Text

Calculation QDC-0000-N-1481, Revision 1, Quad Cities Units 1 & 2, Post-LOCA Eab, LPZ, and CR Dose - AST Analysis.
	ML060580583
Person / Time
Site:	Quad Cities
Issue date:	01/05/2006
From:	Drucker M, Flick E, Mscisz T, Gita Patel; Exelon Generation Co, Exelon Nuclear
To:	; Document Control Desk, Office of Nuclear Reactor Regulation
References
	CC-AA-309-1001, Rev 2, FOIA/PA-2010-0209, RS-06-026 QDC-0000-N-1481, Rev 1
	Download: ML060580583 (324)
	v • d • e

ATTACHMENT 2 Calculation QDC-0000-N-1481, Revision 1, "Quad Cities Units '1& 2 Post-LOCA EAB, LFPZ, and CR Dose - AST Analysis"

CC-AA-309-1001 Revisioji2 ATTACMAENT I Degien Aflalysis Cover Shetg Design Analysis (Major Revision) Last Page No. ' 85 Analysis No.: QDC-0000-N-1N481 Revision: 2 t

Title:

' Quad Cities Units I & 2 Post-LO.A EAB, LPZ, and CR Dose - AST Analysis ECIECR No.: 35683 Revision: 0 Station(s):. Quad CItes Conponent(s): _

Unit No.:' 00 NA Discipline:' MECH Descrip. Code/Keyword: AST ._,_ _ -- ,

SafetylQA Class:t SR - - _-

System Code: 00 Structure:" N3WA '_...._

CONTROLLED DOCUMENT REFERENCES _

Document No.: FromTo Document No.: Frorn/To TODI No. QDC-02-Q19 From M-3101, SHT I &2 From GE-NE-A22-OD103-64-01, Rev 0 From M-31 11, SHT 1.,2& 4 From GE-NE-A22-001030I, Rev 1 From M4S4, Rev C, M-07, Rov C From QDC-0000-M-1408, Rev 2 From B-348, Rev M, & B-349, Rev D From QDC-1 I 00-N-1259, Rev 0 From For remaining References see From Section 9.0 ___

UFSAR Section 15.6.5 From Is this Design Analysis Safeguards Information? " Yes El No §3 -f yes,, soe SY-AA-101-106 If yes, toes this Design Anaiye1s cmntan Uvefifled Asumptions? ' Yes Q No P AIfye This Design Analysis SUPERCEDES: In its entirety.

Description of Revision (list affected pages for pairtiat): New Design A lysis Preparer" Gopat P#48l (NUCORE) O&'DJOWO Method of Reviewt: DetaiJed Review Altempto N C at ~tch , listir[

Reviewer: Mai Druckibr (NUCORO 4C09Os Review Notes," Independent review 0 Peer review C12 Eernal Approver." GopVl Pata! 0o102105

'S -ti No& / '- - Dab Exelon Reviewer" Thomas Msacsz /4/-

Isa Supplemental ReviewRequiredV Ye's No i if yes, cormp cbment s Exelon Approver: EllStt Flik . I /S/

PE1 /iN3t" SlallN, at

This Page Is Intentionally Left Blank CC..AA-309-1001 Rev. 2

ATTACHMENT 2 Owners Acceptance Review Checklist for External Design Analysis Page 1 of I DESIGN ANALYSIS NO. ODC-0000-N-1481_ REV: I Yes No N/A

1. Do assumptions have sufficient rationale? [E C1 El

2. Are assumptions compatible with the way the plant is operated and with the licensing

2. basis?

1 0 El

3. Do the design inputs have sufficient rationale? E El 01

4. Are design inputs correct and reasonable? E El El S. Are design inputs compatible with the way the plant is operated arid with the licensing basis?

E1 0 03

6. Are Engineering Judgments clearly documented and justified? E El El

7. Are Engineering Judgments compatible with the way the plant is operated and with the licensing basis?

El El 01

8. Do the results and conclusions satisfy the purpose and objective of the Design Analysis? El 0 0l

9. Are the results and conclusions compatible with the way the plant is operated and with the licensing basis?

0 01

10. Does the Design Analysis include the applicable design basis documentation? El Have any limitations on the use of the results been identified and transmitted to the appropriate organizations?

01

12. Are there any unverified assumptions? C 0

13. Do all unverified assumptions have a tracking and closure mechanism in place? C! El 0 Have all affected design analyses been documented on the Affected Documents List

14. (ADL) for the associated Configuration Charnge?

0 03 El Do the sources of inputs and analysis methodology used meet current technical requirements and regulatory commitments? (Jfthe input sources or analysis IS. methodology are based on an out-of-date methodology or code, additional E l El reconciliation may be required if the site has since committed to a more recent code)

16. Have vendor supporting technical documents and references (including GE DRFs) been reviewed when necessary?

0 El 0 EXELON REVIEWER: Thomas Mscisz ., DATE: q print /Sigsn <I)

CC-AA-309-1001 Rev. 2

I CALCULATION NO. QDC-0000-N-1481 IREVISION NO. 1 lPAGE NO. 4 of 65 l REVISION HISTORY Revision Issue Date Revision Description 0 08/15/2005 Original Issue 1 1) Control room unfiltered inleakage during normal CR HVAC operation increased from 2,000 to 60,000 cfm.

2) EAB and LPZ chimney release atmospheric dispersion X/Q values changed to revised values calculated in QDC-0000-M-1408, Revision 2

3) Revised the elemental iodine natural deposition cutoff time from 3.615 hrs to 3.05 hrs.

l CC-AA-309-1001, Rev 2 l

ICALCULATION NO. QDC-0000-N-1481 IREVISION NO. 1 lPAGE NO. 5 of 65 PAGE REVISION INDEX PAGE REV PAGE REV I 1 36 1 2 1 37 _

3 1 38 1 4 1 39 11 5 1 40 1 6 1 41 1_

7 1 42 1 8 1 43 1_

9 1 44 1 10 1 45 1_ I 11 1 46 1 12 1 47 1 13 1 48 1 14 1 49 1 15 1 50 1 16 1 51 1 17 1 1 52 1 18 _ 53 1 19 1 54 1 20 i 55 1 21 1 56 1 22 I 57 _

23 1 58 1 24 I 59 1 25 1 60 1 26 1 61 1 27 1 62 1 28 1 63 1 29 I 64 I 30 1 65 1 31 _ _ _ 1 _ _ _ _ _ _ _ _ _ _ _ _

32 _

33 I 34 1 35 I I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. I PAGE NO. 6 of 65 l TABLE OF CONTENTS Section Sheet No.

Design Analysis Cover Sheet 1 Revision History 4 Page Revision Index 5 Table of Contents 6 1.0 Purpose 7 2.0 Methodology 7 3.0 Acceptance Criteria 15 4.0 Assumptions 16 5.0 Design Inputs 19 6.0 Computer Codes & Compliance With Regulatory Requirements 25 7.0 Calculations 26 8.0 Results Summary & Conclusions 39 9.0 References 40 10.0 Tables 42 11.0 Figures 60 12.0 Affected Documents 65 13.0 Attachments 65 I CC-AA-309-1001, Rev 2 l

I CALCULATION NO. QDC-0000-N-1481 I REVISION NO. I l PAGIE NO. 7 of 65 1.0 PURPOSE The purpose of this calculation is to evaluate the post-LOCA Exclusion Area Boundary (EAB), Low Population Zone (LPZ), and Control Room (CR) doses for the Quad Cities Nuclear Power Station (QCNPS) using as-built design inputs and assumptions, the Alternative Source Term (AST), the guidance in Regulatory Guide (RG) 1.183, and Total Effective Dose Equivalent (TEDE) dose criteria.

This calculation is performed in a reasonably conservative manner in which the following design basis post-LOCA release paths are analyzed:

1. Containment Leakage.

2. Engineered Safety Feature (ESF) Leakage.

3. Main Steam Isolation Valve (MSIV) Bypass Leakage.

2.0 METHODOLOGY The design basis loss of coolant accident is analyzed using a conservative set of assumptions and as-built design input parameters compatible for the AST and TEDE dose criteria. The numeric values of the critical design inputs are conservatively selected to assure an appropriate prudent safety margin against unpredicted events in the course of an accident and compensate for large uncertainties in facility parameters, accident progression, radioactive material transport, and atmospheric dispersion.

2.1 Post-LOCA Containment Leakage 2.1.1 Source Term The post-LOCA containment leakage model is shown in Figure 1. The BWR core inventory fractions listed in Regulatory Guide 1.183 Table 1 are released into the containment at the release timing shown in RG 1.183 Table 4 (Ref. 9. 1, Sections 3.2 & 3.3). Since the post-LOCA minimum suppression chamber water pH is greater than 7.0 (Ref. 9.18), the chemical form of radioiodine released into the containment is assumed to be 95% cesium iodide (CsI), 4.85 percent elemental iodine, and 0.15 percent organic iodide (Ref. 9. 1, Section A.2). With the exception of elemental and organic iodine and noble gases, the remaining fission products are assumed to be in particulate form (Ref 9. 1, Section 3.5). The isotopic core inventory (Ci/MWt) of fission products in the reactor core is obtained from Reference 9.6, Appendix D and listed in Design Input (1)I) 5.3.1.3. The RADTRAD Nuclide Inventory File (NIF)

QDCdef.TXT is developed based on the plant-specific core inventory and used for the containment, ESF, and MSIV leakage paths. The source term design inputs are shown in Sections 5.3.1.1 through 5.3.1.7.

2.1.2 Transport In Primary Containment The radioactivity released from the fuel is assumed to mix instantaneously and homogeneously throughout the free air volume of the primary containment as it is released as discussed below. The radioactivity release into the containment is assumed to terminate at the end of the early in-vessel phase, which occurs at the end of 2 hrs after the onset of a LOCA (Ref. 9. 1, Table 4). The design inputs for the CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 I REVISION NO. I PAGE NO. 8 of 65 transport in the primary containment are shown in Sections 5.3.2.1 through 5.3.2.11. The reduction in containment leakage activity by dilution in the RB and removal by the SBGTS filtration are credited.

The analysis dilutes the radioactivity released from the core into the drywell volume during the first 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months of the LOCA, and then into the combined drywell plus suppression chamber air volume after 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months , at which time the containment volume is expected to become well mixed following the restoration of core cooling because the thermal-hydraulic conditions in the primary containment are expected to be quite active due to a very high flow established between drywell and wetwell as a result of steaming and condensing phenomenon (Ref. 9.17, Table 2).

2.1.3 Reduction In Airborne Activity Inside Containment The gravitational deposition of aerosols from the containment atmosphere is credited by using the RADTRAD "POWERS MODEL" with [I0 percentile uncertainty distribution resulting in the lowest removal rate of the aerosols from the containment. Iodine removal by suppression pool scrubbing is not credited because the bulk core activity is release to containment well after the initial mass and energy release. Although containment sprays are not credited, the removal of the elemental iodine by deposition on surfaces inside containment due to the iodine adsorption is modeled in the same way as containment sprays. The Decontamination Factor (DF) of elemental iodine is based on the SRP 6.5.2 guidance and is limited to a DF of 200 (see Section 7.7) (Ref. 9.9, page 6.5.2-10). The RADTRAD code calculates the total iodine (elemental + organic + particulate) activity in the drywell. The following procedure is established to calculate the cutoff time for cessation of the elemental iodine removal by natural deposition inside the drywell:

1. The isotopic elemental iodine activity released into the drywell is determined using the guidance of RG 1.183, Appendix A, Section 3.3. The isotopic elemental iodine activity released into the drywell is 4.85% of the 30% total iodine released into the drywell (Ref. 9.1, Table 1) (see Table 18).

2. The isotopic elemental iodine atoms are calculated using the atoms/curie relation established in Table 14.

3. The isotopic elemental iodine atoms are totaled and divided by the DF of 200 to determine the elemental iodine atoms expected to be in the drywell when the DF of 200 is reached, which is 2.891E+20 atoms.

4. A RADTRAD run is executed using the elemental iodine removal rate of 3.28 hf 1for the entire duration accident (720 hrs), which provides the elemental iodine atoms in the drywell at different time intervals. RADTRAD output QI)C400CL61.oO indicates the drywell elemental iodine atoms decrease to a value of 2.891E+20 at 3.05 hrs.

This means that the DF of 200 is reached in the drywell at 3.05 hrs and the elemental iodine natural deposition is not credited in the analysis beyond this time.

The containment leakage of 0.03 volume fractions per day (i.e., 3 vol%/day) is assumed, which is the sum of the primary-to-secondary leakage and leakage through the MSIVs. Reduction in the containment leakage after 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months is not credited in the analysis.

2.1.4 Dual Containment Leakage from the primary containment is assumed to mix in 50% of the reactor building (RB) free air volume. The 50% mixing effectively reduces the RB net free volume by 50% when modeled for the containment & ESF leakage releases.

I CC-AA-309-1001, Rev 2

I CALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE NO. 9 of 65 l 2.1.5 Containment Purging The containment purging during a LOCA is not a credible event for the QCNPS (Ref. 9.4, Item 3).

Therefore, the release from containment purging is not analyzed per RG 1.183, Section A.7.

2.2 Post-LOCA ESF Leakage The post-LOCA ESF leakage release model is shown in Figure 1. The ESF systems that recirculate suppression pool water outside of the primary containment are assumed to leak during their intended operation. This release source includes leakage through valve packing glands; pump shaft seals, flanged connections, and other similar components. The radiological consequences from the postulated leakage are analyzed and combined with the radiological consequences from other fission product release paths to determine the total calculated radiological consequences from the LOCA (see Section 8.1 of this calc). The ESF components are located in the RB.

2.2.1 Source Term With the exception of noble gases, all the fission products released from the fuel to the containment (as defined in Sections 5.3.1.3 & 5.3.1.5) are assumed to instantaneously and homogeneously mix in the suppression pool water at the time of release from the core. The total ESF leakage from all components in the ESF-S systems is assumed to be 1 gpm. This ESF leakage is doubled (Ref 9.1, Section A.5.2) and assumed to start at time t = 0.0 minute after the onset of a LOCA. With the exception of iodine, all remaining fission products in the recirculating liquid are assumed to be retained in the liquid phase.

Since the temperature of the recirculating liquid is less than 212TF, 10% iodine activity in the ESF is assumed to become airborne (Ref. 9.4, Item 29). The design inputs for the ESF leakage are shown in Section 5.4. The reduction in ESF leakage activity by dilution in 50% of the RB volume and removal by the SBGTS filtration are credited.

2.2.2 Chemical Form The radioiodine that is postulated to be available for release to the environment is assumed to be 97%

elemental and 3% organic (Ref. 9.1, Seclion A.5.6).

2.3 Post-LOCA MSIV Leakage The post-LOCA MSIV Leakage model is shown in Figure 2. The four main steam lines, which penetrate the primary containment, are automatically isolated by the MSIVs in the event of a LOCA (Ref. 9.15).

There are two MSIVs on each steam line, one inside containment and one outside containment. The MSIVs are functionally part of the primary containment boundary and design leakage through these valves provides a leakage path for fission products to bypass the secondary containment and enter the environment as a ground-level release. Following the initial blowdown of the reactor pressure vessel (RPV), the steaming in the RPV carries fission products to the containment. When core cooling is restored, the steam and the ESF flow carry fission products from the core to the primary containment via the severed recirculation line, resulting in well-mixed RPV dome and containment fission product concentrations. The main steam isolation valves (MSIVs) are postulated to leak at a total design leak rate of 150 scfh. The radiological consequences from postulated MSIV leakage are analyzed and combined with the radiological consequences postulated for other fission product release paths to Ir CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 10 of 65 deemnetetta1aclae aiooia cosqecsfrmteLC (seIcin81o hscl) determine the total calculated radiological consequences from the LOCA (see Section 8.1 of this calc).

The following assumptions are acceptable for evaluating the consequences of MSIV leakage.

2.3.1 Source Term For the purpose of this analysis, the activity available for release via MSIV leakage is assumed to be that activity released into the drywell for evaluating containment leakage.

A total of 150 scfh MSIV leakage is assumed to occur as follows (see Section 7.3 for additional information regarding steam line selection):

(1) 60 scfh through the steam line with the failed inboard MSIV. Conservatively, the deposition of aerosol and elemental iodine activities are not credited in the steam line between the RPV nozzle and the failed inboard MSIV. The deposition removal of aerosols and elemental iodine is credited in the horizontal pipe between the inboard and outboard MSIVs.

(2) 60 scfh through first intact steam line. The deposition removal of aerosol in the horizontal pipe, and the deposition removal of elemental iodine in both the horizontal and vertical pipes, are credited in the steam line between the RPV nozzle and outboard MSIV.

(3) 30 scfh through second intact steam line. The deposition removal of aerosol in the horizontal pipe, and the deposition removal of elemental iodine in both the horizontal and vertical pipes, are credited in the steam line between the RPV nozzle and outboard MSIV.

(4) 0 scfh through the fourth steam line.

The aerosol deposition removal efficiencies for the main steam lines are determined based on the methodology in Appendix A of AEB-98-03 (Ref. 9.17) using only the horizontal pipe projected area (Diameter x Length) as shown in Table 12. The natural removal efficiency for elemental iodine in each steam line volume is assumed to be 50% as recommended in the AEB 98-03, Appendix B, page B-3.

This treatment of elemental iodine includes the resuspension and fixation of elemental iodine from the pipe surface.

2.3.2 Determination of MSIV Leak Rates In Various Steam Line Volumes The total MSIV leakage from all main steam lines is proposed to increased from 79.6 scfh to 150 scfh measured at 48 psig, allowing a maximum of 60 scfh from any one of the 4 ma-in steam lines. The total MSIV leak of 150 scfh is converted using the ideal gas law to determine the actual leakage (cfh) using the post-LOCA peak temperature and pressure in Section 7.2. Since the actual MSIV leak rate is reduced at the accident condition due the combined effects of compression (due to the high pressure) and expansion (due to the high temperature), the increase in the MSIV leak rates to the environment from the outboard MSIVs are conservatively calculated in Section 7.2 using the Ideal Gas Law and drywell post-LOCA peak pressure and temperature and listed in Table 2. The MSIV leak rates in Table 2 are used in the analysis with aerosol removal efficiencies calculated in Table 3 based on the horizontal pipe surface areas calculated in Section 7.3. The reduction in the containment leakage and MISIV leakage after 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months of onset of a LOCA is not credited in the analysis. To account for the assumed mixing between the wetwell and drywell at 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months and the resulting activity dilution, the flow rate through the MSIVs is reduced by the ratio of the drywell volume to the total volume at two hours.

2.3.3 Recirculation Line Rupture Vs Main Steam Line Rupture l CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 PAGE NO. 11 of 65 l Appendix A, "General Design Criteria for Nuclear Power Plants," to 10 CFR Part 50 defines LOCAs as those postulated accidents that result from a loss of coolant inventory at rates that exceed the capability of the reactor coolant makeup system. Leaks up to a double-ended rupture of the largest pipe of the reactor coolant system are included. The LOCA, as with all design basis accidents (DBAs), is a conservative surrogate accident that is intended to challenge selective aspects of the facility design. With regard to radiological consequences, a large-break LOCA is assumed as the design basis case for evaluating the performance of release mitigation systems and the containment response. Therefore, a recirculation line rupture is considered as the initiating event rather than a main steam line rupture.

Per UFSAR Section 6.2.1.3.5.1, the DBA for the Mark I containment design is the instantaneous guillotine rupture of the largest pipe in the primary system (the recirculation suction line). This LOCA leads to a specific combination of dynamic, quasi-static, and static loads in time. The thermal transient due to other postulated events including the steam line break inside the drywell does not impose maximum challenge to drywell pressure boundary and fuel integrity. The LOCA results in the maximum core damage and fission product release as shown in the RG 1.183 (Ref. 9. 1, Table 1). Therefore, a recirculation line rupture is considered to be the limiting event with respect to radiological consequences.

RG 1.183 (Ref. 9.1, Appendix A, Section 6.5) allows reduction in MSIV releases that is due to holdup and deposition in main steam piping downstream of the MSIVs and in the main condenser, including the treatment of air ejector effluent by offgas systems, if the components and piping systems used in the release path are capable of performing their safety function during and following a safe shutdown earthquake (SSE). Although postulating a main steam line break in one steam line inside the drywell would maximize the dose contribution from the MSIV leakage, the steam line break is not a credible event during a LOCA, since the ASME Category 1 main steam piping is designed to withstand the SSE (Ref. 9.15).

However, this analysis assumes that a steam line with MSIV failure does not credit removal of elemental or aerosol iodine in the piping between the reactor pressure vessel nozzle and inboard MSIV for conservatism.

2.4 Control Room Model The shielding analysis for CR operator exposure from various sources is performed in the following sections using the best available information from Exelon Engineering, and drawings provided by Exelon at the time of analysis. The shielding information is used in a reasonably conservative manner.

The post-LOCA control room RADTRAD nodalization is shown in Figure 3 with the design input parameters. The post-LOCA radioactive releases that contribute to the CR TEDE dose are as follows:

Post-LOCA Containment Leakage

Post-LOCA ESF Leakage

Post-LOCA MSIV Leakage The radioactivity from the above sources is assumed to be released into the atmosphere and transported to the CR air intake, where it may leak into the CR envelope or be filtered by the CR intake filtration system, prior to being distributed in the CR envelope. The four major radioactive sources, which contribute to the CR TEDE dose are:

Post-LOCA airborne activity inside the CR CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 12 of 65

Post-LOCA airborne cloud external to CR

Post-LOCA containment shine to CR

Post-LOCA Control Room Emergency Ventilation (CREV) filter shine 2.4.1 Post-LOCA Airborne Activity Inside CR The post-LOCA radioactive releases from various sources are shown in Figures 1 through 2. The activities released from the various sources are diluted by atmospheric dispersion and carried to the CR air intake. The atmospheric dispersion factors are shown in Sections 5.6.9 & 5.6.10 for the containment/ESF and MSIV leakages, respectively. The containment and ESF leakages have the same release point (Station Chimney) and X/Qs. The RADTRAD release models are developed for each release path using appropriate design inputs from Sections 5.3 through 5.5. The CR dose model is developed using the design input parameters in Section 5.6. The CR airborne TEDE dose contributions from the above post-LOCA sources are calculated and tabulated in Section 8.1.

2.4.2 Post-LOCA Airborne Cloud External to CR The post-LOCA radioactive plume contains the radioactive sources from the containment, ESF, and MSIV leakages. The gamma radiation external radioactive plume shine to the CR personnel is attenuated by the 1'-6" minimum concrete wall shielding (Ref 9.22.a, Section A-A). The RADTRAD3.03 code calculates the whole body gamma dose based on the semi-infinite cloud immersion at site boundary location (Ref. 9.2, Section 2.3.1 and Ref. 9.1, Section 4.1.4). Therefore, the X/Qs for the LPZ receptor modeled in RADTRAD file QDC400MS5 1.psf are modified by replacing them with the X/Qs for the CR air intake location. Since the containment and ESF leakages contribute insignificant CR doses (Section 8.1), they are not considered important sources for the external cloud dose. The resulting LPZ whole body dose is the semi-infinite gamma dose at the CR air intake. The total whole body gamma dose is 12.19 rem, which is obtained from RADTRAD run QDC400MS52.oO.

Since this is a semi-infinite dose at the CR air intake, it is appropriate to assign this dose to the CR roof.

The gamma attenuation factor is calculated in Section 7.6 to be 0.0 172 for a 1 Mev gamma emission.

This attenuation factor includes the buildup due to multiple scattering. The resulting gamma dose from the external cloud shine would be 0.210 rem (12.19 rem x 0.0172 = 0.210 rem), which is added with the dose contribution from other post-LOCA sources in Section 8.1.

2.4.3 Post-LOCA Containment Shine to CR The CR location with respect to the reactor building is shown in Reference 9.23. The post-LOCA airborne activity in the containment (drywell) is released into the reactor building (RB) via containment leakage through the penetrations and openings and gets uniformly distributed inside the RB. The airborne activity confined in the space above the operating floor of the RB (Ref. 9.23.c) contributes direct shine dose to the CR operator. The 0-48 hrs post-LOCA RB airborne activity from the containment leakage and ESF leakage are listed in Tables 4 & 5 and combined in Table 6. The combined activity is used in the Microshield Computer Program (Ref. 9.28) with the shielding geometry as shown in Figures 4 & 5 to calculate the gamma dose rate to a CR operator 7 feet above the CR operating floor. The material specific buildup factor used by the MicroShield code accounts for the scattering The resulting gamma dose rates for the first 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months in the CR are calculated in Table 7 (the dose rate at 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months is conservatively held constant for the remaining duration of the LOCA event (i.e.,

until 720 hours0.00833 days 0.2 hours 0.00119 weeks 2.7396e-4 months ). The review of the containment building concrete structure drawing (Ref. 9.22) indicates the CR minimum roof/ceiling concrete shielding is 2'0" (Refs. 9.22.a & 9.22.c). The concrete wall at Column 25 facing the RB is 2'-6" thick (Ref. 9.22.d). The line of sight from the CR operator CC-AA-309-1001, Rev 2

l CALCULATION NO. QDC-0000-N-1481 IREVISION NO. I l PAGE NO. 13 of 65 l location to the RB source involves multiple shadow shields consisting of the concrete roof and walls.

Therefore, the minimum concrete shielding of 2'-6" is credited in the shielding model. Actually, a large amount of concrete shielding will interact with gamma dose direct line of sight from the CR operator to the RB operating floor as shown Figure 4 (Ref. 9.23). The CR gamma dose is calculated in Table 7 using trapezoidal rule. The 720-hrs dose is further reduced based on the CR occupancy and RB source in Sections 7.8 & 7.9. The resulting containment shine dose is listed in Section 8.1.

2.4.4 Post-LOCA CREV Filter Shine to CR The Quad Cities combined CR is located at the south end of the plant in the service building between Rows E & H, adjacent to Column 25 (Ref. 9.23). The CREV charcoal filter Tag number 9400-10 1 was obtained from the air flow diagram (Ref. 9.24.b) to locate the filter on the HVAC drawings (Ref. 9.25).

The CREV charcoal filter is located in tho south-west corner of the service building at EL 615'-6" (Ref.

9.23) near the intersection of Row D and Column 25. The CREV charcoal filter is located west-north-west of the CR. The dimensions of charcoal filter housing are approximately 3'-3" x 5'3" x 16'-6" (Ref.

9.26). The post-LOCA CR doses listed in Section 8.0 indicate that the containment and ESF leakage contribute insignificant dose to the CR operator due to the large atmospheric dilution provided by their elevated releases from the SBGT station chimney. Therefore, only the MSIV leakage path is used to assess iodine and aerosol activity on the CR charcoal filter in the following section.

The RADTRAD3.03 code calculates the cumulative elemental and organic iodine atoms and the aerosol mass released to the environment from the main steam lines due to MSIV leakage at various time steps.

The activity released to the environment is atmospherically dispersed to the control room HVAC intake louvers, where it is drawn into the CREV System. Section 7.11 and Tables 8 through 13 calculate the total elemental and organic iodine atoms and aerosol mass drawn into, and retained on, the CREV charcoal and HEPA filters. Section 7.11 conservatively neglects decay of the isotopes deposited on the CREV filters.

2.4.4.1 Post-LOCA Iodine Activity On CR Charcoal Filter - MSIV Leakage The iodine atom/curie relationship is established using the containment leakage run QDC400CL5 1.oO file as shown in Table 14, which is a typical relationship for all release paths. The total number of atom accumulated on the charcoal filter is established in Section 7.11 based on the charcoal filter efficiency and CREV intake flow rate. Knowing the iodine atom/curie relationship (Table 14), and the total number of elemental and organic iodine atoms on the charcoal filter (Tables 9 and 11), the total (elemental + organic) iodine activity deposited on the CREV charcoal filter due to the MSIV leakage is calculated in Section 7.11 (Table 15). The review of Table 15 indicates the accumulation of iodine is insignificant. This is as expected, because most of the elemental iodine is removed by elemental deposition in the main steam piping before it is released to the environment and it is further reduced by air dilution before it migrates to the CR air intake.

2.4.4.2 Post-LOCA Aerosol Activity On CR HEPNA Filter - MSIV Leakage The aerosol mass/curie relationship is established using the containment leakage run QDC400CL5 1.oO file as shown in Table 16, which is a typical relationship for all release paths. The total aerosol mass deposited on the CREV HEPA filter due t:o the MSIV leakage is calculated in Section 7.11 based on the HEPA filter efficiency and CREV intake flow rate. Knowing the aerosol mass/curie relationship (Table 16), and the total mass of aerosols on the HEPA filter (Table 13), the total aerosol activity deposited on the CREV charcoal filter due to the MSIV leakage is calculated in Section 7.11 (Table 17). The isotopic aerosol activity in Table 17 is insignificant. This is as expected, because most of the aerosol deposits CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 I PAGE NO. 14 of 65 l out in the main steam piping horizontal surface before being released to the environment (see Table 3 for the aerosol removal efficiencies due to gravitational deposition).

2.4.4.3 Concrete Shielding With CREV Charcoal Filter The location of the CREV charcoal filter in the service building is such that it is located at least 28'-1 1" from the control room:

(Distance between Columns D & E + Distance between Column E & centerline) - (Distance between the Column D & west edge of filter housing + length of filter housing)

= (33'-4" + 15'-8") (Ref. 9.23.b) - (3-7" (Ref. 9.25.b) + 16'-6" (Ref. 9.26)) = 28'-1 1" The line of sight between the CR operator location and the CREV filter is intercepted by multiple layers of concrete shielding, mainly the concrete wall at Column 25, which is 1'-8" thick (Ref. 9.22.b) and the wall between Columns E & F which is 1'-6" thick (Ref. 9.23.c). In addition, shadow shielding is afforded by the concrete floor. The post-LOCA iodine and aerosol sources are small (Tables 15 & 17) as discussed in Sections 2.4.4.1 & 2.4.4.2 above, which coupled with the large amount of concrete shielding that exists between the CR operator and the CREV charcoal filter, makes the CREV charcoal filter shine dose insignificant to the CR operator.

CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 15 of 65 3.0 ACCEPTANCE CRITERIA The following NRC regulatory requirement and guidance documents are applicable to this QCNPS Alternative Source Term LOCA Calculation:

Regulatory Guide 1.183 (Ref. 9. 1])

10CFR50.67 (Ref. 9.3)

Standard Review Plan section 15.0.1 (Ref. 9.5)

Dose Acceptance Criteria are:

Regulatory Dose Limits Dose Type Control Room (rem) EAB and LPZ (rem)

TEDE Dose 5 25 I CC-AA-309-1 001, Rev 2

I CALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGIE NO. 16 of 65 l 4.0 ASSUMPTIONS The following assumptions used in evaluating the offsite and control room doses resulting from a Loss of Coolant Accident (LOCA) are based on the requirements in the Regulatory Guide 1.183 (Ref. 9.1).

These assumptions become the design inputs in Sections 5.3 through 5.7 and are incorporated in the analyses.

4.1 Source Term Assumptions Acceptable assumptions regarding core inventory and the release of radionuclides from the fuel are provided in Regulatory Guide Positions (RGPs) 3.1 through 3.4 of Reference 9.1 as follows:

4.2 Equilibrium Core Inventory The assumed inventory of fission products in the reactor core and available for release to the containment is based on the maximum power level of 3,016 MWt, which represents the maximum full power operation of the core at a power level equal to the Extended Power Uprate (EPU) thermal power level of 2,957 MWt plus a 2% margin for instrument uncertainty (Ref. 9.4, Item 1). The equilibrium core inventory is described in Design Input 5.3.1.3.

4.3 Release Fractions and Timing The core inventory release fractions, by radionuclide groups, for the gap release and early in-vessel damage for a Design Basis Accident (DBA) LOCA are listed in Design Input 5.3.1.5. These fractions are applied to the equilibrium core inventory (Ref. 9.1, Tables 1 & 4). The release fractions are acceptable for use given that the peak fuel burnup meets the 62,000 MWD/MT1LI requirement specified in Regulatory Guide 1.183 (Ref. 9.1, Note 10).

4.4 Radionuclide Composition The elements in each radionuclide group to be considered in design basis analyses are shown in Design Input 5.3.1.4 (Ref. 9.1, RGP 3.4).

4.5 Chemical Form The long-term suppression pool water pHI is greater than 7 during a LOCA (9.18, page 11) with credit taken for sodium pentaborate in the Standby Liquid Control System. Consequently, the chemical forms of radioiodine released to the containment can be assumed to be 95% cesium iodide (CsI), 4.85 percent elemental iodine, and 0.15 percent organic iodide (Ref. 9.1, RGPs 3.5 and A.2). These are shown in Design Input 5.3.1.7. With the exception of elemental and organic iodine and noble gases, fission products are assumed to be in particulate form (Ref. 9.1, RGPs 3.5 and A.2).

4.6 Assumptions on Activity Transport in Primary Containment 4.6.1 The radioactivity released from the fuel is assumed to mix instantaneously and homogeneously throughout the free air volume of the primary containment. The radioactivity released from the fuel doesn't mix with the suppression pool air space until after two hours, as previously discussed in Section 2.3.2.

4.6.2 Reduction in airborne radioactivity in the containment by natural deposition within the containment is credited using the RADTRAD3.03 Powers model for aerosol removal coefficient with a 10-percentile probability (Ref. 9.1, RGP A.3.2; & Ref. 9.2, Section 2.2.2.1.2).

4.6.3 The primary containment and the MSIVs are assumed to leak at the allowable Technical Specification peak pressure leak rate for the event duration (Ref. 9.1, RGP A.3.7).

CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE NO. 17 of 65 l 4.6.4 The Quad Cities Station does not purge containment to relieve containment pressure or to reduce containment hydrogen concentration (Ref. 9.4, Item 3). Therefore, the release from containment purging is not analyzed.

4.7 Offsite Dose Consequences The following assumptions are used in determining the TEDE for a maximum exposed individual at EAB and LPZ locations:

4.7.1 The offsite dose is determined as a TEDE, which is the sum of the committed effective dose equivalent (CEDE) from inhalation and the deep dose equivalent (DDE) from external exposure from all radionuclides that are significant with regard to dose consequences and the released radioactivity (Ref. 9.1, RGP 4.1.].; and Refs. 9.7 & 9.8). The RADTRAD3.03 computer code (Ref. 9.2) performs this summation to calculate the TEDE.

4.7.2 The offsite dose analysis uses the Committed Effective Dose Equivalent (CEDE) Dose Conversion Factors (DCFs) for inhalation exposure. (Ref. 9.1, RGP 4.1.2; and Refs. 9.7 & 9.8).

4.7.3 Since RADTRAD3.03 calculates Deep Dose Equivalent (DDE) using whole body submergence in semi-infinite cloud with appropriate credit for attenuation by body tissue, the DDE can be assumed nominally equivalent to the Effective Dose Equivalent (EDE) f-rom external exposure.

Therefore, the offsite dose analysis uses EDE in lieu of DDE Dose Conversion Factors in determining external exposure (Ref. 9.1, RGP 4.1.4; and Ref. 9.8).

4.7.4 The maximum EAB TEDE for any two-hour period following the start of the radioactivity release is determined and used in determining compliance with the dose acceptance criteria in 10 CFR 50.67 (Ref. 9.1, RGP 4.1.5 & RGP 4.4; and Ref. 9.3).

EAB Dose Acceptance Criteria: 25 Rem TEDE (50.67(b)(2)(i))

4.7.5 TEDE is determined for the most limiting receptor at the outer boundary of the low population zone (LPZ) and is used in determining compliance with the dose criteria in 10 CFR 50.67 (Ref. 9. 1, RGPs 4.1.6 and 4.4; and Ref. 9.3).

LPZ Dose Acceptance Criteria: 25 Rem TEDE (50.67(b)(2)(ii))

4.7.6 No correction is made for depletion of the effluent plume by deposition on the ground (Ref. 9. 1, RGP 4.1.7).

4.7.7 The breathing rates used for persons at offsite locations is given in Reference 9. 1, RGPs 4.1.3 &

4.4. These rates are incorporated in Design Inputs 5.7.3 & 5.7.6.

4.8 Control Room Dose Consequences The following guidance is used in determining the TEDE for maximum exposed individuals located in the control room:

4.8.1 The CR TEDE analysis considers the following sources of radiation that will cause exposure to control room personnel (Ref. 9.1, RGP 4.2.1). See applicable Design Inputs 5.6.1 through 5.6.12.

Contamination of the control room atmosphere by the intake or infiltration of the radioactive material contained in the post- accident radioactive plume released from the facility (via CR air intake),

CC-AA-309-1001, Rev 2

I CALCULATION NO. QDC-0000-N-1481 I REVISION NO. l PAGE NO.18 of 65

Contamination of the control room atmosphere by the intake or infiltration of airborne radioactive material from areas and structures adjacent to the control room envelope (via CR unfiltered inleakage),

Radiation shine from the external radioactive plume released from the facility (external airborne cloud),

Radiation containment shine from radioactive material in the reactor containment, and

Radiation shine from radioac tive material in systems and components inside or external to the control room envelope, e.g., radioactive material buildup in recirculation filters (CR filter shine dose).

4.8.2 The radioactivity releases and radiation levels used for the control roomn dose are determined using the same source term, transport, and release assumptions used for determining the exclusion area boundary (EAB) and the low population zone (LPZ) TE])E values (Ref. 9.1, RGP 4.2.2).

4.8.3 The occupancy and breathing rate of the maximum exposed individual present in the control room are incorporated in Design Inputs 5.6.11 & 5.6.12 (Ref. 9.1, RGP 4.2.6).

4.8.4 10 CFR 50.67 (Ref. 9.3) establishes the following radiological criterion for the control room.

This criterion is stated for evaluating reactor accidents of exceedingly low probability of occurrence and low risk of public: exposure to radiation, e.g., a large-break LOCA (Ref. 9.1, RGP 4.4).

CR Dose Acceptance Criteria: 5 Rem TEDE (50.67(b)(2)(iii))

4.8.5 Credit for engineered safety features that mitigate airborne activity within the control room is taken for control room isolation/pressurization and intake filtration (Ref 9.1, RGP 4.2.4). The control room design is often optimized for the DBA LOCA and the protection afforded for other accident sequences may not be as advantageous. In most designs, control room isolation is actuated by engineered safety feature (ESF) signals or radiation monitors (RMs). In some cases, the ESF signal is effective only for selected accidents, placing reliance on the RMs. Several aspects of RMs can delay the isolation, including the delay for activity to build up to concentrations equivalent to the alarm setpoint and the effects of different radionuclide accident isotopic mixes on monitor response. The CR emergency filtration system is conservatively assumed to be initiated at 40 minutes (Design Input 5.6.2) after a LOCA (refer to Figure 3).

4.8.6 The CR unfiltered inleakage is conservatively assumed to be 60,000 cfm during normal mode of CR HVAC operation (Design Input 5.6.6), and 400 cfm during emergency mode of CR HVAC operation (Design Input 5.6.7). The CR unfiltered inleakage of 60,000 cfm with normal flow intake flow rate of 2,200 cfm is considered in the analysis during 0-40 minutes to justify the potential unfiltered leakage during the normal mode of operation. The unfiltered inleakage of 60,000 cfm represents at least 200 times the maximum measured unfiltered inleakage of 297 cfm (222 +/- 75 cfm) by Tracer Gas Testing during emergency mode. The modeled unfiltered inleakage rates include ingress/egress inleakage of 10 cfin. The atmospheric dispersion factors generated for the CR intake are representative for control room inleakage.

4.8.7 No credits for KI pills or respirators are taken (Ref. 9.1, RGP 4.2.5).

I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 I PAGE NO. 19 of 65 l 5.0 DESIGN INPUTS 5.1 General Considerations 5.1.1 Applicability of Prior Licensing Basis The implementation of an AST is a significant change to the design basis of the facility and assumptions and design inputs used in the analyses. The characteristics of the AST and the revised TEDE dose calculation methodology may be incompatible with many of the analysis assumptions and methods currently used in the facility's design basis analyses. The Quad Cities Station specific design inputs and assumptions used in the TID-14844 analyses were assessed for their validity to represent the as-built condition of the plant and evaluated for their compatibility to meet the AST and TEDE methodology.

The analysis in this calculation ensures that assumptions, design inputs, and methods are compatible with the requirements of the AST and the TEDE criteria.

5.1.2 Credit for Engineered Safety Features Credit is taken only for those accident mitigation features that are classified as safety-related, are required to be operable by technical specifications, are powered by emergency power sources, and are either automatically actuated or, in limited cases, have actuation requirements explicitly addressed in emergency operating procedures. The single active component failure modeled in this calculation are the MSIV in one main steam line failing to close.

5.1.3 Assignment of Numeric Input Values The numeric values that are chosen as inputs to analyses required by 10 CFR 50.67 are compatible to AST and TEDE dose criteria and selected with the objective of maximizing the postulated dose. As a conservative alternative, the limiting vahle applicable to each portion of the analysis is used in the evaluation of that portion. The use of containment, ESF, and MSIV leakage values higher than actually measured, use of a 10% higher flow rate for the CR Normal Operation air intake, use of a 10% lower flow rate for the CR Emergency Ventilation Mode air intake, 40 minutes delay in the CR Emergency Ventilation Mode initiation time, and use of ground release X/Qs demonstrate the inherent conservatisms in the plant design and post-accident response.

5.1.4 Meteorology Considerations Atmospheric dispersion factors (X/Qs) for the onsite release points such as the Standby Gas Treatment System (SBGTS) stack for containment and ESF leakage release path and the edge of the MSIV room for the MSIV leakage release path are developed (Ref. 9.14) using the NRC sponsored computer code ARCON96. The EAB and LPZ x/Qs are developed using the Quad Cities Station plant specific meteorology and appropriate regulatory guidance (Ref. 9.14).

5.2 Accident-Specific Desi2n Inputs/Assumptions The design inputs/assumptions utilized in the EAB, LPZ, and CR habitability analyses are listed in the following sections. The design inputs are compatible with the requirements of the AST and TEDE dose criteria and the assumptions are consistent with those identified in Regulatory Position 3 and Appendix A of RG 1.183 (Ref. 9.1). The design inputs and assumptions in the following sections represent the as-built design of the plant.

CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 20 of 65 Design Input Parameter Value Assigned Reference 5.3 Containment Leakage Model Parameters 5.3.1 Source Term 5.3.1.1 Thermal Power Level 3,016 MWt (includes 2% margin) 9.4, Item 1 5.3.1.2 Peak Fuel Burnup 62,000 MWVD/MTU 9.4, Items 5 and 6 9.1, RGP 3.2, note 10 5.3.1.3 Isotopic Core Inventory (Ci MWt) (Ref. 9.4, Item 2; and Ref. 9.6, Appendix [D Isotope Ci/MW, Isotope Ci/MW, Isotope CiIMWI CO-58* 1.529E+02 RU-103 4.31 lE+04 CS-136 2.379E+03 CO-60* 1.830E+02 RU-105 3.034E+04 CS-137 4.928E+03 KR-85 4.364E+02 RU-106 1.837E+04 BA-139 4.888E+04 KR-85M 6.772E+03 RH-105 2.882E+04 BA-140 4.714E+04 KR-87 1.291E+04 SB-127 2.999E+03 LA-140 5.055E+04 KR-88 1.815E+04 SB-129 8.877E+03 LA-141 4.447E+04 RB-86 7.096E+01 TE-127 2.986E+03 LA-142 4.286E+04 SR-89 2.428E+04 TE-127M 4.060E+02 CE-141 4.465E+04 SR-90 3.528E+03 TE-129 8.735E+03 CE-143 4.101E+04 SR-91 3.081 E+04 TE-129M 1.300E+03 CE-144 3.682E+04 SR-92 3.362E+04 TE-131TM 3.955E+03 PR-143 3.963E+04 Y-90 3.625E+03 TE-132 3.850E+04 ND-147 1.800E+04 Y-91 3.155E+04 1-131 2.710E+04 NP-239 5.587E+05 Y-92 3.377E+04 1-132 3.914E+04 PU-238 1.768E+02 Y-93 3.942E+04 1-133 5.501E+04 PU-239 1.474E+01 ZR-95 4.443E+04 1-134 6.035E+04 PU-240 2.001E+01 ZR-97 4.497E+04 1-135 5.157E+04 PU-241 6.700E+03 NB-95 4.464E+04 XE-133 5.282E+04 AM-241 9.857E+00 MO-99 5.121E+04 XE-135 2.144E+04 CM-242 2.285E+03 TC-99M 4.484E+04 CS-134 8.009E+03 CM-244 1.621 E+02

CO-58 & CO-60 activities are obtained from RADTRAD User's Manual, Table 1.4.3.2-3 (Ref. 9.2) 5.3.1.4 Radionuclide Composition Group Elements Noble Gases Xe, Kr 9.1, RGP 3.4, Table 5 Halogens I, Br Alkali Metals Cs, Rb Tellurium Group Te, Sb, Se Barium, Strontium Ba, Sr Noble Metals Ru, Rh, Pd, Mo, Tc, Co Lanthanides La, Zr, Nd, Eu, Nb, Pm, Pr, Sm, Y, Cm, Am Cerium Ce, Pu, Np l CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. I PAGE NO. 21 of 65 Design Input Parameter Value Assigned Reference 5.3.1.5 Release Fraction (Ref 9.1, Table 1)

BWR Core Inventory Fraction Released Into Containment Group Gal) Release Phase Early In-Vessel Release Phase Noble Gases 0.05 0.95 Halogens 0.05 0.25 Alkali Metals 0.05 0.20 Tellurium Metals 0.00 0.05 Ba, Sr 0.00 0.02 Noble Metals 0.00 0.0025 Cerium Group 0.00 0.0005 Lanthanides 0.00 0.0002 5.3.1.6 Timing of Release Phase (Ref. 9.1, Table 4)

Phase Onset Duration Gap Release 2 min 0.5 hr Early In-Vessel Release 0.5 hr 1.5 hr 5.3.1.7 Iodine Chemical Form Aerosol (CsI) 95% 9.1, RGP 3.'5 Elemental 4.85%

Organic 0.15%

5.3.2 Activity Transport in Primary Containment 5.3.2.1 Drywell Air Volume 158,000 ft 9.4, Items 13 and 19 5.3.2.2 Drywell plus Suppression 269,000 ft3 9.4, Item 19 Chamber Free Air Volume 5.3.2.3 Containment Elemental Standard Review Plan 6.5.2 9.4, Item 13 Iodine Removal Model 5.3.2.4 Drywell Surface Area for 32,430 ft2 9.4, Item 13 Deposition/Plateout Model 5.3.2.5 Particulate (Aerosol) Powers' 10 percentile model 9.4, Item 14 Deposition/Plateout Model 5.3.2.6 Reactor Building 4,700,000 ft9.4, Item 22 (Secondary Containment) Free Volume 5.3.2.7 Containment Leak Rate 3.0 w%/day (0 to 30 days) Assumed into Reactor Building 5.3.2.8 Fraction of Containment 0.0 9.4, Item 24 Leakage that Bypasses the Standby Gas Treatment System (SBGTS) due to High Winds 5.3.2.9 Fraction of Reactor 0.5 9.1, RGP A.4.4 Building Available for Mixing 9.4, Item 23 5.3.2.10 SBGTS Exhaust Rate 4,000 cfm +/-: 10% 9.4, Item 21 CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 22 of 65 Design Input Parameter l Value Assigned Reference 5.3.2.11 SBGTS Exhaust Charcoal and HEPA Filter Efficiencies Elemental Iodine 50% Ass um Ied Organic Iodide 50%

Particulate Aerosols 99%

5.4 ESF Leakage Model Parameters 5.4.1 Suppression Pool Water 1 110,000 ft 9.4, Item 27 Volume T _

5.4.2 Sump Water Activity (Ref. 9.1, RGP A.5.1, A.5.3 & Tables 1 & 4)

Group Gap Release Phase Early In-Vessel Release Phase Timing Duration (Hrs) 2 min - 0.50 Hr 0.50 - 2.0 Hr Halogen 0.05 0.25 5.4.3 ESF Leakage Rate 2 gal/min (-=2 x 1 gal/min Assumed; 9.1, RGP A5.2 allowable leakage rate) 5.4.4 ESF Leakage Initiation 0 to 30 days 9.4, Item 31 Time and Duration 5.4.5 Suppression Pool not credited 9.1, RGP A.3.5 Scrubbing 5.4.6 Long-Term Suppression 7.53 9.18, page 11, 9.1, RGP A.2 Pool Water pH 5.4.7 Fraction of Iodine in ESF 0.10 9.4, Item 29; 9.1, RGP A.5.5 Leakage that becomes Airborne 5.4.8 Chemical Form of Iodine in ESF Leakage Elemental 97% 9.1, RGP A.5.6 Organic 3%

5.4.9 Fraction of Reactor 0.5 9.4, Item 32 Building Available for ESF Leakage Mixing 5.4.10 Percentage of ESF 100% 9.4, Item 33 Leakage that is filtered by the SBGTS 5.5 MSIV Leakage Model Parameters 5.5.1 Total MSIV Leak Rate 150 scfh @ 48 psig for 0 to 30 Assumed Through All Four Lines days 5.5.2 MSIV Leak Rate Through 60 scfh @ 48 psig for 0 to 30 days Assumed - maximum leakage rate One Line With MSIV Failed through any one line 5.5.3 MSIV Leak Rate Through Three Intact Lines First Intact Line 60 scfh @ 48 psig for 0 to 30 days Assumed - maximum leakage rate through any one line Second Intact Line 30 scfh ( 48 psig for 0 to 30 days Assumed - remainder of unallocated leakage Third Intact Line 0 scfh @ 48 psig for 0 to 30 days Assumed - remainder of unallocated leakage CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-OOO-N-1481 lREVISION NO. I PAGE NO. 23 of 65 Design Input Parameter Value Assigned Reference 5.5.4 Piping Parameter 9.16 Diameter 20" Wall Thickness 1.031" 5.5.5 Corrosion Allowance For 0.12" Assumed Steam 5.5.6 Natural Removal 50 percent 9.17, Appendix B, page B-3 Efficiency For Elemental Iodine In Each Steam Line Volume 5.6 Control Room Model Parameters 5.6.1 CR Pressure Boundary 184,000 ft3 9.4, Item 34 Envelope Free Volume 5.6.2 CREV Filtration System 40 minutes 9.4, Item 40 Actuation Time Following a LOCA 5.6.3 CR Normal Operation 2,000 cfm i 10% 9.4, Item 41 Unfiltered Ventilation Air Intake 5.6.4 CR Emergency Ventilation 2,000 cfm : 10% 9.4, Item 42 Mode Air Intake Rate 5.6.5 CR Emergency Ventilation 0 cfm 9.4, Item 45 Mode Air Recirculation Rate though Filters 5.6.6 CR Unfiltered Inleakage 60,000 cfm (includes Assumed during Normal Operation ingress/egress inleakage of 10 cfm) 5.6.7 CR Unfiltered Inleakage 400 cfm (includes ingress/egress Assumed during Emergency Ventilation inleakage of 10 cfm)

Mode 5.6.8 CR Emergency Ventilation Mode Intake Charcoal and HEPA Filter Efficiencies Elemental Iodine 99% Section 7.10 Organic Iodide 99%

Particulate Aerosols 99%

5.6.9 CR X/Qs For Containment & ESF Leakage Release Via SBGTS Stack (Station Chimney) Release Time XUQ (sec/r 3 )

0-2 5.84E-06 9.14, Table 3-6 2-8 2.68E-06 8-24 1.81E-06 24-96 7.77E-07 96-720 2.30E-07 5.6.10 CR X/Qs For MSIV Leakage Release Via Unit 1 MSIV Time XUQ (sec/rm3 )

0-2 1.02E-03 9.14, Table 4-1 2-8 8.23E-04 8-24 3.55E-04 24-96 2.32E-04 96-720 1.38E-04 CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. I PAGE NO. 24 of 65 Design Input Parameter I Value Assigned I Reference 5.6.11 CR Occupancy Factors Time (Hr) _

0-24 100 9.1, RGP 4.:2.6 24-96 60 96-720 40 5.6.12 CR Breathing Rate 3 3.5E-04 m /sec 9.1, RGP 4.2.6 5.7 Offsite Dose Receptor Release Model Parameters 5.7.1 EAB X/Qs For Containment & ESF Leakage Release Via SBGTS Stack (Station Chimney) Release Time (hrs) X/Q (sec/mi3 )

0-0.5 1.57E-04 9.14, Table 4-1 0.5-720 6.38E-06 5.7.2 EAB X/Q For MSIV Leakage Release Time (hrs) X/Q (sec/m 3 )

0-720 1.36E-03 9.14, Table 4-1 5.7.3 EAB Breathing Rate 3.51E-04 m-'/sec 9.1, RGP 4. 1.3 5.7.4 LPZ X/Qs For Containment & ESF Leakage Release Via SBGTS Stack (Station Chimney) Release Time (hrs) X/Q (sec/m )

0-0.5 3.01E-05 9.14, Table 4-1 0.5-2 2.05E-05 2-8 8.76E-06 8-24 5.73E-06 24-96 2.28E-06 96-720 6.07E-07 5.7.5 LPZ X/Qs For MSIV Leakage Release Time (hrs) X/Q (sec/m3 )

0-2 1.04E-04 9.14, Table 4-1 2-8 4.14E-05 8-24 2.62E-05 24-96 9.96E-06 96-720 2.52E-06 5.7.6 LPZ Breathing Rates Time (hrs) BR (m 3/sec) 0-8 3.5E-04 9.1, RGPs 4.1.3 & 4.4 8-24 1.8E-04 24-720 2.3E-04 l CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 lPAGE NO. 25 of 65 l 6.0 COMPUTER CODES & COMPLIANCE WITH REGULATORY REQUIREMENTS 6.1 Computer Codes All computer codes used in this calculation have been approved for use with appropriate Verification and Validation (V&V) documentation. Computer codes used in this analysis include:

RADTRAD (Ref. 9.2): This is an NRC-sponsored code approved for use in determining control room and offsite doses from releases due to reactor accidents. It was used in Dresden Calculation DREO1-0040, Revision 0 and Quad Cities Calculation QDC-0000-N-I 117, Revision

0. Among other things, it determined Reactor Building activity as a function of time. This output was used to develop the source strength for input into the MicroShield code.

MicroShield (Ref. 9.28): A commercially available and accepted code used to determine dose rates at various source-receptor combinations. Several runs were made at various times during the LOCA since the source strength varies over time.

6.2 Compliance With Regulatory Requirements As discussed in Section 4.0, Assumptions, the analysis in this calculation complies with line-by-line requirements in Regulatory Guide 1.183.

CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE NO. 26 of 65 l 7.0 CALCULATIONS 7.1 OCNPS Plant Speciflc Nuclide Inventory File (NIF) For RADTRAD3.03 Input The RADTRAD nuclide inventory file EBwrdef NIF establishes the power dependent radionuclide activity in Ci/MWt for the reactor core source term. Since these core radionuclide activities are dependent on the core thermal power level, reload design, and burnup, QCNPS nuclide inventory file QDC-def.txt is compiled based on the fission products in the reactor core obtained from Reference 9.6.

7.2 Determination of MSIV Leak Rates 7.2.1 Proposed Case The total leakage from all main steam lines is proposed to increase from 79.6 scfh to 150 scfh measured at 48 psig, allowing a maximum of 60 scfh @ 48 psig from any one of the 4 main steam lines.

The total containment leakage is also proposed to increase from 1 %/o/dayto 3 %;/day,which includes leakage through the MSIVs.

7.2.2 MSIV Leakage During 0-2 hrs Drywell volume = 1.58E+05 ft 3 (Ref. 9.4, Item 19)

Total MSIV leakage measured @ 48 psig = 150 scfh (assumed)

Per the ideal gas law, PV= nRT or PV/T = nR. Given that nR is a constant for the air leakage, PV/T at post-LOCA conditions is equal to PV/T at STP conditions.

P @LOCA = Drywell peak pressure = 43.9 psig (Ref. 9.13, Table 3-2)

T @LOCA = Drywell peak temperature:= 291°F (Ref. 9.13, Table 3-2) = 291°F + 460 = 751 OR P @STP = Standard pressure = 14.7 psia T @STP = Standard temperature = 68°F = 68°F + 460 = 528°R V @STP = MSIV leakage based ( 48 psig = 150 scfh V @LOCA = (PV/T @STP) x (T/P @LOCA) 0-2 hrs MSIV leakage @ drywell peak pressure of 43.9 and tempTerature of 291'7F

= 150 scfh x [14.7 psia / (43.9 psig + 14.7 psia)] x [751°R /528 R]

= 150 scfh x 0.2509 x 1.422 = 53.52 cf.

= (53.52 ft 3 /hr x 24 hr/day) x 100% / 1.58E+05 ft 3 = 0.813 %/day 3

= (53.52 ft /hr) cfh / (60 min/hr) = 0.892 cfm 0-2 hrs Total proposed containment leakage = 3 %/day(Ref. 9.4, Item 18b) 0-2 hrs containment leakage into Reactor Bldg = 3 %/day - 0.813 %/day = 2.187 %/day This containment leakage released into thle Reactor Building is exhausted to the environment via the Standby Gas Treatment System (SBGTS).

The 0-2 hrs 150 scfh MSIV leakage is released via three of the four Main Steam (MS) lines. A maximum allowable leak rate of 60 scfh is postulated from MS Line 1 with its failed MSIV. A I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REV7ISION NO. I l PAG]E NO. 27 of 65 l maximum allowable leak rate of 60 scfh is postulated from intact MS Line 2. The remainder of 30 scfh is postulated from intact MS Line 3. No leakage is postulated from intact MS Line 4.

0-2 hrs allowable leakage from MS Line 1 with failed MSIV (at maximum 60 scfh leak rate)

= (60 scfh / 150 scfh total) x 53.52 cfh = 21.41 cfh = 0.357 cfm 0-2 hrs allowable leakage from intact MS Line 2 (at maximum 60 scfh leak rate)

= (60 scfh / 150 scfh total) x 53.52 cfh = 21.41 cfh = 0.357 cfm 0-2 hrs allowable leakage from intact MS Line 3 (at balance of 30 scfh leak rate)

= (30 scfh / 150 scfh total) x 53.52 cfh = 10.70 cfh = 0.178 cfm 7.2.3 MSIV Leakage During 2-720 hrs Two hours after a LOCA the drywell and suppression chamber volumes are expected to reach an equilibrium condition and the post-LOCA activity is expected to be homogeneously distributed between these volumes. The homogeneous mixing in the primary containment will decrease the activity concentration and therefore decrease the activity release rate through the MSIVs. To model the effect of this mixing, the MSIV flow rate used in ithe RADTRAD model is decreased by calculating a new leak rate based on the combined volumes of the drywell and suppression chamber.

Drywell + Suppression Chamber free air volume = 2.69E+05 ft3 (Ref. 9.4, Item 19) 2-720 hrs MSIV leakage @ drywell peak pressure of 43.9 psig = 53.52 cfh (per above)

= (53.52 cfh x 24 hr/day) x 100% / 2.69E,+05 ft 3 = l 0.478 Wday 2-720 hrs Total proposed containment leakage = 3 %/o/day 2-720 hrs containment leakage into Reactor Bldg = 3 %/day - 0.478 %/day = 2.522 day Corresponding MSIV leak rate = 53.52 cfh x (1.58E+05 ft3 / 2.69E+05 ft3 ) = 31.44 cfh 2-720 hrs allowable leakage from MS Line 1 with failed MSIV

= (60 scfh / 150 scfh total) x 31.44 cfh = 12.58 cfh = 0.210 cfm 2-720 hrs allowable leakage from intact MS Line 2

= (60 scfh / 150 scfh total) x 31.44 cfh = 12.58 cfh = 0.210 cfm 2-720 hrs allowable leakage from intact MS Line 3

= (30 scfh / 150 scfh total) x 31.44 cfh = 6.29 cfh = 0.105 cfm 7.2.4 MSIV Leakage To Environment It is assumed that the post-LOCA activity released in the SL with the failed inboard MSIV is instantaneously and homogeneously distributed in the single volume of SL between the RPV nozzle and outboard MSIV (well mixed volume). The MSIV leakage from the outboard MSIV expands to the atmospheric condition as follows:

Upstream of outboard MSIV (Section 7.2.2):

VI = 21.41 cfh P1 = 43.9 psig + 14.7 = 58.6 psia Ti = (291°F + 460) = 751°R Downstream of outboard MSIV (Atmospheric Condition):

I CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 PAGE NO. 28 of 65 l V2 = TBD P2 = 14.7 psia T2 = (680 F + 460) = 5280 R MSIV Leakage to Environment From MSIV Failed Line (MS Line 1):

V2 = (PV/T (1) x (T/P @2)

= (58.6 psia x 21.41 cfh / 751 0R) x (528"R / 14.7 psia)

= 60 cfh = 1.00 cfm This is as expected, given that the 21.41 cfh leakage rate is equivalent to 60 sclh upstream of the outboard MSIV, and therefore it is equivalent to 60 cfh downstream of the outboard MSIV in the presence of standard pressure and temperature atmospheric conditions.

The steam trapped between the MSIVs in the other two intact lines at the onset of a LOCA will at 1000 psia and 550 0 F (Ref. 9.16). The SL is insulated with 3-1/2" thick insulation (Ref. 9.16). The steam line spools between the MSIVs will be at a considerably higher pressure (1000 psia - 58.6 psia = 941.4 psia) than the steam upstream of the inboard MSIV and the atmosphere downstream of the outboard MSIV. This extremely high positive pressure gradient across the MSIVs will prevent the MSIV leakage from migrating through the pipe spool between the MSIVs. To the contrary, the steam content in the pipe spool will leak until a negative pressure gradient is established across the inboard MSIV due to condensation of the steam in the spool. The time to establish the negative pressure gradient is considerably long. Therefore, to promote the MSIV leakage, it is conservatively assumed that the steam in the spool immediately cools down to atmospheric conditions, thereby establishing a negative pressure gradient across the intact inboard MSIV.

Upstream of inboard MSIV in intact MS Line 2 (Section 7.2.2):

Vi = 21.41 cfh P1 = 43.9 psig + 14.7 = 58.6 psia Ti = (291 0F + 460) =751'R Downstream of inboard MSIV (assumed Atmospheric Condition):

V2 = TBD P2 = 14.7 psia T2 = (68°F + 460) = 528°R MSIV Leakage to Pipe Spool Between MS Line 2 MSIVs:

V2 = (PV/T @1) x (T/P @2)

= (58.6 psia x 21.41 cfh / 751°R) x (528°R0 / 14.7 psia)

= 60 cfh = 1.00 cfm Upstream of outboard MSIV (i.e., downstream of inboard MSIV) in intact MS Line 2:

V2 = 60 cfh P1 = 14.7 psia T2 = (68°F + 460) = 528°R Downstream of outboard MSIV in intact MS Line 2 (assumed Atmospheric Condition):

V3 = TBD P2 = 14.7 psia T2 = (68°F + 460) = 528°R MSIV Leakage to Environment From MS Line 2:

V3 = (PV/T @2) x (T/P @3)

= (14.7 psia x 60 cfh / 528 0R) x (528°R / 14.7 psia)

= 60 cf = 1.00 cfin This is as expected, given that the pressure and temperature conditions in the pipe spool between the MS Line 2 MSIVs are assumed to be the same as the standard pressure and temperature atmospheric conditions present in the environment.

I CC-A.A-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO.1 PAGE NO. 29 of 65 A similar calculation using the same pressure and temperature conditions results in the MSIV Leakage of 30 cfh (0.50 cfm) into the pipe spool between the MS Line 3 MSIVs, and from the pipe spool to the Environment.

The 2-720 hr MSIV leakages to Environment Per Section 7.2.3, two hours after a LOCA the drywell and suppression chamber volumes are expected to reach an equilibrium condition and the post-LOCA activity is expected to be homogeneously distributed between these volumes. Therefore, the leak rates based on the activity in drywell are not applicable during this period. This results in a reduction in the 0-2 hr MSIV leakages to the environment by the ratio of the drywell volume to the combined drywell plus suppression volume:

2-720 hrs MSIV leakage release to environment from MS Line 1 with failed MSIV

= 60 cfh x (1.58E+05 ft3 / 2.69E+05 ft3 ) = 35.24 cfh = 0.587 cfm 0-720 hrs MSIV leakage release to environment from intact MS Line 2

= 60 cfh x (1.58E+05 ft3 / 2.69E+05 ft3 ) = 35.24 cth = 0.587 cfm 0-720 hrs MSIV leakage release to environment from intact MS Line 3

= 30 cfh x (1.58E+05 ft3 / 2.69E+05 ft3 ) = 17.62 cfh = 0.294 cfm 7.3 Main Steam Line Volumes & Surface Area For Plateout of Activity 7.3.1 Piping Line 2-3001A-20" from RPV Nozzle N3A to Outboard Isolation Valve with MSIV failed (60 scfh)

Pipe diameter = 20" (Ref. 9.16)

Minimum wall thickness - 1.031" (Ref. '3.16)

Corrosion allowance for steam = 0.12" (assumed)

Total Minimum Thickness = 1.031" + 0.12" = 1.151" 20" Pipe ID = OD - (2 x min wall thickness) = 20" - 2 x 1.151" = 17.698" = 1.475' Pipe cross sectional area = a r2 = n (1.475' / 2)2 = 1.708 ft2 The comparisons between main steam isometric drawings in References 9.15 &; 9.16 indicate that the main steam piping layouts are comparable for the two inner steam distribution headers. The QCNPS Unit 2 design has a shorter outer third steam distribution header. Therefore, the MSIV leakage analysis is performed based on the QCNPS Unit 2 main steam piping for the release path, and the following sections calculate the aerosol deposition parameters. The MSIV is postulated to fail on main steam line 2-3001A-20"; therefore, only the pipe segment between the inboard and outboard MSIVs is credited for aerosol and elemental iodine deposition in the following section (References 9.15 & 9.16):

Nozzle elevation (Center Line) = 659'-10" Straight pipe = 3'-2-1/2" = 3.21' Volume V = 1.708 ft2 x 3.21 ft = 5.48 ft3 Vertical pipe, Height H = 33'-10" = 33.83' V = 1.708 ft2 x 33.83 ft = G f 450 Bend Pipe L = 3.17' / Cos 45 = 4.48 ft.

Volume = 1.708 ft2 x 4.48 ft =

Vertical pipe, Height = 6.5' Volume = 1.708 ft2 x 6.5 ft =

Horizontal pipe, L = 15.88' V = 1.708 ft 2 x 15.88 ft= 27.12 ft3 CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. I PAGE NO. 30 of 65 Elevation of horizontal pipe segment = 659'-10" - (33'-10" + 3'-2" + 6'-6")

= 659'-10" - 43'-6" = 616'-4" Height of vertical pipe = 616'-4" - 595'-0" = 21.33' V = 1.708 ft2 x 21.33 ft = 6 f Horizontal pipe before inboard MSIV = 4.33' V = 1.708 ft2 x 4.33 ft = 7.40 ft3 Length pipe between Inboard & Outboard MSIVs

= (4-8"+ 12'-3-1/8"+ 10'9") = 27.68 ft V = 1.708 ft2 x 27.68 ft = 47.28 ft 3 Control Volume V1 for MSIV Failed SL Between RPV Nozzle & inboard MS![V (60 scfh)

Total Volume V11 = 5.48 ft3 + 57.78 ft3 + 7.65 ft3 + 11.10 ft3 + 27.12 ft3 + 36.43 ft + 7.40 ft3 Horizontal pipe volume VHiii = 5.48 ft3 + 27.12 ft + 7.40 ft =

Horizontal pipe projected surface area for gravitational aerosol deposition AH1 1 = D x L (Horizontal Length)

1.475' x (3.21' + 15.88' + 4.33') = 1.475' x 23.42'

Control Volume Vi v for MSIV Failed Line Between Inboard & Outboard MSIVs (60 scth)

Total volume V 1 2 = low Horizontal pipe volume VH12 = Same as itotal volume =

Horizontal pipe projected surface area for gravitational aerosol deposition AH 12 = D x L (Horizontal Length) = 1.475' x 27.68' = m Control Volumes V MSIV Failed SL Between RPV Nozzle & outboard MSIV (60 scfh)

Total Volume VI = V1 1 + V12 = 152.96 ft3 + 47.28 ft3 =

(Used in RADTRAD Runs QDC400MS5 1.psf and QDC400MS52.psf)

Total Horizontal pipe volume VH1 = VI1 1 + VH12 = 40.00 ft3 + 47.28 ft3 = (Used in Table 1)

Total Horizontal Surface Area 2 2 1 = A1 11 + AH 12 = 34.54 ft + 40.83 ft =

AH (Used in Table 1)

CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 31 of 65 7.3.2 First Intact SL 2-300lD-20" from RPV Nozzle N3D to Outboard MSIV (60 scih)

The nozzle elevation (659'-10") and horizontal pipe segment elevation (616'-4") are the same as those for main steam line 2-3001A-20" (Section 7.3.1). Therefore, the missing dimensions are obtained from Reference 9.15.c in the following sections:

Nozzle elevation (Center Line) = 659'-1("

Straight pipe = 3'-2-1/2" = 3.21' Volume V = 1.708 ft2 x 3.21 ft x = 5.48 ft3 Vertical pipe, Height H = 33'-10" = 33.83' V = 1.708 ft 2 x 33.83 ft = NNW 450 Bend Pipe with length L = 3.17' / Cos 450 = 4.48 ft.

Volume = 1.708 ft2 x 4.48 ft = W f Vertical pipe, Height = 6.5' Volume = 1.708 ft2 x 6.5 ft = .

Horizontal pipe, L = 15.86' V = 1.708 ft2 x 15.86 ft = 27.09 ft3 Horizontal pipe segment elevation = 616'-4" (Ref. 9.15.d)

Height of vertical pipe = 616'-4" - 595'-0" = 21.33' V = 1.708 ft2 x 21.33 ft = O.1 Horizontal pipe before inboard MSIV = 1'-9-1/2" + 2'-6-1/2" = 4.33' V = 1.708 ft2 x 4.33 ft = 7.40 ft3 Length pipe between Inboard & Outboard MSIVs

= (4-8"+ 13'-4"+ 10'9") = 28.75 ft V = 1.708 ft 2 x 28.75 ft = 49.11 ft3 Control Volume 2 for First Intact SL Between RPV Nozzle & Inboard MSIV (60 scfd)

Total volume V2 =5.48 ft 3 + 57.78 ft3 + 7.65 ft 3 + 11.1( ft 3 + 27.09 ft 3 + 36.43 ft3 + 7.40 ft3 =

Horizontal pipe volume V112 = 5.48 ft + 27.09 ft3 + 7.40 ft3 = t Horizontal pipe projected surface area for gravitational aerosol deposition AH2 = D x L (Horizontal Length)

1.475' x (3.21 ' + 15.86' + 4.33') = 1.475' x 23.40'

Control Volume 3 for First Intact SL Between Inboard & Outboard MSIVs (60 scfl)

Total volume for first intact pipe between Inboard & Outboard MSIVs V3= m Horizontal pipe volume V113 = Same as total volume =

Horizontal pipe projected surface area for gravitational aerosol deposition CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. I I PAGE NO. 32 of 65 I AH 3 = D x L (Horizontal Length) = 1.47.5' x 28.75' = M 7.3.3 Second Intact SL 2-3001C-20" from RPV Nozzle N3C to Outboard MSIV (30 sch)

The nozzle elevation (659'-10") and horizontal pipe segment elevation (616'-4") are the same as those for main steam line 2-3001A-20" (Section 7.3). Therefore, the missing dimensions are obtained from Reference 9.14.c in the following sections (References 9.15c & 9.15.d & 9.16.b):

Nozzle elevation (Center Line) = 659'-10" Straight pipe = 3'-2-1/2" = 3.21' Volume V = 1.708 ft2 x 3.21 ft x = 5.48 ft3 Vertical pipe, Height H = 31 '-4" = 33.33' V = 1.708 ft2 x 31.33 ft = gum 450 Bend Pipe with length L = 5.67' / Cos 450 = 8.02 ft.

Volume = 1.708 ft2 x 8.02 ft =

Vertical pipe, Height = 6.5' Volume = 1.708 ft2 x 6.5 ft =

Horizontal pipe, L = 22.76' V = 1.708 ft2 x 22.76 ft = 38.87 ft3 Horizontal pipe segment elevation = 616'-4" (Ref. 9.15.d)

Height of vertical pipe = 616'-4"- 595'-0" = 21.33' V = 1.708 ft2 x 21.33 ft = 43 Horizontal pipe before inboard MSIV = l '-3-1/4" + 1'-5-1/2" = 2.73' V = 1.708 ft2 x 2.73 ft = 4.66 ft3 Length pipe between Inboard & Outboard MSIVs

= (4-8"+ 13'-4"+ 1'-3" + 9-6") = 28.75 ft V = 1.708 ft2 x 28.75 ft = 49.11 ft3 Control Volume 4 for Second Intact SL Between RPV Nozzle & Inboard MSIV (30 scfh)

Total volume V 4 = 5.48 ft 3 + 53.51 ft3 + 13.70 ft3 + 11.10 ft3 + 38.87 ft 3 + 36.43 ft 3 + 4.66 ft3 =

Horizontal piye volume VH4 = 5.48 ft + 38.87 ft3 + 4.66 ft = RUN Horizontal pipe projected surface area for gravitational aerosol deposition AH4 = D x L (Horizontal Length)

1.475' x (3.21' + 22.76' + 2.73') = 1.475' x 28.70'

Control Volume 5 for First Intact SL Between Inboard & Outboard MSIVs (30 sefh)

Total volume for first intact pipe between Inboard & Outboard MSIVs V5= I Horizontal pipe volume VH5 = Same as total volume =

I CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE NO. 33 Of 65 I Horizontal pipe projected surface area for gravitational aerosol deposition AH5 = D x L (Horizontal Length) = 1.475' x 28.75' =

7.4 Aerosol Deposition On Horizontal Pipe Surface Reference 9.15 indicates that the QCNP'S main steam piping from the reactor pressure vessel (RPV) nozzle to the outboard MSIV is ASME Class 1 seismically analyzed to assure the piping wall integrity during and after a seismic (safe shutdown earthquake [SSE]) event. RG 1.183, Appendix A, Section 6.5 requires that the components and piping systems used in the release path are capable of performing their safety function during and following a SSE. The main steam lines credited in the MSIV leakage path are qualified to withstand the SSE, therefore, these lines are credited for the aerosol deposition in the following section:

The Brockmann model for aerosol deposition (Ref. 9.2, Section 2.2.6.1) is based on the plug flow model. The staff concluded that the plug flow model for aerosol deposition in the main steam piping under-predicts the dose (Ref 9.17, Appendix A). The aerosol settling velocity in the well-mixed flow model depends on the variables having a large range of uncertainty (see Equation 5 of Appendix A of Ref. 9.17). Therefore, the following aerosol deposition model is used, which is accepted by the Staff in Reference 9.17, Appendix A). Therefore., the Staff performed a Monte Carlo analysis to determine the distribution of aerosol settling velocities for the main steam line during the in-vessel release phase. The accepted 40 percentile settling velocity is reasonably conservative for aerosol deposition in the MSIV leakage. The results of the Monte Carlo analysis for settling velocity in the main steam line are given in the following Table:

Percentile Settling Velocity Removal Rate (m/sec) Constant (hr-)

60t h (average) 0.00148 11.43 50th (median) 0.00117 '.04 4 0 th 0.00081 6.26 10th0 100.00021 l .62 7.4.1 MSIV Failed Line The derivation of staff's well-mixed model begins with a mass balance as follows (Ref. 9.17, Page A-2):

V

dC = Q

Cin-Q

C -Xs

V

C (1) dt Where V = volume of well-mixed region C = concentration of nuclides in volume Q = volumetric flow rate into volume Xs = rate constant for settling And Xs = 4;

A V

Where us = settling velocity A = settling area CC-AA-309-1001, Rev 2

I CALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE: NO. 34 of 65 l The aerosol settling velocities in the different control volumes are calculated in Table 1 using the above equation based on the horizontal pipe projected areas and well mixed horizontal volumes obtained from Section 7.3.

Under steady-state condition, the derivative in the above equation (1) becomes zero. Equation (1) can be simplified as follows:

C-

1 1+

1+ RE*V Q

RADTRAD allows input of filter efficiency for each flow path. Noting that C is also the concentration of nuclides leaving the volume, the above equation can be used to determine an equivalent filter efficiency as follows:

filt= 1 - C = 1 - 1 (2)

Qn 1+ X *V Q

Equation (2) is used to calculate the aerosol removal efficiencies in Table 3. Note that the volumetric flow rate used to determine the removal efficiency is the full flow rate through the line (60 or 30 cfm).

7.5 ESF Leak Rates The design basis ESF leakage is 1 gpm, which is doubled and converted into cfin as follows:

1 gallon/min x 2 x 1/7.4805 ft3 /gallon = 0.2674 cfln 10% of ESF leakage becomes airborne = 0.10 x 0.2674 = 0.02674 cfm 7.6 External Cloud Gamma Dose Attenuation Factor The gamma attenuation for concrete shielding for an external cloud dose is conservatively calculated for an average gamma energy of 1.0 Mev.

Minimum concrete shielding = 1'-6" (Re-f. 9.22.a, Section A-A)

Gamma dose attenuation for 1'-6" concrete shielding is calculated as follows:

Mass attenuation coefficient for concrete at I Mev g/p = 0.0635 cm 2 /g (Ref. 9.21, Table 3.7)

Density of concrete p = 2.3 g/cm 3 (Ref. 9.21, Table 11.3)

Linear attenuation coefficient p. in concrete = p./p x p = 0.0635 cm2 /g x 2.3 g/cm 3 = 0.146 cm' Shielding thickness r = 18 inch x 2.54 cm/inch = 45.72 cm pr in concrete shielding = 0.146 cm-] x 45.72 cm = 6.675 mean free paths Exposure buildup factor for isotropic point source at disintegration energy of 1 Mev and 6.675 mean free paths of the 1 Mev gammas Bp(pr) = AI e-aIr + A2 ea2 Pr (Ref. 9.21, page 428)

Where Al, A2 , a,, and a2 are functions of energy, and Al +A 2 = 1 I CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE NO. 35 of 65 l Values of these parameters are obtained firom Table 10.3 of Reference 9.21 for 1 Mev gamma in concrete shielding as follows:

Al = 25.507 -a, = 0.07230 ac2= -0.01843 A2 = 1 -Al = 1-25.507 =-24.507 r= 6.675 Substituting these values in the above equation yields:

Bp(pr) =41.32-27.71 = 13.61 Direct Shield Attenuation I/lo = BO(Or) e-jr Where I = shielded gamma dose rate lo = unshielded gamma dose rate Bp(ptr) = Exposure buildup factor Substituting the values of parameters into the above attenuation Equation (1) yields a direct shield attenuation factor of I/lo = B(pgr) ear = 13.61 e(6.675 ) = 13.61 x 1.2621E-03 = 0.0172 7.7 Containment Elemental Iodine Removal Coefficient Natural deposition on containment surfaces (plateout) of the elemental iodine released to containment is calculated using the methodology outlined in NUREG-0800, Standard Review Plan 6.5.2 (page 6.5.2-

10) (Ref. 9.9) as follows:

The equation for the wall deposition is:

Xw= K, x A/V Where:

,= first order removal coefficient by wall deposition K= mass transfer coefficient = 4.9 m/hr (Ref. 9.9, page 6.5.2-10)

A = wetted surface area = 32,430 ft2 (a conservatively smaller 32,250 ft2 is used in the analysis to be consistent with the Dresden Nuclear Plant) (Ref 9.4, Item 13)

V = drywell net free air volume = 1.58E+05 ft3 (Ref. 9.4, Item 13)

X, = Kw x A/V = 4.9 m/hr x (3.2808 ft/rn) (32,250 ft2 ) / (1.58E+05 ft3 ) - 3.28 hr' Maximum DF of elemental iodine = 200 Cutoff time for terminating elemental iodine removal = 3.05 hrs (QDC400CL6:1.oO) 7.8 Containment Shine Shielding! Geometry Reactor Building Shielding Parameters: (Ref. 9.23)

Length = 147'-O" Width = 1 17'-6" CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. I PAGE NO. 36 of 65 Height = 736-9" - 690'-6" = 46'-3" 44'-0" used in the analysis to adjust the roof thickness dimension Volume of Source = 147' x 117.5' x 44' = 759,990 ft 3 (= 2.15E+10 cm 3 ) used in the analysis Distance between south-west corner of RB and north wall of CR = Distance between Columns 19 & 25

= 20'-7" + 20'-7" + 20'-7" + 25'-0" + 22 '-9" + 32'-0" = 141 '-6" (Ref. 9.23.a)

Elevation difference between CR operator and RB operating floor

= 690.5' RB operating floor elevation - [(623'-0") CR floor elevation + 7'-0" height of operator (assumed)]

= 690.5' - 630' = 60.5' Line of sight distance between CR operator location and centerline of RB source

= [(60.5 )2 + (141.5 )2]1/2 = 153.89' ; 152' used in the analysis (see Figures 4 a 5).

Gamma dose rate reduction factor based on RB volume = 759,990 ft3 / 2.35E+C'6 ft3 = 0.3234 7.9 CR Containment Shine Dose 720-hr CR Gamma Dose From RB Shine, with consideration of control room occupancy factors

= 676.9 mrem = 0.6769 rem (Table 7)

Total CR Dose From RB Shine

= 0.6769 rem x 0.3234 = 0.22 rem, which is added to other post-LOCA dose contributions in Section 8.1 7.10 SBGTS Vent and CR Charcoal Filters Efficiencies Technical Specification 5.5.7, Ventilation Filter Testing Program (VFTP), requires routine testing of safety related filtration systems.

In-place penetration and system bypass testing on HEPA filters is routinely performed in accordance with RG 1.52 Revision 2 and ANSI/ASME N510-1980. The acceptance criteria for the safety related HEPA filters are as follows:

SBGTS: <1%

CREV: <0.05%

In-place penetration and system bypass testing on charcoal adsorbers is routinely performed in accordance with RG 1.52 Revision 2 and ANSI/ASME N510-1980. The acceptance criteria for penetration and system bypass testing of the safety related charcoal adsorbers are as follows:

SBGTS: <1%

I CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 REVISION NO. I R lPAGE NO. 37 of 65 I CREV: <0.05%

Laboratory testing of charcoal samples are obtained in accordance with RG 1.52 Revision 2 and tested in accordance with ASTM D3803-1989. The acceptance criteria for the safety related charcoal adsorbers are as follows:

SBGTS: 2.5%

CREV: 0.5%

If all of the above requirements are met (assuming a safety factor of two for the laboratory testing) the Regulatory Guide 1.52 assigned efficiencies may be applied to the charcoal adsorbers (99% for HEPA filters). For Quad Cities, these are:

SBGTS: 95%

CREV: 99%

7.11 Post-LOCA CREV Filter Shine Dose The post-LOCA CREV filter shine dose due to the MSIV leakage is calculated in the following sections.

The containment and ESF leakages contribute insignificant CR dose (Section 8 1). Therefore, they are not considered in the filter shine dose analysis.

7.11.1 Iodine Deposition on CREV Charcoal Filter - MSIV Leakage Tables 8 and 10 document the elemental iodine atoms and organic iodide atoms released to the environment from the three main steam lines modeled with MSIV leakage for time intervals of 0.6667 to 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months , 2 to 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months , 8 to 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , 24 to 96 hours0.00111 days 0.0267 hours 1.587302e-4 weeks 3.6528e-5 months , and 96 to 720 hours0.00833 days 0.2 hours 0.00119 weeks 2.7396e-4 months as determined in RADTRAD file QDC400MS5 1.oO. These time intervals coincide with the varying atmospheric dispersion factor defining MSIV leakage releases to the CREV system intake louvers. There is no filter activity loading prior to the initiation of the CREV system at 40 minutes.

For each time interval, Tables 9 and 11 multiply the iodine atoms released to the environment, with the atmospheric dispersion factor, the CREV filtered intake flow, and the charcoal :Filter efficiency. The result is the total number of elemental and organic iodine atoms drawn into, and retained on, the CREV charcoal filter.

The combined total of elemental and organic iodine atoms retained on the CRE'V charcoal filter is:

= 1.548E+15 elemental iodine atoms (Table 9) + 8.859E+15 organic iodide atoms (Table 11)

= 1.041 E+ 15 elemental + organic iodine atoms.

The iodine atom/curie relationship is established using the containment leakage run QDC400CL5 1.oO file as shown in Table 14, which is a typical relationship for all release paths.

The total (elemental + organic) iodine activity deposited on the CREV charcoal filter due to the MSIV leakage is calculated in Table 15 using this iodine atom/curie relationship and the combined total of elemental and organic iodine atoms retained on the CREV charcoal filter. A review of Table 15 documents that the accumulation of un-decayed iodine activity on the CREV charcoal filter of CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 IREVISION NO. 1 l PAGE NO. 38 of 65 l approximately 1.65 curies is insignificant. This is as expected, because most ofrthe elemental iodine is removed by elemental deposition in the main steam piping before it is released to the environment and it is further reduced by air dilution before it migrates to the CR air intake. The natural radioactive process will further decay the iodine on the CREV charcoal bed.

7.11.2 Aerosol Mass Deposited On CREV HEPA Filter - MSIV Leakage:

Table 12 documents the aerosol mass released to the environment from the three main steam lines modeled with MSIV leakage for time intervals of 0.6667 to 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months , 2 to 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months , 8 to 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , 24 to 96 hours0.00111 days 0.0267 hours 1.587302e-4 weeks 3.6528e-5 months , and 96 to 720 hours0.00833 days 0.2 hours 0.00119 weeks 2.7396e-4 months as determined in RADTRAD file QDC400MS5 1.oO. These time intervals coincide with the varying atmospheric dispersion factor defining MSIV leakage releases to the CREV system intake louvers. There is no filter activity loading prior to the initiation of the CREVS at 40 minutes.

For each time interval, Table 12 multiplies the aerosol mass released to the environment, with the atmospheric dispersion factor, the CREV filtered intake flow, and the HEPA filter efficiency. The result is the total aerosol mass drawn into, and retained on, the CREV HEPA filter, which is 7.35E-07 kg (Table 13).

The aerosol mass/curie relationship is established using the containment leakage run QDC400CL5 1.oO file as shown in Table 16, which is a typical relationship for all release paths.

The total aerosol activity deposited on the CREV HEPA filter due to the MSIV leakage is calculated in Table 17 using this aerosol mass/curie relationship and the total aerosol mass retained on the CREV charcoal filter. A review of Table 17 documents that the accumulation of aerosol activity on the CREV HEPA filter (no isotope with more than 0.1 curies, and the vast majority of isotopes with no more than I e-3 curies) is insignificant. This is as expected, because most of aerosol deposit out in the main steam piping horizontal surface before being released to the environment (see Table 3 for the aerosol removal efficiencies due to gravitational deposition).

I CC-AA-309-1001, Rev 2 l

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE NO. 39 of 65 l 8.0 RESULTS

SUMMARY

& CONCLUSIONS 8.1 Results Summarv The results of AST analyses for the proposed licensing basis are summarized irn the following table:

Post-LOCA Post-LOCA TEDE Dose (Rem)

Activity Release Receptor Location Path Control Room EAB lPZ Containment Leakage 1.67E-C02 6.18E-02 7.03E-01 (occurs 4.3 hr)

ESF Leakage 3.06E-02 2.66E-02 4.9'1E-01 (occurs @ 16 hr)

MSIV Leakage 3.60E+00 8.38E+00 1.44E+00 (occurs @ 3.0 hr)

Containment Shine to CR 2.20E-O 1 0.OOE+0O O.OOE+00 External Cloud Shine to 2.1 OE-O 1 O.OOE+0O 0.OOE+00 CR CR Filter Shine to CR negligible O.OOE+00 O.OOE+00 Total 4.08E+00 8.47E+00 2.63E+00 Allowable TEDE Limit 5.OOE+00 2.50E+01 2.59E+O1 RADTRAD Computer Run No.

Containment Leakage QDC400CL51 QDC400CL51 QDC400CL51 ESF Leakage QDC400E',F51 QDC400ESF51 QDC4 00ESF51 MSIV Leakage QDC400MS51 QDC400MS51 QDC400MS51 8.2 Conclusions The Section 8.1 results of this analysis, using conservative as-built design inpuls and assumptions that reflect the proposed AST implementation, indicate that the EAB, LPZ, and CR doses are within their allowable TEDE limits.

