ML042680151

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Calculation for Contaminated Concrete for the License Termination Plan (Ltp)
ML042680151
Person / Time
Site: Yankee Rowe
Issue date: 07/31/2004
From:
Yankee Atomic Electric Co
To:
NRC/FSME
References
-RFPFR
Download: ML042680151 (63)
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Text

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/31/2004 20:27 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Ag108m-concrete.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/31/2004 20:27 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Ag108m-concrete.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) UNIFORM 3000 10000 16 BRTF(47,1) UNIFORM 3.06E-6 .0000263 17 BRTF(47,2) TRUNCATED LOGNORMAL-N -6.21 .7 .001 .999 18 BRTF(47,3) TRUNCATED LOGNORMAL-N -5.12 .7 .001 .999 19 BBIO(47,1) LOGNORMAL-N 1.6 1.1

1 RESRAD Regression and Correlation output 07/31/04 20:29 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Ag108m-concrete.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 16 0.01 16 0.00 12 0.01 14 0.00 External gamma shielding factor 1 1.00 1 1.00 1 1.00 1 1.00 Depth of soil mixing layer 9 0.04 12 0.00 17 0.00 18 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 8 -0.06 11 0.00 9 0.02 9 0.00 Wet foliar interception fraction of leafy vegetables 6 0.07 9 0.00 14 0.00 16 0.00 Weathering removal constant of all vegetation 4 -0.62 5 0.00 10 -0.01 12 0.00 Density of contaminated zone 13 0.01 8 0.00 6 0.03 5 0.00 Contaminated zone total porosity 15 0.01 10 0.00 5 0.04 4 0.00 Contaminated zone hydraulic conductivity 11 -0.02 14 0.00 13 0.00 15 0.00 Contaminated zone b parameter 10 -0.03 13 0.00 15 0.00 17 0.00 Evapotranspiration coefficient 18 0.00 17 0.00 18 0.00 11 0.00 Depth of roots 14 -0.01 15 0.00 8 -0.02 8 0.00 Mass loading for inhalation 19 0.00 19 0.00 19 0.00 19 0.00 Irrigation 7 0.07 6 0.00 16 0.00 10 0.00 Kd of Ag-108m in Contaminated Zone 5 -0.24 4 0.00 7 0.03 6 0.00 Plant transfer factor for Ag 12 0.01 7 0.00 4 0.04 3 0.00 Meat transfer factor for Ag 3 0.90 3 0.00 3 0.11 7 0.00 Milk transfer factor for Ag 2 1.00 2 0.01 2 0.72 2 0.01 Fish transfer factor for Ag 17 0.01 18 0.00 11 0.01 13 0.00 R-SQUARE 1.00 1.00 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 19:16 Page 1 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Am-

-241 File: Am-241-concrete_SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 19:16 Page 2 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Am-

-241 File: Am-241-concrete_SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(3) LOGUNIFORM 500 5000 16 DCACTC(4) LOGNORMAL-N 4.99 2.37 17 BRTF(95,1) LOGUNIFORM .0000106 .00331 18 BRTF(95,2) TRUNCATED LOGNORMAL-N -9.9 .2 .001 .999 19 BRTF(93,1) LOGUNIFORM .0000106 .0114 20 BRTF(90,1) LOGUNIFORM .0000106 .000644 21 BRTF(92,1) LOGNORMAL-N -5.17 4.23 22 DCACTC(1) LOGUNIFORM 200 5000 23 BRTF(93,2) TRUNCATED LOGNORMAL-N -6.91 .7 .001 .999 24 BRTF(90,2) TRUNCATED LOGNORMAL-N -9.21 1 .001 .999 25 BRTF(92,2) TRUNCATED LOGNORMAL-N -7.13 .7 .001 .999 26 BRTF(95,3) TRUNCATED LOGNORMAL-N -13.12 .7 .001 .999 27 BRTF(93,3) TRUNCATED LOGNORMAL-N -11.51 .7 .001 .999 28 BRTF(90,3) TRUNCATED LOGNORMAL-N -12.21 .9 .001 .999 29 BRTF(92,3) TRUNCATED LOGNORMAL-N -7.82 .6 .001 .999 30 BBIO(95,1) LOGNORMAL-N 3.4 1.1 31 BBIO(93,1) LOGNORMAL-N 3.4 1.1 32 BBIO(90,1) LOGNORMAL-N 4.6 1.1 33 BBIO(92,1) LOGNORMAL-N 2.3 1.1 34 DCACTC(2) LOGUNIFORM 100 5000

1 RESRAD Regression and Correlation output 07/23/04 03:12 Page: Coef 1 Title  : YR submerged concrete- Sensitivity analysis, Am-241 Input File : Am-241-concrete_SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 11 0.02 11 0.00 8 0.10 14 0.00 External gamma shielding factor 23 0.01 24 0.00 9 0.09 16 0.00 Depth of soil mixing layer 26 0.01 27 0.00 14 0.04 22 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 5 -0.13 7 -0.03 4 -0.56 6 -0.03 Wet foliar interception fraction of leafy vegetables 4 0.18 6 0.04 3 0.60 5 0.03 Weathering removal constant of all vegetation 3 -0.37 4 -0.08 2 -0.87 3 -0.07 Density of contaminated zone 34 0.00 30 0.00 21 -0.02 10 -0.01 Contaminated zone total porosity 30 0.00 16 0.00 25 -0.02 13 0.00 Contaminated zone hydraulic conductivity 21 0.01 22 0.00 10 -0.05 18 0.00 Contaminated zone b parameter 32 0.00 33 0.00 23 0.02 28 0.00 Evapotranspiration coefficient 10 -0.03 5 -0.04 19 -0.02 8 -0.01 Depth of roots 17 0.01 19 0.00 17 0.03 25 0.00 Mass loading for inhalation 28 0.00 31 0.00 12 0.05 20 0.00 Irrigation 7 0.06 3 0.08 7 0.15 4 0.04 Kd of Th-229 in Contaminated Zone 29 0.00 29 0.00 33 0.00 26 0.00 Kd of U-233 in Contaminated Zone 19 -0.01 20 0.00 24 0.02 12 0.00 Plant transfer factor for Am 1 0.96 1 0.83 5 0.26 2 0.07 Meat transfer factor for Am 31 0.00 32 0.00 13 0.04 21 0.00 Plant transfer factor for Np 15 0.02 14 0.00 22 0.02 11 0.00 Plant transfer factor for Th 18 0.01 17 0.00 27 -0.01 17 0.00 Plant transfer factor for U 33 0.00 34 0.00 26 0.01 15 0.00 Kd of Am-241 in Contaminated Zone 2 -0.67 2 -0.22 1 -0.96 1 -0.92 Meat transfer factor for Np 13 0.02 13 0.00 31 0.01 32 0.00 Meat transfer factor for Th 8 -0.04 9 -0.01 18 0.02 27 0.00 Meat transfer factor for U 12 0.02 12 0.00 30 0.01 31 0.00 Milk transfer factor for Am 16 -0.01 18 0.00 15 0.03 23 0.00 Milk transfer factor for Np 22 0.01 23 0.00 11 0.05 19 0.00 Milk transfer factor for Th 9 0.03 10 0.01 32 -0.01 33 0.00 Milk transfer factor for U 14 0.02 15 0.00 34 0.00 34 0.00 Fish transfer factor for Am 6 0.08 8 0.02 6 0.26 7 0.01 Fish transfer factor for Np 25 -0.01 26 0.00 28 -0.01 29 0.00 Fish transfer factor for Th 27 -0.01 28 0.00 29 -0.01 30 0.00 Fish transfer factor for U 24 0.01 25 0.00 16 0.03 24 0.00 Kd of Np-237 in Contaminated Zone 20 0.01 21 0.00 20 0.02 9 0.01 R-SQUARE 0.96 0.96 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/02/2004 14:31 Page 1 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, C--

14 File: C-14-concrete_SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/02/2004 14:31 Page 2 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, C--

14 File: C-14-concrete_SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGUNIFORM 10 500 16 BRTF(6,1) LOGUNIFORM .000644 .696 17 BRTF(6,2) TRUNCATED LOGNORMAL-N -3.47 1 .001 .999 18 BRTF(6,3) TRUNCATED LOGNORMAL-N -4.4 .9 .001 .999 19 BBIO(6,1) LOGNORMAL-N 10.8 1.1 20 DMC TRIANGULAR .2 .3 .6

