Text

Forwards Util Responses to NRC Comments Provided in NRC Ltr Re Sampling & Survey Plan Used for Final Radiological Survey of Liquid Effluent Pathway at Ft St Vrain
	ML20134D155
Person / Time
Site:	Fort Saint Vrain
Issue date:	01/31/1997
From:	Borst F; PUBLIC SERVICE CO. OF COLORADO
To:	Jim Hickey; NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM), NRC OFFICE OF NUCLEAR MATERIAL SAFETY & SAFEGUARDS (NMSS)
Shared Package
ML20134D159	List: ML20134D155; ML20134D166;
References
	P-97007, NUDOCS 9702050007
	Download: ML20134D155 (77)
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x G eubiic service-

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16805 WCR 191/2; Platteville, Colorado 80651 January 31,1997 Fort St. Vrain P-97007 l

U. S. Nuclear Regulatory Commission ATI'N: Document Control Desk Washington, D. C. 20555 ATIN:

Mr. John W. Hickey, Chief Decommissioning and Regulatory Issues Branch Docket No. 50-267

SUBJECT:

Response to NRC Comments Regarding the Proposed Sampling and Survey Plan for the FSV Emment Pathway

REFERENCES:

1.

NRC Ietter, Pittiglio to Crawford, dated January 8,1997 (G-97001) 2.

PSCo Ixtter, Borst to Weber, dated September 11,1996 (P-96068) 3.

PSCo Ietter, Bors: % Weber, dated October 30,1996 (P-96091)

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Dear Mr. Hickey:

Attached are Public Service Company of Colorado's (PSCo) responses to the NRC's comments provided in Reference 1, regarding the sampling and survey plan used for the final radiological survey of the liquid effluent pathway at Fort St. Vrain.

PSCo previously submitted a proposed sampling and survey plan for this area in Reference 2, and the survey results for this area were included in Volume 6 of the Final Survey Repart, submitted via Reference 3.

As explained in Reference 2, the liquid effluent pathway at Fort St. Vrain consists of

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concrete lined ditches, unlined ditches, and a 25 acre farm pond. Adjacent farm pasture lands have historically been irrigated with water from these ditches. Each of these areas

\\g presents a different potential for contamination.- PSCo's proposed plan divides the yLv effluent pathway area into three classifications, with three different levels of survey coverage so that survey resources can be allocated to those areas with the greatest 9702050007 970131 PDR ADOCF. 05000267 PDR y

N P-97007 January 31,1997 i

Page 2 potential for contamination. The division of effluent pathway areas is based on an extensive characterization survey program that tracked radioactivity in ditch sediments and adjacent areas since 1994. In response to an NRC question, survey data from this characterization survey program is provided in a binder enclosed with this letter, which is intended to be added to the Fort St. Vrain Final Survey Report.

i PSCo considers that the sampling and survey plan used for final survey of the Fort St.

l Vrain liquid effluent pathway is reasonable and sufficiently comprehensive. Also, we consider that the rurvey data provided in the initial submittal of the Final Survey Report, Reference 3, and in the binder enclosed with this letter, demonstrate that this area satisfies the acceptance criteria for unconditional release. PSCo requests your approval as soon as practical.

1 If you have any questions regarding this information, please contact Mr. M. H. Holmes at (303) 571-7633.

Sincerely, a

&dw c W

u Frederic2Ih Borst DecommYssioning Program Director i

FJB/SWC Attachments cc:

w/ attachments Regional Administrator, Region IV Mr. Robert M. Quillin, Director Padiation Control Division Coiomde Department of Public Health and Environment Y

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1 ATTACEMENT TO P-97007 RESPONSE TO NRC COMMENTS PROVIDED IN LETTER DATED JANUARY 8,1997 REGARDING PROPOSED SAMPLING AND SURVEY PLAN FOR FORT ST. VRAIN LIQUID EFFLUENT PATHWAY

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NRC Comment 1)

The RESRAD analysis for determining the site-specific guideline values used a scenario that assumes the open land areas will continue to be used as pasture land. Additional information is needed to support the assumed future land use and potential future dose to members of the public.

PSC should use the default parameters from Scenario C of PG-8-08 to determine the most conservative unrestricted use dose and compare this dose with the dose using the site-specific guideline values PSC believes to be more realistic. Approval of the alternate scenario will i

depend on the magnitude of the differences between the baseline and guideline values, the time required for the dose from Scenario C to be reduced to acceptable levels by radionuclide decay (which provides an indication of how long the alternate land use scenario would need to be in place), and the strength of the justification for the alternative scenario.

PSCO Response:

PSCo developed site specific guideline values (SGLV) for residual nuclide concentrations in soil, water and sediment. Soil and sediment SGLVs were determined using RESRAD and NRC Policy and Guidance Directive (PG-8-08) resident farmer scenario (C) with adj ustments to certain parameters as appropriate for Fort St. Vrain as described in FSV-FRS-TBD-209, " Final Survey Requirements for the Liquid Effluent Pathway", submitted on September 11,1996 (P-96068).

Please note that for simplicity the word dose is used throughout the responses in lieu of annual i

total effective dose equivalent.

In response to the request to provide additional information to support the assumed future land use, PSCo understands that the key issue involves PSCo's assumption that no residences would

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be established onsite. PSCo identified the site specific RESRAD parameter values used at Fort St. Vrain in Section 7.7 of FSV-FRS-TBD-209. PG-8-08 assumes the Onsite Fraction of Time Indoors for the exposed individual is 0.55; TBD-209 states that for Fort St. Vrain this factor is 0.00, since "[T]his owner-controlled area has historically been used as permanent pasture, and would not reasonably be used as the location of a residence." This assumption is furtherjustified as follows:

All lands considered part of the liquid effluent pathway have been owned by PSCo for the entire duration of the Fort St. Vrain license period, and PSCo has no plans to change the ownership status of these lands.

The liquid effluent pathway has historically been used exclusively for agricultural purposes. Because ofits topography and because it is well-serviced by irrigation ditches, which are extremely valuable in this arid western region, this land is well suited for agricultural use. PSCo maintains the active agricultural use of these lands through a property manager and is very satisfied with this arrangement. PSCo has no plans to change the active agricultural status of these lands.

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The remaining Fort St. Vrain site is valuable to PSCo as a repowered generating station and switchyard. PSCo has already completed installation of a 130 MWe natural gas-fired combustion turbine and is in the process of installing a 102 MWe heat recovery steam generator. There are plans to install an additional combustion turbine and heat recovery steam generator to bring the total generating capacity of the Fort St. Vrain site to 471 MWe in 1999. PSCo has no plans to change the current industrial status of the Fort St.

Vrain site.

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The discussions below of unrestricted dose in the liquid effluent pathway demonstrate that the estimated dose using site specific parameters for the survey area with the highest UCL concentrations, is currently less than 10 mrem per year, as required by the Fort St. Vrain 1

Final Survey Plan. Even in the most conservative scenario (which is based on nuclide concentrations found in a marshy area adjacent to an irrigation ditch), a conservative l

analysis using PG-8-08 default values for the Resident Farmer scenario indicates that the unrestricted dose would decay to less than 10 mrem in about 4.5 years.

All of the areas with elevated nuclide concentrations were located adjacent to ditches, marsh areas, or the sediment storage area. PSCo does not consider it likely that j

residences will be built on these areas, and if they are, the process of filling in marsh areas or digging up ground for a foundation would cover or remove the surface activity.

It is unlikely that the liquid effluent pathway would be used for a housing development within 2 to 3 years because of the planning process, zoning changes, permit requirements, site preparation and construction activities associated with such a project. Construction of a single individual residence would likely require a year and would most likely be in an area with nuclide concentrations that are well within the site specific guideline values, as determined above using the PG-8-08 default parameters.

1 PSco has determined dose conversion factors using scenario C from PG-8-08. A comparison of the PG-8-08 scenario C and FSV-TBD-209 concentration guideline values for soil which are equivalent to 10 mrem / year is provided in Table 1-1.

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Table 1-1 Comparison of Concentration Guideline Values Nuclide PG-8-08 Scenario C FSV-TBD-209 (pCi/g/10 mrem)

(pCi/g/10 mrem)

Co-60 1.86E+00 5.58E+00 Cs-134 2.87E+00 7.87E+00 Cs-137 7.48E+00 1.87E+01 Eu-lG 4.25E+00 1.32E+01 Eu-154 3.90E+00 1.21E+01 Eu-155 1.42E+02 4.39E+02 Fe-55 2.40E+04 2.46E+04

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H-3 9.12E+02 9.12E+02 Sr-90 9.19E+00 9.27E+00 i

For comparison of the dose using PG-8-08, scenario C, and the dose associated with the guideline values PSC believes to be more realistic, two approaches have been used.

Comparison 1 used the maximum weighted mean concentration result identified during Final survey to estimate the most conservative unrestricted use dose (PG-8-08, scenario C), and to estimate the time required for the dose to be reduced to 10 mrem per year. The maximum 2

weighted mean was calculated for 100 m area in accordance with FSV Final Survey Plan equations and was obtained during Investigation surveys within Survey Area E0008, Irrigation Ditch 2, North and South Marsh.

Comparison 2 used the survey unit having the highest average concentration (upper confidence limit of the mean at the 95 % confidence level, UCL) identified during Final survey to estimate the most conservative unrestricted use dose (PG-8-08, scenario C) and to estimate the time required for the dose to be reduced to 10 mrem per year.

The default parameters for occupancy (onsite and offsite fractions) from Scenario C of PG-8-08 were used for these evaluations. Other parameters (i.e. irrigation rate and precipitation rate, and length parallel to aquifer) listed in Table 7.5 of FSV-TBD-209 were not altered for this evaluation. These values were considered to be more conservative than those listed in PG-8-08.

For these comparisons, it was conservatively assumed that the activity was uniformly distributed 3

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over the entire area of the Liquid Effluent Pathway (207,300 square meters). This includes the i.

area adjacent to the pathway ditches and pasture lands irrigated from the ditches, and is the same l

assumption used to calculate the FSV-TBD-209 guideline values. The concentrations were i

assumed to be uniformly distributed over the entire area of the Liquid Effluent Pathway to I

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provide a conservative estimate of potential for exposure. The PG-8-08, scenario C doses were compared with resulting doses obtained using FSV-TBD-209. A summary table is provided in Table 1-2 below, detailed explanations about the results follow.

i Table 1-2 j

Summary of Dose Comparisons Between PG-8-08, Scenario C, and FSV-TBD-209 PG-8-08 PG-8-08 FSV-TBD-209 Scenario C Scenario C, time to mrem /yr @ t=0 nrem/yr @ t=0 reach 10 mrem /yr l

Comparison 1 5.4 mrem /yr 15.1 mrem /yr 4.5 years max weighted mean Survey Area E0008 2

j 100 m area 1

l Comparison 2 3.4 mrem /yr 7.6 mrem /yr 0

survey unit with highest average l

UCL, Survey Area E0008 Also, please note that a typographical error exists in FSV-TBD-209, Table 7.5. The PG-8-08 value for Onsite Fraction of Time Indoors should be 0.55 versus 0.21. The RESRAD Default j

l value for Onsite Fraction of Time Outdoors should be 0.21 versus 0.55.

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i Comnarison 1 For evaluation of the maximum weighted mean, the averages of each of the nuclide concentration from the Investigation samples collected within the 100 square meter area were used for the RESRAD analysis. The resulting estimate of the potential dose using PG-8-08, scenario C assumptions is 15.1 mrem / year at t=0 and is shown in Figure 1-1.

After a period of approximately 4.5 years, the dose is reduced to 10 mrem per year. The RESRAD summary report has been included as Attachment 1.

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Figure 1-1 TEDE Based on Maximum Weighted Mean 100 Square Meter Area, Assumed Uniform Distribution Over 207,300 Square Meters i

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Years ARor Anstrees(yf) so TEDE Co40 Ca-1M Co 137 Ee182 Ev 154 5

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I Using the PG-8-08, Scenario C assumptions for evaluation of the survey unit having the highest average concentration (UCL), resulted in a estimate of the unrestricted use dose at t=0 of less than 10 mrem per year as shown in Figure 1-2. The corresponding RESRAD summary report has been included as Attachment 2.

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Figure 12 TEDE Based on Highest Survey Unit Average (UCL) Concentration Assumed Uniform Distribution Over 207,300 Square Meters

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M Co48 Co-1M Co-137 Ea>182 Es-1M The evaluation shown in Figure 1-2 shows that under these conservative assumptions, the estimate of the dose for the survey unit having the highest average concentration would not exceed 10 mrem /yr. The maximum weighted mean for the 100 square meter area containing an elevated sample result (Figure 1-1) would not result in an estimate significantly greater than 10 mrem per year, and would be reduced to less than 10 mrem / year within a period of approximately 4.5 years.

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PG-8-08 assumes occupancy over uniform activity distribution rather than periodic exposure within reasonable proximity to localized sources. For conditions of localized activity, it is appropriate to base the estimate of the dose on an average obtained from an area of 100 square meters, or more, in order to approximate a realistic exposure scenario.

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As further indication of the conservatism in the liquid effluent pathway analysis, PSCO determined that even if all of the activity released via the liquid effluent pathway during i

2 decommissioning were to remain in the 207,300 m area, the resultant nuclide concentrations would be less than the Guideline Values identified in Table 1-1. Based on Fort St. Vrain's Annual Effluent Release Reports for 1993,1994,1995, and 1996, the release totals and concentrations are as follows:

Nuclide Total Releases Concentration * (from total PG-8-08 Scenario C 2

1993 - 1996 releases) Over 207,300 m Guideline Values (Cl)

(pC1/g)

(pCi/g per 10 mrem /yr) l Co-60 7.24E-03 1.45E-01 1.86E+00 l

Cs-134 1.35E-03 2.71E-02 2.87E+00 Cs-137 1.36E-02 2.73E-01 7.48E+00 i

Eu-152 1.06E-03 2.13E-02 4.25E+00 Eu-154 7.83E-04 1.57E-02 3.90E+00 i

Eu-155 2.27E-04 4.56E-03 1.42E+02 Fe-55 2.16E-01 4.34E+00 2.40E+04 l

H-3 5.00E+00 1.00E+02 9.12E+02

Based on 15 cm deep,240 kg/m per Appendix E-15 in Regulatory Guide 1.109 2

l This includes all releases of PCRV shield water; previous releases during operations included tritium and some amounts of gamma emitting nuclides; the majority of gamma emittir.g nuclides released to the environment via liquid effluent releases were made during this decommissioning period. The concentration conservatively assumes all activity was retained uniformly in the area l

without any migrating to the river as designed.

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NRC Comment 2)

Were subsurface samples collected during characterization to support the PSC conclusion that j

contamination is limited to the surface? If so, please provide the results. If not, please provide additional information supporting this conclusion.

PSCo Response:

i Yes.

Subsurface samples were collected during the Characterization survey, during the Follow-Up survey, and during the Final survey as a part of the investigation process where elevated concentrations were identified. Summary results of the Characterization survey which included subsurface samples are also provided in the Decommissioning and Remediation Activities section of the Release Record for each Survey Area. The results of the various characterization and Final survey subsurface samp1!ng have been provided in Tables 2-1 through 2-9. Table 2-3 contains results of 21 of the 81 locations where surface and subsurface soil samples were collected in pastures. Table 2-3 represents only those locations where results above background concentrations were observed.

In addition to the following subsurface sample information, an evaluation was performed to determine the contribution to the dose from activity within the region of subsurface samples (0.15

- 0.30 meter depth (i.e. 6 to 12 inches)). The evaluation consisted of RESRAD analysis using the parameters from FSV-TBD-209 as defined in Response 1, and assuming that all nuclides of interest were present at their respective concentration SGLV. The RESRAD analysis was performed with 0 meters of cover depth, and then with 0.15 meters of cover depth. The difference between the resulting doses served to define the shielding factor afforded by the uppermost 0.15 meters of cover depth.

The evaluation showed that activity from all nuclides of interest present at their respective concentration SGLV within the subsurface region contributed only 0.165 of the dose contributed from the same activity present within the 0 - 0.15 meter region. For evaluation of subsurface sample results, FSV-TBD-209 did not account for the shielding afforded by the uppermost 0.15 meters of soil and the dose contributions from related surface and subsurface samples were not summed.

Since external exposure is the dominant pathway, to obtain a more accurate approximation of the dose contribution from activity within the region of subsurface samples, each of the resulting doses for the following subsurface samples could be corrected by multiplying the resultant dose by a factor of 0.165.

For the maximum individual surface sample concentration result (obtained from the Goosequill Ditch Banks during Final Survey, sample ID E0002LZZ001G IG02, Imcation # 00101), including the contribution from the activity within the region of the related subsurface sample would have increased the reported result by approximately 0.2 mrem /yr. For the maximum indiviGral subsurface sample concentration result (obtained from the Sediment Storage Area during Final survey, sample ID E0014LS001 GIT 01, Location # 00039), including the contribution from the 8

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activity in the related surface sample would have increased the reported result by approximately 0.8 mrem /yr. In all instances, the increase to the reported result caused by summing the surface i

and subsurface results would not have resulted in an estimated dose in excess of the guideline i

j value.

e Table Notes: For the Characterization sample results contained in Tables 2-1 through 2-8, the

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suffix "SUB" is used to identify the sample as subsurface.

i The results contained in Tables 2-1 through 2-8 were not corrected for Cs-137 in j

the FSV background which was determined to be 0.10 pCi/g in subsurface soils.

i B1 -k cells indicate that values were less than detectable and not reported.

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Table 2-1 l

Comparison of Characterization Survey Surface / Subsurface Sample Results i

Goosequill Ditch Banks Sample Number'~

.Cs-134'

' Csi 37:

Co40 Eu-152 _

Eu-154 -

Eu-155 TEDE 1

- pCi/g pCi/gL pCi/g pCi/g pCi/g pCi/g '--

mrem /y ~

GQDB.uR.002 0.243 4.903 0.618 0.169 0.142 3.851 GQDB.SUB.001 0.387 0.073 0.339 GQDB. SED.004 0.642 9.558 3.427 0.972 0.693 0.446 13.384 GQDB.SUB.002 0.180 0.096 GQDB.uR.006 0.145 3.024 6.363 0.744 0.385 14.080 GQDB.SUB.003 0.073 0.130 GQDB. SED.008 0.435 7.065 7.176 1.096 0.753 0.374 18.640 GQDB.SUB.004 GQDB.uR.Oll 0.079 1.589 1.534 0.299 0.185 0.238 4.082 GQDB.SUB.005 0.349 0.158 0.469 GQDB.uR.012 0.324 5.5%

4.601 0.760 0.505 0.288 12.641 GQDB.SUB.006 GQDB. SED.010 1.295 18.902 27.676 4.892 2.943 2.003 67.485 GQDB.SUB.007 0.441 0.678 1.450 GQDB. SOIL.021 0.466 0.249 l

GQDB.SUB.008 j

GQDB. SOIL.036 0.971 1.243 2.744 GODB.SUB.009 0.121 0.135 0.306 GQDB. SED.017 0.372 5.821 2.862 0.544 0.362 0.310 9.428 nonn stm oio o (44 o 410 i 141 10

Table 2-2 Comparison of Characterization Survey Surface / Subsurface Sample Results Jay Thomas Ditch Samples sarnple Number Co.134 '

Co-137 Co-60 Eu-152 Eu-154 Eu-155 TEDE pCUg.

pCUs pCUg pCUg pCUg pCUg snrenvy TT. SOIL.SUR.001 0.100 0.054 o

TT. SOIL.SUB.001 0.079 0.042 TT. SOIL.SUR.002 0.178 0.095 TT. SOIL.SUB.002 0.064 0.034 Tr. SOIL.SULLOO3 0.136 0.073 TT. SOIL.SUB.003 0.130 0.069 TT. SOIL.SUR.004 0.267 0.143 TT. SOIL.SUB.004 0.117 0.062 Tr. SOIL.SUR.005 0.073 0.039 TT. SOIL.SUB.005 0.076 0.041 Tr. SOIL.SUR.006 Tr. SOIL.SUB.006 0.072 0.039 TT. SOIL.SUR.007 0.135 0.072 TT. SOIL.SUB.007 0.107 0.057 TT. SOIL.SUR.008 Tr. SOIL.SUB.008 0.080 0.043 TT. SOIL.SUR.009 TT. SOIL.SUB.009 Tr. SOIL.SUR.010 0.219 0.117 TT SOfL SUB 010 11

Table 2-3 Comparison of Characterization Survey Surface / Subsurface Sample Results Pasture Soll Samples Showing Concentrations above Background Sample Number Cs-134 Cs 137 Co-60 Eu-152 Eu-154 Eu-155 TEDE pCi/g pCi/g pCi/g pCi/g pCilg pCilg mrem /yr PAST. SOIL 001.0-6 0.119 3.204 0.960 1 739 1.597 3.584 PAST.SUB.001 0.222 0.I19 PAST.SOILOO2.0-6 1.677 0.233 1.314 PAST.SUB.002 PAST. SOIL.003.0-6 1.102 0.120 0.805 PAST.SUB.003 PAST.SOILOO6.0-6 0.699 0.214 0.757 PAST.SUB.006 0.215 0.115 PAST. SOIL 008.0-6 0.046 1.384 0.131 1.033 PAST.SUB.008 0.167 0.089 PAST.SOILOO9.0-6 0.022 1.596 0.119 1.095 j

PAST.SUB.009 0.326 0.174 PAST. SOIL 010.0-6 0.028 1.292 0.130 0.958 PAST.SUB.010 0.629 0.336 PAST. SOIL 0ll.04 0.468 0.250 PAST.SUB.O11 PAST.SOILO14.0-6 0.495 0.045 0.345 PAST.SUB.O14 0.I19 0.064 PAST. SOIL 015.0-6 0.199 0.107 PAST.SUB.015 0.143 0.076 PAST. SOIL 017.0-6 0.327 0.032 0.233 PAST.SUB.017 0.087 0.047 PAST. SOIL.022.0-6 0.030 0.880 0.671 1.710 PAST.SUB.022 l

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i Table 2-3 (continued)

Comparison of Characterization 5 ney Surface / Subsurface Sample Results Pasture Soil Sampler Showing Man Made Nuclides j

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Sample Number Cs-134 -

Cs-137 Co-60 Eu-152 Eu-154 Eu-155 TEDE I

pCilg pCi/g pCilg pCi/g pCi/g pCi/g mrem /yr

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PAST. SOIL.023.0-6 0.067 1.410 0.153 1.112 PAST.SUB.023 0.064 0.034 PAST. SOIL.041.0-6 0.666 0.040 0.428 PAST.SUB.041 l

PAST. SOIL.049.0-6 0.393 0.049 0.298 PAST.SUB.049 0.%I 0.514 PAST. SOIL.050.0-6 0.508 0.057 0.373 PAST.SUB.050 0.118 0.063 l

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PAST. SOIL.051.0-6 0.030 0.795 0.053 0.559

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PAST.SUB.051 0.111 0.059 PAST.SolL.053.0-6 0.942 0.044 0.583 PAST.SUB.053 0.031 0.017 1

PAST. SOIL.054.0-6 0.705 0.049 0.464 PAST.SUB.054 0.D2 0.070 4

i PAST.SOILO55.04 0.017 0.404 0.238 PAST.SUB.055 0.092 0.049 j

PAST. SOIL.056.0-6 0.030 0.606 0.362 PAST.SUB.056 0.225 0.120 4

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Table 2-4 Comparison of Characterization Survey Surface / Subsurface Sample Resuits Fann Pond Outfall Samples Sample Number Cs-134 Cs-137 -

Co-60 Eu-152 Eu-154 Eu 155 TEDE I

pCi/g '

pCi/g

'pci/g pCi/g pCi/g pCilg mremly a

OF. SOIL.SUR.001 0.174 OF. SOIL.SUB.001 0.051 l

OF. SOIL.SUR.002 0.084 j

4 OF ROTI Rim 00?

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Table 2-5 Comparison of Follow-Up Survey Surface / Subsurface Sample Results Goosequill Ditch Banks 1

Sample'Numbert i Cs-134i: 1Cs-137:

iCo-60:!

i Eu-152?

i: Eu;1541 3 Eu-155 0 EActivityi iActivity F # Activity: n Activity ' 9 Activity? n;A'etivity - 1TEDE5 fpC1/g?

EpCl/gl

4 pCi/g !

pC1/g)

"pCilgd ipCi/g4 1 mrem /yr GQDB. SOIL.024.XX 0.000 0.188 0.166 0.000 0.000 0.000 0.40 B. SOIL.024.XX.SUB 0.000 0.108 0.075 0.000 0.000 0.000 0.19 GQDB. SOIL.036.XX 0.000 0.826 1.070 0.000 0.000 0.000 2.36 B. SOIL.036.XX.SUB 0.000 0.118 0.100 0.000 0.000 0.000 0.24 GQDB. SED.008.XX 0.000 1.180 1.750 0.287 0.165 0.000 4.12 B. SED.008.XX.SUB 0.000 0.128 0.101 0.000 0.000 0.000 0.25 GQDB. SED.016.XX 0.000 1.470 1.710 0.214 0.118 0.000 4.11 B. SED.016.XX.SUB 0.000 0.5 %

0.546 0.000 0.000 0.000 1.30 GQDB. SED.018.XX 0.000 1.120 0.051 0.000 0.000 0.000 0.69 ~

B. SED._018.XX.SUB_

0.000

_ _0_. _1_8_3 _

. _ _0_._055_

0.000

_0.000___0._000_ _

0.20_.