I CC-.AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 RE'ISION NO. I PAGE NO. 40 of 65

9.0 REFERENCES

9.1 U.S. NRC Regulatory Guide 1.183, Alternative Radiological Source Terms for Evaluating Design Basis Accidents at Nuclear Power Reactors, July 2000.

9.2 S.L. Humphreys et al., "RADTRAD: A Simplified Model for Radionuclide Transport and Removal and Dose Estimation," NUREG/CR-6604, USNRC, April 1998.

9.3 10CFR50.67, "Accident Source Term."

9.4 Exelon Transmittal of Design Information No. QDC-02-019, "Quad Cities Station Concurrence with the Design Inputs as established for Alternate Source Term (AST) LOCA Analysis," Revision 1, August 1, 2002.

9.5 Standard Review Plan Section 15.0.1, Rev. 0, July 2000 9.6 GE Task Report No. GE-NE-A22-00103-64-01, Rev 0, Project Task Report: "Dresden and Quad Cities Asset Enhancement Program, Task T0802: Radiation Sources and Fission Products" Dated August 2000.

9.7 EPA-520/1-88-020, Federal Guidance Report 11, Limiting Values of Radionucllide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion and Ingestion."

9.8 EPA-402-R-93-081, Federal Guidance Report 12, "External Exposure to Radionuclides in Air, Water and Soil."

9.9 NUREG-0800, Standard Review Plan, "Containment Spray as a Fission Product Cleanup System," SRP 6.5.2, Revision 2, 1988.

9.10 Cline, J.E. "MSIV Leakage - Iodine Transport Analysis" SAIC, August 20, 1990 9.11 NUREG-0800, Standard Review Plan, "Control Room Habitability System," SRP 6.4, Revision 2.

9.12 NUREG/CR-6189, "A Simplified Model of Aerosol Removal by Natural Processes in Reactor Containments," July 1996.

9.13 GE-NE-A22-00103-08-01, Revision 1, Class 3, December 2000, Project Task Report T0400, Containment System Response 9.14 Exelon Calculation No. QDC-0000-M-1408, Rev 2, Atmospheric Dispersion Factors (x/Qs) for Accident Release.

9.15 QCNPS Drawings:

a. M-3 101, SHT 1, Rev I, Inservice Inspection Isometric Main Steam System, Quad Cities 4 Unit 1

b. M-3 101, SHT 2, Rev I, Inservice Inspection Isometric Main Steam System, Quad Cities 4 Unit 1

c. M-31 11, SHT 1, Rev I, Inservice Inspection Isometric Main Steam System, Quad Cities 4 Unit 2

d. M-3 111, SHT 2, Rev H, Inservice Inspection Isometric Main Steam System, Quad Cities 4 Unit 2

e. M-3111, SHT 4, Rev F, Inservice Inspection Isometric Main Steam System, Quad Cities 4 Unit 2 9.16 QCNPS Drawings:

a. M-464, Rev C, Weight, Thermal & Dynamic Isometric Main Steam (Inside Drywell), and Cities 4 Unit 1

b. M-507, Rev C, Weight, Thermal & Dynamic Isometric Main Steam (Inside Drywell), and Cities 4 Unit 2 9.17 AEB 98-03, Assessment of Radiological Consequences for the Perry Pilot Plant Application Using The Revised (NUREG-1465) Source Term.

CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 IREVISION NO. I lPAGE NO. 41 of 65 9.18 Exelon Calculation No. QDC-1 100-N-1259, Rev 0, Ultimate Suppression Pool pH Following a Loss of Coolant Accident.

9.19 Quad Cities Technical Specifications, Specification No. 5.5.7, Ventilation Filter Testing Program 9.20 USNRC, "Laboratory Testing of Nuclear-Grade Activated Charcoal," NRC Generic Letter 99-02, June 3, 1999 9.21 Introduction To Nuclear Engineering By John Lamarsh, Third Printing, December 1977, Addison-Wesley Publishing Company, ISBN 0-201-04160-X 9.22 QCNPS Control Room Structure Drawings:

a. B-348, Rev M, Service Building Elevation of Control Room South Wall

b. B-349, Rev D, Service Building Ellevation of Control Room East Wall

c. B-350, Rev T, Service Building Elevation of Control Room North Wall 25 Line

d. B-35 1, Rev H, Service Building Elevation of Control Room West Wall

e. B-679, Rev [not listed on drawing], Service Building Control Room RoDf Plan 9.23 QCNPS General Arrangement Drawings:

a. M-3, Rev K, Main Floor Plan

b. M-4, Rev H, Mezzanine Floor Plan

c. M-8, Rev B, Sections A-A & B-B

d. M-9, Rev C, Sections C-C & D-D

e. M- 10, Rev N, Sections E-E & F-F 9.24 QCNPS Air Flow Diagrams:

a. M-725, SHT 1, Rev M, Diagram of Control Room HVAC System

b. M-725, SHT 2, Rev P, Diagram of Control Room HVAC System 9.25 QCNPS HVAC Drawings:

a. M-1553, Rev 1, General Arrangement Plan At EL 615'-6"

b. M-1555, Rev G, Control Room H[VAC Equipment Room Turbine Building Plan EL 615'-6" &

Service Building EL 609'-0" & 623'-0"

c. M-1566, Rev 5, Control Room HVAC Turbine BLDG & & Service BLDG Sections & Details

d. M-1567, Rev 5, Piping Arrangement Control Room HVAC Equipment Area ELEV 615'-6" 9.26 American Air Filter Drawing No. R107D-1327238-B, Housing Assembly Control Room Filter (Quad Cities Generating Station).

9.27 Quad Cities UFSAR, Rev 7, Section 15.6.5, Loss of Coolant Accidents Resulting from Piping Breaks Inside Containment 9.28 MicroShield Computer Code, V&V Version 5.05, Grove Engineering I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO.1 PAGE NO. 42 of 65 l 10.0 TABLES Table I Rate Constant (Q) for Aerosol Settling In Main Steam Piping With MSIV Failure Intact Steam Line Without MSIV Failure RPV Nozzle A RPV Nozzle D Inboard MSIV2 RPV Nozzle C Inboard MSIV3 Parameter To To To To To Outboard MSIV1 Inboard MSIV2 Outboard MSIV2 Inboard MSIV3 Outboard MSIV3 Control Volume Control Volume Control Volume Control Volume Control Volume VI V2 V3 V4 V5 (ft/hr) 9.564 9.564 9.564 9.564 9.564 Horizontal Settling 75.37 34.52 42.41 42.33 42.41 Area AH-I (ft2)

Horizontal Pipe Volume VHr(fi) 87.28 39.97 49.11 49.01 49.11 Rate Constant for 8.259 8.2610 8.259 8.260 8.259

40 Percentile Settling Velocity = 0.00081 m/sec (Ref. 9.17, Appendix A, Table A-1) x 3.28 ft/m x 3600 sec/hr = 9.564 ft/sec Main Steam Piping Parameters From Section 7.3 CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 IREVISION NO. 1 l PAGE NO. 43 of 65 l Table 2 MSIV Leak Rate In Different Control Volume (150 scfh)

MSIV Leak Rate From Dry ell To Main Steam Various Control Volu es (cfh)/(cfm) l Post-LOCA Drywell To Volume VI Drywell To Intact Line I Volume V 3 Drywell To Intact Line 2 Volume V5 Time MSIV Failed To Intact Line 1 Volume V2 To Intact Line 2 Volume V 4 To Interval Volume VI Atmosphere Volume V2 To Atmosphere Volume V 4 To Atmosphere (hr) Volume V3 Volume V __ _

0-2 21.41 60.00 21.41 60.00 60.00 10.70 30.00 30.00 0.357 1.000 0.357 1.000 1.000 0.178 0.500 0.500 2-720 12.58 35.24 12.58 35.24 35.24 6.28 17.62 17.62 0.210 0.587 0.210 0.587 0.587 0.105 0.294 0.294 MSIV Leak Rate Information From Section 7.2 CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO.1 PAG, NO. 44 of 65 Table 3 Aerosol Removal Efficiency Due To Gravitational Deposition On Horizontal Pipe Surface Volume VI1 = 152.96 ft 3 Aerosol Volume V3 = 49.11 ft3 Aerosol Post-LOCA Settling Horizontal Volumetric Removal Post-LOCA Settling Horizontal Volumetric Removal Time Rate Pipe Flow Efficiency Time Rate Pipe Flow Efficiency Interval Constant Volume Rate Interval Constant Volume Rate (hr) (hrf) (ft 3) (ft3 /hr) (%) (hr) (hr') (ft 3) _ (ft3 /hr) ()

0-720 8.259 40 60.00 84.63 0-720 8.259 49.11 60.00 87.11 Volume V12 47.2 8 fe Aerosol Volu e V4 = 163. 75 ft 3 Aerosol Post-LOCA Settling Horizontal Volumetric Removal Post-LOCA Settling Horizontal Volumetric Removal Time Rate Pipe Flow Efficiency Time Rate Pipe Flow Efficiency Interval Constant Volume Rate Interval Constant Volume Rate (hr) (hr"') (ft3) (Wt/hr) (%/) (hr) (hf~) (ft3) (ft3/hr) (%

0-720 8.259 47.28 60.00 86.68 0-720 8.260 49.01 30.00 93.10 Volume V2 = 152. 3 ft3 Aerosol Volu me Vs = 49.11 ft3 Aerosol Post-LOCA Settling Horizontal Volumetric Removal Post-LOCA Settling Horizontal Volumetric Removal Time Rate Pipe Flow Efficiency Time Rate Pipe Flow Efficiency Interval Constant Volume Rate Interval Constant Volume Rate (hr) (hr') (ft 3) (ft 3 /hr) * °/e) (hr) (hrf) (ft3 /hr) _()

0-720 8.260 39.97 60.00 84.62 0-720 8.259 49.11 30.00 93.11 MSIV Failed Line Well Mixed VoluMe VI = VI, + V12 =1]52.96 ft3 + 47.28 ft3 = 200.24 Used In RADTRAD Model (Section 7.3.1)

Note: The control volumes VI I & V12 are combined in the analysis to postulate the failure of inboard MSIV to close. However, the aerosol and elemental iodine depositions in the pipe volume between RPV nozzle and inboard MSIV (Control Volume VI 1 ) are not credited in the analysis by only using the removal efficiencies in Control Volume V12.

CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO.1 PAGE NO. 45 of 65 Table 4 Post-LOCA Reactor Building Isoto ic Inventory - Containment Leakage Post-LOCA Reactor Building Isotopic Inventory (Ci)

Isotope Containment Leakage 0.667 hr 2.0 hr 4.0 lirs 8.0 hrs 16 hrs 24 hrs Co-58 9.423E-03 6.372E-01 1.267E+00 9.365E-01 3.895E-01 1.583E-01 Co-60 1.128E-02 7.633E-01 1.519],+00 1.124E+00 4.691E-01 1.912E-01 Kr-85 3.477E+01 9.03 1E+02 3.193]_+03 6.467E+03 9.829E+03 1 .113E+04 Kr-85m 4.866E+02 1.028E+04 2.669]_+04 2.910E+04 1.283E+04 4.212E+03 Kr-87 7.151 E+02 8.981 E+03 1.068]1E+04 2.443E+03 4.743E+01 6.856E-01 Kr-88 1.229E+03 2.305E+04 5.003E+04 3.817E+04 8.233E+03 1.323E+03 Rb-86 3.777E+00 3.420E+01 5.980] +O1 4.344E+01 1.787E+01 7.194E+00 Sr-89 1.197E+01 8.093E+02 1.609] +03 1.188E+03 4.935E+02 2.003E+02 Sr-90 1.740E+00 1.177E+02 2.343] +02 1.734E+02 7.236E+01 2.950E+01 Sr-91 1.447E+01 8.885E+02 1.528] +03 8.448E+02 1.967E+02 4.472E+01 Sr-92 1.398E+01 6.726E+02 8.025]E+02 2.136E+02 1.152E+01 6.066E-01 Y-90 2.003E-02 2.432E+00 9.351] +00 1.396E+01 1.136E+O1 6.708E+00 Y-91 1.559E-01 1.071E+01 2.190]E+01 1.699E+01 7.503E+00 3.147E+00 Y-92 4.795E-01 1.420E+02 4.9751,+02 3.582E+02 5.532E+01 6.056E+00 Y-93 1.857E-01 1.147E+O1 1.989],+O1 1.119E+O1 2.697E+00 6.349E-01 Zr-95 2.190E-01 1.481E+01 2.945E+01 2.176E+01 9.048E+00 3.675E+00 Zr-97 2.158E-01 1.382E+01 2.534E-+01 1.592E+01 4.786E+00 1.405E+00_

Nb-95 2.201E-01 1.490E+01 2.964E+01 2.194E+01 9.154E+00 3.731E+00 Mo-99 3.135E+00 2.092E+02 4.076]E+02 2.893E+02 1.11 OE+02 4.160E+01 Tc-99m 2.765E+00 1.868E+02 3.703E +02 2.693E+02 1.076E+02 4.165E+01 Ru-103 2.656E+00 1.796E+02 3.568] +02 2.633E+02 1.092E+02 4.427E+01 Ru-105 1.685E+00 9.261E+01 1.3491]+02 5.347E+01 6.399E+00 7.482E-01 Ru-106 1.132E+00 7.661E+01 1.524]E+02 1.128E+02 4.704E+01 1.916E+01 Rh-105 1.777E+00 1.198E+02 2.353] +02 1.666E+02 6.125E+01 2.156E+01 Sb-127 3.679E+00 2.465E+02 4.832]3+02 3.471E+02 1.364E+02 5.236E+01 Sb-129 9.834E+00 5.373E+02 7.757],+02 3.022E+02 3.494E+01 3.945E+00 Te-127 3.674E+00 2.474E+02 4.8881,+02 3.560E+02 1.438E+02 5.674E+01 Te-127m 5.006E-01 3.388E+01 6.7421,+01 4.993E+01 2.084E+01 8.498E+0O Te-129 1.020E+01 6.005E+02 9.525E+02 4.324E+02 1.016E+02 2.874E+01 Te-129m 1.603E+00 1.085E+02 2.1591,+02 1.596E+02 6.624E+01 2.683E+01 I CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 lREISION NO.1 PAGE NO.46 of 65 Table 4 (Cont'd)

Post-LOCA Reactor Building Isotopic Inventory - Containment Leakage Post-LOCA Reactor Building Isotopic Inventory (Ci)

Isotope Containment Leakage 0.667 hr 2.0 hr 4.0 hrs 8.0 hrs 16 hrs 24 hrs Te-131m 4.802E+00 3.150E+02 5.986],+02 4.040E+02 1.401E+02 4.748E+01 Te-132 4.719E+01 3.155E+03 6.169]E+03 4.408E+03 1.713E+03 6.506E+02 1-131 1.448E+03 1.477E+04 2.609] +04 1.895E+04 7.896E+03 3.343E+03 1-132 1.846E+03 1.595E+04 1.930E +04 7.473E+03 2.063E+03 7.791E+02 1-133 2.880E+03 2.824E+04 4.699]E+04 3.030E+04 9.947E+03 3.319E+03_

1-134 1.907E+03 6.813E+03 2.492],+03 7.771E+01 5.962E-02 4.650E-05 1-135 2.575E+03 2.295E+04 3.309],+04 1.603E+04 2.969E+03 5.588E+02 Xe-133 4.206E+03 1.089E+05 3.815],+05 7.562E+05 1.100E+06 1.191 E+06 Xe-135 1.775E+03 4.542E+04 1.451],3+05 2.198E+05 1.806E+05 1.104E+05 Cs-134 4.267E+02 3.872E+03 6.790},+03 4.963E+03 2.066E+03 8.419E+02 Cs-136 1.266E+02 1.145E+03 1.999].+03 1.449E+03 5.929E+02 2.374E+02 Cs-137 2.626E+02 2.382E+03 4.178].+03 3.055E+03 1.272E+03 5.185E+02 Ba-139 1.724E+01 5.966E+02 4.342E.+02 4.300E+01 3.212E-01 2.343E-03 Ba-140 2.321E+01 1.566E+03 3.102E.+03 2.276E+03 9.325E+02 3.733E+02 La-140 2.948E-01 4.263E+01 1.7881,+02 2.752E+02 2.215E+02 1.276E+02 La-141 1.950E-01 1.043E+01 1.458E,+01 5.332E+00 5.426E-01 5.395E-02 La- 142 1.566E-01 5.819E+00 4.712E.+00 5.775E-01 6.605E-03 7.379E-05 Ce-141 5.504E-01 3.722E+01 7.398E.+01 5.460E+01 2.263E+01 9.160E+00 Ce- 143 4.986E-01 3.280E+01 6.2591.+01 4.260E+01 1.503E+01 5.178E+00 Ce-1M 4.539E-01 3.071E+01 6.11OE.+01 4.521E+01 1.885E+01 7.678E+00 Pr-143 1.955E-01 1.327E+01 2.655E+01 1.986E+01 8.424E+00 3.471 E+00 Nd-147 8.861E-02 5.975E+00 1.183E,+01 8.664E+00 3.540E+00 1.413E+00 Np-239 6.832E+00 4.548E+02 8.831 1E+02 6.224E+02 2.355E+02 8.701E+01 Pu-238 2.180E-03 1.475E-01 2.935E-01 2.173E-01 9.067E-02 3.696E-02 Pu-239 1.817E-04 1.230E-02 2.448E-02 1.813E-02 7.572E-03 3.089E-03 Pu-240 2.467E-04 1.669E-02 3.322E-02 2.459E-02 1.026E-02 4.183E-03 Pu-241 8.260E-02 5.589E+00 1.112E.+01 8.233E+00 3.435E+00 1.400E+00 Am-241 4.862E-05 3.291 E-03 6.552]E-03 4.856E-03 2.03 1E-03 8.301 E-04 Cm-242 1.127E-02 7.622E-01 1.516E+00 1.122E+00 4.674E-01 1.902E-01 Cm-244 7.994E-04 5.409E-02 1.076E-01 7.968E-02 3.325E-02 1.355E-02 Post-LOCA Reactor Building Isotopic Inventory From RADTRAD Run QDC400CL5 1.oO CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGEI NO. 47 of 65 Table 5 Post-LOCA Reactor Building Isotopic Inventory - ESF Leakage Post-LOCA Reactor Building Isotopic Inventory (Ci)

Isotope ESF Leakage 0.667 hr 2.0 hr 4.0 hrs 8.0 hrs 16 hrs 24 hrs 1-131 2.682E+01 3.040E+02 8.728E4+02 1.669E+03 2.443E+03 2.698E+03 1-132 3.407E+01 3.051E+02 5.170E1+02 3.055E+02 4.153E+01 4.242E+00 1-133 5.337E+01 5.812E+02 1.572E+03 2.670E+03 3.080E+03 2.682E+03 1-134 3.534E+01 1.402E+02 8.340E1+01 6.846E+00 1.846E-02 3.758E-05 1-135 4.770E+01 4.722E+02 1.107E4-03 1.412E+03 9.192E+02 4.516E+02 Xe-133 1.246E-01 3.955E+00 2.659E+01 1.098E+02 3.054E+02 4.608E+02 Xe-135 1.352E+00 3.912E+01 2.283E+02 7.095E+02 1.123E+03 9.670E+02 Post-LOCA Reactor Building Isotopic Inventory From RADTRAD Run QDC400ESF5 1.oO CC-AA-309-1 001, Rev 2

I CALCULATION NO. QDC-0000-N-1481 I REVISION NO. I l PAGE NO. 48 of 65 Table 6 Post-LOCA Reactor Building Isotopic Inventory - Containment + ESF Leaka es Post-LOCA Reactor Building Isotopic Inventory (Ci) Total Isotope Containment + ESF Leaka e Activity 0.667 hr 2.0 hr 4.0 hrs 8.0 hrs 16 hrs 24 hrs (Ci)

Co-58 9.423E-03 6.372E-01 1.267E+00 9.365E-01 3.895E-01 1.583E-0 I 3.398E+00 Co-60 1.128E-02 7.633E-01 1.519E+00 1.124E+00 4.691E-01 1.912E-01 4.078E+00 Kr-85 3.477E+01 9.03 1E+02 3.193E+03 6.467E+03 9.829E+03 1.113E+04 3.155E+04 Kr-85m 4.866E+02 1.028E+04 2.669E+04 2.910E+04 1.283E+04 4.212E+03 8.360E+04 Kr-87 7.151 E+02 8.981E+03 1.068E+04 2.443E+03 4.743E+01 6.856E-01 2.286E+04 Kr-88 1.229E+03 2.305E+04 5.003E+04 3.817E+04 8.233E+03 1.323E+0;3 1.220E+05 Rb-86 3.777E+00 3.420E+01 5.980E+01 4.344E+01 1.787E+01 7.194E+0) 1.663E+02 Sr-89 1.197E+01 8.093E+02 1.609E+03 1.188E+03 4.935E+02 2.003E+02 4.312E+03 Sr-90 1.740E+00 1.177E+02 2.343 E+02 1.734E+02 7.236E+01 2.950E+O I 6.290E+02 Sr-91 1.447E+01 8.885E+02 1.528E+03 8.448E+02 1.967E+02 4.472E+O1 3.517E+03 Sr-92 1.398E+01 6.726E+02 8.025 E+02 2.136E+02 1.152E+01 6.066E-01 1.715E+03 Y-90 2.003E-02 2.432E+00 9.351.E+00 1.396E+01 1.136E+01 6.708E+00) 4.383E+01 Y-91 1.559E-01 1.071E+01 2.190 E+01 1.699E+01 7.503E+00 3.147E+01) 6.041E+01 Y-92 4.795E-01 1.420E+02 4.975BE+02 3.582E+02 5.532E+01 6.056E+01) 1.060E+03 Y-93 1.857E-01 1.147E+01 1.989E+01 1.119E+0O1 2.697E+00 6.349E-01 4.607E+01 Zr-95 2.190E-01 1.4811E+01 2.945E+01 2.176E+1 9.048E+OO 3.675E+0( 7.897E+01 Zr-97 2.158E-01 1.382E+01 2.534:E+01 1.592E+01 4.786E+00 1.405E+0() 6.150E+01 Nb-95 2.201 E-1 I 1.490E+01 2.964:E+01 2.194E+01 9.154E+00 3.731 E+00 7.958E+01 Mo-99 3.135E+00 2.092E+02 4.076iE+02 2.893E+02 1.1 1OE+02 4.160E+0: 1.062E+03 Tc-99m 2.765E+00 1.868E+02 3.703]E+02 2.693E+02 1.076E+02 4.165E+O:l 9.784E+02 Ru-103 2.656E+00 1.796E+02 3.568E+02 2.633E+02 1.092E+02 4.427E+O0 9.558E+02 Ru-105 1.685E+00 9.261E+01 1.349]E+02 5.347E+01 6.399E+00 7.482E-01 2.898E+02 Ru-106 1.132E+00 7.661E+01 1.524]_+02 1.128E+02 4.704E+01 1.916E+0]_ 4.092E+02 Rh-105 1.777E+00 1.198E+02 2.353]_+02 1.666E+02 6.125E+01 2.156E+01 6.062E+02 Sb-127 3.679E+00 2.465E+02 4.832]_+02 3.471 E+02 1.364E+02 5.236E+01 1.269E+03 Sb-129 9.834E+00 5.373E+02 7.757] +02 3.022E+02 3.494E1+01 3.945E+00 1.664E+03 Te-127 3.674E+00 2.474E+02 4.888] +02 3.560E+02 1.438E+02 5.674E+0]_ 1.296E+03 Te-127m 5.006E-01 3.388E+01 6.7421_+01 4.993E+01 2.084E+01 8.498E+OC 1.811E+02 Te-129 1.020E+01 6.005E+02 9.52513+02 4.324E+02 1.016E+02 2.874E+0] 2.126E+03 Te-129m 1.603E+00 1.085E+02 2.1591E+02 1.596E+02 6.624E+01 2.683E+01 5.787E+02 CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 l PAGE NO.49 of 65 Table 6 (Cont'd)

Post-LOCA Reactor Building Isotopic Inventory - Containment + ESF Leages Post-LOCA Reactor Building Isotopic Inventory (Ci) Total Isotope Containment + ESF Leaka e Activity 0.667 hr 2.0 hr 4.0 hrs 8.0 hrs 16 hrs 24 hrs (Ci)

Te-131m 4.802E+00 3.150E+02 5.986E+02 4.040E+02 1.401E+02 4.748E+01 1.510E+03 Te-132 4.719E+01 3.155E+03 6.169E+03 4.408E+03 1.713E+03 6.506E&02 1.614E+04 1-131 1.474E+03 1.508E+04 2.696E+04 2.062E+04 1.034E+04 6.041 EA03 8.051 E+04 1-132 1.880E+03 1.626E+04 1.981E+04 7.778E+03 2.104E+03 7.834E+02 4.862E+04 1-133 2.934E+03 2.883E+04 4.856E+04 3.297E+04 1.303E+04 6.001E1 03 1.323E+05 1-134 1.943E+03 6.953E+03 2.576E+03 8.455E+01 7.809E-02 8.407E-05 1.156E+04 1-135 2.622E+03 2.342E+04 3.419E+04 1.744E+04 3.888E+03 1.01OEA 03 8.257E+04 Xe-133 4.207E+03 1.089E+05 3.815E+05 7.563E+05 1.100E+06 1.191EA-06 3.542E+06 Xe-135 1.776E+03 4.546E+04 1.453E+05 2.205E+05 1.817E+05 1.113E+ 05 7.061E+05 Cs-134 4.267E+02 3.872E+03 6.790E+03 4.963E+03 2.066E+03 8.419E4 02 1.896E+04 Cs-136 1.266E+02 1.145E+03 1.999E+03 1.449E+03 5.929E+02 2.374E1+02 5.550E+03 Cs-137 2.626E+02 2.382E+03 4.178E+03 3.055E+03 1.272E+03 5.185E402 1.167E+04 Ba-139 1.724E+01 5.966E+02 4.342E+02 4.300E+01 3.212E-01 2.343E-03 1.091E+03 Ba-140 2.321E+01 1.566E+03 3.102E+03 2.276E+03 9.325E+02 3.733E402 8.272E+03 La-140 2.948E-01 4.263E+01 1.78 BE+02 2.752E+02 2.215E+02 1.276E402 8.460E+02 La-141 1.950E-01 1.043E+01 1.453E+01 5.332E+00 5.426E-01 5.395E-02 3.114E+01 La-142 1.566E-01 5.819E+00 4.71:2E+00 5.775E-01 6.605E-03 7.379E-05 1.127E+01 Ce-141 5.504E-01 3.722E+01 7.393E+01 5.460E+01 2.263E+01 9.160E 00 1.9811E+02 Ce-143 4.986E-01 3.280E+01 6.25 3E+01 4.260E+01 1.503E+01 5.178E+00 1.587E+02 Ce-144 4.539E-01 3.071E+01 6.110E+01 4.521E+01 1.885E+01 7.678E400 1.640E+02 Pr-143 1.955E-01 1.327E+01 2.65:5E+01 1.986E+01 8.424E+00 3.471E+00 7.176E+01 Nd-147 8.861E-02 5.975E+00 1.183E+01 8.664E+00 3.540E+00 1.413E+00 3.151E+01 Np-239 6.832E+00 4.548E+02 8.83 IE+02 6.224E+02 2.355E+02 8.701EE+01 2.290E+03 Pu-238 2.180E-03 1.475E-01 2.935E-01 2.173E-01 9.067E-02 3.696E-02 7.881E-01 Pu-239 1.817E-04 1.230E-02 2.443E-02 1.813E-02 7.572E-03 3.089E-03 6.576E-02 Pu-240 2.467E-04 1.669E-02 3.322E-02 2.459E-02 1.026E-02 4.183E-03 8.919E-02 Pu-241 8.260E-02 5.589E+00 1.11.2E+01 8.233E+00 3.435E+00 1.400E+D0 2.986E+01 Am-241 4.862E-05 3.291 E-03 6.552E-03 4.856E-03 2.031 E-03 8.301E-04 1.761 E-02 Cm-242 1.127E-02 7.622E-01 1.516E+00 1.122E+00 4.674E-01 1.902E-01 4.069E+00 Cm-244 7.994E-04 5.409E-02 1.076E-01 7.968E-02 3.325E-02 1.355E-02 2.890E-01 Containment Leakage RB Inventory From Table 4 & ESF Leakage RB Inventory From Table 5 CC-AA-309-1001, Rev 2 l

CALCULATION NO. QDC-0000-N-1481 REVISION NO.1 PAGE NO. 50 of 65 Table 7 Post-LOCA Containment Shine Integrated Gamma Dose Control Control Room Control Room Control Room Control Room MicroShield Post-LOCA Room Integrated Occupancy Integrated Cumulative Run Period Gamma Gamma ]Factor Gamma Gamma No.

t Dose Dose Dose Dose Rate (w/o CROF) (with CROF)

(hr) (mrem/hr) (mrem) (unitless) (mrem) (mrem) _-

0.667 1.322E+00 1.322E+00 1.0 1.322E+00 1.322E+00 ()DC667.MS5 2 1.598E+01 1.153E+01 1.0 1.153E+01 1.285E+01 QDC2.MS5 4 2.749E+01 4.347E+01 1.0 4.347E+01 5.632E+01 QDC4.MS5 8 1.739E+01 8.976E+01 1.0 8.976E+01 1.461E+02 QDC8RL.MS5 16 2.931E+01 1.868E+02 1.0 1.868E+02 3.329E+02 QDC16RI.MS5 24 7.642E-01 1.203E+02 1.0 1.203E+02 4.532E+02 QDC24RI.MS5 96 7.642E-01 5.502E+01 0.6 3.301E+01 4.862E+02 §DC24RI.MS5 720 7.642E-01 4.769E+02 0.4 1.907E+02 6.769E+02 QDC24RI.MS5 720-hrs Cumulative Gamma Dose 6.769E+02 _-_I CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 I PAGE NO. 51 of 65 Table 8 Post-LOCA Elemental Iodine Inventory Transported to the Environment Due to Post-LOCA MSIV Leakage Time Failed MS Line Intact MS Line 1 Intact MS Line 2 Total Time MSIV Cumulative Cumulative Cumulative Cumulative Interval Elem. Iodine Elem. Iodine Elem. Iodine Elem. Iodine Elem. Iodine Transported Transported Transported Transported Transported to Environment to Environment to Environment to Environment to Environment (hrs) (atoms) (atoms) (atoms) (atoms) (hrs) (atoms) l JA .J. J ... fA+B+CI _

0.6667 1.1422E+16 1.3810E+15 1.7915E+14 1.2982E+16 2 1.9714E+17 5.4977E+16 8.6096E+15 2.6073E+17 0.6667 to 2 2.4774E+17 3.05 3.3892E+17 1.1614E+17 1.9835E+16 4.7490E+17=

8 7.6484E+17 3.7803E+17 9.6809E+16 1.2397E+18 2 to 8 9.7895E+17 24 1.1610E+18 5.8214E+17 2.4117E+17 1.9843E+18 8 to 24 7.4463E+17 96 1.7192E+18 8.5750E+17 3.9946E+17 2.9762E+18 24 to 96 9.9185E+17 720 2.9070E+18 1.4515E+18 6.9882E+17 5.0573E+18 96 to 720 2.0812E+18 A, B & C From RADTRAD Run QDC400MS5 1.oO output file Table 9 Post-LOCA Total Elemental lodline Inventory On CR Charcoal Filter @ 720 Hrs Due to Post-LOCA MSIV Leakage Time MSIV X/Q Time Volume HVAC Charcoal Filter Interval Elem. Iodine MSIV to Conversion Conversion inflow Filter Inventory Transported CR rate Efficiency Elem. Iodine to Environment (hrs) (atoms) (sec/m3) (min/sec) (m3/ft3) (ft3/min) (fraction) (atoms)

[Al IBI IC] ID] JEJ - - F1 IA-B-C-D-E*Fj 0.6667 to 2 2.4774E+17 1.02E-03 0.01667 0.02832 1800 0.99 2.125E+14 2 to 8 9.7895E+17 8.23E-04 0.01667 0.02832 1800 0.99 6.777E+14 8 to 24 7.4463E+17 3.55E-04 0.01667 0.02832 1800 0.99 2.223E+14 24 to 96 9.9185E+17 2.32E-04 0.01667 0.02832 1800 0.99 1.935E+14 96 to 720 2.0812E+18 1.38E-04 0.01667 0.02832 1800 0.99 2.416E+14 Total = 1.548E+15 l CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. I PAGE NO. 52 of 65 Table 10 Post-LOCA Organic Iodide Inventory Transported to the Environment Due to Post-LOCA MSIV Leakage Time Failed MS Line Intact MS Line 1 Intact MS Line 2 Total Time MSIV Cumulative Cumulative Cumulative Cumulative Interval Org. Iodide Org. Iodide Org. Iodide Org. Iodide Org. Iodide Transported Transported Transported Transported Transported to Environment to Environment to Environment to Environment to Environment (hrs) (atoms) (atoms) (atoms) (atoms) (hrs) (atoms)

[Al AL _ J LC]. A+B+Cj 0.6667 1.1320E+15 2.5436E+14 3.2803E+13 I.4192E+15 =

2 3.5093E+16 1.7432E+16 2.6480E+15 5.5173E+16 0.6667 to 2 5.3754E+16 3.05 7.7560E+16 4.5930E+16 7.4821E+15 1.3097E+17 8 4.4730E+17 3.8900E+17 8.5620E+16 9.2192E+17 2 to 8 8.6675E+17 24 2.1529E+18 2.1332E+18 7.421 IE+17 5.0282E+18 8 to 24 4.1063E+18 96 8.3825E+18 8.3693E+18 3.8305E+18 2.0582E+19 24 to 96 1.5554E+19 720 2.1979E+19 2.1966E+19 1.0683E+19 5.4628E+19 96 to 720 3.4046E+19 A, B & C From RADTRAD Run QDC400?dS5 .oOoutput file Table I1 Post-LOCA Total Organic Iodide Inventory On CR Charcoal Filter @ 720 Hrs Due to Post-LOCA MSIV Leakage Time MSIV X/Q Time Volume HVAC Charcoal Filter Interval Organic Iodide MSIV to Conversion Conversion inflow Filter Inventory Transported CR rate Efficiency Organic Iodide to Environment (hrs) (atoms) (sec/m3) (min/sec) (m3Ift3) (ft3/min) (fraction) (atoms)

[A 11 ICN] C I[D] [El IF] _ A*B*C*D*E*Fi 0.6667 to 2 5.3754E+16 1.02E-03 0.01667 0.02832 1800 0.99 4.612E+/-13 2 to 8 8.6675E+17 8.23E-04 0.01667 0.02832 1800 0.99 6.000E+14 8 to 24 4.1063E+18 3.55E-04 0.01667 0.02832 1800 0.99 1.226E+15 24 to 96 1.5554E+19 2.32E-04 0.01667 0.02832 1800 0.99 3.035E+15 96 to 720 3.4046E+19 1.38E-04 0.01667 0.02832 1800 0.99 3.952E+15 Total = 8.859E+15 CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 53 of 65 Table 12 Post-LOCA Aerosol Inventory Transported to the Environment Due to Post-LOCA MSIV Leakage Time Failed MS Line Intact MS Line 1 Intact MS Line 2 Total Time MSIV Cumulative Cumulative Cumulative Cumulative Interval Aerosols Aerosols Aerosols Aerosols Aerosols Transported Transported Transported Transported Transported to Environment to Environment to Environment to Environment to Environment (hrs) (kg) (kg) (kg) (kg) (hrs) (kg)

[Al JBI IC] IA+B+CI 0.6667 4.3719E-06 1.4919E-07 4.6206E-09 4.5257E-06 2 1.1614E-04 8.8456E-06 3.2488E-07 1.2531E-04 0.6667 1o 2 1.2078E-04 3.05 2.3805E-04 2.2089E-05 8.7457E-07 2.6101E-04 8 7.2867E-04 1.0598E-04 6.2434E-06 8.4089E-04 2 to 8 7.1558E-04 24 1.0960E-03 1.6503E-04 1.7295E-05 1.2783E-03 8 to 24 4.3743E-04 96 1.1 197E-03 1.6665E-04 1.9941E-05 1.3063E-03 24 to 96 2.7966E-05 720 1.1 197E-03 1.6665E-04 1.9942E-05 1.3063E-03 96 to 720 1.OOOOE-09 A, B & C From RADTRAD Run QDC400MS5 1.oO output file Table 13 Post-LOCA Total Aerosol llnventory On CR HEPA Filter @ 720 Hrs Due to Post-LOCA MSIV Leakage Time MSIV X/Q Time Volume HVAC HEPA Filter Interval Aerosols MSIV to Conversion Conversion inflow Filter Inventory Transported CR rate Efficiency Aerosols to Environment (hrs) (kg) (sec/m3) (nnin/sec) (m3/ft3) (ft3/min) (fraction) (kg)

[Al IBI IC] ID] [El IF] IAIIB*C*D*E*Fl 0.6667 to 2 1.2078E-04 1.02E-03 0.01667 0.02832 1800 0.99 1.036E-07 2 to 8 7.1558E-04 8.23E-04 0.01667 0.02832 1800 0.99 4.953E-07 8 to 24 4.3743E-04 3.55E-04 0.01667 0.02832 1800 0.99 1.306E-07 24 to 96 2.7966E-05 2.32E-04 0.01667 0.02832 1800 0.99 5.457E-09 96 to 720 1.0000E-09 1.38E-04 0.01667 0.02832 1800 0.99 1.161E-13 Total= 7.350E-07 CC-AA-309-1001, Rev 2

I CALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 PAGE NO. 54 of 65 Table 14 Conversion of Iodine Activity Into Iodine Atom RB Region () 0.5 hr Iodine Isotopic Isotope Activity Atoms Atoms Per Iodine (Curie) Curie Fraction Ai Bj C i = B i /A i D i = B i/ B 1-13 1 8.059E+02 2.988E+19 3.708E+16 7.693E-01 I-132 1.055E+03 4.663E+17 4.420E+14 1.200E-02 1-133 1.612E+03 6.442E+18 3.997E+15 1.658E-O1 1-134 1.21 lE+03 2.040E+17 1.685E+14 5.251E-03 I-135 1.458E+03 1.852E+18 1.270E+15 4.767E-02 Total 3.885E+19 _ _ 1.OOOE+OO Ai & Bi From RADTRAD Run QDC400CL5 l.oO output file @0.5 hr from Reactor Building Compartment Nuclide Inventory Table 15 Post-LOCA MSIV Leakage Iodine Activity Deposited on CR Charcoal Filter Iodine Fraction ]Elemental & Iodine Iodine Isotope Atoms Per Of Iodine Organic Iodine Atoms on Activity Curie Atoms On CR Charcoal CR Charcoal CR Charcoal Filter Filter 720 Hrs At 720 Hrs At 720 Hrs Ci Al B1 C Di =Bi

C Ei = Di /Ai 1-131 3.708E+16 7.693E-01 1.0411E+16 8.008E+15 2.160E-0 I 1-132 4.420E+14 1.200E-02 1.249E+14 2.827E-0 1 1-133 3.997E+15 1.658E-01 1.726E+15 4.319E-0 1 1-134 1.685E+14 5.251 E-03 5.466E+13 3.244E-0 I 1-135 1 .270E+1 5 4.767E-02 4.962E+14 3.907E-0 1 Total Iodine CR Charcoal Filter Atoms/Activity 1.041E+16 1.646E+C'0 Ai & Bi From Table 14 C From Section 7.11.1 (Table 9 + Table 11Iatom inventories)

I 7CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 55 of 65 Table 16 Relationship of Aerosol Mass and Activity CR Region i),0.6667 hr Aerosol Isotopic Isotope Activity Mass Mass Per Ci Aerosol (Curie) (kg) (kg/Ci) Fraction Ai B- C, = B /Ai Di= B1/ZB Co-58 9.423E-03 2.963E-10 3.145E-08 8.796E-08 Co-60 1.128E-02 9.980E-09 8.846E-07 2.962E-06 Rb-86 3.777E+00 4.642E-08 1.229E-08 1.378E-05 Sr-89 1. 197E+01 4.120E-07 3.442E-08 1.223E-04 Sr-90 1.740E+00 1.276E-05 7.33 lE-06 3.786E-03 Sr-91 1.447E+01 3.993E-09 2.759E- 10 1.185E-06 Sr-92 1.398E+01 1.I 12E-09 7.956E-11 3.302E-07 Y-90 2.003E-02 3.681E-11 1.838E-09 1.093E-08 Y-91 1.559E-01 6.357E-09 4.078E-08 1.887E-06 Y-92 4.795E-01 4.983E-11 1.039E-10 1.479E-08 Y-93 1.857E-01 5.566E-11 2.997E-10 1.652E-08 Zr-95 2.190E-01 1.020E-08 4.6555E-08 3.026E-06 Zr-97 2.158E-01 1.129E-10 5.231E-10 3.351E-08 Nb-95 2.2011E-01 5.630E-09 2.557E-08 1.671E-06 Mo-99 3.135E+00 6.536E-09 2.085E-09 1.940E-06 Tc-99m 2.765E+00 5.258E-10 1.902E-10 1.561E-07 Ru-103 2.656E+00 8.230E-08 3.098E-08 2.443E-05 Ru-105 1.685E+00 2.507E-10 1.488E-10 7.442E-08 Ru-106 1.132E+00 3.385E-07 2.989E-07 1.005E-04 Rh-105 1.777E+00 2.105E-09 1.185E-09 6.248E-07 Sb-127 3.679E+00 1.378E-08 3.744E-09 4.089E-06 Sb-129 9.834E+00 1.749E-09 1.778E-10 5.191E-07 Te- 127 3.674E+00 1.392E-09 3.789E- 10 4.131 E-07 Te-127m 5.006E-01 5.307E-08 1.060E-07 1.575E-05 Te- 129 1.020E+01 4.870E-10 4.775E- 1I 1.446E-07 Te-129m 1.603E+00 5.322E-08 3.319E-08 L.580E-05 I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-OOOO-N-1481 I REVISION NO. 1 l PAGE, NO. 56 of 65 Table 16 (Cont'd)

Relationship, of Aerosol Mass and Activity CR Region i 0.6667 hr Aerosol Isotopic Isotope Activity Mass Mass Per Ci Aerosol (Curie) (kg) (kg/Ci) Fraction Ai B. Ci = Bi /Al Di =B/EB Te-131m 4.802E+00 6.022E-09 1.254E-09 1.787E-06 Te-132 4.719E+01 1.554E-07 3.294E-09 4.614E-05 Cs-134 4.267E+02 3.298E-04 7.729E-07 9.789E-02 Cs-136 1.266E+02 1.727E-06 1.364E-08 5.126E-04 Cs- 137 2.626E+02 3.019E-03 1.150E-05 8.960E-01 Ba-139 1.724E+01 1.054E-09 6.113E-1 1 3.128E-07 Ba-140 2.321E+01 3.171E-07 1.366E-08 9.41 1E-05 La-140 2.948E-01 5.303E-10 1.799E-09 1.574E-07 La- 141 1.950E-01 3.448E-1 1 1.768E- 10 1.023E-08 La-142 1.566E-01 1.094E-1 1 6.986E-1 1 3.248E-09 Ce-141 5.504E-01 1.932E-08 3.510E-08 5.734E-06 Ce-143 4.986E-01 7.508E-10 1.506E-09 2.228E-07 Ce-144 4.539E-01 1.423E-07 3.135E-07 4.224E-05 Pr-143 1.955E-01 2.904E-09 1.485E-08 8.618E-07 Nd-147 8.861 E-02 1.095E-09 1.236E-08 3.251 E-07 Np-239 6.832E+00 2.945E-08 4.31 lE-09 8.741E-06 Pu-238 2.180E-03 1.273E-07 5.841E-05 3.779E-05 Pu-239 1.817E-04 2.924E-06 1.609E-02 8.679E-04 Pu-240 2.467E-04 1.083E-06 4.389E-03 3.214E-04 Pu-241 8.260E-02 8.019E-07 9.708E-06 2.380E-04 Am-241 4.862E-05 1.417E-08 2.914E-04 4.205E-06 Cm-242 1.127E-02 3.400E-09 3.017E-07 1.009E-06 Cm-244 7.994E-04 9.881E-09 1.236E-05 2.933E-06 Total 3.369E-03 I 1.OOOE+00 A; & Bi From RADTRAD Run QDC400CL5 1.oO output file (

0.6667 hr from Reactor ]3uilding Compartment Nuclide Inventory CC-AA-309-1001, Rev 2

l CALCULATION NO. QDC-0000-N-1481 REVISION NO.1 PAGE NO.57 of 65 Table 17 Post-LOCA Total Aerosol Isotopic Activity On CR HEPA Filter @ 720 Hrs Post-LOCA MSIV Leakage Aerosol Fraction Total Aerosol Isotopic ]

Isotope Mass Per Ci of CR Filter Aerosol Mass Aerosol Activity Aerosol Aerosol Mass On CR Filter On CR Filter At 720 Hr At 720 Hr At 720 Hr (kg/Ci) (kg) (kg) (Ci)

Ai B _ C Di =B 1* C El = Di / Ai Co-58 3.145E-08 8.796E-08 7.350E-07 6.465E-14 2.056E-06 Co-60 8.846E-07 2.962E-06 2.177E-12 2.461 E-06 Rb-86 1.229E-08 1.378E-05 1.013E-11 8.239E-04 Sr-89 3.442E-08 1.223E-04 8.988E-1 1 2.61 IE-03 Sr-90 7.33 1E-06 3.786E-03 2.783E-09 3.796E-04 Sr-91 2.759E-10 1.185E-06 8.710E-13 3.158E-03 Sr-92 7.956E-11 3.302E-07 2.427E-13 3.050E-03 Y-90 1.838E-09 1.093E-08 8.031E- 15 4.369E-06 Y-91 4.078E-08 1.887E-06 1.387E-12 3.401E-05 Y-92 1.039E-10 1.479E-08 1.087E-14 1.046E-04 Y-93 2.997E-10 1.652E-08 1.214E-14 4.052E-05 Zr-95 4.655E-08 3.026E-06 2.224E-12 4.779E-05 Zr-97 5.231 E-10 3.35 1E-08 2.463E- 14 4.708E-05 Nb-95 2.557E-08 1.671E-06 1.228E-12 4.803E-05 Mo-99 2.085E-09 1.940E-06 1.426E-12 6.839E-04 Tc-99m 1.902E-10 1.561E-07 . 1.147E-13 6.03 1E-04 Ru-103 3.098E-08 2.443E-05 1.796E- 11 5.795E-04 Ru-105 1.488E-10 7.442E-08 5.470E-14 3.677E-04 Ru-106 2.989E-07 1.005E-04 7.384E-11 2.471E-04 Rh-105 1.185E-09 6.248E-07 4.592E-13 3.876E-04 Sb-127 3.744E-09 4.089E-06 3.005E-12 8.026E-04 Sb-129 1.778E-10 5.191E-07 3.815E-13 2.145E-03 Te-127 3.789E-10 4.13 1E-07 3.037E-13 8.014E-04 Te-127m 1.060E-07 1.575E-05 1.158E-1 1 1.092E-04 Te-129 4.775E- 1I 1.446E-07 1.062E-13 2.225E-03 Te-129m 3.319E-08 1.580E-05 _ 1.161E-11 3.498E-04 l CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 58 of 65 Table 17 Post-LOCA Total Aerosol Isotopic Activity On CR HEPA Filter @ 720 Hrs Post-LOCA MSIV Leakage Aerosol Fraction Total Aerosol Isotopic Isotope Mass Per Ci of CR Filter Aerosol Mass Aerosol Activity Aerosol Aerosol Mass On CR Filter On CR Filter At 720 Hr At 720 Hr At 720 Hr (kg/Ci) (kg) (kg) (Ci)

A, Bi C Di =B;

C E1 = Di / Ai Te-131m 1.254E-09 1.787E-06 7.350E-07 1.314E- 12 1.048E-03 Te-132 3.294E-09 4.614E-05 3.391E-11 1.029E-02 Cs-134 7.729E-07 9.789E-02 7.195E-08 9.309E-02 Cs-136 1.364E-08 5.126E-04 3.767E-10 2.7611E-02 Cs-137 1.150E-05 8.960E-01 6.585E-07 5.728E-02 Ba-139 6.113E-11 3.128E-07 2.299E-13 3.761E-03 Ba-140 1.366E-08 9.41 1E-05 6.917E- 11 5.064E-03 La-140 1.799E-09 1.574E-07 1.157E-13 6.43 1E-05 La-141 1.768E-10 1.023E-08 7.522E-15 4.254E-05 La-142 6.986E-1 1 3.248E-09 2.387E-15 3.417E-05 Ce-141 3.5 1OE-08 5.734E-06 4.215E-12 1.201E-04 Ce- 143 1.506E-09 2.228E-07 1.638E-13 1.088E-04 Ce- 144 3.135E-07 4.224E-05 3.1051E- 11 9.903E-05 Pr-143 1.485E-08 8.618E-07 6.334E-13 4.266E-05 Nd- 147 1.236E-08 3.2511E-07 2.390E-13 1.933E-05 Np-239 4.311 E-09 8.741E-06 6.425E-12 1.491E-03 Pu-238 5.8411E-05 3.779E-05 2.778E-11 4.756E-07 Pu-239 1.609E-02 8.679E-04 6.379E-10 3.965E-08 Pu-240 4.389E-03 3.214E-04 2.362E-10 5.382E-08 Pu-241 9.708E-06 2.380E-04 1.749E-10 1.802E-05 Am-241 2.914E-04 4.205E-06 3.090E-12 1.061E-08 Cm-242 3.017E-07 1.009E-06 7.417E-13 2.458E-06 Cm-244 1.236E-05 2.933E-06 1.314E-12 1.063E-07 Ai & BD From Table 10 C From Section 7.11.2 (Table 13 kilogram inventory)

CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 59 of 65 Table 18 Elemental Iodine Activity @ DF of 200 Iodine Core Elemental Iodine Iodine Isotope Core Thermal Iodine Atoms Per Atoms Inventory Power Activity (Curie)

(Ci/MWt) (MWt) (Ci)

A B C=AxBxO.3x0.0485 D E=CxD 1-131 2.710E+04 3016 1.189E+06 3.708E+16 4.410],+22 1-132 3.914E+04 3016 1.718E+06 4.420E+14 7.592]_+20 1-133 5.501E+04 3016 2.414E+06 3.997E+15 9.649,E+21 1-134 6.035E+04 3016 2.648E+06 1.685E+14 4.462E]+20 1-135 5.157E+04 3016 _ 2.263E+06 1.270E+15 2.875],+21 Total Elemental Iocdine Atoms 5.783E+22 Total Iodine Elemental Atoms i), DF of 200 2.8911,+20 A From Section 5.3.1.3 B From Section 5.3.1.1 C From Reference 9.1, Appendix A, Section 3.3 D From Table 14 I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGI' NO. 60 of 65 11.0 FIGURES Figure 1: Containment & ESF Leakage RADTRAD Nodalization I CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 l PAGE NO. 61 of 65 Figure 2: MSIV Leakage RADTRAD Nodalization CC-AA-309-1001, Rev 2

ICALCULATION NO. QDC-0000-N-1481 IREVISION NO. 1 PAGE' NO. 62 of 65 l Figure 3 -QCNPS Control Room RADTRAD Nodalization l CC-AA-309-1 001, Rev 2

CALCULATION NO. QDC-0000-N-1481 REVISION NO. 1 PAGE NO. 63 of 65 Am 147'-O" *l El I

DP = Dose Point Figure 4: Elevation View of Containment Shine Shielding Geormetry I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 I REVISION NO. 1 PAGE NO. 64 of 65 Figure 5: Plan View of Containment Shine Shielding Geometry I CC-AA-309-1001, Rev 2

CALCULATION NO. QDC-0000-N-1481 IREVISION NO. 1 lPAGE NO. 65 of 65 l 12.0 AFFECTED DOCUMENTS Upon approval of the Alternative Source Term Licensing Change Request (LCR), the following documents will be changed:

Documents To Be Revised:

1. UFSAR Section 15.6.5

2. UFSAR Table 15.6-7

3. UFSAR Table 15.6-8

4. UFSAR Table 15.6-8a Document To Be Superseded:

SWEC Calculation No. QDC-0000-N-l 117, Rev 0, Site Boundary and Control Room D)oses following a Loss Coolant Accident using Alternative Source Terms.

13.0 ATTACHMENTS Diskettes with the various electronic files.

Calculation No: QDC-0000-N-1481, Rev 1 (PDF File)

Comment Resolutions CC-AA-309-1001, Rev 2

Attachment A Page 1 of 58 Attachment A RADTRAD Output - QDC400CL51.psf RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:38:01 File information

1. 1. 1. 1. F############################## I##

Plant file = C: \RADTRAD 3.0'3\Input\Quad\QDC400CL51.psf Inventory file = c: \radtrad 3.03\defaults\qdcdef.txt Release file = c: \radtrad 3.03\defaults\bwrdba.rft Dose Conversion file = c: \radtrad 3.03\defaults\fgrll&12.inp M### ##### # # # ##### # # #####

I

# 4I# # # # #

1. 1. 1. # # # #r #

Radtrad 3.03 4/15/2001 Quad Cities Containment Leakage AST Analysis - Containment Leakage = 3 %/day, SGTS Charcoal Filter @ 50%, CREV Manually Started @ 40 Minutes, CREV Charcoal Filter @ 99%, No Reduction In Containment Leakage After 24 hrs, and CR Unfiltered Inleakage = 60,000 Nuclide Inventory File:

c:\radtrad 3.03\defaults\qdc-def.txt Plant Power Level:

3.0160E+03 Compartments:

5 Compartment 1:

Drywell 3

1.5800E+05 1

0 0

1 0

Compartment 2:

Reactor Building 3

2.3500E+06 0

0 CC-AA-309-1001, Rev 2

Attachment A Page 2 of 58 0

0 0

Compartment 3:

Environment 2

O.OOOOE+00 0

0 0

Compartment 4:

Control Room 1

1.8400E+05 0

0 0

Compartment 5:

Void 3

1.OOOOE+05 0

0 0

Pathways:

6 Pathway 1:

Drywell to Reactor Building 1

2 4

Pathway 2:

Reactor Building to Environment 2

3 2

Pathway 3:

Filtered Intake to Control Room 3

4 2

Pathway 4:

Unfiltered Inleakage to Control Room 3

4 2

Pathway 5:

Control Room Exhaust to Environment 4

CC-AA-309-1001, Rev 2

Attachment A Page 3 of 58 3

2 Pathway 6:

Drywell to Void 1

5 4

End of Plant Model File Scenario Description Name:

Plant Model Filename:

Source Term:

1 1 1.OOOOE+00 c:\radtrad 3.03\defaults\fgrll&12.inp c:\radtrad 3.03\defaults\bwrdba.rft 0.OOOOE+00 I

9.5000E-01 4.8500E-02 1.5000E-0_3 1.OOOOE+00 Overlying Pool:

0 o.OOOOE+00 0

0 0

0 Compartments:

5 Compartment 1:

1 1

1 o.OOOOE+00 0

1 0.OOOOE+00 2

O.OOOOE+O0 3.2800E+00 3.0500E+00 0.000OE+00 1

0.OOOOE+00 0

0 0

3 3

1.OOOOE+01 1

1 o.OOOOE+00 0.OOOOE+00 Compartment 2:

1 1

0 l CC-AA-309-1001, Rev22

Attachment A Page 4 of 58 0

0 0

0 Compartment 3:

0 1

0 0

0 Compartment 4:

0 1

0 0

0 Compartment 5:

0 1

0 0

0 Pathways:

6 Pathway 1:

0 0

1 4

O.OOOOE+00 O.OOOOE+00 3.3300E-02 2. 1870E+00 2.OOOOE+00 2.5220E+00 7.2000E+02 O.OOOOE+00 l CC-AA-309-1001, Rev 2

Attachment A Page 5 of 58 0

Pathway 2:

0 0

0 1

3 O.OOOOE+00 O.OOOOE+00 O. OOOOE+OC, O.OOOOE+00 O.OOOOE+00 3.3300E-02 4.4000E+03 9. 9000E+0O 5. OOOOE+01 5.OOOOE+01 7.2000E+02 O.OOOOE+00 O.OOOOE+OCO O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 3:

0 0

0 1

10 O.OOOOE+OO O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 2.OOOOE+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 4.OOOOE+OO 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+01 8.OOOOE+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+01 1.6000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 2.4000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 4.8000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 4:

0 0

0 1

10 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 6.OOOOE+04 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 4.OOOOE+00 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment A Page 6 of 58 8.0000E+00 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00

1. 6000E+01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.4000E+01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00

4. 8000E+01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 5:

0 0

0 1

10 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 6.2200E+04 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 4.OOOOE+00 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 8.OOOOE+00 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 1.6000E+01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.4000E+01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 4.8000E+01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 6:

0 0

1 4

O.OOOOE+00 O.OOOOE+00 3.3300E-02 8.1300E-01 2.OOOOE+00 4.7800E-01 7.2000E+02 O.OOOOE+00 0

Dose Locations:

3 CC-AA-309-1001, Rev 2

Attachment A Page 7 of 58 Location 1:

Exclusion Area Boundary 3

1 3

O.OOOOE+00 1.5700E-04 5.OOOOE-01 6.38OOE-06 7.2000E+02 O.OOOOE+00 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 0

Location 2:

Low Population Zone 3

1 7

O.OOOOE+00 3.010OE-05

5. 0OOOE-01 2.0500E-05 2.0000E+00 8.7600E-06 8.0000E+00 5.7300E-06 2.4000E+01 2.2800E-06

9. 6000E+01 6.0700E-07 7.2000E+02 O.OOOOE+00 1

4 O.OOOOE+00 3.5000E-04 8.OOOOE+00 1.8000E-04

2. 4000E+01 2.3000E-04 7.2000E+02 O.OOOOE+00 0

Location 3:

Control Room 4

0 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 1

4 O.OOOOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 O.OOOOE+00 Effective Volume Location:

1 6

O.OOOOE+00 5.8400E-06 2.OOOOE+00 2.6800E-06 8.OOOOE+00 1. 8100E-06 2.4000E+01 7.7700E-07

9. 6000E+01 2.3000E-07 7.2000E+02 O.OOOOE+00 I CC-AA-309-1001, Rev22

Attachment A Page 8 of 58 Simulation Parameters:

7 O.OOOOE+00 l.OOOOE-02 2.OOOOE+00 l.OOOOE-01 4.0000E+00 l.OOOOE+00 8.OOOOE+00 2.0000E+00 2.4000E+01 4.OOOOE+00 9.6000E+01 8.0000E+00 7.2000E+02 O.OOOOE+00 Output Filename:

C:\RADTRAD 3.o224 1

1 1

0 0

End of Scenario File RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:38:01 Plant Description Number of Nuclides = 60 Inventory Power = l.OOOOE+00 MWth Plant Power Level = 3.0160E+03 MWth Number of compartments = 5 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Drywell Compartment volume = 1.5800E+05 (Cubic feet)

Compartment type is Normal Removal devices within compartment:

Spray(s)

Deposition Pathways into and out of compartment 1 Exit Pathway Number 1: Drywell to Reactoir Building Exit Pathway Number 6: Drywell to Void Compartment number 2 Name: Reactor Building Compartment volume = 2.3500E+06 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Drywell to Reactor Building Exit Pathway Number 2: Reactor Building to Environment I CC-AVA-309-1001, Rev 2

Attachment A Page 9 of 58 Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 2: Reactor Building to Environment Inlet Pathway Number 5: Control Room Exhaust to Environment Exit Pathway Number 3: Filtered Intake to Control Room Exit Pathway Number 4: Unfiltered Inleakage to Control Room Compartment number 4 Name: Control Room Compartment volume = 1.8400E+05 (Cubic feet)

Compartment type is Control Room Pathways into and out of compartment 4 Inlet Pathway Number 3: Filtered Intake to Control Room Inlet Pathway Number 4: Unfiltered Inleakage to Control Room Exit Pathway Number 5: Control Room Exhaust to Environment Compartment number 5 Name: Void Compartment volume = 1.0000E+05 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 5 Inlet Pathway Number 6: Drywell to Void Total number of pathways = 6 RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:38:01 Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings GAP EARLY IN-VESSEL LATE RELEASE RELEASE MASS 0.500000 hr 1.5000 hrs 0.0000 hrs (gm)

NOBLES 5.OOOOE-02 9.5000E-01 0.OOOOE+00 4.239E-03 IODINE 5.OOOOE-02 2.5000E-01 0.OOOOE+00 2.605E+02 CESIUM 5.OOOOE-02 2.OOOOE-01 0.000E+00 4.741E+04 TELLURIUM 0.OOOOE+00 5.OOOOE-02 0.OOOOE+00 3.503E+01 STRONTIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 1.611E-03 BARIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 3.902EA-01 RUTHENIUM 0.OOOOE+00 2.5000E-03 0.OOOOE+00 5.389EA-01 CERIUM 0.OOOOE+00 5.OOOOE-04 0.OOOOE+00 6.272E+02 LANTHANUM 0.OOOOE+00 2.OOOOE-04 0.OOOOE+00 6.647E+00 Inventory Power = 3016. MWt CC-AA-309-1001, Rev 2

Attachment A Page 10 of 58 Nuclide Group Specific half Whole Body Inhaled IInhaled InhalE!d Name Inventory life DCF Thyroid Effective (Ci/MWt) (s) (Sv-m3/Bq-s) (Sv/Bq) (Sv/Bcq)

Co-58 7 1.529E+02 6.117E+06 4.760E-14 8.720E-10 2.940E-*09 Co-60 7 1.830E+02 1. 663E+08 1.260E-13 1. 620E-08 5.910E- 08 Kr-85 1 4.364E+02 3.383E+08 1.190E-16 0. OOOE+00 0.OOOE+00 Kr-85m 1 6.772E+03 1. 613E+04 7.480E-15 0. OOOE+00 O.OOOE400 Kr-87 1 1.291E+04 4. 578E+03 4.120E-14 0.OOOE+00 O.OOOE-00 Kr-88 1 1.815E+04 1. 022E+04 1.020E-13 O.OOOE+00 0.OOOE+00 Rb-86 3 7.096E+01 1. 612E+06 4.810E-15 1.330E-09 1.790E-*09 Sr-89 5 2.428E+04 4.363E+06 7.730E-17 7. 960E-12 1.120E-08 Sr-90 5 3.528E+03 9. 190E+08 7.530E-18 2. 690E-10 3.510E-*07 Sr-91 5 3.081E+04 3. 420E+04 4.924E-14 9.930E-12 4.547E-10 Sr-92 5 3.362E+04 9.756E+03 6.790E-14 3. 920E-12 2.180E-10 Y-90 9 3.625E+03 2. 304E+05 1.900E-16 5. 170E-13 2.280E-09 Y-91 9 3.155E+04 5.055E+06 2.600E-16 8. 500E-12 1.320E-08 Y-92 9 3.377E+04 1.274E+04 1.300E-14 1. 050E-12 2.110E-10 Y-93 9 3.942E+04 3.636E+04 4.800E-15 9.260E-13 5.820E-10 Zr-95 9 4.443E+04 5.528E+06 3.600E-14 1.440E-09 6.390E-09 Zr-97 9 4.497E+04 6.084E+04 4.432E-14 2.315E-11 1.171E-09 Nb-95 9 4.464E+04 3.037E+06 3.740E-14 3. 580E-10 1.570E-09 Mo-99 7 5.121E+04 2. 376E+05 7.280E-15 1. 520E-11 1.070E-09 Tc-99m 7 4.484E+04 2. 167E+04 5.890E-15 5. OlOE-11 8.800E-12 Ru-103 7 4.311E+04 3.394E+06 2.251E-14 2. 570E-10 2.421E-09 Ru-105 7 3.034E+04 1.598E+04 3.810E-14 4. 150E-12 1.230E-10 Ru-106 7 1.837E+04 3.181E+07 1.040E-14 1. 720E-09 1.290E-07 Rh-105 7 2.882E+04 1.273E+05 3.720E-15 2. 880E-12 2.580E-10 Sb-127 4 2.999E+03 3. 326E+05 3.330E-14 6. 150E-11 1.630E-09 Sb-129 4 8.877E+03 1.555E+04 7.140E-14 9. 720E-12 1.740E-10 Te-127 4 2.986E+03 3.366E+04 2.420E-16 1. 840E-12 8.600E-11 Te-127m 4 4.060E+02 9.418E+06 1.470E-16 9.660E-11 5.810E-09 Te-129 4 8.735E+03 4. 176E+03 2.750E-15 5.090E-13 2.090E-11 Te-129m 4 1.300E+03 2. 903E+06 3.337E-15 1.563E-10 6.484E-09 Te-131m 4 3.955E+03 1. 080E+05 7.463E-14 3. 669E-08 1. 758E-09 Te-132 4 3.850E+04 2. 815E+05 1.030E-14 6.280E-08 2.550E-09 I-131 2 2.710E+04 6. 947E+05 1.820E-14 2. 920E-07 8.890E-09 I-132 2 3.914E+04 8.280E+03 1.120E-13 1.740E-09 1.030E-10 I-133 2 5.501E+04 7. 488E+04 2.940E-14 4. 860E-08 1.580E-09 I-134 2 6.035E+04 3. 156E+03 1.300E-13 2.880E-10 3.550E-11 I-135 2 5.157E+04 2.380E+04 8.294E-14 8. 460E-09 3.320E-10 Xe-133 1 5.282E+04 4. 532E+05 1.560E-15 0. OOOE+00 O.OOOE+00 Xe-135 1 2.144E+04 3. 272E+04 1.190E-14 0.OOOE+00 O.OOOE+00 Cs-134 3 8.009E+03 6. 507E+07 7.570E-14 1.11OE-08 1.250E-08 Cs-136 3 2.379E+03 1. 132E+06 1.060E-13 1.730E-09 1.980E-09 Cs-137 3 4.928E+03 9. 467E+08 2.725E-14 7. 930E-09 8.630E-09 Ba-139 6 4.888E+04 4.962E+03 2.170E-15 2.400E-12 4.640E-11 Ba-140 6 4.714E+04 1. 101E+06 B.580E-15 2.560E-10 1.OlOE-09 La-140 9 5.055E+04 1. 450E+05 1.170E-13 6.870E-11 1.310E-09 La-141 9 4.447E+04 1.415E+04 :2.390E-15 9.400E-12 1.570E-10 La-142 9 4.286E+04 5. 550E+03 1.440E-13 8. 740E-12 6.840E-11 Ce-141 8 4.465E+04 2. 808E+06 3.430E-15 2.550E-11 2.420E-09 Ce-143 8 4.101E+04 1. 188E+05 1.290E-14 6.230E-12 9.160E-10 Ce-144 8 3.682E+04 2.456E+07 :2.773E-15 2. 920E-10 1.OlOE-07 Pr-143 9 3.963E+04 1. 172E+06 :2.100E-17 1.680E-18 2.190E-09 Nd-147 9 1.800E+04 9.487E+05 'D.190E-15 1.820E-11 1.850E-09 CC-AA-309-1001, Rev 2

Attachment A Page 11 of58 Np-239 8 5. 587E+05 2.035E+05 7. 690E-15 7. 620E-12 6.780E--10 Pu-238 8 1.768E+02 2. 769E+09 4.880E-18 3. 860E-10 7. 790E--05 Pu-239 8 1. 474E+01 7.594E+11 4.240E-18 3. 750E-10 8.330E--05 Pu-240 8 2.001E+01 2.063E+11 4.750E-18 3. 760E-10 8. 330E--05 Pu-241 8 6. 700E+03 4. 544E+08 7.250E-20 9. 150E-12 1. 340E--06 Am-241 9 9. 857E+00 1.364E+10 8. 180E-16 1. 600E-09 1. 20OE--04 Cm-242 9 2.285E+03 1.407E+07 5. 690E-18 9.410E-10 4. 670E--06 Cm-244 9 1. 621E+02 5. 715E+08 4. 910E-18 1.OlOE-09 6.700E--05 Nuclide Daughter Fraction Daughter Fraction Daughter Fraction Kr-85m Kr-85 0.21 none 0.00 none 0.(00 Kr-87 Rb-87 1.00 none 0.00 none 0.(00 Kr-88 Rb-88 1.00 none 0.00 none 0.(00 Sr-90 Y-90 1.00 none 0.00 none 0.(00 Sr-91 Y-91m 0.58 Y-91 0.42 none 0.(00 Sr-92 Y-92 1.00 none 0.00 none 0.(00 Y-93 Zr-93 1.00 none 0.00 none 0. ()0 Zr-95 Nb-95m 0.01 Nb-95 0.99 none 0.(00 Zr-97 Nb-97m 0.95 Nb-97 0.05 none 0.(00 Mo-99 Tc-99m 0.88 Tc-99 0.12 none 0. ()0 Tc-99m Tc-99 1.00 none 0.00 none 0. )0 Ru-103 Rh-103m 1.00 none 0.00 none 0.(00 Ru-105 Rh-105 1.00 none 0.00 none 0. ()0 Ru-106 Rh-106 1.00 none 0.00 none 0.(00 Sb-127 Te-127m 0.18 Te-127 0.82 none 0.(00 Sb-129 Te-129m 0.22 Te-129 0.77 none 0.(00 Te-127m Te-127 0. 98 none 0.00 none 0.(00 Te-129 I-129 1.00 none 0.00 none 0.(0 Te-129m Te-129 0.65 I-129 0.35 none 0. ()0 Te-131m Te-131 0.22 I-131 0.78 none 0.(0 Te-132 I-132 1.00 none 0.00 none 0.(00 I-131 Xe-131m 0.01 none 0.00 none 0. ()0 I-133 Xe-133m 0.03 Xe-133 0. 97 none 0. 00 I-135 Xe-135m 0.15 Xe-135 0.85 none 0.(00 Xe-135 Cs-135 1.00 none 0.00 none 0.(00 Cs-137 Ba-137m 0.95 none 0.00 none 0.(00 Ba-140 La-140 1.00 none 0.00 none 0.(00 La-141 Ce-141 1.00 none 0.00 none 0.(00 Ce-143 Pr-143 1.00 none 0 .00 none 0 . 00 Ce-144 Pr-144m 0.02 Pr-144 0. 98 none 0.(00 Nd-147 Pm-147 1.00 none 0.00 none 0.(00 Np-239 Pu-239 1.00 none 0.00 none 0. ()0 Pu-238 U-234 1.00 none 0.00 none 0.(00 Pu-239 U-235 1.00 none 0.00 none 0.(00 Pu-240 U-236 1.00 none 0.00 none 0.(00 Pu-241 U-237 0.00 Am-241 1.00 none 0. ()0 Am-241 Np-237 1.00 none 0.00 none 0.(00 Cm-242 Pu-238 1.00 none 0.00 none 0.(00 Cm-244 Pu-240 1.00 none 0.00 none 0.(00 Iodine fractions Aerosol 9.50OOE-01 Elemental 4.8500E-02 Organic 1.5000E-03

- CC-AA-309-1001, Rev 2

Attachment A Page 12 of 58 COMPARTMENT DATA Compartment number 1: Drywell Sprays: Elemental Removal Data Time (hr) Removal Coef. (hr^-l) 0.0000E+00 3.2800E+00 3.0500E+00 0.0000E+00 Natural Deposition (Powers' model): Aerosol data Reactor type: 3 Percentile = 10 (%)

Natural Deposition: Elemental Removal Data Time (hr) Removal Coef. (hr^-l) 0.0000E+00 0.OOOOE+00 Compartment number 2: Reactor Building Compartment number 3: Environment Compartment number 4: Control Room Compartment number 5: Void PATHWAY DATA Pathway number 1: Drywell to Reactor Building Convection Data Time (hr) Flow Rate (% / day) 0.0000E+00 0.OOOOE+00 3.3300E-02 2.1870E+00 2.0000E+00 2.5220E+00 7.2000E+02 0.0000E+00 Pathway number 2: Reactor Building to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 3.3300E-02 4.4000E+03 9.9000E+01 5.OOOOE+01 5.0000E+C'1 7.2000E+02 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+CO Pathway number 3: Filtered Intake to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+CO 3.3300E-02 2.2000E+03 0.OOOOE+00 0.OOOOE+00 0.OOOOE+CO 6.6670E-01 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+C1 2.OOOOE+00 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+C1 l CC-AA-309-1001, Rev 2

Attachment A Page 13 of 58 4.OOOOE+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+O1 8.0000E+00 1.8000E+03 9.99000E+01 9. 9000E+01 9.9000E+01

1. 6000E+01 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01

2. 4000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+01 4.8000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+01 7.2000E+02 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Pathway number 4: Unfiltered Inleakage to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 o.0000E+00 o.OOOOE+00 3.3300E-02 6.0000E+04 o.OOOOE+00 0.OOOOE+00 o.OOOOE+00

6. 6670E-01 4.OOOOE+02 0.0000E+00 0.0000E+00 o.OOOOE+00 2.0000E+00 4.OOOOE+02 O . 0000E+00 o.0000E+00 o.OOOOE+00 4.OOOOE+00 4.OOOOE+02 O.OOOOE+00 o.OOOOE+00 o.OOOOE+00 8.0000E+00 4.OOOOE+02 O.OOOOE+OO o.OOOOE+00 o.OOOOE+00

1. 6000E+01 4.0000E+02 0.0OOOE+00 O.OOOOE+00 O.0000E+(0

2. 4000E+01 4.0000E+02 O.000E+00 0.OOOOE+00 0.OOOOE+00

4. 8000E+01 4.OOOOE+02 O.OO00E+0O o.OOOOE+00 o.OOOOE+00 7.2000E+02 0.0000E+00 O.OOOOE+OO 0.000OE+00 0.OOOOE+O0 Pathway number 5: Control Room Exhaust to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+C10 3.3300E-02 6.2200E+04 o.OOOOE+00 o.OOOOE+00 0.0000E+Cl0

6. 6670E-01 2.2000E+03 o.OOOOE+00 o.OOOOE+00 O.OOOOE+O0 2.OOOOE+00 2.2000E+03 o.OOOOE+00 0.OOOOE+00 O.OOOOE+OO 4.OOOOE+00 2.2000E+03 o.OOOOE+00 o.OOOOE+00 O . OOOOE+OO 8.0000E+00 2.2000E+03 0.OOOOE+00 O.OOOOE+00 0.OOOOE+O0

1. 6000E+01 2.2000E+03 0.0000E+00 o.OOOOE+00 0.OOOOE+O0 2.4000E+01 2.2000E+03 0.000OE+00 O.OOOOE+00 O.OOOOE+O0

4. 8000E+01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+C0 7.2000E+02 0.0000E+00 o.OOOOE+00 o.OOOOE+00 0.0000E+00 Pathway number 6: Drywell to Void Convection Data Time (hr) Flow Rate (% / day) 0.OOOOE+00 0.OOOOE+00 3.330OE-02 8.1300E-01 2.OOOOE+00 4.7800E-01 7.2000E+02 o.OOOOE+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr) X/Q (s

mA-3)

CC-AA-309-1001, Rev 2

Attachment A Page 14 of 58 o.OOOOE+00 1.5700E-04 5.OOOOE-01 6.3800E-06 7.2000E+02 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1) 0.

OOOOE+00 3.5COOE-04 7.2000E+02 0.00OOE+00 Location Low Population Zone is in compartment 3 Location X/Q Data Time (hr) X/Q (s

m^-3) 0.0000E+00 3.0100E-05 5.0000E-01 2.05OOE-05 2.0000E+00 8.7600E-06 8.0000E+00 5.7300E-06 2.4000E+01 2.2800E-06 9.6000E+01 6.0700E-07 7.2000E+02 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1) 0.0000E+00 3.5000E-04 8.0000E+00 1.8000E-04 2.4000E+01 2.3000E-04 7.2000E+02 0.0000E+00 Location Control Room is in compartment 4 Location X/Q Data Time (hr) X/Q (s

m^-3) o.0000E+00 5.8400E-06 2.0000E+00 2.6800E-06 8.0000E+00 1. 8100E-06 2.4000E+01 7.7700E-07 9.6000E+01 2.3000E-07 7.2000E+02 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec'-1) 0.0000E+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Occupancy Factor Data Time (hr) Occupancy Factor 0.0000E+00 1.0000E+00 2.4000E+01 6.0000E-01 9.6000E+01 4.0000E-01 7.2000E+02 0.0000E+00 USER SPECIFIED TIME STEP DATA - SUPPLEMENTAL TIME STEPS Time Time step 0.0000E+00 1.OOOOE-02 2.0000E+00 1.0000E-01 4.OOOOE+00 1.0000E+00 8.0000E+00 2.OOOOE+00 l CC-AA-309-1001, Rev 2

Attachment A Page 15 of 58 2.4000E+01 4.OOOOE+00

9. 6000E+01 8.OOOOE+00 7.2000E+02 O. OOOOE+00 CC-AA-309-1001, Rev 2

Attachment A Page 16 of 58 RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:38:01

# I # # # #

# It # # # #

# II # ##### # #

It # # # #

Dose, Detailed model and Detailed Inventory Output Exclusion Area Boundary Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Low Population Zone Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Control Room Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) O.OOOOE+00 O.OOOOE+00 O.OOOOE+O0 Drywell Compartment Nuclide Inventory:

Time (h) = 0.0333 Ci kg Atoms Decay Drywell Transport Group Inventory:

Time (h) = 0.0333 Atmosphere Sump Noble gases (atoms) 9.2545E+22 0.OOOOE+00 Elemental I (atoms) 6.0761E+20 3.3799E+19 Organic I (atoms) 1.9837E+19 0.OOOOE+00 Aerosols (kg) 6.2758E-01 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 8.4278E-05 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1.0743E-04 Total I (Ci) 2.2920E+06 Deposition Recirculating CC-AA-309-1001, Rev 2

Attachment A Page 17 of 58 Time (h) = 0.0333 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0. OOOE+00 Elemental I (atoms) 0.OOOOE+00 0.C000E+00 Organic I (atoms) 0.OOOOE+00 0.COOOE+00 Aerosols (kg) 6.6741E-03 0.COOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.0333 Leakage Transport.

Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.0000E+00 Organic I (atoms) 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 Drywell to Void Transport Group Inventory:

Time (h) = 0.0333 Leakage Transport.

Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 Reactor Building Compartment Nuclide Inventory:

Time (h) = 0.0333 Ci kg Atoms Decay Reactor Building Transport Group Inventory:

Time (h) = 0.0333 Atmosphere Sump Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 0.OOOOE+00 Total I (Ci) 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.0333 Leakage Transport Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.0000E+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

I CC-AA-309-1001, Rev 2

Attachment A Page 18 of 58 Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 1.0742E-03 3.7099E-02 2.4132E-03 Accumulated dose (rem) 1.0742E-03 3.7099E-02 2.4132E-03 Low Population Zone Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 2.0594E-04 7. 1127E-03 4.6266E-04 Accumulated dose (rem) 2.0594E-04 7. 1127E-03 4.6266E-04 Control Room Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 1.5487E-06 1.0609E-03 3.9784E-05 Accumulated dose (rem) 1.5487E-06 1.0609E-03 3.9784E-05 Drywell Compartment Nuclide Inventory:

Time (h) 0.5000 Ci kg Atoms Decay Kr-85 6.5789E+04 1. 6769E-01 1. 1880E+24 2.2343E+1E Kr-85m 9.4490E+05 1. 1482E-04 8. 1347E+20 3.2942E+19S Kr-87 1. 4819E+06 5. 2318E-05 3. 6215E+20 5.5280E+19' Kr-88 2.4218E+06 1. 9314E-04 1. 3217E+21 8.5732E+19' Rb-86 9. 1554E+03 1. 1252E-04 7.8792E+20 3.2714E+17 I-131 3.4220E+06 2.7602E-02 1.2689E+23 1.2298E+2C I-132 4. 6041E+06 4.4604E-04 2. 0349E+21 1.6950E+2C I-133 6.8430E+06 6.0407E-03 2.7352E+22 2.4720E+2C I-134 5. 1408E+06 1. 9271E-04 8.6605E+20 2. 1271E+2C I-135 6. 1897E+06 1.7625E-03 7.8623E+21 2.2640E+20 Xe-133 7. 9616E+06 4.2534E-02 1.9259E+23 2.7040E+20 Xe-135 3.3383E+06 1.3072E-03 5. 8314E+21 1.1221E+2C Cs-134 1.0341E+06 7. 9927E-01 3.5920E+24 3. 694lE+19 Cs-136 3.0684E+05 4. 1866E-03 1.8539E+22 1. 0965E+19 Cs-137 6. 3631E+05 7. 3155E+00 3.2157E+25 2.2730E+19 Drywell Transport Group Inventory:

Time (h) = 0.5000 Atmosphere Sump Noble gases (atoms) 1.3890E+24 O.OOOOE+00 Elemental I (atoms) 4.6891E+21 4.8698E+21 Organic I (atoms) 2.9497E+20 O.OOOOE+00 Aerosols (kg) 8.1540E+00 O.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyr oid) 1.0668E-03 Dose Effective (Ci/cc) I-131 (ICRP 2 Thyroid) 1.3455E-03 Total I (Ci) 2.6200E+07 Deposition Recirculating Time (h) = 0.5000 Surfaces Filter Noble gases (atoms) O.OOOOE+00 O.OOOOE+00 Elemental I (atoms) O.OOOOE+00 O.OOOOE+00 Organic I (atoms) O.OOOOE+00 0.OOOOE+00 Aerosols (kg) 1.3663E+00 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.5000 Leakage Transport CC-AA-309-1001, Rev 2

Attachment A Page 19 of 58 Noble gases (atoms) 3.1507E+20 Elemental I (atoms) 1.3435E+18 Organic I (atoms) 6.7133E+16 Aerosols (kg) 1.9466E-03 Drywell to Void Transport Group Inventory:

Time (h) = 0.5000 Leakage Transport.

Noble gases (atoms) 1. 1712E+20 Elemental I (atoms) 4. 9945E+17 Organic I (atoms) 2.4956E+16 Aerosols (kg) 7.2364E-04 Reactor Building Compartment Nuclide Inventory:

Time (h) = 0.5000 Ci kg Atoms Decay Kr-85 1.4649E+01 3.7339E-05 2.6454E+20 3.3384E+14 Kr-85m 2. 1040E+02 2.5567E-08 1. 8114E+17 4.8892E+15 Kr-87 3.2999E+02 1.1650E-08 8.0640E+16 8.0624E+15 Kr-88 5.3927E+02 4.3007E-08 2. 9431E+17 1.2674E+16 Rb-86 2.1446E+00 2.6357E-08 1.8457E+17 5.0102E+13 1-131 8.0590E+02 6.5005E-06 2. 9883E+19 1.8887E+16 I-132 1.0549E+03 1.0220E-07 4.6626E+17 2.5354E+16 I-133 1. 6116E+03 1.4227E-06 6.4418E+18 3.7915E+16 I-134 1.2107E+03 4.5385E-08 2. 0397E+17 3.1461E+16 I-135 1.4578E+03 4. 1510E-07 1.8517E+18 3.4610E+16; Xe-133 1.7728E+03 9. 4711E-06 4.2884E+19 4.0402E+16 Xe-135 7.4329E+02 2. 9106E-07 1.2984E+18 1.6809E+16 Cs-134 2.4224E+02 1.8723E-04 8.4141E+20 5.6580E+15 Cs-136 7. 1877E+01 9.8070E-07 4.3426E+18 1.6793E+15 Cs-137 1.4905E+02 1. 7136E-03 7.5326E+21 3.4815E+15 Reactor Building Transport Group Inventory:

Time (h) = 0.5000 Atmosphere Sump Noble gases (atoms) 3.0928E+20 0.OOOOE+ -00 Elemental I (atoms) 1.3107E+18 0.0000E+I00 Organic I (atoms) 6.5661E+16 0.0000E+(00 Aerosols (kg) 1.9100E-03 0.OOOOE+0 0 Dose Effective (Ci/cc) I-131 (Thyroid) 1.6889E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2. 1289E-08 Total I (Ci) 6. 1409E+03 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.5000 Leakage Transport Noble gases (atoms) 3. 1507E+20 Elemental I (atoms) 1.3435E+18 Organic I (atoms) 6. 7133E+16 Aerosols (kg) 1.9466E-03 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.7700E+18 CC-AA-309-1001, Rev 2

Attachment A Page 20 of 58 Elemental I (atoms) 1.3718E+16 1.R718E+16 Organic I (atoms) 6.1407E+14 6.l407E+14 Aerosols (kg) 3. 6183E-05 3.6549E-07 Exclusion Area Boundary Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 6.2810E-05 1.8589E-03 1.3127E-04 Accumulated dose (rem) 1.1370E-03 3.8958E-02 2.5445E-03 Low Population Zone Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 2.0182E-04 5.9728E-03 4.2180E-04 Accumulated dose (rem) 4.0776E-04 1.3085E-02 8.8447E-04 Control Room Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 2.3817E-06 1.4588E-03 5.5788E-05 Accumulated dose (rem) 3.9304E-06 2. 5197E-03 9.5572E-05 Drywell Compartment Nuclide Inventory:

Time (h) 0.6667 Ci kg Atoms Decay Co-58 1.2344E+02 3.8820E-06 4. 0307E+19 1.4672E+15 Co-60 .1.4778E+02 1.3073E-04 1. 3122E+21 1.7564E+15 Kr-85 2.0472E+05 5.2180E-01 3.6969E+24 5.3289E+1E:

Kr-85m 2.8654E+06 3. 4819E-04 2.4669E+21 7.6726E+1'J Kr-87 4 .2109E+06 1.4866E-04 1.0290E+21 1.2141E+2C0 Kr-88 7.2357E+06 5.7705E-04 3. 9489E+21 1.9699E+2C Rb-86 1.3047E+04 1.6035E-04 1. 1229E+21 5.7635E+17 Sr-89 1.5680E+05 5. 3971E-03 3. 6519E+22 1.8637E+1E Sr-90 2.2792E+04 1.6709E-01 1. 1180E+24 2. 7089E+17 Sr-91 1.8959E+05 5.2302E-05 3. 4612E+20 2.2629E+lE Sr-92 1. 8315E+05 1.4571E-05 9.5377E+19 2.2092E+1E Y-90 2.5544E+02 4. 6951E-07 3.1416E+18 2. 9327E+1E Y-91 2. 0412E+03 8.3235E-05 5.5083E+20 2. 4245E+1E Y-92 5.2685E+03 5.4753E-07 3.5840E+18 4. 7790E+1E Y-93 2.4328E+03 7.2918E-07 4.7217E+18 2.9029E+1E Zr-95 2.8695E+03 1.3357E-04 8. 4671E+20 3. 4106E+1E Zr-97 2.8268E+03 1.4787E-06 9. 1805E+18 3. 3678E+16 Nb-95 2.8839E+03 7.3750E-05 4. 6751E+20 3.4276E+16 Mo-99 4. 1066E+04 8.5622E-05 5.2084E+20 4. 8838E+17 Tc-99m 3. 6216E+04 6.8874E-06 4.1896E+19 4.3020E+17 Ru-103 3.4796E+04 1.0781E-03 6. 3036E+21 4. 1358E+17 Ru-105 2.2079E+04 3.2846E-06 1. 8838E+19 2.6479E+17 Ru-106 1.4834E+04 4.4338E-03 2.5190E+22 1.7631E+17 Rh-105 2.3273E+04 2.7573E-05 1.5814E+20 2.7660E+17 Sb-127 4. 8195E+04 1.8D47E-04 8.5576E+20 5.7306E+17 Sb-129 1.2883E+05 2.2909E-05 1.0695E+20 1.5454E+18 Te-127 4.8122E+04 1.8.234E-05 8. 6464E+19 5.7186E+17 Te-127m 6.5576E+03 6. 9521E-04 3.2966E+21 7.7939E+16 Te-129 1.3360E+05 6.3795E-06 2. 9781E+19 1. 5922E+18 Te-129m 2. 1001E+04 6. 9713E-04 3.2544E+21 2. 4960E+17 CC-AA-309-1001, Rev 2 l

Attachment A Page 21 of 58 Te-131m 6.2900E+04 7.8881E-05 3.6262E+20 7.4859E+ 1 1 Te-132 6. 1814E+05 2.0C361E-03 9.2891E+21 7.3506E+18 I-131 5.2933E+06 4.2697E-02 1.9628E+23 2.2112E+20 I-132 7.0659E+06 6.6454E-04 3.1230E+21 3. 0122E+20 I-133 1.0532E+07 9.2974E-03 4.2098E+22 4.4293E+2()

I-134 6.9739E+06 2.6142E-04 1.1749E+21 3.5025E+20 I-135 9.4137E+06 2.6806E-03 1.1958E+22 4.0233E+20 Xe-133 2.4769E+07 1.^3233E-01 5.9917E+23 6.4486E+20 Xe-135 1.0449E+07 4.0C916E-03 1.8252E+22 2.6986E+2()

Cs-134 1.4741E+06 1.1393E+00 5.1203E+24 6. 5094E+19 Cs-136 4.3724E+05 5.9658E-03 2. 6417E+22 1.9317E+19 Cs-137 9.0705E+05 1.C428E+01 4.5839E+25 4.0053E+19 Ba-139 2.2583E+05 1.3806E-05 5. 9815E+19 2.7635E+18 Ba-140 3.0408E+05 4.1536E-03 1.7867E+22 3.6146E+18 La-140 3.7147E+03 6.E.832E-06 2.8748E+19 4.1963E+16 La-141 2.5542E+03 4.'164E-07 1.9290E+18 3.0669E+16 La-142 2. 0518E+03 1.4333E-07 6.0785E+17 2.5030E+16; Ce-141 7.2108E+03 2.'307E-04 1.0809E+21 8.5705E+16 Ce-143 6. 5314E+03 9.8352E-06 4.1419E+19 7.7722E+16 Ce-144 5.9463E+03 1.8644E-03 7.7968E+21 7.0675E+16 Pr-143 2. 5611E+03 3.8033E-05 1.6017E+20 3.0435E+16 Nd-147 1. 1608E+03 1.4349E-05 5. 8784E+19 1.3799E+16 Np-239 8.9500E+04 3.8579E-04 9.7208E+20 1.0645E+18 Pu-238 2.8555E+01 1.E680E-03 4.2204E+21 3.3939E+14 Pu-239 2.3808E+00 3.8304E-02 9.6515E+22 2.8297E+13 Pu-240 3.2318E+00 1.4183E-02 3.5588E+22 3.8411E+13 Pu-241 1.0821E+03 1.0505E-02 2.6249E+22 1.2861E+16; Am-241 6. 3686E-01 1.8556E-04 4.6367E+20 7.5692E+12 Cm-242 1.4760E+02 4.4535E-05 1.1082E+20 1.7543E+15 Cm-244 1.0472E+01 1.2944E-04 3.1947E+20 1.2447E+14:

Drywell Transport Group Inventory:

Time (h) = 0.6667 Atmosphere Sump Noble gases (atoms) 4.3218E+24 0.OOOOE+00 Elemental I (atoms) 6. 7790E+21 8.0582E+21 Organic I (atoms) 4.5750E+20 0.0000E+00 Aerosols (kg) 1. 1882E+01 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.6468E-03 Dose Effective (Ci/cc) 1-131 (ICRP2 Thyroid) 2.0709E-03 Total I (Ci) 3.9279E+07 Deposition Recirculating Time (h) = 0.6667 Surfaces Filter Noble gases (atoms) 0.0000E+00 0.0000E+00 Elemental I (atoms) 0.0000E+00 0.0000E+00 Organic I (atoms) 0.0000E+00 0.OOOOE+00 Aerosols (kg) 2.1379E+00 0.0000E+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.6667 Leakage Transport Noble gases (atoms) 7.4883E+20 Elemental I (atoms) 2.2293E+18 Organic I (atoms) 1.2430E+17 Aerosols (kg) 3.4695E-03 r CC-AA-309-1001, Rev 2

Attachment A Page 22 of 58 Drywell to Void Transport Group Inventory:

Time (h) = 0.6667 Leakage Transport.

