 1. 76E-04 5. 12E-05** RESRAD-BUILD Probabilistic Output 3.50 12/08/11 22:31:56 Page: 29 *Title : Humboldt Bay sensitivity analysisCm246 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-cm246-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Receptor Minimum Maximum Average std.Dev 1 6. 88E-06 4. 99E-05 2. 51E-05 1. 25E-05 Source 2 1. 32E-06 2. 15E-05 9.30E-06 5. 46E-06 3 5. 37E-07 1. 50E-05 5. 85E-06 3.66E-06 4 1. 32E-06 2.21E-05 9. 33E-06 5.46E-06 5 5. 39E-07 1. 34E-05 5. 80E-06 3.64E-06 6 5.06E-06 5.22E-05 2.34E-05 1.2SE-OS Total 1. 57E-05 1. 65E-04 7. 88E-05 4. 05E-OS* Total *Minimum Maximum Average std.Dev 6. 88E-06 4.99E-05 2. 51E-05 1. 25E-05 1. 32E-06 2.1SE-05 9. 30E-06 5.46E-06 5. 37E-07 1. SOE-05 5.85E-06 3.66E-06 1. 32E-06 2. 21E-05 9. 33E-06 5.46E-06 S.39E-07 1. 34E-05 5.80E-06 3.64E-06 5.06E-06 5.22E-05 2. 34E-05 1. 25E-05 1. 57E-05 1. 65E-04 7. 88E-05 4.05E-05** RESRAD-BUILD Regression and Correlation output 3.50 Title : Humboldt Bay sensitivity analysisCm246 Input File : C:\RESRAD-Family\BUILD\3.BLD 12/08/11 22:31:56 Page: 81 **coefficients for Total coefficient
=Repetition
=at Time: 1 PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 3 -0.08 5 -0.11 9 0.03 9 0.02 Resuspension Rate 2 0.09 4 0.13 7 -0.07 7 -0.03 Release time of 1 6 -0.04 6 -0.10 3 -0.30 3 -0.18 Release time of 2 9 -0.01 9 -0.03 5 -0.12 5 -0.07 Release time of 3 4 -0.07 2 -0.16 8 -0.05 8 -0.03 Release time of 4 8 -0.02 8 -0.06 4 -0.16 4 -0.09 Release time of 5 7 0.03 7 0.09 6 -0.09 6 -0.05 Release time of 6 5 -0.06 3 -0.14 2 -0.30 2 -0.18 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/08/11 22:31:56 Page: 82 Title : Humboldt Bay sensitivity analysis-cm246 Input File : C:\\RESRADFamily\BUILD\3iBLD coefficients for Source(i) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.07 6 -0.10 5 0.04 7 0.02 Resuspension Rate 3 0.10 4 0.15 3 -0.09 3 -0.04 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 9 -0.01 9 0.00 Release time of 3 5 -0.06 3 -0.15 4 0.05 4 0.03 Release time of 4 8 -0.02 8 -0.04 6 -0.04 5 -0.02 Release time of 5 6 0.05 S 0.14 8 0.03 8 0.02 Release time of 6 7 -0.02 7 -0.06 7 -0.03 6 -0.02 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
IBARTLETT Page 44 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* RESRAD-BUILD Regression and Correlation output 3.50 12/08/11 22:31:56 Page: 83 Title : Humboldt Bay sensitivity analysisCm246 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(2) at Time: I coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig coeff Sig coeff Sig coeff Sig coeff 3 -0.07 4 -0.09 6 0.03 7 0.01 5 0.04 6 0.06 3 -0.08 3 -0.04 9 -0.01 9 -0.02 8 -0.02 8 -0.01 2 -0.10 2 -0.25 2 -0.70 2 -0.58 4 -0.05 3 -0.12 4 0.04 4 0.02 8 -0.01 8 -0.03 5 -0.03 5 -0.02 6 0.03 5 0.06 9 0.02 9 0.01 7 -0.02 7 -0.05 7 -0.03 6 -0.02 1 -0.33 1 -0.31 1 -0.97 1 -0.78 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 Title : Humboldt Bay sensitivity analysisCm246 Input File : C:\RESRADFamily\BUILD\3.BLD 12/08/11 22:31:56 Page: 84 **coefficients for source(3) at Time: I coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig coeff Sig coeff 3 -0.07 3 -0.10 8 -0.01 8 0.00 4 0.06 4 0.09 3 -0.04 3 -0.02 7 -0.02 7 -0.05 9 0.00 9 0.00 9 0.00 9 0.00 5 0.02 5 0.01 2 -0.12 1 -0.30 2 -0.69 2 -0.57 8 -0.01 8 -0.01 6 -0.02 6 -0.01 5 0.03 5 0.09 7 0.01 7 0.01 6 -0.03 6 -0.08 4 -0.02 4 -0.01 1 -0.29 2 -0.27 1 -0.97 1 -0.79 0.20 0.20 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/08/11 22:31:56 Page: 85 Title : Humboldt Bay sensitivity analysisCm246 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Source(4) at Time: 1 Coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig coeff Sig coeff 3 -0.07 5 -0.10 9 -0.01 9 0.00 4 0.06 6 0.09 6 -0.04 7 -0.02 8 -0.01 8 -0.02 8 -0.02 8 -0.01 9 -0.01 9 -0.01 4 0.04 5 0.02 5 -0.05 3 -0.11 3 0.06 3 0.04 2 -0.12 2 -0.29 2 -0.71 2 -0.59 6 0.04 4 0.10 7 -0.03 6 -0.02 7 -0.03 7 -0.07 5 -0.04 4 -0.02 1 -0.34 1 -0.32 1 -0.97 1 -0.79 026 026 095 0.95 R-SQUARE-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
V BARTLETT Page 45 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/08/11 22:31:56 Page: 86 *Title : Humboldt Bay sensitivity analyysisacm246 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for source(5) at Time: 1 Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.09 4 -0.12 8 0.01 8 0.01 Resuspension Rate 4 0.08 5 0.12 4 -0.05 5 -0.02 Release time of 1 8 0.01 8 0.02 9 0.01 9 0.01 Release time of 2 7 -0.01 7 -0.02 6 0.02 6 0.01 Release time of 3 5 -0.06 3 -0.15 7 0.02 7 0.01 Release time of 4 9 0.00 9 -0.01 3 -0.07 3 -0.04 Release time of 5 3 -0.09 2 -0.21 2 -0.68 2 -0.54 Release time of 6 6 -0.02 6 -0.04 5 -0.05 4 -0.03 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.25 0.25 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/08/11 22:31:56 Page: 87 Title : Humboldt Bay sensitivity analysisCm246 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(6) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 sig Coeff Sig Coeff sig coeff sig coeff 4 -0.08 6 -0.11 4 0.07 4 0.03 3 0.10 4 0.15 3 -0.11 3 -0.05 7 -0.01 7 -0.03 7 -0.02 7 -0.01 9 0.01 9 0.01 8 0.01 8 0.01 5 -0.06 3 -0.15 6 0.04 6 0.02 8 -0.01 8 -0.02 5 -0.05 5 -0.03 6 0.05 5 0.12 9 0.00 9 0.00 2 -0.12 1 -0.31 2 -0.70 2 -0.57 1 -0.32 2 -0.29 1 -0.97 1 -0.79 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARTLETT Page 46 Er') B A RTL ETT Page 46 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Co-60 Results:** RESRAD-BUILD Probabilistic output 3.50 12/05/11 08:13:39 Page: Title : Humboldt Bay sensitivity analysis-Co60 Input File : C:\RESRADFamily\BUILD\3.5\HB-SA-Co60-l.bld Probabilistic Output Table of Contents Table of Contents .........................
1 Probabilistic Input.......................
2 Statistics for time = 0.OOE+O0 yr .... 3 Statistics for time = 1.OOE+O0 yr ..... 16 Statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and Correlation Output ........ 81*- RESRAD-BUILD Probabilistic Output 3.50 12/05/11 08:13:39 Page: Title : Humboldt Bay sensitivity analysis-co60 Input File : C:\RESRADFamily\BUILD\3.5\HBLSA-Co60-1.bld 2 probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001====== ===== === -= ---.. ......999** RESRAD-BUILD Probabilistic output 3.50 12/05/11 08:13:39 Page: 3 **Title : Humboldt Bay sensitivity analysis-Co60 Input File : C:\RESRADFamily\BUILD\3.5\HBLSA-Co60-1.bld Evaluation Time: O.OOOOOOOOE+00 years statistics for Dose (mrem) for Time: 1 Source 1 2 Receptor Minimum Maximum Average std.Dev 1. 76E-05 1. 78E-05 1. 78E-05 1. 54E-08 3.48E-06 3. 52E-06 3.49E-06 3.11E-09 1.44E-06 1.47E-06 1.45E-06 1. 96E-09 4 3.48E-06 3. 52E-06 3.49E-06 3.07E-09 1.45E-06 1.46E-06 1.45E-06 1. 46E-09 1. 31E-05 1. 32E-05 1. 32E-05 1. OE-08 Total 4.06E-05 4. lOE-05 4.09E-05 3. 28E-08* Total *Minimum Maximum Average Std.Dev 1. 76E-05 1. 78E-05 1. 78E-05 1. 54E-08 3.48E-06 3. 52E-06 3.49E-06 3.11E-09 1.44E-06 1.47E-06 1.45E-06 1.96E-09 3.48E-06 3. 52E-06 3.49E-06 3.07E-09 1.45E-06 1.46E-06 1.45E-06 1. 46E-09 1. 31E-05 1. 32E-05 1. 32E-05 1.1OE-08 4. 06E-05 4. lOE-05 4. 09E-05 3.28E-08-RESRAD-BUILD Probabilistic Output 3.50 12/05/11 08:13:39 Page: 16 **Title : Humboldt Bay sensitivity analysis-Co60 Input File : C:\RESRADFamily\BUILD\3.5\HB_-SA-Co6O-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Receptor Minimum Maximum Average Std.Dev Source 1 2 3 1.51E-05 2.98E-06 1.23E-06 1.56E-05 3.07E-06 1.28E-06 1.56E-05 3.06E-06 1.27E-06 4.52E-08 9.22E-09 4.01E-09 4 2.98E-06 3. 07E-06 3.06E-06 9. 12E-09 1. 24E-06 1.28E-06 1.27E-06 4.OOE-09 1. 12E-05 1. 15E-05 1. 15E-05 3.19E-08 Total 3.51E-05 3.58E-05 3. 58E-05 9. 61E-08 (B ARTLETT Page 47 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total *Minimum 1.51E-05 2.98E-06 1.23E-06 2.98E-06 1.24E-06 1.12E-05 3.51E-05 Maximum 1.56E-05 3.07E-06 1.28E-06 3.07E-06 1.28E-06 1.15E-05 3.58E-05 Average 1.56E-05 3.06E-06 1.27E-06 3.06E-06 1.27E-06 1.15E-05 3.58E-05 std.Dev 4.52E-08 9.22E-09 4.01E-09 9.12E-09 4.00E-09 3.19E-08 9.61E-08 Title : Humboldt Bay sensitivity analysisco60 Input File C:\RESRADFamily\BUILD\3.5\HBSA-Co6O-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 2.20E-08 4.24E-09 1.72E-09 4.24E-09 1.72E-09 1.62E-08 5.01E-08 Maximum 2.43E-08 4.75E-09 1.96E-09 4.75E-09 1.97E-09 1.79E-08 5.56E-08 Average 2.31E-08 4.48E-09 1.83E-09 4.48E-09 1.84E-09 1.70E-08 5.28E-08 std.Dev 8.10E-10 1.82E-10 8.61E-11 1.82E-10 8.63E-11 6.24E-10 1.87E-09* Total *Minimum 2.20E-08 4.24E-09 1.72E-09 4.24E-09 1.72E-09 1.62E-08 5.01E-08 Maximum 2.43E-08 4.75E-09 1.96E-09 4.75E-09 1.97E-09 1.79E-08 5.56E-08 Average 2.31E-08 4.48E-09 1.83E-09 4.48E-09 1.84E-09 1.70E-08 5.28E-08 std.Dev 8.10E-10 1.82E-10 8.61E-11 1.82E-10 8.63E-11 6.24E-10 1.87E-09-RESRAD-BUILD Regression and Correlation output 3.50 12/05/11 08:13:39 Page: 81 Title : Humboldt Bay sensitivity analysis-Co60 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff sig coeff Sig coeff Deposition velocity 7 0.03 8 0.03 6 0.11 6 0.11 Resuspension Rate 6 -0.04 6 -0.05 4 -0.14 4 -0.14 Release time of 1 2 0.11 1 0.25 2 0.31 2 0.40 Release time of 2 8 0.02 7 0.05 9 -0.01 9 -0.01 Release time of 3 9 -0.01 9 -0.03 8 -0.03 8 -0.05 Release time of 4 4 0.04 4 0.10 5 0.11 5 0.14 Release time of 5 3 0.05 3 0.11 7 0.06 7 0.08 Release time of 6 5 0.04 5 0.10 3 0.18 3 0.23 Building Exchange Rate 1 -0.26 2 -0.22 1 -0.69 1 -0.43 R-SQUARE 0.35 0.35 0.79 0.79-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/05/11 08:13:39 Page: 82 Title : Humboldt Bay sensitivity analysisco60 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(i) at Time: I coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff sig coeff sig coeff Deposition velocity 3 0.05 3 0.07 4 0.06 4 0.07 Resuspension Rate 4 -0.04 4 -0.06 5 -0.05 7 -0.05 Release time of 1 1 0.22 1 0.50 1 0.56 1 0.86 Release time of 2 6 0.02 6 0.04 8 0.01 8 0.01 Release time of 3 8 0.01 8 0.02 9 0.00 9 0.00 Release time of 4 7 -0.01 7 -0.02 3 -0.10 3 -0.13 Release time of 5 5 0.03 5 0.06 6 0.04 5 0.06 Release time of 6 9 0.00 9 -0.01 7 0.04 6 0.05 Building Exchange Rate 2 -0.13 2 -0.11 2 -0.45 2 -0.24 R-SQUARE 0.36 0.36 0.78 0.78-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
A BARTLETT Page 48 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0-iRESRAD-BUILD Regression and Correlation output 3.50 12/05/11 08:13:39 Page: 83 Title : Humboldt Bay sensitivity analysis_Co60 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff Sig coeff Sig coeff Deposition velocity 8 -0.01 8 -0.01 4 0.08 4 0.08 Resuspension Rate 5 0.03 5 0.04 3 -0.10 3 -0.11 Release time of 1 6 0.01 6 0.03 8 0.01 8 0.01 Release time of 2 2 0.15 1 0.37 2 0.41 1 0.61 Release time of 3 4 -0.04 4 -0.09 7 -0.05 5 -0.06 Release time of 4 9 0.00 9 0.01 5 0.05 7 0.06 Release time of 5 3 0.06 3 0.14 6 0.05 6 0.06 Release time of 6 7 -0.01 7 -0.02 9 0.00 9 0.01 Building Exchange Rate 1 -0.31 2 -0.28 1 -0.73 2 -0.53 R-SQUARE 0.28 0.28 0.76 0.76-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/05/11 08:13:39 Page: 84 Title : Humboldt Bay sensitivity analysis-Co60 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(3) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 5 -0.02 7 -0.03 3 0.07 4 0.10 Resuspension Rate 3 0.05 4 0.07 5 -0.06 5 -0.08 Release time of 1 6 -0.02 5 -0.04 7 -0.02 7 -0.03 Release time of 2 8 -0.01 8 -0.03 4 -0.07 3 -0.11 Release time of 3 4 0.04 3 0.10 2 0.28 2 0.51 Release time of 4 9 0.00 9 0.00 9 0.01 9 0.01 Release time of 5 2 0.06 2 0.15 8 0.02 8 0.03 Release time of 6 7 -0.01 6 -0.04 6 0.04 6 0.07 Building Exchange Rate 1 -0.32 1 -0.32 1 -0.71 1 -0.62 R-SQUARE 0.13 0.13 0.62 0.62-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/05/11 08:13:39 Page: 85 Title : Humboldt Bay sensitivity analysisCo60 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff sig coeff Sig Coeff Deposition velocity 9 0.00 9 -0.01 4 0.13 4 0.13 Resuspension Rate 7 0.02 8 0.02 3 -0.14 3 -0.15 Release time of 1 5 0.03 5 0.06 7 0.03 7 0.04 Release time of 2 6 -0.02 6 -0.04 6 -0.08 6 -0.11 Release time of 3 4 -0.03 4 -0.08 8 -0.02 8 -0.03 Release time of 4 2 0.16 1 0.38 2 0.46 1 0.67 Release time of 5 3 0.07 3 0.16 5 0.09 5 0.13 Release time of 6 8 -0.01 7 -0.03 9 -0.01 9 -0.02 Building Exchange Rate 1 -0.31 2 -0.28 1 -0.76 2 -0.55 R-SQUARE 0.28 0.28 0.78 0.78-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
()SARTLETT Page 49 Er'7'1 E3 ART L ETT Page 49 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0" RESRAD-BUILD Regression and Correlation output 3.50 12/05/11 08:13:39 Page: 86 Title : Humboldt Bay sensitivity analysis-Co60 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(5) at Time: 1 Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 6 -0.01 7 -0.01 4 0.11 5 0.14 Resuspension Rate 9 0.00 9 0.00 3 -0.13 3 -0.17 Release time of 1 4 0.02 4 0.04 9 0.02 9 0.04 Release time of 2 7 -0.01 6 -0.01 5 -0.09 4 -0.15 Release time of 3 3 -0.04 3 -0.11 7 -0.03 7 -0.05 Release time of 4 8 0.00 8 0.01 8 0.03 8 0.04 Release time of 5 2 0.15 1 0.38 2 0.35 1 0.60 Release time of 6 5 -0.01 5 -0.02 6 0.04 6 0.07 Building Exchange Rate 1 -0.39 2 -0.38 1 -0.72 2 -0.59 R-SQUARE 0.23 0.23 0.67 0.67-Rank is set to zero if the dose is zero or, the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/05/11 08:13:39 Page: 87 Title : Humboldt Bay sensitivity analysis-Co60 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(6) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff sig coeff Sig coeff Sig Coeff 7 -0.01 7 -0.02 4 0.10 5 0.12 8 0.00 8 0.00 3 -0.13 3 -0.15 5 0.03 5 0.06 6 0.08 6 0.11 9 0.00 9 0.00 8 -0.04 8 -0.06 4 -0.04 4 -0.08 5 -0.09 4 -0.13 6 0.02 6 0.05 7 0.05 7 0.06 3 0.04 3 0.08 9 0.03 9 0.05 2 0.21 1 0.47 2 0.45 1 0.73 1 -n25 2 -0.20 1 -0.59 2 -0.37 R-SQUARE 0.39 0.39 0.73-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
0.73 ( B A RTL ETT Page 50 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Cs-137 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 13:47:16 Page: Title : Humboldt Bay sensitivity analysis.Cs137 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-CS137-1.bld 1 Ak Probabilistic Output Table of contents Table of Contents ...........................
I Probabilistic Input ........................
2 Statistics for time = O.OOE+00 yr ..... 3 statistics for time = 1.OOE+00 yr ..... 16 statistics for time = 5.00E+01 yr ..... 29 Statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.00E+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and Correlation Output ........ 81-k RESRAD-BUILD Probabilistic Output 3.50 12/03/11 13:47:16 Page: Title : Humboldt Bay sensitivity analysis-Cs137 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-CS137-1.bld 2 *Probabilistic Input Number of sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name Distribution UD LOGUNIFORM DKSUS LOGUNIFORM RFO( 1, 1) TRIANGULAR RFO( 2, 1) TRIANGULAR RFO( 3, 1) TRIANGULAR RFO( 4, 1) TRIANGULAR RFO( 5, 1) TRIANGULAR RFO( 6, 1) TRIANGULAR LAMBDAT TRUNCATED LOGNORMAL-N
=========-
-- ------ ------- --====== = = = = = = =Parameters
.0000027 .0027 2.5E-11 .0000135 1000 i0000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 13:47:16 Page: 3 **Title : Humboldt Bay sensitivity analysisCs137 Input File : C:\RESRADFamily\BUILD\3.5\HB_..SA-CS137-1.bld Evaluation Time: O.OOOOOOOOE+00 years statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 4.84E-06 Maximum 4.93E-06 Average 4.92E-06 std.Dev 7.97E-09 source 2 1.05E-06 1.08E-06 1.08E-06 2. 52E-09 3 4.83E-07 5.01E-07 4. 95E-07 1.44E-09 1.06E-06 1.08E-06 1. 08E-06 2.45E-09 4.83E-07 5.02E-07 4.96E-07 1.4SE-09 3.70E-06 3.77E-06 3.76E-06 6. 54E-09 Total 1. 17E-05 1. 19E-05 1.18E-05 2. 08E-08* Total *Minimum 4.84E-06 Maximum 4.93E-06 Average 4.92E-06 std.Dev 7.97E-09 1.05E-06 1.08E-06 1.08E-06 2.52E-09 4.83E-07 5.01E-07 4.95E-07 1.44E-09 1.06E-06 1.08E-06 1.08E-06 2.45E-09 4.83E-07 5.02E-07 4.96E-07 1.45E-09 3.70E-06 3.77E-06 3.76E-06 6.54E-09 1.17E-05 1.19E-05 1.18E-05 2.08E-08** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 13:47:16 Page: 16 A*Title : Humboldt Bay sensitivity analysis-cs137 Input File : C:\RESRADFamily\BUILD\3.5\HRBSA-Cs137-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Source Receptor 1 2-"* 1-~Minimum 4.55E-06 9.71E-07 Maximum 4.81E-06 1.05E-06 Average 4.79E-06 1.05E-06 Std.Dev 2.48E-08 7.87E-09 3 4 4.39E-07 4.85E-07 4.81E-07 4.54E-09 9.82E-07 4.38E-07 1.05E-06 4.87E-07 1.05E-06 4.82E-07 7.74E-09 4.66E-09 3.49E-06 3.68E-06 3.66E-06 2.04E-08 Total 1.11E-05 1.16E-05 1. 15E-05 6.48E-08 (f)BARTLETT Page 51 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum 4.55E-06 9.71E-07 4.39E-07 9.82E-07 4.38E-07 Maximum 4.81E-06 1.05E-06 4.85E-07 1.05E-06 4.87E-07 Average 4.79E-06 1.05E-06 4.81E-07 1.05E-06 4.82E-07 std.Dev 2.48E-08 7.87E-09 4.54E-09 7.74E-09 4.66E-09 3.49E-06 1.11E-05 3.68E-06 1.16E-05 3.66E-06 1.15E-05 2.04E-08 6.48E-08-RESRAD-BUILD Probabilistic Output 3.50 12/03/11 13:47:16 Page: 29 *Title : Humboldt Bay sensitivity analysis.Cs137 Input File : C:\RESRADFamily\BUILD\3.5\HB.SA-Cs137-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Receptor 1 1'** I Minimum 1.25E-06 Maximum 1.49E-06 Average 1.37E-06 Std.Dev 8.68E-08 Source 2 2. 41E-07 3.21E-07 2.79E-07 2.84E-08 3 9.78E-08 1.45E-07 1. 20E-07 1.69E-08 2.41E-07 3. 20E-07 2.79E-07 2.83E-08 5 9.82E-08 1. 45E-07 1.21E-07 1. 69E-08 9.21E-07 1. 13E-06 1.02E-06 7. 62E-08 Total 2. 85E-06 3. 55E-06 3.19E-06 2. 39E-07* Total Minimum Maximum Average std.Dev 1. 25E-06 1.49E-06 1. 37E-06 8.68E-08 2.41E-07 3.21E-07 2.79E-07 2.84E-08 9. 78E-08 1.45E-07 1. 20E-07 1. 69E-08 2.41E-07 3.20E-07 2.79E-07 2.83E-08 9.82E-08 1.45E-07 1.21E-07 1.69E-08 9. 21E-07 1.13E-06 1.02E-06 7.62E-08 2.85E-06 3. 55E-06 3.19E-06 2.39E-07** RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 Title : Humboldt Bay sensitivity analysisCs137 Input File : C:\RESRADFamily\BUILD\3.BLD 13:47:16 Page: 81 **Coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
=1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 9 0.02 9 0.02 3 0.26 3 0.29 Resuspension Rate 3 -0.06 6 -0.08 2 -0.30 1 -0.34 Release time of 1 2 0.09 1 0.20 4 0.21 2 0.29 Release time of 2 6 0.04 5 0.09 6 0.09 6 0.13 Release time of 3 8 0.02 8 0.05 7 0.08 7 0.12 Release time of 4 5 0.04 4 0.10 8 0.06 8 0.08 Release time of 5 7 0.03 7 0.07 9 0.02 9 0.03 Release time of 6 4 0.06 2 0.13 5 0.16' 4 0.22 Building Exchange Rate 1 -0.13 3 -0.10 1 -0.38 5 -0.21 R-SQUARE 0.39 0.39 0.76 0.76-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/03/11 13:47:16 Page: 82 Title : Humboldt Bay sensitivity analysis-Cs137 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(i) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 4 0.03 5 0.04 4 0.36 3 0.29 Resuspension Rate 3 -0.08 2 -0.10 3 -0.44 2 -0.36 Release time of 1 1 0.22 1 0.49 1 0.69 1 0.90 Release time of 2 7 0.01 7 0.03 8 0.01 8 0.01 Release time of 3 8 0.01 8 0.02 5 -0.04 5 -0.04 Release time of 4 5 0.02 4 0.05 7 -0.02 7 -0.02 Release time of 5 6 0.02 6 0.04 6 0.04 6 0.04 Release time of 6 9 -0.01 9 -0.02 9 0.01 9 0.01 Building Exchange Rate 2 -0.09 3 -0.07 2 -0.46 4 -0.18 R-SQUARE 0.38 0.38 0.88 0.88-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
V'IS ARTLETT Page 52 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 13:47:16 Page: 83 *Title : Humboldt Bay sensitivity analysisCs137 Input File : C:\RESRADFamnily\BUILD\3.BLD Coefficients for source(2) at Time: 1 Coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff sig coeff Sig coeff 9 0.00 9 0.00 4 0.23 3 0.24 8 0.01 8 0.01 3 -0.27 2 -0.29 3 0.04 3 0.09 5 0.06 5 0.08 1 0.20 1 0.47 1 0.57 1 0.91 5 -0.01 5 -0.03 7 -0.03 7 -0.05 7 -0.01 7 -0.02 8 -0.02 8 -0.02 4 0.01 4 0.03 6 -0.04 6 -0.06 6 0.01 6 0.03 9 -0.01 9 -0.02 2 -0.13 2 -0.10 2 -0.40 4 -0.20 R-SQUARE 0.33 0.33 0.78-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 13:47:16 Page: 84 Title : Humboldt Bay sensitivity analysisCs137 Input File : C:\RESRADFamily\BUILD\3.BLD 0.78 Coefficients for Source(3) at Time: 1 Coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig Coeff Sig Coeff 5 0.04 6 0.05 4 0.41 3 0.34 3 -0.05 5 -0.06 3 -0.48 2 -0.43 6 0.03 4 0.07 9 0.02 9 0.02 7 -0.01 7 -0.02 8 0.02 8 0.02 1 0.20 1 0.46 1 0.64 1 0.85 8 -0.01 8 -0.01 6 -0.05 6 -0.05 4 0.04 3 0.09 5 0.07 5 0.07 9 0.00 9 0.00 7 -0.02 7 -0.02 2 -0.16 2 -0.13 2 -0.59 4 -0.25 0.36 0.36 0.88 0.88-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/03/11 13:47:16 Page: 85 Title : Humboldt Bay sensitivity analysisCs137 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig coeff Sig Coeff Deposition velocity 8 0.01 8 0.02 4 0.27 3 0.29 Resuspension Rate 3 -0.04 6 -0.05 3 -0.33 2 -0.36 Release time of 1 4 0.04 3 0.08 6 0.05 6 0.06 Release time of 2 6 -0.02 5 -0.05 5 -0.08 5 -0.10 Release time of 3 9 0.00 9 -0.01 9 0.00 9 0.00 Release time of 4 1 0.20 1 0.47 1 0.54 1 0.82 Release time of 5 5 0.03 4 0.07 8 0.02 8 0.03 Release time of 6 7 0.02 7 0.04 7 0.02 7 0.03 Building Exchange Rate 2 -0.11 2 -0.09 2 -0.41 4 -0.21 R-SQUARE 0.36 0.36 0.79 0.79-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
C i BARTLETT Page 53 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 13:47:16 Page: 86 **Title : Humboldt Bay sensitivity analysisCs137 Input File : C:\RESRAD.Family\BUILD\3.BLD Coefficients for Source(S) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff sig Coeff Sig Coeff Deposition velocity 4 0.05 4 0.06 4 0.37 3 0.31 Resuspension Rate 3 -0.10 2 -0.13 3 -0.44 2 -0.38 Release time of 1 5 0.01 6 0.02 9 0.00 9 0.00 Release time of 2 8 0.00 8 0.01 8 -0.01 8 -0.01 Release time of 3 6 0.01 5 0.02 6 -0.02 6 -0.02 Release time of 4 7 0.01 7 0.01 5 -0.03 5 -0.03 Release time of 5 1 0.22 1 0.52 1 0.69 1 0.94 Release time of 6 9 0.00 9 0.00 7 -0.01 7 -0.01 Building Exchange Rate 2 -0.13 3 -0.11 2 -0.57 4 -0.24 R-SQUARE 0.36 0.36 0.88 0.88-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 13:47:16 Page: 87 Title : Humboldt Bay sensitivity analysis-Cs137 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for'source(6) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 5 0.03 7 0.03 4 0.35 3 0.28 Resuspension Rate 3 -0.09 2 -0.11 3 -0.42 2 -0.35 Release time of 1 6 0.02 5 0.05 8 0.03 8 0.03 Release time of 2 8 0.00 8 0.01 9 0.01 9 0.01 Release time of 3 9 0.00 9 -0.01 6 -0.07 6 -0.07 Release time of 4 7 0.02 6 0.04 7 -0.04 7 -0.04 Release time of 5 4 0.04 4 0.08 5 0.08 5 0.08 Release time of 6 1 0.21 1 0.45 1 0.68 1 0.90 Building Exchange Rate 2 -0.12 3 -0.09 2 -0.52 4 -0.21 R-SQUARE 0.41 0.41 0.88 0.88-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Srovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
O")BARTLETT Page 54 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Eu-152 Results:*" RESRAD-BUILD Probabilistic output 3.50 12/03/11 20:22:01 Page: Title : Humboldt Bay sensitivity analysisEu152 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-EU152-1.bld 1 **Probabilistic Output Table of Contents Table of Contents ...........................
