ML041100639
| ML041100639 | |
| Person / Time | |
|---|---|
| Site: | Yankee Rowe |
| Issue date: | 02/10/2004 |
| From: | Kay J Yankee Atomic Electric Co |
| To: | Document Control Desk, NRC/FSME |
| References | |
| -RFPFR, BYR 2004-012 | |
| Download: ML041100639 (118) | |
Text
YANKEE ATOMIC ELECTRIC COMPANY Telephone (413) 424-5261 rL. 49 Yankee Road, Rowe, Massachusetts 01367 February 10, 2004 BYR 2004-012 Document Control Desk U.S. Nuclear Regulatory Commission Washington, DC 20555-0001
Reference:
(a) License No. DPR-3 (Docket No. 50-29)
(b) YAEC Letter to USNRC, "Submittal of YNPS License Termination Plan and Proposed Revision to Possession Only License," dated November 24, 2003, BYR 2003-080.
(c) YAEC Letter to USNRC, "Derived Concentration Guidelines Level (DCGL) and Area Factor Calculations for License Termination Plan (LTP)", dated January 19, 2004, BYR 2004-004.
(d) YAEC Letter to USNRC, "RESRAD-BUILD Calculation for License Termination Plan (LTP)", dated December 10, 2003, BYR 2003-102.
(e) YAEC Letter to USNRC, "RESRAD Calculation for License Termination Plan (LTP)", dated December 16, 2003, BYR 2003-105.
Subject:
License Termination Plan (LTP) Update - Section 6 Appendices (A - N)
In accordance with our commitment in Reference (b), this letter updates Section 6 of the LTP for the Yankee Nuclear Power Station. The attached Appendices (A - N) incorporate the results of the calculations which were submitted in References (c), (d) and (e).
The remaining Appendix, providing the volumetric concrete DCGLs, is expected to be submitted in late February following its completion at Brookhaven National Laboratories.
If you have any questions, please contact us.
Sincerely, YA ATOMIC ELECTRIC COMPANY ric iA. Kay E (IPrincipal Licensing Engineer
U.S. Nuclear Regulatory Commission BYR 2004-012, Page 2/2 cc: J. Hickman, NRC, Senior Project Manager, NMSS J. Wray, Inspector, NRC Region I (w/o enclosure)
R. Gallaghar, MA DPH D. Howland, MA DEP M. Rosenstein, EPA, Region 1 W. Perlman, Executive Committee Chair, FRCOG T. W. Hutcheson, Chair, Franklin Regional Planning Board L. Dunlavy, Executive Director, FRCOG P. Sloan, Director of Planning & Development, FRCOG D. Katz, CAN
YNPS -License Termnination Plan YNPS License Termination Plan Revision 00 Revision
- Appendix 6A Basis Document for Site-Specific Parameter Value Assignment, Soil 6A-1
YNPS License Tennination Plan Revision 0 Table of Contents -Ji Page
- 1. Area of the Contaminated Zone.. 6A-3
- 2. Contaminated Zone Erosion Rate.. 6A-5
- 3. Humidity in Air.. 6A-5
- 4. Average Annual Wind Speed.. 6A-6
- 5. Precipitation. ...................................................................................... 6A-8
- 6. Irrigation Rate (Evapotranspiration and Runoff Coefficients) . . 6A-9
- 7. Field Capacity: Contaminated Zone, Unsaturated Zone I and Saturated Zone ... 6A-10
- 8. Saturated Zone Hydraulic Gradient .. 6A-1 I
- 9. WellPumpingRate .. 6A-12
- 10. Watershed for Nearby Stream or Pond . ...................................................... 6A-14 REFERENCES 6A- 16 6A-2
.,,' ' ! 'Revision 0 YNPS 'License Termination Plan Revision 0 YNPS License Termination Plan
- 1. Area of the Contaminated Zone Figure 1-1, (YR Drawing: 9699-FY-6BA Revision 1) was generated with AutoCAD Version 6. The area of the contaminated zone was drawn and calculated by the AutoCAD software and was found to be 140,174 ft2. Converting this value intom 2 : 140174 ft2 x 9.29E-02 m2 /ft2 13022m 2 . Thus, the area of the contaminated zone was assigned a value of 13022m2 .
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m rQ, C> 11 m i, 0-6 a:
I 0
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YNPS License Termination Plan - Revision 0
- 2. Contamninated Zone Erosion Rate The slope of the contaminated zone was determined from the Rowe Site Closure Base Map (YR Drawing: 9699-FY-6BB, Revision 0) generated by AutoCAD Map Version 6. A line was extended from the contour line near Monitoring Well CB-2 to the contour line near Monitoring Well CB-3. The diktahce between the two'wells is 700 feet, with a decreasing change in elevation from 1140 to 1120 feet. Thus, the slope at the Rowe site is 20' per 700', vhich corresponds to a 2.86%
slope.
The' following'YR site drawing provides a transferable scale to the Vap6or Containment
Reference:
VC Site Drawing Number 9699-FV-1 a Scale: Outer Diameter of VC sphere = 125' Data from NUREG/CR-6697, Attachment C, Section 3.8, 2nd paragraph of the section labeled "Discussion" were used to select the appropriate Erosion Rate that corresponds to the Rowe Site slope of 2.86%.
Table 2-1 provides values for Erosion Rate (m/y) corresponding to different percent slopes. The value for Erosion Rate representative of row-crop agriculture and a 2% slope (from NUREG/CR-6697, Att. C) is 6.0 E-4 m/y. Erosion Rates were then calculated for 5%, 10% and 15% slopes using the rate increase factors specified in Section 3.8 of NUREG/CR-6697.
- -Table 2-1 ErosionRate Percent Erosion Rate Slope ' (m/y) 2 6.0E-4 5 1.8E-3
'10 4.2E-3 15 9.OE-3 Using this Erosion Rate/percent slope data, the value for Erosion Rate corresponding to 2.86% is 8.5E-04 m/yr.
- 3. Humidity in Air "Regional and Site-Specific Absolute Humidity Data for Use in Tritium Dose Calculations", Health Physics, Vol.39, pp. 318-320, 1980, provides a table of absolute humidity for selected locations in the United States. These values were calculated from data from the National Oceanic and Atmospheric Administration, 1977, Climatological Data, Annual Summary, Volume 28(13), United States Department of Commerce.
YNPS License Termination Plan Revision Revision 00 YNPS License Termination Plan The value of 6.1 g/m 3 was chosen for the RESRAD humidity parameter corresponding to the Northeast region in the vicinity of Albany, NY, approximately 70 miles west of the YNPS.
.1:-
- 4. Average Annual Wind Speed The wind speed and direction, joint frequency distributions from Table 3.3-2 of the YNPS Environmental Decommissioning Report, dated December 1993, (Table 4-2) were used to calculate the average annual wind speed. The mid-range value was calculated for each of the ranges for which data were available. An average wind speed was calculated by summing the product of the mid-range value for each range and the percentage of time the wind was recorded to be within the range. A value of 2.03 mIs was assigned to this parameter.
Table 4- 1 Wind Speed Min. Max. Mid-Range Percent Mid-Range Wind Speed Wind Speed Wind Speed of Time in (weighted by (mph) (mph) (mph) Range percentage of time) 0.00 0.95 0.48 0.00 0.00 0.95 3.00 1.98 47.11 0.93 4.00 8.00 7.00 12.00 5.50 10.00 38.98 12.72 2.14 1.27 j
13.00 18.00 15.50 1.16 0.18 19.00 24.00 21.50 0.02 0.00 Average: 4.53 mph Converting to m/s: 4.53 mi/h x 1 m/6.214-04 mi x Ih/3600 s = 2.03 m/s 6A-6
(7 (7 N.C.
fo 0
'-4 cn YNPS 35-Foot Wind Speed and Direction Joint Frequencv Distributions (A 1988-1992 CbD CD 1e)
WIND DIRECTION FROM "o CD o3 SPEED(MPH) N NNE NE ENE .E ESE SE SSE S SSW SW WSW W WNW NV NNW VRBL TOTAL X C w CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C D C.3 570 1010 1351 1672 2941 3952 2556 1741 1284 942 763 385' 283 221 169 297 0 20137 (1) 1.33 2.36 3.16 3.91 6.88 9.25 5.98 4.07 3.00 2.20 1.78 .90 .66 .52 .40 .69 .00 47.11 orb (2) 1.33 2.36 3.16 3.91 6.88 9.25 5.98 4.07 3.00 2.20 1.78 .90 .66 .52 .40- .69 .00 47.11
- 0D 4-7 1468 1363 975 727 ;61 374 ,-455 773 .1230 2046 2570 1176 773 -565 625, 783-. 0 16664 (1) 3.43 3.19 2.28 1.70 1.78 .87 1.06 1.81 2.88 -4.79 6.01. 2.75 1.81 1.32 1.46 1.83-- .00 38.98 (2) 3.43 3.19 2.28 1.70 1.78 .87 1.06 1.81 2.88 4.79 6.01e 2.75 1.81 1.32 1.46-.1.83 .00 38.98 ' C..-l
.- CL.
8-12--'1137 952 263 35 4 2 2 13 96 483 1159 481 179 137 188 308- 0 5439 A.<: ..
(1) 2.66 2.23 .62 .08 .01 .00 .00 .03 .22 1.13 2.71 1.13 .42 .32 .44 .72- .00 12.72
-!4 (2) 2.66 2.23 .62 .08 .01 .00 .00 .03 .22 1.13 2.71 1.13 .42 .32 .44. .72. .00 1Z.72 0~
13-18 141 195 12 1 0 0 0 0 1 12 116 9 1 1 0 7 0 496 CD (1) .33 .46 .03 .00 .00 .00 .00 .00 .00 .03 .27 .02 .00 .00 .00 .02 .00 1.16 (2) .33 .46 .03 .00 .00 .00 .00 .00 .00 .03 .27 .02 .00 .00 .00 .02 .00 1.16 19-24 2 5 1 0 0 0 0 0 0 0 2 0 -- 0 0 0 0 0 10 (1) .00 .01 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .02 la.
(2) .00 .01 .00 .00 .00 .00 .00 .00 .00 .00 '.00 .00 .00 .00 .00 .00 .00 .02 0
GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C)
(2) .00 .00 .00 .00- .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 3318 3525 2602 2435 3706 4328 3013 2527 2611 3483 4610 2051 1236 924 982 1395 0 42746 (l) 7.76 8.25 6.09 5.70 8.67 10.12 7.05 5.91 6.11 8.15 10.78 4.80 2.89 2.16 2.30 3.26 .00 100.00 CD Go (2) 7.76 8.25 6.09 5.70 8.67 10.12 7.05 5.91 6.11 8.15 10.78 4.80 2.89 2.16 2.30 3.26 .00 100.00 (1)=PERCENT OF ALL G000 OBSERVATIONS FOR THIS PAGE CA:
0 C2)SPERCENT OF ALL GOO OBSERVATIONS FOR THIS PERIOD C= CALM (WIND SPEED LESS THAN OR EQUAL TO .95 MPH) 1n.
0 0)
- 0,
YNPS License Termination Plan Revision YNPS License Termination Plan Revision 00
- 5. Precipitation Table 3.3-4 of the YNPS Environmental Decommissioning Report (December 1993) provides monthly mean precipitation totals for Readsboro, Vt., located approximately 5 miles from the YNPS. This information is based on data from the National Oceanic and Atmospheric Administration.
Table 5- 1 Mean Precipitation Rate Readsboro Monthly Mean Precipitation Totals (inches of water)
Period: 1961-1990 Month Precipitation (inches)
Jan 3.49 Feb 3.43 Mar 3.86 April 4.32 May 4.59 Jun 4.54 Jul 4.08 Aug Sept 4.29 3.79 j'
Oct 3.8 Nov 4.61 Dec 4.28 Year Total 49.08 Converting to meters/year: 49.08 in/y x 2.54 cm/in x m/I00 cm = 1.2 m/y. The precipitation rate was assigned a value of 1.2 m/y.
Revision YNPS License Tennination Plan.
YNPS License Termination Plan Revision 00
- 6.' Irrigation Rate (Evapotranspirationi and Runoff Coefficients)
NUREG/CR-6697 Attachment C, Section'4.3 'discusses the Irrigation Rate in terms of the Evapotranspiration'Coefficient. Equ'aiion 4.3-1 of NUREG/CR-6697 expresses the Evapotranspiration Coefficient as:
- , l , ~~~~~~~~~~~~~~~... ..................... .,.._..i , i ,;
Ce= ETr
-' ' (l -Cr)(Pr) + IRr - ;
Where: ETr = the Evapotranspiration Rate (m/y)
Pr = the Precipitatiion Rate' (iify)
IRr = the Irrigation Rate (m/y) and Cr = the Runoff Coefficient.-
Based upon this equation, the Irrigation Rate can be expressed as:
IRr ETr - (1-Cr)(Pr)
Ce The input values for the variables in this equation:
YA-REPT-00-002-03 "i , ,,'- . .
(Ref.
1)
I,.,
cites a value for the average I
annual Evapotranspiration Rate, ETr,in the upper Housatonic River basin of 21.6 iniy or 0.549 in/y from 1931 to 1960.
- The Precipitation Rate, Pr, has been assigned a site-specific value of 1.2 ml/yas discussed in Section 5 of this Attachment.
- ' C. 4- ;: ;a ;
Ie-a
- Appendix E, Table E.1 of Ref. 2 provides the equation below to calculate the Runoff Coefficient, Cr for an agricultural environment. Table E. 1, Runoff Coefficient Values, also lists values for c1l c2 and C3 forevarious environments:
Cr = 1- C2-C3 c= 0.1 for hilly land with an average slopes of 46 m/mi (Refer to section 2 of this Attachment for the site slope determination- 20' drop per 700' run or 46 m/mi).
C2 = 0.2 for intermediate combinations of clay and loam as identified at the site in Ref. 3.
C3 = 0.1 for cultivated lands which also fits the scenario for-the site.
Cr 1 - 0.1 - 0.2 - 0.1 = 0.6 6A-9
YNPS License Termination Plan Revision 0 NUREG/CR-6697, Attachment C, Section 4.3-Evapotranspiration Coefficient, Ce, defines this parameter 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 of 0.5 and 0.75, respectively and with 0.625 as median. Any selected value for the irrigation rate should satisfy the Ce minimum to maximum range.
Substituting the minimum and maximum values of Ce into Equation 4.3-1 results in the following range for the Irrigation Rate, IRr:
Table 6- 1 Irrigation Rate Variable m "Max" Units Value Value ETr 0.549 0.549 M/y Pr 1.2 1.2 m/y Cr 0.6 10.6 -
Ce 0.5 0.75 --
IRr 0.252 0.618 m/y Based on the calculated minimum and maximum IRr values, the median value is 0.435 m/y. A uniform distribution was assigned to this parameter and a positive input correlation to the Well Pumping Rate was assigned based upon guidance in NUREG/CR-6697 and NUREG/CR-6676.
- 7. Field Capacity: Contaminated Zone, Unsaturated Zone and Saturated Zone The "Data Collection Handbook to Support Modeling the Impacts of Radioactive Material in Soil,"
(Ref. 3) 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 of Ref. 3 relates Total and Effective Porosity to Field Capacity as follows:
Effective Porosity = Total Porosity - Field Capacity
- Thus, Field Capacity = Total Porosity - Effective Porosity _J.
YNPS License Termination Plan Revision Rvison 0 Pan YNPSLicnse ermnatin The total and effective porosity values for the various zones are the mean values of the NUREG/CR-6697 distributions for sand. ,
Table 7- 1 Field Capacity Zone / Soil Type Total Porosity Effective Porosity Field Capacity Contaminated/sand 0.43 0.3 83 0.047 Unsaturated/sand 0.43. 0.383 0.047 Saturated/sand 0.43 0.383 0.047
- 8. Saturated Zone Hydraulic Gradient NUREG/CR-6697, Attachment C, Section 3.6, 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:
Jx= hi-h 2 Axrj Where hi and h2 represent the hydraulic heads or the water level elevations at location I and 2, and A, is the distance between the two locations. The water level elevations are referenced to mean sea level, msl. This methodology was followed in YA -REPT-00-002-03, "Hydrogeological Parameter Estimates for Radiation Dose Modeling" (Ref,1) to determine the average hydraulic gradient across the site' An average value for the site was calculated from three separate hydraulic gradient determinations as follows in Table 8.1. LTP Figure 2-8 shows the well locations.
i-, 6A-I I
YNPS License Tennination Plan Revision 00 YNPS License Termination Plan Revision J-Table 8- 1 H-ydraulic Gradient Well / Location Water Level Distance Between Hydraulic Gradient, ft/ft Designation Elevation (msl), ft Wells, ft CB-3 1135 Deerfield River 1020 1000 (1 135-1020)/1000 = 0.115 below Sherman Dam CB-3 1135 CB-2 1105 533 (1135-1105)/533 = 0.056 CW-3 1132 CB-1 1114 118 (1132-1114)/118=0.152 Average = 0.1 The hydraulic gradient was assigned a value of 0.1 feet/foot.
- 9. Well Pumping Rate NUREG/CR-6697, Attachment C Section 3.10 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 is calculated from the Domestic Water Use discussed in YA-REPT-00-002-03, Ref. 1.
Based upon the most recent data available, (1997 Census of Agriculture Volume 1: Part 21, Chapter 1, Massachusetts State-Level Data), irrigation of pastureland is not a common practice in Massachusetts. This data indicates that in Massachusetts, while 24,269 total acres of crop land were irrigated, only 295 total acres of pastureland were irrigated. Furthermore, only one farm, in Franklin County, claimed irrigation of pasture.
1 I.
YNPS License Termnination Plan Revision 0 YNPS License Termination Plan Revision 0 Table 9-1 Water Use Components Used to'Determine Well Pumping Rate
.Water Use Components for' a Family of Four Median' Minimnu'm Maximum Units Household* ' ' 374 374' 374 m Livestock 76.7 76.7 76.7 m3/y
'Irrigation'ofvegetable plot '_;_:
Contaminated fraction fp= min (Area/2000, 1 1 1 0.5) _ _ _ _ _ _
Irrigation rate Ir(my) 0.435 0.252 0.618 Irrigation water f, X Irx 2000 870 504 1236 M7 Irrigation of pasture (Not a New England practice.)
Contaminated fraction fm = Area/20,000 <= I I _
Irrigation rate Ir(M/y) 0 0 0 m/y Irrigation water fm x 1r x 20,000 0 0 0 m3/y Drinking water ** 1.91 1.91 1.91 m3/y TOTAL FOR A FAMILY OF FOUR (sum of water components in Bold type) 1323 957 1689 m /
A uniform distribution was assigned to this parameter with a positive correlation to the Irrigation Rate.
- Household Use: Domestic Water Use for family of four of 272 gallons per day (Ref. 1) minus the drinking water component of 1.91m 3 /y.
- 478 1/y per individual adjusted to family of four and converted to m3 /y.
conversion: 478 l/y-Ind x 4 Ind x 1m3/1 0001 = 1.91 m3 /y 272 gal/day x 3.79E-3 gal/M3 x 365.25day/y = 376 m3 /y
"; '6A-13
__-A-YNPS License Termination Plan Revision 0
- 10. Watershed for Nearby Stream or Pond The following figure is taken from a letter to the USNRC from Yankee Atomic Electric Co., FYR 82-59, June 16, 1982, that delineates the watersheds to Wheeler Brook and to the site. An evaluation of this topographic map and the drainage areas is also included in Ref. 1.
The watershed area to the site is 0.3 square miles. Converting to square meters yields a total watershed area of 0.3 mi 2 x (1609.3 m/mi)2 = 7.77E+05 m2 . This parameter was assigned a value of 7.77E+05 m2 .
YNPS License Ternination Plan . Revision 0 Figure 10 Local S.itFe Tlrainae, A-ruv'a
' 'I 6A-15
YNPS License Termnination Plan Revision YNPS License Termination Plan Revision 00
References:
J.
- 1. YA-REPT-00-002-03, "Hydrogeological Parameter Estimates for Radiation Dose Modeling," May 2003.
- 2. ANL/EAD-4, "Users Manual for RESRAD Version 6.0," Yu, C. et al., July 2001.
- 3. Yu, C., et al., Argonne National Laboratory, "Data Collection Handbook to Support Modeling Impacts of Radioactive Material in Soil," April 1993.
YNI'S License Termination Plan Revision u
.. . . . .. I .
I I
I ."
. .. ...... . 1 . .i..A pp'endix 6B .
I
-,.Input Paramneter VAlues for~Sensitivity Analysis, Soil.
YNPS License Termination Plan Revision 0 Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario I Distribution's Statistical Parameters4 Parameter (unit) Type' Priority Treatment' Value/Distribution Basis 2 3 Median Soil Concentrations Basic radiation dose limit (mrenmyr) P 3 D 25 IOCFR 20.1402 (Ref. I) NR NR NR NR Initial principal radionuclide (pCi/g) P 2 D I Assumed unit concentration NR NR NR NR Distribution coefficients (contam., unsat. and sat. zones) (cmn/g)
Ac-227+progeny P I S Truncated NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Lognormal-N (Ref. 2)
Ag-108m P I S Truncated NUREG/CR-6697, Att. C 5.38 2.1 0.001 0.999 216 Lognormal-N (Rcf. 2)
Am-241 P I S Truncated NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 I.ognormal-N (Ref. 2)
Am-243+ progeny P i S Truncated NUREG/CR-6697, Att. C 7.28 3.15 0.001 0.999 1445 Lognormal-N (Ref. 2)
C- 14 S Truncated NUREG/CR-6697, Att. C 2.4 3.22 0.001 0.999 II Lognormal-N (Ref. 2)
Cm-243 P I S Truncated NUREG/CR-6697, Att. C 8.82 1.82 0.001 0.999 6761 Lognormal-N (Ref. 2)
Co-60 p I S Truncated NUREG/CR-6697, Att. C 5.46 2.53 0.001 0.999 235 Lognormal-N (Ref. 2)
Cs-134 P I S Truncatcd NUREG/CR-6697, Att. C 6.1 2.33 0.001 0.999 446 Lognormal-N (Rcf. 2)
Cs-137+progeny P I S Truncated NUREG/CR-6697, Att. C 6.1 2.33 0.001 0.999 446 Lognormal-N (Ref. 2)
Eu-152 P I S Truncated NUREG/CR-6697, Att. C 6.72 3.22 0.00i 0.999 825 Lognormal-N (Ref. 2) _
Eu-154 P I S Truncated NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Loenormal-N (Ref. 2)
Eu-155 P I S Truncated NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Lognormal-N (Ref. 2)
Fc-55 P I S Truncated NUREG/CR-6697, Att. C 5.34 2.67 0.001 0.999 209 Lognormal-N (Ref. 2) _
Gd-152 P I S Truncated NUREG/CR-6697, Att. C 6.72 3.22 0.001 0.999 825 Lognormal-N (Ref. 2) 6B-2 k
(.
YNPS License Termination Plan RevisionK' Input Parameters for Sensitiity Analysis, Soil -
Resident Farmner Scenario Distribution's StatisticalParameters Parameter (unit) Typeo Priori ty" Treatment' Value/Distribution . Basis 12. Median H-3 p I S Truncated NUREG/CR-6697, Att. C -2.81 0.5 0.001 0.999 0.06 Lognormal-N .(Ref. 2) .
Nb-94 .. P I S Truncated NUREG/CR-6697, Att. C 5.94 - 3.22 0.001 0.999 380
-. Loghormal-N (e.)
Ni-63. ., P .I -- -. Truncated - NUREG/CR-6697, Aft. C 6.05. 1.46 - 0.00! 0.999 424 Lognormal-N (Ref. 2) ___ _____
Np-237+ progeny p I S Truncated NUREG/CR-6697,-Att. C 2.84 '2.25' 0.001' 0.999 17 Lognormal-N (Ref. 2)_ -'>' _________
Pa-231 P I S Truncated NUREG/CR-6697, Att. C 5.94 3.22 0.001 0.999 380
. ___ _____ Lognormal-N (Ref. 2) - ____ __
Pb-21 O+progeny p I S Truncated NUREG/CR-6697, Att. C 7.78 -2.76 0.001 0.999..2392
______ Lognorm l-N - (Ref. 2)r _____
Pu-238 .. ...- .*. P I S Truncated NUREGICR6697, Att. C 6.86 1.89 0.001 0.999 95
. . .-..... . - Lognormal-N (Ref. 2) .,
ru.239 p I 5 Truncated NUREG/C1R-6697, Att. C 6.86 1.89 0.001 0.999 953
____Lognormial N (Ref. 2) ____
Pu-241+ progeny -P - I1S - Truncated . NUREG/CR-6697, Att. C. 6.86 . .. 1.89 0.001. 0.999 . 953 -
Lognormal-N (Ref. 2) _____ _________
Ra-226+ progeny p I S Truncated NUREGICR-6697, Att. C 8.17 -1.7 0.001 0.999" 3533
______ ognormal-N . Ref. 2) _____
Sb.125 , p iTruncated NUREG/C1R.6697, Att. C 5.94 3.22 0.001 -0.999' 380
- Lognormal-N - (Ref. 2) - ..--
Sr-90+ progeny . . P I- S Truncated - NUREC/CR-6697, Att. C 3.45 2.12 0.001 .0.999 -. 32
______ Lognormal-N (Ref. 2) ___ _____
TC-99 .P - I - -Truncated NUREGICR-6697, Att. C -0.67 3.16 0.001 - 0.999 0.51
__ _ __ _Lognorm M- (Recf. 2) _ _ _ _ _ _ _ _
Th-229+ progeny P I -S *Truncated . NUREG/CR-6697, Att. C 8.68 .3.62 0.001 . 0.999 -5884
__ _ __ __ _ _Lognonnal-N (Ref. 2) _ _ _ _
Th-230 p I S Truncated NUREG(CR-6697, Att. C 8.68 3.62 0.00!.: 0.999 5884
______ Lognon-mal-N (Ref. 2).
U-233 p I S I. Truncated -~NUREG/CR-6697, Att. C 4.84 3.13 0.001 0.999 126
____ __ ___ _Lognormal-N (Ref. 2) _ _ _ _ _ _ _ _ _ _ _ _ _
U-234 P I1 S Truncated NUREGICR-6697, Att; C 4.84 3.13 0.001 0.999 126
___ ____ ___ ___ __ _ ___ _ __ ___ ___ Lognormal-N (Rcef 2) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
613-3
YNPS License Tennination Plan Revision 0 Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Distribution'sStatistical Parameters~
Parameter (unit) Type' Priority' Treatment' Value/Distribution Basis I l l 3P l rM ,Iledian
_ __ _ _ _ _ _ __ _ _ _ _ _ _ _ _ 2 3 4 U-235+ progeny P I S Truncated NUREGICR-6697,Att. C 4.84 3.13 0.001 0.999 126 Lognormal-N (Ref. 2) _ _
Initial conccntration of radionuclides P 3 D 0 Ground water assumed NR NR NR NR present in groundwater (pCi/l) uncontaminated Calculation Times Timesinceplacementofmaterial(yr) P 3 D l 0 NR NR NR NR Time for calculations (yr) P 3 D 0, 1,3, 10,30, 100, RESRAD Default NR NR NR NR 300. 1000 Contaminated Zone Area of contaminated zone (m) 2 P 2 D 13022 Site-specific- radiation NR NR NR NR control area (LTP App. 6A, SectionI) _ _ _ _
Thickness ofcontaminated zone (m) P 2 S Uniform Minimumequal depth of 0.15 3.8 NR NR 1.975 soil mixing layer (0.1 5m);
maximum equal depth to water table (3.8m) (Ref. 3)
Length parallel to aquifer flow (in) P 2 D 129 Site-specific - diameter of NR NR NR NR circle with an area of 2
13022 in (LTP App. 6A, Section 1)
Cover and Contaminated Zone llydrological Data Cover depth (m) P 2 D 0 No cover assumed NR NR NR NR Density of contaminated zone (g/cm') P I S lBounded Normal NUREG/CR-6697dist. for 1.5105 0.159 1.019 2.002 1.5105 site soil type: sand (Ref. 3)
Contaminated zone erosion rate (m/yr) P 2 D 8.5E-04 Calculated value based on NR NR NR NR site-specific slope of 2.90/6 I__ __l_l(LTP App. 6A. Section 2) l _ _ _ _
Contaminated zone total porosity P 2 S Bounded Normal NUREG/CR-6697 dist. for 0.43 0.06 0.2446 0.6154 0.43 site soil type: sand (Ref. 3) l _______
Contaminated zone field capacity l P 3 D 0.05 Site-specific value (LTP NR NR NR NR 0.05 App. 6A, Section 7) calculated using Equation I_ I_ I__ _ _ 4.4 from Ref.44 1 6B-4 I
- - . - - - - - ---- --- -,!-- nt--
( RevisionQ YjNFZ. License Ierninatun~riall
-Input Parameters for SestiyA alysis, Soil'
- Resident Farmer Scenario I t
.Parmetr (uit)Type Tratmet alueD~sribui~n .. BsisDistribution's StatisticalParameters Piityb . ,M-.d 1- - I' Contaminated zone hydraulic P 2 S Beta NUREG/CR-6697 dist. for 110 5870 1.398 1.842 2506 conductivity (m/yr) site soil type: sand (Rer~. 3) ____
Contaminated zone b parameter p 2 S Bounded NUREG/CR-6697 dist. for .0.0253 0.216.051 1.90 . 0.975
- .- - Lognormal-N .site soil type:, sand (Ref. 3) ____
Humidity in air (g/mn') -P 3- D . 6.1 Regional value. (LTP App. NR NR NR NR 6A. Section 3). ______
Evapotranspiration coefficient P 2 S Uniform NUREG/CR-6697 Att. C, 0.5 0.75 NR NR 0.625 (Ref.2) _ _ _ _ _ _ _ _
Average annual wind speed (ml/sec) p 2 D 2.03 Site-specific value calc. NR NR NR NR from site meteorological data (LTrP App. 6A, Section .-
Prc~ipitation'(mlyr) p 2 D 1.2 Site-speci fic value NR NR NR NR
- 4'~:V calculated trm Site..
~~geographical arcaprccip - .