Table notes: The value 0.000 in cells for Tables 2-5 through 2-8, indicates that the quantity was less than detectable and not reported 1

15 j

i

- - =... - - -

e i

i l

Table 2-6 Comparison of Follow-Up Survey Surface / Subsurface Sample Results Irrigation Ditches SamDie Numben "

(Csil343 iCs2137s tCo@l IEu 1520 EEuq54) fEu)1550 m

Wt MActivity Activitf JAhtivity9 Activity) @ Activity? 0 Activity WEDEs

^

incurs i Cur 7 focuia ibCUan iRi/r4 inCi/rA Wm/Vr n

4 l

DTCH.2.001.XX 0.000 0.923 0.588 0.000 0.000 0.000 1.55 DTCH.2.001.XX.SUB 0.000 0.680 0.433 0.000 0.000 0.000 1.14 I

DTCH.2.002.XX 0.230 5.760 0.713 0.000 0.000 0.000 4.65 DTCH.2.002.XX.SUB 0.124 2.400 0.329 0.000 0.000 0.000 2.03 DTCH.3.002.XX 0.000 1.460 0.189 0.000 0.000 0.000 1.12 DTCH.3.002.XX.SUB 0.000 0.636 0.000 0.000 0.000 0.000 0.34 DTCH.4.002.XX 0.000 0.352 0.312 0.000 0.000 0.000 0.75 DTCH.4.002.XX.SUB 0.000 0.212 0.149 0.000 0.000 0.000 0.38 DTCH.5.014.XX 0.000 1.460 0.1%

0.000 0.000 0.000 1.13 4

DTCH.5.014.XX.SU_B 0.000 0.337 0_.000 0.000_

_ __ _0. 000__ __0.000 0.18 16

l Table 2-7 Comparison of Follow-Up Survey Surface / Subsurface Sample Results Permanent Pasture Land

Sample Number '

J Co-134 #

4Co137i Co40

!! Eu-152 #

5Eu-154 t

? Eu-155 4 l

Mt '

ifActivit# ? Activity 0

? Activity 1 IActivityL d Activity ' FActivity 0 NTEDE*

t pCi/m i npCi/mi FpCi/si Epci/gV

?pCi/m J EpCi/r nuem/yrl s

l PAST.SOILOO4.XX 0.000 0.506 0.000 0.000 0.000 0.000 0.27 ST. SOIL.004.XX.SUB 0.000 0.000 0.000 0.000 0.000 0.000 0.00 PAST. SOIL.008.XX 0.000 0.628 0.000 0.000 0.000 0.000 0.34 l

ST.SOILOO8.XX.SUB 0.000 0.584 0.000 0.000 0.000 0.000 0.31 PAST. SOIL.009.XX 0.000 1.010 0.000 0.000 0.000 0.000 0.54 ST.SOILOO9.XX.SUB 0.000 0.000 0.000 0.000 0.000 0.000 0.00 PAST. SOIL 010.XX 0.000 0.393 0.000 0.000 0.000 0.000 0.21 ST. SOIL.010.XX.SUB 0.000 0.000 0.000 0.000 0.000 0.000 0.00 PAST. SOIL.021.XX 0.000 0.711 0.000 0.000 0.000 0.000 0.38 ST.SOILO21.XX.SUB 0.000 0.228 0.000 0.000 0.000 0.000 0.12 PAST. SOIL.027.XX 0.000 1.140 0.000 0.000 0.000 0.000 0.61 ST.SOILO27.XX.SUB 0.000 0.000 0.000 0.000 0.000 0.000 0.00 PAST.SOILO29.XX 0.000 0.843 0.000 0.000 0.000 0.000 0.45 ST.SOILO29.XX.SUB 0.000 0.085 0.000 0.000 0.000 0.000 0.05 PAST. SOIL.051.XX 0.000 0.607 0.000 0.000 0.000 0.000 0.32 ST. SOIL.051.XX.SUB 0.000 0.120 0.000 0.000 0.000 0.000 0.06 PAST. SOIL.054.XX 0.054 1.360 0.095 0.000 0.000 0.000 0.97 ST.SOILO54.XX.SUB 0.000 0.289 0.000 0.000 0.000 0.000 0.15 PAST. SOIL.062.XX 0.039 1.420 0.128 0.000 0.0X) 0.000 1.'M ST. SOIL.062.XX.SUB 0.000 0.145 0.000 0.000 0.000 l 0.000 0.t>8 I

i 17 l

Table 2-8 j

Comparison of Follow-Up Survey Surface / Subsurface Sample Results Sediment Storage Area Sample Numbers f Cs;134t P Cs-1371:

Co-60 h Eu-152; Tu-'154 3 iiEu;155 "

2:

2Activityi TActivity+ 9 Activity' i ActivityE 9Activitys iActivity : iTEDE':

M N'

OpC1/g1 EpCi/g i

pCi/gi

~ i pCi/g i LpCi/g ;

.TpCi/gli j mrem /yr SSA.SUR.001.XX 0.000 0.458 0.000 0.000 0.000 0.000 0.25 SSA.SUB.001.XX 0.000 0.000 0.000 0.000 0.000 0.000 0.00 SSA.SUR.002.XX 0.000 0.058 0.000 0.000 0.000 0.000 0.03 SSA.SUB.002.XX 0.000 0.000 0.000 0.000 0.000 0.000 0.00 SSA.SUR.003.XX 0.000 1.190 0.604 0.000 0.000 0.000 1.72 SSA.SUB.003.XX 0.096 2.690 1.600 0.000 0.000 0.000 4.42 SSA.SUR.004.XX 0.000 0.000 0.000 0.000 0.000 0.000 0.00 SSA.SUB.004.XX 0.000 0.000 0.000 0.000 0.000 0.000 0.00 SSA.SUR.005.XX 0.000 0.223 0.071 0.000 0.000 0.000 0.25 SSA.SUB.005.XX 0.000 0._000 0.000

_ 0.000

__0.000__

0._000 _.

0.00 Note: The subsurface sample result obtained at SSA.SUB.003.XX may be characteristic of the Sediment Storage Area. This location was used as a repository for sediment / vegetation removed from the effluent flow path, and as such the activity could be more uniformly distributed at depth.

)

l 1

18 l

. - - - - -. ~.. - - -. -.

l i

During the Final survey, subsurface samples were collected at locations where elevated activity was identified as a part of the investigation process. Table 2-9 provides a comparison of the i

fraction of the SGLV found in surface and related subsurface samples for Final survey samples; and the fraction of the total dose contributed by the subsurface sample. The table demonstrates that the corrected subsurface dose will contribute less than 7% of the total dose for results i

showing measurable subsurface concentrations.

A similar analysis was performed on the area which showed the highest relative subsurface concentrations during characterization surveys (Table 2-6 irrigation ditches) and the resulting subsurface fraction of the total dose was seen to j

vary between 0.03 and 0.11 (with an average value of 0.05) l Table 2-9 l

Comparison of the Fraction of Dose from Final Survey

)

l Surface / Subsurface Sample Results i

Survey Survey Measurement Subsurface Fraction of Total l

Area Iscation Fraction of SGLV Dose

.l Surface / Subsurface Surface / Subsurface Uncorrected / Corrected' l

E0002 22 / 88 0.41 / 0.005 0.01 / 0.00 i

25 / 89 0.86 / 0.064 0.07 / 0.01 j

29 / 91 0.26 / 0.053 0.17 / 0.03 30 / 90 0.27 / 0.006 0.02 / 0.00 l

40 / 92 0.50 / 0.171 0.25 / 0.04

)

95 / 117 2.90 / 0.I89 0.06 / 0.01 100 / 127 2.25 / 0.195 0.08 / 0.01 101 / 137 2.94 / 0.367 0.11 / 0.02 102 / 148 1.44 / 0.11'?

0.07 / 0.01

)

103 / 149 1.631 / 0.045 0.03 / 0.00 E0008 47 / 58 i.10 / 0.253 0.19 / 0.04 E0010 28 / 124 0.276 / 0.030 0.10 / 0.02 l

29 / 125 0.243 / 0.037 0.13 / 0.02

)

71 / 126 0.259 / 0.126 0.33 / 0.07 l

8 For evaluation of subsurface sample results, FSV-TBD-209 did not account for the j

shielding afforded by the uppermost 0.15 meters of soil. Since external exposure is the dominant pathway for exposure, to obtain an approximation of the dose contribution from j

activity within the region of subsurface samples, each subsurface result could be corrected j

by multiplying the resultant dose by a factor of 0.165.

i

~

Subsurface Fraction of Total (Corrected) =

Subsurface Dosex0.165 Surfkce Dose +(Subsurface Dosex0.165) l i

19 i

1

NRC Comment 3)

Were each of the soil / sediment samples analyzed for all of the radionuclides listed in Table 7.l?

What information was used to select the radionuclides listed in Table 7.l? Why was Sr-90 not included in the table?

PSCo Response:

Final survey samples were not analyzed for iron-55, strontium-90 and tritium due to the relatively low average concentrations identified in the Characterization samples. Twelve samples were analyzed by an offsite lab for Fe-55 and Sr-90. Samples were selected from each segment of the effluent pathway from the samples generally showing the highest concentrations of gamma emitting nuclides. The results of the Characterization survey were reviewed to identify the principal gamma emitting nuclides ofinterest. The results of these analyses are presented in the following table.

Table 3-1 Liquid Effluent Pathway Characterization Sample Results Sample Radionuclide Concentration SGLV Fraction of (pCi/g)

(pCi/g)

SGLV L3356-1 Fe-55 3.06E+01 2.46E+04

< 0.01 Co-60

8. I2E+00 5.58E+00 1.45 Cs-134 4.29E-01 7.87E+00 0.05 Cs-137 7.42E+00 1.87E+01 0.40 Eu-152 1.40E+00 1.32E+01 0.11 Eu-154 7.50E-01 1.21 E+01 0.06 Eu-155 6.30E-01 4.39E+02

< 0.01 Sr-90

< 2.20E-01 9.27E+00

<0.02 H-3 2.80E-018 9.12E+02

< 0.01 L3356-2 Fe-55 5.40E+00 2.46E+04

<0.01 Co-60 7.74E-01 5.58E+00 0.14 Cs-134 8.30E-02 7.87E+00 0.01 Cs-137 9.20E-01 1.87E+01 0.05 Eu-152

< 2.40E-01 1.32E+01

<0.02 Eu-154

< 2.50E-01 1.21 E+01

< 0.02 Eu-155

< 1.20E-01 4.39E+02

<0.01 Sr-90

< l.90E-Ol 9.27E+00

<0.02 H-3

< 2.10E-Ol '

9.12E+02

<0.01 i

20 i

i

Table 3-1 (continued)

Liquid Effluent Pathway Characterization Sample Results Sample Radionuclide Concentration SGLV Fraction of (pCl/g)

(pCi/g)

SGLV GQD. SED.018 Fe-55 6.82E+01 2.46E+04

<0.01 Co-60 1.20E+01 5.58E+00 2.15 Cs-134 5.05E-01 7.87E+ 00 0.06 Cs-137 8.36E+00 1.87E+01 0.45 Eu-152 1.83E+00 1.32 E+01 0.14 Eu-154 7.13E-01 1.21 E+01 0.06 EU-155 8.03E-01 4.39E+02

< 0.01 Sr-90

< 1.28E-01 9.27E+00

< 0.01 H-3 Not analvred.

9.12E+02 Not analyzed.

GQD. SED.032 Fe-55 2.01 E+01 2.46E+04

< 0.01 Co-60 2.63E%

5.58E+00 4.71 Cs-134 1.03F #00 7.87E+00 0.13 Cs-137 1.81E+01 1.87E+01 0.97 Eu-152 4.24E+00 1.32E+01 0.32 Eu-154 2.21 E+00 1.21 E+01 0.18 Eu-155 1.33E+00 4.39E+02

< 0.01 Sr-90

< 1.62E-01 9.27E+00

< 0.02 H-3 Not analyzed.

9.12E+02 Not analyzed.

GQDB. SED.010 Fe-55 1.41 E+02 2.46E+04 0.01 Co-60 2.77E+01 5.58E+00 4.96 Cs-134 1.30E+00 7.87E+00 0.17 Cs-137 1.89E+01 1.87E+01 1.01 Eu-152 4.89E+00 1.32E+01 0.37 Eu-154 2.94E+00 1.21 E+01 0.24 Eu-155 2.00E+00 4.39E+02

< 0.01 Sr-90

< 1.34E-01 9.27E+00

< 0.01 H-3 Not analyzed.

9.12E+02 Not analyzed.

JT. SED.005 Fe-55 2.47E+01 2.46E+04

< 0.01 Co-60 3.85E+00 5.58E+00 0.69 Cs-134 1.17E-01 7.87E+00 0.02 Cs-137 2.35E+00 1.87E+01 0.13 Eu-152

< 2.40E-01 1.32E+01

<0.02 Eu-154

< 3.00E-01 1.21 E+01

<0.02 Eu-155

< 3.00E-01 4.39E+02

<0.01 Sr-90 1.30E-01 9.27E+00 0.01 1

H-3 Not analv7ed.

9.12E+02 Not analyzed.

21

Table 3-1 (continued)

Liquid Effluent Pathway Characterization Sample Results Sample Radionuclide Concentration SGLV Fraction of (pC1/g)

(pCi/g)

SGLV JT. SED.017 Fe-55 1.07E+01 2.46E+04

<0.01 Co-60 1.34E+00 5.58E+00 0.24 Cs-134 2.27E-01 7.87E+00 0.03 Cs-137 3.87E+00 1.87E+01 0.21 Eu-152

< 2.40E-01 1.32E+01

<0.02 Eu-154

< 3.00E-01 1.21 E+01

< 0.02 Eu-15:i

< 3.00E-01 4.39E+02

<0.01 Sr-90

< 1.70E-1 9.27E+00

<0.02 H-3 Not analyzed.

9.12E+02 Not analyzed.

DTCH.2.001 Jc-55 7.38E+01 2.46E+04

< 0.01 Co-60 2.26E+01 5.58E+00 4.05 Cs-134 1.06E+00 7.87E +00 0.13 Cs-137 1.79E+01 1.87E+01 0.96 Eu-152 3.55E+00 1.32E+01 0.27 Eu-154 1.98E+00 1.21 E+01 0.16 Eu-155 1.42E+00 4.39E+02

< 0.01 St-90

< 1.31 E-01 9.27E+00

<0.01 H-3 Not analyzed.

9.12E+02 Not analyzed.

PAST. SOIL.001.0-2 Fe-55 1.69E+01 2.46E+04

< 0.01 Co-60 3.73E+00 5.58E+00 0.67 Cs-134 6.06E-01 7.87E+00 0.08 Cs-137 1.05E+01 1.87E+01 0.56 Eu-152

< 2.40E-01 1.32EY01

<0.02 Eu-154

< 3.00E-01 1.21 E+0i

<0.02 Eu-155

< 3.00E-01 4.39E+02

<0.01 i

Sr-90 2.25E-01 9.27E+00 0.02 H-3 Not analyzed.

9.12E+02 Not analyzed.

PAST. SOIL.002.0-2 Fe-55

< 2.00E+00 2.46E+04

<0.01 Co-60 1.09E+00 5.58E+00 0.20 I

Cs-134

< 6.40E-02 7.87E+00

<0.01 Cs-137 4.62 E+ 00 1.87E+01 0.25 Eu-152

< 2.40E-01 1.32E+01

<0.02 Eu-154

< 3.00E-01 1.21 E+01

<0.02 Eu-155

< 3.00E-01 4.39E+02

<0.01 Sr-90 1.86E-01 9.27E+00 0.02 H-3 Not analyzed.

9.12E+02 Not analyzed.

22

Table 3-1 (continued)

Liquid Effluent Pathway Characterization Sample Results Sample Radionuclide Concentration SGLV Fraction of (pCi/g)

(pCilg)

SGLV 4

FP. SED.005.0-3 Fe-55

< 2.00E+00 2.46E+04

<0.01 Co-60 7.66E-01 5.58E+00 0.14 Cs-134

< 6.40E-02 7.87E+00

< 0.01 Cs-137 1.36E+00 1.87E+01 0.07 Eu-152

< 2.40E-01 1.32E+01

< 0.02 Eu-154

< 3.00E-01 1.21 E+01

<0.02 Eu-155

< 3.00E-01 4.39E+02

< 0.01 Sr-90

< 1.35E-01 9.27E+00

< 0.01 H-3 Not analyzed.

9.12E+02 Not analyzed.

FP. SED.010.0-3 Fe-55 4.35E+00 2.46E+04

< 0.01 Co-60 1.65E-01 5.58E+00 0.03 Cs-134

< 6.40E-02 7.87E+00

< 0.01 Cs-137 3.02E-01 1.87E+01 0.02 Eu-152

< 2.40E-01 1.32E+01

< 0.02_

Eu-154

< 3.00E-01 1.21 E+01

<0.02 Eu-155

< 3.00E-01 4.39E+02

<0.01 Sr-90

< 1.28E-01 9.27E+00

< 0.01 H-3 Not analyzed.

9.12E+02 Not analyzed.

OF. SED.004 Fe-55

< 2.29E+00 2.46E+04

<0.01 Co-60 0.379 5.58E+00 0.07 Cs-134

< 6.40E-02 7.87E+00

<0.01 Cs-137 1.91 E-01 1.87E+01 0.01 Eu-152

< 2.40E-01 1.32E+01

<0.02 Eu-154

< 3.00E-01 1.21 E+01

<0.02 Eu-155

< 3.00E-01 4.39E+02

<0.01 Sr-90

< 1.64E-01 9.27E+00

< 0.02 H-3 Not analyzed.

9.12E+02 Not analyzed.

23

k Table 3-1 (continued)

Liquid Effluent Pathway Characterization Sample Results Sample Radionuclide Concentration SGLV Fraction of (pCi/g)

(pCi/g)

SGLV OF. SED.007 Fe-55 5.71E+00 2.46E+04

< 0.01 Co-60 2.30E+00 5.58E+00 0.41 Cs-134

< 6.40E-02 7.87E+00

< 0.0L Cs-137 3.82E-01 1.87E+01 0.02 j

Eu-152

< 2.40E-01 1.32E+01

< 0.0L Eu-l54

< 3.00E-01 1.21E+01

<0.02 Eu-155

< 3.00E-01 4.39E+02

< 0.01 Sr-90

<l.66E-01 9.27E+00

<0.02 H-3 Not analyzed 9.12E+02 Not analyzed. li I

For anmples L3356-1 and L3356 2. the results for tritium analysis were reported in units of pCi/ liter. The results were converted to pCi/g by dividing by 1.OE+03 to provide a conservative estimate of the concentration in soil. These samples were not collected as pan of the characterization, they were collected to determine the contribution from HTDN in the effluent pathway in preparation for final surveys.

2 less than values (<) for gamma emining nuclides Co-60, Cs-134, Co-137 Eu-152. Eu-154, and Eu-155 represents the apriorf LLDs

@95% confidence level and may not be representative of actual sampic MDA. Less than values for Fe-55 and Sr-90 are actual detection limits @ 95 % confidence level for individual sample analysis results as reported by the vendor laboratory, a

d 24

a NRC Comment 4)

The characterization data was used as the primary justification for reducing the sample size in the effluent pathway survey units. Please provide the effluent pathway characterization results for NRC review. There is insufficientjustification provided for not providing sample frequencies consistent with NUREG/5849 for affected areas. If characterization data meet the same data quality objectives as the final survey, these data can be used as final survey data.

PSCo Response:

A report including the results of the Scoping survey (1994), the Characterization survey (1995) and the Follow-up Characterization survey (1996) has been included as Attachment 3.

Please note that the FSV RESRAD Model had not yet been developed at the time that these surveys were performed and documented. As such, the discussion and conclusions related to comparison of the sample results to the guideline values contained in these reports may not be applicable in all cases.

The Scoping Survey Report used Draft NUREG/CR-1500 dose conversion factors (mrem /yr/pCi/g) to estimate the annual TEDE. The Characterization Survey Report used draft site-specific model dose conversion factors (which did not become approved) to estimate the annual TEDE. The Follow-up Sampling Report used dose conversion factors from Draft NUREG/CR-1500. also includes Final survey results collected at locations where elevated results were observed during characterization surveys, for completeness. The Final survey results exceeding l

the average guideline value, which required investigation and the use of the averaging protocol, j

are discussed in the Final Report.

In response to justifying fewer samples than would otherwise be required in affected areas, extensive characterization surveys and the ALARA analysis justify the reduced sampling frequencies. During and following decommissioning releases, approximately 1500 samples were analyzed primarily for gamma emitting nuclides. In addition to the extensive sampling effort, in situ measurements where taken with Canberra's Inspector" system which consists of a Reverse-Electrode intrinsic germanium detector, MCA and the Genie PC software.

Measurements were made with the detector face 1 meter from the ground counting for 1200 seconds. Approximately 300 measurements were taken along the FSV effluent pathway and in adjacent areas. Inspector" measurements frequently formed the basis for sample collection points. Inspector" measurements were also frequently extended out to the point where the measurement did not show activity other than background nuclides; this is illustrated in Figure C-1 of the Characterization Report. Complete discussions about the Inspector" measurements can be found in the Fort St. Vrain Liquid Effluent Pathway Scoping Survey Report (5/95) and the Fort St. Vrain Liquid Effluent Pathway Characterization Survey Report (6/95). The wide view of the in situ measurements combined with the extensive sampling effort provided PSCo 25

_ _ = _.

_.. _. - _ _. _ _ _ _ _ _ - ~.. _ - -.

a high level of confidence that the pathway could be divided into areas with different contamination potendal. The characterization efforts showed that although positive results above background could be obtained along the entire length of the pathway there was minimal risk associated with the concentrations detected in most areas. Localized areas of activity, were well def'med, including the range of expected concentration values. To treat each of the areas along the pathway as affected would have required over 8,000 samples and cost over $1,000,000.

The near term land use was also given careful consideration and factored into the site-specific model used to evaluate the concentrations. Approximately 840 final survey samples were collected in accordance with the requirements defined in FSV-FRS-TBD-209. Final survey results were consistent with expectations that were formed during characterization surveys, j

26

I i

NRC Comment 5)

Was the potential for groundwater contamination evaluated?

i i

l PSCo Response:

i e

Yes. The Radiological Environmental Monitoring Program (REMP) was continued throughout 4

the decommissioning. The 1996 Annual Radiological Environmental Monitoring Report contains l

the following:

" Ground water was sampled quarterly at two locations. These are F-16, a well on the j

farm immediately north and the closest to the facility down the hydrological gradient, and at R-5, a well at a personal residence in the town of Milliken, both locations are down the hydrological gradient from the facility.... "

l The groundwater sampling results collected during 1996 identified no licensed gamma emitting radionuclides statistically above se background. Tritium was identified in a limited number of j

groundwater samples collected from F-16, however the concentrations did not exceed 0.01 of the guideline value for drinking water as determined in FSV-TBD-209.

I Surface water samples were also collected from the Farm Pond as a part of the REMP and 1

during the Final survey in 1996. The results of these samples identified no licensed gamma emitting radionuclides statistically above the background.

s i

a 1

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27

+

NRC Comment 6)

The Jay Thomas Ditch was designed as Affected Class 1 this requiring 100% scan. Table 7.4 designates the area as Affected Class I but does not reflect the 100% scan for the Jay Thomas Ditch. What is the basis for this discrepancy?

PSCo Response:

The Jay Thomas Ditch is a body of water (stream), and therefore the 100% scan of the water surface for exposure rate would have provided little useful information.

The banks of the Jay Thomas Ditch (Jay Thomas Banks) are composed of soil and were surveyed independently of the stream. A 100% scan for exposure rate was prescribed for The Jay Thomas Banks.

28

i NRC Comment 7)

What is the area of the sediment storage area?

j PSCo Response:

The sediment storage area is an irregularly-shaped excavation having a surface area of approximately 125 square meters, and a depth of approximately 1 meter.

l Refer to the PSCo Response to NRC Comment 2 for additional information regarding the effect on the exposure estimate for instances where the depth of activity exceeds 0.15 meters.

1 J

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29

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ATTACHMENT 1 i

- RESRAD ANALYSIS -

1 TEDE Based on Maximum Weighted Mean 100 Square Meter Area, Assumed Unifonn Distribution Over 207,300 Square Meters a

4 5

1 a

m..

m -_.. -.. _.

1 RESRAD, V:rsion 5.61 T* Linit = 0.5 year 01/09/97 10:54 Page 1 l

Suunary : RESRAD - Default Occupancy Factors File: SAMPLE.DAT Table of Contents 4444a444444444444 Port Is Mixture Suns and Single Radionuclide Guidelines iiH l

Dose conversion Factor (and Related) Parameter Summary...

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S i t2 Spec i f ic Parameter Suunsry..........................

4 t

i Sumanry of Pathway Selections............................

8 Cont aminat ed Zone and T ota l Dose Sunnary.................

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Tit:L Dose Components l

Time = 0.000E+00....................................

10 Time = 1.000E+00....................................

11 l

Time = 2.000E+00....................................