1 Probabilistic Input ........................
2 Statistics for time = 0.00E+00 yr ..... 3 Statistics for time = 1.00E+00 yr ..... 16 Statistics for time = 5.00E+01 yr ..... 29 statistics for time = 1.00E+02 yr ..... 42 statistics for time = 2.00E+02 yr ..... 55 Statistics for time = 4.00E+02 yr ..... 68 Regression and Correlation Output ........ 81** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 20:22:01 Page: Title : Humboldt Bay sensitivity analysisEu152 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Eul52-1.bld 2 *Probabilistic Input Number of sample Runs: 300 Number Name 1 UD 2 DKSUS 3 RFO( 1, 1)4 RFO( 2, 1)5 RFO( 3, 1)6 RFO( 4, 1)7 RFO( 5, 1)8 RFO( 6, 1)9 LAMBDAT-------------------------------Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999-------------------
==
- RESRAD-BUILD Probabilistic Output 3.50 12/03/11 20:22:01 Page: 3 '*Title : Humboldt Bay sensitivity analysisEu152 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-EUI52-1.bld Evaluation Time: O.O0000000E+00 years Statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 8.75E-06 Maximum 8.89E-06 Average 8.82E-06 Std.Dev 7.75E-09 source 2 1.71E-06 1. 75E-06 1.72E-06 2.53E-09 7.05E-07 7. 36E-07 7.08E-07 2.17E-09 4 1. 71E-06 1. 75E-06 1. 72E-06 2.42E-09 7.08E-07 7.22E-07 7.IOE-07 1.66E-09 6.47E-06 6.60E-06 6. 52E-06 6.76E-09 Total 2.01E-05 2.04E-05 2.02E-05 2.14E-08* Total *Minimum Maximum Average 8. 75E-06 8. 89E-06 8.82E-06 1.71E-06 1.75E-06 1. 72E-06 2. 53E-09 7.05E-07 7.36E-07 7.08E-07 2.17E-09 1. 71E-06 1. 75E-06 1. 72E-06 2.42E-09 7.08E-07 7.22E-07 7. 1OE-07 1.66E-09 6.47E-06 6.60E-06 6. 52E-06 6. 76E-09 2.01E-05 2.04E-05 2.02E-05 2. 14E-08 std.Dev 7.75E-09** RESRAD-BUILD Probabilistic output 3.50 12/03/11 20:22:01 Page: 16 **Title : Humboldt Bay sensitivity analysisEu152 Input File : C:\RESRADFamily\BUILD\3.5\HRSA-Eul52-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 3*-* 1"**Minimum 8.14E-06 1.60E-06 6.61E-07 Maximum 8.39E-06 1.65E-06 6.93E-07 Average 8.36E-06 1.63E-06 6.70E-07 Std.Dev 2.15E-08 3.90E-09 2.04E-09 4 1.61E-06 1.65E-06 1. 63E-06 3.87E-09 5 6.65E-07 6.83E-07 6.73E-07 1.60E-09 6.04E-06 6.22E-06 6.17E-06 1.48E-08 Total 1.88E-05 1.93E-05 1.91E-05 4.37E-08 ((- BARTLETT Page 55 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total *Minimum 8.14E-06 1.60E-06 6.61E-07 1.61E-06 6.65E-07 6.04E-06 1.88E-05 Maximum 8.39E-06 1.65E-06 6.93E-07 1.65E-06 6.83E-07 6.22E-06 1.93E-05 Average 8.36E-06 1.63E-06 6.70E-07 1.63E-06 6.73E-07 6.17E-06 1.91E-05 std.Dev 2.15E-08 3.90E-09 2.04E-09 3.87E-09 1.60E-09 1.48E-08 4.37E-08"" RESRAD-BUILD Probabilistic Output 3.50 12/03/11 20:22:01 Page: 29 k*Title : Humboldt Bay sensitivity analysisEulS2 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Eu152-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 5.82E-07 1.12E-07 4.57E-08 1.12E-07 4.59E-08 4.29E-07 1.33E-06 Maximum 6.38E-07 1.24E-07 5.10E-08 1.24E-07 5.12E-08 4.71E-07 1.46E-06 Average 6.09E-07 1.18E-07 4.83E-08 1.18E-07 4.84E-08 4.49E-07 1.39E-06 std.Dev 2.01E-08 4.22E-09 1.88E-09 4.22E-09 1.89E-09 1.51E-08 4.49E-08* Total *Minimum 5.82E-07 1.12E-07 4.57E-08 1.12E-07 4.59E-08 4.29E-07 1.33E-06 Maximum 6.38E-07 1.24E-07 5.10E-08 1.24E-07 5.12E-08 4.71E-07 1.46E-06 Average 6.09E-07 1.18E-07 4.83E-08 1.18E-07 4.84E-08 4.49E-07 1.39E-06 std.Dev 2.01E-08 4.22E-09 1.88E-09 4.22E-09 1.89E-09 1.51E-08 4.49E-08** RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 20:22:01 Page: 81 Title : Humboldt Bay sensitivity analysiasEu152 Input File : C:\RESRADmFamily\BUILD\3.BLD coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff sig coeff sig Coeff Deposition velocity 4 -0.05 6 -0.08 6 0.03 6 0.04 Resuspension Rate 3 0.05 5 0.08 5 -0.05 5 -0.07 Release time of 1 6 0.04 4 0.10 2 0.20 2 0.31 Release time of 2 7 -0.01 7 -0.03 4 -0.10 4 -0.17 Release time of 3 5 -0.04 3 -0.11 8 -0.01 8 -0.02 Release time of 4 8 0.00 8 -0.01 9 0.01 9 0.01 Release time of 5 2 0.06 2 0.15 7 0.02 7 0.04 Release time of 6 9 0.00 9 0.01 3 0.14 3 0.23 Building Exchange Rate 1 -0.35 1 -0.34 1 -0.77 1 -0.70 R-SQUARE 0.14 0.14 0.67 0.67-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/03/11 20:22:01 Page: 82 **Title : Humboldt Bay sensitivity analysis.
SEu152 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(i) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 8 -0.01 8 -0.01 4 0.08 4 0.08 Resuspension Rate 6 0.02 7 0.03 3 -0.12 3 -0.12 Release time of 1 2 0.12 1 0.30 2 0.49 1 0.68 Release time of 2 7 0.01 6 0.03 6 -0.05 6 -0.06 Release time of 3 4 -0.03 4 -0.08 7 -0.03 7 -0.04 Release time of 4 9 0.00 9 0.01 9 0.00 9 0.00 Release time of 5 3 0.06 3 0.15 5 0.06 5 0.08 Release time of 6 5 -0.03 5 -0.07 8 0.01 8 0.01 Building Exchange Rate 1 -0.30 2 -0.28 1 -0.80 2 -0.59 R-SQUARE 0.20 0.20 0.81 0.81-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
CMB ARTLETT Page 56 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 20:22:01 Page: 83 Title : Humboldt Bay sensitivity analysisEu152 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Source(2) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig coeff Sig coeff 2 -0.05 4 -0.08 4 0.09 5 0.11 5 0.03 6 0.04 3 -0.13 3 -0.16 9 0.01 9 0.01 7 0.04 7 0.06 8 0.01 8 0.03 2 0.13 2 0.20 4 -0.05 3 -0.12 9 0.03 9 0.05 7 -0.02 7 -0.04 5 -0.08 4 -0.12 3 0.05 2 0.13 8 0.04 8 0.06 6 -0.03 5 -0.07 6 -0.06 6 -0.09 1 -0.38 1 -0.38 1 ,-0.83 1 -0.81 0.15 0.15 0.70 0.70-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/03/11 20:22:01 Page: 84 Title : Humboldt Bay sensitivity analysis_-Eu152 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 sig coeff sig coeff Sig Coeff Sig Coeff 3 -0.06 5 -0.08 3 0.23 3 0.17 4 0.05 6 0.08 2 -0.24 2 -0.18 7 -0.01 7 -0.04 9 0.00 9 0.00 9 0.00 9 -0.01 8 -0.01 8 -0.01 2 -0.07 2 -0.18 4 0.08 4 0.07 8 -0.01 8 -0.02 5 -0.05 5 -0.04 5 0.05 3 0.13 7 -0.01 7 -0.01 6 -0.03 4 -0.08 6 -0.03 6 -0.03 1 -0.32 1 -0.32 1 -0.94 1 -0.94 0.14 0.14 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/03/11 20:22:01 Page: 85 Title : Humboldt Bay sensitivity analysisEul52 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: 1 Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.06 4 -0.09 7 0.02 8 0.02 Resuspension Rate 3 0.06 5 0.09 4 -0.05 5 -0.06 Release time of 1 8 0.01 8 0.03 5 0.04 4 0.07 Release time of 2 7 -0.01 7 -0.03 3 -0.08 3 -0.13 Release time of 3 5 -0.05 3 -0.13 9 0.00 9 0.00 Release time of 4 9 -0.01 9 -0.03 2 0.13 2 0.20 Release time of 5 4 0.06 2 0.16 6 0.03 6 0.05 Release time of 6 6 -0.02 6 -0.06 8 -0.02 7 -0.03 Building Exchange Rate 1 -0.38 1 -0.38 1 -0.83 1 -0.81 R-SQUARE 0.16 0.16 0.69 0.69-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
Lý BA RTLETT Page 57 Bartlett Engineering ENG-HBi002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 20:22:01 Page: 86 *Title : Humboldt Bay sensitivity analysisEu152 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(5) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.07 3 -0.10 3 0.19 3 0.14 Resuspension Rate 4 0.06 4 0.09 2 -0.22 2 -0.17 Release time of 1 6 0.01 7 0.03 5 0.03 5 0.03 Release time of 2 8 -0.01 8 -0.01 9 -0.01 9 -0.01 Release time of 3 3 -0.06 2 -0.16 7 -0.03 6 -0.03 Release time of 4 9 0.00 9 -0.01 8 -0.02 8 -0.02 Release time of 5 7 -0.01 6 -0.03 4 0.05 4 0.04 Release time of 6 5 -.0.02 5 -0.05 6 -0.03 7 -0.03 Building Exchange Rate 1 -0.39 1 -0.38 1 -0.94 1 -0.94 R-SQUARE 0.20 0.20 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 20:22:01 Page: 87 Title : Humboldt Bay sensitivity analysisEu152 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(6) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 5 -0.05 6 -0.07 5 0.06 6 0.06 Resuspension Rate 4 0.05 5 0.07 3 -0.10 3 -0.10 Release time of 1 9 0.00 9 0.00 6 0.05 5 0.06 Release time of 2 8 0.01 8 0.02 4 -0.07 4 -0.09 Release time of 3 3 -0.05 3 -0.13 9 -0.04 9 -0.05 Release time of 4 7 0.01 7 0.02 8 0.04 8 0.05 Release time of S 2 0.06 2 0.16 7 0.04 7 0.06 Release time of 6 6 0.04 4 0.10 2 0.38 2 0.51 Building Exchange Rate 1 -0.33 1 -0.33 1 -0.84 1 -0.71 R-SQUARE 0.14 0.14 0.80 0.80-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(Vi2ARTLETT Page 58 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Eu-154 Results:*- RESRAD-BUILD Probabilistic Output 3.50 12/04/11 09:42:33 Page: Title : Humboldt Bay sensitivity analysis.Eu154 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Eu154-1.bld I **Probabilistic Output Table of Contents Table of Contents ...........................
1 Probabilistic Input ........................
2 Statistics for time = O.OOE+O0 yr .... 3 Statistics for time = 1.0OE+OO yr .... 16 statistics for time = 5.00E+01 yr .... 29 statistics for time = 1.00E+02 yr .... 42 Statistics for time = 2.00E+02 yr .... 55 Statistics for time = 4.00E+02 yr .... 68 Regression and correlation Output ........ 81** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 09:42:33 Page: Title : Humboldt Bay sensitivity analysisEulS4 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Eu154-1.bld 2 *Probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999"' RESRAD-BUILD Probabilistic Output 3.50 12/04/11 09:42:33 Page: 16 **Title : Humboldt Bay sensitivity analysisEu154 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Eul54-1.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 Receptor 1 Minimum 8.41E-06 Maximum 8.68E-06 Average 8.63E-06 std.Dev 2.23E-08 Source 2 1. 66E-06 1. 71E-06 1.69E-06 4. 20E-09 3 6.86E-07 7. 25E-07 6.96E-07 2.42E-09 1. 67E-06 1. 71E-06 1. 69E-06 4. 17E-09 5 6.90E-07 7. 11E-07 6.98E-07 1.81E-09 6 6.24E-06 6.45E-06 6. 38E-06 1. 56E-08 Total 1.94E-05 2.OOE-05 1.98E-05 4.63E-08* Total Minimum 8.41E-06 Maximum 8.68E-06 Average 8.63E-06 std.Dev 2.23E-08 1.66E-06 1.71E-06 1.69E-06 4.20E-09 6.86E-07 7. 2 5E-07 6.96E-07 2.42E-09 1.67E-06 1.71E-06 1.69E-06 4.17E-09 6.90E-07 7.11E-07 6.98E-07 1. 81E-09 6.24E-06 6.45E-06 6.38E-06 1.56E-08 1.94E-05 2. 00E-05 1.98E-05 4.63E-08** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 09:42:33 Page: 16 '4 Title : Humboldt Bay sensitivity analysis.Eu154 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Eu154-1.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 3 4 Minimum 8.41E-06 1.66E-06 6.86E-07 1.67E-06 Maximum 8.68E-06 1.71E-06 7.25E-07 1.71E-06 Average 8.63E-06 1.69E-06 6.96E-07 1.69E-06 std.Dev 2.23E-08 4.20E-09 2.42E-09 4.17E-09 6.90E-07 7. 11E-07 6.98E-07 1.81E-09 6 Total 6.24E-06 1.94E-05 6.45E-06 2.00E-05 6.38E-06 1.98E-05 1.56E-08 4.63E-08 Q©BARTLETT Page 59 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum 8.41E-06 Maximum 8.68E-06 Average 8.63E-06 std.Dev 2.23E-08 1.66E-06 6.86E-07 1.71E-06 7.25E-07 1.69E-06 6.96E-07 4.20E-09 2.42E-09 1. 67E-06 1. 71E-06 1. 69E-06 4.17E-09 6. 90E-07 7. 11E-07 6. 98E-07 1. 81E-09 6.24E-06 6.45E-06 6. 38E-06 1.56E-08 1. 94E-05 2.OOE-05 1.98E-05 4. 63E-08** RESRAD-BUILD Probabilistic output 3.50 12/04/11 09:42:33 Page: 29 Title : Humboldt Bay sensitivity analysisEu154 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Eu154-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Receptor*-* 1-*Minimum Maximum Average std.Dev 1 1. 62E-07 1. 79E-07 1. 70E-07 5. 74E-09 source 2 3.13E-08 3.48E-08 3. 30E-08 1. 24E-09 1. 27E-08 1.43E-08 1.35E-08 5.67E-10 4 3.13E-08 3.48E-08 3.30E-08 1. 24E-09 1. 28E-08 1.44E-08 1.35E-08 5. 69E-10 1.20E-07 1. 32E-07 1. 25E-07 4. 37E-09 Total 3.70E-07 4.08E-07 3.89E-07 1. 30E-08* Total ** Total*Minimum Maximum Average std.Dev 1. 62E-07 1. 79E-07 1. 70E-07 5. 74E-09 3.13E-08 3.48E-08 3.30E-08 1. 24E-09 1. 27E-08 1.43E-08 1. 35E-08 5.67E-10 3.13E-08 3.48E-08 3. 30E-08 1. 24E-09 1.28E-08 1. 44E-08 1.35E-08 5.69E-10 1.20E-07 1. 32E-07 1. 25E-07 4. 37E-09 3. 70E-07 4.08E-07 3.89E-07 1. 30E-08** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 Title : Humboldt Bay sensitivity analysisEu154 Input File : C:\RESRADFamily\BUILD\3.BLD 09:42:33 Page: 81 **coefficients for Total at Time: 1 coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 5 -0.05 5 -0.07 5 0.06 5 0.07 Resuspension Rate 2 0.06 4 0.09 4 -0.07 4 -0.08 Release time of 1 6 0.02 6 0.06 2 0.15 2 0.21 Release time of 2 8 0.01 8 0.02 8 -0.01 8 -0.02 Release time of 3 4 -0.05 3 -0.14 6 -0.04 6 -0.05 Release time of 4 9 0.00 9 0.00 9 0.01 9 0.02 Release time of 5 3 0.05 2 0.15 7 0.03 7 0.05 Release time of 6 7 -0.01 7 -0.03 3 0.11 3 0.16 Building Exchange Rate 1 -0.36 1 -0.36 1 -0.84 1 -0.78 R-SQUARE 0.14 0.14 0.75 0.75-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 09:42:33 Page: 82 *Title : Humboldt Bay sensitivity analysisEu154 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(i) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff sig coeff Deposition velocity 7 -0.02 8 -0.04 4 0.05 7 0.05 Resuspension Rate S 0.04 6 0.06 3 -0.10 3 -0.09 Release time of 1 2 0.10 2 0.24 2 0.48 2 0.64 Release time of 2 8 0.01 7 0.04 7 -0.04 6 -0.05 Release time of 3 4 -0.04 4 -0.11 S -0.05 4 -0.06 Release time of 4 9 0.00 9 -0.01 9 -0.01 9 -0.01 Release time of 5 3 0.06 3 0.15 6 0.05 5 0.06 Release time of 6 6 -0.02 5 -0.06 8 0.03 8 0.03 Building Exchange Rate 1 -0.31 1 -0.30 1 -0.83 1 -0.65 R-SQUARE 0.16 0.16 0.81 0.81-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(fUs B A RTL ETT Page 60 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0*;iRESRAD-BUILD Regression and Correlation output 3.50 12/04/11 09:42:33 Page: 83 Title : Humboldt Bay sensitivity analysisaEu154 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(2) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.06 4 -0.09 8 0.03 8 0.03 Resuspension Rate 4 0.05 5 0.08 5 -0.04 7 -0.04 Release time of 1 9 0.00 9 0.00 9 -0.01 9 -0.02 Release time of 2 8 -0.01 8 -0.02 2 0.12 2 0.16 Release time of 3 2 -0.07 2 -0.18 3 -0.09 3 -0.13 Release time of 4 6 -0.01 6 -0.03 4 -0.05 4 -0.07 Release time of 5 5 0.05 3 0.13 7 0.04 6 0.05 Release time of 6 7 -0.01 7 -0.02 6 0.04 5 0.05 Building Exchange Rate 1 -0.38 1 -0.37 1 -0.87 1 -0.87 R-SQUARE 0.16 0.16 0.76 0.76-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 09:42:33 Page: 84 Title : Humboldt Bay sensitivity analysisEu154 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff sig coeff Sig Coeff Deposition velocity 4 -0.06 5 -0.09 3 0.19 3 0.13 Resuspension Rate 3 0.06 4 0.09 2 -0.20 2 -0.14 Release time of 1 7 -0.01 7 -0.04 9 0.00 9 0.00 Release time of 2 9 0.00 9 -0.01 8 0.01 8 0.01 Release time of 3 2 -0.07 2 -0.19 7 0.02 7 0.02 Release time of 4 8 -0.01 8 -0.01 5 -0.03 5 -0.02 Release time of 5 5 0.04 3 0.12 6 -0.02 6 -0.02 Release time of 6 6 -0.03 6 -0.08 4 -0.05 4 -0.04 Building Exchange Rate 1 -0.32 1 -0.31 1 -0.95 1 -0.94 R-SQUARE 0.14 0.14 0.90 0.90-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 09:42:33 Page: 85 Title : Humboldt Bay sensitivity analysisEu154 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(4) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.06 4 -0.09 9 0.00 9 0.00 Resuspension Rate 5 0.06 5 0.08 7 -0.02 7 -0.02 Release time of 1 9 0.00 9 0.01 6 0.03 6 0.04 Release time of 2 8 -0.01 8 -0.02 4 -0.07 4 -0.09 Release time of 3 3 -0.06 3 -0.16 3 -0.08 3 -0.12 Release time of 4 6 -0.02 6 -0.06 2 0.11 2 0.15 Release time of 5 4 0.06 2 0.16 5 0.05 5 0.07 Release time of 6 7 -0.02 7 -0.05 8 0.01 8 0.01 Building Exchange Rate 1 -0.37 1 -0.37 1 -0.87 1 -0.86 R-SQUARE 0.15 0.15 0.75 0.75-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARLTTPge6 1"IBARTLETT Page 61 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 09:42:33 Page: 86 Title : Humboldt Bay sensitivity analysisEu154 Input rile : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(5) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 sig Coeff Sig Coeff Sig Coeff Sig Coeff 2 -0.07 3 -0.11 3 0.15 3 0.11 3 0.07 4 0.10 2 -0.16 2 -0.11 7 0.01 7 0.03 6 0.02 6 0.02 8 -0.01 8 -0.02 9 -0.01 9 0.00 4 -0.06 2 -0.16 7 -0.02 7 -0.01 9 0.00 9 -0.01 8 -0.01 8 -0.01 5 -0.02 5 -0.05 5 -0.03 5 -0.03 6 -0.02 6 -0.05 4 -0.03 4 -0.03 1 -0.39 1 -0.38 1 -0.95 1 -0.94 0.21 0.21 0.90 0.90-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it 0rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 09:42:33 Page: 87 Title : Humboldt Bay sensitivity analysis._Eu154 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition Velocity 4 -0.05 5 -0.08 4 0.05 7 0.04 Resuspension Rate 2 0.06 4 0.10 3 -0.07 3 -0.07 Release time of 1 9 0.00 9 -0.01 9 0.01 9 0.02 Release time of 2 7 0.01 7 0.03 6 -0.04 5 -0.05 Release time of 3 5 -0.05 3 -0.14 5 -0.04 4 -0.05 Release time of 4 8 0.01 8 0.02 8 0.03 8 0.04 Release time of 5 3 0.06 2 0.17 7 0.04 6 0.05 Release time of 6 6 0.01 6 0.03 2 0.33 2 0.44 Building Exchange Rate 1 -0.34 1 -0.34 1 -0.87 1 -0.79 R-SQUARE 0.13 0.13 0.81 0.81-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
SARLTPae6 hr")BARTLETT Page 62 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 H-3 Results:** RESRAD-BUILD Probabilistic output 3.50 12/04/11 11:25:48 Page: Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-H3-1.bld 1 **Probabilistic Output Table of Contents Table of Contents ...........................