1 RESRAD Regression and Correlation output 08/02/04 14:32 Page: Coef 1 Title  : YR submerged concrete- Sensitivity analysis, C-14 Input File : C-14-concrete_SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 8 0.04 11 0.02 14 0.02 14 0.01 External gamma shielding factor 15 -0.02 17 -0.01 13 -0.03 13 -0.01 Depth of soil mixing layer 20 0.00 20 0.00 18 0.00 19 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 9 0.03 13 0.02 12 0.03 12 0.01 Wet foliar interception fraction of leafy vegetables 13 -0.02 15 -0.01 7 -0.05 8 -0.02 Weathering removal constant of all vegetation 18 0.01 19 0.00 20 0.00 20 0.00 Density of contaminated zone 11 0.03 4 0.10 4 0.12 4 0.34 Contaminated zone total porosity 12 -0.03 6 -0.09 19 0.00 18 0.00 Contaminated zone hydraulic conductivity 7 -0.04 10 -0.02 11 -0.04 11 -0.01 Contaminated zone b parameter 10 -0.03 14 -0.02 15 -0.01 15 0.00 Evapotranspiration coefficient 17 -0.01 8 -0.02 5 0.05 5 0.15 Depth of roots 5 0.05 7 0.03 16 -0.01 16 0.00 Mass loading for inhalation 6 -0.04 9 -0.02 8 -0.04 9 -0.02 Irrigation 19 0.00 12 0.02 6 -0.05 6 -0.15 Kd of C-14 in Contaminated Zone 4 -0.15 5 -0.10 3 -0.14 2 -0.37 Plant transfer factor for C 3 0.47 2 0.33 10 0.04 7 0.10 Meat transfer factor for C 16 0.01 18 0.01 9 -0.04 10 -0.02 Milk transfer factor for C 14 0.02 16 0.01 17 0.01 17 0.00 Fish transfer factor for C 1 0.78 1 0.66 2 0.67 3 0.36 Thickness of evasion layer of C-14 in soil 2 0.48 3 0.29 1 0.84 1 0.61 R-SQUARE 0.72 0.72 0.84 0.84

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/06/2004 20:38 Page 1 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Cm-

-243 File: Cm-243-concrete_SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/06/2004 20:38 Page 2 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Cm-

-243 File: Cm-243-concrete_SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 BRTF(95,1) LOGUNIFORM .0000106 .00331 16 BRTF(95,2) TRUNCATED LOGNORMAL-N -9.9 .2 .001 .999 17 BRTF(92,1) LOGNORMAL-N -5.17 4.23 18 BRTF(92,2) TRUNCATED LOGNORMAL-N -7.13 .7 .001 .999 19 BRTF(95,3) TRUNCATED LOGNORMAL-N -13.12 .7 .001 .999 20 BRTF(92,3) TRUNCATED LOGNORMAL-N -7.82 .6 .001 .999 21 BBIO(95,1) LOGNORMAL-N 3.4 1.1 22 BBIO(92,1) LOGNORMAL-N 2.3 1.1 23 DCACTC(4) UNIFORM 200 1000 24 DCACTC(1) LOGUNIFORM 200 5000 25 DCACTC(2) LOGUNIFORM 200 5000 26 DCACTC(5) LOGUNIFORM 100 1000 27 DCACTC(6) LOGUNIFORM 500 5000 28 DCACTC(7) LOGNORMAL-N 4.99 2.37 29 BRTF(89,1) LOGUNIFORM .0000106 .00331 30 BRTF(89,2) TRUNCATED LOGNORMAL-N -10.82 1 .001 .999 31 BRTF(89,3) TRUNCATED LOGNORMAL-N -13.2 .9 .001 .999 32 BBIO(89,1) LOGNORMAL-N 2.7 1.1 33 BRTF(96,1) UNIFORM .000187 .00331 34 BRTF(96,2) TRUNCATED LOGNORMAL-N -10.82 1 .001 .999 35 BRTF(96,3) TRUNCATED LOGNORMAL-N -13.12 .9 .001 .999 36 BBIO(96,1) LOGNORMAL-N 3.4 1.1 37 BRTF(91,1) LOGUNIFORM .000187 .0114 38 BRTF(91,2) TRUNCATED LOGNORMAL-N -12.21 1 .001 .999 39 BRTF(91,3) TRUNCATED LOGNORMAL-N -12.21 .9 .001 .999 40 BBIO(91,1) LOGNORMAL-N 2.3 1.1 41 BRTF(94,1) LOGUNIFORM .0000106 .000644 42 BRTF(94,2) TRUNCATED LOGNORMAL-N -9.21 .2 .001 .999 43 BRTF(94,3) TRUNCATED LOGNORMAL-N -13.82 .5 .001 .999 44 BBIO(94,1) LOGNORMAL-N 3.4 1.1

1 RESRAD Regression and Correlation output 08/09/04 08:49 Page: Coef 1 Title  : YR submerged concrete- Sensitivity analysis, Cm-243 Input File : Cm-243-concrete_SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 18 -0.03 23 -0.01 34 0.01 38 0.00 External gamma shielding factor 9 0.07 11 0.03 5 0.40 7 0.04 Depth of soil mixing layer 43 0.00 43 0.00 12 -0.04 21 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 4 -0.11 7 -0.04 4 -0.48 6 -0.05 Wet foliar interception fraction of leafy vegetables 3 0.15 5 0.05 3 0.53 5 0.06 Weathering removal constant of all vegetation 1 -0.37 3 -0.14 1 -0.81 3 -0.13 Density of contaminated zone 34 0.01 12 0.02 37 0.00 24 0.00 Contaminated zone total porosity 38 0.01 13 0.02 40 0.00 27 0.00 Contaminated zone hydraulic conductivity 40 0.00 40 0.00 29 -0.01 34 0.00 Contaminated zone b parameter 15 -0.03 19 -0.01 11 -0.04 20 0.00 Evapotranspiration coefficient 25 -0.02 6 -0.04 25 -0.02 16 -0.01 Depth of roots 23 -0.02 29 -0.01 44 0.00 44 0.00 Mass loading for inhalation 8 0.07 10 0.03 39 0.00 41 0.00 Irrigation 10 0.05 4 0.11 8 0.12 4 0.08 Plant transfer factor for Am 24 -0.02 26 -0.01 21 -0.02 14 -0.01 Meat transfer factor for Am 35 0.01 36 0.00 22 -0.02 28 0.00 Plant transfer factor for U 33 -0.01 35 0.00 19 0.02 12 0.02 Meat transfer factor for U 28 -0.02 31 -0.01 38 0.00 40 0.00 Milk transfer factor for Am 14 -0.03 18 -0.01 33 0.01 37 0.00 Milk transfer factor for U 32 0.01 34 0.00 15 -0.03 25 0.00 Fish transfer factor for Am 17 -0.03 22 -0.01 32 -0.01 36 0.00 Fish transfer factor for U 30 0.01 32 0.00 27 -0.01 32 0.00 Kd of Cm-243 in Contaminated Zone 2 -0.29 1 -0.72 2 -0.76 1 -0.76 Kd of Ac-227 in Contaminated Zone 20 -0.02 21 -0.01 16 -0.03 10 -0.02 Kd of Am-243 in Contaminated Zone 26 -0.02 27 -0.01 17 -0.02 11 -0.02 Kd of Pa-231 in Contaminated Zone 29 -0.02 25 -0.01 23 -0.02 15 -0.01 Kd of Pu-239 in Contaminated Zone 22 0.02 20 0.01 36 -0.01 23 0.00 Kd of U-235 in Contaminated Zone 27 0.02 30 0.01 20 0.02 13 0.01 Plant transfer factor for Ac 13 -0.04 14 -0.02 14 -0.03 9 -0.02 Meat transfer factor for Ac 39 0.01 39 0.00 9 -0.06 18 -0.01 Milk transfer factor for Ac 11 -0.04 16 -0.01 31 0.01 35 0.00 Fish transfer factor for Ac 12 -0.04 17 -0.01 13 -0.04 22 0.00 Plant transfer factor for Cm 7 0.08 2 0.20 6 0.32 2 0.22 Meat transfer factor for Cm 21 0.02 28 0.01 42 0.00 42 0.00 Milk transfer factor for Cm 37 0.01 38 0.00 18 0.02 26 0.00 Fish transfer factor for Cm 5 0.10 8 0.04 7 0.22 8 0.02 Plant transfer factor for Pa 16 -0.03 15 -0.02 30 -0.01 17 -0.01 Meat transfer factor for Pa 44 0.00 44 0.00 26 0.02 31 0.00 Milk transfer factor for Pa 41 0.00 41 0.00 35 -0.01 39 0.00 Fish transfer factor for Pa 19 -0.02 24 -0.01 28 -0.01 33 0.00 Plant transfer factor for Pu 42 0.00 42 0.00 41 0.00 29 0.00 Meat transfer factor for Pu 31 0.01 33 0.00 10 -0.05 19 0.00 Milk transfer factor for Pu 36 0.01 37 0.00 43 0.00 43 0.00 Fish transfer factor for Pu 6 0.08 9 0.03 24 -0.02 30 0.00 R-SQUARE 0.88 0.88 0.99 0.99

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/28/2004 18:01 Page 1 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Co-

-60 File: Co-60-concrete_SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/28/2004 18:01 Page 2 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Co-

-60 File: Co-60-concrete_SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) UNIFORM 181 383 16 BRTF(27,1) UNIFORM .00104 .00395 17 BRTF(27,2) TRUNCATED LOGNORMAL-N -3.51 1 .001 .999 18 BRTF(27,3) TRUNCATED LOGNORMAL-N -6.21 .7 .001 .999 19 BBIO(27,1) LOGNORMAL-N 5.7 1.1