12 Time = 3.000E+00....................................

13 Time = 4.000E+00....................................

14 T i me = 5. 000E +00....................................

15 Time = 6.000E+00....................................

16 Time = 7.000E+00....................................

17 Time = 8.000E+00....................................

18 Time = 9.000E+00....................................

19 Dose / Source Ratios Summed Over All Pathways.............. 20 Sinolo Radionuclide Soll Guidelines...................... 20 Dose P;r Nuclide Summed Over All Pathways................ 21 Soil Concentration Per Nuclide.......................... 21 I

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i RESRAD, Virsion 5.61 T Limit s 0.5 ye r 01/09/97 10:54 Page 2 Stannary : RESRAD - D3 fault Occupancy Factors File: SAMPLE.DAT Dose Conversion Factor (and Related) Parameter Stagnary

)

File: DOSFAC.s!N I

Current Parameter Menu

Parameter Value

Default

Name 6M666666666666666M66666666666664M66666666666666666666666666666M6&&66666666M&6666666666666666666666664 s1

Dose conversion factors for inhalation, mram/pCI:

s-1

Co-60

2.190E-04

2.190E-04 ' DCF2( 1)

B-1

Cs 134

4.630E 05

4.630E-05

DCF2( 2) 51

Cs-137+D

3.190E-05

3.190E-05

DCF2C 3)

B-1

Eu-152

2.210E-04

2.210E 04

DCF2( 4) 81

Eu-154

2.860E 04

2.860E-04

DCF2( 6)

B1

Eu-155

4.140E-05

4.140E-05

DCF2( 7) 8-1

Gd 152

2.430E-01

2.430E-01

DCF2( 8)

D-1

Dose conversion factors for ingestion, mram/pci:

D-1

Co 60

2.690E-05

2.690E-05

DCF3( 1)

D-1

Cs-134

7.330E-05

7.330E-05

DCf3( 2) 01

Cs-137+0

5.000E-05

5.000E-05

DCF3( 3)

D-1

Eu-152

6.480E-06

6.480E-06

DCF3( 4)

D1

Eu-154

9.550E-06

9.550E-06 ' DCF3C 6)

D1

Eu-155

1.530E-06

1.530E 06

DCF3( 7)

D-1

Gd-152

1.610E-04

1.610E 04 ' DCF3C 8)

D 34

Food transfer factors:

D 34

Co-60

, plant /soll concentration ratio, dimensionless

8.000E 02

8.000E-02

RTF( 1,1)

D-34

Co-60

, beef / livestock intake ratio, (pCf/kg)/(pCl/d)

2.000E-02

2.000E 02

RTF( 1,2)

D-34

Co-60

, milk /tivestock-intake ratio, (pCf/L)/(pCl/d)

2.000E-03

2.000E-03

RTF( 1,3) p.34 D-34

Cs 134, plant /soit concentration ratio, dimensionless

4.000E 02

4.000E-02

RTF( 2,1)

D-34

Cs-134

, beef /tivestock intake ratio, (pci/kg)/(pCf/d)

3.000E-02

3.000E-02

RTF( 2,2) j D-34

Cs-134

, milk / livestock intake ratio, (pCl/L)/(pCl/d)

8.000E-03

8.000E-03

RTF( 2,3)

D 34

D-34

Cs-137+0, plant /scit concentration ratio, dimensionless

4.000E-02

4.000E 02

RTF( 3,1) 0-34

Cs 137+0, beef /tivestock-intake ratio, (pCl/kg)/(pCl/d)

3.000E-02

3.000E-02

RTF( 3,2)

D-34

Cs 137+0, milk / livestock-intake ratio, (pCf/L)/(pCl/d)

8.000E-03

8.000E-03

RTF( 3,3)

D 34

D 34

Eu-152

, plant /soll concentration ratio, dimensionless

2.500E-03

2.500E 03

RTF( 4,1)

D-34

Eu-152

, beef / Livestock intake ratio, (pCl/kg)/(pCl/d)

2.000E-03

2.000E 03

RTF( 4,2)

D-34

Eu-152, mitk/ livestock intake ratio, (pCl/L)/(pCf/d)

2.000E-05

2.000E-05

RTF( 4,3) p.54 D 34

Eu-154

, plant /soll concentration ratio, dimensionless

2.500E 03

2.500E-03

RTF( 6,1)

D-34

Eu-154

, beef / livestock-intake ratio, (pci/kg)/(pCl/d)

2.000E-03

2.000E-03

RTF( 6,2)

D 34

Eu-154

, milk / livestock-intake ratio, (pcl/L)/(pCl/d)

2.000E-05

2.000E-05

RTF( 6,3) p.34 D 34

Eu-155

, plant /soit concentration ratio, dimensionless

2.500E-03

2.500E 03

RTF( 7,1)

D-34

Eu-155

, beef /tivestock intake ratio, (pCl/kg)/(pCl/d)

2.000E 03

2.000E 03

RTF( 7,2)

D-34

Eu-155

, mitk/tivestock-iniske ratio, (pcl/L)/(pCl/d)

2.000E 05

2.000E-05

RTF( 7,3)

D 34

D 34

Gd-152

, plant /soll concentration ratio, dimensionless

2.500E-03

2.500E 03 ' RTF( 8,1)

D-34

Gd-152

, beef / Livestock intake ratio, (pci/kg)/(pCf/d)

2.000E 03 ' 2.000E-03

RTF( 8,2)

D 34

Gd-152

, milk / livestock intake ratio, (pci/L)/(pCl/d)

2.000E-05

2.000E-05

RTF( 8,3)

D5

Bioaccumulation factors, fresh water, L/kg:

D-5

Co-60

, fish

3.000E+02

3.000E+02

B10FAC( 1,1)

D-5

Co-60

, crustacea and mollusks

2.000E+02

2.000E+02

BIOFAC( 1,2)

D-5

i i

REs4AD, V;rsion 5.61 T" Lisit = 0.5 year 01/09/97 10:54 Pete 3 i

Summary : RESAAD - Default Occupancy Factors File SAMPLE.DAT i

Dose Conversion Factor (and Related) Parameter Sumnary (continued)

File: DOSFAC. BIN l

4 I

i Current Parameter f

Manu

Parameter Value Name Default *

&&d&&&& && &&&&&d &&&&&&&&&&&&&&&&&&&&&&&&&&&& &&&d &&&&d &&&&&&&&&&&&&&&&&&&&&&&& && &&&&&&&&&&&&& A&&&& d & & &d&&& & &

2 D-5

Cs 134, fish

2.000E+03

2.000E+03

B10FACC 2,1)

}

D-5

Cs 134, crustacea and mollusks

1.000E+02

1.000E+02

B10FACC 2,2) i D-5

i i

D5

Cs-137+0, ' fish

2.000E+03 ' 2.000E+03 ' BIDFACC 3,1)

D-5

Cs 137+0, crustacea and mollusks

1.000E+02

1.000E+02

BIDFACC 3,2)

D-5 i

D5

Eu-152, fish

5.000E+01

5.000E+01

BIDFACC 4,1) 1 I

D-5

Eu-152

, crustacea and mollusks

1.000E+03

1.000E+03

BIDFACC 4,2)

D-5

D-5

Eu-154

, fish

5.000E+01

5.000E+01

BIDFACC 6,1)

D-5

Eu-154

, crustacea and mollusks

1.000E+03

1.000E+03

BIDFACC 6,2)

D-5

D5

Eu-155

, fish

5.000E+01

5.000E+01

B10FAC( 7,1)

D5

Eu-155

, crustacea and mollusks

1.000E+03

1.000E+03

B10FACC 7,2)

D5

D-5

Gd-152

, fish

2.500E+01

2.500E+01 ' B10FACC 8,1)

D-5

Gd-152

, cfustacea and mollusks

1.000E+03

1.000E+03

BIDFAC( 8,2)

MaeedeMe

RESRAD, V rsion 5.61 T' LI:lt = 0.5 ye:r 01/09/97 10:5%

Page 4 Suunary : RESRAD - D2faul; Occupancy Factors File: SAMPLE.DAT Site-Specific Parameter Staunary User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name M&&MMa&&&MM&M&Ma&&&&&&&&&&&&&&&&&&&&&&&&&&&&&M&&6&&&&&d&&&&&6&&&&&&&&M&6&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&6666446&&&&&&&&&&

R011

Area of contaminated zone (m**2)

2.073E+05

1.000E+04 *

AREA R011

Thickness of contaminated zone (m)

1.500E-01

2.000E+00 *

THICK 0 R011

Length parallet to aquifer flow (m)

2.650E+03

1.000E+02 *

LCZPAQ R011

Basic radiation dose timit (arem/yr)

1.000E+01

3.000E+01 *

' BRDL R011

Time since placement of materist (yr)

0.000E+00

0.000E+00 *

TI R011

Tines for calcutations (yr)

1.000E+00

1.000E+00 *

T( 2)

R011

Times for calculations (yr)

2.000D00

3.000E+00 *

T( 3)

R011

Times for calculations (yr)

3.000E+00

1.000E+01 *

f( 4)

R011

Times for calculations (yr)

4.000E+00

3.000E+01 *

TC 5)

R011

Times for calculations (yr)

5.000E+00

1.000E+02 *

TC 6)

R011

Times for calculations (yr)

6.000E+00

3.000E+02 *

T( 7)

R011

Tines for catcutations (yr)

7.000E+00

1.000E+03 '

T( 8)

R011

Times for calculations (yr)

8.000E+00

0.000E+00 '

T( 9)

R011

Times for calculations (yr)

9.300E+00 ' O.000E+00 *

T(10)

R012

Inittel principal radionuclide (pci/s): Co-60

1.527E+00

0.000E+00 *

$1( 1)

R012

Initial principal radionuclide (pCl/s): Cs-134 ' 1.484E-01

0.000E+00 *

S1C 2)

R312

Inittat principal radionuctide (pci/s): Cs 137

4.282E+00

0.000E+00 '

S1( 3)

R012

Initial principal radionuclide (pcl/s): Eu-152

1.737E-01

0.000E+00 *

$1( 4)

R012

Inittet principal radionuclide (pci/s): Eu-154

8.170E-02

0.000E+00 *

Sit 6) dO12

Initial principal radionuclide (pCl/s): Eu-155

3.690E-02

0.000E+00 *

$1( 7)

R012

Concentration in groundwater (pCI/L): Co-60

not used

0.000E+00 *

W1( 1)

R012

Concentration in groundwater (pCl/L): Cs-134

not used

0.000E+00 *

W1( 2)

R012

Concentration in groundwater (pCl/L): Cs-137

not used

0.000E+00 *

W1( 3)

R012

Concentration in groundwater (pCl/L): Eu-152

not used

0.000E+00 *

W1( 4)

R012

Concentration in groundwater (pCl/L): Eu-154

not used

0.000E+00 *

W1( 6)

R012

Concentration in groundwater (pC1/L): Eu-155

not used

0.000E+00 *

W1( 7)

R013

Cover depth (m)

0.000E+00

0.000E+00 *

COVER 0 R013

Density of cover materlat (g/cm**3)

not used

1.500E+00 *

DENSCV R013

Cover depth erosion rate (m/yr)

not used

1.000E 03 *

VCV A013

Density of contaminated zone (g/cm**3)

1.500E+00

1.500E+00 *

DENSCZ R013

Contaminated zone erosion rate (m/yr)

1.000E-03

1.000E 03 *

' VCZ

013

Contaminated zone total porosity

3.000E-01

4.000E 01 *

TPCZ R013

Contaminated zone effective porosity

2.000E-01

2.000E-01 '

EPCZ R013

Contaminated zone hydraulic conductivity (m/yr)

1.000E+01

1.000E+01 *

HCCZ R013

Contaminated zone b parameter

5.300E+00

5.300E+00 *

BCZ R013

Hunidity in air (g/cm**3)

' not used

8.000E+00 '

HUMID R013

Evapotranspiration coefficient

5.000E-01

5.000E-01 *

EVAPTR R013

Precipitation (m/yr)

5.000E 01

1.000E+00 *

PRECIP R013

1rrigation (m/yr)

' 1.000E+00

2.000E-01 *

RI R013

Irrigation mode

ditch

overhead

' 10lTCH R013

Runoff coefficient

2.000E-01

2.000E-01 *

RUNOFF R013

Watershed area for nearby stream or pond (m**2)

1.000E+06

1.000E+06 *

' WAREA R013

Accuracy for water /soit computations

1.000E 03

1.000E-03 *

EPS R014

Density of saturated zone (g/cm**3)

1.500E+00

1.500E+00 *

DENSAQ R014

Saturated zone total porosity

3.000E-01

4.000E 01 *

TPSZ R014

Saturated zone effective porosity

2.000E-01

2.000E 01 *

EPSZ A014

Saturated zone hydraulic conductivity (m/yr)

1.000E+02

1.000E+02 *

HCSZ R014

Saturated zone hydraulic gradient

2.000E-02 ' 2.000E-02 *

HGWT

RESRAD, virsion 5.61 T~ Lisit 0.5 yerr 01/09/97 10:54 Page 5 Stannary RESRAD - DJfault occupancy Factors File: SAMPLE.DAT Site-Specific Parameter Sununary (continued) l User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name MMM6446&&&M6M4644&M4&M6M&&&&&&&6&&&646666666444M6664444464M64MM46&&646&&&444446666664446666&&&&&66&&&d6&&46666666646 R014

Saturated zone b parameter

5.300E+00

5.300E+00 *

BSZ R014

Water table drop rate (m/yr)

1.000E 03

1.000E-03 *

WT R014

Well ptmp intake depth (m below water table)

1.000E+01

1.000E+01 *

DWIBWT A014

Model: Nondispersion (ND) or Mass-Balance (MS)

ND

WD

MODEL R014

Well pimping rate (m"3/yr)

2.500E+02

2.500E+02 *

UW e

R015

Ntaber of unsaturated zone strata

1

1

NS R015

Unset. zone 1, thickness (m)

4.000E+00

4.000E+00 *

H(1)

R015

Unsat. zone 1, soit density (g/ce**3)

1.500E+00

1.500E+00 *

DENSUZ(1)

ROIS

Unsat. zone 1, total porosity

3.000E 01 ' 4.000E 01 *

TPUZ(1)

R015

Unsat. zone 1, effective porosity

2.000E-01

2.000E-01 *

EPUZ(1)

R015

Unset. zone 1, soil specific b parameter

5.300E+00

5.300E+00 *

BUZ(1)

R015

Unset. zone 1, hydraulic conductivity (m/yr)

1.000E+01 ' 1.000E+01 *

HCUZ(1)

R016

Distribution coefficients for Co-60 R016

Contamir.ated zone (esF*3/s)

1.000E+03

1.000E+03 *

DCNUCCC 1)

R016

Unsaturated zone 1 (ce"3/g)

1.000E+03

1.000E+03 *

DCNUCU( 1,1)

R016

Saturated zone (cm**3/s)

1.000E+03 ' 1.000E+03 *

DCNUCS( 1)

R015

Leach rate (/yr)

0.000E+00

0.000E+00

3.111E-03

ALEACH( 1)

R016

Solubility constant

0.000E+00

0.000E+00

not used

SOLUBK( 1)

R016

Distribution coefficients for Cs 134 A016

Contaminated zone (es**3/s)

1.000E+03

1.000E+03 *

DCNUCCC 2)

R016

Unsaturated zone 1 (ce"3/g)

1.000E+03

1.000E+03 *

DCNUCU( 2,1)

R016

Saturated zone (cm**3/?)

1.000E+03

1.000E+03 *

DCNUCS( 2)

R016

Leach rate (/yr)

0.000E+00 ' O.000E+00 '

3.111E-03

ALEACH( 2)

R016

Soltbility constant

0.000E+00

0.000E+00

not used

SOLUsK( 2)

R016

Distribution coefficients for Cs-137 R016

Contaminated zone (cm**3/g)

1.000E+03

1.000E+03 *

DCNUCCC 3)

R016

Unsaturated zone 1 (cm* % )

1.000E+03

1.000E+03 *

DCNUCU( 3,1)

R016

Saturated zone (ca"3/g4

1.000E+03

1.000E+03 *

DCNUCS( 3)

R016

Leach rate (/yr)

0.000E+00

0.000E+00

3.111E-03

ALEACH( 3)

R016

Solubility constant

0.000E+00

0.000E+00

not used

SOLUSK( 3)

R016

Distribution coefficients for Eu-152 R016

Contaminated zone (ca"3/g)

-1.000E+00 *-1.000E+00

5.758E+C2

DCNUCC( 4)

R016

Unsaturated zone 1 (cm**3/g)

-1.000E+00 '-1.000E+00

5.758E+02

DCNUCU( 4,1)

R016

Saturated zone (cm**3/s)

'-1.000E+00 '-1.000E+00

5.758E+02

DCNUCS( 4)

R016

Leach rate (/yr)

0.000E+00

0.000E+00

5.402E-03

ALEACH( 4)

R016

Solubility constant

0.000E+00

0.000E+00

not used

SOLUBK( 4)

R016

Distribution coefficients for Eu 154 j

R016

Contaminated zone (cm**3/g)

'-1.000E+00 *-1.000E+00

5.758E+02

DCNUCC( 6) d R016

Unsaturated zone 1 (cm**3/g)

'-1.000E+00 '-1.000E+00 '

5.758E+02

DCNUCU( 6,1)

R016

Saturated zone (cm**3/g)

-1.000E+00 *-1.000E+00 *

'.758E+02

DCNUCS( 6)

R016

Leach rate (/yr)

0.000E+00

0.000E+00

5.402E-03

ALEACH( 6)

R016

Soltbility constant

0.000E+00

0.000E+00

not used

SOLUBK( 6)

RESRAD, v;rsion 5.61 T Li lt = 0.5 year 01/09/97 10:54 Page 6 Summary : RESRAD - D3 fault Occupancy Factsrs File: SAMPLE.DAT Site-Specific Parameter Suunary (continued)

User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name M64 MMH 46M6&&6M6&&&66664M646MM466666666M66MMM6666666664M666666666664M64M6666666666M666666666M66M666664MM6H6 R016

Distribution coefficients for Eu-155 R016

Contaminated zone (car **3/g)

'-1.00('E+00

1.000E+00

5.758E+02

DCNUCC( 7)

R016

Unsaturated zone 1 (cm**3/g)

-1.000E+00 *-1.000E+00 '

5.758E+02

' DCNUCU( 7,1)

P.016

Saturated zone (cm**3/g)

1.000E+00 '-1.000E+00

5.758E+02

DCNUCS( 7)

R016 *

'.ech rate (/yr)

0.000E+00

0.000E+00

5.402E 03

ALEACH( 7)

E016

Solubility constant

0.000E+00

0.000E+00

not used

SOLUBK( 7)

R016

Distribution coefficients for daughter Gd-152 R016

Contaminated zone (cm**3/g)

1.000E+00 ' 1.000E+00

5.758E+02

DCNUCC( 8)

R016

Unsaturated zone 1 (cm**3/g)

' 1.000E+00 *-1.000E+00

5.758E+02

DCNUCU( 8,1)

R016

Saturated zone (ce**3/g)

1.000E+00 ' 1.000E+00

5.758E+02

DCNUCS( 8)

R016

Leach rate (/yr)

0.000E+00

0.000E+00

5.402E-03

ALEACH( 8)

R016

Solubility constant

0.000E+00

0.000E+00

not used

SOLUBK( 8)

R017

Inhalation rate (m**3/yr)

1.051E+04

8.400E+03 *

IhMALR R017

Mass loading for Inhalation (g/m**3)

2.000E-04

2.000E-04 *

MLINH R017

Dilution length fc,r airborne dust, inhalation (m)* 3.000E+00

3.000E+00 *

LM

-~

R017

Exposure duration

3.000E+01

3.000E+01 *

ED

~-

R017

Shielding factor, inhalation

5.000E-01

4.000E-01 *

SHF3 R017

Shielding factor, external gauna

3.300E-01

7.000E-01 *

SHF1

-~

R017

Fraction of time spent indoors

5.500E-01

5.000E-01 *

FIND R017

Fraction of time spent outdoors (on site)

2.100E-01

2.500E-01 *

FOTD

~

R017

Shape factor flag, external genna

1.000E+00

1.000E+00

1 shows circular AREA.

FS R017

Radii of shape factor array (used if FS = 1):

R017

Outer annular radius (m), ring 1:

not used

5.000E+01 *

RAD, SHAPE ( 1)

-~

R017

Outer annular radius (m), ring 2:

not used

7.071E+01 *

RAD, SHAPE ( 2)

R017

Outer annular radius (m), ring 3:

not used

0.000E+00 *

RAD, SHAPE ( 3)

ROIT

Outer annular radius (m), ring 4:

not used

0.000E+00 '

RAD,$HAPE( 4)

R017

Outer annular radius (m), ring 5:

not used

0.000E+00 '

RAD,$HAPE( 5)

R017

Outer annular radius (m), ring 6:

not used

0.000E+00 *

RAD,$HAPEC 6)

R017

Outer annuter radius (m), ring 7:

not used

0.000E+00 *

RAD,$HAPE( 7)

R017

Outer annular radius (m), r'rq 8:

not used

0.000E+00 *

RAD SHAPE ( 8)

~-

R017

Outer annular radius (m), * 's 9:

not used

0.000E+00 *

RAD, SHAPE ( 9)

-~

R017

Outer annular radius (m), ring 10:

' not used

0.000E+00 *

-~

RAD, SHAPE (10)

R017

Outer annular radius (m), ring 11:

not used

0.000E+00 '

' RAD,$HAPE(11)

R017

Outer annular radius (m), ring 12:

not used

0.000E+00 '

' RAD, SHAPE (12)

~

R017

Fractions of annular areas within AREA:

R017

Ring 1

not used

1.000E+00 *

FRACA( 1)

R017

Ring 2

not used

2.732E-01 *

FRAC ?)

R017

Ring 3

not used

0.000E+00 *

' FRACM 3)

R017

Ring 4

not used

0.000E+00 *

FRACA( 4)

-~

R017

Ring 5

not used

0.000E+00 *

FRACA( 5)

R017

Ring 6

not used

0.000E+00 *

FRACA( 6)

R017

Ring 7

not used

0.000E+00 *

FRACA( 7)

~-

R017

Ring 8

not used

0.000E+00 *

FRACA( 8)

R017

Ring 9

not used

0.000E+00 *

' FRACA( 9)

-~

R017

Ring 10

' not used

0.000E+00 *

FRACA(10)

R017

Ring 11

not used

0.000E+00 *

FRACA(11)

R017

Ring 12

not used

0.000E+00 '

FRACA(12)

~-

l RESRAD, VIrsion 5.61 T* Limit = 0.5 yeIr 01/09/97 10:56 Page 7 Stammary : RESRAD DJfault Occupancy Factcrs File: SAMDLE.MT Site-Specific Parameter Sunnery (cor.tinued)

User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input) '

Name 64444444644444466646&d46444444466446644446&&446&&d446&&&44444444466644444446&&&&46&&&&&&66666666666&&&466&&666664466664466666666 R018

Fruits, vegetables and grain constaption (kg/yr)

1.660E+02

1.600E+02 *

DIET (1)

~

R018

Leefy vegetable constaption (kg/yr)

1.100E+01

1.400E+01 *

DIET (2)

R018

Milk consumption (L/yr)

1.000E+02

9.200E+01 *

DIET (3)

R018

Meat and poultry constaption (kg/yr)

6.300E+01

6.300E+01 *

DIET (4)

~

R018

Fish constaption (kg/yr)

5.400E+00

5.400E+00 *

' DIET (5)

R018

Other seafood constaption (kg/yr)

9.000E 01

9.000E-01 *

DIET (6)

ROIS

Soft ingestion rate (g/yr)

1.82SE+01 ' 3.650E+01 *

SOIL

~-

R018

Drinking water intake (L/yr)

5.100E+02

5.100E+02 *

DWI R018

Contamination fraction of drinking water

1.000E+00

1.000E+00 *

FDW j

R018

Contamination fraction of household water

not used

1.000E+00 *

FHHW l

R018

Contamination fraction of livestock water

1.000E+00

1.000E+00 *

FLW l

R018

Contamination fraction of irrigation water

1.000E+00

1.000E+00 *

FIRW R018

Contamination fraction of aquatic food

5.000E-C

5.000E-01 *

FR9 R018

Contamination fraction of plant food

-1

1 0.500E+00

' FPLANT R018

Contamination fraction of rest

-1

-1 O.100E+01

FMEAT l

R018

Contamination fraction of milk

1

-1 O.100E+01

FMILK e

R019

Livestock fodder intake for meat (kg/ day)

6.800E+01

6.800E+01 *

' LFIS

~-

R019

Livestock fodder intake for milk (kg/ day)

' 5.500E+01

5.500E+01 *

LF16 R019

Livestock water intake for meat (L/ day)

5.000E+01

5.000E+01 *

LW15

~-

R019

Livestock water intake for milk (L/ day)

1.600E+02

1.600E+02 *

LW16 -

R019

Livestock soll intake (kg/ day)

5.000E-01

5.000E-01 *

' LS!

~-

R019

Mass loading for foliar deposition (g/m**3)

1.000E 04

1.000E 04 *

MLFD R019

Depth of soit mixing layer (m)

1.500E 01

1.500E-01 *

DM

~-

R019

Depth of roots (m)

' 9.000E 01

9.000E-01 *

DROOT R019

Drfnking water fraction from ground water

1.000E+00

1.000E+00 *

FGWDW R019

Household water fraction from ground water

1.000E+00

1.000E+00 *

FGWHH

~

A019

Livestock water fraction from gromd water

not used

1.000E+00 *

FGWLW

-~

R019

Irrigation fraction from ground water

1.000E+00 ' 1.000E+00 *

FGWIR

~-

e C14

C 12 concentration in water (g/cm**3)

not used

2.000E-05 *

C12WTR j

-~

C14

C-12 concentration in contaminated soit (g/g)

not used

3.000E-02 *

C12CZ l

C14

Fraction of vegetation carbon from soit

not used

2.000E-02 *

' CSoll C14

Fraction of ve0etation carbon from air

not used

9.800E-01 *

CAIR C14

C 14 evasion layer thickness in soil (m)

not used ' 3.000E-01 *

DMC

EVSN C14

C-14 evasion flux rate from soll (1/sec)

not used

7.000E-07

C14

C 12 evasion flux rate from soll (1/sec)

' not used

1.000E-10 *

' REVSN

' AVFG4 C14

Fraction of grain in beef cattle feed

not used

8.000E-01 *

~

AVFG5 C16

Fraction of grain in milk cow feed

' not used

2.000E 01 *

~-

STOR

Storage times of contaminated foodstuffs (days):

STOR_T(1)

STOR

Fruits, non-leafy vegetables, and grain

1.400E+01

1.400E+01 *

STOR_T(2)

STOR

Leafy vegetables

1.000E+00 ' 1.000E+00 *

-~

STOR_T(3)

STOR

Milk

1.000E+00

1.000E+00 *

~

STOR_T(4)

STOR

Meat and poultry

2.000E+01

2.000E+01 *

' STOR_T(5)

STOR

Fish

7.000E+00 ' 7.000E+00 *

-~

STOR,,T(6)

STOR

Crustacea and mollusks

7.000E+00

7.000E+00 *

' STOR_T(7) l STOR

Well water

1.000E+00

1.000E+00 *

-~

STOR_T(8)

(

STOR

Surface water

' 1.000E+00

1.000E+00 *

STOR_T(9)

STOR

Livestock fodder

4.500E+01

4.500E+01 *

~-

.-_-._-m.