1 Probabilistic Input ........................
2 statistics for time = O.OOE+00 yr ..... 3 Statistics for time = 1.OOE+00 yr ..... 16 statistics for time = 5.00E+01 yr ..... 29 Statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation output ........ 81** RESRAD-BUILD Probabilistic output 3.50 12/04/11 11:25:48 Page: Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-H3-1.bld 2 **Probabilistic Input Number of sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
---== -==Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999-RESRAD-BUILD Probabilistic Output 3.50 12/04/11 11:25:48 Page: 3 *k Title : Humboldt Bay sensitivity analysisH3 Input Pile : C:\RESRADFamily\BUILD\3.5\HBSA-H3-1.bld Evaluation Time: 0.OOOOOOOOE+O0 years Statistics for Dose (mrem) for Time: 1 Source 1 2 Receptor Minimum Maximum Average std.Dev 6.41E-10 1.21E-09 6. 71E-10 4. 88E-11 2.82E-10 4. 72E-10 2. 96E-10 2. 16E-11 1.88E-10 3.81E-10 1.98E-10 1. 64E-11 2.83E-10 4. 76E-10 2.96E-10 2.04E-11 5 1.88E-10 3.02E-10 1. 97E-10 1.41E-11 6.39E-10 1. 26E-09 6.71E-10 4.92E-11 Total 2.22E-09 4. 08E-09 2.33E-09 1.65E-10" Total *Minimum Maximum Average Std.Dev 6.41E-10 1. 21E-09 6.71E-10 4. 88E-11 2.82E-10 4.72E-10 2.96E-10 2.16E-11 1. 88E-10 3.81E-10 1. 98E-10 1. 64E-11 2. 83E-10 4. 76E-10 2.96E-10 2.04E-11 1.88E-10 3.02E-10 1.97E-10 1.41E-11 6. 39E-10 1.26E-09 6.71E-10 4.92E-11 2. 22E-09 4.08E-09 2. 33E-09 1.65E-10** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 11:25:48 Page: 16 *Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRAD-Family\BUILD\3.5\HB-SA-H3-1.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 source Receptor 1 2 Minimum 5.42E-10 2.51E-10 Maximum 1.11E-09 4.35E-10 Average 6.24E-10 2.76E-10 std.Dev 4.21E-11 1.81E-11 3 4 5 6 1.65E-10 2.53E-10 1.70E-10 5.42E-10 3.48E-10 4.38E-10 2.72E-10 1.15E-09 1.84E-10 2.76E-10 1.84E-10 6.24E-10 1.40E-11 1.71E-11 1.15E-11 4.26E-11 Total 1.97E-09 3. 74E-09 2. 17E-09 1.42E-10 C)BARTLETT Page 63 E3 ART LETT Page 63 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total .Minimum 5.42E-10 2.51E-10 1.65E-10 2.53E-10 1.70E-10 5.42E-10 1.97E-09 Maximum 1.11E-09 4.35E-10 3.48E-10 4.38E-10 2.72E-10 1.15E-09 3.74E-09 Average 6.24E-10 2.76E-10 1.84E-10 2.76E-10 1.84E-10 6.24E-10 2.17E-09 std.Dev 4.21E-11 1.81E-11 1.40E-11 1.71E-11 1.15E-11 4.26E-11 1.42E-10*' RESRAD-BUILD Probabilistic Output 3.50 12/04/11 11:25:48 Page: 29 *Title : Humboldt Bay sensitivity analysis-H3 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-H3-I.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 source Receptor 1 2 3 4 5 6 Total Minimum O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 Maximum 3.22E-11 1.45E-11 9.45E-12 1.44E-11 9.55E-12 3.25E-11 1.12E-10 Average 1.59E-11 7.03E-12 4.69E-12 7.04E-12 4.68E-12 1.60E-11 5.54E-11 Std.Dev 1.16E-11 5.10E-12 3.39E-.12 5.09E-12 3.41E-12 1.1SE-11 3.78E-11* Total *Minimum O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 Maximum 3.22E-11 1.45E-11 9.45E-12 1.44E-11 9.55E-12 3.25E-11 1.12E-10 Average 1.59E-11 7.03E-12 4.69E-12 7.04E-12 4.68E-12 1.60E-11 5.54E-11 std.Dev 1.16E-11 5.10E-12 3.39E-12 5.09E-12 3.41E-12 1.15E-11 3.78E-11** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 11:25:48 Page: 81 Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Total at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.06 5 -0.09 3 0.48 3 0.34 Resuspension Rate 6 0.04 8 0.06 2 -0.54 2 -0.40 Release time of 1 7 -0.03 6 -0.08 6 -0.14 6 -0.11 Release time of 2 9 -0.01 9 -0.02 7 -0.08 7 -0.06 Release time of 3 2 -0.07 2 -0.17 8 0.03 8 0.02 Release time of 4 8 -0.03 7 -0.07 5 -0.16 5 -0.12 Release time of 5 5 0.04 4 0.11 9 0.00 9 0.00 Release time of 6 4 -0.06 3 -0.14 4 -0.20 4 -0.16 Building Exchange Rate 1 -0.35 1 -0.33 1 -0.95 1 -0.84 R-SQUARE 0.23 0.23 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:25:48 Page: 82 Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(l) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 6 -0.05 6 -0.08 3 0.48 4 0.35 Resuspension Rate 5 0.06 5 0.08 2 -0.53 2 -0.40 Release time of 1 2 -0.10 2 -0.24 4 -0.45 3 -0.40 Release time of 2 9 0.00 9 0.01 9 -0.02 9 -0.01 Release time of 3 3 -0.06 3 -0.16 7 0.07 6 0.06 Release time of 4 8 -0.02 8 -0.05 5 -0.10 5 -0.08 Release time of 5 4 0.06 4 0.15 6 0.07 7 0.06 Release time of 6 7 -0.03 7 -0.06 8 -0.07 8 -0.06 Building Exchange Rate 1 -0.34 1 -0.32 1 -0.94 1 -0.84 R-SQUARE 0.22 0.22 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
Q SA RT E TPae6 (&U"'i 8 A R T L E T T Page 64 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0-RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:25:48 Page: 83 Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(2) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig coeff Sig coeff 4 -0.05 5 -0.08 3 0.51 4 0.36 8 0.01 9 0.01 2 -0.57 3 -0.42 9 0.00 8 -0.01 8 0.04 8 0.03 2 -0.09 2 -0.22 4 -0.49 2 -0.44 3 -0.05 3 -0.13 6 0.06 6 0.05 7 -0.02 7 -0.04 5 -0.11 5 -0.08 5 0.03 4 0.09 7 0.06 7 0.05 6 -0.02 6 -0.05 9 -0.03 9 -0.02 1 -0.35 1 -0.33 1 -0.95 1 -0.83 0.23 0.23 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:25:48 Page: 84 Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig coeff Sig Coeff Deposition velocity 3 -0.05 5 -0.08 3 0.45 4 0.32 Resuspension Rate 6 0.03 7 0.04 2 -0.52 2 -0.38 Release time of 1 7 -0.02 6 -0.04 8 0.03 8 0.03 Release time of 2 9 0.00 9 0.00 9 -0.02 9 -0.02 Release time of 3 2 -0.11 2 -0.29 4 -0.41 3 -0.37 Release time of 4 8 -0.01 8 -0.03 6 -0.07 7 -0.05 Release time of 5 4 0.04 3 0.11 7 0.07 6 0.05 Release time of 6 5 -0.03 4 -0.08 5 -0.07 5 -0.06 Building Exchange Rate 1 -0.32 1 -0.30 1 -0.95 1 -0.84 R-SQUARE 0.20 0.20 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 11:25:48 Page: 85 Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable PCC SRC PRCC SRRC 1 1 1 1 sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.05 5 -0.08 4 0.46 4 0.32 Resuspension Rate 7 0.02 7 0.03 3 -0.53 3 -0.38 Release time of 1 9 0.00 9 -0.01 7 0.04 7 0.03 Release time of 2 8 0.00 8 -0.01 9 0.00 9 0.00 Release time of 3 4 -0.05 3 -0.13 5 0.10 5 0.08 Release time of 4 2 -0.11 2 -0.28 2 -0.55 2 -0.51 Release time of 5 5 0.05 4 0.13 8 0.02 8 0.02 Release time of 6 6 -0.03 6 -0.07 6 -0.06 6 -0.05 Building Exchange Rate 1 -0.36 1 -0.34 1 -0.95 1 -0.83 R-SQUARE 0.24 0.24 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(SBARTLETT Page 65 Bartleft Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0-RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:25:48 Page: 86 Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for source(5) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.07 4 -0.10 3 0.47 4 0.33 Resuspension Rate 5 0.04 5 0.06 2 -0.53 2 -0.39 Release time of 1 7 0.01 7 0.02 8 0.05 8 0.04 Release time of 2 9 -0.01 9 -0.02 9 0.01 9 0.01 Release time of 3 4 -0.06 3 -0.16 7 0.07 7 0.05 Release time of 4 8 -0.01 8 -0.02 5 -0.12 5 -0.09 Release time of 5 3 -0.06 2 -0.16 4 -0.42 3 -0.37 Release time of 6 6 -0.02 6 -0.04 6 -0.07 6 -0.06 Building Exchange Rate 1 -0.35 1 -0.33 1 -0.95 1 -0.84 R-SQUARE 0.24 0.24 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:25:48 Page: 87 Title : Humboldt Bay sensitivity analysisH3 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.06 5 -0.09 3 0.49 4 0.35 Resuspension Rate 5 0.06 6 0.08 2 -0.55 3 -0.41 Release time of 1 8 -0.01 8 -0.02 9 0.01 9 0.00 Release time of 2 9 0.01 9 0.02 8 0.01 8 0.00 Release time of 3 3 -0.06 3 -0.16 6 0.06 6 0.05 Release time of 4 7 -0.01 7 -0.03 5 -0.09 5 -0.07 Release time of 5 6 0.06 4 0.15 7 0.02 7 0.02 Release time of 6 2 -0.12 2 -0.30 4 -0.47 2 -0.43 Building Exchange Rate 1 -0.34 1 -0.32 1 -0.94 1 -0.83 R-SQUARE 0.22 0.22 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
C BARTLETT Page 66 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 1-129 Results:** RESRAD-BUILD Probabilistic output 3.50 12/04/11 11:28:19 Page: Title : Humboldt Bay sensitivity analysisI129 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-1129-1.bld 1 **Probabilistic output Table of contents Table of Contents ...........................
1 Probabilistic Input ........................
2 statistics for time = O.OOE+00 yr ..... 3 statistics for time = 1.OOE+00 yr ..... 16 Statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation output ........ 81** RESRAD-BUILD Probabilistic output 3.50 12/04/11 11:28:19 Page: Title : Humboldt Bay sensitivity analysis.I129 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-i129-1.bld 2 **Probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 11:28:19 Page: 3 *Title : Humboldt Bay sensitivity analysis-I129 Input File : C:\RESRADFamily\BUILD\3.5\
BHB_SA-i129-1.bld Evaluation Time: 0.00000000E+00 years Statistics for Dose (mrem) for Time: 1 Receptor Minimum Maximum Average stdDev 2. 97E-06 3. 66E-06 3.21E-06 4. 64E-08 Source 2 1.25E-06 1. 55E-06 1. 34E-06 2.04E-08 8.16E-07 1.01E-06 8. 74E-07 1. 33E-08 1. 28E-06 1. 52E-06 1. 34E-06 1. 85E-08 5 6 8.13E-07 2.98E-06 1.02E-06 3.64E-06 8.74E-07 3.16E-06 1.39E-08 4.22E-08 Total 1.03 E-05 1. 23E-05 1. 08E-05 1. 50E-07* Total *Minimum 2.97E-06 1.25E-06 Maximum 3.66E-06 1.55E-06 Average 3.21E-06 1.34E-06 std.Dev 4.64E-08 2.04E-08 8.16E-07 1.01E-06 8. 74E-07 1. 33E-08 1. 28E-06 1. 52E-06 1. 34E-06 1. 85E-08 8.13E-07 1.02E-06 8.74E-07 1. 39E-08 2.98E-06 3.64E-06 3.16E-06 4.22E-08 1. 03E-O5 1. 23E-05 1. 08E-05 1. 50E-07** RESRAD-BUILD Probabilistic output 3.50 12/04/11 11:28:19 Page: 16 *Title : Humboldt Bay sensitivity analysisI129 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-129-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Receptor 1 Minimum 2.42E-06 Maximum 3.59E-06 Average 3.16E-06 Std.Dev 7.91E-08 Source 2 1. OIE-06 1. 51E-06 1. 32E-06 3.48E-08 6.65E-07 9. 71E-07 8.59E-07 2.18E-08 1. 06E-06 1. 50E-06 1. 32E-06 3. 37E-08 6. 53E-07 9.60E-07 8.59E-07 2.18E-08 6 Total 2.52E-06 9.12E-06 3.57E-06 1.21E-05 3.11E-06 1.06E-05 7.63E-08 2.51E-07 (rB ARTLETT Page 67 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total *Minimum 2.42E-06 1.01E-06 6.65E-07 1.06E-06 6.53E-07 2.52E-06 9.12E-06 Maximum 3.59E-06 1.51E-06 9.71E-07 1.50E-06 9.60E-07 3.57E-06 1.21E-05 Average 3.16E-06 1.32E-06 8.59E-07 1.32E-06 8.59E-07 3.11E-06 1.06E-05 Std.Dev 7.91E-08 3.48E-08 2.18E-08 3.37E-08 2.18E-08 7.63E-08 2.51E-07** RESRAD-BUILD Probabilistic output 3.50 12/04/11 11:28:19 Page: 29 *Title : Humboldt Bay sensitivity analysisI129 Input File : C:\RESRADFamily\BUILD\3.5\HB_SA-i129-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 3.10E-07 6.95E-08 2.85E-08 6.95E-08 2.86E-08 2.63E-07 7.69E-07 Maximum 2.66E-06 1.10E-06 7.12E-07 1.10E-06 7.13E-07 2.61E-06 8.82E-06 Average 1.43E-06 5.62E-07 3.56E-07 5.63E-07 3.56E-07 1.38E-06 4.65E-06 std.Dev 8.38E-07 3.68E-07 2.45E-07 3.68E-07 2.44E-07 8.36E-07 2.73E-06* Total *Minimum 3.10E-07 6.95E-08 2.85E-08 6.95E-08 2.86E-08 2.63E-07 7.69E-07 Maximum 2.66E-06 1.10E-06 7.12E-07 1.10E-06 7.13E-07 2.61E-06 8.82E-06 Average 1.43E-06 5.62E-07 3.56E-07 5.63E-07 3.56E-07 1.38E-06 4.65E-06 std.Dev 8.38E-07 3.68E-07 2.45E-07 3.68E-07 2.44E-07 8.36E-07 2.73E-06** RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:28:19 Page: 81 Title : Humboldt Bay sensitivity analysisf1129 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff Sig coeff Sig Coeff Deposition velocity 2 -0.07 3 -0.11 3 0.28 3 0.33 Resuspension Rate 5 -0.02 8 -0.04 2 -0.53 1 -0.70 Release time of 1 3 0.04 2 0.12 4 0.21 4 0.30 Release time of 2 7 -0.02 6 -0.05 8 0.03 8 0.04 Release time of 3 9 -0.01 9 -0.02 9 0.00 9 0.00 Release time of 4 4 0.03 4 0.08 5 0.15 5 0.21 Release time of 5 6 0.02 5 0.06 6 0.05 6 0.07 Release time of 6 8 -0.02 7 -0.04 7 0.04 7 0.06 Building Exchange Rate 1 -0.19 1 -0.18 1 -0.56 2 -0.35 R-SQUARE 0.08 0.08 0.74 0.74-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 11:28:19 Page: 82 Title : Humboldt Bay sensitivity analysis-i129 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(1) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 3 -0.10 4 0.29 4 0.33 Resuspension Rate 4 -0.03 6 -0.05 2 -0.54 2 -0.68 Release time of 1 2 0.07 1 0.18 3 0.48 1 0.73 Release time of 2 7 -0.01 7 -0.04 8 -0.02 8 -0.02 Release time of 3 8 -0.01 8 -0.04 7 -0.05 7 -0.07 Release time of 4 6 0.02 5 0.06 5 0.08 5 0.11 Release time of 5 9 0.01 9 0.03 9 0.01 9 0.02 Release time of 6 5 -0.02 4 -0.06 6 -0.07 6 -0.09 Building Exchange Rate 1 -0.18 2 -0.17 1 -0.58 3 -0.35 R-SQUARE 0.07 0.07 0.76 0.76-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained regression on the independent variables.
IBARTLETT Page 68 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 I. RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:28:19 Page: 83 Title : Humboldt Bay sensitivity analysisI129 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(2) at Time: 1 coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig Coeff Sig coeff Deposition velocity 2 -0.07 2 -0.12 4 0.28 4 0.33 Resuspension Rate 9 0.00 9 0.00 2 -0.52 1 -0.69 Release time of 1 5 0.03 5 0.07 7 0.06 7 0.08 Release time of 2 3 0.04 3 0.11 3 0.43 2 0.69 Release time of 3 6 -0.01 6 -0.04 8 -0.05 8 -0.07 Release time of 4 7 0.01 7 0.03 6 0.09 6 0.13 Release time of 5 8 0.01 8 0.02 9 -0.02 9 -0.02 Release time of 6 4 -0.03 4 -0.07 5 -0.10 5 -0.15 Building Exchange Rate 1 -0.18 1 -0.18 1 -0.54 3 -0.34 R-SQUARE 0.06 0.06 0.73 0.73-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:28:19 Page: 84 Title : Humboldt Bay sensitivity analysisI129 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(3) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of S Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig coeff Sig coeff 2 -0.07 3 -0.10 4 0.30 4 0.34 7 -0.01 9 -0.02 2 -0.54 1 -0.70 6 0.02 6 0.06 7 0.05 7 0.08 4 -0.02 4 -0.07 8 -0.01 8 -0.02 3 0.05 2 0.13 3 0.39 2 0.62 9 0.01 8 0.03 6 0.08 6 0.11 8 0.01 7 0.03 9 0.00 9 0.01 5 -0.02 5 -0.06 5 -0.10 5 -0.14 1 -0.19 1 -0.18 1 -0.58 3 -0.36 0.06 0.06 0.74 0.74-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- ' RESRAD-BUILD Regression and Correlation output 3.50 Title : Humboldt Bay sensitivity analysis-j129 Input File : C:\RESRADFamily\BUILD\3.BLD 12/04/11 11:28:19 Page: 85 "'Coefficients for Source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 3 -0.08 3 -0.12 4 0.31 3 0.37 Resuspension Rate 9 -0.01 9 -0.01 2 -0.54 2 -0.71 Release time of 1 4 0.04 4 0.10 7 0.06 7 0.08 Release time of 2 6 -0.03 6 -0.08 9 -0.02 9 -0.03 Release time of 3 8 -0.02 8 -0.06 6 -0.07 6 -0.10 Release time of 4 2 0.08 1 0.22 3 0.49 1 0.78 Release time of 5 7 0.03 7 0.07 8 0.03 8 0.05 Release time of 6 5 -0.03 5 -0.09 5 -0.09 5 -0.13 Building Exchange Rate 1 -0.18 2 -0.18 1 -0.56 4 -0.34 R-SQUARE 0.08 0.08 0.74 0.74-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
JB ARTLETT Page 69 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/04/11 11:28:19 Page: 86 **Title : Humboldt Bay sensitivity analysis-I129 Input File : C:\RESRAD.Family\BUILD\3.BLD Coefficients for Source(S) at Time: I Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.06 3 -0.10 4 0.30 3 0.35 Resuspension Rate 4 -0.03 7 -0.05 2 -0.54 1 -0.72 Release time of 1 7 0.02 6 0.06 7 0.06 8 0.09 Release time of 2 6 -0.03 5 -0.08 9 -0.03 9 -0.04 Release time of 3 9 -0.01 9 -0.04 8 -0.06 7 -0.09 Release time of 4 5 0.03 4 0.08 5 0.11 5 0.15 Release time of 5 3 0.05 2 0.13 3 0.43 2 0.69 Release time of 6 8 -0.02 8 -0.05 6 -0.10 6 -0.15 Building Exchange Rate 1 -0.18 1 -0.17 1 -0.56 4 -0.34 R-SQUARE 0.06 0.06 0.74 0.74-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and I and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 11:28:19 Page: 87 Title : Humboldt Bay sensitivity analysis.
s_I129 Input File : C:\RESRAD-Family\BUILD\3.BLD Coefficients for Source(6) at Time: I Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.07 2 -0.11 4 0.29 4 0.34 Resuspension Rate 4 -0.03 7 -0.05 2 -0.54 1 -0.71 Release time of 1 3 0.04 3 0.11 6 0.07 6 0.10 Release time of 2 5 -0.03 4 -0.08 8 -0.03 8 -0.04 Release time of 3 9 -0.01 9 -0.03 7 -0.05 7 -0.07 Release time of 4 7 0.02 6 0.06 5 0.09 5 0.12 Release time of 5 6 0.02 5 0.07 9 -0.01 9 -0.01 Release time of 6 8 0.01 8 0.04 3 0.37 2 0.56 Building Exchange Rate 1 -0.19 1 -0.19 1 -0.57 3 -0.35 R-SQUARE 0.09 0.09 0.74 0.74-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained&rBARTLETT Page 70 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Nb-94 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 13:50:18 Page: Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRADFamily\BUILD\3.5\HB_.SA-Nb94-1.bld 1 **Probabilistic output Table of Contents Table of Contents ........................
1 Probabilistic Input ......................
2 Statistics for time = 0.OOE+O0 yr ..... 3 Statistics for time = 1.OOE+0O yr ..... 16 Statistics for time = S.OOE+O1 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.00E+02 yr ..... 55 Statistics for time = 4.00E+02 yr ..... 68 Regression and correlation output ........ 81** RESRAD-BUILD Probabilistic output 3.50 12/04/11 13:50:18 Page: Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Nb94-1.bld 2 **Probabilistic Input Number of Sample Runs: 300 Number Name 1 UD 2 DKSUS 3 RFO( 1, 1)4 RFO( 2, 1)5 RFO( 3, 1)6 RFO( 4, 1)7 RFO( 5, 1)8 RFO( 6, 1)9 LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999=. -.------------------.= ..= = ...-RESRAD-BUILD Probabilistic Output 3.50 12/04/11 13:50:18 Page: 3 **Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Nb94-1.bld Evaluation Time: 0.OOOOOOOOE+O0 years statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 1.24E-05 Maximum 1.26E-05 Average 1.24E-05 std.Dev 1.73E-08 source 2 2.41E-06 2.48E-06 2.42E-06 7. 48E-09 9. 87E-07 1.05E-06 9.91E-07 5. 88E-09 2.41E-06 2.47E-06 2.42E-06 6. 85E-09 9.90E-07 1.06E-06 9.94E-07 5.52E-09 6 Total 9.13E-06 2.83E-05 9.35E-06 2.89E-05 9.18E-06 2.85E-05 1.59E-08 5.61E-08 Total ** Total*Minimum 1.24E-05 Maximum 1.26E-05 Average 1.24E-05 std.Dev 1.73E-08 2.41E-06 2.48E-06 2.42E-06 7. 48E-09 9.87E-07 1.05E-06 9.91E-07 5.88E-09 2.41E-06 2.47E-06 2.42E-06 6. 85E-09 9.90E-07 1. 06E-06 9.94E-07 5.52E-09 9.13E-06 9. 35E-06 9.18E-06 1. 59E-08 2. 83E-05 2.89E-05 2.85E-05 5.61E-08** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 13:50:18 Page: 16 **Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRADFamily\BUILD\3.5\HRBSA-Nb94-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 Minimum 1.21E-05 2.38E-06 Maximum 1.25E-05 2.46E-06 Average 1.24E-05 2.41E-06 Std.Dev 3.10E-08 7.46E-09 3 9.75E-07 1.04E-06 9.89E-07 5.21E-09 2. 38E-06 2.46E-06 2.41E-06 7. OSE-09 9.82E-07 1.04E-06 9.92E-07 4.70E-09 6 Total 8.97E-06 2.79E-05 9.29E-06 2.88E-05 9.17E-06 2.84E-05 2.27E-08 7.OOE-08 (O" BARTLETT Page 71 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum 1.21E-05 Maximum 1.25E-05 Average 1.24E-05 std.Dev 3.10E-08 2.38E-06 9.75E-07 2.46E-06 1.04E-06 2.41E-06 9.89E-07 7.46E-09 5.21E-09 2. 38E-06 2.46E-06 2.41E-06 7.05E-09 9.82E-07 1.04E-06 9.92E-07 4. 70E-09 8.97E-06 9.29E-06 9.17E-06-2.27E-08 2.79E-05 2.88E-05 2.84E-05 7.OOE-08-RESRAD-BUILD Probabilistic output 3.50 12/04/11 13:50:18 Page: 29 kk Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRAD_Family\BUILD\3.S\HBSA-Nb94-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Receptor Minimum Maximum Average std. Dev 1 1. 11E-05 1. 22E-05 1. 16E-05 3. 78E-07 source 2 2.14E-06 2. 36E-06 2. 25E-06 7. 82E-08 8.69E-07 9. 65E-07 9. 15E-07 3.43E-08 4 2.14E-06 2. 36E-06 2. 25E-06 7.82E-08 8.72E-07 9.68E-07 9.19E-07 3.44E-08 8.18E-06 8.98E-06 8. 56E-O6 2. 83E-07 Total 2. 53E-05 2.78E-05 2. 6SE-05 8.40E-07* Total ** Total*minimum Maximum Average std.Dev 1. 11E-05 1. 22E-05 1. 16E-05 3.78E-07 2.14E-06 2.36E-06 2. 25E-06 7.82E-08 8.69E-07 9.65E-07 9.15E-07 3.43E-08 2.14E-06 2.36E-06 2. 25E-06 7.82E-08 8.72E-07 9.68E-07 9.19E-07 3.44E-08 8.18E-06 8.95E-06 8. 56E-06 2. 83E-07 2. 53E-05 2. 78E-OS 2. 65E-05 8. 40E-07** RESRAD-BUILD Regression and correlation output 3.50 Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRADFamily\BUILD\3.BLD 12/04/11 13:50:18 Page: 81 **coefficients for Total at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff sig Coeff Sig Coeff Sig Coeff 2 -0.09 2 -0.14 4 0.16 4 0.16 4 0.04 6 0.06 2 -0.32 2 -0.36 7 0.02 7 0.04 3 0.17 3 0.22 8 -0.01 8 -0.03 6 -0.03 6 -0.05 3 -0.05 3 -0.14 9 -0.02 9 -0.02 9 0.00 9 0.00 7 0.03 7 0.03 6 0.03 5 0.09 5 -0.05 5 -0.06 5 -0.04 4 -0.10 8 0.02 8 0.03 1 -0.34 1 -0.33 1 -0.87 1 -0.83 0.14 0.14 0.78 0.78-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/04/11 13:50:18 Page: 82 **Title : Humboldt Bay sensitivity analysisnNb94 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(i) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.05 5 -0.08 4 0.19 4 0.24 Resuspension Rate 7 0.01 8 0.02 2 -0.31 3 -0.40 Release time of 1 2 0.06 2 0.15 3 0.30 2 0.48 Release time of 2 8 -0.01 7 -0.03 5 -0.07 5 -0.11 Release time of 3 5 -0.04 4 -0.10 8 -0.01 8 -0.02 Release time of 4 9 0.01 9 0.01 7 0.02 7 0.02 Release time of 5 4 0.05 3 0.13 6 0.04 6 0.06 Release time of 6 6 -0.03 6 -0.07 9 0.01 9 0.01 Building Exchange Rate 1 -0.33 1 -0.33 1 -0.76 1 -0.66 R-SQUARE 0.13 0.13 0.69 0.69-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(Il"BARTLETT Page 72 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 13:50:18 Page: 83 Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff sig coeff Deposition velocity 2 -0.09 2 -0.13 3 0.30 3 0.29 Resuspension Rate 6 0.03 7 0.04 2 -0.44 2 -0.44 Release time of 1 8 0.01 8 0.02 9 0.00 9 0.00 Release time of 2 3 -0.05 3 -0.13 6 -0.02 6 -0.02 Release time of 3 4 -0.04 4 -0.10 5 0.06 S 0.07 Release time of 4 9 0.00 9 0.00 8 0.00 8 0.01 Release time of 5 7 0.02 6 0.06 7 -0.02 7 -0.02 Release time of 6 5 -0.03 5 -0.09 4 -0.07 4 -0.08 Building Exchange Rate 1 -0.34 1 -0.33 1 -0.90 1 -0.87 R-SQUARE 0.17 0.17 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 13:50:18 Page: 84 Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\\RESRADFamily\BUILD\3.BLD coefficients for source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff sig coeff Sig coeff Deposition velocity 2 -0.09 3 -0.13 3 0.33 3 0.26 Resuspension Rate 4 0.04 6 0.06 2 -0.49 2 -0.41 Release time of 1 8 -0.01 8 -0.02 9 0.00 9 0.00 Release time of 2 7 -0.01 7 -0.03 7 0.02 7 0.02 Release time of 3 3 -0.08 2 -0.21 4 -0.12 4 -0.12 Release time of 4 9 0.00 9 0.00 6 0.03 6 0.03 Release time of 5 6 0.03 5 0.08 8 0.00 8 0.00 Release time of 6 5 -0.04 4 -0.09 5 -0.11 5 -0.10 Building Exchange Rate 1 -0.30 1 -0.29 1 -0.94 1 -0.89 R-SQUARE 0.16 0.16 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 13:30:18 Page: 85 Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\\RESRADFamily\BUILD\3.BLD coefficients for source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig coeff sig Coeff Sig Coeff Deposition velocity 2 -0.09 2 -0.14 3 0.26 3 0.26 Resuspension Rate 7 0.04 7 0.06 2 -0.40 2 -0.41 Release time of 1 9 0.01 9 0.02 9 0.00 9 0.01 Release time of 2 8 -0.02 8 -0.05 6 -0.03 6 -0.04 Release time of 3 3 -0.05 3 -0.13 8 -0.02 8 -0.03 Release time of 4 5 -0.04 5 -0.11 5 0.04 5 0.05 Rel'ease time of 5 4 0.04 4 0.12 7 0.03 7 0.04 Release time of 6 6 -0.04 6 -0.10 4 -0.06 4 -0.07 Building Exchange Rate 1 -0.35 1 -0.34 1 -0.90 1 -0.87 R-SQUARE 0.17 0.17 0.82 0.82-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARLTTPge7 (FIBARTLETT
%_11 Page 73 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/04/11 13:50:18 Page: 86 **Title : Humboldt Bay sensitivity analysis_-Nb94 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for source(5) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig Coeff Sig coeff Sig coeff Deposition velocity 2 -0.10 2 -0.14 3 0.32 3 0.25 Resuspension Rate 5 0.04 5 0.06 2 -0.48 2 -0.40 Release time of 1 8 0.02 8 0.05 6 0.05 6 0.05 Release time of 2 7 -0.02 6 -0.06 9 0.00 9 0.00 Release time of 3 4 -0.05 4 -0.13 8 0.01 8 0.01 Release time of 4 9 0.01 9 0.04 7 0.05 7 0.05 Release time of 5 3 -0.05 3 -0.13 4 -0.20 4 -0.19 Release time of 6 6 -0.02 7 -0.05 5 -0.11 5 -0.10 Building Exchange Rate 1 -0.31 1 -0.30 1 -0.94 1 -0.89 R-SQUARE 0.18 0.18 0.89 0.89-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Srovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 13:50:18 Page: 87 Title : Humboldt Bay sensitivity analysisNb94 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig Coeff Deposition velocity 2 -0.10 2 -0.14 3 0.20 4 0.20 Resuspension Rate 4 0.05 6 0.08 2 -0.36 2 -0.38 Release time of 1 7 0.01 7 0.04 7 0.03 7 0.04 Release time of 2 9 -0.01 9 -0.03 5 -0.06 5 -0.08 Release time of 3 6 -0.05 5 -0.13 9 0.00 9 0.00 Release time of 4 8 0.01 8 0.03 6 0.04 6 0.04 Release time of 5 5 0.05 3 0.14 8 0.00 8 0.00 Release time of 6 3 -0.05 4 -0.14 4 0.16 3 0.20 Building Exchange Rate 1 -0.35 1 -0.35 1 -0.88 1 -0.83 R-SQUARE 0.14 0.14 0.80 0.80-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(BARTLETT Page 74 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Ni-59 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:27:08 Page: Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.S\HBSA-Ni59-1.bld Probabilistic Output Table of Contents Table of Contents ...........................