1 RESRAD Regression and Correlation output 07/28/04 18:02 Page: Coef 1 Title  : YR submerged concrete- Sensitivity analysis, Co-60 Input File : Co-60-concrete_SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 14 -0.01 16 0.00 16 0.01 17 0.00 External gamma shielding factor 1 1.00 1 1.00 1 1.00 1 1.00 Depth of soil mixing layer 11 0.05 11 0.00 9 -0.02 12 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 9 -0.07 10 0.00 10 0.02 13 0.00 Wet foliar interception fraction of leafy vegetables 8 0.07 9 0.00 19 0.00 19 0.00 Weathering removal constant of all vegetation 4 -0.63 5 -0.01 4 -0.16 6 -0.01 Density of contaminated zone 19 0.00 17 0.00 14 0.01 10 0.00 Contaminated zone total porosity 16 0.00 13 0.00 18 0.01 11 0.00 Contaminated zone hydraulic conductivity 18 0.00 19 0.00 15 0.01 16 0.00 Contaminated zone b parameter 17 0.00 18 0.00 11 -0.01 14 0.00 Evapotranspiration coefficient 15 0.00 12 0.00 8 -0.02 7 -0.01 Depth of roots 13 0.01 15 0.00 17 -0.01 18 0.00 Mass loading for inhalation 12 -0.02 14 0.00 13 -0.01 15 0.00 Irrigation 7 0.07 7 0.00 7 0.03 4 0.01 Kd of Co-60 in Contaminated Zone 6 -0.18 3 -0.01 6 -0.06 3 -0.02 Plant transfer factor for Co 10 0.06 8 0.00 12 -0.01 8 -0.01 Meat transfer factor for Co 2 0.98 2 0.05 2 0.66 2 0.05 Milk transfer factor for Co 3 0.69 4 0.01 3 0.16 5 0.01 Fish transfer factor for Co 5 0.49 6 0.01 5 0.09 9 0.01 R-SQUARE 1.00 1.00 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/28/2004 17:49 Page 1 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Cs-

-134 File: Cs-134-concrete_SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/28/2004 17:49 Page 2 Probabilistic results summary : YR submerged concrete- Sensitivity analysis, Cs-

-134 File: Cs-134-concrete_SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) UNIFORM 34 240 16 BRTF(55,1) UNIFORM .00239 .0783 17 BRTF(55,2) TRUNCATED LOGNORMAL-N -3 .4 .001 .999 18 BRTF(55,3) TRUNCATED LOGNORMAL-N -4.61 .5 .001 .999 19 BBIO(55,1) LOGNORMAL-N 7.6 .7

1 RESRAD Regression and Correlation output 07/28/04 17:50 Page: Coef 1 Title  : YR submerged concrete- Sensitivity analysis, Cs-134 Input File : Cs-134-concrete_SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 19 0.00 19 0.00 10 -0.03 13 -0.01 External gamma shielding factor 1 0.91 1 0.57 1 0.88 1 0.55 Depth of soil mixing layer 8 0.05 12 0.01 9 -0.03 12 -0.01 Wet weight crop yield of fruit, grain and non-leafy vegetables 12 0.02 15 0.00 16 0.01 16 0.00 Wet foliar interception fraction of leafy vegetables 11 0.03 14 0.01 8 0.04 11 0.01 Weathering removal constant of all vegetation 4 -0.36 6 -0.10 4 -0.29 6 -0.09 Density of contaminated zone 14 0.01 9 0.03 13 -0.02 9 -0.04 Contaminated zone total porosity 15 0.01 10 0.02 14 -0.02 10 -0.03 Contaminated zone hydraulic conductivity 13 -0.02 16 0.00 15 -0.01 15 0.00 Contaminated zone b parameter 10 -0.03 13 -0.01 17 0.00 18 0.00 Evapotranspiration coefficient 17 -0.01 11 -0.02 19 0.00 17 0.00 Depth of roots 18 0.01 18 0.00 11 -0.03 14 -0.01 Mass loading for inhalation 16 -0.01 17 0.00 18 0.00 19 0.00 Irrigation 9 0.05 8 0.08 12 0.03 8 0.05 Kd of Cs-134 in Contaminated Zone 7 -0.19 3 -0.34 7 -0.17 3 -0.34 Plant transfer factor for Cs 6 0.20 2 0.37 6 0.19 2 0.39 Meat transfer factor for Cs 3 0.49 5 0.15 3 0.42 5 0.13 Milk transfer factor for Cs 2 0.71 4 0.27 2 0.61 4 0.23 Fish transfer factor for Cs 5 0.33 7 0.09 5 0.23 7 0.07 R-SQUARE 0.93 0.93 0.91 0.91

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/02/2004 17:57 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Cs137-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/02/2004 17:57 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Cs137-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) UNIFORM 34 240 16 BRTF(55,1) UNIFORM .00239 .0783 17 BRTF(55,2) TRUNCATED LOGNORMAL-N -3 .4 .001 .999 18 BRTF(55,3) TRUNCATED LOGNORMAL-N -4.61 .5 .001 .999 19 BBIO(55,1) LOGNORMAL-N 7.6 .7

1 RESRAD Regression and Correlation output 08/02/04 18:00 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Cs137-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 19 0.00 19 0.00 10 -0.04 13 -0.01 External gamma shielding factor 1 0.75 3 0.34 1 0.81 3 0.35 Depth of soil mixing layer 8 0.05 12 0.02 9 -0.04 12 -0.01 Wet weight crop yield of fruit, grain and non-leafy vegetables 12 0.02 15 0.01 19 0.00 19 0.00 Wet foliar interception fraction of leafy vegetables 11 0.03 14 0.01 8 0.05 11 0.01 Weathering removal constant of all vegetation 4 -0.36 6 -0.12 4 -0.37 6 -0.10 Density of contaminated zone 14 0.01 9 0.03 13 -0.03 9 -0.04 Contaminated zone total porosity 15 0.01 10 0.03 14 -0.02 10 -0.04 Contaminated zone hydraulic conductivity 13 -0.02 16 -0.01 15 -0.01 16 0.00 Contaminated zone b parameter 10 -0.03 13 -0.01 18 0.00 18 0.00 Evapotranspiration coefficient 17 -0.01 11 -0.02 17 0.00 14 0.01 Depth of roots 18 0.01 18 0.00 12 -0.03 15 -0.01 Mass loading for inhalation 16 -0.01 17 0.00 16 0.00 17 0.00 Irrigation 9 0.05 8 0.09 11 0.03 8 0.06 Kd of Cs-137 in Contaminated Zone 7 -0.19 2 -0.39 7 -0.20 2 -0.36 Plant transfer factor for Cs 6 0.20 1 0.42 6 0.28 1 0.49 Meat transfer factor for Cs 3 0.49 5 0.17 3 0.53 5 0.16 Milk transfer factor for Cs 2 0.71 4 0.30 2 0.72 4 0.26 Fish transfer factor for Cs 5 0.33 7 0.11 5 0.30 7 0.08 R-SQUARE 0.91 0.91 0.94 0.94

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/31/2004 20:43 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Eu152-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/31/2004 20:43 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Eu152-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(2) LOGUNIFORM 200 5000 16 BRTF(63,1) LOGUNIFORM .0000106 .00331 17 BRTF(63,2) TRUNCATED LOGNORMAL-N -6.21 1 .001 .999 18 BRTF(63,3) TRUNCATED LOGNORMAL-N -9.72 .9 .001 .999 19 BBIO(63,1) LOGNORMAL-N 3.9 1.1 20 DCACTC(3) LOGUNIFORM 200 5000 21 BRTF(64,1) LOGUNIFORM .0000106 .00331 22 BRTF(64,2) TRUNCATED LOGNORMAL-N -6.21 1 .001 .999 23 BRTF(64,3) TRUNCATED LOGNORMAL-N -9.72 .9 .001 .999 24 BBIO(64,1) LOGNORMAL-N 3.2 1.1

1 RESRAD Regression and Correlation output 07/31/04 20:52 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Eu152-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 15 0.03 17 0.00 16 0.01 20 0.00 External gamma shielding factor 1 1.00 1 1.00 1 1.00 1 1.00 Depth of soil mixing layer 23 0.01 23 0.00 10 -0.03 12 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 7 -0.11 10 0.00 12 -0.03 14 0.00 Wet foliar interception fraction of leafy vegetables 6 0.18 9 0.00 5 0.07 7 0.00 Weathering removal constant of all vegetation 5 -0.38 5 0.00 4 -0.08 6 0.00 Density of contaminated zone 14 0.04 8 0.00 21 0.00 18 0.00 Contaminated zone total porosity 13 0.04 7 0.00 22 0.00 19 0.00 Contaminated zone hydraulic conductivity 22 0.01 22 0.00 18 -0.01 22 0.00 Contaminated zone b parameter 18 -0.02 19 0.00 13 -0.03 15 0.00 Evapotranspiration coefficient 21 -0.01 14 0.00 8 0.04 3 0.00 Depth of roots 20 0.01 21 0.00 15 -0.02 17 0.00 Mass loading for inhalation 10 0.04 15 0.00 24 0.00 24 0.00 Irrigation 12 0.04 6 0.00 9 -0.03 4 0.00 Kd of Eu-152 in Contaminated Zone 4 -0.64 3 0.00 2 -0.18 2 -0.01 Plant transfer factor for Eu 2 0.95 2 0.01 23 0.00 23 0.00 Meat transfer factor for Eu 3 0.68 4 0.00 3 0.17 5 0.00 Milk transfer factor for Eu 9 0.10 12 0.00 17 0.01 21 0.00 Fish transfer factor for Eu 8 0.11 11 0.00 11 0.03 13 0.00 Kd of Gd-152 in Contaminated Zone 17 0.02 16 0.00 19 0.01 9 0.00 Plant transfer factor for Gd 11 0.04 13 0.00 20 0.01 10 0.00 Meat transfer factor for Gd 16 -0.02 18 0.00 14 0.02 16 0.00 Milk transfer factor for Gd 19 -0.01 20 0.00 7 0.04 11 0.00 Fish transfer factor for Gd 24 0.00 24 0.00 6 -0.05 8 0.00 R-SQUARE 1.00 1.00 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/01/2004 09:02 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Eu154-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/01/2004 09:02 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Eu154-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGUNIFORM 200 5000 16 BRTF(63,1) LOGUNIFORM .0000106 .00331 17 BRTF(63,2) TRUNCATED LOGNORMAL-N -6.21 1 .001 .999 18 BRTF(63,3) TRUNCATED LOGNORMAL-N -9.72 .9 .001 .999 19 BBIO(63,1) LOGNORMAL-N 3.9 1.1