_____ ______ __________ (LTP App._ 6A, Section) ____
Irrigtioin (nm/yr): -13~ 3 S Unir .NUREG/CR-6697, Att. C .0.252 0.618 NR NR 0.435 methodology(Ref. 2, Att. L)__________
Irrigation mode .B 3 D . Overhead Site-specific - overhead vs. NR NR NR NR ditch irrigation is standard practice in Eastern U. S.' _____
Runoff coefficient . - . P 2- D 0.6 NUREG/CR-6697, Att. C NR NR NR NR Section 4.2 methodology -
- (Ref. 2, App. 6A, Section
- . 6) .
Watershed area tar nearby stream or p 3 D 7.77E+05 Site-specific- drainage area NR NR NR NR pond (in) -___ ________(LTP App. 6A, Section I0) __________
Accuracy for water/soil computations .3. -D l.001E-03 RESRZAD Derault NR NR NR NR _____
Saturated ZonelilydrologicallData ___ __________
3 NUREG/CR-6697 dist. for 1.5105' 0.159 109 2.002 1.5105 Densitycofsaturatecizone(g/cm ) - . p .1 - S Bounded Normal.
site soil type: sand (Ref. 3)_____ _____
Saturated zone total porosity P I S Bounded Normal NUREG/CR-6697 dist for 0.43 0.06 0.2446 0.6154 0.43 site soil type: sand (Ref. 3) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Saturated zone effective porosity P 1S Bounded Normal NUREG/CR-6697 dist. for 0.383 0,0610 0.195 0.572 0.383
.... site soil type: sand (Ref. 3) _____________________
- . . . . 613-5
YNPS License Termination Plan Revision 0 Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Parameter (unit) Type' Priority' Treatment' Value/Distribution Basis Distribution's Statistical Parameters MIedian
_ _ _I 2 3 4_ _ _
Saturated zone field capacity P 3 D 0.05 Site-specific value NR NR NR NR 0.05 calculated using Equation 4.4 from Ref.4 (LTP App.
6A, Section 7)
Saturated zone hydraulic conductivity P I S Beta NUREG/CR-6697 dist. for 110 5870 1.398 1.842 2506 (m/yr) site soil type: sand (Ref. 3)
Saturated zone hydraulic gradient P 2 D 0.1 Site gradient (LTP App. 6A, NR NR NR NR Section 8)
Saturated zone b parameter P 2 S Bounded NUREG/CR-6697 disL for .0.0253 0.216 0.501 1.90 0.975 Lognormal-N site soil type: sand (Ref. 3)
Water table drop rate (m/yr) P 3 D 1.00E-03 RESRAD Default NR NR NR NR Well pump intake depth (m below water P 2 5 Triangular NUREG/CR-6697, Att. C 6 10 30 14.51 table) (Ref. 2)
Model: Nondispersion (ND) or Mass- P 3 D ND ND model recommended NR NR NR NR Balance (MB) for contaminant areas >
1,000 m (Ref. 4) ___
Well pumping rate (m'/yr) P 2 5 Uniform Min. Max, median value 957 1689 NR NR 1323 based on site irrigation and area and calculated according to NUREG/CR-6697, Att. C section 3.10 method. (Ref. 2 and LTP App. 6A. Section 9)
Unsaturated Zone Hydrological Data Number of unsaturated zone strata P 3 D I Site-specific value NR NR NR NR Unsat. zone 1,thickness (m) P I S Uniform Assumes 0.15 to 3.8 m 0.01 3.65 1.82 contaminated zone thickness and 3.8 m depth to
._ _w water table (Ref. 3)
Unsat. zone I, soil density (g/cm') P 2 S Bounded Normal NUREG/CR-6697 dist. for 1.5105 0.159 1.019 2.002 1.5105 site soil type: sand (Ref. 3)
Unsat. zone I, total porosity P 2 S Bounded Normal NUREGICR-6697 dist. for 0.43 0.06 0.2446 0.6154 0.43 site soil type: sand (Ref. 3)
Unsat. zone 1, effective porosity P 2 S Bounded Normal NUREG/CR-6697 dist. for 0.383 0.0610 0.195 0.572 0.383 site soil type: sand (Ref. 3) 6B-6 l
(-
(/
YNPS License Termination Plan Revision '.
- - Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Distribution's Statistical Parametersd Parameter (unit) Type' Priorityi` Treatment' Value/Distribution Basis 2edian N
.. -1 2 3 4 Unsat. zone l, field capacity P 3 D 0.05 ; .- Site-specific value - NR - NR - -NR NR 0.05 calculated using Equation 4.4 from Ref. 4 (LTP App.
.- 6A, Section 7)- -
Unsat. zone I, hydraulic conductivity P 2 S Beta NUREG/CR-6697 dist. for 110 5870 I.398 1.842 2506 (m/yr) site soil type: sand (Ref. 3) -- _
Unsat. zone I, soil-specific b parameter P 2 S Bounded NUREG/CR-6697 dist. for .0.0253 0.216 0.501 1.90 0.975
.___ Lognormal-N site soil type: sand (Ref. 3) . . . ;
Occupancy "" - - - - - - - --
Inhalation rate (m'/yr) B 3 D 8400 NUREG/CR-6697, Att. C NR NR NR NR-
. - - - ~
. .. .._.- _(Ref 2) _ __,
Mass loading for inhalation (gtm') P 2 .S Continuous Linear NUREG/CR-6697, Att. C NR NR NR NR -- 2.33E-05
.___.__. . ... . .. _ : .(Ref.2): .. __._;
Exposure duration B 3 D 30 RESRAD Default , NR NR NR NR _
Indoor dust filtration factor . .. .P 2 . S Uniform NUREG/CR-6697, Att. C 0.15 0.95 NR NR 0.55
.___-______!___. i . ~~-
- 2) . _. ~(Ref. _ __.
Shielding factor, external gamma p 2 S Bounded NUREG/CR-6697, Att. C, -1.3 0.59 0.044 I 0.2725
. _ Lognormal-N . *----(Rcf.2) .
Fraction oftime spent indoors B 3 D 0.6571 NUREG/CR-5512, Vol. 3 NR NR NR NR
._._ . ; . .*Table.. 6.87 (Ref. 5) ._;
Fraction of time spent outdoors (on site) B 3 D 0.1181 NUREG/CR-5512,Vol:3 NR NR- NR NR Table 6.87. (outdoors +
.___ ____ _gardening) (Ref. 5) -- .
Shape factor flag, extemal gamma P
- 3 D Circular RESRAD Default - Circular NR NR NR NR
- , ., : contaminated zone assumed . .
Ingestion, Dietary _ _ - - _ -- _-_._._,
Fruits, vegetables, grain consumption B 2 D 112 NUREG/CR-5512, Vol. 3 NR NR NR NR (kglyr) . . (other vegetables + fruits +
.__ ._ ,_ _ _ . _- _ :_*grain) (Ref. 5) _
Leafy vegetable consumption (kgtyr) B 3 - D 21.4 . NUREG/CR-5512, Vol. 3 NR NR NR NR (Ref. 5) __.
Milk consumption (Uyr) B 2 D 233 I NUREGICR-5512, Vol. 3 NR NR NR NR
__ __ . . - . (Rcf. 5) -
Meat and poultry consumption (kgtyr) B 3 D 65.1 NUREG/CR5512, Vol. 3 NR NR NR NR
_(beef+ poultry) (Ref._5)
- .6B-7
YNPS License Ternination Plan Revision 0 Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Distribution'sStatisticatl Parameters' Parameter (unit) Type' Priority' Treatment' Value/Distribution Basis Median
_ _ _1
_ 2 3 4 Fish consumption (kg/yr) B 3 D 20.6 NUREG/CR-5512, Vol. 3 NR NR NR NR (Ref. 5)
Other scafood consumption (kg/rT) B 3 D 0.9 RESRAD Default NR NR NR NR Soil ingestion rate (g/yr) B 2 D 18.26 NUREG/CR-5512, Vol. 3 NR NR NR NR (Ref. 5)
Drinking water intake (Uyr) B 2 D 478.5 NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 (Ref. 5)
Contamination fraction of drinking water P 3 D I RESRAD Default - all NR NR NR NR water assumed contaminated Contamination fraction of household P 3 NA water (if used) . _
Contamination fraction of livestock P 3 D I RESRAD Default - all NR NR NR NR water water assumed contaminated Contamination fraction of irrigation P 3 D I RESRAD Default - all NR NR NR NK water water assumed contaminate Contamination fraction of aquatic food P 2 D I NUREG/CR-5512, Vol. 3 NR NR NR NR (Ref. 5)
Contamination fraction ofplant food P 3 D I NUREG/CR-5512, Vol. 3 NR NR NR NR (Ref. 5)
Contamination fraction of meat P 3 D I NUREG/CR-5512, Vol.3 NR NR NR NR (Ref. 5)
Contamination fraction of milk P 3 D I NUREG/CR-5512, Vol. 3 NR NR NR NR
__ __ ___ ___ ___ ___ __ (R ef. 5) _ _ _ _ _
Ingestion, N n-Dietary Livestock fodder intake for meat N1 3 D 27.1 NUREG/CR5512, Vol.3 NR NR NR NR (kg/day) Table 6.87, beef cattle +
poultry + layer hen (Ref. 5)
Livestock fodder intake for milk (kgtday) M 3 D 63.2 NUREG/CR5512, Vol. 3 NR NR NR NR Table 6.87, forage + grain +
hay (Ref. 5) 6B-8 I
(-
C YNPS License Termination Plan C Revision u Input Pariameters for S'ensitiviIty"Aralysis, Soil11 Resident Farmer Scenario.
Distribution'sStatisticalParametersd Parameter (unit) Type' Priority" Treatment' Value/Distribution . Basis* 2- Median Livestock water intake for meat (lday) M 3 D 50.6 ,NUREG/CR5512, Vol. 3' NR NR NR NR Table 6.87, beef cattle +
________________ _______________poultry + layer hen (Ref. 5) _ _ _ _ _ _ _ _ _
Livestock water intake for milk (tiday) M 3 D 60 NUREG/CR55 12, Vol. 3 NR NR NR NR Table 6.87 (Ref. 5)
Livestock soil intake (kgtday) . M 3 D 0.5 RESRAD Default NR NR NR NR _____
Mass loading for foliar deposition (g/m') P 3 D 4.001E-04 NUREO/CR-55 12, Vol. 3, NR NR NR NR Table 6.87, gardening (Ref. -
Depth of soil mixing layer (in) - P .. 2 S -Triangular . NUREG/CR-6697, Att. C. 0 -. 0.15 0.6 NR 0.23
__ _ __ _ __ __ _ __ __ _ _ _ _ _ _ _ '(R ef. 2) _ _ _ _ _ _ _ _ _
Depth of roots(in). ~ . P_ IS Uniform Min. fromnNUREG/CR-. 0.3 _ _3.8 -- NR ~.NR -2.05 6697, Aft. C (Ref. 2) Max.
-is site specific depth to Drinking water fraction from ground p _3 D F 'RESRAD Default -all, NR NR NR NR waer -. watifassizmedtobe
_____________ ____ ____________ supplied from groundwater _ _ _ _ _ _ _ _ _ _ __ _ _ _ _
Household water frnactioti from ground P 3 NA-water (if used) ____
Livestock water fraitidn from grfowid P 3- D I RESRAD Default-. all' NR- NR NR- NR water - water assumed to be
______________supplied from groundwater .
Irrigation fraction from ground water P 3 D I RESRAD Default -all NR NR NR NR
-waterassumedtobe-.- --
__________ ____ _ _____ ____ _____ _____ _____ ____ supplied from groundw ater _ _ _ ___ _ _ _
Wet weight crop yield for Non-Leafy P 2-.S - Truncated - NUREG/CR-6697, Att. C 0.56 .0.48 0.001 .. 0.999 - .1.75 2 (Ref. 2)
(kg/rn ) . .. _ _ _ _Lognormal-N _ _ _ _ _ _ _ _ _ _ _ _ _
Wet weight crop yield for Leafy (kglm ),
2 P 3 D .2.88921. NUREG/CR-551 2, Vol. 3 NR - NR . NR . NR
~~~~~~Table 6.87 (Ref. 5) __________
Wet weighitcrop yield forFodder P 3 D 1.8868 NUREG/CR-5512. Vol. 3 NR NR NR' NR 2 6.87 (Ref. 5)
(kg/rn __ _ _ _ _ _ _ _ _ _Table __ _ _ _ _ _ _ _ _ __ _ _ _ _
Growing Season for Non-Leafy (years) P 3 D 0.246 . NUREO/CR-55 12, Vol. 3 NR NR NR NR Growing Season for Leafy (years) P 3 D 0.123 NUREG/CR-5512, Vol.3 N NR NR NR
____________ ____ ___________ Table 6.87 (Ref._5) _ _ _ __ _ _ _ _ ___ _ _ _ _
YNPS License Termination Plan Revision 0 Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Distribution's Statistical Parametersd Parameter (unit) Typea Priority" Treatment' Value/Distribution Basis 2 3edian Growing Season for Fodder (years) P 3 D 0.082 NUREG/CR-55 12, Vol. 3 NR NR NR NR Table 6.87 (Ref. 5)
Translocation Factor for Non-Lcafy p 3 D 0.1 NUREG/CR.5512, Vol. 3 NR NR NR NR Table 6.87 (Ref. 5)
Translocation Factor for Leafy p 3 D I NUREG/CR-5512, Vol.3 NR NR NR NR Table 6.87 (Ref. 5)
Translocation Factor for Fodder P 3 D I NUREG/CR-5512, Vol. 3 NR NR NR NR
.__ Table 6.87 (Ref. 5)
Weathering Removal Constant for P 2 S Triangular NUREG/CR-6697, Att. C 5.1 18 84 NR 33 Vegetation (1/vr) (Ref. 2) _
Wet Foliar Interception Fraction for Non- P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Leafy _ Table 6.87 (Ref. 5) .
Wet Foliar Interception Fraction for P 2 S Triangular NUREGICR-6697, Atn. C 0.06 0.67 0.95 NR 0.58 Leafv (Rcf. 2)
Wet Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder Table 6.87 (Ref. 5)
Dry Foliar Interception Fraction for Non- P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Leafv Table 6.87 (Ref.5)
Dry Foliar Interception Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Leafv (Ref. 5)
Dry Foliar Interccption Fraction for P 3 D 0.35 NUREG/CR-5512, Vol. 3 NR NR NR NR Fodder (Ref. 5)
Storagc times of contaminated foodstuffs (days): ___
Fruits, non-lcafy vegetables, and grain B 3 0 14 NUREG/CR-5512, Vol. 3 NR NR NR NR
____ __ Table 6.87 (Rcf. 5) __
Leafy vegetables B 3 D I NUREG/CR-5512, Vol. 3 NR NR NR NR
__ Table 6.87 (Ref. 5)
Milk B 3 D I NUREG/CR-5512, Vol. 3 NR NR NR NR Table 6.87 (Ref. 5)
Meat and poultry B 3 D 20 NUREG/CR-5512, Vol.3 NR NR NR NR Table 6.87 (holdup period for beef) (Ref.5) _
Fish B 3 D 7 RESRAD Default NR NR NR NR Crustacea and mollusks B 3 D 7 RESRAD Default NR NR NR NR 6B-10 l
C, YNPS License Termination Plan C Revision '
I, .- .Input Parameters for Sensitivity Analysis, Soil.
.. ~~~Resident Farmier Scenario -..- -
t Distribution's StatisticalParamleters' Parameter (unit) TY p'e Priorityb, Treatment Value/Dis'tribution 'Basis Median-
_ __ __ _ _ _ _ _ _ _ _ _ 1 2 3 4 Welliwater . .1B 3 D I RESRAD Default NR NR NR - NR Surface water!,4 B_ 3 -D I RESRAD Default NR NR NR - NR Livestock fodder B 3 D 45 RESRAD Default NR NR -NR -NR Special Radionuclides (C-14) _____
0 12 concentration in water (g/crn3) p 3 D 2.OOE-05 RESRAD Default- NR NR NR NR- -
C-12 concentration in contaminated Soil P 3 D3.002-02 RESRAD Default NR -NR NR NR-(g of C-12/gof soil).- - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Fraction of vegetation carbon from soil- P-..- 3 . D .. 2.0013-02. RESRAD Default NR NR NR NR Fraction of vegetation carbon from air~-* - P 3 D 9.80E-0l RESRAD Default . NR NR NR NR 0.14 evasion layer thickness in soil (in) - P - 2-. S Triangular...- NUREG/CR-6697, Aft. C 0.2 - 0.3 -0.6 NR 0.3
_ __ _ __ __ __ __ _ _ _ _ _ _ _ __ _ __ _ __ _ _ _ _ _ _ _ _ _ _ _ _ (R ef.2 ) A_ _ _ __ _ _ _ _ _ _ _
M-4e'vasidon flux rate from soil (1/sec) p 3 D 7.0023-07 RESRAD Default NR NR NR - NR 1-2evasion flux rate from soil (U/sec) P. 3 D 1.0013-10 RESRAD Default NR NR NR NR Fraction of grain in beef cattle feed B' 3 D 0.2500 NUREG/CR-6697, Aft. B NR NR NR NR'
- . - ~~~~ ~~(Ref,.2) _ _ _ _ _ _ _ _ _ _
Fraction of grain in milk cow feed B--3 -- D- 0.1000 NUREG/CR-6697, Aft.B . R NR NR _.NR Re ._2)_ __ _ ___ _ __ ____ __ ____ ___ ____ _ _ __R _ _ _ __2_
_ __ ___ _ __ ___ __ _ _ _ _ _ _ _ _ _ _ _ __ ____ ___ _ _ _ _(
Dose Conversion Factors (Inhalation mremlpCi) . I ________ ___________ ____ _____
Ac-227+ progeny..,.. .. _ M_ _ -. 3 - D .6.72E+00 FGR.1 I (Ref. 6) (RESRAD NR NR NR NR
____ _____ ____ Dose Conversion Library) _ _ _ _ _
Ag-108rn M 3 0 2.8312-04 FGR-1lI (Ref.6) NR NR NR NR Am-241 M 3 D '4.44E-01 -FGR~llI (Ref. 6), NR NR NR NR Am-243+ progeny M - 3 D 4.40E-01 FGR-1lI (Ref,.6) -. NR NR NR NR 0.4 3 D 2.0913-06' iG~IRf6 R N NR NR Cm-24 M D3.720 .. FGR-1 I (Ref. 6) NR - N*NR NR-Cm-243 M 3.
Y . .2.019E-01 FGR-11I(Ref. 6) NR *NR . NR NR Cs-134 M 3 D 4.6932-04 FGR-1 f(Ref. 6) NR NR- NR NR Cs-134+pogn M 3 D 3.19E-05' FGR-1lI (Ref. 6) NR, NR- NR NR Cu-137 pogn M 13 1. rD .2.2191-04 I FGR-l I(Ref, 6) . NR NR NR NR jEu-154 M 3 D2.86E-04 FGR-Il I(Ref. 6) NR NR NR NR ____
YNPS License Tennination Plan Revision 0 YNPTemnto lnRvso Lies Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Parameter (unit) iType I'riorityb 'rreatment' V'alue/Distribution Basis Distribution's StatistiCal PArAmeters Median
_ _ _ _ 2 3 4 Eu-155 M 3 D 4.14E-05 FGR-I I (Ref. 6) NR NR NR NR Fc-55 M 3 D 2.69E-06 FGR-I I (Ref. 6) NR NR NR NR Gd-152 M 3 D 2.43E-01 FGR-I I (Ref. 6) NR NR NR NR H-3 M 3 D 6.40E-08 FGR-I I (Ref. 6) NR NR NR NR Nb-94 M 3 D 4.14E-04 FGR-lI (Ref£6) NR NR NR NR Ni-63 M 3 D 6.29E-06 FGR-I I (Ref. 6) NR NR NR NR Np-237+ progcny M 3 D 5.40E-01 FGR-I I (Ref. 6) NR NR NR NR Pa-231 M 3 D 1.28E+00 FGR- I (Ref. 6) NR NR NR NR Pb-210I+ progeny M 3 D 1.38E-02 FGR-I I (Rcf. 6) NR NR NR NR Pu-238 M 3 D 3.92E-01 FGR-I I (Ref. 6) NR NR NR NR Pu-239 M 3 D 4.292-01 FGR-I I (Ref. 6) NR NR NR NR Pu-24 I+ progeny M 3 D 8.25E-03 FGR-I I (Ref. 6) NR NR NR NR Ra-226+ progeny M 3 D 8.60E-03 FGR-I I (Ref. 6) NR NR NR NR Sb-125 NI 3 D 1.22E-05 FGR- II (Ref.6) NR NR NR NR Sr-90+ progeny NM 3 D 1.31E-03 FGR-I I (Ref.6) NR NR NR NR Tc-99 M 3 D 8.33E-06 FGR- II (Rcf. 6) NR NR NR NR Th-229+ progeny M 3 D 2.16E+00 FGR-II (Ref.6) NR NR NR NR Th-230 N 3 D 3.26E-01 FGR-I I (Ref. 6) NR NR NR NR U-233 M 3 D 1.35E-01 FGR-I I (Ref. 6) NR NR NR NR U-234 M 3 D 1.322-01 FGR-I I (Ref. 6) NR NR NR NR U-235+ progeny M 3 D 1.23E-01 FGR-I I (Ref. 6) NR NR NR NR Dose Conversion Factors (Ingestion mrem/pCi)
Ac-227+ progeny NI 3 D 1.481-02 FGR-I I (Ref. 6) (RESRAD NR NR NR NR
__Dose Convcrsion Library)
Ag-108mn M 3 D 7.62E-06 FGR-I I (Ref. 6) NR NR NR NR Am-241 M 3 D 3.64E-03 FGR-I I (Ref. 6) NR NR NR NR Am-243+ progeny N1 3 D 3.63E-03 FGR-I I (Ref. 6) NR NR NR NR C-14 NI 3 D 2.09-06 FGR-I I (Rcf. 6) NR NR NR NR Cm-243 M 3 D 2.51E-03 FGR-I I (Ref. 6) NR NR NR NR 6B-112 (I
C, YNPS License Termination Plan
( Revision(
Input Parameteir'sfor Sen~sitiv'ity'Analysis, :Soil..
Resident Farmner Scenario' . .*,,-.
(uit)TYS Teatent Parsete prio~i~b Vaue/iflsrihflin . , .Distribution's StatisticalParametersd
_ __ __ __ _12 3 4 Co-60-. . . .M 3 -D -2.6913-057.. FGR- I I(Ref. 6) . NR NR NR NR Cs-134 M 3 D 7.3313-05, .. FOR-I! (Ref. 6). NR7 NR NR NR Cs- 1374-progeny M 3 D 5.0012-05 . TFR-Il I(Ref. 6) NR- NR NR -- --- NR Eu-i152.- . . .M 3 D 6.48E3-06 FGR-l I(Ref. 6) NR NR NR NR Eu-154 M 3 D 9.5513-06 .FOR-i I (Ref. 6) NR NR NR NR Eu-155 M- 3 -D 1.5313-06 FGR- I (Ref. 6) NR NR- NR NR Fe-55S- M 3 D 6.0723-07 FOR-il I(Ref.6) . NR~ NR NR; NR.
Gd-152 . .M 3 D 1.61iE-04 FGR-l I(Ref. 6) NR NR NR NR 3-M- .-- .- 3 .- D6.40E3 . -. FGR-lI(Rec.6) . NR NR-. . -NR - NR-Nb-94 M 3 D 7.1412-06. FGR-lI (Ref. 6)* NR. NR NR, NR ___
Ni-63 M 3 D 5.77E FGR-llI(Ref. 6) NR- NR- NR NR-Np-237+progeny~......M ,. .. 3 .D- 4.44E-03 FR Rf ) R N' N R Pa-231 M 3 D 1.0623-02 FGR-il I(Ref.6) . . NR NR NR NR ____
Pb-2104- progeny' M -3 -D5.3713-03-. FOR-l I (Rcf.6) NR NR -NR NR _____
Pu-238 M 3 D 3.2012-03 .- FOR-IlI (Ref. 6) NR NR, NR. NR ____
Pu-239- M 3 D 3.5413-03 FOR-l I (Ref. 6) NR NR NR NR _____
Pu-241+ progeny M 3- .1D . 6.851E-05 FOR-l I (Rcef6). NR' .NR. NR NR ____
Ra-226+ progeny M 3 D 1.3313-03 FGR-IH (Ref. 6) . N NR NR NR _____
Sb-125 M 3 D 2.8 1 -06 FOR-Il I(Ref. 6) NR NR NR NR ____
Sr-90+ progeny M. 3 -. D- 1.5313-04 . FOR-lI (Ref. 6) NR NR NR NR ____
TC-99 M 3 D 1.461E-06 FOR-l I (Rcf.6) NR NR NR NR ____
Th-229+ progeny.. M 3 D 4.031E-03 FGR-Il I(Ref. 6) NR NR NR - NR _____
Th-230.M. 3 -'D- 5.4823-04 FGR-l I(Rcf. 6) -~NR -NR- NR- NR U-233 .M 3 'D2820 FGR- I I(Ref. 6) N R N- N U-234 -. 3 D 2.83E3-04 FORi(Rf6NRR NR- R ____
U-235+ progeny M 3 D -. 7-4FRi Rf ) N R N R ____
YNPS License Termination Plan Revision O Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Parameter (unit)
I Type a IPriorilyb Treatmentc I Value/Distribution I Basis Distribution's Statistical D rb 2 l Parameters 4 3 la4amte"Median Plant Transfer Factors (pCi/g plant)/(pCi/g soil)
Ac-227+ progeny P I S Truncated NUREG/CR-6697, Att. C -6.91 1.1 0.001 0.999 1.0E-03 Lognormal-N (Ref. 2)
Ag-1 08m P I S Truncated NUREG/CR-6697, Att. C -5.52 0.9 0.001 0.999 4.0E-03 Lognonnal-N (Ref. 2)
Am-241 P I S Truncated NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.0E-03 Lognornal-N (Ref. 2)
Am-243+ progeny P I S Truncated NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 I.OE-03 Lognormal-N (Rce 2)
C-14 P I S Truncated NUREG/CR-6697, AU. C -0.36 0.9 0.001 0.999 7.0E-01 Lognorral-N (Ref. 2)
Cm-243 P I S Truncated NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 I.OE-03 Loanormal-N (Rcf. 2)
Co-60 I S Truncated NUREG/CR-6697, Att. C -2.53 0.9 0.001 0.999 8.OE-02
_ Lognormal-N (Ref. 2) _
Cs-134 P I S Truncated NUREG/CR-6697, Att. C -3.22 1.0 0.001 0.999 4.0E-02
_ Lognormal-N (Ref. 2) _
Cs-137+ progeny P I S Truncated NUREG/CR-6697, Att. C -3.22 1.0 0.001 0.999 4.OE-02 Lognornal-N (Ref. 2)
Eu-152 P I S Truncated NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.0E-03 Lognormal-N (Ref. 2)
Eu-154 P I S Truncated NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Lognormal-N (Ref. 2)
Eu-I55 P I S Truncated NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.OE-03 Lognormal-N (Ref. 2)
Fe-55 P I S Truncated NUREG/CR-6697, Att. C -6.91 0.9 0.001 0.999 1.0E-03 L.ornormal-N (Ref. 2)
Gd-152 P I S Truncated NUREG/CR-6697, Att. C -6.21 1.1 0.001 0.999 2.0E-03 Lognormal-N (Ref. 2) 11-3 P I S Truncated NUREG/CR-6697, Att. C 1.57 1.1 0.001 0.999 4.8E+00 Lognornal-N (Ref 2)
Nb-94 P I S Truncated NUREG/CR-6697, Att. C -4.61 1.1 0.001 0.999 I.OE-02 Lognormal-N (Ref 2)
Ni-63 S Truncated NUREG/CR-6697, Alt. C -3.0 0.9 0.001 0.999 5.OE-02 Lognornal-N (Ref. 2) 1 1 I 6B-14
(
'C YNPS License Termination Plan
( RevisionC Input Parameters for Sensitivity Analysis, Soil -
- . -- Re'siden'tFarmnerSc'enario 4
Distribution's Statistical Pirameters Mda Parameter (unit) Type~ Prioritb T-ctren Value/Distribution Basis
_ __ _ _ _ 2 3, 4 .
Np-237+piogcny P .I S Truncated NUREG/CR-6697, Att. C '..1 0.9 0.001 0.999 - -2.OE-02
%,. Wonra- , (Ref. 2) ____
Pa-231 P I S.- Truncated> NUREG/CR-6697, Att. C -4.61 1.1 -0.001 -0.999- i.OE3-02 Lognormal-N (Ref. 2) - _ _ _ _ __ _ _ _ _ _ _ _ _
Pb-21l0+ progeny -P I S- Truncated,* NUREGICR-6697, Att. C -5.52 0.9 0.001 0.999 4.01E Lognormna -N (Ref. 2) ____ ____
Pu-238 P 1 S Truncated NUREG/CR--6697, Att. C .-6.91 0.9 - 0.001' 0.9 .013 -. Lognormial-N (Ref. 2)
Pu-239 P I S- Truncated NUREG/CR-6697, Att. C -6.91 -0.9 0.00! 0.999 1LOE - __ ____Logn rmaIN . (R ef. 2) _ _ _ _ _ _ _ _ _ _ _ _ _
Pu-2414 progeny- p I S 'Truncated'; 'NUREGICR-6697, Att. C -6.91 - 0.9 0.001 0.999 1.OE3-03
_ __ ___ __ _ ____ _ _ __ __ _ __ _ Lognormal-N (Ref. 2)- . - . -
R22 pgey I S- Truncated - NUREG/CR-6697, MCtCC -3.22 ' 0.9 0.OOV' 0.999 -4.OE-02
- _____ Lognormal-N .(Ref. 2) ____ ,____
Sb-125 p I S Trunicated NUREG/CR-6697, Att.C -4.6 1 1.0 -. 0.001.0. 1.090
.1' _______ _________ Lognormial-N (Rf2)...