1 Probabilistic Input ........................
2 Statistics for time = O.OOE+0O yr ..... 3 Statistics for time = l.OOE+O yr ..... 16 Statistics for time = 5.00E+01 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.00E+02 yr ..... 68 Regression and Correlation Output ........ 81"" RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:27:08 Page: Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Ni59-1.bld 2 **Probabilistic Input Number of sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999= = = = ----------------------- ---** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:27:08 Page: 3 '*Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Ni59-I.bld Evaluation Time: O.OOOOOOOOE+00 years Statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 2.15E-09 Maximum 3.30E-09 Average 2.22E-09 std.Dev 1.02E-10 source 2 9.46E-10 1. 33E-09 9.82E-10 4. 27E-11 3 6. 31E-10 1.02E-09 6. 54E-10 3. 32E-11 4 9.49E-10 1. 34E-09 9. 82E-10 3. 98E-11 5 6. 33E-10 9. 52E-10 6. 54E-10 2. 93E-11 6 2. 15E-09 3. 39E-09 2.22E-09 9.71E-11 Total 7. 47E-09 1. 12E-08 7. 72E-09 3. 33E-10* Total Minimum 2.15E-09 Maximum 3.30E-09 Average 2.22E-09 std.Dev 1.02E-10 9.46E-10 1. 33E-09 9.82E-10 4. 27E-11 6. 31E-10 1.02E-09 6.54E-10 3.32E-11 9.49E-10 1.34E-09 9.82E-10 3. 98E-11 6. 33E-10 9.52E-10 6.54E-10 2. 93E-11 2.15E-09 3. 39E-09 2.22E-09 9. 71E-I 7.47E-09 1. 12E-08 7.72E-09 3. 33E-10** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:27:08 Page: Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Ni59-1.bld Evaluation Time: 1.00000000 years 16 **statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 3 Minimum 1.77E-09 8.54E-10 5.73E-10 Maximum 3.18E-09 1.29E-09 9.75E-10 Average 2.19E-09 9.66E-10 6.44E-10 4 5 6 Total 8.72E-10 5.91E-10 1.83E-09 6.71E-09 1.30E-09 8.75E-10 3.26E-09 1.08E-08 9.65E-10 6.43E-10 2.19E-09 7.59E-09 (&' BA RTL ETT Page 75 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Std.Dev 9.36E-11 3.75E-11 2.91E-11 3.52E-11 2.42E-11 8.96E-11 3.01E-10* Total *Minimum 1.77E-09 Maximum 3.18E-09 Average 2.19E-09 std.Dev 9.36E-11 8.54E-10 5.73E-10 1.29E-09 9.75E-10 9.66E-10 6.44E-10 3.75E-11 2.91E-11 8. 72E-10 1. 30E-09 9. 65E-10 3. 52E-11 5.91E-10 8. 75SE-10 6.43E-10 2.42E-11 1.83E-09 3.26E-09 2.19E-09 8.96E-11 6. 71E-09 1. 08E-08 7. 59E-09 3.01E-10** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:27:08 Page: 29 *Title : Humboldt Bay sensitivity analysis-NiS9 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Ni59-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Receptor 1 minimum i .OOE+00 Maximum 1.77E-09 Average 8.62E-10 std.Dev 6.33E-10 source 2 0.OOE+00 7.81E-10 3.80E-10 2.79E-10 3 0.OOE+00 5.19E-10 2. 53E-10 1. 86E-10 4 0. OOE+00 7. 81E-10 3. 81E-10 2. 79E-10 5 0.OOE+00 5. 23E-10 2. 53E-10 1. 86E-10 6 0.OOE+00 1.78E-09 8.64E-10 6. 32E-10 Total 0.OOE+00 6. 1OE-09 2.99E-09 2.07E-09* Total *Minimum Maximum Average Std.Dev 0.OOE+00 1. 77E-09 8. 62E-10 6. 33E-10 0.00E+00 7. 81E-10 3.80E-10 2. 79E-10 0.OOE+00 5.19E-10 2.53E-10 1.86E-10 0.OOE+00 7. 81E-10 3.81E-10 2. 79E-10 0.OOE+00 5.23E-10 2.53E-10 1.86E-10 0.OOE+00 1. 78E-09 8.64E-10 6. 32E-10 0.OOE+00 6. 1OE-09 2.99E-09 2.07E-09** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:27:08 Page: 81 Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.09 4 -0.13 3 0.28 3 0.18 Resuspension Rate 3 0.07 5 0.10 2 -0.39 2 -0.27 Release time of 1 7 -0.02 7 -0.05 5 -0.05 5 -0.04 Release time of 2 8 -0.02 8 -0.04 8 -0.02 8 -0.02 Release time of 3 4 -0.06 2 -0.15 7 0.03 7 0.02 Release time of 4 9 -0.01 9 -0.03 9 -0.02 9 -0.02 Release time of 5 6 0.04 6 0.10 6 -0.03 6 -0.03 Release time of 6 5 -0.05 3 -0.13 4 -0.18 4 -0.16 Building Exchange Rate 1 -0.35 1 -0.33 1 -0.95 1 -0.92 R-SQUARE 0.21 0.21 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:27:08 Page: 82 Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(i) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig coeff sig coeff Deposition velocity 2 -0.08 5 -0.12 3 0.27 4 0.18 Resuspension Rate 3 0.08 6 0.12 2 -0.37 2 -0.27 Release time of 1 4 -0.07 2 -0.18 4 -0.27 3 -0.23 Release time of 2 9 0.00 9 -0.01 9 0.01 9 0.01 Release time of 3 5 -0.06 3 -0.14 6 0.05 6 0.04 Release time of 4 8 -0.01 8 -0.02 7 0.03 7 0.02 Release time of 5 6 0.05 4 0.13 8 0.02 8 0.02 Release time of 6 7 -0.03 7 -0.07 5 -0.11 5 -0.09 Building Exchange Rate 1 -0.32 1 -0.31 1 -0.95 1 -0.91 R-SQUARE 0.18 0.18 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
NU5ARTLETT Page 76 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:27:08 Page: 83 Title : Humboldt Bay sensitivity analysisNi59 Input rile : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.08 4 -0.12 3 0.29 4 0.20 Resuspension Rate 5 0.03 7 0.05 2 -0.41 2 -0.29 Release time of 1 9 0.00 9 0.01 7 0.05 7 0.04 Release time of 2 3 -0.07 2 -0.19 4 -0.28 3 -0.24 Release time of 3 4 -0.05 3 -0.12 6 0.05 6 0.05 Release time of 4 8 -0.01 8 -0.01 9 -0.01 9 -0.01 Release time of 5 7 0.03 6 0.06 8 -0.01 8 -0.01 Release time of 6 6 -0.03 S -0.07 5 -0.07 5 -0.05 Building Exchange Rate 1 -0.35 1 -0.33 1 -0.95 1 -0.91 R-SQUARE 0.21 0.21 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:27:08 Page: 84 Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.08 3 -0.12 3 0.26 4 0.18 Resuspension Rate 4 0.05 6 0.08 2 -0.38 2 -0.27 Release time of 1 7 -0.01 7 -0.03 6 0.04 6 0.03 Release time of 2 8 -0.01 8 -0.02 8 0.01 8 0.01 Release time of 3 2 -0.09 2 -0.23 4 -0.22 3 -0.19 Release time of 4 9 0.00 9 0.00 7 0.02 7 0.02 Release time of 5 6 0.03 5 0.09 9 -0.01 9 -0.01 Release time of 6 5 -0.04 4 -0.09 5 -0.11 5 -0.09 Building Exchange Rate 1 -0.31 1 -0.30 1 -0.95 1 -0.91 R-SQUARE 0.17 0.17 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:27:08 Page: 85 Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRAD.Family\RUILD\3.BLD Coefficients for source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.09 3 -0.13 4 0.25 4 0.17 Resuspension Rate 4 0.05 7 0.07 2 -0.37 2 -0.26 Release time of 1 9 0.00 9 0.01 7 0.05 7 0.04 Release time of 2 8 -0.02 8 -0.04 9 0.00 9 0.00 Release time of 3 5 -0.05 4 -0.12 6 0.06 6 0.05 Release time of 4 3 -0.08 2 -0.20 3 -0.28 3 -0.24 Release time of 5 6 0.04 5 0.11 8 -0.02 8 -0.02 Release time of 6 7 -0.04 6 -0.09 5 -0.09 5 -0.07 Building Exchange Rate 1 -0.36 1 -0.34 1 -0.95 1 -0.91 R-SQUARE 0.22 0.22 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it 0rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
J")BARTLETT Page 77 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:27:08 Page: 86 **Title : Humboldt Bay sensitivity analysis._Ni59 Input File : C:\RESRAD-Family\BUILD\3.BLD Coefficients for Source(S) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 2 -0.09 4 -0.14 4 0.27 4 0.18 Resuspension Rate 3 0.06 5 0.08 2 -0.39 2 -0.27 Release time of 1 8 0.01 8 0.04 6 0.06 6 0.05 Release time of 2 7 -0.02 7 -0.04 8 0.02 8 0.01 Release time of 3 4 -0.06 3 -0.14 7 0.05 7 0.04 Release time of 4 9 0.01 9 0.02 9 0.00 9 0.00 Release time of 5 5 -0.06 2 -0.14 3 -0.28 3 -0.25 Release time of 6 6 -0.02 6 -0.05 5 -0.10 5 -0.09 Building Exchange Rate 1 -0.34 1 -0.32 1 -0.95 1 -0.91 R-SQUARE 0.20 0.20 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:27:08 Page: 87 **Title : Humboldt Bay sensitivity analysisNi59 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(6) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff sig Coeff Sig Coeff Deposition velocity 3 -0.10 4 -0.14 4 0.27 4 0.19 Resuspension Rate 4 0.08 6 0.12 2 -0.39 3 -0.28 Release time of 1 9 0.00 9 0.00 7 0.02 7 0.02 Release time of 2 7 0.00 7 -0.01 6 0.04 6 0.03 Release time of 3 5 -0.06 3 -0.15 5 0.04 5 0.03 Release time of 4 8 0.00 8 0.00 9 0.01 9 0.00 Release time of 5 6 0.05 5 0.13 8 -0.01 8 -0.01 Release time of 6 2 -0.11 2 -0.28 3 -0.35 2 -0.31 Building Exchange Rate 1 -0.35 1 -0.33 1 -0.95 1 -0.91 R-SQUARE 0.20 0.20 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained by regression on the independent variables.
CUBARTLETT Page 78 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Ni-63 Results:**iRESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:35:03 Page: Title : Humboldt Bay sensitivity analysisNi63 input rile C:\RESRADFamily\BUILD\3.5\HB_.SA-Ni63-I.bld 1 ..Probabilistic Output Table of Contents Table of contents ...........................
1 Probabilistic Input ......................
2 statistics for time = 3.OOE+00 yr. 3 statistics for time = 1.OOE+00 yr ..... 16 statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and Correlation Output ........ 81*' RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:35:03 Page: Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.5\HB-SA-Ni63-I.bld 2 -Probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT===== ---------------
==Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999--. .-----..------. -..---. ..-RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:35:03 Page: 3 k4 Title : Humboldt Bay sensitivity analysis-Ni63 Input File : C:\RESRAD_-Family\BUILD\3.
5\HBSA-Ni63-1.bld Evaluation Time: 0.OOOOOOOOE+00 years statistics for Dose (mrem) for Time: 1 Source 1 2 Receptor Minimum Maximum Average std.Dev 5. 88E-09 8. 5SE-09 6.06E-09 2. 04E-10 2.59E-09 3.49E-09 2.67E-09 S. 52E-11 1. 73E-09 2.62E-09 1. 78E-09 6. 79E-11 2. 59E-09 3. 50E-09 2.67E-09 8.08E-11 5 1. 73E-09 2. 22E-09 1. 78E-09 5.48E-11 5. 86E-09 8. 75E-09 6.06E-09 2.05E-10 Total 2.04E-08 2. 91E-08 2. lE-08 6. 78E-10* Total Minimum 5.88E-09 2.59E-09 Maximum 8.55E-09 3.49E-09 Average 6.06E-09 2.67E-09 std.Dev 2.04E-10 8.52E-11 1. 73E-09 2. 62E-09 1. 78E-09 6. 79E-11 2. 59E-09 3. 50E-09 2.67E-09 8.08E-11 1.73E-09 2. 22E-09 1. 78E-09 5.48E-11 5.86E-09 8.75E-09 6.06E-09 2.05E-10 2.04E-08 2. 91E-08 2.lOE-08 6. 78E-10** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:35:03 Page: 16 **Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Ni63-I.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 Receptor I*** 1"*Minimum 4.72E-09 Maximum 8.14E-09 Average 5.91E-09 std.Dev 1.94E-10 source 2 2. 30E-09 3.3SE-09 2. 61E-09 7. 55E-11 1.55E-09 2.49E-09 1.74E-09 5.96E-11 2.35E-09 3.36E-09 2. 61E-09 7. 27E-11 1. 60E-09 2.07E-09 1.74E-09 4.45E-11 6 Total 4.88E-09 1.81E-08 8.32E-09 2.77E-08 5.91E-09 2.05E-08 1.93E-10 6.23E-10 C1S ARTLETT Page 79 OUi B A RTL ETT Page 79 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity AnalySis -Humboldt Bay Rev. 0* Total *Minimum 4.72E-09 2.30E-09 1.55E-09 2.35E-09 1.60E-09 4.88E-09 1.81E-08 Maximum 8.14E-09 3.35E-09 2.49E-09 3.36E-09 2.07E-09 8.32E-09 2.77E-08 Average 5.91E-09 2.61E-09 1.74E-09 2.61E-09 1.74E-09 5.91E-09 2.05E-08 std.Dev 1.94E-10 7.55E-11 5.96E-11 7.27E-11 4.45E-11 1.93E-10 6.23E-10 RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:35:03 Page: 29 *Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.5\HB_SA-Ni63-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 0.OOE+00 Maximum 3.38E-09 1.49E-09 9.91E-10 1.49E-09 9.98E-10 3.38E-09 1.16E-08 Average 1.64E-09 7.23E-10 4.81E-10 7.23E-10 4.81E-10 1.64E-09 5.68E-09 std.Dev 1.21E-09 S.33E-10 3.55E-10 5.33E-10 3.55E-10 1.21E-09 3.95E-09* Total *Minimum O.OOE+00 0.OOE+00 0.00E+00 0.OOE+00 0.OOE+00 0.OOE+00 0.OOE+00 Maximum 3.38E-09 1.49E-09 9.91E-10 1.49E-09 9.98E-10 3.38E-09 1.16E-08 Average 1.64E-09 7.23E-10 4.81E-10 7.23E-10 4.81E-10 1.64E-09 5.68E-09 Std.Dev 1.21E-09 5.33E-10 3.55E-10 5.33E-10 3.55E-10 1.21E-09 3.95E-09 RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:35:03 Page: 81 Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff sig coeff sig coeff sig coeff Deposition velocity 2 -0.08 6 -0.11 3 0.26 3 0.17 Resuspension Rate 3 0.08 5 0.11 2 -0.30 2 -0.20 Release time of 1 7 -0.02 7 -0.06 8 -0.01 8 -0.01 Release time of 2 9 -0.01 9 -0.02 6 -0.02 6 -0.02 Release time of 3 4 -0.06 2 -0.16 7 0.02 7 0.01 Release time of 4 8 -0.02 8 -0.05 5 -0.06 5 -0.05 Release time of 5 6 0.05 4 0.12 9 -0.01 9 0.00 Release time of 6 5 -0.05 3 -0.12 4 -0.14 4 -0.11 Building Exchange Rate 1 -0.36 1 -0.34 1 -0.96 1 -0.94 R-SQUARE 0.19 0.19 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:35:03 Page: 82 Title : Humboldt Bay sensitivity analysis_.0Ni63 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(I) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 6 -0.10 3 0.26 3 0.18 Resuspension Rate 2 0.08 5 0.13 2 -0.28 2 -0.19 Release time of 1 4 -0.07 2 -0.16 4 -0.16 4 -0.13 Release time of 2 9 0.00 9 0.01 9 0.01 9 0.01 Release time of 3 5 -0.06 4 -0.15 8 0.01 8 0.01 Release time of 4 8 -0.01 8 -0.04 7 -0.02 7 -0.01 Release time of 5 6 0.06 3 0.15 6 0.02 6 0.02 Release time of 6 7 -0.03 7 -0.07 5 -0.07 5 -0.06 Building Exchange Rate 1 -0.33 1 -0.32 1 -0.95 1 -0.94 R-SQUARE 0.18 0.18 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
B1E ARTLETT Page 80 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:35:03 Page: 83 Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(2) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE-Rank is Set to zero if the dose is zero or the corre-R-SQUARE varies between 0 and 1 and is called the co provides a measure of the variation in the dependent y regression on the independent variables.
PCC SRC PRCC SRRC 1 1 1 1 Sig coeff Sig coeff Sig Coeff Sig Coeff 2 -0.07 4 -0.10 3 0.29 3 0.19 5 0.04 6 0.06 2 -0.33 2 -0.22 9 0.00 9 0.00 7 0.05 7 0.04 3 -0.06 2 -0.16 4 -0.21 4 -0.17 4 -0.05 3 -0.14 6 0.06 5 0.05 8 -0.01 8 -0.03 5 -0.07 6 -0.05 6 0.03 5 0.09 9 0.00 9 0.00 7 -0.02 7 -0.05 8 -0.04 8 -0.03 1 -0.36 1 -0.35 1 -0.95 1 -0.93 0.20 0.20 0.91 0.91 lation matrix is singular.efficient of determination; it variable (Dose) explained** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:35:03 Page: 84 Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(3) at Time: 1 coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 4 -0.10 3 0.27 3 0.17 Resuspension Rate 4 0.06 5 0.08 2 -0.30 2 -0.20 Release time of 1 7 -0.01 7 -0.03 6 0.03 6 0.02 Release time of 2 9 0.00 9 -0.01 8 0.02 8 0.02 Release time of 3 2 -0.09 2 -0.23 4 -0.14 4 -0.12 Release time of 4 8 -0.01 8 -0.02 7 -0.03 7 -0.02 Release time of 5 5 0.04 3 0.11 9 0.00 9 0.00 Release time of 6 6 -0.03 6 -0.08 5 -0.09 5 -0.07 Building Exchange Rate 1 -0.32 1 -0.31 1 -0.96 1 -0.94 R-SQUARE 0.16 0.16 0.92 0.92-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:35:03 Page: 85 Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: 1 Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff sig coeff Sig coeff Deposition velocity 3 -0.07 5 -0.10 3 0.25 4 0.17 Resuspension Rate 4 0.05 6 0.08 2 -0.29 2 -0.20 Release time of 1 9 0.00 9 0.00 6 0.07 6 0.05 Release time of 2 8 -0.01 8 -0.02 8 -0.02 8 -0.02 Release time of 3 5 -0.05 4 -0.13 7 0.03 7 0.03 Release time of 4 2 -0.08 2 -0.20 4 -0.22 3 -0.18 Release time of 5 6 0.05 3 0.13 9 0.01 9 0.01 Release time of 6 7 -0.03 7 -0.07 5 -0.07 5 -0.06 Building Exchange Rate 1 -0.37 1 -0.36 1 -0.95 1 -0.93 R-SQUARE 0.21 0.21 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
V'iBARTLETT Page 81 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0*;iRESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:35:03 Page: 86 Title : Humboldt Bay sensitivity analysisNi63 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(5) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.08 3 -0.12 3 0.25 3 0.17 Resuspension Rate 3 0.07 5 0.10 2 -0.29 2 -0.20 Release time of 1 7 0.01 7 0.03 6 0.07 6 0.06 Release time of 2 8 -0.01 8 -0.02 9 0.01 9 0.01 Release time of 3 4 -0.06 2 -0.16 8 0.01 8 0.01 Release time of 4 9 0.00 9 -0.01 7 -0.02 7 -0.01 Release time of 5 5 -0.04 4 -0.11 4 -0.18 4 -0.16 Release time of 6 6 -0.02 6 -0.05 5 -0.09 5 -0.07 Building Exchange Rate 1 -0.37 1 -0.35 1 -0.95 1 -0.93 R-SQUARE 0.21 0.21 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:35:03 Page: 87 Title : Humboldt Bay sensitivity analysis_-Ni63 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.08 6 -0.12 3 0.26 4 0.17 Resuspension Rate 3 0.09 5 0.13 2 -0.31 3 -0.21 Release time of 1 7 -0.01 7 -0.02 5 0.04 5 0.03 Release time of 2 9 0.00 9 0.01 6 0.03 6 0.03 Release time of 3 5 -0.06 3 -0.15 8 0.02 8 0.02 Release time of 4 8 -0.01 8 -0.01 7 -0.03 7 -0.02 Release time of 5 6 0.06 4 0.14 9 -0.02 9 -0.02 Release time of 6 2 -0.09 2 -0.24 4 -0.25 2 -0.21 Building Exchange Rate 1 -0.34 1 -0.33 1 -0.95 1 -0.93 R-SQUARE 0.18 0.18 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(rBARTLETT Page 82 NIIUý" B ART L ETT Page 82 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Np-237 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 15:25:48 Page: Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Np237-1.bld 1 **Probabilistic Output Table of Contents Table of Contents........................
1 Probabilistic Input.......................
2 Statistics for time = O.OOE+00 yr ..... 3 statistics for time = 1.OOE+OO yr ..... 16 Statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and Correlation output ........ 81*- RESRAD-BUILD Probabilistic output 3.50 12/04/11 15:25:48 Page: Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.5\HB._SA-Np237-1.bld 2 -Probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999=.-. -----------................" RESRAD-BUILD Probabilistic output 3.50 12/04/11 15:25:48 Page: 3 *Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Np237-1.bld Evaluation Time: O.OOOOOOOOE+00 years statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 4.83E-05 Maximum 2.82E-04 Average 5.76E-05 std.Dev 1.89E-05 Source 2 2.08E-05 9. 78F-05 2. 50E-OS 8.03E-06 1. 38E-05 9.24E-05 1. 66E-05 6. 33E-06 2. 08E-05 9.94E-05 2.49E-05 7.65E-06 1. 38E-05 5.83E-05 1. 6SE-05 5. 30E-06 6 4.78E-05 3.OOE-04 5.71E-05 1.90E-05 Total 1. 65E-04 9. 20E-04 1. 98E-04 6. 29E-05* Total *Minimum 4.83E-05 Maximum 2.82E-04 Average S.76E-05 Std.oev 1.89E-05 2.08E-05 9.78E-05 2. 50E-05 8.03E-06 1.38E-05 9. 24E-05 1.66E-05 6. 33E-06 2.08E-05 9. 94E-05 2.49E-05 7.6SE-06 1.38E-05 5.83E-05 1.65E-05 5.30E-06 4.78E-OS 3.OOE-04 5. 71E-05 1.90E-05 1.65E-04 9. 20E-04 1. 98E-04 6. 29E-05** RESRAD-BUILD Probabilistic output 3.50 12/04/11 15:25:48 Page: Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Np237-1.bld Evaluation Time: 1.00000000 years 16 **Statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 3 4 Minimum 4.74E-05 2.05E-05 1.34E-05 2.03E-05 Maximum 2.79E-04 9.70E-05 9.15E-05 9.85E-05 Average 5.68E-05 2.46E-05 1.64E-05 2.46E-05 Std.Dev 1.84E-05 7.80E-06 6.19E-06 7.43E-06 5 6 1.35E-05 4.65E-05 5.66E-05 2.98E-04 1.63E-05 5.63E-05 5.12E-06 1.86E-OS Total 1. 62E-04 9. 12E-04 1. 95E-04 6. 14E-05 BARTLETT Page 83 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total Minimum 4.74E-05 Maximum 2.79E-04 Average 5.68E-05 std.Dev 1.84E-05 2.05E-05 1.34E-05 9.70E-05 9.15E-05 2.46E-05 1.64E-05 7.80E-06 6.19E-06 2.03E-05 9. 85E-05 2. 46E-05 7.43E-06 1. 35E-05 S.66E-05 1.63E-05 5.12E-06 4.65E-05 2.98E-04 5.63E-05 1. 86E-05 1. 62E-04 9. 12E-04 1. 95E-04 6. 14E-OS** RESRAD-BUILD Probabilistic output 3.50 12/04/11 15:25:48 Page: 29 *Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Np237-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source 2 3 Receptor*xv 1 vvv*Minimum Maximum Average std.Dev 1 1. 73E-06 5. 33E-05 2. 34E-05 1. 49E-05 4 3. 31E-07 2.47E-05 9.93E-06 6. 57E-06 1. 34E-07 1. 76E-05 6. 53E-06 4.41E-06 3. 31E-07 2. 54E-05 9. 96E-06 6. 56E-06 1. 3SE-07 1. 56E-05 6.48E-06 4. 39E-06 1. 27E-06 S.80E-05 2. 33E-05 1. 50E-05 Total 3.93E-06 1. 84E-04 7. 96E-05 4. 85E-05 Total x Total Minimum Maximum Average std.Dev 1. 73E-06 5.33E-05 2.34E-05 1.49E-05 3. 31E-07 2. 47E-05 9. 93E-06 6. 57E-06 1. 34E-07 1. 76E-05 6. 53E-06 4.41E-06 3.31E-07 2.54E-05 9. 96E-06 6. 56E-06 1. 35E-07 1. 56E-05 6.48E-06 4. 39E-06 1. 27E-06 5.80E-05 2. 33E-05 1. 50E-OS 3.93E-06 1. 84E-04 7. 96E-05 4.85E-05** RESRAD-BUILD Regression and Correlation output 3.50 Title : Humboldt Bay sensitivity analysis_...Np237 Input File : C:\RESRADFamily\BUILD\3.BLD 12/04/11 15:25:48 Page: 81 -*Coefficients for Total Coefficient
=Repetition
=at Time: 1 PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.08 5 -0.11 9 0.03 9 0.01 Resuspension Rate 2 0.09 4 0.13 7 -0.08 7 -0.03 Release time of 1 6 -0.04 6 -0.10 3 -0.30 3 -0.18 Release time of 2 9 -0.01 9 -0.03 5 -0.12 5 -0.07 Release time of 3 4 -0.07 2 -0.16 8 -0.05 8 -0.03 Release time of 4 8 -0.02 8 -0.06 4 -0.16 4 -0.09 Release time of 5 7 0.03 7 0.09 6 -0.08 6 -0.05 Release time of 6 5 -0.06 3 -0.14 2 -0.30 2 -0.18 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 15:25:48 Page: 82 **Title : Humboldt Bay sensitivity analysis.Np237 Input File : C:\RESRAD-Family\BUILD\3.BLD Coefficients for Source(l) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.07 6 -0.10 5 0.05 6 0.02 Resuspension Rate 3 0.10 4 0.15 3 -0.09 3 -0.04 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 9 -0.01 9 0.00 Release time of 3 5 -0.06 3 -0.15 4 0.05 4 0.03 Release time of 4 8 -0.02 8 -0.04 6 -0.04 5 -0.02 Release time of 5 6 0.05 5 0.14 8 0.03 8 0.02 Release time of 6 7 -0.02 7 -0.06 7 -0.04 7 -0.02 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
BARTLETT Page 84 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 15:25:48 Page: 83 Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRAD-Family\BUILD\3.BLD Coefficients for source(2) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff sig Coeff Sig Coeff Deposition velocity 3 -0.07 4 -0.09 5 0.03 7 0.01 Resuspension Rate 5 0.04 6 0.06 3 -0.08 3 -0.04 Release time of 1 9 -0.01 9 -0.02 8 -0.02 8 -0.01 Release time of 2 2 -0.10 2 -0.25 2 -0.70 2 -0.58 Release time of 3 4 -0.05 3 -0.12 4 0.04 4 0.02 Release time of 4 8 -0.01 8 -0.03 6 -0.03 5 -0.02 Release time of 5 6 0.03 5 0.06 9 0.02 9 0.01 Release time of 6 7 -0.02 7 -0.05 7 -0.03 6 -0.02 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.78 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 15:25:48 Page: 84 Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(3) at Time: 1 coefficient
= FCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig coeff Sig Coeff Deposition velocity 3 -0.07 3 -0.10 8 -0.01 8 0.00 Resuspension Rate 4 0.06 4 0.09 3 -0.05 3 -0.02 Release time of 1 7 -0.02 7 -0.05 9 -0.01 9 0.00 Release time of 2 9 0.00 9 0.00 6 0.02 6 0.01 Release time of 3 2 -0.12 1 -0.30 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 4 -0.02 5 -0.01 Release time of 5 5 0.03 5 0.09 7 0.01 7 0.01 Release time of 6 6 -0.03 6 -0.08 5 -0.02 4 -0.01 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.20 0.20 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 15:25:48 Page: 85 Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 5 -0.10 9 -0.01 9 0.00 Resuspension Rate 4 0.06 6 0.09 6 -0.04 7 -0.02 Release time of 1 8 -0.01 8 -0.02 8 -0.02 8 -0.01 Release time of 2 9 -0.01 9 -0.01 5 0.04 5 0.02 Release time of 3 5 -0.05 3 -0.11 3 0.06 3 0.04 Release time of 4 2 -0.12 2 -0.29 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 7 -0.03 6 -0.02 Release time of 6 7 -0.03 7 -0.07 4 -0.04 4 -0.03 Building Exchange Rate 1 -0.34 1 -0.32 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(r)S ARTLETT Page 85' IC r')BARTLETT Page 85 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 15:25:48 Page: 86 Title : Humboldt Bay sensitivity analysisNp237 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(5) at Time: I Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.09 4 -0.12 9 0.01 9 0.00 Resuspension Rate 4 0.08 5 0.12 4 -0.05 5 -0.02 Release time of 1 8 0.01 8 0.02 8 0.01 8 0.01 Release time of 2 7 -0.01 7 -0.02 6 0.02 6 0.01 Release time of 3 5 -0.06 3 -0.15 7 0.02 7 0.01 Release time of 4 9 0.00 9 -0.01 3 -0.07 3 -0.04 Release time of 5 3 -0.09 2 -0.21 2 -0.69 2 -0.55 Release time of 6 6 -0.02 6 -0.04 5 -0.05 4 -0.03 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.25 0.25 0.96 0.96-Rank is set to zero if the dose is zero or, the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 15:25:48 Page: 87 Title : Humboldt Bay sensitivity analysis_-Np237 Input File : C:\RESRADFamily\BUILD\3.BLO coefficients for Source(6) at Time: 1 coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff Sig coeff Sig coeff Sig Coeff Deposition velocity 4 -0.08 6 -0.11 4 0.07 4 0.03 Resuspension Rate 3 0.10 4 0.15 3 -0.11 3 -0.05 Release time of 1 7 -0.01 0.03 7 -0.02 7 -0.01 Release time of 2 9 0.01 9 0.01 8 0.01 8 0.01 Release time of 3 5 -0.06 3 -0.15 6 0.04 6 0.03 Release time of 4 8 -0.01 8 -0.02 5 -0.05 5 -0.03 Release time of 5 6 0.05 5 0.12 9 0.00 9 0.00 Release time of 6 2 -0.12 1 -0.31 2 -0.69 2 -0.57 Building Exchange Rate 1 -0.32 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(OB ARTLETT Page 86 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Pu-238 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 23:11:12 Page: Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu238-1.bld 1 *Probabilistic output Table of Contents Table of Contents ...........................