1 RESRAD Regression and Correlation output 08/01/04 09:04 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Eu154-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 15 -0.01 17 0.00 12 0.02 16 0.00 External gamma shielding factor 1 1.00 1 1.00 1 1.00 1 1.00 Depth of soil mixing layer 17 0.00 19 0.00 19 0.00 19 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 8 -0.12 9 0.00 6 0.04 11 0.00 Wet foliar interception fraction of leafy vegetables 7 0.12 8 0.00 5 0.05 10 0.00 Weathering removal constant of all vegetation 5 -0.39 5 0.00 4 -0.13 5 0.00 Density of contaminated zone 18 0.00 13 0.00 15 -0.01 8 0.00 Contaminated zone total porosity 19 0.00 15 0.00 14 -0.02 7 0.00 Contaminated zone hydraulic conductivity 13 -0.01 16 0.00 17 0.01 17 0.00 Contaminated zone b parameter 12 0.02 14 0.00 10 0.02 15 0.00 Evapotranspiration coefficient 14 0.01 11 0.00 16 -0.01 9 0.00 Depth of roots 10 -0.04 12 0.00 18 0.00 18 0.00 Mass loading for inhalation 16 0.00 18 0.00 9 -0.02 14 0.00 Irrigation 11 0.02 7 0.00 11 0.02 4 0.00 Kd of Eu-154 in Contaminated Zone 4 -0.65 3 0.00 3 -0.17 2 -0.01 Plant transfer factor for Eu 2 0.96 2 0.01 13 0.02 6 0.00 Meat transfer factor for Eu 3 0.69 4 0.00 2 0.22 3 0.00 Milk transfer factor for Eu 9 0.06 10 0.00 8 0.03 13 0.00 Fish transfer factor for Eu 6 0.16 6 0.00 7 0.03 12 0.00 R-SQUARE 1.00 1.00 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/01/2004 09:12 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Eu155-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/01/2004 09:12 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Eu155-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGUNIFORM 200 5000 16 BRTF(63,1) LOGUNIFORM .0000106 .00331 17 BRTF(63,2) TRUNCATED LOGNORMAL-N -6.21 1 .001 .999 18 BRTF(63,3) TRUNCATED LOGNORMAL-N -9.72 .9 .001 .999 19 BBIO(63,1) LOGNORMAL-N 3.9 1.1

1 RESRAD Regression and Correlation output 08/01/04 09:13 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Eu155-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 14 -0.01 17 0.00 14 0.01 14 0.00 External gamma shielding factor 1 1.00 1 1.00 1 1.00 1 1.00 Depth of soil mixing layer 18 0.00 19 0.00 18 0.00 18 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 8 -0.12 9 0.00 12 0.02 13 0.00 Wet foliar interception fraction of leafy vegetables 7 0.12 8 0.00 5 0.06 9 0.00 Weathering removal constant of all vegetation 5 -0.38 5 -0.01 4 -0.15 4 -0.01 Density of contaminated zone 17 0.00 13 0.00 11 -0.02 7 -0.01 Contaminated zone total porosity 19 0.00 15 0.00 8 -0.02 5 -0.01 Contaminated zone hydraulic conductivity 13 -0.01 16 0.00 19 0.00 19 0.00 Contaminated zone b parameter 12 0.02 14 0.00 15 0.01 15 0.00 Evapotranspiration coefficient 15 0.01 11 0.00 17 0.00 16 0.00 Depth of roots 10 -0.04 12 0.00 16 -0.01 17 0.00 Mass loading for inhalation 16 0.00 18 0.00 6 -0.03 10 0.00 Irrigation 11 0.02 7 0.00 13 0.01 8 0.00 Kd of Eu-155 in Contaminated Zone 4 -0.66 3 -0.01 3 -0.19 2 -0.07 Plant transfer factor for Eu 2 0.96 2 0.06 9 0.02 6 0.01 Meat transfer factor for Eu 3 0.69 4 0.01 2 0.23 3 0.01 Milk transfer factor for Eu 9 0.06 10 0.00 10 0.02 12 0.00 Fish transfer factor for Eu 6 0.16 6 0.00 7 0.03 11 0.00 R-SQUARE 1.00 1.00 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:27 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Fe55-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:27 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Fe55-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) UNIFORM 7 18 16 BRTF(26,1) UNIFORM .244 1.32 17 BRTF(26,2) TRUNCATED LOGNORMAL-N -3.51 .4 .001 .999 18 BRTF(26,3) TRUNCATED LOGNORMAL-N -8.11 .7 .001 .999 19 BBIO(26,1) LOGNORMAL-N 5.3 1.1

1 RESRAD Regression and Correlation output 07/22/04 12:27 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Fe55-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 16 0.00 18 0.00 10 -0.04 12 -0.01 External gamma shielding factor 12 0.01 14 0.00 14 -0.02 17 0.00 Depth of soil mixing layer 10 0.05 10 0.01 11 -0.04 14 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 8 -0.07 9 -0.01 7 -0.11 8 -0.01 Wet foliar interception fraction of leafy vegetables 7 0.12 8 0.02 8 0.11 9 0.01 Weathering removal constant of all vegetation 3 -0.55 4 -0.09 3 -0.54 4 -0.08 Density of contaminated zone 17 0.00 13 0.00 18 -0.01 11 -0.01 Contaminated zone total porosity 15 -0.01 11 -0.01 17 -0.01 10 -0.01 Contaminated zone hydraulic conductivity 14 -0.01 16 0.00 13 0.03 16 0.00 Contaminated zone b parameter 13 0.01 15 0.00 12 0.03 15 0.00 Evapotranspiration coefficient 19 0.00 17 0.00 19 0.01 13 0.01 Depth of roots 18 0.00 19 0.00 15 -0.02 18 0.00 Mass loading for inhalation 11 -0.02 12 0.00 16 -0.01 19 0.00 Irrigation 9 0.06 6 0.06 9 0.06 5 0.05 Kd of Fe-55 in Contaminated Zone 6 -0.24 3 -0.24 6 -0.24 3 -0.21 Plant transfer factor for Fe 2 0.60 1 0.71 2 0.66 1 0.75 Meat transfer factor for Fe 1 0.91 2 0.30 1 0.89 2 0.25 Milk transfer factor for Fe 5 0.33 7 0.05 5 0.30 7 0.04 Fish transfer factor for Fe 4 0.41 5 0.06 4 0.31 6 0.04 R-SQUARE 0.98 0.98 0.98 0.98

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/18/2004 17:09 Page 1 Probabilistic results summary : Yankee Rowe Sensitivity Analysis=concrete gradi-ng File: H-3_graded concrete.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/18/2004 17:09 Page 2 Probabilistic results summary : Yankee Rowe Sensitivity Analysis=concrete gradi-ng File: H-3_graded concrete.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DWIBWT TRIANGULAR 6 10 30 4 DM TRIANGULAR 0 .15 .6 5 DROOT UNIFORM .3 3.8 6 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 7 RWET(2) TRIANGULAR .06 .67 .95 8 WLAM TRIANGULAR 5.1 18 84 9 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 10 THICK0 UNIFORM .15 3.8 11 H(1) UNIFORM .01 3.65 12 DENSCZ UNIFORM 1.41 1.67 13 TPCZ UNIFORM .24 .36 14 HCCZ LOGUNIFORM 10000 10000000 15 DENSAQ BOUNDED NORMAL 1.5105 .159 1.019 2.002 16 TPSZ BOUNDED NORMAL .43 .06 .2446 .6154 17 EPSZ BOUNDED NORMAL .383 .061 .195 .572 18 HCSZ BETA 110 5870 1.398 1.842 19 DENSUZ(1) BOUNDED NORMAL 1.5105 .159 1.019 2.002 20 TPUZ(1) BOUNDED NORMAL .43 .06 .2446 .6154 21 EPUZ(1) BOUNDED NORMAL .383 .061 .195 .572 22 HCUZ(1) BETA 110 5870 1.398 1.842 23 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 24 BSZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 25 UW UNIFORM 957 1689 26 BUZ(1) BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 27 RI UNIFORM .252 .618 28 EVAPTR UNIFORM .5 .75 29 DCACTU1(1) TRUNCATED LOGNORMAL-N -2.81 .5 .001 .999 30 DCACTS(1) TRUNCATED LOGNORMAL-N -2.81 .5 .001 .999 31 BRTF(1,1) TRUNCATED LOGNORMAL-N 1.57 1.1 .001 .999 32 BRTF(1,2) TRUNCATED LOGNORMAL-N -4.42 1 .001 .999 33 BRTF(1,3) TRUNCATED LOGNORMAL-N -4.6 .9 .001 .999 34 BBIO(1,1) LOGNORMAL-N 0 .1