Sr-90+ -progeny P I S- Truncated NUREG/CR-6697,+Att. C 1.0 1.0 .0.01 0.999 3.OE-01~
____Lognormial-N (Ref. 2). ____ ____
Tc-99 P I S Truncated -. NUREG/CR-6697, Att. C 1.61 0.9 0.001' 0.999 '5.023+00
__ __ ___ _ _ __ _Lognormnaf-N (Ref. 2) _ _ _ _
Th-229+ progeny P I S Truncated NUREGICR-6697, Att. C .6.91 0.9 0.001 - 0.999.1.02.03,
__ __ ___ __ _ _ ____ _ ____ _ _Lognormai-N (Ref. 2) _ _ _ _
Th-230 P -I S - Truricated NUREGICR-6697, AWtC -6.91 0.9 0.001 0.999 1.02-03
__ _ __-Lognormal-N (Ref. 2).. _ _ _ _ __ , _ _ _ _ _
UJ-233 p 1 S 'Truncated NUREG/CR-6697, Att. C -6.1 0.9 0.001 0.999 2.01E-03
- Lognormal-N .(Ref. 2) ____ _________ ____
U-234 p I S Truncated'.! NUREO/CR-6697, Att. C -6.21 0.9 0.001 0.999 2.023-03
- Lognorma -N I (Ref. 2) ___ _____
U-235+F~projanj p I S- Truncated NUREG/CR-6697,,Att. C -6.21 0.9 0.001 0.999 2.013-03
_ _ _ _Lognorm al-N ( ef. 2) __ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _
Meat Transfer Factors (pCilkt)/(pCl~d) - ...- _____
Ac-227+ progeny Ag-108m
_ ___I P
P 2
2 I .LognornialN STruncated S
_ __ I Truncated Lognormal-N NRIR697. Att. C NUREG/CR-6 (Ref. 2)
(Ref. 2)
-02 t.C.-6.21 0.7 0
0.0 0.001 099 0.999 2.021-05 2.02-03 6B-15
YNPS License Termination Plan Revision 0 Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Distribution's Statistical Paramctersd P'arauieter (unit) Type Priorityb Treatment' Value/Distribution Basis i _i 4t Median I 2 3 4 _ _
Am-241 P 2 S Truncated NUREGtCR-6697, Alt. C -9.90 0.2 0.001 0.999 5.0E-05 Lognormal-N (Ref. 2)
Am-243+ progeny P 2 S Truncated NUREG/CR-6697, Att. C -9.90 0.2 0.001 0.999 5.OE-05 Lognormal-N (Ref. 2)
C-14 p 2 S Truncated NUREG/CR-6697, Att. C -3.47 1.0 0.001 0.999 3.1 E-02
_ Lognormal-N (Ref. 2) _
Cm-243 2 S Truncated NUREG/CR-6697, Alt. C -10.82 1.0 0.001 0.999 2.0E-05 Lognormal-N (Rcf. 2) _
Co-60 P 2 S Truncated NUREG/CR-6697, Att. C -3.51 1.0 0.001 0.999 3.0E-02 Lognormnal-N (Ref. 2)
Cs-134 1) 2 S Truncated NUREG/CR-6697, Att. C -3.00 0.4 0.001 0.999 5.0E-02 Lognormal-N (Ref. 2) 1 Cs-137+ progeny P 2 S Truncated NUREG/CR-6697, Att. C -3.00 0.4 0.001 0.999 5.0E-02
_ Lognormal-N (Ref. 2)
Eu- 152 P 2 S Truncated NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.OE-03 Lognormal-N (Ref. 2)
Eu-154 1P 2 S Truncated NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.0E-03 Lognormal-N (Ref. 2)
Eu- 155 P 2 S Truncated NUREGICR-6697, Att. C -6.21 1.0 0.001 0.999 2.0E-03 Lognormal-N (Ref. 2)
Fe-55 P 2 S Truncated NUREG/CR-6697, Att. C -3.51 0.4 0.001 0.999 3.0E-02 Lognormal-N
_ (Rcf. 2)
Gd- 152 P 2 S Truncatcd NUREG/CR-6697, Att. C -6.21 1.0 0.001 0.999 2.0E-03 Lognormal-N (Ref. 2)
H-3 P 2 S Truncated NUREG/CR-6697, Att. C -4.42 1.0 0.001 0.999 1.2E-02 Lognormnal-N (Rcf. 2)
Nb-94 p 2 S Truncated NUREG/CR-6697, Att. C -13.82 0.9 0.001 0.999 LOE-06 Lognormal-N (Ref. 2)
Ni-63 p 2 S Truncated NUREG/CR-6697, Att. C -5.30 0.9 0.001 0.999 5.OE-03 Lognormal-N (Ref. 2)
Np-237+ progeny p 2 S Truncated NUREG/CR-6697, Att. C -6.91 0.7 0.001 0.999 I .OE-03 Lognormal-N (Ref. 2)
Pa-231 p 2 S Truncated NUREG/CR-6697, Att. C -12.21 1.0 0.001 0.999 5.OE-06 Lognortnal-N (Ref. 2) .
'b-21 O+progeny P 2 S Truncated NUREG/CR-6697, Att. C -7.13 0.7 0.001 0.999 8.0E-O L.ognormal-N (Ref. 2) _
6B-16 C-
YNPS License Termination Plan C Revision tj In-put Para tr oSniiiyAalysis, Soil
.- Re ietFarmnerScenario.-
Parameer Tye (uit) . -Distribution's StatisticalParametersd - eia Paaeeui)PC rioty Treatment~ Value/DistributionBai
_ _ _ _ _ 1 2 3 4 Pu-238 P 2 S 'Truncated NUREG/CR-6697, Att. C -9.21 0.2' 0.001 0.999 1.0E-04
____ ___LognormialN
___ ' (Ref. 2) _ _ _ _ _ _ _ _ _ _ _ _ _
Pu-239 p 2 S Truncated' NUREG/CR-6697, Att. C -9.21 0.2 0.001 0.999 l.OE3-04
__ __ _Log'norm al-N (Ref. 2)._ _ _ _
Pu-241I+ progeny P 2 S Truncated NUREG/CR-6697. Att. C -9.21 0.2 0.001 0.999 1.013-04
_____ ____ __ __ __ ___ ___ _ __ __Lognorm al-N '(Ref. 2) _ _ _ _ _ _ _
Ra-226+ progeny p 2 S Truncated, NUREG/CR-6697, Att. C -6.91 0.7 0.O0i 0.999 1.OE-03
_ _ _ _Logrformnal.N (Ref. 2) ____
Sb-125 P 2 S Truncated. NUREG/CR-6697, A". C -6.91 0.9 0.001 0.999 I.OE3-03
- LognofmiaiN (Ref. 2). ______________
Sr-90+ progeny p 2 S Truncated NUREG/CR-6697, Att. C -4.61 0.4' 0.001 0.999 -1.013-02
- ' Lognormal-N MCCf.2) ..
TC-99 p 2 s Truncated. NUREG/CR-6697, Att. C -9.21 0.7 0.001' 0.999 i.OE3-04
-Lognormial-N 2'(Ref. 2)'. . ____
Thi-2294- progeny p 2 S .Truncated NUREG/CR-6697, Att. C -9.21' 1.0 0.001 0.999 I1..O-04
- - __ __ __ Lognonrmal-N . (Ref. 2) _ _ _ _ _ _ _ _
Th-230 p 2 S Truncated NUREG/CR-6697, Att. C -9.21 '1.0 -0001 0.999 1.0E-04 Lognormal-N '(Ref. 2)_____ _____
U-233 p 2 S Truncated NUREG/CR-6697; Att. C -. 7.13 *0.7 0.001 0.999 8.OE-04
____Lognormiai.N . (Ref. 2) _____
U-234 P 2 S Truncated' NUREG/CR-6697, Alt. C ~73 0.7 . 0.001 0.999- 8.012-04
__ _ Lognormial-N .. (Ref. 2) _ _ _ _ _ _ _ _ _ _
U-.235+ progeny p 2 S Truncated NUJREG/CR-6697 Att.C -7.13 0.7 0.001 0.999 8.013-04
-Lognormnal-N .. (Ref. 2) ____ ____
_______Milk Transfer Factors (pCI/Il)(pCild)
Ac-227+ progeny---P 2 . S ... Truncated.NUREG/CR-6697,Att.C -13.12 0.9 0.001 0.999 2.012-06 Lognormal-N (Ref. 2) _____
Ag-108m.- P 2. S.-- -Truncated NUREG/CR-6697, Att. C . --5.12> .0.7 0.001 0.999 6.OE-03
, __ ___ ___ Log ormI-N (Ref. 2) _ _ _ _ _ _ _ _
Anm-241 P. 2 5S Truncated NUREG/CR-6697, Att. C -13.12 .0.7:. 0.00i 0.999 2.023-06
_ _ _ _ _ o n r a-N -_ (R e f.2) - _ __ _ _ _ _ _ _ _I Am-2434 progeny P 2 S Truncated .. NUREG/CR-6697, Att. C -13.12 0.7 0.001 0.999 2.0OE.06
___ ___ ___ ___ ___ _____Lognorm al-N (Ref. 2) _ _ _ _ _ _ _ _ _ _ _ _ _
C-14 P 2 S Truncated NUREG/CR-6697, Att.C -4.4 0.9 0.001 0.999 1.213-02
__ __ __ __ __ __ _ __ __ __ Lognorrnal-N (Ref. 2) _ _ _ _ _
.1,.'
YNPS License Termination Plan Revision 0 Rcvision 0 YNPS License Termination Plan Input Parameters for Sensitivity Analysis, Soil Resident Fanner Scenario Parameter (unit) Types Priori tyb Treatmentc Value/Distribution Basis Distribution's Statistical Paraiersd Median
. 2 3 4 Cm-243 P 2 S Truncated NUREGICR-6697, Aut. C -13.12 0.9 0.001 0.999 2.0E-06 LognomiaI.N (Ref. 2)
Co-60 P 2 S Truncated NUREG/CR-6697, Aut. C -6.21 0.7 0.001 0.999 2.0E-03 Lognommal-N (Ref. 2)
Cs- 134 P 2 S Truncated NUREG/CR-6697, Aut. C -4.61 0.5 0.001 0.999 1.0OE-02 Lognomial-N (Ref. 2)
Cs- 137+ progeny P 2 S Truncated NUREG/CR-6697, Att. C -4.61 0.5 0.001 0.999 I.OE-02 Loynormal-N (Ref. 2)
Eu-152 p 2 S Truncated NUREG/CR-6697, AtI. C *9.72 0.9 0.001 0.999 6.02-05 Lognormal-N (Ref. 2) _
Eu-154 P 2 S Truncated NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.0E-05 Lognormal-N (Ref. 2)
Eu-155 p 2 S Truncated NUREG/CR-6697, Alt. C -9.72 0.9 0.001 0.999 6.0E-05 Lognormal-N (Ref. 2) .
Fc-55 P 2 S Truncated NUREG/CR-6697, Att. C -8.11 0.7 0.001 0.999 3.02-04 Lognomnal-N (Ref. 2)
Gd-152 P 2 S Truncated NUREG/CR-6697, Att. C -9.72 0.9 0.001 0.999 6.02-05 Lognormnal-N (Ref. 2)
H-3 P 2 S Truncated NUREG/CR-6697, Att. C -4.6 0.9 0.001 0.999 1.0E-02
. Lognormal-N (Ref. 2)
Nb-94 P 2 S Truncated NUREGICR-6697, Alt. C .13.12 0.7 0.001 0.999 2.0E-06 ILognormal-N (Ref. 2)
Ni-63 p 2 S Truncated NUREG/CR-6697, Alt. C -3.91 0.7 0.001 0.999 2.02-02 Lognomnal-N (Ref. 2)
Np-237+ progeny P 2 S Truncated NUREG/CR-6697, Aut. C -11.51 0.7 0.001 0.999 I.OE-05 Losnormal-N (Ref. 2)
Pa-231 p 2 S Truncated NUREG/CR-6697, Att. C -12.21 0.9 0.001 0.999 5.02-06 Lognormal-N (Ref. 2)
Pb-210+ progeny p 2 S Truncated NUREG/CR-6697, Alt. C -8.11 0.9 0.001 0.999 3.0E-04 Lognormal-N (Ref. 2) _
lIu-238 p 2 S Truncated NUREG/CR-6697, Aut. C -13.82 0.5 0.001 0.999 1.0E-06 Lognormal-N (Ref. 2)
Pu-239 p 2 5 Truncated NUREG/CR-6697, Aut. C -13.82 0.5 0.001 0.999 I.OE-06
. Lognormal-N (Ref. 2)
Pu-241 + progeny P 2 S Truncated NUREG/CR-6697, Alt. C -13.82 0.5 0.001 0.999 1.0E-06 I Lognormal-N (Ref. 2) 1 6B-18 f
I
YNPS License Termination Plan
( Revisiond-,
Inp-ut Parametersfor Sensitivity Analysis, Soil-Resident Farmer S'ceniario.
4
- -Distribution's Statistical Parameters Parameter (unit) Type' Priority" Treatment' Value/Dilstribution Basis 1 2d3 4 Ra-226+ progeny p 2 S Truncated NUREG/CR-6697, Att. C -6.91 -0.5 0.001 0.999- 1.OE-03 Lognormal-N (Ref. 2) _ _ _ _ _ _ _ _ _ _ _ _ _
Sb-125 P 2 S Truncated NUREG/CR-6697, Att. C -9.72- 0.9 0.001' 0.999 -6.013-05 Lognormnal-N .(Ret'. 2) ____ ____
Sr-90+ progeny p 2 5 Truncated NUREG/CR-6697, Att. C -6.21 0.5 0.001 0.999 2.0E-03
______ Lognormial-N (Ref. 2) ____ _____
Tc-99 p 2 S Truncated .NUREG/CR-6697, Att. C, -6.91 0.7 0.001 0.999 1.013-03
__ __ __ __ ____ __ __ _ Lognorm al-N (Ref. 2) _ _ _ _ _ _ _ _ _
Th-229+ progeny p 2 S Truncated NUREG/CR-6697,-Att. C -12.21 . 0.9 0.001- 0.999 S.OE3-06
__ _ _ __ _ __ __ __ _ _ _ _ _ Lognormal-N '(Ref. 2) .
- Th-230 P 2 5 Truncated NUREG/CR-6697, Att. C -12.21 0.9, -000I 0.999' 5.01E-06
__ ___ ___ ____ Lognormal.N .:-(Ref 2)'.: . .
U-233 P 2 S Truncated NUREG/CR-6697, Att. C -7.82- 0.6 0.001 . 0-999 4.OE-04' Lognbrmal-N (Ref. 2) . __ _ _ __ _ _ _ _ _ __ _ _ _ _
U-234 P 2 S Truncated NUREG/CR-6697, Att. C' -7.82 0.6 -- 0.001I 0.999 4.013-04
_____ ______ LognormaW- (Ref. 2) ___ _____
U-235+ progeny p 2 S Truncated NUREG/CR-6697, Att. C! .7.82 0.6 .000 099 4020
_ _ __ __ _ __ _ _ _ _ _ _ _ _ _ _ _ __ __ _ _ __ __ _ __ _ _ _ Lbgi ormal-N(R ef. 2 ) _ _ _ _ _ _ _ _ _ _ _ _ _
Blioaccumulation Factors for Fish ((pCifkg)/(pCiI/)) _____ ___________________ _________
- Ac-227+ progeny -- P 2 5 Lognormal-N NUREG/CR-6697, Att. C 2.7 *.1.1-. . NR -- NR 1.51E+01
_ _ __ _ __ __ _ __ _ _ _ _ __ __ _(R _ _ _ _ _ _ _ ef. 2)_ _ _ _
2 S Lognormal-N NUREG/CR-6697, Att.C 1.6 NR .NR 5 .0OE+00 Ag-108m._P -- .1.1
__ __ _ __ __ __ _ __ _ _ _ _ _ _ _ _ _ _ __ __ __ _ _ _ _ _ _(R ef._2) _ _ _ _ _ _ _
- Am-241.- 2 - S -Lognormal-N ,NUREG/CR-6697, Aft. C 3.4 .1.1 NR .NR 3.OE01340
_ _ _ _ _(R
_____ ef. 2) _ _ _ _
Am-243+ progeny . -- P- -S Lognormal-N .*NUREG/CR-6697, A"t.C 3.4 . -1.1 NR NR .. 3.013+01 (Ref. 2)__ _ _ __ _ _ _
C-14 -P 2 5 Lognormal.N NUREG/CR-6697,.Att. C 10.8 -_L] N NR .4.9E+04
__ __ _ _ _ __ __ _(R _ _ _ _ _ _ _ _ _ _ _ _ ef. 2)_ _ _ _ _ _ _ _ _
- Cm-243 *p 2 S Lognormal-N NUREG/CR-6697, Att. C 3.4 ' 1.1 NR' NR 3.0E+01
- . *(Ref. 2)'
Co-60 p 2 S Lognormal-N *NUREG/CR-6697, AUt. C 5.7 1.1 NR NR 3.013+02
__ __ _ __ _ _ _____ _ _ _ _ _ _ _ _ _ _ _ __ _ __ _ _ _ _ _ _ _(R ef.2 )_ _ _ __ _ _ _ _ _
Cs-134 p 2 S Lognornmal-N *NUREG/CR-6697, Att. C 73.6 07NR NR 2.OE+03
_ _ __ __ _ __ _ __ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _(R e f. 2) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
YNPS License Tennination Plan Revision 0 YNPSLicnse ermnatin Pan Rvison Input Parametcrs for Sensitivity Analysis, Soil Resident Farmer Scenario Paramctersd P'arameter (unit) Type' Priority Treatment' Valuc/l)istribution Basis Uistribution's 2o Statistical 3c . s 4edian
_ _ _ 2 3 4 _ _
Cs-137+ progeny p 2 S Lognormal-N NUREG/CR-6697, Atl. C 7.6 0.7 NR NR 2.0E+03 Eu-_______IS_ 2Lgma-(Ref. 2) 3.9 NRN .9+_
Eu-152 P 2 S Lognormal-N NUREG/CR-6697, ALf C 3.9 1.1 NR NR 4.9E+01 (Ref ) .2.
Eu-154 P 2 S Lognormal-N NUREG/CR-6697. Att. C 3.9 1.1 NR NR 4.9E+0I Fc-SS____ PL o l(Rcf. 2) 53 _R N20+
Eu-155 p 2 S Lognormal-N NUREG/CR-6697, Att. C 3.9 1.1 NR NR 4.9E+01
__________ ~~~(Ref.
- 2) _ _ _ _ _ _ _
Fc-94 P 2 S Lognormal-N NUREG/CR-6697, Att. C 5.3 1.1 NR NR 2.OE+02 (Rcf. 2)
Nd-152 P 2 S Lognormal-N NUREG/CR-6697,Att.C 3.2 1.1 NR NR 2.5 E+O I
____ _ _ ____ ___ ___(R cf. 2) 1-1-3 P 2 5 Lognormal-N NUREG(CR-6697,Att.C 0 0.1 NR NR 3.0E+00 Pa-231__P__________ Lognormal-N______ (Ref. 2) 2.3 1.INRN .EO Nb-94 P 2 S Lognormal-N NUREG/CR-6697, Al) C 5.7 1.1 NR NR 3.OE+02 Pu-23S_ P ______ ________________ (Rcf 2) 3._R R3.E O Ni-63 p 2 S Lognormal-N NUREG(CRe6697, A.C 4.6 1.1 NR NR 9.90E+O I
_______ ~~~~~(Ref.
- 2) _ _ _ _ _ _ _ _ _ _
Np-237+ progeny P 2 S Lognormal-N NUREG/CR-6697, Att. C 3.4 1.1 NR NR 3.OE+0I (Rcf. 2)
Pa-231 P 2 S LognormIal-N NUREGCRc6697,Att.C 3.1 2.3 NR NR 4.9E+01
__ __ _ __ ___ _ ___ _ _ _ __ _ _ _ ___ _ _ _ _ _ _ __ ______ _ _ _ _ _ _(R ef. 2 ) _ _ _ _ _ _ _ _
Pb.21 O+progeny P 2 S Lognormal-N NUREG/CR-6697, Att. C 5.7 1.1 NRt NRt 3.OE+02
________(R
________ ef._2) _ _ _ _ _ _ _ _ _ _
Pu-238 P 2 5 Lognornial.N NUREGICR-6697, Atl. C 3.4 1.1 NRt NR 3.0E+01
________________ (R ef. 2) _ _ _ _ _ _ _ _ _
Pu-239 P 2 S Lognormal-N NUREG(CR-6697, All. C 3.4 1.1 NR NR 3.OE+0I
_ __ ___ _ __ _ __ _ _(R ef. 2) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Pu-241+ progeny P 2 S Lognormal-N NUREG/CR-6697, Alt. C 3.4 1.1 NR NR 3.02+01 0 (Ref 2)
Ra-226+ progeny p 2 S Lognormal-N NUREG/CR-6697, Att. C 3.9 1.1 NRt NRt 4.92+01
_______ ___________ ~~~~(R ef._2) _ _ _ _ _ _ _ _ _ __ _ _ _ _ _
Sb-125 p 2 5 Lognormal-N NUREG/CR-6697, Att. C 4.6 1.1 NRt NRt 9.913+01I
__ _ _I_ _ I__ (R ef._2) _ _ _ _ _ __ __ I__ _ _ _ _
Sr-90+ progeny p 2 5 Lognormal-N INUREG/CR-6697, Att. C 4.1 1.1 NRt NRt 6.0E+01 6B3-20 U
I
C, YNPS License Termination Plan (C
Rev ision U Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario Parameter (unit) Type' Priority6 Treatment' Value/Distribution BasisDitbuonsSasiclPrmets Iedn
_ _ _ _ _ 1 2 3 4 Tc-99 P 2 S Lognormal-N NUREG/CR-6697, Att. C 3 1.1 NR NR 2.013401
_ _ __ __ _ __ _ ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _(R ef.2) _ _ _ _ _ _ _ _ __ _ _ _
Th.229+ progeny-....- ~ P - 2 .S .. Lognormal-N NUREG/CR-6697. Att. C 4.6 1.1. NR NR 9.9E+01.
__ _ __ __ __ _ _ _ ~(R ef.2)_ _ _ _ _ _ _ _ _
Tb.230 .. 'P 2 S Lognorrnal.N NUREG/CR-6697, Att. C 4.6 1.1 NR NR 9.912+01
- (Ref. 2)__ _ _ _ _ _ _ _
U-233 - -P 2 S Lognormal.N NUREG/CR-6697, At".C 2.3 1.1 NR .NR. .LOE+01 (Ref. 2) _ _ _ _ __ _ _ _
U-234 p 2 S Lognormal-N' NUREG/CR-6697, A"t.C 2.3 1.1 NR NR I.01E+01
-. . (Ref. 2)
U-235+ progeny P 2 S Lognormal-N NUREG/CR-6697, Att. C 2.3 1.1 NR NR l.OE3+01
- (Ref.2)- .. .
Bloaccumnulation Factors for Crustacea/ Mollusks_((p i/kg)I(pCI/l)) -. - ____ _____
Ac-2274-progeny.-----..- . P. -. 3 D.1.0012+03 D .- RESRAD Default NR. NR-. NR. NR A10m-----. - P 3 .. D 7.70E+402. .RESRAD Default NR . NR. .NR- NR ____
Am-241 . -- *- * .. P -3 D 1.0013+03. RESRAD Default _ NR NR - NR 'NR ____
Am-243I-progeny -. P- 3. D 1.0023+03 .. RESRAD Default NR NR NR NR _____
C.14 .--- pP 3 D - 9.1IOE+03. RESRAD Default NR NR NR NR ____
Cm-243.- .P~ 3 D l.0013+03. . RESRAD Default NR NR, NR NR Co ......- P. - 3 D . 2.00E+402 .RESRAD Default .. NR . NR .. NR -. NR
-Cs-134 - P 3 .D 1.0012+02 . RESRAD Default NR NR NR NR Cs-137+ progeny...P -- 3 . D LI00E+02 ... RESRAD Default . NR NR NR NR Eu-152 P.-I 3. D 1.00E+03. RESRAD Default . NR , NR NR NR Eu-154. -.. p. 3.- D 1.002+403 . RESRAD Default . NR .. NR. NR. NR Eu-155 -.. P .- 3 .. D 1.0023+03. RESRAD Default. NR .NR , NR NR.
_________..P_ ~3 D '3.2023+03 RESAD Default NR NR NR. NR
-C~d..52---. ...- P . -3 .D .-. 1.0012+03. RESRAD Default .R NR :R .N ___
- 1-3 P 3 D 1.0012+00 RESRAD Default NR NR NR NR Nb-94 P 3 D 1.0023+02 RESRAD Default NR NR NR NR
-Ni-63 p 3 D 1.002+402 RESRAD Default NR NR NR NR Np.237+ progeny p 3 D 4.002+02 R2RAD Default NR NR NR NR ____
YNPS License Tennination Plan Revision 0 Input Parameters for Sensitivity Analysis, Soil Resident Farmer Scenario 4
Distributionl's Statistical l'arametcrs Parameter (unit) Typc 8 Priorily Treatment' Value/Distribution Basis 2 3 . _4e.lMedian
_ _ 2 3 4 _ _
Pa-231 P 3 D I. I OE+02 RESRAD Default NR NR NR NR Pb-210+ progeny P 3 D I.OOE+02 RESRAD Default NR NR NR NR Pu-238 P 3 D I.OOE+02 RESRAD Default NR NR NR NR Pu-239 P 3 D I.OOE+02 RESRAD Default NR NR NR NR Pu-241 + progeny P 3 D L.OOE+02 RESRAD Default NR NR NR NR Ra-226+ progeny P 3 D 2.50E+02 RESRAD Default NR NR NR NR Sr-90+ progeny P 3 D I.OOE+02 RESRAD Default NR NR NR NR Sb-125 P 3 D I.OOE+OI RESRAD Default NR NR NR NR Tc-99 P 3 D 5.00E+OO RESRAD Default NR NR NR NR Th-229+ progeny P 3 D 5.OOE+02 RESRAD Default NR NR NR NR Th-230 P 3 D 5.OOE+02 RESRAD Default NR NR NR NR U-233 P 3 D 6.OOE+OI RESRAD Default NR NR NR NR U-234 P 3 D 6.OOE+Ol RESRAD Default NR NR NR NR U-235+ progeny P 3 D 6.OOE+OI RESRAD Default NR NR NR NR Graphics Parameters Number of points 32 RESRAD Default NR NR NR NR Spacing log RESRAD Default NR NR NR NR lime integration parameters Maximum number of points for dose 17 RESRAD Default NR NR NR NR 6B-22
I'S License Termination Plan Revision' Notes:
P = physical, B = behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)
b = high-priority parameter, 2 = medium-priority parameter, 3 = low-priority parameter (see NUREG/CR-6697, Attachment B, Table 4.1)
' D = deterministic, S = stochastic dDistributions Statistical Parameters:
Lognormal-N: I= mean, 2 =standard deviation Bounded Lognormal-N: I= 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 Beta: I = minimum, 2 = maximum, 3 = P-value, 4 = Q-value Triangular: I = minimum, 2 = mode, 3 = maximum Uniform: I = minimum, 2 = maximum NR = Not required Additional Sensitivity Analysis Data:
Sampling Technique = Latin Hypercube Number of observations =2000 Number of repetitions = I Input Rank Correlation Coefficients:
Thickness of contaminated zone and unsaturated zone = - 0.99 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
References:
I. Code of Federal Regulations, Title 10, Section 20.1402, "Radiological Criteria for Unrestricted Use".
- 2. NUREG/CR-6697, "Development of Probabilistic RESRAD 6.0 and RESRAD-BUILD 3.0 Computer Codes", December 2000.
- 3. YA-REPT-00-008-03, "Evaluation of GeoTesting Express Soil Testing and Determination of Depth to Groundwater," December 2003
- 4. Yu, C. et al., "Data Collection Handbook to Support Modeling the Impacts of Radioactive Material in Soil"; US Department of Energy -
Argonne National Laboratory, April 1993.
- 5. NUREG/CR-5512, Volume 3, "Residual Radioactive Contamination From Decommissioning: Parameter Analysis, Draft Report for Comment," October 1999.
YNPS License Termination Plan Revision 0
- 6. Eckerman, K.F., et al., "Limiting Values of Radionuclide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion, and Ingestion," EPA-520/l-88-020, Federal Guidance Report No. II (FGR-I 1), U.S. EPA, 1988.
6B-24 L.
YNPS License Termination Plan ,.I , - :1 . Revision 0 YNPS~~~~~
~ lnRvso ~ Lies emnto I
I. . . I II . . . I I
. ... .J : , .