Noble gases (atoms) 2.7837E+20 Elemental I (atoms) 8.2874E+17 Organic I (atoms) 4. 6209E+16 Aerosols (kg) 1.2898E-03 Reactor Building Compartment Nuclide Inventory:

Time (h) 0. 6667 Ci kg Atoms Decay Co-58 9.4229E-03 2.9 634E-10 3. 0769E+15 7. 6504E+1(

Co-60 1. 1281E-02 9.9l797E-09 1.0017E+17 9.1587E+10 Kr-85 3.4765E+01 8.2 612E-05 6.2780E+20 8.5737E+14 Kr-85m 4. 8661E+02 5.S 129E-08 4. 1892E+17 1.2298E+16 Kr-87 7.1509E+02 2.5245E-08 1.7475E+17 1.9261E+16 Kr-88 1.2288E+03 9.7993E-08 6.7060E+17 3.1504E+16 Rb-86 3.7767E+00 4.E.415E-08 3.2502E+17 1.1588E+14 Sr-89 1. 1969E+01 4. 1199E-07 2 . 7877E+18 9.7179E+13 Sr-90 1.7399E+00 1.2755E-05 8.5347E+19 1.4126E+13 Sr-91 1. 4473E+01 3. 9925E-09 2. 6421E+16 1.1787E+14 Sr-92 1.3981E+01 1.1123E-09 7.2807E+15 1.1477E+14 Y-90 2.0028E-02 3.6812E-11 2.4632E+14 1.5727E+1]

Y-91 1.5591E-01 6.3573E-09 4.2071E+16 1.2649E+12 Y-92 4.7950E-01 4. 9832E-11 3.2619E+14 3.1303E+12 Y-93 1.8571E-01 5.5663E-11 3. 6044E+14 1.5122E+12 Zr-95 2. 1904E-01 1.0196E-08 6.4635E+16 1.7784E+12 Zr-97 2. 1579E-01 1. 1288E-10 7. 0081E+14 1.7551E+12 Nb-95 2.2014E-01 5.6298E-09 3. 5688E+16 1.7873E+12 Mo-99 3. 1348E+00 6.5361E-09 3. 9759E+16 2.5462E+13 Tc-99m 2.7646E+00 5.2576E-10 3. 1982E+15 2.2433E+13 Ru-103 2.6562E+00 8.2302E-08 4. 8120E+17 2.1566E+13 Ru-105 1.6854E+00 2.5073E-10 1. 4380E+15 1.3777E+13 Ru-106 1. 1324E+00 3.3846E-07 1.9229E+18 9.1934E+12 Rh-105 1.7766E+00 2. 1048E-09 1.2072E+16 1.4423E+13 Sb-127 3.6790E+00 1.3776E-08 6. 5325E+16 2.9879E+13 Sb-129 9.8341E+00 1.7488E-09 8. 1639E+15 8.0399E+13 Te-127 3.6735E+00 1.3919E-09 6. 6003E+15 2.9818E+13 Te-127m 5.0058E-01 5.3070E-08 2.5165E+17 4.0641E+12 Te-129 1. 0199E+01 4. 8699E-10 2.2734E+15 8.2923E+13 Te-129m 1.6032E+00 5.3216E-08 2. 4843E+17 1.3015E+13 Te-131m 4. 8016E+00 6.0215E-09 2. 7681E+16 3.9022E+13 Te-132 4.7187E+01 1.5543E-07 7.0910E+17 3.8325E+14 I-131 1.4476E+03 1.1676E-05 5.3676E+19 4.3825E+16 I-132 1.8464E+03 1.7888E-07 8. 1609E+17 5.7538E+16 I-133 2.8804E+03 2. 5427E-06 1. 1513E+19 8.7650E+16 I-134 1.9073E+03 7.1495E-08 3.2131E+17 6.6352E+16 I-135 2.5745E+03 7.3310E-07 3.2702E+18 7.9304E+1li Xe-133 4.2064E+03 2.2472E-05 1. 0175E+20 1.0375E+1' Xe-135 1.7748E+03 6.9498E-07 3. 1002E+18 4.3466E+16 Cs-134 4.2669E+02 3.2979E-04 1.4821E+21 1.3089E+16 Cs-136 1.2656E+02 1.7268E-06 7. 6465E+18 3.8837E+15 Cs-137 2.6255E+02 3.0185E-03 1.3268E+22 8.0537E+15 Ba-139 1.7239E+01 1.0539E-09 4.5661E+15 1.4306E+1L CCkAA-309-1001, Rev 2

Attachment A Page 23 of 58 Ba-140 2.3212E+01 3. 1707E-07 1.3639E+18 1. 8847E+14 La-140 2. 9477E-01 5. 3032E-10 2.2812E+15 2.2803E+12' La-141 1.9498E-01 3. 4477E-11 1.4725E+14 1.5952E+12:

La-142 1.5662E-01 1.0941E-11 4. 6401E+13 1.2967E+12 Ce-141 5.5044E-01 1. 9318E-08 8.2508E+16 4.4690E+12 Ce-143 4. 9858E-01 7.5078E-10 3. 1617E+15 4.0515E+12 Ce-144 4.5392E-01 1.4232E-07 5. 9518E+17 3.6853E+12 Pr-143 1. 9552E-01 2.9035E-09 1.2228E+16 1. 5872E+12 Nd-147 8.8613E-02 1.0954E-09 4.4874E+15 7.1951E+11 Np-239 6.8321E+00 2.9450E-08 7.4205E+16 5.5498E+1R Pu-238 2. 1798E-03 1.2733E-07 3.2217E+17 1. 7697E+10 Pu-239 1.8174E-04 2.9240E-06 7.3676E+18 1. 4755E+09 Pu-240 2.4670E-04 1.0827E-06 2.7166E+18 2.0029E+0'J Pu-241 8.2604E-02 8.0188E-07 2.0037E+18 6.7064E+11 Am-241 4.8616E-05 1. 4165E-08 3.5395E+16 3.9470E+OE0 Cm-242 1.1267E-02 3.3996E-09 8. 4599E+15 9.1478E+10 Cm-244 7.9941E-04 9. 8811E-09 2. 4387E+16 6.4902E+09 Reactor Building Transport Group Inventory:

Time (h) = 0.6667 Atmosphere Sump Noble gases (atoms) 7.3392E+20 0.OOOOE+00 Elemental I (atoms) 2.1585E+18 0.OOOOE+00 Organic I (atoms) 1.2080E+17 0.OOOOE+00 Aerosols (kg) 3.3841E-03 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.0272E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3. 8031E-08 Total I (Ci) 1.0656E+04 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.6667 Leakage Transport Noble gases (atoms) 7.4883E+20 Elemental I (atoms) 2.2293E+18 Organic I (atoms) 1.2430E+17 Aerosols (kg) 3.4695E-03 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.4855E+19 Elemental I (atoms) 2.9729E+16 2.9729E+16 Organic I (atoms) 1.4688E+15 1.4688E+15 Aerosols (kg) 8.4428E-05 8.5280E-07 Exclusion Area Boundary Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 5.8042E-03 7.5037E-02 9.0629E-03 Accumulated dose (rem) 6.9412E-03 1. 1400E-01 1. 1607E-02 Low Population Zone Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.8650E-02 2.4111E-01 2. 9121E-02 I CC-AA-309-1001, Rev 2

Attachment A Page 24 of 58 Accumulated dose (rem) 1.9058E-02 2.5419E-01 3.0005E-02 Control Room Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.5768E-05 1.3171E-02 5. 8190E-04 Accumulated dose (rem) 7.9699E-05 1.5690E-02 6.7748E-04 Drywell Compartment Nuclide Inventory:

Time (h) 2.0000 Ci kg Atoms Decay Co-58 9.2682E+02 2. 9147E-05 3.0263E+20 9.9269E+16 Co-60 1. 11O1E+03 9.8209E-04 9. 8572E+21 1.1888E+17 Kr-85 1.3149E+06 3.3515E+00 2.3745E+25 1.4103E+2CI Kr-85m 1.4974E+07 1. 8195E-03 1.2891E+22 1.7502E+21 Kr-87 1.3076E+07 4. 6164E-04 3. 1955E+21 1.9322E+21 Kr-88 3.3565E+07 2.6768E-03 1. 8318E+22 4.1301E+21 Rb-86 3. 9881E+04 4. 9013E-04 3.4321E+21 5.4108E+18 Sr-89 1. 1770E+06 4. 0514E-02 2.7413E+23 1. 2608E+2C0 Sr-90 1. 7122E+05 1.2552E+00 8.3990E+24 1. 8335E+19 Sr-91 1.2923E+06 3.5648E-04 2.3591E+21 1.4376E+2C0 Sr-92 9.7829E+05 7. 7831E-05 5.0947E+20 1. 2013E+20C Y-90 3.0285E+03 5.5665E-06 3.7247E+19 2.7793E+17 Y-91 1.5494E+04 6.3178E-04 4.1809E+21 1.6527E+1E Y-92 1. 5105E+05 1.5698E-05 1.0276E+20 1.2205E+19' Y-93 1.6678E+04 4.9989E-06 3. 2370E+19 1.8512E+1E Zr-95 2. 1543E+04 1.0028E-03 6.3570E+21 2.3075E+1E Zr-97 2.0106E+04 1. 0518E-05 6.5297E+19 2.1996E+1E Nb-95 2. 1664E+04 5.5403E-04 3.5120E+21 2.3199E+1E Mo-99 3.0421E+05 6.3428E-04 3. 8583E+21 3.2754E+1S Tc-99m 2. 7173E+05 5.1676E-05 3.1435E+20 2.9100E+19 Ru-103 2. 6114E+05 8.0915E-03 4.7309E+22 2.7975E+19 Ru-105 1.3470E+05 2.0038E-05 1.1493E+20 1.5665E+19 Ru-106 1. 1142E+05 3.3305E-02 1.8922E+23 1.1932E+1§ Rh-105 1. 7419E+05 2.0637E-04 1. 1836E+21 1.8685E+19 Sb-127 3.5845E+05 1.3423E-03 6.3648E+21 3.8534E+19 Sb-129 7. 8140E+05 1.3895E-04 6.4869E+20 9.1085E+19 Te-127 3.5984E+05 1.3635E-04 6.4655E+20 3.8590E+19 Te-127m 4.9269E+04 5.2232E-03 2.4768E+22 5.2757E+18 Te-129 8.7332E+05 4. 1701E-05 1.9468E+20 9.8786E+19 Te-129m 1.5781E+05 5.2384E-03 2.4454E+22 1.6897E+lS Te-131m 4.5819E+05 5.7461E-04 2. 6415E+21 4.9658E+19 Te-132 4.5892E+06 1. 5116E-02 6.8963E+22 4.9369E+20 I-131 1.7756E+07 1.4322E-01 6.5840E+23 2.3358E+21 I-132 2. 1222E+07 2.0560E-03 9. 3797E+21 2.9494E+21 I-133 3.3944E+07 2.9964E-02 1.3567E+23 4.5532E+21 I-134 8.1880E+06 3.0693E-04 1.3794E+21 1.9198E+21 I-135 2.7579E+07 7.8530E-03 3.5031E+22 3.8782E+21 Xe-133 1.5861E+08 8. 4737E-01 3.8368E+24 1.7034E+22 Xe-135 6.7392E+07 2.6390E-02 1. 1772E+23 7.2274E+21 Cs-134 4. 5148E+06 3.4895E+00 1.5682E+25 6.1193E+20 Cs-136 1.3353E+06 1. 8219E-02 8.0674E+22 1.8124E+20 Cs-137 2.7782E+06 3. 1940E+01 1.4040E+26 3.7654E+20 Ba-139 8.6768E+05 5.3046E-05 2.2982E+20 1.2263E+20 Ba-140 2.2775E+06 3. 1109E-02 1.3382E+23 2.4417E+20 l CC-AA-309-1001, Rev22

Attachment A Page 25 of 58 La-140 5. 1274E+04 9.2247E-05 3.9680E+20 4.5159E+18 La-141 1. 5167E+04 2.6819E-06 1.1454E+19 1.7833E+113 La-142 8.4637E+03 5.9124E-07 2. 5074E+18 1.1596E+18 Ce-141 5. 4143E+04 1. 9002E-03 8. 1158E+21 5.7991E+18 Ce-143 4.7711E+04 7.]1845E-05 3.0256E+20 5.1652E+113 Ce-144 4.4665E+04 1.41004E-02 5.8564E+22 4.7832E+18 Pr-143 1.9277E+04 2.8627E-04 1.2056E+21 2.0627E+18 Nd-147 8.6900E+03 1.0742E-04 4.4006E+20 9.3183E+1'7 Np-239 6. 6145E+05 2.8512E-03 7. 1842E+21 7.1284E+19 Pu-238 2. 1452E+02 1.2530E-02 3. 1706E+22 2.2971E+1l; Pu-239 1.7889E+01 2.8780E-01 7. 2517E+23 1. 9155E+15 Pu-240 2.4278E+01 1.0655E-01 2.6735E+23 2.5998E+15 Pu-241 8.1291E+03 7.8913E-02 1. 9719E+23 8.7050E+17 Am-241 4.7856E+00 1.3943E-03 3. 4842E+21 5.1241E+14 Cm-242 1.1086E+03 3.3448E-04 8.3235E+20 1. 1872E+1'7 Cm-244 7.8670E+01 9.7241E-04 2.4000E+21 8.4244E+1'5 Drywell Transport Group Inventory:

Time (h) = 2.0000 Atmosphere Sump Noble gases (atoms) 2.7734E+25 0.OOOOE+00 Elemental I (atoms) 9.4402E+21 4.7 066E+22 Organic I (atoms) 1.7255E+21 0.COOOE+00 Aerosols (kg) 3.7538E+01 0.COOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.4400E-03 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.7115E-03 Total I (Ci) 1.0869E+08 Deposition Recirculating Time (h) = 2.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 1.2437E+01 0.0000E+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 2.0000 Leakage Transport Noble gases (atoms) 2.0230E+22 Elemental I (atoms) 1.3066E+19 Organic I (atoms) 1. 4559E+18 Aerosols (kg) 3.4250E-02 Drywell to Void Transport Group Inventory:

Time (h) = 2.0000 Leakage Transport Noble gases (atoms) 7. 5204E+21 Elemental I (atoms) 4. 8573E+18 Organic I (atoms) 5. 4124E+17 Aerosols (kg) 1.2732E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 2.0000 Ci kg Atoms Decay Co-58 6. 3724E-01 2.0040E-08 2.0808E+17 4.4931E+13 Co-60 7. 6329E-01 6.7525E-07 6.7774E+18 5.3810E+13 CC-AA-309-1001, Rev 2

Attachment A Page 26 of 58 Kr-85 9.0307E+02 2.3018E-03 1.6308E+22 6.6684E+16; Kr-85m 1.0284E+04 1.2496E-06 8.8534E+18 8.1119E+1' Kr-87 8.9807E+03 3.1705E-07 2.1946E+18 8.4734E+1' Kr-88 2.3052E+04 1.8384E-06 1.2581E+19 1.8914E+18 Rb-86 3.4198E+01 4.2029E-07 2. 9431E+18 3.0949E+15 Sr-89 8.0927E+02 2.7856E-05 1.8848E+20 5.7064E+16 Sr-90 1. 1772E+02 8.6304E-04 5. 7748E+21 8.2992E+15 Sr-91 8.8850E+02 2.4510E-07 1.6220E+18 6.4447E+16 Sr-92 6.7263E+02 5. 3513E-08 3.5029E+17 5.2510E+16 Y-90 2.4323E+00 4.4706E-09 2.9914E+16 1.4915E+14 Y-91 1. 0707E+01 4.3658E-07 2.8892E+18 7.5162E+14 Y-92 1.4200E+02 1.4757E-08 9.6595E+16 8.1469E+15 Y-93 1. 1467E+01 3.4370E-09 2.2256E+16 8.3033E+14 Zr-95 1.4812E+01 6.8950E-07 4.3708E+18 1.0444E+15 Zr-97 1. 3824E+01 7.2315E-09 4.4896E+16 9.9024E+14 Nb-95 1. 4895E+01 3.8093E-07 2.4147E+18 1.0501E+15 Mo-99 2.0916E+02 4.3610E-07 2. 6528E+18 1.4805E+16 Tc-99m 1.8683E+02 3. 5531E-08 2. 1613E+17 1.3170E+16 Ru-103 1.7955E+02 5.5634E-06 3.2528E+19 1.2661E+16.

Ru-105 9. 2612E+01 1.3777E-08 7. 9019E+16 6.9433E+15 Ru-106 7. 6611E+01 2.2899E-05 1.3010E+20 5.4010E+15 Rh-105 1. 1976E+02 1. 4189E-07 8.1380E+17 8.4545E+lE Sb-127 2.4646E+02 9.2288E-07 4.3762E+18 1.7425E+1E Sb-129 5.3726E+02 9.5539E-08 4.4601E+17 4.0350E+16 Te-127 2.4741E+02 9.3749E-08 4.4454E+17 1.7460E+1E Te-127m 3.3875E+01 3. 5913E-06 1.7029E+19 2.3880E+15 Te-129 .6.0046E+02 2.8672E-08 1.3385E+17 4.4092E+1E Te-129m 1.0850E+02 3. 6017E-06 1.6814E+19 7.6486E+15 Te-131m 3.1503E+02 3.9507E-07 1.8162E+18 2.2409E+16 Te-132 3. 1553E+03 1.0393E-05 4.7416E+19 2.2321E+17 I-131 1.4772E+04 1.1916E-04 5.4777E+20 1.3002E+18 I-132 1.5953E+04 1.5455E-06 7.0509E+18 1.4945E+18 I-133 2.8244E+04 2.4933E-05 1.1289E+20 2.5228E+18 I-134 6.8132E+03 2.5540E-07 1.1478E+18 9.2622E+17 I-135 2.2948E+04 6.5345E-06 2.9149E+19 2.1243E+18 Xe-133 1.0885E+05 5. 8150E-04 2. 6330E+21 8.0474E+18 Xe-135 4.5422E+04 1.7787E-05 7.9344E+19 3.3756E+18 Cs-134 3. 8715E+03 2.9923E-03 1.3448E+22 3.5010E+17 Cs-136 1.1450E+03 1.5623E-05 6.9179E+19 1.0366E+17 Cs-137 2.3823E+03 2.7389E-02 1.2039E+23 2.1543E+17 Ba-139 5.9658E+02 3.6473E-08 1.5802E+17 5.1695E+16 Ba-140 1.5659E+03 2. 1389E-05 9.2007E+19 1.1049E+17 La-140 4.2630E+01 7.6697E-08 3.2991E+17 2.5364E+15 La-141 1. 0428E+01 1.8440E-09 7.8756E+15 7.8823E+14 La-142 5. 8193E+00 4.0651E-10 1.7240E+15 4.9279E+14 Ce-141 3.7222E+01 1. 3063E-06 5.5794E+18 2.6245E+15 Ce-143 3.2804E+01 4.9.397E-08 2.0803E+17 2.3315E+15 Ce-144 3.0710E+01 9.6284E-06 4.0266E+19 2.1650E+15 Pr-143 1.3266E+01 1.9'701E-07 8.2965E+17 9.3447E+14 Nd-147 5.9749E+00 7.3'356E-08 3.0257E+17 4.2164E+14 Np-239 4.5479E+02 1.91504E-06 4.9396E+18 3.2214E+16 Pu-238 1. 4749E-01 8.6154E-06 2.1800E+19 1.0398E+13 Pu-239 1.2299E-02 1.9'788E-04 4.9860E+20 8.6703E+ll Pu-240 1.6693E-02 7.3:257E-05 1.8382E+20 1.1768E+12 Pu-241 5.5892E+00 5.4258E-05 1.3558E+20 3.9402E+14 CC-AA-309-1001, Rev22

Attachment A Page 27 of 58 Am-241 3.2906E-03 9.5875E-07 2.3957E+18 2.3195E+1l Cm-242 7.6221E-01 2.2998E-07 5.7229E+17 5.3737E+13 Cm-244 5.4090E-02 6.E859E-07 1.6501E+18 3.8132E+12' Reactor Building Transport Group Inventory:

Time (h) = 2.0000 Atmosphere Sump Noble gases (atoms) 1.9044E+22 0.0000E+00 Elemental I (atoms) 1.1798E+19 0.0000E+00 Organic I (atoms) 1.3448E+18 0.0000E+00 Aerosols (kg) 3.1859E-02 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.0416E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.7452E-07 Total I (Ci) 8.8731E+04 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 2.0000 Leakage Transport Noble gases (atoms) 2.0230E+22 Elemental I (atoms) 1.3066E+19 Organic I (atoms) 1. 4559E+18 Aerosols (kg) 3.4250E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.1757E+21 Elemental I (atoms) 5.4742E+17 5.4742E+17 Organic I (atoms) 4.8051E+16 4.8051E+16 Aerosols (kg) 2.3657E-03 2.3896E-05 Exclusion Area Boundary Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 1.5248E-02 1.4634E-01 2.2244E-02 Accumulated dose (rem) 2.2189E-02 2. 6033E-01 3.3851E-02 Low Population Zone Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 2.0936E-02 2.0093E-01 3.0541E-02 Accumulated dose (rem) 3.9993E-02 4.5512E-01 6.0546E-02 Control Room Doses:

Time (h) = 3.0 500 Whole Body Thyroid TEDE Delta dose (rem) 1.7384E-04 1.1411E-02 6. 6513E-04 Accumulated dose (rem) 2.5353E-04 2. 7101E-02 1.3426E-03 Drywell Compartment Nuclide Inventory:

Time (h) = 3.0500 Ci kg Atoms Decay Co-58 3.4444E+02 1.0832E-05 1.1247E+20 1.7779E+17 Co-60 4.1274E+02 3. 6513E-04 3.6648E+21 2.1295E+17 Kr-85 1.3132E+06 3.3471E+00 2.3714E+25 3.2480E+2C CC-AA-309-1001, Rev 2

Attachment A Page 28 of 58 Kr-85m 1.2712E+07 1.5446E-03 1.0944E+22 3.6818E+21 Kr-87 7.3681E+06 2. 6012E-04 1. 8006E+21 3.3239E+21 Kr-88 2.5943E+07 2.0689E-03 1. 4158E+22 8.2683E+21.

Rb-86 1.4803E+04 1.8193E-04 1.2740E+21 8.7880E+18 Sr-89 4.3735E+05 1.5054E-02 1.0186E+23 2.2579E+20 Sr-90 6.3659E+04 4. 6669E-01 3. 1227E+24 3.2845E+19 Sr-91 4.4502E+05 1.2277E-04 8. 1243E+20 2.4983E+20 Sr-92 2.7806E+05 2.2122E-05 1.4481E+20 1.9440E+20 Y-90 1.8335E+03 3.3700E-06 2.2549E+19 5.9470E+17 Y-91 5.8582E+03 2.3888E-04 1.5808E+21 2.9740E+18 Y-92 1.0530E+05 1.0943E-05 7.1631E+19 2.9511E+19 Y-93 5.7696E+03 1.7293E-06 1.1198E+19 3.2226E+18 Zr-95 8.0060E+03 3.7267E-04 2.3624E+21 4.1328E+18 Zr-97 7. 1603E+03 3.7456E-06 2.3254E+19 3.8730E+18 Nb-95 8.0546E+03 2.0598E-04 1.3058E+21 4.1557E+18 Mo-99 1.1186E+05 2.3324E-04 1.4188E+21 5.8415E+19 Tc-99m 1.0086E+05 1. 9181E-05 1.1668E+20 5.1984E+19 Ru-103 9.7018E+04 3.0061E-03 1.7576E+22 5.0098E+19 Ru-105 4.2508E+04 6.3238E-06 3. 6269E+19 2.6331E+19 Ru-106 4. 1424E+04 1.2382E-02 7.0344E+22 2.1374E+19 Rh-105 6.4385E+04 7. 6281E-05 4.3750E+20 3.3403E+19 Sb-127 1.3223E+05 4. 9513E-04 2. 3478E+21 6.8810E+19 Sb-129 2.4548E+05 4.3653E-05 2.0379E+20 1.5285E+20 Te-127 1.3330E+05 5.0509E-05 2. 3951E+20 6.8932E+19 Te-127m 1.8320E+04 1.9422E-03 9.2094E+21 9.4509E+18 Te-129 2.8957E+05 1.3827E-05 6.4549E+19 1.6777E+20 Te-129m 5.8672E+04 1.9476E-03 9.0921E+21 3.0270E+19 Te-131m 1.6627E+05 2.0852E-04 9.5856E+20 8.8094E+19 Te-132 1.6904E+06 5.5681E-03 2.5403E+22 8.8107E+20 I-131 6.5324E+06 5.2692E-02 2.4223E+23 3.8299E+21 I-132 6.1778E+06 5.9850E-04 2. 7305E+21 4.5635E+23.

I-133 1.2103E+07 1.0684E-02 4.8377E+22 7.3722E+21.

I-134 1.3182E+06 4. 9412E-05 2.2206E+20 2.4200E+21 I-135 9. 1221E+06 2.5975E-03 1. 1587E+22 6.0986E+21.

Xe-133 1.5760E+08 8.4198E-01 3. 8124E+24 3.9146E+22 Xe-135 6.3159E+07 2.4732E-02 1. 1033E+23 1.6359E+22 Cs-134 1.6785E+06 1.2973E+00 5.8304E+24 9.9451E+20 Cs-136 4.9531E+05 6.7581E-03 2.9925E+22 2.9429E+20 Cs-137 1.0329E+06 1. 1875E+01 5.2200E+25 6.1197E+20 Ba-139 1.9026E+05 1.1632E-05 5.0394E+19 1.8218E+20 Ba-140 8.4474E+05 1.1539E-02 4.9635E+22 4.3697E+20 La-140 3.3882E+04 6.0958E-05 2. 6221E+20 1. 0122E+19 La-141 4.6858E+03 8.2855E-07 3.5388E+18 2.9740E+18 La-142 1.9626E+03 1.3710E-07 5.8144E+17 1.7530E+18 Ce-141 2. 0116E+04 7.0600E-04 3.0153E+21 1.0386E+19 Ce-143 1.7352E+04 2. 6129E-05 1. 1004E+20 9.1711E+18 Ce-144 1.6605E+04 5 .2060E-03 2.1772E+22 8.5680E+18 Pr-143 7. 1904E+03 1.0678E-04 4.4968E+20 3.6981E+18 Nd-147 3.2220E+03 3.9828E-05 1. 6316E+20 1.6674E+18 Np-239 2.4278E+05 1.0465E-03 2. 6369E+21 1.2703E+2()

Pu-238 7. 9757E+01 4.6588E-03 1.1788E+22 4.1150E+16 Pu-239 6. 6518E+00 1.0702E-01 2.6965E+23 3.4314E+1'i Pu-240 9.0266E+00 3. 9614E-02 9.9399E+22 4.6572E+1' Pu-241 3.0224E+03 2.9340E-02 7. 3314E+22 1.5594E+18 Am-241 1.7799E+00 5. 1858E-04 1.2958E+21 9.1800E+14i CC-AA-309-1001, Rev 2

Attachment A Page 29 of 58 Cm-242 4. 1209E+02 1.2434E-04 3.0941E+20 2.12 66E+17 Cm-244 2.9249E+01 3.16154E-04 8. 9231E+20 1.5091E+16 Drywell Transport Group) Inventory:

Time (h) = 3.0500 Atmosphere Sump Noble gases (atoms) 2.7664E+25 O.OOOOE+00 Elemental I (atoms) 2.9625E+20 5.6164E+22 Organic I (atoms) 1.6955E+21 O.OOOOE+00 Aerosols (kg) 1.3955E+01 O.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.9779E-03 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2.4076E-03 Total I (Ci) 3.5254E+07 Deposition Recirculating Time (h) = 3.0500 Surfaces Filter Noble gases (atoms) O.OOOOE+00 O.(OOOE+00 Elemental I (atoms) O.OOOOE+00 O.(OOOOE+00 Organic I (atoms) O.OOOOE+00 O.(OOOOE+00 Aerosols (kg) 3.5986E+01 O.()OOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.0500 Leakage Transport:

Noble gases (atoms) 5.0794E+22 Elemental I (atoms) 1.5981E+19 Organic I (atoms) 3.3444E+18 Aerosols (kg) 6.0547E-02 Drywell to Void Transport Group Invent:ory:

Time (h) = 3.0500 Leakage Transport:

Noble gases (atoms) 1. 3313E+22 Elemental I (atoms) 5.4098E+18 Organic I (atoms) 8. 9915E+17 Aerosols (kg) 1. 7716E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 3.0500 ci. kg Atoms Decay Co-58 1. 1725E+00 3.6872E-08 3.8284E+17 1.8303E+14 Co-60 1.4049E+00 1.2429E-06 1.2475E+19 2.1926E+14 Kr-85 2. 1702E+03 5.E316E-03 3.9190E+22 2.9160E+17 Kr-85m 2. 1008E+04 2.5527E-06 1.8086E+19 3.1505E+18 Kr-87 1.21,77E+04 4.2989E-07 2.9757E+18 2.4880E+18 Kr-88 4.2874E+04 3.4192E-06 2.3399E+19 6.8725E+18 Rb-86 5. 6404E+01 6.9320E-07 4.8541E+18 9.9219E+l5 Sr-89 1.4887E+03 5.1242E-05 3.4673E+20 2.3243E+17 Sr-90 2. 1669E+02 1.5886E-03 1.0630E+22 3.3817E+16 Sr-91 1. 5148E+03 4.1788E-07 2. 7654E+18 2.4927E+17 Sr-92 9.4649E+02 7.5301E-08 4.9291E+17 1. 7896E+1 7 Y-90 6.5486E+00 1.2036E-08 8.0539E+16 7.8644E+14l Y-91 1. 9989E+01 8.1506E-07 5.3939E+18 3.0874E+15 Y-92 3.8602E+02 4.0117E-08 2. 6260E+17 4.5570E+16 Y-93 1. 9639E+01 5.8866E-09 3.8118E+16 3.2214E+l5 Zr-95 2.7252E+01 1.2685E-06 8.0414E+18 4.2544E+1l CC-AA-309-1001, Rev 2

Attachment A Page 30 of 58 Zr-97 2. 4373E+01 1.2750E-08 7. 9155E+16 3.9180E+15 Nb-95 2. 7417E+01 7.0115E-07 4. 4447E+18 4.2787E+15 Mo-99 3.8078E+02 7.9392E-07 4. 8294E+18 5.9875E+116 Tc-99m 3.4331E+02 6.'5290E-08 3. 9716E+17 5.3412E+165 Ru-103 3.3024E+02 1.0232E-05 5.9826E+19 5.1565E+165 Ru-105 1.4470E+02 2.]1526E-08 1.2346E+17 2.5334E+16 Ru-106 1. 4100E+02 4.2'147E-05 2.3945E+20 2.2007E+16 Rh-105 2. 1916E+02 2.5965E-07 1.4892E+18 3.4321E+16 Sb-127 4.5009E+02 1.6854E-06 7. 9919E+18 7.0621E+16 Sb-129 8.3559E+02 1.4859E-07 6.9367E+17 1. 4678E+17 Te-127 4.5374E+02 1.7193E-07 8. 1526E+17 7.0801E+16 Te-127m 6. 2358E+01 6.6109E-06 3. 1348E+19 9. 7311E+15 Te-129 9.8567E+02 4.7066E-08 2. 1972E+17 1. 6380E+1'1 Te-129m 1.9972E+02 6.E.295E-06 3.0949E+19 3.1167E+16 Te-131m 5.6598E+02 7.C977E-07 3.2629E+18 8.9808E+16 Te-132 5.7541E+03 1.8953E-05 8. 6469E+19 9.0373E+1 7 I-131 2.4599E+04 1.9842E-04 9.1215E+20 4.2725E+18 I-132 2. 1992E+04 2.1306E-06 9.7203E+18 4.4162E+18 I-133 4.5581E+04 4.0237E-05 1.8219E+20 8.1115E+18 I-134 4.9642E+03 1.8609E-07 8. 3630E+17 1.8321E+1EI I-135 3.4354E+04 9.7822E-06 4.3637E+19 6.4881E+1E8 Xe-133 2.6047E+05 1.3916E-03 6.3009E+21 3.5094E+19 Xe-135 1.0450E+05 4.0922E-05 1.8255E+20 1. 4439E+19 Cs-134 6.3954E+03 4.9430E-03 2. 2215E+22 1.1236E+16 Cs-136 1.8872E+03 2.5749E-05 1. 1402E+20 3.3215E+17 Cs-137 3.9356E+03 4.5246E-02 1.9889E+23 6.9143E+17 Ba-139 6.4763E+02 3.9593E-08 1.7154E+17 1.4997E+17 Ba-140 2.8754E+03 3.9277E-05 1.6895E+20 4.4948E+17 La-140 1. 2177E+02 2.1908E-07 9.4237E+17 1.4078E+16 La-141 1.5950E+01 2.8203E-09 1.2046E+16 2.8360E+15 La-142 6.6806E+oo 4.6669E-10 1.9792E+15 1. 4787E+15 Ce-141 6. 8471E+01 2.4030E-06 1.0263E+19 1.0690E+1E Ce-143 5. 9064E+01 8.8941E-08 3.7456E+17 9. 3580E+15 Ce-144 5. 6521E+01 1.7721E-05 7.4109E+19 8.8214E+15 Pr-143 2.4486E+01 3.6363E-07 1.5313E+18 3.8134E+15 Nd-147 1.0967E+01 1.3557E-07 5.5539E+17 1.7148E+15 Np-239 8.2640E+02 3.5622E-06 8. 9758E+18 1.3011E+17 Pu-238 2. 7149E-01 1.5858E-05 4.0126E+19 4.2369E+13 Pu-239 2.2642E-02 3.6428E-04 9. 1787E+20 3.5333E+12 Pu-240 3.0726E-02 1.3484E-04 3.3835E+20 4.7952E+12 Pu-241 1.0288E+01 9.9870E-05 2.4956E+20 1.6056E+15 Am-241 6.0587E-03 1.7653E-06 4.4111E+18 9.4533E+11 Cm-242 1.4027E+00 4.2323E-07 1.0532E+18 2.1894E+14 Cm-244 9.9562E-02 1.2306E-06 3. 0373E+18 1.5538E+13 Reactor Building Transport Group Inventory:

Time (h) = 3.0500 Atmosphere Sump Noble gases (atoms) 4.5718E+22 0.0000E+00 Elemental I (atoms) 1.2957E+19 0.0000E+00 Organic I (atoms) 2.9419E+18 0.0000E+00 Aerosols (kg) 5.2878E-02 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.0067E-07 Dose Effective (Ci/cc) 1-131 (ICRP2 Thyroid) 6.0888E-07 Total I (Ci) 1. 3149E+05

_ CC-AA-309-1 001, Rev 2

Attachment A Page 31 of 58 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.0500 Leakage Transport Noble gases (atoms) 5.0794E+22 Elemental I (atoms) 1.5981E+19 Organic I (atoms) 3. 3444E+18 Aerosols (kg) 6.0547E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.0275E+21 Elemental I (atoms) 1.3202E+18 1.3202E+18 Organic I (atoms) 1.7575E+17 1.7575E+17 Aerosols (kg) 7.5862E-03 7.6628E-05 Exclusion Area Boundary Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9336E-02 1.5201E-01 2.6848E-02 Accumulated dose (rem) 4.1525E-02 4.1234E-01 6.0699E-02 Low Population Zone Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.6549E-02 2. 0872E-01 3.6863E-02 Accumulated dose (rem) 6.6543E-02 6. 6383E-01 9.7409E-02 Control Room Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.3274E-04 1.0907E-02 7.3798E-04 Accumulated dose (rem) 4.8628E-04 3.8008E-02 2.0806E-03 Drywell Compartment Nuclide Inventory:

Time (h) 4.0000 Ci kg Atoms Decay Co-58 1.4066E+02 4.4236E-06 4.5930E+19 2.0530E+17 Co-60 1.6862E+02 1.4917E-04 1.4972E+21 2.4592E+17 Kr-85 1.3116E+06 3.3432E+00 2.3686E+25 4.9087E+20 Kr-85m 1.0961E+07 1.3319E-03 9.4364E+21 5.1767E+21 Kr-87 4.3848E+06 1.5480E-04 1.0715E+21 4. 0512E+21 Kr-88 2.0550E+07 1.66388E-03 1.1215E+22 1. 1196E+22 Rb-86 6.0389E+03 7.4:217E-05 5. 1970E+20 9. 9698E+18 Sr-89 1.7858E+05 6.1467E-03 4.1591E+22 2.6072E+20 Sr-90 2.6007E+04 1.9066E-01 1.2757E+24 3. 7930E+19 Sr-91 1.6963E+05 4.66795E-05 3.0968E+20 2.8435E+20 Sr-92 8.9092E+04 7.00880E-06 4. 6397E+19 2. 1447E+20 Y-90 1.0077E+03 1.8522E-06 1.2394E+19 7. 6013E+17 Y-91 2.4267E+03 9.8954E-05 6.5485E+20 3. 4445E+18 Y-92 5.2934E+04 5.55011E-06 3. 6009E+19 3.8663E+19 Y-93 2.2083E+03 6.6:91E-07 4.2861E+18 3.6709E+18 Zr-95 3.2693E+03 1.5218E-04 9.6470E+20 4.7722E+18 Zr-97 2. 8135E+03 1. 4717E-06 9.1371E+18 4. 4356E+18 l CC-A.A-309-1001, Rev22

Attachment A Page 32 of 58 Nb-95 3.2906E+03 8.4151E-05 5.3344E+20 4 .7991E+1B Mo-99 4.5247E+04 9. 4340E-05 5.7387E+20 6. 7312E+19 Tc-99m 4. 1104E+04 7.8170E-06 4. 7551E+19 5.9989E+19 Ru-103 3.9608E+04 1.2272E-03 7. 1753E+21 5.7845E+19 Ru-105 1.4973E+04 2.2274E-06 1.2775E+19 2 .9521E+19 Ru-106 1.6922E+04 5.(0580E-03 2.8736E+22 2. 4683E+1 9 Rh-105 2. 6116E+04 3.0941E-05 1.7746E+20 3. 8528E+13 Sb-127 5.3635E+04 2.(0084E-04 9.5236E+20 7.9340E+13 Sb-129 8. 6108E+04 1.5312E-05 7.1483E+19 1.7124E+20 Te-127 5.4267E+04 2.(0563E-05 9.7505E+19 7. 9528E+1 3 Te-127m 7.4847E+03 7.'9350E-04 3. 7626E+21 1.0914E+13 Te-129 1.0572E+05 5.t0481E-06 2.3566E+19 1.8934E+21)

Te-129m 2.3967E+04 7.'9557E-04 3.7140E+21 3.4956E+13 Te-131m 6.6453E+04 8.3337E-05 3.8310E+20 1.0125E+20)

Te-132 6. 8481E+05 2.2557E-03 1. 0291E+22 1.0156E+21 I-131 2.6849E+06 2.1657E-02 9.9558E+22 4.3529E+2L I-132 2.0879E+06 2.(0227E-04 9.2281E+20 5.0167E+21 I-133 4.8357E+06 4.2687E-03 1.9329E+22 8.3297E+2:L I-134 2.5649E+05 9. 6146E-06 4.3209E+19 2.4984E+2L I-135 3.4052E+06 9. 6962E-04 4.3253E+21 6.7998E+2:L Xe-133 1.5663E+08 8.3679E-01 3.7889E+24 5.9026E+22 Xe-135 5.9004E+07 2.3105E-02 1.0307E+23 2.4086E+22 Cs-134 6. 8571E+05 5.2999E-01 2.3818E+24 1.1286E+2:L Cs-136 2. 0193E+05 2.7551E-03 1.2200E+22 3.3382E+20 Cs-137 4.2198E+05 4.8514E+00 2.1325E+25 6.9448E+2()

Ba-139 4.8205E+04 2.9471E-06 1.2768E+19 1.9469E+20 Ba-140 3.4436E+05 4.7039E-03 2.0234E+22 5.0439E+20 La-140 1. 9213E+04 3.4567E-05 1.4869E+20 1.3222E+19 La-141 1. 6190E+03 2.8627E-07 1.2227E+18 3.3229E+18 La-142 5.2308E+02 3.6541E-08 1.5497E+17 1.8846E+18 Ce-141 8.2128E+03 2.8824E-04 1.2311E+21 1.1992E+19 Ce-143 6.9488E+03 1.0464E-05 4.4066E+19 1.0545E+l1S Ce-144 6.7829E+03 2.1266E-03 8. 8937E+21 9. 8943E+18 Pr-143 2.9458E+03 4.-3746E-05 1.8423E+20 4.2730E+18 Nd-147 1. 3130E+03 1.6230E-05 6.64 91E+19 1.9245E+18 Np-239 9.8035E+04 4.2258E-04 1.0648E+21 1.4633E+20 Pu-238 3.2584E+01 1.9033E-03 4. 8159E+21 4.7521E+16 Pu-239 2. 7178E+00 4.3725E-02 1. 1017E+23 3.9628E+15 Pu-240 3.6877E+00 1.E184E-02 4.0608E+22 5.3783E+15 Pu-241 1.2347E+03 1.1986E-02 2. 9951E+22 1.8008E+18 Am-241 7.2735E-01 2.1192E-04 5.2955E+20 1.0602E+15 Cm-242 1.6832E+02 5.0787E-05 1.2638E+20 2.4557E+1' Cm-244 1. 1949E+01 1.4770E-04 3.6454E+20 1. 7427E+16 Drywell Transport Group Inventory:

Time (h) = 4.0000 Atmosphere Sump Noble gases (atoms) 2.7600E+25 0.0000E+00 Elemental I (atoms) 2. 9199E+20 5. 6164E+22 Organic I (atoms) 1. 6712E+21 0.0000E+00 Aerosols (kg) 5.7007E+00 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 8.0488E-04 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 9.7012E-04 Total I (Ci) 1.3270E+07 Deposition Recirculating I CC-AA-309-1001, Rev 2

Attachment A Page 33 of 58 Time (h) = 4.0000 Surfaces ]Filter Noble gases (atoms) O.OOOOE+00 O.(OOOOE+00 Elemental I (atoms) O.OOOOE+00 O.(OOOOE+00 Organic I (atoms) O.OOOOE+00 O.(OOOOE+00 Aerosols (kg) 4.4229E+01 O.(OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 4.0000 Leakage Transport:

Noble gases (atoms) 7.8380E+22 Elemental I (atoms) 1.6275E+19 Organic I (atoms) 5.0258E+18 Aerosols (kg) 6. 9751E-02 Drywell to Void Transport Group Inventory:

Time (h) = 4.0000 Leakage Transport Noble gases (atoms) 1.8542E+22 Elemental I (atoms) 5.4655E+18 Organic I (atoms) 1.2178E+18 Aerosols (kg) 1. 9461E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 4.0000 Ci kg Atoms Decay Co-58 1.2671E+00 3.9848E-08 4.1374E+17 3.4017E+14 Co-60 1.5189E+00 1.3437E-06 1.3487E+19 4.0760E+14 Kr-85 3. 1932E+03 8. 1390E-03 5.7664E+22 6.3872E+17 Kr-85m 2.6685E+04 3.2426E-06 2.2973E+19 6.2612E+l1 Kr-87 1.0675E+04 3.7687E-07 2. 6087E+18 3.9840E+18 Kr-88 5.0029E+04 3.9898E-06 2.7303E+19 1.2949E+19 Rb-86 5. 9795E+01 7.3487E-07 5. 1459E+18 1.7389E+16 Sr-89 1.6086E+03 5.5369E-05 3.7465E+20 4.3194E+17 Sr-90 2.3427E+02 1.7174E-03 1.1492E+22 6.2866E+16; Sr-91 1.5280E+03 4.2153E-07 2. 7896E+18 4.4538E+17 Sr-92 8.0254E+02 6.3849E-08 4. 1794E+17 2.9145E+1l Y-90 9. 3511E+00 1.7188E-08 1.1501E+17 1. 7906E+15 Y-91 2.1903E+01 8.9312E-07 5. 9105E+18 5.7834E+lE Y-92 4.9742E+02 5. 1694E-08 3. 3838E+17 1.0175E+17 Y-93 1. 9893E+01 5.9624E-09 3.8609E+16 5.7693E+1l Zr-95 2.9450E+01 1.3709E-06 8. 6900E+18 7.9068E+1E Zr-97 2. 5344E+01 1.3257E-08 8.2306E+16 7.1218E+lE Nb-95 2.9641E+01 7.5803E-07 4.8052E+18 7.9540E+1E Mo-99 4.0758E+02 8. 4981E-07 5. 1694E+18 1.1066E+17 Tc-99m 3.7026E+02 7. 0415E-08 4.2833E+17 9.9130E+lE Ru-103 3.5678E+02 1. 1055E-05 6. 4635E+19 9.5820E+16 Ru-105 1.3487E+02 2.0064E-08 1. 1508E+17 4.3347E+16 Ru-106 1.5243E+02 4.5562E-05 2.5885E+20 4.0908E+16 Rh-105 2.3525E+02 2.7872E-07 1.5986E+18 6.3581E+16 Sb-127 4. 8315E+02 1.8092E-06 8. 5789E+18 1.3074E+17 Sb-129 7.7565E+02 1.3793E-07 6. 4392E+17 2.5059E+17 Te-127 4.8884E+02 1.8523E-07 8.7832E+17 1.3131E+17 Te-127m 6.7422E+01 7.1478E-06 3.3894E+19 1.8091E+16 Te-129 9.5231E+02 4.5473E-08 2. 1228E+17 2.8588E+17 Te-129m 2. 1589E+02 7.1665E-06 3. 3456E+19 5.7938E+16 r_ CC-AA-309-1001, Rev 2 l

Attachment A Page 34 of 58 Te-131m 5. 9861E+02 7..5069E-07 3. 4510E+18 1. 6484E+17 Te-132 6.1687E+03 2.0319E-05 9.2700E+19 1. 6718E+18 I-131 2.6090E+04 2.1045E-04 9.6744E+20 7.5307E+18 I-132 1.9300E+04 1.3698E-06 8.5303E+18 7.0561E+18 I-133 4.6993E+04 4.1484E-05 1.8784E+20 1.4063E+19 I-134 2.4925E+03 9.3435E-08 4. 1991E+17 2.2936E+18 I-135 3.3092E+04 9.4228E-06 4.2034E+19 1.0824E+19 Xe-133 3.8149E+05 2.0381E-03 9.2283E+21 7. 6654E+19 Xe-135 1.4507E+05 5.65806E-05 2.5340E+20 3.0645E+19 Cs-134 6.7897E+03 5.2477E-03 2.3584E+22 1. 9709E+18 Cs-136 1.9994E+03 2.7281E-05 1.2080E+20 5.8192E+17 Cs-137 4. 1783E+03 4.13037E-02 2. 1116E+23 1.2129E+18 Ba-139 4.3423E+02 2.6547E-08 1. 1501E+17 2. 1881E+17 Ba-140 3.1020E+03 4.2372E-05 1.8227E+20 8.3452E+17 La-140 1.7876E+02 3.2162E-07 1.3834E+18 3.3019E+16 La-141 1.4584E+01 2.5787E-09 1. 1014E+16 4.8028E+15 La-142 4. 7119E+00 3.2916E-10 1.3959E+15 2.2058E+15 Ce-141 7.3977E+01 2.5963E-06 1.1089E+19 1. 9866E+16 Ce-143 6.2594E+01 9. 4257E-08 3. 9694E+17 1.7197E+16 Ce-144 6.1100E+01 1.'9157E-05 8. 0114E+19 1.6398E+16 Pr-143 2. 6545E+01 3.!9420E-07 1. 6601E+18 7.0996E+15 Nd-147 1.1828E+01 1. 4620E-07 5. 9895E+17 3.1832E+15 Np-239 8.8310E+02 3.8066E-06 9.5915E+18 2 . 4024E+i 7 Pu-238 2. 9351E-01 1.7145E-05 4.3381E+19 7. 8763E+i.3 Pu-239 2.4482E-02 3.'9387E-04 9.9245E+20 6.5687E+1;2 Pu-240 3.3219E-02 1.4578E-04 3.6580E+20 8.9141E+1;2 Pu-241 1. 1122E+01 1.(0797E-04 2.6980E+20 2.9847E+15 Am-241 6.5521E-03 1.'9090E-06 4.7703E+18 1.7576E+12 Cm-242 1.5163E+00 4.5749E-07 1.1385E+18 4.0696E+14 Cm-244 1.0764E-01 1.3305E-06 3.2837E+18 2.8885E+1.3 Reactor Building Transport Group Inventory:

Time (h) = 4.0000 Atmosphere Sump Noble gases (atoms) 6.7199E+22 O.OOOOE+00 Elemental I (atoms) 1.1769E+19 O.OOOOE+00 Organic I (atoms) 4.1927E+18 O.OOOOE+00 Aerosols (kg) 5.6183E-02 O.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.2578E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.3329E-07 Total I (Ci) 1.2797E+05 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 4.0000 Leakage Transport.

Noble gases (atoms) 7.8380E+22 Elemental I (atoms) 1.6275E+19 Organic I (atoms) 5.0258E+18 Aerosols (kg) 6. 9751E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 4.0000 Filtered Transported Noble gases (atoms) O.OOOOE+00 1.1074E+22 Elemental I (atoms) 1.9797E+18 i.9797E+18 CC-AA-309-1001, Rev 2

Attachment A Page 35 of 58 Organic I (atoms) 3. 6700E+17 3. 6700E+17 Aerosols (kg) 1.3422E-02 1.3558E-04 Exclusion Area Boundary Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 9.1629E-02 5. 9102E-01 1.2054E-01 Accumulated dose (rem) 1.3315E-01 1.0034E+00 1. 8124E-01 Low Population Zone Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.2581E-01 8.1149E-01 1. 6550E-01 Accumulated dose (rem) 1.9235E-01 1.4753E+00 2.6291E-01 Control Room Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4503E-03 4.7348E-02 3.7582E-03 Accumulated dose (rem) 1.9366E-03 8.5356E-02 5.8388E-03 Drywell Compartment Nuclide Inventory:

Time (h) 8.0000 Ci kg Atoms Decay Co-58 9.2871E+00 2.9207E-07 3.0325E+18 2.2682E+17 Co-60 1. 1150E+01 9.8643E-06 9. 9007E+19 2.7173E+17 Kr-85 1.3051E+06 3.3265E+00 2.3568E+25 1. 1879E+21 Kr-85m 5.8736E+06 7. 1372E-04 5.0566E+21 9.5212E+21 Kr-87 4.9306E+05 1.7407E-05 1.2049E+20 5. OOOOE+21 Kr-88 7.7027E+06 6.1429E-04 4.2038E+21 1. 8171E+22 Rb-86 3.9690E+02 4.8779E-06 3.4157E+19 1.0892E+19 Sr-89 1.1783E+04 4.0557E-04 2.7443E+21 2.8803E+20 Sr-90 1.7199E+03 1.2609E-02 8.4367E+22 4. 1910E+19 Sr-91 8.3787E+03 2.3114E-06 1. 5296E+19 3.0821E+20 Sr-92 2. 1180E+03 1. 6851E-07 1.1030E+18 2.2484E+20 Y-90 1.3678E+02 2. 5140E-07 1.6822E+18 9.6093E+17 Y-91 1.6823E+02 6.8598E-06 4.5397E+19 3.8213E+18 Y-92 3.4928E+03 3.6299E-07 2.3760E+18 4.7173E+19 Y-93 1.1098E+02 3.3265E-08 2.1541E+17 3. 9831E+18 Zr-95 2. 1582E+02 1.0046E-05 6.3683E+19 5. 2722E+18 Zr-97 1.5791E+02 8.2602E-08 5. 1283E+17 4.8460E+18 Nb-95 2. 1760E+02 5.5648E-06 3.5276E+19 5.3026E+18 Mo-99 2.8692E+03 5.9823E-06 3.6390E+19 7.4151E+19 Tc-99m 2.6707E+03 5. 0791E-07 3.0896E+18 6. 6217E+19 Ru-103 2. 6117E+03 8.0921E-05 4. 7313E+20 6.3901E+19 Ru-105 5.3029E+02 7.8888E-08 4.5245E+17 3. 1447E+19 Ru-106 1. 1187E+03 3.3439E-04 1.8998E+21 2.7273E+19 Rh-105 1.6523E+03 1.9575E-06 1.1227E+19 4.2476E+19 Sb-127 3.4422E+03 1.2890E-05 6.1120E+19 8.7476E+19 Sb-129 2.9973E+03 5.3300E-07 2. 4882E+18 1.8227E+20 Te-127 3.5303E+03 1.3377E-06 6. 3431E+18 8.7765E+19 Te-127m 4. 9513E+02 5.2491E-05 2.4890E+20 1.2060E+19 Te-129 4.2885E+03 2.0478E-07 9.5597E+17 2.0310E+20 Te-129m 1.5827E+03 5.2538E-05 2.4526E+20 3. 8623E+19 Te-131m 4.0068E+03 5.0247E-06 2. 3099E+19 1. 1115E+20 CC-AA-309-1001, Rev 2

Attachment A Page 36 of 58 Te-132 4.3711E+04 1.'4398E-04 6.5686E+20 1.1193E+21 I-131 2. 1394E+05 1.17257E-03 7. 9332E+21 4.7780E+21 I-132 8.5763E+04 8.3087E-06 3. 7906E+19 5.2841E+2'L I-133 3.4204E+05 3.(0194E-04 1.3671E+21 9.0682E+2L I-134 8.7709E+02 3.2879E-08 1.4776E+17 2.5184E+2:L I-135 1.8092E+05 5.1-516E-05 2.2980E+20 7.2784E+2:L Xe-133 1.5249E+08 8.]1464E-01 3.6886E+24 1.4137E+2:3 Xe-135 4.3463E+07 1. 71020E-02 7.5922E+22 5.1193E+22 Cs-134 4. 5341E+04 3.5044E-02 1.5749E+23 1.2335E+2:L Cs-136 1.3237E+04 1.8060E-04 7.9972E+20 3.6464E+20 Cs-137 2.7907E+04 3.2083E-01 1.4103E+24 7.5905E+20 Ba-139 4.2648E+02 2.6073E-08 1. 1296E+17 1.9922E+20 Ba-140 2.2568E+04 3.t0827E-04 1.3260E+21 5.5694E+21)

La-140 2.6956E+03 4.8497E-06 2.0861E+19 1.7116E+19 La-141 5.2877E+01 9.3499E-09 3. 9933E+16 3.5268E+113 La-142 5.7271E+00 4.(0007E-10 1. 6967E+15 1.9359E+113 Ce-141 5. 4148E+02 1.9004E-05 8. 1165E+19 1.3248E+19 Ce-143 4.2251E+02 6.3623E-07 2. 6793E+18 1.1583E+1' Ce-144 4.4839E+02 1. 4058E-04 5.8792E+20 1.0932E+19 Pr-143 1.9690E+02 2.9240E-06 1.2314E+19 4.7252E+113 Nd-147 8. 5924E+01 1.0621E-06 4.3512E+18 2.1248E+13 Np-239 6. 1729E+03 2.6608E-05 6.7046E+19 1.6112E+20 Pu-238 2. 1549E+O0 1.2587E-04 3.1849E+20 5.2507E+16 Pu-239 1.7982E-01 2.8930E-03 7.2895E+21 4.3788E+15 Pu-240 2.4388E-01 1.0703E-03 2. 6855E+21 5.9426E+15 Pu-241 8.1654E+01 7.9266E-04 1. 9807E+21 1.9897E+18 Am-241 4. 8161E-02 1.94032E-05 3.5064E+19 1.1715E+15 Cm-242 1.1124E+01 3.,3563E-06 8.3521E+18 2.7133E+1'7 Cm-244 7. 9022E-01 9.,7676E-06 2.4107E+19 1.9256E+16 Drywell Transport Group Inventory:

Time (h) = 8.0000 Atmosphere Sump Noble gases (atoms) 2.7342E+25 0.OOOOE+00 Elemental I (atoms) 2.7700E+20 5.6164E+22 Organic I (atoms) 1.5854E+21 0.OOOOE+00 Aerosols (kg) 3.7690E-01 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 6. 1829E-05 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 7.2312E-05 Total I (Ci) 8.2354E+05 Deposition Recirculating Time (h) = 8.0000 Surfaces Filter Noble gases (atoms) O.OOOOE+00 O.COOOE+00 Elemental I (atoms) O.OOOOE+00 O.0OOOE+00 Organic I (atoms) O.OOOOE+00 0.OOOOE+00 Aerosols (kg) 4.9544E+01 O.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 8.0000 Leakage Transport Noble gases (atoms) 1.9385E+23 Elemental I (atoms) 1.7470E+19 Organic I (atoms) 1.1867E+19 Aerosols (kg) 7.6908E-02 CC-AA-309-1001, Rev 2

Attachment A Page 37 of 58 Drywell to Void Transport Group Inventory:

Time (h) = 8.0000 Leakage Transport Noble gases (atoms) 4.0427E+22 Elemental I (atoms) 5. 6920E+18 Organic I (atoms) 2. 5144E+18 Aerosols (kg) 2. 0817E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 8.0000 Ci kg Atoms Decay Co-58 9. 3645E-01 2.9'450E-08 3. 0578E+17 9.3713E+141 Co-60 1. 1243E+00 9. 9464E-07 9.9831E+18 1.1237E+l5 Kr-85 6.4665E+03 1.6482E-02 1. 1677E+23 3.3001E+l8 Kr-85m 2. 9102E+04 3.5363E-06 2.5054E+19 2.2290E+19 Kr-87 2.4430E+03 8.E247E-08 5.9700E+17 7.2009E+18 Kr-88 3.8165E+04 3.0437E-06 2.0829E+19 3.8176E+19 Rb-86 4.3443E+01 5. 3391E-07 3. 7387E+18 4.5259E+16 Sr-89 1. 1881E+03 4.0895E-05 2. 7671E+20 1.1896E+18 Sr-90 1.7342E+02 1.2714E-03 8. 5070E+21 1.7332E+1' Sr-91 8.4484E+02 2.3306E-07 1.5423E+18 1.0751E+18 Sr-92 2. 1357E+02 1.6991E-08 1. 1122E+17 5.3462E+17 Y-90 1.3959E+01 2.5656E-08 1. 7167E+17 8.2739E+15 Y-91 1. 6990E+01 6.9281E-07 4. 5848E+18 1.6350E+16 Y-92 3.5819E+02 3.7225E-08 2.4367E+17 3.4571E+17 Y-93 1. 1191E+01 3.3542E-09 2. 1720E+16 1.4031E+16 Zr-95 2. 1762E+01 1.0130E-06 6.4214E+18 2.1781E+16 Zr-97 1. 5922E+01 8.3290E-09 5. 1710E+16 1.8190E+16 Nb-95 2.1941E+01 5.6111E-07 3.5569E+18 2.1929E+16 Mo-99 2.8931E+02 6. 0321E-07 3. 6693E+18 2.9907E+17 Tc-99m 2.6930E+02 5. 1214E-08 3. 1153E+17 2.7145E+17 Ru-103 2.6334E+02 8.1595E-06 4.7707E+19 2.6381E+17 Ru-105 5.3470E+01 7.9545E-09 4.5622E+16 9.1419E+lE Ru-106 1. 1281E+02 3. 3718E-05 1. 9156E+20 1.1277E+17 Rh-105 1.6660E+02 1.9738E-07 1.1321E+18 1.7234E+17 Sb-127 3.4709E+02 1.2997E-06 6.1629E+18 3.5534E+17 Sb-129 3.0222E+02 5.3744E-08 2. 5089E+17 5.2504E+17 Te-127 3.5597E+02 1.3488E-07 6.3960E+17 3.5926E+1l Te-127m 4. 9925E+01 5.2928E-06 2.5098E+19 4.9884E+1E; Te-129 4.3242E+02 2.0648E-08 9.6393E+16 6.3694E+17 Te-129m 1.5959E+02 5.2976E-06 2.4731E+19 1.5967E+17 Te-131m 4.0401E+02 5.0666E-07 2.3291E+18 4.3510E+17 Te-132 4.4075E+03 1. 4518E-05 6. 6233E+19 4.5321E+lE I-131 1.8954E+04 1.5288E-04 7.0282E+20 1.9690E+1lS I-132 7.4729E+03 7.2397E-07 3.3029E+18 1. 3631E+19 I-133 3.0304E+04 2. 6751E-05 1.2113E+20 3.4779E+1I I-134 7.7708E+01 2. 9130E-09 1.3091E+16 2.6731E+1E I-135 1.6029E+04 4.5642E-06 2.0360E+19 2.3647E+1, Xe-133 7.5621E+05 4.0400E-03 1.8293E+22 3.9091E+20 Xe-135 2.1977E+05 8.6058E-05 3.8389E+20 1.3419E+20 Cs-134 4.9628E+03 3.8357E-03 1.7238E+22 5.1446E+18 Cs-136 1.4488E+03 1.9768E-05 8.7534E+19 1.5127E+18 Cs-137 3.0545E+03 3. 5117E-02 1.5436E+23 3.1661E+18 Ba-139 4. 3003E+01 2. 6291E-09 1. 1390E+16 3.1131E+17 Ba-140 2.2756E+03 3. 1084E-05 1. 3371E+20 2.2909E+18 CC-AA-309-1001, Rev 2

Attachment A Page 38 of 58 La-140 2. 7519E+02 4. 9511E-07 2. 1297E+18 1.5965E+17 La-141 5.3317E+00 9.4277E-10 4.0266E+15 9.8271E+15 La-142 5.7748E-01 4.0341E-11 1.7108E+14 3.2826E+15 Ce-141 5.4597E+01 1. 9161E-06 8.1838E+18 5.4697E+16 Ce-143 4.2603E+01 6.4153E-08 2.7017E+17 4.5567E+16 Ce-144 4.5212E+01 1.4175E-05 5. 9282E+19 4.5201E+1E Pr-143 1. 9860E+01 2.9493E-07 1.2420E+18 1.9677E+1E Nd-147 8.6640E+00 1.0710E-07 4.3874E+17 8.7322E+15 Np-239 6.2244E+02 2.6830E-06 6.7604E+18 6.4710E+17 Pu-238 2. 1728E-01 1.2692E-05 3.2114E+19 2.1715E+14 Pu-239 1.8131E-02 2.9171E-04 7.3502E+20 1.8114E+13 Pu-240 2. 4591E-02 1.0792E-04 2.7079E+20 2.4577E+13 Pu-241 8.2334E+00 7.9926E-05 1.9972E+20 8.2288E+15 Am-241 4.8563E-03 1.4149E-06 3.5357E+18 4.8487E+12 Cm-242 1.1216E+00 3.3843E-07 8.4217E+17 1.1216E+15 Cm-244 7.9680E-02 9.8489E-07 2.4308E+18 7.9636E+13 Reactor Building Transport Group Inventory:

Time (h) = 8.0000 Atmosphere Sump Noble gases (atoms) 1.3550E+23 0.OOOOE+00 Elemental I (atoms) 8.1010E+18 0.OOOOE+00 Organic I (atoms) 7.9321E+18 0.OOOOE+00 Aerosols (kg) 4.1086E-02 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.6827E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 4.3066E-07 Total I (Ci) 7.2837E+04 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 8.0000 Leakage Transport Noble gases (atoms) 1.9385E+23 Elemental I (atoms) 1.7470E+19 Organic I (atoms) 1.1867E+19 Aerosols (kg) 7.6908E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.7814E+22 Elemental I (atoms) 4.1784E+18 4.1784E+18 Organic I (atoms) 1.7701E+18 1.7701E+18 Aerosols (kg) 3.5442E-02 3.5800E-04 Exclusion Area Boundary Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.3648E-01 8.5072E-01 1. 7454E-01 Accumulated dose (rem) 2.6963E-01 1.8541E+00 3. 5577E-01 Low Population Zone Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.2257E-01 3. 9294E-01 1.4015E-01 Accumulated dose (rem) 3.1493E-01 1.8683E+00 4.0306E-01 CC-AA-309-1001, Rev 2

Attachment A Page 39 of 58 Control Room Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9413E-03 5.3662E-02 4.4249E-03 Accumulated dose (rem) 3.8779E-03 1.3902E-01 1.0264E-02 Drywell Compartment Nuclide Inventory:

Time (h) 16. 0000 Ci kg Atoms Decay Co-58 1. 8456E-01 5.8040E-09 6. 0263E+16 2.2909E+17 Co-60 2.2228E-01 1.9664E-07 1. 9737E+18 2.7445E+17 Kr-85 1.2921E+06 3.2933E+00 2.3333E+25 2.5713E+21 Kr-85m 1.6866E+06 2.0494E-04 1.4520E+21 1.3096E+22:

Kr-87 6.2343E+03 2.2010E-07 1.5235E+18 5.1187E+21 Kr-88 1.0823E+06 8. 6310E-05 5.9065E+20 2.1766E+22 Rb-86 7. 8157E+00 9.6054E-08 6.7262E+17 1. 0989E+19 Sr-89 2.3384E+02 8.0490E-06 5.4463E+19 2.9091E+20 Sr-90 3. 4289E+01 2. 5137E-04 1. 6820E+21 4.2330E+19 Sr-91 9.3184E+01 2.5706E-08 1.7012E+17 3.1002E+20 Sr-92 5.4569E+00 4. 3414E-10 2.8418E+15 2.2519E+20 Y-90 5.3536E+O0 9. 8401E-09 6. 5842E+16 1.0014E+18 Y-91 3.5503E+OO 1.4477E-07 9.5803E+17 3.8630E+l18 Y-92 2.5970E+01 2.6989E-09 1. 7666E+16 4.7891E+19 Y-93 1.2779E+O0 3. 8302E-10 2. 4802E+15 4.0072E+lE1 Zr-95 4.2873E+0O 1.9957E-07 1.2651E+18 5.3249E+18 Zr-97 2.2676E+00 1. 1862E-09 7.3644E+15 4.8819E+18 Nb-95 4.3378E+OO 1.1093E-07 7.0321E+17 5.3558E+1E:

Mo-99 5.2594E+01 1.0966E-07 6. 6705E+17 7.4839E+19 Tc-99m 5.0995E+01 9.6980E-09 5.8993E+16 6.6857E+19 Ru-103 5. 1764E+01 1.6039E-06 9. 3775E+18 6.4538E+19 Ru-105 3.0324E+00 4.5111E-10 2.5873E+15 3.1548E+19 Ru-106 2.2291E+01 6.6627E-06 3. 7853E+19 2.7546E+19 Rh-105 2. 9025E+01 3.4388E-08 1. 9723E+17 4.2869E+19 Sb-127 6.4630E+01 2.4201E-07 1. 1476E+18 8.8305E+19 Sb-129 1. 6555E+01 2.9439E-09 1.3743E+16 1. 8283E+2C' Te-127 6.8139E+01 2.5819E-08 1.2243E+17 8.8616E+19 Te-127m 9.8759E+00 1.0470E-06 4. 9647E+18 1. 2181E+19 Te-129 4. 8139E+01 2.2986E-09 1. 0731E+16 2.0394E+2C' Te-129m 3. 1390E+01 1.0420E-06 4. 8642E+18 3.9009E+19 Te-131m 6. 6402E+01 8.3273E-08 3.8281E+17 1.1209E+20 Te-132 8. 1181E+02 2.6740E-06 1.2199E+19 1.1298E+21 I-131 4.3406E+04 3. 5012E-04 1. 6095E+21 4.8634E+21 I-132 4.0523E+03 3.9258E-07 1.7910E+18 5.3070E+21 I-133 5.4694E+04 4.8282E-05 2. 1862E+20 9.1936E+21 I-134 3. 2784E-01 1.2289E-11 5. 5229E+13 2.5185E+21 I-135 1.6323E+04 4.6479E-06 2. 0734E+19 7.3336E+21 Xe-133 1.4447E+08 7.7180E-01 3.4947E+24 2.9950E+2-Xe-135 2.3398E+07 9. 1623E-03 4.0872E+22 8.5715E+22 Cs-134 9.0369E+02 6.9846E-04 3. 1390E+21 1.2446E+21 Cs-136 2.5929E+02 3.5378E-06 1.5666E+19 3.6786E+2C Cs-137 5.5637E+02 6.3964E-03 2. 8117E+22 7.6587E+2C Ba-139 1.5218E-01 9.3036E-12 4.0308E+13 1.9927E+2C Ba-140 4.4186E+02 6.0356E-06 2.5962E+19 5.6244E+2C La-140 1.0440E+02 1.8784E-07 8.0798E+17 1. 7913E+19, I CC-AA-309-1001, Rev 2

Attachment A Page 40 of 58 La-141 2.5713E-01 4.5466E-11 1.9419E+14 3.5365E+18 La-142 3.1296E-03 2.L863E-13 9.2718E+ll 1.9367E+18 Ce-141 1.0723E+01 3.'7634E-07 1.6073E+18 1.3380E+19 Ce-143 7.1207E+00 1.0723E-08 4.5156E+16 1.1682E+19 Ce-144 8.9323E+00 2.18006E-06 1.1712E+19 1.1042E+19 Pr-143 3.9903E+00 5.'9258E-08 2. 4955E+17 4.7735E+1 3 Nd-147 1.6774E+00 2.(0735E-08 8.4944E+16 2.1457E+1 3 Np-239 1.1157E+02 4.8092E-07 1.2118E+18 1.6259E+20 Pu-238 4.2963E-02 2.5096E-06 6.3500E+18 5.3034E+l 6 Pu-239 3.5881E-03 5.7727E-05 1.4546E+20 4.4227E+15 Pu-240 4.8622E-03 2.:L338E-05 5.3542E+19 6.0022E+15 Pu-241 1.6279E+00 1.5803E-05 3.9488E+19 2.0097E+1:3 Am-241 9.6259E-04 2.8046E-07 7.0082E+17 1.1833E+15 Cm-242 2.2146E-01 6.6820E-08 1.6628E+17 2.7404E+1'7 Cm-244 1.5754E-02 1.9473E-07 4.8062E+17 1. 9449E+15 Drywell Transport Group Inventory:

Time (h) = 16.0000 Atmosphere Sump Noble gases (atoms) 2.6870E+25 O.(OOOOE+00 Elemental I (atoms) 2.5409E+20 5.6164E+22 Organic I (atoms) 1.4542E+21 O.OOOOE+00 Aerosols (kg) 7.5110E-03 O.(OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.1848E-05 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1.3306E-05 Total I (Ci) 1. 1848E+05 Deposition Recirculating Time (h) = 16.0000 Surfaces Filter Noble gases (atoms) O.OOOOE+00 0.OOOOE+00 Elemental I (atoms) O.OOOOE+00 0.OOOOE+00 Organic I (atoms) O.OOOOE+00 0.OOOOE+00 Aerosols (kg) 4.9912E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 16.0000 Leakage Transport Noble gases (atoms) 4.2173E+23 Elemental I (atoms) 1.9702E+19 Organic I (atoms) 2.4641E+19 Aerosols (kg) 7.7665E-02 Drywell to Void Transport Group Inventory:

Time (h) = 16.0000 Leakage Transport Noble gases (atoms) 8.3618E+22 Elemental I (atoms) 6.1151E+18 Organic I (atoms) 4. 9356E+18 Aerosols (kg) 2.0961E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 16.0000 Ci kg Atoms Decay Co-58 3.8948E-01 1.2249E-08 1.2718E+17 1.5921E+15 Co-60 4. 6910E-01 4.1499E-07 4.1652E+18 1.9112E+15 Kr-85 9.8291E+03 2.5053E-02 1.7750E+23 1.2336E+19' CC-AA-309-1001, Rev 2

Attachment A Page 41 of 58 Kr-85m 1.2830E+04 1. 5590E-06 1. 1045E+19 4.4638E+1!3 Kr-87 4.7425E+01 1.(6743E-09 1. 1589E+16 7.8792E+18 Kr-88 8.2328E+03 6. 5657E-07 4.4931E+18 6.0104E+19 Rb-86 1. 7870E+01 2.1.962E-07 1.5379E+18 7.5489E+16 Sr-89 4.9349E+02 1.(6986E-05 1.1494E+20 2.0201E+18 Sr-90 7.2363E+01 5. 1049E-04 3.5497E+21 2.9479E+1'7 Sr-91 1.9665E+02 5.4249E-08 3. 5901E+17 1.5435E+18 Sr-92 1. 1516E+01 9.1620E-10 5. 9972E+15 6.0790E+1'7 Y-90 1. 1361E+01 2. 0881E-08 1. 3972E+17 2.1807E+16 Y-91 7.5034E+OO 3.0596E-07 2.0248E+18 2.8565E+16l Y-92 5. 5316E+01 5.7487E-09 3.7630E+16 5.2300E+1'7 Y-93 2.6968E+O0 8. C0830E-10 5.2341E+15 2.0318E+16 Zr-95 9.0478E+0O 4.2116E-07 2. 6698E+18 3.6999E+16 Zr-97 4.7855E+O0 2.5033E-09 1.5542E+16 2.7939E+16 Nb-95 9. 1543E+00 2.3411E-07 1.4840E+18 3.7293E+16 Mo-99 1.1099E+02 2.3142E-07 1.4077E+18 4.9468E+117 Tc-99m 1.0762E+02 2.0466E-08 1.2450E+17 4.5275E+1'7 Ru-103 1.0924E+02 3. 3848E-06 1. 9790E+19 4.4779E+1'7 Ru-105 6.3994E+OO 9. 5200E-10 5. 4601E+15 1.1484E+1l Ru-106 4. 7041E+01 1.4061E-05 7.9883E+19 1. 9176E+l' Rh-105 6. 1254E+01 7.2572E-08 4. 1623E+17 2.8326E+17 Sb-127 1.3639E+02 5.1074E-07 2.4218E+18 5.9238E+l' Sb-129 3.4937E+01 6.2128E-09 2. 9003E+16 6.5592E+17 Te-127 1.4380E+02 5.4487E-08 2. 5837E+17 6.0189E+17 Te-127m 2. 0842E+01 2.2096E-06 1.0477E+19 8.4857E+16 Te-129 1. 0159E+02 4.E510E-09 2.2646E+16 8.4280E+1-7 Te-129m 6. 6244E+01 2.1989E-06 1.0265E+19 2.7122E+1 7 '

Te-131m 1.4013E+02 1.7574E-07 8.0787E+17 6.9715E+1' Te-132 1. 7132E+03 5.E6432E-06 2.5745E+19 7.5285E+18 I-131 7.8958E+03 6.3689E-05 2.9278E+20 3.2934E+S1" I-132 2.0629E+03 1.9985E-07 9. 1178E+17 1.7547E+19 I-133 9.9473E+03 8.7810E-06 3.9760E+19 5.3966E+19 I-134 5.9623E-02 2.2350E-12 1.0045E+13 2.6846E+18 I-135 2.9686E+03 8.4531E-07 3.7708E+18 3.1800E+19 Xe-133 1.0997E+06 5.8750E-03 2. 6601E+22 1.4229E+2].

Xe-135 1.8062E+05 7.0729E-05 3.1551E+20 3.5872E+20 Cs-134 2.0662E+03 1.5970E-03 7. 1771E+21 8.6156E+18 Cs-136 5.9285E+02 8.0889E-06 3. 5818E+19 2.5186E+18 Cs-137 1.2721E+03 1.4625E-02 6.4287E+22 5.3027E+18 Ba-139 3.2115E-01 1.9634E-11 8. 5064E+13 3.2058E+17 Ba-140 9.3249E+02 1.2737E-05 5.4790E+19 3.8725E+18 La-140 2. 2153E+02 3.9857E-07 1.7144E+18 4.2549E+1 '

La-141 5. 4263E-01 9.5950E-11 4.0980E+14 1.2042E+16 La-142 6.6047E-03 4.6138E-13 1. 9567E+12 3.4182E+1i Ce-141 2.2629E+01 7.9418E-07 3. 3919E+18 9.2829E+16E Ce-143 1. 5027E+01 2.2629E-08 9. 5296E+16 7.3390E+16 Ce-144 1 .8851E+01 5.9102E-06 2.4717E+19 7.6857E+16 Pr-143 8.4235E+0O 1.2509E-07 5.2679E+17 3.3681E+16 Nd-147 3.5400E+00 4.3758E-08 1.7926E+17 1.4747E+16 Np-239 2.3545E+02 1.0149E-06 2.5573E+18 1.0655E+18 Pu-238 9.0669E-02 5.2962E-06 1.3401E+19 3.6934E+14:

Pu-239 7.5723E-03 1.2183E-04 3.0697E+20 3.0818E+1, Pu-240 1.0261E-02 4.5031E-05 1. 1299E+20 4.1800E+1_,

Pu-241 3.4354E+OO 3.3350E-05 8.3334E+19 1.3995E+16E Am-241 2.0314E-03 5.9189E-07 1. 4790E+18 8.2535E+12 CC-AA-309-1001, Rev 2

Attachment A Page 42 of 58 Cm-242 4. 6737E-01 1 .4102E-07 3.5092E+17 1.9068E+15 Cm-244 3.3247E-02 4.1096E-07 1.0143E+18 1.3544E+14 Reactor Building Transport Group Inventory:

Time (h) = 16.0000 Atmosphere Sump Noble gases (atoms) 2.0443E+23 0.C0000E+(00 Elemental I (atoms) 4.4785E+18 0.0000E+(-00 Organic I (atoms) 1.1107E+19 0.C0OOOE+(00 Aerosols (kg) 1.7105E-02 0.0OOOE+(D00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.4501E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid 1.6344E-07 Total I (Ci) 2.2875E+04 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 16.0000 Leakage Transport.

Noble gases (atoms) 4.2173E+23 Elemental I (atoms) 1.9702E+19 Organic I (atoms) 2. 4641E+19 Aerosols (kg) 7.7665E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 16.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.1549E+23 Elemental I (atoms) 6.8821E+18 6.8821E+18 Organic I (atoms) 6.2042E+18 6.2042E+18 Aerosols (kg) 5.9920E-02 6.C525E-04 Exclusion Area Boundary Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 8.7475E-02 6.0722E-0l 1. 1101E-0l Accumulated dose (rem) 3.5711E-01 2. 4613E+00 4. 6678E-0l Low Population Zone Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.8563E-02 2.8047E-01 8.9433E-02 Accumulated dose (rem) 3.9349E-01 2.1487E+00 4. 9250E-01 Control Room Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.2334E-03 3.4024E-02 2.5900E-03 Accumulated dose (rem) 5.1114E-03 1. 7304E-01 1.2854E-02 Drywell Compartment Nuclide Inventory:

Time (h) = 24.0000 Ci kg Atoms Decay Co-58 4.8443E-03 1. 5235E-10 1. 5818E+15 2.2913E+1' Co-60 5.8529E-03 5. 1778E-09 5.1969E+16 2.7450E+17 Kr-85 1.2792E+06 3.2604E+00 2.3100E+25 3.9404E+21 Kr-85m 4.8430E+05 5.8849E-05 4.1693E+20 1.4122E+22 CC-AA-309-1001, Rev 2

Attachment A Page 43 of 58 Kr-87 7. 8828E+O1 2M.7829E-09 1. 9263E+16 5. 1202E+21 Kr-88 1.5206E+05 1.2127E-05 8.2987E+19 2.2270E+2.2 Rb-86 2.0329E-O1 2. 4984E-09 1.7495E+16 1.0991E+19 Sr-89 6. 1299E+00 2.:L100E-07 1.4277E+18 2. 9096E+29i Sr-90 9. 0295E-01 6.16195E-06 4.4293E+19 4.2337E+13 Sr-91 1.3689E+OO 3.7762E-10 2.4990E+15 3.1004E+20 Sr-92 1.8570E-02 1. 4774E-12 9. 6708E+12 2.2519E+20 Y-90 2.0463E-O1 3. 7611E-1O 2.5167E+15 1.0027E+113 Y-91 9. 6201E-02 3.'9228E-09 2.5960E+16 3.8638E+1:3 Y-92 1. 8406E-O1 1.9129E-11 1.2521E+14 4.7896E+19 Y-93 1.9434E-02 5.8250E-12 3. 7719E+13 4.0075E+1:3 Zr-95 1. 1250E-01 5.2365E-09 3. 3195E+16 5.3259E+1:3 Zr-97 4. 3012E-02 2.2500E-11 1.3969E+14 4.8823E+13 Nb-95 1. 1421E-01 2.9208E-09 1.8515E+16 5.3567E+18 Mo-99 1.2734E+0O 2.6550E-09 1. 6150E+16 7.4850E+1'3 Tc-99m 1.2749E+OO 2.'4245E-10 1. 4748E+15 6.6867E+1'3 Ru-103 1.3552E+OO 4.].989E-08 2.4550E+17 6.4550E+1'3 Ru-105 2.2903E-02 3.41072E-12 1. 9542E+13 3.1548E+1'3 Ru-106 5.8663E-01 1.,7535E-07 9.9618E+17 2.7551E+1!3 Rh-105 6. 6000E-01 7.8194E-10 4.4847E+15 4.2876E+19 Sb-127 1.6028E+OO 6.0020E-09 2.8460E+16 8.8319E+1!3 Sb-129 1.2078E-O1 2.31477E-11 1.0026E+14 1.8283E+20 Te-127 1.7368E+0O 6.'5811E-10 3. 1207E+15 8.8630E+19 Te-127m 2. 6015E-O1 2.7580E-08 1.3078E+17 1.2183E+19 Te-129 8.7986E-O1 4.2013E-11 1. 9613E+14 2.0395E+20 Te-129m 8.2132E-01 2.7263E-08 1.2727E+17 3.9016E+1' Te-131m 1.4535E+00 1.8228E-09 8.3797E+15 1.1210E+20 Te-132 1. 9915E+O1 6.5597E-08 2. 9927E+17 1.1300E+2:.

I-131 3. 8631E+04 3.l1160E-04 1.4325E+21 4.9059E+2:

I-132 4. 1999E+02 4.0C688E-08 1. 8563E+17 5.3087E+2]

I-133 3.8373E+04 3.3;874E-05 1.5338E+20 9.2414E+21 I-134 5.3762E-04 2.0C153E-14 9.0571E+10 2.5185E+21 I-135 6.4613E+03 1.E399E-06 8.2073E+18 7.3446E+21 Xe-133 1.3687E+08 7.3120E-01 3. 3108E+24 4.4927E+23 Xe-135 1.2590E+07 4.9 302E-03 2.1993E+22 1.0429E+23 Cs-134 2.3791E+O1 1.8388E-05 8.2637E+19 1.2448E+21 Cs-136 6.7087E+OO 9.1536E-08 4.0532E+17 3.6791E+20 Cs-137 1.4651E+O1 1.E844E-04 7.4041E+20 7.6599E+20 Ba-139 7.1723E-05 4.3849E-15 1. 8997E+10 1.9927E+20 Ba-140 1. 1427E+01 1.5609E-07 6. 7140E+17 5.6253E+20 La-140 3. 8915E+00 7.0013E-09 3.0116E+16 1.7938E+1" La-141 1. 6515E-03 2.9202E-13 1.2472E+12 3.5366E+18 La-142 2.2590E-06 1.5780E-16 6.6924E+08 1.9367E+18 Ce-141 2.8041E-01 9.8412E-09 4 .2032E+16 1. 3383E+19 Ce-143 1. 5851E-O1 2.3869E-10 1.0052E+15 1.1684E+19 Ce-144 2. 3503E-O1 7.3690E-08 3.0817E+17 1. 1044E+19 Pr-143 1.0622E-01 1.5775E-09 6.6432E+15 4.7744E+1f Nd-147 4.3253E-02 5.3466E-10 2.1903E+15 2.1461E+1E Np-239 2.6635E+00 1.1481E-08 2. 8929E+16 1.6262E+2C Pu-238 1.1314E-03 6.6090E-08 1. 6723E+17 5.3043E+1E Pu-239 9.4564E-05 1.5214E-06 3.8335E+18 4.4235E+1' Pu-240 1.2804E-04 5.6191E-07 1. 4100E+18 6.0032E+1' Pu-241 4.2867E-02 4.1613E-07 1.0398E+18 2.0101E+18 Am-241 2.5411E-05 7.4039E-09 1.8501E+16 1.1835E+1' Cm-242 5.8237E-03 1.7572E-09 4.3727E+15 2.7409E+17 l CC-AA-309-1001, Rev 2

Attachment A Page 44 of 58 Cm-244 4.1486E-04 5.1279E-09 1.2656E+16 1.9453E+16; Drywell Transport Group Inventory:

Time (h) = 24.0000 Atmosphere Sump Noble gases (atoms) 2.6433E+25 0.OOOOE+00 Elemental I (atoms) 2.3660E+20 5.6164E+22 Organic I (atoms) 1.3541E+21 0.OOOOE+00 Aerosols (kg) 1.9773E-04 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.0104E-05 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1. 1051E-05 Total I (Ci) 8.3885E+04 Deposition Recirculating Time (h) = 24.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 4.9919E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 24.0000 Leakage Transport Noble gases (atoms) 6.4586E+23 Elemental I (atoms) 2.1770E+19 Organic I (atoms) 3.6475E+19 Aerosols (kg) 7.7681E-02 Drywell to Void Transport Group Inventory:

Time (h) = 24.0000 Leakage Transport Noble gases (atoms) 1.2610E+23 Elemental I (atoms) 6.5069E+18 Organic I (atoms) 7. 1784E+18 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 24.0000 Ci kg Atoms Decay Co-58 1.5825E-Ol 4.9767E-09 5.1673E+16 1.8507E+15 Co-60 1. 9120E-01 1. 6914E-07 1. 6977E+18 2.2231E+15 Kr-85 1. 1126E+04 2.8358E-02 2.0091E+23 2.3697E+1'l Kr-85m 4.2123E+03 5.1185E-07 3. 6264E+18 5.3048E+1'-

Kr-87 6.8562E-01 2. 4205E-11 1. 6755E+14 7.8912E+18 Kr-88 1.3226E+03 1.0547E-07 7.2180E+17 6.4213E+19 Rb-86 7.194OE+00 8. 8414E-08 6. 1912E+17 8.7307E+16 Sr-89 2.0025E+02 6.8926E-06 4. 6638E+19 2.3476E+18 Sr-90 2. 9497E+01 2. 1624E-04 1.4469E+21 3.4290E+1,'

Sr-91 4. 4717E+01 1.2336E-08 8. 1634E+16 1.6468E+18 Sr-92 6. 0663E-01 4. 8262E-11 3. 1592E+14 6.1162E+1,'

Y-90 6.7080E+00 1.2329E-08 8.2499E+16 3.0571E+16 Y-91 3. 1471E+00 1.2833E-07 8. 4924E+17 3.3613E+16 Y-92 6.0562E+00 6. 2939E-10 4. 1198E+15 5.4534E+17 Y-93 6. 3485E-01 1. 9029E-10 1.2322E+15 2.1753E+16 Zr-95 3.6749E+00 1.7106E-07 1.0844E+18 4.3006E+16 Zr-97 1. 4051E+00 7.3500E-10 4. 5632E+15 3.0716E+16 l CC-AA-309-1001, Rev 2

Attachment A Page 45 of 58 Nb-95 3. 7311E+00 9.5416E-08 6.0485E+17 4.3377E+16 Mo-99 4. 1598E+01 8.6732E-08 5.2759E+17 5.6589E+1'i Tc-99m 4.1646E+01 7. 9201E-09 4.8178E+16 5.1922E+1l Ru-103 4.4269E+01 1.3717E-06 8.0197E+18 5.2024E+1,'

Ru-105 7 . 4819E-0l 1. 1130E-10 6. 3837E+14 1.1749E+17 Ru-106 1. 9164E+01 5.7280E-06 3.2542E+19 2.2303E+17 Rh-105 2.1560E+01 2.5544E-08 1.4650E+17 3.2156E+17 Sb-127 5.2360E+01 1.9607E-07 9.2972E+17 6.8078E+1.'