..m x -.. _,

i i

REsRAD, VIrsion 5.61 T* Limit = 0.5 ye:r 01/09/97 10:54 Page 8 Summary : REERAD - D fault Occgancy Factors File: SAMPLE.DAT l

1 l

Site-specific Parameter S u mery (continued) i

{

User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name daaddada&&dA&&adad and&&d&&&dadaa&&&&&&&aad&&&&&&&&&& &&&&d&&&&a&&&&&&&&&&&&&&&&& &d&&&&&&&&&&&&&& &&&&&&&&&&&&&&&a&&d&a&&&&&& &&&&&4 R021

Thickness of building foundation (m)

' not used

1.500E-01

FLOOR R021

Butk density of butiding fomdation (g/cm**3)

not used

2.400E+00 '

DEN 5FL R021

Total porosity of the cover material

not used

4.000E-01 *

TPCV R021

Total porosity of the building foundation

not used

1.000E-01 *

TPFL 4

R021

Volumetric water content of the cover material

not used

5.000E-02 *

PN20CV l

R021

Volumetric water content of the foundation

not used

3.000E-02 *

PN20FL R021

Diffusion coefficient for radon gas (m/sec):

R021

In cover material

not used

2.030E 06 *

DIFCV i

R021

In foundation materiet

not used

3.000E-07 *

DIFFL R021 *. In contaminated zone soll

not used

2.000E-06 *

DIFCZ R021

Redon vertical dimension of mixing (m).

not used

2.000E+00 '

MMIX R021

Average annual wind speed (m/sec)

not used

2.000E+00

WIND j

R021

Average building air exchange rate (1/hr)

not used

5.000E-01 *

RENG R021

Neight of the building (room) (m)

not used

2.500E+00

HRM J

R021

sullding interior area factor

not used

0.000E+00 *

FAI

]

R021

Building depth below ground surface (m)

not used ' 1.000E+00 *

DNFL R021 '* Emarating power of Rn-222 pas

' not used

2.500E-01 *

EMANA(1)

R021

Emanating power of Rn-220 gas

not used

1.500E 01 *

EMANA(2)

]

I

____Z L _ _ " " _ _ _ E _ _ _ _ i _ _ _ l " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ M MeeeeeeuseheneeeHee I

I Susanry of Pathway Selections J

Pathway User Selection A4&dasaaaaaaaaaaaaaaaaaaaaa4&&a444444444&a444444444 1 -- external emana active 2 - inhalation (w/o redon)*

active 3 -- plant ingestion active 4 -- meet ingestion active 5 -- milk ingestion active i

6 -- aquatic foods active j

7 - drinking water ective 8 -- soil ingestion active 9 -- redon suppressed s

1 4

1 i

I

)

i I

g c

c w

4

- _ ~.

RESRAD, v;rsion 5.61 T~ Lixit 0.5 yxr 01/09/97 10:54 P;ge 9 Suunary : RESRAD - D2 fault Occ @ancy Factors File SAMPLE.DAT l

Contaminated Zone Dimensions Initial Soft concentrations, pCi/g

&&&&&&&&&&&&&&&&&&&&&&&&&&da

&&&&&&&&&&&&&&444&&&&&&&&&&&&&&d&&

Area: 207300.00 square meters Co-60 1.527E+00 Thickness:

0.15 meters ts-134 1.484E-01 I

Cover Depth:

0.00 meters Cs-137 4.282E+00 l

Eu-152 1.737E-01 Eu-154 8.170E 02 Eu 155 3.690E-02 i

Total Dose TDOSE(t), arem/yr Basic Radiation Dose Limit = 10 arem/yr Total Mixture Sun M(t) = Fraction of Basic Dose Limit Received at Time (t)

&& &&&&& &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& &&&&&&&&&&&d & &&&&&&& &&&&&&& &&&&&

t (years): 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000Ev00 9.000E+00 a

TDOSE(t): 1.509E+01 1.368E+01 1.246E+01 1.140E+01 1.047E+01 9.644E+00 8.916E+00 8.270E+00 7.695E+00 7.180E+00 M(t): 1.509E+00 1.368E+00 1.246E+00 1.140E+00 1.047E+00 9.644E-01 8.916E-01 8.270E 01 7.695E-01 7.180E-01 d

Maxim m TDOSE(t): 1.509E+01 mrom/yr at t = 0.000E+00 years s

t l

l 1

a

t l

l l

l RESRAD, V;rsion 5.61 T~ Limit = 0.5 yrr 01/09/97 10:54 Page 10 Sununary : RESRAD - Default Occ@ancy Factors File: SAMPLE.DAT l

l Total Dose Contributions TDOSE(1,p,t) for Individual bdionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At c = 0.000E+00 years Water Independent Pathways (Inhalation excludes raom)

Ground Inhalation

!!adon Plant Meat Milk Soll Radio-6666666666as6666 6666666666666666 6666666666666666 6666666666666666 666666666666666 6666666666666666 6666666666666666 Nuclide mrem /yr fract.

mrem /yr fract.

mrom/yr fract.

mr % yr fract.

mrem /yr fract, mrem /yr fract.

6666666 666666666 646666 666666666 666666 666666666 666666 666666666 666666 6#4666666 666666 666666666 666666 666666666 666666 C3-60 8.097E+00 0.5367 3.388E-04 0.0000 0.000E+00 0.0000 4.827E-02 0.0032 7.164E-02 0.0047 1.005E-02 0.0007 5.698E 04 0.0000 Cs-134 4.842E-01 0.0321 6.959E-06 0.0000 0.000E+00 0.0000 6.347E-03 0.0004 1.891E-02 0.0013 7.419E-03 0.0005 1.509E-04 0.0000 Cs-137 5.058E+00 0.3352 1.383E-04 0.0000 0.000E+00 0.0000 1.263E-01 0.0084 3.855E 01 0.0256 1.485E-01 0.0098 2.%9E-03 0.0002 Eu-152 4.089E 01 0.0271 3.888E-05 0.0000 0.000E+00 0.0000 4.209E-05 0.0000 7.496E 05 0.0000 1.160E 06 0.0000 1.561E-05 0.0000 Eu-154 2.096E 01 0.0139 2.367E-05 0.0000 0.000E+00 0.0000 2.915E-05 0.0000 5.188E-05 0.0000 8.179E-07 0.0000 1.082E-05 0.0000 1

Eu-155 2.594E-03 0.0002 1.547E-06 0.0000 0.000E+00 0.0000 2.105E 06 0.0000 3.740E-06 0.0000 5.915E 08 0.0000 7.831E-07 0.0000 M666H 66HH666 666666 HH6H666H6H H 66666H #66666 666666usu 666666 666666H 6 H 6666 6e#66666e 666666 666666666 666666 Tat:L 1.426E+01 0.9452 5.481E-04 0.0000 0.000E+00 0.0000 1.810E-01 0.0120 4.762E-01 0.0316 1.660E-01 0.0110 3.717E-03 0. % 2 Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 0.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Radio-6666666666666666 6666666666666666 6666666666666666 6666666666666664 6666666666666666 6666666666666666 6664666666666666 j

Nuclide mrem /yr fract.

mrem /yr fract.

6666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 646664 666666666 646666 666666666 666666

)

co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 8.228E+00 0.5453 l

Ca-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.170E-01 0.0343 Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E*00 0.0000 5.722E+00 0.3792 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.091E-01 0.0271 Eu-15% 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.097E-01 0.0139 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.603E-03 0.0002 M66666 666666666 H 6666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 6666666#6 66e666 666666666 666666 Tetst 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.509E+01 1.0000

Sun af all water independent and dependent pathways.

RESRAD, V:rsion 5.61 T' Lisit = 0.5 year 01/09/97 10:54 Page 11 Sumnary : RESRAD - Difault occupancy Factors File: SAMPLE.DAT Total Dose Contributions TDOSE(1,p,t) for Individual Radionucildes (1) and Pathways (p)

As arenvyr and Fraction of Total Dose At t = 1.000E+00 years Water Independent Pathways (Inhalation excludes radon)

Ground Inhalation Redon Plant Meat Milk Soit Radio-46666664M 666666 666666666&&66666 M46666666666666 &&&&66666666&&66 6666666666666666 6666666666666666 6666666666666666 Nuclide arenvyr fract.

arenvyr fract.

mrom/yr fract.

arenvyr fract.

mrenvyr fract.

mram/yr fract.

mrenvyr fract.

664 M46 666666664 M 6666 666666664 666664 666666666 666666 466M4666 644666 666666666 666666 666666666 666666 666666666 666664 co-60 7.062E+00 0.5161 2.941E-04 0.0000 0.000E+00 0.0000 4.191E-02 0.0031 6.220E-02 0.0045 8.723E-03 0.0006 4.948E-04 0.0000 Cs-134 3.443E-01 0.0252 4.924E-06 0.0000 0.000E+00 0.0000 4.491E-03 0.0003 1.338E-02 0.0010 5.249E 03 0.0004 1.068E-04 0.0000 Cs 137 4.919E+00 0.3595 1.339E-04 0.0000 0.000E+00 0.0000 1.222E 01 0.0089 3.730E-01 0.0273 1.437E-01 0.0105 2.873E-03 0.0002 Eu-152 3.853E-01 0.0282 3.647E 05 0.0000 0.000E+00 0.0000 3.948E 05 0.0000 7.031E-05 0.0000 1.107E-06 0.0000 1.464E-05 0.0000

/

Eu-155 1.923E 01 0.0141 2.161E-05 0.0000 0.000E+00 0.0000 2.662E-05 0.0000 4.737E 05 0.0000 7.469E-07 0.0000 9.882E-06 0.0000 Eu-155 2.243E-03 0.0002 1.329E 06 0.0000 0.000E+00 0.0000 1.808E-06 0.0000 3.213E-06 0.0000 5.082E-08 0.0000 6.727E-07 0.0000 HuuMu H uuhuH EH Hu 6666ecese Huuud M :t;;;;; H H uu H H uuu H H uuuu H uuuuuuu suuuuu 646666666 646666 unsuHusu uusun Tctst 1.291E+01 0.9431 4.923E-04 0.0000 0.000E+00 0.0000 1.687E-01 0.0123 4.488E-01 0.0328 1.577E 010.0115 3.500E-03 0.0003 Total Dose Contributions TDOSE(i,p,t) for Individual Radionuclides (i) and Pathways (p)

As arenvyr and Fraction of Total Dose At t = 1.000E+00 years Water Dependent Pathways 1

Water Fish Redon Plant Meat Milk All Pathways

Radio-6666666666666666 4666666666666666 6666666666666664 6664M6666666664 6666666666666666 6666666666666666 4466666666666666 Nuclide erem/yr fract.

mrom/yr fract, mrom/yr fract.

mrom/yr fract.

arem/yr fract.

mrenvyr fract, mrom/yr fract.

6466664 666666666 666666 666666666 616666 466666664 666664 666666666 666666 466666666 666666 666666666 646666 666666666 &&&d66 C3-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 7.176E+00 0.5244 Cs-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.675E-01 0.0269 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.00ta +00 0.0000 5.561E+00 0.4064 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.855E-01 0.0282 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.924E-01 0.0141 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.250E 03 0.0002 eeeueH 6666usM u 666666 Huuuuu66 HuuH uuMuunun 666666 uu n suuuu M usuu Mussusuu E H u n unsusuu H 6E6666 666666666 66666u Tetzt 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.358E+01 1.0000

stan of all water independent and dependent pathways.

REsaAD, V rsion 5.M T" Lizit = 0.5 yerr 01/09/97 10:%

P:ge 12 Sunnary : RESRAD Defcult Occupancy Factors File SAMPLE.DAT Totat Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As sreeVyr and Fraction of Total Dose At t = 2.000E+00 years Water Independent Pathways (Inhalation excludes redon)

Ground Inhalation Redon Plant Meat Milk Soit Radio- &&446&&&&&46&&&& &&&&&&&&&&&&&&&& M&&&&46&&f6&&&& M&&4&&&&&&&&&&& &&&&&&446&&&&&&& &&&&&&&&&&&&&&&& &&&&&&&&&&&&&&&&

Nuclide arenVyr fract, mrem /yr fract.

mrom/yr fract.

mrem /yr fract.

arem/yr fract.

mrenVyr fract.

&&&&&&& &&&&&&&&& &&&&&& 64&M6444 &&&&&& 6444446&& &&&&&& &&&&&&&&& 46&&&& 46446&&&& &&&&&& &&&&&&&&& &&&&&& &&M&&&&& &&&&&&

Cy60 6.159E+00 0.4941 2.554E-04 0.0000 0.000E+00 0.0000 3.639E-02 0.0029 5.400E-02 0.0043 7.573E-03 0.0006 4.295E-04 0.0000 co 134 2.448E-01 0.01% 3.484E-06 0.0000 0.000E+00 0.0000 3.177E-03 0.0003 9.465E-03 0.0008 3.714E-03 0.0003 7.553E-05 0.0000 Cs 137 4.783E+00 0.3837 1.295E-04 0.0000 0.000E+00 0.0000 1.183E-01 0.0095 3.610E-01 0.0290 1.391E-01 0.0112 2.780E 03 0.0002 Eu-152 3.631E 01 0.0291 3.420E-05 0.0000 0.000E+00 0.0000 3.703E 05 0.0000 6.594E-05 0.0000 1.038E-06 0.0000 1.373E-05 0.0000 Eu-1% 1.764E 01 0.0142 1.973E-05 0.0000 0.000E+00 0.0000 2.431E 05 0.0000 4.326E-05 0.0000 6.820E-07 0.0000 9.023E 06 0.0000 Eu-155 1.939E-03 0.0002 1.142E-06 0.0000 0.000E+00 0.0000 1.553E-06 0.0000 2.760E-06 0.0000 4.366E 08 0.0000 5.779E-07 0.0000 6eM M6 6eeh u et 6e M66 6H6H6H 6uMH M6ee6eH M6H6 66e4 H H 4 M 6666 6eMeM M M eu66 H HeH6e beeee6 666666666 6HH6 Tctet 1.173E+01 0.9409 4.434E-04 0.0000 0.000E+00 0.0000 1.579E-01 0.0127 4.245E 01 0.0341 1.503E 01 0.0121 3.309E-03 0.0003 Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As meenVyr and Fraction of Total Dose At t = 2.000E+00 years 2

l Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

4 Radio- &&&&&&&&&&&&&&&& 644446&&&&&&&&&& &&&&&&&&&&&&&6&& 4444466&&&&&&&&& &&&&&&&&&&4&&&&& &&&&&&&44446&&&& &&&&&&&&&&&&&&&&

Nuclide arenVyr fract.

ersavyr fract.

mrom/yr fract.

mrenVyr fract.

mram/yr fract.

mrem /yr fract, mrem /yr fract.

I

&&&&&&& 64446&&44 &&&&&& &&&&&&&&& &&&&&& &&&&&&&&& &&&&M &&&&&&&&& &&&&&& &&&&&&M4 &&&&&& && M M &&& &&&&&& &&&&&&466 &&&&&&

l Ca-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.00 N o 0.0000 6.258E+00 0.5020 Cs-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0 e

. m N00 2.612E-01 0.0210 Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 G. ?&

i.@0 5.404E+00 0.4336 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.J Wu..uJ00 3.632E-01 0.0291 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.765E-01 0.0142 j

I Eu 155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.946E-03 0.0002 6MeeH unsuHuuu 6Heen be6HHuu 6eebeu i:::ti::t eeee6e 6e6e6eu H H H uu E H H uuud su M uu 6#eee H H H e6e6 1:it:ti:1 HHH Tatst 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.246E+01 1.0000

Stm cf all water independent and dependent pathways.

I i

3

RESRAD, v;rsion 5.61 T Linit = 0.5 ye:r 01/09/97 10:54 Page 13 Stavnary : RESRAD - DJfault Occupancy Factars File: SAMPLE.DAT Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 3.000E+00 years 1

Water Independent Pathways (Inhalation excludes redon) 1 Ground Inhalation Radon Plant Meat Milk Soft Radio-6666666666666666 6666666666666666 666666666666&&66 6466666666666666 66666666666666&& 6666666666666666 6666666666666666 Nuclide mrem /yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

{

6666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 C -60 5.371E+00 0.4711 2.217E-04 0.0000 0.000E+00 0.0000 3.159E-02 0.0028 4.688E-02 0.0041 6.574E-03 0.0006 3.729E-04 0.0000 Cs 134 1.740E-01 0.0153 2.465E 06 0.0000 0.000E+00 0.0000 2.248E-03 0.0002 6.697E-03 0.0006 2.627E 03 0.0002 5.343E-05 0.0000 C2 137 4.651E+00 0.4080 1.253E-04 0.0000 0.000E+00 0.0000 1.144E-01 0.0100 3.492E-01 0.0306 1.345E 01 0.0118 2.690E-03 L.0002 Eu-152 3.421E-01 0.0300 3.207E-05 0.0000 0.000E+00 0.0000 3.473E-05 0.0000 6.184E-05 0.0000 9.736E-07 0.0000 1.288E-05 U.0000 Eu-154 1.619E-01 0.0142 1.802E-05 0.0000 0.000E+00 0.0000 2.219E-05 0.0000 3.950E-05 0.0000 6.227E-07 0.0000 8.239E-06 0.0000 Eu-155 1.677E-03 0.0001 9.810E-07 0.0000 0.000E+00 0.0000 1.334E-06 0.0000 2.371E-06 0.0000 3.750E-08 0.0000 4.965E-07 0.0000 Hee 666 6eueuush H uuH 666666664 666666 M6H6H6 ueuuu6 unsuuuHe 66e666 6s Mesu66 666666 666666666 H 6666 66666se66 6edu66 Tatel 1.070E+01 0.9387 4.005E-04 0.0000 0.000E+00 0.0000 1.483E-01 0.0130 4.029E-01 0.0353 1.437E-01 0.0126 3.138E-03 0.0003 Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 3.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Radio-6666666666666666 4666666666666666 66&&&66666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 Nuclide mrem /yr fract.

mree/yr fract.

mrem /yr fract.

meem/yr fract, mrem /yr fract.

6666663 6666&&666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 J.0000 5.457E+00 0.4786 Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.857E 01 0.0163 Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.252E+00 0.4607 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.423E-01 0.0300 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.619E-01 0.0142 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.682E-03 0.0001 666e666 66666e#66 666666 ese666664 666666 H666e666 666666 666666666 6666e6 666666666 666666 666666666 666666 666666666 666666 Ttt:L 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.140E+01 1.0000

$$m cf all water independent and dependent pathways.

1 j

i RESRAD, VIrsion 5.61 T~ Limit = 0.5 ye:r 01/09/97 10:54 Prge 14 Sunnary : RESRAD - 0: fault Occupancy Factgra File: SAMPLE.DAT Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 4.000E+00 years Water Independent Pathways (Inhalation excludes redon) i Grou1d Inhalation Redon Plant Meat Milk Soll Radio- &&66666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 Nuclide mrenVyr fract.

mrem /yr fract.

mrom/yr fract.

mrem /yr fract.

6666666 666666666 666666 6666&&&66 666666 666666666 666666 6666666&& 666666 666666666 666666 666666666 666666 &&666&&66 666666 Cv60 4.684E+00 0.4475 1.924E-04 0.0000 0.000E+00 0.0000 2.742E-02 0.0026 4.070E-02 0.0039 5.707E-03 0.0005 3.237E-04 0.0000 j

Cs-134 1.237E-01 0.0118 1.744E-06 0.0000 0.000E+00 0.0000 1.590E-03 0.0002 4.738E-03 0.0005 1.859E 03 0.0002 3.780E 05 0.0000 Cs-137 4.522E+00 0.4321 1.212E-04 0.0000 0.000E+00 0.0000 1.107E 01 0.0106 3.379E-01 0.0323 1.302E-01 0.0124 2.603E-03 0.0002 Eu 152 3.224E-01 0.0308 3.008E-05 0.0000 0.000E+00 0.0000 3.257E-05 0.0000 5.800E-05 0.0000 9.130E-07 0.0000 1.208E 05 0.0000 Eu-154 1.485E-01 0.0142 1.645E 05 0.0000 0.000E+00 0.0000 2.026E-05 0.0000 3.606E 05 0.0000 5.685E-07 0.0000 7.522E-06 0.0000 Eu-155 1.450E-03 0.0001 8.427E-07 0.0000 0.000E+00 0.0000 1.146E-06 0.0000 2.037E-06 0.0000 3.222E 08 0.0000 4.265E-07 0.0000 H H H6 6666e6666 666666 666666666 E H 666 66666H66 H6666 H666H H 666666 666666666 666666 666666H6 666666 6666H666 6666H Tatal 9.802E+00 0.9365 3.628E-04 0.0000 0.000E+00 0.0000 1.398E 01 0.0134 3.834E-01 0.0366 1.377E-01 0.0132 2.984E-03 0.0003 Total Dose Contributions TDOSE(i.p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 4.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

R adio-66666666&&666666 666666&&66666666 6666666666666666 66666666666&&666 66666666666&&d66 6666666666666664 6666666666666666 Nuclide mrem /yr fract, mrem /yr fract, mrem /yr fract.

mrem /yr fract, mrem /yr fract.

mrem /yr fract.

mrenVyr fract.

6666666 666666666 6666&& 666666666 6666&& 666666666 466666 666666666 666666 666466666 466666 6&&666666 666666 666666666 666666 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.758E+00 0.4546 Ca-134 0.000E+00 0.0000 0.000E+00 0.00(9 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.320E-01 0.0126 Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.104E+00 0.4876 Eu-152 0.000E+00 0.0000 0.000E+00 0.0(00 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.225E-01 0.0308 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.486E-01 0.0142 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.454E-03 0.0001 666666e 6666e6666 666666 66666e666 666666 666666666 666666 666666666 e66666 666666666 666666 666666666 666666 666666666 666666 Tatal 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.047E+01 1.0000

Sun of all water independent and dependent pathways.

RESRAD, V rsion 5.61 T Limit = 0.5 yacr 01/09/97 10:54 Pepe 15 Suunary : RESRAD - D2 fault Occipancy Fseters File: $ AMPLE.DAT Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As aren/yr and Fraction of Total Dose At t = 5.000E+00 years Water Independent Pathways (Inhalation excludes redon)

Ground Inhalation Redon Plant Meat Milk Soll Redie- """""""" u"huMhuM hu"""H"u

"""""""" MMM6M6&M&&& 64M466666666666 M&M&MM&MM6 Nuclide arem yr fract.

areWyr fract.

mrom/yr fract, areWyr fract.

areWyr fract.

mrom/yr fract.

mram/yr fract.

MMM6MMMM6MMM hMuM'MMM 6MMMM MMM

~6M6 66MM uhuu'6M&M 6MMMM M6M6 6M6MM66MM6 Co-60 4.084E+00 0.4235 1.671E-04 0.0000 0.000E+00 0.0000 2.381E-02 0.0025 3.533E-02 0.0037 4.954E-03 0.0005 2.810E 04 0.0000 Cs 134 8.796E-02 0.0091 1.233E 06 0.0000 0.000E+00 0.0000 1.125E 03 0.0001 3.351E 03 0.0003 1.315E 03 0.0001 2.674E 05 0.0000 Cs 137 4.397E+00 0.4560 1.173E 04 0.0000 0.000E+00 0.0000 1.071E 01 0.0111 3.269E-01 0.0339 1.259E-01 0.0131 2.518E 03 0.0003 Eu-152 3.037E-01 0.0315 2.821E-05 0.0000 0.000E+00 0.0000 3.054Ff05 0.0000 5.439E-05 0.0000 8.562E-07 0.0000 1.133E-05 0.0000 Eu-154 1.362E 01 0.0141 1.502E 05 0.0000 0.000E+00 0.0000 1.850E 05 0.0000 3.292E-05 0.0000 5.190E-07 0.0000 6.868E-06 0.0000 tu-155 1.253E 03 0.0001 7.238E-07 0.0000 0.000E+00 0.0000 9.86tA-07 0.0000 1.750E-06 0.0000 2.767E 08 0.0000 3.663E-07 0.0000 MH6M MMe66M MMe6 MMMM6 M66M 6MMMM MHe6 M M H yui Meeee H Me6eH M6666 MMM6M Me6M M6MMM 6eMM Tatt!

9.011E+00 0.9343 3.295E-04 0.0000 0.000E+00 0.0000 1.321E 01 0.0137 3.657E-01 0.0379 1.322E-01 0.0137 2.844E-03 0.0003 I

Total Dose contributions TDOSE(1 p,t) for Individual Radionuclides (i) and Pathways (p)

As erem/yr and Fraction of Total Dose At t = 5.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Redie-M6&MMhhhH h"u""M""

M666666666666M MMMhhMMM MMhhMhMH Mhh""uuu 6666#aH u M M M Nuclide arem/yr fract.

arem/yr fract.

mrom/yr fract.

arem/yr fract.

mram/yr fract.

mrom/yr fract.

.arem/yr fract.

M66166 66664M66 M64M 66664M66 6664M 6664M666 M6666 uuuu' M6M6 uuhu' 46MM M& M&M 6 666666 666666666 6M&66 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.000J 4.149E+00 0.4302 Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 9.378E-02 0.0097 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.'.#000 4.960E+00 0.5143 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 C.0000 3.039E-01 0.0315 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.363E-01 0.0141 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.257E 03 0.0001 6e6eM e 6eeeeeeee 6eeeed 6e6eeeeee M6eee :. L __.: 6eede# 6M6e6ee6 6eM ee be6eMMe 6ee6M Meeeeee6 eeeeee 6eeeeee6e 6666H Tstal 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 9.644E+00 1.0000

Sun of all water independent and dependent pathways.

I l

1 i

3

RESRAD, VIraion 5.61 T Lirit 0.5 ye:r 01/09/97 10:55 P ge 16 Summary : RESRAD - 0:f ault Occupancy Facters File: SAMPLE.DAT Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 6.000E+00 years Water Independent Pathways (Inhalation excludes redon) l Ground Inhalation Radon Plant Meat Milk Soil Radio-66666666666666&& 6666&d6666666666 666&&46666666666 66666666&&666666 6666666666666666 4666666666666666 6666666666666666 NucllJe prem/yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

mrem /yr fract.