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Appcndix 6C:
-- RcsuXtsofSensitivityAnalysis,Soi1 a' ,
I, 6C-I
YNPS License Termination Plan Revision 0 Results or Sensitivity Analysis, Soil J (Based on the Partial Rank Correlation Coefficient IPRCCI)
Radionuclide Sensitive Parameter Units PRCC 11-3 Depth of roots m -0.59 Kd of 11-3 in contaminated zone cm3/g -0.54 Thickness of contaminated zone m 0.45 C-1l Depth of roots m -0.59 Thickness of contaminated zone m 0.48 Thickness of evasion layer of C m 0.35 Fe-55 Meat transfer factor for Fe pCi/kg per pCi/day 0.92 Plant transfer factor for Fe pCifg plant per pCi/g soil 0.68 Ni-63 Plant transfer factor for Ni pCi/g plant per pCi/g soil 0.90 Milk transfer factor for Ni pCi/I per pCi/day 0.80 Depth of roots m -0.49 Co-60 External gamma shielding factor Unit-less 0.95 Plant transfer factor for Co pCi/g plant per pCi/g soil 0.67 Mleat transfer factor for Co pCi/g plant per pCi/day 0.36 I Sr-90 Plant transfer factor for Sr pCi/g plant per pCi/g soil 0.93 Depth of roots m -0.53 Nb-94 External gamma shielding factor Unit-less 0.99 Kd of Nb in contaminated zone cm 3/g 0.30 Tc-99 Plant transfer factor for Tc pCi/g plant per pCi/g soil 0.88 Depth of roots m -0.44 Kd of Tc in contaminated zone cm3/g 0.49 Ag-108m External gamma shielding factor Unit-less 1.00 Sb-125 External gamma shielding factor Unit-less 0.99 Kd of Sb in contaminated zone cm 3 /g 0.29 Cs-134 External gamma shielding factor Unit-less 0.84 Plant transfer factor for Cs pCi/g plant per pCi/g soil 0.84 Depth of roots m -0.33 Milk transfer factor for Cs pCi/l per pCi/day 0.32 Meat transfer factor for Cs pCi/kg per pCi/day 0.25 6C-2
YNPS License Termination Plan Revision 0 Results of Sensitivity Analysis, Soil (Based on the Partial Rank Correlation Coefficient IPRCCI)
Radionuclide Sensitive Parameter Units PRCC Cs-137 Plant transfer factor for Cs pCilg plant per pCi/g soil 0.88 External gamma shielding factor Unit-less 0.75 Depth of roots m -0.39 Milk transfer factor for Cs pCiA per pCi/day 0.39 Meat transfer factor for Cs pCi/kg per pCi/day 0.31 Eu-152 External gamma shielding factor Unit-less 0.99 Eu-154 External gamma shielding factor Unit-less 0.99 Eu-155 External gamma shielding factor Unit-less 0.99 Plant transfer factor for Eu pCifg plant per pCi/g soil 0.29 Pu-238 Plant transfer factor for Pu pCi/g plant per pCi/g soil 0.92 Depth of roots m -0.54 Pu-239 Plant transfer factor for Pu pCi/g plant per pCi/g soil 0.92 Depth of roots m -0.53 Pu-241 Plant transfer factor for Am pCi/g plant per pCifg soil 0.85 Depth of roots _ -0.44 Kd of Am-241 (parent radionuclide) cm3/g 0.28 in contaminated zone Am-241 Plant transfer factor for Am pCi/g plant per pCi/g soil 0.92 Depth of roots m -0.54 Cm-243 Plant transfer factor for Cm pCifg plant per pCi/g soil 0.91 External gamma shielding factor Unit-less 0.58 Depth of roots m -0.50 I _ _ _ I _ _ _ _ _ _ I _ _ _ _ _ I _ _ _
_i-YNPS License Termination Plan Revision 0 This page intentionally left blank.
6C4
YNI'S License Termination Plan (. Revision U
.. . . . . .- t e
. . . . . .. . 4.
. ... ... . i . ,,
i :
, Appendix 6D I ; . .
Input Parameter Values for Soil DCGL Deternnination
,." I C '! ., . 1! I I I I I 6D-1
YNPS License Tennination Plan Revision O Revision 0 YNPS License Termination Plan Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario
_ Distribution's Statislical Paramctcrsd Mlean lParamicter (unit) Type' lPriorityb TIrcatment' ValuelDistribution Basis I 2 3 4 l Nledian)
Soil Concentrations Basicradiationdoselimit(mrcm/y) l l 3 D l 25 l 10CFR20.1402(Rcf. I) NR l NR l NR l NR Initial principal radionuclide (pCi/g) P 2 D I Unit Value NR NR NR NR Distribution coefficients (cmn/g) applied to contaminated, unsaturated, and saturated zone, unless otherwise noted Ac-227+ progeny P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Rcf. 2) 6.72 3.22 0.001 0.999 825 Ag-108m P I S Truncatcd Lognormal.N NUREG/CR-6697, Alt. C (Ref. 2) 5.3s 2.1 0.001 0.999 216 Am-241 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 7.28 3.15 0.001 0.999
- applied to saturated & unsaturated zones 75h perccntile value (from D 1.20E+04 RESRAD (.mco) file created in the NR NR NR NR I.45E+03 sensitivity analysis (Ref. 3)) -
applied only to contaminated zone in Pu-241 RESRAD run Am-243+ progeny P I S Truncated Lognornal.N NUREG/CR-6697, Alt. C (Ref. 2) 7.28 3.15 0.001 0.999 1445 C-14 P I S Truncated Lognormal-N NUREG/CR-6697, Alt. C (Ref. 2) 2.4 3.22 0.001 0.999 11 Cm-243 P I S Truncated Lognormal-N NUREGICR-6697, Alt. C (Ref. 2) 8.82 1.82 0.001 0.999 6761 Co-60 P I S Truncated Lognormal-N NUREG/CR-6697, Alt. C (Ref. 2) 5.46 2.53 0.001 0.999 235 Cs-134 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 6.1 2.33 0.001 0.999 446 Cs- 137+ progeny P I S Truncated Lognormal-N NUREG/CR-6697, Alt. C (Ret. 2) 6.1 2.33 0.001 0.999 446 Eu-152 P I S Truncated Lognonnal-N NUREG/CR-6697, Att. C (Ref. 2) 6.72 3.22 0.001 0.999 825 Eu-154 P s Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 6.72 3.22 0.001 0.999 825 Eu-155 P 1 S Truncated Lognormal-N NUREG/CR-6697, Alt. C (Ref. 2) 6.72 3.22 0.001 0.999 825 Fe-55 P I S Truncated Lognormal-N NUREG/CR-6697, Alt. C (Ref. 2) 5.34 2.67 0.001 0.999 209 Gd-152 P I S Truncafted Lognormal-N NUREG/CR-6697, Alt. C (Ref. 2) 6.72 3.22 0.001 0.999 825 6D-2 C7-_.
YN.PS License Termination Plan
( Revision
... . - ..... .- -. ~...Input Parameter Values for Soil DCGL Determination..
Resident Farmer Scenario 4
Distribution's Statistical Parameters Mean Parameter (unit) Type' Priorityb Treatment' Value/l~istribution .Basis I234 (MNedian) 11-3 . P I S Truncated Lognormal-N NUREG/CR-6697, Att. C(Ref. 2) - .2.81 0.5 0.001 0.999 6002E.02 applied to saturated and unsaturated I ,zones.
.. D 4.30E-02 .25h' percentile value (from NR NR NR N~R 1: RESRAD (.mco), file created in the sensitivity analysis (Ref.-3)) - - ..
applied to contaminated zone only _____
Nb-94 p I S Truncated Lognornaf-N NUREG/CR-6697, Att. C (Ref. 2) - 5.94 I 3.22 0.00 I 0.999
.-- - -----.. i..- applied to saturated and unsaturated zones. -... .- .. - - -
D .13 75~'percentile value (from NR N R R 380E+02
.- -RESRAD (.mco)frile cieated inthe 7
.. sensitivity analysis (Ref. 3)) -
applied to contaminated zone only ____
Ni-63T7 -- ~ - .~ P~ I S- Truncated Lognormal-N NUREG/CR-6697, Att. C(Ref. 2) -6.05 - 1.46 -- 0.001 - 0.999 -- 44-
- Np'-237+ progeny p - rnae onra- NUREG/CR-6697, Att. C (Ret'. 2) .- 24 225 .0.001 0.999-. '-17-.
- P-.-p 1 S Truncated Lognormal-N NUE/C697At. 2e.)
.854 3.225 .0 . .9 8 Pb.2310 prgey .P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 7.7 5.9 3.227 0.00! - 0.999 2392 P-28 - P I -S Tunategenyor lN NUREG/CR-6697. Att. C (Ref. 2) 68 .. 9..000.- 0.999 23953 Pb-3 P - I S -Truncated Lognormnal-NNRGC69,t. R2 6.786 2.76 0.001 '099..93z Pu-238 rgeyP I S Truncated L~ognormial.N NUREG/CR-6697, Att. C (Ref.2) -6.86, 1.89 0.001 . 0.999 953 Ra-226+ progeny p I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 8.17 . 1.7 0.001 0.999 3533
- Sb-125 P . I S Truncated Lognornmal-N NUREG/CR-6697, Att. C (Ref. 2) - 5.94 3.22 . 0.001 0.999 applied to saturated and unsaturated zones..
. .. D .3.31E+03 . Sh percetiea-efrmNR .~-NR NR WR 3.80E+02 RESRAD (.mcb) file created in the sensitivity analysis (Recf. 3)) -.
applied to contaminated zone only jSr-90+ progeny P 1 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 3.45 2.12 0.001 0.999 3 6D-3
Rlevision O YNP License YNPS Licsw- Tennination Termin
-@atn Plan ww-w--an Pl Reiso 0 Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario D)istribution's Statistical Parametersd Mean Parameter (unit) Type' Priorityb Treatment' V'alue/l)isiribution Basis 2 3 . 4 (Nledia n)
Tc-99 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Rcf.2)- .0.67 3.16 0.001 0.999 applied to saturated and unsaturated zones.
D 4.28E+00 751h percentile value (from NR NR NR NR 5.1 OE-0 I RESRAD (.mco) file created in the sensitivity analysis (Ref. 3)) -
Th-229+ progcny Truncated edNcontaminat aapplorma cn Amated NUREG/Co-6697, znef o ) 00 0.999 58 Th-229+ progeny P I S Truncated Lognormal-N NUREG/CR6697, Att. C (Ref. 2) 8.68 3.62 0.001 0.999 5884 UTh-230 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 8.68 3.62 0.001 0.999 5884 U-233 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 4.84 3.13 0.001 0.999 126 U-234 pron I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 4.84 3.13 0.001 0.999 126 U-235+ progeny P I S Truncated LognorMal-N NUREG/CR-697, Att. C (Ref. 2) 4.84 3.13 0.001 0.999 126 Initial concentration of radionuclides present in P 3 D 0 Assumed ground water NR NR NR NR groundwater (pCi/I) uncontaminated 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, RESRAD Default NR NR NR NR 1000 Contaminated Zone 2 NR Area of contaminated zone (m ) P 2 ) 13022 Site-specific- radiation control area NR NR NR (LTP App. 6A. Section i)
Thickness of contaminated zone (in) P 2 5 Uniform Minimum equal depth of soil mixing 0.15 3.8 NR NR layer (0.1 5m): maximum equal to depth to water table (3.8m) (Ref. 4)
- applied to all nuclides except C-14 and 11-3 75th percentile value (from D 2.89E+00 RESRAD (.mco) file created in the NR NR NR NR 1.98E+00 sensitivity analysis (Ref. 3)) -
applied to C-14 and H-3 oniv 6D-4
(. l
"NPS License Termination Plan Revision ui Input Parameter Values for Soil DCGL Determination ResidentFfarmer Scenario.-
- . .Distribution's Statistical Parameters" Mean Prmtr(ntTye Proiy`Treatment' Valuel~stribution I 2- (Median)
Length parallel to aquifer flow(in) .P 2 ~ D 129 . Site-specific -diameter of circle NR NR NR NR.
with an a'rchof 13022 m (LTP App. 6A, Section 1)
Cover and Contaminated Zone Ilydrological Data .
Cover depth (in) p 2 D 0 Site-specific -no cover assumed NR NR NR NR Density of contaminated zone (g/cm )
1
. . .I - S Bounded Normal NUREG/CR-6697 dist. for site soil -1.5105 0.15S9 - 1.019 2.002 1.5105
_______ _________type:. sand (Ref. 4)._ _ _ _ _
Contaminated zone erosion rate (mly)-.---. P 2 D 8.513-04 Calculated Vralue basedI on site-. NR NR NR NR
... s s6~o29(LTP App7 -.
_____ __ _...__6A . Section 2) i.. .__ _ _ _
Contaminated zone total porosity-.. - P-.- 2 S Bounded Normal- NUREG/CR6697 dist. for site soil 0.43 0.06 0.2446 - 0.6 154. -0.43
- , . ~type: sand (Ref. 4) . ___
Contaminated zone field capacity- - P ------ 3-- - D D-- . 0.05 Site-specific value calculated (LTP -NR - NR NR NR 0.05 App. 6A, Section 7) using Equation
______ 4.4 in Ref,5>
Contaminated zone hydraulic conductivity (mly) p 2 S Beta NUREG/CR-6697 dist. for site soil 110 5870 1.398 1.842 2506 I . . . ~~~~~~type:
sanfd (Ref. 4) _ _ _ _ _ _ __ _ _ _ _ _ _ _
Contaminated zone b parameter -P- 2 .5 Bounded NUREC/CR-6697 dist. for site soil -0.0253 0.216 0.501 1.90 0.975;~
______Lognormal-N type: sand (Ref. 4)_________
Humidity in air (glM3) p 3 D 6.1 Regional value. (LTP App. 6A, NR NR NR NR
____ __ ____ ___Section 3)
Evapotranspiration coefficient p 2 5 Unifrmri NUREG/CR-6697, Att. C (Ref. 2) 0.5 0.75 NR NR 0.625 Average annual wind speed (in/sec) P 2 D 2.03 Site-specific value calc. from site NR NR NR NR meteorological data (LTP App. 6A,
_____ ____ ____S ection 4) _ _ _ _ _
Precipitation (mly). P .2 D -1.2 Site-specific value calculated from NR NR NR NR site geographical area precip. (LTP
- .. . . . . ~App. 6A, Section 5). - ...-
Irrigation (mly) B 3 5Uniform NUREG/CR-6697, Att. C 0.252 0.6 18 NR NR 0.435
_____________________________________ ~~~~methodology (Ref. 2) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
YNPS License Termination Plan Revision 0 Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario Distribution's Statistical Parameters _ Mean Parameter (unit) Type Priorityb Treatmentc Value/Distribution Basis 2 3 4 l edianl Irrigation mode B 3 D Overhead Site-specific - overhead vs. ditch NR NR NR NR irrigation is standard practice in
. Eastern U. S. I Runoffcoefficient i 2 D 0.6 NUREGICR-6697, Att. C Section NR NR NR NR 4.2 methodology (Ref. 2, App. 6A,
._ Section 6)
Watershed area for nearby stream or pond (m2 ) P 3 D 7.77E+05 Site-specific- drainagc area (LTP NR NR NR NR App. 6A, Section 10)
Accuracy for water/soil computations . 3 D L.OOE-03 RESRAD Default NR NR NR NR Saturated Zone hydrological Data _
Density of saturated zone (g/cm') P I S Bounded Normal NUREG/CR-6697 dist. for site soil 1.5105 0.159 1.019 2.002 1.5105
_typc: sand (Ref. 4)
Saturated zone total porosity P 1 S 13ounded Normal NUREG/CR-6697 dist. for site soil 0.43 0.06 0.2446 0.6154 0.43
___type: sand (Rcf.4)
Saturated zone effective porosity P I S Bounded Normal NUREG/CR-6697 dist. for site soil 0.383 0.0610 0.195 0.572 0.383 type: sand (Ref. 4)
Saturated zone field capacity P 3 D 0.05 Calculated site-specific value LTP NR NR NR NR 0.05 App. 6A, Section 7) using Equation 4.4 from Ref. 5 .
Saturated zone hydraulic conductivity (m/y) P I S Beta NUREG/CR-6697 dist. for site soil 110 5870 1.398 1.842 2506
. type: sand (Ref. 4)
Saturated zone hydraulic gradient P 2 D 0.1 Site gradient (LTP App. 6A, Section NR NR NR NR
. 8)
Saturated zone b parameter 1. 2 S Bounded NUREG/CR-6697 dist. for site soil -0.0253 0.216 0.501 1.90 0.975 Lognormial-N type: sand (Ref. 4) _
Water table drop rate (m/y) P 3 D I .OOE-03 RESRAD Default NR NR NR NR Well pump intake depth (m below %atertable) p _ 2 S Triangular NUREG/CR-6697. Att. C (Ref. 2) 6 10 30 NR 14.51 Model: Nondispersion (ND) or Mass-Balance P 3 D ND ND model recommended for NR NR NR NR (MB) contaminant areas > 1,000 in (Ref. 5) _
YNPS License Termination Plan
( Revisiotvu Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario.-
..-. .Distribution's Statistical Parsmeters4 - Mean Type' Priority" Treatment' Value/Dfistribution Basis 1 '2 .'3 A (MNedian)
-Parameter (unit)
P 2 S Uniform Min, Max, median value based on 957 1689 NR NR 1323 Well pumping rate (mn/y) site irrigation and area' and calculated according to
. .. .. . - NUREG/CR-6697, Att. C section 3.lo0method (Ref.. 2and LTP App .
__ __ _ _ _ _ __ _ __ __ ___ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ 6A.S cctitio nn9) _ _ _ _ _ _ _ _ _ _ _ _ __ _ __Se _ _ __9_
Unsaturated Zone Hydrological Ditals P 3 D I Site-specific value NR - NR NR NR.
Number of unsaturated zone strata _ .
P I S. Uniform ~.Assumes0.15to3.8mcontaminatcd 0.01. 3.65 NRNR . 18 Unsat.zoneI, thickniss (in) _
- . . .zone thickness and 3.8 mndepth to
.-- -....---- -. watertable(Ref.4)- -
3 p 2 S Bounded Normal NUREG/CR-6697 dist. for6site soil 1.5105 0.159 1.019 2.002 1.5105 Unsat. -z6ne 1,soil density (gfcm )-
P- 2 S, -Bounded Normal NUREG/CR-6697 dist. for site soil 0.43 0.06 -0.2446- 0.6154 . 0.43 Unsat. zone 1.total porosity' *- .
. ~~. . . .~ . . - type: sand (Ref. 4).. _ _ _ __ _ _ _
P 2' S DOundid Normnal NUREG/CR-6697 dist. for site -soil 0.383 0.0610 0.195 .'0.5 72 .'0.383'--
Un-sat. i6ni 1,-ffective porosity .
_______ _________ ~~type: sand (Ref. 4) _ _ _ _ _ _ _ _ _
p 3 D 0.05 Calculated site-specific value LTP NR NR NR NR 0.05 Unisat. zone 1.field capacity' App. 6A. Section 7, using Equation
________ _______ 4.4 -from Ref.5_ _ _ __ _ _ _ _
P 2 S Beta' NUREG/CR-6697 diit for site soil 110 5870 1.398' 1.842 20 Urisat. zone II-li~'draulic conductivity (fi/y)
________ ________type: sand (R ef. 4)_ _ _ _ _ _ _ _ _ _ _ _ _ _
2 S Bounded NUREG/CR-6697 dist. for site soil -005 .16 0.501 1.90 0.975 Unsat. zone l, soil-specific bparamneter .p
______ __ ___ ___ __ ______ Lognorm al-N type: sand (Ref. 4) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Occupancy Inhalation rate (mn 3
/y) B J 3 J D 8400 NUREG/CR-6697, Att. C (Ref. 2) NR NR NR NR J Mass loading for inhalation (gnm) 1 P 2 S Continuous Linear, NUREG/CR-6697, Att. C (Ref. 2) NR NR NR' NR J2.331E-05 Exposure duration . j 3 .1 D 30 RESRAD Default NR NR NR NR J Indoor dust filtration factor
. ,B-P 2 S Uniform NURECG/CR-6697,Att.C (Ref.2) 0.15- 0.95' NR NR J 0.55.
YNPS License Termination Plan Revision 0 YNP Lies Temnto lnRvso Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario D)istribution's Statistical Parametersd Mean Parameter (unit) Type' Priorityb Treatment' Value/Distribution Basis .2 3 4lcdian)
P 2 S Bounded Lognormal-N NUREG/CR-6697, Att. C (Rcf. 2) -1.3 0.59 0.044 I (0.2725S Shielding factor. external gamma D 3.98E-01 75th percentile value (from NR NR NR NR 3.12E-01 RESRAD (.mco) file created inthe sensitivity analysis (Ref. 3)) Applied to Ag-I 08m, Cm-243, Co-60, Cs-134, Cs-137, Eu-152, Eu-154, Eu-
. _ ___ . .155. Nb-94. and Sb-125.
B 3 D 0.6571 NUREG/CR-5512, Vol. 3 Table NR NR NR NR Fraction of timc spent indoors
_ 6.87 (Ref. 6)
Fraction of time spent outdoors (on site) B 3 D 0.1181 NUREG/CR-5512, Vol. 3 Table NR NR NR NR 6.87 (outdoors + gardening)
(Ref. 6) 1P 3 D Circular RESRAD Default
- Circular NR NR NR NR Shape factor flag, external gamma contaminated zone assumed Ingestion, Dietary B 2 D 112 NUREG/CR-5512, Vol. 3 (other NR NR NR NR Fruits, vegetables, grain consumption (kgly) .
vegetables + fruits + grain) (Ref. 6)
B 3 D 21.4 NUREG/CR-5512, Vol. 3 (Ref. 6) NR NR NR NR _
Leafy vegetable consumption (kg/y)
B 2 D 233 NUREG/CR-5512, Vol. 3 (Ref. 6) NR NR NR NR Mvilk consumption (Uy)
Meat and poultry consumption (tg/y) B 3 D 65.1 NUREG/CR5512, Vol. 3 (beef+ NR NR NR NR
_ __ poultry) (Ref. 6)
B 3 D 20.6 NUREG/CR-5512, Vol. 3 (Rcef. 6) NR NR NR NR Fish consumption (kgly)
B 3 D 0.9 RESRAD Default NR NR NR NR Other seafood consumption (kg/y)
B 2 D 18.26 NUREG/CR-5512, Vol. 3 (Ref. 6) NR NR NR NR Soil ingestion rate (g/y)
B 2 D 478.5 NUREG/CR-5512, Vol. 3 Table NR NR NR NR Drinking water intake (Uy) 6.87 (Ref. 6) _ N P 3 D I RESRAD Default
- all water NR NR NR NR Contamination fraction of drinking water
_assumed contaminated . -
Contamination fraction of houschold water (if P 3 . NA used)
P 3 D I RESRAD Default - all water NR NR NR NR Contamination fraction of livestock water
._ assumed contaminated 6D-8 L.
YNPS License Termination Plan (7. Revision Ij
-. .. .. Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario Distribution's Statistical Parameters" Mean Basis 1 2 3 4 (e~n
- - Parameter (unit) Type' Priority?' Treatment' - Value/Distribution I. RESRAD Default -~all water ----- NR,. NR.. -- NR -NR Contamination fraction of irr igation water -P -3 D assumed contaminated _____ _____ _____
I NUREG/CR-5512, Vol. 3(Ref. 6) NR ...- NR NR- NR IContamination fraction of aquatic food*- P 2 -D. .
I NUREGJ/CR-5S512, Vol. 3 (Ref. 6) NR NR NR NR Contamination fraction of plant food p 3 D I NUREG/CR-5512, Vol. 3 (Ref. 6) NR- NR NR- N____
Contamination fraction of meat -P 3 D I NUREG/CR-5512,Vol. 3(Ref. 6) NR NR NR NR Contamination fraction of milk -p 3 D Ingestion, Non-Dietary _ _ _ _ __
27.1 - NUREO/CRS5512, Vol. 3 Table - NR NR - .NR NR Livestock fodder intake for meat (kg/day)- M 3- D
-, ..-- 6.87, beef cattle + poultry.+ layer
-. . ________. ... hen(R cf.6) ~ ._ _ _ _ _ _ __ _ _ _
63.2 NUREG/CR5512, Vol. 3 Table NR NR NR NR Livestock fodder intake for milk (kglday) M 3 D
-- ~ --- ~ - - . .6.87for~e~grin +hay. (Rcf.6) ___
50.6 NUREG/CR5512, Vol. 3 Table NR NR NR NR Livestock water intake for meat (L/day) M 3 D
- . -. - .6.87, beef cattle +poultry'-'-lAyer - -
hen (Ref. 6) _ ____
NUREG/CR5512,Vol.3Table6.87 .NR- NR- NR..- NR.
Livestock water intake for milk (Lday) -M- M 3 - D -60
__ _ _ _ __ __ ___ _ __ _ _ _ __ _ _ _ _ _ _ _ _ __ _ __ _ _ _ _ __ _ __ _ __ __ _ (R ef. 6 )_
.RESRAD Default .- . NR NR NR. NR - _____
Livestock soil intake (kg/day) M 3 D .0.5 4.0012-04 . NUREG/CR-5512, Vol. 3Table - NR. -- NR NR NR.-
Mass loading for foliar deposition (g/m') P -3 D.
gardening (Ref. 6) _ _ _ _ _
_____ _________ ____ ____ _____ ____ 6.87.
NUREG/CR-6697, Att. C (Ref. 2) 0 0.15 0.6 NR 0.23 Depth of soil mixing layer (m),.. P 2 S Triangular Min from NUREGi/CR-6697,Att. C 0.3 3.8 NR NR 2.051E+00 Depth of roots (in) P I S uniform (Ref. 2). Max is site speciFic depth to water table ,.
- 1. 17 E+00 25th percentile value (from -NR NR -NR NR D
RESRAD (.mco) file created in the seiisitivity analysis7(Ref. 3)) Ajiplied to Am-241, C-14, Cm-243, Cs-134,
- Csl37, H-3. Ni-63, Pu-238, Pu239, I. Sr-90, and Tc-99_ _ _ _ _ _ _ _ _ _
_______ ______ ______Pu-24 I1 RESRAD Default -all water NR NR NR NR Drinking water fraction from ground water p 3 D assumed to be supplied from
____ ____ ___ ___ ________ ___ ____ ___ __ ____ ___ ____ ___ groundw ater 6D-9
YNPS License Ternination Plan Revision 0 Input Parametcr Values for Soil DCGL Determination Resident Farmer Scenario Distribution's Statistical Paranietersd Mean P'arameler (unit) Type' Priority' 'Ireatment' Value/Distribution Basis I 2 3 4 (Median)
Household water fraction from ground water (if P 3 NA used) . .
Livestock *ater lraction from ground water _ 3 D I RESRAD Default - all water NR NR NR NR assumed to be supplied from groundwater Irrigation fraction from ground water P 3 D I RESRAD Default - all water NR NR NR NR assumed to be supplied from
._ __ _ ._ groundwater __.
Wet weight crop yield for Non-Leafy (kg/m 2) P 2 S Truncated Lognornal-N NUREG/CR-6697, Alt. C (Rcf. 2) 0.56 0.48 0.001 0.999 1.75 Wet weight crop yield for Leafy(kg/m 2) P 3 D 2.88921 NUREG/CR-5512, Vol. 3Table NR NR NR NR
___ ._.6.87 (Ref. 6) 2 NUREG/CR-5512, Vol. 3 Table NR NR NR NR Wet weight crop yield for Fodder (kgf/ ) P 3 D 1.8868 6.87 (Ref. 6)
Growing Season for Non-Leafy (years) P 3 D 0.246 NUREG/CR-5512, Vol. 3 Table NR NR NR NR 6.87 (Ref. 6)
Growing Season for Leafy (years) P 3 D 0.123 NUREG/CR-5512, Vol. 3 Table NR NR NR NR
__ _ .6.87 (Ref. 6)
Growing Season for Fodder (years) P 3 D 0.082 NUREG/CR-5512, Vol. 3 Table NR NR NR NR 6.87 (Retf 6)
Translocation Factor for Non-Leafy P 3 D 0.1 NUREG/CR-5512, Vol. 3 Table NR NR NR NR 6.87 (Ref. 6)
Translocation Factor for Leafy P 3 D I NUREG/CR-5512, Vol. 3 Table NR NR NR NR 6.87 (Ref. 6) ranslocation Factor for Fodder 1P 3 D I NUREGtCR-5512, Vol. 3Table NR NR NR NR
.___ _6.87
_ (Ref. 6) _
Weathering Removal Constant for Vegetation P 2 S Triangular NUREG/CR-6697, Att. C (Ref. 2) 5.1 18 84 NR 33 (IA)_.
Wet Foliar Interception Fraction for Non-Leafy 1) 3 D 0.35 NUREG/CR-5512, Vol. 3 Table NR NR NR NR 6.87 (Ref. 6)
Wet Foliar Interception Fraction for Leafy P 2 S Triangular NUREG/CR-6697, Att. C (Ref. 2) 0.06 0.67 0.95 NR 0.58 Wet Foliar Interception Fraction for Fodder P 3 D 0.35 NUREG/CR-5512, Vol. 3Table NR NR NR NR 6.87 (Ref. 6)
Dry Foliar Interception Fraction for Non-Leafy P 3 D 0.35 NUREG/CR-5512, Vol. 3 Table NR NR NR NR
. _ 6.87 (Ref. 6) _
6D-10 i L.-
I.
YNPS License Termination Plan C. Revision U Input Parameter Values for Soil DCGL Determination' .
Resident Farmer S enarid.
Distribution's Statistical Parameters" Mlean
.Parameter(unit) -- Type' Priority' Treatment' Value/Distjribution Basis 2 3 4 -. (Median)
Dry F'oliar Interception Fraction for Leafy p 3 D 0.35 - NUREG/CR.5512, Vol. 3 Table NR NR . NR NR-
- ~~~~~~6.87 (Ref. 6) - -__ _ _ _ _ _ _ _ _ _ _ _
Dry Foliar interception Fraction for Fodder P 3 D 0.35 NUREG/CR.55 12, Vol. 3 Table .NR --. NR .. NR NR
__________ - . _____ __________ 6.87 (Ref. 6) _ _ _ _ _ _ _ __ _ _ _ _ _ _ _
Storatge times ofcontaiminated foodstuffs (days):-..-..
Fruits, non-leafy vegetables, and grain- . B .. 3 D 14 -. NUREG/CR.5512, Vol.3 Table NR NR NR NR
________ ________ ________6.87 (Ref. 6) _ _ _ _ _ _ _ _ __ _ _ _ _
Leafy vegetables B 3 D I NUREG/CR-55 12, Vol. 3 Table NR NR- NR - NR
-- --- ~~~~6.87 (Ref. 6) _ _ _ _ _ _ _ _
-Milk B.
B-- 3 - D- - I -- -. NUREG/CR-5512, Vol. 3Table NR NR NR NR
.-...--. ___ __ __ _____6.87(Ref.6 V'-i._ _ _ _ _
-Meat'andpoultry .... _ B_ 3_ D 20 NUREG/CR-5512, Vol. 3Table NR- ~NR ' -- NR NR-
..... , .. .,.... 6.87 (holdup period forbeO-Fish -B. 3,---D - . 7 -. .RESRAD Default .NR. NR NR NR ____
- Crustacea and mollusks B -- D -7 - . RESRAD Default .NR -NR NR NR _____
WVellwater B3 - -D - I RESRAD Defaiilt NR NR NR NR Surface water B 3 D. I . RESRAD Default. N R NR Nil NR Livestock fodder . -B- --- 3 D45 D ... RESRAD Default I.. i R NR NR?