Sb-129 3.9454E+00 7.0161E-10 3. 2753E+15 6.7021E+17 Te-127 5.6737E+01 2.1499E-08 1.0194E+17 6.9303E+l7 Te-127m 8.4984E+00 9.0096E-07 4.2722E+18 9. 8714E+16 Te-129 2. 8742E+01 1.3725E-09 6. 4071E+15 8.8695E+17 Te-129m 2. 6830E+01 8.9062E-07 4. 1577E+18 3.1514E+17 Te-131m 4.7483E+01 5.9547E-08 2.7374E+17 7.8336E+1l Te-132 6.5056E+02 2.1429E-06 9.7763E+18 8.6338E+lU I-131 3.3428E+03 2.6964E-05 1.2395E+20 3.8267E+19 I-132 7. 7914E+02 7.5482E-08 3. 4437E+17 1. 8700E+19 I-133 3.3187E+03 2.9297E-06 1.3265E+19 6.0044E+19 I-134 4.6497E-05 1.7430E-15 7.8332E+09 2.6846E+1E; I-135 5.5882E+02 1.5912E-07 7.0983E+17 3.3252E+19 Xe-133 1.1909E+06 6.3620E-03 2.8807E+22 2.6657E+21 Xe-135 1. 1039E+05 4.3228E-05 1.9284E+20 5.1349E+2C0 Cs-134 8.4192E+02 6.5072E-04 2. 9244E+21 9.9892E+1E Cs-136 2. 3741E+02 3.2393E-06 1. 4344E+19 2.9098E+1E Cs-137 5.1848E+02 5.9608E-03 2.6202E+22 6.1484E+1E Ba-139 2. 3430E-03 1.4324E-13 6.2059E+11 3.2064E+17 Ba-140 3.7328E+02 5.0989E-06 2.1933E+19 4.4878E+1E La-140 1.2755E+02 2.2948E-07 9.8711E+17 5.9425E+17 La-141 5.3950E-02 9. 5396E-12 4. 0744E+13 1.2255E+lE La-142 7.3794E-05 5. 1550E-15 2. 1862E+10 3.4197E+1l Ce-141 9. 1598E+00 3.2147E-07 1.3730E+18 1.0783E+17 Ce-143 5.1781E+00 7.7974E-09 3.2837E+16 8.2700E+1E Ce-144 7.6779E+00 2.4072E-06 1.0067E+19 8.9386E+1E Pr-143 3 . 4710E+00 5. 1546E-08 2.1707E+17 3.9300E+1E Nd-147 1.4130E+00 1.7466E-08 7. 1552E+16 1.7079E+1E Np-239 8.7010E+01 3.7506E-07 9. 4504E+17 1.2157E+18 Pu-238 3. 6961E-02 2.1590E-06 5. 4628E+18 4.2962E+14 Pu-239 3.0891E-03 4.9699E-05 1.2523E+20 3.5854E+13 Pu-240 4.1828E-03 1.8356E-05 4. 6060E+19 4.8622E+13 Pu-241 1.4003E+00 1.3594E-05 3.3968E+19 1.6280E+16 Am-241 8. 3013E-04 2.4187E-07 6.0438E+17 9.6054E+12 Cm-242 1. 9024E-01 5.7401E-08 1.4284E+17 2.2173E+15 Cm-244 1.3552E-02 1. 6751E-07 4. 1344E+17 1.5755E+14 Reactor Building Transport Group Inventory:

Time (h) = 24.0000 Atmosphere Sump Noble gases (atoms) 2.2992E+23 0.OOOOE+00 Elemental I (atoms) 3.0349E+18 0.OOOOE+00 Organic I (atoms) 1.1802E+19 0.OOOOE+00 Aerosols (kg) 6.9697E-03 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.8848E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.4686E-08 Total I (Ci) 7.9995E+03 Drywell to Reactor Building Transport Group Inventory:

CC-AA-309-1001, Rev 2

Attachment A Page 46 of 58 Time (h) = 24.0000 Leakage Transport Noble gases (atoms) 6.4586E+23 Elemental I (atoms) 2.1770E+19 Organic I (atoms) 3. 6475E+19 Aerosols (kg) 7. 7681E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 4.]1271E+23 Elemental I (atoms) 8.5294E+18 8.'i294E+18 Organic I (atoms) 1.1422E+19 1.1422E+19 Aerosols (kg) 6.9967E-02 7. 0673E-04 Exclusion Area Boundary Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.5974E-01 1.3309E+00 2.0368E-01 Accumulated dose (rem) 5.1685E-01 3.7923E+00 6. 7046E-01 Low Population Zone Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 5.7086E-02 3.1256E-01 6.7404E-02 Accumulated dose (rem) 4.5057E-01 2.4613E+00 5.5990E-01 Control Room Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 6.5503E-04 2. 0521E-02 1.3475E-03 Accumulated dose (rem) 5.7664E-03 1. 9356E-01 1.4201E-02 Drywell Compartment Nuclide Inventory:

Time (h) 48.0000 Ci kg Atoms Decay Co-58 4.2232E-04 1.3281E-1l 1.3790E+14 2.2913E+17 Co-60 5. 1508E-04 4.5567E-10 4.5735E+15 2.7451E+17 Kr-85 1.2411E+06 3. 1635E+00 2.2413E+25 7. 9661E+21 Kr-85m 1. 1466E+04 1.3933E-06 9. 8714E+18 1.4526E+22 Kr-87 1.5935E-04 5.6256E-15 3. 8941E+10 5. 1202E+21 Kr-88 4.2177E+02 3.3636E-08 2. 3018E+17 2.2353E+22 Rb-86 1.7244E-02 2. 1193E-10 1.4840E+15 1. 0991E+19 Sr-89 5. 3230E-01 1.8322E-08 1.2398E+17 2.9097E+20 Sr-90 7.9488E-02 5.8272E-07 3.8992E+18 4.2338E+19 Sr-91 2.0918E-02 5.7706E-12 3. 8188E+13 3.1004E+20 Sr-92 3.5280E-06 2.8068E-16 1.8373E+09 2.2519E+20 Y-90 3.2185E-02 5. 9157E-11 3. 9583E+14 1.0030E+18 Y-91 8.6504E-03 3.5273E-10 2.3343E+15 3.8639E+18 Y-92 1.8847E-04 1.9586E-14 1.2821E+11 4.7896E+19 Y-93 3.2954E-04 9. 8773E-14 6.3960E+11 4.0075E+18 Zr-95 9.7970E-03 4.5604E-10 2. 8909E+15 5. 3260E+18 Zr-97 1.4150E-03 7.4019E-13 4.5954E+12 4. 8824E+18 Nb-95 1.0049E-02 2. 5699E-10 1. 6291E+15 5. 3569E+18 CC-AA-309-1001, Rev 2

Attachment A Page 47 of 58 Mo-99 8.7129E-02 1.8166E-10 1. 1051E+15 7.4852E+19 Tc-99m 8. 9158E-02 1. 6956E-11 1.0314E+14 6.6869E+19 Ru-103 1. 1722E-01 3. 6319E-09 2. 1235E+16 6.4551E+19 Ru-105 4.7575E-05 7.0774E-15 4.0592E+10 3.1548E+19 Ru-106 5.1548E-02 1.5408E-08 8. 7536E+16 2.7551E+19 Rh-105 3.6474E-02 4.3213E-11 2. 4784E+14 4.2876E+19 Sb-127 1. 1786E-01 4.4134E-10 2. 0927E+15 8.8321E+19 Sb-129 2.2608E-04 4.0203E-14 1.8768E+11 1. 8283E+20 Te-127 1.3419E-01 5.0845E-11 2. 4110E+14 8.8632E+19 Te-127m 2.2905E-02 2.4283E-09 1. 1515E+16 1. 2183E+19 Te-129 6. 1576E-02 2. 9403E-12 1.3726E+13 2.0395E+20 Te-129m 7.0842E-02 2.3516E-09 1.0978E+16 3.9017E+19 Te-131m 7.3496E-02 9.2170E-11 4.2371E+14 1. 1210E+20 Te-132 1.4173E+00 4.6683E-09 2. 1298E+16 1.1300E+21 I-131 3.4324E+04 2.7686E-04 1.2727E+21 5.0223E+21 I-132 2.7194E+00 2. 6345E-10 1.2019E+15 5.3089E+21 I-133 1.6702E+04 1.4744E-05 6. 6761E+19 9.3246E+21 I-135 5. 0515E+02 1.4384E-07 6. 4165E+17 7.3521E+21 Xe-133 1. 1638E+08 6.2176E-01 2. 8153E+24 8.5293E+2-Xe-135 1. 9610E+06 7.6789E-04 3.4254E+21 1.2255E+2-.

Cs-134 2.0925E+00 1. 6173E-06 7.2684E+18 1.2448E+21 Cs-136 5. 6018E-01 7.6432E-09 3.3844E+16 3.6792E+2C Cs-137 1.2898E+00 1.4828E-05 6. 5179E+19 7.6601E+2C Ba-140 9.5271E-01 1. 3014E-08 5. 5978E+16 5.6255E+2C La-140 5. 6022E-01 1.0079E-09 4.3355E+15 1. 7943E+1S La-141 2. 1096E-06 3.7302E-16 1.5932E+09 3.5366E+18 Ce-141 2. 4166E-02 8. 4813E-10 3. 6224E+15 1.3383E+1S Ce-143 8.4294E-03 1.2693E-11 5.3455E+13 1.1684E+l1 Ce-144 2.0641E-02 6.4716E-09 2.7065E+16 1.1044E+1l Pr-143 9.4313E-03 1.4006E-10 5.8982E+14 4.7745E+18 Nd-147 3.5749E-03 4.4190E-11 1.8103E+14 2.1461E+18 Np-239 1.7470E-01 7. 5305E-10 1.8975E+15 1.6262E+20 Pu-238 9. 9617E-05 5. 8188E-09 1.4723E+16 5.3044E+1E Pu-239 8.3411E-06 1.3420E-07 3.3813E+17 4.4236E+1l Pu-240 1. 1272E-05 4.9469E-08 1.2413E+17 6.0034E+15 Pu-241 3.7734E-03 3.6630E-08 9. 1532E+16 2.0101E+18 Am-241 2.2537E-06 6.5664E-10 1. 6408E+15 1.1836E+15 Cm-242 5.1052E-04 1. 5404E-10 3. 8332E+14 2.7410E+17 Cm-244 3. 6519E-05 4.5140E-10 1. 1141E+15 1.9453E+1E Drywell Transport Group Inventory:

Time (h) = 48.0000 Atmosphere Sump Noble gases (atoms) 2.5232E+25 0.OOOOE+00 Elemental I (atoms) 1.9929E+20 5. 6164E+22 Organic I (atoms) 1.1406E+21 0.OOOOE+00 Aerosols (kg) 1.7393E-05 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 8.2963E-06 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 8.6790E-06 Total I (Ci) 5. 1534E+04 Deposition Recirculating Time (h) = 48.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.0000E+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 I CC-AA-309-1001, Rev 2

Attachment A Page 48 of 58 Aerosols (kg) 4.9919E+01 O.COOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 48.0000 Leakage Transport Noble gases (atoms) 1.2973E+24 Elemental I (atoms) 2.7249E+19 Organic I (atoms) 6. 7834E+19 Aerosols (kg) 7.7683E-02 Drywell to Void Transport Group Inventory:

Time (h) = 48.0000 Leakage Transport Noble gases (atoms) 2.4956E+23 Elemental I (atoms) 7.5454E+18 Organic I (atoms) 1.3122E+19 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 48. 0000 Ci kg Atoms Decay Co-58 1.0581E-02 3.3277E-10 3.4551E+15 2.0156E+1' Co-60 1.2906E-02 1. 1417E-08 1. 1459E+17 2.4228E+15 Kr-85 1. 1675E+04 2.9757E-02 2. 1082E+23 6.0759E+19 Kr-85m 1.0786E+02 1.3106E-08 9.2853E+16 5.6692E+19 Kr-87 1.4989E-06 5.2917E-17 3.6629E+08 7.8914E+18 Kr-88 3.9673E+00 3.1639E-10 2. 1651E+15 6.4951E+19 Rb-86 4. 6802E-01 5.7519E-09 4.0278E+16 9.4742E+16 Sr-89 1.3337E+01 4.5907E-07 3. 1062E+18 2.5560E+1E8 Sr-90 1. 9916E+00 1.4600E-05 9.7695E+19 3.7372E+1,'

Sr-91 5.2411E-01 1. 4458E-10 9.5681E+14 1.6768E+1E Sr-92 8.8395E-05 7.0326E-15 4. 6034E+10 6.1183E+17 Y-90 8. 0762E-01 1.4844E-09 9. 9326E+15 3. 9163E+16 Y-91 2. 1704E-01 8.8501E-09 5. 8567E+16 3.6934E+16 Y-92 4.7487E-03 4. 9351E-13 3. 2304E+12 5.4793E+1i' Y-93 8.2567E-03 2.4748E-12 1. 6025E+13 2.2189E+16 Zr-95 2.4547E-01 1. 1426E-08 7.2431E+16 4.6834E+16 Zr-97 3.5453E-02 1.8546E-11 1. 1514E+14 3.1840E+1E Nb-95 2.5179E-01 6.4390E-09 4.0817E+16 4.7274E+16; Mo-99 2. 1830E+00 4.5516E-09 2.7687E+16 6.0628E+17 Tc-99m 2.2339E+00 4 .2483E-10 2.5842E+15 5.5799E+17 Ru-103 2.9369E+00 9.0999E-08 5.3205E+17 5.6626E+17 Ru-105 1. 1920E-03 1. 7733E-13 1.0170E+12 1.1784E+17 Ru-106 1.2915E+00 3.8605E-07 2.1932E+18 2.4304E+17 Rh-105 9. 1387E-01 1.0827E-09 6.2098E+15 3.4130E+17' Sb-127 2.9530E+00 1. 1058E-08 5.2434E+16 7.3268E+17' Sb-129 5.6644E-03 1.0073E-12 4. 7024E+12 6.7203E+17' Te-127 3. 3621E+00 1.2739E-09 6. 0408E+15 7.4828E+17' Te-127m 5. 7389E-01 6.0842E-08 2. 8850E+17 1.0759E+17 Te-129 1.5428E+00 7. 3670E-11 3. 4391E+14 9.0718E+17' Te-129m 1.7750E+00 5. 8919E-08 2. 7505E+17 3.4301E+17 Te-131m 1. 8415E+00 2.3093E-09 1.0616E+16 8.2577E+17 Te-132 3.5510E+01 1. 1697E-07 5.3363E+17 9.2726E+1E 1-131 5.0924E+02 4.1076E-06 1. 8883E+19 4.2401E+1l I-132 4.2390E+01 4 . 1067E-09 1. 8736E+16 1. 9363E+l19 l CC-AA-309-1001, Rev 2 1

Attachment A Page 49 of 58 I-133 2.4768E+02 2.1864E-07 9.8998E+17 6.3307E+19 I-135 7.4908E+00 2. 1330E-09 9.5150E+15 3.3609E+19 Xe-133 1.0948E+06 5.8487E-03 2.6483E+22 6.3798E+21 Xe-135 1.8462E+04 7.2293E-06 3.2249E+19 6.8059E+20 Cs-134 5. 6793E+01 4.3895E-05 1.9727E+20 1.0869E+19 Cs-136 1.5204E+01 2.C744E-07 9. 1857E+17 3.1540E+18 Cs-137 3.5005E+01 4.C244E-04 1.7690E+21 6.6902E+18 Ba-139 9. 0696E-10 5. 448E-20 2.4023E+05 3.2064E+17 Ba-140 2.3870E+01 3.2606E-07 1. 4026E+18 4.8716E+18 La-140 1. 4055E+01 2.5287E-08 1.0877E+17 7.5272E+17 La-141 5.2856E-05 9. 3461E-15 3. 9917E+10 1.2279E+16 La-142 1.0261E-10 7. 1676E-21 3.0398E+04 3.4197E+15 Ce-141 6.0546E-01 2. 1249E-08 9.0756E+16 1.1734E+1' Ce-143 2. 1120E-01 3. 1803E-10 1. 3393E+15 8.7388E+16 Ce-144 5. 1717E-01 1. E215E-07 6.7811E+17 9.7403E+16 Pr-143 2.3636E-01 3. 5101E-09 1.4782E+16 4.2940E+16 Nd-147 8. 9571E-02 1.1072E-09 4.5359E+15 1.8529E+16 Np-239 4.3772E+00 1.8868E-08 4.7542E+16 1.2992E+18 Pu-238 2.4959E-03 1.4579E-07 3. 6890E+17 4.6825E+14 Pu-239 2.0899E-04 3.3623E-06 8. 4720E+18 3.9084E+13 Pu-240 2.8243E-04 1.2395E-06 3. 1101E+18 5.2993E+1--J Pu-241 9.4543E-02 9.1778E-07 2.2933E+18 1.7743E+16 Am-241 5.6468E-05 1.6453E-08 4.1112E+16 1.0475E+1-,

Cm-242 1.2791E-02 3.8594E-09 9.6042E+15 2.4159E+15 Cm-244 9. 1500E-04 1. 1310E-08 2.7914E+16 1.7171E+14 Reactor Building Transport Group Inventory:

Time (h) = 48.0000 Atmosphere Sump Noble gases (atoms) 2.3734E+23 0.0000E+00 Elemental I (atoms) 1.9320E+18 0.OOOOE+00 Organic I (atoms) 1.0731E+19 0.OOOOE+00 Aerosols (kg) 4.7021E-04 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 8.2792E-09 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 8.6799E-09 Total I (Ci) 8.0680E+02 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 48.0000 Leakage Transport Noble gases (atoms) 1.2973E+24 Elemental I (atoms) 2.7249E+19 Organic I (atoms) 6. 7834E+19 Aerosols (kg) 7.7683E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 48.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0528E+24 Elemental I (atoms) 1.1657E+19 1.1657E+19 Organic I (atoms) 2.6831E+19 2.6831E+19 Aerosols (kg) 7.6401E-02 7.7173E-04 Exclusion Area Boundary Doses:

I CC-AA-309-1001, Rev 2

Attachment A Page 50 of 58 Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9537E-01 1.9768E+00 2.5596E-01 Accumulated dose (rem) 7.1221E-01 5.7690E+00 9. 2641E-01 Low Population Zone Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 6.9818E-02 4. 6422E-01 8.4047E-02 Accumulated dose (rem) 5.2039E-01 2.9255E+00 6.4395E-01 Control Room Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.3198E-04 2.7503E-02 1.5755E-03 Accumulated dose (rem) 6.4984E-03 2.2107E-01 1.5777E-02 Drywell Compartment Nuclide Inventory:

Time (h) 96.0000 Ci kg Atoms Decay Co-58 3.2097E-06 1. 0094E-13 1.0481E+12 2.2913E+17 Co-60 3.9893E-06 3.5291E-12 3.5421E+13 2.7451E+17 Kr-85 1.1685E+06 2.9,782E+00 2.1100E+25 1.5662E+22 Kr-85m 6.4275E+00 7.E103E-10 5.5335E+15 1.4536E+22 Kr-88 3.2448E-03 2.5877E-13 1.7708E+12 2.2353E+22 Rb-86 1.2408E-04 1. 5249E-12 1.0678E+13 1.0991E+19 Sr-89 4. 0139E-03 1.3816E-10 9. 3485E+14 2.9097E+20 Sr-90 6. 1599E-04 4.5158E-09 3. 0216E+16 4.2339E+19 Sr-91 4.8850E-06 1.3476E-15 8. 9179E+09 3.1004E+2()

Y-90 3. 9941E-04 7.3413E-13 4. 9123E+12 1.0030E+18 Y-91 6.5914E-05 2.6E878E-12 1.7787E+13 3.8639E+18 Y-92 1.2872E-10 1.3377E-20 8.7566E+04 4.7896E+19 Y-93 9.4754E-08 2.8401E-17 1.8391E+08 4.0075E+18 Zr-95 7.4304E-05 3. 4588E-12 2.1925E+13 5.3260E+18 Zr-97 1.5314E-06 8.0108E-16 4.9734E+09 4.8824E+18 Nb-95 7. 7751E-05 1. 9884E-12 1.2604E+13 5.3569E+18 Mo-99 4.0791E-04 8 .5049E-13 5. 1735E+12 7.4852E+19 Tc-99m 4. 1820E-04 7. 9532E-14 4. 8379E+11 6.6869E+19 Ru-103 8.7698E-04 2. 7173E-11 1.5887E+14 6.4551E+19 Ru-105 2.0527E-10 3.0537E-20 1.7514E+05 3.1548E+19 Ru-106 3.9802E-04 1.1897E-10 6. 7590E+14 2.7551E+19 Rh-105 1. 1035E-04 1.3073E-13 7. 4981E+11 4.2876E+19 Sb-127 6.3726E-04 2.3863E-12 1. 1315E+13 8.8321E+19 Sb-129 7. 9215E-10 1.4087E-19 6.5761E+05 1.8283E+20 Te-127 7.8324E-04 2. 9678E-13 1.4073E+12 8.8632E+19 Te-127m 1.7703E-04 1.8768E-11 8.8993E+13 1.2183E+19 Te-129 4.5559E-04 2. 1755E-14 1. 0156E+11 2.0395E+20 Te-129m 5.2687E-04 1. 7489E-11 8. 1646E+13 3.9017E+19 Te-131m 1.8791E-04 2. 3565E-13 1.0833E+12 1. 1210E+20 Te-132 7. 1781E-03 2.3644E-11 1. 0787E+14 1.1300E+21 I-131 2.7200E+04 2.1940E-04 1.0086E+21 5.2180E+21 I-132 1.2409E-02 1.2021E-12 5.4844E+12 5.3089E+21 I-133 3. 1765E+03 2.8041E-06 1.2697E+19 9.3767E+21.

I-135 3.0994E+00 8. 8256E-10 3. 9369E+15 7.3527E+21 Xe-133 8.4150E+07 4 .4956E-01 2.0356E+24 1.4880E+24 Xe-135 4.7535E+04 1.8614E-05 8.3034E+19 1.2584E+23

- -CC-AA-309-1001, Rev 2

Attachment A Page 51 of 58 Cs-134 1. 6188E-02 1.2512E-08 5. 6230E+16 1.2448E+2:L Cs-136 3.9057E-03 5.-,290E-11 2.3597E+14 3.6792E+20 Cs-137 9.9949E-03 1.]1491E-07 5.0510E+17 7. 6601E+20 Ba-140 6.6226E-03 9.0C462E-11 3.8913E+14 5.6255E+20 La-140 5. 8391E-03 1.0505E-ll 4.5189E+13 1.7944E+19 Ce-141 1.7948E-04 6.2989E-12 2. 6903E+13 1.3383E+19 Ce-143 2.3838E-05 3.5896E-14 1.5117E+l1 1.1684E+19 Ce-144 1.5920E-04 4.9914E-11 2. 0874E+14 1.1044E+19 Pr-143 6.9964E-05 1. 0390E-12 4.3754E+12 4.7745E+18 Nd-147 2.4421E-05 3.0187E-13 1.2367E+12 2.1461E+18 Np-239 7. 5157E-04 3.2397E-12 8.1631E+12 1.6262E+20 Pu-238 7. 7221E-07 4.5107E-ll 1. 1413E+14 5.3045E+16 Pu-239 6.4809E-08 l.C427E-09 2. 6272E+15 4.4236E+15 Pu-240 8.7367E-08 3.8341E-10 9. 6206E+14 6.0034E+15 Pu-241 2.9238E-05 2.8383E-10 7. 0923E+14 2.0101E+18 Am-241 1.7724E-08 5.1641E-12 1.2904E+13 1. 1836E+15 Cm-242 3.9233E-06 1.1837E-12 2. 9457E+12 2.7410E+1,'

Cm-244 2.8298E-07 3.4978E-12 8. 6329E+12 1. 9453E+16 Drywell Transport Group Inventory:

Time (h) = 96.0000 Atmosphere Sump Noble gases (atoms) 2.3136E+25 0.OOOOE+00 Elemental I (atoms) 1.5190E+20 5.6164E+22 Organic I (atoms) 8.6938E+20 0.OOOOE+00 Aerosols (kg) 1.3465E-07 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 6.1976E-06 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.2693E-06 Total I (Ci) 3.0379E+04 Deposition Recirculating Time (h) = 96.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 4.9919E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 96.0000 Leakage Transport Noble gases (atoms) 2.5160E+24 Elemental I (atoms) 3. 6032E+19 Organic I (atoms) 1. 1810E+20 Aerosols (kg) 7.7684E-02 Drywell to Void Transport Group Inventory:

Time (h) = 96.0000 Leakage Transport Noble gases (atoms) 4.8055E+23 Elemental I (atoms) 9.2101E+18 Organic I (atoms) 2.2649E+19 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 96.0000 Ci kg Atoms Decay GC-4AA-309-1001, Rev 2

Attachment A Page 52 of 58 Co-58 4.7351E-05 1.4891E-12 1.5461E+13 2.0274E+15 Co-60 5.8851E-05 5.2063E-11 5. 2255E+14 2.4372E+15 Kr-85 1. 1052E+04 2.8171E-02 1.9959E+23 1.3348E+20 Kr-85m 6.0798E-02 7.R878E-12 5.2341E+13 5.6784E+19 Kr-88 3.0692E-05 2.4477E-15 1. 6750E+10 6. 4953E+1' Rb-86 1.9824E-03 2.4364E-11 1.7061E+14 9.5257E+16 Sr-89 5. 9214E-02 2.0C382E-09 1.3791E+16 2.5708E+18 Sr-90 9.0872E-03 6.6619E-08 4. 4576E+17 3.7595E+11 Sr-91 7.2064E-05 1.9880E-14 1.3156E+ll 1.6771E+18 Y-90 5.8955E-03 l.C836E-11 7.2507E+13 4.0167E+16 Y-91 9.7372E-04 3.9705E-11 2. 6276E+14 3.7176E+16 Y-92 1.9090E-09 1.9839E-19 1.2986E+06 5.4793E+17 Y-93 1.3978E-06 4.1898E-16 2.7130E+09 2.2194E+16 Zr-95 1.0962E-03 5.1025E-11 3.2345E+14 4.7106E+1(6 Zr-97 2.2592E-05 1.1818E-14 7.3369E+10 3.1869E+16E Nb-95 1.1470E-03 2.9333E-11 1.8594E+14 4.7555E+16; Mo-99 6.0175E-03 1.2547E-11 7. 6321E+13 6.0852E+17 Tc-99m 6. 1694E-03 1.1733E-12 7. 1370E+12 5.6016E+17 Ru-103 1.2937E-02 4.0086E-10 2.3437E+15 5.6952E+17 Ru-105 3.0282E-09 4.5049E-19 2.5837E+06 1.1784E+17 Ru-106 5.8717E-03 1.7551E-09 9. 9710E+15 2.4448E+17 Rh-105 1.6279E-03 1.9286E-12 1. 1061E+13 3.4217E+17 Sb-127 9. 4010E-03 3.5203E-11 1. 6693E+14 7.3577E+17 Sb-129 1.1686E-08 2.0781E-18 9. 7013E+06 6.7203E+17 Te-127 1. 1555E-02 4.3782E-12 2.0761E+13 7.5173E+17 Te-127m 2. 6115E-03 2.7686E-10 1.3128E+15 1.0823E+17 Te-129 6. 7210E-03 3.2093E-13 1. 4982E+12 9.0847E+17 Te-129m 7.7725E-03 2.5801E-10 1.2045E+15 3.4497E+17 Te-131m 2.7721E-03 3.4764E-12 1.5981E+13 8.2748E+17 Te-132 1. 0589E-01 3.488OE-10 1.5913E+15 9.3094E+18 I-131 2.5800E+02 2.0811E-06 9.5667E+18 4.4452E+19 I-132 1.2641E-01 1.2246E-11 5.5870E+13 1.9401E+19 I-133 3.0130E+01 2.6598E-08 1.2043E+17 6.3877E+19 I-135 2.9399E-02 8.3713E-12 3. 7343E+13 3.3616E+19 Xe-133 7.9597E+05 4.2524E-03 1.9255E+22 1.2381E+22 Xe-135 4.4964E+02 1.7607E-07 7.8543E+17 7.1162E+20 Cs-134 2.5864E-01 1.9990E-07 8. 9839E+17 1.0932E+19 Cs-136 6.2401E-02 8.5141E-10 3.7701E+15 3.1707E+18 Cs-137 1.5969E-01 1.8359E-06 8. 0701E+18 6.7293E+18 Ba-140 9.7699E-02 1.3345E-09 5.7405E+15 4.8977E+18 La-140 8. 6178E-02 1.5504E-10 6. 6693E+14 7.6957E+17 La-141 5.0778E-11 8.9788E-21 3.8349E+04 1.2279E+16 Ce-141 2.6476E-03 9.2920E-11 3.9686E+14 1.1801E+17 Ce-143 3.5166E-04 5.2954E-13 2.2301E+12 8.7587E+16 Ce-144 2.3486E-03 7.3635E-10 3.0794E+15 9.7980E+16 Pr-143 1.0324E-03 1.5331E-11 6.4563E+13 4.3202E+16 Nd-147 3.6027E-04 4. 4533E-12 1.8244E+13 1.8626E+16 Np-239 1. 1087E-02 4.77792E-11 1.2042E+14 1.3036E+18 Pu-238 1.1392E-05 6.6543E-10 1.6837E+15 4.7104E+14 Pu-239 9.5608E-07 1.5.382E-08 3.8758E+16 3.9318E+13 Pu-240 1.2889E-06 5.6562E-09 1.4193E+16 5.3309E+13 Pu-241 4. 3132E-04 4.1371E-09 1.0463E+16 1.7848E+16 Am-241 2.6147E-07 7.6L83E-11 1. 9037E+14 1.0538E+13 Cm-242 5.7877E-05 1.7463E-11 4. 3456E+13 2.4301E+15 Cm-244 4.1746E-06 5.1601lE-11 1.2735E+14 1.7273E+14 CC-AA-309-1001, Rev 2

Affachment A Page 53 of 58 Reactor Building Transport Group Inventory:

Time (h) = 96.0000 Atmosphere Sump Noble gases (atoms) 2.1884E+23 0.OOOOE+00 Elemental I (atoms) 1.4370E+18 0.OOOOE+00 Organic I (atoms) 8.2235E+18 0.OOOOE+00 Aerosols (kg) 2.1428E-06 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.9525E-09 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.9982E-09 Total I (Ci) 2.8828E+02 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 96.0000 Leakage Transport Noble gases (atoms) 2.5160E+24 Elemental I (atoms) 3. 6032E+19 Organic I (atoms) 1. 1810E+20 Aerosols (kg) 7.7684E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.2839E+24 Elemental I (atoms) 1.6120E+19 1.6120E+19 Organic I (atoms) 5.2220E+19 5.2220E+19 Aerosols (kg) 7.6864E-02 7.7641E-04 Exclusion Area Boundary Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.8448E-01 6. 8819E+00 6. 9404E-01 Accumulated dose (rem) 1.1967E+00 1.2651E+01 1.6205E+00 Low Population Zone Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.6094E-02 4. 3026E-01 5. 9196E-02 Accumulated dose (rem) 5.6649E-Ol 3.3558E+OO 7.0314E-O1 Control Room Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 3.6676E-04 1.9224E-02 9.5216E-04 Accumulated dose (rem) 6.8651E-03 2. 4029E-01 1.6729E-02 Drywell Compartment Nuclide Inventory:

Time (h) = 720.0000 Ci kg Atoms Decay Kr-85 5. 3317E+05 1.3590E+00 9.6281E+24 8.2919E+22 I-131 1.3254E+03 1.0691E-05 4.9145E+19 5. 9293E+21 I-133 1.3561E-06 1.1371E-15 5.4205E+09 9. 3889E+21 Xe-133 1.2419E+06 6.6.345E-03 3.0040E+22 3. 1215E+24 Drywell Transport Group Inventory:

I CC-AA-309-1001, Rev 2 l

Aftachment A Page 54 of 58 Time (h) = 720.0000 Atmosphere Sump Noble gases (atoms) 9.6581E+24 0.0000E+00 Elemental I (atoms) 7.3097E+18 5.E164E+22 Organic I (atoms) 4.1835E+19 0.0000E+00 Aerosols (kg) 4.8652E-35 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 2.9623E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2.9623E-07 Total I (Ci) 1.3254E+03 Deposition Recirculating Time (h) = 720.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 0.0000E+00 Organic I (atoms) 0.OOOOE+00 0.0000E+00 Aerosols (kg) 4.9919E+01 0.0000E+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 720.0000 Leakage Transport Noble gases (atoms) 1.2417E+25 Elemental I (atoms) 6. 7115E+19 Organic I (atoms) 2.9600E+20 Aerosols (kg) 7.7684E-02 Drywell to Void Transport Group Inventory:

Time (h) = 720.0000 Leakage Transport Noble gases (atoms) 2.3570E+24 Elemental I (atoms) 1.5101E+19 Organic I (atoms) 5. 6367E+19 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 720.0000 Ci kg Atoms Decay Kr-85 5.0434E+03 1.2855E-02 9. 1074E+22 7.6969E+20 I-131 1.2537E+01 1.0112E-07 4. 6488E+17 5.1181E+19 I-133 1.2828E-08 1. 1324E-17 5.1274E+07 6.3993E+19 Xe-133 1. 1747E+04 6.2757E-05 2. 8416E+20 2.7832E+22 Reactor Building Transport Group Inventory:

Time (h) = 720.0000 Atmosphere Sump Noble gases (atoms) 9.1358E+22 0.OOOOE+00 Elemental I (atoms) 6.9144E+16 0.OOOOE+00 Organic I (atoms) 3.9573E+17 0.OOOOE+00 Aerosols (kg) 5.3699E-36 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1. 8840E-10 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1. 8840E-10 Total I (Ci) 1.2537E+01 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 720.0000 Leakage Transport Noble gases (atoms) 1.2417E+25 Elemental I (atoms) 6.7115E+19 CC-AA-309-1001, Rev 2

Attachment A Page 55 of 58 Organic I (atoms) 2.9600E+20 Aerosols (kg) 7.7684E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.2296E+25 Elemental I (atoms) 3.1836E+19 3.1836E+19 Organic I (atoms) 1.4217E+20 1.4217E+20 Aerosols (kg) 7.6866E-02 7.7643E-04 1020 I-131 Suamary Drywell Reactor Building Environment Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curie!s) 0.000 4.5398E+03 0.OOOOE+00 0.0000E+00 0.033 2.6873E+05 0.OOOOE+00 0.0000E+00 0.290 2.1314E+06 2.8435E+02 9.4478E-02 0.500 3.4220E+06 8.0590E+02 4.4543E-0]

0.667 5.2933E+06 1.4476E+03 9.9554E-01

0. 920 7.9848E+06 2.9206E+03 2.5189E+00 1.170 1.0478E+07 4.9143E+03 5.0689E+0C0 1.420 1.2825E+07 7.3942E+03 8.8499E+OC0 1.670 1.5034E+07 1.0314E+04 1.4011E+01

1. 920 1.7116E+07 1.3633E+04 2.0677E+01 2.000 1.7756E+07 1.4772E+04 2.3146E+01 2.400 1.2091E+07 2.0147E+04 3.7850E+01 2.700 9.0928E+06 2.2715E+04 5.0584E+01 3.000 6.8479E+06 2.4390E+04 6.4134E+01 3.050 6.5324E+06 2.4599E+04 6.6447E+01 3.400 4.7034E+06 2.5626E+04 8.2919E+01 3.700 3.5519E+06 2.6020E+04 9.7296E+01 4.000 2.6849E+06 2.6090E+04 1.1177E+02 4 .300 2.0320E+06 2.5924E+04 1.2625E+02 4.600 1.5405E+06 2.5588E+04 1.4067E+02 4 . 900 1.1703E+06 2.5131E+04 1.5497E+02 5.200 9.5334E+05 2.4596E+04 1.6912E+02 5.500 8.0438E+05 2.4027E+04 1.8311E+02 5.800 6.7975E+05 2.3436E+04 1.9691E+02 6.100 5.7548E+05 2.2829E+04 2.1054E+02 6.400 4.8824E+05 2.2213E+04 2.2397E+02 6.700 4.1524E+05 2.1594E+04 2.3721E+02 7.000 3.5417E+05 2.0975E+04 2.5025E+02 7.300 3.0307E+05 2.0360E+04 2.6310E+02

7. 600 2.6031E+05 1.9751E+04 2.7576E+02

7. 900 2.2452E+05 1.9151E+04 2.8822E+02 8.000 2.1394E+05 1.8954E+04 2.9233E+02 8.300 1.8573E+05 1.8368E+04 3.0454E+02

8. 600 1.6525E+05 1.7795E+04 3.1657E+02 8.900 1.4767E+05 1.7235E+04 3.2842E+02 l CC-AA-309-1001, Rev 2

Attachment A Page 56 of 58 9.200 1.3257E+05 1.6690E+04 3.4009E+02 9.500 1. 1960E+05 1. 6158E+04 3.5158E+02 9.800 1.0846E+05 1.5642E+04 3.6291E+02 10.100 9.8889E+04 1. 5139E+04 3.7407E+02 10.400 9.0663E+04 1. 4651E+04 3.8508E+02 16.000 4.3406E+04 7.8958E+03 5.6600E+02 24.000 3.8631E+04 3.3428E+03 7.7264E+02 48.000 3.4324E+04 5.0924E+02 1.2599E+03

96. 000 2.7200E+04 2.5800E+02 2.0410E+03 720.000 1.3254E+03 1.2537E+01 4.8751E+03 Control Room Void Time (hr) I-131 (Curies) I-131 (Curies) 0.000 O.OOOOE+00 O.OOOOE+00 0.033 0.0000E+00 O.OOOOE+00 0.290 5.8753E-06 1.0685E+02 0.500 1.7646E-05 3.0534E+02

0. 667 3.1054E-05 5.5155E+02 0.920 2.7490E-05 1.1217E+03 1.170 2.5662E-05 1.9033E+03 1.420 2.5436E-05 2.8889E+03 1 . 670 2.6705E-05 4.0664E+03

1. 920 2.9353E-05 5.4245E+03 2.000 3.0472E-05 5.8954E+03 2.400 2.9631E-05 7.0600E+03 2.700 2.9931E-05 7.6807E+03 3.000 3.0558E-05 8.1454E+03 3.050 3.0677E-05 8.2105E+03 3.400 3.1539E-05 8.5882E+03 3.700 3.2242E-05 8.8240E+03 4 .000 3.2855E-05 8.9997E+03 4.300 3.3350E-05 9.1301E+03

4. 600 3.3718E-05 9.2264E+03

4. 900 3.3959E-05 9.2970E+03 5.200 3.4083E-05 9.3496E+03 5.500 3.4103E-05 9.3921E+03 5.800 3.4034E-05 9.4263E+03 6.100 3.3890E-05 9.4537E+03 6.400 3.3684E-05 9. 4754E+03 6.700 3.3426E-05 9.4923E+03 7.000 3.3126E-05 9.5052E+03 7.300 3.2791E-05 9.5147E+03

7. 600 3.2430E-05 9.5214E+03

7. 900 3.2048E-05 9.5257E+03 8.000 3.1917E-05 9.5267E+03 8.300 2.9630E-05 9.5285E+03 8.600 2.7729E-05 9.5289E+03

8. 900 2.6139E-05 9.5281E+03 9.200 2.4802E-05 9.5264E+03 9.500 2.3669E-05 9.5238E+03 9.800 2.2702E-05 9.5205E+03 10.100 2.1871E-05 9.5166E+03 10.400 2.1150E-05 9.5121E+03

16. 000 1.5164E-05 9.3886E+03 24 .000 1.1998E-05 9.1890E+03 CC-AA-309-1001, Rev 2

Attachment A Page 57 of 58 48.000 3.9476E-06 8.6033E+03 96.000 3.0935E-06 7.5145E+03 720. 000 4.4617E-08 1.0487E+03 Cumulative Dose Summary Exclusion Area Bounda Low Pcpulation Zone Contro 1 Room Time Thyroid TEDE Thyroid TEDE Thyroid TEDE (hr) (rem) (rem) (rem) (rem) (rem) (rem) 0.000 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.033 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 0.290 7.8824E-03 5.0020E-04 1. 5112E-03 9.5899E-05 1.8692E-04 6.944:8E-06 0.500 3.7099E-02 2. 4132E-03 7. 1127E-03 4.6266E-04 1.0609E-03 3.9784E-05 0.667 3.8958E-02 2.5445E-03 1.3085E-02 8.8447E-04 2.5197E-03 9.5572E-05 0.920 4. 4112E-02 2. 9910E-03 2.9646E-02 2.3190E-03 5.2141E-03 2.0092E-04 1.170 5.2750E-02 .3.8810E-03 5.7399E-02 5.1789E-03 7.6214E-03 2.9765E-04 1.420 6.5564E-02 5.3575E-03 9.8574E-02 9.9232E-03 9. 9316E-03 3.95E;6E-04 1.670 8.3055E-02 7.5302E-03 1.5478E-01 1.6904E-02 1.2288E-02 5.04-;lE-04 1.920 1.0564E-01 1.0485E-02 2.2733E-01 2.6399E-02 1.4822E-02 6.3148E-04 2.000 1.1400E-01 1. 1607E-02 2.5419E-01 3.0005E-02 1.5690E-02 6.7748E-04 2.400 1. 6379E-01 1.8665E-02 3. 2256E-01 3.9695E-02 2.0030E-02 9.1714E-04 2.700 2. 0683E-01 2.5216E-02 3. 8166E-01 4.8690E-02 2.3264E-02 1.1060OE-03 3.000 2.5254E-01 3.2567E-02 4.4443E-01 5.8783E-02 2.6548E-02 1.3077E-03 3.050 2. 6033E-01 3. 3851E-02 4.5512E-01 6.0546E-02 2. 7101E-02 1.3426E-03 3.400 3.1573E-01 4.3283E-02 5. 3118E-01 7.3497E-02 3. 1037E-02 1.5986E-03 3.700 3. 6394E-01 5. 1836E-02 5. 9738E-01 8. 5241E-02 3.4490E-02 1.8332E-03 4 .000 4. 1234E-01 6.0699E-02 6. 6383E-01 9.7409E-02 3.8008E-02 2.08C6E-03 4.300 4. 6061E-01 6.9779E-02 7.3011E-01 1.0988E-01 4. 1580E-02 2.33§lE-03 4.600 5.0852E-01 7.9003E-02 7. 9589E-01 1.2254E-01 4.5190E-02 2.6069E-03 4.900 5. 5590E-01 8.8309E-02 8.6095E-01 1.3532E-01 4.8824E-02 2.8823E-03 5.200 6. 0265E-01 9.7646E-02 9.2513E-01 1.4814E-01 5.2469E-02 3.1634E-03 5.500 6. 4869E-01 1.0698E-01 9.8835E-01 1. 6095E-01 5. 6112E-02 3.4488E-03 5.800 6. 9401E-01 1.1626E-01 1.0506E+00 1. 7370E-01 5.9743E-02 3.7370E-03 6.100 7.3858E-01 1.2549E-01 1. 1118E+00 1. 8636E-01 6.3353E-02 4.0267E-03 6.400 7.8240E-01 1.3462E-01 1. 1719E+00 1. 9890E-01 6.6935E-02 4.31E9E-03 6.700 8 .2546E-01 1.4364E-01 1.2311E+00 2. 1130E-01 7.0482E-02 4.6065E-03 7.000 8.6776R-01 1.5255E-01 1.2891E+00 2.2352E-01 7.3990E-02 4.8949E-03 7.300 9. 0930E-01 1. 6132E-01 1.3462E+00 2.3557E-01 7.7455E-02 5.1813E-03 7.600 9.5010E-01 1. 6996E-01 1.4022E+00 2.4742E-01 8.0874E-02 5.4651E-03

7. 900 9. 9017E-01 1.7844E-01 1.4572E+00 2.5908E-01 8.4244E-02 5.7459E-03 8.000 1.0034E+00 1. 8124E-01 1.4753E+00 2.6291E-01 8.5356E-02 5.8388E-03 8.300 1.0425E+00 1.8952E-01 1.4934E+00 2. 6954E-01 8.8559E-02 6.1057E-03

8. 600 1.0809E+00 1. 9765E-01 1.5111E+00 2. 7605E-01 9. 1535E-02 6.3532E-03 8.900 1.1186E+00 2.0562E-01 1.5285E+00 2.8243E-01 9.4324E-02 6.5847E-03 9.200 1. 1556E+00 2.1343E-01 1.5457E+00 2. 8869E-01 9.6954E-02 6.8029E-03 9.500 1. 1920E+00 2.2109E-01 1.5625E+00 2.9482E-01 9.9450E-02 7.0099E-03 9.800 1.2278E+00 2.2859E-01 1.5790E+00 3.0084E-01 1. 0183E-01 7.2073E-03

10. 100 1.2629E+00 2.3593E-01 1.5952E+00 3.0673E-01 1. 0412E-01 7.3966E-03 10.400 1.2975E+00 2.4313E-01 1. 6112E-00 3.1250E-01 1. 0631E-01 7.5788E-03 16.000 1. 8541E+00 3.5577E-01 1.8683E-00 4. 0306E-01 1.3902E-01 1.0264E-02 24.000 2. 4613E+00 4. 6678E-01 2. 1487E-00 4. 9250E-01 1. 7304E-01 1.2854E-02 48.000 3.7923E+00 6.7046E-01 2. 4613E+00 5.5990E-01 1. 9356E-01 1.4201E-02

96. 000 5.7690E+00 9.2641E-01 2.9255E-00 6.4395E-01 2.2107E-01 1.5777E-02 CC-AA-309-1001, Rev 2

Attachment A Page 58 of 58 720.000 1.2651E+01 1.6205E+00 3.3558E+00 7.0314E-01 2.4029E-01 1.6729E-02 Worst Two-Hour Doses Exclusion Area Boundary Time Whole Body Thyroid TEDE (hr) (rem) (rem) (rem) 4.3 4.6651E-02 3.0719E-01 6.1794E-02 CC-AA-309-1001, Rev 2

Attachment B Page 1 of 65 Attachment B RADTRAD Output - QDC400CL61.psf RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:45:27 File information Plant file = C:\RADTRAD 3.03\Input\Quad\QDC400CL61.psf Inventory file = c:\radtrad 3.03\defaults\qdc_def.txt Release file = c:\radtrad 3.03\defaults\bwrdba.rft Dose Conversion file = c:\radtrad 3.02\defaults\fgrll&12.inp it itititititit it ititititit it it it it it itit itit itit it it it it# #t it itit it it it it it it it it it it ititititit it it it it it it it it itit it it it it it it it it it iut it it #t it it itititit it itit itit #t Radtrad 3.03 4/15/2001 Quad Cities Containment Leakage AST Analysis - Containment Leakage = 3 %/day, SGTS Charcoal Filter @ 50%, CREV Manually Started @ 40 Minutes, CREV Charcoal Filter @ 99%, No Reduction In Containment Leakage After 24 hrs, and CR Unfiltered Inleakage = 60,000 Nuclide Inventory File:

c:\radtrad 3.03\defaults\qdcdef.txt Plant Power Level:

3.0160E+03 Compartments:

5 Compartment 1:

Drywell 3

1.5800E+05 1

0 0

1 0

Compartment 2:

Reactor Building 3

CC-AA-309-1001, Rev 2

Attachment B Page 2 of 65 2.3500E+06 0

0 0

Compartment 3:

Environment 2

0. OOOOE+00 0

0 0

Compartment 4:

Control Room 1

1. 8400E+05 0

0 0

Compartment 5:

Void 3

1.OOOOE+05 0

0 0

Pathways:

6 Pathway 1:

Drywell to Reactor Building 1

2 4

Pathway 2:

Reactor Building to Environment 2

3 Pathway 3:

Filtered Intake to Control Room 3

4 2

Pathway 4:

Unfiltered Inleakage to Control Room 3

4 2

CC-AA-309-1001, Rev22

Attachment B Page 3 of 65 Pathway 5:

Control Room Exhaust to Environment 4

3 2

Pathway 6:

Drywell to Void 1

5 4

End of Plant Model File Scenario Description Name:

Plant Model Filename:

Source Term:

1 1 1.OOOOE+00 c:\radtrad 3.03\defaults\fgrll&12.inp c:\radtrad 3.03\defaults\bwr dba.rft 0.0000E+00 1

9.5000E-01 4.8500E-02 1.5000E-03 1.OOOOE+00 Overlying Pool:

0 o.OOOOE+00 0

0 0

0 Compartments:

5 Compartment 1:

1 1

1 0.OOOOE+00 0

1 o.OOOOE+00 2

o.oooE+00 3.2800E+00 7.2000E+02 0.OOOOE+00 1

o.OOOOE+00 0

0 0

3 3

1.OOOOE+01 1

1 0.OOOOE+00 0.OOOOE+00 Compartment 2:

l CC-AA-309-1001, Rev 2

Attachment B Page 4 of 65 1

1 0

0 0

0 Compartment 3:

0 1

0 0

0 Compartment 4:

0 1

0 0

0 Compartment 5:

0 1

0 0

0 Pathways:

6 Pathway 1:

0 0

1 8

0.OOOOE+00 0.OOOOE+00 l CC-AA-309-1001, Rev 2

Attachment B Page 5 of 65 3.3300E-02 2. 1870E+00 2.0000E+00 2.5220E+00 3.0000E+00 2.5220E+00 3.0500E+00 2.5220E+00

3. 1000E+00 2.5220E+00 4.OOOOE+00 2.5220E+00 7.2000E+02 O.OOOOE+00 0

Pathway 2:

0 0

0 1

3 O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 4.4000E+03 9. 9000E+01 5. OOOOE+01 5. OOOOE+01 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 3:

0 0

0 1

10 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+01 2.0000E+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 4.OOOOE+00 1.8000E+03 9. 9000E+01 9.9000E+01 9. 9000E+01 8.OOOOE+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 1.6000E+01 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01 2.4000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 4.8000E+01 1.8000E+03 9.9000E+01 9.9000E+01 9. 9000E+01 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 4:

0 0

0 CC-AtA-309-1001, Rev 2

U-Attachment B Page 6 of 65 1

10

0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 3.3300E-02 6. OOOOE+04 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00

6. 6670E-01 4. OOOOE+02 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00

2. OOOOE+00 4. OOOOE+02 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 4.OOOOE+00 4. OOOOE+02 O.OOOOE+00 0. OOOOE+00 0. OOOOE+00

8. OOOOE+00 4. OOOOE+02 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00

1. 6000E+01 4. OOOOE+02 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00

2. 4000E+01 4. OOOOE+02 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00

4. 8000E+01 4. OOOOE+02 O.OOOOE+00 0. OOOOE+00 0.OOOOE+00 7.2000E+02 0. OOOOE+00 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00 0

0 0

0 Pathway 5:

0 0

0 1

10

0. OOOOE+00 0. OOOOE+00 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00 3.3300E-02 6.2200E+04 O.OOOOE+00 0.OOOOE+00 0.OOOOE+00 6.6670E-01 2.2000E+03 O.OOOOE+00 0.OOOOE+00 0.OOOOE+00

2. OOOOE+00 2.2000E+03 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00

4. OOOOE+00 2.2000E+03 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00

8. OOOOE+00 2.2000E+03 0. OOOOE+00 0. OOOOE+00 0.OOOOE+00 1.6000E+01 2.2000E+03 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00 2.4000E+01 2.2000E+03 0.OOOOE+00 0. OOOOE+00 0. OOOOE+00 4.8000E+01 2.2000E+03 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 7.2000E+02 0.OOOOE+00 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 0

0 0

0 Pathway 6:

0 0

1 4

l CC-AA-309-1001, Rev 2

Attachment B Page 7 of 65 O.OOOOE+00 O.OOOOE+00 3.3300E-02 8. 1300E-01 2.OOOOE+00 4. 7800E-01 7.2000E+02 O.OOOOE+00 0

Dose Locations:

3 Location 1:

Exclusion Area Boundary 3

1 3

O.OOOOE+00 1.5700E-04 5.OOOOE-01 6.3800E-06 7.2000E+02 O.OOOOE+00 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 0

Location 2:

Low Population Zone 3

1 7

O.OOOOE+00 3. OlOOE-05

5. 0OOOE-01 2.0500E-05 2.00OOE+00 8.7600E-06 8.0000E+00 5.7300E-06 2.4000E+01 2.2800E-06 9.6000E+01 6.070OE-07 7.2000E+02 O.OOOOE+00 1

4 O.OOOOE+00 3.5000E-04 8.OOOOE+00 1.8000E-04

2. 4000E+01 2.3000E-04 7.2000E+02 O.OOOOE+00 0

Location 3:

Control Room 4

0 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 0.OOOOE+00 1

4 O.OOOOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 O.OOOOE+00 Effective Volume Location:

1 I CC-AA-309-1001, Rev 2

Attachment B Page 8 of 65 6

O.OOOOE+00 5.8400E-06 2.0000E+00 2.6800E-06 8.0000E+00 1.8100E-06 2.4000E+01 7.7700E-07 9.6000E+01 2.3000E-07 7.2000E+02 O.OOOOE+00 Simulation Parameters:

7 O.OOOOE+00 1.OOOOE-02 2.OOOOE+00 l.OOOOE-01 4.OOOOE+00 1.OOOOE+00 8.OOOOE+00 2.OOOOE+00 2.4000E+01 4.OOOOE+00 9.6000E+01 8.0000E+00 7.2000E+02 0.OOOOE+00 Output Filename:

C:\RADTRAD 3.o225 1

1 1

0 0

End of Scenario File RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:45:27

1. 1. 1. 1. 4i##

Plant Description Number of Nuclides = 60 Inventory Power = 1.OOOOE+00 MWth Plant Power Level = 3.0160E+03 MWth Number of compartments = 5 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Drywell Compartment volume = 1.5800E+05 (Cubic feet)

Compartment type is Normal Removal devices within compartment:

Spray(s)

Deposition Pathways into and out of compartment 1 Exit Pathway Number 1: Drywell to Reacto:r Building Exit Pathway Number 6: Drywell to Void CC-AA-309-1001, Rev 2

Attachment B Page 9 of 65 Compartment number 2 Name: Reactor Building Compartment volume = 2.3500E+06 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Drywell to Reactor Building Exit Pathway Number 2: Reactor Building to Environment Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 2: Reactor Euilding to Environment Inlet Pathway Number 5: Control Room Exhaust to Environment Exit Pathway Number 3: Filtered Intake to Control Room Exit Pathway Number 4: Unfiltered Inleakage to Control Room Compartment number 4 Name: Control Room Compartment volume = 1.8400E+05 (Cubic feet)

Compartment type is Control Room Pathways into and out of compartment 4 Inlet Pathway Number 3: Filtered Intake to Control Room Inlet Pathway Number 4: Unfiltered Inleakage to Control Room Exit Pathway Number 5: Control Room Exhaust to Environment Compartment number 5 Name: Void Compartment volume = 1.OOOOE+05 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 5 Inlet Pathway Number 6: Drywell to Void Total number of pathways = 6 CC-AA-309-1001, Rev 2

Attachment B Page 10 of 65 RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:45:27 Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings GAP EARLY IN-VESSEL LATE RELEASE RELEASE MASS 0.500000 hr 1.5000 hrs 0.0000 hrs (gm)

NOBLES 5.OOOOE-02 9.5000E-01 0.OOOOE+00 4.239E4-03 IODINE 5.OOOOE-02 2.5000E-01 0.OOOOE+00 2.605E+02 CESIUM 5.0000E-02 2.OOOOE-01 0.OOOOE+00 4.741E+04 TELLURIUM 0.OOOOE+00 5.OOOOE-02 0.OOOOE+00 3.503E+01 STRONTIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 1.611E+03 BARIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 3.902Ed01 RUTHENIUM 0.OOOOE+00 2.5000E-03 0.OOOOE+00 5.389E401 CERIUM 0.OOOOE+00 5.OOOOE-04 0.OOOOE+00 6.272Ed02 LANTHANUM 0.OOOOE+00 2.OOOOE-04 0.OOOOE+00 6.647E400 Inventory Power = 3016. MWt Nuclide Group Specific half Whole Body Inhaled InhalEd Name Inventory life DCF Thyroid Effective (Ci/MWt) (s) (Sv-m3/Bq-s) (Sv/Bq) (Sv/Bc[)

Co-58 7 1.529E+02 6.117E+06 4.760E-14 8. 720E-10 2.940E-09 Co-60 7 1.830E+02 1. 663E+08 1.260E-13 1. 620E-08 5.910E-08 Kr-85 1 4.364E+02 3. 383E+08 1.190E-16 0.OOOE+00 0.00 E-00 Kr-85m 1 6.772E+03 1. 613E+04 7.480E-15 0.OOOE+00 0.000E400 Kr-87 1 1.291E+04 4. 578E+03 4.120E-14 0.OOOE+00 0.000E400 Kr-88 1 1.815E+04 1.022E+04 1.020E-13 0. OOOE+00 0.000E400 Rb-86 3 7.096E+01 1. 612E+06 4.810E-15 1.330E-09 1.790E-09 Sr-89 5 2.428E+04 4.363E+06 7.730E-17 7. 960E-12 1.120E-08 Sr-90 5 3.528E+03 9. 190E+08 7.530E-18 2. 690E-10 3.510E-07 Sr-91 5 3.081E+04 3.420E+04 4.924E-14 9.930E-12 4.547E-10 Sr-92 5 3.362E+04 9.756E+03 6.790E-14 3. 920E-12 2.180E-10 Y-90 9 3.625E+03 2.304E+05 1.900E-16 5. 170E-13 2.280E-09 Y-91 9 3.155E+04 5.055E+06 2.600E-16 8. 500E-12 1.320E-08 Y-92 9 3.377E+04 1.274E+04 1.300E-14 1. 050E-12 2.110E-10 Y-93 9 3.942E+04 3. 636E+04 4.800E-15 9.260E-13 5.820E-10 Zr-95 9 4.443E+04 5.528E+06 3.600E-14 1.440E-09 6.390E-09 Zr-97 9 4.497E+04 6. 084E+04 4.432E-14 2.315E-11 1.171E-09 Nb-95 9 4.464E+04 3. 037E+06 3.740E-14 3. 580E-10 1.570E-09 Mo-99 7 5.121E+04 2.376E+05 7.280E-15 1.520E-11 1.070E-09 Tc-99m 7 4.484E+04 2. 167E+04 5.890E-15 5. 010E-11 8.800E-12 Ru-103 7 4.311E+04 3.394E+06 2.251E-14 2.570E-10 2.421E-09 Ru-105 7 3.034E+04 1.598E+04 3.810E-14 4. 150E-12 1.230E-10 Ru-106 7 1.837E+04 3.181E+07 1.040E-14 1.720E-09 1.290E-07 Rh-105 7 2.882E+04 1.273E+05 3.720E-15 2. 880E-12 2.580E-10 Sb-127 4 2.999E+03 3. 326E+05 3.330E-14 6.150E-11 1.630E-09 l CC-AA-309-1001, Rev 2

Attachment B Page 11 of 65 Sb-129 8. 877E+03 1. 555E+04 7. 140E-14 9.720E-12 1. 740E-10 Te-127 2. 986E+03 3.366E+04 2.420E-16 1.840E-12 8. 600E-ll Te-127m 4. 060E+02 9.418E+06 1.470E-16 9.660E-11 5. 810E--09 Te-129 8. 735E+03 4. 176E+03 2.750E-15 5. 090E-13 2.090E-ll Te-129m 1. 300E+03 2. 903E+06 3.337E-15 1. 563E-10 6.484E-09 Te-131m 3. 955E+03 1.080E+05 7.463E-14 3. 669E-08 1. 758E-09 Te-132 3. 850E+04 2. 815E+05 1.030E-14 6.280E-08 2. 550E-09 I-131 2. 710E+04 6. 947E+05 1.820E-14 2. 920E-07 8.8 90E-09 I-132 3. 914E+04 8.280E+03 1. 120E-13 1.740E-09 1. 030E--10 I-133 5.501E+04 7. 488E+04 2. 940E-14 4.86OE-08 1. 580E-09 I-134 6. 035E+04 3. 156E+03 1.300E-13 2.880E-10 3.550E-ll I-135 5. 157E+04 2.380E+04 8.294E-14 8.460E-09 3. 320E-10 Xe-133 5.282E+04 4. 532E+05 1.560E-15 O.OOOE+00 O.OOOE+OO Xe-135 2. 144E+04 3.272E+04 1. 190E-14 0.OOOE+00 O.OOOE400 Cs-134 8.009E+03 6.507E+07 7.570E-14 1.llOE-08 1. 25OE-08 Cs-136 2. 379E+03 1. 132E+06 1.060E-13 1.730E-09 1. 980E-09 Cs-137 4. 928E+03 9. 467E+08 2. 725E-14 7. 930E-09 8. 630E-09 Ba-139 4. 888E+04 4. 962E+03 2. 170E-15 2. 400E-12 4. 640E-11 Ba-140 4. 714E+04 1. 1O1E+06 8. 580E-15 2.560E-10 1. OlOE-09 La-140 5. 055E+04 1.450E+05 1. 170E-13 6. 870E-11 1. 310E-09 La-141 4. 447E+04 1.415E+04 2.39OE-15 9. 40OE-12 1. 570E-10 La-142 4.286E+04 5.550E+03 1. 440E-13 8.740E-12 6. 84OE-11 Ce-141 4. 465E+04 2.808E+06 3. 430E-15 2.550E-11 2. 420E-09 Ce-143 4. 101E+04 1. 188E+05 1.290E-14 6.230E-12 9.160E-10 Ce-144 3. 682E+04 2. 456E+07 2.773E-15 2. 920E-10 1. OlOE-07 Pr-143 3. 963E+04 1. 172E+06 2. 100E-17 1. 680E-18 2. 190E-09 Nd-147 1.800E+04 9. 487E+05 6. 190E-15 1.820E-11 1. 850E-09 Np-239 5.587E+05 2. 035E+05 7. 690E-15 7. 620E-12 6.780E-10 Pu-238 1.768E+02 2. 769E+09 4. 880E-18 3.860E-10 7.790E-05 Pu-239 1.474E+01 7. 594E+ll 4.240E-18 3. 750E-10 8. 330E-05 Pu-240 2.001E+01 2. 063E+ll 4. 750E-18 3.760E-10 8. 330E-05 Pu-241 6.700E+03 4.544E+08 7.250E-20 9. 150E-12 1. 34OE-06 Am-241 9. 857E+00 1.364E+10 8.180E-16 1. 600E-09 1.2OOE-04 Cm-242 2.285E+03 1. 407E+07 5. 690E-18 9.410E-10 4. 670E-06 Cm-244 1. 621E+02 5. 715E+08 4. 910E-18 1.OlOE-09 6.7O0E-O5 Nuclide Daughter Fraction Daughter Fraction Daughter Fraction Kr-85m Kr-85 0.21 none 0.00 none 0 . CI0 Kr-87 Rb-87 1.00 none 0.00 none 0.C0O Kr-88 Rb-88 1.00 none 0.00 none 0.CI0 Sr-90 Y-90 1. 00 none 0.00 none 0.C'0 Sr-91 Y-91m 0.58 Y-91 0.42 none 0.CI0 Sr-92 Y-92 1.00 none 0.00 none 0.CI0 Y-93 Zr-93 1.00 none 0.00 none 0. CIO Zr-95 Nb-95m 0.01 Nb-95 0.99 none 0.CO Zr-97 Nb-97m 0.95 Nb-97 0. 05 none 0 . C'O Mo-99 Tc-99m 0.88 Tc-99 0.12 none 0 . CIO Tc-99m Tc-99 1.00 none 0.00 none 0.C'0 Ru-103 Rh-103m 1.00 none 0.00 none 0.CI0 Ru-105 Rh-105 1.00 none 0.00 none 0. ('0 Ru-106 Rh-106 1.00 none 0.00 none 0 . CI0 Sb-127 Te-127m 0.18 Te-127 0.82 none 0 . CIO Sb-129 Te-129m 0.22 Te-129 0.77 none 0 . CO Te-127m Te-127 0. 98 none 0.00 none 0 . CIO Te-129 I-129 1.00 none 0.00 none 0.C'0 CC-AA-309-1001, Rev 2

Attachment B Page 12 of 65 Te-129m Te-129 0. 65 I-129 0.35 none 0.'0O Te-131m Te-131 0.22 I-131 0.78 none 0.'0O Te-132 I-132 1.00 none 0.00 none 0.1)0 I-131 Xe-131m 0.01 none 0.00 none 0.1)0 I-133 Xe-133m 0.03 Xe-133 0.97 none 0.1)0 I-135 Xe-135m 0.15 Xe-135 0.85 none 0.)00 Xe-135 Cs-135 1.00 none 0.00 none 0.00 Cs-137 Ba-137m 0.95 none 0.00 none 0.(00 Ba-140 La-140 1.00 none 0.00 none 0.00 La-141 Ce-141 1.00 none 0.00 none 0.)00 Ce-143 Pr-143 1.00 none 0.00 none 0.(00 Ce-144 Pr-144m 0.02 Pr-1i44 0 . 98 none 0.)00 Nd-147 Pm-147 1.00 none 0.00 none 0.(0 Np-239 Pu-239 1.00 none 0.00 none 0.(00 Pu-238 U-234 1.00 none 0.00 none 0.(00 Pu-239 U-235 1.00 none 0 .00 none 0.(00 Pu-240 U-236 1.00 none 0.00 none 0.(00 Pu-241 U-237 0.00 Am-241 1.00 none 0.(00 Am-241 Np-237 1.00 none 0.00 none 0.(00 Cm-242 Pu-238 1.00 none 0.00 none 0.(00 Cm-244 Pu-240 1.00 none 0.00 none 0.(00 Iodine fractions Aerosol 9. 5000E-01 Elemental 4.8500E-02 Organic 1.5000E-03 COMPARTMENT DATA Compartment number 1: Drywell Sprays: Elemental Removal Data Time (hr) Removal Coef. (hr^-1) 0.OOOOE+00 3.2800E+00 7.2000E+02 0.OOOOE+00 Natural Deposition (Pow(ars' model): Aerosol data Reactor type: 3 Percentile = 10 (%)

Natural Deposition: Elemental Removal Data Time (hr) Removal Coef. (hr^-1) 0.OOOOE+00 0.OOOOE+00 Compartment number 2: Reactor Building Compartment number 3: Environment Compartment number 4: Control Room Compartment number 5: Void PATHWAY DATA Pathway number 1: Drywell to Reactor Building CC-AA-309-1001, Rev 2

Attachment B Page 13 of 65 Convection Data Time (hr) Flow Rate (% / day) o.OOOOE+00 0.0000EE+00 3.3300E-02 2.1870E+00 2.OOOOE+00 2.5220E+00 3.OOOOE+00 2.5220E+00 3.0500E+00 2.5220E+00 3.1000E+00 2.5220E:+00 4.OOOOE+00 2.5220E+00 7.2000E+02 0.0000E +00 Pathway number 2: Reactor Building to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.3300E-02 4.4000E+03 9.9000E+01 5.OOOOE+01 5.0000E+01 7.2000E+02 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Pathway number 3: Filtered Intake to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 o.OOOOE+00 O. OOOOE+O0 3.3300E-02 2.2000E+03 0.0000E+00 0.0000E+00 O.OOOOE+O0

6. 6670E-01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C01 2.0000E+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1 4.0000E+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1 8.0000E+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C 1

1. 6000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1 2.4000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1 4.8000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1 7.2000E+02 o.0000E+00 0.OOOOE+00 o.OOOOE+00 0.OOOOE+CO Pathway number 4: Unfiltered Inleakage to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 o.OOOOE+00 0.00O0E+CO 3.3300E-02 6.OOOOE+04 o.OOOOE+00 0.0000E+00 0.OOOOE+CO 6.6670E-01 4.OOOOE+02 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 2.OOOOE+00 4.OOOOE+02 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 4.OOOOE+00 4.OOOOE+02 o.OOOOE+00 o.OOOOE+00 0.000OE+00 8.OOOOE+00 4.OOOOE+02 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00

1. 6000E+01 4.OOOOE+02 o.OOOOE+00 O.OOOOE+00 0.OOOOE+00 2.4000E+01 4.OOOOE+02 0.OOOOE+00 o.OOOOE+00 0.00O0E+00 4.8000E+01 4.OOOOE+02 o.OOOOE+00 o.OOOOE+00 0.OOOOE+00 7.2000E+02 o.OOOOE+00 0.0000E+00 o.OOOOE+00 0.OOOOE+00 l CC-AA-309-1001, Rev 2

Attachment B Page 14 of 65 Pathway number 5: Control Room Exhaust to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 0.OOOOE+00 O. OOOOE+O0 3.3300E-02 6.2200E+04 0.OOOOE+00 0.0000E+00 O.OOOOE+O0

6. 6670E-01 2.2000E+03 0.0000E+00 0.OOOOE+00 O.OOOOE+O0 2.OOOOE+00 2.2000E+03 o.OOOOE+00 o.OOOOE+00 0. OOOOE+O0 4.OOOOE+00 2.2000E+03 o.OOOOE+00 0.OOOOE+00 0.OOOOE+CO 8.OOOOE+00 2.2000E+03 o.OOOOE+00 o.OOOOE+00 0.0000E+00

1. 6000E+01 2.2000E+03 o.OOOOE+00 o.OOOOE+00 0.0000E+00

2. 4000E+01 2.2000E+03 0.000OE+00 0.0000E+00 0.OOOOE+CO

4. 8000E+01 2.2000E+03 0.OOOOE+00 o.OOOOE+00 0.0000E+00 7.2000E+02 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 0.OOOOE+CO Pathway number 6: Drywell to Void Convection Data Time (hr) Flow Rate (% / day) 0.0000E+00 o.0000E+00 3.3300E-02 8.1300E-01 2.0000E+00 4.7800E-01 7.2000E+02 0.0000E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr) X/Q (s

m^-3) o.OOOOE+00 1.5700E-04 5.OOOOE-01 6.3800E-06 7.2000E+02 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-l) 0.0000E+00 3.5000E-04 7.2000E+02 0.OOOOE+00 Location Low Population Zone is in compartment 3 Location X/Q Data Time (hr) X/Q (s

m^-3) 0.OOOOE+00 3.0100E-05 5.0000E-01 2.0500E-05 2.OOOOE+00 8.7600E-06 8.OOOOE+00 5.7300E-06 2.4000E+01 2.2800E-06 9.6000E+01 6.0700E-07 7.2000E+02 O.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-l) o.OOOOE+00 3.5000E-04 8.0000E+00 1.8000E-04 r CC-AA-309-1001, Rev 2

Attachment B Page 15 of 65

2. 4000E+01 2.3000E-04 7.2000E+02 0.O00E+00 Location Control Room is in compartment 4 Location X/Q Data Time (hr) XA (s

m^-3) o.OOOOE+00 5.8400E-06 2.OOOOE+00 2.6800E-06 8.OOOOE+00 1.8100E-06 2.4000E+01 7.7700E-07 9.6000E+01 2.3000E-07 7.2000E+02 0.000OE+00 Location Breathing Ratte Data Time (hr) BrEeathing Rate (m^3

sec^-l) 0.OOOOE+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Occupancy Facctor Data Time (hr) Occcupancy Factor 0.0000E+00 1.OOOOE+00 2.4000E+01 6.O000E-01 9.6000E+01 4.O000E-01 7.2000E+02 0.OOOOE+00 USER SPECIFIED TIME STEP DATA - SUPPLEMENTAL TIME STEPS Time Time step o.OOOOE+00 1.0000E-02 2.0000E+00 1.OOOOE-01 4.0000E+00 1.OOOOE+00 8.OOOOE+00 2.OOOOE+00

2. 4000E+01 4.0000E+00

9. 6000E+01 8.0000E+00 7.2000E+02 0.OOOOE+00 I CC-AA-309-1001, Rev 2

Attachment B Page 16 of 65 RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:45:27 Dose, Detailed model and Detailed Inventory Output Exclusion Area Boundary Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Low Population Zone Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Control Room Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Drywell Compartment Nuclide Inventory:

Time (h) = 0.0333 Ci kg Atoms Decay Drywell Transport Group Inventory:

Time (h) = 0.0333 Atmosphere Sump Noble gases (atoms) 9.2545E+22 0.OOOOE+00 Elemental I (atoms) 6.0761E+20 3.3799E+19 Organic I (atoms) 1.9837E+19 0.OOOOE+00 Aerosols (kg) 6.2758E-01 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 8.4278E-05 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1.0743E-04 Total I (Ci) 2.2920E+06 Deposition Recirculating I CC-AA-309-1001, Rev 2

Attachment B Page 17 of 65 Time (h) = 0.0333 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.COOOE+00 Elemental I (atoms) 0.OOOOE+00 0.C000E+00 Organic I (atoms) 0.OOOOE+00 0. OOOE+00 Aerosols (kg) 6.6741E-03 0. OOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.0333 Leakage Transport.

Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 Organic I (atoms) 0.0000E+00 Aerosols (kg) 0.OOOOE+00 Drywell to Void Transport Group Inventory:

Time (h) = 0.0333 Leakage Transport.

Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 Reactor Building Compartment Nuclide Inventory:

Time (h) = 0.0333 Ci kg Atoms Decay Reactor Building Transport Group Inventory:

Time (h) = 0.0333 Atmosphere Sump Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 0.0000E+00 Organic I (atoms) 0.OOOOE+00 0.0000E+00 Aerosols (kg) 0.OOOOE+00 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 0.OOOOE+00 Total I (Ci) 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.0333 Leakage Transport.

Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 Organic I (atoms) 0.0000E+00 Aerosols (kg) 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.COOOE+00 Elemental I (atoms) 0.OOOOE+00 0.COOOE+00 Organic I (atoms) 0.OOOOE+00 0.COOOE+00 Aerosols (kg) 0.OOOOE+00 0.COOOE+00 Exclusion Area Boundary Doses:

I CC-AA-309-1001, Rev 2

Attachment B Page 18 of 65 Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 1.0742E-03 3.7099E-02 2.4132E-03 Accumulated dose (rem) 1.0742E-03 3.7099E-02 2. 4132E-03 Low Population Zone Doses:

Time (h) = 0.5 000 Whole Body Thyroid TEDE Delta dose (rem) 2.0594E-04 7.1127E-03 4.6266E-04 Accumulated dose (rem) 2.0594E-04 7.1127E-03 4.6266E-04 Control Room Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 1.5487E-06 1.0609E-03 3.9784E-05 Accumulated dose (rem) 1.5487E-06 1.0609E-03 3.9784E-05 Drywell Compartment Nuclide Inventory:

Time (h) 0.5000 Ci kg Atoms Decay Kr-85 6.5789E+04 1. 6769E-01 1.1880E+24 2.2343E+18 Kr-85m 9.4490E+05 1. 1482E-04 8. 1347E+20 3.2942E+19 Kr-87 1. 4819E+06 5. 2318E-05 3. 6215E+20 5.5280E+19 Kr-88 2. 4218E+06 1. 9314E-04 1. 3217E+21 8.5732E+19 Rb-86 9.1554E+03 1. 1252E-04 7.8792E+20 3.2714E+17 I-131 3.4220E+06 2.7602E-02 1.2689E+23 1.2298E+20 I-132 4. 6041E+06 4.4604E-04 2. 0349E+21 1.6950E+2C0 I-133 .6.8430E+06 6.0407E-03 2.7352E+22 2.4720E+2C0 I-134 5. 1408E+06 1. 9271E-04 8.6605E+20 2.1271E+20 I-135 6. 1897E+06 1.7625E-03 7.8623E+21 2.2640E+2C0 Xe-133 7. 9616E+06 4.2534E-02 1.9259E+23 2.7040E+2C0 Xe-135 3.3383E+06 1.3072E-03 5. 8314E+21 1. 1221E+2C0 Cs-134 1.0341E+06 7. 9927E-01 3.5920E+24 3.6941E+19 Cs-136 3.0684E+05 4.1866E-03 1.8539E+22 1. 0965E+19S Cs-137 6. 3631E+05 7. 3155E+00 3.2157E+25 2.2730E+19' Drywell Transport Grour? Inventory:

Time (h) = 0.5000 Atmosphere Sump Noble gases (atoms) 1.3890E+24 0.OOOOE+00 Elemental I (atoms) 4.6891E+21 4.8698E+21 Organic I (atoms) 2.9497E+20 0.OOOOE+00 Aerosols (kg) 8.1540E+00 0.OOOOE+00 Dose Effective (Ci/cc) 1-131 (Thyroid) 1.0668E-03 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1.3455E-03 Total I (Ci) 2.6200E+07 Deposition Recirculating Time (h) = 0.5000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 0.0000E+00 Organic I (atoms) 0.OOOOE+00 0.0000E+00 Aerosols (kg) 1.3663E+00 0.ODOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.5000 Leakage Transport I CC-AA-309-1001, Rev 2

Attachment B Page 19 of 65 Noble gases (atoms) 3.1507E+20 Elemental I (atoms) 1.3435E+18 Organic I (atoms) 6. 7133E+16 Aerosols (kg) 1.9466E-03 Drywell to Void Transport Group Inventory:

Time (h) = 0.5000 Leakage Transport.

Noble gases (atoms) 1.1712E+20 Elemental I (atoms) 4. 9945E+17 Organic I (atoms) 2.4956E+16 Aerosols (kg) 7.2364E-04 Reactor Building Compartment Nuclide Inventory:

Time (h) = 0.5000 Ci kg Atoms Decay Kr-85 1.4649E+01 3.7339E-05 2.6454E+20 3.3384E+14 Kr-85m 2.1040E+02 2.5567E-08 1.8114E+17 4.8892E+15 Kr-87 3.2999E+02 1. 1650E-08 8.0640E+16 8.0624E+15 Kr-88 5.3927E+02 4.3007E-08 2. 9431E+17 1.2674E+1(

Rb-86 2. 1446E+00 2.6357E-08 1. 8457E+17 5.0102E+13 I-131 8.0590E+02 6.5005E-06 2. 9883E+19 1.8887E+16 I-132 1.0549E+03 1.0220E-07 4.6626E+17 2.5354E+16; I-133 1. 6116E+03 1.4227E-06 6.4418E+18 3.7915E+16 I-134 1.2107E+03 4.5385E-08 2. 0397E+17 3. 1461E+16 I-135 1.4578E+03 4. 1510E-07 1.8517E+18 3.4610E+16 Xe-133 1.7728E+03 9. 4711E-06 4.2884E+19 4.0402E+16E Xe-135 7.4329E+02 2. 9106E-07 1.2984E+18 1.6809E+16E Cs-134 2.4224E+02 1.8723E-04 8.4141E+20 5.6580E+15 Cs-136 7. 1877E+01 9.8070E-07 4.3426E+18 1.6793E+15 Cs-137 1.4905E+02 1.7136E-03 7.5326E+21 3.4815E+15 Reactor Building Transport Group Inventory:

Time (h) = 0.5000 Atmosphere Sump Noble gases (atoms) 3.0928E+20 0.OOOOE+00 Elemental I (atoms) 1.3107E+18 0.OOOOE+00 Organic I (atoms) 6.5661E+16 0.OOOOE+00 Aerosols (kg) 1.9100E-03 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.6889E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2.1289E-08 Total I (Ci) 6.1409E+03 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.5000 Leakage Transport Noble gases (atoms) 3.1507E+20 Elemental I (atoms) 1.3435E+18 Organic I (atoms) 6.7133E+16 Aerosols (kg) 1.9466E-03 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.7700E+18 l CC-AA-309-1001, Rev 2

Attachment B Page 20 of 65 Elemental I (atoms) 1.3718E+16 1.3718E+16 Organic I (atoms) 6. 1407E+14 6.].407E+14 Aerosols (kg) 3. 6183E-05 3.6549E-07 Exclusion Area Boundary Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 6.2810E-05 1.8589E-03 1.3127E-04 Accumulated dose (rem) 1.1370E-03 3.8958E-02 2.5445E-03 Low Population Zone Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 2.0182E-04 5.9728E-03 4.2180E-04 Accumulated dose (rem) 4.0776E-04 1.3085E-02 8.8447E-04 Control Room Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 2.3817E-06 1.4588E-03 5.5788E-05 Accumulated dose (rem) 3.9304E-06 2.5197E-03 9.5572E-05 Drywell Compartment Nuclide Inventory:

Time (h) 0. 6667 Ci kg Atoms Decay Co-58 1.2344E+02 3.8820E-06 4. 0307E+19 1.4672E+1' Co-60 1.4778E+02 1.3073E-04 1. 3122E+21 1.7564E+1E Kr-85 2.0472E+05 5.2180E-01 3.6969E+24 5.3289E+1E Kr-85m 2.8654E+06 3.4819E-04 2. 4669E+21 7. 6726E+19 Kr-87 4.2109E+06 1.4866E-04 1.0290E+21 1.2141E+2C Kr-88 7.2357E+06 5.7705E-04 3. 9489E+21 1.9699E+2C Rb-86 1.3047E+04 1.6035E-04 1.1229E+21 5.7635E+17 Sr-89 1.5680E+05 5.3971E-03 3. 6519E+22 1.8637E+18 Sr-90 2.2792E+04 1.6709E-01 1.1180E+24 2.7089E+17 Sr-91 1.8959E+05 5.2302E-05 3. 4612E+20 2.2629E+18 Sr-92 1. 8315E+05 1.4571E-05 9.5377E+19 2.2092E+18 Y-90 2.5544E+02 4. 6951E-07 3.1416E+18 2. 9327E+15 Y-91 2.0412E+03 8.3235E-05 5.5083E+20 2.4245E+16 Y-92 5.2685E+03 5 .4753E-07 3.5840E+18 4.7790E+16 Y-93 2.4328E+03 7.2918E-07 4.7217E+18 2.9029E+16 Zr-95 2.8695E+03 1.3357E-04 8.4671E+20 3. 4106E+16 Zr-97 2.8268E+03 1.4787E-06 9.1805E+18 3.3678E+16 Nb-95 2.8839E+03 7.3'750E-05 4. 6751E+20 3.4276E+16 Mo-99 4. 1066E+04 8.5622E-05 5.2084E+20 4.8838E+17 Tc-99m 3. 6216E+04 6.8374E-06 4.1896E+19 4.3020E+17 Ru-103 3.4796E+04 1.0'781E-03 6.3036E+21 4.1358E+17 Ru-105 2.2079E+04 3.2346E-06 1.8838E+19 2. 6479E+17 Ru-106 1.4834E+04 4.4,338E-03 2.5190E+22 1.7631E+17 Rh-105 2.3273E+04 2.7573E-05 1.5814E+20 2.7660E+17 Sb-127 4. 8195E+04 1.8047E-04 8.5576E+20 5.7306E+17 Sb-129 1.2883E+05 2.2909E-05 1.0695E+20 1.5454E+18 Te-127 4. 8122E+04 1.8234E-05 8. 6464E+19 5.7186E+17 Te-127m 6.5576E+03 6.9521E-04 3. 2966E+21 7.7939E+16 Te-129 1.3360E+05 6.3'795E-06 2. 9781E+19 1. 5922E+18 Te-129m 2.1001E+04 6.9'713E-04 3.2544E+21 2. 4960E+17 CC-AA-309-1001, Rev22

Attachment B Page 21 of 65 Te-131m 6.2900E+04 7.8881E-05 3.6262E+20 7.4859E+1'7 Te-132 6. 1814E+05 2.0361E-03 9.2891E+21 7.3506E+18 I-131 5.2933E+06 4.2697E-02 1.9628E+23 2.2112E+20 I-132 7.0659E+06 6.8E454E-04 3. 1230E+21 3. 0122E+20 I-133 1.0532E+07 9.2'974E-03 4.2098E+22 4.4293E+20 I-134 6.9739E+06 2.6142E-04 1.1749E+21 3.5025E+20 I-135 9. 4137E+06 2.6;806E-03 1.1958E+22 4.0233E+20 Xe-133 2.4769E+07 1.3233E-01 5. 9917E+23 6.4486E+20 Xe-135 1.0449E+07 4.0916E-03 1.8252E+22 2.6986E+20 Cs-134 1. 4741E+06 1.1393E+00 5.1203E+24 6.5094E+19 Cs-136 4.3724E+05 5.9658E-03 2. 6417E+22 1. 9317E+19 Cs-137 9.0705E+05 1.C428E+01 4.5839E+25 4.0053E+19 Ba-139 2.2583E+05 1.8806E-05 5. 9815E+19 2.7635E+18 Ba-140 3.0408E+05 4.1536E-03 1.7867E+22 3.6146E+18 La-140 3.7147E+03 6.E832E-06 2.8748E+19 4.1963E+16 La-141 2.5542E+03 4.5164E-07 1. 9290E+18 3.0669E+16 La-142 2. 0518E+03 1.4333E-07 6. 0785E+17 2.5030E+16 Ce-141 7.2108E+03 2.5307E-04 1.0809E+21 8.5705E+16 Ce-143 6.5314E+03 9.8352E-06 4.1419E+19 7.7722E+16 Ce-144 5.9463E+03 1.8644E-03 7.7968E+21 7.0675E+16' Pr-143 2.5611E+03 3.8033E-05 1. 6017E+20 3.0435E+16 Nd-147 1. 1608E+03 1.4349E-05 5. 8784E+19 1.3799E+16 Np-239 8.9500E+04 3.8579E-04 9.7208E+20 1.0645E+1E Pu-238 2. 8555E+01 1.6680E-03 4.2204E+21 3.3939E+14 Pu-239 2.3808E+00 3.8304E-02 9. 6515E+22 2.8297E+1-3 Pu-240 3.2318E+00 1.4183E-02 3.5588E+22 3.8411E+1_

Pu-241 1. 0821E+03 1.0505E-02 2.6249E+22 1. 2861E+1E.