6666666 &&6666666 666666 666666666 666666 466666666 666666 666666&&& 666664 66666&d66 666666 666666666 666666 666666666 666666 C:-60 3.562E+00 0.3994 1.450E-04 0.0000 0.000E+00 0.0000 2.066E-02 0.0023 3.067E-02 0.0034 4.300E 03 0.0005 2.439E-04 0.0000 Cs-134 6.253E-02 0.0070 8.725E-07 0.0000 0.000E+00 0.0000 7.958E-04 0.0001 2.371E-03 0.0003 9.302E-04 0.0001 1.892E-05 0.0000 Cs-137 4.275E+00 0.4795 1.135E-04 0.0000 0.000E+00 0.0000 1.036E-01 0.0116 3.162E-01 0.0355 1.218E-01 0.0137 2.436E-03 0.0003 Eu-152 2.862E-01 0.0321 2.645E-05 0.0000 0.000E+00 0.0000 2.864E-05 0.0000 5.100E-05 0.0000 8.029E-07 0.0000 1.062E 05 0.0000 Eu-154 1.249E 01 0.0140 1.371E-05 0.0000 0.000E+00 0.0000 1.689E-05 0.0000 3.006E-05 0.0000 4.739E-07 0.0000 6.270E-06 0.0000 Eu-155 1.084E-03 0.0001 6.217E-07 0.0000 0.000E+00 0.0000 8.457E-07 0.0000 1.503E-06 0.0000 2.377E-08 0.0000 3.147E-07 0.0000 6666666 666666666 666666 66e666666 646666 6666ee6uu 666666 He666666 666666 666666666 666666 666666666 666666 666666666 666666 Tstal 8.312E+00 0.9322 3.001E-04 0.0000 0.000E+00 0.0000 1.251E 01 0.0140 3.494E-01 0.0392 1.271E-01 Total 8.312E+00 0.9322 Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 6.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Radio-6466&&6666666666 6666666666666666 66666666666666&& 6666666666666666 4666666666666666 4666666666666666 4666666666666664 Nuclide mram/yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

mrem /yr fract.

4666666 666666666 666666 666666666 666666 466666666 466664 666666666 466666 666666666 666664 466666666 666666 666666666 666&66 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.618E+00 0.4057 Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 6.665E-02 0.0075 Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.820E+00 0.5405 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.663E-01 0.0321 Eu 155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.250E 01 0.0140 Eu 155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.087E-03 0.0001 6666666 666666666 666666 666666666 666666 6666e6666 666666 666666666 666666 666666666 666666 66666#666 666666 666666e66 666666 Tit:1 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 8.916E+00 1.0000

Sun of all water independent and dependent pathways.

RESRAD, V;rsion 5.61 T~ LI lt = 0.5 ye:r 01/09/97 10:54 Page 17 Stannary : RESRAD - D3 fault Occupancy Fact:rs File: SAMPLE.DAT Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 7.000E+00 years 1

l Water Independent Pathways (Inhalation excludes redon)

Grotrid Inhalation Redon Plant Meet Milk Soil R adio-6666&&6666666666 6666666&&&6666&& 666&&66666666666 &&&666&&&6666666 6666666666666666 6666666666666666 6666666666&&666&

Nuclide arem/yr fract.

mrem /yr fract.

6666666 666666666 666666 6666&&666 666666 666666666 666666 666666666 666666 666666666 666666 6&&666666 666666 66&&a&666 666666 C3-60 3.106E+00 0.3755 1.259E-04 0.0000 0.000E+00 0.0000 1.794E-02 0.0022 2.662E-02 0.0032 3.733E-03 0.0005 2.117E-04 0.0000 Cs-134 4.445E-02 0.0054 6.172E-07 0.0000 0.000E+00 0.0000 5.629E-04 0.0001 1.677E-03 0.0002 6.579E-04 0.0001 1.338E-05 0.0000 Cs-137 4.157E+00 0.5026 1.098E-04 0.0000 0.000E+00 0.0000 1.002E-01 0.0121 3.059E-01 0.0370 1.178E-01 0.0142 2.356E-03 0.0003 Eu-152 2.6%E-01 0.0326 2.480E-05 0.0000 0.000E+00 0.0000 2.685E-05 0.0000 4.782E-05 0.0000 7.52BE-07 0.0000 9.959E-06 0.0000 Eu-154 1.146E-01 0.0139 1.252E-05 0.0000 0.000E+00 0.0000 1.542E-05 0.0000 2.744E-05 0.0000 4.326E-07 0.0000 5.724E-06 0.0000 Eu 155 9.368E-04 0.0001 5.340E-07 0.0000 0.000E+00 0.0000 7.264E-07 0.0000 1.291E-06 0.0000 2.041E 08 0.0000 2.703E-07 0.0000 e666666 6e6666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 66e666666 6e66e6 666666666 666666 Tet:L 7.692E+00 0.9301 2.741E 04 0.0000 0.000E*00 0.0000 1.188E-01 0.0144 3.343E-01 0.0404 1.222E-01 0.0148 2.597E 03 0.0003 Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (l) ard Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 7.000E+00 years Water Dependent Pathways Water Fish Radon Plant Meat Milk All Pathways

Radio-6666666666666666 66&6666666666666 66666666&&666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 Nuclide mrem /yr fract.

mrem /yr fract.

arem/yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

mrem /yr fract.

66666&& 666666666 666666 666666666 666666 646666&&6 666666 666666666 666666 666666666 666666 666666666 666666 666666666 &&&666 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.154E+00 0.3814 Cs-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.737E-02 0.0057 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.683E+00 0.5663 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.697E-01 0.0326 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.147E 01 0.0139 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 A.000E+00 0.0000 0.000E+00 0.0000 9.397E-04 0.0001 6e66666 666666666 666666 666666666 6e6666 666666666 666666 666666666 666666 666666666 666666 666666e66 666666 6666e6666 666666 Tatal 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 8.270E+00 1.0000

Stn cf all water independent and dependent pathways.

i RESRAD, virston 5.61 T Lisit = 0.5 ye:r 01/09/97 10:54 P:ge 18

~

Sumary : RESRAD - D3 fault Occupancy Facters File: SAMPLE.DAT total Dose Contributions TDOSEti,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 8.000E+00 years Water Independent Pathways (Inhalation excludes redon)

Ground Inhalation Redon Plant Meat Milk Soll R adio-6666666666666664 6666666666666666 6666666666666666 6666666666666666 6666666666666666 6&&6666666666666 66666&&&&6666666 Nuclide mrem /yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

mrem /yr fract.

4666666 666666666 666666 666666666 666664 666666666 666666 666666666 666666 666666666 666666 666666664 666666 666666666 666666 Cp60 2.708E+00 0.3519 1.092E-04 0.0000 0.000E+00 0.0000 1.557E-02 0.0020 2.310E-02 0.0030 3.240E-03 0.0004 1.838E 04 0.0000 Cs-134 3.160E 02 0.0041 4.365E-07 0.0000 0.000E+00 0.0000 3.981E-04 0.0001 1.186E-03 0.0002 4.654E-04 0.0001 9.464E-06 0.0000 Ca-137 4.041E+00 0.5252 1.062E-04 0.0000 0.000E+00 0.0000 9.697E-02 0.0126 2.959E-01 0.0385 1.140E-01 0.0148 2.279E-03 0.0003 Eu 152 2.540E 01 0.0330 2.325E-05 0.0000 0.000E+00 0.0000 2.518E-05 0.0000 4.483E 05 0.0000 7.058E 07 0.0000 9.337E-06 0.0000 Eu-154 1.051E-01 0.0137 1.143E-05 0.0000 0.000E+00 0.0000 1.407E-05 0.0000 2.505E-05 0.0000 3.949E-07 0.0000 5.22SE-06 0.0000 Eu-155 8.099E-04 0.0001 4.586E-07 0.0000 0.000E+00 0.0000 6.239E-07 0.0000 1.108E-06 0.0000 1.753E 08 0.0000 2.321E-07 0.0000 66e6666 6HHueH 666666 6666H 6 H 666su6 bebue6666 66666E M666H H M6 sed e66666666 666 H6 6666#6666 H 6666 6666 H666 666666 Tct:t 7.141E+00 0.9280 2.510E-04 0.0000 0.000E+00 0.0000 1.130E-01 0.0147 3.203E-01 0.0416 1.177E-01 0.0153 2.487E-03 0.0003 Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As erem/yr and Fraction of Totat Dose At t = 8.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk Att Pathways

Radio-6666666666666666 6666666666666666 6666666666666666 &&66666666666666 6666666666666666 a666666666666666 6666666666666666 kuclide mrem /yr fract.

mrem /yr fract.

6666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.750E+00 0.3574 Cs-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.366E-02 0.0044 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.551E+00 0.5914 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.541E-01 0.0330 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.052E 01 0.0137 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 8.124E-04 0.0001 6666ee) 666e66666 666666 E66666666 666666 666e66666 6666E6 66&susu66 66E6u6 66eu66Ess #66666 666666u66 666666 66s666666 EE6666 Tat:t 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 7.695E+00 1.0000

'Stan of all water independent and dependent pathways.

RESRAD, VIrsion 5.61 T Lialt = 0.5 ye2r 01/09/97 10:55 Page 19

)

Suenary : RESRAD - Dsfault Occ @ancy Facters File: SAMPLE.DAT l

j Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrom/yr and Fraction of Total Dose At t = 9.000E+00 years J

Water Independent Pathways (Inhalation excludes redon) 4 Ground Inhalation Redon Plant Meat Milk Soit 1

Radio-M M66M 666 M M6 M6MM66M6&M6 M6666M66666666 66MM66M666666 6M664M&MM6M M&666666666M&6 66MM&M6666666 l

Nuctide prem/yr fract.

mrom/yr fract.

arem/yr fract.

mrom/yr fract.

mrem /yr fract, mram/yr fract.

66M666 666666666 6MM6 6446M&M 666M6 666666666 M&666 &&6666666 6M 666 6MM6664 M4666 666666664 666666 666666666 666666 Co-60 2.361E+00 0.3288 9.481E 05 0.0000 0.000E+00 0.0000 1.351E-02 0.0019 2.005E-02 0.0028 2.812E 03 0.0004 1.595E-04 0.0000 Cs-134 2.246E 02 0.0031 3.087E 07 0.0000 0.000E+00 0.0000 2.816E-04 0.0000 8.389E 04 0.0001 3.291E-04 0.0000 6.694E 06 0.0000 4

Cs 137 3.929E+00 0.5472 1.027E-04 0.0000 0.000E+00 0.0000 9.380E-02 0.0131 2.862E-01 0.0399 1.103E 01 0.0154 2.205E-03 0.0003 Eu-152 2.393E-01 0.0333 2.180E-05 0.0000 0.000E+00 0.0000 2.360E 05 0.0000 4.204E-05 0.0000 6.618E-07 0.0000 8.754E-06 0.0000 Eu-154 9.641E-02 0.0134 1.043E-05 0.0000 0.000E+00 0.0000 1.285E-05 0.0000 2.286E-05 0.0000 3.604E-07 0.0000 4.769E-06 0.0000 i

Eu-155 7.002E 04 0.0001 3.939E 07 0.0000 0.000E+00 0.0000 5.358E 07 0.0000 9.520E 07 0.0000 1.506E-08 0.0000 1.993E-07 0.0000

(

M6eee6 6MMeM6 H6H6 6eMMen HMM 6M MeM6 6ee6M Mee6M e6 6eMee eeM MeH Meeee beeeMeet 6Med 6eeMeeee 6Mee6 Tstal 6.649E+00 0.9261 2.305E-04 0.0000 0.000E+00 0.0000 1.076E-01 0.0150 3.072E-01 0.0428 1.134E-01 0.0158 2.385E-03 0.0003 w

l Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrom/yr and Fraction of Total Dose At t = 9.000E+00 years d

Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

l Radio-666666 M h u u 66 666666M64444446 646M66666666666 HMMMMMMu 6666666666666666 4666666666666666 4666666666666666 Nuclide mram/yr fract, mrom/yr fract.

mrom/yr fract, mrom/yr fract.

aren/yr fract.

arem/yr fract.

M64466 &M666666 666666 666666666 Ma&M M6666666 666666 66666M66 M&M6 6666M666 6666M 666666666 666666 666666666 666666 l

Co 60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.398E+00 0.3339 Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.392E-02 0.0033 i

Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.422E+00 0.6159 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.394E-01 0.0333 i

Eu-156 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 9.647E 02 0.0134 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E*00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 7.023E-04 0.0001 i

6ee6eee H M6 Met ee Me6 M6e6 Hee 6ee6ee 6e6 deen M Mee 6eeee6Me Hebee HHHH6 H6H6 icinx 6H666 6H666H6 Heek i

l Tatst 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 7.180E400 1.0000 eSun of all water independent and dependent pathways.

e 2

1

[

t

RESRAD, v2rsion 5.61 T" Lisit = 0.5 ye:r 01/09/97 10:55 Pege 20 Suunary : RESRAD D2 fault Occupancy Factors File: SAMPLE.DAt Dose / Source Ratios Suwaed Over All Pathways Parent and Progeny Principal Radionuclide Contributions Indicated j

P; rent Product Branch DSR(j,t) (mrem /yr)/(pCl/g)

(1)

(j) Fraction to 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 6666666 6666666 666666666 66&&66666 666666664 666666666 666666666 666666666 666666666 666666666 666666666 &&6666666 666666666 Co-60 Co 60 1.000E+00 5.388E+00 4.698E+00 4.097E+00 3.573E+00 3.115E+00 2.71TE+00 2.369E+00 2.065E+001.801E+001.570E+00 C2-134 Cs-134 1.000E+00 3.484E+00 2.476E+00 1.760E+00 1.251E+00 8.892E 01 6.319E-01 4.4911-01 3.192E-01 2.268E 01 1.612E 01 l

C2-137 Cs 137 1.000E+00 1.336E+00 1.299E+00 1.262E+00 1.227E+00 1.192E+00 1.158E+00 1.1coE+00 1.094E+00 1.063E+00 1.033E+00 Eu-152 Eu-152 7.208E-01 1.698E+00 1.600E+00 1.507E+00 1.420E+00 1.338E+00 1.261E+00 1.188E+00 1.119E+00 1.055E+00 9.935E 01 Eu-152 Eu-152 2.792E-01 6.575E-01 6.196E-01 5.839E-01 5.502E-01 5.184E-01 4.884E-01 4.602E-01 4.336E-01 4.085E-01 3.848E-01 Eu-152 Gd-152 2.792E-01 0.000E+00 4.588E-16 8.825E-16 1.274E-15 1.636E-15 1.970E 15 2.278E-15 2.561E-15 2.822E-15 3.060E 15 Eu-152 8DSR(j) 6.575E-01 6.196E-01 5.839E-01 5.502E-01 5.184E-01 4.884E-01 4.602E-01 4.336E-01 4.085E-01 3.848E-01 Eu-154 Eu-154 1.000E+00 2.567E+00 2.355E+00 2.161E+00 1.982E+00 1.818E+00 1.668E+00 1.530E+00 1.403E+00 1.287E+00 1.181E+00 Eu-153 Eu-155 1.000E+00 7.053E-02 6.098E-02 5.272E-02 4.558E-02 3.941E-02 3.407E-02 2.946E-02 2.547E-02 2.202E-021.903E-02 66subsu 6666u66 suh66uusu

66666666 uueuuue6s su#uus6us E66666466 666Eee666 666666666 Eu6e66666 66666s666 666666#66 66e66666u Branch Fraction is the cunulative factor for the j'th principal radionuclide daughter: CUMBRF(j) s BRF(1)*BRF(2)*... BRF(j).

Th2 DSR includes contributions from associated (half life g 0.5 yr) daughters.

Single Radionuclide Soll Guidelines C(1,t) in pCl/g Basic Radiation Dose Limit = 10 mrem /yr Nuclide (1) to 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 6666666 666666664 666666666 666666666 666666666 666666666 666666666 &&6666666 666666666 666666666 666666666 Co-60 1.856E+00 2.128E+00 2,441E+00 2.799E+00 3.210E+00 3.681E+00 4.222E+00 4.842E+00 5.554E+00 6.370E+00 Cs-134 2.870E+00 4.038E*0c 5.681E+00 7.993E+00 1.125E+01 1.582E+01 2.227E+01 3.133E+01 4.409E+01 6.204E+01 C3 137 7.484E+00 7.700E+00 7.923E+00 8.153E+00 8.389E+00 8.633E+00 8.884E+00 9.143E+00 9.409E+00 9.684E+00 Eu-152 4.246E+00 4.506E+00 4.782E+00 5.075E+00 5.386E+00 5.716E+00 6.067E+00 6.440E+00 6.835E+00 7.255E+00 Eu-154 3.895E+00 4.246E+00 4.628E+00 5.045E+00 5.499E+00 5.995E+00 6.536E+00 7.125E+00 7.768E+00 8.469E+00 Eu-155 1.418E+02 1.640E+02 1.897E+02 2.194E+02 2.537E+02 2.935E+02 3.395E+02 3.527E+02 4.542E+02 5.254E+02 666EEtu 6666666Es 66666E666 EEs#66666 usuu66ssu E66666EEE 66666sueu #6EE66666 #666666u6 666666Eeu 6e6666ssu Sunmed Dose / Source Ratios OSR(1,t) in (mrem /yr)/(pCi/g) and Single Radionuclide soll Guidelines G(1,t) in pCl/g at tein a time of minimun single radionuclide soll guideline and at tmax = time of maximun total dose = 0.000E+00 years Nuclide initial tmin DSR(1,tmin) G(1,tmin) DSR(1,tmax) G(1,tmax)

(1) pCl/g (years)

(pCl/g)

(pCi/g) 6666666 666666666 6666666666666666 666666666 666666666 666666666 666666666 Co-60 1.52TE+00 0.000E+00 5.388E+00 1.856E+00 5.388E+00 1.856E+00 C2-134 1.484E-01 0.000E+00 3.484E+00 2.870E+00 3.484E+00 2.870E+00 Cs-137 4.282E+00 0.000E+00 1.336E+00 7.484E+00 1.336E+00 7.484E+00 Eu-152 1.737E-01 0.000E +00 2.355E+00 4.246E+00 2.355E+00 4.246E+00 Eu-154 8.170E-02 0.003U00 2.567E+00 3.895E+00 2.567E+00 3.895E+00 Eu-155 3.690E 02 0.000E*00 7.053E-02 1.418E+02 7.053E 02 1.418E+02 euete66 666666e66 6e66666666666666 66666666# #666e6u6# 66s666eed 666se6666

1 4

?

RESRAD, V:rsion 5.61 T" Limit = 0.5 yese 01/09/97 10:54 Page 21 j

Summary : RESRAD + D3 fault Occupancy Facters File: SAMPLE.0AT I

i

)

Individual Nuclide Oose Summed Over Atl Pothways j

Parent Nuclide and Branch Fraction Indicated i

i Nuclide Parent BAF(l) 00$E(),t),aren/yr l

(j)

(i) to 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 666usi 6666666 uusu66 66us&644 mmm 666666666 66uuud 666&&&&&& 66666u66 su6u666 666uus6 666666666 us6u6u j

d Co-60 Co-60 1.000E+00 8.228E+00 7.176E+00 6.258E+00 5.457E+00 4.758E+00 4.149E+00 3.618E+00 3.154E+00 2.750E+00 2.398E+00 l

1 Ca 134 Cs-134 1.000E+00 5.170E-01 3.675E-01 2.612E-01 1.857E-01 1.320E 01 9.378E-02 6.665E-02 4.737E-02 3.366E-02 2.392E-02 1

1 Cs 137 Cs-137 1.000E+00 5.722E+00 5.561E+00 5.404E+00 5.252E+00 5.104E+00 4.960E+00 4.820E+00 4.683E+00 4.551E+00 4.422E+00 i

Eu-152 Eu-152 7.208E-01 2.949E 01 2.779E 01 2.618E 01 2.467E 01 2.325E 01 2.190E-01 2.064E 01 1.944E-01 1.832E-01 1.726E-01 Eu-152 Eu-152 2.792E 01 1.142E-01 1.076E-01 1.014E-01 9.556E-02 9.004E 02 8.484E-02 7.993E-02 7.531E-02 7.095E 02 6.684E 02 Eu-152 GDOSE(j):

4.091E 01 3.855E 01 3.632E-01 3.423E-01 3.225E 01 3.039E 01 2.863E-01 2.697E-01 2.541E 01 2.394E-01 Gd-152 Eu-152 2.792E-01 0.000E+00 7.%9E 171.533E 16 2.213E 16 2.842E 16 3.422E-16 3.957E 16 4.449E-16 4.901E 16 5.315E 16 Eu-1% Eu-154 1.000E+00 2.097E 01 1.924E 01 1.765E-01 1.619E 01 1.486E 01 1.363E 01 1.250E 01 1.147E-01 1.052E-01 9.647E-02 Eu 155 Eu-155 1.000E+00 2.603E-03 2.250E-03 1.946E 03 1.682E 03 1.454E 03 1.257E 03 1.087E-03 9.397E 04 8.124E 04 7.023E-04 M M6M 6eeeM6 6ee M M M ee6eeeee6 6ee6eMM 6e6Mee6e M66MM6 6eeeee6e6 6eeeeMeu MeeeeMe 6eeeMeee 6eee6eeee e6eeeeeee 8AF(l) is the branch fraction of the parent nuclide.

Individual Nuclide soll concentration Parent Nuclide and Branch Fraction Indicated Nuclide Parent BAF(i)

S(),t),pCi/g (j)

(i) t= 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 uuud Muud usu6ud uuuud suuu66 usuue6 mmm mmm samam Muu664 uuuud u64uud ussueu Co-60 Co-60 1.000E+00 1.527E+00 1.335E+00 1.167E+00 1.020E+00 8.914E-01 7.791E 01 6.810E-01 5.952E-01 5.203E-01 4.547E-01 Cs-134 Cs-134 1.000E+00 1.484E-01 1.057E 01 7.529E-02 5.363E 02 3.820E 02 2.721E 021.938E-02 1.381E 02 9.834E 03 7.004E-03 Cs 137 Cs 137 1.000E+00 4.282E+00 4.171E+00 4.063E+00 3.958E+00 3.856E+00 3.756E+00 3.659E+00 3.564E+00 3.472E+00 3.382E+00 Eu-152 Eu-152 7.200E-01 1.252E-01 1.182E 01 1.116E-01 1.054E 019.952E-02 9.397E-02 8.872E-02 8.377E-02 7.910E-02 7.469E-02 Eu-152 Eu-152 2.792E-01 4.850E 02 4.579E 02 4.324E 02 4.083E 02 3.855E 02 3.640E 02 3.437E-02 3.245E-02 3.064E 02 2.893E-02 Eu-152 8S(J):

1.737E-01 1.640E 01 1.549E 01 1.462E 01 1.381E-01 1.304E-01 1.231E-01 1.162E-01 1.097E-01 1.036E-01 Gd-152 Eu-152 2.792E-01 0.000E+00 3.017E 16 5.849E-16 8.507E-16 1.100E-15 1.334E-15 1.553E 15 1.759E 15 1.951E 15 2.131E 15 Eu-1% Eu-154 1.000E+00 8.170E-02 7.510E 02 6.904E-02 6.347E-02 5.835E 02 5.364E-02 4.931E-02 4.533E 02 4.167E-02 3.830E-02 Eu-155 Eu-155 1.000E+00 3.690E 02 3.191E 02 c.7CE 02 2.387E-02 2.065E-021.786E-021.545E 021.336E-021.155E-02 9.993E-03 MMed 6eeMM 6eeeeMM Meeee6M 6eeeeebee 6eeee6M6 6MeeHM 6ee6e6M6 M6M6666 66H66666 M6M6666 66M6eeee HMMued 8tF(l) is the branch fraction of the parent nuclide.

4 i

i i

4 4

l ATTACIIMENT 2 i

- RESR A.D ANALYSIS -

i i

TEDE Based on Highest Survey Unit Average (UCL) Concentration j

Assumed Uniform Distribution Over 207,300 Square Meters i

i t

I i

1 1

1 2

1 l

RESRAD, V:rafon 5.61 T~ Ll:1t. 0.5 year 01/09/97 11:02 Page 1 Sunumery : RESRAD Default occtpency Factors File SAMPLE.DAT l

T ele of Contents 4444444444a444444 P:rt 1: Mixture Stas and Single Radionuclide Guidelines NHHeeHedheHoHHeMeHHHeeeHHHHHeHHHH4 Dose Conversion Factor (and Related) Parameter Stannery...

2 S i ts-Spec i f i c Paramet er Stannary..........................

4 Sisumery of Pathway Se l ec t i ons............................

8 Contaminated Zone and Total Dose Stannary.................

9 i

Tat:L Dose Cosponents i

Time = 0.000E+00....................................

10 Time = 1.000E+00....................................

11 Time = 2.000E+00....................................

12 T i me = 3. 000E +00....................................

13 Time = 4.000E+00....................................

14

. Time = 5.000E+00....................................

15 Time = 6.000E+00....................................

16 Time = 7.000E+00....................................

17

-Time = 8.000E+00....................................