-Special Radionu'clides (C-14) ..... Z _____
C-12 concentration in Waler (ifcrn') p -3 -D - 2.OE013.-0 RESRAD Default NR NR NR NR C-12 concentration in' cofitmiiiaitiad -soil (gig) .. P .3 D - 3.001E-02 RESRAD Default NR .NRl NRl Ni Fraction of vegetatiori carbon from soil: -. 'P, ~3 D - 2.0013-02, RESRADDefault NR NR -NR NR
-Fraction of vegetation carbon from-air P 3 D -9.801E-01 RESRAD Default. NR NR NR NR C-l4evasionlayerthicknessinsoil(m), p 2 -D -, 4.27E-01 ~. .75th percentile value (fromr- NR Nil NR . NR (3.00OE-01)
-RESRAD (.mco) file created in SA
________________* (Ref. 3)) Applied only to C-14 ____ ______ _____ _ _ _ _ _
C-14 evasion flux rate from soil (1/sec) p 3 -D 7.001E-07 RESRAD Default NR .NRl Nil NR _____
C.12 evasion flux rate from soil (1/sec) p 3 D 1.0013 RESRAD Default NR NR NR NR _____
Fraction of grain in beef cattle feed B 3 D . 0.2500, NUREG3/CR..6697. Att. B (Ref. 2) NR NR NR NR _____
6D-1 I
YNPS License Termination Plan Revision 0 Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario Distribution's Statistical Parameters d Mean Farameler o (unit) T3pe' ValuetDistribution DRriorityR TrRatment' Basis I(f3 R iedian)
Fraction ofgrain in milke cow feed B 3 D 0.1000 NUREG/CR-6697, Att. B (Ref. 2) NR NR NR NR Inhalation Exposure Dose Conversion Factors (mrem/pCi)
Ac-227+ progcny M 3 D 6.72E+00 FGR-I I (Ref. 7) NK NR NR NR Ag-108m Nl 3 D 2.83E-04 FGR-I I (Ref. 7) NR NR NR NR Am-241 M 3 D 4.44E-01 FGR-lI (Ref. 7) NR NR NR NRt Am-243+ progeny NM 3 D 4.40E-01 FGR-I I (Ref. 7) NR NR NR NR C-14 M 3 D 2.09E-06 FGR-I I (Rcf. 7) NR NR NR NR Cm-243 N1 3 D 3.07E-01 FGR-I I (Ref. 7) NR NR NR NR Co-60 M 3 D 2.19E-04 FGR-II (Ref.7) NR NR NR NR . -
Cs- 134 NJ 3 D 4.63E-05 FGR-I I (Ref. 7) NR NR NR NR Cs-137+ progeny M 3 D 3.19E-05 FGR-I I (Ref. 7) NR NR NR NR Eu-152 Ni 3 D 2.21 E-04 FGR-I I (Ref. 7) NR NR NR NR Eu-154 M 3 D 2.86E-04 FGR-I I (Ref. 7) NR NR NR NR Eu-155 M 3 D 4.14E-05 FGR-I I (Ref. 7) NR NR NR NR Fe-55 M 3 D 2.69E-06 FGR-I I (Ref. 7) NR NR NR NR Gd-152 M 3 D 2.43E-01 FGR-II (Ref. 7) NR NR NR NR H-3 N1 3 D 6.40E-08 FGR- II (Ref. 7) NR NR NR NR Nb-94 NI 3 D 4.14E-04 FGR-l I (Ref.7) NR NR NR NR Ni-63 NI 3 D 6.29E-06 FGR-I I (Ref. 7) NR NR NR NR Np-237+ progeny NI 3 D 5.40E-01 FGR-I I (Ref. 7) NK NR NR NiK Pa-231 NI 3 D 1.28E+00 FGR-II (Ref. 7) NR NR NR Nit I'b-210+ progeny N 3 D 1.38E-02 FGR-Il (Ref. 7) NR NR NR NR Ptl-238 M 3 D 3.92E-01 FGR-I I (Ref. 7) NR NR NR NR Pu-239 NI 3 D 4.29E-01 FGR-I I (Ref. 7) NR NR NR NR Pu-241+ progeny NI 3 D 8.25E-03 FGR-I I (Rcf. 7) NR NR NR NR Ra-226+ progeny M 3 D 8.60E-03 FGR-I I (Rcf. 7) NR NR NR NR Sb-125 NJ 3 D 1.22E-05 FGR- Il (Ref. 7) NR NR NR NR 6D-12
YNI'S License Termination Plan C Revision'u Input Parameter Values for Soil D CGL Determination Resident Farmer Sce6nario Distribution's Statistical Paramietersd~ Mean Para meter (unit) Type' Priorityb Treatment' Value/Distribution Basis -1 2 3 4 .(Median)
Sr-90+ progeny M . 3, D 1..31E13 - FGR-lI (Ref. 7) . . NR NR - NR..- NR-.
Tc M. 3 3-06 .~ O-Il (Ref. 7) NR NRNR. R Th-229+ progeny ..M 3 -. D .. 2.1613+00 i..FGR-l I (Ref. 7) .X.- NR ~NR NR .- NR Th-230 M 3 D 3.2613-01 . FGR-l I(Ref.7) NR NR NR NR U-233 M 3 D 1.3513-01 FGR-llI(Ref. 7) NR NR NR NR U-234 M 3 D 1.321E.01 FGR-l I(Ref. 7) NR NR NR NR U-235t progeny - ~ - -- M -3 -- D, 1..23 E-0iL FGR-ll(Ref.7) --NR 'NR NR _____N _____
Ingestion Exposure Dose Conversion Factors (mrem/pCi)--. -
Ac-2274-progeny*,y:~ 3 D- 1.481E-02" FOR-il (Ref. 7) . NR-' NR NR -- NR Ag-108m- >:- - - -- -M- 3- D-. ."7.62E-06, - FGR-11(Re.7 -~NR - NR-- NR--- NR Am-241 -M 3 - D --- 3.64E-03 - FGR-iI (Rer.7) -- NR - NR - NR: -- NR _____
Am-2434-progeny--- - M M-- --. 3 D -. 3.63E3-03 -FOR-Il (Ref. 7) NR- NR-'-~ NR -NR' C-14 M 3 'D 2.09E-06' . FGR-I I (Rcf.7) NR ~NR- -NR - NR Cm-243 -M .3 'D 2.5 1E-03. .'-FGR-lli(Ref.7)' NR NR -- NR Co-60 . . .M 3 D 2.6913-05 ~ FGR-ii(Rcf. 7) . NR' NR' NR -NR Cs-134 NI 3 D 7.3313-05 - FGR-lI (Ref.7) -- NR -NR NR NR Cs-1374-progeny -M- 3 D . 5.00OE-05 -FOR-li (Ref.7)." NR NR NR NR Eu-152 M -- 3 D 6.4813.06 . FGR-l I(Ref. 7) ~ NR NR - NR 'NR Eu- 154 -- M 3 D- 9.55E306 FOR-1I (Ref. 7) NR - NR NR NR -
Eu-155 M 3 D 1.5313-06 FGR-l I (Ref.7) NR NR - NR NR Fe-55 -- M ---- 3 -- D 6.071E-07. FRI(Ref.7). - R NR N NR ____
Gd-152 . - . - m- -3 - D 1.61 E-04 FGR-lI (Ref.7) . NR NR - NR- NR ____
1f3 .. . -M -3 D 6,40E3 FGR.lII(Ref.7) .-- NR 'NR . NR NR-____
Nb-94 M 3 D 7.1413-06 FOR-l I (Ref. 7) N.RNRY NR-.- NR. '- .NR Ni-63.- M 3 D-. 5.771E7 - FGR-il I(Ret: 7)' 'NR NR' NR NR -
Np-2374- progeny M 3 D 4.4413-03 . FOR-I I (Ref. 7) NR NR NR NR _____
Pa-231 M 3 ~ 1.0613-02,. FGR-l (Ref. 7) NR NR NR NR ____
YNIPS License Tennination Plan Revision 0 Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario Distribution's Statistical lParametersd Mean P'arameter (unit) Type' Priorityb TIreatmnent' Value/Distribution Basis __2 3 4 (cdian)
Pb-210+ progeny M 3 D 5.37E-03 FGR- II (Ref. 7) NR NR NR NR Pu-238 NI 3 D 3.20E-03 FGR- I I (Ref 7) NR NR NR NR Pu-239 M 3 D 3.54E-03 FGR-I I (Ref. 7) NR NR NR NR Pu-241+ progeny NI 3 D 6.85E-05 FGR-I I (Ref. 7) NR NR NR NR Ra-226+ progeny M 3 D 1.33E-03 FGR-I I (Ref. 7) NR NR NR NR Sb-125 M 3 D 2.SIE-06 FGR-II (Rcf.7) NR NR NR NR Sr-90+ progeny M 3 D 1.53E-04 FGR- Il (Ref. 7) NR NR NR NR Tc-99 NI 3 D 1.46E-06 FGR-I I (Ref. 7) NR NR NR NR Th-229+ progeny M 3 D 4.03E-03 FGR-I I (Ref. 7) NR NR NR NR Th-230 NI 3 D 5.48E-04 FGR-I I (Ref. 7) NR NR NR NR U-233 M 3 D 2.89E-04 FOR-IlI (Ref 7) NR NR NR NR U-234 NI 3 D 2.83E-04 FGR-I I (Rcf. 7) NR NR NR NR U-235+ progeny M 3 D 2.67E-04 FGR-I I (Rcf. 7) NR NR NR NR Plant Transfer Factors (pCi/g plant per pCi/g soil)
Ac-227+ progeny I S Truncated Lognomial-N NUREG/CR-6697, Att. C (Ref. 2) -6.91 1.1 0.001 0.999 I.0E-031 l
Ag-lOSm P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -5.52 0.9 0.001 0.999 14.OE-031 Am-241 P I D I.83E-03 75' percentile value (from NR NR NR NR I.48E-03 RESRAD (.mco) file created inthe sensitivity analysis (Ref. 3))
Applied also in the l'u-241 RESRAD run An-243+ progeny P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.91 0.9 0.001 0.999 1L.OE-03J C-14 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -0.36 0.9 0.001 0.999 17.0E-01 I Cm-243 P I D I.83E-03 75th percentile value (from NR NR NR NR I.48E-03 RESRAD (.ico) file created in the I___sensitivitv analvsis (Ref. 3))
Co-60 P I D 1.46E-01 75'1bpercentilc value (from NR NR NR NR I.18E-0O RESRAD (.mco) file created in the sensitivity analysis (Ref. 3))
YNPSLicense Termination Plan C Revision u
.17
- ---.- - Input Parameter Values for Soil DCGL Determination .
-Resident Farmer Scenario
Distribution's Statistical Parainetersd Mean Parameter (unit) Type' Priori tyb Treatment' Valuel~stributlon Basis 12 3 4 (Median)
Cs-134 . j P I _D 7.8212-02 7 5 h' petcentile value (from NR NR NR NR 6.4812-02
-RESRAD (.mco) file created in the-
____ ____ ____ ______ ____ ___ ____ ___ ___ ____ ____ ___ sensitivity analysis (Ref. 3)) _ _ _ _
Cs-1374-progeny.P I1 D 7.821E-02 75"' percentile value (from NR NR NR NR 6.48E-02 RESRAD (.mco) file created in the ..
__________________sensitivity analysis (Ref. 3)), _________
Eu-152. . P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 1.1 0.001 0.999 (2.012.03)
Eu-154-- P I S Truncated Lognioninal-N NUREGICR-6697, Att. C (Ref. 2) --6.21 1.1 0.001 0.999 (2.02-03)
Eu-155 __ .P 1 D 4.21 E-03 '751h percentile value (frmm . NR NR NR NR ;3.60E.3
.RESRAD (.mco) fie created in the
-. , . . ...... __________.__sensitivityanalysis(Ref.3)).
Fe-55--- ------ P..- I . -..-D 1.831E-03 . 75"'percentilecvalue (from NR' NR NR _NR, 1.4813-03
. . - - -. ~RESRAD (.mco) file created in t-he
_____ ~ * .~ ~sensitivity analysis (Ref. 3)) -
Gd- 152.- . . - .. P . I S - Truncated Lognormal-N NUREG/CR-6697,-Att C (Ref. 2)- -6.621 I .0.00l.
- 0.999 . .2.OE-03) 11.3 -vP I- S ~-Truncated Lognormal-N NUREG/CR-6697, Att. C(Ref. 2).--1.57. . 0.00l- 0.999 - (4.8C+00)
Nb-94-' .P- I- S ~-Truncated Lognormal-N NUREG/CR-6697, Att. C(Ref. 2) -4.61 -1.1 .0.001 . 0.999. (1.013-02)
Ni-63 .P 1----- D - 9.11E-02 75lhpercentilevalue(from .... NR . NR ..NR - NR 7.3723-02
-. . .. .RESRAD (.mco) file created in the
______ _____ sensitivity analysis (Ref. 3)Y> I_ _ _ _ ___ _ _ _ _
Np-2374- progeny P I 5 Truncated Lonormial-N NUREG/CR-6697,-Att. C (Ref.-2) -.3.91 0.9 . 0.001 0.999 (2.012.02)
Pa-231I P I S Truncated 1-ognormal-N NUREG/CR-6697, Att. C (Ref. 2) -461 11 0.001 -0.999 I1.0E.02).
Pb-2 IO+progeny P I S Truncated Lognormal-N NUREG/CR-6697,+Att. C (Ref. 2) -5.52 0.9 0.001 0.999 (4.023-03)
Pu-238 . - . - P I D 1.8312.03 - 751b1percentile value (from.NRR.NR -NR . .48E-03 RESRAD (.mco) file created in the
_______ ____ __ ____ _______ _______ sensitivity analysis (R ef. 3)) _ _ _ _ _ _ _ _ _ _ _ _ _ _
Pu-239 - - -. P I D--- - 1.83E-03.-. 75"%percentile value (frorn- -. NR . NR NR. NR 1.4813-03
. . . -RESRAD (.mco) rile created in the
__________ ~~~~sensitivity analysis (Ref. 3)). ...- ______
Pu.241 +4progeny P I S Truinc-ated Logn6rinal-N NUREG/CR-6697, Att. C (Ref. 2) .6.91 -. 0.9- - 0.001. 0.999 .- (1.023-03)
Ra-226+ progeny P I S Truncated Lognornmal.N NUREG/CR-6697, A". C (Ref. 2) -3.22 0.9 0.001 0.999 (4.013.02)
Sb-125 P I1- S *,- Truncated Lognormal-NINUREG/CR-6697, Att. C(Ref. 2). 14.61 1.0 0.001 0.999 (1.02.02) 6D-15
YNPS License Termination Plan Revision 0 Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario Distributiou's Statistical Parametcrsd Mean Parameter (unit) Typea Priorityb Trcatmente Value/Distribution Basis 2 3 4 (Median)
Sr-90+ progeny P I D 5.90E-01 75"h percentile value (from NR NR NR NR 4.88E-01 RESRAD (.mco) file created in the
._ ._ sensitivity analysis (Ref. 3))
Tc-99 P I D 9.16E+00 75h percentile value (from NR NR NR NR 7.41 E+00 RESRAD (.mco) file created in the sensitivity analysis (Ref. 3))
Th-229+ progeny P I S Truncated Lognormal-N NUREG/CR-6697, At. C (Ref. 2) -6.91 0.9 0.001 0.999 ( .OE-03)
Th-230 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.91 0.9 0.001 0.999 1.012-031 U-233 P I S Truncated Lognomal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 0.9 0.001 0.999 12.0E-03)
U-234 P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 0.9 0.001 0.999 12.0E-03)
U-235+ progeny P I S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 0.9 0.001 0.999 (2.0E-03)
Mieat Transfer Factors (pCi/kg per pCi/d)
Ac-227+ progeny 1 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -10.82 1.0 0.001 0.999 l2.OE-05)
Ag-108ni P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 0.7 0.001 0.999 (2.02-03)
Am-241 P 2 S Truncated Lognormal-N NUREG/CR-6697, Atn. C (Ref. 2) -9.90 0.2 0.001 0.999 (5.0E-051 Amn-243+ progeny P 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -9.90 0.2 0.001 0.999 15.0E-05)
C- 14 P 2 S Truncated Lognomial-N NUREG/CR-6697, Att. C (Ref. 2) -3.47 1.0 0.001 0.999 (3.1E-02)
Cm-243 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -10.82 1.0 0.001 0.999 12.02-051 Co-60 P 2 D 5.86E-02 75h percentile value (from NR NR NR NR 4.85E-02 RESRAD (.mco) file created in the sensitivity analysis (Ref. 3))
Cs-134 P 2 D 6.51 E-02 751h percentile value (from NR NR NR NR 5.38E-02 RESRAD (.mco) file created in the sensitivity analvsis (Ref. 3))
Cs-137+ progeny P 2 D 6.5 1E-02 75"h percentile value (from NR NR NR NR 5.38E-02 RESRAD (.mco) file created in the sensitivity analysis (Ref. 3))
Eu-152 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 1.0 0.001 0.999 (2.02-031 Eu-154 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 1.0 0.001 0.999 12.0E-03)
Eu-1l5 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 1.0 0.001 0.999 12.02-03) 6D-16 i_ I...
I-,
YNPS License Termination Plan
( Revision v
-Input Parameter Values for Soil DCGL Determination~
Resident Farmer Sceniario Distribution's Statistical Parametersd. - Mean PaRamtr(nt)' Type" -Priority' Treatment' . Value/DistributionBasis. ..- i - 34 .. (edian).
p 2 D 3.91 E-02 percentile value (from NR NR NR NR. 3.23E-02.
Fe-55 . . 7 5ih
... . -RESRAD (.mco) file crieated in the sensitivity analysis (Ref. 3)) - ____
Gd-152.- .. p 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -6.21 1.0- 0.001 ~ 0.999 12.0OE-03)
H1-3.p 2 S Truncated Lognorm-al.N NUREG/CR-669 ,t.(e.) .-4.42 A1.0 0.001 0.999 (1.2E-02) b94--...-p 2s TnctdLgomlNNRGC-67, Att. C (Ref. 2) -38 . .0 .9 ~ ( O-6 Nb-94 p 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) .13.30 0.9 0.001 0.999- (5.01.06)-
Np-237+ progeny p 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -6.91 0.7 0.001 0.999 (L.0E-03)
Pa-231 p 2 S Truncated Logrhornul-N NUREG/CR-6697,-Att. C (Ref. 2) .12.21 *j1o 0.001 . 09- - .(5.01-06)
- Pb-210+ progeny p 2 S . Tidatd L~g6ftndRniN NUREG/CR-6697, Att. C(Ref. 2) -- 7.13 -- 0.7-.- 0.001 ---.. 0.999 .. -. (8.OE-04).
Pu-2.38 p 2 S - Trun~atid Lfogirfrnal-N NUREG/CR-6697,-Att. C (Ref. 2)~- -9.21-- 0.2-. 0.001- - 0.-999.-(1.012-04)..
- Pu-239 p 2 S Truiic-ated L6ginbfial-N NUREG/CR-6697;Att: C (Ref. 2)- -9.21. 0.2. .0.001 . 0.999 (1.023-04)
Pu-24 I+ progeny p 2 S Tnuifiiaid Wg6ribrrma1-N NUREG/CR-6697, A". C (Ref. 2) ----9.21- 0.2 --- 0.001 . 0.999 - -(1.OE-04V.-
- Ra-226+ progeny p 2 S Truncated l.ogh6rfinal-N NUREG/CR-6697,-Att. C (Ref. 2) -6.91 - 0.7. 0..0- 0.999.. (1.012-03).
Sb-'125 p 2 S Trunicated LUghornial-N NUREO/CR-6697, Att. C (Ref. 2) -6.91 - 0.9 - 0.001- - 0.999 .- (1.023-03)
Sr-90+ progeny P 2 S Truncated 1,ogn6rmal-N NUREG/CR-6697, Att. C (Ref. 2) -4.61 0.4 0.001 0.999 (1.013.02) .
Tc-99 . P 2 S Truncated Lognormal-N NUREG/CR-6697,Att. C (Ref. 2) .9.21I 0.7 0.001 0.999 (l.OE3-04)
Th-229+ progeny . . . . P 2--- ---- S Truncated Lognormal.N NUREG/CR-6697, Att. C(Ref. 2) ..- 9.2! 1.0 0.001 0.999 (1.OE3-04)
Th-230 p 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -9.21 1.0 0.001 0.999 (1.012-04)
- U-233 . .... ... P 2.. .S Truncated Lognormal-N NUREO/CR-6697, Att. C(Ref. 2) -7.13 0.7 0.001 0.999 (8.023-04)
U1-234 . ..-- -- P. 2 S_ Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref.2) -7.13 0.7 0. 001 0.999 (8.02-04)
U-235+progeny .- P. 2 S Truncated Lognorrnl -N UREG/CR-6697,Att.C(Ref.2) -7.13 0.7 0.001- 0.999 - (8.013-041 MNilk Transfer Factors3(pCI/Iper pCi/d) -.
Ac-227+ progeny P., 2 S Truncated Lognorrnal-N NUREG/CR-6697. Att. C (Ref. 2) -13.12 0.9 0.001 0.999 (2.02-06)
Ag-108m P 2 S- Truncated Lognormial-N NUREG/CR-6697, Att. C (Ref. 2) -5.12 0O.7 0.001 .0.999 16.02.-03)
Am-241 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -13.12 0.7 0.001 0.999 (2.02-06)
Am-243+ progeny' P j 2 S Truncated Lognorrmal-N NUREG/CR-6697, Att. C (Ref. 2) .13.12 0.7 0.001 0.999 I(2.023-06) 6D- 17
YNPS License Termination Plan Revision 0 Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario I)istribution's Statistical Parametersd Mlean Type Priorityb IUrcatmentc Value/Distribution Basis 1 2 3 4 pledian)
Parameter (unit)
P 2 S Truncated Lognomial-N NUREG/CR-6697. Alt. C (Ref. 2) 4.4 0.9 0.001 0.999 t 1.2E-02)
C-l4 P 2 S Truncated Lognormal-N NUREG/CR-6697, Alt. C (Ref. 2) -13.12 0.9 0.001 0.999 12.0E-06)
Cm-243
- 1. 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -6.21 0.7 0.001 0.999 12.0E-03)
Co-60 P 2 D 1.39E-02 75"' percentile value (from NR NR NR NR 1.12E-02 Cs- 134 RESRAD (.mco) file created in the sensitivity analysis (Ref. 3))
P 2 D 1.39E-02 75"h percentile value (from NR NR NR NR 1.12E-02 Cs-137+ progeny RESRAD (.mco) file created in the sensitivity analysis (Ref. 3))
.u-152 P 2 S Truncated Lognormal-N NUREG.CR-6697, Att. C (Ref 2) -9.72 0.9 0.00I 0.999 (6.02-051 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -9.72 0.9 0.001 0.999 16.OE-05)
Eu-154 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -9.72 0.9 0.001 0.999 16.OE-051 Eu-155 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -8.11 0.7 0.001 0.999 13.02-04)
FE-55 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -9.72 0.9 0.001 0.999 (6.0E-05)
Gd-152 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -4.6 0.9 0.001 0.999 (1.0E-02) 1153 P 2 S Truncated Lognomial-N NUREG/CR-6697, Att. C (Ref. 2) -13.12 0.7 0.001 0.999 I2.OE-062 Nb-94 P 2 D 3.21E-02 75"h percentile value (from NR NR NR NR 2.541-02 Ni-63 RESRAD (.mco) file created in the sensitivity analysis (Ref. 3))
P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -11.51 0.7 0.001 0.999 1 .OE-05)
Np-237+ progeny Pa-231 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -12.21 0.9 0.001 0.999 15.0E-06)
P 2 S Truncated Lognornial-N NUREG/CR-6697, Att. C (Ref. 2) -8.11 0.9 0.001 0.999 13.0E-04)
Pb-210+ progeny I' 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -13.82 0.5 0.001 0.999 (1.01-06) lPu-238 P 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -13.82 0.5 0.001 0.999 I 1.01-06)
I u-239 P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -13.82 0.5 0.001 0.999 1 .2OE-06)
Pu-243+ progeny P 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -6.91 0.5 0.001 0.999 1.012-03)
Ra-226+ progeny P 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -9.72 0.9 0.001 0.999 (6.02-05)
Sb-125 P 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -6.21 0.5 0.001 0.999 (2.0E-03)
Sr-90+ progeny P 2 S Truncated Lognormal-N NUREG/CR-6697. Att. C (Ref. 2) -6.91 0.7 0.001 0.999 I .OE-031 Tc-99 6D-18
C.
YNPS License Termnination Plan
( Rev ision u
.- - - . - - Input Paranmeter.Valucs for Soil DCGL Determination >.-
.-. .-.. .,.... Relsident Farmer scenari6 Distribution's Statistkcal Parameters' Mean Parameter (unit), Type PBoiy ramn~Vau/itiuinasis --- I - 2 3 4 (ein Th29-poey -.. pe 2Prrnatdiority UEGC-67 At Rf.2 I2.1 09 0.O .9 (5.02.06n)
S Truncated Lognormnal-N NUREG/CR-6697, Att. C (Ref. 2) .12.21 0.9- 0.001 - 0.999 (5.01E-06)
Th-2290 progenyP-2 2 S Truncated Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) -72.821 0.6 0.001- 0.999 (40-04)
Th-233 -. P U-234.3 - -.. P 2 S Truncatd Logniornmai-N NUREG/CR-6697, Att. C (Ref. 2) .7.82 ~0.6 0.001 0.999 (4.02.-04) 2 S Truncatd Lognormal-N NUREG/CR-6697, Att. C(Ref. 2) -7.82 p--0 .6 0.001 0.999--- (4.012-04)
U-235+ progeny . . .... .P Bloaccumulation Factors for Fish (pCi/kg per pCiIA)"____
- 2. S Lognormal.N NUREO/CR-6697. Att. C (Ref. 2) 2.7 1.1 NR -~NR 1.5E+01I Ac-227+ progeny.-----P.-
P. 2........ S . Lognormnal-N NUREG/CR-6697, Att. C (Ref. 2) .1.6 -1.1 'NR .. NR - 5.023+00 Ag-IO8m--
-P..- .--2.. S. Logno'rmal-N NUREG/CR-6697. Att. C(Ref 2) 3.34 1.. NR NR 3.0OE+01 Am-241:-.-.
. . .-- 2-.:
2m23poey--.--.--... Lognormal.N NUREG/CR-6697, Att. C (Ref. 2) 3.4 R3.01+0I
. . P-'.. S Lognornial-N NUREG/CR-6697, Att. C(Ref. 2) 10.8- 1'.-I NR- ----- NR---..4.912+04 C.14-. ----- .2- __
2 3.01E+0 I.
. P-.-. .2 S Lognorrmal-N NUREG/CR-6697, Att..C (Ref. 2) 3.4 . .I --- NR- NR Cm-243 --.-.
Co.0 .-.. 2 Lognormal-N NUREG/CR-6697, Att. C(Ref. 2) 5.7 1. -NR-.- NR; 3.012+02-Pj 2 S LognormaI.N NUREG/CR-6697, Att.:C (Ref 2) 7.6 0O.7 -R- - NR --. 2.023+03 Cs-134.-
P. 5 Lognormal-N NUREO/CR.6697, Att. C(Ref. 2) 7.6- 0.7 -NR NR-- 2.023+03 Cs-137+progeny . . . .2-P 2 Lognormal.N NUREG/CR-6697, Att. C (Ref. 2) 3.9 1.1 NR NR- 4.92+401 Eu-152 - - -- . - .. . _S Eu14 - 2 S Lognornmal-N NUREO/CR.6697, Att C (Ref. 2) .3.9 1.1 NR -NR .4.92+401 P.... 2. S 'Lognornmal.N NUREO/CR-6697 At. C (Ref. 2) 3.9 1.1 NR- NR - 4.9E+01 Eu*155 ..
P.
P.- 2. S Lognornal-N NUREG/CR.6697, Att. C(Ref. 2) 5.3 '1.1 NR NR .2.013+02 Fe-55
.P.. 2 S. ogona-N NUREG/CR-6697, Att. C(Ref. 2) 3.2 1. NR - NR .2.512+01 Gd-152 -..- ----. .
11.3 .. P-..'2 -S Lognoirral-N NUREG/CR-6697. Att. C(RcEf2) 0 -0.U NR .NR .1.013400
__ ___ _ 2__ __ Lognormnal-N NUREG/CR-6697, Att. C (Ref. 2) . 5.7 . . I. NR NR . 3.012+02 N63P, 2'-! S Lognormal-N. NUREG/CR-6697, Att. C(ReE 2) 4.6 .'-, NR- NR 9.9E2+01 Np27poeyP .. 2 .S . Lognormal-N NUREG/CR-6697, Att. C(Ref. 2) 3.:~ . . RNR 3020 2 S Lognormal-N NUREG/CR..6697, Att. C(Ref. 2) 2.3 -IA1 NR...NR .1.012+0 I Pa-231IP P 2. S Logn.ormal-N NUREG/CR-6697, Att. C (Ref. 2) 57 i NR NR 3.02+02 Pb-2 IO+progeny 2 S Lognormal-N INUREG/CR-6697. Att;'C (Ref. 2) 34 NR INR 020 Pu-238 .-...- ___
Revision 0 YNPS License Termination Plan Revision 0 YNPS License Termination Plan Input Parameter Values for Soil DCGL Determination Resident Farmer Scenario Distribution's Statistical Parametersd Mean Priorilyb Treatment' Value/Distribution Basis 2 3 4 IMedialn)
Parameter (unit) Type' 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 3.4 1.1 NR NR 3.OE+OI P'u-239 P
2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 3.4 1.1 NR NR 3.0E+OI Pu-241+ progeny P p 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 3.9 1.1 NR NR 4.9E+OI Ra-226+ progeny 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 4.6 1.1 NR NR 9.9E+OI Sb-125P P 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 4.1 1.1 NR NR 6.OE+OI Sr-904- progeny 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 3 1.1 NR NR 2.OE+OI Tc-99 P 2 S Lognormal-N NUREG/CR-6697, Alt. C (Ref. 2) 4.6 1.1 NR NR 9.9E-OI Th-229+ progeny P 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 4.6 1.1 NR NR 9.9E+OI Th-230 P 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 2.3 1.1 NR NR I.OE+OI U-233 P P 2 S Lognormal-N NUREG/CR-6697, Att. C (Ref. 2) 2.3 1.1 NR NR I.OE+OI U-234 2 S Lognomial-N NUREG/CR-6697, Att. C (Ref. 2) 2.3 1.1 NR NR I.OE+OI U-235+ progeny P Uioaccumulation Factors for Crustacea/ Mlollusks (pCi/kg per pCi/l) p 3 D I.OOE+03 RESRAD Default NR NR NR NR Ae-227+ progeny P 3 D 7.70E+02 RESRAD Default NR NR NR NR Ag-108m P 3 D I.OOE+03 RESRAD Default NR NR NR NR Am-241 P 3 D L.OOE+03 RESRAD Default NR NR NR NR Am-243+ progeny P 3 D 9.10E+03 RESRAD Default NR NR NR NR C- 14 P 3 D L.OOE+03 RESRAD Default NR NR NR NR Cm-243 P 3 D 2.OOE+02 RESRAD Default NR NR NR NR Co-60 P 3 D L.OOE+02 RESRAD Default NR NR NR NR Cs-134 P 3 D I.OOE+02 RESRAD Default NR NR NR NR Cs-137+ progeny Eu-1 52 p 3 D l.OOE1+03 RESRAD Default NR NR NR NR P 3 D I .OOE+03 RESRAD Default NR NR NR NR Eu-154 P 3 D I1.OOE+03 RESRAD Default NR NR NR NR Eu-154 P 3 D 3.20E+03 RESRAD Default NR NR NR NR Fe-55 P 3 D 1.00+03 RESRAD Default NR NR NR NRi Gd-152 p 3 D I.OOE+O0 RESRAD Default NR NR NR NR H-3 6D-20
(,-.