1 Probabilistic Input .........................
2 Statistics for time = 0.OOE+00 yr ..... 3 Statistics for time = 1.OOE+00 yr ..... 16 Statistics for time = 5.00E+01 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation output ........ 81** RESRAD-BUILD Probabilistic output 3.50 12/03/11 23:11:12 Page: Title : Humboldt Bay sensitivity analysis.Pu238 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu238-1.bld 2 *Probabilistic Input Number of Sample Runs: 300 Number Name Distribution Parai 1 UD LOGUNIFORM
.000 2 DKSUS LOGUNIFORM 2.5E 3 RFO( 1, 1) TRIANGULAR 1000 4 RFO( 2, 1) TRIANGULAR 1000 5 RFO( 3, 1) TRIANGULAR 1000 6 RFO( 4, 1) TRIANGULAR 1000 7 RFO( 5, 1) TRIANGULAR 1000 8 RFO( 6, 1) TRIANGULAR 1000 9 LAMBDAT TRUNCATED LOGNORMAL-N
.418* RESRAD-BUILD Probabilistic output 3.50 12/03/11 23:11:12 Page: Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.5\HB_.SA-Pu238-1.bld Evaluation Time: O.O0000000E+00 years meters 0027 .0027-11 .0000135 10000 100000 10000 100000 10000 100000 10000 100000 10000 100000 10000 100000 7 .88 .001.999 3 **statistics for Dose (mrem) for Time: 1 Receptor Minimum Maximum Average std.Dev 1 3. 32E-05 2.02E-04 3 .98E-05 1. 34E-05 source 2 1.47E-05 7. 03E-05 1. 76E-05 S. 70E-06 3 9.78E-06 6.66E-05 1.18E-05 4. 51E-06 4 1.47E-05 7.15E-05 1.76E-05 5.44E-06 5 9.77E-06 4.20E-05 1.17E-05 3.73E-06 6 3. 33E-05 2.16E-04 3.99E-05 1.36E-05 Total 1.15E-04 6. 61E-04 1. 38E-04 4.48E-05* Total *Minimum Maximum Average Std.Dev 3.32E-05 2.02E-04 3.98E-05 1.34E-05 1. 47E-05 7.03E-05 1. 76E-05 5.70E-06 9. 78E-06 6.66E-05 1.18E-05 4.51E-06 1.47E-05 7. 15E-05 1. 76E-05 5.44E-06 9.77E-06 4.20E-05 1.17E-05 3.73E-06 3. 33E-05 2.16E-04 3.99E-05 1. 36E-05 1. 15E-04 6.61E-04 1. 38E-04 4.48E-05** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 23:11:12 Page: 16 **Title : Humboldt Bay sens.tivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu238-1.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 Receptor 1 Minimum 3.24E-05 Maximum 1.99E-04 Average 3.90E-05 Std.Dev 1.30E-05 source 2 3 1.43E-05 9.42E-06 6.92E-05 6.54E-05 1.72E-05 1.15E-05 5.49E-06 4.37E-06 4 1.42E-05 7.03E-05 1. 72E-05 S. 24E-06 9.49E-06 3.98E-05 1.15E-05 3.57E-06 3.21E-OS 2.12E-04 3.90E-05 1.32E-05 Total 1.12E-04 6.50E-04 1.35E-04 4.34E-05 BARTLETT Page 87 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total *Minimum 3.24E-05 1.43E-05 9.42E-06 1.42E-05 9.49E-06 3.21E-05 1.12E-04 Maximum 1.99E-04 6.92E-05 6.54E-05 7.03E-05 3.98E-05 2.12E-04 6.50E-04 Average 3.90E-OS 1.72E-05 1.15E-05 1.72E-05 1.15E-05 3.90E-05 1.35E-04 std.Dev 1.30E-05 5.49E-06 4.37E-06 5.24E-06 3.57E-06 1.32E-05 4.34E-05** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 23:11:12 Page: 29 A*Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.5\H-BSA-Pu238-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 S 6 Total Minimum 2.44E-09 1.86E-09 6.50E-10 1.86E-09 6.53E-10 2.44E-09 9.89E-09 Maximum 2.49E-05 1.18E-05 8.50E-06 1.22E-05 7.51E-06 2.76E-05 8.67E-05 Average 1.04E-05 4.63E-06 3.09E-06 4.64E-06 3.06E-06 1.06E-05 3.64E-05 std.Dev 7.15E-06 3.17E-06 2.13E-06 3.16E-06 2.11E-06 7.22E-06 2.34E-05* Total *Minimum 2.44E-09 1.86E-09 6.50E-10 1.86E-09 6.53E-10 2.44E-09 9.89E-09 Maximum 2.49E-05 1.18E-05 8.50E-06 1.22E-05 7.51E-06 2.76E-OS 8.67E-05 Average 1.04E-05 4.63E-06 3.09E-06 4.64E-06 3.06E-06 1.06E-05 3.64E-05 Std.Dev 7.15E-06 3.17E-06 2.13E-06 3.16E-06 2.11E-06 7.22E-06 2.34E-05** RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 23:11:12 Page: 81 Title : Humboldt Bay sensitivity analysis-Pu238 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff sig coeff sig Coeff Deposition velocity 3 -0.07 5 -0.10 9 -0.01 9 0.00 Resuspension Rate 2 0.09 4 0.13 8 -0.01 8 -0.01 Release time of 1 6 -0.04 6 -0.10 2 -0.30 3 -0.18 Release time of 2 9 -0.01 9 -0.03 5 -0.13 5 -0.07 Release time of 3 4 -0.07 2 -0.16 7 -0.05 7 -0.03 Release time of 4 8 -0.02 8 -0.06 4 -0.17 4 -0.10 Release time of 5 7 0.04 7 0.09 6 -0.08 6 -0.05 Release time of 6 5 -0.06 3 -0.13 3 -0.30 2 -0.18 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 23:11:12 Page: 82 Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(i) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 4 -0.07 6 -0.10 9 0.02 9 0.01 Resuspension Rate 3 0.10 4 0.15 5 -0.04 6 -0.02 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 8 -0.02 8 -0.01 Release time of 3 5 -0.06 3 -0.15 4 0.04 4 0.03 Release time of 4 8 -0.02 8 -0.05 3 -0.05 3 -0.03 Release time of 5 6 0.05 5 0.14 6 0.04 5 0.02 Release time of 6 7 -0.02 7 -0.06 7 -0.02 7 -0.01 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
OBARTLETT Page 88 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0*- RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 23:11:12 Page: 83 Title : Humboldt Bay sensitivity analysisjPu238 Input File : C:\RESRAD-Family\BUILD\3.BLD Coefficients for Source(2) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.06 4 -0.09 9 0.00 9 0.00 Resuspension Rate 5 0.04 6 0.06 5 -0.02 8 -0.01 Release time of 1 9 -0.01 9 -0.02 6 -0.02 6 -0.01 Release time of 2 2 -0.10 2 -0.25 2 -0.70 2 -0.58 Release time of 3 4 -0.05 3 -0.12 4 0.02 4 0.01 Release time of 4 8 -0.01 8 -0.03 3 -0.03 3 -0.02 Release time of 5 6 0.03 5 0.07 7 0.02 5 0.01 Release time of 6 7 -0.02 7 -0.05 8 -0.02 7 -0.01 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.78 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 23:11:12 Page: 84 **Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 3 -0.07 3 -0.10 3 -0.05 3 -0.02 Resuspension Rate 4 0.06 4 0.09 7 0.02 7 0.01 Release time of 1 7 -0.02 7 -0.05 9 -0.01 9 0.00 Release time of 2 9 0.00 9 0.00 8 0.01 8 0.01 Release time of 3 2 -0.12 1 -0.30 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 4 -0.03 4-0.02 Release time of 5 5 0.03 5 0.09 5 0.02 5 0.01 Release time of 6 6 -0.03 6 -0.08 6 -0.02 6 -0.01 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.20 0.20 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 23:11:12 Page: 85 Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(4) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff sig Coeff sig Coeff sig Coeff Deposition velocity 3 -0.07 5 -0.09 4 -0.05 S -0.02 Resuspension Rate 4 0.06 6 0.09 8 0.02 9 0.01 Release time of 1 8 -0.01 8 -0.03 9 -0.02 8 -0.01 Release time of 2 9 0.00 9 -0.01 5 0.04 4 0.02 Release time of 3 5 -0.05 3 -0.11 3 0.05 3 0.03 Release time of 4 2 -0.12 2 -0.30 2 -0.72 2 -0.59 Release time of 5 6 0.04 4 0.10 7 -0.03 7 -0.02 Release time of 6 7 -0.03 7 -0.06 6 -0.03 6 -0.02 Building Exchange Rate 1 -0.34 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.25 0.25 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
rI RTETPae8/ML_.%.ýBARTLETT Page 89 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0 RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 23:11:12 Page: 86 **Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(S) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig coeff sig Coeff sig coeff Deposition velocity 4 -0.08 5 -0.12 6 -0.02 6 -0.01 Resuspension Rate 2 0.09 4 0.12 9 0.01 9 0.00 Release time of 1 7 0.01 8 0.02 8 0.01 8 0.00 Release time of 2 8 -0.01 7 -0.02 5 0.02 5 0.01 Release time of 3 5 -0.06 3 -0.15 7 0.01 7 0.01 Release time of 4 9 0.00 9 -0.01 3 -0.07 3 -0.04 Release time of 5 3 -0.09 2 -0.21 2 -0.69 2 -0.55 Release time of 6 6 -0.02 6 -0.04 4 -0.04 4 -0.02 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/03/11 23:11:12 Page: 87 Title : Humboldt Bay sensitivity analysisPu238 Input File : C:\RESRADFamily\BUILD\3.BLO Coefficients for source(6) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff sig coeff sig coeff Deposition velocity 4 -0.08 6 -0.11 7 0.02 7 0.01 Resuspension Rate 3 0.10 3 0.15 4 -0.04 4 -0.02 Release time of 1 7 -0.01 7 -0.04 6 -0.03 6 -0.02 Release time of 2 9 0.01 9 0.02 8 0.01 8 0.01 Release time of 3 5 -0.06 4 -0.15 5 0.03 5 0.02 Release time of 4 8 -0.01 8 -0.02 3 -0.05 3 -0.03 Release time of 5 6 0.05 5 0.12 9 0.01 9 0.00 Release time of 6 2 -0.12 1 -0.30 2 -0.69 2 -0.56 Building Exchange Rate 1 -0.31 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
CsATET ae9 hVIBARTLETT Page 90 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Pu-239 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 20:37:27 Page: Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.5\HRBSA-Pu239-1.bld 1 **Probabilistic Output Table of Contents Table of contents ...........................
1 Probabilistic Input ......................
2 statistics for time = O.OOE+00 yr.. 3 Statistics for time = 1.00E+00 yr ..... 16 statistics for time = 5.OOE+01 yr ..... 29 statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.OOE+02 yr .... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation Output ........ 81*- RESRAD-BUILD Probabilistic output 3.50 12/04/11 20:37:27 Page: Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu239-1.bld 2 -Probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5.6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT------------------------
=Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 I0000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999=====....
.... -----= --= ---=-RESRAD-BUILD Probabilistic Output 3.50 12/04/11 20:37:27 Page: 3 "'Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu239-1.bld Evaluation Time: 0.OOOOOOOOE+00 years statistics for Dose (mrem) for Time: 1 Source 1 2 Receptor Minimum Maximum Average std.Dev 3.69E-05 2.23E-04 4.43E-05 1. 50E-05 1. 63E-05 7.7SE-05 1. 96E-05 6. 38E-06 1.09E-05 7. 33E-05 1.31E-05 5.03E-06 1.63E-05 7. 87E-05 1.95E-05 6.08E-06 1.0FE-05 4.62E-05 1. 31E-05 4.21E-06 3.69E-05 2. 38E-04 4.43E-05 1. 51E-05 Total 1. 28E-04 7. 28E-04 1. 54E-04 4. 99E-05* Total *Minimum Maximum Average std.Dev 3.69E-05 2.23E-04 4.43E-05 1. SOE-05 1.63E-05 7.7SE-05 1. 96E-05 6. 38E-06 1. 09E-05 7.33E-05 1. 31E-05 5.03E-06 1. 63E-05 7.87E-05 1.95E-05 6.08E-06 1.08E-05 4.62E-0S 1. 31E-05 4. 21E-06 3.69E-05 2 .38E-04 4.43E-05 1.51E-05 1. 28E-04 7. 28E-04 1. 54E-04 4.99E-O5" RESRAD-BUILD Probabilistic Output 3.50 12/04/11 20:37:27 Page: 16 **Title : Humboldt Bay sensitivity analysisPu239 Input File C:\RESRADFamily\BUILD\3.5\HBSA-Pu239-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Receptor 1*** 1"***Minimum 3.63E-05 Maximum 2.20E-04 Average 4.37E-05 std.Dev 1.46E-05 source 2 1. 61E-05 7.68E-05 1.93E-05 6. 20E-06 1.0SE-05 7.26E-05 1. 29E-05 4.91E-06 1. 59E-05 7. 80E-05 1. 93E-05 S.90E-06 5 6 1.06E-05 3.59E-05 4.48E-05 2.35E-04 1.29E-05 4.37E-05 4.06E-06 1.48E-05 Total 1.25E-04 7. 21E-04 1. 52E-04 4.8SE-05 P8A RTLETT Page 91 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total " Minimum 3.63E-05 1.61E-05 1.05E-05 1.59E-0S 1.06E-05 3.59E-05 1.25E-04 Maximum 2.20E-04 7.68E-05 7.26E-05 7.80E-05 4.48E-05 2.35E-04 7.21E-04 Average 4.37E-05 1.93E-05 1.29E-05 1.93E-05 1.29E-05 4.37E-05 1.52E-04 std.Dev 1.46E-05 6.20E-06 4.91E-06 5.90E-06 4.06E-06 1.48E-05 4.88E-05 RESRAD-BUILD Probabilistic Output 3.50 12/04/11 20:37:27 Page: 29 Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu239-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 7.09E-09 9.59E-10 2.53E-10 9.59E-10 2.55E-10 5.43E-09 1.49E-08 Maximum 4.08E-05 1.93E-05 1.39E-05 1.99E-05 1.23E-05 4.50E-05 1.43E-04 Average 1.72E-OS 7.62E-06 5.08E-06 7.64E-06 5.04E-06 1.74E-05 6.OOE-05 std.Dev 1.18E-05 5.22E-06 3.50E-06 5.21E-06 3.49E-06 1.19E-05 3.85E-05* Total *Minimum 7.09E-09 9.59E-10 2.53E-10 9.59E-10 2.55E-10 5.43E-09 1.49E-08 Maximum 4.08E-05 1.93E-05 1.39E-05 1.99E-05 1.23E-05 4.50E-05 1.43E-04 Average 1.72E-05 7.62E-06 5.08E-06 7.64E-06 5.04E-06 1.74E-05 6.OOE-05 std.Dev 1.18E-05 5.22E-06 3.50E-06 5.21E-06 3.49E-06 1.19E-05 3.85E-05 RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 20:37:27 Page: 81 Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff Sig Coeff Sig Coeff Sig coeff Deposition velocity 3 -0.08 5 -0.11 9 0.03 9 0.01 Resuspension Rate 2 0.09 4 0.13 7 -0.08 7 -0.03 Release time of 1 6 -0.04 6 -0.10 3 -0.30 3 -0.18 Release time of 2 9 -0.01 9 -0.03 5 -0.12 5 -0.07 Release time of 3 4 -0.07 2 -0.16 8 -0.05 8 -0.03 Release time of 4 8 -0.02 8 -0.06 4 -0.16 4 -0.09 Release time of 5 7 0.03 7 0.09 6 -0.08 6 -0.05 Release time of 6 5 -0.06 3 -0.14 2 -0.30 2 -0.18 Building Exchange Rate 1 -0.33 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and I and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 20:37:27 Page: 82 Title : Humboldt Bay sensitivity analysis.
sPu239 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(1) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig coeff Sig Coeff Deposition velocity 4 -0.07 6 -0.10 5 0.04 6 0.02 Resuspension Rate 3 0.10 4 0.15 3 -0.09 3 -0.04 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 9 -0.01 9 0.00 Release time of 3 5 -0.06 3 -0.15 4 0.05 4 0.03 Release time of 4 8 -0.02 8 -0.04 6 -0.04 5 -0.02 Release time of 5 6 0.05 5 0.14 8 0.03 8 0.02 Release time of 6 7 -0.02 7 -0.06 7 -0.03 7 -0.02 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
fflUi 13 A R T L E TT Page 92 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/04/11 20:37:27 Page: 83 Title : HUmboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(2) at Time: 1 Coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 sig coeff sig coeff Sig coeff Sig coeff 3 -0.07 4 -0.09 5 0.03 7 0.01 5 0.04 6 0.06 3 -0.08 3 -0.04 9 -0.01 9 -0.02 8 -0.02 8 -0.01 2 -0.10 2 -0.25 2 -0.70 2 -0.58 4 -0.05 3 -0.12 4 0.04 4 0.02 8 -0.01 8 -0.03 6 -0.03 5 -0.02 6 0.03 5 0.06 9 0.02 9 0.01 7 -0.02 7 -0.05 7 -0.03 6 -0.02 1 -0.33 1 -0.31 1 -0.97 1 -0.78 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 20:37:27 Page: 84 Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(3) at Time: 1 coefficient
=Repetition
=PcC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 3 -0.10 8 -0.01 8 -0.01 Resuspension Rate 4 0.06 4 0.09 3 -0.04 3 -0.02 Release time of 1 7 -0.02 7 -0.05 9 0.00 9 0.00 Release time of 2 9 0.00 9 0.00 6 0.02 6 0.01 Release time of 3 2 -0.12 1 -0.30 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 5 -0.02 5 -0.01 Release time of 5 5 0.03 5 0.09 7 0.01 7 0.01 Release time of 6 6 -0.03 6 -0.08 4 -0.02 4 -0.01 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.20 0.20 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 20:37:27 Page: 85 Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable PCC SRC PRCC SRRC 1 1 1 1 sig coeff sig Coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 5 -0.10 9 -0.01 9 0.00 Resuspension Rate 4 0.06 6 0.09 6 -0.04 6 -0.02 Release time of 1 8 -0.01 8 -0.02 8 -0.02 8 -0.01 Release time of 2 9 -0.01 9 -0.01 5 0.04 5 0.02 Release time of 3 5 -0.05 3 -0.11 3 0.06 3 0.04 Release time of 4 2 -0.12 2 -0.29 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 7 -0.03 7 -0.02 Release time of 6 7 -0.03 7 -0.07 4 -0.04 4 -0.03 Building Exchange Rate 1 -0.34 1 -0.32 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
W BA RTL ETT Page 93 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/04/11 20:37:27 Page: 86 Title : Humboldt Bay sensitivity analysis-Pu239 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(5) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate PCC SRC PRCC SRRC 1 1 1 1 Sig coeff Sig coeff Sig Coeff Sig coeff 2 -0.09 4 -0.12 9 0.01 9 0.00 4 0.08 5 0.12 4 -0.05 5 -0.02 8 0.01 8 0.02 8 0.01 8 0.01 7 -0.01 7 -0.02 6 0.02 6 0.01 5 -0.06 3 -0.15 7 0.01 7 0.01 9 0.00 9 -0.01 3 -0.07 3 -0.04 3 -0.09 2 -0.21 2 -0.68 2 -0.54 6 -0.02 6 -0.04 5 -0.04 4 -0.03 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.25 0.25 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/04/11 20:37:27 Page: 87 **Title : Humboldt Bay sensitivity analysisPu239 Input File : C:\RESRADFamily\BUILD\3.BLD 0.96 Coefficients for source(6) at Time: 1 coefficient
=Repetition
=PCC SRC PRCC 1 1 1 SRRC 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.08 6 -0.11 4 0.06 4 0.03 Resuspension Rate 3 0.10 4 0.15 3 -0.11 3 -0.05 Release time of 1 7 -0.01 7 -0.03 7 -0.03 7 -0.01 Release time of 2 9 0.01 9 0.01 8 0.01 8 0.01 Release time of 3 S -0.06 3 -0.15 6 0.04 6 0.03 Release time of 4 8 -0.01 8 -0.02 5 -0.05 5 -0.03 Release time of S 6 0.05 5 0.12 9 0.00 9 0.00 Release time of 6 2 -0.12 1 -0.31 2 -0.70 2 -0.57 Building Exchange Rate 1 -0.32 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARTLETT Page 94 WIBARTLETT
%0'Page 94 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Pu-240 Results:-k RESRAD-BUILD Probabilistic output 3.50 12/05/11 22:14:27 Page: Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu240-1.bld 1 **Probabilistic Output Table of Contents Table of contents ...........................
1 Probabilistic Input ........................
2 statistics for time = 0.OOE+00 yr ..... 3 Statistics for time = 1.00E+00 yr ..... 16 Statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.00E+02 yr ..... 68 Regression and correlation output ........ 81-k RESRAD-BUILD Probabilistic Output 3.50 12/05/11 22:14:27 Page: Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu240-1.bld 2 1*Probabilistic input Number of sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999-k RESRAD-BUILD Probabilistic output 3.50 12/05/11 22:14:27 Page: 3 kk Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu240-1.bld Evaluation Time: O.OOOOOOOOE+00 years Statistics for Dose (mrem) for Time: 1 Receptor Minimum maximum Average std.Dev 1 3.69E-05 2. 23E-04 4. 43E-05 1. 50E-05 Source 2 1. 63E-05 7.75E-05 1. 96E-05 6. 38E-06 1.09E-05 7.33E-05 1. 31E-05 5.02E-06 4 1. 63E-05 7.87E-05 1.95E-05 6. 07E-06 1.09E-05 4.62E-05 1. 31E-05 4.20E-06 3. 69E-05 2. 38E-04 4.43E-05 1. 51E-OS Total 1. 28E-04 7.28E-04 1. 54E-04 4. 99E-05* Total *Minimum Maximum Average std. Dev 3.69E-05 2. 23E-04 4. 43E-05 1. SOE-OS 1. 63E-05 7. 75E-05 1. 96E-05 6. 38E-06 1.09E-05 7. 33E-05 1. 31-05 5.02E-06 1. 63E-05 7. 87E-05 1. 95E-05 6. 07E-06 1.09E-05 4.62E-05 1. 31-05 4.20E-06 3. 69E-05 2. 38E-04 4.43E-05 1. 51E-OS 1. 28E-04 7. 28E-04 1. 54E-04 4. 99E-05** RESRAD-BUILD Probabilistic output 3.50 12/05/11 22:14:27 Page: 16 kk Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.S\HB-SA-PU240-1.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 Source eptor 1 2 3 Ret 4 Minimum maximum Average std. Dev 3 .63E-05 2. 20E-04 4. 37E-05 1.46E-05 1.61E-0S 1.05E-05 7.68E-05 7.26E-05 1.93E-05 1.29E-05 6.19E-06 4.91E-06 1. 59E-05 7. 80E-05 1. 93E-05 5.90E-06 1.06E-05 4.47E-05 1.29E-05 4.06E-06 3. 59E-05 2. 35E-04 4. 37E-05 1.48E-OS Total 1.25E-04 7. 21E-04 1. 52E-04 4. 87E-05 8 BA RTL ETT Page 95 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0* Total *Minimum 3.63E-05 Maximum 2.20E-04 Average 4.37E-05 std.Dev 1.46E-05 1. 61E-05 7. 68E-05 1. 93E-05 6. 19E-06 1.05E-05 1.59E-05 7.26E-OS 7.80E-05 1.29E-05 1.93E-05 4.91E-06 5.90E-06 1.06E-05 4.47E-05 1.29E-05 4.06E-06 3.59E-05 2.35E-04 4. 37E-05 1.48E-05 1. 25E-04 7. 21E-04 1. 52E-04 4. 87E-05-iRESRAD-BUILD Probabilistic output 3.50 12/05/11 22:14:27 Page: 29 *Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu240-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Receptor*** 1 Minimum Maximum Average std.Dev 1 3. 52E-09 4.07E-OS 1. 71E-05 1.17E-O5 source 2 2.66E-09 1.93E-05 7. 59E-06 5.20E-06 9. 34E-10 1. 38E-05 5.06E-06 3.49E-06 4 2.66E-09 1. 98E-05 7. 61E-06 5.19E-06 9. 39E-10 1. 22E-05 5.02E-06 3.47E-06 3. 52E-09 4.48E-05 1. 74E-OS 1. 19E-05 Total 1.42E-08 1.42E-04 5.98E-05 3.83E-05* Total Minimum Maximum Average Std.oev 3. 52E-09 4. 07E-05 1. 71E-05 1. 17E-05 2. 66E-09 1. 93E-05 7. 59E-06 5. 20E-06 9.34E-10 1. 38E-OS S.06E-06 3.49E-06 2.66E-09 1.98E-05 7.61E-06 5.19E-06 9.39E-10 1. 22E-05 5.02E-06 3.47E-06 3. 52E-09 4.48E-05 1. 74E-05 1. 19E-OS 1.42E-08 1. 42E-04 5. 98E-05 3.83E-05** RESRAD-BUILD Regression and Correlation output 3.50 Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.BLD 12/05/11 22:14:27 Page: 81 **Coefficients for Total at Time: 1 coefficient
=Repetition
=Description of Probabilistic Variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of S Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig Coeff Sig Coeff 3 -0.08 5 -0.11 9 0.03 9 0.01 2 0.09 4 0.13 7 -0.07 7 -0.03 6 -0.04 6 -0.10 2 -0.30 3 -0.18 9 -0.01 9 -0.03 5 -0.12 5 -0.07 4 -0.07 2 -0.16 8 -0.05 8 -0.03 8 -0.02 8 -0.06 4 -0.16 4 -0.09 7 0.03 7 0.09 6 -0.08 6 -0.05 5 -0.06 3 -0.14 3 -0.30 2 -0.18 1 -0.33 1 -0.31 1 -0.97 1 -0.79 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/05/11 22:14:27 Page: 82 Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(i) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition Velocity 4 -0.07 6 -0.10 5 0.05 6 0.02 Resuspension Rate 3 0.10 4 0.15 3 -0.09 3 -0.04 Release time of 1 2 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 9 -0.01 9 0.00 Release time of 3 5 -0.06 3 -0.15 4 0.05 4 0.03 Release time of 4 8 -0.02 8 -0.04 6 -0.04 5 -0.02 Release time of 5 6 0.05 5 0.14 8 0.03 8 0.02 Release time of 6 7 -0.02 7 -0.06 7 -0.03 7 -0.02 Building Exchange Rate 1 -0.31 1 -0.29 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(iE ARTLETT Page 96 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/05/11 22:14:27 Page: 83 Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(2) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig coeff sig coeff sig Coeff Sig Coeff 3 -0.07 4 -0.09 6 0.03 7 0.01 5 0.04 6 0.06 3 -0.08 3 -0.04 9 -0.01 9 -0.02 8 -0.02 8 -0.01 2 -0.10 2 -0.25 2 -0.70 2 -0.58 4 -0.05 3 -0.12 4 0.04 4 0.02 8 -0.01 8 -0.03 5 -0.03 5 -0.02 6 0.03 5 0.06 9 0.02 9 0.01 7 -0.02 7 -0.05 7 -0.03 6 -0.02 1 -0.33 1 -0.31 1 -0.97 1 -0.78 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/05/11 22:14:27 Page: 84 Title : Humboldt Bay sensitivity analysis-Pu240 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff sig coeff sig Coeff Deposition velocity 3 -0.07 3 -0.10 8 -0.01 8 -0.01 Resuspension Rate 4 0.06 4 0.09 3 -0.04 3 -0.02 Release time of 1 7 -0.02 7 -0.05 9 0.00 9 0.00 Release time of 2 9 0.00 9 0.00 6 0.02 6 0.01 Release time of 3 2 -0.12 1 -0.30 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 5 -0.02 5 -0.01 Release time of 5 5 0.03 5 0.09 7 0.01 7 0.01 Release time of 6 6 -0.03 6 -0.08 4 -0.02 4 -0.01 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.20 0.20 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and I and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/05/11 22:14:27 Page: 85 Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRAD-Family\BUILD\3.BLD coefficients for Source(4) at Time: 1 coefficient
=Repetition
=Description of Probabilistic variable PCC SRC PRCC SRRC 1 1! 1 1 sig coeff sig coeff sig Coeff Sig Coeff Deposition velocity 3 -0.07 5 -0.10 9 -0.01 9 0.00 Resuspension Rate 4 0.06 6 0.09 6 -0.04 6 -0.02 Release time of 1 8 -0.01 8 -0.02 8 -0.02 8 -0.01 Release time of 2 9 -0.01 9 -0.01 5 0.04 5 0.02 Release time of 3 5 -0.05 3 -0.11 3 0.06 3 0.04 Release time of 4 2 -0.12 2 -0.29 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 7 -0.03 7 -0.02 Release time of 6 7 -0.03 7 -0.07 4 -0.04 4 -0.03 Building Exchange Rate 1 -0.34 1 -0.32 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
Cl B ARTLETT Page 97 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/05/11 22:14:27 Page: 86 *Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRAD-Family\BUILD\3.BLD Coefficients for Source(5) at Time: 1 Coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate R-SQUARE PCC SRC PRCC SRRC 1 1 1 1 Sig Coeff Sig Coeff Sig coeff Sig Coeff 2 -0.09 4 -0.12 9 0.01 9 0.00 4 0.08 5 0.12 4 -0.05 5 -0.02 8 0.01 8 0.02 8 0.01 8 0.01 7 -0.01 7 -0.02 6 0.02 6 0.01 5 -0.06 3 -0.15 7 0.01 7 0.01 9 0.00 9 -0.01 3 -0.07 3 -0.04 3 -0.09 2 -0.21 2 -0.68 2 -0.54 6 -0.02 6 -0.04 5 -0.05 4 -0.03 1 -0.33 1 -0.30 1 -0.97 1 -0.79 0.25 0.25 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/05/11 22:14:27 Page: 87 Title : Humboldt Bay sensitivity analysisPu240 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(6) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff sig Coeff Deposition velocity 4 -0.08 6 -0.11 4 0.07 4 0.03 Resuspension Rate 3 0.10 4 0.15 3 -0.11 3 -0.05 Release time of 1 7 -0.01 7 -0.03 7 -0.02 7 -0.01 Release time of 2 9 0.01 9 0.01 8 0.01 8 0.01 Release time of 3 5 -0.06 3 -0.15 6 0.04 6 0.03 Release time of 4 8 -0.01 8 -0.02 5 -0.05 5 -0.03 Release time of 5 6 0.05 5 0.12 9 0.00 9 0.00 Release time of 6 2 -0.12 1 -0.31 2 -0.70 2 -0.57 Building Exchange Rate 1 -0.32 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.23 0.23 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.(V8 ARTLETT Page 98 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Pu-241 Results:-RESRAD-BUILD Probabilistic Output 3.50 12/06/11 08:07:44 Page: Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu241-1.bld 1 *Probabilistic Output Table of Contents Table of Contents ...........................