1 RESRAD Regression and Correlation output 08/18/04 17:13 Page: Coef 1 Title  : Yankee Rowe Sensitivity Analysis=concrete grading Input File : H-3_graded concrete.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 18 0.02 22 0.00 14 0.03 19 0.00 External gamma shielding factor 31 0.00 32 0.00 17 0.02 24 0.00 Well pump intake depth 5 -0.11 12 -0.02 5 -0.12 8 -0.02 Depth of soil mixing layer 29 0.00 30 0.00 22 -0.02 29 0.00 Depth of roots 1 -0.66 3 -0.16 1 -0.73 2 -0.17 Wet weight crop yield of fruit, grain and non-leafy vegetables 20 -0.02 24 0.00 21 -0.02 28 0.00 Wet foliar interception fraction of leafy vegetables 13 -0.03 20 -0.01 25 -0.01 32 0.00 Weathering removal constant of all vegetation 26 -0.01 28 0.00 27 -0.01 34 0.00 Mass loading for inhalation 33 0.00 33 0.00 20 -0.02 27 0.00 Thickness of contaminated zone 2 0.60 1 0.93 2 0.66 1 0.92 Thickness of Unsaturated zone 1 16 -0.02 11 -0.03 10 -0.04 5 -0.04 Density of contaminated zone 9 0.06 7 0.07 7 0.06 4 0.07 Contaminated zone total porosity 27 0.00 18 0.01 31 0.00 22 0.00 Contaminated zone hydraulic conductivity 34 0.00 34 0.00 19 -0.02 26 0.00 Density of saturated zone 25 0.01 8 0.04 33 0.00 16 0.01 Saturated zone total porosity 32 0.00 19 0.01 32 0.00 13 -0.01 Saturated zone effective porosity 22 0.01 9 0.04 29 0.01 10 0.02 Saturated zone hydraulic conductivity 3 -0.18 10 -0.03 3 -0.19 6 -0.03 Density of Unsaturated zone 1 12 -0.03 2 -0.19 34 0.00 21 0.00 Total Porosity of Unsaturated zone 1 17 -0.02 6 -0.08 30 0.01 11 0.02 Effective Porosity of Unsaturated zone 1 11 -0.04 4 -0.12 28 -0.01 7 -0.02 Hydraulic Conductivity of Unsaturated zone 1 8 0.07 16 0.01 8 0.06 14 0.01 Contaminated zone b parameter 21 -0.01 25 0.00 23 0.01 30 0.00 Saturated zone b parameter 28 0.00 29 0.00 24 -0.01 31 0.00 Well pumping rate 14 -0.03 13 -0.02 13 -0.03 9 -0.02 b Parameter of Unsaturated zone 1 15 -0.03 21 -0.01 12 -0.03 18 -0.01 Irrigation 4 -0.15 5 -0.10 4 -0.17 3 -0.09 Evapotranspiration coefficient 6 -0.09 14 -0.02 6 -0.09 12 -0.01 Kd of H-3 in Unsaturated Zone 1 7 -0.07 15 -0.01 9 -0.05 15 -0.01 Kd of H-3 in Saturated Zone 23 0.01 26 0.00 18 0.02 25 0.00 Plant transfer factor for H 19 0.02 23 0.00 11 -0.04 17 -0.01 Meat transfer factor for H 30 0.00 31 0.00 16 -0.02 23 0.00 Milk transfer factor for H 24 0.01 27 0.00 26 -0.01 33 0.00 Fish transfer factor for H 10 0.05 17 0.01 15 0.03 20 0.00 R-SQUARE 0.97 0.97 0.97 0.97

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/27/2004 09:21 Page 1 Probabilistic results summary : YR concrete-H3-cellar area-SA File : H3-concrete-cellar-area-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/27/2004 09:21 Page 2 Probabilistic results summary : YR concrete-H3-cellar area-SA File : H3-concrete-cellar-area-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 BRTF(1,1) TRUNCATED LOGNORMAL-N 1.57 1.1 .001 .999 16 BRTF(1,2) TRUNCATED LOGNORMAL-N -4.42 1 .001 .999 17 BRTF(1,3) TRUNCATED LOGNORMAL-N -4.6 .9 .001 .999 18 BBIO(1,1) LOGNORMAL-N 0 .1

1 RESRAD Regression and Correlation output 08/27/04 09:22 Page: Coef 1 Title  : YR concrete-H3-cellar area-SA Input File : H3-concrete-cellar-area-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 7 0.03 7 0.00 5 0.02 7 0.00 External gamma shielding factor 13 0.01 14 0.00 14 -0.01 15 0.00 Depth of soil mixing layer 5 0.04 5 0.00 12 0.01 13 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 14 -0.01 15 0.00 9 -0.02 11 0.00 Wet foliar interception fraction of leafy vegetables 11 -0.02 11 0.00 6 0.02 8 0.00 Weathering removal constant of all vegetation 9 -0.02 9 0.00 3 0.04 4 0.01 Density of contaminated zone 2 0.71 2 0.65 2 0.52 2 0.63 Contaminated zone total porosity 17 0.00 13 0.00 15 0.00 5 -0.01 Contaminated zone hydraulic conductivity 18 0.00 18 0.00 8 0.02 10 0.00 Contaminated zone b parameter 10 0.02 10 0.00 16 0.00 16 0.00 Evapotranspiration coefficient 3 -0.05 3 -0.03 10 -0.02 3 -0.02 Depth of roots 12 0.02 12 0.00 18 0.00 18 0.00 Mass loading for inhalation 16 0.00 17 0.00 11 -0.01 12 0.00 Irrigation 1 -0.75 1 -0.73 1 -0.58 1 -0.74 Plant transfer factor for H 4 -0.05 4 0.00 13 -0.01 14 0.00 Meat transfer factor for H 6 0.03 6 0.00 4 -0.03 6 0.00 Milk transfer factor for H 8 -0.03 8 0.00 7 0.02 9 0.00 Fish transfer factor for H 15 0.00 16 0.00 17 0.00 17 0.00 R-SQUARE 0.99 0.99 0.98 0.98

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:38 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Nb94-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:38 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Nb94-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGUNIFORM 100 1000 16 BRTF(41,1) LOGUNIFORM .000187 .0114 17 BRTF(41,2) TRUNCATED LOGNORMAL-N -13.82 .9 .001 .999 18 BRTF(41,3) TRUNCATED LOGNORMAL-N -13.12 .7 .001 .999 19 BBIO(41,1) LOGNORMAL-N 5.7 1.1

1 RESRAD Regression and Correlation output 07/22/04 12:40 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Nb94-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 13 -0.02 16 0.00 13 0.01 15 0.00 External gamma shielding factor 1 1.00 1 1.00 1 1.00 1 1.00 Depth of soil mixing layer 19 0.00 19 0.00 18 0.00 18 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 7 -0.13 8 0.00 12 0.01 14 0.00 Wet foliar interception fraction of leafy vegetables 6 0.17 6 0.00 5 0.06 9 0.00 Weathering removal constant of all vegetation 5 -0.40 5 0.00 4 -0.15 5 0.00 Density of contaminated zone 15 0.01 10 0.00 10 -0.02 7 0.00 Contaminated zone total porosity 17 0.00 14 0.00 9 -0.02 6 0.00 Contaminated zone hydraulic conductivity 11 -0.02 13 0.00 19 0.00 19 0.00 Contaminated zone b parameter 16 0.00 17 0.00 7 0.02 10 0.00 Evapotranspiration coefficient 14 0.01 9 0.00 14 0.01 8 0.00 Depth of roots 9 -0.03 12 0.00 16 0.00 17 0.00 Mass loading for inhalation 18 0.00 18 0.00 8 -0.02 11 0.00 Irrigation 10 0.03 7 0.00 17 0.00 12 0.00 Kd of Nb-94 in Contaminated Zone 4 -0.59 3 0.00 3 -0.17 2 -0.01 Plant transfer factor for Nb 2 0.93 2 0.01 6 0.04 3 0.00 Meat transfer factor for Nb 12 -0.02 15 0.00 15 -0.01 16 0.00 Milk transfer factor for Nb 8 -0.03 11 0.00 11 -0.01 13 0.00 Fish transfer factor for Nb 3 0.72 4 0.00 2 0.20 4 0.00 R-SQUARE 1.00 1.00 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:45 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Ni63-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:45 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Ni63-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) UNIFORM 10 61 16 BRTF(28,1) UNIFORM .0276 .696 17 BRTF(28,2) TRUNCATED LOGNORMAL-N -5.3 .9 .001 .999 18 BRTF(28,3) TRUNCATED LOGNORMAL-N -3.91 .7 .001 .999 19 BBIO(28,1) LOGNORMAL-N 4.6 1.1