Am-241 6.3686E-01 1.8556E-04 4.6367E+20 7.5692E+12 Cm-242 1.4760E+02 4.4535E-05 1.1082E+20 1. 7543E+15 Cm-244 1. 0472E+01 1.2944E-04 3. 1947E+20 1.2447E+14 Drywell Transport Group Inventory:

Time (h) = 0.6667 Atmosphere Sump Noble gases (atoms) 4.3218E+24 0.OOOOE+00 Elemental I (atoms) 6.7790E+21 8. 0582E+21 Organic I (atoms) 4.5750E+20 0.OOOOE+00 Aerosols (kg) 1.1882E+01 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.6468E-03 Dose Effective (Ci/cc) 1-131 (ICRP2 Thyroid) 2.0709E-03 Total I (Ci) 3.9279E+07 Deposition Recirculating Time (h) = 0.6667 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) 0.0000E+00 0.0000E+00 Organic I (atoms) 0.0000E+00 0.O0OOE+00 Aerosols (kg) 2.1379E+00 0.0000E+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.6667 Leakage Transport Noble gases (atoms) 7.4883E+20 Elemental I (atoms) 2.2293E+18 Organic I (atoms) 1.2430E+17 Aerosols (kg) 3.4695E-03 CC-AA-309-1001, Rev 2

Attachment B Page 22 of 65 Drywell to Void Transport Group Inventory:

Time (h) = 0.6667 Leakage Transport:

Noble gases (atoms) 2.7837E+20 Elemental I (atoms) 8 .2874E+17 Organic I (atoms) 4. 6209E+16 Aerosols (kg) 1.2898E-03 Reactor Building Compartment Nuclide Inventory:

Time (h) 0. 6667 Ci kg Atoms Decay Co-58 9.4229E-03 2.9634E-10 3.0769E+15 7. 6504E+10 Co-60 1.1281E-02 9. 9797E-09 1.0017E+17 9. 1587E+1(

Kr-85 3. 4765E+01 8.8612E-05 6.2780E+20 8.5737E+14 Kr-85m 4.8661E+02 5.S9129E-08 4. 1892E+17 1.2298E+16 Kr-87 7. 1509E+02 2.5245E-08 1.7475E+17 1.9261E+16l Kr-88 1.2288E+03 9. 993E-08 6.7060E+17 3.1504E+16 Rb-86 3.7767E+00 4.6E415E-08 3.2502E+17 1.1588E+14 Sr-89 1. 1969E+01 4. 1199E-07 2.7877E+18 9.7179E+13 Sr-90 1.7399E+00 1.2755E-05 8.5347E+19 1.4126E+13 Sr-91 1.4473E+01 3.9925E-09 2. 6421E+16 1.1787E+14 Sr-92 1.3981E+01 1. 1123E-09 7.2807E+15 1.1477E+14 Y-90 2.0028E-02 3. E812E-11 2.4632E+14 1.5727E+1],

Y-91 1.5591E-01 6.3573E-09 4.2071E+16 1.2649E+12 Y-92 4.7950E-01 4. 9832E-11 3.2619E+14 3.1303E+12 Y-93 1. 8571E-01 5. 5663E-11 3. 6044E+14 1.5122E+12 Zr-95 2. 1904E-01 1.0196E-08 6. 4635E+16 1.7784E+12 Zr-97 2. 1579E-01 1.1288E-10 7.0081E+14 1.7551E+12 Nb-95 2.2014E-01 5.6298E-09 3. 5688E+16 1.7873E+12 Mo-99 3. 1348E+00 6.5361E-09 3. 9759E+16 2.5462E+13 Tc-99m 2.7646E+00 5.2576E-10 3.1982E+15 2.2433E+13 Ru-103 2.6562E+00 8.2302E-08 4.8120E+17 2.1566E+13 Ru-105 1.6854E+00 2. 5073E-10 1. 4380E+15 1.3777E+1-Ru-106 1. 1324E+00 3.3846E-07 1.9229E+18 9.1934E+12 Rh-105 1.7766E+00 2.1048E-09 1.2072E+16 1.4423E+13 Sb-127 3.6790E+00 1.3776E-08 6.5325E+16 2.9879E+1-;

Sb-129 9.8341E+00 1.7488E-09 8.1639E+15 8.0399E+l-Te-127 3.6735E+00 1.3919E-09 6. 6003E+15 2.9818E+1--

Te-127m 5.0058E-01 5.3070E-08 2.5165E+17 4.0641E+12:

Te-129 1. 0199E+01 4.8699E-10 2.2734E+15 8.2923E+13 Te-129m 1.6032E+00 5. 3216E-08 2.4843E+17 1.3015E+l3 Te-131m 4.8016E+00 6. 0215E-09 2.7681E+16 3.9022E+13 Te-132 4. 7187E+01 1.5543E-07 7.0910E+17 3.8325E+14 I-131 1.4476E+03 1.1676E-05 5.3676E+19 4.3825E+16 I-132 1.8464E+03 1.7888E-07 8. 1609E+17 5.7538E+16 I-133 2.8804E+03 2. 5427E-06 1. 1513E+19 8.7650E+1E I-134 1.9073E+03 7. 1495E-08 3. 2131E+17 6.6352E+lE.

I-135 2.5745E+03 7. 3310E-07 3.2702E+18 7.9304E+lE Xe-133 4.2064E+03 2.2472E-05 1.0175E+20 1.0375E+17 Xe-135 1.7748E+03 6.9498E-07 3. 1002E+18 4.3466E+1E Cs-134 4.2669E+02 3.2979E-04 1.4821E+21 1.3089E+lE Cs-136 1.2656E+02 1.7268E-06 7. 6465E+18 3.8837E+15 Cs-137 2.6255E+02 3. 0185E-03 1.3268E+22 8.0537E+15 Ba-139 1. 7239E+01 1.0539E-09 4.5661E+15 1.4306E+14 I CC-AA-309-1001, Rev 2

Attachment B Page 23 of 65 Ba-140 2. 3212E+01 3.;707E-07 1.3639E+18 1.8847E+14 La-140 2. 9477E-01 5.3032E-10 2.2812E+15 2.2803E+1:2 La-141 1. 9498E-01 3. 4477E-ll 1.4725E+14 1.5952E+1:2 La-142 1.5662E-01 1.(0941E-11 4. 6401E+13 1.2967E+1:2 Ce-141 5.5044E-01 1.'9318E-08 8;.2508E+16 4.4690E+1:2 Ce-143 4. 9858E-01 7.5078E-10 3. 1617E+15 4.0515E+1:2 Ce-144 4. 5392E-01 1.'1232E-07 5.9518E+17 3.6853E+1:2 Pr-143 1. 9552E-01 2.9035E-09 1.2228E+16 1.5872E+12 Nd-147 8. 8613E-02 1.()954E-09 4.4874E+15 7.1951E+1'L Np-239 6. 8321E+00 2.9450E-08 7.4205E+16 5.5498E+1:3 Pu-238 2.1798E-03 1.2733E-07 3. 2217E+17 1.7697E+10 Pu-239 1. 8174E-04 2.9240E-06 7.3676E+18 1.4755E+09 Pu-240 2.4670E-04 1.()827E-06 2. 7166E+18 2.0029E+09 Pu-241 8.2604E-02 8.()188E-07 2. 0037E+18 6.7064E+1:L Am-241 4.8616E-05 1.4165E-08 3.5395E+16 3.9470E+083 Cm-242 1. 1267E-02 3.3996E-09 8. 4599E+15 9. 1478E+1()

Cm-244 7. 9941E-04 9.8811E-09 2.4387E+16 6.4902E+09 Reactor Building Transport Group Inventory:

Time (h) = 0.6667 Atmosphere Sump Noble gases (atoms) 7.3392E+20 0.OOOOE+00 Elemental I (atoms) 2.1585E+18 0.OOOOE+00 Organic I (atoms) 1.2080E+17 0.OOOOE+00 Aerosols (kg) 3.3841E-03 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.0272E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.8031E-08 Total I (Ci) 1.0656E+04 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 0.6667 Leakage Transport Noble gases (atoms) 7.4883E+20 Elemental I (atoms) 2.2293E+18 Organic I (atoms) 1.2430E+17 Aerosols (kg) 3.4695E-03 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) O.OOOOE+00 1.4855E+19 Elemental I (atoms) 2.9729E+16 2.9729E+16 Organic I (atoms) 1.4688E+15 1.4688E+15 Aerosols (kg) 8.4428E-05 8.5280E-07 Exclusion Area Boundary Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 5.8042E-03 7.5037E-02 9.0629E-03 Accumulated dose (rem) 6.9412E-03 1. 1400E-01 1.1607E-02 Low Population Zone Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.8650E-02 2.4111E-01 2. 9121E-02 CC-AA-309-1001, Rev 2

Attachment B Page 24 of 65 Accumulated dose (rem) 1.9058E-02 2.5419E-01 3.0005E-02 Control Room Doses:

Time (h) = 2.0000 Whole Body T1h.yroid TEDE Delta dose (rem) 7.5768E-05 1.3171E-02 5. 8190E-04 Accumulated dose (rem) 7.9699E-05 1.5690E-02 6.7748E-04 Drywell Compartment Nuclide Inventory:

Time (h) 2.0000 Ci kg Atoms Decay Co-58 9.2682E+02 2.S 147E-05 3.0263E+20 9.9269E+16 Co-60 1.11O1E+03 9.8209E-04 9. 8572E+21 1.1888E+1 7 Kr-85 1.3149E+06 3.8515E+00 2.3745E+25 1.4103E+20 Kr-85m 1.4974E+07 1.8195E-03 1.2891E+22 1.7502E+21 Kr-87 1.3076E+07 4. E164E-04 3. 1955E+21 1.9322E+21 Kr-88 3.3565E+07 2.E768E-03 1. 8318E+22 4.1301E+2]

Rb-86 3.9881E+04 4.9013E-04 3.4321E+21 5.4108E+18 Sr-89 1.1770E+06 4.0514E-02 2.7413E+23 1.2608E+20 Sr-90 1. 7122E+05 1.2552E+00 8.3990E+24 1. 8335E+19 Sr-91 1.2923E+06 3.5648E-04 2.3591E+21 1.4376E+20 Sr-92 9.7829E+05 7. 7831E-05 5.0947E+20 1.2013E+20 Y-90 3.0285E+03 5.5665E-06 3. 7247E+19 2.7793E+17 Y-91 1.5494E+04 6. 3178E-04 4. 1809E+21 1.6527E+18 Y-92 1. 5105E+05 1.5698E-05 1.0276E+20 1.2205E+19 Y-93 1.6678E+04 4.9989E-06 3.2370E+19 1.8512E+18 Zr-95 .2.1543E+04 1.0028E-03 6.3570E+21 2.3075E+18 Zr-97 2.0106E+04 1.0518E-05 6. 5297E+19 2.1996E+18 Nb-95 2. 1664E+04 5.5403E-04 3. 5120E+21 2.3199E+18 Mo-99 3. 0421E+05 6.3428E-04 3. 8583E+21 3.2754E+1C Tc-99m 2. 7173E+05 5. 1676E-05 3. 1435E+20 2.9100E+19 Ru-103 2. 6114E+05 8.0915E-03 4.7309E+22 2.7975E+19 Ru-105 1.3470E+05 2.0038E-05 1. 1493E+20 1. 5665E+19 Ru-106 1. 1142E+05 3.3305E-02 1.8922E+23 1.1932E+19 Rh-105 1.7419E+05 2.0637E-04 1.1836E+21 1.8685E+19 Sb-127 3.5845E+05 1.3423E-03 6.3648E+21 3.8534E+19l Sb-129 7. 8140E+05 1.3895E-04 6.4869E+20 9. 1085E+19 Te-127 3.5984E+05 1.3635E-04 6.4655E+20 3.8590E+19 Te-127m 4.9269E+04 5.2232E-03 2.4768E+22 5. 2757E+18 Te-129 8.7332E+05 4.1701E-05 1.9468E+20 9. 8786E+1l' Te-129m 1.5781E+05 5.2384E-03 2.4454E+22 1.6897E+19S Te-131m 4.5819E+05 5. 7461E-04 2. 6415E+21 4.9658E+19 Te-132 4.5892E+06 1.5116E-02 6.8963E+22 4.9369E+2C0 I-131 1.7756E+07 1. 4322E-01 6.5840E+23 2.3358E+21 I-132 2. 1222E+07 2.0560E-03 9. 3797E+21 2.9494E+21 I-133 3.3944E+07 2.9964E-02 1.3567E+23 4.5532E+21 I-134 8. 1880E+06 3.0693E-04 1.3794E+21 1.9198E+21 I-135 2.7579E+07 7.8530E-03 3. 5031E+22 3.8782E+21 Xe-133 1.5861E+08 8. 4737E-01 3.8368E+24 1.7034E+22 Xe-135 6.7392E+07 2.6390E-02 1. 1772E+23 7.2274E+21 Cs-134 4.5148E+06 3.4895E+00 1.5682E+25 6.1193E+2C Cs-136 1.3353E+06 1.8219E-02 8.0674E+22 1.8124E+2C Cs-137 2.7782E+06 3. 1940E+01 1.4040E+26 3.7654E+2C Ba-139 8.6768E+05 5.3046E-05 2.2982E+20 1.2263E+2C Ba-140 2.2775E+06 3.1109E-02 1.3382E+23 2.4417E+2C CC-AA-309-1001, Rev 2

Attachment B Page 25 of 65 La-140 5. 1274E+04 9.2247E-05 3.9680E+20 4.5159E+18 La-141 1.5167E+04 2.6819E-06 1. 1454E+19 1.7833E+18 La-142 8.4637E+03 5.9 124E-07 2.5074E+18 1.1596E+18 Ce-141 5. 4143E+04 1.9002E-03 8. 1158E+21 5.7991E+18 Ce-143 4. 7711E+04 7. 1845E-05 3.0256E+20 5.1652E+18 Ce-144 4.4665E+04 1.4004E-02 5.8564E+22 4.7832E+18 Pr-143 1.9277E+04 2.8627E-04 1.2056E+21 2.0627E+18 Nd-147 8.6900E+03 1.0742E-04 4.4006E+20 9.3183E+17 Np-239 6. 6145E+05 2.8512E-03 7. 1842E+21 7.1284E+19 Pu-238 2. 1452E+02 1.2530E-02 3. 1706E+22 2.2971E+16 Pu-239 1. 7889E+01 2.8780E-01 7. 2517E+23 1.9155E+15 Pu-240 2. 4278E+01 1.0655E-01 2.6735E+23 2.5998E+15 Pu-241 8.1291E+03 7. 8913E-02 1. 9719E+23 8.7050E+1,'

Am-241 4.7856E+00 1.3943E-03 3.4842E+21 5.1241E+14 Cm-242 1. 1086E+03 3.3448E-04 8.3235E+20 1.1872E+17 Cm-244 7.8670E+01 9. 7241E-04 2.4000E+21 8.4244E+15 Drywell Transport Group Inventory:

Time (h) = 2.0000 Atmosphere Sump Noble gases (atoms) 2.7734E+25 0.OOOOE+00 Elemental I (atoms) 9.4402E+21 4.7066E+22 Organic I (atoms) 1.7255E+21 0.OOOOE+00 Aerosols (kg) 3.7538E+01 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.44OOE-03 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.7115E-03 Total I (Ci) 1.0869E+08 Deposition Recirculating Time (h) = 2.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.0000E+00 0.OOOOE+00 Aerosols (kg) 1.2437E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 2.0000 Leakage Transport Noble gases (atoms) 2.0230E+22 Elemental I (atoms) 1.3066E+19 Organic I (atoms) 1.4559E+18 Aerosols (kg) 3.4250E-02 Drywell to Void Transport Group Inventory:

Time (h) = 2.0000 Leakage Transport Noble gases (atoms) 7.5204E+21 Elemental I (atoms) 4. 8573E+18 Organic I (atoms) 5. 4124E+17 Aerosols (kg) 1.2732E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 2.0000 Ci kg Atoms Decay Co-58 6. 3724E-01 2.0040E-08 2.0808E+17 4. 4931E+13 Co-60 7. 6329E-01 6.7525E-07 6. 7774E+18 5.3810E+13 I CC-AA-309-1001, Rev 2

Attachment B Page 26 of 65 Kr-85 9.0307E+02 2. 3018E-03 1.6308E+22 6.6684E+1E Kr-85m 1.0284E+04 1.2496E-06 8.8534E+18 8.1119E+17 Kr-87 8.9807E+03 3. 1705E-07 2.1946E+18 8.4734E+17 Kr-88 2.3052E+04 1.8384E-06 1.2581E+19 1.8914E+18 Rb-86 3. 4198E+01 4.2029E-07 2.9431E+18 3.0949E+15 Sr-89 8.0927E+02 2.7856E-05 1.8848E+20 5.7064E+1E Sr-90 1. 1772E+02 8.6304E-04 5.7748E+21 8.2992E+15 Sr-91 8.8850E+02 2.4510E-07 1. 6220E+18 6.4447E+16 Sr-92 6.7263E+02 5.3513E-08 3.5029E+17 5. 2510E+16 Y-90 2.4323E+00 4.4706E-09 2.9914E+16 1. 4915E+14 Y-91 1. 0707E+01 4.3658E-07 2. 8892E+18 7.5162E+14 Y-92 1.4200E+02 1.4757E-08 9.6595E+16 8.1469E+15 Y-93 1.1467E+01 3.4370E-09 2.2256E+16 8.3033E+14 Zr-95 1. 4812E+01 6.8950E-07 4.3708E+18 1.0444E+15 Zr-97 1.3824E+O1 7.2315E-09 4.4896E+16 9. 9024E+14 Nb-95 1. 4895E+01 3.8093E-07 2.4147E+18 1.0501E+15 Mo-99 2.0916E+02 4.3610E-07 2. 6528E+18 1.4805E+16 Tc-99m 1.8683E+02 3. 5531E-08 2. 1613E+17 1.3170E+16 Ru-103 1.7955E+02 5.5634E-06 3.2528E+19 1.2661E+16 Ru-105 9.2612E+01 1.3777E-08 7.9019E+16 6.9433E+15 Ru-106 7. 6611E+01 2.2899E-05 1.3010E+20 5. 4010E+15 Rh-105 1.1976E+02 1.4189E-07 8.1380E+17 8. 4545E+15 Sb-127 2.4646E+02 9.2288E-07 4.3762E+18 1.7425E+16 Sb-129 5.3726E+02 9.5539E-08 4.4601E+17 4.0350E+16 Te-127 2.4741E+02 9.3749E-08 4.4454E+17 1.7460E+16 Te-127m 3.3875E+01 3. 5913E-06 1.7029E+19 2.3880E+15 Te-129 6.0046E+02 2.8672E-08 1.3385E+17 4.4092E+16 Te-129m 1.0850E+02 3.6017E-06 1. 6814E+19 7.6486E+15 Te-131m 3. 1503E+02 3.9507E-07 1.8162E+18 2.2409E+16 Te-132 3.1553E+03 1.0393E-05 4.7416E+19 2.2321E+17 I-131 1.4772E+04 1. 1916E-04 5.4777E+20 1.3002E+18 I-132 1.5953E+04 1.5455E-06 7.0509E+18 1.4945E+18 I-133 2.8244E+04 2.4933E-05 1.1289E+20 2.5228E+18 1-134 6.8132E+03 2.5540E-07 1. 1478E+18 9.2622E+17 I-135 2.2948E+04 6.5345E-06 2.9149E+19 2. 1243E+18 Xe-133 1.0885E+05 5. 8150E-04 2. 6330E+21 8.0474E+18 Xe-135 4.5422E+04 1.7787E-05 7. 9344E+19 3.3756E+18 Cs-134 3.8715E+03 2.9923E-03 1.3448E+22 3.5010E+17 Cs-136 1.1450E+03 1.5623E-05 6. 9179E+19 1.0366E+17 Cs-137 2.3823E+03 2.7389E-02 1.2039E+23 2. 1543E+17 Ba-139 5.9658E+02 3.6473E-08 1.5802E+17 5.1695E+16 Ba-140 1.5659E+03 2. 1389E-05 9.2007E+19 1.1049E+17 La-140 4.2630E+01 7.6697E-08 3.2991E+17 2.5364E+15 La-141 1.0428E+01 1.8440E-09 7.8756E+15 7.8823E+14 La-142 5.8193E+00 4.0651E-10 1.7240E+15 4. 9279E+14 Ce-141 3.7222E+01 1.3363E-06 5. 5794E+18 2. 6245E+15 Ce-143 3.2804E+01 4.9397E-08 2.0803E+17 2.3315E+15 Ce-144 3.0710E+01 9.6284E-06 4.0266E+19 2. 1650E+15 Pr-143 1.3266E+01 1. 9701E-07 8.2965E+17 9.3447E+14 Nd-147 5.9749E+00 7.3B56E-08 3.0257E+17 4.2164E+14 Np-239 4.5479E+02 1.9604E-06 4.9396E+18 3.2214E+16 Pu-238 1. 4749E-01 8. 6154E-06 2.1800E+19 1.0398E+13 Pu-239 1.2299E-02 1.9788E-04 4.9860E+20 8. 6703E+ll Pu-240 1.6693E-02 7.3.257E-05 1.8382E+20 1.1768E+12 Pu-241 5.5892E+00 5.4.258E-05 1.3558E+20 3.9402E+14 r CC-AA-309-1001, Rev 2

Attachment B Page 27 of 65 Am-241 3.2906E-03 9.5875E-07 2.3957E+18 2.3195E+1:

Cm-242 7. 6221E-01 2.2998E-07 5.7229E+17 5.3737E+13 Cm-244 5.4090E-02 6.E6859E-07 1. 6501E+18 3.8132E+12 Reactor Building Transport Group Invertory:

Time (h) = 2.0000 Atmosphere Sump Noble gases (atoms) 1.9044E+22 0.COOOE+00 Elemental I (atoms) 1.1798E+19 0.COOOE+00 Organic I (atoms) 1.3448E+18 0.COOOE+00 Aerosols (kg) 3.1859E-02 0.COOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.0416E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.7452E-07 Total I (Ci) 8.8731E+04 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 2.0000 Leakage Transport Noble gases (atoms) 2.0230E+22 Elemental I (atoms) 1.3066E+19 Organic I (atoms) 1.4559E+18 Aerosols (kg) 3.4250E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.1757E+21 Elemental I (atoms) 5.4742E+17 5.4742E+17 Organic I (atoms) 4.8051E+16 4.8051E+16 Aerosols (kg) 2.3657E-03 2.3896E-05 Exclusion Area Boundary Doses:

Time (h) = 3.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4345E-02 1.3855E-01 2.0960E-02 Accumulated dose (rem) 2.1286E-02 2.5254E-01 3.2567E-02 Low Population Zone Doses:

Time (h) = 3.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9696E-02 1. 9023E-01 2.8778E-02 Accumulated dose (rem) 3.8754E-02 4.4443E-01 5.8783E-02 Control Room Doses:

Time (h) = 3.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.6376E-04 1.0857E-02 6.3021E-04 Accumulated dose (rem) 2.4346E-04 2.6548E-02 1.3077E-03 Drywell Compartment Nuclide Inventory:

Time (h) = 3.0000 Ci kg Atoms Decay Co-58 3. 6106E+02 1. 1 355E-05 1.1790E+20 1. 7550E+17 Co-60 4.3265E+02 3.8275E-04 3.8416E+21 2. 1021E+17 Kr-85 1.3133E+06 3.3473E+00 2.3715E+25 3. 1606E+20 l CC-AA-309-1001, Rev 2 l

Attachment B Page 28 of 65 Kr-85m 1.2811E+07 1.5567E-03 1. 1029E+22 3.5968E+21 Kr-87 7.5721E+06 2.E732E-04 1. 8504E+21 3.2741E+21 Kr-88 2.6263E+07 2.0945E-03 1.4333E+22 8.0945E+2].

Rb-86 1.5519E+04 1.9073E-04 1.3356E+21 8.6894E+18 Sr-89 4.5846E+05 1.5781E-02 1.0678E+23 2.2288E+20 Sr-90 6.6730E+04 4 .8920E-01 3.2734E+24 3.2421E+19 Sr-91 4.6820E+05 1 .2916E-04 8.5473E+20 2.4686E+20 Sr-92 2.9523E+05 2.3488E-05 1.5375E+20 1.9253E+20 Y-90 1.8868E+03 3.4680E-06 2.3205E+19 5.8272E+1' Y-91 6.1361E+03 2.5021E-04 1. 6558E+21 2.9351E+18 Y-92 1.0856E+05 1 . 1282E-05 7.3853E+19 2.8824E+19 Y-93 6.0688E+03 1. 8190E-06 1.1779E+19 3.1841E+18 Zr-95 8.3924E+03 3.9066E-04 2. 4764E+21 4.0795E+1lE Zr-97 7. 5212E+03 3.9343E-06 2.4426E+19 3.8252E+18 Nb-95 8.4432E+03 2.1592E-04 1.3687E+21 4.1021E+18 Mo-99 1. 1732E+05 2.4462E-04 1.4880E+21 5.7669E+19 Tc-99m 1.0574E+05 2. 0109E-05 1.2232E+20 5.1314E+19 Ru-103 1.0170E+05 3.1512E-03 1.8424E+22 4.9452E+19 Ru-105 4.4908E+04 6.6808E-06 3.8317E+19 2.6047E+19 Ru-106 4.3423E+04 1.2979E-02 7.3738E+22 2.1098E+19 Rh-105 6. 7513E+04 7.9987E-05 4.5876E+20 3.2974E+19 Sb-127 1.3866E+05 5.1921E-04 2.4620E+21 6.7929E+19 Sb-129 2.5939E+05 4. 6127E-05 2. 1534E+20 1.5121E+20 Te-127 1.3976E+05 5.2956E-05 2.5111E+20 6.8046E+19 Te-127m 1.9203E+04 2.0358E-03 9. 6536E+21 9.3289E+18 Te-129 3.0539E+05 1.4582E-05 6.8075E+19 1.6586E+2C0 Te-129m 6.1503E+04 2.0416E-03 9. 5307E+21 2.9879E+19 Te-131m 1.7449E+05 2. 1883E-04 1. 0060E+21 8.6986E+19 Te-132 1.7728E+06 5.8393E-03 2.6640E+22 8.6981E+2C0 I-131 6.8479E+06 5.5236E-02 2.5392E+23 3.7864E+21 I-132 6. 5461E+06 6.3418E-04 2.8933E+21 4.5222E+21 1-133 1.2707E+07 1. 1217E-02 5.0789E+22 7.2915E+21 1-134 1.4373E+06 5.3877E-05 2. 4213E+20 2.4111E+21 I-135 9. 6111E+06 2.7368E-03 1.2208E+22 6.0377E+21 Xe-133 1.5765E+08 8.4224E-01 3. 8136E+24 3.8096E+22 Xe-135 6.3375E+07 2. 4817E-02 1. 1070E+23 1.5937E+22 Cs-134 1.7595E+06 1.3599E+00 6. 1117E+24 9.8333E+2C Cs-136 5. 1926E+05 7.0849E-03 3. 1372E+22 2.9099E+2C Cs-137 1.0828E+06 1 .2448E+01 5.4718E+25 6.0509E+2C Ba-139 2.0452E+05 1.2503E-05 5.4170E+19 1.8090E+20 Ba-140 8.8560E+05 1.2097E-02 5.2035E+22 4.3134E+2C La-140 3.4784E+04 6.2581E-05 2. 6919E+20 9.9006E+1E La-141 4.9553E+03 8.7622E-07 3. 7423E+18 2.9426E+1E La-142 2.1041E+03 1.4698E-07 6. 2335E+17 1.7398E+1E Ce-141 2. 1088E+04 7.4009E-04 3. 1609E+21 1.0252E+19 Ce-143 1.8208E+04 2.7418E-05 1.1547E+20 9.0554E+1E Ce-144 1.7406E+04 5.4572E-03 2.2822E+22 8.4574E+1E Pr-143 7.5362E+03 1.1191E-04 4.7130E+20 3.6502E+1E Nd-147 3.3779E+03 4. 1755E-05 1. 7106E+20 1.6459E+1E Np-239 2.5465E+05 1.0977E-03 2. 7658E+21 1.2542E+2C Pu-238 8.3605E+01 4.8835E-03 1.2357E+22 4.0619E+1E Pu-239 6.9726E+00 1. 1218E-01 2.8266E+23 3.3871E+l1 Pu-240 9.4621E+00 4. 1525E-02 1.0419E+23 4.5971E+l1 Pu-241 3. 1682E+03 3.0755E-02 7. 6851E+22 1.5392E+18 Am-241 1.8657E+00 5.4359E-04 1.3583E+21 9.0615E+14 I CC-AA-309-1001, Rev 2

Attachment B Page 29 of 65 Cm-242 4.3197E+02 1.3034E-04 3.2434E+20 2.0991E+1'7 Cm-244 3. 0660E+01 3. 7 898E-04 9.3535E+20 1.4896E+16 Drywell Transport Group Inventory:

Time (h) = 3.0000 Atmosphere Sump Noble gases (atoms) 2.7667E+25 O.OOOOE+00 Elemental I (atoms) 3.4932E+20 5.6111E+22 Organic I (atoms) 1.6969E+21 0.OOOOE+00 Aerosols (kg) 1.4628E+01 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 2.0745E-03 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2.5266E-03 Total I (Ci) 3.7149E+07 Deposition Recirculating Time (h) = 3.0000 Surfaces Filter Noble gases (atoms) O.OOOOE+00 0.OOOOE+00 Elemental I (atoms) O.OOOOE+00 0.OOOOE+00 Organic I (atoms) O.OOOOE+00 O.COOOE+00 Aerosols (kg) 3.5314E+01 O.COOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.0000 Leakage Transport Noble gases (atoms) 4.9340E+22 Elemental I (atoms) 1.5964E+19 Organic I (atoms) 3. 2552E+18 Aerosols (kg) 5.9796E-02 Drywell to Void Transport Group Inventory:

Time (h) = 3.0000 Leakage Transport Noble gases (atoms) 1.3038E+22 Elemental I (atoms) 5.4066E+18 Organic I (atoms) 8.8225E+17 Aerosols (kg) 1.7574E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 3.0000 Ci kg Atoms Decay Co-58 1. 1605E+00 3.6496E-08 3.7894E+17 1.7522E+14 Co-60 1.3906E+00 1.2302E-06 1.2347E+19 2.0990E+14 Kr-85 2. 1133E+03 5.3864E-03 3.8162E+22 2.7714E+17 Kr-85m 2.0615E+04 2.5050E-06 1. 7748E+19 3. 0100E+18 Kr-87 1. 2185E+04 4.3017E-07 2. 9776E+18 2. 4058E+18 Kr-88 4.2261E+04 3.3703E-06 2. 3064E+19 6. 5852E+18 Rb-86 5.5927E+01 6.8734E-07 4. 8131E+18 9. 5462E+15 Sr-89 1.4735E+03 5.0720E-05 3.4320E+20 2.2251E+17 Sr-90 2.1448E+02 1.5723E-03 1. 0521E+22 3.2374E+16 Sr-91 1.5048E+03 4.1513E-07 2.7472E+18 2. 3916E+17 Sr-92 9.4888E+02 7.5491E-08 4. 9415E+17 1.7262E+17 Y-90 6.3738E+00 1.1'715E-08 7. 8390E+16 7. 4359E+14 Y-91 1. 9770E+01 8.0615E-07 5.3349E+18 2. 9544E+15 Y-92 3.7696E+02 3.9175E-08 2.5643E+17 4.3049E+16 Y-93 1. 9506E+01 5.8464E-09 3. 7858E+16 3. 0904E+15 Zr-95 2. 6974E+01 1.2556E-06 7. 9594E+18 4.0729E+15

. CC-AA-309-1001, Rev 2 I

Attachment B Page 30 of 65 Zr-97 2.4174E+01 1.2645E-08 7.8507E+16 3.7555E+15 Nb-95 2.7137E+01 6.9399E-07 4.3993E+18 4.0961E+15 Mo-99 3.7708E+02 7.8622E-07 4.7826E+18 5.7338E+16 Tc-99m 3.3984E+02 6. 4631E-08 3.9315E+17 5.1132E+16 Ru-103 3.2688E+02 1. 0128E-05 5. 9217E+19 4.9366E+16 Ru-105 1.4434E+02 2.1473E-08 1.2315E+17 2.4367E+16 Ru-106 1.3956E+02 4. 1716E-05 2.3700E+20 2.1068E+1E Rh-105 2. 1699E+02 2.5709E-07 1.4745E+18 3.2861E+1E Sb-127 4.4566E+02 1.6688E-06 7. 9132E+18 6.7623E+16 Sb-129 8.3371E+02 1.4826E-07 6. 9211E+17 1.4120E+17 Te-127 4.4919E+02 1.7020E-07 8.0708E+17 6.7784E+1E Te-127m 6. 1721E+01 6.5434E-06 3. 1028E+19 9.3158E+15 Te-129 9. 8155E+02 4.6869E-08 2.1880E+17 1.5729E+17 Te-129m 1.9768E+02 6.5618E-06 3.0633E+19 2.9837E+16 Te-131m 5.6084E+02 7.0333E-07 3. 2333E+18 8.6037E+16 Te-132 5.6978E+03 1.8768E-05 8.5624E+19 8.6540E+17 I-131 2.4390E+04 1.9673E-04 9.0438E+20 4.1087E+1E I-132 2.2027E+04 2. 1339E-06 9.7354E+18 4.2692E+1E I-133 4.5260E+04 3.9954E-05 1.8091E+20 7.8076E+1E I-134 5. 1195E+03 1. 9191E-07 8. 6246E+17 1.7983E+1E I-135 3.4234E+04 9.7482E-06 4.3485E+19 6.2587E+1E Xe-133 2.5369E+05 1.3553E-03 6. 1369E+21 3.3359E+19' Xe-135 1.0204E+05 3.9958E-05 1.7825E+20 1. 3743E+19' Cs-134 6.3409E+03 4.9009E-03 2.2025E+22 1.0810E+1E Cs-136 1. 8713E+03 2.5533E-05 1. 1306E+20 3.1958E+17 Cs-137 3.9020E+03 4.4860E-02 1. 9719E+23 6.6522E+17 Ba-139 6.5733E+02 4.0187E-08 1. 7411E+17 1.4561E+17 Ba-140 2.8464E+03 3.8880E-05 1.6724E+20 4.3033E+17 La-140 1. 1828E+02 2.1280E-07 9. 1537E+17 1.3283E+1E La-141 1.5927E+01 2.8162E-09 1.2028E+16 2.7293E+1E La-142 6.7627E+00 4.7242E-10 2.0035E+15 1.4337E+1E Ce-141 6. 7774E+01 2.3786E-06 1.0159E+19 1.0234E+16E Ce-143 5.8522E+01 8.8125E-08 3.7112E+17 8. 9644E+1E Ce-144 5.5943E+01 1.7540E-05 7.3353E+19 8.4449E+1E Pr-143 2.4233E+01 3.5986E-07 1. 5155E+18 3. 6503E+1E Nd-147 1. 0857E+01 1.3420E-07 5.4979E+17 1. 6418E+1E Np-239 8. 1846E+02 3.5280E-06 8.8895E+18 1.2461E+17 Pu-238 2. 6871E-01 1.5696E-05 3.9716E+19 4.0561E+12 Pu-239 2.2411E-02 3.6055E-04 9.0849E+20 3. 3825E+12 Pu-240 3.0412E-02 1.3346E-04 3.3489E+20 4.5905E+12 Pu-241 1.0183E+01 9.8849E-05 2.4701E+20 1.5370E+1E Am-241 5.9967E-03 1.7472E-06 4. 3659E+18 9.0498E+11 Cm-242 1.3884E+00 4 .1891E-07 1.0425E+18 2.0960E+14 Cm-244 9.8545E-02 1.2181E-06 3.0063E+18 1.4875E+1^.

Reactor Building Transport Group Inventory:

Time (h) = 3. 0000 Atmosphere Sump Noble gases (atoms) 4.4521E+22 0.OOOOE+00 Elemental I (atoms) 1.3022E+19 0.OOOOE+00 Organic I (atoms) 2.8712E+18 0.OOOOE+00 Aerosols (kg) 5.2423E-02 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 4.9667E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.0436E-07 Total I (Ci) 1.3103E+05 CC-AA-309-1001, Rev 2

Attachment B Page 31 of 65 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.0000 Leakage Transport.

Noble gases (atoms) 4.9340E+22 Elemental I (atoms) 1.5964E+19 Organic I (atoms) 3.2552E+18 Aerosols (kg) 5.9796E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 3.0000 Filtered Transported Noble gases (atoms) O.OOOOE+00 4.7740E+21 Elemental I (atoms) 1.2837E+18 1.2837E+18 Organic I (atoms) 1.6759E+17 1.6759E+17 Aerosols (kg) 7.2934E-03 7.3671E-05 Exclusion Area Boundary Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 9.0278E-04 7.7876E-03 1.2840E-03 Accumulated dose (rem) 2.2189E-02 2. 6033E-01 3. 3851E-02 Low Population Zone Doses:

Time (h) = 3. 0500 Whole Body Thyroid TEDE Delta dose (rem) 1.2396E-03 1.0693E-02 1.7630E-03 Accumulated dose (rem) 3.9993E-02 4. 5512E-01 6.0546E-02 Control Room Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 1.0078E-05 5.5367E-04 3. 4916E-05 Accumulated dose (rem) 2.5353E-04 2.'7101E-02 1.3426E-03 Drywell Compartment Nuclide Inventory:

Time (h) 3.0500 Ci kg Atoms Decay Co-58 3.4444E+02 1.00832E-05 1. 1247E+20 1.7779E+17 Co-60 4. 1274E+02 3.6513E-04 3.6648E+21 2. 1295E+17 Kr-85 1.3132E+06 3.34171E+00 2.3714E+25 3.2480E+20 Kr-85m 1.2712E+07 1.5,146E-03 1.0944E+22 3. 6818E+21 Kr-87 7. 3681E+06 2.66012E-04 1.8006E+21 3. 3239E+21 Kr-88 2.5943E+07 2.0689E-03 1. 4158E+22 8.2683E+21 Rb-86 1.4803E+04 1.8].93E-04 1.2740E+21 8. 7880E+18 Sr-89 4.3735E+05 1.55054E-02 1.0186E+23 2.2579E+20 Sr-90 6.3659E+04 4.6669E-01 3.1227E+24 3. 2845E+19 Sr-91 4.4502E+05 1.2277E-04 8. 1243E+20 2.4983E+20 Sr-92 2.7806E+05 2.21]22E-05 1.4481E+20 1.9440E+20 Y-90 1.8335E+03 3.33700E-06 2.2549E+19 5. 9470E+17 Y-91 5.8582E+03 2.3888E-04 1.5808E+21 2. 9740E+18 Y-92 1.0530E+05 1. 0943E-05 7.1631E+19 2. 9511E+19 Y-93 5.7696E+03 1.7293E-06 1. 1198E+19 3.2226E+18 Zr-95 8.0060E+03 3.7267E-04 2.3624E+21 4. 1328E+18 Zr-97 7. 1603E+03 3.74:56E-06 2.3254E+19 3. 8730E+18 l CC-AA-309-1001, Rev 2

Attachment B Page 32 of 65 Nb-95 8.0546E+03 2.0598E-04 1.3058E+21 4.1557E+18 Mo-99 1. 1186E+05 2.3324E-04 1.4188E+21 5.8415E+l9 Tc-99m 1.0086E+05 1. 9181E-05 1. 1668E+20 5.1984E+19 Ru-103 9. 7018E+04 3.0061E-03 1.7576E+22 5.0098E+19 Ru-105 4.2508E+04 6.3238E-06 3. 6269E+19 2.6331E+19 Ru-106 4. 1424E+04 1.2382E-02 7.0344E+22 2.1374E+19 Rh-105 6.4385E+04 7. 6281E-05 4.3750E+20 3.3403E+19 Sb-127 1.3223E+05 4. 9513E-04 2.3478E+21 6.8810E+19 Sb-129 2.4548E+05 4.3653E-05 2.0379E+20 1.5285E+2CI Te-127 1.3330E+05 5.0509E-05 2.3951E+20 6.8932E+19 Te-127m 1.8320E+04 1.9422E-03 9.2094E+21 9.4509E+lE1 Te-129 2.8957E+05 1.3827E-05 6.4549E+19 1.6777E+20 Te-129m 5.8672E+04 1.9476E-03 9.0921E+21 3.0270E+19 Te-131m 1.6627E+05 2.0852E-04 9.5856E+20 8.8094E+19 Te-132 1.6904E+06 5.5681E-03 2.5403E+22 8.8107E+20 I-131 6.5324E+06 5.2692E-02 2.4223E+23 3.8299E+2]

I-132 6.1778E+06 5.9850E-04 2.7305E+21 4.5635E+21 I-133 1.2103E+07 1.0684E-02 4.8377E+22 7.3722E+21 I-134 1.3182E+06 4. 9412E-05 2.2206E+20 2.4200E+21 I-135 9.1221E+06 2.5975E-03 1.1587E+22 6.0986E+21 Xe-133 1.5760E+08 8.4198E-01 3. 8124E+24 3.9146E+22 Xe-135 6. 3159E+07 2.4732E-02 1. 1033E+23 1.6359E+22:

Cs-134 1.6785E+06 1.2973E+00 5.8304E+24 9. 9451E+20 Cs-136 4. 9531E+05 6.7581E-03 2.9925E+22 2.9429E+2C0 Cs-137 1.0329E+06 1. 1875E+01 5.2200E+25 6.1197E+20 Ba-139 1.9026E+05 1.1632E-05 5.0394E+19 1.8218E+20 Ba-140 *8.4474E+05 1. 1539E-02 4.9635E+22 4.3697E+20 La-140 3.3882E+04 6.0958E-05 2. 6221E+20 1. 0122E+19 La-141 4.6858E+03 8.2855E-07 3.5388E+18 2.9740E+18 La-142 1.9626E+03 1.3710E-07 5. 8144E+17 1.7530E+18 Ce-141 2.0116E+04 7.0600E-04 3. 0153E+21 1. 0386E+19 Ce-143 1.7352E+04 2. 6129E-05 1. 1004E+20 9.1711E+1E Ce-144 1.6605E+04 5.2060E-03 2. 1772E+22 8.5680E+18 Pr-143 7. 1904E+03 1.0678E-04 4.4968E+20 3.6981E+1E8 Nd-147 3.2220E+03 3.9828E-05 1. 6316E+20 1.6674E+18E Np-239 2.4278E+05 1.0465E-03 2. 6369E+21 1. 2703E+2C0 Pu-238 7. 9757E+01 4.6588E-03 1.1788E+22 4. 1150E+16l Pu-239 6. 6518E+00 1.0702E-01 2.6965E+23 3.4314E+15 Pu-240 9.0266E+00 3. 9614E-02 9.9399E+22 4.6572E+1',

Pu-241 3.0224E+03 2.9340E-02 7. 3314E+22 1.5594E+lE, Am-241 1.7799E+00 5. 1858E-04 1.2958E+21 9.1800E+14 Cm-242 4. 1209E+02 1.2434E-04 3.0941E+20 2.1266E+1-/

Cm-244 2. 9249E+01 3. 6154E-04 8. 9231E+20 1.5091E+lE; Drywell Transport Group Inventory:

Time (h) = 3.0500 Atmosphere Sump Noble gases (atoms) 2.7664E+25 0.OOOOE+00 Elemental I (atoms) 2.9625E+20 5. 6164E+22 Organic I (atoms) 1.6955E+21 0.OOOOE+00 Aerosols (kg) 1.3955E+01 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.9779E-03 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2.4076E-03 Total I (Ci) 3.5254E+07 Deposition Recirculating CC-AA-309-1001, Rev 2

Attachment B Page 33 of 65 Time (h) = 3.0500 Surfaces Filter Noble gases (atoms) O.OOOOE+00 0.OOOOE+00 Elemental I (atoms) O.OOOOE+00 0.OOOOE+00 Organic I (atoms) O.OOOOE+00 0.OOOOE+00 Aerosols (kg) 3.5986E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.0500 Leakage Transport.

Noble gases (atoms) 5.0794E+22 Elemental I (atoms) 1.5981E+19 Organic I (atoms) 3. 3444E+18 Aerosols (kg) 6.0547E-02 Drywell to Void Transport Group Inventory:

Time (h) = 3.0500 Leakage Transport Noble gases (atoms) 1.3313E+22 Elemental I (atoms) 5.4098E+18 Organic I (atoms) 8. 9915E+17 Aerosols (kg) 1.7716E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 3. 0500 Ci kg Atoms Decay Co-58 1. 1725E+00 3.6872E-08 3.8284E+17 1.8303E+14 Co-60 1.4049E+00 1.2429E-06 1.2475E+19 2.1926E+14 Kr-85' 2. 1702E+03 5.5316E-03 3. 9190E+22 2.9160E+17 Kr-85m 2. 1008E+04 2.5527E-06 1.8086E+19 3.1505E+18 Kr-87 1.2177E+04 4.2989E-07 2. 9757E+18 2.4880E+18 Kr-88 4.2874E+04 3.4192E-06 2.3399E+19 6.8725E+18 Rb-86 5. 6404E+0l 6.9320E-07 4. 8541E+18 9.9219E+15 Sr-89 1.4887E+03 5.1242E-05 3.4673E+20 2.3243E+l7 Sr-90 2. 1669E+02 1.5886E-03 1.0630E+22 3.3817E+16 Sr-91 1. 5148E+03 4.1788E-07 2.7654E+18 2.4927E+17 Sr-92 9.4649E+02 7.5301E-08 4.9291E+17 1.7896E+17 Y-90 6.5486E+00 1.2036E-08 8. 0539E+16 7.8644E+14 Y-91 1. 9989E+01 8.1506E-07 5.3939E+18 3.0874E+15 Y-92 3.8602E+02 4.0117E-08 2. 6260E+17 4.5570E+16E Y-93 1. 9639E+01 5.8866E-09 3.8118E+16 3.2214E+15 Zr-95 2. 7252E+01 1.2685E-06 8.0414E+18 4.2544E+15 Zr-97 2.4373E+01 1.2750E-08 7. 9155E+16 3.9180E+15 Nb-95 2. 7417E+01 7. 0115E-07 4.4447E+18 4.2787E+15 Mo-99 3.8078E+02 7.9392E-07 4. 8294E+18 5.9875E+16 Tc-99m 3.4331E+02 6.5290E-08 3. 9716E+17 5.3412E+16E Ru-103 3.3024E+02 1.0232E-05 5. 9826E+19 5.1565E+1E Ru-105 1.4470E+02 2. 1526E-08 1.2346E+17 2.5334E+1E Ru-106 1.4100E+02 4.2147E-05 2.3945E+20 2.2007E+lE Rh-105 2. 1916E+02 2.5965E-07 1.4892E+18 3.4321E+16 Sb-127 4.5009E+02 1.6854E-06 7. 9919E+18 7.0621E+16 Sb-129 8.3559E+02 1.4859E-07 6.9367E+17 1.4678E+17 Te-127 4.5374E+02 1.7193E-07 8. 1526E+17 7.0801E+16 Te-127m 6. 2358E+01 6. 6109E-06 3. 1348E+19 9.7311E+15 Te-129 9.8567E+02 4.7066E-08 2. 1972E+17 1.6380E+17 Te-129m 1.9972E+02 6.6295E-06 3.0949E+19 3.1167E+16 l CC-AA-309-1001, Rev 2

Attachment B Page 34 of 65 Te-131m 5.6598E+02 7.0977E-07 3.2629E+18 8.9808E+16 Te-132 5.7541E+03 1.8953E-05 8. 6469E+19 9.0373E+17 I-131 2.4599E+04 1.9842E-04 9.1215E+20 4.2725E+18 I-132 2. 1992E+04 2. 1306E-06 9.7203E+18 4.4162E+18 I-133 4.5581E+04 4.0237E-05 1.8219E+20 8.1115E+18 I-134 4.9642E+03 1.8609E-07 8.3630E+17 1.8321E+18 I-135 3.4354E+04 9.7822E-06 4.3637E+19 6.4881E+1E:

Xe-133 2.6047E+05 1.3916E-03 6.3009E+21 3.5094E+1'J Xe-135 1.0450E+05 4.0922E-05 1.8255E+20 1. 4439E+19 Cs-134 6.3954E+03 4.9430E-03 2.2215E+22 1.1236E+18 Cs-136 1.8872E+03 2.5749E-05 1.1402E+20 3.3215E+17 Cs-137 3.9356E+03 4.5246E-02 1.9889E+23 6.9143E+17 Ba-139 6.4763E+02 3.9593E-08 1.7154E+17 1.4997E+17 Ba-140 2.8754E+03 3.9277E-05 1.6895E+20 4.4948E+17 La-140 1.2177E+02 2. 1908E-07 9.4237E+17 1.4078E+16 La-141 1. 5950E+01 2.8203E-09 1.2046E+16 2.8360E+15 La-142 6.6806E+00 4. 6669E-10 1.9792E+15 1.4787E+15 Ce-141 6.8471E+01 2.4030E-06 1.0263E+19 1.0690E+16E Ce-143 5. 9064E+01 8. 8941E-08 3.7456E+17 9.3580E+15 Ce-144 5. 6521E+01 1.7721E-05 7.4109E+19 8.8214E+15 Pr-143 2.4486E+01 3.6363E-07 1.5313E+18 3.8134E+15 Nd-147 1.0967E+01 1.3557E-07 5.5539E+17 1.7148E+15 Np-239 8.2640E+02 3.5622E-06 8.9758E+18 1.3011E+17 Pu-238 2.7149E-01 1.5858E-05 4.0126E+19 4.2369E+1-Pu-239 2.2642E-02 3.6428E-04 9.1787E+20 3.5333E+12 Pu-240 3.0726E-02 1.3484E-04 3.3835E+20 4.7952E+12 Pu-241 1.0288E+01 9.9870E-05 2.4956E+20 1.6056E+15 Am-241 6.0587E-03 1.7653E-06 4.4111E+18 9.4533E+11 Cm-242 1.4027E+00 4.2323E-07 1.0532E+18 2.1894E+14 Cm-244 9.9562E-02 1.2306E-06 3.0373E+18 1.5538E+1_.

Reactor Building Transport Group Inventory:

Time (h) = 3.0500 Atmosphere Sump Noble gases (atoms) 4.5718E+22 0.OOOOE+00 Elemental I (atoms) 1.2957E+19 0.OOOOE+00 Organic I (atoms) 2.9419E+18 0.OOOOE+00 Aerosols (kg) 5.2878E-02 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.0067E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.0888E-07 Total I (Ci) 1.3149E+05 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.0500 Leakage Transport Noble gases (atoms) 5.0794E+22 Elemental I (atoms) 1.5981E+19 Organic I (atoms) 3. 3444E+18 Aerosols (kg) 6.0547E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 3. 0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.0275E+21 Elemental I (atoms) 1.3202E+18 1.3202E+18 r CC-AA-309-1001, Rev 2

Attachment B Page 35 of 65 Organic I (atoms) 1.7575E+17 1.7575E+17 Aerosols (kg) 7.5862E-03 7.E6628E-05 Exclusion Area Boundary Doses:

Time (h) = 3.1000 Whole Body Thyroid TEDE Delta dose (rem) 9.1646E-04 7.8249E-03 1. 3001E-03 Accumulated dose (rem) 2.3105E-02 2.6816E-01 3.5151E-02 Low Population Zone Doses:

Time (h) = 3.1000 Whole Body Thyroid TEDE Delta dose (rem) 1.2583E-03 1.0744E-02 1.7851E-03 Accumulated dose (rem) 4.1252E-02 4. 6586E-01 6. 2331E-02 Control Room Doses:

Time (h) = 3.1000 Whole Body Thyroid TEDE Delta dose (rem) 1.0292E-05 5.5572E-04 3. 5316E-05 Accumulated dose (rem) 2.6383E-04 2.7657E-02 1.3779E-03 Drywell Compartment Nuclide Inventory:

Time (h) 3.1000 Ci kg Atoms Decay Co-58 3.2858E+02 1.0333E-05 1.0729E+20 1.7998E+17 Co-60 3.9375E+02 3.4833E-04 3.4962E+21 2.1558E+l7 Kr-85 1.3131E+06 3.3469E+00 2.3712E+25 3.3355E+2C Kr-85m 1.2613E+07 1.5326E-03 1.0859E+22 3. 7661E+21 Kr-87 7. 1695E+06 2. 5311E-04 1. 7520E+21 3. 3723E+21 Kr-88 2.5626E+07 2.0437E-03 1.3986E+22 8.4400E+21 Rb-86 1. 4121E+04 1.7355E-04 1.2153E+21 8.8820E+1E Sr-89 4. 1721E+05 1.4361E-02 9.7171E+22 2.2857E+2C Sr-90 6.0730E+04 4.4521E-01 2.9790E+24 3. 3249E+1S Sr-91 4.2300E+05 1. 1669E-04 7.7222E+20 2.5265E+20 Sr-92 2. 6189E+05 2.0836E-05 1.3639E+20 1. 9615E+20 Y-90 1. 7810E+03 3.2736E-06 2. 1904E+19 6.0635E+17 Y-91 5.5928E+03 2.2806E-04 1.5092E+21 3. 0113E+18 Y-92 1.0205E+05 1.0606E-05 6. 9424E+19 3.0176E+19 Y-93 5.4853E+03 1. 6441E-06 1.0646E+19 3.2592E+18 Zr-95 7.6374E+03 3.5551E-04 2.2536E+21 4. 1836E+18 Zr-97 6. 8168E+03 3.5659E-06 2.2138E+19 3. 9184E+18 Nb-95 7.6839E+03 1.9650E-04 1.2457E+21 4.2069E+18 Mo-99 1.0666E+05 2.2239E-04 1.3528E+21 5. 9125E+19 Tc-99m 9.6204E+04 1.8296E-05 1.1129E+20 5.2623E+19 Ru-103 9.2550E+04 2.8676E-03 1.6766E+22 5. 0714E+19 Ru-105 4.0237E+04 5.9858E-06 3. 4331E+19 2. 6600E+19 Ru-106 3. 9518E+04 1. 1812E-02 6.7106E+22 2. 1638E+19 Rh-105 6. 1401E+04 7.2746E-05 4. 1722E+20 3. 3812E+19 Sb-127 1.2609E+05 4. 7217E-04 2.2389E+21 6. 9650E+19 Sb-129 2.3231E+05 4.1311E-05 1.9285E+20 1.5440E+20 Te-127 1.2714E+05 4.8176E-05 2.2844E+20 6. 9777E+19 Te-127m 1.7476E+04 1.8528E-03 8. 7856E+21 9. 5672E+18 Te-129 2.7456E+05 1.3110E-05 6. 1204E+19 1.6958E+20 Te-129m 5.5972E+04 1.8580E-03 8. 6736E+21 3.0643E+19 Te-131m 1.5844E+05 1.9369E-04 9. 1339E+20 8.9149E+19 CC-AA-309-1001, Rev 2

Attachment B Page 36 of 65 Te-132 1.6119E+06 5.3095E-03 2.4223E+22 8.9181E+20 I-131 6.2317E+06 5.0266E-02 2. 3107E+23 3.8714E+21 I-132 5.8305E+06 5.6486E-04 2.5770E+21 4.6025E+2]

I-133 1.1529E+07 1.0177E-02 4. 6081E+22 7.4491E+21 I-134 1.2089E+06 4.5318E-05 2.0367E+20 2.4282E+2]

I-135 8.6582E+06 2.4654E-03 1.0998E+22 6.1564E+21 Xe-133 1.5755E+08 8.4171E-01 3.8112E+24 4.0195E+22 Xe-135 6.2943E+07 2.4648E-02 1.0995E+23 1.6778E+22z Cs-134 1. 6013E+06 1.2376E+00 5.5620E+24 1.0052E+21 Cs-136 4.7246E+05 6.4464E-03 2.8545E+22 2.9743E+2C0 Cs-137 9.8538E+05 1. 1329E+01 4.9797E+25 6.1853E+2C0 Ba-139 1.7700E+05 1.0821E-05 4. 6881E+19 1. 8337E+2C0 Ba-140 8.0577E+05 1. 1007E-02 4.7345E+22 4.4234E+2C0 La-140 3.2988E+04 5.9350E-05 2.5529E+20 1. 0337E+19 La-141 4.4309E+03 7.8348E-07 3.3463E+18 3.0036E+1E La-142 1.8307E+03 1.2789E-07 5. 4235E+17 1.7653E+1E Ce-141 1.9190E+04 6.7349E-04 2.8765E+21 1. 0514E+19, Ce-143 1.6536E+04 2.4900E-05 1.0486E+20 9.2812E+18 Ce-144 1.5840E+04 4.9664E-03 2.0770E+22 8.6735E+18 Pr-143 6.8605E+03 1. 0188E-04 4.2905E+20 3.7438E+1E Nd-147 3.0733E+03 3.7990E-05 1.5563E+20 1.6879E+18 Np-239 2.3146E+05 9.9773E-04 2.5140E+21 1.2858E+20 Pu-238 7.6086E+01 4.4444E-03 1.1246E+22 4.1657E+1E Pu-239 6.3457E+00 1.0209E-01 2.5724E+23 3.4737E+15 Pu-240 8. 6112E+00 3.7790E-02 9.4825E+22 4.7146E+15 Pu-241 2.8833E+03 2.7989E-02 6.9940E+22 1.5786E+18 Am-241 1.6980E+00 4.9473E-04 1.2362E+21 9.2931E+14 Cm-242 3. 9312E+02 1. 1861E-04 2. 9517E+20 2.1527E+17 Cm-244 2.7903E+01 3.4490E-04 8.5124E+20 1.5277E+16 Drywell Transport Group Inventory:

Time (h) = 3.1000 Atmosphere Sump Noble gases (atoms) 2.7660E+25 0.00OOE+00 Elemental I (atoms) 2.5124E+20 5.6209E+22 Organic I (atoms) 1.6942E+21 0.OOOOE+00 Aerosols (kg) 1.3313E+01 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyrioid) 1.8858E-03 Dose Effective (Ci/cc) I-131 (ICRP:2 Thyroid) 2.2942E-03 Total I (Ci) 3.3458E+07 Deposition Recirculating Time (h) = 3.1000 Surfaces Filter Noble gases (atoms) 0.0000E+00 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.ODOOE+00 Aerosols (kg) 3.6628E+01 0.ODOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.1000 Leakage Transport Noble gases (atoms) 5.2247E+22 Elemental I (atoms) 1. 5996E+19 Organic I (atoms) 3. 4334E+18 Aerosols (kg) 6. 1263E-02 CC-AA-309-1001, Rev 2 l

Attachment B Page 37 of 65 Drywell to Void Transport Group Inventory:

Time (h) = 3.1000 Leakage Transport.

Noble gases (atoms) 1.3589E+22 Elemental I (atoms) 5.4125E+18 Organic I (atoms) 9.1603E+17 Aerosols (kg) 1.7852E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 3.1000 Ci kg Atoms Decay Co-58 1.1835E+00 3.7219E-08 3.8644E+17 1.9091E+14' Co-60 1. 4182E+00 1.2546E-06 1.2592E+19 2.2871E+14' Kr-85 2.2269E+03 5.6760E-03 4. 0213E+22 3.0643E+1' Kr-85m 2.1390E+04 2.5992E-06 1. 8415E+19 3.2935E+18 Kr-87 1 .2159E+04 4.2925E-07 2.9712E+18 2.5701E+18 Kr-88 4.3459E+04 3.4659E-06 2.3718E+19 7.1637E+18 Rb-86 5. 6841E+01 6.9857E-07 4.8917E+18 1.0300E+16 Sr-89 1.5027E+03 5. 1724E-05 3.4999E+20 2.4243E+1' Sr-90 2. 1874E+02 1.6036E-03 1.0730E+22 3.5274E+16; Sr-91 1.5235E+03 4.2029E-07 2.7814E+18 2.5943E+17 Sr-92 9.4328E+02 7.5046E-08 4. 9123E+17 1.8528E+17 Y-90 6.7206E+00 1.2353E-08 8.2654E+16 8.3042E+14 Y-91 2. 0192E+01 8.2335E-07 5. 4487E+18 3.2218E+1' Y-92 3.9475E+02 4. 1025E-08 2. 6854E+17 4.8150E+16 Y-93 1.9757E+01 5. 9217E-09 3.8346E+16 3.3532E+1',

Zr-95 2.7508E+01 1.2805E-06 8.1170E+18 4.4376E+1' Zr-97 2. 4553E+01 1.2844E-08 7. 9738E+16 4.0817E+1',

Nb-95 2. 7676E+01 7.0777E-07 4.4866E+18 4.4630E+15 Mo-99 3.8417E+02 8.0099E-07 4. 8724E+18 6.2434E+16 Tc-99m 3.4651E+02 6.5898E-08 4.0085E+17 5.5714E+16E Ru-103 3.3334E+02 1.0329E-05 6. 0389E+19 5. 3786E+lE6 Ru-105 1.4492E+02 2. 1560E-08 1.2365E+17 2.6303E+16 Ru-106 1.4233E+02 4.2544E-05 2.4170E+20 2.2955E+16 Rh-105 2.2116E+02 2.6202E-07 1.5028E+18 3.5793E+lE1 Sb-127 4.5416E+02 1.7007E-06 8.0642E+18 7.3646E+lE Sb-129 8.3673E+02 1.4879E-07 6. 9462E+17 1.5238E+17 Te-127 4.5794E+02 1.7352E-07 8.2280E+17 7.3846E+lE Te-127m 6.2947E+O1 6.6733E-06 3.1644E+19 1. 0150E+1E Te-129 9.8892E+02 4. 7221E-08 2.2044E+17 1.7033E+17 Te-129m 2.0160E+02 6.6920E-06 3. 1241E+19 3.2510E+1E Te-131m 5.7066E+02 7.1564E-07 3.2898E+18 9.3611E+1E Te-132 5.8058E+03 1. 9124E-05 8.7246E+19 9.4240E+17 I-131 2.4791E+04 1.9997E-04 9. 1928E+20 4.4377E+18 I-132 2.1941E+04 2.1256E-06 9. 6977E+18 4.5629E+18 I-133 4.5868E+04 4.0491E-05 1.8334E+20 8.4172E+18 I-134 4.8099E+03 1.8030E-07 8. 1030E+17 1.8647E+18 I-135 3.4447E+04 9.8088E-06 4.3756E+19 6.7181E+18 Xe-133 2. 6721E+05 1.4275E-03 6. 4638E+21 3.6874E+19 Xe-135 1.0693E+05 4. 1873E-05 1.8679E+20 1.5152E+19 Cs-134 6.4455E+03 4. 9817E-03 2.2389E+22 1.1666E+18 Cs-136 1. 9018E+03 2.5948E-05 1.1490E+20 3.4482E+17 Cs-137 3.9664E+03 4.5600E-02 2.0045E+23 7.1785E+17 Ba-139 6.3750E+02 3.8974E-08 1.6886E+17 1.5427E+17 Ba-140 2.9022E+03 3.9643E-05 1.7053E+20 4.6881E+17 l CC-AA-309-1001, Rev 2

Attachment B Page 38 of 65 La-140 1.2521E+02 2.2527E-07 9.6903E+17 1.4895E+16 La-141 1.5959E+01 2.8219E-09 1.2053E+16 2.9428E+15 La-142 6.5938E+00 4.6062E-10 1.9534E+15 1.5231E+15 Ce-141 6.9114E+01 2.4256E-06 1.0360E+19 1.1151E+16 Ce-143 5. 9559E+01 8.9686E-08 3.7769E+17 9.7549E+15 Ce-144 5.7053E+01 1.7888E-05 7.4808E+19 9.2014E+15 Pr-143 2.4721E+01 3.6711E-07 1.5460E+18 3.9780E+15 Nd-147 1. 1069E+01 1.3683E-07 5.6056E+17 1.7886E+15 Np-239 8.3369E+02 3.5936E-06 9.0549E+18 1.3567E+17 Pu-238 2.7405E-01 1.6008E-05 4.0505E+19 4.4194E+1; Pu-239 2.2856E-02 3.6771E-04 9.2654E+20 3.6855E+121 Pu-240 3.1016E-02 1.3611E-04 3.4154E+20 5.0017E+12 Pu-241 1.0385E+01 1.0081E-04 2.5191E+20 1.6747E+15 Am-241 6.1159E-03 1.7819E-06 4.4527E+18 9.8606E+11.

Cm-242 1.4159E+00 4.2722E-07 1.0631E+18 2.2837E+14 Cm-244 1.0050E-01 1.2423E-06 3.0660E+18 1.6207E+13 Reactor Building Transport Group Inventory:

Time (h) = 3.1000 Atmosphere Sump Noble gases (atoms) 4.6909E+22 0.OOOOE+00 Elemental I (atoms) 1.2889E+19 0.OOOOE+00 Organic I (atoms) 3.0121E+18 0.OOOOE+00 Aerosols (kg) 5.3296E-02 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.0431E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.1298E-07 Total I (Ci) 1.3186E+05 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 3.1000 Leakage Transport Noble gases (atoms) 5.2247E+22 Elemental I (atoms) 1.5996E+19 Organic I (atoms) 3.4334E+18 Aerosols (kg) 6.1263E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 3.1000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.2876E+21 Elemental I (atoms) 1.3565E+18 1.3565E+18 Organic I (atoms) 1.8412E+17 1.8412E+17 Aerosols (kg) 7.8814E-03 7.9610E-05 Exclusion Area Boundary Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.8419E-02 1. 4389E-01 2.5538E-02 Accumulated dose (rem) 4.1524E-02 4. 1205E-01 6.0689E-02 Low Population Zone Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.5290E-02 1. 9757E-01 3.5064E-02 Accumulated dose (rem) 6.6542E-02 6.6343E-01 9.7396E-02 r CC-AA-309-1001, Rev 2

Attachment B Page 39 of 65 Control Room Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.2245E-04 1.0347E-02 7.0254E-04 Accumulated dose (rem) 4.8628E-04 3.8004E-02 2.0805E-03 Drywell Compartment Nuclide Inventory:

Time (h) 4 .0000 Ci kg Atoms Decay Co-58 1.4066E+02 4.4236E-06 4.5930E+19 2.0530E+17 Co-60 1.6862E+02 1.4917E-04 1.4972E+21 2.4592E+l1' Kr-85 1.3116E+06 3.3432E+00 2.3686E+25 4.9087E+2C0 Kr-85m 1. 0961E+07 1.3319E-03 9. 4364E+21 5.1767E+21 Kr-87 4.3848E+06 1.5480E-04 1. 0715E+21 4.0512E+21.

Kr-88 2.0550E+07 1.6388E-03 1. 1215E+22 1.1196E+22 Rb-86 6.0389E+03 7. 4217E-05 5. 1970E+20 9.9698E+18 Sr-89 1.7858E+05 6. 1467E-03 4.1591E+22 2.6072E+2C0 Sr-90 2.6007E+04 1. 9066E-01 1.2757E+24 3.7930E+19 Sr-91 1.6963E+05 4.6795E-05 3.0968E+20 2.8435E+2C0 Sr-92 8.9092E+04 7.0880E-06 4.6397E+19 2.1447E+2C0 Y-90 1.0077E+03 1.8522E-06 1.2394E+19 7.6013E+17-Y-91 2.4267E+03 9.8954E-05 6.5485E+20 3.4445E+1E.

Y-92 5.2934E+04 5.5011E-06 3. 6009E+19 3.8663E+19 Y-93 2.2083E+03 6. 6191E-07 4.2861E+18 3.6709E+1E Zr-95 3.2693E+03 1. 5218E-04 9.6470E+20 4.7722E+1E Zr-97 2.8135E+03 1. 4717E-06 9.1371E+18 4.4356E+1E Nb-95 3.2906E+03 8. 4151E-05 5.3344E+20 4.7991E+1E Mo-99 4.5247E+04 9.4340E-05 5.7387E+20 6.7312E+19 Tc-99m 4. 1104E+04 7. 8170E-06 4.7551E+19 5.9989E+19 Ru-103 3.9608E+04 1.2272E-03 7. 1753E+21 5.7845E+19 Ru-105 1.4973E+04 2.2274E-06 1.2775E+19 2.9521E+19 Ru-106 1.6922E+04 5.0580E-03 2.8736E+22 2.4683E+19 Rh-105 2. 6116E+04 3.0941E-05 1.7746E+20 3.8528E+19 Sb-127 5.3635E+04 2.0084E-04 9.5236E+20 7.9340E+19S Sb-129 8. 6108E+04 1.5312E-05 7. 1483E+19 1.7124E+2C Te-127 5.4267E+04 2.0563E-05 9.7505E+19 7.9528E+19' Te-127m 7.4847E+03 7.9350E-04 3.7626E+21 1. 0914E+19, Te-129 1.0572E+05 5.0481E-06 2. 3566E+19 1.8934E+2C Te-129m 2.3967E+04 7.9557E-04 3.7140E+21 3.4956E+19 Te-131m 6.6453E+04 8.3337E-05 3. 8310E+20 1.0125E+2C Te-132 6. 8481E+05 2.2557E-03 1.0291E+22 1.0156E+21 I-131 2.6789E+06 2. 1608E-02 9.9334E+22 4.3523E+21 I-132 2.0834E+06 2.0184E-04 9.2084E+20 5.0162E+21 I-133 4.8248E+06 4.2592E-03 1.9285E+22 8.3286E+21 I-134 2.5591E+05 9.5930E-06 4. 3112E+19 2.4984E+21 I-135 3.3975E+06 9.6744E-04 4. 3156E+21 6.7991E+21 Xe-133 1.5663E+08 8.3679E-01 3.7889E+24 5.9026E+22 Xe-135 5.9004E+07 2. 3105E-02 1.0307E+23 2.4086E+22 Cs-134 6. 8571E+05 5. 2999E-01 2. 3818E+24 1.1286E+21 Cs-136 2.0193E+05 2. 7551E-03 1.2200E+22 3.3382E+2C0 Cs-137 4.2198E+05 4.8514E+00 2. 1325E+25 6.9448E+2C0 Ba-139 4.8205E+04 2.9471E-06 1.2768E+19 1. 9469E+2C' Ba-140 3.4436E+05 4.7039E-03 2.0234E+22 5.0439E+2C La-140 1. 9213E+04 3.4567E-05 1.4869E+20 1.3222E+1l

_ CC-AA-309-1001, Rev 2

Attachment B Page 40 of 65 La-141 1. 6190E+03 2.8627E-07 1.2227E+18 3.3229E+1E La-142 5.2308E+02 3. 6541E-08 1.5497E+17 1.8846E+lE Ce-141 8.2128E+03 2.8824E-04 1.2311E+21 1.1992E+lS1 Ce-143 6.9488E+03 1.0464E-05 4.4066E+19 1. 0545E+19S Ce-144 6.7829E+03 2. 1266E-03 8.8937E+21 9.8943E+1E Pr-143 2.9458E+03 4.3746E-05 1.8423E+20 4.2730E+1E Nd-147 1. 3130E+03 1.6230E-05 6. 6491E+19 1. 9245E+1E Np-239 9.8035E+04 4.2258E-04 1.0648E+21 1.4633E+2C Pu-238 3. 2584E+01 1.9033E-03 4.8159E+21 4.7521E+1E.

Pu-239 2.7178E+00 4.3725E-02 1.1017E+23 3.9628E+1' Pu-240 3.6877E+00 1. 6184E-02 4.0608E+22 5.3783E+1' Pu-241 1.2347E+03 1. 1986E-02 2. 9951E+22 1.8008E+1E Am-241 7.2735E-01 2. 1192E-04 5.2955E+20 1.0602E+1' Cm-242 1.6832E+02 5.0787E-05 1.2638E+20 2.4557E+17 Cm-244 1.1949E+01 1.4770E-04 3.6454E+20 1.7427E+16 Drywell Transport Group Inventory:

Time (h) = 4.0000 Atmosphere Sump Noble gases (atoms) 2.7600E+25 0.OOOOE+00 Elemental I (atoms) 1.2945E+19 5.6446E+22 Organic I (atoms) 1.6712E+21 0.OOOOE+00 Aerosols (kg) 5.7007E+00 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyr<D)id) 8.0307E-04 Dose Effective (Ci/cc) I-131 (ICRP:2 Thyroid) 9.6794E-04 Total I (Ci) 1.3241E+07 Deposition Recirculating Time (h) = 4.0000 Surfaces Filter Noble gases (atoms) 0.000OE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 4.4229E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 4.0000 Leakage Transport Noble gases (atoms) 7.8380E+22 Elemental I (atoms) 1. 6072E+19 Organic I (atoms) 5.0258E+18 Aerosols (kg) 6. 9751E-02 Drywell to Void Transport Group Inventory:

Time (h) = 4.0000 Leakage Transport Noble gases (atoms) 1.8542E+22 Elemental I (atoms) 5. 4269E+18 Organic I (atoms) 1.2178E+18 Aerosols (kg) 1. 9461E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 4.0000 Ci kg Atoms Decay Co-58 1.2671E+00 3.9848E-08 4. 1374E+17 3.4017E+14 Co-60 1.5189E+00 1.3437E-06 1.3487E+19 4. 0760E+14 Kr-85 3.1932E+03 8.1390E-03 5.7664E+22 6.3872E+17 CC-AA-309-1001, Rev 2

Attachment B Page 41 of 65 Kr-85m 2.6685E+04 3.2426E-06 2.2973E+19 6.2612E+18E Kr-87 1.0675E+04 3.7687E-07 2. 6087E+18 3.9840E+18 Kr-88 5.0029E+04 3.9898E-06 2. 7303E+19 1.2949E+19 Rb-86 5. 9795E+01 7.3487E-07 5.1459E+18 1.7389E+16 Sr-89 1.6086E+03 5.5369E-05 3.7465E+20 4.3194E+17 Sr-90 2.3427E+02 1.7174E-03 1. 1492E+22 6.2866E+E16 Sr-91 1.5280E+03 4.2153E-07 2.7896E+18 4.4538E+17 Sr-92 8.0254E+02 6.3849E-08 4.1794E+17 2.9145E+17 Y-90 9. 3511E+00 1. 7188E-08 1.1501E+17 1.7906E+15 Y-91 2. 1903E+01 8. 9312E-07 5. 9105E+18 5.7834E+15 Y-92 4.9742E+02 5.1694E-08 3.3838E+17 1.0175E+17 Y-93 1.9893E+01 5.9624E-09 3. 8609E+16 5.7693E+15 Zr-95 2. 9450E+01 1.3709E-06 8. 6900E+18 7.9068E+1E Zr-97 2. 5344E+01 1.3257E-08 8.2306E+16 7.1218E+15 Nb-95 2.9641E+01 7.5803E-07 4. 8052E+18 7.9540E+15 Mo-99 4.0758E+02 8.4981E-07 5. 1694E+18 1.1066E+17 Tc-99m 3.7026E+02 7.0415E-08 4.2833E+17 9.9130E+16E Ru-103 3.5678E+02 1. 1055E-05 6.4635E+19 9.5820E+1E Ru-105 1.3487E+02 2.0064E-08 1. 1508E+17 4.3347E+1E Ru-106 1.5243E+02 4.5562E-05 2.5885E+20 4.0908E+1E Rh-105 2.3525E+02 2.7872E-07 1.5986E+18 6.3581E+1E Sb-127 4. 8315E+02 1.8092E-06 8.5789E+18 1.3074E+17 Sb-129 7.7565E+02 1.3793E-07 6. 4392E+17 2.5059E+17 Te-127 4.8884E+02 1.8523E-07 8. 7832E+17 1.3131E+17 Te-127m 6. 7422E+01 7. 1478E-06 3.3894E+19 1.8091E+1E Te-129 9. 5231E+02 4.5473E-08 2. 1228E+17 2.8588E+17 Te-129m 2. 1589E+02 7. 1665E-06 3.3456E+19 5.7938E+1E Te-131m 5. 9861E+02 7.5069E-07 3.4510E+18 1.6484E+17 Te-132 6. 1687E+03 2. 0319E-05 9.2700E+19 1.6718E+18 I-131 2.6086E+04 2. 1041E-04 9.6728E+20 7.5304E+18 I-132 1.9297E+04 1.8695E-06 8. 5290E+18 7.0559E+18 I-133 4.6986E+04 4.1477E-05 1. 8781E+20 1.4063E+19 I-134 2.4921E+03 9.3420E-08 4. 1984E+17 2.2936E+18 I-135 3.3086E+04 9. 4213E-06 4.2027E+19 1.0824E+19 Xe-133 3. 8149E+05 2.0381E-03 9.2283E+21 7.6654E+19 Xe-135 1.4507E+05 5.6806E-05 2.5340E+20 3.0645E+19 Cs-134 6.7897E+03 5.2477E-03 2.3584E+22 1.9709E+18 Cs-136 1.9994E+03 2. 7281E-05 1.2080E+20 5.8192E+17 Cs-137 4. 1783E+03 4.8037E-02 2. 1116E+23 1.2129E+18 Ba-139 4.3423E+02 2.6547E-08 1.1501E+17 2.1881E+17 Ba-140 3. 1020E+03 4.2372E-05 1.8227E+20 8.3452E+17 La-140 1.7876E+02 3.2162E-07 1.3834E+18 3.3019E+16 La-141 1. 4584E+01 2.5787E-09 1.1014E+16 4.8028E+15 La-142 4.7119E+00 3.2916E-10 1.3959E+15 2.2058E+15 Ce-141 7. 3977E+01 2.5963E-06 1.1089E+19 1.9866E+16 Ce-143 6.2594E+01 9.4257E-08 3. 9694E+17 1.7197E+16 Ce-144 6. 1100E+01 1. 9157E-05 8.0114E+19 1.6398E+16 Pr-143 2. 6545E+01 3.9420E-07 1.6601E+18 7.0996E+15 Nd-147 1. 1828E+01 1.4620E-07 5. 9895E+17 3.1832E+15 Np-239 8. 8310E+02 3.8066E-06 9. 5915E+18 2.4024E+17 Pu-238 2. 9351E-01 1. 7145E-05 4.3381E+19 7.8763E+13 Pu-239 2.4482E-02 3.9387E-04 9.9245E+20 6.5687E+12 Pu-240 3.3219E-02 1.4578E-04 3.6580E+20 8.9141E+12 Pu-241 1. 1122E+01 1.0797E-04 2.6980E+20 2.9847E+15 Am-241 6. 5521E-03 1.9090E-06 4. 7703E+18 1.7576E+12 I CC-AA-309-1001, Rev 2

Attachment B Page 42 of 65 Cm-242 1.5163E+00 4.5749E-07 1.1385E+18 4.0696E+14 Cm-244 1.0764E-01 1.3305E-06 3.2837E+18 2.8885E+13 Reactor Building Transport Group Inventory:

Time (h) = 4.0000 Atmosphere Sump Noble gases (atoms) 6.7199E+22 0.OOOOE+00 Elemental I (atoms) 1.1575E+19 0.OOOOE+00 Organic I (atoms) 4.1927E+18 0.OOOOE+00 Aerosols (kg) 5.6183E-02 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.2570E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.3319E-07 Total I (Ci) 1.2795E+05 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 4.0000 Leakage Transport Noble gases (atoms) 7.8380E+22 Elemental I (atoms) 1.6072E+19 Organic I (atoms) 5.0258E+18 Aerosols (kg) 6.9751E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 4.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.1074E+22 Elemental I (atoms) 1.9755E+18 1.9755E+18 Organic I (atoms) 3.6700E+17 3.6700E+17 Aerosols (kg) 1.3422E-02 1.3558E-04 Exclusion Area Boundary Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 9.1612E-02 5.8060E-01 1.2020E-01 Accumulated dose (rem) 1.3314E-01 9.9265E-01 1.8089E-01 Low Population Zone Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.2579E-01 7.9719E-01 1.6504E-01 Accumulated dose (rem) 1.9233E-01 1.4606E+00 2. 6243E-01 Control Room Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4503E-03 4.6850E-02 3.7426E-03 Accumulated dose (rem) 1.9366E-03 8.4854E-02 5.8231E-03 Drywell Compartment Nuclide Inventory:

Time (h) = 8.0000 Ci kg Atoms Decay Co-58 9.2871E+00 2.9207E-07 3. 0325E+18 2.2682E+17 Co-60 1.1150E+01 9.8643E-06 9.9007E+19 2. 7173E+17 Kr-85 1.3051E+06 3.3265E+00 2.3568E+25 1.1879E+21 Kr-85m 5.8736E+06 7.1372E-04 5.0566E+21 9.5212E+21 CC-AA-309-1001, Rev 2

Attachment B Page 43 of 65 Kr-87 4.9306E+05 1.7407E-05 1.2049E+20 5.OOOOE+21 Kr-88 7.7027E+06 6.1429E-04 4.2038E+21 1. 8171E+22 Rb-86 3.9690E+02 4.8779E-06 3.4157E+19 1. 0892E+19 Sr-89 1. 1783E+04 4.0557E-04 2.7443E+21 2.8803E+2C, Sr-90 1. 7199E+03 1.2609E-02 8.4367E+22 4.1910E+19 Sr-91 8.3787E+03 2.3114E-06 1.5296E+19 3.0821E+2C0 Sr-92 2. 1180E+03 1. 6851E-07 1. 1030E+18 2.2484E+2C' Y-90 1.3678E+02 2.5140E-07 1. 6822E+18 9.6093E+17 Y-91 1.6823E+02 6.8598E-06 4. 5397E+19 3.8213E+18E Y-92 3.4928E+03 3.6299E-07 2.3760E+18 4.7173E+19S Y-93 1.1098E+02 3.3265E-08 2. 1541E+17 3.9831E+1E Zr-95 2. 1582E+02 1.0046E-05 6. 3683E+19 5.2722E+1E Zr-97 1.5791E+02 8.2602E-08 5.1283E+17 4.8460E+1E Nb-95 2. 1760E+02 5.5648E-06 .3.5276E+19 5.3026E+1E Mo-99 2.8692E+03 5.9823E-06 3. 6390E+19 7.4151E+19, Tc-99m 2.6707E+03 5 .0791E-07 3.0896E+18 6.6217E+lS, Ru-103 2. 6117E+03 8. 0921E-05 4.7313E+20 6.3901E+l, Ru-105 5.3029E+02 7.8888E-08 4.5245E+17 3.1447E+19' Ru-106 1. 1187E+03 3.3439E-04 1.8998E+21 2.7273E+1S Rh-105 1.6523E+03 1.9575E-06 1. 1227E+19 4.2476E+l, Sb-127 3.4422E+03 1.2890E-05 6. 1120E+19 8.7476E+19 Sb-129 2.9973E+03 5.3300E-07 2. 4882E+18 1.8227E+2C Te-127 3.5303E+03 1.3377E-06 6.3431E+18 8.7765E+1§ Te-127m 4.9513E+02 5.2491E-05 2.4890E+20 1.2060E+19 Te-129 4.2885E+03 2.0478E-07 9. 5597E+17 2.0310E+20 Te-129m 1.5827E+03 5.2538E-05 2.4526E+20 3.8623E+15 Te-131m 4.0068E+03 5.0247E-06 2.3099E+19 1.1115E+20 Te-132 4.3711E+04 1.4398E-04 6.5686E+20 1.1193E+21 I-131 2.0775E+05 1.6758E-03 7. 7035E+21 4.7741E+21 I-132 8.3790E+04 8.1175E-06 3.7034E+19 5.2820E+21 I-133 3. 3213E+05 2. 9319E-04 1.3276E+21 9.0614E+21 I-134 8. 5170E+02 3. 1927E-08 1.4348E+17 2.5182E+21 I-135 1.7568E+05 5.0024E-05 2.2315E+20 7.2742E+21 Xe-133 1.5249E+08 8.1464E-01 3.6886E+24 1.4137E+23 Xe-135 4.3462E+07 1.7019E-02 7. 5919E+22 5.1192E+22 Cs-134 4.5341E+04 3.5044E-02 1.5749E+23 1.2335E+21 Cs-136 1.3237E+04 1.8060E-04 7.9972E+20 3.6464E+20 Cs-137 2.7907E+04 3. 2083E-01 1. 4103E+24 7.5905E+20 Ba-139 4.2648E+02 2.6073E-08 1.1296E+17 1.9922E+20 Ba-140 2.2568E+04 3.0827E-04 1.3260E+21 5.5694E+20 La-140 2.6956E+03 4.8497E-06 2.0861E+19 1.7116E+19 La-141 5. 2877E+01 9.3499E-09 3.9933E+16 3.5268E+18 La-142 5.7271E+00 4.0007E-10 1. 6967E+15 1.9359E+18 Ce-141 5. 4148E+02 1.9004E-05 8.1165E+19 1.3248E+19 Ce-143 4.2251E+02 6.3623E-07 2. 6793E+18 1.1583E+19 Ce-144 4.4839E+02 1.4D58E-04 5.8792E+20 1.0932E+19 Pr-143 1.9690E+02 2.9240E-06 1.2314E+19 4.7252E+18 Nd-147 8. 5924E+01 1.0621E-06 4.3512E+18 2.1248E+18 Np-239 6.1729E+03 2.6608E-05 6.7046E+19 1.6112E+20 Pu-238 2. 1549E+00 1.2587E-04 3.1849E+20 5.2507E+16 Pu-239 1.7982E-01 2.8930E-03 7.2895E+21 4.3788E+15 Pu-240 2.4388E-01 1.0703E-03 2. 6855E+21 5.9426E+15 Pu-241 8. 1654E+01 7.9.266E-04 1. 9807E+21 1.9897E+18 Am-241 4. 8161E-02 1.4 332E-05 3.5064E+19 1.1715E+15 Cm-242 1. 1124E+01 3.3563E-06 8. 3521E+18 2.7133E+17 CC-AA-309-1001, Rev 2

Attachment B Page 44 of 65 Cm-244 7.9022E-01 9.7676E-06 2.4107E+19 1.9256E+lE Drywell Transport Group Inventory:

Time (h) = 8.0000 Atmosphere Sump Noble gases (atoms) 2.7342E+25 0.OOOOE+00 Elemental I (atoms) 2.4620E+13 5.6459E+22 Organic I (atoms) 1.5854E+21 0.OOOOE+00 Aerosols (kg) 3.7690E-01 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 6.0040E-05 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 7.0222E-05 Total I (Ci) 8.0020E+05 Deposition Recirculating Time (h) = 8.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+60 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 4.9544E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 8.0000 Leakage Transport Noble gases (atoms) 1.9385E+23 Elemental I (atoms) 1.6076E+19 Organic I (atoms) 1.1867E+19 Aerosols (kg) 7.6908E-02 Drywell to Void Transport Group Inventory:

Time (h) = 8.0000 Leakage Transport Noble gases (atoms) 4.0427E+22 Elemental I (atoms) 5.4277E+18 Organic I (atoms) 2.5144E+18 Aerosols (kg) 2.0817E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 8.0000 Ci kg Atoms Decay Co-58 9. 3645E-01 2.9450E-08 3.0578E+17 9.3713E+14 Co-60 1. 1243E+00 9.9464E-07 9. 9831E+18 1.1237E+15 Kr-85 6.4665E+03 1.6482E-02 1.1677E+23 3.3001E+18 Kr-85m 2. 9102E+04 3.5363E-06 2.5054E+19 2.2290E+19 Kr-87 2.4430E+03 8.6247E-08 5. 9700E+17 7.2009E+18 Kr-88 3.8165E+04 3.0437E-06 2.0829E+19 3.8176E+19 Rb-86 4.3443E+01 5.3391E-07 3.7387E+18 4.5259E+16 Sr-89 1.1881E+03 4.0895E-05 2.7671E+20 1.1896E+18 Sr-90 1.7342E+02 1.2714E-03 8.5070E+21 1.7332E+17 Sr-91 8.4484E+02 2.3306E-07 1.5423E+18 1.0751E+lE:

Sr-92 2. 1357E+02 1.6991E-08 1. 1122E+17 5.3462E+1,'

Y-90 1.3959E+01 2.5656E-08 1.7167E+17 8.2739E+15 Y-91 1. 6990E+01 6.9281E-07 4. 5848E+18 1. 6350E+16 Y-92 3.5819E+02 3.7225E-08 2. 4367E+17 3.4571E+17 Y-93 1.1191E+01 3.3542E-09 2.1720E+16 1.4031E+16' Zr-95 2. 1762E+01 1. 0130E-06 6.4214E+18 2.1781E+16 Zr-97 1.5922E+01 8.3290E-09 5. 1710E+16 1. 8190E+16 CC-AA-309-1001, Rev 2

Attachment B Page 45 of 65 Nb-95 2.1941E+01 5. 6111E-07 3.5569E+18 2.1929E+16 Mo-99 2. 8931E+02 6.0321E-07 3. 6693E+18 2.9907E+1' Tc-99m 2.6930E+02 5. 1214E-08 3. 1153E+17 2.7145E+1' Ru-103 2.6334E+02 8. 1595E-06 4. 7707E+19 2.6381E+1' Ru-105 5.3470E+01 7.9545E-09 4.5622E+16 9.1419E+16 Ru-106 1. 1281E+02 3.3718E-05 1.9156E+20 1.1277E+17 Rh-105 1.6660E+02 1.9738E-07 1. 1321E+18 1.7234E+1' Sb-127 3.4709E+02 1.2997E-06 6.1629E+18 3.5534E+17 Sb-129 3.0222E+02 5.3744E-08 2.5089E+17 5.2504E+17 Te-127 3.5597E+02 1.3488E-07 6.3960E+17 3.5926E+17 Te-127m 4. 9925E+01 5.2928E-06 2.5098E+19 4.9884E+16 Te-129 4.3242E+02 2.0648E-08 9.6393E+16 6.3694E+17 Te-129m 1.5959E+02 5.2976E-06 2.4731E+19 1.5967E+17 Te-131m 4.0401E+02 5.0666E-07 2. 3291E+18 4.3510E+17 Te-132 4.4075E+03 1. 4518E-05 6. 6233E+19 4.5321E+1E:

I-131 1.8930E+04 1.5269E-04 7.0194E+20 1. 9682E+19 I-132 7.4667E+03 7.2337E-07 3. 3002E+18 1. 3628E+19 I-133 3.0266E+04 2. 6718E-05 1.2097E+20 3.4765E+19 I-134 7.7612E+01 2.9093E-09 1.3075E+16 2.6729E+18 I-135 1.6009E+04 4.5585E-06 2.0335E+19 2.3639E+19 Xe-133 7.5621E+05 4.0400E-03 1.8293E+22 3.9091E+20 Xe-135 2. 1976E+05 8.6056E-05 3.8388E+20 1. 3419E+2C0 Cs-134 4.9628E+03 3.8357E-03 1.7238E+22 5.1446E+1EI Cs-136 1.4488E+03 1.9768E-05 8.7534E+19 1.5127E+16 Cs-137 3.0545E+03 3. 5117E-02 1.5436E+23 3.1661E+18 Ba-139 4.3003E+01 2. 6291E-09 1.1390E+16 3.1131E+17 Ba-140 2.2756E+03 3.1084E-05 1.3371E+20 2.2909E+18 La-140 2. 7519E+02 4. 9511E-07 2.1297E+18 1.5965E+17 La-141 5.3317E+00 9.4277E-10 4.0266E+15 9.8271E+15 La-142 5. 7748E-01 4.0341E-ll 1.7108E+14 3.2826E+15 Ce-141 5.4597E+01 1.9161E-06 8.1838E+18 5.4697E+16 Ce-143 4.2603E+01 6. 4153E-08 2. 7017E+17 4.5567E+16E Ce-144 4. 5212E+01 1.4175E-05 5. 9282E+19 4.5201E+16 Pr-143 1. 9860E+01 2.9493E-07 1.2420E+18 1.9677E+1E; Nd-147 8.6640E+00 1.0710E-07 4.3874E+17 8.7322E+1' Np-239 6.2244E+02 2.6830E-06 6. 7604E+18 6.4710E+17 Pu-238 2.1728E-01 1.2692E-05 3.2114E+19 2.1715E+14 Pu-239 1.8131E-02 2.9171E-04 7.3502E+20 1.8114E+1-Pu-240 2.4591E-02 1.0792E-04 2.7079E+20 2.4577E+1-3 Pu-241 8.2334E+00 7.9926E-05 1.9972E+20 8.2288E+1' Am-241 4.8563E-03 1.4149E-06 3.5357E+18 4.8487E+12 Cm-242 1.1216E+00 3.3843E-07 8.4217E+17 1.1216E+1' Cm-244 7.9680E-02 9.8489E-07 2.4308E+18 7.9636E+13.