1 Probabilistic Input ........................
2 Statistics for time = 0.00E+00 yr ..... 3 Statistics for time = 1.OOE+00 yr ..... 16 Statistics for time = 5.OOE+01 yr ..... 29 Statistics for time = 1.00E+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and correlation output ........ 81-RESRAD-BUILD Probabilistic Output 3.50 12/06/11 08:07:44 Page: Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.5\HBRSA-Pu241-1.bld 2 *Probabilistic Input Number of sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RF0( 6, 1)LAMBDAT-------------------------
Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
Parameters
.0000027 .0027 2.5E-11 .0000135 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001 .999---= = -----= = .......= = ------** RESRAD-BUILD Probabilistic output 3.50 12/06/11 08:07:44 Page: 3 Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRAD_Family\BUILD\3.5\HBSA-Pu241-1.bld Evaluation Time: 0.OOOOOOOOE+00 years Statistics for Dose (mrem) for Time: 1 Receptor 1 Minimum 7.27E-07 Maximum 4.36E-06 Average 8.66E-07 std.Dev 2.85E-07 Source 2 3.21E-07 1. 52E-06 3.83E-07 1. 21E-07 3 2. 14E-07 1.43E-06 2. 56E-07 9. 58E-08 3.21E-07 1. 54E-06 3.82E-07 1.15E-07 2.13E-07 9.05 E-07 2. SSE-07 7.86E-08 6 7.27E-07 4.65E-06 8.67E-07 2. 90E-07 Total 2.52E-06 1.42E-05 3.01E-06 9. 50E-07* Total *Minimum 7.27E-07 Maximum 4.36E-06 Average 8.66E-07 std.Dev 2.85E-07 3. 21E-07 1. 52E-06 3.83E-07 1. 21E-07 2. 14E-07 1. 43E-06 2. 56E-07 9. 58E-08 3. 21E-07 1. 54E-06 3. 82E-07 1.15E-07 2. 13E-07 9.05 E-07 2.55E-07 7.86E-08 7.27E-07 4.65E-06 8.67E-07 2.90E-07 2. 52E-06 1. 42E-05 3.01E-06 9. 50E-07** RESRAD-BUILD Probabilistic output 3.50 12/06/11 08:07:44 Page: Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu241-1.bld Evaluation Time: 1.00000000 years 16 -Statistics for Dose (mrem) for Time: 2 Receptor 1*.* 1*.4 Minimum 7.39E-07 Maximum 4.47E-06 Average 8.84E-07 std.Dev 2.89E-07 source 2 3.27E-07 1.56E-06 3. 91E-07 1. 21E-07 3 4 5 2.15E-07 3.24E-07 2.16E-07 1.47E-06 1.58E-06 8.95E-07 2.61E-07 3.90E-07 2.60E-07 9.70E-08 1.16E-07 7.87E-08 6 7. 31E-07 4. 77E-06 8. 85E-07 2.94E-07 Total 2. 55E-06 1. 46E-05 3.07E-06 9. 62E-07 CB ARTLETT Page 99 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total *Minimum 7.39E-07 3.27E-07 2.15E-07 3.24E-07 2.16E-07 7.31E-07 2.55E-06 Maximum 4.47E-06 1.56E-06 1.47E-06 1.58E-06 8.95E-07 4.77E-06 1.46E-05 Average 8.84E-07 3.91E-07 2.61E-07 3.90E-07 2.60E-07 8.85E-07 3.07E-06 std.Dev 2.89E-07 1.21E-07 9.70E-08 1.16E-07 7.87E-08 2.94E-07 9.62E-07** RESRAD-BUILD Probabilistic output 3.50 12/06/11 08:07:44 Page: 29 *Title : Humboldt Bay sensitivity analysis.Pu241 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Pu241-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 8.55E-09 1.61E-09 6.S1E-10 1.61E-09 6.53E-10 6.26E-09 1.93E-08 Maximum 1.29E-06 6.09E-07 4.37E-07 6.27E-07 3.87E-07 1.42E-06 4.49E-06 Average 5.48E-07 2.40E-07 1.60E-07 2.41E-07 1.58E-07 5.52E-07 1.90E-06 Std.Dev 3.69E-07 1.63E-07 1.10E-07 1.63E-07 1.09E-07 3.73E-07 1.21E-06* Total *Minimum 8.5SE-09 1.61E-09 6.51E-10 1.61E-09 6.53E-10 6.26E-09 1.93E-08 Maximum 1.29E-06 6.09E-07 4.37E-07 6.27E-07 3.87E-07 1.42E-06 4.49E-06 Average 5.48E-07 2.40E-07 1.60E-07 2.41E-07 1.58E-07 5.52E-07 1.90E-06 Std.Dev 3.69E-07 1.63E-07 1.10E-07 1.63E-07 1.09E-07 3.73E-07 1.21E-06 RESRAD-BUILD Regression and correlation output 3.50 12/06/11 08:07:44 Page: 81 **Title : Humboldt Bay sensitivity analysis....Pu241 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Total at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 3 -0.07 5 -0.11 7 -0.06 8 -0.03 Resuspension Rate 2 0.09 4 0.13 9 0.05 9 0.02 Release time of 1 6 -0.04 6 -0.10 2 -0.30 2 -0.18 Release time of 2 9 -0.01 9 -0.03 5 -0.13 5 -0.07 Release time of 3 4 -0.06 2 -0.16 8 -0.06 7 -0.04 Release time of 4 8 -0.02 8 -0.06 4 -0.16 4 -0.09 Release time of 5 7 0.04 7 0.09 6 -0.07 6 -0.04 Release time of 6 5 -0.06 3 -0.14 3 -0.30 3 -0.18 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.24 0.24 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/06/11 08:07:44 Page: 82 **Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(i) at Time: 1 coefficient
= Pcc SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff sig coeff sig coeff sig coeff Deposition velocity 4 -0.07 6 -0.10 5 -0.03 6 -0.02 Resuspension Rate 2 0.11 3 0.15 9 0.02 9 0.01 Release time of 1 3 -0.11 2 -0.26 2 -0.71 2 -0.59 Release time of 2 9 0.00 9 0.00 8 -0.02 8 -0.01 Release time of 3 5 -0.06 4 -0.15 3 0.04 3 0.03 Release time of 4 8 -0.02 8 -0.05 4 -0.04 4 -0.02 Release time of 5 6 0.06 5 0.14 6 0.03 5 0.02 Release time of 6 7 -0.02 7 -0.06 7 -0.02 7 -0.01 Building Exchange Rate 1 -0.31 1 -0.28 1 -0.96 1 -0.78 R-SQUARE 0.23 0.23 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARLT Pg 0 (&Uýi B A RTL ETT Page 1O00 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/06/11 08:07:44 Page: 83 Title : Humboldt Bay sensitivity analysis-Pu241 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(2) at Time: I coefficient
=Repetition
=Description of Probabilistic variable Deposition velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of 5 Release time of 6 Building Exchange Rate PCC SRC PRCC SRRC 1 1 1 1 sig coeff Sig Coeff Sig Coeff Sig coeff 3 -0.06 4 -0.09 3 -0.05 3 -0.02 5 0.04 6 0.06 4 0.03 5 0.01 9 -0.01 9 -0.02 7 -0.02 7 -0.01 2 -0.10 2 -0.25 2 -0.71 2 -0.58 4 -0.05 3 -0.12 9 0.02 9 0.01 8 -0.01 8 -0.03 8 -0.02 8 -0.01 6 0.03 5 0.07 5 0.03 4 0.02 7 -0.02 7 -O.OS 6 -0.02 6 -0.01 1 -0.33 1 -0.30 1 -0.97 1 -0.78 R-SQUARE 0.24 0.24 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/06/11 08:07:44 Page: 84 Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.BLD 0.96 coefficients for Source(3) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 3 -0.10 3 -0.10 3 -0.05 Resuspension Rate 4 0.07 4 0.10 4 0.08 4 0.04 Release time of 1 7 -0.02 7 -0.05 9 0.00 9 0.00 Release time of 2 9 0.00 9 0.00 8 0.01 8 0.01 Release time of 3 2 -0.11 1 -0.29 2 -0.69 2 -0.57 Release time of 4 8 -0.01 8 -0.01 5 -0.03 5 -0.02 Release time of 5 5 0.03 5 0.09 7 0.02 7 0.01 Release time of 6 6 -0.03 6 -0.08 6 -0.03 6 -0.02 Building Exchange Rate 1 -0.29 2 -0.27 1 -0.97 1 -0.79 R-SQUARE 0.19 0.19 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/06/11 08:07:44 Page: 85 Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for source(4) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig Coeff Sig Coeff Deposition velocity 3 -0.07 5 -0.09 3 -0.10 3 -0.05 Resuspension Rate 4 0.07 6 0.09 4 0.09 4 0.04 Release time of 1 8 -0.01 8 -0.03 8 -0.03 8 -0.02 Release time of 2 9 -0.01 9 -0.01 6 0.04 6 0.02 Release time of 3 5 -0.04 3 -0.11 S 0.04 5 0.02 Release time of 4 2 -0.12 2 -0.30 2 -0.71 2 -0.59 Release time of 5 6 0.04 4 0.10 9 -0.02 9 -0.01 Release time of 6 7 -0.03 7 -0.07 7 -0.03 7 -0.02 Building Exchange Rate 1 -0.34 1 -0.31 1 -0.97 1 -0.79 R-SQUARE 0.25 0.25 0.95 0.95-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
CBARTLETT Page 101 WABARTLETT Nýr Page 101 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0*;iRESRAD-BUILD Regression and correlation output 3.50 12/06/11 08:07:44 Page: 86 Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(5) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig coeff Sig coeff Deposition velocity 3 -0.09 5 -0.12 3 -0.07 3 -0.03 Resuspension Rate 2 0.09 4 0.13 4 0.06 5 0.03 Release time of 1 8 0.01 8 0.02 8 0.01 8 0.01 Release time of 2 7 -0.01 7 -0.02 7 0.02 7 0.01 Release time of 3 5 -0.06 3 -0.15 9 0.00 9 0.00 Release time of 4 9 0.00 9 -0.01 5 -0.06 4 -0.03 Release time of 5 4 -0.09 2 -0.21 2 -0.69 2 -0.55 Release time of 6 6 -0.02 6 -0.04 6 -0.04 6 -0.02 Building Exchange Rate 1 -0.33 1 -0.30 1 -0.97 1 -0.79 R-SQUARE 0.26 0.26 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- RESRAD-BUILD Regression and correlation output 3.50 12/06/11 08:07:44 Page: 87 **Title : Humboldt Bay sensitivity analysisPu241 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(6) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.08 6 -0.11 5 -0.03 6 -0.01 Resuspension Rate 3 0.11 3 0.16 7 0.01 7 0.01 Release time of 1 7 -0.01 7 -0.04 4 -0.03 4 -0.02 Release time of 2 9 0.01 9 0.01 8 0.01 8 0.00 Release time of 3 5 -0.06 4 -0.15 6 0.02 5 0.01 Release time of 4 8 -0.01 8 -0.02 3 -0.05 3 -0.03 Release time of 5 6 0.05 5 0.12 9 0.01 9 0.00 Release time of 6 2 -0.12 1 -0.30 2 -0.69 2 -0.56 Building Exchange Rate 1 -0.31 2 -0.29 1 -0.97 1 -0.79 R-SQUARE 0.22 0.22 0.96 0.96-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and I and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARLT Pg 0 (FIBARTLETT
%-Ii Page 102 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Sr-90 Results:** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 14:56:50 Page: Title : Humboldt Bay sensitivity analysis-Sr90 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Sr90-1.bld 1 *Probabilistic output Table of contents Table of Contents ...........................
1 Probabilistic Input. ......................
2 Statistics for time = 0.OOE+00 yr 3 Statistics for time = 1.OE+O0 yr .... 16 Statistics for time = 5.OOE+01 yr .... 29 Statistics for time = 1.00E+02 yr .... 42 Statistics for time = 2.OOE+02 yr .... 55 Statistics for time = 4.OOE+02 yr.... 68 Regression and Correlation Output ........ 81 k* RESRAD-BUILD Probabilistic output 3.50 12/03/11 14:56:50 Page: Title : Humboldt Bay sensitivity analysis-Sr90 Input File : C:\RESRADFamily\BUILD\3.5\HB-SA-Sr90-l.bld 2 **Probabilistic Input Number of sample Runs: 300 Number Name 1 UD 2 DKSUS 3 RFO( 1, 1)4 RFO( 2, 1)5 RFO( 3, 1)6 RFO( 4, 1)7 RFO( 5, 1)8 RFO( 6, 1)9 LAMBDAT Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
Parameters
.0000027 .0027 2.5E-11 .0000135 1000 i0000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001.999** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 14:56:50 Page: 3 *Title : Humboldt Bay sensitivity analysis-Sr90 Input File : C:\RESRADFamily\BUILD\3.5\HKBSA-Sr90-l.bld Evaluation Time: O.OOOOOOOOE+00 years statistics for Dose (mrem) for Time: 1 Source 1 2 Receptor Minimum Maximum Average std.Dev 1. 56E-06 2. 14E-06 1. 63E-06 4. OOE-08 6. 87E-07 8. 74E-07 7.08E-07 1. 64E-08 4. 55E-07 6.40E-07 4. 69E-07 1. 33E-08 4 6. 89E-07 8. 77E-07 7.07E-07 1. 56E-08 4. 57E-07 5.45E-07 4.69E-07 1.03E-08 1. S5E-06 2. 17E-06 1.62E-06 4.07E-08 Total 5.44E-06 7. 23E-06 5. 60E-06 1. 33E-07 Total STotalI Minimum Maximum Average std.Dev 1. 56E-06 2. 14E-06 1. 63E-06 4. 0OE-08 6. 87E-07 8. 74E-07 7.08E-07 1.64E-08 4. 55E-07 6. 40E-07 4.69E-07 1. 33E-08 6. 89E-07 8. 77E-07 7.07E-07 1. 56E-08 4. 57E-07 5.45E-07 4. 69E-07 1.03E-08 1. 55SE-06 2.17E-06 1.62E-06 4.07E-08 5.44E-06 7.23E-06 5.60E-06 1.33E-07** RESRAD-BUILD Probabilistic Output 3.50 12/03/11 14:56:50 Page: 16 " Title : Humboldt Bay sensitivity analysis-sr90 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Sr90-1.bld Evaluation Time: 1.00000000 years Statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 3 Minimum 1.24E-06 5.95E-07 4.OOE-07 Maximum 2.00E-06 8.24E-07 5.95E-07 4 6. 1OE-07 8.27E-07 6. 79E-07 1. 55E-08 Average 1.56E-06 6.79E-07 4.50E-07 std.Dev 4.16E-08 1.59E-08 1.21E-08 4.13E-07 5.17E-07 4. SOE-07 9.17E-09 1.27E-06 2.02E-06 1. 5SE-06 4.1OE-08 Total 4. 71E-06 6.78E-06 5. 37E-06 1. 31E-07 (CS BARTLETT Page 103 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total Minimum 1.24E-06 5.95E-07 4.00E-07 6.10E-07 4.13E-07 1.27E-06 4.71E-06 Maximum 2.00E-06 8.24E-07 5.95E-07 8.27E-07 5.17E-07 2.02E-06 6.78E-06 Average 1.56E-06 6.79E-07 4.50E-07 6.79E-07 4.50E-07 1.55E-06 5.37E-06 std.Dev 4.16E-08 1.59E-08 1.21E-08 1.55E-08 9.17E-09 4.10E-08 1.31E-07** RESRAD-BUILD Probabilistic output 3.50 12/03/11 14:56:50 Page: 29 Title : Humboldt Bay sensitivity analysisSr90 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-Sr90-1.bld Evaluation Time: 50.0000038 years statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 1.22E-08 2.36E-09 9.57E-10 2.36E-09 9.61E-10 9.01E-09 2.79E-08 Maximum 4.OOE-07 1.73E-07 1.14E-07 1.73E-07 1.15E-07 3.97E-07 1.36E-06 Average 1.99E-07 8.48E-08 5.59E-08 8.49E-08 5.58E-08 1.96E-07 6.77E-07 Std.Dev 1.39E-07 6.10E-08 4.06E-08 6.10E-08 4.07E-08 1.38E-07 4.52E-07* Total *Minimum 1.22E-08 2.36E-09 9.57E-10 2.36E-09 9.61E-10 9.01E-09 2.79E-08 Maximum 4.00E-07 1.73E-07 1.14E-07 1.73E-07 1.15E-07 3.97E-07 1.36E-06 Average 1.99E-07 8.48E-08 5.59E-08 8.49E-08 5.58E-08 1.96E-07 6.77E-07 std.Dev 1.39E-07 6.10E-08 4.06E-08 6.10E-08 4.07E-08 1.38E-07 4.52E-07-* RESRAD-BUILD Regression and correlation output 3.50 12/03/11 14:56:50 Page: 81 *Title : Humboldt Bay sensitivity analysisSr90 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Total at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff sig Coeff Sig Coeff Deposition velocity 3 -0.07 6 -0.10 3 0.21 3 0.14 Resuspension Rate 2 0.07 4 0.11 2 -0.23 2 -0.16 Release time of 1 7 -0.02 7 -0.05 7 0.02 7 0.02 Release time of 2 9 0.00 9 -0.01 6 -0.02 6 -0.02 Release time of 3 4 -0.06 2 -0.16 9 -0.01 9 0.00 Release time of 4 8 -0.02 8 -0.04 5 -0.03 5 -0.02 Release time of 5 5 0.05 3 0.13 8 0.01 8 0.01 Release time of 6 6 -0.04 5 -0.11 4 -0.05 4 -0.04 Building Exchange Rate 1 -0.36 1 -0.35 1 -0.95 1 -0.95 R-SQUARE 0.18 0.18 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 14:56:50 Page: 82 Title : Humboldt Bay sensitivity analysis.s_Sr90 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(I) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.06 6 -0.09 3 0.22 3 0.15 Resuspension Rate 2 0.08 5 0.13 2 -0.22 2 -0.16 Release time of 1 6 -0.05 4 -0.13 5 -0.04 6 -0.03 Release time of 2 9 0.01 9 0.01 8 0.00 8 0.00 Release time of 3 5 -0.06 3 -0.15 9 0.00 9 0.00 Release time of 4 8 -0.01 8 -0.04 7 -0.03 7 -0.02 Release time of 5 3 0.06 2 0.16 6 0.04 5 0.04 Release time of 6 7 -0.03 7 -0.07 4 -0.05 4 -0.04 Building Exchange Rate 1 -0.34 1 -0.33 1 -0.95 1 -0.94 R-SQUARE 0.16 0.16 0.90 0.90-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it nrovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
V7 BARTLETT Page 104 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 14:56:50 Page: 83 **Title : Humboldt Bay sensitivity analysis-Sr9O Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(2) at Time: I Coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.06 5 -0.09 3 0.23 3 0.16 Resuspension Rate 5 0.04 6 0.06 2 -0.26 2 -0.18 Release time of 1 9 0.00 9 0.00 7 0.03 7 0.03 Release time of 2 4 -0.05 3 -0.12 5 -0.07 5 -0.06 Release time of 3 3 -0.05 2 -0.14 6 0.04 6 0.04 Release time of 4 8 -0.01 8 -0.04 4 -0.08 4 -0.07 Release time of 5 6 0.04 4 0.10 9 0.01 9 0.01 Release time of 6 7 -0.02 7 -0.05 8 -0.01 8 -0.01 Building Exchange Rate 1 -0.37 1 -0.36 1 -0.95 1 -0.94 R-SQUARE 0.18 0.18 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 14:56:50 Page: 84 Title : Humboldt Bay sensitivity analysis-sr90 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(3) at Time: I coefficient
=Repetition
=PCC SRC PRCC 1 1 1 SRRC 1 Description of Probabilistic variable Deposi ti on velocity Resuspension Rate Release time of 1 Release time of 2 Release time of 3 Release time of 4 Release time of S Release time of 6 Building Exchange Rate R-SQUARE sig coeff sig coeff sig coeff Sig coeff 3 -0.06 4 -0.09 3 0.24 3 0.16 4 0.06 5 0.09 2 -0.25 2 -0.17 7 -0.01 7 -0.04 9 0.00 9 0.00 9 0.00 9 -0.01 8 0.00 8 0.00 2 -0.07 2 -0.19 6 0.03 6 0.03 8 -0.01 8 -0.02 5 -0.04 5 -0.03 5 0.04 3 0.12 7 -0.02 7 -0.02 6 -0.03 6 -0.08 4 -0.06 4 -0.05 1 -0.32 1 -0.31 1 -0.95 1 -0.95 0.15 0.15 0.91 0.91-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
- , RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 14:56:50 Page: 85 Title : Humboldt Bay sensitivity analysis-Sr90 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(4) at Time: I coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff sig coeff sig coeff Deposition velocity 2 -0.06 5 -0.09 3 0.19 3 0.13 Resuspension Rate 4 0.06 6 0.08 2 -0.22 2 -0.15 Release time of 1 9 0.00 9 0.00 6 0.04 6 0.03 Release time of 2 8 -0.01 8 -0.02 5 -0.06 5 -0.05 Release time of 3 6 -0.05 4 -0.13 9 0.01 9 0.01 Release time of 4 3 -0.06 2 -0.16 4 -0.08 4 -0.07 Release time of 5 5 0.05 3 0.13 7 0.03 7 0.03 Release time of 6 7 -0.03 7 -0.06 8 -0.03 8 -0.02 Building Exchange Rate 1 -0.37 1 -0.36 1 -0.95 1 -0.94 R-SQUARE 0.19 0.19 0.90 0.90-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it orovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
ARTLETT Page 105 RU'i 8 ART L E TT Page 105 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 14:56:50 Page: 86 Title : Humboldt Bay sensitivity analysis-Sr90 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(5) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff Sig Coeff sig Coeff Sig coeff Deposition velocity 2 -0.08 3 -0.11 3 0.21 3 0.14 Resuspension Rate 3 0.07 4 0.10 2 -0.23 2 -0.16 Release time of 1 7 0.01 7 0.03 4 0.04 4 0.03 Release time of 2 8 -0.01 8 -0.02 8 -0.02 8 -0.02 Release time of 3 4 -0.06 2 -0.16 7 -0.02 7 -0.02 Release time of 4 9 0.00 9 -0.01 9 0.00 9 0.00 Release time of 5 5 -0.02 5 -0.06 6 -0.04 6 -0.03 Release time of 6 6 -0.02 6 -0.04 5 -0.04 5 -0.03 Building Exchange Rate 1 -0.38 1 -0.37 1 -0.95 1 -0.94 R-SQUARE 0.20 0.20 0.90 0.90-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it rovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/03/11 14:56:50 Page: 87 **Title : Humboldt Bay sensitivity analysis-sr90 Input File : C:\RESRAD.Family\BUILD\3.BLD Coefficients for Source(6) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 4 -0.07 6 -0.11 3 0.18 3 0.13 Resuspension Rate 2 0.09 5 0.13 2 -0.22 2 -0.15 Release time of 1 7 -0.01 7 -0.02 5 0.03 5 0.03 Release time of 2 8 0.01 8 0.02 8 0.01 8 0.01 Release time of 3 5 -0.06 3 -0.15 7 -0.02 7 -0.02 Release time of 4 9 0.00 9 -0.01 6 -0.03 6 -0.02 Release time of 5 6 0.06 4 0.15 9 0.00 9 0.00 Release time of 6 3 -0.08 2 -0.19 4 -0.06 4 -0.06 Building Exchange Rate 1 -0.34 1 -0.33 1 -0.95 1 -0.94 R-SQUARE 0.16 0.16 0.90 0.90-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
BARTLETT Page 106 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0 Tc-99 Results:**iRESRAD-BUILD Probabilistic output 3.50 12/04/11 14:37:59 Page: Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-TC99-1.bld 1 *Probabilistic output Table of Contents Table of Contents ...........................