18 Time = 9.000E+00....................................

19 Dose / Source Ratios Stauned Over AL L Pathways.............. 20

$1ngle R6dionuclide Soit Guidelines...................... 20 Dose Pir Nuc l i de Stauned Over A t t Pathways................ 21 Soit Concentration Per Nuctide........................... 21 i

l I

i i

1

RESRAD, V;rsion 5.61 T" Liait e 0.5 ye:r 01/09/97 11:02 Page 2 Sunnary : RESRAD - D; fault Occupancy Factors Files SAMPLE.DAT Dose Conversion Factor tend Related) Parameter Sunnary File: DOSFAC. BIN Current Parameter Menu

Parameter Value

Default

Name 6666M66MM664M&6M666666MM&MM&M66666&&&M6666666MMM6666M&64MM646666M66M664M66666666666666 B-1

Dose conversion f actors for irAalation, eram/pCI:

B1

Co-60

2.190E-04

2.190E 04

DCF2( 1)

B1

Cs 134

4.630E 05

4.630E 05

DCF2( 2)

B1

Cs 137+D

' 3.190E-05

3.190E-05

DCF2( 3)

B-1

Eu-152

2.210E 04

2.210E-04

DCF2( 4)

B-1

Eu-154

2.860E-04

2.860E 04

DCF2( 6)

B1

Eu-155

4.140E-05

4.140E 05

DCF2( 7)

B1

Gd-152

2.430E 01

2.430E 01

DCF2( 8)

D1

Dose conversion f actors for ingestion, mram/pCI:

D1

Co-60

2.690E-05

2.690E-05

DCF3( 1)

D1

Cs 134

7.330E-05

7.330E 05

DCF3C 2)

D1 ' Cs 137+D

5.000E 05

5.000E 05

DCF3( 3)

D1 ' Eu-152

6.480E-06 ' 6.480E 06

DCF3C 4)

D-1

Eu-154

9.550E-04

9.550E-06

DCF3( 6)

D1

Eu-155

1.530E-06 ' 1.530E 06

DCF3( 7)

D1

Gd-152

1.610E-04 ' 1.610E-04

DCF3( 8)

D-34

Food transfer factors:

D-34

Co 60

, plant / soil con:entration ratio, dimensiontess

8.000E-02

8.000E-02

RTF( 1,1) l D 34

Co-60

, beef /tivestock intake ratio, (pci/kg)/(pct /d)

2.000E-02

2.000E-02

RTF( 1,2)

D-34

Co 60

, milk / livestock intake ratio, (pcl/L)/(pCl/d)

2.000E-03

2.0009 03

RTF( 1,3) p.54 e D-34

Cs 134, plant /soll concentration ratio, dimensiontess

4.000E 02

4.000E 02

RTF( 2,1) 4 D-34

Cs 134, beef /tivestock intake ratio, (pci/kg)/(pci/d)

3.000E-02

3.000E-02

RTF( 2,2)

D-34

Cs 134, milk / livestock Intake ratio, (pCl/L)/(pCl/d)

8,000E-03

4.000E-03

RTF( 2,3)

D-34

D 34

Cs 137+0, plant /soit concentration ratio, dimensionless

4.000E 02

4.000E-02

RTF( 3,1)

D-34

Cs 137+D, beef /tivestock-intake ratio, (pct /kg)/(pcl/d)

3.000E-02

3.000E 02

RTF( 3,2)

D-34

Cs-137+D, mitk/tivestock intake ratio, (pCl/L)/(pci/d)

8.000E-03

8.000E-03

RTF( 3,3)

D 34

D-34

Eu-152, plant /soll concentration ratio, dimensionless

2.500E-03

2.500E 03

RTF( 4,1)

D-34

Eu-152, beef / livestock intake ratio, (pCl/kg)/(pCf/d)

2.000E-03

2.000E-03

RTF( 4,2)

D 34

Eu-152, al h/tivestock-intake ratio, (pcl/L)/(pCl/d>

2.000E-05

2.000E 05

RTF( 4,3) p.34 e 4

D-34 ' Eu-154

, plantt.41L concentration ratio, dimensionless

2.500E-03

2.500E 03

RTF( 6,1)

D 34

Eu-154

, beef /tivestock intake ratio, (pci/kg)/(pci/d)

2.000E 03

2.000E-03

RTF( 6,2)

D-34

Eu-154

, mitk/tivestock intake ratio, (pCi/L)/(pCf/d)

2.000E-05

2.000E 05

RTF( 6,5) 0 34

D 34

Eu-155

, plant /soit concentration ratio, dimensionless

2.500E-03

2.500E-03

RTF( 7,1)

D-34

Fu-155, beef / livestock-intake ratio, (pCl/kg)/(pCl/d)

2.000E-03

2.000E-03

RTF( 7,2)

D-34

Eu-155

, milk / livestock intake ratio, (pci/L)/(pCl/d)

2.000E 05

2.000E 05

RTF( 7,3)

D 34

D-34

Gd 152, plant /soit concentration ratio, dimensionless

2.500E-03

2.500E-03

RTF( 8,1)

D-34

Gd-152

, beef / livestock-intake ratio, (pC1/kg)/(pCf/d)

2.000E 03

2.000E 03

RTF( 8,2)

D-34

Gd 152, milk / livestock-intake ratio, (pC1/L)/(pcl/d)

2.000E-05

2.000E-05

RTF( 8,3) e D-5

Blonecumulation factors, fresh water, L/kg:

D-5

Co-60

, fish

3.000E+02

3.000E+02

B10FAC( 1,1)

D5

Co-60

, crustacea and mottusks

2.000E+02

2.000E+02

BIDFAC( 1,2) p.5

l l

l RESRAD, V;rsion 5.61 7" Lirit e 0.5 year 01/09/97 11:03 Page 3 Sunnary : RESRAD - 0: fault & cupancy Facttrs File: SAMPLE.DAT i

Dose Conversion Factor (and Related) Parameter Suunary (continued) l Files DOSFAC. BIN l

Current Parameter Menu

Parameter

' Vetue

Default

Name i

MMM6466664MMMM46666M66666666666M6&&&&&M6466666M466MM&M&6M66666666M&MM466M66&&6M6666666 i

D5

Cs 134, fish

2.000E+03 ' 2.000E+03

B10FAC( 2,1)

D5

Cs 134, crustacea and mollusks

1.000E+02

1.000E+02

B10FAC( 2,2)

D5

D5

Cs 137+D, fish

2.000E+03

2.000E+03

BIDFAC( 3,1)

D-5

Cs-137+D, crustacea and mottusks

1.000E+02

1.000E+02

BIDFAC( 3,2)

D5

D-5

Eu-152

, fish

5.000E+01

5.000E+01 ' BIDFACC 4,1)

D5

Eu-152

, crustacea and mottusks

1.000E+03

1.000E+03

BIDFAC( 4,2)

D5

D-5

Eu-154

, fish

5.000E+01

5.000E+01

BIDFAC( 6,1)

D5

Eu-154

, crustacea and mollusks

1.000E+03

1.000E+03

B10FAC( 6,2)

D5

D-5

Eu-155

, fish

5.000E+01

5.000E+01

B10FAC( 7,1)

D5

Eu-155

, crustacea and mottusks

1.000E+03

1.000E+03

B10FAC( 7,2) 0-5

D-5

Gd-152

, fish

2.500E+01

2.500E+01

BIDFAC( 8,1)

D-5

Gd-152

, crustacea and mottusks

1.000E+03

1.000E+03

BIDFACC 8,2) 6HeeueM66 mom 6eMMcH6H:...i.ititt.:ni...i..n t: ttitti..:.._:::1....::tmHMHeenG6Hehede6666 1

i l

1 i

i 1

1 RESRAD, V;rsion 5.61 7" Lirit = 0.5 ye:r 01/09/97 11:02 Page 4 i

Suunary : RESRAD - D; fault Occupancy Fccttra Fils: SAMPLE.DAT Site-specific Parameter Summary User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name 6666M6666MMM66666666664MM64M4666M6666666M664MMM6666MMM46666M666M666M6666&&6666644666M66M66666M6666664M6666 R011

Area of contaminated zone (m"2)

2.073E+05 ' 1.000E+04 *

AREA

-~

RO11

Thickness of contaminated zone (m)

1.500E-01

2.000E+00 *

THICK 0 R011

Length parettet to aquifer flow (m)

2.650E+03

1.000E+02 *

LCZPAQ RO11

Basic radiation dose limit (aram/yr)

1.000E+01

3.000E+01 *

BRDL R011

Time since placement of material (yr)

0.000E+00

0.000E+00 *

' Tl R011

Times for calculations (yr)

1.000E+00

1.000E+00 *

T( 2) s R011

Times for calculations (yr)

2.000E+00 ' 3.000E+00 *

T( 3)

-~

R011

Timms for calculations (yr)

3.000E+00

1.000E+01 *

T( 4)

R011

Times for calculations (yr)

4.000E+00

3.000E+01 *

' T( 5)

R011

Times for calculations (yr)

5.000E+00 ' 1.000E+02 *

T( 6) i

-~

TC 7)

R011 ' Times for calculations (yr)

6.000E+00

3.000E+02

R011

Times for calculations (yr)

7.000E+00

1.000E+03 *

T( 8)

-~

R011

Times for calculations (yr)

8.000E+00 ' O.000E+00 *

T( 9)

-~

R011

Times for calculations (yr)

9.000E+00

0.000E+00 *

T(10)

~-

i RO12

Initial principal radioruelfde (pCl/s): Co-60

5.992E-01

0.000E+00 *

' S1( 1)

-~

R012

Initlet principal radionuclide (pci/s): Cs 134

9.871E-02 ' O.000E+00 *

S1( 2)

~-

R012

Initlet principal radionuclide (pC1/g): Cs-137

2.879E+00

0.000E+00 '

S1( 3)

S1( 4)

R012

Initial principal radionuctide (pcije): Eu-152

4.325E-02

0.000E+00 '

-~

$1( 6)

]

R012

Initial principal radionuclide (pci/g): Eu-154

1.257E-02 ' O.000E+00 *

$1( 7)

R012

Initial principal radionuclide (pcl/s): Eu-155

1.117E-02

0.000E+00

R012

Concentration in groundwater (pCi/L): Co-60

not used

0.000E+00 '

W1( 1)

R012

Concentration in groundwater (pCl/l): Cs-134

not used

0.000E+00 '

W1( 2)

R012

Concentration in groundwater (pCf/L): Cs-137 ' not used

0.000E+00 *

W1C 3)

R012

Concentration in groundwater (pCl/L): Eu 152

not used

0.000E+00 *

W1( 4)

~-

R012

Concentration in groteidwater (pCl/L): Eu-154

not used

0.000E+00 *

W1C 6)

W1C 7)

)

RD12

Concentration in groundwater (pci/L): Eu-155

not used

0.000E+00 *

~-

1

COVER 0 R013

Cover depth (m)

0.000E+00

0.000E+00 *

~-

DENSCV RD13

Density of cover material (g/ce"3)

' not used

1.500E+00 *

-~

VCV i

R013

Cover depth erosion rate (m/yr)

not used

1.000E 03 *

DENSCZ R013

Density of contaminated zone (g/ca"3)

1.500E+00

1.500E+00 *

VCZ R013

ContaminateJ sone erosion rate (m/yr)

1.000E-03

1.000E-03 *

TPCZ R013

Contaminated zone total porosity

3.000E-01

4.000E-01 *

EPCZ R013

Contaminated zone effective porosity

2.000E-01

2.000E-01 '

-~

HCCZ RO13

Contaminated zone hydraulic conductivity (m/yr)

1.000E+01

1.000E+01 *

BC2 l

R013

Contaminated zone b parameter

5.300E+00

5.300E+00 *

' HUMID R013

Humidity in air (g/ce"3)

not used

8.000E+00 *

-~

R013

Evapotranspiration coefficient

5.000E 01

5.000E-01 *

EVAPTR

]

-~

PRECIP R013

Precipitation (m/yr)

5.000E 01 ' 1.000E+00 *

Rt R013

Irrigation (m/yr)

1.000E+00

2.000E-01 *

IDITCH R013

Irrigation mode

' ditch

overhead

~

' RUNOFF R013

Runoff coefficient

2.000E 01

2.000E-01 *

~~

' WAREA R013

Watershed area for nearby stream or pond (m"2)

1.000E+06

1.000E+06 *

' EPS R013 ' Accuracy for water /soll computations

1.000E 03

1.000E 03 *

~

DENSAQ R014

Density of saturated zone (g/ce"3)

1.500E+00 ' 1.500E+00 '

~

TPS2 RO14

Saturated zone total porosity

3.000E 01

4.000E*01

R014

Saturated zone effective porosity

2.000E-01

2.000E-01 *

EPS2

HCSZ R014

Saturated zone hydraulic conductivity (m/yr)

' 1.000E+02

1.000E+02 *

HGWT R014

Saturated zone hydraulic gradient

2.000E 02

2.000E-02 '

~

RESRAD, V:rsion 5.61 7" Lirit = 0.5 y n r 01/09/97 11:02 P:ge 5 j

Suunary : RESRAD - D3 fault Occupancy Factors File: SAMPLE.DAT I

Site-Specific Parameter Sumnery (continued)

User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name i

66666666666666666666666666666666666666666666666&&4666666666666666&&&6666666666&&666666666666666666666666666666666666666666666666

' BSZ R014

Saturated zone b parameter

5.300E+00 ' 5.300E+00 *

~-

' WT R014

Water table drop rate (m/yr)

1.000E-03

1.000E-03 *

-~

R014

Welt puup intake depth (m below water table)

1.000E+0i

1.000E+01 *

DWIBWT

-~

MODEL l

R014

Model Nondispersion (ND) or Mass-Balance (MB)

ND

WD

~~

RO14

Welt pmping rate (m**3/yr)

2.500E+02

2.500E+02 *

W

-~

R015

Nwber of masturated zone strata

'1

1

' NS

~-

R015

Unsat. zone 1, thickness (m)

4.000E+00

4.000E+00 *

' H(1)

R015

Unset. zone 1, soit density (g/cm**3)

1.500E+00

1.500E+00 *

DENSUZ(1)

~-

R015

Unsat. zone 1, total porosity

3.000E-01 ' 4.000E-01 *

TPUZ(1) j R015

Unsat. Ione 1, effective porosity

2.000E-01

2.000E-01 *

EPUZ(1)

-~

BUZ(1)

R015

Unset. zone 1, soil specific b parameter

5.300E+00 ' 5.300E+00

R015

Unset. zone 1, hydraulic conductivity (m/yr)

1.000E+01

1.000E+01 *

HCUZ(1)

R016

Distribution coefficients for Co-60 R016

Contaminated zone (ce"3/g)

1.000E+03

1.000E+03 *

' DCNUCC( 1)

~

R016

Unsaturated zone 1 (cm**3/g)

1.000E+03

1.000E+03 *

' DCNUCU( 1,1)

R016

Saturated zone (ca"3/g)

1.000E+03

1.000E+03 '

DCNUCS( 1)

~-

R016

Leach rate (/yr)

0.000E+00 ' O.000E+00

3.111E 03

ALEACH( 1)

R016

Solubility constant

0.000E+00 ' O.000E+00

not used

SOLUBK( 1)

R016

Distribution coefficients for Cs 134 R016

Contaminated zone (cm**3/g)

1.000E+03

1.000E+03 *

' DCNUCCC 2)

-~

R016

Unsaturated zone 1 (ce"3/g)

1.000E+03 ' 1.000E+03 *

' DCNUCU( 2,1)

R016

Saturated zone (cm**3/g)

1.000E+03 ' 1.000E+03 *

' DCNUCS( 2)

-~

R016 ' Leach rate (/yr)

' O.000E+00

0.000E+00

3.111E-03

ALEACH( 2)

R016

Solubility constant

0.000E+00 ' O.000E+00

not used

SOLUBK( 2) kO16

Distribution coef ficients for Cs 137 R016

Contaminated zone (cm**3/g)

1.000E+03

1.000E+03 '

DCNUCC( 3)

-~

R016

Unsaturated zone 1 (ce**I/g)

1.000E+03

1.0 @ +03 *

DCNUCU( 3,1)

R016

Saturated zone (ce"3/g)

1.000E+02

1.000E+03 *

' DCNUCS( 3)

-~

R016

Leach rate (/yr)

0.000E+00 ' O.000E+00

3.111E-03

ALEACH( 3)

R016 ' solubility constant

0.000E+00

0.000E+00

not used

SOLUBK( 3)

R016

Distribution coef ficients for Eu 152 R016

Contaminated zone (cm"3/g)

-1.000E+00 '-1.000E+00 '

5.758E+02

DCNUCC( 4) j R016

Unsaturated zone 1 (cm"3/s)

1.000E+00 *-1.000E+00

5.758E+02

DtNUCU( 4,1)

R016

Saturated zone (ce *3/g)

-1.000E+00 ' 1.000E+00

5.758E+02

DCNUCS( 4)

R016

Leach rate (/yr)

0.000E+00

0.000E+00 '

5.402E-03

ALEACH( 4)

)

R016

Solubility constant

0.000E+00

0.000E+00

not used

SOLUBK( 4)

R016

Distribution coefficients for Eu-154 RD16

Contaminated zone (cf.J"3/g)

'-1.000E+00 ' 1.000E+00

5.758E+02

DCNUCC( 6)

R016

Unsaturated zone 1 (cm"3/g)

'-1.000E+00 *-1.000E+00 '

5.75BE+02

' DCNUCU( 6,1)

R016

Saturated zone (cm**3/s)

-1.000E+00 '-1.000E+00 '

5.758E+02

DCNUCS( 6)

R016

Leach rate (/yr)

0.000E+00

0.000E+00 '

5.402E-03

ALEACH( 6)

R016

Solubility constant

0.000E+00 ' O.000E+00

not used

SOLUBK( 6)

RESRAD, Vrrsion 5.61 T~ Li:It = 0.5 ye:r 01/09/97 11:02 Page 6 Stasaary : RESRAD - Difault Occupancy Factors File SAMPLE.DAT i

$lte-Specific Parameter Stannary (continued) j User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name 666666666666666666666a6666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666t.66666666 1

R016

Distribution coef ficients for Eu-155 R016

Contaminated zone (cm**3/g)

1.000E+00 ' 1.000E+00

5.758E+02 DCNUCC( 7)

R016

Unsaturated zone 1 (ca"3/g)

' 1.000E+00 ' 1.000E+00

5.758E+02 DCNUCU( 7,1) l R016

Saturated zone (cm**3/g)

1.000E+00 ' 1.000E+00

5.758E+02 DCNUCSC 7)

R016

Leach rate (/yr)

0.000E+00 ' O.000E+00

5.402E-03 ALEACH( 7)

R016

Solubility constant

0.000E+00 ' O.000E+00

not used

$0LUSK( 7)

{

R016

Distribution coefficients for daughter Gd-152 l

R016

Contaminated zone (ce"3/g)

1.000E+00 ' 1.000E+00 '

5.758E+02 DCNUCC( 8)

R016

Unsaturated zone 1 (ce"3/g)

' 1.000E+00

1.000E+00 '

5.758E+02

' DCNUCU( 8,1)

R016

Saturated zone (cm**3/g)

'-1.000E+00 ' 1.000E+00

5.758E+02 DCNUCSC 8)

R016

Leach rate (/yr)

0.000E+00

0.000E+00

5.402E 03 ALEACH( 8)

R016

Solubility constant

0.000E+00

0.000E+00

not used

SOLUBK( 8)

R017

Inhalation rate (m**3/yr)

1.051E+04

8.400E+03

INHALR

-~

R017

Mass loading for Inhalation (g/m"3)

2.000E 04

2.000E-04 *

MLINN

-~

R017

Dilution length for airborne dust, inhalation (m)* 3.000E+00

3.000E+00 *

LM

~~

R017

Exposure duration

3.000E+01

3.000E+01 *

ED

-~

R017

Shielding factor, inhalation

5.000E-01

4.000E-01 '

SHF3 R017

Shielding f actor, external gansna

3.300E-01

7.000E-01

SHF1

-~

R017

Fraction of time spent indoors

5.500E-01

5.000E 01 *

FIND

~.

R017

Fraction of time spent outdoors (on site)

2.100E 01 ' 2.500E-01

FOTD a--

R017

Shape f actor flag, external genens

' 1.000E+00 ' 1.000E+00

1 shows circular AREA.

FS R017

Radil of shape f actor array (used if FS = 1):

R017

Outer annular radius (m), ring 1:

not used

5.000E+01 *

RAD,$HAPE( 1)

~-

R017

Duter annular radius (m), ring 2:

not used

7.071E+01 *

RAD,$HAPEC 2)

R017

Outer annular radius (m), ring 3:

not used ' O.000E+00 *

RAD, SHAPE ( 3)

RAD,,$HAPE( 4)

R017

Duter annular radius (m), ring 4:

not used

0.000E+00 *

~

R017

Duter annuter radius (m), ring 5:

not used

0.000E+00 *

RAD, SHAPE ( 5)

R017

Outer annuter radius (m), ring 6:

not used

0.000E+00 *

RAD,$ NAPE ( 6)

-~

RAD, SHAPE ( 7)

)

R017

Outer annuter radius (m), ring 7:

not used

0.000E+00 *

-~

RAD, SHAPE ( 8) i R017

Outer annular radius (m), ring 8:

' not used

0.000E+00

R017

Outer annular radius (m), ring 9:

not used

0.000E+00 '

RAD, SHAPE ( 9)

R017

Outer annuter radius (m), ring 10:

not used

0.000E+00 *

' RAD SHAPE (10)

R017

Outer annular radius (m), ring 11:

not used

0.000E+00 *

RAD,$HAPE(11)

R017

Outer annular radius (m), ring 12:

not used

0.000E+00 '

RAD,$HAPE(12) j R017

Fractions of annular areas within AREA:

RO17

Ring 1

not used

1.000E+00 '

FRACA( 1)

~4 R017

Ring 2

not used

2.732E 01 '

FRACA( 2)

-~

R017

Ring 3

not used

0.000E+00 '

FRACA( 3)

R017

Ring 4

not used

0.000E+00 *

' FRACA( 4) l

~

FRACA( 5)

R017

Ring 5

net used

0.000E+00

R017

Ring 6

not used

0.000E+00 '

' FRACA( 6)

~

R017

Ring 7

not used

0.000E+00 *

FRACA( 7)

~~

R017

Ring 8

not used ' O.000E+00 *

' FRACA( 8)

-~

R017

Ring 9

not used

0.000E+00 *

FRACA( 9)

~-

R017

Ring 10

' not used

0.000E+0G '

FRACA(10)

-~

0017

Ring 11

not used

0.000E+00 '

FRACA(11)

FRACA(12)

R017

Ring 12

not used

0.000E+00

j

i i

RESRAD, V:rsion 5.61 7" Lisit = 0.5 ye:r 01/09/97 11:02 P g) 7 Stannary : RESRAD D3ftutt Occupancy Factors File: SAMPLE.DAT Site-Specific Parameter Stannary (continued)

User Used by RESRAD Parameter Menu

Parameter Input Default * (If different from user input)

Name 66666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666666 R018

Fruits, vegetables and grain constaption (kg/yr)

1.660E+02

1.600E+02 *

DIET (1)

R018

Leafy ves,etable consumption (kg/yr)

1.100E+01

1.400E+01 *

DIET (2)

~-

R018

Milk constaption (L/yr)

1.000E+02

9.200E+01 *

DIET (3)

~-

R018

Meat and poultry constaption (kg/yr)

6.300E+01

6.300E+01 *

' DIET (4)

~

R018 Fish constaption (kg/yr)

5.400E+00

5.400E+00 *

DIET (5)

R018

Other seafood consumption (kg/yr)

9.000E 01

9.000E-01 *

DIET (6)

R018

Soil ingestion rate (g/yr)

1.825E+01

3.650E+01 *

' SOIL

-~

R018

Drinking water intake (L/yr)

' 5.100E+02

5.100E+02 *

DWI R018

Contamination fraction of drinking water

1.000E+00 ' 1.000E+00 *

' FDW

{

R018

Contamination fraction of household water

not used

1.000E+00 '

' FHHW R018

Contamination fraction of Livestock water

1.000E+00

1.000E+00 *

FLW

-~

R018

Contamination fraction of irrigation water

1.000E+00

1.000E+00 *

FIRW R018

Contamination fraction of aquatic food 5.000E 01

5.000E-01 *

FR9 R018

Contamination fraction of plant food

1

1 0.500E+00

' FPLANT R018

Contamination fraction of meat

-1

1 0.100E+01

FMEAT R018

Contamination fraction of milk

1

'-1 0.100E+01

FMILK R019

Livestock fodder intake for meat (kg/ day)

6.800E+01

6.800E+01 *

LFIS R019

Livestock fodder intake for milk (kg/ day)

5.500E+01

5.500E+01 *

' LFI6

~

R019

Livestock wster intake for meat (L/ day)

' 5.000E+01

5.000E+01 *

' LW15 R019

Livestock eater intake for milk (L/ day)

1.600E+02

1.600E+02 *

LW16

' LSI R019

Livestock 4all intake (kg/ day)

5.000E 01

5.000E-01 *

-~

R019

Mas' tendne for fotter deposition (g/m**3)

1.000E-04

1.000E 04 *

' MLFD j

R019 * 'septh of soll mixing layer (m)

' 1.500E-01

1.500E-01 '

DM R019 ' Depth of roots (m)

9.000E-01

9.000E-01 *

' DROOT

-~

R019

Drinking water fraction from ground water

1.000E+C0

1.000E+00 '

FGWDW R019 ' Household water fraction from ground water

1.000E+00

1.000E+00 *

' FGWHH

-~

R019

Livestock water fraction from ground water

not used

1.000E+00 '

' FGWLW

-~

R017

Irrigation fraction from ground water

1.000E+00 ' 1.000E+00 *

' FGWIR

-~

e C16

C-12 concentration in water (g/cm**3)

not used

2.000E-05 *

' C12WTR C14

C 12 concentration in contaminated soil (g/g)

not used

3.000E-02 *

C12CZ

-~

C14

Fraction of vegetation carbon from soll

not used

2.000E-02 *

CSoll C14

Fraction of vegetation carbon from air

not used

9.800E-01 *

CAIR C14 ' C 14 evasion Layer thickness in soll (m)

not used

3.000E 01 *

' DMC

~-

C14

C-14 evasion flux rate from soit (1/sec)

' not used

7.000E 07 *

EVSN C16

C 12 evasion flux rate ftom soll (1/sec)

' not used

1.000E-10 *

REVSN C14

Fraction of grain in beef cattle feed

not used

8.000E-01 *

AVFG4

-~

C14

Fraction of grain in milk cow feed

not used

2.000E-01 *

AVFG5 STOR

Storage times of contaminated foodstuffs (days):

STOR '

Fruits, non-leafy vegetables, and grain

1.400E+01

1.400E+01 *

STOR_T(1)

STOR

Leafy vegetables

1.000E+00 ' 1.000E+00 *

STOR_T(2)

-~

STOR

Milk

1.000E+00

1.000E+00 *

' STOR_T(3)

STOR

Meat and poultry

2.000E+01

2.000E+01 *

STOR_T(4)