1 RESRAD Regression and Correlation output 07/22/04 12:48 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Ni63-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 19 0.00 19 0.00 16 -0.01 17 0.00 External gamma shielding factor 6 0.03 10 0.01 15 -0.01 16 0.00 Depth of soil mixing layer 7 0.03 11 0.01 7 -0.04 10 -0.01 Wet weight crop yield of fruit, grain and non-leafy vegetables 14 0.01 15 0.00 12 -0.02 13 -0.01 Wet foliar interception fraction of leafy vegetables 18 0.00 18 0.00 9 0.03 12 0.01 Weathering removal constant of all vegetation 3 -0.19 4 -0.07 3 -0.31 4 -0.07 Density of contaminated zone 8 0.03 5 0.07 11 -0.03 7 -0.04 Contaminated zone total porosity 9 0.03 6 0.06 10 -0.03 6 -0.04 Contaminated zone hydraulic conductivity 10 -0.02 12 -0.01 17 -0.01 18 0.00 Contaminated zone b parameter 12 -0.01 13 0.00 19 -0.01 19 0.00 Evapotranspiration coefficient 15 0.00 9 0.01 18 -0.01 9 -0.01 Depth of roots 13 0.01 14 0.00 8 -0.03 11 -0.01 Mass loading for inhalation 16 0.00 16 0.00 14 0.02 15 0.00 Irrigation 11 0.01 7 0.03 6 0.04 5 0.06 Kd of Ni-63 in Contaminated Zone 5 -0.06 3 -0.15 5 -0.08 3 -0.12 Plant transfer factor for Ni 2 0.20 2 0.50 2 0.41 1 0.68 Meat transfer factor for Ni 4 0.09 8 0.03 4 0.18 8 0.04 Milk transfer factor for Ni 1 0.88 1 0.67 1 0.93 2 0.57 Fish transfer factor for Ni 17 0.00 17 0.00 13 0.02 14 0.00 R-SQUARE 0.87 0.87 0.95 0.95

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/03/2004 21:56 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Pu238-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/03/2004 21:56 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Pu238-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGNORMAL-N 10.77 .88 16 BRTF(82,1) LOGNORMAL-N -15.48 1.57 17 BRTF(82,2) TRUNCATED LOGNORMAL-N -7.13 .7 .001 .999 18 BRTF(82,3) TRUNCATED LOGNORMAL-N -8.11 .9 .001 .999 19 BBIO(82,1) LOGNORMAL-N 5.7 1.1 20 DCACTC(2) LOGUNIFORM 500 5000 21 BRTF(94,1) LOGUNIFORM .0000106 .000644 22 BRTF(94,2) TRUNCATED LOGNORMAL-N -9.21 .2 .001 .999 23 BRTF(94,3) TRUNCATED LOGNORMAL-N -13.82 .5 .001 .999 24 BBIO(94,1) LOGNORMAL-N 3.4 1.1 25 BRTF(88,1) TRUNCATED LOGNORMAL-N -3.22 .9 .001 .999 26 BRTF(88,2) TRUNCATED LOGNORMAL-N -6.91 .7 .001 .999 27 BRTF(88,3) TRUNCATED LOGNORMAL-N -6.91 .5 .001 .999 28 BBIO(88,1) LOGNORMAL-N 3.9 1.1 29 DCACTC(4) LOGUNIFORM 500 5000 30 BRTF(90,1) LOGUNIFORM .0000106 .000644 31 BRTF(90,2) TRUNCATED LOGNORMAL-N -9.21 1 .001 .999 32 BRTF(90,3) TRUNCATED LOGNORMAL-N -12.21 .9 .001 .999 33 BBIO(90,1) LOGNORMAL-N 4.6 1.1 34 DCACTC(5) LOGNORMAL-N 4.99 2.37 35 BRTF(92,1) LOGNORMAL-N -5.17 4.23 36 BRTF(92,2) TRUNCATED LOGNORMAL-N -7.13 .7 .001 .999 37 BRTF(92,3) TRUNCATED LOGNORMAL-N -7.82 .6 .001 .999 38 BBIO(92,1) LOGNORMAL-N 2.3 1.1

1 RESRAD Regression and Correlation output 08/04/04 17:56 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Pu238-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 33 -0.01 33 0.00 27 -0.01 32 0.00 External gamma shielding factor 21 -0.03 24 0.00 21 -0.02 25 0.00 Depth of soil mixing layer 11 0.03 17 0.01 26 0.01 31 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 6 -0.20 6 -0.04 4 -0.36 6 -0.04 Wet foliar interception fraction of leafy vegetables 5 0.26 5 0.05 3 0.41 4 0.04 Weathering removal constant of all vegetation 3 -0.52 3 -0.11 2 -0.74 2 -0.11 Density of contaminated zone 22 -0.02 9 -0.03 16 0.02 8 0.01 Contaminated zone total porosity 20 -0.03 7 -0.03 19 0.02 9 0.01 Contaminated zone hydraulic conductivity 16 0.03 21 0.00 12 0.03 15 0.00 Contaminated zone b parameter 28 0.02 28 0.00 37 0.00 38 0.00 Evapotranspiration coefficient 24 0.02 10 0.03 30 0.00 21 0.00 Depth of roots 17 -0.03 22 0.00 25 -0.01 30 0.00 Mass loading for inhalation 27 0.02 27 0.00 7 0.06 11 0.01 Irrigation 19 0.03 8 0.03 6 0.09 3 0.05 Kd of Pb-210 in Contaminated Zone 30 0.01 30 0.00 28 0.00 16 0.00 Plant transfer factor for Pb 8 0.05 12 0.01 34 0.00 27 0.00 Meat transfer factor for Pb 9 0.05 13 0.01 13 0.03 17 0.00 Milk transfer factor for Pb 31 0.01 31 0.00 15 -0.03 19 0.00 Fish transfer factor for Pb 32 -0.01 32 0.00 24 -0.01 29 0.00 Kd of Pu-238 in Contaminated Zone 2 -0.70 2 -0.26 1 -0.83 1 -0.95 Plant transfer factor for Pu 1 0.94 1 0.76 8 0.06 5 0.04 Meat transfer factor for Pu 29 0.01 29 0.00 18 0.02 22 0.00 Milk transfer factor for Pu 35 0.01 35 0.00 9 0.04 12 0.00 Fish transfer factor for Pu 7 0.13 11 0.02 5 0.19 7 0.02 Plant transfer factor for Ra 37 0.00 37 0.00 31 0.00 34 0.00 Meat transfer factor for Ra 14 0.03 20 0.01 10 0.04 13 0.00 Milk transfer factor for Ra 10 -0.04 15 -0.01 36 0.00 36 0.00 Fish transfer factor for Ra 38 0.00 38 0.00 35 0.00 35 0.00 Kd of Th-230 in Contaminated Zone 25 0.02 19 0.01 32 0.00 24 0.00 Plant transfer factor for Th 15 0.03 14 0.01 38 0.00 37 0.00 Meat transfer factor for Th 26 0.02 26 0.00 14 0.03 18 0.00 Milk transfer factor for Th 23 -0.02 25 0.00 23 -0.01 28 0.00 Fish transfer factor for Th 34 0.01 34 0.00 29 0.00 33 0.00 Kd of U-234 in Contaminated Zone 12 -0.03 16 -0.01 33 0.00 26 0.00 Plant transfer factor for U 4 0.36 4 0.07 22 0.01 10 0.01 Meat transfer factor for U 18 -0.03 23 0.00 11 -0.03 14 0.00 Milk transfer factor for U 13 0.03 18 0.01 20 0.02 23 0.00 Fish transfer factor for U 36 0.01 36 0.00 17 0.02 20 0.00 R-SQUARE 0.97 0.97 0.99 0.99

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/02/2004 18:13 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Pu239-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 08/02/2004 18:13 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Pu239-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGUNIFORM 200 5000 16 BRTF(89,1) LOGUNIFORM .0000106 .00331 17 BRTF(89,2) TRUNCATED LOGNORMAL-N -10.82 1 .001 .999 18 BRTF(89,3) TRUNCATED LOGNORMAL-N -13.12 .9 .001 .999 19 BBIO(89,1) LOGNORMAL-N 2.7 1.1 20 DCACTC(2) LOGUNIFORM 100 1000 21 BRTF(91,1) LOGUNIFORM .000187 .0114 22 BRTF(91,2) TRUNCATED LOGNORMAL-N -12.21 1 .001 .999 23 BRTF(91,3) TRUNCATED LOGNORMAL-N -12.21 .9 .001 .999 24 BBIO(91,1) LOGNORMAL-N 2.3 1.1 25 DCACTC(3) LOGUNIFORM 500 5000 26 BRTF(94,1) LOGUNIFORM .0000106 .000644 27 BRTF(94,2) TRUNCATED LOGNORMAL-N -9.21 .2 .001 .999 28 BRTF(94,3) TRUNCATED LOGNORMAL-N -13.82 .5 .001 .999 29 BBIO(94,1) LOGNORMAL-N 3.4 1.1 30 DCACTC(4) LOGNORMAL-N 4.99 2.37 31 BRTF(92,1) LOGNORMAL-N -5.17 4.23 32 BRTF(92,2) TRUNCATED LOGNORMAL-N -7.13 .7 .001 .999 33 BRTF(92,3) TRUNCATED LOGNORMAL-N -7.82 .6 .001 .999 34 BBIO(92,1) LOGNORMAL-N 2.3 1.1