K
YNPS License Termination Plan C Revision (
- - - Input Parameter Values for Soil DCGL Determination
-Resident Farmer Scenario Distribution's Statistical Parameters' Mean Parameter (unit),. Type' Priorityb Treatment' Valueltlstribution Basis IM 2 3 4 (edlan)
Nb-94 P 3 D _ .OOE+02' RESRAD Default NR' NR NR NR Ni-63 - P 3 D .. 1.00I+02. RESRAD Default . NR NR NR NR Np-237+ progeny P 3 D 4.00E+02 RESRAD Default NR NR NR NR Pa-231 . p 3 D I.IOE+02 RESRAD Default NR NR NR NR Pb-2l0IO progeny '3 p D ' .OOE+02 RESRAD Default ( NR NR NR NR Pu.238 , . --. ,. . P 3 D I.OOE+02 RESRAD Default NR NR NR NR Pu-239 P 3 D L.OOE+02 RESRAD Default NR NR NR NR Pu-241+progeny P 3 D 1.00E+02 RESRAD Default NR NR NR NR Ra-226+ progeny P 3 D 2.50E+02 RESRAD Default NR NR NR NR Sr-90+ progeny p 3 D I.OOE+02 RESRAD Default NR NR NR NR Sb.125 p 3 D -IOOE+01 RESRAD Default NR NR NR NR Tc-99 . .. P. 3 D 5.002+00 RESRAD Default NR NR NR NR Th-229+ progeny *-:-. .P. 3 . . D . . 5.OOE+02 RESRAD Default' NR NR NR NR Th-230 D 5.00E+02 RESRAD Default NR NR NR NR U-233 P 3 D 6.00E+01 RESRAD Default NR NR NR NR U-234 P 3 D 6.00E+01 RESRAD Default NR NR NR NR U-235+ progeny P 3 D 6.00E+01 RESRAD Default NR NR NR NR Graphics Parameters Number of points 32 IRESRAD Default NR NR NR NR Spacing . . . - - log -RESRAD Default NR NR NR NR Time Integration Parameter ': '.
Maximumnumberofpointsfordose '
- 17 RESRAD Default NR NR NR NR Notes: .
aP = physical, B - behavioral, M = metabolic; (see NUREG/CR-6697, Attachment B, Table 4.)
b = 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 6D-21
YNPS License Termination Plan Revision 0 YNPS License Termination Plan Revision 0 d Distributions Statistical Parameters:
Lognormal-N: I= mean, 2 = standard deviation Bounded Lognormal-N: I= 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 Beta: I = minimum, 2 = maximum, 3 = P-value, 4 = Q-value Triangular: I = minimum, 2 = mode, 3 = maximum Uniform: I = minimum, 2 = maximum NR = Not required Additional Sensitivity Analysis Data:
Sampling technique = Latin Hypercube Number of observations =2000 Number of repetitions = I Input Rank Correlation Coefficients for situation where distributions remain for both parameters:
Thickness of contaminated zone and unsaturated zone = - 0.99 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 References I. Code of Federal Regulations, TitlelO, Section 20.1402, "Radiological Criteria for Unrestricted Use".
- 2. NUREG/CR-6697, "Development of Probabilistic RESRAD 6.0 and RESRAD-BUILD 3.0 Computer Codes", Yu, C. et al., US Department of Energy-Argonne National Laboratory, November 2000.
- 3. YA-CALC-01-001-03, "RESRAD 6.21 Sensitivity Analysis for Resident Farmer Scenario - Soil," December 2003
- 4. YA-REPT-00-008-03, "Evaluation of GeoTesting Express Soil Testing and Determination of Depth to Groundwater," December 2003.
- 5. Yu, C., et al, Argonne National Laboratory, "Data Collection Handbook to Support Modeling Impacts of Radioactive Material in Soil," April 1993.
- 6. NUREG/CR-5512, "Residual Radioactive Contamination From Decommissioning," Volume 3: "Parameter Analysis, Draft Report for Comment,"
October 1999.
6D-22 to
YNPS License Termination Plan C( Revisionv
- 7. Eckerman, K.F., et al., "Limiting Values of Radionuclide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion, and Ingestion," EPA-520/1-88-020, Federal Guidance Report No. 11 (FGR-I 1), U.S. EPA, 1988.
,,,t" . 1 ! " ! 1 6D-23
YNPS License Termination Plan Revision 0 This page intentionally left blank.
6D-24 I'
YNPS License Termination Revision 0 YNPSLicnseermnatin Plan Pan Rvison
- hi sX t R l e v / <
- .1 b . . .
, . ... _ . _ ... . . b .
- - -- -Appendix 6E : *, . . _
- -- - -- Soil DCGL Rcsults . . ...
... , Ii,.- .
I ;61E- I
YMIS License Termination Plan Revision O VI Soil DCGL Results Nuclide Dose Conversion Factor (DCF) DCGL (mrem/y per pCi/g) (pCi/g) 11-3 6.79E-02 3.7E+02 C-14 4.52E+00 5.5E400 Fe-55 8.57E-04 2.9E+04 Co-60 6.21 E+00 4.OE-+00 Ni-63 3.07E-02 8.1 E- 02 Sr-90 I.45E+01I 1.7E400 Nb-94 3.46E+00 7.2E-*00 Tc-99 1.76E-+O0 I.4E401 Ag-108m 3.44E+00 7.3E4+00 Sb-125 7.82E-01 3.2E-+ 0 Cs-134 5.02E+00 5.OE400 Cs- 137 2.92E+00 8.6E+00 Eu-152 2.43E+00 I.OE+01 Eu- 154 2.63E+00 9.5E+00 Eu-155 6.29E-02 4.OE+02 Pu-238 7.48E-01 3.3E+01 Pu-239 8.30E-01 3.OE+01 Pu-241 2.54E-02 9.8E+02 Am-241 8.59E-01 2.9E +OI Cm-243 7.85E-01 3.2E401 6 E-2
YNPS License Termnination Plan I . 1 -Revision 0 YNPS License Termination Plan Revision 0 Appendix 6F Basis Document for Site-Specific Parameter Value Assignment, Building Occupancy
- :, 6F-1
I YNPS License Termination Plan Revision 0 Table of Contents Page
- 1. Room Dimensions .................... ................................................ 6F-3
- 2. Source Configuration .......................... .......................................... 6F-6
- 3. Direct Ingestion Rate ............................. ....................................... 6F-7 6F-2
YNPS License Termination Plan Revision 0 I. Room Dimension; i--
An inventory of the rooms and partial rooms that would remain on site following Phase I 'f the DEMCO demolition project (Ref.A1) was used to determine ro'm dimensions. Wail dimensions were determined from site drawings showing the building locations, building elevations and dimensions. Ceilings were not included in the model, as partial rooms remaining at the time of license termination will eithe'r have no ceiling or will be covered with a ceiling consiructed of new, uncontaminated building material.
The average wall dimensions '(wall length and height) were calculated using data describing the walls expected to remain at the time of final status survey. One wall was excluded from the data 'set: the 40.5 m long Primary Auxiliary Building (PAB) south wall. This wall extends the entire length of the PAB and was' excluded from the data'set because it is atypical jof a standard room. The data~on'the-walls expected to remain at the timeof final status'survey and the calculated average wall dimensions are shown in Table I-l' The portion of the room expected to remain at the time of final status survey is highlighted. The resulting average wvall length is ' 4.44 m; and the average vall height is 3.51 m'.
These average wall dimensions were used to calculate the floor surface area (meters2 ) for the modeled room:
'Floor surface area'= (4.44 m) x (4.44,m) 19.71 m2 The wall surface area in square meters was calculated from the average wall length and height in meters for the modeled room: l , ,
'Wall hrea =(4.44 M) x (3.51 m) 15.58 m2 The floor and wall surface areas and the average wall length and height were used as inputs to the RESRAD-BUILD v 3.21 code'to define'the room model and to locate the receptor.
. I 6F-3
Revision O YNI'S License Termination Plan Revision 0 YNPS License Termination Plan Tab;e 1- 1 Rcmainint RnonniVills Dimensions Building Arca Width L_ _ngth_ Hcight Ft/in, Mctcrs Ft/in Meters Ft/in Meters PAB TK-30 in (PAB Basement) Room 12'-6" 3.81 E+O0 15'-6" 4.72E+00 18'-6" 5.64E+O0 PAB TK-27 (PAB Basement) Room 10'-2" 3.1OE+00 15'-6" 4.72E+0O 18'-6" 5.64E+00 PAB South Wall (G-Line) 133'-0O"* 4.05E+01 13'-0" 3.96E+00 PAB East Wall (2-Line to Fa) 17'-0" 5.188E+00 13'-0" 3.96E+O0O I-X PIT Southernmost Wall _ 33'-O" I OI E+0 1 14'-8" 4.47E+O0 I-X PIT Easternmost Wall (Total Length) _ 31'-10" 9.70E+00 14'-8" 4.47E+00 SFP Spcnt Fuel Pool 16'-6" 5.031E+OO 33'-8" 1.03 E+O I 14'-8" 4.47E3+00 New Fuel Vault New Fuel Storage (South Wall) 15'-O" 4.57E+00 13'-6" 4.1 E+00 Safe Shutdown Pipe Chase Cubicle 4'-0" 1.22E+00 4'-O" I.223E+00 8'-0" 2.44E+00 Waste Vault Waste Transfer Plit Cubicle 9'-0" 2.74E+00 14'-0" 4.27E+00 9'-10"' 3.00E+O0 Elevator Pit Elevator Pit Cubicle 7'-10" 2.39E+00 9'-0" 2.74E+00 6'-6" I.98E+00 Waste Disposal Pipe Chase Cubicle 5'-O" I.52E+00 I I'-10" 3.61 E+0O 10'-1l" 3.07E+00 Waste Disposal Distillate Heat Exchan er Cubicle 9'-0" 2.74L+00 16'-U" 4.88E+00 7'-0" 2.13E+OO Waste Disposal Evaporator Cubicle 10'-6" 3.20E+00 16'-0" 4.88E+00 7'-0" 2.133E+O0 Waste Disposal Drumming Pit Cubicle 10'-4" 3.15E+00 27'-0" 8.23E+00 7'-0" 2.13E+00 PAB PAB Back Stairwell Pit Cubicle 11I'-4" 3.45E+00 13'-0" 3.96E+00 8'-2" 2.49E+OO Average Wall Length (meters)= 4.44E+OO Averagc Wall Height (meters) = 3.51E+OO
- As previously noted, the south (G-Line) wall of the PAB is excluded from the calculation of average wall length.
YNPS License Termination Plan C. Revision 0
. Table 1- 2
-wRemaining Structures and Drawing Reference Building Room/hVallIPit Room/Wall Drawing Reference Wall Drawing Reference WVall Height Drawing Reference Width Length (Note 1)
PAB Drain Collecting Tank Room (TK-30) 12' 6" PAR 9699-FC-40D 15' 6" PAB 9699-RC40A 1022' 8".1004' 2"-1 8' 6" PAR 9699-FM-57A.
PAB Gravity Drain Tank Room (TK-27) 10'2" PAB 9699-FC-40D 15' 6 PAB 9699-RC-40A 1022' 8"-1004' 2"=18' 6" PAB 9699-FM-57A PAB South Wall (G-Line) ; 133'0" PAB9699-FR- 16A 1035' 8" - 1022'8'= 13' 0" PAB 9699-FM-57A PAR East Wall (2.Line to Fa) .I._, 17'0" PAB 9699-FR-16A 1035' 8" - 1022' 8' =13' O" PAD 9699-FM-57A I-X PIT Southernmost Walll 33' 0" I-X Pit 9699-FM-35B 1035' 8"- 1021' 0" -14' 8" I-X Pit 9699-FM.35B I-X PIT Eastemmost Wall F to E . : 25' 6" PAD 9699-FM.57A 1035'8"- 1021' 0" -14' 8" I-X Pit 9699-FM-35B I-X PIT Eastemmost Wall E to Wall End _ 6'4" I-X Pit 9699-FM-35B . . _-_._.______.
IX PIT Eastemmost Wall (Total Length) : 31' 10" . .
SFP Spent Fuel Pool.i 16'6" Fuel Pit 9699-FM-21A- -- 33'8" Fuel Pit 9699-FM-21A 1022' 8"- 1008' 0" =14' 8" Fuel Pit9699-FC-45B New Fuel Vault New Fuel Storage (South Wall) ; _._._ . 15' 0" PAB 9699-FM-57A 1035' 0" - 1021' 6" =13' 6" Fuel Pit 9699-FM-21A Safe Shutdown Pipe Chase (555) *-: 4' 0" CES Rev.1 85005-F-1001 4' 0" CES Rev. I 85005-F- I 00I 1034' 0" - 1026' 0" = 8' 0" CES Rev.1 85005.F-1001 Waste Vault Waste Transfer Pump Pit (underground) 9'0" 9699-FC-50C 14'0" 9699-FC-50C 1020' 6"- 1010'8" =9' 10" 9699-FC-50C Elevator Pit Elevator Pit T7'10" PAB 9699-FC43A 9' 0" PAB 9699-FC43A 1022'8' - 1016' 2" 6' 6" PAB 9699-FC43A Waste Disposal Pipe Chase Cubicle 5' 0" Waste Disp.9699-FA-17A II' 10" Waste Disp.9699-FA-17A. 1035' 8"- 1025' 7"= 10' I" Waste Disp.9699-FA- 17A Waste Disposal Distillate Heat Exchanger Cubicle - . 9'0". Waste Disp.9699-FA. 17A 16'0" Waste Disp.9699-FA-17A 1035'8" - 1028'8"- 7' 0" Waste Disp.9699-FA-17A Waste Disposal Evaporator Cubicle 10' 6" Waste Disp.9699-FA-1 7A 16' O' Waste Disp.9699-FA-1 7A 1035'8" - 1028'8" = 7' 0" Waste Disp.9699-FA-1 7A Waste Disposal Drumming Pit Cubicle 10'4" Waste Disp.9699-FA.1 7A 27' 0" Waste Disp.9699-FA-1 7A 1035' 8" - 1028' 8" = 7' 0 Waste Disp.9699-FA-1 7A PAD Back of PAD Stairwell Pit Cubicle ! I' 4 PAB 9699 RC-40B 13' 0" PAB 9699 RC-40B 1035' 8" - 1027' 6' = 8'2" PAD 9699-FM-57B Note 1: Top/ceiling height elevation is from DEMCO work scope Ref. I i:--. - '. !
I i I I .
i 6F-5
YNPS License Termination Plan Revision 0
- 2. Source Configuration NUREG/CR-6755 (Ref. 2), Section 4.1, describes three principal assumptions inherent in the Building Occupancy scenario: a fixed room area, uniform surface contamination, and the receptor location at the center of the floor at a height of I m. The configuration of the receptor and sources is illustrated in Figure 2-1. The RESRAD- BUILD input parameters, receptor location and center of source coordinates, are provided in Table 2-1.
Figure 2-1 Configuration of Source and Receptor Locations for RESRAD-BUILD Model
, .I I
z.
F7 . ,t I
-XI __,."
15W etets X Table 2-1 Recentor and Center of Source Locations. meters Source # Source Description Axis I_ Floor 2.22 2.22 0 2 West Wall 0 2.22 1.76 3 North Wall 2.22 4.44 1.76 4 East Wall 4.44 2.22 1.76 5 South Wall 2.22 0 1.76
_ Receptor Location 2.22 2.22 I i
YNPS License Termination Plan Revision 0
- 3. Direct Ingestion Rate The source specific input parameter, Direct Ingestion Rate, is described in RESRAD-BUILD as the direct ingestion rate of the source by any receptor in the room. Direct ingestion is possible only if the receptor and the source are in the same room and represents the fraction of the source ingested per hour.
NUREG/CR-5512, Volume 3, (Ref. 3) defines the average ingestion rate of I.IE4 m2 /hr as representative for the average individual in an industrial setting. The Direct Ingestion Rate for use in the Building Occupancy Scenario is calculated based upon the total room surface area (source area). The surface area is equal to sum of the surface area of four walls (15.58 m2 per wall, as discussed in Section 1) plus the surface area of the floor (19.71 M2 , as discussed in Section 1).
Direct Ingestion Rate = Average Ingestion Rate / Source Area
= (I.IE-04 m2/hr) / ((4 x 15.58 m2)+ 19.71 M2 )
= (1.1 E-04 m2/hr) / (82.03 M2 )
= 1.34E-06 hr:
The direct ingestion defined in this manner used in conjunction with an indirect ingestion rate set to zero, adequately models the Building Occupancy Ingestion pathway.
References:
I Attachment E to the "Contract for the Performance of Demolition and Disposal and Related Services, By and Between DEMCO, Inc. and Yankee Atomic Electric Company," dated February 28, 2003.
- 2. NUREG/CR-6755, "Technical Basis for Calculating Radiation Doses for the Building Occupancy Scenario Using the Probabilistic RESRAD-BUILD 3.0 Code," February. 2002 (ANL/EAD/TM/02-1).
- 3. NUREG/CR-5512, "Residual Radioactive Contamination from Decommissioning," Volume 3:
"Parameter Analysis, Draft Report for Comment," October 1999 (SAND99-2148).
- 6F-7
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YNPS License Termination Plan
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'Appendix'6G-Input ParameterValues for Sensitivity Analysisi Building 0-ecupancy i 4 , I 6G-1
YNPS License Termination Plan Revision 0 Input Parameter Values for Sensitivity Analysis, Building Occupancy I'arameter (unit) Type' IPriorityb ITreatment' Value/Distribution Basis Distribution's Statistical l'aram lersd Median 1 12 13 14 Gezieral Exposure Duration (days) B 3 D 365.25 NUREG/CR-5512 (Ref. 1), Vol.3, NR NR NR NR NR Section 5.2.1 Indoor Fraction B 2 D 0.267 NUREG/CR-5512 (Ref. 1), Vol. NR NR NR NR NR
._ 3. Section 5.2.2 Evaluation Time (year) P 3 D 0 t=-0 corresponds maximum dose NR NR NR NR NR over the first vear Number of Rooms 1' 3 D I NlJREG/CR-5512 (Ref. I) NR NR NR NR NR Deposition Velocity (in/sec) P 2 S Loguniform NUREG/CR-6755 (Ref. 2), 2.70E-06 2.70E-03 Section 3.3 Resuspension Rate (sec'") P I S Loguniform NUREG/CR-6755 (Ref. 2), 2.5E-1 I 1.35E-5 Section 3.1 Air exchange rate for room (I/ h) B 2 D 1.52 NUREG/CR-6697 (Rcf. 3), Att. NR NR NR NR NR C, 7.4 and NUREG/CR-6755 (Ref. 2). Section 3.2 Room area (mi) P 2 D 19.71 Site-specific model, LTP App. 6F, NR NR NR NR NR Section I Room height (m) P 2 D 3.51 Site-specific model, LIP App. 6F, NR NR NR NR NR SectionII Time fraction B 3 D I NUREG/CR-5512 (Ref. 1) NR NR NR NR NR Breathing rate (m3/day) B 2 D 33.6 NUREG/CR-5512 (Ref. I) Vol. 3 NR NR NR NR NR Section 5.3 Indirect ingestion rate (m2/hr) B 2 D 0 NUREG/CR-5512 (Ref. I) Vol. 3 NK NR NR NR NR Section 5.2.3 Indirect ingestion is not modeled Receptor location: x.v.z (m) B 3 D 2.22. 2.22. 1 NlJREG/CR-5512 (Ref. I) NR NR NR NR NR Shielding thickness (cm) p 2 D 0 No shielding assumed NR NR NR NR NR Shieldine density (g/cc) P I D 0 No shielding assumed NR NR NK NR NR Shielding material P 3 D None No shieiding assumed NR NR NR NR NR Number of sources P 3 D 5 Site-specific model, LIP App. 6F, NR NR NR NR NR Section 2 .
External dose conversion factor NI 3 D RESRAD-BUILD default FGR-12 (Rcf. 4) NR NR NK NR NR 2 .
((mrem/vrV(dpmlm ))
Air submersion dose conversion factor M 3 D RESRAD-BUILD default FGR-12 (Ref. 4) NR NR NR NR NR
((mrem/vr)/(pCi/m'))
Inhalation dose conversion factor M 3 D RESRAD-BUILD default FGR-I I (Ref. 5) NR NR NR NR NR (mrem/pCi/g) I III 6G-2 i
YN PS License Termination Plan C Revision u
- . - ~Input Parameter Values for SensitivityAnalysis, uilding Occupancy I- -:-
Priority6 Treatment' ValuelDistribution Basis -7 Distribution's Statistical Param tersd Median Ps rameter (unit) -Type
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 1 2 1 3 -4 _
M 3 D - RESPAD-BUILD default rGR-lII (Ref,5) NR NR NR NR -NR Ingestion dose conversion factor (Mrem/vpcLg)_______
Source 1. Floor.
P 3 D Area~' NUREG/CR-5512 (Ref. l)' NR NR NR NR NR Type P 3 D Z NUREG/CR-5512 (Ref. 1) NR NR NR NR NR Direction P 3 D 2.22.2.22,0 Site-specific model, LUP App. 6F, NR NR NR NR NR Location of center of source: x,y~z (in)
...- ~~-.-.. S ection 2 - _ _ _ _ _ __ _
p 2 D 19.71 Site-specific model, UTP App.6F, NR NR NR NR NR Area (m2) _ _ _ _
_______Section I
- D . - NUREG/CR-6697 (Ref. 3), NR - NR NR NR NR
-Airfiractionforl-13 - .- .-
_______ ________ ________ ______ _______ _______A tt. C, S ection 8.6 _ _ _ _ _ _ _ _ _ _ _ _
2 D-- 0.07 . (Ref. 3), .. NR - NR _NR_- . NR NR
-Air fraction (for all nuclides except H.3) . -B- - -. -- -NUJREG/CR-6697
___ _____ _____ _____ _ ___ _____ _____ ____A tt. C , Section 8.6 _ _ _ _ _ _ _
B D 2-.342-6 -.--. NUREO/CR-5512 (Ref. 1), Vol. -- NR - NR MNR-NR - MR_.
Direct ingestion (hrt).-------- - -- -.
':vi . - . 3, Section 5.2.3 and LTP App. -
6- ecio.3 ,,
2 2
_____________________ (I. IE-04m /h / 82.03_in ) _________
D .0.1. NUREG.I1727 (Rcf.6) Table C7. _NR. NR -NR . NR. NR.
Removable fraction --.------
and NUREG/CR-6755 (Ref. 2), - - . .
__________Section
___________ 3.5 -_ _ _ _
p 2 S Triangular NUREG/CR-6755 (Ref. 2), 1000 100000 10000 Time for'source removal (days)
__ _ _ _ _ _ _ _ _ _ _ _ _ _ _Section 3.6 .
2 P 2 D I Assumes unit concentration NR NR NR NR NR Radionuclide concentration (pCVm )
Source 2. WVest Wall- . --
3 D Area NUREG/CR-5512 (Ref. I) NR NR NR NR NR Type .p p 3 D X NUREG/CR-5512 (Ref. 1) NR NR NR NR NR Direction p 3 D. 0,2.22, 1.76 Site-specific model, UTP Apo. 6F, NR NR NR NR NR Location of center ofsource: x,y~z (in)
. .. - ~. - . . -- _ _ _ _ _Section 2.
p 2 D I15.58 Site-specific model, LTP App. 6F, NR NR NR NR NR Area (m2) I__ _ _ _ _ _ _ _ _ _ _ _ _ _ _
_ _ _ _ _Section I _ _ __
I, NUREG/CR-6697 (Ref. 3)Att. C, NR NR NR NR NR Air fraction for H-3 ~B. 2 D
~~Sectionr 8.6_ _ _ ___ _ _ _
B 2 D. 0.07 NREG/CR-6697 (Ref. 3)Att. C, NR NR NR NR NR Air fraction (for all nuclides except H-3) ~~~~~~~~~~~~~Section 8.6 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
I
. I - - I I '.. - .1 . . ... - 1. . .. ,I . . ..1 ... I -I I '. '. , I I ,
- -6& 3 -- 1. - _. . _., .
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YNPS License Termination Plan Revision 0 Input Parameter Values for Sensitivity Analysis, Building Occupancy Parameter (unit) Type' Priorityb I reatment' *'alue/Distribution Basis Distribution's Statistical Paranmtcrsd Median
_ _ _ _ _2 3 4 Direct ingestion (hr-l) B 2 D 1.34E-6 NUREG/CR-5512 (Ref. I) Vol. 3, NR NR NR NR NR Section 5.2.3 and LTI' App. 6F, Section 3
.__I (1.I E-04m'/h / 82.03 m2 )
Removable fraction P I D 0.1 NUREG-1727 (Ref. 6) Table C7.1 NR NR NR NR NR and NUREG/CR-6755 (Ref. 2),
_ . 3.5 Time for source removal (days) P 2 S Triangular NUREG/CR-6755 (Ref. 2), 3.6 1000 100000 10000 and NUREG/CR- 6697 (Ref. 3) 2 NR NR Radionuclide concentration (pCi/m ) P 2 D Allows for proportional DCGL NR NR NR calculation Source 3. North WVall Type 1P 3 D Area NUREGlCR-5512(Rcf. t) NR NR NR NR NR Direction P 3 D Y NUREG/CR-5512 (Ref. I) NR NR NR NR NR Location of center of source: x,yz (m) P 3 D 2.22, 4.44, 1.76 Sitc-specific model, LTP App. NR NR NR NR NR 6F, Section 2 Area (m2) P 2 D 15.58 Site-specific model, LTP App. 6F. NR NR NR NR NR Section I Air fraction for 11-3 B 2 D 0 NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR NR 8.6 . -
Air fraction (for all nuclidcs except 11-3) B 2 D 0.07 NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR NR 8.6 Direct ingestion (hr-I) B 2 D I.34E-6 NUREG/CR-5512 (Ref. I) Vol. NR NR NR NR NR 3,5.2.3 2 2 I . I E-04m /h / 82.03m Removable fraction P I D 0.1 NUREG-1727 (Ref. 6) Table C7.1 NR NR NR NR NR and NUREG/CR-6755 (Ref. 2),
3.5 Time for source removal (days) 1P 2 S Triangular NUREG/CR-6755 (Ref. 2), 3.6 1000 100000 10000 and NUREG/CR- 6697 (Ref. 3) .
2 NR NR Radionuclide concentration (pCi/m ) P 2 D I Allows for proportional DCGL NR NR NR calculation Source 4. East Wall _
TN-pe P 3 D Area NUREG/CR-5512 (Ref. I) NR NR NR NR NR Direction P 3 D X NUREG/CR-5512 (Ref. I) NR NR NR NR NR Location of center of source: x,y,z (m) P 3 D 4.44, 2.22, 1.76 Site-specific model, url App. 6F, NR NR NR NR NR Section 2 6G-4 C....
YNPS License Termination Plan C Revision v Input Parameter Values for Sensitivity Analysis, Building Occupancy Parameter (unit) Type, Priorityb Treatment' ValuelDistribution Basis Distribution's Statistical Paramtersd Median 1 2 3 4 Area (m2) P 2 D 15.58 Site-specific model, LTP App. 6F, NR NR NR NR NR Section I Air fraction for H-3 B 2 D I NUREG/CR-6697 (Ref. 3), An. NR NR NR NR NR
.___ C,8.6 .
Air fraction (for all nuclides except H-3) B 2 D 0.07 NUREG/CR-6697 (Ref. 3), Att. NR NR NR NR NR C. 8.6 .
Direct ingestion (hr-l) B 2 D 1.34E-6 NUREG/CR-5512 (Ref. I),Vol. 3, NR NR NR NR NR Section 5.2.3 and LTP App. 61F, Section 3 2 2 (I.lE-04m /h/ 82.03m )
Removable fraction P I D 0.1 NUREG-1727 (Ref. 6) Table C7.1 NR NR NR NR NR and NUREG/CR-6755 (Ref. 2),
3.5 Time for source removal (days) P 2 S Triangular NUREG/CR-6755 (Ref. 2),3.6 1000 100000 10000 .
and NUREG/CR- 6697 Radionuclide concentration (pCi/m') P 2 D I Allows for proportional DCGL NR NR NR NR NR calculation Source 5. South Wall Type P 3 D Area NUREG/CR-5512(Ref. 1) NR NR NR NR NR Direction P 3 D Y NUREG/CR-5512 (Ref. I) NR NR NR NR NR Location of center of source: xy.z (m) P 3 D 2.22,0, 1.76 Site-specific model, LTP App. 61F, NR NR NR NR NR
._ Section 2 Area (m2) P 2 D 15.58 Site-specific model, LTP App. 6F, NR NR NR NR NR--
I I __ _-____ _
__ __ __ __ __Section_
Air fraction for 11-3 B 2 D I NUREG/CR-6697 (Ref.3) Att. C, NR NR NR NR NR 8.6 .