STOR

Fish

7.000E+00

7.000E+00 '

STOR_T(5)

STOR

Crustacea and mottusks

7.000E+00

7.000E+00 *

' STOR_T(6)

-~

STOR

Well water

1.000E+00 ' 1.000E+00 *

STOR_T(7)

STOR ' Surface water

1.000E+00

1.000E+00 *

STOR_T(8)

STOR

Livestock fodder

4.500E+01

4.500E+01 *

' STOR_T(9)

-~

REERAD, V rsion 5.61 T~ Linit e 0.5 ye:r 01/09/97 11:02 Page 8 Summary : RESRAD - 03 fault Occupancy Factsrs File SAMPLE.DAT Site-Specific Parameter Sumnery (continued)

User Used by RESRAD Parameter Menu

Parameter Input Default ' (If different from user input)

Name M66M&MM66666666666666M6666&M&66666666666666666666M666666666666666666664M666666M666666666666MM666666666664M66M666666 R021

Thickness of building foundation (m)

' not used

1.500E 01 *

FLOOR R021

Bulk density of building foundation (g/ca"3)

' not used

2.400E+00 *

DENSFL R021

Total porosity of the cover materiet

' not used

4.000E 01 *

' TPCV R021

Total porosity of the building fomdation

' not used

1.000E-01 *

TPFL R021

Volunetric water content of the cover material

not used

5.000E-02 *

PH20CV R021

Volunetric water content of the foundatica

not used

3.000E 02 *

PH20FL R021

Diffusion coefficient for redon gas (m/sec):

R021

In cover materlat

not used

2.000E-06 *

' DIFCV R021

In foundation material

not used

3.000E-07 *

DIFFL R021

in contaminated zone soit

not used

2,000E-06 *

DIFCZ R021

Redon vertical dimension of mixing (m)

' not used

2.000E+00 *

' HMIX R021

Average anruel wind speed (m/sec)

' not used

2.000E+00 *

WIND R021

Average building air exchange rate (1/hr)

' not used

5.000E-01 '

REXG R021

Height of the building (room) (m)

' not used

2.500E+00 *

HRM R021

Building interior area factor

not used

0.000E+00 *

FAI R021

Building depth below ground surface (m)

not used '-1.000E+00 *

' DMFL R021

Emensting power of Rn-222 gas

not used

2.500E-01 *

EMANA(1)

R021

Emanating power of Rn-220 gas

' not used

1.500E-01 *

EMANAto 6HHueHHHH66666HH66HH66HH666666666HH6666H60666H6HH60MH6H66660666H6e6666666H6666H66H66666606H66666H66M Sumnery of Pathway Selections Pathway User Selection 666666666666666666666666666666666666666666666666666 1 - external gansne active 2 - Inhalation (w/o redon)'

active 3 -- plant ingestion active 4 -- meet ingestion active 5 -- milk ingestion active 6 -- aquatic foods active 7 - drinking water active 8 -- soit ingestion active 9 -- redon suppressed H666H 64666666666666H 6666666066666666 H6666666666

/

RESRAD, V;rsion 5.61 T* Ll;ft a 0.5 ye:r 01/09/97 11:02 Page 9 l

Sumanry : RESRAD 01 fault Occupancy FCCtors Fl(et SAMPLE.DAT i

r Contaminated Zone Dimensions Inittet Soil Concentrations, pCf/g 6666666666666666666666666666 6666666666666666666666666666666666 Area: 207300.00 square meters co-60 5.992E-01 i

j Thickness:

0.15 meters ts 134 9.871E-02 Cover Depth:

0.00 meters ts 137 2.879E+00 Eu-152 4.325E-02 Eu-154 1.257E-02 Eu-155-1.117E 02 l

Total Dose TDOSE(t), mrom/yr Basic Radiation Dose Limit = 10 mrom/yr Total Mixture Sun M(t) = Fraction of Basic Dose Limit Received at Time (t)

& && &&&&&&d &&&&&&&&&&&&&&&&&&d&&&&&&&&& &&&&&&&&&&&&d& &&&&&&&&&&&&&& && & & & &&&

t (years): 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 TDOSE(t): 7.554E+00 6.925E+00 6.381E+00 5.906E+00 5.490E+00 5.122E+00 4.795E+00 4.503E+00 4.241E+00 4.004E+00 M(t): 7.554E-01 6.925E-01 6.381E-01 5.906E-01 5.490E 01 5.122E-01 4.795E-01 4.503E-01 4.241E 01 4.004E-01 Maximun TDOSE(t): 7.554E+00 mrom/yr at t = 0.000E+00 years i

i I

l

RESRAD, V;rsion 5.61 T' Lisit = 0.5 y r r 01/09/97 11:02 Page 10 Sumery RESRAD Default Occupancy Facters File: SAMPLE.DAT Total Dose - antributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 0.000E+00 years Water Independent Pathways (Inhalation excludes radon)

Ground Inhalation Redon Plant Meat Milk Soit Redis-6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 6466666666666666 6666666666666666 huclide mrem /yr fract, mrem /yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

mrem /yr fract.

6666666 666666666 666666 666666666 666666 &&6666666 &&&666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 Cy 60 3.177E+00 0.4205 1.329E-04 0.0000 0.000E+00 0.0000 1.894E-02 0.0025 2.811E 02 0.0037 3.941E-03 0.0005 2.236E-04 0.0000 Cs 134 3.220E-01 0.0426 4.629E-06 0.0000 0.000E+00 0.0000 4.222E-03 0.0006 1.256E 02 0.0017 4.935E-03 0.0007 1.004E-04 0.0000 Cs 137 3.401E+00 0.4502 9.302E-05 0.0000 0.000E+00 0.0000 8.494E 02 0.0112 2.592E-01 0.0343 9.986E-02 0.0132 1.997E-03 0.0003 Eu-152 1.018E-01 0.0135 9.681E-06 0.0000 0.000E+00 0.0000 1.046E-05 0.0000 1.867E 05 0.0000 2.939E-07 0.0000 3.887E-06 0.0000 Eu-15$ 3.225E-02 0.0043 3.641E-06 0.0000 0.000E+00 0.0000 4.485E-06 0.0000 7.982E-06 0.0000 1.258E 07 0.0000 1.665E-06 0.0000 Eu-155 7.854E-04 0.0001 4.684E 07 0.0000 0.000E+00 0.0000 6.371E-07 0.0000 1.132E-06 0.0000 1.791E-08 0.0000 2.370E 07 0.0000 6666666 666666666 6e6666 666666666 666666 666666666 66e666 6e6666666 666666 666666666 66e666 6e6666666 666666 666666666 666666 Tit:t 7.035E+00 0.9312 2.443E 04 0.0000 0.000E+00 0.0000 1.081E-01 0.0143 2.099E-01 0.0397 1.087E-01 0.0144 2.326E-03 0.0003 Total Dose Contributions TDOSE(i,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 0.000E+00 years Water Dependent Pathways Water Fish Redon Plant Heat MMk All Pathways

R adio-6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666366666 666641 666666666 Nuclide mrem /yr fract.

mrem /yr fract, mrem /yr fract, mrem /yr fract.

mrem /yr fract.

6666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666&&6666 666666 666666666 666666 666666666 666466 Cy60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.228E+00 0.4273 C2-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.439E-01 0.0455 CP137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.847E+00 0.5093 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.019E 01 0.0135 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.227E 02 0.0043 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E&OO 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 7.879E 04 0.0001 6666666 6666e6666 e66666 666666e66 666666 666666666 66666e 666666666 666666 666666666 #6e666 6666666e6 666666 666666666 666666 Tttil 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 7.554E+00 1.0000

Sun cf all water independent and dependent pathways.

i RESRAD, V:rsion 5.61 T" Limit = 0.5 ye:r 01/09/97 11:02 Ptge 11 Suunary : RESRAD - 03 fault occupancy Ftcters file: SAMPLE.DAT Total Dose Contributions TDOSEti,p,t) for Individual Radionuclides (1) and Pathways (p)

As arenvyr and Fraction of Total Dose At t = 1.000E+00 years I

l Water Independent Pathways (Inhalation excludes redon) l l

Ground Inhalation Redon Plant Neat Milk Soll Radio. 4uuuuuu4u muuusuuu gauuumuu uuuunn'M6 6666666666666666 4666666666666666 66666666M666666 huctide arouvyr fract.

mresvyr fract.

mreevyr fract.

arem/yr fract, mreavyr fract.

mrom/yr fract.

mreavyr fract.

6666M6 6M666M6 M6666 666666666 6M64g muun 66 Msg unum 6664M 6M M M66 466666 66M 664M &&&466 66MM6&& 666666 C3 60 2.771E+00 0.4001 1.154E 04 0.0000 0.000E+00 0.0000 1.644E-02 0.0024 2.440E-02 0.0035 3.422E-03 0.0001 1.941E-04 0.0000-i ts-134 2.290E 01 0.0331 3.275E 06 0.0000 0.000E+00 0.0000 2.987E-03 0.0004 8.899E-03 0.0013 3.491E-03 0.0005 7.101E-05 0.0000 Cs 137 3.307E+00 0.4776 9.000E 05 0.0000 0.000E+00 0.0000 8.220E-02 0.0119 2.508E 01 0.0362 9.663E-02 0.0140 1.932E 03 0.0003 Eu-152 9.594E-02 0.0139 9.080E 06 0.0000 0.000E+00 0.0000 9.830E 06 0.0000 1.751E-05 0.0000 2.756E-07 0.0000 3.646E 06 0.0000 Eu-154 2.959E 02 0.0043 3.32SE 06 0.0000 0.000E+00 0.0000 4.095E-06 0.0000 7.288E-06 0.0000 1.149E-07 0.0000 1.520E-06 0.0000 Eu-155 6.790E 04 0.0001 4.024E-07 0.0000 0.000E+00 0.0000 5.474E 07 0.0000 9.726E-07 0.0000 1.538E-06 0.0000 2.036E 07 0.0000 i

M6e6et M M eee H M e6 M Me6 mom eehoe 6e6MMM 6eeM6 MMeHM 6eMee 6eeee6eu 6M M6 M6eM6e6 6eeek 6 M e66666 H ue6 Tatzt 6.433E+00 0.9290 2.215E 04 0.0000 0.000E+00 0.0000 1.016E-01 0.0147 2.842E 01 0.0410 1.035E 01 0.0150 2.202E-03 0.0003 i

Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As arenvyr and Fraction of Total Dose At t = 1.000E+00 years l

j Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Radio-6664M6666666666 666666666666&M4 6666666666666666 66M66M66666666 6666666666666666 &&66666666666666 6666666666666666 l

Nuclide arsavyr fract.

arenvyr fract.

mrom/yr fract.

mrouvyr fract.

mrom/yr fract.

mrom/yr fract, mrom/yr fract.

l M66666 6MM6&M 6M6M M6666666 &&&&66 M4664M6 66M66 666666666 66M66 66M6M64 666666 &&M46666 MM66 6M666666 M6664 C3-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.815E+00 0.4065 l

Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.444E-01 0.0353 l

Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.739E+00 0.5399 I

Eu 152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 9.598E-02 0.0139 i

Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000

2. %1E-02 0.0043 l

Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 6.812E-04 0.0001 l

6e4M66 MMe6He MM66 6M ue6ee 6eeMe 6e6 Me6M M Mee Mee6eMe 6M ew 66M eeeee 6eM M 6M Me6M 6M M6 M6eueee 6eeek Tatst 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 6.925E+00 1.0000

Sun cf all water independent and dependent pathways.

i i

l i

i I

- ~, -

e

1 RESRAD, V;rsion 5.61 T" Limit = 0.5 ye:r 01/09/97 11:02 P:ge 12 l

i Sumary : RESRAD - Default Occupancy Factors File: SAMPLE.DAt l

l Total Dose Contributions T00SE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 2.000E+00 years j

l Water Independent Pathways (Inhalation excludes redon)

Gromd Inhalation Radon Plant Meat Milk Soll Radie 6666666666666666 6666666666666666 6666666666666666 &&&6666666666666 &&6666666666&&64 6&66666666666666 466666&&66666666 Nuclide mrem /yr fract.

mrem /yr fract.

6666&&6 &&66666es 666666 666666666 666666 666666666 666666 466666666 666666 666666666 666666 666666666 666666 666666666 666666 CP60 2.416E+00 0.3787 1.002E-04 0.0000 0.000E+00 0.0000 1.42BE-02 0.0022 2.119E 02 0.0033 2.971E 03 0.0005 1.685E 04 0.0000 i

Cs 134 1.628E-01 0.0255 2.317E 06 0.0000 0.000E+00 0.0000 2.113E-03 0.0003 6.296E 03 0.0010 2.470E-03 0.0004 5.024E-05 0.0000 Ca-137 3.216E+00 0.5040 8.709E 05 0.0000 0.000E+00 0.0000 7.953E 02 0.0125 2.427E-01 0.0380 9.349E-02 0.0147 1.869E-03 0.0003 Eu-152 9.041E-02 0.0142 8.516E 06 0.0000 0.000E+00 0.0000 9.220E-06 0.0000 1.642E 05 0.0000 2.585E-07 0.0000 3.419E 06 0.0000 Eu-154 2.715E-02 0.0043 3.036E-06 0.0000 0.000E+00 0.0000 3.740E-06 0.0000 6.655E-06 0.0000 1.049E-07 0.0000 1.388E 06 0.0000

]

Eu-155 5.871E 04 0.0001 3.457E 07 0.0000 0.000E+00 0.0000 4.702E-07 0.0000 8.355E-07 0.0000 1.322E-08 0.0000 1.750E 07 0.0000 6666666 666666666 666666 666666666 666666 6e6666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 Tttal 5.913E+00 0.9268 2.015E-04 0.0000 0.000E+00 0.0000 9.593E 02 0.0150 2.702E 01 0.0423 9.894E-02 0.0155 2.093E-03 0.0003 1

Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 2.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

I Radio- &&&6666666666666 666666666&&666&& 6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 Nuclide mrem /yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

mrem /yr fract.

46&6666 666666666 666666 6666&&&66 666666 666666666 646666 666666666 &&&d66 666666666 666666 666666666 666&&& 666666666 666666 CP60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.455E+00 0.3848 Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.737E-01 0.0272 Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.634E+00 0.5695 l

Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 9.044E 02 0.0142 Eu 156 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.716E 02 0.0043 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.889E-04 0.0001 66!6566 666666666 666666 6666666e6 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 666666666 666u66 Tttal 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 6.381E+00 1.0000

Sum cf all wat r independent and dependent pathways.

l

RESRAD, VIrsion 5.61 T" LI:iit = 0.5 ye:r 01/09/97 11:02 P ge 13 Summary : RESRAD - Difault OccLeancy Factors File SAMPLE.DAT l

Total Dose contributions T00SE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

)

As mrem /yr and Fraction of Total Dose At t = 3.000E+00 years Water Indeperdent Pathways (Inhalation excludes redon)

Ground Inhalation Radon Plant Meat Milk soil Radio-6666&&6666666666 6666666666666666 6666666666666666 66666666666666&& 6666666666666666 666666666666&&66 6666666666666666 kuclide mrem /yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract, mrem /yr fract, mrem /yr fract.

6666666 666666666 6&&666 666666666 606666 666666666 666664 666666666 666666 646666666 666666 6666666&& 666666 66666&&46 666&&&

j C1 60 2.107E+00 0.3568 8.697E-05 0.0000 0.000E+00 0.0000 1.239E-02 0.0021 1.839E-02 0.0031 2.579E 03 0.0004 1.463E-04 0.0000 i

Cs-134 1.158E 01 0.0196 1.639E-06 0.0000 0.000E+00 0.0000 1.495E-03 0.0003 4.(54E 03 0.0008 1.748E-03 0.0003 3.554E-05 0.0000 Cs-137 3.127E+00 0.5295 8.426E-05 0.0000 0.000E+00 0.0000 7.695E-02 0.0130 2.348E-01 0.0398 9.046E 02 0.0153 1.809E-03 0.0003 Eu-152 8.519E-02 0.0144 7.986E 06 0.0000 0.000E+00 0.0000 8.647E-06 0.0000 1.540E 05 0.0000 2.424E-07 0.0000 3.207E-06 0.0000 Eu-156 2.490E-02 0.0042 2.772E-06 0.0000 0.000E+00 0.0000 3.415E-06 0.0000 6.077E 06 0.0000 9.580E-08 0.0000 1.268E-06 0.0000 Eu-155 5.076E 04 0.0001 2.970E-07 0.0000 0.000E+00 0.0000 4.040E 07 0.0000 7.178E-07 0.0000 1.135E-08 0.0000 1.503E 07 0.0000 6666666 666666666 666666 666666666 666666 666666666 6e6666 666666666 666666 666666666 666666 666666666 666666 666666666 666666 Tct:1 5.461E+00 0.9246 1.839E-04 0.0000 0.000E+00 0.0000 9.085E 02 0.0154 2.577E-01 0.0436 9.479E-02 0.0160 1.995E-03 0.0003 l

Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (i) anu Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 3.000E+00 years Water Dependent Pathways Water F!sh Radon Flant Meat Milk All Pathways

Radio-666666&&66666666 6666666666666666 6666666666666666 666666666666&666 666&&66666666664 6666666666666666 6666666666&66666 kuclide mrem /yr fract, mrem /yr fract.

mrem /yr fract.

66666&& 666666666 666666 666666666 666666 66&d6&&d6 666666 666666666 666666 666666666 666666 6s&666666 666666 666666666 666666 C2-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.141E+00 0.3625 Ca 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0001 0.000E+00 0.0000 0.003E+00 0.0000 0.000E+00 0.0000 1.235E-01 0.0209 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.C000 0.000E+00 0.0000 3.531E+00 0.5979 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 8.522E 02 0.0144 Eu-156 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.492E 02 0.0042 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.092E-04 0.0001 66666e6 66e666666 666666 #ee666e66 666666 666666666 666fti 666666666 666666 666666e66 666666 666666666 666666 666666666 666666 Tst:L 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.906E+00 1.0000

Sun of all water independent and dependent pathways.

- -.. - - -.. ~. -

.. - ~. _ - -. -

.RESRAD, v2rsion 5.61 T" Limit = 0.5 y nr 01/09/97 11:02 Pros 14 4

Stsenary : RESRAD D3 fault Occupancy Factors File: SAMPLE.DAT f

Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As arem/yr and Fraction of Total Dose At t = 4.000E+00 years i

Water Independent Pathways (Inhalation excludes redon) i l

Ground Inhalation Redon Plant Meat Milk Soll Radio-6666666666664M6 6666666666666666 64M6666M6Me&& 64M"" H "" h 66&M66666666M6 6666M6666666664 6666666666666666 Nuclide arem/yr fract.

arem/yr fract.

mrom/yr fract.

erem/yr fract, mram/yr fract.

arem/yr fract.

mrom/yr fract.

l 66M&66 MM&66M 6666M MHuM' 664M6 666666666 6666M 6666666M 6M6M e666M666 6M664 M&a6MM &&M64 66M 6&&66 666666 l

Co-60 1.838E+00 0.3347 7.550E-05 0.0000 0.000E+00 0.0000 1.076E-02 0.0020 1.597E 02 0.0029 2.239E-03 0.0004 1.270E-04 0.0000 j

Cs 134 8.230E 02 0.0150 1.160E 06 0.0000 0.000E+00 0.0000 1.058E-03 0.0002 3.151E-03 0.0006 1.236E-03 0.0002 2.514E-05 0.0000 i

Cs 137 3.041E+00 0.5539 8.152E 05 0.0000 0.000E+00 0.0000 7.445E-02 0.0136 2.272E-01 0.0414 8.752E 02 0.0159 1.750E-03 0.0003

)

Eu 152 8.027E-02 0.0146 7.489E 06 0.0000 0.000E+00 0.0000 8.109E 06 0.0000 1.444E 05 0.0000 2.273E-07 0.0000 3.007E-06 0.0000 Eu-154 2.284E 02 0.0042 2.531E 06 0.0000 0.000E+00 0.0000 3.118E 06 0.0000 5.548E 06 0.0000 8.747E-08 0.0000 1.157E 06 0.0000 Eu 155 4.388E 04 0.0001 2.551E-07 0.0000 0.000E+00 0.0000 3.470E 07 0.0000 6.166E-07 0.0000 9.752E-09 0.0000 1.291E-07 0.0000

)

6MM66 MMM6M eeeH6 66e6eedee 6 Mee6 eeeMe660 6eeek 6e M eee n M 66 M HeeM6ee 6eeeee e6eee6e6e 6eeee6 6MeeeMe 6 Men Total 5.064E+00 0.9225 1.685E 06 0.0000 0.000E+30 0.0000 8.628E 02 0.0157 2.463E-01 0.0449 9.100E-02 0.0166 1.906E-03 0.0003 4

Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As arem/yr and Fraction of Total 0o6: At t = 4.000E+00 years Water Dependent Pathways Water Fish Radon Plant Meat Milk All Pathways

Radio-66666664M666666 M M M &66 M M&M 6666666&&&666666 6666M6666666664 6666666666666666 666M66666666Mi 666&&6666666&&M Nuclide prem/yr fract.

mrom/yr fract.

arem/yr fract.

mrom/yr fract.

M66666 M&M&M6 M6666 M66MM6 M6666 Mhuh' Ma6M M66M6M MM64 M6M&a66 666664 6M66M66 MM66 M6664M6 M6M4 C3-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.867E+00 0.3400 ts-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 8.777E-02 0.0160 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.432E+00 0.6251

}

Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 8.030E-02 0.0146 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.286E-02 0.0042 i

Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.402E-04 0.0001 M 6Mee 6eee M Me M ee n 6eee6e M 6 66een HeMee H 6eee6e M Meee n 6eM e6 6ebe6eee6 6eeee6 6e M6e M 6 6M666 M 6eeeeee M6en Tetal 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.490E+00 1.0000 1

j

Sum of all water independent and dependent pathways.

1 1

i 1

i d

1 1

RESRAD, v:rsion 5.61 T" LI:lt = 0.5 y rr 01/09/97 11:02 P:ge 15 j

Summary : RESRAD - 0;foult Occupancy Factors File: SAMPLE.DAT Total Dose Contributinns TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 5.000E+00 years Water Independent Pathways (Inhalation excludes redon)

)

Ground Inhalation Radon Plant Meat Milk Soll Radio-6&&666666&&66666 &&&6666&&66666&& 6666666666666666 66666664666&&666 6666666666666666 66666666666&&&&& 66666666666&&&64 Nuclide mrem /yr fract.

mrem /yr fract.

j 6666666 66&&66666 666666 666666666 666666 66&&66666 666666 &&4666666 446666 6&&&&6666 666666 6&&666666 666666 666666666 666666 C3-60 1.602E+00 0.3129 6.554E-05 0.0000 0.000E+00 0.0000 9.340E-03 0.0018 1.386E 02 0.0027 1.944E-03 0.0004 1.102E-04 0.0000 Cs-134 5.851E 02 0.0114 8.204E-07 0.0000 0.000E+00 0.0000 7.483E-04 0.0001 2.229E-03 0.0004 8.746E-04 0.0002 1.779E 05 0.0000 C3 137 2.957E+00 0.5772 7.887E-05 0.0000 0.000Ev00 0.0000 7.203E-02 0.0141 2.198E-01 0.0429 8.467E-02 0.0165 1.693E-03 0.0003 Eu-152 7.563E-02 0.0148 7.023E-06 0.0000 0.000E+00 0.0000 7.604E-06 0.0000 1.354E 05 0.0000 2.132E-07 0.0000 2.820E-06 0.0000 Eu-155 2.096E 02 0.0041 2.311E-06 0.0000 0.000E+00 0.0000 2.846E-06 0.0000 5.065E-06 0.0000 7.986E-08 0.0000 1.057E-06 0.0000 Eu-155 3.794E-04 0.0001 2.191E 07 0.0000 0.000E+00 0.0000 2.981E 07 0.0000 5.296E 07 0.0000 8.377E-09 0.0000 1.109E 07 0.0000 6666666 6E66Ese#6 666uun 666666e&E 666666 666666666 666666 66666su66 6esud6 Eu66us66u 666666 66E666666 666666 6666sEEe6 6Eubus Tatel 4.714E+00 0.9204 1.548E-04 0.0000 0.000E+00 0.0000 8.212E 02 0.0160 2.359E-01 0.0461 8.749E-02 0.0171 1.825E-03 0.0004 Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 5.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Radio- &&a&&&6666666666 6666666&&6666666 6666666666666666 6&&&&66666666666 6666666666666666 666666&&&6666666 666666666&&&6666 Nuclide mrem /yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

6666666 66666666i 666666 666666666 666666 666666666 666666 6666666&& 666666 666666666 666666 666666&&& 666666 666666666 6&&&&&

Cy 60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.628E+00 0.3178 Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 6.238E 02 0.0122 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.335E+00 0.6511 Eu-152 0.000E+00 0.0000 0.000E+00 0.0';00 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 7.566E-02 0.0148 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.097E 02 0.0041 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.806E-04 0.0001 6E6666) 666#6u6en #Estss EE6666EEE #E6666 EEEEEsuss 6EEEEE 6EE6usEEE 6EEEEE EsuusEE66 s6E6Eu 6E66uuseE 66EEEE Euuu6#Euu 666ses T t:L 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 5.122E+00 1.0000

' Sun of all water independent and dependent pathways.

___._m RESRAD, v2rsion 5.61 T" Licit = 0.5 yeIr 01/09/97 11:02 P!ge 16 Sunnary : RESRAD D2 fault occupancy Factors File: SAMPLE.DAT Total Dose Contributions TDOSE(I,p,t) for Indivicbal Radionuclides (1) and Pathways (p)

{

As erem/yr and Fraction of Total Dose At t = 6.000E+00 years Water Independent Pathways (Ithalation excludes redon) j r,round Inhalation Redon Plant Meat Milk Soll Radio-

"""""uhu uMuhuuuu uhHMuhMu 6MMM&M6MM6 M&M66MM&M66 M6666MM6M466 M64464M666M46 Nuctide prem/yr fract.

mrom/yr fract.

aree/yr fract.

mrom/yr fract.

aram/yr fract.

erem/yr fract.