1 Probabilistic Input ........................
2 statistics for time = 0.OOE+00 yr ..... 3 Statistics for time = 1.0OE+00 yr ..... 16 Statistics for time = 5.00E+01 yr ..... 29 Statistics for time = 1.OOE+02 yr ..... 42 Statistics for time = 2.OOE+02 yr ..... 55 Statistics for time = 4.OOE+02 yr ..... 68 Regression and Correlation Output ........ 81** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:37:59 Page: Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRAD_
Family\BUILD\3.5\HB_.SA-TC99-1.bld 2 , probabilistic Input Number of Sample Runs: 300 Number 1 2 3 4 5 6 7 8 9 Name UD DKSUS RFO( 1, 1)RFO( 2, 1)RFO( 3, 1)RFO( 4, 1)RFO( 5, 1)RFO( 6, 1)LAMBDAT------------------= = = =Distribution LOGUNIFORM LOGUNIFORM TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRIANGULAR TRUNCATED LOGNORMAL-N
--- -------== = ===Parameters
.0000027 .0027 2.5E-11 .0000135 1000 i0000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000 1000 10000 100000.4187 .88 .001-=================
.999** RESRAD-BUILD Probabilistic output 3.50 12/04/11 14:37:59 Page: 3 ,3 Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\BUILD\3.5\HRSA-TC99-1.bld Evaluation Time: O.O000OOOO E+00 years Statistics for Dose (mrem) for Time: 1 Source 1 2 Receptor*-* 1"**Minimum Maximum Average std.Dev 1. 50E-08 1.98E-08 1. 59E-08 3.85E-10 6. 63E-09 8. 27E-09 6. 87E-09 1. 62E-10 4.38E-09 5. 75E-09 4.54EL09 1. 20E-10 6. 66E-09 8.03E-09 6.87E-09 1. 47E-10 5 4.42E-09 5.85E-09 4. 54E-09 1. 14E-10 1. 51E-08 1. 91E-08 1. 57E-08 3.48E-10 Total 5. 25E-08 6. 51E-08 5.45E-08 1.24E-09* Total* Total Minimum Maximum Average Std.Dev 1. 50E-08 1.98E-08 1. 59E-08 3.8SE-10 6. 63E-09 8. 27E-09 6. 87E-09 1. 62E-10 4. 38E-09 5.75E-09 4. 54E-09 1.20E-10 6.66E-09 8.03E-09 6. 87E-09 1.47E-10 4.42E-09 5.85E-09 4. 54E-09 1. 14E-10 1.51E-08 1.91E-08 1. 57E-08 3.48E-10 5.25E-08 6. 51E-08 5.45E-08 1.24E-09** RESRAD-BUILD Probabilistic output 3.50 12/04/11 14:37:59 Page: 16 " Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\BUILD\3.5\HBSA-TC99-1.bld Evaluation Time: 1.00000000 years statistics for Dose (mrem) for Time: 2 Source Receptor 1 2 3 4 Minimum 1.22E-08 5.86E-09 3.94E-09 6.02E-09 Maximum 1.82E-08 7.91E-09 5.30E-09 7.79E-09 Average 1.56E-08 6.75E-09 4.47E-09 6.75E-09 Std.Dev 4.27E-10 1.75SE-10 1.19E-10 1.67E-10 5 6 3.97E-09 1.26E-08 5.32E-09 1.82E-08 4.47E-09 1.55E-08 1.1OE-10 3.98E-10 Total 4. 65SE-08 6. 23E-08 5. 36E-08 1. 34E-09 IBARTLETT Page 107 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0* Total 'Minimum 1.22E-08 5.86E-09 3.94E-09 6.02E-09 3.97E-09 1.26E-08 4.65E-08 Maximum 1.82E-08 7.91E-09 5.30E-09 7.79E-09 5.32E-09 1.82E-08 6.23E-08 Average 1.56E-08 6.75E-09 4.47E-09 6.75E-09 4.47E-09 1.55E-08 5.36E-08 std.Dev 4.27E-10 1.75E-10 1.19E-10 1.67E-10 1.10E-10 3.98E-10 1.34E-09** RESRAD-BUILD Probabilistic Output 3.50 12/04/11 14:37:59 Page: 29 *Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\BUILD\3.5\HBLSA-TC99-1.bld Evaluation Time: 50.0000038 years Statistics for Dose (mrem) for Time: 3 Source Receptor 1 2 3 4 5 6 Total Minimum 5.59E-10 1.09E-10 4.56E-11 1.09E-10 4.57E-11 4.15E-10 1.28E-09 Maximum 1.29E-08 5.55E-09 3.65E-09 5.54E-09 3.67E-09 1.28E-08 4.37E-08 Average 6.51E-09 2.73E-09 1.79E-09 2.73E-09 1.79E-09 6.36E-09 2.19E-08 std.Dev 4.41E-09 1.94E-09 1.29E-09 1.94E-09 1.29E-09 4.40E-09 1.44E-08* Total *Minimum 5.59E-10 1.09E-10 4.56E-11 1.09E-10 4.57E-11 4.15E-10 1.28E-09 Maximum 1.29E-08 5.55E-09 3.65E-09 5.54E-09 3.67E-09 1.28E-08 4.37E-08 Average 6.51E-09 2.73E-09 1.79E-09 2.73E-09 1.79E-09 6.36E-09 2.19E-08 Std.oev 4.41E-09 1.94E-09 1.29E-09 1.94E-09 1.29E-09 4.40E-09 1.44E-08** RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:37:59 Page: 81 Title : Humboldt Bay sensitivity analysis..Tc99 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Total at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig coeff Sig coeff Deposition velocity 2 -0.10 2 -0.14 3 0.27 3 0.26 Resuspension Rate 5 0.04 6 0.06 2 -0.45 2 -0.45 Release time of 1 9 0.00 9 0.00 4 0.05 4 0.05 Release time of 2 7 -0.02 7 -0.05 6 -0.04 6 -0.04 Release time of 3 3 -0.05 3 -0.13 9 0.02 9 0.02 Release time of 4 8 0.00 8 0.00 5 0.04 5 0.05 Release time of 5 6 0.04 5 0.09 8 0.02 8 0.02 Release time of 6 4 -0.05 4 -0.12 7 -0.03 7 -0.04 Building Exchange Rate 1 -0.33 1 -0.33 1 -0.90 1 -0.87 R-SQUARE 0.15 0.15 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it Erovides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:37:59 Page: 82 Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRAD._Family\BUILD\3.BLD coefficients for Source(i) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig Coeff sig Coeff sig Coeff Sig Coeff Deposition velocity 2 -0.08 2 -0.13 3 0.27 3 0.25 Resuspension Rate 4 0.05 6 0.07 2 -0.43 2 -0.44 Release time of 1 7 -0.03 7 -0.07 4 0.10 4 0.12 Release time of 2 8 -0.01 8 -0.02 7 -0.03 7 -0.03 Release time of 3 3 -0.05 3 -0.12 9 0.00 9 0.01 Release time of 4 9 0.00 9 0.01 6 0.03 6 0.03 Release time of 5 5 0.04 4 0.11 8 0.03 8 0.03 Release time of 6 6 -0.03 5 -0.08 5 -0.07 5 -0.09 Building Exchange Rate 1 -0.30 1 -0.30 1 -0.90 1 -0.87 R-SQUARE 0.12 0.12 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
BtEARTL ETT Page 108 Bartlett Engineering ENG-HB-002 RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay Rev. 0** RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:37:59 Page: 83 Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\RUILD\3.BLD coefficients for Source(2) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable sig coeff Sig coeff sig coeff sig Coeff Deposition velocity 2 -0.09 2 -0.14 3 0.29 3 0.27 Resuspension Rate 6 0.03 7 0.04 2 -0.46 2 -0.46 Release time of 1 8 0.01 8 0.03 6 0.03 6 0.04 Release time of 2 4 -0.04 4 -0.10 4 0.05 4 0.06 Release time of 3 3 -0.04 3 -0.11 7 0.03 7 0.03 Release time of 4 9 0.00 9 0.00 9 0.00 9 0.00 Release time of 5 7 0.02 6 0.06 8 -0.01 8 -0.01 Release time of 6 5 -0.03 5 -0.08 5 -0.04 5 -0.05 Building Exchange Rate 1 -0.33 1 -0.32 1 -0.91 1 -0.87 R-SQUARE 0.15 0.15 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:37:59 Page: 84 Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for source(3) at Time: 1 Coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff Sig coeff Sig coeff Deposition velocity 2 -0.09 3 -0.13 3 0.28 3 0.26 Resuspension Rate 4 0.04 6 0.06 2 -0.44 2 -0.45 Release time of 1 9 0.00 9 0.00 8 -0.01 8 -0.01 Release time of 2 7 -0.02 7 -0.04 6 -0.04 6 -0.04 Release time of 3 3 -0.05 2 -0.14 4 0.15 4 0.18 Release time of 4 8 0.00 8 0.01 7 0.02 7 0.02 Release time of 5 6 0.03 5 0.08 9 0.00 9 0.00 Release time of 6 5 -0.04 4 -0.09 5 -0.06 5 -0.07 Building Exchange Rate 1 -0.31 1 -0.30 1 -0.90 1 -0.87 R-SQUARE 0.13 0.13 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and Correlation output 3.50 12/04/11 14:37:59 Page: 85 Title : Humboldt Bay sensitivity analysis.Tc99 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(4) at Time: 1 coefficient
= PCC SRC PRCC SRRC Repetition
= 1 1 1 1 Description of Probabilistic variable Sig coeff Sig coeff sig coeff Sig coeff Deposition velocity 2 -0.10 2 -0.14 3 0.27 3 0.25 Resuspension Rate 6 0.03 8 0.05 2 -0.44 2 -0.45 Release time of 1 9 0.02 9 0.04 8 0.02 8 0.02 Release time of 2 8 -0.02 7 -0.06 5 -0.09 5 -0.10 Release time of 3 3 -0.05 3 -0.12 9 0.00 9 0.00 Release time of 4 7 -0.03 6 -0.07 4 0.13 4 0.15 Release time of 5 4 0.04 4 0.12 7 0.04 7 0.04 Release time of 6 5 -0.04 5 -0.10 6 -0.04 6 -0.05 Building Exchange Rate 1 -0.34 1 -0.34 1 -0.90 1 -0.87 R-SQUARE 0.15 0.15 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
1/2rT B A RTL ETT Page 109 Bartlett Engineering RESRAD-Build Input Parameter Sensitivity Analysis -Humboldt Bay ENG-HB-002 Rev. 0-RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:37:59 Page: 86 Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\BUILD\3.BLD coefficients for Source(5) at Time: 1 coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig coeff sig coeff sig coeff sig coeff Deposition velocity 2 -0.09 2 -0.14 3 0.28 3 0.26 Resuspension Rate 4 0.03 9 0.04 2 -0.45 2 -0.46 Release time of 1 8 0.02 7 0.05 8 0.02 8 0.03 Release time of 2 5 -0.02 4 -0.06 5 -0.08 5 -0.10 Release time of 3 3 -0.05 3 -0.12 9 0.01 9 0.01 Release time of 4 9 0.02 8 0;05 7 0.06 7 0.07 Release time of 5 7 -0.02 6 -0.06 4 0.11 4 0.13 Release time of 6 6 -0.02 5 -0.06 6 -0.06 6 -0.07 Building Exchange Rate 1 -0.31 1 -0.30 1 -0.90 1 -0.86 R-SQUARE 0.14 0.14 0.83 0.83-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and I and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
RESRAD-BUILD Regression and correlation output 3.50 12/04/11 14:37:59 Page: 87 Title : Humboldt Bay sensitivity analysisTc99 Input File : C:\RESRADFamily\BUILD\3.BLD Coefficients for Source(6) at Time: I coefficient
=Repetition
=PCC SRC PRCC SRRC 1 1 1 1 Description of Probabilistic variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Deposition velocity 2 -0.10 3 -0.15 3 0.25 3 0.24 Resuspension Rate 4 0.05 6 0.08 2 -0.43 2 -0.44 Release time of 1 7 0.01 8 0.04 8 0.01 9 0.01 Release time of 2 8 -0.01 7 -0.04 4 -0.04 4 -0.05 Release time of 3 5 -0.05 5 -0.13 9 0.01 8 0.01 Release time of 4 9 0.01 9 0.02 6 0.03 6 0.04 Release time of 5 6 0.05 4 0.13 7 0.02 7 0.02 Release time of 6 3 20.08 2 -0.21 5 0.03 5 0.04 Building Exchange Rate 1 -0.34 1 -0.34 1 -0.90 1 -0.86 R-SQUARE 0.15 0.15 0.82 0.82-Rank is set to zero if the dose is zero or the correlation matrix is singular.-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the variation in the dependent variable (Dose) explained y regression on the independent variables.
BARTLETT Page 110 BARTLETT ENGINEERING CALCULATION Calculation Number: ENG-HB-003 Revision Number: 0 Calculation Title: Humboldt Bay Soil Derived Concentration Guideline Levels Preparer it. /\D~ate V; h/ýRev iewser: Date Zý/L C)Approval Corp ate Project Manager Date -,- 14 Bartlett Nuclear Inc.60 Industrial Park Road Plymouth, MA 02360 Bartlett Engineering ENG-HB-003 Humboldt Bay Soil DCGLs Rev. 0 1.0 PURPOSE The purpose of this calculation is to develop derived concentration guideline levels (DCGLs) for assessing soil at the Pacific Gas & Electric (PGE) Humboldt Bay nuclear power site. This calculation is a deliverable product specified in the scope of work section in Contract No. GT012 3500895165.
2.0 APPLICABILITY
This calculation addresses only the development of DCGLs for surface soils at the PGE Humboldt Bay site.
3.0 REFERENCES
3.1 ENG-HB-001, RESRAD Input Parameter Sensitivity Analysis -Humboldt Bay 3.2 ANL/EAIS-8, Data Collection Handbook to Support Modeling the Impacts of Radioactive Material in Soil; U.S. Department of Energy -Argonne National Laboratory, April 1993.3.3 NUREG/CR-5512, Volume 1, Residual Radioactive Contamination from Decommissioning:
Technical Basis for Translating Contamination Levels to Annual Total Effective Dose Equivalent, Final Report, U.S. Nuclear Regulatory Commission, October 1992.3.4 ANL/EAD-4, User's Manual for RESRAD Version 6, U.S. Department of Energy -Argone National Laboratory, July, 2001.3.5 NUREG/CR-6697, Development of Probabilistic RESRAD 6.0 and RESRAD-BUILD 3.0 Computer Codes, U.S. Nuclear Regulatory Commission, December 2000.3.6 Procedure ENG-AP-02, Verification of Software Operability 3.7 NUREG/CR-6676, Probabilistic Dose Analysis Using Parameter Distributions Developed for RESRAD and RESRAD-Build Codes, May 2000 (ANL/EAD/TM-89) 3.8 HBPP-TBD-001, Site-Specific Suite of Radionuclides, 8/2007.3.9 Humboldt Bay SAFSTOR Environmental Report, July 1984.3.10 Humboldt Bay Power Plant License Termination Plan, Chapter 6, Compliance with the Radiological Criteria for License Termination, draft 11/2010 3.11 Humboldt Bay Power Plant Historical Site Assessment, 9/2008 4.0 METHOD OF CALCULATION The operability of the RESRAD Version 6.5 code was verified on each computer used for code executions in accordance with Bartlett Engineering procedure ENG-AP- 02, Verification of Software Operability
[ref. 3.5]. The RESRAD User's manual [ref. 3.3] provided guidance for code operation and execution.
The RESRAD code has undergone extensive review, benchmarking, verification, and validation.
Details on reviews, benchmarking, verification, and SBARTLETT Page 2 Bartlett Engineering ENG-HB-003 Humboldt Bay Soil DCGLs Rev. 0 validation for the RESRAD code are summarized in Sections 5.1-5.4 of RESRAD User's manual [ref. 3.3].The RESidual RADioactivity (RESRAD) model and computer code was developed at Argonne National Laboratory (ANL) as a multifunctional tool to assist in developing radiological criteria for unrestricted release and assessing the dose or risk associated with residual radioactive material.
The RESRAD computer code is a pathway analysis model designed to evaluate the potential radiological dose associated with residual radioactive material for a defined receptor scenario.
The RESRAD software allows the user to evaluate radiation exposure through several pathways:
direct external radiation, inhalation, ingestion of plants, meat, milk, aquatic foods, and drinking water, inadvertent ingestion of contaminated soil, and radon exposure.In the previous Bartlett Engineering Calculation ENG-HB-001 (ref. 3.1), the probabilistic modules in RESRAD Ver. 6.5 were used to perform a sensitivity analysis to identify parameters that have the greatest impact on dose. The results from these RESRAD Ver. 6.5 Uncertainty Analysis output reports were used to determine which stochastic parameters were sensitive based on an absolute value of the PRCC exceeding the sensitivity threshold (0.25). The RESRAD Ver. 6.5 Interactive Report was than used to identify the 25th or 75th percentile values for the sensitive parameters shown in Table 1.The values summarized in Table 2, which include reasonably conservative values for the identified sensitive RESRAD parameters, were used as input in separate executions of the RESRAD code for each of the radionuclides of concern (ROCs) at the Humboldt Bay site. The probabilistic module of RESRAD software was used to compute a "peak of the mean" (POM)dose. The POM dose for each ROC was used to determine the DCGL value that corresponded to the NRC dose criteria established in 10CFR20.1403 (i.e., 25 mrem/y). The DCGL value for each ROC was calculated as follows: DCGL(pCi/g)
= 25 mrem/y divided by POM dose (mrem/y per pCi/g).5.0 ASSUMPTIONS AND INPUT 5.1 Assumptions 5.1.1. Radionuclides of Concern (ROC). Twenty-two ROCs are identified for the Humboldt Bay [refs. 3.8 and 3.10]: Am-241, C-14, Cm243/244/245/246, Co-60, Cs-137, Eu-152, Eu-1 54, H-3, 1-129, Nb-94, Ni-59, Ni-63, Np-237, Pu-238/239/240/241, Sr-90, and Tc-99.5.1.2. Resident Farmer Scenario:
The dose model used to perform the sensitivity analyses is based upon the Resident Farmer Scenario defined in NUREG/CR-5512 Volume 3 (Ref. 3.2). The average member of the critical group is the resident farmer that lives on the plant site, grows all or a portion of his / her diet onsite, and drinks water from a groundwater source onsite. The pathways used to estimate human radiation exposure resulting from residual radioactivity in the soil for this scenario includes the following: " Direct external radiation exposure pathway;" Inhalation exposure pathway;" Ingestion exposure pathway:-plant foods grown in the soil material containing residual radioactivity, Page 3 Bartlett Engineering ENG-HB-003 Humboldt Bay Soil DCGLs Rev. 0-meat and milk from livestock fed with fodder grown in soil containing residual radioactivity and watercontaining residual radioactivity,-drinking water containing residual radioactivity from a well, and-aquatic food from a pond containing residual radioactivity; Inadvertent ingestion of contaminated soil 5.1.3. Conceptual Model: The conceptual hydrological model for this resident farmer scenario has three geological strata: 1) a contaminated zone, 2) an unsaturated zone, and 3) a saturated zone. The contaminated zone is assumed to be uncovered, equivalent in size to the largest contiguous Class 1 and 2 area at the Humboldt Bay site (see Figure 2), and variable in thickness.
The unsaturated zone is initially uncontaminated and also variable in thickness.
The groundwater in the saturated zone is assumed initially uncontaminated.
5.2 Input The bases and derivations for input listed below have been documented in Reference 3.1 and are only summarized here. For additional details, refer to Reference 3.1.5.2.1. Contaminated zone: The thickness of the contaminated zone was determined from characterization soil sample data that showed plant-related radioactivity was detected in surface soil samples (6 inches or less in depth) to a sub-surface depth of approximately 12 feet. A site-specific uniform distribution was developed and used in the sensitivity analysis (Ref. 3.1). The thickness of the contaminated zone was identified as a sensitive RESRAD input parameter for most ROCs (Ref. 3.1).Therefore, to increase conservatism and to account for the uncertainty in the thickness of the contaminated zone, the 7 5 th percentile value from the site-specific distribution (provided in Table 1) is used as input for developing DCGLs."Clay loam" was selected from the soil type as a reasonably representative soil type for the contaminated zone (refer to ENG-HB-001
[ref. 3.1] for a detailed description of the approach).
The "clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as hydraulic conductivity and the RESRAD soil-b parameter.
5.2.2. Unsaturated zone: A uniform distribution was established based groundwater well data showing on a minimum thickness equal to 0 inches and a maximum thickness equal to 26.5 feet (details are provided in ENG-HB-001
[ref. 3.1])."Clay loam" was selected from the soil type as reasonably representative soil type for the unsaturated zone. The "clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as effective porosity, hydraulic conductivity, and the RESRAD soil-b parameter.
5.2.3. Saturated zone: "Silty clay loam" was selected as reasonably representative soil type for the saturated zone. The "silty clay loam" soil classification was used as the basis for selecting input for other soil type-dependent parameters, such as effective porosity, hydraulic conductivity, and the RESRAD soil-b parameter.BARTLETT Page 4 Bartlett Engineering ENG-HB-003 Humboldt Bay Soil DCGLs Rev. 0 5.2.4. The value of the Lower Elk River Watershed
[from the Humboldt Bay Power Plant FSAR], 2.52E+07 M 2 , was used as input for the RESRAD parameter"Watershed Area for Nearby Streams and Ponds." 5.2.5. Input values for annual precipitation and evapo-transpiration were obtained from the SAFSTOR Environmental Report [ref 3.9]. NOAA recorded average wind speed data obtained from the National Climate Data Center website were used as the basis for wind speed.5.2.6. Calculations for input values for the following RESRAD parameters are provided in ENG-HB-001
[ref. 3.1]: " Area of the Contaminated Zone and length parallel to the aquifer* Contaminated zone erosion rate* Field capacity for the contaminated, unsaturated, and saturated zones* Hydraulic conductivity in the unsaturated zone* Runoff Coefficient
- Fraction of Time Spent Indoors and Fraction of Time Spent Outdoor" Irrigation Rate and Well Pumping Rate" Inhalation Rate" Soil Ingestion Rate* Drinking Water Intake 5.2.7. Table 2 summarizes the parameter name, type, priority, treatment, values/distribution and the reference source that provides the bases for each input parameter.
6.0 RESULTS 6.1 RESRAD 6.5 was executed for each ROCs using the input values provided in Table 2. Table 3 summarizes the POM dose for each ROC. Selected pages from the RESRAD 6.5 Summary and Uncertainty Reports from each code execution are provided in Appendix A.6.2 The DCGL for each ROC was calculated from POM dose using the following relationship:
DCGL(pCi/g)
= 25 mrem/y divided by POM (mrem/y per pCi/g)6.3 Table 3 provides the DCGL corresponding to an annual dose equal to 25 mrem under the resident farmer scenario.6.4 For practical application, the DCGL values were rounded down to 2 significant digits. Table 4 presents the rounded DCGL values.CPBARTLETT Page 5 Bartlett Engineering Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Table 1: RESRAD-Generated Percentile Values for Sensitive Input Parameters (copy of Table 4 in Reference 3.1)RESRAD Percentile Valuea Sensitive Input Parameter Affected Nuclide 2 5 th 7 5 th Thickness of contaminated zone (m) Am-241, C-14, Cm-243/244/245/246, 2.67E+00 Co-60, Cs-137, H-3, 1-129, Ni-59, Ni-63, Np-237, Pu-238/239/240/241, Sr-90, Tc-99 Depth of roots (m) Am-241, C-14, Cm-243/244/245/246, 1.22E+00 Co-60, Cs-137, H-3, 1-129, Ni-59, Ni-63, Np-237, Pu-238/239/240/241, Sr-90, Tc-99 External shielding factor Cm-243, Co-60, Cs-1 37, Eu-1 52, Eu- 3.98E-01 154, Nb-94 Thickness of evasion layer (m) C-14 4.27E-01 Plant transfer factor Am-241 (the plant transfer factor was 1.83E-03 (pCi/g plant per pCi/g soil) also found sensitive for the Am-241 as a daughter product for Pu-241)Cm-243/244/245/246 1.83E-03 Co-60 1.46E-01 Cs-137 7.82E-02 1-129 3.67E-02 Ni-59/63 9.12E-02 Np-237 3.67E-02 Pu-238/239/240 1.83E-03 Sr-90 5.90E-01 Tc-99 9.16E+00 Meat transfer factor (pCi/kg per pCi/d) Co-60 5.86E-02 Cs-137 6.52E-02 1-129 5.23E-02 Milk transfer factor (pCi/I per pCi/d) Cs-137 1.39E-02 1-129 1.39E-02 Ni-59/63 3.21 E-02 Kd in contaminated zone (cm 3/g) Am-241 (as daughter product for Pu- 1.20E+04 241)Eu-1 52 7.22E+03 H-3 4.30E-02 Nb-94 3.56E+03 Tc-99 4.28E+00 a The 7 5 th percentile value was selected when the absolute value of the PRCC for a given parameter was >0.25 and PRCC had a positive value. The 2 5th percentile value was selected when the absolute value of the PRCC value for a given parameter was -0.25 and the PRCC had a negative value. Refer to Reference 3.1 for additional details.'. BARTLETT Page 6 Bartlett Engineering.