Air fraction (for all nuclides except H-3) B 2 D 0.07 NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR NR 8.6 Direct ingestion (hr-I) B 2 D 1.34E-6 NUREG/CR-5512 (Ref. 1), Vol. NR NR NR NR NR 3, Section 5.2.3 and LTP App.
- 6-F, Section 3
, .. ,. (.I~E-1040/h/ 82.03m') ._-. _ ._,
Removable fraction P I D 0.1 NUREG-1727 (Ref. 6)Table C7.1 NR NR NR NR NR and NUREG/CR-6755 (Ref. 2), _
_ .- _ . -3
.. .5 Time for source removal (days) P , 2 S Triangular NUREG/CR-6755 (Ref. 2).3.6 1000 100000 10000 .
__ ._ ,, .. __ and NUREG/CR- 6697 (Ref. 3) . . .,
YNPS License Termination Plan Revision 0 Input Parameter Values for Sensitivity Analysis, Building Occupancy Parameter (unit) Type' Priorityb TIreatnment' l Value/Distribution Basis Distribution's Statistical Paraintersd I I 23 . 14r d _1 clide concentration (pCi/r 2 ) P 2 D I Allows for proportional DCGL NR NR NR NR calculation I 6G-6 l.-
YNPS License Termination Plan Revisi S Notes:
P = physical, B = behavioral, M = metabolic (NUREG/CR-6697, Att. B, Table 4.3) b = high priority parameter, 2 = medium priority parameter, 3 = low priority parameter (NUREG/CR-6697, Att. B, Table 4.3)
D = deterministic, S = stochastic d Statistical Parameters Loguniform I = minimum, 2 = maximum Triangular I = minimum, 2 = maximum, 3 = most likely NR = Not required Input Correlations: Resuspension Rate and Deposition Velocity = 0.9 Time to Source Removal = 0.9 (correlation set between sources)
Run Specifications: Random seed = 1000 Number of observations = 300 Number of repetitions = I Dose integrations = 5
References:
I. NUREGICR-5512, "Residual Radioactive Contamination from Decommissioning," Volume 3: "Parameter Analysis, Draft Report for Comment," October 1999 (SAND99-2148).
- 2. NUREG/CR-6755, "Technical Basis for Calculating Radiation Doses for the Building Occupancy Scenario Using the Probabilistic RESRAD-BUILD 3.0 Code," February.
2002 (ANLUEAD/TM/02-1).
- 3. NUREGICR-6697,"Development of Probabilistic RESRAD 6.0 and RESRAD-BUILD 3.0 Computer Codes," November 2000, (ANL/EAD/TM-98).
- 4. Eckerman, K.F., et al, "External Exposure to Radionuclides In Air, Water, And Soil," EPA 402-R-93-081, Federal Guidance Report No. 12 (FGR-12). U.S. EPA, 1993.
- 5. Eckerman, K.F., et al., "Limiting Values of Radionuclide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion, and Ingestion," EPA-520/1-88-020, Federal Guidance Report No. II (FGR-I 1), U.S. EPA, 1988.
- 6. NUREG-1727, "NMSS Decommissioning Standard Review Plan," September2000..
YNPS License Termiination Plan Revision 0 YNPS License Termination Plan Revision 0 This page intentionally left blank.
Revisio(uV YNPS License Termination Plan
-S .y
.;. .. ... :~- Appendix 6H ..
-_-Results of Sensitivity Analysis, Building Occupancy..._".
- --. I-...- ..-.--- . - .
YNPS License Ternlination Plan Revision O Revision 0 YNPS License Termination Plan Results of Sensitivity Analysis, Building Occupancy (Based on the Partial Rank Correlation Coefficient)
Radionuclide Rank I paramcetr Rank 2 parameter Rank 3 parameter Rank 4 parameter Rank 5 parameter Rank 6 parameter Rank 7 parameter 1-3 RFO(I) -0.85 RFO(2) -0.78 RFO(4) -0.78 RFO(5) -0.76 RFO(3) -0.76 DKSUS 0.35 UD -0.31 C-14 RFO(I) 0.89 RFO(4) 0.85 RFO(3) 0.84 RFO(5) 0.82 RFO(2) 0.82 ..
Fe-55 RFO(3) 0.28 RFO(I) 0.28 RFO(4) 0.27 RFO(5) 0.23 DKSUS 0.23 UD -0.21 RFO(2) 0.15 Co-60 RFO(I) 0.45 RFO(5) 0.16 DKSUS -0.14 RFO(2) 0.13 UD 0.13 RFO(4) 0.10 Ni-63 RFO(I) -0.64 RFO(3) -0.58 RFO(5) -0.58 RFO(2) -0.58 RFO(4) -0.58 DKSUS 0.12 .
Sr-90 RFO(I) -0.71 RFO(4) -0.59 RFO(2) -0.56 RFO(5) -0.56 RFO(3) -0.52 DKSUS 0.37 UD -0.30 Nb-94 DKSUS -0.38 UD 0.25 RFO(I) 0.24 . . ..
Tc-99 RFO(I) 0.40 RFO(4) 0.34 RFO(2) 0.29 RFO(3) 0.27 RFO(5) 0.26 .. ..
Ag-I08n l RFO(I) 0.50 DKSUS -0.49 UD 0.41 RFO(4) 0.13 RFO(5) -0.10 --
Sb-125 RFO(I) 0.65 RFO(4) 0.38 RFO(3) 0.32 UD 0.26 DKSUS -0.25 RFO(2) 0.20 RFO(5) 0.16 Cs-134 RFO(I) 0.37 RFO(4) 0.20 RFO(2) 0.16 RFO(5) 0.15 RFO(3) 0.14 UD 0.12 DKSUS -0.11 Cs-137 RFO(I) 0.81 RFO(5) 0.59 RFO(3) 0.59 RFO(4) 0.57 RFO(2) 0.54 DKSUS -0.48 UD 0.43 Eu-152 RFO(I) 0.24 RFO(5) 0.11 . . ..
Eu-154 RFO(I) 0.42 DKSUS -0.20 UD 0.17 RFO(2) 0.13 _ .. ..
Eu-155 RFO(4) -0.48 RFO(5) -0.46 RFO(3) -0.44 RFO(2) -0.43 RFO(I) 0.19 .. ..
Pu-238 RFO(I) -0.91 RFO(4) -0.87 RFO(3) -0.86 RFO(5) -0.85 RFO(2) -0.85 DKSUS 0.11 Pu-239 RFO(I) -0.91 RFO(4) -0.87 RFO(3) -0.86 RFO(5) -0.85 RFO(2) -0.85 .
Pu-241 DKSUS 0.60 IJD -0.54 RFO(2) -0.14 RFO(I) -0.13 RFO(4)-0.13 Am-241 RFO(I) -0.91 RFO(4) -0.87 RFO(3) -0.86 RFO(5) -0.85 RFO(2) -0.85 ..
Cm-243 RFO(I) -0.91 RFO(4) -0.86 RFO(3) -0.85 RFO(5) -0.85 RFO(2) -0.84 DKSUS 0.22 UD -0.17 Parameter Definition:
DKSUS = Resuspension Rate UD = Deposition Velocity RFO(#) = Time for Source Removal, where # represents the source number delineated as follow: I=floor, 2=-west wall, 3=north wall, 4=east wall, 5=south wall 6H-2
YNPS License Termination Plan Revisio 0
. ~ ..- -- .
- -..- . ~ -~~-~*.--- .. A ppendix 61 .
. ...-.... .... Input Param eter values for Building Occupancy DCGL Determ~ination, 61 1
YNPS License Tennination Plan Revision 0 YNPS License Termination Plan Revision 0 Input Parameters for Building Occupancy DCGL Determination Parameter (unit) Type' Radionuclide Trea tmentb Value or Basis Distribution's Statistical Parameters' Median Distribution I 2 3 4 General Exposure Duration (days) B All D 365.25 NUREG/CR-5512 (Ref. 1), Vol.3, NR NR NR NR NR 5.2.1 Indoor Fraction B All [ 0.267 NUREG/CR-5512 (Ref. 1), Vol. NR NR NR NR NR 3, 5.2.2 Evaluation Time (year) P All D 0 t=O corresponds maximum dose NR NR NR NR NR over the first year (year 9 for Pu-24 1)
Number of Rooms P All D I NUREG/CR-5512 (Rcf. I) NR NR NR NR NR Deposition Velocity (m/scc) P H-3 D 25"h percentile value of NR NR .
distribution in NUREG/CR-6755 1.5IE-05 (Ref. 2)
P Fe-55 D 25"' percentile value of NR NR .
distribution in NUREG/CR-6755 1.51 E-05 (Ref. 2)
P Co-60 D 75" percentile value of NR NR-distribution in NUREG/CR-6755 4.79E-04 (Ref. 2)
P Sr-90 D 25"' percentile value of NR NR distribution in NUREG/CR-6755 1.511E3-5 (Ref. 2)
P Nb-94 D 75" percentile value of NR NR distribution in NUREG/CR-6755 4.79E-04 (Ref. 2)
P Ag-108m D 75G'pcrccntilc valuc of NR NR distribution in NUREG/CR-6755 4.79E-04 (Ref. 2)
Sb-125 D 75"' percentile value of NR NR distribution in NUREG/CR-6755 4.79E-04 (Ref. 2)
P Cs-134 D 75" percentile value of NR NRi distribution in NUREG/CR-6755 4.79E-04 (Ref. 2)
P Cs-137 D 75"h percentile value of NR NR distribution in NUREG/CR-6755 4.79E.04 (Ref. 2)
P Eu-154 D 757 percentile value of NR NR distribution in NUREG/CR-6755 4.79E-04 (Ref. 2) 61-2
C, YNPS License Termination Plan
(.
Revci._
- ~Input Paramecters for Building Occupancy DCGL Determination _
.Parameterjunit) . Type'- Radlonuclide Trsmet Value or Basis: Distribution'sStatistical Paramnetersc Mledian
-. Distribution .j. I 2 3 4 ___
P u-241 D 25'4 percentile value of' RN - -
..... . . .- distributioninNUREG/CR-6755 -
---. . -1.5 I -05 (Ref. 2) _ ___
. .-. P Crn-243 D 25~pretile value of NR NR -
distribution in NUREG/CR-6755
. -..-- -1.5112-05.-Ri.2)
- All others - S Loguniforni , NUREG/CR-6755 (Ref. 2), _ 2.701E-06 2.70E 8.325 Resuspenision Rate (Sc)PH-3 _D .Mean value of distribution in NR NR
- ,-1.02E.06- --- NUREG/CR-6755(Ref.2)- --
.PFe-55 D1 * , ., Ienauodsrbtoi NR NR -- -
-. ...- - ___--. -. 1.0213-06 -NUREO/CR-6755(Rcf.2) . -..-
- )Co-60 D.25'perentilevalueof ~ NR NR-
~..- .. 36.7512-10 (Ref. 2) I
- . .~..~-D -1 Mean value ofdistribution in 'NR, NR
. 1.02E-06 NUJREG/CR-6755 (Ref. 2) ____
.. P. - --- Nb-94 . -- D .. __...25"!percenitilevalueof .. - NR NR -...
distribution in NUREG/CR-6755,
_______6.7512-10 ,V(Ref. 2)' i________
.- Ag-lO8 D . .25h'percentile value of ~ NR NR-
'distribution in NUREG/CR-6755 - .-
________6.7512-10 .(Ref. 2) ____
- ., PS1-125 ,D.-I :25"' percentile value of NR NR'
... -distribution in NUREGJCR-6755
_______6.7513-10 '(Rcf. 2)_____ ____
._-.P_ Cs- 134 . .. .D. . - .5percentile value of : NR 'NR--
distribution in NUREG/CR-6755 .
. .__ _ __ __ _ _ __ _ __ _6.7513-10 3/4(Ref. 2)_ _ _ ___ _ _ _ _ _ _ _ _
PCs-137 D 2 pretlvauofNR NR -
distribution in NUREG/CR-6755
_______6.7512-10 . .(Ref. 2). _ __ ____
P u14D 25th percentile value of . NR- NR -
- - ..- distribution in NUREG/CR-6755
____________________ _________6.7512-10 . (R~f. 2) _________
.. P - Pu-238 D Mean valuleofdistribution in . NR NR ..
_____________________1.0212-06 NUREG/CR-6755 (Ref. 2) ____
.. - P_ - Pu-241 . 1D- . .Meanvalueofdistribution in... NR NR
____________________________ ___________ 1.022-06 N RECR6755 (Ref. 2) ___ ________ ____
61-3
YNPS License Termination Plan Revision 0 Input Parameters for Building Occupancy DCCL Dctcrminiation Parameter (unit) Type' Radionuclide 'Treatment' Value or Basis Distribution's Statistical Parameters' Median Distribution_ I 2 l 3 4 P Cm-243 D Mean value of distribution in NR NR 1.02E-06 NUREG/CR-6755 (Ref. 2)
P All others S Loguniform NIlREG/CR-6755 (Ref. 2), 3.1 2.5E-1I 1.3E-5 L.83E-08 Air exchange rate for room (hr') B All D 1.52 NUREG/CR-6697 (Ref. 3), Att.C, NR NR NR NR NR Section 7.4 and NUREG/CR-6755 (Ref. 2). Section 3.2 Room area (in )
2 P All D 19.71 Site-specific model, LTP App. 6F, NR NR NR NR NR
._ Section I Room height (in) P All D 3.51 Site-specific model, LIP App. 6F, NR NR NR NR NR Section I .
Time fraction B All D I NUREG/CR-5512 (Ref. 1) NR NR NK NR NR Breathing rate (m'/day) B All D 33.6 NUREG/CR-5512 (Ref. I) Vol. 3 NR NR NR NR NR Section 5.3 2
Indirect ingestion rate (mil/hr) B All D 0 NUREG/CR-5512 (Ref. I) Vol. 3 NR NR NR NR NR Section 5.2.3 Indirect inecstion is not modeled Receptor location: x,y,z (m) B All D 2.22, 2.22, 1 NUREG/CR-5512 (Ref. I) and NR NR NR NR NR LTP App. 6F, Section 2 ShicIdine thickness (cm) P All 1) 0 No shielding assumed NR NR NR NR NR Shielding density (g/cc) P All D 0 No shielding assumed NR NR NR NR NR Shielding material P All D None No shieldinp assumed NR NR NR NR NR Number of sources P All D 5 Site-spccific model, LUP App. 6F, NR NR NR NR NK Section 2 External dose conversion factor NI All D RESI.AD-BUILD FGR-12 (Ref. 4) NR NR NR NR NK
((mrem/yT)/(dpm/mn)) detault .
Air submersion dose conversion factor NI All D RESRAD-BUILD FGR-12 (Rcf. 4) NR NR NR NR NR
((mrem/vr)/(pCi/m')) default Inhalation dose conversion factor N1 Ail D RESRAD-BUILD FGR-I I (Ref. 5) NR NR NR NR NR (mreni/pCi/) default _ _
Ingestion dose conversion factor Ni All D RESRAD-BUILD FGR-I I (Ref. 5) NK NR NR NR NR (mrem/pci/g) defauilt Source 1. Floor _ ___
Tspe P All D Area NUREG/CR-5512 (Ref. I) NR NR NR NR NR Direction P All D ZI NUREG/CR-5512 (Ref. I) NR NR NR NR NR Location of center of source: x,y,z (m) P All D 2.22,2.22,0 Site-specific model, LIP App. 6F, NR NR NR NR NR Section 2 61-4
C (C-
- NPS License Termination Plan Revision 0 Input Pinrameters for Building Occupancy DCCL Determination
- . Parameter(unit) Type' Radionuclide. Treatment" Valuecor Basis D)istribution's StatisticalParameters' Median
-- .- . .-- ~. Distribution * - -*-- - - V-- 2 . 3 4 _ _ _
Area (m) P All D 19.71 Site-specific model, LTP App. 6F. NR. NR NR NR NR
_____ _ _ ____S
_ ection_ I -_ __ _ __ _ _
Air fraction for 11.3 -- B-- - - -All -D I-NUREG/CR-6697 (Ref. 3), Atl. NR NR NR NR NR
______ _ _____ ______C .S ection &86 _ _ _ _ __ _ _ _
Arfato(fralncieexpt B - All D 0.07 NUREG/CR-6697 (Ref. 3). Att. - R R NR NR NR H-3.- - - 7C .ecqtion 8.6__ _ __ __ _ _ I__
Direct ingestion (hr') B All D . .34 E-6 NUREG/CR-5512 (Ref. 1), Vol. NR NR NR NR NR 3, Section 5.2.3 aind LTP App. 61'.
-. . ~Sectiin 3 -- -
_____________ ~~(1.IE.-04m i1h 182.03 in') _ _ _ _ _ _ _ _ _ _
Removable fraction P All D ~ 0.1 NUREG-1 727 (Ref. 6) Table CM. _.NR NR_ NR . NR NR and NUREGJ/CR-6755(Ref. 2).
_______ ______Section 3.5 '
Time for source removal (days) _YH-3 __ -D - 18240 - 25' percentile valuc'of NR. NR KNR.NR.- NR
- - - -_ __- Idistribution in NUREG/CR-6755;
__ _ _ _ _ _ _ _ _ __ _ _ __ _ _(R ef.2)
C-14 D __52777 -75" percentili value of - NR_ NR. - NR_- NR -- NR-
- - .distribution in NUREG/CR-6755'
______ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ~~~(R ef. 2 W _ _ _ _ _ _ _ _ _ _ _ _ _
- ' Fe-55 _ _ D 52777 - .75"'perccnfileval,,ebf`~ NR. R NR -- ! NR - NR-distribution in NUREG/CR-6755
_ _ __ __ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ __ _ _ _(R ef. 2)
-- - - -1 Co-60 -- -D 52777 - 75"' percentile value of NR NR NR - -NR... NR distribution i U E/R65
__________(Ref. 2) * -
_P -Ni-63 D 18240 - --. 25"'pecni vleNR -NR .- NR NR ~NR_-
- - - distribution in NUREGICR.-6755
- Sr-90 -- D *18240 - *25"'1percentile value of ..- NR. NR NR~ NR NR
- . -. distribution inNUREG/CR-6755
__ _ __ __ _ _ _ _ _ _ _ _ _ _ _ _ _ __ __ _ __ __ _ _ _ _ _(R ef.2 )_ _ _ _ _ _ _ _ _ _ _ _ _
1' Nb-94 D 52777 75 'NR NR NR. NR -NR
__ _ __ __ _ __ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _(R ef. 2) _ _ _ _ _ __ _ _ _ _ _ _
- T6-99 D 52777 75"' percentile Value of -- NR NR .- NR. _NR NR
- -* distribution in NUREG/CR-6755
-________________ ~~~~(R ef. 2)__ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _
-. ~~61-5 --
YNPS License Tennination Plan Revision 00 Revision YNPS License Termination Plan Input Parameters for Building Occupancy DCGL Determination I'arameter (unil) Type' Radionuclide Treatmentb Value or Blasis Distribution's Stalistical l'arameter' Median Distribution 1 2 3 4 P Ag-108m D 52777 751h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
__________________ ~(R et'. 2) _ _ _ _ _ _ _ _ _
r Sb-125 D 52777 75t' percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
__ _ _ ___ _ _ _ _ _ _ _ _ _ _ __ __ _ __ __ __ _ _ __ _ _ __ __ ___ _ _ __ ____ ____ ____ _ _ _(R et'. 2 ) _ _ _ _ _
P Cs.134 D 52777 75th percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _ ___ __ ___ _ _ _ _ _ _ __ _ _ _ __ _ _ _ __ _ _ _ ___(R _ _ _ ef. 2 ) _ _ _ _
P Cs-137 D 52777 75h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _ _ _ _ _ _ _ _ _ __ __ _ __ __ __ __ _ __ __ _ __(R
_ _ _ __ _ __ __ et'. 2 ) _ _ _ _ _ _ _ _
r Eu-152 D 52777 75"h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _ __ __ _ _ __ _ _ _ _ _ _ _ __ __ __ _ __ _ _ __ __ __ __ _ __ __ ____ __ _ ____ (R t'.
f_ ) _ ____ _ _ _ _ _ __R _ __2_
P Eu-154 D 52777 75'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _ __ __ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _(R et' 2 ) _ _ _ _ _ _ _ _
P Eu-355 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
Iu-238 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ret. 2)
Pu-239 D 18240 251' percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _ __ _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ __ _ _ _ _ _ _ _(R et'. 2 ) _ _ _ _
P Pu-241 D 18240 25" percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ ~(R et' 2) _ _ _ _ _ _ _ _ _ _
R nAm-241d 18240 25 pPedrcentilevalueof NR NR NR NR NR distribution in NUREG/CR-6755 (Ret' 2)
Cm-243 D 18240 25"' percentile value at' NR NRt NR NR NR distribution in NUREG/CR-6755
_ _ __ ___ __ __ __ _ _ ~(Ret'. 2) _ _ _ _ __ _ _ _
Radionuclide concentration (pCi/rm) P All D I Assumed unit concentration NR NNR NR NR 61-6
C C, YNPS License Termination Plan Revision v Revision t.,
YNPS License Termination Plan
- -. . . - ~Input Paramneteii ror Building Occupancy DCGL Determninattion -.......
Type, Radionuclide Tratent' Value or Basis Distribution's Statistical Parameters' Median Parameter (unit) ....
.2.3 .
.. Distribution .. I. 2.- 4 _
Source 2. WVest W aill_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
P All 13 Area NUREG/CR-5512 (Ref. 1) NR NR NR NR NR Type P All 1 X NUREG/CR-5512 (Ref. 1) NR NR NR. NR NR Direction P All D 0,2.22. 1.76 Site-specific model, LTP App; 61F. NR NR NR NR NR Location of center of source: x,y~z (in)
___Section ___ ____ ___ ____ 2 P All D 15.58 Site-specific model, LTP'App. 61, NR NR NR NR NR Area (m)
_______ _______ ___ ____ ___ _______ ____ ____ ___ ____ ____ ___ ____ _ ctio n__1 S ctio _ ___ __Se __I 1 All D -1.NUREG/CR-6697 (Ref. 3) Att. C, NR. . .NR - NR. NR-- NR Air fraction for 11-3 -
Section 8.6 _ _ _ _ _ _ _ _ _ _ _ _ _
B 13 0.07. NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR NR
'Air fraction (for all nuclides except .All 11.3).- . . . .. --- Section 8.6--.. -
B All 1 1.34E-6 NUREG/CR-5512 (Ref. 1)Vol. 3, NR NR NR NR NR Direct ingestion (hr')
2
___________ ~ ~ -. (l.IE-G4 m'/ i/2.03m ). _ _ _ __ _ _ _ __ _ _ _ _
P 13 0.1 NUREG-1 727 (Ref. 6) Table C7.1 NR NR NR NR NR Removable fraction .All
.~ . ~ - ~ .- - - - ., - . and NUREG/CR-6755 (Ref. 2),---------
__________________Section 3.5 -- _ __ _ __ _ _
P 11-3 13 18240 25"' percentile value of NR NR NR NR NR Time for source removal (d)
. .------ -- -distribution in NUREG/CR-6755 -
_____ ____(Ref. 2)
C-14 D3 52777 751h percentile value of NR NR NR NR NR
. -. . - -- . - . .distribution in NUREG/CR-6755 -
pI Fe-55 D3 52777 75th percentile value of NR NR NR NR NR
... ~ .. distribution in NUREG/CR-6755-
_ __ _ __ _ _ _ _ _ _ _ __ __ __ _ _ _ __ _ _ __ _ _ _ _ __ _ _ _ _ _ _(R ef. 2) - . _ _ _ _
Co-0D1 52777 75"'h percentile value of 'NJR NR NR NR NR
. - . - . - distribution in NUREG/CR-6755-
_ _ _ __ _ __ _ _ _ _ _ _ _ _ _ __ _ __ __ _ __ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ (Re f.2) _ _ _ _ _ _ _
Ni-63 D3 18240 251h percentile value of NR NR NR NR NR
- distribution in NUREG/CR-6755 -
_ __ _ _ __ _ _ _ _ __ _ _ _ _ _ _ _ __ __ _ __ __ __ __ _ __ _. (R ef.2 )_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Sr.90 D3 18240 25"' percentilevalue of NR NR NR NR NR distribution in NUJREG/CR-6755-
_ _ __ _ _ _ __ __ _ _ _ __ _ _ __ __ __ _ __ _ _ _ _ __(R_ _ ef. 2) _ _ _ _
61-7
YNPS License Termination Plan llevision O Input Parameters for Building Occupancy DCGL Determination Parameter (unit) Type' Radionuclide Trealmenib Value or Basis Distribution's Statistical Parameters' Aledian
. Distribution I 2 3 4 P Nb-94 D 52777 75th percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
.__ (Ref. 2)
P Tc-99 D 52777 75th percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Ag-l08m D 52777 75h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Sb-125 D 52777 75 1hpercentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Cs-134 D 52777 751h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Rcf. 2)
Cs-137 D 52777 75h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 I(R ef. 2) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
Eu-152 D 52777 75th percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_____________ ~~~ef.~~(R
- 2) _ _ _ _ _ _ _ _ _ _ _ _ _ _
Eu-154 D 52777 75th percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ ___ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _____ ____(R ef._2) _ _ _ _
13 Eu-155 D 18240 25th percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P I'u-238 D 18240 25t percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) .
P Pu-239 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Rcf. 2)
- 1) Pu-241 D 18240 25 percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Am-241 D 18240 25h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
___ . .(Ref. 2) 61-8
YNPS License Termination Plan C Revision U
- - .~~Input Parameters for Building Occupancy DCGL Determination. -
Parameter (unit) Type' Radionuclide Treatment t. Value or Basis Distribution'sStatisticalParameters' Median
_ _ _ __ __ __ __ __ _ __ _ _Distribution I -2 3 -. 4 _ _ _ _
Cm-243 D 18240 251b percentile Value of NR NR NR NR NR distribution in NUREGICR-6755
.(Rif.2)- - -
Radionuclide concentration (pCi/rn') P All D I Assumed unit concentration' NR NR NR NR NR Source3.;NorthW all --- . -..
Type P All D Area NUREGfCR-5512 (Ref. I) NR NR NR NR NR Direction P All D Y i NUREG/CR-5512 (Ref. I) NR NR NR NR NR Location of center of source: x,y~z (in) P All D 2.22,4.44, 1.76 ' Site-specific mnbdel, UTP Appf. 6F, NR NR NR NR- NR--
_ _ __ _ _ __ _ _ _ _ _ __ ___ _ _ __ _ __ _ _ ___ __ _S_ _ _ _ ection 2. _ _ _ _
Area (m2) . .... P All D .8 Site-speciridciiiodel, LTP App. 6F, NR NR NR NR NR SectionI Air fraction for H-3 B All D I NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR NR
____________ Section 8.6 _ _ _ _
Air fraction (for all nuclides except B All D 0.07 NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR- NR -.
1-13) I . Sectioii8.6 _____
Direct ingestion (hr')..---.-. .. Bi-l -All.. - -D -.. .1341E-6 . NUREG/CR-5512 (Ref. l)Yol. 3, NR- NR _ NR _NR NR -
Section 5.2.3 and UTP App. 61', -
Section 3
. -.-. ..- I(I. .1E-04 m'h 82.63mn) _ _ _ _
Removable fraction P All D 0.1 NUREG-1 727 (Ref. 6) Table C7.1 NRl NR NR NR NR and NUREG/CR-6755 (Ref. 2),
.. .. . . . . Section 3.5_ _ _ _ _
Time for source removal (d) P 11-3 D 18240 .2501 percentile value of NR NRl NR NR NR distribution inNUREG/CR-755
__ _ __ _ _ _ __ __ __ _ __ _ _ _ _ _ _ _(R ef,2) _ _ _ _ _ _ _
C-14 D 52777 . 7 5th percentile value of . NR NR NR NR NR distribution in NUREG/CR.6755
.__......_ _(R if. 2) _ _ _
Pe-55 D 52777 7 5 1hpercentile value of NRl I NR NR NRl NR distribution in NUREG/CR-6755
________________(R ef. 2) _ _ _ _
Co-60 D ~ 52777 751" percentile value of , NRl NR NR NRl NR
'distribution in NUJREG/CR-6755
_ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _(R ef.2) __ _ _ _ _ _ _ _ __ _ _ _
Ni-63 D -18240 25S01percentile value of NR NR - NRl NR NR
- .' - distribution in NUREG/CR-6755
____ _ __ __ __ _ _ __ ___ __ _ __ _ _ _ ____ __ __ _ _ _ __ _ __ _ _ __ __ _ __ _ _ _ _ __ _ _ _ ( ef. ) __ __ _ __ _ __ _ _ _ ___ _ __ _ __ _ __ _ _ __2_
I- ..- 1 . ~- - .61-9 . I - . .
i " - . i ,: I ,
YNPS License Tennination Plan Revision 0 YNPS License Teniiination Plan Revision 0 Input Parameters for Building Occupancy DCGL Determination Parameter (unit) Type' Radionuclide Ireatinen lb Value or Basis Distribution's Statistical Parametersc l edian Distribution I 2 3 4 P Sr-90 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) .
P Nb-94 D 52777 75"h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) _
Tc-99 D 52777 75"h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) _
r Ag-108m D 52777 751h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
Sb-125 D 52777 75"h percentile value of NK NR NR NR NR distribution in NUREG/CR-6755 (Rcf. 2)
P Cs-134 D 52777 75"' percentilc value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) _
Cs-137 D 52777 75"' percentile value of NR NR NR NR NR distribution in NUREGICR-6755 (Rcf. 2)
P Eu-152 D 52777 75"' percentile value of NR NR NR NR NR -
distribution in NUREG/CR-6755 (Ref. 2)
P Eu.154 D 52777 75"h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _ _ __ _ __ __ _ ___ _ __ __ _ _ _ _ _ _ _ _ _ _ _ __ __ __ ___ _ _ _ _ _(R ef. 2 ) _ _ _ _
1P Eu-155 D 18240 25 1hpercentile value of NR NR NK NR NK distribution in NUREG/CR-6755 P Pu-238 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
- 1) Pu-239 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Rcf. 2) .