Reactor Building Transport Group Inventory:

Time (h) = 8.0000 Atmosphere Sump Noble gases (atoms) 1.3550E+23 0.OOOOE+00 Elemental I (atoms) 7.0455E+18 0.OOOOE+00 Organic I (atoms) 7.9322E+18 O.OOOOE+00 Aerosols (kg) 4.1086E-02 0.OOOOE+00 Dose Effective (Ci/cc) 1-131 (Thyroid) 3. 6781E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 4. 3012E-07 Total I (Ci) 7.2749E+04 Drywell to Reactor Building Transport Group Inventory:

I CC-AA-309-1001, Rev 2

Attachment B Page 46 of 65 Time (h) = 8.0000 Leakage Transport Noble gases (atoms) 1.9385E+23 Elemental I (atoms) 1.6076E+19 Organic I (atoms) 1. 1867E+19 Aerosols (kg) 7.6908E-02 Reactor Building to Environment TransFort Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.0000E+00 5.7814E+22 Elemental I (atoms) 4.0251E+18 4.0251E+18 Organic I (atoms) 1.7701E+18 1.7701E+18 Aerosols (kg) 3.5442E-02 3.5800E-04 Exclusion Area Boundary Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.3642E-01 8. 0356E-01 1.7302E-01 Accumulated dose (rem) 2.6956E-01 1.7962E+00 3.5391E-01 Low Population Zone Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.2252E-01 3.7115E-01 1.3943E-01 Accumulated dose (rem) 3.1485E-01 1. 8318E+00 4.0186E-01 Control Room Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9412E-03 5.1311E-02 4. 3519E-03 Accumulated dose (rem) 3.8777E-03 1. 3616E-01 1.0175E-02 Drywell Compartment Nuclide Inventory:

Time (h) = 16.0000 Ci kg Atoms Decay Co-58 1. 8456E-01 5.8040E-09 6.0263E+16 2.2909E+17 Co-60 2.2228E-Ol 1.9664E-07 1. 9737E+18 2. 7445E+17 Kr-85 1.2921E+06 3.2933E+00 2.3333E+25 2.5713E+21 Kr-85m 1.6866E+06 2.0494E-04 1.4520E+21 1.3096E+22 Kr-87 6.2343E+03 2.231OE-07 1.5235E+18 5. 1187E+21 Kr-88 1.0823E+06 8. 6310E-05 5.9065E+20 2. 1766E+22 Rb-86 7. 8157E+00 9.6354E-08 6.7262E+17 1. 0989E+19 Sr-89 2.3384E+02 8.0490E-06 5.4463E+19 2. 9091E+20 Sr-90 3. 4289E+01 2.5137E-04 1. 6820E+21 4.2330E+19 Sr-91 9.3184E+01 2.55706E-08 1. 7012E+17 3. 1002E+20 Sr-92 5.4569E+00 4.3414E-10 2. 8418E+15 2.2519E+20 Y-90 5.3536E+00 9.8401E-09 6. 5842E+16 1.0014E+18 Y-91 3.5503E+00 1.4477E-07 9. 5803E+17 3.8630E+18 Y-92 2.5970E+01 2.6989E-09 1.7666E+16 4. 7891E+19 Y-93 1.2779E+00 3.8'302E-10 2. 4802E+15 4.0072E+18 Zr-95 4.2873E+00 1.99957E-07 1.2651E+18 5.3249E+18 Zr-97 2.2676E+00 1.1862E-09 7.3644E+15 4.8819E+18 Nb-95 4.3378E+00 1.11093E-07 7.0321E+17 5. 3558E+18 l CC-AA-309-1001, Rev22

Attachment B Page 47 of 65 Mo-99 5. 2594E+01 1.0966E-07 6.6705E+17 7.4839E+19 Tc-99m 5. 0995E+01 9.6980E-09 5.8993E+16 6.6857E+lS Ru-103 5. 1764E+01 1.6039E-06 9. 3775E+18 6.4538E+19 Ru-105 3.0324E+00 4.5111E-10 2. 5873E+15 3.1548E+19 Ru-106 2.2291E+01 6.6627E-06 3.7853E+19 2.7546E+lS9 Rh-105 2. 9025E+01 3.4388E-08 1. 9723E+17 4.2869E+19 Sb-127 6.4630E+01 2.4201E-07 1.1476E+18 8.8305E+19 Sb-129 1. 6555E+01 2.9439E-09 1.3743E+16 1. 8283E+20 Te-127 6. 8139E+01 2.5819E-08 1.2243E+17 8.8616E+19 Te-127m 9.8759E+00 1.0470E-06 4. 9647E+18 1. 2181E+19 Te-129 4. 8139E+01 2.2986E-09 1.0731E+16 2.0394E+2C0 Te-129m 3. 1390E+0l 1.0420E-06 4. 8642E+18 3.9009E+19 Te-131m 6. 6402E+0l 8.3273E-08 3. 8281E+17 1.1209E+2C0 Te-132 8. 1181E+02 2.6740E-06 1.2199E+19 1. 1298E+21 I-131 3.7447E+04 3.0206E-04 1.3886E+21 4. 8530E+21 I-132 3.7221E+03 3.6059E-07 1. 6451E+18 5. 3038E+21 I-133 4 . 7185E+04 4. 1653E-05 1.8860E+20 9. 1776E+21 I-134 2. 8282E-0l 1.0602E-ll 4. 7647E+13 2.5183E+21 I-135 1.4082E+04 4.0098E-06 1.7887E+19 7.3256E+21 Xe-133 1.4447E+08 7.7180E-01 3.4946E+24 2.9950E+2--

Xe-135 2.3396E+07 9.1614E-03 4.0868E+22 8.5712E+22 Cs-134 9.0369E+02 6.9846E-04 3. 1390E+21 1.2446E+21 Cs-136 2.5929E+02 3.5378E-06 1.5666E+19 3.6786E+2C Cs-137 5.5637E+02 6.3964E-03 2. 8117E+22 7.6587E+2C Ba-139 1. 5218E-01 9.3036E-12 4.0308E+13 1.9927E+2C Ba-140 4. 4186E+02 6.0356E-06 2.5962E+19 5.6244E+2C La-140 1.0440E+02 1.8784E-07 8.0798E+17 1.7913E+1_S La-141 2.5713E-0l 4. 5466E-11 1. 9419E+14 3.5365E+16 La-142 3. 1296E-03 2. 1863E-13 9.2718E+ll 1.9367E+18 Ce-141 1.0723E+01 3.7634E-07 1. 6073E+18 1.3380E+1, Ce-143 7. 1207E+0O 1.0723E-08 4.5156E+16 1. 1682E+1l Ce-144 8.9323E+00 2.8006E-06 1.1712E+19 1.1042E+19 Pr-143 3.9903E+00 5.9258E-08 2. 4955E+17 4.7735E+18 Nd-147 1.6774E+00 2.0735E-08 8. 4944E+16 2.1457E+18 Np-239 1. 1157E+02 4.8092E-07 1.2118E+18 1.6259E+2C Pu-238 4.2963E-02 2.5096E-06 6. 350OE+18 5.3034E+lE Pu-239 3.5881E-03 5.7727E-05 1.4546E+20 4.4227E+1l Pu-240 4.8622E-03 2. 1338E-05 5.3542E+19 6.0022E+l1 Pu-241 1.6279E+00 1.5803E-05 3. 9488E+19 2.0097E+18 Am-241 9.6259E-04 2.8046E-07 7. 0082E+17 1.1833E+1I Cm-242 2.2146E-01 6.682OE-08 1. 6628E+17 2.7404E+17 Cm-244 1.5754E-02 1.9473E-07 4.8062E+17 1.9449E+1E Drywell Transport Group Inventory:

Time (h) = 16.0000 Atmosphere Sump Noble gases (atoms) 2.6870E+25 0.OOOOE+00 Elemental I (atoms) 9.0755E+01 5.6459E+22 Organic I (atoms) 1.4544E+21 0.OOOOE+00 Aerosols (kg) 7.5110E-03 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.0221E-05 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1.1481E-05 Total I (Ci) 1.0244E+05 Deposition Recirculating Time (h) = 16.0000 Surfaces Filter I CC-AA-309-1001, Rev 2

Attachment B Page 48 of 65 Noble gases (atoms) 0.000OE+00 o.OOOOE+00 Elemental I (atoms) o.OOOOE+00 o.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.00O0E+00 Aerosols (kg) 4. 9912E+01 o.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 16.0000 Leakage Transport Noble gases (atoms) 4.2173E+23 Elemental I (atoms) 1.6076E+19 Organic I (atoms) 2.4642E+19 Aerosols (kg) 7.7665E-02 Drywell to Void Transport Group Inventory:

Time (h) = 16.0000 Leakage Transport Noble gases (atoms) 8.3618E+22 Elemental I (atoms) 5. 4277E+18 Organic I (atoms) 4. 9358E+18 Aerosols (kg) 2.0961E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 16.0000 Ci kg Atoms Decay Co-58 3.8948E-01 1.2249E-08 1.2718E+17 1.5921E+1E Co-60 4. 6910E-01 4.1499E-07 4.1652E+18 1. 9112E+1l Kr-85 9.8291E+03 2.5053E-02 1.7750E+23 1.2336E+19 Kr-85m 1.2830E+04 1.5590E-06 1. 1045E+19 4. 4638E+19 Kr-87 4. 7425E+01 1.6743E-09 1.1589E+16 7.8792E+18 Kr-88 8.2328E+03 6.5657E-07 4.4931E+18 6. 0104E+19 Rb-86 1. 7870E+01 2. 1962E-07 1.5379E+18 7. 5489E+lE Sr-89 4.9349E+02 1.6986E-05 1.1494E+20 2. 0201E+18 Sr-90 7.2363E+01 5.3049E-04 3.5497E+21 2. 9479E+17 Sr-91 1.9665E+02 5.4249E-08 3.5901E+17 1.5435E+18 Sr-92 1. 1516E+01 9.1620E-10 5.9972E+15 6. 0790E+17 Y-90 1. 1361E+01 2.0881E-08 1.3972E+17 2. 1807E+1E Y-91 7.5034E+00 3.0596E-07 2. 0248E+18 2. 8565E+1E Y-92 5.5316E+01 5.7487E-09 3. 7630E+16 5.2300E+17 Y-93 2.6968E+00 8.0830E-10 5. 2341E+15 2.0318E+16 Zr-95 9.0478E+00 4.2116E-07 2. 6698E+18 3. 6999E+1E Zr-97 4.7855E+00 2.5033E-09 1.5542E+16 2.7939E+lE Nb-95 9.1543E+00 2. 3411E-07 1.4840E+18 3.7293E+1E Mo-99 1. 1099E+02 2. 3142E-07 1.4077E+18 4. 9468E+17 Tc-99m 1.0762E+02 2.0466E-08 1.2450E+17 4.5275E+17 Ru-103 1.0924E+02 3.3848E-06 1.9790E+19 4. 4779E+17 Ru-105 6.3994E+00 9.5200E-10 5. 4601E+15 1.1484E+17 Ru-106 4.7041E+01 1.4061E-05 7. 9883E+19 1.9176E+17 Rh-105 6. 1254E+01 7.2572E-08 4. 1623E+17 2.8326E+17 Sb-127 1.3639E+02 5. 1074E-07 2. 4218E+18 5.9238E+17 Sb-129 3.4937E+01 6.2128E-09 2. 9003E+16 6.5592E+17 Te-127 1.4380E+02 5.4487E-08 2.5837E+17 6.0189E+17 Te-127m 2. 0842E+01 2.2096E-06 1.0477E+19 8. 4857E+1E Te-129 1.0159E+02 4.8510E-09 2.2646E+16 8.4280E+17 Te-129m 6. 6244E+01 2.1989E-06 1.0265E+19 2. 7122E+17 Te-131m 1. 4013E+02 1.7574E-07 8.0787E+17 6. 9715E+17 CC-AA-309-1001, Rev 2

Attachment B Page 49 of 65 Te-132 1. 7132E+03 5.6432E-06 2.5745E+19 7.5285E+18 I-131 7.8533E+03 6.32346E-05 2. 9120E+20 3.2888E+19 I-132 2.0612E+03 1.9968E-07 9. 1101E+17 1.7540E+19 I-133 9.8937E+03 8.7.337E-06 3.9546E+19 5.3900E+19 I-134 5.9302E-02 2.2230E-12 9. 9904E+12 2. 6843E+18 I-135 2.9526E+03 8.4076E-07 3. 7505E+18 3. 1771E+19 Xe-133 1.0997E+06 5.8'750E-03 2. 6601E+22 1.4229E+21 Xe-135 1. 8061E+05 7.0'723E-05 3.1548E+20 3.5871E+20 Cs-134 2.0662E+03 1.5370E-03 7.1771E+21 8. 6156E+18 Cs-136 5.9285E+02 8.01389E-06 3.5818E+19 2. 5186E+18 Cs-137 1.2721E+03 1.4o25E-02 6.4287E+22 5. 3027E+18 Ba-139 3. 2115E-01 1.9634E-11 8.5064E+13 3.2058E+17 Ba-140 9.3249E+02 1.2'737E-05 5.4790E+19 3. 8725E+18 La-140 2.2153E+02 3.9357E-07 .1.7144E+18 4.2549E+17 La-141 5. 4263E-01 9.5350E-11 4.0980E+14 1.2042E+16 La-142 6.6047E-03 4. 6138E-13 1. 9567E+12 3.4182E+15 Ce-141 2.2629E+01 7.9418E-07 3. 3919E+18 9.2829E+16 Ce-143 1.5027E+01 2.2629E-08 9.5296E+16 7.3390E+16 Ce-144 1. 8851E+01 5. 9102E-06 2. 4717E+19 7. 6857E+16 Pr-143 8.4235E+00 1.2509E-07 5. 2679E+17 3.3681E+16 Nd-147 3.5400E+00 4.3758E-08 1.7926E+17 1. 4747E+16 Np-239 2.3545E+02 1.0149E-06 2.5573E+18 1.0655E+18 Pu-238 9.0669E-02 5.2962E-06 1.3401E+19 3. 6934E+14 Pu-239 7.5723E-03 1.2183E-04 3.0697E+20 3.0818E+13 Pu-240 1.0261E-02 4.5331E-05 1.1299E+20 4. 1800E+13 Pu-241 3.4354E+00 3.3350E-05 8. 3334E+19 1.3995E+16 Am-241 2. 0314E-03 5.9189E-07 1.4790E+18 8.2535E+12 Cm-242 4. 6737E-01 1.4102E-07 3.5092E+17 1. 9068E+15 Cm-244 3.3247E-02 4.1396E-07 1.0143E+18 1.3544E+14 Reactor Building Transport Group Inventory:

Time (h) = 16.0000 Atmosphere Sump Noble gases (atoms) 2.0443E+23 0.0300E+00 Elemental I (atoms) 2.6628E+18 0.0300E+00 Organic I (atoms) 1.1107E+19 0.0000E+00 Aerosols (kg) 1.7105E-02 0.0300E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.4423E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1.6256E-07 Total I (Ci) 2. 2761E+04 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 16.0000 Leakage Transport Noble gases (atoms) 4.2173E+23 Elemental I (atoms) 1. 6076E+19 Organic I (atoms) 2. 4642E+19 Aerosols (kg) 7.7665E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 16.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.1549E+23 Elemental I (atoms) 6.0490E+18 6.0490E+18 Organic I (atoms) 6.2043E+18 6.2043E+18 l CC-AA-309-1001, Rev 2

Attachment B Page 50 of 65 Aerosols (kg) 5.9920E-02 6.0525E-04 Exclusion Area Boundary Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 8.7422E-02 5. 4707E-01 1.0910E-01 Accumulated dose (rem) 3.5698E-01 2.3433E+00 4. 6301E-01 Low Population Zone Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.8515E-02 2.5269E-01 8.8529E-02 Accumulated dose (rem) 3.9337E-01 2.0845E+00 4. 9039E-01 Control Room Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.2332E-03 3.0894E-02 2.4932E-03 Accumulated dose (rem) 5.1110E-03 1. 6706E-01 1.2668E-02 Drywell Compartment Nuclide Inventory:

Time (h) 24.0000 Ci kg Atoms Decay Co-58 4.8443E-03 1. 5235E-10 1. 5818E+15 2.2913E+171 Co-60 5.8529E-03 5. 1778E-09 5.1969E+16 2.7450E+17 Kr-85 1.2792E+06 3.2604E+00 2. 3100E+25 3. 9404E+21 Kr-85m 4.8430E+05 5.8849E-05 4. 1693E+20 1.4122E+22 Kr-87 7.8828E+01 2.7829E-09 1.9263E+16 5.1202E+21 Kr-88 1.5206E+05 1.2127E-05 8.2987E+19 2.2270E+22 Rb-86 2. 0329E-01 2.4984E-09 1.7495E+16 1. 0991E+1l Sr-89 6. 1299E+00 2.1100E-07 1.4277E+18 2.9096E+2C Sr-90 9. 0295E-01 6. 6195E-06 4. 4293E+19 4.2337E+19 Sr-91 1.3689E+00 3. 7762E-10 2. 4990E+15 3. 1004E+2C Sr-92 1.8570E-02 1. 4774E-12 9.6708E+12 2.2519E+2C Y-90 2.0463E-01 3. 7611E-10 2.5167E+15 1.0027E+18 Y-91 9. 6201E-02 3.9228E-09 2.5960E+16 3.8638E+18 Y-92 1. 8406E-01 1. 9129E-11 1.2521E+14 4. 7896E+19 Y-93 1.9434E-02 5. 8250E-12 3.7719E+13 4.0075E+18 Zr-95 1. 1250E-01 5.2365E-09 3. 3195E+16 5.3259E+18 Zr-97 4. 3012E-02 2.25O0E-11 1.3969E+14 4.8823E+18 Nb-95 1. 1421E-01 2.9208E-09 1.8515E+16 5.3567E+18 Mo-99 1.2734E+00 2.6550E-09 1. 6150E+16 7. 4850E+19 Tc-99m 1.2749E+00 2. 4245E-10 1.4748E+15 6. 6867E+19 Ru-103 1.3552E+00 4.1989E-08 2.4550E+17 6. 4550E+19 Ru-105 2.2903E-02 3. 4072E-12 1. 9542E+13 3. 1548E+19 Ru-106 5.8663E-01 1.7535E-07 9. 9618E+17 2.7551E+19 Rh-105 6. 6000E-01 7. 8194E-10 4. 4847E+15 4.2876E+19 Sb-127 1.6028E+00 6.0020E-09 2. 8460E+16 8. 8319E+19 Sb-129 1.2078E-01 2. 1477E-11 1.0026E+14 1.8283E+20 Te-127 1.7368E+00 6.5811E-10 3. 1207E+15 8. 8630E+19 Te-127m 2. 6015E-01 2.7580E-08 1.3078E+17 1.2183E+19 Te-129 8.7986E-01 4 .2013E-11 1. 9613E+14 2.0395E+20 Te-129m 8.2132E-01 2.7263E-08 1.2727E+17 3. 9016E+19 Te-131m 1.4535E+00 1.8228E-09 8.3797E+15 1. 1210E+20 Te-132 1. 9915E+01 6.5597E-08 2.9927E+17 1. 1300E+21 l CC-AA-309-1001, Rev 2

Attachment B Page 51 of 65 I-131 3.2899E+04 2.6536E-04 1.2199E+21 4.8893E+21 I-132 3. 8861E+02 3.7649E-08 1.7176E+17 5.3054E+21 I-133 3.2678E+04 2.8847E-05 1.3062E+20 9.2185E+21 I-134 4.5783E-04 1.7162E-14 7.7130E+10 2.5183E+21 I-135 5.5024E+03 1.5668E-06 6. 9893E+18 7.3350E+21 Xe-133 1.3687E+08 7.3120E-01 3.3108E+24 4.4927E+23 Xe-135 1.2589E+07 4.9295E-03 2. 1990E+22 1.0428E+23 Cs-134 2. 3791E+01 1.8388E-05 8.2637E+19 1.2448E+21 Cs-136 6.7087E+00 9. 1536E-08 4. 0532E+17 3. 6791E+20 Cs-137 1.4651E+01 1.6844E-04 7.4041E+20 7.6599E+20 Ba-139 7.1723E-05 4. 3849E-15 1.8997E+10 1.9927E+20 Ba-140 1.1427E+01 1.5609E-07 6. 7140E+17 5.6253E+20 La-140 3. 8915E+00 7. 0013E-09 3.0116E+16 1.7938E+19 La-141 1. 6515E-03 2. 9202E-13 .1.2472E+12 3.5366E+18 La-142 2.2590E-06 1.5780E-16 6.6924E+08 1. 9367E+18 Ce-141 2.8041E-01 9.8412E-09 4.2032E+16 1.3383E+19 Ce-143 1.5851E-01 2.3869E-10 1. 0052E+15 1. 1684E+19 Ce-144 2.3503E-01 7.3690E-08 3. 0817E+17 1.1044E+19 Pr-143 1. 0622E-01 1.5775E-09 6.6432E+15 4.7744E+18 Nd-147 4.3253E-02 5. 3466E-10 2. 1903E+15 2.1461E+18 Np-239 2.6635E+00 1.1481E-08 2.8929E+16 1.6262E+20 Pu-238 1. 1314E-03 6.6090E-08 1. 6723E+17 5.3043E+16 Pu-239 9.4564E-05 1.5214E-06 3. 8335E+18 4. 4235E+15 Pu-240 1.2804E-04 5. 6191E-07 1.4100E+18 6.0032E+15 Pu-241 4.2867E-02 4. 1613E-07 1.0398E+18 2.0101E+18 Am-241 2.5411E-05 7.4039E-09 1.8501E+16 1. 1835E+15 Cm-242 5.8237E-03 1.7572E-09 4. 3727E+15 2. 7409E+17 Cm-244 4. 1486E-04 5. 1279E-09 1.2656E+16 1. 9453E+16 Drywell Transport Group Inventory:

Time (h) = 24.0000 Atmosphere Sump Noble gases (atoms) 2.6433E+25 0.0000E+00 Elemental I (atoms) 3.3949E-10 5.6459E+22 Organic I (atoms) 1.3541E+21 0.OOOOE+00 Aerosols (kg) 1.9773E-04 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 8.6050E-06 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 9.4110E-06 Total I (Ci) 7. 1468E+04 Deposition Recirculating Time (h) = 24.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.0000E+00 Organic I (atoms) 0.OOOOE+00 0.0000E+00 Aerosols (kg) 4.9919E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 24.0000 Leakage Transport Noble gases (atoms) 6.4586E+23 Elemental I (atoms) 1.6076E+19 Organic I (atoms) 3.6476E+19 Aerosols (kg) 7.7681E-02 Drywell to Void Transport Group Inventory:

I :CC-AA-309-1001, Rev 2

Attachment B Page 52 of 65 Time (h) = 24.0000 Leakage Transport Noble gases (atoms) 1.2610E+23 Elemental I (atoms) 5.4277E+18 Organic I (atoms) 7.1788E+18 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 24.0000 Ci kg Atoms Decay Co-58 1.5825E-01 4.9767E-09 5.1673E+16 1.8507E+1c Co-60 1. 9120E-01 1. 6914E-07 1. 6977E+18 2.2231E+1l Kr-85 1. 1126E+04 2.8358E-02 2.0091E+23 2.3697E+19' Kr-85m 4.2123E+03 5.1185E-07 3.6264E+18 5.3048E+19' Kr-87 6. 8562E-01 2. 4205E-11 1. 6755E+14 7. 8912E+1E Kr-88 1.3226E+03 1.0547E-07 7.2180E+17 6.4213E+19' Rb-86 7.1940E+00 8.8414E-08 6.1912E+17 8.7307E+1E.

Sr-89 2.0025E+02 6.8926E-06 4.6638E+19 2.3476E+1E Sr-90 2. 9497E+01 2.1624E-04 1. 4469E+21 3. 4290E+17 Sr-91 4.4717E+01 1.2336E-08 8. 1634E+16 1. 6468E+18 Sr-92 6.0663E-01 4.8262E-11 3. 1592E+14 6. 1162E+17 Y-90 6.7080E+00 1.2329E-08 8.2499E+16 3.0571E+1E Y-91 3. 1471E+00 1.2833E-07 8.4924E+17 3. 3613E+lE Y-92 6.0562E+00 6.2939E-10 4.1198E+15 5. 4534E+17 Y-93 6.3485E-01 1. 9029E-10 1.2322E+15 2. 1753E+1E Zr-95 3.6749E+00 1.7106E-07 1. 0844E+18 4.3006E+1E Zr-97 1.4051E+00 7.3500E-10 4.5632E+15 3.0716E+lE Nb-95 3.7311E+00 9. 5416E-08 6. 0485E+17 4.3377E+1E Mo-99 4. 1598E+01 8.6732E-08 5.2759E+17 5. 6589E+17 Tc-99m 4.1646E+01 7. 9201E-09 4.8178E+16 5.1922E+17 Ru-103 4. 4269E+01 1.3717E-06 8.0197E+18 5.2024E+17 Ru-105 7.4819E-01 1. 1130E-10 6. 3837E+14 1.1749E+17 Ru-106 1. 9164E+01 5.7280E-06 3. 2542E+19 2.2303E+17 Rh-105 2. 1560E+01 2.5544E-08 1.4650E+17 3.2156E+17 Sb-127 5.2360E+01 1.9607E-07 9.2972E+17 6. 8078E+17 Sb-129 3.9454E+00 7.0161E-10 3.2753E+15 6.7021E+17 Te-127 5. 6737E+01 2. 1499E-08 1.0194E+17 6. 9303E+17 Te-127m 8.4984E+00 9. 0096E-07 4.2722E+18 9.8714E+16 Te-129 2.8742E+O1 1.3725E-09 6.4071E+15 8. 8695E+17 Te-129m 2. 6830E+01 8.9062E-07 4. 1577E+18 3.1514E+17 Te-131m 4.7483E+01 5.9547E-08 2.7374E+17 7.8336E+17 Te-132 6.5056E+02 2.1429E-06 9. 7763E+18 8. 6338E+18 I-131 3.2940E+03 2.6570E-05 1.2215E+20 3. 8172E+19 I-132 7.7890E+02 7.5460E-08 3.4426E+17 1. 8692E+19 I-133 3.2703E+03 2.8869E-06 1.3072E+19 5. 9922E+19 I-134 4.5819E-05 1.7175E-15 7.7189E+09 2. 6844E+18 I-135 5.5067E+02 1.5680E-07 6. 9947E+17 3.3210E+19 Xe-133 1. 1908E+06 6.3620E-03 2.8807E+22 2. 6657E+21 Xe-135 1. 1038E+05 4.3222E-05 1. 9281E+20 5.1346E+20 Cs-134 8. 4192E+02 6.5072E-04 2. 9244E+21 9. 9892E+18 Cs-136 2.3741E+02 3.2393E-06 1.4344E+19 2.9098E+18 Cs-137 5. 1848E+02 5.9608E-03 2.6202E+22 6.1484E+18 Ba-139 2.3430E-03 1.4324E-13 6.2059E+11 3.2064E+17 Ba-140 3.7328E+02 5.0989E-06 2.1933E+19 4 . 4878E+18 La-140 1.2755E+02 2.2948E-07 9. 8711E+17 5. 9425E+17 CC-AA-309-1001, Rev 2

Attachment B Page 53 of 65 La-141 5.3950E-02 9. 5396E-12 4.0744E+13 1.2255E+1E La-142 7.3794E-05 5. 1550E-15 2. 1862E+10 3. 4197E+15 Ce-141 9. 1598E+00 3.2147E-07 1.3730E+18 1. 0783E+17 Ce-143 5. 1781E+00 7.7974E-09 3.2837E+16 8.2700E+1E Ce-144 7.6779E+00 2.4072E-06 1.0067E+19 8.9386E+lE Pr-143 3. 4710E+00 5. 1546E-08 2. 1707E+17 3. 9300E+lE Nd-147 1. 4130E+00 1.7466E-08 7.1552E+16 1.7079E+1E Np-239 8. 7010E+01 3.7506E-07 9. 4504E+17 1.2157E+18 Pu-238 3.6961E-02 2.1590E-06 5.4628E+18 4.2962E+14 Pu-239 3.0891E-03 4.9699E-05 1.2523E+20 3.5854E+13 Pu-240 4. 1828E-03 1.8356E-05 4.6060E+19 4.8622E+13 Pu-241 1.4003E+00 1.3594E-05 3.3968E+19 1. 6280E+1E Am-241 8.3013E-04 2.4187E-07 6. 0438E+17 9. 6054E+12 Cm-242 1. 9024E-01 5. 7401E-08 1.4284E+17 2.2173E+15 Cm-244 1.3552E-02 1. 6751E-07 4.1344E+17 1.5755E+14 Reactor Building Transport Group Inventory:

Time (h) = 24.0000 Atmosphere Sump Noble gases (atoms) 2.2992E+23 0.0000E+00 Elemental I (atoms) 1.0207E+18 0.0000E+00 Organic I (atoms) 1.1803E+19 0.0000E+00 Aerosols (kg) 6.9697E-03 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.7990E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 6.3749E-08 Total I (Ci) 7.8939E+03 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 24.0000 Leakage Transport Noble gases (atoms) 6.4586E+23 Elemental I (atoms) 1. 6076E+19 Organic I (atoms) 3. 6476E+19 Aerosols (kg) 7.7681E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) O.OOOOE+00 4.1271E+23 Elemental I (atoms) 6.8207E+18 6.8207E+18 Organic I (atoms) 1.1423E+19 1.1423E+19 Aerosols (kg) 6.9967E-02 7.0673E-04 Exclusion Area Boundary Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.5964E-01 1. 1506E+00 1. 9804E-01 Accumulated dose (rem) 5.1662E-01 3.4939E+00 6.6105E-01 Low Population Zone Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 5.7050E-02 2. 7021E-01 6.6068E-02 Accumulated dose (rem) 4.5042E-01 2.3547E+00 5.5646E-01 I CC-AA-309-1001, Rev22

Attachment B Page 54 of 65 Control Room Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 6.5493E-04 1.7829E-02 1.2648E-03 Accumulated dose (rem) 5.7659E-03 1. 8489E-01 1.3933E-02 Drywell Compartment Nuclide Inventory:

Time (h) 48. 0000 Ci kg Atoms Decay Co-58 4.2232E-04 1. 3281E-11 1.3790E+14 2.2913E+1' Co-60 5.1508E-04 4. 5567E-10 4.5735E+15 2.7451E+1' Kr-85 1.2411E+06 3. 1635E+00 2.2413E+25 7.9661E+21 Kr-85m 1.1466E+04 1.3933E-06 9. 8714E+18 1.4526E+22 Kr-87 1.5935E-04 5. 6256E-15 3.8941E+10 5.1202E+21 Kr-88 4.2177E+02 3.3636E-08 2.3018E+17 2.2353E+22 Rb-86 1.7244E-02 2. 1193E-10 1.4840E+15 1.0991E+19 Sr-89 5.3230E-01 1.8322E-08 1.2398E+17 2.9097E+20 Sr-90 7.9488E-02 5.8272E-07 3.8992E+18 4.2338E+19 Sr-91 2. 0918E-02 5.7706E-12 3.8188E+13 3.1004E+20 Sr-92 3.5280E-06 2. 8068E-16 1.8373E+09 2.2519E+2C0 Y-90 3.2185E-02 5. 9157E-11 3. 9583E+14 1.0030E+1E6 Y-91 8.6504E-03 3. 5273E-10 2.3343E+15 3.8639E+18 Y-92 1.8847E-04 1.9586E-14 1.2821E+11 4.7896E+19 Y-93 3.2954E-04 9.8773E-14 6.3960E+11 4.0075E+18 Zr-95 9.7970E-03 4.5604E-10 2.8909E+15 5.3260E+18 Zr-97 1.4150E-03 7.4019E-13 4. 5954E+12 4.8824E+18 Nb-95 1.0049E-02 2.5699E-10 1. 6291E+15 5.3569E+18 Mo-99 8. 7129E-02 1. 8166E-10 1. 1051E+15 7.4852E+19 Tc-99m 8. 9158E-02 1. 6956E-11 1. 0314E+14 6.6869E+19 Ru-103 1. 1722E-01 3. 6319E-09 2. 1235E+16 6.4551E+19 Ru-105 4.7575E-05 7. 0774E-15 4.0592E+10 3.1548E+19 Ru-106 5. 1548E-02 1.5408E-08 8.7536E+16 2.7551E+19 Rh-105 3.6474E-02 4.3213E-11 2.4784E+14 4.2876E+19 Sb-127 1.1786E-01 4.4134E-10 2.0927E+15 8.8321E+19 Sb-129 2.2608E-04 4. 0203E-14 1.8768E+11 1. 8283E+2C0 Te-127 1.3419E-01 5. 0845E-11 2. 4110E+14 8.8632E+1S9 Te-127m 2.2905E-02 2.4283E-09 1.1515E+16 1.2183E+19 Te-129 6. 1576E-02 2. 9403E-12 1.3726E+13 2.0395E+2C Te-129m 7.0842E-02 2.3516E-09 1.0978E+16 3.9017E+19' Te-131m 7.3496E-02 9.2170E-11 4.2371E+14 1.1210E+2C Te-132 1.4173E+00 4.6683E-09 2. 1298E+16 1.1300E+21 I-131 2.9220E+04 2.3569E-04 1. 0835E+21 4.9884E+21 I-132 2.6972E+00 2. 6131E-10 1. 1921E+15 5.3056E+21 I-133 1. 4219E+04 1.2552E-05 5. 6833E+19 9.2893E+21 I-135 4.3003E+02 1.2245E-07 5. 4624E+17 7.3414E+21 Xe-133 1. 1638E+08 6.2176E-01 2.8153E+24 8.5292E+23 Xe-135 1.9605E+06 7. 6771E-04 3.4246E+21 1.2254E+23 Cs-134 2.0925E+00 1. 6173E-06 7.2684E+18 1.2448E+21 Cs-136 5.6018E-01 7.6432E-09 3.3844E+16 3.6792E+20 Cs-137 1.2898E+00 1.4828E-05 6. 5179E+19 7.6601E+20 Ba-140 9. 5271E-01 1.3014E-08 5.5978E+16 5.6255E+20 La-140 5. 6022E-01 1.0079E-09 4. 3355E+15 1.7943E+19 La-141 2.1096E-06 3. 7302E-16 1.5932E+09 3.5366E+18 Ce-141 2. 4166E-02 8. 4813E-10 3. 6224E+15 1.3383E+19 Ce-143 8.4294E-03 1.2693E-11 5.3455E+13 1.1684E+19 CC-AA-309-1001, Rev 2

Attachment B Page 55 of 65 Ce-144 2.0641E-02 6.4716E-09 2.7065E+16 1.1044E+19 Pr-143 9.4313E-03 1.4006E-10 5.8982E+14 4.7745E+18 Nd-147 3.5749E-03 4.4190E-11 1. 8103E+14 2.1461E+18 Np-239 1. 7470E-01 7.5305E-10 1.8975E+15 1.6262E+20 Pu-238 9.9617E-05 5.8188E-09 1.4723E+16 5.3044E+1E Pu-239 8. 3411E-06 1.3420E-07 3.3813E+17 4.4236E+15 Pu-240 1. 1272E-05 4.9469E-08 1.2413E+17 6. 0034E+15 Pu-241 3.7734E-03 3.6630E-08 9. 1532E+16 2.0101E+18 Am-241 2.2537E-06 6. 5664E-10 1. 6408E+15 1. 1836E+15 Cm-242 5. 1052E-04 1.5404E-10 3.8332E+14 2.7410E+17 Cm-244 3. 6519E-05 4.5140E-10 1.1141E+15 1. 9453E+1E Drywell Transport Group Inventory:

Time (h) = 48.0000 Atmosphere Sump Noble gases (atoms) 2.5232E+25 0. OOOOE+C 0 Elemental I (atoms) 1.8544E-44 5. 6459E+2 2 Organic I (atoms) 1.1406E+21 0.OOOOE+C 0 Aerosols (kg) 1.7393E-05 0. OOOOE+C 0 Dose Effective (Ci/cc) I-131 (Thyr Ad) 7.0627E-06 Dose Effective (Ci/cc) I-131 (ICRP.2 Thyroid) 7.3885E-06 Total I (Ci) 4.3871E+04 Deposition IRecirculating Time (h) = 48.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 4.9919E+01 0.OOOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 48.0000 Leakage Transport Noble gases (atoms) 1.2973E+24 Elemental I (atoms) 1. 6076E+19 Organic I (atoms) 6.7836E+19 Aerosols (kg) 7.7683E-02 Drywell to Void Transport Group Inventory:

Time (h) = 48.0000 Leakage Transport Noble gases (atoms) 2.4956E+23 Elemental I (atoms) 5. 4277E+18 Organic I (atoms) 1.3122E+19 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 48.0000 Ci kg Atoms Decay Co-58 1.0581E-02 3.3277E-10 3.4551E+15 2.0156E+l1 Co-60 1.2906E-02 1. 1417E-08 1.1459E+17 2. 4228E+l1 Kr-85 1. 1675E+04 2.9757E-02 2.1082E+23 6.0759E+19 Kr-85m 1.0786E+02 1.3106E-08 9.2853E+16 5. 6692E+19 Kr-87 1.4989E-06 5.2917E-17 3.6629E+08 7. 8914E+18 Kr-88 3.9673E+00 3. 1639E-10 2. 1651E+15 6.4951E+lS' Rb-86 4.6802E-01 5.7519E-09 4.0278E+16 9.4742E+1E CC-AA-309-1001, Rev 2

Attachment B Page 56 of 65 Sr-89 1. 3337E+01 4.5907E-07 3.1062E+18 2.5560E+18 Sr-90 1. 9916E+00 1.4600E-05 9. 7695E+19 3. 7372E+17 Sr-91 5.2411E-01 1.4458E-10 9. 5681E+14 1. 6768E+18 Sr-92 8.8395E-05 7.0326E-15 4. 6034E+10 6.1183E+17 Y-90 8.0762E-01 1.4844E-09 9. 9326E+15 3. 9163E+16 Y-91 2. 1704E-01 8. 8501E-09 5.8567E+16 3. 6934E+16 Y-92 4.7487E-03 4. 9351E-13 3.2304E+12 5. 4793E+17 Y-93 8.2567E-03 2. 4748E-12 1. 6025E+13 2.2189E+16 Zr-95 2.4547E-01 1. 1426E-08 7.2431E+16 4. 6834E+16 Zr-97 3.5453E-02 1.8546E-11 1. 1514E+14 3. 1840E+16 Nb-95 2.5179E-01 6.4390E-09 4.0817E+16 4. 7274E+16 Mo-99 2.1830E+00 4.5516E-09 2.7687E+16 6.0628E+17 Tc-99m 2.2339E+00 4.2483E-10 2.5842E+15 5. 5799E+17 Ru-103 2.9369E+00 9.0999E-08 5.3205E+17 5.6626E+17 Ru-105 1.1920E-03 1. 7733E-13 1.0170E+12 1.1784E+17 Ru-106 1.2915E+00 3.8605E-07 2. 1932E+18 2.4304E+17 Rh-105 9. 1387E-01 1.0827E-09 6.2098E+15 3.4130E+17 Sb-127 2.9530E+00 1. 1058E-08 5.2434E+16 7.3268E+17 Sb-129 5.6644E-03 1.0073E-12 4.7024E+12 6. 7203E+17 Te-127 3. 3621E+00 1.2739E-09 6. 0408E+15 7. 4828E+17 Te-127m 5.7389E-01 6.0842E-08 2.8850E+17 1. 0759E+17 Te-129 1.5428E+00 7.3670E-11 3.4391E+14 9.0718E+17 Te-129m 1.7750E+00 5.8919E-08 2. 7505E+17 3.4301E+17 Te-131m 1. 8415E+00 2.3093E-09 1.0616E+16 8.2577E+17 Te-132 3.5510E+01 1. 1697E-07 5.3363E+17 9.2726E+18 I-131 4. 6131E+02 3.7210E-06 1.7105E+19 4.2148E+19 I-132 4.2390E+01 4.1067E-09 1.8736E+16 1.9354E+19 I-133 2.2435E+02 1.9805E-07 8. 9673E+17 6. 3073E+19 I-135 6.7852E+00 1. 9321E-09 8. 6188E+15 3.3557E+19 Xe-133 1.0948E+06 5.8487E-03 2.6482E+22 6.3798E+21 Xe-135 1.8457E+04 7.2276E-06 3.2241E+19 6.8053E+20 Cs-134 5. 6793E+01 4.3895E-05 1.9727E+20 1.0869E+19 Cs-136 1.5204E+01 2.0744E-07 9. 1857E+17 3.1540E+18 Cs-137 3.5005E+01 4.0244E-04 1.7690E+21 6. 6902E+18 Ba-139 9. 0696E-10 5.5448E-20 2.4023E+05 3.2064E+17 Ba-140 2. 3870E+01 3.2606E-07 1.4026E+18 4. 8716E+18 La-140 1. 4055E+01 2.5287E-08 1.0877E+17 7.5272E+17 La-141 5.2856E-05 9. 3461E-15 3.9917E+10 1.2279E+16 La-142 1.0261E-10 7.1676E-21 3.0398E+04 3.4197E+15 Ce-141 6.0546E-01 2.1249E-08 9.0756E+16 1.1734E+17 Ce-143 2. 1120E-01 3. 1803E-10 1.3393E+15 8.7388E+16 Ce-144 5. 1717E-01 1. 6215E-07 6. 7811E+17 9.7403E+16 Pr-143 2.3636E-01 3.5101E-09 1. 4782E+16 4.2940E+16 Nd-147 8. 9571E-02 1.1072E-09 4.5359E+15 1.8529E+16 Np-239 4.3772E+00 1.8868E-08 4. 7542E+16 1.2992E+18 Pu-238 2.4959E-03 1.4579E-07 3. 6890E+17 4. 6825E+14 Pu-239 2.0899E-04 3.3623E-06 8. 4720E+18 3. 9084E+13 Pu-240 2.8243E-04 1.2395E-06 3. 1101E+18 5.2993E+13 Pu-241 9.4543E-02 9. 1778E-07 2.2933E+18 1.7743E+16 Am-241 5.6468E-05 1.6453E-08 4.1112E+16 1.0475E+13 Cm-242 1.2791E-02 3.8594E-09 9. 6042E+15 2. 4159E+15 Cm-244 9. 1500E-04 1. 1310E-08 2.7914E+16 1. 7171E+14 Reactor Building Transport Group Inventory:

Time (h) = 48.0000 Atmosphere Sump CC-AA-309-1001, Rev 2

Attachment B Page 57 of 65 Noble gases (atoms) 2.3734E+23 0.0000E+00 Elemental I (atoms) 5.9799E+16 0.ODOOE+00 Organic I (atoms) 1.0732E+19 0.ODOOE+00 Aerosols (kg) 4.7021E-04 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 7.5002E-09 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 7.8650E-09 Total I (Ci) 7.3483E+02 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 48.0000 Leakage Transport Noble gases (atoms) 1.2973E+24 Elemental I (atoms) 1.6076E+19 Organic I (atoms) 6.7836E+19 Aerosols (kg) 7.7683E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 48.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0528E+24 Elemental I (atoms) 7.2771E+18 7.2771E+18 Organic I (atoms) 2.6832E+19 2.6832E+19 Aerosols (kg) 7.6401E-02 7.7173E-04 Exclusion Area Boundary Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9529E-01 1.6838E+00 2.4693E-01 Accumulated dose (rem) 7.1191E-01 5. 1777E+00 9.0798E-01 Low Population Zone Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 6.9790E-02 3. 9543E-01 8.1918E-02 Accumulated dose (rem) 5.2021E-01 2. 7501E+00 6.3837E-01 Control Room Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.3191E-04 2.3430E-02 1.4510E-03 Accumulated dose (rem) 6.4978E-03 2.0832E-01 1.5384E-02 Drywell Compartment Nuclide Inventory:

Time (h) = 96.0000 Ci kg Atoms Decay Co-58 3.2097E-06 1.0094E-13 1.0481E+12 2.2913E+17 Co-60 3.9893E-06 3.5291E-12 3.5421E+13 2.7451E+17 Kr-85 1.1685E+06 2.9782E+00 2. 1100E+25 1.5662E+22 Kr-85m 6.4275E+00 7.8103E-10 5.5335E+15 1.4536E+22 Kr-88 3.2448E-03 2.5377E-13 1.7708E+12 2.2353E+22 Rb-86 1.2408E-04 1.5:249E-12 1.0678E+13 1.0991E+19 Sr-89 4.0139E-03 1.3;316E-10 9.3485E+14 2.9097E+20 Sr-90 6.1599E-04 4.5158E-09 3.0216E+16 4.2339E+19 Sr-91 4.8850E-06 1.3476E-15 8.9179E+09 3.1004E+20 CC-AA-309-1001, Rev 2

Attachment B Page 58 of 65 Y-90 3. 9941E-04 7. 3413E-13 4.9123E+12 1.0030E+18 Y-91 6.5914E-05 2. 6878E-12 1. 7787E+13 3.8639E+18.

Y-92 1.2872E-10 1.3377E-20 8.7566E+04 4.7896E+19 Y-93 9.4754E-08 2. 8401E-17 1. 8391E+08 4.0075E+1E Zr-95 7.4304E-05 3. 4588E-12 2. 1925E+13 5.3260E+18 Zr-97 1.5314E-06 8. 0108E-16 4.9734E+09 4.8824E+18 Nb-95 7. 7751E-05 1. 9884E-12 1.2604E+13 5.3569E+18 Mo-99 4.0791E-04 8.5049E-13 5.1735E+12 7.4852E+19 Tc-99m 4. 1820E-04 7. 9532E-14 4.8379E+ll 6.6869E+19 Ru-103 8.7698E-04 2. 7173E-11 1.5887E+14 6.4551E+lS' Ru-105 2. 0527E-10 3.0537E-20 1. 7514E+05 3.1548E+19 Ru-106 3.9802E-04 1. 1897E-10 6.7590E+14 2.7551E+l, Rh-105 1. 1035E-04 1.3073E-13 7. 4981E+11 4.2876E+19S Sb-127 6.3726E-04 2.3863E-12 1.1315E+13 8.8321E+19 Sb-129 7. 9215E-10 1.4087E-19 6. 5761E+05 1. 8283E+2C, Te-127 7.8324E-04 2. 9678E-13 1. 4073E+12 8.8632E+19 Te-127m 1.7703E-04 1.8768E-11 8. 8993E+13 1.2183E+19 Te-129 4.5559E-04 2. 1755E-14 1.0156E+ll 2.0395E+2C' Te-129m 5.2687E-04 1. 7489E-11 8.1646E+13 3.9017E+19' Te-131m 1.8791E-04 2. 3565E-13 1. 0833E+12 1.1210E+2C Te-132 7.1781E-03 2.3644E-11 1.0787E+14 1.1300E+21 I-131 2.3155E+04 1.8677E-04 8.5859E+20 5.1550E+21 I-132 1.2409E-02 1.2021E-12 5. 4844E+12 5.3056E+21 1-133 2.7040E+03 2.3870E-06 1.0808E+19 9.3337E+21 I-135 2.6384E+00 7.5129E-10 3. 3514E+15 7.3419E+21 Xe-133 8. 4149E+07 4.4956E-01 2.0356E+24 1.4880E+24 Xe-135 4. 7521E+04 1.8608E-05 8.3010E+19 1.2583E+2_.

Cs-134 1. 6188E-02 1.2512E-08 5. 6230E+16 1.2448E+21 Cs-136 3.9057E-03 5.3290E-11 2.3597E+14 3.6792E+2C Cs-137 9.9949E-03 1.1491E-07 5.0510E+17 7.6601E+2C Ba-140 6.6226E-03 9. 0462E-11 3.8913E+14 5.6255E+2C La-140 5. 8391E-03 1.0505E-ll 4.5189E+13 1.7944E+1_

Ce-141 1.7948E-04 6.2989E-12 2. 6903E+13 1.3383E+1S, Ce-143 2.3838E-05 3.5896E-14 1. 5117E+11 1.1684E+1,-

Ce-144 1.5920E-04 4.9914E-11 2. 0874E+14 1.1044E+1, Pr-143 6.9964E-05 1.0390E-12 4.3754E+12 4.7745E+1E Nd-147 2.4421E-05 3. 0187E-13 1.2367E+12 2.1461E+lE Np-239 7. 5157E-04 3.2397E-12 8. 1631E+12 1.6262E+2C Pu-238 7.7221E-07 4.5107E-11 1. 1413E+14 5.3045E+16E Pu-239 6.4809E-08 1.0427E-09 2. 6272E+15 4.4236E+15 Pu-240 8.7367E-08 3. 8341E-10 9. 6206E+14 6.0034E+15 Pu-241 2.9238E-05 2.8383E-10 7.0923E+14 2.0101E+IE Am-241 1.7724E-08 5. 1641E-12 1.2904E+13 1.1836E+15 Cm-242 3.9233E-06 1. 1837E-12 2. 9457E+12 2.7410E+17 Cm-244 2.8298E-07 3.4978E-12 8. 6329E+12 1.9453E+lE Drywell Transport Group Inventory:

Time (h) = 96.0000 Atmosphere Sump Noble gases (atoms) 2.3136E+25 0.OOOOE+00 Elemental I (atoms) 5.9439-113 5.6459E+22 Organic I (atoms) 8.6940E+20 0.OOOOE+00 Aerosols (ka) 1.3465E-07 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.2759E-06 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 5.3369E-06 Total I (Ci) 2. 5861E+04 CC-AA-309-1001, Rev 2

Attachment B Page 59 of 65 Deposition Recirculating Time (h) = 96.0000 Surfaces Filter Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.0000E+00 0.OOOOE+00 Aerosols (kg) 4.9919E+01 0.0000E+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 96.0000 Leakage Transport Noble gases (atoms) 2.5160E+24 Elemental I (atoms) 1. 6076E+19 Organic I (atoms) 1. 1810E+20 Aerosols (kg) 7.7684E-02 Drywell to Void Transport Group Inventory:

Time (h) = 96.0000 Leakage Transport Noble gases (atoms) 4.8055E+23 Elemental I (atoms) 5. 4277E+18 Organic I (atoms) 2.2650E+19 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) 96. 0000 Ci kg Atoms Decay Co-58 4. 7351E-05 1.4891E-12 1.5461E+13 2. 0274E+15 Co-60 5.8851E-05 5.2063E-11 5.2255E+14 2.4372E+15 Kr-85 1.1052E+04 2.8171E-02 1.9959E+23 1.3348E+20 Kr-85m 6.0798E-02 7.3878E-12 5.2341E+13 5. 6784E+19 Kr-88 3.0692E-05 2.4477E-15 1. 6750E+10 6.4953E+19 Rb-86 1.9824E-03 2.4364E-11 1.7061E+14 9. 5257E+16 Sr-89 5. 9214E-02 2.0382E-09 1.3791E+16 2.5708E+18 Sr-90 9.0872E-03 6. 6619E-08 4.4576E+17 3.7595E+17 Sr-91 7.2064E-05 1. 9880E-14 1.3156E+11 1. 6771E+18 Y-90 5.8955E-03 1.0836E-11 7.2507E+13 4.0167E+16 Y-91 9.7372E-04 3. 9705E-11 2. 6276E+14 3.7176E+16 Y-92 1.9090E-09 1. 9839E-19 1.2986E+06 5.4793E+17 Y-93 1.3978E-06 4.1898E-16 2.7130E+09 2.2194E+16 Zr-95 1.0962E-03 5. 1025E-11 3.2345E+14 4.7106E+16 Zr-97 2.2592E-05 1. 1818E-14 7.3369E+10 3. 1869E+16 Nb-95 1. 1470E-03 2. 9333E-11 1.8594E+14 4.7555E+16 Mo-99 6. 0175E-03 1.2547E-11 7. 6321E+13 6.0852E+17 Tc-99m 6. 1694E-03 1. 1733E-12 7.1370E+12 5. 6016E+17 Ru-103 1.2937E-02 4.0086E-10 2.3437E+15 5. 6952E+17 Ru-105 3.0282E-09 4.5049E-19 2.5837E+06 1. 1784E+17 Ru-106 5. 8717E-03 1.7551E-09 9.9710E+15 2. 4448E+17 Rh-105 1.6279E-03 1. 9286E-12 1.1061E+13 3.4217E+17 Sb-127 9. 4010E-03 3.5203E-11 1.6693E+14 7.3577E+17 Sb-129 1. 1686E-08 2.0781E-18 9.7013E+06 6. 7203E+17 Te-127 1. 1555E-02 4 3782E-12 2.0761E+13 7. 5173E+17 Te-127m 2. 6115E-03 2.7686E-10 1.3128E+15 1.0823E+17 Te-129 6. 7210E-03 3.2093E-13 1.4982E+12 9. 0847E+17 Te-129m 7.7725E-03 2.5801E-10 1.2045E+15 3. 4497E+17 CC-AA-309-1001, Rev 2

Attachment B Page 60 of 65 Te-131m 2.7721E-03 3. 4764E-12 1.5981E+13 8.2748E+17 Te-132 1.0589E-01 3.4880E-10 1.5913E+15 9.3094E+18 I-131 2. 1974E+02 1.7724E-06 8.1479E+18 4.3924E+19 I-132 1.2641E-01 1.2246E-11 5.5870E+13 1. 9392E+19 I-133 2.5661E+01 2.2653E-08 1.0257E+17 6. 3569E+19 I-135 2.5038E-02 7.1296E-12 3. 1804E+13 3.3564E+19 Xe-133 7.9596E+05 4.2524E-03 1.9254E+22 1.2381E+22 Xe-135 4.4950E+02 1.7602E-07 7. 8519E+17 7. 1156E+20 Cs-134 2.5864E-01 1.9990E-07 8. 9839E+17 1.0932E+19 Cs-136 6.2401E-02 8.5141E-10 3.7701E+15 3. 1707E+18 Cs-137 1.5969E-01 1.8359E-06 8.0701E+18 6. 7293E+18 Ba-140 9.7699E-02 1.3345E-09 5. 7405E+15 4. 8977E+18 La-140 8. 6178E-02 1.5504E-10 6.6693E+14 7. 6957E+17 La-141 5.0778E-11 8. 9788E-21 3.8349E+04 1.2279E+16 Ce-141 2.6476E-03 9.2920E-11 3.9686E+14 1.1801E+17 Ce-143 3.5166E-04 5.2954E-13 2.2301E+12 8.7587E+16 Ce-144 2.3486E-03 7.3635E-10 3.0794E+15 9. 7980E+16 Pr-143 1.0324E-03 1.5331E-11 6. 4563E+13 4.3202E+16 Nd-147 3.6027E-04 4.4533E-12 1. 8244E+13 1.8626E+16 Np-239 1. 1087E-02 4.7792E-11 1.2042E+14 1.3036E+18 Pu-238 1.1392E-05 6. 6543E-10 1. 6837E+15 4.7104E+14 Pu-239 9.5608E-07 1.5382E-08 3.8758E+16 3. 9318E+13 Pu-240 1.2889E-06 5.6562E-09 1.4193E+16 5.3309E+13 Pu-241 4. 3132E-04 4.1B71E-09 1.0463E+16 1. 7848E+16 Am-241 2. 6147E-07 7. 6183E-11 1. 9037E+14 1.0538E+13 Cm-242 5.7877E-05 1.7463E-11 4.3456E+13 2. 4301E+15 Cm-244 4. 1746E-06 5.1601E-11 1.2735E+14 1.7273E+14 Reactor Building Transport Group Inventory:

Time (h) = 96.0000 Atmosphere Sump Noble gases (atoms) 2.1884E+23 0.0000E+00 Elemental I (atoms) 2.2029E+14 0.0000E+00 Organic I (atoms) 8.2236E+18 0.0000E+00 Aerosols (kg) 2.1428E-06 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.3663E-09 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.4053E-09 Total I (Ci) 2.4555E+02 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 96.0000 Leakage Transport Noble gases (atoms) 2.5160E+24 Elemental I (atoms) 1.6076E+19 Organic I (atoms) 1. 1810E+20 Aerosols (kg) 7.7684E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.22839E+24 Elemental I (atoms) 7.3058E+18 7.33058E+18 Organic I (atoms) 5.2222E+19 5.2222E+19 Aerosols (kg) 7.6864E-02 7.7641E-04 CC-AA-309-1001, Rev 2

Attachment B Page 61 of 65 Exclusion Area Boundary Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.8428E-01 5.8584E+00 6.6268E-01 Accumulated dose (rem) 1.1962E+00 1.1036E+01 1.5707E+00 Low Population Zone Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.6075E-02 3. 6627E-01 5.7229E-02 Accumulated dose (rem) 5.6629E-01 3.1164E+00 6.9560E-01 Control Room Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 3.6673E-04 1.6365E-02 8.6507E-04 Accumulated dose (rem) 6.8645E-03 2.2468E-01 1.6249E-02 Drywell Compartment Nuclide Inventory:

Time (h) = 720.0000 Ci kg Atoms Decay Kr-85 5.3317E+05 1.3590E+00 9.6281E+24 8.2919E+22 I-131 1.1283E+03 9.1007E-06 4.1836E+19 5.7605E+21 I-133 1.1544E-06 1.0191E-15 4. 6143E+09 9.3441E+21 Xe-133 1.2418E+06 6.6344E-03 3.0040E+22 3.1215E+24 Drywell Transport Group Inventory:

Time (h) = 720.0000 Atmosphere Sump Noble gases (atoms) 9.6581E+24 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 5.6459E+22 Organic I (atoms) 4.1836E+19 0.0000E+00 Aerosols (kg) 4.8652E-35 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 2.5218E-07 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2.5218E-07 Total I (Ci) 1.1283E+03 Deposition Recirculating Time (h) = 720.0000 Surfaces Filter Noble gases (atoms) O.OOOOE+00 0.O0OOE+00 Elemental I (atoms) 0.OOOOE+00 0.ODOOE+00 Organic I (atoms) 0.OOOOE+00 0.0DOOE+00 Aerosols (kg) 4.9919E+01 0.0DOOE+00 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 720.0000 Leakage Transport Noble gases (atoms) 1.2417E+25 Elemental I (atoms) 1. 6076E+19 Organic I (atoms) 2.9601E+20 Aerosols (kg) 7.7684E-02 Drywell to Void Transport Group Inventory:

Time (h) = 720.0000 Leakage Transport Noble gases (atoms) 2.3570E+24 CC-AA-309-1001, Rev 2 I

Attachment B Page 62 of 65 Elemental I (atoms) 5.4277E+18 Organic I (atoms) 5. 6368E+19 Aerosols (kg) 2.0964E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 720.0000 Ci kg Atoms Decay Kr-85 5.0434E+03 1.2855E-02 9.1074E+22 7.6969E+20 I-131 1.0672E+01 8.6086E-08 3. 9574E+17 4. 9652E+19 I-133 1.0920E-08 9.6397E-18 4.3648E+07 6. 3668E+19 Xe-133 1. 1747E+04 6.2756E-05 2. 8416E+20 2.7832E+22 Reactor Building Transport Group Inventory:

Time (h) = 720.0000 Atmosphere Sump Noble gases (atoms) 9.1358E+22 0.OOOOE+00 Elemental I (atoms) 8.3148E-18 0.OOOOE+00 Organic I (atoms) 3.9574E+17 0.OOOOE+00 Aerosols (kg) 5.3699E-36 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1. 6038E-10 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 1. 6038E-10 Total I (Ci) 1.0672E+01 Drywell to Reactor Building Transport Group Inventory:

Time (h) = 720.0000 Leakage Transport Noble gases (atoms) 1.2417E+25 Elemental I (atoms) 1.6076E+19 Organic I (atoms) 2. 9601E+20 Aerosols (kg) 7.7684E-02 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.2296E+25 Elemental I (atoms) 7.3059E+18 7.3059E+18 Organic I (atoms) 1.4217E+20 1.4217E+20 Aerosols (kg) 7.6866E-02 7.7643E-04 1020 I-131 Summnary Drywell Reactor Building Environment Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curies) 0.000 4.5398E+03 o.OOOOE+00 0.000OE+00 0.033 2.6873E+05 0.OOOOE+00 0.OOOOE+00 0.290 2.1314E+06 2.8435E+02 9.4478E-02 0.500 3.4220E+06 8.0590E+02 4.4543E-01 0.667 5.2933E+06 1.4476E+03 9.9554E-01

0. 920 7.9848E+06 2.9206E+03 2.5189E+00 1.170 1.0478E+07 4.9143E+03 5.0689E+00 1.420 1.2825E+07 7.3942E+03 8.8499E+00 l CC-AA-309-1001, Rev 2

Attachment B Page 63 of 65

1. 670 1.5034E+07 1. 0314E+04 1.4011E+01 1.920 1.7116E+07 1.3633E+04 2. 0677E+01 2.000 1.7756E+07 1.4772E+04 2. 3146E+01 2.400 1.2091E+07 2.0147E+04 3.7850E+01 2.700 9.0928E+06 2.2715E+04 5.0584E+01 3.000 6.8479E+06 2.4390E+04 6. 4134E+01 3.050 6.5324E+06 2.4599E+04 6. 6447E+01 3.100 6.2317E+06 2.4791E+04 6. 8771E+01 3.400 4. 6991E+06 2.5625E+04 8.2913E+01 3.700 3.5464E+06 2. 6018E+04 9. 7261E+01 4.000 2.6789E+06 2.6086E+04 1. 1168E+02 4.300 2.0258E+06 2.5918E+04 1.2608E+02 4.600 1.5342E+06 2.5580E+04 1.4038E+02 4.900 1.1640E+06 2. 5121E+04 1.5454E+02 5.200 9.4707E+05 2.4585E+04 1.6852E+02 5.500 7. 9811E+05 2. 4015E+04 1.8230E+02 5.800 6.7349E+05 2.3422E+04 1.9589E+02 6.100 5. 6923E+05 2.2813E+04 2.0926E+02 6.400 4.8200E+05 2.2196E+04 2.2242E+02 6.700 4.0901E+05 2. 1576E+04 2.3536E+02 7.000 3.4795E+05 2.0955E+04 2.4808E+02 7.300 2.9685E+05 2.0339E+04 2.6059E+02 7 .600 2. 5410E+05 1.9729E+04 2.7289E+02 7.900 2. 1833E+05 1. 9128E+04 2.8497E+02 8.000 2.0775E+05 1.8930E+04 2.8895E+02 8.300 1.7954E+05 1.8343E+04 3.0076E+02

8. 600 1.5908E+05 1.7769E+04 3. 1236E+02 8.900 1.4151E+05 1.7208E+04 3.2376E+02 9.200 1.2642E+05 1.6662E+04 3.3497E+02 9.500 1. 1345E+05 1. 6130E+04 3.4599E+02 9.800 1.0232E+05 1.5612E+04 3.5682E+02 10.100 9.2758E+04 1. 5109E+04 3.6748E+02

10. 400 8.4541E+04 1.4620E+04 3.7796E+02 16.000 3.7447E+04 7.8533E+03 5.4706E+02 24.000 3.2899E+04 3.2940E+03 7.3296E+02 48.000 2.9220E+04 4. 6131E+02 1. 1539E+03

96. 000 2.3155E+04 2. 1974E+02 1.8192E+03 720. 000 1. 1283E+03 1.0672E+01 4.2318E+03 Control Room Void Time (hr) I-131 (Curies) I-131 (Curies)

O.000 O.OOOOE+00 O.OOOOE+00 0.033 O.OOOOE+00 O.OOOOE+00 0.290 5.8753E-06 1.0685E+02 0.500 1.7646E-05 3.0534E+02 0.667 3.1054E-05 5.5155E+02 0.920 2.7490E-05 1.1217E+03 1.170 2.5662E-05 1.9033E+03 1.420 2.5436E-05 2.8889E+03 1.670 2.6705E-05 4.0664E+03

1. 920 2.9353E-05 5.4245E+03 2.000 3.0472E-05 5.8954E+03 2.400 2.9631E-05 7.0600E+03 2.700 2.9931E-05 7.6807E+03 3.000 3.0558E-05 B.1454E+03 CC-AA-309-1001, Rev 2

Attachment B Page 64 of 65 3.050 3.0677E-05 B.2105E+03 3.100 3.0799E-05 B.2726E+03 3.400 3. 1535E-05 B.5881E+03 3.700 3.2226E-05 8.8235E+03 4 .000 3.2815E-05 8.9988E+03 4.300 3.3277E-05 9.1289E+03 4.600 3.3604E-05 9.2248E+03

4. 900 3.3799E-05 9.2951E+03 5.200 3.3872E-05 9.3473E+03 5.500 3.3838E-05 9.3894E+03

5. 800 3.3714E-05 9.4233E+03 6.100 3. 3514E-05 9.4503E+03 6.400 3.3251E-05 9.4716E+03 6.700 3.2936E-05 9.4881E+03 7.000 3.2579E-05 9.5006E+03 7.300 3.2189E-05 9.5098E+03

7. 600 3. 1773E-05 9.5161E+03

7. 900 3. 1337E-05 9.5201E+03 8.000 3. 1188E-05 9.5210E+03 8.300 2.8912E-05 9.5224E+03

8. 600 2. 7014E-05 9.5224E+03

8. 900 2.5421E-05 9.5213E+03 9.200 2.4075E-05 9.5192E+03 9.500 2.2931E-05 9.5162E+03 9.800 2.1949E-05 9.5126E+03

10. 100 2. 1101E-05 9.5083E+03 10.400 2.0362E-05 9.5035E+03

16. 000 1.4044E-05 9.3735E+03 24.000 1.0662E-05 9.1652E+03 48.000 3.3721E-06 B.5567E+03

96. 000 2.6334E-06 7.4353E+03 720.000 3. 7981E-08 1.0031E+03 Cumulative Dose Summary Exclusion Area Bounda Low Population Zone Control Room Time Thyroid TEDE Thyroid TEDE Thyroid TEDE (hr) (rem) (rem) (rem) (rem) (rem) (rem) 0.000 O.OOOOE+00 O.OOOOE+00 O.OOOOEt00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.033 O.OOOOE+00 O.OOOOE+00 O.OOOOE400 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.290 7.8824E-03 5.0020E-04 1.5112E-03 9.5899E-05 1.8692E-04 6.9448E-06 0.500 3.7099E-02 2. 4132E-03 7. 1127E-03 4.6266E-04 1.0609E-03 3.9784E-05 0.667 3.8958E-02 2.5445E-03 1.3085E-02 8.8447E-04 2.5197E-03 9.5572E-05 0.920 4.4112E-02 2. 9910E-03 2.9646E-02 2.3190E-03 5.2141E-03 2.0092E-04 1.170 5.2750E-02 3.8810E-03 5.7399E-02 5.1789E-03 7.6214E-03 2.9765E-04 1.420 6.5564E-02 5.3575E-03 9.8574E-02 9.9232E-03 9.9316E-03 3.9586E-04 1.670 8.3055E-02 7.5302E-03 1.5478E-01 1.6904E-02 1.2288E-02 5.0431E-04 1.920 1.0564E-01 1.0485E-02 2.2733E-01 2.6399E-02 1.4822E-02 6.3148E-04 2.000 1. 1400E-01 1.1607E-02 2.5419E-01 3.0005E-02 1.5690E-02 6.7748E-04 2.400 1. 6379E-01 1.8665E-02 3.2256E-01 3.9695E-02 2.0030E-02 9.1714E-04 2.700 2.0683E-01 2.5216E-02 3. 8166E-01 4.8690E-02 2.3264E-02 1.1060E-03 3.000 2. 5254E-01 3.2567E-02 4.4443E-01 5.8783E-02 2.6548E-02 1.3077E-03 3.050 2.6033E-01 3.3851E-02 4. 5512E-01 6.0546E-02 2.7101E-02 1.3426E-03 l CC-AA-309-1001, Rev 2

Attachment B Page 65 of 65 3.100 2. 6816E-01 3.5151E-02 4. 6586E-01 6.2331E-02 2.7657E-02 1.3779E-03 3.400 3.1571E-01 4.3282E-02 5. 3115E-01 7.3496E-02 3. 1036E-02 1.5986E-03 3.700 3. 6383E-01 5.1832E-02 5. 9722E-01 8.5235E-02 3.4489E-02 1.8332E-03 4.000 4.1205E-01 6.0689E-02 6. 6343E-01 9.7396E-02 3.8004E-02 2.0805E-03 4.300 4. 6004E-01 6.9760E-02 7.2933E-01 1. 0985E-01 4.1570E-02 2.3388E-03 4.600 5.0758E-01 7.8972E-02 7. 9460E-01 1.2250E-01 4.5170E-02 2.6063E-03

4. 900 5.5450E-01 8.8263E-02 8.5902E-01 1. 3526E-01 4.8790E-02 2. 8812E-03 5.200 6. 0069E-01 9.7582E-02 9.2245E-01 1. 4805E-01 5.2416E-02 3. 1618E-03 5.500 6.4611E-01 1. 0689E-01 9. 8480E-01 1. 6083E-01 5.6035E-02 3.4464E-03 5.800 6.9071E-01 1. 1616E-01 1.0460E+00 1.7355E-01 5.9635E-02 3.7336E-03 6.100 7.3449E-01 1.2535E-01 1.1062E+00 1.8618E-01 6.3209E-02 4.0222E-03 6.400 7.7744E-01 1.3445E-01 1.1651E+00 1. 9868E-01 6.6749E-02 4.3111E-03 6.700 8. 1957E-01 1. 4345E-01 1.2230E+00 2. 1103E-01 7.0249E-02 4.5993E-03 7.000 8.6086E-01 1.5232E-01 1.2797E+00 2.2321E-01 7.3704E-02 4.8860E-03 7.300 9. 0133E-01 1. 6106E-01 1.3352E+00 2.3521E-01 7. 7110E-02 5. 1705E-03

7. 600 9. 4100E-01 1. 6966E-01 1.3897E+00 2.4701E-01 8.0465E-02 5.4523E-03 7.900 9. 7987E-01 1.7810E-01 1. 4431E+00 2. 5861E-01 8.3766E-02 5.7310E-03 8.000 9. 9265E-01 1.8089E-01 1.4606E+00 2. 6243E-01 8.4854E-02 5.8231E-03 8.300 1.0305E+00 1.8913E-01 1.4781E+00 2. 6904E-01 8.7983E-02 6.0878E-03

8. 600 1.0676E+00 1. 9721E-01 1.4952E+00 2. 7552E-01 9.0887E-02 6.3330E-03

8. 900 1. 1039E+00 2. 0514E-01 1.5120E+00 2. 8189E-01 9.3603E-02 6.5623E-03 9.200 1. 1395E+00 2. 1290E-01 1.5285E+00 2.8812E-01 9. 6161E-02 6.7782E-03 9.500 1. 1745E+00 2.2051E-01 1.5446E+00 2. 9424E-01 9.8584E-02 6.9829E-03 9.800 1.2087E+00 2.2796E-01 1.5604E+00 3.0022E-01 1.0089E-01 7. 1780E-03 10.100 1.2423E+00 2.3526E-01 1.5759E+00 3.0609E-01 1.0310E-01 7.3649E-03

10. 400 1.2752E+00 2.4240E-01 1.5911E+00 3.1183E-01 1.0522E-01 7.5447E-03

16. 000 1.7962E+00 3.5391E-01 1. 8318E+00 4.0186E-01 1.3616E-01 1.0175E-02 24.000 2.3433E+00 4. 6301E-01 2.0845E+00 4. 9039E-01 1. 6706E-01 1.2668E-02 48.000 3.4939E+00 6. 6105E-01 2.3547E+00 5.5646E-01 1. 8489E-01 1.3933E-02

96. 000 5.1777E+00 9. 0798E-01 2. 7501E400 6. 3837E-01 2. 0832E-01 1.5384E-02 720.000 1.1036E+01 1.5707E+00 3. 1164EI00 6. 9560E-01 2.2468E-01 1.6249E-02 Worst Two-Hour Doses Exclusion Area Boundary Time Whole Body Thyroid TEDE (hr) (rem) (rem) (rem) 4.3 4.6644E-02 3.0309E-01 6. 1659E-02 CC-AA-309-1001, Rev 2

Attachment C Page 1 of 28 Attachment C RADTRAD Output - QDC400ESF51.psf RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:48:57 File information 4#444### #444 #4####4 44 ##### #4#4#4## #4##44444 ##4##4444444 44 #4#4 #4#44 Plant file = C:\RADTRAD 3.03\Input\Quad\QDC400ESF51.psf Inventory file = c:\radtrad 3.03\defaults\qdcdef.txt Release file = c:\radtrad 3.03\defaults\bwri.rft Dose Conversion file = c:\radtrad 3.03\defaults\fgrll&12.inp

1. 1. 1. 1. ###4 ##4## # ##### # # #####

4 ## 4 ## 4 # 44 4 4

## # 4 #4 4 #

1. 1. 1. #### # 4 # # # 4 4 4

# 4 4 #4 4 # 4 4

4 4 # ## 4 4 # #

444 # #4 Radtrad 3.03 4/15/2001 Quad Cities ESF Leakage AST Analysis - ESF Leakage = 2 gpm, Flashing Factor 10%, SGTS Charcoal Filter @ 50%, CR Unfiltered Inleakage = 60,000 cfm for <0.66E7 hrs and 400 cfm for >0.6667 hrs, CREV Charcoal @ 99%, and CREV Initiation @ 40 Minutes Nuclide Inventory File:

c:\radtrad 3.03\defaults\qdc-def.txt Plant Power Level:

3.0160E+03 Compartments:

4 Compartment 1:

Suppression Pool 3

1.1000E+05 0

0 0

Compartment 2:

Reactor Building 3

2.3500E+06 l CC-AA-309-1001, Rev 2

Attachment C Page 2 of 28 0

0 0

Compartment 3:

Environment 2

O.OOOOE+00 0

0 0

Compartment 4:

Control Room 1

1.8400E+05

.0 0

0 0

Pathways:

5 Pathway 1:

Suppression Pool to Reactor Building 1

2 2

Pathway 2:

Reactor Building to Environment 2

3 2

Pathway 3:

Filtered Intake to Control Room 3

4 2

Pathway 4:

Unfiltered Inleakage to Control Room 3

4 2

Pathway 5:

Control Room Exhaust to Environment 4

3 2

End of Plant Model File Scenario Description Name:

Plant Model Filename:

CC-AA-309-1001, Rev 2

Attachment C Page 3 of 28 Source Term:

1 1 1.OOOOE+00 c:\radtrad 3.03\defaults\fgrll&12.inp c:\radtrad 3.03\defaults\bwri.rft 0.000OE+00 1

0.OOOOE+00 9.7000E-01 3.OOOOE-02 1.OOOOE+00 Overlying Pool:

0 0.0000E+00 0

0 0

0 Compartments:

4 Compartment 1:

0 1

0 0

0 Compartment 2:

1 1

0 0

0 Compartment 3:

0 0

Compartment 4:

0 1

0 0

0 I CC-AA-309-1001, Rev 2

Attachment C Page 4 of 28 0

0 Pathways:

5 Pathway 1:

0 0

0 1

3 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 2.6740E-02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 2:

0 0

0 1

3 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 4.4000E+03 9. 9000E+01 5.OOOOE+01 5.0000E+01

.7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 3:

0 0

0 1

10 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 1.8000E+03 9. 9000E+01 9.9000E+01 9. 9000E+01 2.0000E+00 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01 4.0000E+00 1.8000E+03 9.9000E+01 9.9000E+01 9. 9000E+01 8.0000E+00 1.8000E+03 9.9000E+01 9. 9000E+01 9. 9000E+01 1.6000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+01 2.4000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 4.8000E+01 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+01 CC-AA-309-1001, Rev 2 l

Attachment C Page 5 of 28 7.2000E+02 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 0.OOOOE+00 0

0 0

0 Pathway 4:

0 0

0 1

10 O.OOOOE+00 0. OOOOE+00 O. OOOOE+00 0.OOOOE+00 0. OOOOE+00 3.3300E-02 6. OOOOE+04 O. OOOOE+00 0.OOOOE+00 0. OOOOE+00 6.6670E-01 4.OOOOE+02 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00 2.0000E+00 4.OOOOE+02 O.OOOOE+00 0.OOOOE+00 0.OOOOE+00

4. OOOOE+00 4.OOOOE+02 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00 8.OOOOE+00 4.OOOOE+02 O.OOOOE+00 0. OOOOE+00 0. OOOOE+00 1.6000E+01 4.OOOOE+02 O. OOOOE+00 O . OOOOE+00 O. OOOOE+00 2.4000E+01 4.OOOOE+02 O. OOOOE+00 O. OOOOE+00 O. OOOOE+00 4.8000E+01 4.OOOOE+02 O. OOOOE+00 O. OOOOE+00 O. OOOOE+00 7.2000E+02 O. OOOOE+00 O. OOOOE+00 0. OOOOE+00 O. OOOOE+00 0

0 0

0 Pathway 5:

0 0

0 1

10 0.OOOOE+00 0. OOOOE+00 O. OOOOE+00 0. OOOOE+00 O. OOOOE+00 3.3300E-02 6.2200E+04 O. OOOOE+00 0. OOOOE+00 O. OOOOE+00 6.6670E-01 2.2000E+03 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 2.OOOOE+00 2.2000E+03 0. OOOOE+00 0. OOOOE+00 O. OOOOE+00 4.OOOOE+00 2.2000E+03 0.OOOOE+00 0.OOOOE+00 O. OOOOE+00

8. OOOOE+00 2.2000E+03 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 1.6000E+01 2.2000E+03 0. OOOOE+00 0.OOOOE+00 0. OOOOE+00 2.4000E+01 2.2000E+03 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 4.8000E+01 2.2000E+03 0. OOOOE+00 0.OOOOE+00 0. OOOOE+00 7.2000E+02 O. OOOOE+00 0. OOOOE+00 0. OOOOE+00 0. OOOOE+00 0

0 0

0 CC-AA-309-1001, Rev 2

Attachment C Page 6 of 28 Dose Locations:

3 Location 1:

Exclusion Area Boundary 3

1 3

O.OOOOE+00 1.5700E-04 5.OOOOE-01 6.38OOE-06 7.2000E+02 O.OOOOE+00 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 0

Location 2:

Low Population Zone 3

1 7

O.OOOOE+00 3. O100E-05 5.O0O0E-01 2.0500E-05 2.OOOOE+00 8.7600E-06 8.OOOE+00 5.7300E-06 2.4000E+01 2.2800E-06 9.6000E+01 6.0700E-07 7.2000E+02 O.OOOOE+00 1

4 O.OOOOE+00 3.5000E-04 8.OOOOE+00 1.8000E-04

.2.4000E+01 2.3000E-04 7.2000E+02 O.OOOOE+00 0

Location 3:

Control Room 4

0 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 0.0000E+00 1

4 O.OOOOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 O.OOOOE+00 Effective Volume Location:

1 6

O.OOOOE+00 5.8400E-06 2.OOOOE+00 2.6800E-06 8.OOOOE+00 1.8100E-06

2. 4000E+01 7.7700E-07 CC-AA-309-1001, Rev 2

Attachment C Page 7 of 28 9.6000E+01 2.3000E-07 7.2000E+02 O.OOOOE+00 Simulation Parameters:

7 O.OOOOE+00 1.OOOOE-02 1.OOOOE+00 l.OOOOE-01 2.OOOOE+00 1.OOOOE+00 8.OOOOE+'00 2.OOOOE+00 2.4000E+01 4.OOOOE+00 9.6000E+01 8.OOOOE+00 7.2000E+02 O.OOOOE+00 Output Filename:

C:\RADTRAD 3.o226 1

1 1

0 0

End of Scenario File

1. 1. 1. 1. N##

RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:48:57

1. 1. 1. 1. ii##

Plant Description

1. 1. 1. 1. N##

Number of Nuclides = 60 Inventory Power = 1.OOOOE+00 MWth Plant Power Level = 3.0160E+03 MWth Number of compartments = 4 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Suppression Pool Compartment volume = 1.lOOOE+05 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: Suppression Pool Ito Reactor Building Compartment number 2 Name: Reactor Building Compartment volume = 2.3500E+06 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Suppression Pool Ito Reactor Building Exit Pathway Number 2: Reactor Building Ito Environment Compartment number 3 CC-AA-309-1001, Rev 2

Attachment C Page 8 of 28 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 2: Reactor Building to Environment Inlet Pathway Number 5: Control Room Exhaust to Environment Exit Pathway Number 3: Filtered Intake to Control Room Exit Pathway Number 4: Unfiltered Inleakage to Control Room Compartment number 4 Name: Control Room Compartment volume = 1.8400E+05 (Cubic feet)

Compartment type is Control Room Pathways into and out of compartment 4 Inlet Pathway Number 3: Filtered Intake to Control Room Inlet Pathway Number 4: Unfiltered Inleakage to Control Room Exit Pathway Number 5: Control Room Exhaust to Environment Total number of pathways = 5 I CC-AA-309-1001, Rev 2

Attachment C Page 9 of 28 RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:48:57 Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings GAP EARLY IN-VESSEL LATE RELEASE RELEASE MkSS 0.500000 hr 1.5000 hrs 0.0000 hrs (gm)

NOBLES 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.000E+00 IODINE 5.OOOOE-02 2.50OOE-01 0.OOOOE+00 2.605E+02 CESIUM 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.000E+00 TELLURIUM 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.000E+00 STRONTIUM 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.000E+00 BARIUM 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0. 000E+00 RUTHENIUM 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.000E+00 CERIUM 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.000Et00 LANTHANUM 0.OOOOE+00 0.00O0E+00 0.OOOOE+00 0.000E+00 Inventory Power = 3016. MWt Nuclide Group Specific half Whole Body Inhaled Inhaled Name Inventory life DCF Thyroid Effective (Ci/MWt) (s) (Sv-m3/Bq-s) (Sv/Bq) (Sv/Bc)

I-131 2 2.710E+04 6. 947E+05 1.820E-14 2. 920E-07 8.890E-09 I-132 2 3.914E+04 8.280E+03 1.120E-13 1.740E-09 1.030E-10 I-133 2 5.501E+04 7.488E+04 2.940E-14 4.860E-08 1.580E-09 I-134 2 6.035E+04 3.156E+03 1.300E-13 2. 880E-10 3. 550E-11 I-135 2 5.157E+04 2.380E+04 8.294E-14 8.460E-09 3.320E-10 Nuclide Daughter Fraction Daughter Fraction Daughter Fraction Kr-85m Kr-85 0.21 none 0.00 none 0.00 Kr-87 Rb-87 1.00 none 0.00 none 0.00 Kr-88 Rb-88 1.00 none 0.00 none 0.00 Sr-90 Y-90 1.00 none 0.00 none 0.00 Sr-91 Y-9lm 0.58 Y-91 0.42 none 0.00 Sr-92 Y-92 1.00 none 0.00 none 0.00 Y-93 Zr-93 1.00 none 0.00 none 0.00 Zr-95 Nb-95m 0.01 Nb-95 0.99 none 0.00 Zr-97 Nb-97m 0.95 Nb-97 0.05 none 0.00 Mo-99 Tc-99m 0.88 Tc-99 0.12 none 0.00 Tc-99m Tc-99 1.00 none 0.00 none 0.00 Ru-103 Rh-103m 1.00 none 0.00 none 0.00 Ru-105 Rh-105 1.00 none 0.00 none 0.00 Ru-106 Rh-106 1.00 none 0.00 none 0.00 Sb-127 Te-127m 0.18 Te-127 0.82 none 0.00 Sb-129 Te-129m 0.22 Te-123 0.77 none 0 .00 Te-127m Te-127 0. 98 none 0.00 none 0.00 Te-129 I-129 1.00 none 0.00 none 0.00 l CC-AA-309-1001, Rev 2