ENG-HB-003 Humboldt Bay Soil DCGLs Rev. 0 Table 2: Summary of Values for RESRAD Input Parameters Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Soil Concentrations Basic radiation dose limit (mrem/y) 3 D 25 10 CFR 20.1402 NR NR NR NR Initial principal radionuclide (pCi/g) P 2 D 1 Unit Value NR NR NR NR Distribution coefficients (applied to contaminated, unsaturated, and saturated zones unless otherwise noted) (cm 3/g)Ac-227 (daughter for Cm-243 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Pu-239)Am-241 (also daughter for Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 and Pu-241)D 1.20E+04 7 5 th percentile value -applied to Am-241 as daugther for Pu-241 in contaminated zone Am-243 (daughter for Cm-243) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 C-14 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 2.4 3.22 0.001 0.999 11 Cm-243 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-244 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-245 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Cm-246 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Co-60 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.46 2.53 0.001 0.999 235 Cs-1 37 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.1 2.33 0.001 0.999 446 Eu-1 52 P 1 D 7.22E+03 7 5 h percentile value applied to contaminated zone only.Truncated lognormal-n NUREG/CR-6697, Att. C; 6.72 3.22 0.001 0.999 825 distribution applied to saturated and_unsaturated zones.Eu-1 54 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Gd-1 52 (daughter for Eu-1 52) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 ABARTLETT Page 7 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median H-3 P 1 S 4.30E-02 25h percentile value applied to contaminated zone only.Truncated lognormal-n NUREG/CR-6697, Att. C; -2.81 0.5 0.001 0.999 0.06 distribution applied to saturated and unsaturated zones.25th percentile value 1-129 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 1.52 2.19 0.001 0.999 4.6 Nb-94 P 1 D 3.56E+03 7 5 h percentile value applied to contaminated zone only.Truncated lognormal-n NUREG/CR-6697, Att. C; 5.94 3.22 0.001 0.999 380 distribution applied to saturated and unsaturated zones.Ni-59 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.05 1.46 0.001 0.999 424 Ni-63 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.05 1.46 0.001 0.999 424 Np-237 (also daughter for Am.-241, P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 2.84 2.25 0.001 0.999 17 Cm-245, and Pu-241)Pa-231 (daughter for Cm-243 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.94 3.22 0.001 0.999 380 Pu-239)Po-21 0 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 5.20 1.68 0.001 0.999 181 Pb-21 0 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 7.78 2.76 0.001 0.999 2392 Pu-238)Pu-238 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-239 (also daughter for Cm-243) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-240 (also daughter for Cm-244) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-241 (also daughter for Cm-245) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Pu-242 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 6.86 1.89 0.001 0.999 953 Ra-226 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 Pu-238)Ra-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.17 1.7 0.001 0.999 3533 Pu-240)Sr-90 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 3.45 2.12 0.001 0.999 32'OBARTLETT Page 8 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Tc-99 p 1 D 4.28E+00 7 5 h percentile value applied to contaminated zone only.Truncated lognormal-n NUREG/CR-6697, Att. C; -0.67 3.16 0.001 0.999 0.51 distribution applied to saturated and unsaturated zones.Th-228 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-240)Th-229 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR6697, Att. C 8.68 3.62 0.001 0.999 5884 245, Np-237, and Pu-241)Th-230 (daughter for Cm-246 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-238) I Th-232 (daughter for Cm-244 and P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 8.68 3.62 0.001 0.999 5884 Pu-240)U-233 (daughter for Am-241, Cm- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 245, Np-237, and Pu-241)U-234 (daughter for Cm-246 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 238) 1 U-235 (daughter for Cm-243 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 239)U-236 (daughter for Cm-244 and Pu- P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 240)U-238 (daughter for Cm-246) P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126 Initial concentration of radionuclides P 3 D 0 Ground water initially NR NR NR NR present in groundwater (pCi/I) uncontaminated for this scenario Calculation Times Time since placement of material (y) I P 3 D 0 NR NR NR NR Time for calculations (y) P 3 D 0, 1,3, 10, 30, 100, 300, 1000 RESRAD Default NR NR NR NR Contaminated Zone Area of contaminated zone (m2) P 30,000 Site-specific:
largest NR NR NR NR contiguous class 1/class 2 area (rounded to nearest thousands)
_(&BARTLETT Page 9 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Thickness of contaminated zone (m) P 2 D 2.67 7 5 th percentile value -applied to all ROCs except those listed below.Site-specific distribution applied to Eu-152, Eu-S Uniform 154, and Nb-94 0.15 3.51 1.83 Length parallel to aquifer flow (m) P 2 D 195 Site-specific
-diameter of NR NR NR NR circle with an area of 2 30,000 m 2 Contaminated fraction below water P 2 D 0 Ground water initially NR NR NR NR table uncontaminated for this scenario Cover and Contaminated Zone Hydrological Data Cover depth (m) P 2 D 0 Site-specific
-no cover NR NR NR NR assumed Density of contaminated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Contaminated zone erosion rate P 2 D 2.2E-3 Calculated value based NR NR NR NR (m/y) on site-specific slope of 6%Contaminated zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Contaminated zone field capacity P 3 D 0.095 Calculated site-specific NR NR NR NR 0.095 value (ref. 3.1)Contaminated zone hydraulic P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 conductivity (m/y) soil type -clay loam Contaminated zone b parameter P 2 S Bounded Log Normal n NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 soil type -clay loam Humidity in air (g/m 3) P 3 D 8.2 Regional value for NR NR NR NR northern CA as represented by San Francisco Evapotranspiration coefficient P 2 S Uniform NUREG/CR-6697 Att. C 0.5 0.75 NR NR 0.625 Average annual wind speed (m/s) P 2 D 3.04 Site-specific value (from NR NR NR NR NCDC website) A'"WARTLETT Page 10 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Precipitation (m/y) P 2 D 0.91 Site-specific value from NR NR NR NR HB SAFSTOR Environmental Report, section 4.1.1 Irrigation (m/y) B 3 S Uniform NUREG/CR-6697, Att C 0.36 0.76 NR NR 0.56 methodology Irrigation mode B 3 D Overhead Overhead irrigation is NR NR NR NR common practice in U. S.Runoff coefficient P 2 D 0.5 Site-specific value; NR NR NR NR NUREG/CR-6697, Att. C section 4.2 methodology Watershed area for nearby stream or P 3 D 2.52E+07 Site-specific value from NR NR NR NR pond (M 2) (HB SAFSTOR Environmental Report)Accuracy for water/soil computations 3 D 1.OOE-03 RESRAD Default NR NR NR NR Saturated Zone Hydrological Data Density of saturated zone (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5105 0.1855 0.937 2.084 1.5105 soil type -silty clay loam Saturated zone total porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.43 0.0699 0.214, 0.646 0.43 soil type -silty clay loam Saturated zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.342 0.0705 0.124 0.56 0.342 soil type -silty clay loam Saturated zone field capacity P 3 D 0.088 Calculated site-specific NR NR NR NR 0.088 value (ref. 3.1)Saturated zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 0.362 1.59 0.0106 195 1.44 (m/y) soil type -silty clay loam Saturated zone hydraulic gradient P 2 D 0.002 Site-specific value NR NR NR NR determined using method described in NUREG/CR-6697, App. C (calculated in ref. 3.1)Saturated zone b parameter P 2 S Bounded NUREG 6697 dist for site 1.96 0.265 3.02 15.5 7.1 Log Normal n soil type -silty clay loam Water table drop rate (m/y) P 3 D 1.OOE-03 RESRAD User Manual NR NR NR NR Well pump intake depth (m below P 2 S Triangular NUREG/CR-6697, Att. C 6 10 30 10 water table) I I I I I I _I Model: Nondispersion (ND) or Mass- P 3 D ND ND model recommended NR NR NR NR Balance (MB) for contaminant areas >I _ __ 1_ _ _1,000 m 2 1 1 (MBARTLETT Page 11 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Well pumping rate (m 3/y) p 2 S Uniform Min, Max, median value 1173 1973 1573 based on site irrigation and area and calculated according to NUREG/CR-6697, Att. C section 3.10 method. (calculated in_ref. 3.1 1 Unsaturated Zone Hydrological Data Number of unsaturated zone strata P 3 D 1 Site-specific value NR NR NR NR Unsat. zone thickness (m) P 2 S Uniform Site-specific distribution 0.00 8.08 4.04 base on thickness of CZ and groundwater elevations Unsat. zone soil density (g/cm 3) P 1 S Bounded Normal NUREG 6697 dist for site 1.5635 0.2385 0.827 2.3 1.5635 soil type -clay loam Unsat. zone total porosity P 2 S Bounded Normal NUREG 6697 dist for site 0.41 0.09 0.1319 0.6881 0.41 soil type -clay loam Unsat. zone effective porosity P 1 S Bounded Normal NUREG 6697 dist for site 0.315 0.0905 0.0349 0.594 0.315 soil type -clay loam Unsat. zone field capacity P 3 D 0.095 Site-specific value NR NR NR NR 0.095 (calculated in ref. 3.1)Unsat. zone hydraulic conductivity P 1 S Bounded Log Normal n NUREG 6697 dist for site 1.36 2.17 0.00478 3190 3.90 (m/y) soil type -clay loam Unsat. zone soil-specific b parameter P 2 S Bounded NUREG 6697 dist for site 1.73 0.323 2.08 15.3 5.6 Log Normal n soil type -clay loam Occupancy Inhalation rate (m 3/y) B 3 D 8400 NUREG/CR-6697, Att C NR NR NR NR Mass loading for inhalation (g/m 3) P 2 S Continuous linear NUREG/CR-6697, Att. C 2.33E-05 Exposure duration B 3 D 30 User's Manual for NR NR NR NR RESRAD Version 6;parameter value not used in dose calculation Indoor dust filtration factor P 2 S Uniform NUREG/CR-6697, Att. C 0.15 0.95 0.55'&IBARTLETT Page 12 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Shielding factor, external gamma p 2 D 3.98E-01 7 5 th percentile value -applied for Cm-243, Co-60, Cs-137, Eu-152, Eu-154, and Nb-94 NUREG/CR-6697, Att. C Bounded lognormal-n
-applied to all ROCs -1.3 0.59 0.044 1 0.2725 except those listed above S Fraction of time spent indoors B 3 D 0.6571 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Fraction of time spent outdoors (on B 3 D 0.1181 NUREG/CR-5512, Vol. 3 NR NR NR NR site) Table 6.87 (outdoors
+gardening)
Shape factor flag, external gamma P 3 D Circular Circular contaminated NR NR NR NR zone assumed for modeling purposes Ingestion, Dietary Fruits, vegetables, grain consumption B 2 D 112 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/y) (other vegetables
+ fruits+ grain)Leafy vegetable consumption (kg/y) B 3 D 21.4 NUREG/CR-5512, Vol. 3 NR NR NR NR Milk consumption (L/y) B 2 D 233 NUREG/CR-5512, Vol. 3 NR NR NR NR Meat and poultry consumption (kg/y) B 3 D 65.1 NUREG/CR5512, Vol. 3 NR NR NR NR (beef + poultry)Fish consumption (kg/y) B 3 D 20.6 NUREG/CR-5512, Vol. 3 NR NR NR NR Other seafood consumption (kg/y) B 3 D 0.9 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Soil ingestion rate (g/y) B 2 D 18.26 NUREG/CR-5512, Vol. 3 NR NR NR NR Drinking water intake (L/y) B 2 D 511 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Contamination fraction of drinking P 3 D 1 All water assumed NR NR NR NR water contaminated Contamination fraction of household P 3 NA water (if used) ____ ___________
_______________
Contamination fraction of livestock P 3 D 1 All water assumed NR NR NR NR water contaminated ABARTLETT NMI-'Page 13 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Contamination fraction of irrigation P 3 D 1 AIII water assumed NR NR NR NR water contaminate Contamination fraction of aquatic P 2 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR food I I Contamination fraction of plant food P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Contamination fraction of meat P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Contamination fraction of milk P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Ingestion, Non-Dietary Livestock fodder intake for meat M 3 D 27.1 NUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, beef cattle +poultry + layer hen Livestock fodder intake for milk M 3 D 63.2 NUREG/CR5512, Vol. 3 NR NR NR NR (kg/day) Table 6.87, forage + grain+ hay Livestock water intake for meat M 3 D 50.6 NUREG/CR5512, Vol. 3 NR NR NR NR (L/day) Table 6.87, beef cattle +poultry + layer hen Livestock water intake for milk M 3 D 60 NUREG/CR5512, Vol. 3 NR NR NR NR (L/day) Table 6.87 Livestock soil intake (kg/day) M 3 D 0.5 User's Manual for NR NR NR NR RESRAD Version 6, Appendix L Mass loading for foliar deposition P 3 D 4.OOE-04 NUREG/CR-5512, Vol. 3 NR NR NR NR (g/m 3) Table 6.87, gardening Depth of soil mixing layer (m) P 2 S Triangular NUREG/CR-6697, Att. C 0 0.15 0.6 0.23 Depth of roots (m) P 1 D 1.22E+00 25th percentile value (Ref. 3.1) -applied to all ROCs except those listed below.S Uniform NUREG/CR-6697, Att. C 0.3 4.0 2.15-applied for Eu-i 52, Eu-154, and Nb-94 Drinking water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR water supplied from groundwater Household water fraction from P 3 NA ground water (if used)LOBARTLETT Page 14 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Livestock water fraction from ground P 3 D 1 All water assumed to be NR NR NR NR -water supplied from groundwater Irrigation fraction from ground water P 3 D All water assumed to be NR NR NR NR supplied from groundwater Wet weight crop yield for Non-Leafy P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C 0.56 0.48 0.001 0.999 1.75 (kg/M 2)Wet weight crop yield for Leafy P 3 D 2.88921 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/m 2) Table 6.87 Wet weight crop yield for Fodder P 3 D 1.8868 NUREG/CR-5512, Vol. 3 NR NR NR NR (kg/m 2) Table 6.87 Growing Season for Non-Leafy (y) P 3 D 0.246 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Leafy (y) P 3 D 0.123 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Growing Season for Fodder (y) P 3 D 0.082 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Non-Leafy P 3 D 0.1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Leafy P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Translocation Factor for Fodder P 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Weathering Removal Constant for P 2 S Triangular NUREG/CR-6697, Att. C 5.1 18 84 33 Vegetation (1/y)Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Non-Leafy Table 6.87 Wet Foliar Interception Fraction for P 2 S Triangular NUREG/CR-6697, Att. C 0.06 0.67 0.95 0.58 Leafy Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR .NR NR Non-Leafy Table 6.87 Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Leafy Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Storage times of contaminated foodstuffs (days):ýqEBAIRTLETT Page 15 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Fruits, non-leafy vegetables, and B 3 D 14 NUREG/CR-5512, Vol. 3 NR NR NR NR grain Table 6.87 Leafy vegetables B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Milk B 3 D 1 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 Meat and poultry B 3 D 20 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 (holdup period for beef)Fish B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Crustacea and mollusks B 3 D 7 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Well water B 3 D 1 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Surface water B 3 D 1 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Livestock fodder B 3 D 45 User's Manual for' NR NR NR NR RESRAD Version 6, Appendix D Special Radionuclides (C-14)C-12 concentration in water (g/cm 3) P 3 D 2.OOE-05 User's Manual for NR NR NR NR RESRAD Version 6, Appendix L C-1 2 concentration in contaminated P 3 D 3.OOE-02 User's Manual for NR NR NR NR soil (g/g) RESRAD Version 6, Appendix L Fraction of vegetation carbon from P 3 D 2.OOE-02 User's Manual for NR NR NR NR soil RESRAD Version 6, Appendix L Fraction of vegetation carbon from P 3 D 9.80E-01 User's Manual for NR NR NR NR air RESRAD Version 6, Appendix L C-14 evasion layer thickness in soil P 2 D 4.27E-01 7 5 h percentile value (m) I I I MABARTLETT Page 16 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median C-14 evasion flux rate from soil P 3 D 7.OOE-07 User's Manual for NR NR NR NR (1/sec) RESRAD Version 6, Appendix L C-12 evasion flux rate from soil P 3 D 1.OOE-10 User's Manual for NR NR NR NR (1 /sec) RESRAD Version 6, Appendix L Fraction of grain in beef cattle feed B 3 D 0.2500 NUREG/CR-6697, Att. B NR NR NR NR Fraction of grain in milk cow feed B 3 D 0.1000 NUREG/CR-6697, Att. B NR NR NR NR Dose Conversion Factors (Inhalation mrem/pCi)Ac-227 M 3 D 6.72E+00 FGR1 1 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 4.44E-01 FGR11 NR NR NR NR Am-243 M 3 D 4.40E-01 FGRI1 NR NR NR NR C-14 M 3 D 2.09E-06 FGR11 NR NR NR NR Cm-243 M 3 D 3.07E-01 FGR11 NR NR NR NR Cm-244 M 3 D 2.48E-01 FGR11 NR NR NR NR Cm-245 M 3 D 4.55E-01 FGR11 NR NR NR NR Cm-246 M 3 D 4.51E-01 FGR11 NR NR NR NR Co-60 M 3 D 2.19E-04 FGR11 NR NR NR NR Cs-137 M 3 D 3.19E-05 FGR11 NR NR NR NR Eu-152 M 3 D 2.21E-04 FGR11 NR NR NR NR Eu-154 M 3 D 2.86E-04 FGR11 NR NR NR NR Gd-152 M 3 D 2.43E-01 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR11 NR NR NR NR 1-129 M 3 D 1.74E-04 FGR11 NR NR NR NR Nb-94 M 3 D 4.14E-04 FGR11 NR NR NR NR Ni-59 M 3 D 2.70E-06 FGR11 NR NR NR NR Ni-63 M 3 D 6.29E-06 FGR11 NR NR NR NR Np-237 M 3 D 5.40E-01 FGR11 NR NR NR NR Pa-231 M 3 D 1.28E+00 FGR11 NR NR NR NR Pb-210 M 3 D 1.38E-02 FGR11 NR NR NR NR Po-210 M 3 D 9.40E-03 FGR11 NR NR NR NR f&c_ BARTLETT Page 17 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-238 M 3 D 3.92E-01 FGR11 NR NR NR NR Pu-239 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-240 M 3 D 4.29E-01 FGR11 NR NR NR NR Pu-241 M 3 D 8.25E-03 FGR11 NR NR NR NR Pu-242 M 3 D 4.11E-01 FGR1I NR NR NR NR Ra-226 M 3 D 8.59E-03 FGR11 NR NR NR NR Ra-228 M 3 D 5.08E-03 FGR11 NR NR NR NR Sr-90 M 3 D 1.31 E-03 FGR11 NR NR NR NR Tc-99 M 3 D 8.32E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.43E-01 FGR11 NR NR NR NR Th-229 M 3 D 2.17E+00 FGR11 NR NR NR NR Th-230 M 3. D 3.26E-01 FGR11 NR NR NR NR Th232 M 3 D 1.64e+00 FGR11 NR NR NR NR U-233 M 3 D 1.35E-01 FGR11 NR NR NR NR U-234 M 3 D 1.32E-01 FGR11 NR NR NR NR U-235 M 3 D 1.23E-01 FGR11 NR NR NR NR U-236 M 3 D 1.25E-01 FGR11 NR NR NR NR U-238 M 3 D 1.18E-01 FGR11 NR NR NR NR Dose Conversion Factors (Ingestion mrem/pCi)Ac-227 M 3 D 1.48E-02 FGR1 1 (RESRAD Dose NR NR NR NR Conversion Library)Am-241 M 3 D 3.64E-03 FGR11 NR NR NR NR Am-243 M 3 D 3.62E-03 FGR11 NR NR NR NR C-14 M 3 D 2.09E-06 FGR11 NR NR NR NR Cm-243 M 3 D 2.51E-03 FGR11 NR NR NR NR Cm-244 M 3 D 2.02E-03 FGR11 NR NR NR NR Cm-245 M 3 D 3.74E-03 FGR11 NR NR NR NR Cm-246 M 3 D 3.70E-03 FGR11 NR NR NR NR Co-60 M 3 D 2.69E-05 FGR11 NR NR NR NR Cs-137 M 3 D 5.OOE-05 FGR11 NR NR NR NR Eu-152 M 3 D 6.48E-06 FGR11 NR NR NR NR Eu-154 M 3 D 9.55E-06 FGR11 NR NR NR NR (tBARTLETT Page 18 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment.
Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Gd-152 .M 3 D 1.61 E-04 FGR11 NR NR NR NR H-3 M 3 D 6.40E-08 FGR11 NR NR NR NR 1-129 M 3 D 2.76E-04 FGR11 NR NR NR NR Nb-94 M 3 D 7.14E-06 FGR11 NR NR NR NR Ni-59 M 3 D 2.10E-07 FGR11 NR NR NR NR Ni-63 M 3 D 5.77E-07 FGR11 NR NR NR NR Np-237 M 3 D 4.44E-03 FGR11 NR NR NR NR Pa-231 M 3 D 1.06E-02 FGR11 NR NR NR NR Pb-210 M 3 D 5.38E-03 FGRI1 NR NR NR NR Po-210 M 3 D 1.90E-03 FGR11 NR NR NR NR Pu-238 M 3 D 3.20E-03 FGR11 NR NR NR NR Pu-239 M 3 D 3.54E-03 FGR11 NR NR NR NR Pu-240 M 3 D 3.54E-03 FGR11 NR NR NR NR Pu-241 M 3 D 6.84E-05 FGR11 NR NR NR NR Pu-242 M 3 D 3.36E-03 FGR11 NR NR NR NR Ra-226 M 3 D 1.32E-03 FGR11 NR NR NR NR Ra-228 M 3 D 1.44E-03 FGR11 NR NR NR NR Sr-90 M 3 D 1.53E-04 FGR11 NR NR NR NR Tc-99 M 3 D 1.46E-06 FGR11 NR NR NR NR Th-228 M 3 D 3.96E-04 FGR11 NR NR NR NR Th-229 M 3 D 4.03E-03 FGR11 NR NR NR NR Th-230 M 3 D 5.48E-04 FGR11 NR NR NR NR Th-232 M 3 D 2.73E-03 FGR11 NR NR NR NR U-233 M 3 D 2.89E-04 FGR11 NR NR NR NR U-234 M 3 D 2.83E-04 FGR11 NR NR NR NR U-235 M 3 D 2.67E-04 FGR11 NR NR NR NR U-236 M 3 D 2.69E-04 FGR11 NR NR NR NR U-238 M 3 D 2.55E-04 FGR11 NR NR NR NR Plant Transfer Factors (pCi/g plant)/(pCi/g soil)Ac-227 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 1.1 0.001 0.999 1.OE-03 Am-241 P 1 D 1.83E-03 75th percentile value Am-243 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 t&BARTLETT Page 19 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median C-14 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -0.36 0.9 0.001 0.999 7.OE-01 Cm-243 P 1 S 1.83E-03 7 5 th percentile value Cm-244 P 1 D 1.83E-03 7 5 th percentile value Cm-245 P 1 D 1.83E-03 75th percentile value Cm-246 P 1 D 1.83E-03 7 5 th percentile value Co-60 P 1 D 1.46E-01 75th percentile value Cs-137 P 1 D 7.82E-01 75th percentile value Eu-1 52 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Eu-1 54 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Gd-1 52 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 H-3 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C 1.57 1.1 0.001 0.999 4.8E+00 1-129 P 1 D 3.67E-02 75th percentile value Nb-94 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 1.OE-02 Ni-59 P 1 D 9.12E-02 7 5 th percentile value Ni-63 P 1 D 9.12E-02 75th percentile value Np-237 P 1 D 3.67E-02 7 5 th percentile value Pa-231 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 1.OE-02 Pb-210 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.52 0.9 0.001 0.999 4.OE-03 Po-210 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.90 0.9 0.001 0.999 1.OE-03 Pu-238 P 1 D 1.83E-03 7 5 th percentile value Pu-239 P 1 D 1.83E-03 7 5 th percentile value Pu-240 P 1 D 1.83E-03 7 5 th percentile value Pu-241 P 1 D 1 .83E-03 75th percentile value Pu-242 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Ra-226 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.22 0.9 0.001 0.999 4.OE-02 Ra-228 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -3.22 0.9 0.001 0.999 4.OE-02 Sr-90 P 1 D 5.90E-01 75th percentile value Tc-99 P 1 D 9.16E+00 7 5 th percentile value Th-228 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-229 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-230 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.OE-03 Th-232 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1 .OE-03 ffi7 BARTLETT Page 20 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median U-233 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-234 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-235 P 1 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-236 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 U-238 P 1 S Truncated Iognormal-n NUREG/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.OE-03 Meat Transfer Factors (pCi/kg)/(pCi/d)
Ac-227 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Am-241 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 Am-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 C-1 4 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -3.47 1.0 0.001 0.999 3.1E-02 Cm-243 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-244 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-245 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Cm-246 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -10.82 1.0 0.001 0.999 2.OE-05 Co-60 P 2 D 5.86E-02 7 5 th percentile value Cs-137 P 2 D 6.52E-02 7 5 th percentile value Eu-152 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Eu-1 54 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Gd-152 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 H-3 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.42 1.0 0.001 0.999 1.2E-02 1-129 P 2 D 5.23E-02 7 5 th percentile value Nb-94 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.9 0.001 0.999 1.OE-06 Ni-59 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.30 0.9 0.001 0.999 5.OE-03 Ni-63 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.30 0.9 0.001 0.999 5.OE-03 Np-237 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Pa-231 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 1.0 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -5.30 0.7 0.001 0.999 5.OE-03 Pb-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 Pu-238 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-239 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-240 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Pu-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1 .OE-04 (0 8ART LETT Page 21 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Pu-242 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 1.OE-04 Ra-226 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Ra-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.0E-03 Sr-90 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.61 0.4 0.001 0.999 1.OE-02 Tc-99 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 0.7 0.001 0.999 1.0E-04 Th-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-229 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-230 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 Th-232 P .2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.21 1.0 0.001 0.999 1.OE-04 U-233 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-234 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-235 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-236 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 U-238 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.OE-04 Milk Transfer Factors (pCi/L)/(pCi/d)
Ac-227 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Am-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 Am-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 C-14 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.4 0.9 0.001 0.999 1.2E-02 Cm-243 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm:244 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-245 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Cm-246 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.9 0.001 0.999 2.OE-06 Co-60 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.7 0.001 0.999 2.OE-03 Cs-137 P 2 D 1.39E-02 7 5 th percentile value I Eu-1 52 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 Eu-1 54 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 Gd-152 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.OE-05 H-3 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -4.6 0.9 0.001 0.999 1.OE-02 1-129 P 2 D 1.39E-02 7 5 th percentile value Nb-94 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.OE-06 BARTLETT Page 22 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Ni-59 P 2 D 3.21 E-02 75th percentile value Ni-63 P 2 D 3.21 E-02 7 5 th percentile value Np-237 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -11.51 0.7 0.001 0.999 1.OE-05 Pa-231 P 2 S Truncated lognormal-n NUREG/CR-6697, Aft. C -12.21 0.9 0.001 0.999 5.OE-06 Po-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.7 0.001 0.999 4.0E-04 Pb-210 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -8.11 0.9 0.001 0.999 3.OE-04 Pu-238 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.0E-06 Pu-239 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.0E-06 Pu-240 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-241 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Pu-242 P 2 S Truncated Iognormal-n NUREG/CR-6697, Att. C -13.82 0.5 0.001 0.999 1.OE-06 Ra-226 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 1.OE-03 Ra-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.5 0.001 0.999 1.OE-03 Sr-90 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.21 0.5 0.001 0.999 2.OE-03 Tc-99 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 1.OE-03 Th-228 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-229 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-230 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 Th-232 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.OE-06 U-233 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-234 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-235 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-236 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 U-238 P 2 S Truncated lognormal-n NUREG/CR-6697, Att. C -7.82 0.6 0.001 0.999 4.OE-04 Bloaccumulation Factors for Fish ((pCi/kg)/(pCilL))
Ac-227 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 2.7 1.1 1.5E+01 Am-241 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 3.4 1.1 3.OE+01 Am-243 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 3.4 1.1 3.OE+01 C-14 P 2 S Lognormal-n NUREG/CR-6697, Att. C 10.8 1.1 4.9E+04 Cm-243 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 3.4 1.1 3.OE+01 Cm-244 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Cm-245 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 U5ARTLETT Page 23 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Cm-246 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Co-60 P 2 S Lognormal-n NUREG/CR-6697, Att. C 5.7 1.1 3.OE+02 Cs-137 P 2 S Lognormal-n NUREG/CR-6697, Att. C 7.6 0.7 2.OE+03 Eu-152 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Eu-1 54 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Gd-1 52 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.2 1.1 2.5E+01 H-3 P 2 S Lognormal-n NUREG/CR-6697, Att. C 0 0.1 I.OE+00 1-129 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.7 1.1 4.OE+01 Nb-94 P 2 S Lognormal-n NUREG/CR-6697, Att. C 5.7 1.1 3.OE+02 Ni-59 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Ni-63 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Np-237 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pa-231 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 9.9E+00 Po-210 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 1.OE+01 Pb-210 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 5.7 1.1 3.OE+02 Pu-238 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-239 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 3.4 1.1 3.OE+01 Pu-240 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.0E+01 Pu-241 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Pu-242 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.4 1.1 3.OE+01 Ra-226 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Ra-228 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3.9 1.1 4.9E+01 Sr-90 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.1 1.1 6.OE+01 Tc-99 P 2 S Lognormal-n NUREG/CR-6697, Att. C 3 1.1 2.OE+01 Th-228 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-229 P 2 S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-230 P 2 " S Lognormal-n NUREG/CR-6697, Att. C 4.6 1.1 9.9E+01 Th-232 P 2 S Lognormal-n NUREG/CR-6697, Aft. C 4.6 1.1 9.9E+01 U-233 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-234 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-235 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 U-236 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 MBARTLETT Page 24 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median U-238 P 2 S Lognormal-n NUREG/CR-6697, Att. C 2.3 1.1 1.OE+01 Bioaccumulation Factors for Crustacea/
Mollusks ((pCi/kg)/(pCi/L))
Ac-227 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-241 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Am-243 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D C-14 P 3 D 9.10E+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-243 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-244 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cm-245 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D_____Cm-246 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Co-60 P 3 D 2.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Cs-137 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Eu-152 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Eu-154 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Gd-152 P 3 D 1.OOE+03 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D AB2ARTLETT Page 25 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median H-3 P 3 D 1.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D 1-129 P 3 D 5.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Nb-94 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ni-59 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ni-63 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Np-237 P 3 D 4.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pa-231 P 3 D 1.10E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pb-210 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Po-210 P 3 D 2.OOE+04 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-238 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-239 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-240 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-241 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Pu-242 P 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D (&BARTLETT Page 26 Bartlett Engineering.
Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Ra-226 p 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Ra-228 P 3 D 2.50E+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Sr-90 p 3 D 1.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Tc-99 p 3 D 5.OOE+00 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-228 P 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D ____Th-229 p 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-230 p 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Th-232 p 3 D 5.OOE+02 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-233 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-234 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-235 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-236 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D U-238 p 3 D 6.OOE+01 User's Manual for NR NR NR NR RESRAD Version 6, Appendix D Graphics Parameters Number of points 32 RESRAD Default NR NR NR NR (I51ARTLETT Page 27 Bartlett Engineering.
ENG-HB-003 Humboldt Bay Soil DCGLs Rev. 0 Parameter (unit) Type Priority Treatment Value/Distribution Basis Distribution's Statistical Parametersd 1 2 3 4 Mean/Median Spacing log RESRAD Default NR NR NR NR Time integration parameters I I I Maximum number of points for dose 17 RESRAD Default NR NR NR NR Table 1 Notes: a P = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)b 1 = high-priority parameter, 2 = medium-priority parameter, 3 = low-priority parameter (see NUREG/CR-6697, Attachment B, Table 4.1)' D = deterministic, S = stochastic d Distributions Statistical Parameters:
Lognormal-n:
1= mean, 2 = standard deviation Bounded lognormal-n:
1= mean, 2 = standard deviation, 3 = minimum, 4 = maximum Truncated lognormal-n:
1 = mean, 2 = standard deviation, 3 = lower quantile, 4 = upper quantile Bounded normal: 1 = mean, 2 = standard deviation, 3 = minimum, 4 = maximum Triangular:
1 = minimum, 2 = mode, 3 = maximum Uniform: 1 = minimum, 2 = maximum BVIARTLETT Page 28 Bartlett Engineering Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Table 3: RESRAD 6.5 Generated POM Doses and DCGL Values by ROC POM Dose DCGL ROC (mrem/y) (pCi/g)Am-241 9.68E-01 2.58E+01 C-14 3.97E+00 6.30E+00 Cm-243 8.61 E-01 2.90E+01 Cm-244 5.20E-01 4.81 E+01 Cm-245 1.41 E+00 1.78E+01 Cm-246 9.70E-01 2.58E+01 Co-60 6.55E+00 3.82E+00 Cs-137 3.15E+00 7.93E+00 Eu-152 2.48E+00 1.01 E+01 Eu-1 54 2.66E+00 9.40E+00 H-3 3.65E-02 6.86E+02 1-129 5.17E+00 4.83E+00 Nb-94 3.51 E+00 7.13E+00 Ni-59 1.27E-02 1.97E+03 Ni-63 3.45E-02 7.24E+02 Np-237 2.25E+01 1.11 E+00 Pu238 8.43E-01 2.97E+01 Pu239 9.36E-01 2.67E+01 Pu240 9.36E-01 2.67E+01 Pu241 2.90E-02 8.61 E+02 Sr-90 1.66E+01 1.51 E+00 Tc-99 2.02E+00 1.24E+01 I, BARTLETT Page 29 Bartlett Engineering Humboldt Bay Soil DCGLs ENG-HB-003 Rev. 0 Table 4: Soil DCGL Values by Radionuclide DCGL ROC (pCi/g)Am-241 2.5E+01 C-14 6.3E+00 Cm-243 2.9E+01-Cm-244 4.8E+01 Cm-245 1.7E+01 Cm-246 2.5E+01 Co-60 3.8E+00 Cs-137 7.9E+00 Eu-152 1.OE+01 Eu-1 54 9.4E+00 H-3 6.8E+02 1-129 4.8E+00 Nb-94 7.1 E+00 Ni-59 1.9E+03 Ni-63 7.2E+02 Np-237 1.1 E+00 Pu238 2.9E+01 Pu239 2.6E+01 Pu240 2.6E+01 Pu241 8.6E+02 Sr-90 1.5E+00 Tc-99 1.2E+01 fe BARTLETT Page 30