P Pu-241 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ __ __ __ _ _ _ _ _ _ _ _ _ _ _ ___ _ __ _ __ __ __ _ _ _ __ __ __ _ _ _ __ ___ _ _ __ _ _ _( Ref_2)_ __ _ ___ __ __ _ _ _ _ __ _ __ _ __R_ _f._ __2_
61-10
LiMS License Termination Plan C Revision U
. : ... . Input Parameters for Building Occupancy DCGL Determination .m... .
Parameter (unit) Type' Radionuclide Treatment' Value or Basis Distribution's Statistical Parameters' Msfedian
___-_-_-_-_-_-_ _ -- Distribution .. I - 2 3 4 P Am-241 D 18240 25thpercentilevalueof NR NR , NR NR NR distribution in NUREG/CR-6755
_ _ *---- (Ref. 2).--- - . _ . ._
P Cm-243 D 18240 . 25t'percentilevalueof NR NR NR NR NR distribution in NUREG/CR-6755
__' _ _ '_'_' . .' _ ' -- '_ - --(Ref.2)- -- _ .
Radionuclide concentration (pCi/m') P All D I . Assumed unit concentration, NR NR NR NR NR Source 4. East W all : . ' ._ _ ' '_._._.
Type P All D Area NUREG/CR-5512 (Ref. 1) NR NR NR NR NR Direction ! P ' All. D X NUREG/CR-5512 (Ref. 1) NR NR NR NR NR Location of center of source: x,yz (m) -- - - All - D 4.44, 2.22. 1.76 ' Site-specific model, LTP App. 6F, NR ' NR NR NR NR
-, .. Section_22 Area (m2) P All D 15.58 Site-specific model, LTP App. 6F, NR NR NR NR NR
.. ~.Sectionl___ ___
Air fraction for 11-3 B All D I NUREG/CR-6697 (Ref. 3), Att. NR NR NR NR NR
. \ --.. C,. Section
^ 8.6: -_ * ., . .
Air fraction (for all nuclides except' - - 'B "'~All -- D 0.07 NUREG/CR-6697 (Ref. 3), Att. NR NR NR NR NR H-3) " ' C. Section 8.6 - .
Direct ingestion (hf') . B All D 1.34E-6 NUREG/CR-5512 (Ref. 1), NR. *__NR NR - NR NR_.
Section 5.2.3 and LTP App. 6F, Section 3
- . . (I.IE-04rnh/h 82.03m 2)
Removable fraction All D 0.1 NUREG-1727 (Ref. 6) Table C7.1 NR NR NR NR NR and NUREG/CR-6755 (Ref. 2),
_*_ _" Section_3.5 ,. .
Time for source removal (d) P H-3 D 18240 251k percentile value of NR NR NR NR NR distribution inNUREG/CR-6755
. .___.,__ _'_ _'(Ref. 2) ' _
= C-14 52777 75 h percentile value of NR NR NR NR NR distribution inNUREG/CR-6755
.___.__ ___ _'__' ,_ (R ef. 2) ' '_,
Fe-55 D 52777 751h percentile value of NR NR NR NR NR distribution inNUREG/CR-6755
.__ __ .__,_;,_:' (Ref. 2)
Co-6 D 52777 751hpercentile value of NR NR NR.. . NR NR distribution inNUREG/CR-6755
. . .(Ref. 2) 61.1.
-- 6 1 -li ...
YNPS License Termination Plan Revision 0 Input Parameters for Building Occupancy DCGL Determination P'arameter (unit) Type Radionuclide Treatmlentb Value or Basis Distribution's Statistical l'aram eters' Median
_ Distribution I 2 3 4 P Ni-63 D 18240 25"' percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Sr-90 D 18240 25"' percentile value of NR NRN Ni Ng NR distribution in NUREG/CR-6755 (Ref. 2) _
P Nb-94 D 52777 75"h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
Tc-99 D 52777 75"' percentile value of NK NR NR NR NR distribution in NUREG/CRb6755 (Ref. 2)
Ag-108m D 52777 751h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
__ __ _ __ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ __ _ __ __ _ _ _ _ _ _ _(R ef. 2 ) _ _ _ _ _ _ _ _ _
Sb-125 D 52777 751h percentile value of NR NR NK NR NR distribution in NUREG/CR-6755
_ _ _ __ _ ____ _ _ _ _ _ _ _ _ __ __ _ __ _ __ _ __ _ _ __(R
_ ef. 2) _ _ _ _ _ _ _ _ _
Cs-134 D 52777 75"h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) _
P Cs-137 D 52777 75"h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) .
P Eu-152 D 52777 75h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Eu-154 D 52777 75Ch percentile value ofR R NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Eu-155 D 18240 25"' percentile value of NR NK NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P Pu-238 D 18240 25h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ (Ref. 2) _ 1
- 1) Pu-239 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref._2) _
61-12 C.
L YNPS License Terrnination Plan C Revision C ti Input Parameters for Building Occupancy DCGL Determination - -- -
Parameter (unit) Type' Radionuclide Treatment" Value or Basis Distribution's Statistical Parameters' Mledian
,. Distribution I 2 3 4 Pu-241 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
--_-_-_(Ref.2) .
Am-241 D 18240 25'hpercentilevalueof NR NR NR NR NR distribution in NUREG/CR-6755
. .R )
-_-(Ref.2)_-_. _ _-_
P Cm-243 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _____.___. _ _. _ ~(Ref. 2)-- _ -.
Radionuclide concentration (pCi/m )
2 P All D I Assumed unit concentration NR NR NR NR NR Source 5. South Wall .___.__
Type P All D Area NUREG/CR-5512 (Ref. I) NR NR NR NR NR Direction P All D Y NUREG/CR-5512 (Ref. I) NR NR NR NR NR Location ofcenterofsource: x,y,i (m) P ---All D 2.22,0,1.76 Site-sp.cifi modelLTP App. 61, NR NR - NR
- NR NR-
_______ ___ __________Sectio n2 _ _ _ _
Area (m2) P All D 15.58 Site-specific model; LTP App. 6F, NR NR NR NR NR
- -~ -* -* -Sectioni I'__ _
Air fraction for H-3 B All D I NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR NR
_ _ _ _ _ __ _Section 8.6 . _ .
Air fraction (for all nuclides except B All D 0.07 NUREG/CR-6697 (Ref. 3) Att. C, NR NR NR NR NR H-3) Section 8.6 _
Direct ingestion (hrf) B All D 1.34E-6 NUREG/CR-5512 (Ref. 1), NR NR NR NR NR Section 5.2.3 and LTP App. 6F, Section 3
.______ . (l.IE.04mn/h/ 82.03m 2 ) _ . .
Removable fraction P All D 0.1 NUREG-1727 (Ref. 6) Table C7.1 NR NR NR NR NR and NUREG/CR-6755 (Ref. 2),
Section 3.5
- _
Time for source removal (d) P 11-3 D 18240 25"' percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
P C-14 D 52777 751h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
__ _ _ _ __ __ _ __ __ __ _ _ _ _ _ _ _ _ (R ef. 2 )_ _ _ _ _ _ _ _ __ _ _ _
P Fe-55 D 52777 75 percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) 61-13
YNPS License Termination Plan Revision O Revision 0 YNPS License Termination Plan Input Parameters for Building Occupancy DCCL Determination Parameter (unit) Type' Radionuclide Treatment? Value or Basis I)istribulion's Statistical Param eters' Median Distribution I 2 3 4 Co-60 D 52777 75h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
Ni-63 D 18240 25 h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
._ (Ref. 2)
Sr-90 D 18240 25h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
_ _ __ _ ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _(R ef 2 ) _ _ _ _ _ _ _ _
. Nb-94 D 52777 7Sh percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) 1 __I P Tc-99 D 52777 75" percentile valuecof NR NR NR NR NR distribution in NUREG/CR-6755
_ __ __ _ __ _ _ _ _ _ _ _ _ __ _ __ _ _ __ __ _ __ _ _ __ _ _ __ _ _ _ _ _(R ef. 2 )_ _ _ _
Ag-108m D 52777 75" percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
Sb-125 D 52777 75h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
.(Ref. 2)
. Cs.134 D 52777 751 percentile value of - NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2)
. Cs-137 D 52777 75"' percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
. _ _ _ _ __ __ (Ref. 2)
P Eu-152 D 75' percentile value of NR NR NR NR NR 52777 distribution in NUREGICR-6755
_ (Ref. 2)
Eu 154 D 52777 75"' percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 I_(Ref. 2) .
P Eu.155 D 18240 25" percentile value of NR NR NR NR NR distribution in NUREG/CR.6755
___________ (R ef.2) _ _ _ _
Pu-238 D 18240 25"' percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
._ (Ref. 2) 61-14 C-
YNPS License Termination Plan
( Revision t Input Parameters for Building Occupancy DCGL Determination Type' Radionuclide Treatment' Value or Basis Distribution's Statistical Parameters' Median Parameter (unit)
Distribution 1 2 3 4 P Pu-239 D 18240 251hpercentile value of NR NR NR NR NR distribution in NUREG/CR-6755
__ _ _ __ _ _ _ _ _ __ __ __ _ __ _ _ _ _ _ __ _ __ __ _(R
_ ef. 2)
P Pu-241 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755
__ _ _ __ __ _ _ _ _ _ _ _ ___ _ ___ __ _ _ __ __ _ _ __ _ _ __ __ _ _ _ _(R ef. 2 )
P Am-241 D 18240 25" percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 (Ref. 2) _ _ _ _ _ _ _ _
Cm-243 D 18240 25'h percentile value of NR NR NR NR NR distribution in NUREG/CR-6755 eoncentration_
Radionuclide______ All _ D (Ref._2)
Assumed unitconeentrationNRNRNRNR 2 Assumed unit concentration NR NR NNR NR Radionuclide concentration (pCi/in ) P All DI Notes:
a P = physical, B = behavioral, M = metabolic (NUREG/CR-6697 (Ref. 3) Att. B, Table 4.3) bD deterministic, S = stochastic Statistical Parameters Loguniform i1 minimumn, 2 = maximum NR =-Not Required Input Correlations (used only if both input parameters use distributions): resuspension rate and deposition velocity = 0.9 Run Specifications: .
Random seed = 1000 Number of Observations = 300 Number of Repetitions =I Dose Integrations = 5 61-15
YNPS License Tennination Plan Revision 0 YNPS License Termination Plan Revision 0
References:
- 1. NUREG/CR-5512, "Residual Radioactive Contamination from Decommissioning," Volume 3: "Parameter Analysis, Draft Report for Comment," October 1999 (SAND99-2148).
- 2. NUREG/CR-6755, "Technical Basis for Calculating Radiation Doses for the Building Occupancy Scenario Using the Probabilistic RESRAD-BUILD 3.0 Code," February. 2002 (AN UEAD/TM/02-1).
- 3. NUREG/CR-6697, "Development of Probabilistic RESRAD 6.0 and RESRAD-BUILD 3.0 Computer Codes," November 2000, (ANL/EAD/TM-98).
- 4. Eckerman, K.F., et al, "External Exposure to Radionuclides In Air, Water, And Soil," EPA 402-R-93-081, Federal Guidance Report No. 12 (FGR-12),
U.S. EPA, 1993.
- 5. Eckerman, K.F., et al., "Limiting Values of Radionuclide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion, and Ingestion," EPA-520/1-88-020, Federal Guidance Report No. II (FGR-I 1), U.S. EPA, 1988.
- 6. NUREG-1727, "NMSS Decommissioning Standard Review Plan," September2000.
61-16
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YNPS License Terrnination Plan . . Revision O If .
- Appcndix 6J -
Building SuFface Area DCGL Rcsults i
I t
.: 6J-1
YNPS License Termination Plan Revision O Building Surface DCGL Results Nuclide Dose Conversion Factor (DCF) DCGL DCGL (mrem/yr per pCi/m2 ) (pCVm 2) (dpm/lOOcM 2 )
H-3 1.6E-09 1.SE+10 3.4E+08 C-14 5.4E-08 4.6E+08 1.OE+07 Fe-55 1.4E-08 1.8E+09 4.0E+07 Co-60 3.1 E-05 8.1 E+05 1.8E+04 Ni-63 1.5E-08 1.7E+09 3.7E+07 Sr-90 4.0E-06 6.3E+06 1.4E+05 Nb-94 2.1 E-05 1.2E+06 2.6E+04 Tc-99 3.9E-08 6.5E+08 1.4E+07 Ag-108m 2.2E-05 1.IE+06 2.5E+04 Sb- 125 5.SE-06 4.5E+06 I.OE+05 Cs-134 1.9E-05 1.3E+06 2.9E+04 Cs-137 8.8E-06 2.8E+06 6.3E+04 Eu-152 1.5E-05 1.7E+06 3.7E+04 Eu-154 1.6E-05 1.6E+06 3.4E+04 Eu-155 8.5E-07 2.9E+07 6.5E+05 Pu-238 9.7E-05 2.6E+05 5.7E+03 Pu-239 1.1 E-04 2.3E+05 5.1 E+03 Pu-241 2.3E-06 1.IE+07 2.5E+05 Am-241 1.I E-04 2.2E+05 5.OE+03 Cm-243 7.7E-05 3.2E+05 7.2E+03 J
YNPS YNP License Lies Termination Temnto Plan Revision 0 lnRvso
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1 - , . . : -'.' , . 'j: j I
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. ,-. j He Appendix 6K Input Parametcr-Valucs for Arca Factors, Soil
.. 1.
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- 1.- .' ' .... ....
- - L.' ;' ':; - :' . . ..
.1YNPS License Termination Plan Revision 00 YNPS License Termination Plan Revision
- 1. General Information The input parameters for the soil area factor calculations are, in general, the same as those in LTP Appendix 6D. Areas of difference in input parameter values are highlighted in the sections to follow.
- 2. Conceptual Model, Scenario, and Dose Pathways The resident farmer scenario, as described in Volume I of NUREG/CR-55 12 (Ref. 1), assumes a reasonably conservative scenario for establishing DCGL values for residual radioactivity in soil.
The same scenario is assumed for the area factor (AF) calculations.
The conceptual model used in the code is based on the site characteristics expected at the time of release of the site. The model is comprised of a contaminated zone underlain by an unsaturated zone underlain by a saturated zone. The contaminated zone is assumed to be at the ground surface with no cover material and the ground water is initially uncontaminated.
The potential exposure pathways that apply to the resident farmer are listed below and are based upon those in NUREG/CR-55 12, Volume 1:
- Direct exposure to external radiation from residual radioactivity;
- Internal dose from inhalation of airborne radionuclides; and
- Internal dose from ingestion of
- Plant foods grown in media containing residual radioactivity and irrigated with water containing residual radioactivity, -
- Meat and milk from livestock fed with fodder grown in soil containing residual radioactivity and water containing residual radioactivity,
- Drinking water (containing residual radioactivity) from a well,
- Fish from a pond containing residual radioactivity, and
- Soil containing residual radioactivity.
- 3. 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.
The variation in the contaminated fraction of plant food ingested, with the variation in the size of the contaminated area, is described by Equation D.5 of the RESRAD User Manual (Ref. 2):
FPLANT = A/2000, when A <1000 m2 FPLANT = 0.5, when A > 1000 m2 6K-2
YNPS License Termination Plan Revision 0 However, the assumption used in calculating soil DCGLs is that 100% of the plant food consumed is grown in the contaminated area (equivalent to a contaminated fraction = 1.0), when the size of the contaminated area is 13,022 m2 . Thus, Equation D.5 of the RESRAD User Manual has been adjusted, as follows, to match that assumption, and this adjusted relationship is used in the calculation of area factors:
- FPLANT= A/1000, when A:< 1000 n2 FPLANT = 1.0, when A > I 000 m2 The variation in 'the contaminated fraction of meat and milk ingested, with the variation in the, size of the contaminated area, is ailso'described 'by Equation D.5 of the RESRAD User Manual (Ref.;2): ;
FA - A/20000, when A < 20000 m2 FA= 1.0, when A > 20000 m2 Where FA = FMEAT or FMILK
--Again the assumption used in calculating soil DCGLs is that 100% of the meat food and milk' consumed are grown in the contaminated area-(equivalent to a'conitariiinated fraction 1.0 for'
-meat and milk), when the size of the contaminated area is 13,022 M2 . Equation-D.5 of the RESRAD User Manual has been adjusted, as'follows, to match that assumption, and this adjusted relationship is used in the calculation'ofarea'factors: -
FA = A/13,022 A < 13022 mi2 FA= I A = 13022 m2 Where FA FMEAT or FMILK Table I shows the values for FPLANT, FMEAT, and FMILK as a function of tle size of the contaminated zone.
- 4. Contaminated Fraction - Water Pathways Unlike the contaminated fractions of food described above, the contaminated fractions for drinking water (FDW), livestock water (FLW), irrigation water (FIRW), and aquatic food (FR9) are assumed not to decrease as the size of the contaminated zone decreases. Setting the values for these input parameters to 1.0 maintains the assumption that all water used by the resident farmer comes from a well on site, regardless of the siie'of the contaminilated area;
- 5. Size of the Contaminated Zone Another 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 decreases, the value of LCZPAQ will also decrease. As the contaminated zone is assumed to be circular, the value for LCZPAQ is equal to the diameter of the circle:
LCZPAQm)= 2 m 6K-3
YNPS License Tennination Plan Revision 0 YNPS License Termination Plan Revision 0 Table I showvs the values for LCZPAQ as a function of the size of the contaminated zone.
j Table 1 Contaminated Fractions Versus Size of Contaminated Zone RESRAD Parameter Input Value Contaminated Zone Area (mi) 13022 11500 10000 7500 5000 2500 1000 LCZPAQ(m) 129 121 113 98 80 56 36 FPLANT 1.OE+0O I.OE+00 I.OE+OO I.OE+O0 I.OE+00 I.OE+0O 1.OE+00 FMEAT 1.OE+00 8.8E-01 7.7E-01 5.8E-01 3.8E-01 1.9E-01 7.7E-02 FMILK Il.OE+00 8.8E-01 7.7E-01 5.8E-01 3.8E-01 1.9E-01 7.7E-02 Contaminated Zone Area (m2 ) 750 500 250 100 75 50 25 LCZPAQ(m) 31 25 18 1 9.8 8.0 5.6 FPLANT 7.5E-01 5.OE-01 2.5E-01 .OE-O1 7.5 E-02 5.0E-02 2.5E-02 FMEAT 5.8E-02 3.8E-02 I.9E-02 7.7E-03 5.8E-03 3.8E-03 1.9E-03 FMILK 5.8E-02 3.8E-02 1.9E-02 7.7E-03 5.8E-03 3.8E-03 1.9E-03 Contaminated Zone Area (MI) 10 8 6 4 2 1_
LCZPAQ (m) 3.6 3.2 2.8 2.3 1.6 1.1 -
FPLANT 1.OE-02 8.01E-03 6.0E-03 4.0E-03 2.0E-03 I.OE-03 _
FMEAT 7.7E-04 16.1 E-04 4.6E-04 3.1 E-04 1.51E-04 7.7E-05 _
FMILK 7.7E-04 6.1 E-04 4.6E-04 3.1E-04 1.5E-04 7.7E-05 -
- 6. Year of Maximum Dose 'J The year in which the maximum dose occurs may vary depending on the nuclide. The concentration delivering the maximum dose is selected for the basis of the AF without regard to year of occurrence.
- 7. Initial Concentration An initial soil concentration of I pCi/g is assumed for each nuclide.
References:
- 1. NUREG/CR-5512, "Residual Radioactive Contamination From Decommissioning," Volume 1: "Technical Basis for Translating Contamination Levels to Annual TEDE," October 1992.
- 2. Yu, C. et al., "Users Manual for RESRAD Version 6," ANL/EAD-4, July 2001.
YNPS License Termination Plan YstRevision 0
- , .. i ;.
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- , ' . ; is, -. ' A.: : ., '
, Appendix 6L Area Factors for Soil
-. 9
- . I
- !,6L-I
YNPS License Tennination Plan Revision 0 Area Factors for Soil Area ofSource (m7)
Nuclide 13022 11500 10000 7500 5000 2500 1000 7.50 500 250 11-3 I.OE+00 1.I.E+00 1. IE+00 1.3E+00 1.5E+00 1.8E+00 2.0E+00 2.7E+00 4.OE+00 8.OE+00 C-14 1.02+00 1.6E+00 1.3E+00 1.6l+00 2.3E+00 3.7E+00 6.4E+00 9.7E+00 1.7E+01 4.5E+01 Fe-55 I.OE+00 1.1E+00 1.3E+00 1.6E+00 2.2E+00 3.4E+00 5.2E+00 7.0E+00 1.1E+01 2.1E+01 Co-60 I.OE+00 I.OE+0O I.OE+00 I.OE+00 1.1 E+00 1. IE+00 1.1 E+00 1.2E+00 1.2E+00 1.3E+00 Ni-63 I.OE+00 1.1 E+00 1.2E+00 1.5E+00 2.0E+00 2.8E+00 3.8E+00 5.1 E+00 7.7E+00 1.5E+0I Sr-90 I.OE+00 I.OE+00 1.IE+00 1.IE+00 1.2E+00 1.3E+00 1.4E+00 1.8E+00 2.7E+00 5.4E+00 Nb-94 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1. IE+00 I.IE+00 1.IE+00 1.1 E+00 Tc-99 I.OE+00 I.OE+00 I.OE+00 1.1 E+00 I.I E+00 1. IE+00 I. IE+00 1.5E+00 2.3E+00 4.5E+00 Ag-108m I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.1 E+00 1.IE+00 1.1 E+00 1.1 E+00 Sb-125 I.OE+00 I.OE+00 I.OE+00 I.OE+OO I.OE+00 I.OE+OO 1.1 E+00 1.1 E+00 1.1 E+00 1.1 E+00 Cs-134 I.OE+00 1.OE+00 1.1 E+00 1.2E+00 1.3E+00 1.4E+00 1.5E+00 1.6E+00 1.7E+00 1.8E+00 Cs-137 I.OE+00 1.1 E+00 1.1 E+00 1.2E+00 1.4E+00 1.6E+00 1.7E+00 1.9E+00 2.1 E+00 2.4E+00 Eu-152 I .OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.1 E+00 I.I E+00 I.IE+00 1.1 E+00 Eu- 154 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.1 E+00 1.1 E+00 1.1E+00 1.1 E+00 Eu-155 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I IE+00 1.1 E+00 1.1E+00 1.1 E+00 Pu-238 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.4E+00 2.0E+00 4.0E+00 Pu239 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.4E+00 2.0E+00 4.0E+00 Pu241 I .OE+00 I.OE+00 I.OE+00 1.02+00 I.OE+00 I.OE+00 I.OE+00 1.3E+00 2.0E+00 3.8E+00 Am-241 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+OO 1.OE+00 1.3E+00 2.0E+00 3.8E+00 Cm-243 I.OE+00 I.OE+00 I.OE+OO I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.2E+00 1.6E+00 2.3E+00
___ _ Area o Source (m2)
Nuclide 100 75 50 25 10 8 6 4 2 1 H-3 2.0E+01 2.6E+01 3.9E+01 7.5E+01 1.8E+02 2.2E+02 2.9E+02 4.2E+02 8.0E+02 1.5E+03 C-14 1.5E+02 2.2E+02 3.7E+02 8.6E+02 2.4E+03 3.1 E+03 4.1 E+03 6.0E+03 1.2E+04 2.4E+04 Fe-55 5.2E+01 7.0E+01 I.OE+02 2.1 E+02 5.2E+02 6.5E+02 8.5E+02 1.3 E+03 2.5E+03 4.7E+03 Co-60 1.4E+00 1.4E+00 1.5E+00 1.8E+00 2.4E+00 2.7E+00 3.2E+00 4.1 E+00 6.5E+00 1.1E+01 Ni-63 3.8E+01 5.1 E+O I 7.7E+01 1.5E+02 3.8E+02 4.8E+02 6.4E+02 9.5E+02 1.9E+03 3.8E+03 Sr-90 1.4E+01 1.8E+01 2.7E+01 5.4E+01 1.3E+02 1.6E+02 2.2E+02 3.2E+02 6.4E+02 1.3E+03 Nb-94 1.2E+00 1.2E+00 1.3 E+00 1.5E+00 2.0E+00 2.3E+00 2.8E+00 3.5E+00 5.5E+00 9.3E+00 Tc-99 1.1E+01 1.5E+01 2.3E+01 4.5E+01 1.1 E+02 1.4E+02 1.9E+02 2.8E+02 5.6E+02 1.1E+03 Ag-108m 1.2E+00 1.2E+00 1.3E+00 1.5E+00 2.0E+00 23E+00 2.7E+00 3.5E+00 5.5 E+00 9.2E+00 Sb-125 1.2E+00 1.2E+00 1.3E+00 1.5E+00 2.0E+00 2.3E+00 2.7E+00 3.5E+00 5.4E+00 9.1 E+00 Cs-134 2.0E+00 2.1 E+00 2.3E+00 2.7E+00 3.6E+00 4.0E+00 4.8E+00 6.1 E+00 9.7E+00 1.6E+01 Cs-137 2.8E+00 2.9E+00 3.1 E+00 3.7E+00 4.9E+00 5.6E+00 6.6E+00 8.5E+00 1.3E+01 2.2E+01 Eu-152 1.2E+00 1.2E+00 1.3E+00 1.5E+00 2.1 E+00 2.3E+00 2.8E+00 3.5E+00 5.6E+00 9.4E+00 Eu-154 1.2E+00 1.3E+00 1.3E+00 1.5E+00 2.1 E+00 2.4E+00 2.8E+00 3.6E+00 5.6E+00 9.6E+00 Eu-155 1.2E+00 1.2E+00 1.3E+00 1.5E+00 1.9E+00 2.2E+00 2.6E+00 3.2E+00 5.0E+00 8.0E+00 Pu-238 9.7E+00 1.3E+01 1.9E+01 3.4E+01 7.2E+01 8.4E+01 I.OE+02 1.3E+02 1.8E+02 2.4E+02 Pu239 9.7E+00 123E+01 1.9E+01 3.4E+01 7.2E+01 8.4 E+O I I.OE+02 1.3E+02 1.8E+02 2.4E+02 Pu241 8.7E+00 1.1E+01 1.5E+01 2.5E+01 4.5E+01 5.2E+01 6.3E+01 8.0E+01 1.2E+02 1.6E+02 Am-241 8.7E+00 1.1E+01 1.5E+01 2.5E+01 4.5E+01 5.2E+01 6.2E+01 7.9E+01 1.2E+02 1.6E+02 Cm-243 3.3E+00 3.6E+00 4.0E+00 4.9E+00 6.8E+00 7.7E+00 9.1 E+00 1.2E+01 1.8E+01 3.0E+OI 6L-2
YNPS License Termination Plan Revision 0 YNPS License Termination Plan Revision 0
,I -
. .1 I. . ' .
Appendix 6M Input Parameter Values for Area Factors, Building Occupancy 6M-l
YNPS License Termination Plan Revision 0
- 1. Changes to Input Parameter Set for Building Occupancy DCGLs.
In calculating area factors (AF) for building surfaces, RESRAD-BUILD (v 3.21) was used with the building occupancy scenario to determine the annual dose from I pCi/m2 for various size sources. A modification of the input assumptions, used for calculating building occupancy DCGLs, was made to consider that only the specified area of the floor as contaminated. The size of this contaminated area is varied from the value of the entire floor surface area (19.7 m2 ) to a value of I M2 . In calculating the AFs, the contamination of the entire floor is considered as the base case and a specific derived concentration guideline is defined. This specific DCGL is designated DCGLWI to differentiate it from the DCGLW determined for the entire room.
The remaining parameters are those described in LTP Appendix 6G.
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Appendix 6N
- Area Factors for Building Surface Arcas 6N-I
YNPS License Ten~nination Plan Revision 0 YNPS License Termination Plan Revision 0 Area Factors for Building Surfaces Nucide Area of Source (m) 19.7 15 12 10 8 6 4 2 1 H-3 I 1.0 1.3 1.6 2.0 2.5 3.3 4.9 9.9 19.7 C-14 1.0 1.3 1.6 2.0 2.4 3.3 4.9 9.7 19.4 Fe-55 1.0 1.3 1.6 2.0 2.5 3.3 4.9 9.9 19.7 Co-60 1.0 1.1 1.3 1.4 1.6 1.9 2.4 4.1 7.3 Ni-63 1.0 1.3 1.6 2.0 2.5 3.3 4.9 9.9 19.7 Sr-90 1.0 1.3 1.6 1.9 2.4 3.2 4.8 9.4 18.6 Nb-94 1.0 1.1 1.3 1.4 1.6 1.9 2.4 4.0 7.2 Tc-99 1.0 1.3 1.6 1.9 2.4 3.2 4.7 9.2 18.2 Ag-108m 1.0 1.1 1.3 1.4 1.6 1.9 2.4 4.0 7.2 Sb-125 1.0 1.1 1.3 1.4 1.6 1.9 2.4 4.1 7.2 Cs-134 1.0 1.1 1.3 1.4 1.6 1.9 2.5 4.2 7.4 Cs-137 1.0 1.1 1.3 1.4 1.6 1.9 2.5 4.2 7.6 Eu-152 1.0 1.1 1.3 1.4 1.6 1.9 2.4 4.0 7.2 Eu-154 1.0 1.1 1.3 1.4 1.6 1.9 2.4 4.0 7.2 Eu-155 1.0 1.1 1.3 1.4 1.6 1.9 2.5 4.1 7.4 Pu-238 1.0 1.3 1.6 2.0 2.5 3.3 4.9 9.9 19.7 Pu-239 1.0 1.3 1.6 2.0 2.5 3.3 4.9 9.8 19.8 J.
Pu-241 1.0 1.3 1.6 2.0 2.5 3.3 4.9 9.8 19.5 Am-241 1.0 1.3 1.6 2.0 2.4 3.3 4.9 9.7 19.5 Cm-243 1.0 1.3 1.6 1.9 2.4 3.2 4.7 9.3 18.5 U