Affachment C Page 10 of 28 Te-129m Te-129 0.65 I-12S 0.35 none 0.(00 Te-131m Te-131 0.22 I-131 0.78 none 0.(00 Te-132 I-132 1.00 none 0. 00 none 0.C00 I-131 Xe-131m 0.01 none 0.00 none 0.CIO I-133 Xe-133m 0.03 Xe-133 0.97 none 0.(10 I-135 Xe-135m 0.15 Xe-135 0.85 none 0.100 Xe-135 Cs-135 1.00 none 0.00 none 0. CIO Cs-137 Ba-137m 0.95 none 0.00 none 0. CIO Ba-140 La-140 1.00 none 0.00 none 0. CI0 La-141 Ce-141 1.00 none 0.00 none 0. CIO Ce-143 Pr-143 1.00 none 0.00 none 0. CO Ce-144 Pr-144m 0. 02 Pr-144 0.98 none 0. CO Nd-147 Pm-147 1.00 none 0.00 none 0.CIO Np-239 Pu-239 1.00 none 0. 00 none 0.CO Pu-238 U-234 1.00 none 0.00 none 0. CO Pu-239 U-235 1.00 none 0.00 none 0. CO Pu-240 U-236 1.00 none 0.00 none 0 . CO Pu-241 U-237 0.00 Am-241 1.00 none 0. CIO Am-241 Np-237 1.00 none 0.00 none O.CO Cm-242 Pu-238 1.00 none 0.00 none O.CO Cm-244 Pu-240 1.00 none 0.00 none O.CO Iodine fractions Aerosol 0.OOOOE+00 Elemental 9. 7000E-01 Organic 3.OOOOE-02 COMPARTMENT DATA Compartment number 1: Suppression Pool Compartment number 2: Reactor Building Compartment number 3: Environment Compartment number 4: Control Room PATHWAY DATA Pathway number 1: Suppression Pool to Reactor Building Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 O.OOOOE+00 0.00O3E+00 0.OOOOE+00 0.OOOOE+00 3.3300E-02 2.6740E-02 0.OOOE+00 0.OOOOE+00 0.OOOOE+00 7.2000E+02 O.OOOOE+00 0.O00OE+O0 0.OOOOE+00 O.OOOOE+00 Pathway number 2: Reactor Building to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic I CC-AA-309-1001, Rev 2

Attachment C Page 11 of28 0.000OE+00 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+C00 3.3300E-02 4.4000E+03 9.9000E+01 5.OOOOE+01 5.0000OE+C'l 7.2000E+02 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 o . OOOE+C00 Pathway number 3: Filtered Intake to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.0000E+00 o.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+CO 3.3300E-02 2.2000E+03 0.OOOOE+00 o.OOOOE+00 0.OOOOE+CO

6. 6670E-01 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+C1 2.0000E+00 1.8000E+03 9.9000E+01 9. 9000E+01 9.9000E+Cl 4.OOOOE+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1 8.OOOOE+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1

1. 6000E+01 1. 8000E+03 9.9000E+01 9.9000E+01 9.9000E+C1 2.4000E+01 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+C1

4. 8000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9.9000E+C1 7.2000E+02 0.0000E+00 O.OOOOE+00 o.OOOOE+00 o.OOOOE+00 Pathway number 4: Unfiltered Inleakage to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.0000E+00 O.0000E+00 o.0000E+00 0.000OE+00 o.O000E+00 3.3300E-02 6.0000E+04 o.OOOOE+00 o.OOOOE+00 o.0000E+00

6. 6670E-01 4.0000E+02 0.OOOOE+00 o.OOOOE+00 0.0000E+00 2.OOOOE+00 4.OOOOE+02 o.0000E+00 o.0000E+00 0.0000E+00 4.0000E+00 4.0000E+02 o.0000E+00 0.0000E+00 0.OOOOE+00 8.0000E+00 4.0000E+02 o.0000E+00 O.0000E+00 o.OOOOE+00

1. 6000E+01 4.0000E+02 O.OOOOE+00 o.OOOOE+00 o.OOOOE+00

2. 4000E+01 4.0000E+02 0.OOOOE+00 o.0000E+00 0.OOOOE+00

4. 8000E+01 4.0000E+02 0.0000E+00 o.0000E+00 0.OOOOE+00 7.2000E+02 o.0000E+00 0.0000E+00 o.0000E+00 0.OOOOE+00 Pathway number 5: Control Room Exhaust to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.00000E+00 0.OOOOE+00 o.OOOOE+00 3.3300E-02 6.2200E+04 0.0000E+00 0.OOOOE+00 0.OOOOE+00

6. 6670E-01 2.2000E+03 0.00OE+00 0.OOOOE+00 0.OOOOE+00 2.OOOOE+00 2.2000E+03 O.003E+00 o.OOOOE+00 o.OOOOE+00 4.OOOOE+00 2.2000E+03 O.00)E+00 o.OOOOE+00 0.OOOOE+00 8.OOOOE+00 2.2000E+03 O . 00OE+00 o.OOOOE+00 0.OOOOE+00

1. 6000E+01 2.2000E+03 0.0000E+00 0.OOOOE+00 0.OOOOE+00 2.4000E+01 2.2000E+03 O.OOOOE+00 0.OOOOE+00 0.OOOOE+00

4. 8000E+01 2.2000E+03 0.0000E+00 o.OOOOE+00 0.OOOOE+00 7.2000E+02 o.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 I CC-AA-309-1001, Rev 2 1

Attachment C Page 12 of 28 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr) X/Q (s

m^-3) 0.000OE+00 1.5700E-04 5.OOOOE-01 6.3800E-06 7.2000E+02 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1) 0.0000E+00 3.5000E-04 7.2000E+02 0.OOOOE+00 Location Low Population Zone is in compartment 3 Location X/Q Data Time (hr) X/Q (s

m^-3) 0.0000E+00 3.OlOE-05 5.OOO0E-01 2.0500E-05 2.0000E+00 8.7600E-06 8.0000E+00 5.730OE-06 2.4000E+01 2.2800E-06 9.6000E+01 6.0700E-07 7.2000E+02 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1) 0.0000E+00 3.5000E-04 8.0000E+00 1.8000E-04 2.4000E+01 2.3000E-04 7.2000E+02 0.0000E+00 Location Control Room is in compartment 4 Location X/Q Data Time (hr) X/Q (s

m^-3) o.OOOOE+00 5.8400E-06 2.OOOOE+00 2.6800E-06 8.0000E+00 1.8100E-06 2.4000E+01 7.7700E-07 9.6000E+01 2.3000E-07 7.2000E+02 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-l) o.0000E+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Occupancy Factor Data Time (hr) Occupancy Factor o.OOOOE+00 1.0000E+00 2.4000E+01 6.0000E-01 9.6000E+01 4.OOOE-01 7.2000E+02 0.0000E+00 USER SPECIFIED TIME STEP DATA - SUPPLEMENTAL TIME STEPS CC-AA-309-1001, Rev 2

Attachment C Page 13 of 28 Time Time step O . OOOOE+00 1. OOOOE-02

1. OOOOE+00 1. OOOOE-01 2.OOOOE+00 1. OOOOE+00 8.0000E+00 2.OOOOE+00

2. 4000E+01 4.0000E+00

9.6000E+01 8.0000E+00 7.2000E+02 O. OOOOE+00 CC-AA-309-1001, Rev 2

Attachment C Page 14 of 28 RADTRAD Version 3.03 (Spring 2001) run on 9/01/2005 at 12:48:57

## # # # # # 4 Dose, Detailed model and Detailed Inventory Output Exclusion Area Boundary Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Low Population Zone Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Control Room Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 Reactor Building Compartment Nuclide Inventory:

Time (h) = 0.0333 Ci kg Atoms Decay Reactor Building Transport Group Inventory:

Time (h) = 0.0333 Atmosphere Sump Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) O.OOOOE+00 0.0000E+00 Organic I (atoms) 0.OOOOE+00 0.0000E+00 Aerosols (kg) 0.OOOOE+00 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 0.OOOOE+00 Total I (Ci) 0.OOOOE+00 Suppression Pool to Reactor Building Transport Group Inventory:

I CC-AA-309-1001, Rev 2

Attachment C Page 15 of 28 Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+OQ 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 4.7048E-05 1. 1251E-02 4.0198E-04 Accumulated dose (rem) 4.7048E-05 1. 1251E-02 4.0198E-04 Low Population Zone Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 9.02OOE-06 2. 1570E-03 7.7067E-05 Accumulated dose (rem) 9.02OOE-06 2. 1570E-03 7.7067E-05 Control Room Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 6.7575E-08 3.1629E-04 1.0045E-05 Accumulated dose (rem) 6.7575E-08 3.1629E-04 1.0045E-05 Reactor Building Compartment Nuclide Inventory:

Time (h) = 0.5000 Ci kg Atoms Decay I-131 1.4539E+01 1.1'727E-07 5.3910E+17 3.3145E+14 I-132 1.9001E+01 1.8408E-09 8.3984E+15 4.4432E+14 I-133 2. 9074E+01 2.51566E-08 1.1621E+17 6.6531E+14 I-134 2.1842E+01 8.11376E-10 3.6796E+15 5.5114E+14 I-135 2. 6298E+01 7.41385E-09 3.3405E+16 6.0723E+14 Xe-133 5.2569E-02 2.8085E-10 1.2716E+15 8.7928E+ll Xe-135 5.7731E-01 2.2607E-10 1. 0084E+15 9.7255E+12 Reactor Building Transport Group Invenlory:

Time (h) = 0.5000 Atmosphere Sump Noble gases (atoms) 2.2801E+15 0.OOOOE+00 Elemental I (atoms) 6.7977E+17 0.OOOOE+00 Organic I (atoms) 2.1024E+16 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.0467E-10 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.8404E-10 Total I (Ci) 1.1075E+02 l CC-A.A-309-1001, Rev 2

Attachment C Page 16 of 28 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.0000E+00 1.1608E+15 Elemental I (atoms) 0.OOOOE+00 6.9500E+17 Organic I (atoms) 0.OOOOE+00 2.1495E+16 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.0000E+00 3.1639E+13 Elemental I (atoms) 6.3569E+15 6.3569E+15 Organic I (atoms) 1.9661E+14 1.9661E+14 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 2.4760E-06 6.3691E-04 2.2549E-05 Accumulated dose (rem) 4.9524E-05 1.1888E-02 4.2452E-04 Low Population Zone Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 7.9557E-06 2.0465E-03 7.2454E-05 Accumulated dose (rem) 1.6976E-05 4.2035E-03 1.4952E-04 Control Room Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 9.7614E-08 4.9009E-04 1.5543E-05 Accumulated dose (rem) 1.6519E-07 8.0638E-04 2.5588E-05 Reactor Building Compartment Nuclide Inventory:

Time (h) = 0.6667 Ci kg Atoms Decay I-131 2. 6819E+01 2.1633E-07 9.9447E+17 7.8895E+14 I-132 3.4069E+01 3.3 06E-09 1.5058E+16 1.0331E+15 I-133 5.3366E+01 4.7110E-08 2. 1331E+17 1.5777E+15 I-134 3.5336E+01 1.3246E-09 5.9530E+15 1.1911E+15 I-135 4.7699E+01 1.3582E-08 6.0588E+16 1. 4272E+15 Xe-133 1.2455E-01 6.6541E-10 3.0129E+15 2.7657E+12 Xe-135 1.3517E+00 5.2330E-10 2.3611E+15 3.0303E+13 Reactor Building Transport Group Inventory:

Time (h) = 0.6667 Atmosphere Sump Noble gases (atoms) 5.3741E+15 0.0000E+00 Elemental I (atoms) 1.2507E+18 0.0000E+00 Organic I (atoms) 3.8681E+16 0.0000E+00 Aerosols (kg) 0.OOOOE+00 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 5.6084E-10 CC-AA-309-1001, Rev 2

Attachment C Page 17 of 28 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 7.0454E-10 Total I (Ci) 1.9729E+02 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.0000E+00 2.7633E+15 Elemental I (atoms) 0.OOOOE+00 1.2869E+18 Organic I (atoms) 0.OOOOE+00 3.9802E+16 Aerosols (kg) 0.OOOOE+00 0.0000E+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 9.9607E+13 Elemental I (atoms) 1.5206E+16 1.5206E+16 Organic I (atoms) 4.7029E+14 4.7029E+14 Aerosols (kg) 0.0000E+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.0592E-04 3.4799E-02 1.1992E-03 Accumulated dose (rem) 1.5544E-04 4.6687E-02 1.6237E-03 Low Population Zone Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 3.4032E-04 1.1182E-01 3.8531E-03 Accumulated dose (rem) 3.5730E-04 1.1602E-01 4.0026E-03 Control Room Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.9460E-07 4.8954E-03 1.5464E-04 Accumulated dose (rem) 9.5979E-07 5.7018E-03 1.8023E-04 Reactor Building Compartment Nuclide Inventory:

Time (h) = 2.0000 Ci kg Atoms Decay I-131 3.0396E+02 2.4518E-06 1.1271E+19 2.7243E+16E I-132 3.0512E+02 2.9560E-08 1.3486E+17 3.0055E+16 I-133 5.8122E+02 5. 1308E-07 2.3232E+18 5.2843E+16E I-134 1.4020E+02 5.2556E-09 2.3620E+16 1.9168E+16 I-135 4.7223E+02 1.3447E-07 5.9984E+17 4.4456E+16 Xe-133 3.9548E+00 2.1128E-08 9.5667E+16 2.5306E+14 Xe-135 3.9119E+01 1.5318E-08 6.8333E+16 2.5726E+15 Reactor Building Transport Group Inventory:

Time (h) = 2.0000 Atmosphere Sump Noble gases (atoms) 1.6400E+17 0.OOOOE+00 Elemental I (atoms) 1.3922E+19 0.OOOOE+00 Organic I (atoms) 4.3058E+17 0.OOOOE+00 l CC-AA-309-1001, Rev 2

Attachment C Page 18 of 28 Aerosols (kg) 0.0000E+00 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 6.2566E-09 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 7.6940E-09 Total I (Ci) 1.8027E+03 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 8.6360E+16 Elemental I (atoms) 0.OOOOE+00 1.5086E+19 Organic I (atoms) 0.OOOOE+00 4.6659E+17 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 8.5791E+15 Elemental I (atoms) 4.9784E+17 4.9784E+17 Organic I (atoms) 1.5397E+16 1.5397E+16 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.8774E-04 2. 1999E-01 7.3709E-03 Accumulated dose (rem) 6.4318E-04 2.6667E-01 8.9946E-03 Low Population Zone Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 6.6969E-04 3.0205E-01 1.0121E-02 Accumulated dose (rem) 1.0270E-03 4.1807E-01 1.4123E-02 Control Room Doses:

Time (h) = 4.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4295E-06 1.2132E-02 3.8102E-04 Accumulated dose (rem) 2.3893E-06 1.7834E-02 5.6125E-04 Reactor Building Compartment Nuclide Inventory:

Time (h) = 4.0000 Ci kg Atoms Decay I-131 8.7279E+02 7.0400E-06 3.2363E+19 1.9083E+17 I-132 5.1699E+02 5.0085E-08 2.2850E+17 1.5432E+17 I-133 1.5724E+03 1.3880E-06 6.2849E+18 3.5513E+17 I-134 8.3400E+01 3. 1263E-09 1.4050E+16 5.2747E+16 I-135 1.1072E+03 3.1528E-07 1.4064E+18 2.7094E+17 Xe-133 2. 6593E+01 1.4207E-07 6.4329E+17 3.8898E+15 Xe-135 2.2828E+02 8.9390E-08 3. 9875E+17 3.5458E+16 Reactor Building Transport Group Inventory:

Time (h) = 4.0000 Atmosphere Sump Noble gases (atoms) 1.0420E+18 0.OOOOE+00 r CC-AA-309-1001, Rev 2

Attachment C Page 19 of 28 Elemental I (atoms) 3.9088E+19 0.OOOOE+00 Organic I (atoms) 1.2089E+18 0.0000E+00 Aerosols (kg) 0.OOOOE+00 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 1.7578E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 2.1117E-08 Total I (Ci) 4.1528E+03 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 4.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 6.3564E+17 Elemental I (atoms) 0.0000E+00 4.7172E+19 Organic I (atoms) 0.0000E+00 1.4589E+18 Aerosols (kg) 0.0000E+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 4.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.2903E+17 Elemental I (atoms) 3.5453E+18 3.5453E+18 Organic I (atoms) 1.0965E+17 1.0965E+17 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4007E-03 9.2781E-01 3.0286E-02 Accumulated dose (rem) 2.0438E-03 1.1945E+00 3.9280E-02 Low Population Zone Doses:

Time (h) = 8.0 000 Whole Body Thyroid TEDE Delta dose (rem) 1.9232E-03 1.2739E+00 4.1584E-02 Accumulated dose (rem) 2.9501E-03 1.6920E+00 5.5707E-02 Control Room Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 5.0496E-06 5.7269E-02 1.7878E-03 Accumulated dose (rem) 7.4389E-06 7.5104E-02 2.3490E-03 Reactor Building Compartment Nuclide Inventory:

Time (h) = 8.0000 Ci kg Atoms Decay I-131 1.6690E+03 1.3462E-05 6.1887E+19 8.9061E+17 I-132 3.0549E+02 2.9595E-08 1.3502E+17 3.8470E+17 I-133 2.6696E+03 2.3566E-06 1.0671E+19 1.5367E+18E I-134 6.8457E+00 2.5662E-10 1.1533E+15 7.0236E+16E I-135 1.4120E+03 4.0208E-07 1.7936E+18 9.8609E+17 Xe-133 1.0984E+02 5.8681E-07 2.6571E+18 3.8705E+16 Xe-135 7.0949E+02 2.7783E-07 1.2393E+18 2.8770E+17 Reactor Building Transport Group Inventory:

I CC-AA-309-1001, Rev22

Attachment C Page 20 of 28 Time (h) = 8.0000 Atmosphere Sump Noble gases (atoms) 3.8964E+18 0.OOOOE+00 Elemental I (atoms) 7.2253E+19 0.OOOOE+00 Organic I (atoms) 2.2346E+18 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.2400E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.7737E-08 Total I (Ci) 6.0630E+03 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.0988E+18 Elemental I (atoms) 0.OOOOE+00 1.0883E+20 Organic I (atoms) 0.OOOOE+00 3.3659E+18 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.2048E+18 Elemental I (atoms) 1.6413E+19 1.6413E+19 Organic I (atoms) 5.0761E+17 5.0761E+17 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.8595E-03 2.8864E+00 9.2228E-02 Accumulated dose (rem) 4.9033E-03 4.0809E+00 1.3151E-01 Low Population Zone Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.5682E-03 1.3332E+00 4.3847E-02 Accumulated dose (rem) 5.5183E-03 3.0252E+00 9.9553E-02 Control Room Doses:

Time (h) = 16.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.0338E-05 1. 5172E-01 4.7081E-03 Accumulated dose (rem) 1.7777E-05 2..2682E-01 7.0571E-03 Reactor Building Compartment Nuclide Inventory:

Time (h) = 16.0000 Ci kg Atoms Decay I-131 2.4427E+03 1.9704E-05 9.0578E+19 3.1707E+18 I-132 4.1534E+01 4.0238E-09 1.8358E+16 5.3296E+17 I-133 3.0801E+03 2.7190E-06 1.2311E+19 4.7583E+18 I-134 1.8462E-02 6.9207E-13 3.1102E+12 7.1514E+16 I-135 9.1922E+02 2.6175E-07 1. 1676E+18 2.2747E+18 Xe-133 3.0540E+02 1.6316E-06 7.3877E+18 2.5926E+17 Xe-135 1.1234E+03 4.3990E-07 1.9623E+18 1.3281E+18 CC-AA-309-1001, Rev22

Attachment C Page 21 of 28 Reactor Building Transport Group Inventory:

Time (h) = 16.0000 Atmosphere Sump Noble gases (atoms) 9.3500E+18 0.OOOOE+00 Elemental I (atoms) 1.0095E+20 0.OOOOE+00 Organic I (atoms) 3.1223E+18 0.0000E+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Dose Effective (Ci/cc) 1-131 (Thyroid) 4.4816E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 5.0253E-08 Total I (Ci) 6.4836E+03 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 16.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.1606E+19 Elemental I (atoms) 0.OOOOE+00 2.2484E+20 Organic I (atoms) 0.OOOOE+00 6.9538E+18 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 16.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.2176E+18 Elemental I (atoms) 5.6700E+19 5.6700E+19 Organic I (atoms) 1.7536E+18 1.7536E+18 Aerosols (kg) 0.0000E+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.3511E-03 3.3752E+00 1.0641E-01 Accumulated dose (rem) 7.2544E-03 7.4561E+00 2.3792E-01 Low Population Zone Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.1116E-03 1.5590E+OO 5.0175E-02 Accumulated dose (rem) 7.6299E-03 4.5842E+00 1.4973E-01 Control Room Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 9.3967E-06 1. 7713E-01 5.4704E-03 Accumulated dose (rem) 2.7174E-05 4.0395E-01 1.2528E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 24.0000 Ci kg Atoms Decay I-131 2.6981E+03 2.1763E-05 1.0005E+20 5.9588E+18 I-132 4.2424E+00 4.11OOE-10 1.8751E+15 5.5074E+17 I-133 2.6819E+03 2.3675E-06 1.0720E+19 7.8816E+18 I-134 3.7575E-05 1.4085E-15 6.3301E+09 7.1517E+16 I-135 4.5159E+02 1.2359E-07 5.7362E+17 2. 9895E+18 CC-AA-309-1001, Rev 2

Attachment C Page 22 of 28 Xe-133 4.6078E+02 2.4617E-06 1.1146E+19 6.6694E+1l Xe-135 9.6703E+02 3.7868E-07 1. 6892E+18 2. 4547E+1E Reactor Building Transport Group Inventory:

Time (h) = 24.0000 Atmosphere Sump Noble gases (atoms) 1.2835E+19 0.OOOOE+00 Elemental I (atoms) 1.0800E+20 0.0000E+00 Organic I (atoms) 3.3403E+18 0.0000E+00 Aerosols (kg) 0.0000E+00 0.0000E+00 Dose Effective (Ci/cc) I-131 (Thyroid) 4. 7451E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 5. 1886E-08 Total I (Ci) 5.8359E+03 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.2977E+19 Elemental I (atoms) 0.OOOOE+00 3.3349E+20 Organic I (atoms) 0.OOOOE+00 1.0314E+19 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) *0.0000E+00 1.7206E+19 Elemental I (atoms) 1.0428E+20 1.0428E+20 Organic I (atoms) 3.2252E+18 3.2252E+18 Aerosols (kg) 0.OOOOE+00 0.0000E+00 Exclusion Area Boundary Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.4024E-03 9.9555E+00 3. 0985E-01 Accumulated dose (rem) 1.1657E-02 1.7412E+01 5.4777E-01 Low Population Zone Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.5733E-03 2.:3380E+00 7.3305E-02 Accumulated dose (rem) 9.2032E-03 6.!9221E+00 2.2303E-01 Control Room Doses:

Time (h) = 48.0000 Whole Body Thyroid TEDE Delta dose (rem) 5.0690E-06 1. 4871E-01 4.5687E-03 Accumulated dose (rem) 3.2243E-05 5.'5267E-01 1.7096E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 48.0000 Ci kg Atoms Decay I-131 2.6652E+03 2.1498E-05 9. 8825E+19 1.4677E+19 I-132 3.3026E-03 3.1995E-13 1.4597E+12 5.5266E+17 I-133 1.2978E+03 1.14156E-06 5.1874E+18 1.4085E+19 l CC-AA-309-1001, Rev22

Attachment C Page 23 of 28 I-135 3.9251E+01 1.1177E-08 4. 9858E+16 3.5388E+18 Xe-133 6. 7193E+02 3.5897E-06 1. 6254E+19 2.5421E+18 Xe-135 2.5821E+02 1.0111E-07 4.5103E+17 4.2555E+16 Reactor Building Transport Group Inventory:

Time (h) = 48.0000 Atmosphere Sump Noble gases (atoms) 1.6705E+19 0.OOOOE+00 Elemental I (atoms) 1.0094E+20 0.0000E+00 Organic I (atoms) 3.1219E+18 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 4. 3314E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 4. 5313E-08 Total I (Ci) 4.0022E+03 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 48.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 6.5096E+19 Elemental I (atoms) 0.OOOOE+00 6.2718E+20 Organic I (atoms) 0.OOOOE+00 1.9397E+19 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 48.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.8264E+19 Elemental I (atoms) 2.4715E+20 2.4715E+20 Organic I (atoms) 7.6439E+18 7.6439E+18 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.3856E-03 1. 6730E+01 5. 1522E-01 Accumulated dose (rem) 1.6043E-02 3. 4142E+01 1.0630E+00 Low Population Zone Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.5673E-03 3.9289E+00 1.2153E-01 Accumulated dose (rem) 1.0770E-02 1.0851E+01 3. 4457E-01 Control Room Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 3.8890E-06 2.3223E-01 7.0950E-03 Accumulated dose (rem) 3.6132E-05 7.8490E-01 2. 4191E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 96.0000 Ci kg Atoms Decay I-131 2.2530E+03 1. 8173E-05 8.3544E+19 3.0390E+19 I-132 1. 7316E-09 1.6775E-19 7.6533E+05 5.5266E+17 CC-AA-309-1001, Rev 2

Attachment C Page 24 of 28 I-133 2.6330E+02 2.3243E-07 1.0524E+18 1. 8239E+1l I-135 2.5691E-01 7.3156E-11 3.2634E+14 3.5885E+18 Xe-133 6. 6016E+02 3.5268E-06 1.5969E+19 6. 9302E+18 Xe-135 8.4560E+00 3.3113E-09 1.4771E+16 4.7354E+18 Reactor Building Transport Group Inventory:

Time (h) = 96.0000 Atmosphere Sump Noble gases (atoms) 1.5984E+19 0.0000E+ 00 Elemental I (atoms) 8.2059E+19 0.0000E+ 00 Organic I (atoms) 2.5379E+18 0.0000E+ 00 Aerosols (kg) 0.OOOOE+00 0.0000E+ 00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.4516E-08 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid 3. 4916E-08 Total I (Ci) 2.5166E+03 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.5567E+20 Elemental I (atoms) 0.OOOOE+00 1.1190E+21 Organic I (atoms) 0.OOOOE+00 3.4607E+19 Aerosols (kg) 0.OOOOE+00 0.000OE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.4877E+20 Elemental I (atoms) 4.9282E+20 4.9282E+20 Organic I (atoms) 1.5242E+19 1.5242E+19 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4339E-02 7. 6053E+01 2.3302E+00 Accumulated dose (rem) 3.0382E-02 1. 1019E+02 3.3932E+00 Low Population Zone Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.3642E-03 4.7549E+00 1.4615E-01 Accumulated dose (rem) 1.2135E-02 1.5606E+01 4. 9072E-01 Control Room Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.3626E-06 2.1131E-01 6.4369E-03 Accumulated dose (rem) 3.8495E-05 9. 9621E-01 3.0628E-02 Reactor Building Compartment Nuclide Inventory:

Time (h) = 720.0000 Ci kg Atoms Decay I-131 2.3733E+02 1.9143E-06 8.8002E+18 1.0483E+20 CC-AA-309-1001, Rev 2

Attachment C Page 25 of 28 I-133 2.4300E-07 2.1451E-16 9.7130E+08 1.9291E+19 Xe-133 2.2678E+01 1.2115E-07 5.4858E+17 2.3328E+19 Reactor Building Transport Group Inventory:

Time (h) = 720.0000 Atmosphere Sump Noble gases (atoms) 5.4858E+17 0.0000E+00 Elemental I (atoms) 8.5362E+18 0.OOOOE+00 Organic I (atoms) 2.6401E+17 0.OOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Dose Effective (Ci/cc) I-131 (Thyroid) 3.5664E-09 Dose Effective (Ci/cc) I-131 (ICRP2 Thyroid) 3.5664E-09 Total I (Ci) 2.3733E+02 Suppression Pool to Reactor Building Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 4.9112E+20 Elemental I (atoms) 0.OOOOE+00 3.3845E+21 Organic I (atoms) 0.OOOOE+00 1.0468E+20 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Reactor Building to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 4.8426E+20 Elemental I (atoms) 1.6257E+21 1.6257E+21 Organic I (atoms) 5.0281E+19 5.0281E+19 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 929 I-131 Summary Suppression Pool Reactor Building Environment Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curies) 0.000 4.5407E+03 0.OOOOE+00 0.OOOOE+00 0.033 2.7214E+05 0.OOOOE+00 0.OOOOE+00 0.290 2.3679E+06 4.8898E+00 2.5999E-02 0.500 4.0797E+06 1.4539E+01 1.3566E-01

0. 667 6.3432E+06 2.6819E+01 3.2518E-01 0.920 9.7777E+06 5.5422E+01 8.9617E-01 1.300 1.4919E+07 1.2010E+02 2.7235E+00 1.600 1.8968E+07 1.8891E+02 5.3050E+00 1.900 2.3009E+07 2.7276E+02 9.1734E+00 2.000 2.4355E+07 3.0396E+02 1.0792E+01 2.300 2.4328E+07 3.9825E+02 1.6712E+01 2.600 2.4302E+07 4.8920E+02 2.4193E+01 2.900 2.4276E+07 5.7693E+02 3.3179E+01 3.200 2.4249E+07 6.6155E+02 4.3616E+01 3.500 2.4223E+07 7.4316E+02 5.5453E+01 3.800 2.4197E+07 B.2187E+02 6.8641E+01 l CC-AbA-309-1001, Rev 2

Attachment C Page 26 of 28 4 . 000 2.4180E+07 8.7279E+02 7.8160E+0]

4.300 2. 4153E+07 9.4688E+02 9.3492E+01 4.600 2.4127E+07 1.0183E+03 1.1005E+02

4. 900 2.4101E+07 1.0872E+03 1.2779E+02 5.200 2.4075E+07 1. 1536E+03 1.4667E+02 5.500 2.4049E+07 1.2177E+03 1.6665E+02 5.800 2.4023E+07 1.2794E+03 1.8769E+02 6.100 2.3997E+07 1.3389E+03 2.0975E+02 6.400 2.3971E+07 1.3963E+03 2.3280E+02 6.700 2.3945E+07 1.4516E+03 2.5679E+02 7.000 2.3919E+07 1.5049E+03 2.8170E+02 7.300 2.3893E+07 1.5563E+03 3.0749E+02 7.600 2.3868E+07 1.6058E+03 3.3413E+02 7.900 2.3842E+07 1.6535E+03 3.6159E+02 8.000 2.3833E+07 1.6690E+03 3.7092E+02 8.300 2.3807E+07 1.7144E+03 3.9942E+02 8.600 2.3782E+07 1.7581E+03 4.2868E+02 8.900 2.3756E+07 1.8002E+03 4.5865E+02 9.200 2.3730E+07 1.8408E+03 4.8933E+02 9.500 2.3705E+07 1.8799E+03 5.2067E+02 9.800 2.3679E+07 1. 9175E+03 5.5266E+02

10. 100 2.3653E+07 1.9537E+03 5.8528E+02 10.400 2.3628E+07 1.9886E+03 6.1849E+02

16. 000 2. 3155E+07 2.4427E+03 1.3233E+0O 24.000 2.2497E+07 2.6981E+03 2.4879E+0O.

48.000 2.0631E+07 2.6652E+03 6.1523E+03

96. 000 1.7352E+07 2.2530E+03 1.2766E+04 720. 000 1.8277E+06 2.3733E+02 4.4102E+04 Control Room Time (hr) I-131 (Curies) 0.000 O.OOOOE+00 0.033 O.OOOOE+00 0.290 1.6595E-06 0.500 5.6783E-06 0.667 1.0853E-05

0. 920 9.6492E-06 1.300 9.2103E-06 1.600 1.0115E-05 1.900 1.2183E-05 2.000 1.3136E-05 2.300 1.3410E-05

2. 600 1.4372E-05

2. 900 1.5862E-05 3.200 1.7752E-05 3.500 1.9940E-05 3.800 2.2344E-05 4.000 2.4034E-05 4.300 2.6661E-05 4.600 2.9359E-05

4. 900 3.2095E-05 5.200 3.4840E-05 5.500 3.7573E-05 5.800 4.0278E-05 6.100 4.2942E-05 CC-AA-309-1001, Rev 2

Attachment C Page 27 of 28 6.400 4.5556E-05 6.700 4. 8113E-05 7.000 5.0607E-05 7.300 5.3035E-05 7 . 600 5.5394E-05 7.900 5.7684E-05 8.000 5.8431E-05 8.300 5.6225E-05 8.600 5.4688E-05 8.900 5.3682E-05 9.200 5.3096E-05 9.500 5.2839E-05 9.800 5.2839E-05 10.100 5.3039E-05

10. 400 5.3392E-05 16.000 6.5427E-05 24.000 7.4276E-05

48. 000 3.1956E-05

96. 000 2.7041E-05 720. 000 8.4315E-07 Cumulative Dose Summary Exclusion Area Bounda Low Population Zone Control Room Time Thyroid TEDE Thyroid TEDE Thyroid TEDE (hr) (rem) (rem) (rem) (rem) (rem) (rem) 0.000 O.OOOOE+00 O.OOOOE+00 O.OOOOEt00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.033 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.290 2.1606E-03 7.7760E-05 4.1423E-04 1.4908E-05 5.0471E-05 1.6048E-06 0.500 1.1251E-02 4.0198E-04 2.1570E-03 7.7067E-05 3.1629E-04 1.0045E-05 0.667 1.1888E-02 4.2452E-04 4.2035E-03 1.4952E-04 8.0638E-04 2.5588E-05 0.920 1.3801E-02 4.9175E-04 1.0353E-02 3.6554E-04 1.7437E-03 5.5277E-05 1.300 1.9906E-02 7.0432E-04 2.9969E-02 1.0486E-03 3.0215E-03 9.5684E-05 1.600 2.8499E-02 1.0009E-03 5.7578E-02 2.0016E-03 4.0568E-03 1.2837E-04

1. 900 4.1330E-02 1.4408E-03 9.8806E-02 3.4149E-03 5.2483E-03 1.6594E-04 2.000 4.6687E-02 1.6237E-03 1. 1602E-01 4.0026E-03 5.7018E-03 1.8023E-04 2.300 6.6234E-02 2.2886E-03 1.4286E-01 4. 9155E-03 7.1188E-03 2.2485E-04 2.600 9.0849E-02 3.1214E-03 1.7666E-01 6.0591E-03 8.5984E-03 2.7140E-04

2. 900 1.2032E-01 4. 1137E-03 2. 1712E-01 7.4216E-03 1.0205E-02 3.2189E-04 3.200 1.5444E-01 5.2576E-03 2. 6396E-01 8.9922E-03 1.1986E-02 3.7784E-04 3.500 1.9300E-01 6.5457E-03 3. 1692E-01 1.0761E-02 1.3979E-02 4.4037E-04 3.800 2.3584E-01 7.9712E-03 3. 7573E-01 1.2718E-02 1.6208E-02 5.1027E-04 4.000 2.6667E-01 8.9946E-03 4. 1807E-01 1.4123E-02 1.7834E-02 5.6125E-04 4.300 3.1621E-01 1.0635E-02 4. 8609E-01 1.6375E-02 2.0494E-02 6.4456E-04 4 .600 3.6956E-01 1.2396E-02 5.5933E-01 1.8793E-02 2.3424E-02 7.3631E-04

4. 900 4.2654E-01 1.4273E-02 6. 3757E-01 2.1370E-02 2.6630E-02 8.3661E-04 5.200 4.8700E-01 1.6259E-02 7.2059E-01 2.4098E-02 3.0111E-02 9.4549E-04 5.500 5.5080E-01 1.8351E-02 8.0819E-01 2.6970E-02 3.3867E-02 1.0629E-03 5.800 6.1779E-01 2.0543E-02 9. 0017E-01 2.9980E-02 3.7893E-02 1.1887E-03 6.100 6.8784E-01 2.2831E-02 9. 9635E-01 3.3121E-02 4.2186E-02 1.3227E-03 6.400 7. 6082E-01 2.5210E-02 1.0966E+00 3.6388E-02 4.6738E-02 1.4648E-03 6.700 8.3660E-01 2.7677E-02 1.2006Et00 3.9775E-02 5.1543E-02 1.6147E-03 7.000 9.1506E-01 3.0227E-02 1.3083E+00 4.3276E-02 5.6594E-02 1.7722E-03 l CC-AA-309-1001, Rev 2

Attachment C Page 28 of 28 7.300 9. 9608E-01 3.2856E-02 1. 4196E+00 4.6886E-02 6. 1883E-02 1.9371E-03

7. 600 1.0796E+00 3. 5561E-02 1.5342E+00 5.0600E-02 6.7401E-02 2.1091E-03 7 .900 1. 1654E+00 3.8339E-02 1.6520E+00 5. 4414E-02 7.3142E-02 2.287'9E-03 8.000 1. 1945E+00 3.9280E-02 1.6920E+00 5.5707E-02 7. 5104E-02 2.3490 E-03 8.300 1.2833E+00 4.2149E-02 1.7330E+00 5.7081E-02 8.0899E-02 2.5295E-03 8.600 1.3742E+00 4.5083E-02 1.7750E+00 5.8484E-02 8.6492E-02 2.70_6E-03

8. 900 1.4671E+00 4.8079E-02 1.8179E+00 5.9917E-02 9.1945E-02 2.8733E-03 9.200 1.5620E+00 5.1134E-02 1.8617E+00 6. 1376E-02 9.7306E-02 3.04COE-03 9.500 1.6587E+00 5.4246E-02 1.9064E+00 6.2862E-02 1.0261E-01 3.20COE-03 9.800 1.7571E+00 5.7410E-02 1. 9519E+00 6.4372E-02 1.0789E-01 3.3692E-03 10.100 1.8573E+00 6.0626E-02 1. 9981E+00 6.5906E-02 1. 1317E-01 3.5333E-03

10. 400 1. 9591E+00 6. 3891E-02 2. 0451E+00 6. 7461E-02 1.1847E-01 3.6978E-03

16. 000 4.0809E+00 1.3151E-01 3.0252E+00 9.9553E-02 2.2682E-01 7.0571E-03 24.000 7.4561E+00 2.3792E-01 4.,5842E+00 1.4973E-01 4. 0395E-01 1.2528E-02 48.000 1. 7412E+01 5.4777E-0l 6. 9221E+00 2.2303E-0l 5. 5267E-01 1.7096E-02

96. 000 3.4142E+01 1.0630E+00 1.0851E+01 3.4457E-01 7.8490E-01 2.4191E-02 720. 000 1.1019E+02 3.3932E+00 1. 5606E+01 4. 9072E-01 9. 9621E-01 3.0628E-02 Worst Two-Hour Doses Exclusion Area Boundarb Time Whole Body Thyroid TEDE (hr) (rem) (rem) (rem) 16.0 5.8777E-04 8. 4381E-01 2.6602E-02 l CC-AA-309-1001, Rev 2

Affachment D Page 1 of 47 Attachment D RADTRAD Output - QDC400MS51.psf RADTRAD Version 3.03 (Spring 2001) run on 8/30/2005 at 7:30:33 File information Plant file = C:\RADTRAD 3.03\Input\Quad\QDC400MS51.psf Inventory file = c:\radtrad 3.03\defaults\qdcdef.txt Release file = c:\radtrad 3.03\defaults\bwrdba.rft Dose Conversion file = c:\radtrad 3.03\defaults\fgrll&12.inp Radtrad 3.03 4/15/2001 Quad Cities MSIV Leakeg AST Analysis - MSIV Leakage = 150 scfh, 40% Aerosol Settling Velocity, CREV Manually Started @ 40 Minutes, CR Unfiltered Inleakage = 62,000 cfm for

<0.6667 hrs and 400 cfm >0.6667 hrs CREV Charcoal Filter Efficiency @ 99%, and 5 Nuclide Inventory File:

c:\radtrad 3.03\defaults\qdcdef.txt Plant Power Level:

3.0160E+03 Compartments:

9 Compartment 1:

Drywell 3

1.5800E+05 1

0 0

1 0

Compartment 2:

MSIV Failed Control Vol 1 3

2.0024E+02 CC-AA-309-1001, Rev 2

Attachment D Page 2 of 47 0

0 0

Compartment 3:

Intact Control Volume 2 3

1.5293E+02 0

0 0

Compartment 4:

Intact Control Volume 3 3

4.9110E+01 0

0 0

Compartment 5:

Intact Control Volume 4 3

1.6375E+02 0

0 0

Compartment 6:

Intact Control Volume 5 3

4.9110E+01 0

0 0

Compartment 7:

Environment 2

O.OOOOE+00 0

0 0

Compartment 8:

Control Room 1

1.8400E+05 0

CC-AA-309-1001, Rev 2

Attachment D Page 3 of 47 0

0 0

0 Compartment 9:

Void 3

l.OOOOE+05 0

0 0

Pathways:

12 Pathway 1:

Drywell to MSIV Failed Control Vol 1 1

2 2

Pathway 2:

MSIV Failed Control Vol 1 to Environment 2

7 2

Pathway 3:

Drywell to Intact Control Volume 2 1

.3 2

Pathway 4:

Intact Control Volume 2 to Intact Control Volume 3 3

4 2

Pathway 5:

Intact Control Volume 3 to Environment 4

7 2

Pathway 6:

Drywell to Intact Control Volume 4 1

5 2

Pathway 7:

Intact Control Volume 4 to Intact Control Volume 5 5

6 2

Pathway 8:

Intact Control Volume 5 to Environment 6

7 2

I CC-AA-309-1001, Rev22

Attachment D Page 4 of 47 Pathway 9:

Filtered Intake to Control Room 7

8 2

Pathway 10:

Unfiltered Inleakage to Control Room 7

8 2

Pathway 11:

Control Room Exhaust to Environment 8

7 2

Pathway 12:

Drywell to Void 1

9 4

End of Plant Model File Scenario Description Name:

Plant Model Filename:

Source Term:

1 1 1.0000E+00 c:\radtrad 3.03\defaults\fgrll&12.inp c:\radtrad 3.03\defaults\bwrdba.rft 0.0000E+00 1

9.5000E-01 4.8500E-02 1.5000E-03 1.OOOOE+00 Overlying Pool:

0 0.0000E+00 0

0 0

0 Compartments:

9 Compartment 1:

0 1

1 0.OOOOE+00 0

1 0.OOOOE+00 2

0.OOOOE+00 3.2800E+00 3.0500E+00 0.OOOOE+00 1

0.OOOOE+00 CC-AA-309-1001, Rev22

Attachment D Page5 of 47 0

0 0

3 3

1.OOOOE+01 0

Compartment 2:

0 1

0 0

0 Compartment 3:

0 1

0 0

0 Compartment 4:

0 1

0 0

0 Compartment 5:

0 1

0 0

0 Compartment 6:

0 1

0 0

0 I CC-AA-309-1001, Rev 2

Attachment D Page 6 of 47 0

0 Compartment 7:

1 1

0 0

Compartment 8:

0 1

0 0

0 Compartment 9:

0 1

0 0

0 Pathways:

12 Pathway 1:

0 0

0 1

4 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 3.57O0E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 2.10OOE-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 2:

0 0

I CC-AA-309-1001, Rev 2

Attachment D Page 7 of 47 0

0 0

1 4

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.OOOOE+00 8. 6680E+01 5. OOOOE+01 O.OOOOE+00 2.0000E+00 5.8700E-01 8. 6680E+01 5.OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

Pathway 3:

0 0

0 1

4 0.000OE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 3.5700E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 2. 1000E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 mom o 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 1

4 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.P33yE-02 1.OOOOE+00 8. 4620E+01 5.OOOOE+01 O.OOOOE+00

2. OOOOE+00 5.8700E-01 8.4620E+01 5. OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 5:

0 0

0 l CC-AA-309-1001, Rev 2

Attachment D Page 8 of 47 0

0 1

4 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.OOOOE+00 8.7110E+01 5.OOOOE+01 O.OOOOE+00 2.OOOOE+00 5.8700E-01 8.7110E+01 5.OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 6:

0 0

0 1

4 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00

3. 3300E-02 1. 7800E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 1.0500E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 7:

0 0

0 4

o .OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 5.OOOOE-01 9.3100E+01 5.OOOOE+01 O.OOOOE+00

2. OOOOE+00 2. 9400E-01 9.3100E+01 5. OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 8:

0 0

l CC-AA-309-1001, Rev 2

Attachment D Page 9 of 47 0

1 4

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 5.O0O0E-Ol 9.3110E+01 5.OOOOE+01 O.OOOOE+00 2.0000E+00 2. 9400E-01 9.3110E+01 5.OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 9:

0 0

0 1

8 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+01 2.OOOOE+O0 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01 8.OOOOE+00 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+01 2.4000E+01 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+01 9.6000E+01 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 10:

0 0

0 1

8 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 6.OOOOE+04 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.0000E+00 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 8.0000E+00 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.4000E+01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 9.6000E+01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 CCAA-309-1001, Rev 2 l

Attachment D Page 10 of 47 0

0 Pathway 11:

0 0

0 1

8 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 6.2200E+04 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.0000E+00 2.2000E+03 0.000OE+00 O.OOOOE+00 O.OOOOE+00 8.GOOOE+00 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.4000E+01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 9.6000E+01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 12:

0 0

1 3

O.OOOOE+00 2.1870E+00 2.OOOOE+00 2.5220E+00 7.2000E+02 O.OOOOE+00 0

Dose Locations:

3 Location 1:

Exclusion Area Boundary 7

1 2

O.OOOOE+00 1.3600E-03 7.2000E+02 O.OOOOE+00 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 0

I CC-AA-309-1001, Rev 2

Attachment D Page 11 of 47 Location 2:

Low Population Zone 7

1 6

O.OOOOE+00 1.0400E-04 2.OOOOE+00 4. 1400E-05 8.OOOOE+00 2.6200E-05 2.4000E+01 9.9600E-06

9. 6000E+01 2.5200E-06 7.2000E+02 O.OOOOE+O0 1

4 O.OOOOE+00 3.5000E-04 8.OOOOE+00 1.8000E-04

2. 4000E+01 2.3000E-04 7.2000E+02 O.OOOOE+0O 0

Location 3:

Control Room 8

0 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 1

4 O.OOOOE+O0 l.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 O.OOOOE+00 Effective Volume Location:

1 6

O.OOOOE+0O 1.0200E-03 2.OOOOE+00 8.2300E-04 8.OOOOE+00 3.5500E-04 2.4000E+01 2.3200E-04 9.6000E+01 1.3800E-04 7.2000E+02 O.OOOOE+00 Simulation Parameters:

7 O.OOOOE+O0 l.OOOOE-01 l.OOOOE+O0 l.OOOOE-02 2.OOOOE+00 5.OOOOE-01 8.OOOOE+O0 l.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 5.OOOOE+O0 7.2000E+02 O.OOOOE+O0 Output Filename:

C:\RADTRAD 3.o212 1

1 1

r CC-AA-309-1001, Rev 2

Attachment D Page 12 of 47 0

0 End of Scenario File RADTRAD Version 3.03 (Spring 2001) run on 8/30/2005 at 7:30:33 Plant Description Number of Nuclides = 60 Inventory Power = 1.0000E+00 MWth Plant Power Level = 3.0160E+03 MWth Number of compartments = 9 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Drywell Compartment volume = 1.5800E+05 (Cubic feet)

Compartment type is Normal Removal devices within compartment:

Spray(s)

Deposition Pathways into and out of compartment 1 Exit Pathway Number 1: Drywell to MSIV Fiailed Control Vol 1 Exit Pathway Number 3: Drywell to Intact Control Volume 2 Exit Pathway Number 6: Drywell to Intact Control Volume 4 Exit Pathway Number 12: Drywell to Void Compartment number 2 Name: MSIV Failed Control Vol 1 Compartment volume = 2.0024E+02 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Drywell to MSIV Failed Control Vol 1 Exit Pathway Number 2: MSIV Failed Control Vol 1 to Environment Compartment number 3 Name: Intact Control Volume 2 Compartment volume = 1.5293E+02 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 3 Inlet Pathway Number 3: Drywell to Intact Control Volume 2 Exit Pathway Number 4: Intact Control Volume 2 to Intact Control Volume 3 Compartment number 4 Name: Intact Control Volume 3 Compartment volume = 4.9110E+01 (Cubic feet)

I CC-AA-309-1001, Rev 2

Attachment D Page 13 of 47 Compartment type is Normal Pathways into and out of compartment 4 Inlet Pathway Number 4: Intact Control Volume 2 to Intact Control Volume 3 Exit Pathway Number 5: Intact Control Volume 3 to Environment Compartment number 5 Name: Intact Control Volume 4 Compartment volume = 1.6375E+02 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 5 Inlet Pathway Number 6: Drywell t.o Intact Control Volume 4 Exit Pathway Number 7: Intact Control Volume 4 to Intact Control Volume 5 Compartment number 6 Name: Intact Control Volume 5 Compartment volume = 4.9110E+01 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 6 Inlet Pathway Number 7: Intact Control Volume 4 to Intact Control Volume 5 Exit Pathway Number 8: Intact Ccntrol Volume 5 to Environment Compartment number 7 Name: Environment Compartment type is Environment Pathways into and out of compartment 7 Inlet Pathway Number 2: MSIV Failed Control Voll to Environment:

Inlet Pathway Number 5: Intact Ccntrol Volume 3 to Environment Inlet Pathway Number 8: Intact Ccntrol Volume 5 to Environment Inlet Pathway Number 11: Control Room Exhaust to Environment Exit Pathway Number 9: Filtered Intake to Control Room Exit Pathway Number 10: Unfiltered Inleakage to Control Room Compartment number 8 Name: Control Room Compartment volume = 1.8400E+05 (Cubic feet)

Compartment type is Control Room Pathways into and out of compartment 8 Inlet Pathway Number 9: Filtered Intake to Control Room Inlet Pathway Number 10: Unfiltered Inleakage to Control Room Exit Pathway Number 11: Control Boom Exhaust to Environment Compartment number 9 Name: Void Compartment volume = 1.OOOOE+05 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 9 Inlet Pathway Number 12: Drywell to Void Total number of pathways = 12 CC-AA-309-1001, Rev 2 I

Attachment D Page 14,of 47 RADTRAD Version 3.03 (Spring 2001) run on 8/30/2005 at 7:30:33 Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings GAP EARLY IN-VESSEL LATE RELEASE RELEASE MASS 0.500000 hr 1.5000 hrs 0.0000 hrs (gm)

NOBLES 5.OOOOE-02 9.50OOE-0l 0.OOOOE+00 4.239E+03 IODINE 5.OOOOE-02 2.5000E-0l 0.OOOOE+00 2.605E+02 CESIUM 5.OOOOE-02 2.OOOOE-0l 0.OOOOE+00 4.741E+04 TELLURIUM 0.OOOOE+00 5.OOOOE-02 0.OOOOE+00 3.503E+0l STRONTIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 1.611E+03 BARIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 3.902E+0l RUTHENIUM 0.OOOOE+00 2.5000E-03 0.OOOOE+00 5.389E+01 CERIUM 0.OOOOE+00 5.OOOOE-04 0.OOOOE+00 6.272E+02 LANTHANUM 0.OOOOE+00 2.OOOOE-04 0.0000E+00 6.647E+00 Inventory Power = 3016. MWt Nuclide Group Specific half Whole Body Inhaled Inhaled Name Inventory life DCF Thyroid Effective (Ci/MWt) (s) (Sv-m3/Bq-s) (Sv/Bq) (Sv/Bq)

Co-58 7 l.529E+02 6.117E+06 4.760E-14 8. 720E-10 2.940E-09 Co-60 7 l.830E+02 1. 663E+08 1.260E-13 1. 620E-08 5.910E-08 Kr-85 1 4.364E+02 3. 383E+08 1.190E-16 0. OOOE+00 0.OOOE+00 Kr-85m 1 6.772E+03 1. 613E+04 7.480E-15 0. 000E+00 0.OOOE+00 Kr-87 1 l.291E+04 4.578E+03 4.120E-14 0.OOOE+00 0.OOOE+00 Kr-88 1 l.815E+04 1. 022E+04 1.020E-13 0.OOOE+00 0.OOOE+00 Rb-86 3 7.096E+0l 1. 612E+06 4.810E-15 1. 330E-09 1.790E-09 Sr-89 5 2.428E+04 4.363E+06 7.730E-17 7. 960E-12 1.120E-08 Sr-90 5 3.528E+03 9.190E+08 7.530E-18 2. 690E-l0 3.510E-07 Sr-91 5 3.081E+04 3.420E+04 4.924E-14 9.930E-12 4.547E-l0 Sr-92 5 3.362E+04 9. 756E+03 6.790E-14 3.920E-12 2.180E-10 Y-90 9 3.625E+03 2. 304E+05 1.900E-16 5. 170E-13 2.280E-09 Y-91 9 3.155E+04 5. 055E+06 2.600E-16 8. 500E-12 1.320E-08 Y-92 9 3.377E+04 1.274E+04 1.300E-14 1. 050E-12 2.ll0E-10 Y-93 9 3.942E+04 3. 636E+04 4.800E-15 9. 260E-13 5.820E-10 Zr-95 9 4.443E+04 5.528E+06 3.600E-14 1. 440E-09 6.390E-09 Zr-97 9 4.497E+04 6. 084E+04 4.432E-14 2.315E-ll 1.171E-09 Nb-95 9 4.464E+04 3.037E+06 3.740E-14 3.580E-10 1.570E-09 Mo-99 7 5.121E+04 2.376E+05 7.280E-15 1.520E-ll 1.070E-09 Tc-99m 7 4.484E+04 2. 167E+04 5.890E-15 5. OlOE-ll 8.800E-12 Ru-103 7 4.311E+04 3.394E+06 2.251E-14 2.570E-10 2.421E-09 Ru-105 7 3.034E+04 1. 598E+04 3.810E-14 4. 150E-12 1.230E-l0 Ru-106 7 l.837E+04 3. 181E+07 1.040E-14 1.720E-09 l.290E-07 Rh-105 7 2.882E+04 1.273E+05 3.720E-15 2. 880E-12 2.580E-l0 Sb-127 4 2.999E+03 3.326E+05 3.330E-14 6. 150E-ll 1.630E-09 l CC-AA-309-1001, Rev 2

U-Attachment D Page 15 of 47 Sb-129 8.877E+03 1. 555E+04 7. 140E-14 9.720E-12 1. 740E-10 Te-127 2. 986E+03 3.366E+04 2.420E-16 1. 840E-12 8.600E-ll Te-127m 4.060E+02 9. 418E+06 1.470E-16 9. 660E-11 5.810E-09 Te-129 8.735E+03 4.176E+03 2.750E-15 5.090E-13 2.090E-ll Te-129m 1.300E+03 2. 903E+06 3.337E-15 1.563E-10 6.484E-09 Te-131m 3. 955E+03 1. 080E+05 7.463E-14 3.669E-08 1.758E-09 Te-132 3. 850E+04 2. 815E+05 1. 030E-14 6.280E-08 2.550E-09 I-131 2.710E+04 6. 947E+05 1. 820E-14 2. 920E-07 8.890E-09 I-132 3. 914E+04 8.280E+03 1.120E-13 1.740E-09 1.030E- 10 I-133 5. 501E+04 7. 488E+04 2. 940E-14 4. 860E-08 1.580E-09 I-134 6.035E+04 3. 156E+03 1. 300E-13 2. 880E-10 3.550OE-ll I-135 5.157E+04 2. 380E+04 8.294E-14 8.460E-09 3.320E-10 Xe-133 5.282E+04 4.532E+05 1.560E-15 0.OOOE+00 O.OOOEtOO Xe-135 2.144E+04 3. 272E+04 1. 190E-14 O.OOOE+00 O.OOOE 00 Cs-134 8.009E+03 6. 507E+07 7. 570E-14 1. llOE-08 1.250E-08 Cs-136 2.379E+03 1. 132E+06 1.060E-13 1.730E-09 1.980E-09 Cs-137 4. 928E+03 9.467E+08 2.725E-14 7. 930E-09 8.630E-09 Ba-139 4. 888E+04 4. 962E+03 2. 170E-15 2.400E-12 4.640E-11 Ba-140 4.714E+04 1. 1O1E+06 8.580E-15 2.560E-10 1.OlOE-09 La-140 5.055E+04 1.450E+05 1.170E-13 6.870E-11 1.310E-09 La-141 4.447E+04 1. 415E+04 2.390E-15 9. 400E-12 1.570E-10 La-142 4.286E+04 5.550E+03 1. 440E-13 8.740E-12 6. 840E-11 Ce-141 4.465E+04 2. 808E+06 3. 430E-15 2.550E-11 2.420E-09 Ce-143 4. 101E+04 1. 188E+05 1.290E-14 6.230E-12 9.160E-10 Ce-144 3. 682E+04 2. 456E+07 2.773E-15 2. 920E-10 1.01E-07 Pr-143 3. 963E+04 1. 172E+06 2.100E-17 1. 680E-18 2.190E-09 Nd-147 1.800E+04 9.487E+05 6. 190E-15 1.820E-11 1.850E-09 Np-239 5.587E+05 2. 035E+05 7. 690E-15 7. 620E-12 6.780E-10 Pu-238 1.768E+02 2. 769E+09 4. 880E-18 3.860E-10 7.790E-05 Pu-239 1. 474E+01 7. 594E+ll 4.240E-18 3.750E-10 8.330E-05 Pu-240 2. 001E+01 2.063E+ll 4. 750E-18 3. 760E-10 8.330E-05 Pu-241 6. 700E+03 4.544E+08 7.250E-20 9.150E-12 1.340E-06 Am-241 9.857E+00 1.364E+10 8. 180E-16 1. 600E-09 1.200E-04 Cm-242 2.285E+03 1.407E+07 5. 690E-18 9.410E-10 4.670E-06 Cm-244 1. 621E+02 5.715E+08 4. 910E-18 1.OlOE-09 6.700E-05 Nuclide Daughter Fraction Daughter Fraction Daughter Fraction Kr-85m Kr-85 0.21 none 0 .00 none 0.00 Kr-87 Rb-87 1.00 none 0.00 none 0.00 Kr-88 Rb-88 1.00 none 0.00 none 0.00 Sr-90 Y-90 1.00 none 0.00 none 0.00 Sr-91 Y-91m 0.58 Y-91 0.42 none 0.00 Sr-92 Y-92 1.00 none 0.00 none 0.00 Y-93 Zr-93 1.00 none 0.00 none 0.00 Zr-95 Nb-95m 0.01 Nb-95 0. 99 none 0.00 Zr-97 Nb-97m 0.95 Nb-97 0.05 none 0.00 Mo-99 Tc-99m 0.88 Tc-99 0.12 none 0.00 Tc-99m Tc-99 1.00 none 0.00 none 0.00 Ru-103 Rh-103m 1.00 none 0.00 none 0.00 Ru-105 Rh-105 1.00 none 0.00 none 0.00 Ru-106 Rh-106 1.00 none 0.00 none 0.00 Sb-127 Te-127m 0.18 Te-127 0.82 none 0. 00 Sb-129 Te-129m 0.22 Te-129 0.77 none 0. 00 Te-127m Te-127 0.98 none 0.00 none 0.00 Te-129 I-129 1.00 none 0.00 none 0.00 I CC-AA-309-1001,Rev2

Attachment D Page 16 of 47 Te-129m Te-129 0.65 I-129 0.35 none 0.CO Te-131m Te-131 0.22 I-131 0.78 none 0. C10 Te-132 I-132 1.00 none 0.00 none 0. CO I-131 Xe-131m 0.01 none 0.00 none 0. C'0 I-133 Xe-133m 0.03 Xe-133 0.97 none 0 . CO I-135 Xe-135m 0.15 Xe-135 0.85 none 0. C0 Xe-135 Cs-135 1.00 none 0.00 none O.CO Cs-137 Ba-137m 0.95 none 0.00 none O.CO Ba-140 La-140 1.00 none 0.00 none O.CO La-141 Ce-141 1.00 none 0.00 none O.CO Ce-143 Pr-143 1.00 none 0.00 none 0 . CO Ce-144 Pr-144m 0.02 Pr-144 0.98 none O.CO Nd-147 Pm-147 1.00 none 0. 00 none O.CO Np-239 Pu-239 1.00 none 0.00 none O.CO Pu-238 U-234 1.00 none 0.00 none O.CO Pu-239 U-235 1.00 none 0.00 none 0.00 Pu-240 U-236 1.00 none 0.00 none 0.00 Pu-241 U-237 0.00 Am-241 1.00 none 0.00 Am-241 Np-237 1.00 none 0.00 none 0.00 Cm-242 Pu-238 1.00 none 0.00 none 0.00 Cm-244 Pu-240 1.00 none 0.00 none 0.00 Iodine fractions Aerosol 9.5000E-01 Elemental 4.8500E-02 Organic 1.5000E-03 COMPARTMENT DATA Compartment number 1: Drywell Sprays: Elemental Removal Data Time (hr) Removal Coef. (hr^-1) 0.OOOOE+00 3.2800E+00 3.0500E+00 0.OOOOE+00 Natural Deposition (Pow( ers' model): Aerosol data Reactor type: 3 Percentile = 10 (%)

Compartment number 2: MSIV Failed Control Vol 1 Compartment number 3: Intact Control Volume 2 Compartment number 4: Intact Control Volume 3 Compartment number 5: Intact Control Volume 4 Compartment number 6: Intact Control Volume 5 Compartment number 7: Environment Compartment number 8: Control Room Compartment number 9: Void I CC-AA-309-1001, Rev 2

Attachment D Page 17 of 47 PATHWAY DATA Pathway number 1: Drywell to MSIV Failed Control Vol 1 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aeros ol Elemental Org anic O.OOOOE+00 O.OOOOE+00 0.OOOOEC+00 O.OOOOE+00 0.00 OOE+00 3.3300E-02 3. 5700E-0l O. OOOOEC+00 0.OOOOE+00 0.00 OOE+00 2.OOOOE+00 2.10OOE-0l 0.OOOOEi+00 O.OOOOE+00 0.00 OOE+00 7.2000E+02 O.OOOOE+00 O.OOOOEC+00 O.OOOOE+00 0.00 OOE+00 Pathway number 2: MSIV Failed Control Vol 1 to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) AeroEsol Elemental Organic O.OOOOE+00 O.OOOOE+00 0.OOOOEE+00 O.OOOOE+00 ).OOOOE+00 3.3300E-02 1.OOOOE+00 8.6680EE+01 5.OOOOE+01 ).OOOOE+00 2.OOOOE+00 5.8700E-0l 8. 6680E3+01 5.OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE3+00 O.OOOOE+00 ).OOOOE+00 Pathway number 3: Drywell to Intact Control Volume 2 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 3.5700E-01 O.OODOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 2.10OOE-Ol O.OODOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Pathway number 4: Intact Control Volume 2 to Intact Control Volume 3 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic O.OOOOE+OO O.OOOOE+00 0.00OOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.OOOOE+00 8.4620E+01 5.OOOOE+01 O.OOOOE+00 2.OOOOE+00 5. 8700E-01 8.4620E+01 5.OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Pathway number 5: Intact Control Volume 3 to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic O.OOOOE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.OOOOE+00 8.71:LOE+01 5.OOOOE+01 O.OOOOE+00 2.OOOOE+00 5.8700E-0l 8.7110E+01 5.OOOOE+01 O.OOOOE+00 CC-ALA-309-1001, Rev 2

Attachment D Page 18 of 47 7.2000E+02 0.000OE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 Pathway number 6: Drywell to Intact Control Volume 4 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic O.OOOOE+00 o.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.3300E-02 1.7800E-01 0.0000E+00 0.0000E+00 0.0000E+00 2.OOOOE+00 1.0500E-01 0.0000E+00 0.0000E+00 0.0000E+00 7.2000E+02 o.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Pathway number 7: Intact Control Volume 4 to Intact Control Volume 5 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.0000E+00 o.0000E+00 0.0000E+00 0.OOOOE+00 O.0000E+00 3.3300E-02 5.OOOOE-01 9.3100E+01 5.OOOOE+01 0.OOOOE+00 2.0000E+00 2. 9400E-01 9.3100E+01 5.0000E+01 0.0000E+00 7.2000E+02 o.0000E+00 0.0000E+00 0.0000E+00 O.0000E+00 Pathway number 8: Intact Control Volume 5 to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+0O0 0.OOOOE+00 3.3300E-02 5.0000E-01 9.3110E+01 5.0000E+01 0.0000E+00 2.0000E+00 2. 9400E-01 9.3110E+01 5.OOOOE+01 0.OOOOE+00 7.2000E+02 0.0000E+00 0.0000E+00 O.0000E+00 0.0000E+00 Pathway number 9: Filtered Intake to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 o.0000E+00 0.O0OOE+00 0.OOOOE+00 O.OOOOE+00 3.3300E-02 2.2000E+03 0.003OE+00 0.0000E+00 O.OOOOE+00 6.6670E-01 1.8000E+03 9. 9030E+01 9. 9000E+01 9. 9000E+01 2.OOOOE+00 1.8000E+03 9. 90 3E+01 9. 9000E+01 9.9000E+01 8.OOOOE+00 1.8000E+03 9. 9030E+01 9. 9000E+01 9. 9000E+01 2.4000E+01 1.8000E+03 9.9000E+01 9. 9000E+01 9. 9000E+01

9. 6000E+01 1.8000E+03 9.9000E+Ol 9.9000E+01 9. 9000E+01 7.2000E+02 0.0000E+00 O.OOOOE+OO o.OOOOE+00 0.0000E+00 Pathway number 10: Unfiltered Inleakage to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

CC-AA-309-1001, Rev 2

AUtachment D Page 19 of 47 (cfm) Aerosol Elemental Organic o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 3.3300E-02 6.OOOOE+04 0.OOOOE+00 0.OOOOE+00 o.OOOOE+00 6.6670E-01 4.OOOOE+02 o.0000E+00 o.OOOOE+00 o.OOOOE+00 2.OOOOE+00 4.OOOE+02 o.OOOOE+00 0.OOOOE+00 o.OOOOE+00 8.OOOOE+00 4.OOOOE+02 0.OOOOE+00 O.OOOOE+00 o.OOOOE+00 2.4000E+01 4.OOOOE+02 0.OOOOE+00 O.OOOOE+00 0.OOOOE+00

9. 6000E+01 4.OOOOE+02 o.OOOOE+00 0.OOOOE+00 o.OOOOE+00 7.2000E+02 o.OOOOE+00 0.OOOOE+00 o.OOOOE+00 o.OOOOE+CO Pathway number 11: Control Room Exhaust to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.00OOE+00 0.OOOOE+CO 3.3300E-02 6.2200E+04 O.OOOOE+00 O.OOOOE+00 O.OOOOE+C0 6.6670E-01 2.2000E+03 0.OOOOE+00 0.OOOOE+00 0.OOOOE+CO 2.OOOOE+00 2.2000E+03 o.OOOOE+00 o.OOOOE+00 0.OOOOE+CO 8.OOOOE+00 2.2000E+03 0.OOOE+00 O.OOOOE+00 0.OOOOE+CO 2.4000E+01 2.2000E+03 o.OOOOE+00 o.OOOE+00 O.OOOOE+CO

9. 6000E+01 2.2000E+03 o.OOOOE+00 o.OOOOE+00 O.OOOOE+CO 7.2000E+02 o.0000E+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+CO Pathway number 12: Drywell to Void Convection Data Time (hr) Flow Rate (% / day) o.OOOOE+00 2.1870E+00 2.OOOOE+00 2.5220E+00 7.2000E+02 O.OOOOE+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 7 Location X/Q Data Time (hr) X/Q (s

m^-3)

o. OOOOE+00 1. 3600E-03 7.2000E+02 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1)

O.OOOOE+00 3.5000E-04 7.2000E+02 0.OOOOE+00 Location Low Population Zone is in compartment 7 Location X/Q Data Time (hr) X/Q (s

m^-3)

O.OOOOE+00 1.0400E-04 2.OOOOE+00 4 .1400E-05 8.OOOOE+00 2.6200E-05 2.4000E+01 9.9600E-06 9.6000E+01 2.5200E-06 7.2000E+02 0.OOOOE+00 i CC-A-A-309-1001, Rev 2

Attachment D Page 20 of 47 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-l) 0.000OE+00 3.5000E-04 8.OOOOE+00 1.8000E-04 2.4000E+01 2.3000E-04 7.200ooE+02 0.OOOOE+00 Location Control Room is in compartment 8 Location X/Q Data Time (hr) X/Q (s

m^-3) 0.OOOE+00 1.0200E-03 2.OOOOE+00 8.2300E-04 8.OOOOE+00 3.5500E-04 2.4000E+01 2.3200E-04 9.6000E+01 1.3800E-04 7.2000E+02 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1) 0.OOOOE+00 3.5000E-04 7.2000E+02 0.OOOOE+00 Location Occupancy Factor Data Time (hr) Occupancy Factor 0.OOOOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 0.OOOOE+00 USER SPECIFIED TIME STEP DATA - SUPPLEMENTAL TIME STEPS Time Time step 0.OOOE+00 1.OOOOE-01 1.OOOOE+00 1.OOOOE-02 2.0000E+00 5.OOOOE-01 8.0000E+00 1.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 5.OOOOE+00 7.2000E+02 O.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment D Page 21 of 47

1. 1. 1. 1. i~##

RADTRAD Version 3.03 (Spring 2001) run on 8/30/2005 at 7:30:33

1. 1. 1. 1. fl ##

Dose, Detailed model and Detailed Inventory Output Exclusion Area Boundary Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Low Population Zone Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Control Room Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Environment Integral Nuclide Release:

Time (h) = 0.0333 Ci kg Atoms Bq Environment Transport Group Inventory:

Total Release Time (h) = 0.0333 Release Rate/s Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.0000E+00 0.OOOOE+00 Dose Effective (Ci) I-131 (Thyroid) 0.OOOOE+00 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 0.0000E+00 Total I (Ci) 0.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment D Page 22 of 47 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) O.OOOOE+00 O. ODOOE+00 Elemental I (atoms) O. OOOOE+00 O.ODOOE+00 Organic I (atoms) 0.OOOOE+00 o.ODOOE+00 Aerosols (kg) O.OOOOE+00 O. ODOOE+00 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) o.OOOOE+00 O .ODOOE+00 Organic I (atoms) O.OOOOE+00 0.0 0OOE+00 Aerosols (kg) 0.0000E+00 0.0000E+00 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.0300E+00 Elemental I (atoms) 0.OOOOE+00 0.OJOOE+00 Organic I (atoms) 0.OOOOE+00 0.0)00OE+00 Aerosols (kg) 0.OOOOE+00 0.00000E+00 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0. )OOOE+00 Elemental I (atoms) 0.OOOOE+00 0. 0JOOOE+00 Organic I (atoms) 0.OOOOE+00 0. 0'OO0E+00 Aerosols (kg) 0.OOOOE+00 0. 0'O0E+00 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.0000E+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 0.0000E+00 Organic I (atoms) 0.OOOOE+00 0. OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.0000E+00 CC-AA-309-1001, Rev 2

Attachment D Page 23 of 47 Exclusion Area Boundary Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 6.7043E-03 6.7067E-01 3.5617E-02 Accumulated dose (rem) 6.7043E-03 6.7067E-01 3.5617E-02 Low Population Zone Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 5.1268E-04 5.1287E-02 2.7237E-03 Accumulated dose (rem) 5.1268E-04 5.1287E-02 2.7237E-03 Control Room Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 1.9849E-04 3.9047E-01 1.7027E-02 Accumulated dose (rem) 1.9849E-04 3. 9047E-01 1.7027E-02 Environment Integral Nuclide Release:

Time (h) = 0.5000 Ci kg Atoms Bq Kr-85 1.2696E-01 3.2360E-07 2.2927E+18 4.6975E+09 Kr-85m 1.8452E+00 2.2421E-10 1.5885E+15 6.8271E+10 Kr-87 2.9843E+00 1.0536E-10 7.2928E+14 1.1042E+11 Kr-88 4.7621E+00 3.7978E-10 2.5990E+15 1.7620E+11 Rb-86 2.1776E-03 2.6762E-11 1.8740E+14 8.0571E+07 I-131 9.2271E-01 7.4427E-09 3.4214E+16 3.4140E+10 I-132 1.2103E+00 1.1725E-10 5.3493E+14 4.4781E+10 I-133 1.8498E+00 1.6329E-09 7.3936E+15 6.8441E+10 I-134 1.4819E+00 5.5550E-11 2.4965E+14 5.4830E+10 I-135 1.6830E+00 4.7922E-10 2.1377E+15 6.2270E+10 Xe-133 1.5357E+01 8.2043E-08 3.7148E+17 5.6821E+11 Xe-135 6.3283E+00 2.4781E-09 1.1054E+16 2.3415E+11 Cs-134 2.4593E-01 1.9008E-07 8.5425E+17 9.0995E+09 Cs-136 7.2985E-02 9.9583E-10 4.4096E+15 2.7005E+09 Cs-137 1.5133E-01 1.7397E-06 7.6474E+18 5.5991E+09 Environment Transport Group Inventory:

Total Release Time (h) = 0.5000 Release Rate/s Noble gases (atoms) 2.6801E+18 1.4890E+15 Elemental I (atoms) 5.8639E+15 3.2577E+12 Organic I (atoms) 5.6982E+14 3.1657E+ll Aerosols (kg) 1.9392E-06 1.0773E-09 Dose Effective (Ci) I-131 (Thyroid) 1.2880E+00 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1.6261E+00 Total I (Ci) 7.1476E+00 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.2379E+18 Elemental I (atoms) 5.3140E+15 5.3140E+15 l CC-AA-309-1001, Rev 2

Attachment D Page 24 of 47 Organic I (atoms) 0.OOOOE+00 4. 7679E+14 Aerosols (kg) 1.2281E-05 1.88872E-06 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.9:368E+17 Elemental I (atoms) 4.9678E+14 4.9678E+14 Organic I (atoms) 0.0000E+00 8.3337E+13 Aerosols (kg) 3.3860E-07 5.0105E-08 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 4.9!536E+16 Elemental I (atoms) 6.2727E+13 6.2'727E+13 Organic I (atoms) 0.OOOOE+00 1.0549E+13 Aerosols (kg) 2.0447E-08 1.5131E-09 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.8:388E+15 Elemental I (atoms) 0.OOOOE+00 6.2236E+12 Organic I (atoms) 0.OOOOE+00 6.0477E+ll Aerosols (kg) 0.OOOOE+00 2.0537E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 0. 5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.7421E+16 Elemental I (atoms) 0.OOOOE+00 1.6373E+14 Organic I (atoms) 0.OOOOE+00 1.6494E+13 Aerosols (kg) 0.OOOOE+00 5.6010E-08 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 6.0103E+16 0.0)OOOE+00 Elemental I (atoms) 1.3542E+14 0.O0OOOE+00 Organic I (atoms) 1.2802E+13 0.OOOOE+00 Aerosols (kg) 4.4116E-08 0.0)OOOE+00 Exclusion Area Boundary Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 9.4773E-03 8. 3994E-01 4.8708E-02 Accumulated dose (rem) 1.6182E-02 1..5606E+00 8.4325E-02 Low Population Zone Doses:

I CC-AA-309-1001, Rev 2

Attachment D Page 25 of 47 Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 7.2473E-04 6.18054E-02 3.7247E-03 Accumulated dose (rem) 1.2374E-03 l.L934E-01 6.4484E-03 Control Room Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 3.0175E-04 5.6853E-01 2.5203E-02 Accumulated dose (rem) 5.0024E-04 9.5901E-01 4.2230E-02 Environment Integral Nuclide Release:

Time (h) 0. 6667 Ci kg Atoms Bq Co-58 3. 1425E-06 9.81328E-14 1.0261E+12 1. 1627E+05 Co-60 3. 7621E-06 3.3282E-12 3. 3405E+13 1.3920E+05 Kr-85 3.3671E-01 8.51323E-07 6.0804E+18 1.2458E+10 Kr-85m 4.7960E+00 5.8278E-10 4. 1289E+15 1.7745E+11 Kr-87 7.3772E+00 2.6044E-10 1.8028E+15 2.7296E+1l Kr-88 1.2235E+01 9.7578E-10 6. 6776E+15 4.5271E+11 Rb-86 5.0744E-03 6.2364E-11 4.3670E+14 1.8775E+08 Sr-89 3. 9917E-03 1.3'740E-10 9.2970E+14 1.4769E+08 Sr-90 5.8023E-04 4.2537E-09 2.8463E+16 2.1469E+07 Sr-91 4. 8317E-03 1.3329E-12 8. 8207E+12 1.7877E+08 Sr-92 4.6799E-03 3.7:233E-13 2.4372E+12 1.7316E+08 Y-90 6.8668E-06 1.21521E-14 8.4453E+10 2.5407E+05 Y-91 5.2024E-05 2.1214E-12 1. 4039E+13 1.9249E+06 Y-92 1.8880E-04 1.91521E-14 1.2844E+11 6.9857E+06 Y-93 6. 1995E-05 1.8582E-14 1.2032E+ll 2.2938E+06 Zr-95 7.3051E-05 3.4004E-12 2.1555E+13 2.7029E+06 Zr-97 7.2008E-05 3.71568E-14 2.3386E+ll 2.6643E+06 Nb-95 7. 3417E-05 1.8'775E-12 1. 1902E+13 2.7164E+06 Mo-99 1.0456E-03 2.11301E-12 1.3261E+13 3.8687E+07 Tc-99m 9.2228E-04 1.7540E-13 1.0669E+12 3. 4124E+07 Ru-103 8.8584E-04 2.7448E-11 1.6048E+14 3.2776E+07 Ru-105 5.6336E-04 8.3308E-14 4.8067E+ll 2.0844E+07 Ru-106 3.7764E-04 1.1:288E-10 6.4128E+14 1.3972E+07 Rh-105 5.9250E-04 7.0L97E-13 4.0261E+12 2. 1922E+07 Sb-127 1.2271E-03 4.5948E-12 2. 1788E+13 4.5401E+07 Sb-129 3.2873E-03 5.88458E-13 2.7290E+12 1.2163E+08 Te-127 1.2253E-03 4.66429E-13 2.2016E+12 4.5336E+07 Te-127m 1.6694E-04 1.7598E-ll 8.3923E+13 6.1769E+06 Te-129 3.4294E-03 1.6376E-13 7. 6447E+ll 1.2689E+08 Te-129m 5.3464E-04 1.7'747E-11 8.2850E+13 1.9782E+07 Te-131m 1. 6018E-03 2.0088E-12 9.2346E+12 5.9268E+07 Te-132 1.5739E-02 5.11341E-11 2.3651E+14 5.8233E+08 I-131 2. 1482E+00 1.7:327E-08 7. 9655E+16 7. 9482E+10 I-132 2.7559E+00 2.61599E-l0 1.2181E+15 1.0197E+1l I-133 4.2908E+00 3.71378E-09 1.7151E+16 1.5876E+1l I-134 3. 1427E+00 1.1'780E-10 5.2943E+14 1.1628E+11 I-135 3.8704E+00 1. 1021E-09 4. 9162E+15 1. 4320E+11 Xe-133 4.0725E+01 2.1'757E-07 9.8514E+17 1.5068E+12 Xe-135 1. 6901E+01 6.6L82E-09 2. 9523E+16 6.2534E+11 Cs-134 5.7320E-01 4.4303E-07 1. 9910E+18 2.1208E+10 Cs-136 1.7006E-01 2.3204E-09 1.0275E+16 6.2924E+09 CC-AA-309-1001, Rev22

Attachment D Page 26 of 47 Cs-137 3.5270E-01 4.0549E-06 1.7824E+19 1.3050E+10 Ba-139 5.7918E-03 3.5409E-13 1.5341E+12 2. 1430E+08 Ba-140 7.7415E-03 1.0574E-10 4.5486E+14 2.8643E+08 La-140 1.0228E-04 1.8402E-13 7. 9158E+11 3.7845E+06 La-141 6.5192E-05 1.1527E-14 4. 9234E+10 2. 4121E+06 La-142 5.2579E-05 3.6730E-15 1.5577E+10 1.9454E+06 Ce-141 1.8357E-04 6.4424E-12 2.7516E+13 6.7919E+06 Ce-143 1.6632E-04 2.5046E-13 1.0547E+12 6.1540E+06 Ce-144 1.5138E-04 4.7462E-11 1.9849E+14 5.6011E+06 Pr-143 6.5211E-05 9.6841E-13 4.0782E+12 2.4128E+06 Nd-147 2.9553E-05 3. 6531E-13 1.4966E+12 1.0935E+06 Np-239 2.2789E-03 9.8231E-12 2. 4751E+13 8.4318E+07 Pu-238 7.2694E-07 4.2462E-1l 1.0744E+14 2.6897E+04 Pu-239 6.0611E-08 9.7513E-10 2.4571E+15 2.2426E+03 Pu-240 8.2274E-08 3.6106E-10 9.0599E+14 3.0441E+03 Pu-241 2.7548E-05 2. 6742E-10 6.6824E+14 1.0193E+06 Am-241 1. 6213E-08 4.7239E-12 1.1804E+13 5.9989E+02 Cm-242 3.7576E-06 1.1338E-12 2. 8213E+12 1.3903E+05 Cm-244 2.6660E-07 3.2953E-12 8.1331E+12 9.8641E+03 Environment Transport Group Inventory:

Total Release Time (h) = 0.6667 Release Rate/s Noble gases (atoms) 7.1077E+18 2.9614E+15 Elemental I (atoms) 1.2962E+16 5.4004E+12 Organic I (atoms) 1.4163E+15 5.9008E+ll Aerosols (kg) 4.5262E-06 1.8858E-09 Dose Effective (Ci) I-131 (Thyroid) 2.9940E+00 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 3.7701E+00 Total I (Ci) 1.6208E+01 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.0000E+00 5.7282E+18 Elemental I (atoms) 1.1422E+16 1.1422E+16 Organic I (atoms) O.OOOOE+00 1.132OE+15 Aerosols (kg) 2.8450E-05 4.3719E-06 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.0000E+00 1.2247E+18 Elemental I (atoms) 1.3810E+15 1.3810E+15 Organic I (atoms) 0.OOOOE+00 2.5436E+14 Aerosols (kg) 1.0082E-06 1.4919E-07 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.5770E+17 I CC-AA-309-1001, Rev 2

Attachment D Page 27 of 47 Elemental I (atoms) 1.7915E+14 1.7915E+14 Organic I (atoms) 0.OOOOE+00 3.2803E+13 Aerosols (kg) 6.2442E-08 4.6206E-09 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.5284E+15 Elemental I (atoms) 0.OOOOE+00 1.3753E+13 Organic I (atoms) 0.0000E+00 1.5027E+12 Aerosols (kg) 0.OOOOE+00 4.7935E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

-Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.0532E+17 Elemental I (atoms) 0.OOOOE+00 3.7509E+14 Organic I (atoms) 0.OOOOE+00 4.0984E+13 Aerosols (kg) 0.OOOOE+00 1.3073E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 1.6620E+17 0.0000E+00 Elemental I (atoms) 3.1871E+14 0.OOOOE+00 Organic I (atoms) 3.3930E+13 0.OOOOE+00 Aerosols (kg) 1.0987E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 8.0790E-01 4.4282E+01 3.2092E+00 Accumulated dose (rem) 8.2408E-01 4.5843E+01 3.2935E+00 Low Population Zone Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 6.1780E-02 3.3863E+00 2.4541E-01 Accumulated dose (rem) 6.3018E-02 3.5056E+00 2.5186E-01 Control Room Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.7984E-03 5.4583E+00 2.6466E-01 Accumulated dose (rem) 8.2986E-03 6. 4173E+00 3.0689E-01 Environment Integral Nuclide Release:

Time (h) = 2.0000 Ci kg Atoms Bq Co-58 1.9798E-03 6.2263E-11 6.4648E+14 7.3254E+07 Co-60 2.3711E-03 2.0976E-09 2.1053E+16 8.7731E+07 Kr-85 3.1288E+01 7.9748E-05 5.6501E+20 1. 1577E+12 CC-AA-309-1001, Rev 2

Attachment D Page 28 of 47 Kr-85m 3.7914E+02 4.6071E-08 3.2641E+17 1.4028E+13 Kr-87 3.9173E+02 1.3829E-08 9.5728E+16 1.4494E+13 Kr-88 8.8193E+02 7.0333E-08 4.8131E+17 3.2631E+13 Rb-86 1.3584E-01 1.6695E-09 1.1691E+16 5.0262E+09 Sr-89 2.5145E+00 8.6550E-08 5.8564E+17 9.3035E+10 Sr-90 3. 6570E-01 2.6810E-06 1.7939E+19 1.3531E+10 Sr-91 2.8385E+00 7.8302E-10 5.1818E+15 1.0502E+ll Sr-92 2.3097E+00 1.8376E-10 1.2029E+15 8.5461E+10 Y-90 6.7231E-03 1.2357E-11 8.2685E+13 2.4875E+08 Y-91 3.3143E-02 1.3515E-09 8. 9437E+15 1.2263E+09 Y-92 3.7783E-01 3. 9266E-11 2.5703E+14 1.3980E+10 Y-93 3.6572E-02 1.0962E-11 7.0981E+13 1.3531E+09 Zr-95 4. 6021E-02 2. 1422E-09 1.3580E+16 1.7028E+09 Zr-97 4.3623E-02 2.2819E-11 1.4167E+14 1.6140E+09 Nb-95 4.6272E-02 1.1833E-09 7.5012E+15 1.7121E+09 Mo-99 6.5235E-01 1.3602E-09 8.2738E+15 2. 4137E+10 Tc-99m 5.8093E-01 1.1048E-10 6.7205E+14 2. 1495E+10 Ru-103 5.5792E-01 1.7287E-08 1.0107E+17 2.0643E+10 Ru-105 3.0563E-01 4.5467E-11 2. 6077E+14 1.1308E+10 Ru-106 2.3799E-01 7.1137E-08 4. 0415E+17 8.8057E+09 Rh-105 3.7257E-01 4.4141E-10 2.5316E+15 1.3785E+10 Sb-127 7.6779E-01 2. 8751E-09 1.3633E+16 2.8408E+10 Sb-129 1.7761E+00 3.1583E-10 1.4744E+15 6.5714E+10 Te-127 7.6975E-01 2. 9167E-10 1.3831E+15 2. 8481E+10 Te-127m 1.0523E-01 1.1156E-08 5.2898E+16 3.8934E+09 Te-129 1.9605E+00 9.3616E-11 4.3703E+14 7.2540E+10 Te-129m 3.3704E-01 1.1188E-08 5.2228E+16 1.2470E+10 Te-131m 9.8730E-01 1.2381E-09 5.6918E+15 3. 6530E+10 Te-132 9.8349E+00 3.2395E-08 1.4779E+17 3. 6389E+ll I-131 6.2421E+01 5.0350E-07 2.3146E+18 2.3096E+12 I-132 7.1145E+01 6.8925E-09 3.1445E+16 2. 6324E+12 I-133 1.2110E+02 1.0690E-07 4.8405E+17 4.4807E+12 I-134 4.4176E+01 1.6560E-09 7.4422E+15 1. 6345E+12 I-135 1.0193E+02 2.9025E-08 1.2948E+17 3.7715E+12 Xe-133 3.7743E+03 2.0164E-05 9.1301E+19 1.3965E+14 Xe-135 1.5712E+03 6.1526E-07 2.7446E+18 5.8134E+13 Cs-134 1.5367E+01 l.lB77E-05 5.3377E+19 5.6858E+ll Cs-136 4.5497E+00 6.2078E-08 2.7488E+17 1.6834E+ll Cs-137 9.4559E+00 1.OB71E-04 4.7786E+20 3.4987E+ll Ba-139 2.2695E+00 1.3B75E-10 6.0113E+14 8.3973E+10 Ba-140 4.8685E+00 6.6502E-08 2.8606E+17 1.8013E+ll La-140 1.1496E-01 2.0682E-10 8.8964E+14 4.2534E+09 La-141 3.4691E-02 6.1 342E-12 2.6199E+13 1.2836E+09 La-142 2. 1644E-02 1.5120E-12 6.4122E+12 8.0083E+08 Ce-141 1. 1565E-01 4.0587E-09 1.7335E+16 4.2789E+09 Ce-143 1.0272E-01 1.5468E-10 6.5142E+14 3.8007E+09 Ce-144 9.5401E-02 2. 9311E-08 1.2509E+17 3.5298E+09 Pr-143 4.1182E-02 6.1157E-10 2.5755E+15 1.5237E+09 Nd-147 1.8579E-02 2.2366E-10 9.4084E+14 6.8742E+08 Np-239 1. 4194E+00 6.1182E-09 1.5416E+16 5.2517E+10 Pu-238 4.5817E-04 2.6'763E-08 6.7718E+16 1.6952E+07 Pu-239 3.8205E-05 6.1466E-07 1.5488E+18 1.4136E+06 Pu-240 5.1855E-05 2.2'757E-07 5.7101E+17 1.9186E+06 Pu-241 1.7362E-02 1.6:355E-07 4.2117E+17 6.4241E+08 Am-241 1.0221E-05 2.9'780E-09 7.4415E+15 3.7818E+05 CC-YA-309-1001, Rev22