1 RESRAD Regression and Correlation output 08/02/04 22:47 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Pu239-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 7 0.05 11 0.01 8 0.09 11 0.01 External gamma shielding factor 33 0.00 33 0.00 12 0.05 17 0.00 Depth of soil mixing layer 18 0.02 20 0.00 19 0.01 25 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 5 -0.21 7 -0.04 4 -0.55 6 -0.04 Wet foliar interception fraction of leafy vegetables 4 0.25 4 0.05 3 0.59 5 0.04 Weathering removal constant of all vegetation 3 -0.50 3 -0.10 2 -0.87 2 -0.10 Density of contaminated zone 9 -0.03 5 -0.04 28 0.01 18 0.00 Contaminated zone total porosity 10 -0.03 6 -0.04 30 0.00 19 0.00 Contaminated zone hydraulic conductivity 11 -0.03 13 -0.01 9 -0.07 13 0.00 Contaminated zone b parameter 24 0.01 25 0.00 34 0.00 34 0.00 Evapotranspiration coefficient 21 0.02 10 0.02 14 -0.02 8 -0.01 Depth of roots 26 0.01 27 0.00 27 -0.01 31 0.00 Mass loading for inhalation 34 0.00 34 0.00 16 0.02 22 0.00 Irrigation 16 0.03 8 0.04 6 0.15 3 0.06 Kd of Ac-227 in Contaminated Zone 31 0.00 31 0.00 22 0.01 12 0.01 Plant transfer factor for Ac 30 0.01 28 0.00 26 0.01 14 0.00 Meat transfer factor for Ac 13 -0.03 15 -0.01 17 0.02 23 0.00 Milk transfer factor for Ac 12 0.03 14 0.01 18 0.02 24 0.00 Fish transfer factor for Ac 32 0.00 32 0.00 29 0.00 32 0.00 Kd of Pa-231 in Contaminated Zone 27 0.01 22 0.00 31 0.00 21 0.00 Plant transfer factor for Pa 19 0.02 18 0.01 32 0.00 27 0.00 Meat transfer factor for Pa 23 -0.01 24 0.00 33 0.00 33 0.00 Milk transfer factor for Pa 22 -0.01 23 0.00 24 -0.01 29 0.00 Fish transfer factor for Pa 25 -0.01 26 0.00 10 0.06 15 0.00 Kd of Pu-239 in Contaminated Zone 2 -0.69 2 -0.26 1 -0.91 1 -0.93 Plant transfer factor for Pu 1 0.94 1 0.77 7 0.14 4 0.06 Meat transfer factor for Pu 8 0.04 12 0.01 11 0.05 16 0.00 Milk transfer factor for Pu 14 0.03 16 0.01 21 -0.01 26 0.00 Fish transfer factor for Pu 6 0.14 9 0.02 5 0.27 7 0.02 Kd of U-235 in Contaminated Zone 15 0.03 17 0.01 20 0.01 10 0.01 Plant transfer factor for U 20 0.02 21 0.00 15 0.02 9 0.01 Meat transfer factor for U 29 -0.01 30 0.00 23 0.01 28 0.00 Milk transfer factor for U 28 -0.01 29 0.00 25 0.01 30 0.00 Fish transfer factor for U 17 -0.02 19 0.00 13 0.03 20 0.00 R-SQUARE 0.97 0.97 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/23/2004 07:57 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Pu241-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/23/2004 07:57 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Pu241-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGUNIFORM 200 5000 16 BRTF(95,1) LOGUNIFORM .0000106 .00331 17 BRTF(95,2) TRUNCATED LOGNORMAL-N -9.9 .2 .001 .999 18 BRTF(95,3) TRUNCATED LOGNORMAL-N -13.12 .7 .001 .999 19 BBIO(95,1) LOGNORMAL-N 3.4 1.1 20 DCACTC(2) LOGUNIFORM 100 5000 21 BRTF(93,1) LOGUNIFORM .0000106 .0114 22 BRTF(93,2) TRUNCATED LOGNORMAL-N -6.91 .7 .001 .999 23 BRTF(93,3) TRUNCATED LOGNORMAL-N -11.51 .7 .001 .999 24 BBIO(93,1) LOGNORMAL-N 3.4 1.1 25 DCACTC(4) LOGUNIFORM 500 5000 26 BRTF(94,1) LOGUNIFORM .0000106 .000644 27 BRTF(94,2) TRUNCATED LOGNORMAL-N -9.21 .2 .001 .999 28 BRTF(94,3) TRUNCATED LOGNORMAL-N -13.82 .5 .001 .999 29 BBIO(94,1) LOGNORMAL-N 3.4 1.1 30 DCACTC(5) LOGUNIFORM 500 5000 31 BRTF(90,1) LOGUNIFORM .0000106 .000644 32 BRTF(90,2) TRUNCATED LOGNORMAL-N -9.21 1 .001 .999 33 BRTF(90,3) TRUNCATED LOGNORMAL-N -12.21 .9 .001 .999 34 BBIO(90,1) LOGNORMAL-N 4.6 1.1 35 DCACTC(6) LOGNORMAL-N 4.99 2.37 36 BRTF(92,1) LOGNORMAL-N -5.17 4.23 37 BRTF(92,2) TRUNCATED LOGNORMAL-N -7.13 .7 .001 .999 38 BRTF(92,3) TRUNCATED LOGNORMAL-N -7.82 .6 .001 .999 39 BBIO(92,1) LOGNORMAL-N 2.3 1.1

1 RESRAD Regression and Correlation output 07/23/04 13:36 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Pu241-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 11 0.04 14 0.01 8 0.07 11 0.00 External gamma shielding factor 23 -0.01 24 0.00 10 0.06 12 0.00 Depth of soil mixing layer 25 -0.01 26 0.00 34 0.00 37 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 4 -0.16 4 -0.03 4 -0.51 6 -0.03 Wet foliar interception fraction of leafy vegetables 5 0.14 5 0.03 3 0.56 5 0.03 Weathering removal constant of all vegetation 3 -0.37 3 -0.08 2 -0.85 3 -0.07 Density of contaminated zone 39 0.00 33 0.00 28 0.01 17 0.00 Contaminated zone total porosity 35 0.00 20 -0.01 21 0.01 10 0.00 Contaminated zone hydraulic conductivity 29 -0.01 31 0.00 16 -0.02 22 0.00 Contaminated zone b parameter 9 0.05 13 0.01 14 0.04 18 0.00 Evapotranspiration coefficient 19 0.02 6 0.03 32 0.00 23 0.00 Depth of roots 7 -0.06 11 -0.01 15 -0.03 21 0.00 Mass loading for inhalation 34 0.00 36 0.00 12 0.05 14 0.00 Irrigation 21 0.01 8 0.02 7 0.12 4 0.04 Kd of Am-241 in Contaminated Zone 2 -0.65 2 -0.22 1 -0.95 1 -0.92 Plant transfer factor for Am 1 0.96 1 0.83 5 0.24 2 0.08 Meat transfer factor for Am 37 0.00 38 0.00 36 0.00 38 0.00 Milk transfer factor for Am 14 0.03 16 0.01 13 0.04 16 0.00 Fish transfer factor for Am 6 0.10 7 0.02 6 0.22 8 0.01 Kd of Np-237 in Contaminated Zone 22 0.01 22 0.00 35 0.00 27 0.00 Plant transfer factor for Np 17 0.02 18 0.01 39 0.00 36 0.00 Meat transfer factor for Np 28 -0.01 30 0.00 27 0.01 33 0.00 Milk transfer factor for Np 38 0.00 39 0.00 25 -0.01 32 0.00 Fish transfer factor for Np 16 0.03 19 0.01 33 0.00 35 0.00 Kd of Pu-241 in Contaminated Zone 33 0.01 28 0.00 9 -0.06 7 -0.02 Plant transfer factor for Pu 10 0.04 10 0.01 20 -0.01 9 0.00 Meat transfer factor for Pu 27 -0.01 29 0.00 17 0.02 24 0.00 Milk transfer factor for Pu 26 0.01 27 0.00 29 0.00 34 0.00 Fish transfer factor for Pu 24 0.01 25 0.00 11 0.05 13 0.00 Kd of Th-229 in Contaminated Zone 13 0.03 12 0.01 37 0.00 28 0.00 Plant transfer factor for Th 8 0.05 9 0.02 31 0.00 20 0.00 Meat transfer factor for Th 15 0.03 17 0.01 38 0.00 39 0.00 Milk transfer factor for Th 12 -0.03 15 -0.01 24 0.01 31 0.00 Fish transfer factor for Th 32 0.01 35 0.00 23 0.01 30 0.00 Kd of U-233 in Contaminated Zone 20 0.01 23 0.00 30 0.00 19 0.00 Plant transfer factor for U 31 -0.01 34 0.00 26 -0.01 15 0.00 Meat transfer factor for U 30 -0.01 32 0.00 18 -0.02 25 0.00 Milk transfer factor for U 36 0.00 37 0.00 19 -0.01 26 0.00 Fish transfer factor for U 18 0.02 21 0.00 22 0.01 29 0.00 R-SQUARE 0.96 0.96 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/31/2004 20:36 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: SB125-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/31/2004 20:36 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: SB125-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) LOGNORMAL-N 7.35 1.11 16 BRTF(51,1) LOGNORMAL-N -9.37 1.98 17 BRTF(51,2) TRUNCATED LOGNORMAL-N -6.91 .9 .001 .999 18 BRTF(51,3) TRUNCATED LOGNORMAL-N -9.72 .9 .001 .999 19 BBIO(51,1) LOGNORMAL-N 4.6 1.1