6M66M M6M6666 664M6 M6666M4 MM66 M664M66 666666 6666666M M6M6 M6666666 6MM6 6666664M M6M6 M6666666 666666 CD-60 1.397E+00 0.2914 5.689E 05 0.0000 0.000E+00 0.0000 8.107E 03 0.0017 1.203E-02 0.0025 1.687E-03 0.0004 9.570E-05 0.0000 Cs 134 4.159E 02 0.0087 5.804E 07 0.0000 0.000E+00 0.0000 5.293E-04 0.0001 1.577E-03 0.0003 6.187E-04 0.0001 1.258E 05 0.0000 Ca-137 2.875E+00 0.5995 7.630E 05 0.0000 0.000E+00 0.0000 6.968E-02 0.0145 2.126E-01 0.0443 8.191E-02 0.0171 1.638E-03 0.0003 Eu-152 7.126E-02 0.0149 6.586E-06 0.0000 0.000E+00 0.0000 7.130E-06 0.0000 1.270E-05 0.0000 1.999E 07 0.0000 2.644E-06 0.0000 Eu-154 1.922E-02 0.0040 2.109E 06 0.0000 0.000E+00 0.0000 2.598E 06 0.0000 4.624E 06 0.0000 7.291E-08 0.0000 9.646E 07 0.0000 Eu-155 3.280E-04 0.0001 1.882E-07 0.0000 0.000E+00 0.0000 2.560E-07 0.0000 4.549E-07 0.0000 7.195E-09 0.0000 9.525E-08 0.0000 M 6 dee M 6ee6 M 6 6 M e6e 6 deee6e6 M Hee MeH H H 6ehe6 u n6e h6 He6ee 6eeeeeee 6e6eH 6eeeeeeee 6eMee 666 H 6 H6 6eee66 Tat:l 4.404E+00 0.9185 1.427E-04 0.0000 0.000E+00 0.0000 7.832E-02 0.0163 2.263E-01 0.0472 8.422E-02 0.0176 1.750E-03 0.0004 Total Dose Contributions TDOSE(i.p,t) for Individust Radionuclides (i) and Pathways (p)

As arem/yr and Fraction of Total Dose At t = 6.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Radio-6666H &666666666 6666666666666666 uMMHHMMM 4666666666666664 66666666M666666 66666666666664&f 6666666666666666 Nuclide mrem /yr fract.

aram/yr fract, mrom/yr fract, mrom/yr fract.

mrom/yr fract.

arem/yr fract.

6M6466 6H M " M 6M666 66M66H6 MM66 666664M6 M4666 "uu"' M6M6 66664 M66 666666 66664M64 666664 M64M6M HM66 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.419E+00 0.2960 i

Cs 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.433E-02 0.0092 ts-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.0000 00 0.0000 0.000E+00 0.0000 3.241E+00 0.6758 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.9000 7.129E-02 0.0149 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.923E 02 0.0040 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.290E 04 0.0001 H6ehe H uebeee 6eee6e 6eee6 H H ee6eee 6e M en ee ee6 M 6 6eeeeeeee 6eeece 6Heeeeet 6eeen Heeeeee6 666666 eeeeeeeee 6eeeee Tetst 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.795E+00 1.0000

)

Sim cf all water indeperdent and dependent pathways.

RESRAD, V:rsion 5.61 T~ Lirit 0.5 yrr 01/09/97 11:02 P:ge 17 Sumary : RESRAD D2 fault Occupancy Factors File SAMPLE.DAT Total Dose contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 7.000E+00 years Water Independent Pathways (Inhalation excludes radon)

Ground Inhalation Redon Plant Meat Milk Soil Radio-6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 6666666666666666 4666&&66&&666666 Nuclide mrem /yr fract.

mrun/yr fract, mrem /yr fract.

mram/yr fract.

mrem /yr fract.

' em/yr fract.

mrem /yr fract.

6666666 666666664 666666 666666666 &&&&&6 666666666 666666 466666666 666666 6666666&& 666666 6 6666666 666666 666666666 644646 C2-60 1.218E+00 0.2706 4.938E 05 0.0000 0.000E+00 0.0000 7.037E-03 0.0016 1.044E-02 0.0023 1.464E-03 0.0003 8.306E 05 0.0000 Cs-134 2.957E-02 0.0066 4.105E 07 0.0000 0.000E+00 0.0000 3.744E 04 0.0001 1.115E-03 0.0002 4.376E-04 0.0001 8.900E 06 0.0000 Cs 137 2.795E+00 0.6207 7.381E-05 0.0000 0.000E+00 0.0000 6.740E-02 0.0150 2.057E 01 0.0457 7.924E-02 0.0176 1.584E 03 0.0004 Eu-152 6.713E-02 0.0149 6.175E 06 0.0000 0.000E+00 0.0000 6.686E-06 0.0000 1.191E-05 0.0000 1.874E 07 0.0000 2.480E 06 0.0000 Eu-155 1.763E-02 0.0039 1.926E-06 0.0000 0.000E+00 0.0000 2.372E 06 0.0000 4.221E-06 0.0000 6.655E 08 0.0000 8.806E-07 0.0000 Eu-153 2.836E-04 0.0001 1.616E-07 0.0000 0.000E+00 0.0000 2.199E 07 0.0000 3.907E-07 0.0000 6.180E-09 0.0000 8.181E-00 0.0000 Ef?6666 666666666 66e666 666666e66 666666 66E6e6e66 666666 666sE6666 666666 666666666 666666 666666666 666666 6666666E6 666666 Tit:L 4.128E+00 0.9167 1.319E-04 0.0000 0.000E+00 0.0000 7.482E-02 0.0166 2.173E-01 0.0482 8.114E-02 0.0180 1.680E-03 0.0004 Total Dose Contributions TDOSE(i.p.t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 7.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

Radio-666666666&&G6666 6666666666666666 6666666666666666 6666&&&666666666 6666666666666666 6666666666666666 6a446&&666666&&&

Wuclide mrem /yr fract.

mrem /yr fract.

mrem /yr fract, mrem /yr fract.

6666666 666666666 666666 666666666 666666 666&66666 6666&& 666666666 666666 666666666 666666 666666666 &&6666 666666666 466666 Co-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.237E+00 0.2748 C2-134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.151E-02 0.0070 Cs-137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.149E+00 0.6993 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 6.716E 02 0.0149 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.764E-02 0.0039 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.845E-04 0.0001 6666666 66666EE6s 666666 666666666 6666s6 666666666 666666 666666666 666eE6 666666666 us#666 66usE6eE6 6eu666 666666666 6666es Tet:1 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.503E+00 1.0000

Sun of all water independent and dependent pathways.

RESRAD, VIrsion 5.61 T" Lisit e 0.5 ye2r 01/09/97 11:02 Page 18 Suunary : RESRAD D3 fault Occupancy Frctsrs file: SAMPLE.DAT Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p)

As arem/yr and Fraction of Total Dose At t = 8.000E+00 years Water Independent Pathways (Inhalation excludes redon)

Ground Inhalation Redon Plant Meat Milk Soit Radio-6666666666666666 66666666666M 666 4466M66666666M 66666666666666&& 6666666666666664 &&66666666666664 646666666666M46 Nuclide aree/yr fract.

mrom/yr fract.

mram/yr fract.

mrom/yr fract.

M64666 6666666M 666666 666666666 666666 66&&&4664 666666 66&&&4666 666666 666666666 666666 666666666 666666 66 H66664 6 M666 Co-60 1.062E+00 0.2505 4.286E 05 0.0000 0.000E+00 0.0000 6.108E 03 0.0014 9.064E 03 0.0021 1.271E 03 0.0003 7.210E-05 0.0000 Cs-134 2.102E 02 0.0050 2.904E 07 0.0000 0.000E+00 0.0000 2.648E 04 0.0001 7.890E 04 0.0002 3.095E-04 0.0001 6.295E 06 0.0000 Cs 137 2.717E+00 0.6408 7.140E 05 0.0000 0.000E+00 0.0000 6.520E-02 0.0154 1.990E 01 0.0469 7.665E-02 0.0181 1.533E-03 0.0004 Eu-152 6.325E 02 0.0149 5.790E-06 0.0000 0.000E+00 0.0000 6.269E 06 0.0000 1.116E 05 0.0000 1.758E-07 0.0000 2.325E-06 0.0000 Eu-154 1.617E-02 0.0038 1.758E-06 0.0000 0.000E+00 0.0000 2.165E-06 0.0000 3.854E 06 0.0000 6.075E-08 0.0000 8.039E-07 0.0000 Eu-155 2.452E-04 0.0001 1.388E 07 0.0000 0.000E+00 0.0000 1.888E-07 0.0000 3.356E-07 0.0000 5.308E 09 0.0000 7.C26E-08 0.0000 H e6 H6 H H H H 6 66 H H M6H66H H M M H H H666 6H666 MeMMM 6HH6 6eM M H6 M H H MeMeee6 6e6eet 66e666H6 MMe#

Tetst 3.880E+00 0.9150 1.222E-04 0.0000 0.000E+00 0.0000 7.158E-02 0.0169 2.088E 01 0.0492 7.823E-02 0.0184 1.614E-03 0.0004 Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrem /yr and Fraction of Total Dose At t = 8.000E+00 years Water Dependent Pathways Water Fish Radon Plant Meat Milk ALL Pathways

Radio-6666666666666666 6666H6666666666 6666666&&66H666 6666666666666666 6666666666666666 4664M6666666666 6666666666666666 j

Nuclide arem/yr fract.

mrom/yr fract.

mram/yr fract, mrom/yr iract, mrom/yr fract.

6666666 6666M664 M6666 666666&&& 666666 66&&&6666 666666 666 H 6&&& 666666 4666666&& 666666 &&&666664 666664 666666666 M &666 C3-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.079E+00 0.2544

)

Ca 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.239E-02 0.0053 Cs 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 3.060E+00 0.7215 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 6.327E-02 0.0149 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.618E 02 0.0038 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.459E-04 0.0001 H H H6 6 He6 H66 M H 66 HHH6H HH66 MHeM66 HHH 6eeMeeH HH66 H666H M 6H666 666H6H6 M6666 M H H H6 H6666 Tctst 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.241E+00 1.0000

Sun cf at t water independent ord dependent pathways.

.m m.

1 i

l RESRAD, V:rsion 5.61 T~ Linit = 0.5 ye:r 01/09/97 11:02 Prge 19 i

Summary : RESRAD - Def ault occupancy Factors File: SAMPLE.DAT I

1 l

Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (1) and Pathways (p) 1 As mrom/yr and Fraction of Total Dose At t = 9.000E+00 years Water Independent Pathways (Inhalation excludes redon)

Ground Inhalation Redon Plant Meat Milk Soll R adio. 6666666666666666 6666666666666666 666666666666&&66 &&&&&66666666666 6666666666666666 6666666666666666 6666666666666664 Nuclide mrom/yr fract.

mrom/yr fract.

mrom/yr fract, mrom/yr fract.

6666666 666666666 666666 666666666 6666&& 66&&&6666 644466 &&6666666 666666 666666666 466666 666666666 666666 666666666 666666 Co 60 9.263E-01 0.2313 3.720E-05 0.0000 0.000E+00 0.0000 5.301E-03 0.0013 7.867E 03 0.0020 1.103E 03 0.0003 6.257E 05 0.0000 Cs 134 1.494E 02 0.0037 2.054E-07 0.0000 0.000E+00 0.0000 1.873E-04 0.0000 5.580E 04 0.0001 2.189E 04 0.0001 4.453E-06 0.0000 Cs-137 2.642E+00 0.6598 6.906E-05 0.0000 0.000E+00 0.0000 6.307E-02 0.0157 1.925E-01 0.0481 7.414E-02 0.0185 1.482E 03 0.0004 Eu-152 5.959E 02 0.0149 5.428E-06 0.0000 0.000E+00 0.0000 5.877E 06 0.0000 1.047E 05 0.0000 1.648E-07 0.0000 2.180E 06 0.0000 Eu-155 1.483E-02 0.0037 1.60$E 06 0.0000 0.000E+00 0.0000 1.977E-06 0.0000 3.518E-06 0.0000 5.546E-08 0.0000 7.338E 07 0.0000 Eu-155 2.120E-04 0.0001 1.192E-07 0.0000 0.000E+00 0.0000 1.622E-07 0.0000 2.882E-07 0.0000 4.558E-09 0.0000 6.034E-08 0.0000 66eeee6 M6 H 66 H 6 H H 6 66s H H u6 6eH H 6HHHH M66H

.d=M M6#H 66 Hu6666 H66#6 M6e6eeee M 6666 664se6H u 666646 Tatst 3.65BE+00 0.9134 1.136E-04 0.0000 0.000E+00 0.0000 6.856E-02 0.0171 2.G09E-01 0.0502 7.546E-02 0.0188 1.552E-03 0.0004 Total Dose Contributions TDOSE(1,p,t) for Individual Radionuclides (i) and Pathways (p)

As mrom/yr and Fraction of Total Dose At t = 9.000E+00 years Water Dependent Pathways Water Fish Redon Plant Meat Milk All Pathways

R adio-6666666666666666 6666666666666666 66666666666&&&&6 6666666666666666 6666666666666666 6666666666666666 6666666666666666 Nuclide mrem /yr fract, mrom/yr fract.

mrom/yr fract.

mrem /yr fract.

mrom/yr fract, mrem /yr fract, mrom/yr fract.

&&&6466 666666666 666666 4666666&& 666664 6666&&666 666666 666666666 666666 666666666 666666 666666666 666366 666666666 666666 Ca-60 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 9.406E-01 0.2349 C3 134 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 1.591E 02 0.0040 C2 137 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.973E+00 0.7425 Eu-152 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 D.0000 0.000E+00 0.0000 5.961E-02 0.0149 Eu-154 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0 :st +00 0.0000 0.000E+00 0.0000 1.484E-02 0.0037 Eu-155 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 2.126E-04 0.0001 6 H H H 6eH H ueu M 66 H 6ss4H H6 Hubb# M6eH666 6466H 6H6666H M6H6 6 HuHe H 6 H6#6 66 H E66s# H H 66 666H6666 MH66 Tat:L 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 0.000E+00 0.0000 4.004E+00 1.0000

' Sum cf all water independent and dependent pathways.

i i

RESRAD, V:rsion 5.61 T L12it = 0.5 yrr 01/09/97 11:02 Ptge 20 Stamery : RESRAD DJfault Occupancy Fact:rs Files SAMPLE.DAT Dose / Source Ratios Staned Over All Pathways Parent and Progeny Principal Radionuclide Contributions Indicated Pirent Product Branch OSR(j,t) (mrem /yr)/(pCl/g)

(l)

(j) Fraction t= 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 6666666 6666666 666666666 666666666 666666666 666666666 666666666 666666666 666666666 666666666 666666666 666666666 666666666 t

C2-60 co-60 1.000E+00 5.288E+00 4.698E+00 4.097E+00 3.573E+00 3.115E+00 2.717E+00 2.369E+00 2.065E+00 1.801E+00 1.570E+00 Cs 134 Cs-134 1.000E+00 3.484E+00 2.476E+00 1.760E+00 1.251E+00 8.892E-01 6.319E-01 4.491E 01 3.192E-01 2.268E 01 1.612E-01 Cs 137 Cs-137 1.000E+00 1.336E+00 1.299E+00 1.262E+00 1.227E+00 1.192E+00 1.158E+00 1.126E+00 1.094E+00 1.063E+00 1.033E+00 Eu-152 Eu-152 7.208E-01 1.698E+00 1.600E+00 1.50tE+00 1.420E+00 1.338E+00 1.261E+00 1.188E+00 1.119E+00 1.055E+00 9.935E-01 Eu 152 Eu-152 2.792E-01 6.575E-01 6.196E-01 5.839E-01 5.M2E-01 5.184E-01 4.884E-01 4.602E-01 4.336E-01 4.085E-01 3.848E-01 Eu-152 Gd-152 2.792E 01 0.000E+00 4.577E 16 8.814E-161.273E 15 1.635E-151.969E-15 2.277E-15 2.561E-15 2.821E-15 3.059E-15 Eu-152 8DSR(j) 6.575E-01 6.196E-01 5.839E 01 5.502E-01 5.184E-01 4.884E-01 4.602E-01 4.336E-01 4.085E 01 3.848E-01 Eu-155 Eu-154 1.000E+00 2.567E+00 2.355E+00 2.161E+00 1.982E+00 1.818E+00 1.668E+00 1.530E+00 1.403E+00 1.287E+00 1.181E+00 Eu-155 Eu-155 1.000E+00 7.053E-02 6.098E-02 5.272E-02 4.55BE-02 3.941E-02 3.407E-02 2.946E 02 2.547E-02 2.202E-02 1.903E-02 6666666 6666666 6666666e6 666666666 666666666 666666666 666666666 666666666 6666666e6 666666666 6e666e666 666666666 666666666 Branch Fraction is the cunulative f actor for the j'th principal radionuclide daughters CUMBRF(j) = BRF(1)*BRF(2)*... BRF(J).

Th> DSR includes contributions from associated (half life s 0.5 yr) daughters.

Single Radionuclide soll Guidelines G(1,t) in pCi/g Basic Radiation Dose Limit = 10 mrem /yr Nuclide (1) ts 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 6666666 666666664 666666666 466666666 666666666 666666666 666666666 666666666 666666666 666666666 666666666 Cs-60 1.856E+00 2.128E+00 2.441E+00 2.799E+00 3.210E+00 3.681E+00 4.222E+00 4.842E+00 5.554E+00 6.370E+00 Cs-134 2.870E+00 4.038E+00 5.681E+00 7.993E+00 1.125E+01 1.582E+01 2.227E+01 3.133E+01 4.409E+01 6.204E+01 Cs 137 7.484E+00 7.700E+00 7.923E+00 8.153E+00 8.389E+00 8.633E+00 8.884E+00 9.143E+00 9.409E+00 9.684E+00 Eu-152 4.246E+00 4.506E+00 4.782E+00 5.075E+00 5.386E+00 5.716E+00 6.067E+00 6.440E+00 6.835E+00 7.255E+00 Eu 155 3.895E+00 4.246E+00 4.628E+00 5.045E+00 5.499E+00 5.995E+00 6.536E+00 7.125E+00 7.768E+00 8.469E+00 Eu-155 1.418E+02 1.640E+02 1.897E+02 2.194E+02 2.537E+02 2.935E+02 3.395E+02 3.927E+02 4.542E+02 5.254E+02 6666666 666666666 666666666 666666666 66666u66e 666666666 666666666 6666666e6 666666666 666666666 666e66666 Sunmed Dose / Source Ratios DSR(1,t) in (mrem /yr)/(pCi/g) and Single Radionuclide Soit Guidelines G(1,t) in pCi/g at tmin a time of minimun single radionuclide soll guideline and at tmax = time of maximun total dose = 0.000E+00 years Nuclide Initial tmin DSR(1,tmin) G(1,tmin) DSR(1,tmax) G(1,tmax)

(i) pCl/g (years)

(pCl/g)

(pCl/g) 665f666 666666666 6666666666666666 666666666 666666666 666666666 666666666 Co-60 5.992E-01 0.000E+00 5.388E+00 1.856E+00 5.388E+00 1.856E+00 j

l Cs-134 9.871E-02 0.000E+00 3.484E+00 2.870E+00 3.484E+00 2.870E+00 1

Cs-137 2.879E+00 0.000E+00 1.336E+00 7.484E+00 1.336E+00 7.484E+00 Eu-152 4.325E-02 0.000E+00 2.355E+00 4.246E+00 2.355E+00 4.246E+00 Eu-154 1.257E-02 0.000E+00 2.567E+00 3.89:. 4 0 2.567E+00 3.895E+00 Eu-155 1.117E-02 0.000E+00 7.053E-02 1.418E+02 7.053E-02 1.418E+02 e666666 666666666 6e66eebe6666666e 666e66ebe e666e66e6 6666666ee 66#ee66ee

RE$ RAD, V rsion 5.61 7" Linit = 0.5 ynr 01/09/97 11:02 Page 21 Summary RESRAD - D3 fault occupancy Factors File: SAMPLE.DAT 4

Individual Nuclide Dose Sumned Over All Pathways Parent Nuclide and Branch Fraction Indicated Nuclide Parent BAF(l)

DOSE (j,t), mram/yr

]

(j)

(i) to 0.000E+001.000E+00 2.000E+00 3.000t +00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 6666666 6666666 666666666 644666664 M 6466666 646666666 666666666 M 6666666 666 H 6666 &&64666 M 446666666 666666666 M &M&666 C3-60 Co-60 1.000E+00 3.228E+00 2.815E+00 2.455E+00 2.141E+00 1.867E+00 1.628E+00 1.419E+00 1.237E+00 1.079E+00 9.406E-01

{

Cs-134 Cs-134 1.000E+00 3.439E 01 2.444E 01 1.737E-01 1.235E 01 8.777E-02 6.238E 02 4.433E 02 3.151E-02 2.239E-02 1.591E-02 Cs 137 Cs 137 1.000E+00 3.847E+00 3.739E+00 3.634E+00 3.531E+00 3.432E+00 3.335E+00 3.241E+00 3.149E+00 3.060E+00 2.973E+00 Eu-152 Eu-152 1.208E 01 7.342E 02 6.918E 02 6.519E-02 6.143E-02 5.788E-02 5.454E-02 5.138E-02 4.841E-02 4.561E-02 4.297E-02 Eu-152 Eu 152 2.792E-01 2.844E-02 2.680E-02 2.525E-02 2.379E-02 2.242E-02 2.112E 021.990E-021.875E 021.767E 021.664E-02 Eu 152 800SE(j):

1.019E 01 9.598E-02 9.044E-02 8.522E-02 8.030E-02 7.566E 02 7.129E 02 6.716E-02 6.327E 02 5.961E 02 5

Gd 152 Eu-152 2.792E-01 0.000E+001.979E 17 3.812E 17 5.507E-17 7.073E 17 8.518E 17 9.849E 171.107E-161.220E-161.323E 16 Eu-155 Eu-154 1.000E+00 3.227E-02 2.961E 02 2.716E-02 2.492E 02 2.286E-02 2.097E-021.923E-021.764E-021.618E 021.484E 02 Eu-155 Eu 155 1.000E+00 7.879E 04 6.812E-04 5.889E-04 5.092E-04 4.402E-04 3.806E-04 3.290E-04 2.845E-04 2.459E 04 2.126E 04 66 H 6 H eeeee66 M 6 M 6u H 666666H6 H6666e64 6H66M66 H6666666 6eeeeedu6 6He66666 e6666H66 66HH666 666H6H6 H6666H6 BRF(i) is the branch fraction of the parent nuclide.

4 j

Individual Nuclide Soll Concentration Parent Nuclide and Branch Fraction Indicated i

Nuclide Parent BRF(i)

$(j,t),pCl/g (j)

(i) ts 0.000E+00 1.000E+00 2.000E+00 3.000E+00 4.000E+00 5.000E+00 6.000E+00 7.000E+00 8.000E+00 9.000E+00 6666666 6666666 66666 M 66 666666666 666666666 666666666 644666666 666666666 644446666 666666666 6666M&66 66666666t. 666666666

}

Co-60 co-60 1.000E+00 5.992E 01 5.237E-01 4.578E 01 4.001E-01 3.497E 01 3.057E 01 2.672E-01 2.335E-01 2.041E-01 1.784E-01 1

j Cs-134 Cs 134 1.000E+00 9.871E-02 7.031E-02 5.008E 02 3.567E-02 2.541E-02 1.810E-02 1.289E 02 9.183E-03 6.541E-03 4.659E 03 i

Cs 137 Cs-137 1.000E+00 2.879E+00 2.805E+00 2.732E+00 2.661E+00 2.592E+00 2.525E+00 2.460E+00 2.396E+00 2.334E+00 2.274E+00 7

Eu-152 Eu-152 7.208E 01 3.117E 02 2.944E-02 2.779E-02 2.624E-02 2.478E 02 2.340E 02 2.209E 02 2.086E-02 1.970E-02 1.860E-02 Eu-152 Eu-152 2.792E-01 1.208E-02 1.140E-02 1.077E-02 1.017E-02 9.598E 03 9.063E-03 8.557E 03 8.080E-03 7.629E-03 7.203E-03 Eu-152 8S(j):

4.325E 02 4.084E 02 3.856E-02 3.641E-02 3.438E 02 3.246E-02 3.065E 02 2.894E-02 2.732E-02 2.580E 02 Gd 152 Eu 152 2.792E-01 0.000E+00 7.511E-171.456E 16 2.118E 16 2.739E 16 3.321E 16 3.867E 16 4.379E-16 4.858E 16 5.306E 16 4

4 Eu 154 Eu-154 1.000E+00 1.257E-021.156E-021.062E 02 9.765E 03 8.977E 03 8.252E 03 7.586E-03 6.974E-03 6.411E 03 5.893E-03 Eu-155 Eu-155 1.000E+00 1.117E-02 9.661E-03 8.356E 03 7.227E-03 6.250E 03 5.406E 03 4.676E-03 4.044E-03 3.497E-03 3.025E-03 H6M66 H6M66 M6M6M6 666 H 66 M M6666666 Me666666 66H 66666 6666ee666 6e66666M 666eeee66 666e66666 66M6e M6 666666666 BRF(l) is the branch fraction of the parent nuclide.

a

F i

I ATTACHMENT 3 TO THIS 3

RESPONSE TO COMMENTS IS A BINDER WITH CHARACTERIZATION SURVEY RESULTS FOR THE FSV LIQUID EFFLUENT PATHWAY THE ADDITIONAL BINDER INCLUDES:

A

SUMMARY

ASSE3SMENT i

1994 SCOPING SURVEY REPORT 1995 CHARACTERIZATION F,URVEY REPORT 1996 FOLLOW-UP SUR VEY REPORT 4

i THE BINDER IS TO BE ADDED TO THE FSV FINAL SURVEY REPORT AS BOOK 2A OF VOLUME 6 a

I

ML20134D155

Text

SUBJECT:

REFERENCES:

Dear Mr. Hickey:

e

SUMMARY

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