1 RESRAD Regression and Correlation output 07/31/04 20:36 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : SB125-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 12 0.02 14 0.00 7 0.04 9 0.00 External gamma shielding factor 1 1.00 1 1.00 1 1.00 1 1.00 Depth of soil mixing layer 10 0.02 13 0.00 15 0.01 17 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 14 -0.01 16 0.00 14 0.01 16 0.00 Wet foliar interception fraction of leafy vegetables 13 0.01 15 0.00 12 0.01 14 0.00 Weathering removal constant of all vegetation 5 -0.08 9 0.00 3 -0.07 6 0.00 Density of contaminated zone 16 0.01 7 0.00 5 -0.04 3 -0.01 Contaminated zone total porosity 15 0.01 6 0.00 6 -0.04 4 -0.01 Contaminated zone hydraulic conductivity 19 -0.01 19 0.00 10 0.01 12 0.00 Contaminated zone b parameter 18 -0.01 18 0.00 9 -0.01 11 0.00 Evapotranspiration coefficient 11 -0.02 5 0.00 18 0.00 10 0.00 Depth of roots 9 0.02 12 0.00 19 0.00 19 0.00 Mass loading for inhalation 7 -0.04 11 0.00 11 -0.01 13 0.00 Irrigation 8 0.02 4 0.00 17 0.01 7 0.00 Kd of Sb-125 in Contaminated Zone 3 -0.37 3 0.00 2 -0.07 2 -0.01 Plant transfer factor for Sb 2 0.92 2 0.02 8 0.02 5 0.00 Meat transfer factor for Sb 4 0.08 8 0.00 4 0.05 8 0.00 Milk transfer factor for Sb 17 0.01 17 0.00 13 0.01 15 0.00 Fish transfer factor for Sb 6 0.06 10 0.00 16 -0.01 18 0.00 R-SQUARE 1.00 1.00 1.00 1.00

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/30/2004 11:07 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Sr-90-concrete.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/30/2004 11:07 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Sr-90-concrete.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DCACTC(1) UNIFORM 10 11 13 BRTF(38,1) UNIFORM .587 .696 14 BRTF(38,2) TRUNCATED LOGNORMAL-N -4.61 .4 .001 .999 15 BRTF(38,3) TRUNCATED LOGNORMAL-N -6.21 .5 .001 .999 16 BBIO(38,1) LOGNORMAL-N 4.1 1.1 17 DROOT UNIFORM .3 3.8 18 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 19 RI UNIFORM .252 .618

1 RESRAD Regression and Correlation output 07/30/04 11:09 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Sr-90-concrete.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 13 0.02 14 0.00 11 -0.02 13 -0.01 External gamma shielding factor 18 0.01 19 0.00 13 0.01 15 0.00 Depth of soil mixing layer 12 0.03 12 0.01 17 0.01 17 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 6 -0.30 9 -0.06 6 -0.17 9 -0.05 Wet foliar interception fraction of leafy vegetables 5 0.34 8 0.08 4 0.21 7 0.07 Weathering removal constant of all vegetation 2 -0.86 2 -0.34 2 -0.76 2 -0.36 Density of contaminated zone 11 -0.04 11 -0.06 19 0.00 18 0.00 Contaminated zone total porosity 10 -0.04 10 -0.06 16 -0.01 11 -0.02 Contaminated zone hydraulic conductivity 15 -0.01 16 0.00 10 0.03 12 0.01 Contaminated zone b parameter 16 -0.01 17 0.00 14 0.01 16 0.00 Evapotranspiration coefficient 19 0.00 13 0.01 15 0.01 10 0.02 Kd of Sr-90 in Contaminated Zone 9 -0.08 6 -0.12 9 -0.08 6 -0.16 Plant transfer factor for Sr 8 0.17 4 0.24 8 0.10 5 0.21 Meat transfer factor for Sr 3 0.86 3 0.34 3 0.74 3 0.34 Milk transfer factor for Sr 1 0.96 1 0.72 1 0.91 1 0.67 Fish transfer factor for Sr 4 0.46 7 0.11 5 0.20 8 0.06 Depth of roots 14 0.02 15 0.00 12 0.01 14 0.00 Mass loading for inhalation 17 -0.01 18 0.00 18 0.00 19 0.00 Irrigation 7 0.17 5 0.24 7 0.10 4 0.21 R-SQUARE 0.96 0.96 0.91 0.91

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:13 Page 1 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Tc99-concrete-SA.RAD Table of Contents Part VI: Uncertainty Analysis 0RESRAD Uncertainty Analysis Results Probabilistic Input ................................. 2 Total Dose .......................................... 3 Total Risk .......................................... 4 Dose vs Pathway: Ground External ................... 5 Dose vs Pathway: Inhalation (w/o Radon) ............ 6 Dose vs Pathway: Radon (Water Ind.) ................ 7 Dose vs Pathway: Plant (Water Ind.) ................ 8 Dose vs Pathway: Meat (Water Ind.) ................ 9 Dose vs Pathway: Milk (Water Ind.) ................ 10 Dose vs Pathway: Soil Ingestion .................... 11 Dose vs Pathway: Water Ingestion ................... 12 Dose vs Pathway: Fish Ingestion .................... 13 Dose vs Pathway: Radon (Water Dep.) ................ 14 Dose vs Pathway: Plant (Water Dep.) ................ 15 Dose vs Pathway: Meat (Water Dep.) ................ 16 Dose vs Pathway: Milk (Water Dep.) ................ 17 Cumulative Probability Summary....................... 18 Summary of dose at graphical times, reptition 1..... 19 Peak of the mean dose at graphical times............. 20 Correlation and Regression coefficients (if any)..... 21

1RESRAD, Version 6.21 T1/2 Limit = 0.5 year 07/22/2004 12:13 Page 2 Probabilistic results summary : YR submerged concrete- Intruder (no cover) Scen-ario File: Tc99-concrete-SA.RAD Probabilistic Input 0Number of Sample Runs: 2000 Number Name Distribution Parameters 1 SHF3 UNIFORM .15 .95 2 SHF1 BOUNDED LOGNORMAL-N -1.3 .59 .044 1 3 DM TRIANGULAR 0 .15 .6 4 YV(1) TRUNCATED LOGNORMAL-N .56 .48 .001 .999 5 RWET(2) TRIANGULAR .06 .67 .95 6 WLAM TRIANGULAR 5.1 18 84 7 DENSCZ UNIFORM 1.41 1.67 8 TPCZ UNIFORM .24 .36 9 HCCZ LOGUNIFORM 10000 10000000 10 BCZ BOUNDED LOGNORMAL-N -.0253 .216 .501 1.9 11 EVAPTR UNIFORM .5 .75 12 DROOT UNIFORM .3 3.8 13 MLINH CONTINUOUS LINEAR 8 0 0 .000008 .0151 .000016 .1365 .00003

.8119 .00004 .9495 .00006 .9937 .000076 .9983 .0001 1 14 RI UNIFORM .252 .618 15 DCACTC(1) UNIFORM 6 21 16 BRTF(43,1) UNIFORM .185 1.73 17 BRTF(43,2) TRUNCATED LOGNORMAL-N -9.21 .7 .001 .999 18 BRTF(43,3) TRUNCATED LOGNORMAL-N -6.91 .7 .001 .999 19 BBIO(43,1) LOGNORMAL-N 3 1.1

1 RESRAD Regression and Correlation output 07/22/04 12:15 Page: Coef 1 Title  : YR submerged concrete- Intruder (no cover) Scenario Input File : Tc99-concrete-SA.RAD Coefficients for peak of mean dose time Dose Coefficient = PCC SRC PRCC SRRC Repetition = 1 1 1 1 Description of Probabilistic Variable Sig Coeff Sig Coeff Sig Coeff Sig Coeff Indoor dust filtration factor 15 0.01 18 0.00 18 -0.01 18 0.00 External gamma shielding factor 10 0.03 13 0.00 19 0.00 19 0.00 Depth of soil mixing layer 9 0.04 12 0.01 10 -0.03 11 0.00 Wet weight crop yield of fruit, grain and non-leafy vegetables 6 -0.09 7 -0.01 6 -0.15 9 -0.01 Wet foliar interception fraction of leafy vegetables 5 0.14 6 0.02 5 0.16 8 0.02 Weathering removal constant of all vegetation 3 -0.43 4 -0.06 3 -0.48 4 -0.05 Density of contaminated zone 16 0.01 8 0.01 9 -0.03 7 -0.02 Contaminated zone total porosity 18 0.01 11 0.01 8 -0.03 6 -0.02 Contaminated zone hydraulic conductivity 14 -0.02 17 0.00 17 -0.01 17 0.00 Contaminated zone b parameter 11 -0.03 14 0.00 13 0.02 14 0.00 Evapotranspiration coefficient 17 0.01 9 0.01 14 0.02 10 0.01 Depth of roots 19 0.00 19 0.00 11 -0.03 12 0.00 Mass loading for inhalation 13 -0.02 16 0.00 15 -0.02 15 0.00 Irrigation 8 0.05 5 0.04 7 0.04 5 0.02 Kd of Tc-99 in Contaminated Zone 4 -0.25 2 -0.21 4 -0.24 2 -0.16 Plant transfer factor for Tc 2 0.68 1 0.77 2 0.79 1 0.83 Meat transfer factor for Tc 12 0.02 15 0.00 12 0.02 13 0.00 Milk transfer factor for Tc 1 0.85 3 0.19 1 0.84 3 0.14 Fish transfer factor for Tc 7 0.05 10 0.01 16 0.01 16 0.00 R-SQUARE 0.99 0.99 0.99 0.99

-Rank is set to zero if the dose is zero or the correlation matrix is singular.

-R-SQUARE varies between 0 and 1 and is called the coefficient of determination; it provides a measure of the

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