Attachment D Page 29 of 47 Cm-242 2.3679E-03 7.1445E-10 1.7779E+15 8.7612E+07 Cm-244 1.6803E-04 2.0769E-09 5.1260E+15 6.2170E+06 Environment Transport Group Inventory:

Total Relea se Time (h) = 2.0000 Release Rate/ s Noble gases (atoms) 6.5995E+20 9.1660 E+16 Elemental I (atoms) 2.6062E+17 3.6197 E+13 Organic I (atoms) 5.5154E+16 7.6602 E+12 Aerosols (kg) 1.2531E-04 1.7404 E-08 Dose Effective (Ci) I-131 (Thyroid) 8.5998E+01 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1.0659E+02 Total I (Ci) 4.0078E+02 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 4.3350E+20 Elemental I (atoms) 1.9714E+17 1.9714E+17 Organic I (atoms) 0.OOOOE+00 3.5093E+16 Aerosols (kg) 7.5576E-04 1.1614E-04 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.9732E+20 Elemental I (atoms) 5.4977E+16 5.4977E+16 Organic I (atoms) 0.OOOOE+00 1.7432E+16 Aerosols (kg) 5.9778E-05 8.8456E-06 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.9151E+19 Elemental I (atoms) 8.6096E+15 8.6096E+15 Organic I (atoms) 0.OOOOE+00 2.6480E+15 Aerosols (kg) 4.3903E-06 3.2488E-07 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.7323E+17 Elemental I (atoms) 2.1252E+14 1.5900E+13 Organic I (atoms) 4.6111E+13 1.9685E+12 Aerosols (kg) 1.0361E-07 5.8401E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported CC-AA-309-1001, Rev 2

Attachment D Page 30 of 47 Noble gases (atoms) 0.OOOOE+00 3.3103E+17 Elemental I (atoms) 0.OOOOE+00 4.2280E+14 Organic I (atoms) 0.OOOOE+00 5. 1334E+13 Aerosols (kg) o.0000E+00 1.5399E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 3.5187E+17 0.OOOOE+00 Elemental I (atoms) 3.7513E+14 0.OOOOE+00 Organic I (atoms) 4.1796E+13 0.OOOOE+00 Aerosols (kg) 1.3204E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 1.0463E+00 4. 9935E+01 3. 9201E+00 Accumulated dose (rem) 1.8704E+00 9.5778E+01 7.2136E+00 Low Population Zone Doses:

Time (h) = 3.0 500 Whole Body Thyroid TEDE Delta dose (rem) 3.1852E-02 1.5201E+00 1. 1933E-01 Accumulated dose (rem) 9.4870E-02 5.0257E+00 3.7119E-01 Control Room Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 1.7118E-02 5.3260E+00 3.0122E-01 Accumulated dose (rem) 2.5417E-02 1.1743E+01 6.0810E-01 Environment Integral Nuclide Release:

Time (h) 3.0500 Ci kg Atoms Bq Co-58 4.8532E-03 1.5263E-10 1.5847E+15 1.7957E+08 Co-60 5. 8137E-03 5.1431E-09 5. 1621E+16 2.1511E+08 Kr-85 8.3729E+01 2.1341E-04 1. 5120E+21 3. 0980E+12 Kr-85m 9.2185E+02 1. 1202E-07 7. 9362E+i17 3.4108E+13 Kr-87 7.6757E+02 2.7098E-08 1. 8757E+17 2.8400E+13 Kr-88 2.0342E+03 1.6223E-07 1. 1102E+18 7.5265E+13 Rb-86 2.8101E-01 3.4536E-09 2.4184E+16 1.0397E+10 Sr-89 6. 1632E+00 2. 1214E-07 1.4354E+18 2.2804E+11 Sr-90 8. 9666E-01 6.5734E-06 4.3985E+19 3.3177E+10 Sr-91 6.6749E+00 1.8414E-09 1.2186E+16 2.4697E+11 Sr-92 4. 9191E+00 3. 9136E-10 2.5617E+15 1.8201E+11 Y-90 2.0764E-02 3. 8165E-11 2.5537E+14 7.6827E+08 Y-91 8. 1858E-02 3.3379E-09 2.2089E+16 3.0287E+09 Y-92 1.2257E+00 1.2738E-10 8.3379E+14 4.5350E+10 Y-93 8.6213E-02 2.5841E-11 1. 6733E+14 3. 1899E+09 Zr-95 1.1281E-01 5.2512E-09 3.3288E+16 4.1740E+09 Zr-97 1.0446E-01 5.4644E-11 3.3925E+14 3.8650E+09 Nb-95 1. 1345E-01 2.9D14E-09 1.8392E+16 4. 1978E+09 Mo-99 1.5898E+00 3. 3147E-09 2.0163E+16 5.8822E+10 Tc-99m 1.4232E+00 2.7066E-10 1.6464E+15 5.2658E+10 CC-JAA-309-1001, Rev 2

Attachment D Page 31 of 47 Ru-103 1.3674E+00 4.2368E-08 2.4771E+17 5.0593E+1C' Ru-105 6.8637E-01 1.0211E-10 5.8563E+14 2.5396E+1C Ru-106 5.8351E-01 1.7441E-07 9. 9088E+17 2.1590E+1C Rh-105 9. 1105E-01 1.0794E-09 6. 1906E+15 3.3709E+10 Sb-127 1.8744E+00 7.0188E-09 3.3282E+16 6.9352E+10 Sb-129 3.9792E+00 7.0761E-10 3.3033E+15 1.4723E+11 Te-127 1.8835E+00 7. 1370E-10 3.3843E+15 6.9691E+1C Te-127m 2.5802E-01 2.7354E-08 1.2971E+17 9.5467E+09' Te-129 4. 5135E+00 2.1552E-10 1.0061E+15 1.6700E+11 Te-129m 8.2641E-01 2.7432E-08 1.2806E+17 3.0577E+1C Te-131m 2.3886E+00 2.9955E-09 1.3770E+16 8.8379E+1C Te-132 2.3991E+01 7.9022E-08 3. 6052E+17 8.8765E+11 I-131 1.3060E+02 1.0535E-06 4.8429E+18 4.8323E+12 I-132 1.3680E+02 1.3253E-08 6. 0462E+16 5.0615E+12 I-133 2.4918E+02 2. 1996E-07 9. 9597E+17 9.2195E+12 I-134 6.4416E+01 2. 4147E-09 1.0852E+16 2.3834E+12 I-135 2. 0170E+02 5.7434E-08 2.5620E+17 7.4629E+12 Xe-133 1.0076E+04 5. 3831E-05 2.4374E+20 3.7282E+14 Xe-135 4. 1153E+03 1. 6115E-06 7.1886E+18 1.5227E+14 Cs-134 3. 1816E+01 2.4590E-05 1. 1051E+20 1.1772E+12 Cs-136 9.4083E+00 1.2837E-07 5. 6842E+17 3.4811E+11 Cs-137 1. 9578E+01 2.2508E-04 9.8939E+20 7.2438E+11 Ba-139 4.2813E+00 2. 6174E-10 1.1340E+15 1.5841E+11 Ba-140 1.1921E+01 1.6284E-07 7.0047E+17 4.4109E+11 La-140 3. 7151E-01 6. 6838E-10 2.8751E+15 1.3746E+1C La-141 7.7057E-02 1.3626E-11 5.8195E+13 2.8511E+09 La-142 4.1861E-02 2. 9242E-12 1.2401E+13 1.5488E+09 Ce-141 2. 8347E-01 9.9485E-09 4.2490E+16 1.0488E+10 Ce-143 2. 4882E-01 3. 7469E-10 1.5779E+15 9.2065E+09 Ce-144 2.3390E-01 7.3335E-08 3.0669E+17 8.6543E+09 Pr-143 1.0112E-01 1.5016E-09 6. 3237E+15 3.7413E+09 Nd-147 4.5484E-02 5. 6224E-10 2.3033E+15 1.6829E+09 Np-239 3.4555E+00 1.4895E-08 3. 7531E+16 1.2785E+1l Pu-238 1. 1234E-03 6.5620E-08 1. 6604E+17 4.1566E+07 Pu-239 9.3683E-05 1.5072E-06 3.7977E+18 3.4663E+OE Pu-240 1.2714E-04 5.5797E-07 1.4001E+18 4.7043E+OE Pu-241 4.2571E-02 4.1326E-07 1.0327E+18 1.5751E+09 Am-241 2.5065E-05 7.3029E-09 1.8249E+16 9.2740E+05 Cm-242 5.8052E-03 1.7516E-09 4.3588E+15 2.1479E+08 Cm-244 4.1199E-04 5.0924E-09 1.2568E+16 1.5243E+07 Environment Transport Group Inventory:

Total Release Time (h) = 3.0500 Release Rate/s Noble gases (atoms) 1.7650E+21 1.6075E+17 Elemental I (atoms) 4.7446E+17 4.3211E+13 Organic I (atoms) 1.3084E+17 1.1916E+13 Aerosols (kg) 2.6101E-04 2.3771E-08 Dose Effective (Ci) I-131 (Thyroid) 1.7880E+02 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 2.2002E+02 Total I (Ci) 7.8269E+02 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

I CC-AA-309-1001, Rev 2

Attachment D Page 32 of 47 Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0691E+21 Elemental I (atoms) 3.3892E+17 3.3B92E+17 Organic I (atoms) 0.OOOOE+00 7.7560E+16 Aerosols (kg) 1.5491E-03 2.3B05E-04 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 6.0068E+20 Elemental I (atoms) 1.1614E+17 1.1614E+17 Organic I (atoms) 0.OOOOE+00 4.5D30E+16 Aerosols (kg) 1.4928E-04 2.21089E-05 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 9.55428E+19 Elemental I (atoms) 1.9835E+16 1.9335E+16 Organic I (atoms) 0.OOOOE+00 7.48321E+15 Aerosols (kg) 1.1819E-05 8.7457E-07 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 3. 0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.33459E+18 Elemental I (atoms) 3.6076E+14 1.7:397E+13 Organic I (atoms) 9.8576E+13 2.4985E+12 Aerosols (kg) 1.9754E-07 6.71389E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) O.OOOOE+00 5.0274E+17 Elemental I (atoms) 0.OOOOE+00 4.5b507E+14 Organic I (atoms) 0.OOOOE+00 6.3:LllE+13 Aerosols (kg) 0.OOOOE+00 1.7507E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 9.0040E+17 0.OOOOE+00 Elemental I (atoms) 4.1783E+14 0.OOOOOE+00 Organic I (atoms) 5.1097E+13 0.OOOOE+00 Aerosols (kg) 1.5308E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE CC-AA-309-1001, Rev22

Attachment D Page 33 of 47 Delta dose (rem) 6.1709E+00 2.1259E+02 1.8558E+01 Accumulated dose (rem) 8.0413E+00 3.0837E+02 2.5772E+01 Low Population Zone Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.8785E-01 6. 4715E+00 5.6493E-01 Accumulated dose (rem) 2.8272E-01 1.1497E+01 9.3612E-01 Control Room Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.3318E-01 2.5475E+01 1.6032E+00 Accumulated dose (rem) 1.5859E-01 3.7218E+01 2.2113E+00 Environment Integral Nuclide Release:

Time (h) 8.0000 Ci kg Atoms Bq Co-58 1.7749E-02 5.5819E-10 5.7956E+15 6.5672E+08 Co-60 2.1281E-02 1.8826E-08 1.8896E+17 7.8739E+08 Kr-85 6.9893E+02 1.7815E-03 1.2621E+22 2.5860E+13 Kr-85m 4.8239E+03 5.8617E-07 4.1529E+18 1.7848E+14 Kr-87 1.7215E+03 6.0775E-08 4.2068E+17 6.3695E+13 Kr-88 8.4057E+03 6.7035E-07 4.5875E+18 3.1101E+14 Rb-86 8. 9736E-01 1.1028E-08 7.7227E+16 3.3202E+10 Sr-89 2.2532E+01 7.7555E-07 5.2477E+18 8.3367E+11 Sr-90 3.2823E+00 2.4063E-05 1.6101E+20 1.2145E+ll Sr-91 2.0852E+01 5.7524E-09 3.8068E+16 7.7153E+ll Sr-92 1.1079E+01 8.8139E-10 5.7694E+15 4.0990E+11 Y-90 1.4997E-01 2.7565E-10 1.8444E+15 5.5488E+09 Y-91 3.0885E-01 1.2594E-08 8.3343E+16 1.1427E+10 Y-92 6.4946E+00 6.7495E-10 4.4181E+15 2.4030E+11 Y-93 2.7175E-01 8. 1452E-11 5.2743E+14 1.0055E+10 Zr-95 4.1253E-01 1.9203E-08 1.2173E+17 1.5264E+10 Zr-97 3.4907E-01 1.8260E-10 1.1337E+15 1.2916E+10 Nb-95 4.1529E-01 1.0620E-08 6.7324E+16 1.5366E+10 Mo-99 5.6825E+00 1.1848E-08 7.2071E+16 2.1025E+11 Tc-99m 5.1746E+00 9.8409E-10 5. 9862E+15 1.9146E+11 Ru-103 4.9970E+00 1.5483E-07 9.0526E+17 1. 8489E+ll Ru-105 1.8257E+00 2.7160E-10 1.5577E+15 6.7551E+10 Ru-106 2. 1356E+00 6.3B34E-07 3. 6266E+18 7.9018E+10 Rh-105 3.2738E+00 3.8787E-09 2.2246E+16 1.2113E+11 Sb-127 6.7452E+00 2.5258E-08 1.1977E+17 2.4957E+11 Sb-129 1.0502E+01 1.8675E-09 8.7182E+15 3.8857E+11 Te-127 6.8355E+00 2.5901E-09 1.2282E+16 2.5291E+11 Te-127m 9.4467E-01 1.0015E-07 4.7489E+17 3.4953E+10 Te-129 1.2865E+01 6.1430E-10 2.8677E+15 4.7600E+1l Te-129m 3.0240E+00 1.0038E-07 4.6861E+17 1.1189E+11 Te-131m 8.3008E+00 1.0410E-08 4.7854E+16 3.0713E+ll Te-132 8.6068E+01 2.8350E-07 1.2934E+18 3.1845E+12 I-131 4.2874E+02 3.4'583E-06 1.5898E+19 1.5863E+13 I-132 3.1377E+02 3.0398E-08 1.3868E+17 1.1610E+13 I-133 7.6529E+02 6.7557E-07 3.0589E+18 2.8316E+13 I-134 8.0824E+01 3.0298E-09 1.3616E+16 2.9905E+12 I-135 5.3442E+02 1.5217E-07 6.7883E+17 1.9773E+13 CC-AA-309-1001, Rev 2

Attachment D Page 34 of 47 Xe-133 8.2815E+04 4.4243E-04 2.0033E+21 3.0642E+15 Xe-135 2.8484E+04 1.1154E-05 4. 9756E+19 1.0539E+15 Cs-134 1.0194E+02 7.8792E-05 3.5410E+20 3.7719E+12 Cs-136 3.OOOOE+01 4.0932E-07 1.8125E+18 1.1100E+12 Cs-137 6.273 6E+O1 7.2125E-04 3.1704E+21 2. 3212E+12 Ba-139 7.0980E+00 4.3394E-10 1.8800E+15 2. 6262E+11 Ba-140 4.3414E+01 5.9302E-07 2.5509E+18 1.6063E+12 La-140 2.8857E+00 5.1918E-09 2.2333E+16 1.0677E+11 La-141 1.9770E-01 3.4958E-11 1.4931E+14 7.3150E+09 La-142 7.3311E-02 5.1213E-12 2.1719E+13 2.7125E+09 Ce-141 1.0360E+00 3.6360E-08 1.5529E+17 3. 8333E+10 Ce-143 8.6873E-01 1.3082E-09 5.5091E+15 3.2143E+10 Ce-144 8.5602E-01 2.6839E-07 1.1224E+18 3.1673E+10 Pr-143 3.7247E-01. 5.5313E-09 2.3294E+16 1.3781E+10 Nd-147 1.6550E-01 2.0458E-09 8.3811E+15 6.1236E+09 Np-239 1.2302E+01 5.3030E-08 1.3362E+17 4.5519E+11 Pu-238 4.1123E-03 2.4021E-07 6.0781E+17 1.5216E+08 Pu-239 3.4303E-04 5.5188E-06 1.3906E+19 1.2692E+07 Pu-240 4.6542E-04 2.0425E-06 5.1251E+18 1.7220E+07 Pu-241 1.5583E-01 1.5128E-06 3.7801E+18 5.7658E+09 Am-241 9.1816E-05 2. 6751E-08 6.6847E+16 3.3972E+OE Cm-242 2.1242E-02 6.4092E-09 1.5949E+16 7.8596E+08 Cm-244 1.5081E-03 1.8641E-08 4.6008E+16 5.5800E+07 Environment Transport Group Inventory:

Total Release Time (h) = 8.0000 Release Rate/s Noble gases (atoms) 1.4684E+22 5.0985E+17 Elemental I (atoms) 1.2383E+18 4.2996E+13 Organic I (atoms) 9.2083E+17 3.1973E+13 Aerosols (kg) 8.4089E-04 2.9197E-08 Dose Effective (Ci) I-131 (Thyroid) 5.7355E+02 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 6.9045E+02 Total I (Ci) 2.1230E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.1455E+21 Elemental I (atoms) 7.6484E+17 7.6484E+17 Organic I (atoms) 0.OOOOE+00 4.4730E+17 Aerosols (kg) 4.7418E-03 7.2867E-04 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 6.1905E+21 Elemental I (atoms) 3.7803E+17 3.7803E+17 Organic I (atoms) 0.OOOOE+00 3.8900E+17 Aerosols (kg) 7.1620E-04 1.0598E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

CC-AA-309-1001, Rev 2

Attachment D Page 35 of 47 Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.3492E+21 Elemental I (atoms) 9.6809E+16 9.6809E+16 Organic I (atoms) 0.OOOOE+00 8.5620E+16 Aerosols (kg) 8.4371E-05 6.2434E-06 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0379E+19 Elemental I (atoms) 8.9011E+14 2.2744E+13 Organic I (atoms) 6.4603E+14 8.0283E+12 Aerosols (kg) 5.9890E-07 1.0843E-08 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.5101E+18 Elemental I (atoms) 0.OOOOE+00 5.7489E+14 Organic I (atoms) 0.OOOOE+00 1.8600E+14 Aerosols (kg) 0.OOOOE+00 2.6517E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 9.2167E+18 0.OOOOE+00 Elemental I (atoms) 5.6302E+14 0.OOOOE+00 Organic I (atoms) 1.5067E+14 0.OOOOE+00 Aerosols (kg) 2.5328E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.0496E+01 2.0366E+02 2.1173E+01 Accumulated dose (rem) 1.8538E+01 5.1203E+02 4. 6945E+01 Low Population Zone Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.0221E-01 2. 0178E+00 3.0799E-01 Accumulated dose (rem) 4.8493E-01 1. 3515E+01 1.2441E+00 Control Room Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4987E-01 1.5314E+01 9.9645E-01 Accumulated dose (rem) 3.0846E-01 5.2532E+01 3.2077E+00 Environment Integral Nuclide Release:

I CC-AA-309-1001, Rev 2

Attachment D Page 36 of 47 Time (h) = 24.0000 ci kg Atoms Bq Co-58 2.7580E-02 8.6735E-10 9.0057E+15 1.0205E+09 Co-60 3.3106E-02 2.9288E-08 2.9396E+17 1.2249E+09 Kr-85 4.3193E+03 l.lOO9E-02 7.7999E+22 1.5981E+14 Kr-85m 1.0250E+04 1.2455E-06 8.8240E+18 3.7924E+14 Kr-87 1.8483E+03 6.5250E-08 4.5166E+17 6.8385E+13 Kr-88 1.3039E+04 1.0398E-06 7.1159E+18 4.8243E+14 Rb-86 1.3568E+00 1.6675E-08 1.1677E+17 5.0203E+10 Sr-89 3.4994E+01 1.2045E-06 8.1503E+18 1.2948E+12 Sr-90 5.1065E+00 3.7436E-05 2.5049E+20 1.8894E+ll Sr-91 2.7329E+01 7.5389E-09 4.9891E+16 1.0112E+12 Sr-92 1.2027E+01 9.5682E-10 6.2631E+15 4.4498E+ll Y-90 3.8254E-01 7.0311E-10 4.7047E+15 1.4154E+10 Y-91 4. 94I0E-01 2.0148E-08 1.3333E+17 1.8282E+10 Y-92 8.8713E+00 9.2195E-10 6.0349E+15 3.2824E+ll Y-93 3.5898E-01 1.0760E-10 6.9675E+14 1.3282E+10 Zr-95 6.4093E-01 2.9834E-08 1.8912E+17 2.3714E+10 Zr-97 4.8798E-01 2.5526E-10 1.5848E+15 1.8055E+10 Nb-95 6.4607E-01 1.6522E-08 1.0474E+17 2.3905E+10 Mo-99 8.5762E+00 1.7881E-08 1.0877E+17 3.1732E+ll Tc-99m 7.9293E+00 1.5080E-09 9.1730E+15 2. 9338E+ll Ru-103 7.7571E+00 2.4035E-07 1.4053E+18 2.8701E+ll Ru-105 2.1347E+00 3.1757E-10 1. 8214E+15 7. 8984E+10 Ru-106 3.3217E+00 9.9287E-07 5.6408E+18 1.2290E+ll Rh-105 4.9006E+00 5.8060E-09 3.3300E+16 1.8132E+ll Sb-127 1.0267E+01 3.8444E-08 1.8229E+17 3.7986E+ll Sb-129 1.2226E+01 2.1741E-09 1.0149E+16 4.5236E+ll Te-127 1.0505E+01 3.9803E-09 1.8874E+16 3.8867E+ll Te-127m 1.4700E+00 1.5584E-07 7.3896E+17 5.4389E+10 Te-129 1.6016E+01 7.6475E-10 3.5701E+15 5. 9258E+ll Te-129m 4.6974E+00 1.5593E-07 7.2792E+17 1.7380E+ll Te-131m 1.2114E+01 1.5191E-08 6.9835E+16 4.4820E+ll Te-132 1.3050E+02 4.2984E-07 1.9610E+18 4.8283E+12 I-131 7.3595E+02 5.9363E-06 2.7289E+19 2.7230E+13 I-132 3.9463E+02 3.8231E-08 1.7442E+17 1.4601E+13 I-133 1.1786E+03 1.0404E-06 4.7110E+18 4.3609E+13 I-134 8.1010E+01 3.0367E-09 1.3647E+16 2. 9974E+12 I-135 6.8898E+02 1.9619E-07 8.7516E+17 2.5492E+13 Xe-133 4.8619E+05 2.5974E-03 1.1761E+22 1.7989E+16 Xe-135 9.5183E+04 3.7272E-05 1.6626E+20 3.5218E+15 Cs-134 1.5482E+02 1.1966E-04 5.3777E+20 5.7283E+12 Cs-136 4.5275E+01 6.1774E-07 2.7354E+18 1. 6752E+12 Cs-137 9.5286E+01 1.0955E-03 4.8154E+21 3.5256E+12 Ba-139 7.2186E+00 4.4132E-10 1.9120E+15 2. 6709E+ll Ba-140 6.7088E+01 9.1640E-07 3.9419E+18 2.4823E+12 La-140 7.4324E+00 1.3372E-08 5.7519E+16 2.7500E+ll La-141 2.2674E-01 4.0093E-1l 1.7124E+14 8.3895E+09 La-142 7.5072E-02 5.2443E-12 2.2241E+13 2.7777E+09 Ce-141 1.6080E+00 5.6433E-08 2.4102E+17 5. 9495E+10 Ce-143 1.2746E+00 1.9194E-09 8.0831E+15 4.7161E+10 Ce-144 1.3314E+00 4.1742E-07 1.7457E+18 4. 9260E+10 Pr-143 5. 8349E-01 8.6650E-09 3.6491E+16 2. 1589E+10 Nd-147 2.5548E-01 3.1580E-09 1.2938E+16 9.4528E+09 Np-239 1. 8477E+01 7.9644E-08 2.0068E+17 6.8364E+ll Pu-238 6.3979E-03 3.7372E-07 9.4562E+17 2.3672E+08 CC-AA-309-1001, Rev22

Attachment D Page 37 of 47 Pu-2 39 5.3385E-04 8.5888E-06 2.1641E+19 1.9752E+07 Pu-240 7.2408E-04 3.1777E-06 7.9735E+18 2. 6791E+07 Pu-241 2.4244E-01 2.3535E-06 5.8809E+18 8. 9701E+09 Am-241 1.4298E-04 4.1658E-08 1.0409E+17 5.2901E+06 Cm-242 3.3030E-02 9.9660E-09 2.4800E+16 1.2221E+09 Cm-244 2.3462E-03 2. 9001E-08 7.1576E+16 8.6810E+07 Environment Transport Group Inventory:

Total Release Time (h) = 24.0000 Release Rate/s Noble gases (atoms) 8.9943E+22 1.0410E+18 Elemental I (atoms) 1.9795E+18 2.2911E+13 Organic I (atoms) 5.0021E+18 5.7895E+13 Aerosols (kg) 1.2783E-03 1.4796E-08 Dose Effective (Ci) I-131 (Thyroid) 9.5451E+02 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1.1239E+03 Total I (Ci) 3.0792E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.0000E+00 3.8431E+22 Elemental I (atoms) 1.1610E+18 1.1610E+18 Organic I (atoms) 0.0000E+00 2.1529E+18 Aerosols (kg) 7.1323E-03 1.0960E-03 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.8183E+22 Elemental I (atoms) 5.8214E+17 5.8214E+17 Organic I (atoms) 0.OOOOE+00 2.1332E+18 Aerosols (kg) 1.1152E-03 1.6503E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.0000E+00 1.3378E+22 Elemental I (atoms) 2.4117E+17 2.4117E+17 Organic I (atoms) 0.OOOOE+00 7.4211E+17 Aerosols (kg) 2.3372E-04 1.7.295E-05 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.3089E+19 Elemental I (atoms) 1.1124E+15 2.4390E+13 Organic I (atoms) 1.8720E+15 2.0412E+13 Aerosols (kg) 7.2951E-07 1.2162E-08 CC-AA-309-1001, Rev 2

Attachment D Page 38 of 47 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) o.OOOOE+00 7.5568E+18 Elemental I (atoms) 0.OOOOE+00 6.2480E+14 Organic I (atoms) 0.OOOOE+00 4.6119E+14 Aerosols (kg) 0.OOOOE+00 2.9448E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 3.7974E+19 0.OOOOE+00 Elemental I (atoms) 6.4127E+14 0.OOOOE+00 Organic I (atoms) 4.5031E+14 0.OOOOE+00 Aerosols (kg) 3.0601E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4491E+01 2.4234E+02 2.2186E+01 Accumulated dose (rem) 3.3028E+01 7.5438E+02 6.9131E+01 Low Population Zone Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.0612E-01 1.1663E+00 1.4316E-01 Accumulated dose (rem) 5.9105E-01 1.4681E+01 1.3873E+00 Control Room Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.7230E-02 4.8526E+00 2.3388E-01 Accumulated dose (rem) 3.8569E-01 5.7385E+01 3.4416E+00 Environment Integral Nuclide Release:

Time (h) 96.0000 Ci kg Atoms Bq Co-58 2.8205E-02 8.8699E-10 9.2096E+15 1.0436E+09 Co-60 3.3863E-02 2.9957E-08 3.0068E+17 1.2529E+09 Kr-85 2. 1959E+04 5.5969E-02 3.9653E+23 8.1247E+14 Kr-85m 1.0816E+04 1.3143E-06 9.3119E+18 4.0020E+14 Kr-87 1.8483E+03 6.5251E-08 4.5167E+17 6.8386E+13 Kr-88 1.3146E+04 1.0484E-06 7.1746E+18 4.8641E+14 Rb-86 1.3855E+00 1.7027E-08 1.1923E+17 5.1262E+10 Sr-89 3.5783E+01 1.2317E-06 8.3342E+18 1.3240E+12 Sr-90 5.2232E+00 3.8291E-05 2.5622E+20 1.9326E+11 Sr-91 2.7448E+01 7.5718E-09 5.0108E+16 1.0156E+12 Sr-92 1.2027E+01 9.5688E-10 6.2636E+15 4. 4502E+11 Y-90 4. 1508E-01 7.6293E-10 5.1050E+15 1.5358E+10 Y-91 5.0668E-01 2.0661E-08 1.3673E+17 1.8747E+10 Y-92 8.8820E+00 9.2306E-10 6.0422E+15 3.2864E+11 Y-93 3.6071E-01 1.0812E-10 7.0010E+14 1.3346E+10 Zr-95 6.5543E-01 3.0509E-08 1.9340E+17 2.4251E+10 l CC-AA-309-1001, Rev 2

Attachment D Page 39 of 47 Zr-97 4. 9236E-01 2.5756E-10 1.5990E+15 1.8217E+10 Nb-95 6. 6083E-01 1.6900E-08 1.0713E+17 2.4451E+10 Mo-99 8.7303E+00 1.8203E-08 1. 1073E+17 3.2302E+11 Tc-99m 8. 0851E+00 1.5376E-09 9. 3532E+15 2. 9915E+ll Ru-103 7. 9315E+00 2.4576E-07 1.4369E+18 2. 9347E+ll Ru-105 2. 1361E+00 3.1778E-10 1.8226E+15 7. 9037E+10 Ru-106 3.3975E+00 1.0155E-06 5.7695E+18 1.2571E+ll Rh-105 4.9765E+00 5.8959E-09 3.3815E+16 1.8413E+11 Sb-127 1.0464E+01 3. 9184E-08 1.8580E+17 3.8717E+11 Sb-129 1.2233E+01 2.1754E-09 1.0156E+16 4.5263E+11 Te-127 1. 0722E+01 4.0627E-09 1. 9265E+16 3. 9671E+11 Te-127m 1.5036E+00 1.5940E-07 7. 5587E+17 5.5633E+10 Te-129 1. 6117E+01 7. 6961E-10 3.5928E+15 5.9635E+11 Te-129m 4.8030E+00 1.5943E-07 .7.4429E+17 1.7771E+ll Te-131m 1.2277E+01 1.5396E-08 7.0776E+16 4.5424E+11 Te-132 1.3293E+02 4.3786E-07 1. 9976E+18 4. 9184E+12 I-131 1.1716E+03 9.4506E-06 4.3445E+19 4.3350E+13 I-132 4.0717E+02 3.9446E-08 1. 7996E+17 1.5065E+13 I-133 1.3691E+03 1.2086E-06 5.4723E+18 5.0655E+13 I-134 8. 1010E+01 3.0367E-09 1.3647E+16 2. 9974E+12 I-135 7.0054E+02 1.9948E-07 8.8984E+17 2.5920E+13 Xe-133 2.0441E+06 1.0920E-02 4.9447E+22 7. 5632E+16 Xe-135 1.2615E+05 4.9399E-05 2.2036E+20 4. 6676E+15 Cs-134 1.5820E+02 1.2227E-04 5.4951E+20 5. 8534E+12 Cs-136 4. 6215E+01 6.3057E-07 2.7922E+18 1.7100E+12 Cs-137 9.7369E+01 1.1194E-03 4. 9207E+21 3. 6027E+12 Ba-139 7.2186E+00 4.4132E-10 1.9120E+15 2. 6709E+11 Ba-140 6.8544E+01 9.3629E-07 4.0275E+18 2.5361E+12 La-140 8.0349E+00 1.4456E-08 6. 2182E+16 2. 9729E+11 La-141 2.2684E-01 4.0110E-ll 1.7131E+14 8.3930E+09 La-142 7.5072E-02 5.2443E-12 2.2241E+13 2.7777E+09 Ce-141 1.6440E+00 5.7698E-08 2.4643E+17 6.0828E+1C Ce-143 1.2927E+00 1.9465E-09 8.1974E+15 4.7828E+1C Ce-144 1.3617E+00 4.2694E-07 1.7855E+18 5. 0384E+1C Pr-143 5. 9729E-01 8.8699E-09 3.7354E+16 2.2100E+1C Nd-147 2. 6098E-01 3.2260E-09 1.3216E+16 9. 6562E+09 Np-239 1. 8796E+01 8. 1019E-08 2.0415E+17 6. 9544E+11 Pu-238 6.5442E-03 3.8226E-07 9. 6724E+17 2.4213E+08 Pu-239 5.4608E-04 8.7856E-06 2.2137E+19 2.0205E+07 Pu-240 7.4063E-04 3.2503E-06 8. 1557E+18 2.7403E+07 Pu-241 2.4798E-01 2.4073E-06 6.0153E+18 9. 1752E+09 Am-241 1.4627E-04 4.2617E-08 1.0649E+17 5. 4119E+06 Cm-242 3.3782E-02 1.0193E-08 2.5365E+16 1.2499E+09 Cm-244 2.3999E-03 2.9664E-08 7.3212E+16 8.8795E+07 Environment Transport Group Inventory:

Total Release Time (h) = 96.0000 Release Rate/s Noble gases (atoms) 4.4622E+23 1.2911E+18 Elemental I (atoms) 2.9662E+18 8.5829E+12 Organic I (atoms) 2.0477E+19 5.9252E+13 Aerosols (kg) 1.3063E-03 3.7798E-09 Dose Effective (Ci) I-131 (Thyroid) 1.4223E+03 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1.6119E+03 r CC-AA-309-1001, Rev 2

Attachment D Page 40 of 47 Total I (Ci) 3.7294E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.8116E+23 Elemental I (atoms) 1.7192E+18 1.7192E+18 Organic I (atoms) 0.OOOOE+00 8.3825E+18 Aerosols (kg) 7.2866E-03 1.1197E-03 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.0000E+00 1.8106E+23 Elemental I (atoms) 8.5750E+17 8.5750E+17 Organic I (atoms) 0.0000E+00 8.3693E+18 Aerosols (kg) 1.1262E-03 1.6665E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 8.4252E+22 Elemental I (atoms) 3.9946E+17 3.9946E+17 Organic I (atoms) 0.6948E+00 3.8305E+18 Aerosols (kg) 2.6948E-04 1.9941E-05 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0335E+20 Elemental I (atoms) 1.3059E+15 2.6945E+13 Organic I (atoms) 4.9068E+15 5.1067E+13 Aerosols (kg) 7.3497E-07 1.2217E-08 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.3170E+19 Elemental I (atoms) 0.OOOOE+00 6.6824E+14 Organic I (atoms) 0.OOOOE+00 1.1424E+15 Aerosols (kg) 0.OOOOE+00 2.9571E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 1.2483E+20 0.OOOOE+00 Elemental I (atoms) 6.8795E+14 0.OOOOE+00 Organic I (atoms) 1.1715E+15 0.OOOOE+00 Aerosols (kg) 3.0792E-07 0.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment D Page 41 of 47 Exclusion Area Boundary Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9585E+01 5.0156E+02 3.4858E+01 Accumulated dose (rem) 5.2613E+01 1.2559E+03 1.0399E+02 Low Population Zone Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 3.6290E-02 6.1072E-01 5.4887E-02 Accumulated dose (rem) 6.2734E-01 1.5292E+01 1.4422E+00 Control Room Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.0977E-02 3.8944E+00 1.5957E-01 Accumulated dose (rem) 4.2667E-01 6.1279E+01 3.6012E+00 Environment Integral Nuclide Release:

Time (h) = 720.0000 Ci kg Atoms Bq Co-58 2.8205E-02 8.8699E-10 9.2096E+15 1.0436E+09 Co-60 3.3863E-02 2.9957E-08 3.0068E+17 1.2529E+09 Kr-85 1.2357E+05 3.1495E-01 2.2314E+24 4.5720E+15 Kr-85m 1.0816E+04 1.3143E-06 9.3119E+18 4.0020E+14 Kr-87 1.8483E+03 6.5251E-08 4.5167E+17 6.8386E+13 Kr-88 1.3146E+04 1.0484E-06 7.1746E+18 4.8641E+14 Rb-86 1.3855E+00 1.7027E-08 1.1923E+17 5.1262E+10 Sr-89 3.5783E+01 1.2317E-06 8.3342E+18 1.3240E+12 Sr-90 5.2232E+00 3.8291E-05 2.5622E+20 1. 9326E+ll Sr-91 2.7448E+01 7.5718E-09 5.0108E+16 1.0156E+12 Sr-92 1.2027E+01 9.5688E-10 6.2636E+15 4.4502E+11 Y-90 4.1508E-01 7.6293E-10 5.1050E+15 1.5358E+10 Y-91 5.0668E-01 2.0661E-08 1.3673E+17 1.8747E+10 Y-92 8.8820E+00 9.2306E-10 6.0422E+15 3.2864E+11 Y-93 3.6071E-01 1. 0812E-10 7.0010E+14 1.3346E+10 Zr-95 6.5543E-01 3.0509E-08 1.9340E+17 2.4251E+10 Zr-97 4. 9236E-01 2.5756E-10 1.5990E+15 1.8217E+10 Nb-95 6.6083E-01 1.6900E-08 1.0713E+17 2.4451E+10 Mo-99 8.7303E+00 1.8203E-08 1.1073E+17 3.2302E+11 Tc-99m 8.0851E+00 1.5376E-09 9.3532E+15 2.9915E+ll Ru-103 7.9315E+00 2.4576E-07 1.4369E+18 2.9347E+11 Ru-105 2.1361E+00 3. 1778E-10 1.8226E+15 7.9037E+10 Ru-106 3.3975E+00 1.0155E-06 5.7695E+18 1.2571E+11 Rh-105 4.9765E+00 5.8959E-09 3.3815E+16 1.8413E+11 Sb-127 1.0464E+01 3. 9184E-08 1.8580E+17 3.8717E+11 Sb-129 1.2233E+01 2. 1754E-09 1.0156E+16 4.5263E+11 Te-127 1.0722E+01 4.0627E-09 1.9265E+16 3.9671E+ll Te-127m 1.5036E+00 1.5940E-07 7.5587E+17 5.5633E+10 Te-129 1.6117E+01 7.6961E-10 3.5928E+15 5.9635E+11 Te-129m 4.8030E+00 1.5943E-07 7.4429E+17 1.7771E+ll Te-131m 1.2277E+01 1.5396E-08 7.0776E+16 4.5424E+ll Te-132 1.3293E+02 4.3786E-07 1.9976E+18 4.9184E+12 I-131 2. 1406E+03 1.7266E-05 7.9375E+19 7.9202E+13 CC-AA-309-1001, Rev 2

Attachment D Page 42 of 47 I-132 4.0717E+02 3.9,447E-08 1.7996E+17 1.5065E+13 I-133 1.3855E+03 1.2230E-06 5.5379E+18 5.1263E+13 I-134 8.1010E+01 3.C367E-09 1.3647E+16 2.9974E+12 I-135 7.0054E+02 1.9948E-07 8.8984E+17 2.5920E+13 Xe-133 4.5051E+06 2.4068E-02 1.0898E+23 1.6669E+1' Xe-135 1.2627E+05 4.9445E-05 2.2057E+20 4.6720E+15 Cs-134 1.5820E+02 1.2227E-04 5.4951E+20 5.8534E+12 Cs-136 4.6215E+01 6.3057E-07 2.7922E+18 1.7100E+12 Cs-137 9.7369E+01 1.1194E-03 4. 9207E+21 3.6027E+12 Ba-139 7.2186E+00 4.4132E-10 1.9120E+15 2.6709E+11 Ba-140 6.8544E+01 9.3629E-07 4.0275E+18 2.5361E+12 La-140 8.0350E+00 1.4456E-08 6.2182E+16 2.9729E+11 La-141 2.2684E-01 4.0110E-11 1.7131E+14 8.3930E+09 La-142 7.5072E-02 5.2443E-12 2.2241E+13 2.7777E+09 Ce-141 1.6440E+00 5.7698E-08 2.4643E+17 6.0828E+10 Ce-143 1.2927E+00 1.9465E-09 8.1974E+15 4.7828E+10 Ce-144 1.3617E+00 4.2694E-07 1 7855E+18 5.0384E+10 Pr-143 5. 9729E-01 8.8699E-09 3.7354E+16 2.2100E+10 Nd-147 2. 6098E-01 3.2260E-09 1.3216E+16 9.6562E+09 Np-239 1.8796E+01 8.1019E-08 2.0415E+17 6.9544E+11 Pu-238 6.5442E-03 3.8226E-07 9.6724E+17 2.4214E+OE:

Pu-239 5.4608E-04 8.7856E-06 2.2137E+19 2.0205E+07 Pu-240 7.4064E-04 3.2503E-06 8.1557E+18 2.7404E+07 Pu-241 2.4798E-01 2.4073E-06 6.0153E+18 9. 1752E+09 Am-241 1.4627E-04 4.2617E-08 1.0649E+17 5.4119E+06O Cm-242 3.3782E-02 1.0193E-08 2.5365E+16 1. 2499E+09 Cm-244 2.3999E-03 2.9664E-08 7.3212E+16 8.8795E+07 Environment Transport Group Inventory:

Total Relea se Time (h) = 720.0000 Release Rate/ s Noble gases (atoms) 2.3406E+24 9.0302 E+17 Elemental I (atoms) 5.0398E+18 1.9444 E+12 Organic I (atoms) 5.4399E+19 2.0987 E+13 Aerosols (kg) 1.3063E-03 5.0398 E-10 Dose Effective (Ci) I-131 (Thyroid) 2.3940E+03 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 2.5853E+03 Total I (Ci) 4. 7148E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 9.3783E+23 Elemental I (atoms) 2.9070E+18 2.9070E+18 Organic I (atoms) 0.OOOOE+00 2.1979E+19 Aerosols (kg) 7.2866E-03 1.1197E-03 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 9.3777E+23 Elemental I (atoms) 1.4515E+18 1.4515E+18 l CC-AA-309-1001, Rev 2

Attachment D Page 43 of 47 Organic I (atoms) 0.OOOOE+00 2.1966E+19 Aerosols (kg) 1.1262E-03 1.6665E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.0000E+00 4.6563E+23 Elemental I (atoms) 6.9882E+17 6.9882E+17 Organic I (atoms) 0.OOOOE+00 1.0683E+19 Aerosols (kg) 2.6949E-04 1.9942E-05 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.2547E+20 Elemental I (atoms) 1.5475E+15 2.9385E+13 Organic I (atoms) 8.8582E+15 9.0979E+13 Aerosols (kg) 7.3497E-07 1.2217E-08 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.2531E+19 Elemental I (atoms) 0.OOOOE+00 7.2245E+14 Organic I (atoms) 0.OOOOE+00 2.0294E+15 Aerosols (kg) 0.OOOOE+00 2.9571E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 3.9742E+20 0.OOOOE+00 Elemental I (atoms) 7.4498E+14 0.OOOOE+00 Organic I (atoms) 2.1044E+15 0.OOOOE+00 Aerosols (kg) 3.0792E-07 0.0000E+00 930 I-131 Summary Drywell MSIV Failed Control V Intact Control Volume Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curies) 0.000 4.5398E+03 0.OOOOE+00 0.OOOOE+00 0.033 2.6872E+05 0.OOOOE+00 0.OOOOE+00 0.400 2.8307E+06 7.6676E+01 7.5746E+01 0.500 3.4219E+06 1.1620E+02 1.1443E+02 0.667 5.3103E+06 2.0709E+02 2.0306E+02 1.000 8.8331E+06 4.9351E+02 4.8006E+02 1.160 1.0413E+07 6.7414E+02 6.5314E+02 1.410 1.2763E+07 1.0040E+03 9.6654E+02 CC-AA-309-1001, Rev 2

Attachment D Page 44 of 47 1.660 1.4976E+07 1.3843E+03 1.3240E+O,

1. 910 1.7060E+07 1.8068E+03 1.7170E+O, 2.000 1.7781E+07 1.9679E+03 1.8657E+O$

2.400 1.2108E+07 2.2847E+03 2.1471E+O-:

2.700 9. 1056E+06 2.4101E+03 2.2447E+O3 3.000 6.8575E+06 2.4682E+03 2.2755E+O-,

3.050 6. 5416E+06 2.4727E+03 2.2756E+O, 3.350 4. 9361E+06 2.4758E+03 2.2529E+03

3. 600 3.9056E+06 2.4529E+03 2.2101E+03 3.900 2. 9512E+06 2.4036E+03 2.1389E+03 4.200 2.2325E+06 2.3375E+03 2.0534E+O-;

4.500 1.6914E+06 2.2604E+03 1.9593E+O; 4.800 1.2840E+06 2. 1763E+03 1.8606E+O-;

5.100 1.0106E+06 2.0885E+03 1.7606E+O-;

5.400 8.5226E+05 2.0007E+03 1.6628E+O-;

5.700 7. 1981E+05 1.9141E+03 1.5683E+03 6.000 6.0899E+05 1.8292E+03 1.4773E+O-;

6.300 5.1628E+05 1.7464E+03 1.3902E+03 6.600 4.3871E+05 1.6660E+03 1.3070E+03 6.900 3.7380E+05 1.5881E+03 1.2278E+O$

7.200 3.1949E+05 1. 5130E+03 1.1526E+O-7.500 2.7405E+05 1.4406E+03 1.0814E+O_

7.800 2.3603E+05 1.3710E+03 1.0140E+O-8.000 2. 1419E+05 1.3262E+03 9.7116E+02 8.300 1.8593E+05 1.2614E+03 9.0997E+02 8.600 1.6543E+05 1.1993E+03 8.5238E+02 8.900 1.4782E+05 1. 1401E+03 7.9824E+02 9.200 1.3270E+05 1.0836E+03 7.4740E+02 9.500 1. 1971E+05 1.0298E+03 6.9967E+02 9.800 1.0856E+05 9.7848E+02 6.5491E+02 10.100 9.8970E+04 9.2961E+02 6.1293E+02

10. 400 9.0733E+04 8.8310E+02 5.7360E+02 24.000 3. 8631E+04 9.4023E+01 3.7307E+01

96. 000 2.7199E+04 1.2420E+01 9.4697E+OC 720. 000 1.3252E+03 6.0512E-01 4.6137E-01 Intact Control Volume Intact Control Volume Intact Control Volume Time (hr) I-131 (Curies I-131 (Curies) I-131 (Curies) 0.000 O. OOOOE+00 O.OOOOE+00 O.OOOOE+OC 0.033 O.OOOOE+00 O.OOOOE+00 O.OOOOE+OC 0.400 6.0688E-01 3.8825E+01 7.9030E-02 0.500 1.1231E+00 5.9072E+01 1.4840E-0O 0.667 2.4621E+00 1.0587E+02 3.3300E-0O 1.000 7.6708E+00 2.5491E+02 1.0805E+OC 1.160 1.1607E+01 3.5004E+02 1.6665E+OC 1.410 1.9755E+01 5.2575E+02 2.9233E+OC 1.660 3.0316E+01 7.3108E+02 4.6267E+OC 1.910 4.3166E+01 9.6250E+02 6.7956E+OC 2.000 4.8315E+01 1.0516E+03 7.6918E+OC 2.400 6.2336E+01 1.2356E+03 1.0247E+01 2.700 7.2175E+01 1.3189E+03 1.2217E+01 3.000 8.0679E+01 1.3688E+03 1.4128E+01 3.050 8.1943E+01 1.3745E+03 1.4436E+01 3.350 8.8549E+01 1.3964E+03 1.6207E+01 3.600 9.2773E+01 1.4014E+03 1.7566E+01 CC-AA-309-1001, Rev 2

Attachment D Page 45 of 47 3.900 9. 6371E+01 1.3954E+03 1. 9044E+01 4.200 9.8502E+01 1.3799E+03 2.0347E+0l 4.500 9. 9345E+01 1.3575E+03 2.1478E+01 4.800 9. 9090E+01 1.3303E+03 2.2442E+01 5.100 9.7923E+01 1.2999E+03 2.3247E+01 5.400 9. 6028E+01 1.2682E+03 2. 3905E+01 5.700 9.3575E+01 1.2358E+03 2.4429E+01 6.000 9. 0705E+01 1.2030E+03 2.4832E+01 6.300 8.7536E+01 1.1701E+03 2. 5126E+01 6.600 8. 4163E+01 1.1373E+03 2.5321E+01 6.900 8.0665E+01 1.1047E+03 2.5428E+01 7.200 7.7104E+01 1.0725E+03 2.5458E+01 7.500 7.3531E+01 1.0408E+03 2.5418E+01 7.800 6.9986E+01 1.0096E+03 2.5317E+01 8.000 6.7653E+01 9.8918E+02 2.5220E+01 8.300 6.4221E+01 9.5905E+02 2.5034E+01

8. 600 6.0884E+01 9.2963E+02 2.4805E+01 8.900 5.7658E+01 9.0096E+02 2. 4539E+01 9.200 5.4555E+01 8.7303E+02 2.4242E+01 9.500 5. 1581E+01 8.4585E+02 2.3919E+01 9.800 4.8740E+01 8.1942E+02 2.3573E+01

10. 100 4. 6035E+01 7.9374E+02 2.3208E+01

10. 400 4.3464E+01 7.6880E+02 2.2829E+01 24.000 5.7385E+00 1.8148E+02 8.8053E+00

96. 000 2.8197E+00 1.0241E+01 2.8390E+0O 720. 000 1.3738E-01 4.9626E-01 1.3824E-01 Environment Control Room Void Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curies) 0.000 O.OOOOE+00 O.OOOOE+00 1.1492E-03 0.033 O.OOOOE+00 O.OOOOE+00 4.0943E+00 0.400 4.7972E-01 4.1316E-03 5.4049E+02 0.500 9.2271E-Ol 6.5992E-03 8.2544E+02 0.667 2.1482E+00 1.2189E-02 1.4895E+03 1.000 7.4199E+00 1.0545E-02 3.6424E+03 1.160 1.1772E+01 1.0225E-02 5.0437E+03 1.410 2.1558E+01 1.0352E-02 7.6808E+03 1.660 3.5568E+01 1.1236E-02 1.0835E+04

1. 910 5.4378E+01 1.2861E-02 1.4475E+04 2.000 6.2421E+01 1.3621E-02 1.5899E+04 2.400 8.6345E+01 1.3596E-02 2.2074E+04 2.700 1.0623E+02 1.3858E-02 2.5370E+04 3.000 1.2707E+02 1.4208E-02 2.7841E+04 3.050 1.3060E+02 1.4269E-02 2.8188E+04 3.350 1.5200E+02 1. 4619E-02 2.9954E+04

3. 600 1.6993E+02 1.4872E-02 3.1083E+04 3.900 1.9134E+02 1.5105E-02 3.2123E+04 4 .200 2.1246E+02 1.5250E-02 3.2901E+04 4.500 2.3315E+02 1.5304E-02 3.3480E+04 4.800 2.5331E+02 1.5270E-02 3.3910E+04 5.100 2.7287E+02 1.5155E-02 3.4230E+04 5.400 2.9179E+02 1.4969E-02 3.4487E+04 5.700 3.1006E+02 1.4723E-02 3.4697E+04 6.000 3.2766E+02 1.4429E-02 3.4869E+04 6.300 3.4461E+02 1.4096E-02 3.5009E+04 l CC-AA-309-1001, Rev 2

mm-Attachment D Page 46 of 47 6.600 3. 6091E+02 1.3732E-02 3.5122E+04 6.900 3.7656E+02 1.3346E-02 3. 5213E+04 7.200 3. 9159E+02 1.2943E-02 3.5284E+04 7.500 4.0601E+02 1.2530E-02 3.5340E+04 7.800 4. 1984E+02 1.2111E-02 3.5383E+04 8.000 4.2874E+02 1. 1830E-02 3.5405E+04 8.300 4.4163E+02 1.0341E-02 3.5431E+04 8.600 4.5399E+02 9. 1072E-03 3.5448E+04

8. 900 4.6583E+02 8.0811E-03 3.5460E+04 9.200 4.7718E+02 7.2237E-03 3.5467E+04 9.500 4.8805E+02 6.5035E-03 3.5469E+04 9.800 4.9848E+02 5.8951E-03 3.5467E+04 10.100 5.0849E+02 5.3781E-03 3.5462E+04

10. 400 5. 1808E+02 4.9360E-03 3.5454E+04 24.000 7.3595E+02 9. 4162E-04 3.4444E+04

96. 000 1. 1716E+03 3. 1579E-04 2.8792E+04 720.000 2. 1406E+03 9. 1518E-06 4.3783E+03 Cumulative Dose Summary Exclusion Area Bounda Low Population Zone Contro] L Roomr.

Time Thyroid TEDE Thyroid TEDE Thyroid TE DE (hr) (rem) (rem) (rem) (rem) (rem) (rem) 0.000 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.033 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.400 3.4901E-01 1.8503E-02 2.6689E-02 1.4149E-03 1. 9258E-01 8.3876E-03 0.500 6. 7067E-01 3. 5617E-02 5.1287E-02 2.7237E-03 3. 9047E-01 1.7027E-02 0.667 1.5606E+00 8.4325E-02 1.1934E-01 6.4484E-03 9.5901E-01 4.2230E-02 1.000 5. 4138E+00 3.2286E-01 4.1400E-01 2.4690E-02 2.3421E+00 1.048 6E-01 1.160 8.6049E+00 5.3645E-01 6. 5802E-01 4. 1023E-02 2.9508E+00 1.3284E-01 1.410 1.5794E+01 1.0420E+00 1.2078E+00 7.9686E-02 3.8893E+00 1. 7715E-01 1.660 2. 6097E+01 1 .7972E+00 1.9956E+00 1.3743E-01 4.8752E+00 2.2588E-01 1.910 3. 9930E+01 2.8408E+00 3.0534E+00 2. 1724E-01 5.9784E+00 2.8329E-01 2.000 4.5843E+01 3.2935E+00 3.5056E+00 2.5186E-01 6. 4173E+00 3.0689E-01 2.400 6. 3416E+01 4. 6551E+00 4.0406E+00 2.9331E-01 8.4172E+00 4.1716E-01 2.700 7. 7977E+01 5.7978E+00 4.4838E+00 3.2809E-01 9.9329E+00 5.0310E-01 3.000 9.3202E+01 7.0077E+00 4.9473E+00 3. 6492E-01 1. 1482E+01 5.927 9E-01 3.050 9. 5778E+01 7.2136E+00 5.0257E+00 3.7119E-01 1. 1743E+01 6. 0810E-01 3.350 1. 1135E+02 8.4700E+00 5.4999E+00 4.0944E-01 1.3335E+01 7.0224E-01 3.600 1.2437E+02 9.5317E+00 5.8960E+00 4. 4176E-01 1.4688E+01 7. 831OE-01 3.900 1.3987E+02 1.0811E+01 6.3679E+00 4.8071E-01 1. 6335E+01 8.8318E-01 4.200 1.5511E+02 1.2085E+01 6.8320E+00 5. 1950E-01 1.7999E+01 9.8522E-01 4.500 1.7000E+02 1.3345E+01 7.2853E+00 5. 5783E-01 1. 9671E+01 1.08E.6E+00 4.800 1.8447E+02 1.4583E+01 7.7256E+00 5.9551E-01 2. 1340E+01 1.192z7E+00 5.100 1.9846E+02 1.5794E+01 8.1516E+00 6. 3237E-01 2.2996E+01 1.2967E+00 5.400 2. 1196E+02 1. 6974E+01 8.5624E+00 6. 6831E-01 2. 4632E+01 1.40C01E+00 5.700 2.2495E+02 1. 8122E+01 8.9579E+00 7. 0326E-01 2. 6240E+01 1.502 2E+00 6.000 2.3744E+02 1. 9237E+01 9.3380E+00 7.3718E-01 2. 7815E+01 1.6028E+00 6.300 2.4942E+02 2.0316E+01 9.7028E+00 7.7005E-01 2. 9352E+01 1.7013E+00 6.600 2. 6091E+02 2.1360E+01 1. 0053E+01 8.0184E-01 3.0847E+01 1.79/5E+00 6.900 2.7192E+02 2.2369E+01 1.0388E+01 8.3255E-01 3.2298E+01 1. 8913E+00 7.200 2.8246E+02 2.3343E+01 1.0708E+01 8. 6219E-01 3.3703E+01 1.9823E+00 7.500 2.9254E+02 2.4282E+01 1.1015E+01 8. 9078E-01 3.5061E+01 2.07C6E+00 CC-AA-309-1001, Rev 2

Attachment D Page 47 of 47 7.800 3. 0218E+02 2.5187E+01 1.1309E+01 9. 1832E-01 3. 6371E+01 2. 1560E+00 8.000 3.0837E+02 2.5772E+01 1.1497E+01 9. 3612E-01 3. 7218E+01 2.2113E+00 8.300 3. 1731E+02 2.6621E+01 1.1586E+01 9. 4766E-01 3. 8389E+01 2.2878E+00 8.600 3.2586E+02 2.7439E+01 1.1671E+01 9. 5881E-01 3. 9414E+01 2.3548E+00 8.900 3.3403E+02 2.8226E+01 1. 1752E+01 9.6958E-01 4.0318E+01 2.4138E+00 9.200 3. 4185E+02 2.8983E+01 1.1829E+01 9.7998E-01 4. 1121E+01 2.4663E+00 9.500 3. 4931E+02 2.9711E+01 1.1903E+01 9. 9002E-01 4.1840E+01 2.5133E+00 9.800 3.5645E+02 3.0411E+01 1.1974E+01 9. 9971E-01 4.2487E+01 2.5556E+00 10.100 3.6328E+02 3.1085E+01 1.2041E+01 1. 0091E+00 4.3074E+01 2. 5941E+00

10. 400 3.6981E+02 3.1733E+01 1.2106E+01 1. 0181E+00 4. 3610E+01 2.6293E+00 24.000 5.1203E+02 4. 6945E+01 1. 3515E+01 1.2441E+00 5.2532E+01 3.2077E+00 96.000 7.5438E+02 6.9131E+01 1.4681E+01 1.3873E+00 5. 7385E+01 3. 4416E+00 720.000 1.2559E+03 1.0399E+02 1.5292E+01 1.4422E+00 6.1279E+01 3.6012E+00 Worst Two-Hour Doses Exclusion Area Boundary Time Whole Body Thyroid TEDE (hr) (rem) (rem) (rem) 3.0 2.5151E+00 1.0060E+02 8.3822E+00 l CC-AA-309-1001, Rev 2

Attachment E Page 1 of 48 Attachment E RADTRAD Output - QDC400MS52.psf RADTRAD Version 3.03 (Spring 2001) run on 8/31/2005 at 13:24:44 File information Plant file = C:\RADTRAD 3.03\Input\Quad\QDC400MS52.psf Inventory file = c:\radtrad 3.03\defaults\qdc def.txt Release file = c:\radtrad 3.03\defaults\bwrdba.rft Dose Conversion file = c:\radtrad 3.03\defaults\fgrll&12.inp Radtrad 3.03 4/15/2001 Quad Cities CR External Cloud Gamma Dose @ CR Air Intake Due to MSIV Leakage - MSIV Leakage = 150 scfh, 40% Aerosol Settling Velocity, CREV Manually Started @ 40 Minutes, CR Unfiltered Inleakage = 62,000 cfm for <0.6667 hrs and 400 cfm >0.6667 hrs , CREV Nuclide Inventory File:

c:\radtrad 3.03\defaults\qdc-def.txt Plant Power Level:

3.0160E+03 Compartments:

9 Compartment 1:

Drywell 3

1.5800E+05 1

0 0

1 0

Compartment 2:

MSIV Failed Control Vol 1 3

2.0024E+02 CC-AA-309-1001, Rev 2

Attachment E Page 2 of 48 0

0 0

Compartment 3:

Intact Control Volume 2 3

1.5293E+02 0

0 0

Compartment 4:

Intact Control Volume 3 3

4.9110E+01 0

0 0

Compartment 5:

Intact Control Volume 4 3

1.6375E+02 0

0 0

Compartment 6:

Intact Control Volume 5 3

4.9110E+01 0

0 0

Compartment 7:

Environment 2

O.OOOOE+00 0

0 0

Compartment 8:

Control Room 1

1.8400E+05 0

I CC-AA-309-1001, Rev 2

Attachment E Page 3 of 48 0

0 0

0 Compartment 9:

Void 3

1.OOOOE+05 0

0 0

Pathways:

12 Pathway 1:

Drywell to MSIV Failed Control Vol 1 1

2 2

Pathway 2:

MSIV Failed Control Vol 1 to Environment 2

7 2

Pathway 3:

Drywell to Intact Control Volume 2 1

3 2

Pathway 4:

Intact Control Volume 2 to Intact Control Volume 3 3

4 2

Pathway 5:

Intact Control Volume 3 to Environment 4

7 2

Pathway 6:

Drywell to Intact Control Volume 4 1

5

.2 Pathway 7:

Intact Control Volume 4 to Intact Control Volume 5 5

6 2

Pathway 8:

Intact Control Volume 5 to Environment 6

7 2

CC-AA-309-1001, Rev 2

Attachment E Page 4 of 48 Pathway 9:

Filtered Intake to Control Room 7

8 2

Pathway 10:

Unfiltered Inleakage to Control Room 7

8 2

Pathway 11:

Control Room Exhaust to Environment 8

7 2

Pathway 12:

Drywell to Void 1

9 4

End of Plant Model File Scenario Description Name:

Plant Model Filename:

Source Term:

1 1 1.0000E+00 c:\radtrad 3.03\defaults\fgrll&12.inp c:\radtrad 3.03\defaults\bwrdba.rft 0.0000E+00 1

9.5000E-01 4.8500E-02 1.5000E-03 1.0000E+00 Overlying Pool:

0 0.OOOOE+00 0

0 0

0 Compartments:

9 Compartment 1:

0 1

1 0.OOOOE+00 0

1 0.OOOOE+00 2

0.OOOOE+00 3.2800E+00 3.0500E+00 0.OOOOE+00 1

0.OOOOE+00 I CC-AA-309-1001, Rev 2

Attachment E Page 5 of 48 0

0 0

3 3

1.OOOOE+01 0

Compartment 2:

0 1

0 0

0 Compartment 3:

0 1

0 0

0 Compartment 4:

0 1

0 0

0 Compartment 5:

0 1

0 0

0 Compartment 6:

0 1

0 0

0 CC-)A-309-1001, Rev 2

Attachment E Page 6 of 48 0

0 Compartment 7:

1 1

0 0

0 o

0 Compartment 8:

0 1

0 0

Compartment 9:

0 1

0 0

Pathways:

12 Pathway 1:

0 0

0 1

4 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 3.57OOE-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00

2. OOOOE+00 2. 10OOE-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+0.0 0

0 0

0 Pathway 2:

0 0

CC-AA-309-1001, Rev 2

Attachment E Page 7 of 48 0

0 0

1 4

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.OOOOE+00 8. 6680E+01 5. OOOOE+01 O.OOOOE+00 2.0000E+00 5. 8700E-01 8. 6680E+01 5. OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 3:

0 0

0 1

4 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 3.5700E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 2.10OOE-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 4:

0 0

0 1

4 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.OOOOE+00 8.4620E+01 5. OOOOE+01 O.OOOOE+00 2.OOOOE+00 5.87O0E-01 8.4620E+01 5.OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 5:

0 0

0 I CC-AA-309-1001, Rev 2

Attachment E Page 8 of 48 0

0 1

4 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.OOOOE+00 8.7110E+01 5. OOOOE+01 O.OOOOE+00 2.OOOOE+00 5.8700E-01 8.7110E+01 5.OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 6:

0 0

0 1

4 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 1.7800E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00

2. OOOOE+00 1.0500E-01 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00

7. 2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 1

4 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 5.OOO0E-01 9.3100E+01 5. OOOOE+01 O.OOOOE+00

2. OOOOE+00 2. 9400E-01 9. 3100E+01 5. OOOOE+01 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 8:

0 0

l CC-AA-309-1001, Rev 2

Attachment E Page 9 of 48 0

1 4

O . OOOOE+00 O. OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 5.O000E-01 9.3110E+01 5.OOOOE+01 O.OOOOE+00 2.OOOOE+00 2. 9400E-01 9.3110E+01 5. OOOOE+01 O. OOOOE+00 7.2000E+02 O. OOOOE+00 O. OOOOE+00 O. OOOOE+00 O. OOOOE+00 0

0 0

0 Pathway 9:

0 0

0 1

8 O.OOOOE+00 O.OOOOE+00 O. OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 2.2000E+03 O. OOOOE+00 O. OOOOE+00 O. OOOOE+00 6.6670E-01 1.8000E+03 9. 9000E+01 9.9000E+01 9. 9000E+01 2.OOOOE+00 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01 8.OOOOE+00 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 2.4000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 9.6000E+01 1.8000E+03 9. 9000E+01 9. 9000E+01 9. 9000E+01 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 10:

0 0

0 1

8 O. OOOOE+00 O.OOOOE+00 O.OOOOE+00 O. OOOOE+00 O. OOOOE+00 3.3300E-02 6.OOOOE+04 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 4.OOOOE+02 O.OOOOE+00 O. OOOOE+00 O.OOOOE+00 2.OOOOE+00 4.OOOOE+02 O.OOOOE+00 O. OOOOE+00 O.OOOOE+00 8.OOOOE+00 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.4000E+01 4.OOOOE+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 9.6000E+01 4.OOOOE+02 O. OOOOE+00 O. OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 CC-AA-309-1001, Rev 2

Attachment E Page 10 of 48 0

0 Pathway 11:

0 0

0 1

8 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 3.3300E-02 6.2200E+04 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 6.6670E-01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+00 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 8.OOOOE+00 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.4000E+01 2.2000E+03 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 9.6000E+01 2.2000E+03 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 7.2000E+02 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0

0 0

0 Pathway 12:

0 0

1 3

O.OOOOE+00 2.1870E+00

2. OOOOE+00 2. 5220E+00 7.2000E+02 O.OOOOE+00 0

Dose Locations:

3 Location 1:

Exclusion Area Boundary 7

1 2

O.OOOOE+00 1.3600E-03 7.2000E+02 O.OOOOE+00 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 0

CC-AA-309-1001, Rev 2

Attachment E Page 11 of48 Location 2:

CR Air Intake 7

1 6

O.OOOOE+00 1.0200E-03 2.OOOOE+00 8.2300E-04 8.OOOOE+00 3.5500E-04 2.4000E+01 2.3200E-04 9.6000E+01 1.3800E-04 7.2000E+02 O.OOOOE+00 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 0

Location 3:

Control Room 8

0 1

2 O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 1

4 O.OOOOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.0000E-01 7.2000E+02 O.OOOOE+00 Effective Volume Location:

1 6

O.OOOOE+00 1.0200E-03 2.0000E+00 8.2300E-04 8.OOOOE+00 3.5500E-04 2.4000E+01 2.3200E-04 9.6000E+01 1.3800E-04 7.2000E+02 O.OOOOE+00 Simulation Parameters:

7 O.OOOOE+00 l.OOOOE-01 l.0000E+00 l.OOOOE-02 2.0000E+00 5.0000E-01 8.OOOOE+00 l.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 5.OOOOE+00 7.2000E+02 O.OOOOE+00 Output Filename:

C:\RADTRAD 3.o213 1

1 1

0 0

CC-AA-309-1001, Rev 2

Attachment E Page 12 of 48 End of Scenario File CC-AA-309-1001, Rev 2

Attachment E Page 13 of 48 RADTRAD Version 3.03 (Spring 2001) run on 8/31/2005 at 13:24:44 Plant Description Number of Nuclides = 60 Inventory Power = 1.OOOOE+00 MWth Plant Power Level = 3.0160E+03 MWth Number of compartments = 9 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Drywell Compartment volume = 1.5800E+05 (Cubic feet)

Compartment type is Normal Removal devices within compartment:

Spray(s)

Deposition Pathways into and out of compartment 1 Exit Pathway Number 1: Drywell to MSIV Failed Control Vol 1 Exit Pathway Number 3: Drywell to Intact Control Volume 2 Exit Pathway Number 6: Drywell to Intact Control Volume 4 Exit Pathway Number 12: Drywell to Void Compartment number 2 Name: MSIV Failed Control Vol 1 Compartment volume = 2.0024E+02 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Drywell to MSIV Failed Control Vol 1 Exit Pathway Number 2: MSIV Failed Control Vol 1 to Environment Compartment number 3 Name: Intact Control Volume 2 Compartment volume = 1.5293E+02 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 3 Inlet Pathway Number 3: Drywell to Intact Control Volume 2 Exit Pathway Number 4: Intact Control Volume 2 to Intact Contrcl Volume 3 Compartment number 4 Name: Intact Control Volume 3 Compartment volume = 4.9110E+01 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 4 Inlet Pathway Number 4: Intact Control Volume 2 to Intact Control Volume 3 Exit Pathway Number 5: Intact Control Volume 3 to Environment CC-AA-309-1001, Rev 2

Attachment E Page 14 of 48 Compartment number 5 Name: Intact Control Volume 4 Compartment volume = 1.6375E+02 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 5 Inlet Pathway Number 6: Drywell to Intact Control Volume 4 Exit Pathway Number 7: Intact Control Volume 4 to Intact Control Volume 5 Compartment number 6 Name: Intact Control Volume 5 Compartment volume = 4.9110E+01 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 6 Inlet Pathway Number 7: Intact Control Volume 4 to Intact Contrcl Volume 5 Exit Pathway Number 8: Intact Control Volume 5 to Environment Compartment number 7 Name: Environment Compartment type is Environment Pathways into and out of compartment 7 Inlet Pathway Number 2: MSIV Failed Control Vol 1 to Environment Inlet Pathway Number 5: Intact Control Volume 3 to Environment Inlet Pathway Number 8: Intact Control Volume 5 to Environment Inlet Pathway Number 11: Control Room Exhaust to Environment Exit Pathway Number 9: Filtered Intake to Control Room Exit Pathway Number 10: Unfiltered Inleakage to Control Room Compartment number 8 Name: Control Room Compartment volume = 1.8400E+05 (Cubic feet)

Compartment type is Control Room Pathways into and out of compartment 8 Inlet Pathway Number 9: Filtered Intake to Control Room Inlet Pathway Number 10: Unfiltered Inleakage to Control Room Exit Pathway Number 11: Control Room Exhaust to Environment Compartment number 9 Name: Void Compartment volume = 1.OOOOE+05 (Cubic feet)

Compartment type is Normal Pathways into and out of compartment 9 Inlet Pathway Number 12: Drywell to Void Total number of pathways = 12 l_ CC-AA-309-1001, Rev 2

Attachment E Page 15 of 48 RADTRAD Version 3.03 (Spring 2001) run on 8/31/2005 at 13:24:44

1. 1. 1. 1. N##

Scenario Description

1. 1. 1. 1. 1I##

Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings GAP EARLY IN-VESSEL LATE RELEASE RELEASE MASS 0.500000 hr 1.5000 hrs 0.0000 hrs (gm)

NOBLES 5.OOOOE-02 9.5000E-01 0.OOOOE+00 4.239E+03 IODINE 5.OOOOE-02 2.5000E-01 0.OOOOE+00 2.605E+02 CESIUM 5.OOOOE-02 2.OOOOE-01 0.OOOOE+00 4.741E+04 TELLURIUM 0.OOOOE+00 5.OOOOE-02 0.OOOOE+00 3.503Ed01 STRONTIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 1.611E+03 BARIUM 0.OOOOE+00 2.OOOOE-02 0.OOOOE+00 3.902E+01 RUTHENIUM 0.OOOOE+00 2.5000E-03 0.OOOOE+00 5.389E401 CERIUM 0.OOOOE+00 5.OOOOE-04 0.OOOOE+00 6.272Ed02 LANTHANUM 0.OOOOE+00 2.OOOOE-04 0.OOOOE+00 6.647Ed00 Inventory Power = 3016. MWt Nuclide Group Specific half Whole Body Inhaled InhalEd Name Inventory life DCF Thyroid Effective (Ci/MWt) (s) (Sv-m3/Bq-s) (Sv/Bq) (Sv/Bq)

Co-58 7 1.529E+02 6.117E+06 4.760E-14 8.720E-10 2.94OE-09 Co-60 7 1.830E+02 1. 663E+08 1.260E-13 1.620E-08 5.910E-08 Kr-85 1 4.364E+02 3. 383E+08 1.190E-16 0. OOOE+00 0.000E+00 Kr-85m 1 6.772E+03 1. 613E+04 7.480E-15 0.OOOE+00 0. 000E+00 Kr-87 1 1.291E+04 4. 578E+03 4.120E-14 0. OOOE+00 0.OOOEd00 Kr-88 1 1.815E+04 1. 022E+04 1.020E-13 0.OOOE+00 0.OOOEd00 Rb-86 3 7.096E+01 1. 612E+06 4.810E-15 1. 330E-09 1.790E-09 Sr-89 5 2.428E+04 4.363E+06 7.730E-17 7. 960E-12 1.120E-08 Sr-90 5 3.528E+03 9.190E+08 7.530E-18 2. 690E-10 3.510E-07 Sr-91 5 3.081E+04 3. 420E+04 4.924E-14 9. 930E-12 4.547E-10 Sr-92 5 3.362E+04 9. 756E+03 6.790E-14 3.920E-12 2.180E-10 Y-90 9 3.625E+03 2. 304E+05 1.900E-16 5.170E-13 2.280E-09 Y-91 9 3.155E+04 5.055E+06 2.600E-16 8.500E-12 1.320E-08 Y-92 9 3.377E+04 1.274E+04 1.300E-14 1.050E-12 2.110E-10 Y-93 9 3.942E+04 3.636E+04 4.800E-15 9.260E-13 5.820E-10 Zr-95 9 4.443E+04 5.528E+06 3.600E-14 1.440E-09 6.390E-09 Zr-97 9 4.497E+04 6. 084E+04 4.432E-14 2.315E-11 1.171E-09 Nb-95 9 4.464E+04 3. 037E+06 3.740E-14 3.580E-10 1.570E-09 Mo-99 7 5.121E+04 2.376E+05 7.280E-15 1.520E-11 1.070E-09 Tc-99m 7 4.484E+04 2. 167E+04 5.890E-15 5.01OE-1i 8.800E-12 Ru-103 7 4.311E+04 3.394E+06 2.251E-14 2.570E-10 2.421E-09 Ru-105 7 3.034E+04 1. 598E+04 3.810E-14 4.150E-12 1.230E-10 Ru-106 7 1.837E+04 3.181E+07 1.040E-14 1.720E-09 1.290E-07 Rh-105 7 2.882E+04 1.273E+05 3.720E-15 2.880E-12 2.580E-10 Sb-127 4 2.999E+03 3.326E+05 3.330E-14 6. 150E-11 1.630E-09 l CC-AtA-309-1001, Rev 2

Attachment E Page 16 of 48 Sb-129 8. 877E+03 1.555E+04 7.140E-14 9.720E-12 1.740E-10 Te-127 2. 986E+03 3. 366E+04 2.420E-16 1.84OE-12 8. 600E-11 Te-127m 4.060E+02 9. 418E+06 1.470E-16 9. 660E-11 5.810E-09 Te-129 8.735E+03 4.176E+03 2.750E-15 5.090E-13 2.090E-11 Te-129m 1. 300E+03 2. 903E+06 3. 337E-15 1.563E-10 6.484E-09 Te-131m 3. 955E+03 1.080E+05 7.463E-14 3. 669E-08 1.758E-09 Te-132 3.850E+04 2.815E+05 1.030E-14 6.280E-08 2.550E-09 I-131 2.710E+04 6. 947E+05 1.820E-14 2. 920E-07 8.890E-09 I-132 3. 914E+04 8.280E+03 1.120E-13 1.740E-09 1.030E-10 I-133 5.501E+04 7.488E+04 2. 940E-14 4.860E-08 1.580E-09 I-134 6.035E+04 3. 156E+03 1.300E-13 2.880E-10 3.550E-11 I-135 5. 157E+04 2.380E+04 8.294E-14 8.460E-09 3.320E-10 Xe-133 5. 282E+04 4. 532E+05 1.560E-15 0. OOOE+00 0. OOOE-+ 00 Xe-135 2. 144E+04 3.272E+04 1. 190E-14 O.OOOE+OO O.COOOE 00 Cs-134 8.009E+03 6.507E+07 7.570E-14 1. llOE-08 1.250E-08 Cs-136 2.379E+03 1. 132E+06 1.060E-13 1. 730E-09 1.980E-09 Cs-137 4. 928E+03 9. 467E+08 2.725E-14 7. 930E-09 8.630E-09 Ba-139 4 888E+04 4. 962E+03 2.170E-15 2. 400E-12 4.640E-11 Ba-140 4.714E+04 1. 1O1E+06 8.580E-15 2.560E-10 1.OlOE-09 La-140 5.055E+04 1. 450E+05 1.170E-13 6.870E-ll 1.310E-09 La-141 4. 447E+04 1. 415E+04 2.390E-15 9. 40OE-12 1.570E-10 La-142 4.286E+04 5. 550E+03 1.440E-13 8.740E-12 6.840E-11 Ce-141 4. 465E+04 2. 808E+06 3.430E-15 2.550E-11 2.420E-09 Ce-143 4.101E+04 1. 188E+05 1.290E-14 6.230E-12 9.160E-10 Ce-144 3. 682E+04 2. 456E+07 2.773E-15 2. 920E-10 1.OlOE-07 Pr-143 3.963E+04 1. 172E+06 2. 100E-17 1. 680E-18 2.190E-09 Nd-147 1. 800E+04 9. 487E+05 6. 190E-15 1.820E-11 1.850E-09 Np-2 39 5.587E+05 2.035E+05 7. 690E-15 7. 620E-12 6.780E-10 Pu-238 1.768E+02 2.769E+09 4.880E-18 3.860E-10 7.790E-05 Pu-239 1.474E+01 7.594E+ll 4.24OE-18 3.750E-10 8.330E-05 Pu-240 2.O1E+01 2.063E+ll 4.750E-18 3.760E-10 8.330E-05 Pu-241 6.700E+03 4. 544E+08 7.250E-20 9.15OE-12 1.340E-06 Am-241 9.857E+00 1.364E+10 8. 180E-16 1. 600E-09 1.200E-04 Cm-242 2.285E+03 1.407E+07 5. 690E-18 9. 410E-10 4.670E-06 Cm-244 1. 621E+02 5. 715E+08 4. 910E-18 1.OlOE-09 6.700E-05 Nuclide Daughter Fraction Daughter FractionI Daughter Fraction Kr-85m Kr-85 0.21 none 0.00 none O.CO Kr-87 Rb-87 1.00 none 0.00 none O.CO Kr-88 Rb-88 1.00 none 0.00 none 0. CIO Sr-90 Y-90 1.00 none 0.00 none O.CO Sr-91 Y-91m 0.58 Y-91 0.42 none 0. CIO Sr-92 Y-92 1.00 none 0.00 none 0.C00 Y-93 Zr-93 1.00 none 0.00 none 0. C'0 Zr-95 Nb-95m 0.01 Nb-95 0.99 none 0. CO Zr-97 Nb-97m 0.95 Nb-97 0.05 none 0.C00 Mo-99 Tc-99m 0.88 Tc-99 0.12 none 0. CIO Tc-99m Tc-99 1.00 none 0.00 none 0. CIO Ru-103 Rh-103m 1.00 none 0.00 none 0.CO Ru-105 Rh-105 1.00 none 0.00 none 0. CI0 Ru-106 Rh-106 1.00 none 0.00 none 0. CIO Sb-127 Te-127m 0.18 Te-127 0.82 none 0.CIO Sb-129 Te-129m 0.22 Te-129 0.77 none 0. CIO Te-127m Te-127 0.98 none 0.00 none 0.C0O Te-129 I-129 1.00 none 0.00 none 0. C'O CC-AA-309-1001, Rev 2

Attachment E Page 17 of 48 Te-129m Te-129 0.65 I-129 0.35 none 0.C'O Te-131m Te-131 0.22 I-131 0.78 none 0.CO Te-132 I-132 1.00 none 0.00 none O.CO I-131 Xe-131m 0.01 none 0.00 none O.CO I-133 Xe-133m 0.03 Xe-133 0.97 none O.CO I-135 Xe-135m 0.15 Xe-135 0.85 none O.CO Xe-135 Cs-135 1.00 none 0.00 none O.CO Cs-137 Ba-137m 0.95 none 0.00 none 0.00 Ba-140 La-140 1.00 none 0.00 none 0.00 La-141 Ce-141 1.00 none 0.00 none 0.00 Ce-143 Pr-143 1.00 none 0.00 none 0.00 Ce-144 Pr-144m 0.02 Pr-144 0.98 none 0.00 Nd-147 Pm-147 1.00 none 0.00 none 0.00 Np-239 Pu-239 1.00 none 0.00 none 0.00 Pu-238 U-234 1.00 none 0.00 none 0.00 Pu-239 U-235 1.00 none 0.00 none 0.00 Pu-240 U-236 1.00 none 0.00 none 0.00 Pu-241 U-237 0.00 Am-241 1.00 none 0.00 Am-241 Np-237 1.00 none 0.00 none 0.00 Cm-242 Pu-238 1.00 none 0.00 none 0.00 Cm-244 Pu-240 1.00 none 0.00 none 0.00 Iodine fractions Aerosol 9. 50OOE-01 Elemental 4.8500E-02 Organic 1.5000E-03 COMPARTMENT DATA Compartment number 1: Drywell Sprays: Elemental Removal Data Time (hr) Removal Coef. (hr^-l) 0.OOOOE+00 3.2800E+00 3.0500E+00 0.OOOOE+00 Natural Deposition (Powe ers' model): Aerosol data Reactor type: 3 Percentile = 10 (%)

Compartment number 2: MSIV Failed Control Vol 1 Compartment number 3: Intact Control Volume 2 Compartment number 4: Intact Control Volume 3 Compartment number 5: Intact Control Volume 4 Compartment number 6: Intact Control Volume 5 Compartment number 7: Environment Compartment number 8: Control Room Compartment number 9: Void I CC-,AA-309-1001, Rev 2

Attachment E Page 18 of 48 PATHWAY DATA Pathway number 1: Drywell to MSIV Failed Control Vol 1 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+CO 3.3300E-02 3.5700E-01 0.0000E+00 0.0000E+00 0.0000E+C0 2.OOOOE+00 2. 10OOE-01 0.0000E+00 0.0000E+00 0.0000E+CO 7.2000E+02 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+CO Pathway number 2: MSIV Failed Control Vol 1 to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.0000E+00 o.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+C0 3.3300E-02 1.OOOOE+00 8.6680E+01 5.0000E+01 0.OOOOE+C0 2.OOOOE+00 5. 8700E-01 8.6680E+01 5.0000E+01 0.OOOOE+00 7.2000E+02 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Pathway number 3: Drywell to Intact Control Volume 2 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 3.3300E-02 3.5700E-01 0.OOOOE+00 0.0000E+00 0.OOOOE+00 2.OOOOE+00 2.10OOE-01 0.OOOOE+00 0.0000E+00 0.OOOOE+00 7.2000E+02 o.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Pathway number 4: Intact Control Volume 2 to Intact Control Volume 3 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aeros;ol Elemental Orgranic 0.OOOOE+00 0.0000E+00 0 . OOOE I+00 0.OOOOE+00 0.00 OOE+00 3.3300E-02 1.0000E+00 8.4620EI+01 5.OOOOE+01 0.00 OOE+CO 2.OOOOE+00 5. 8700E-01 8.4620EI+01 5.0000E+01 0.00 00E+C0 7.2000E+02 o.0000E+00 0. O00E I+00 0.0000E+00 0.00 OOE+CO Pathway number 5: Intact Control Volume 3 to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.3300E-02 1.OOOOE+00 8.7110E+01 5.0000E+01 0.OOOOE+00 2.OOOOE+00 5. 8700E-01 8.7110E+01 5.OOOOE+01 0.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment E Page 19 of 48 7.2000E+02 O.OO00E+00 O.OOOOE+00 0.0000E+00 0.0000E+00 Pathway number 6: Drywell to Intact Control Volume 4 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 3.3300E-02 1.7800E-01 0.OOOOE+00 0.OOOOE+00 0.0000E+00 2.OOOOE+00 1.0500E-01 0.OOOOE+00 0.OOOOE+00 0.0000E+00 7.2000E+02 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Pathway number 7: Intact Control Volume 4 to Intact Control Volume 5 Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOE+00 0.OOOOE+CO 3.3300E-02 5.OOOE-01 9.3100E+01 5.OOOOE+01 0.OOOOE+CO 2.OOOOE+00 2.9400E-01 9.3100E+01 5.OOOE+01 0.OOOOE+CO 7.2000E+02 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+CO Pathway number 8: Intact Control Volume 5 to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 3.3300E-02 5.0OOOE-01 9.3110E+01 5.OOOOE+01 0.OOOOE+00 2.OOOOE+00 2. 9400E-01 9.3110E+01 5.OOOOE+01 0.0000E+00 7.2000E+02 0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 Pathway number 9: Filtered Intake to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.0000E+00 O.OOOOE+00 o.0000E+00 o.OOOOE+00 3.3300E-02 2.2000E+03 O.OOOOE+00 0.OOOOE+00 o.OOOOE+00 6.6670E-01 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+01 2.0000E+00 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01 8.0000E+00 1.8000E+03 9. 9000E+01 9.9000E+01 9.9000E+01

2. 4000E+01 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+01 9.6000E+01 1.8000E+03 9.9000E+01 9.9000E+01 9.9000E+01 7.2000E+02 O.OOOOE+00 o.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Pathway number 10: Unfiltered Inleakage to Control Room Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

CC-AbA-309-1001, Rev 2

Attachment E Page 20 of 48 (cfm) Aerosol Elemental Organic o.OOOOE+00 0.000OE+00 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.3300E-02 6.OOOE+04 o.OOOOE+00 o.OOOOE+00 o .OOOOE+00 6.6670E-01 4.OOOOE+02 0.0000E+00 0.OOOOE+00 o .OOOOE+00 2.OOOOE+00 4.OOOOE+02 0.0000E+00 0.OOOOE+00 0.OOOOE+00 8.OOOOE+00 4.OOOOE+02 o.OOOE+00 0.OOOOE+00 0.O00OE+C00 2.4000E+01 4.0000E+02 o.OOOOE+00 0.OOOOE+00 o .OOOOE+00 9.6000E+01 4.OOOOE+02 0.0000E+00 0.OOOOE+00 o .OOOOE+00 7.2000E+02 0.OOOOE+00 0.0000E+00 o.OOOOE+00 O.OOOOE+00 Pathway number 11: Control Room Exhaust to Environment Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies (%)

(cfm) Aerosol Elemental Organic 0.OOOOE+00 0.0000E+00 o.00OOE+00 O.OOOOE+00 o.OOOOE+00 3.3300E-02 6.2200E+04 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00

6. 6670E-01 2.2000E+03 o.OOOOE+00 O.OOOOE+00 o.OOOOE+00 2.OOOOE+00 2.2000E+03 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 8.OOOOE+00 2.2000E+03 0.0000E+00 O.OOOOE+00 o.OOOOE+00 2.4000E+01 2.2000E+03 o.OOOOE+00 o.OOOOE+00 0.OOOOE+00

9. 6000E+01 2.2000E+03 o.OOOOE+00 o.OOOOE+00 0.OOOOE+00 7.2000E+02 0.OOOOE+00 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Pathway number 12: Drywell to Void Convection Data Time (hr) Flow Rate (% / day)

O.OOOOE+00 2.1870E+00 2.OOOOE+00 2.5220E+00 7.2000E+02 O.OOOOE+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 7 Location X/Q Data Time (hr) X/Q (s

m^-3) 0.OOOOE+00 1.3600E-03 7.2000E+02 0.OOOOE+00 Location Breathing Rat(e Data Time (hr) Breiathing Rate (mA3

sec^-1) o.OOOOE+00 3.5000E-04 7.2000E+02 o.OOOOE+00 Location CR Air Intake is in compartment 7 Location X/Q Data Time (hr) X/Q (s

m^-3) 0.OOOOE+00 L.0200E-03 2.OOOOE+00O 3.2300E-04 8.OOOOE+00 3.5500E-04 2.4000E+01 2.3200E-04 9.6000E+01 L.3800E-04 7.2000E+02 ).OOOOE+00 l CC-AA-309-1001, Rev 2

Attachment E Page 21 of 48 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1)

O.OOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 Location Control Room is in compartment 8 Location X/Q Data Time (hr) X/Q (s

m^-3)

O.OOOOE+00 1.0200E-03 2.OOOOE+00 8.2300E-04 8.OOO0E+00 3.5500E-04 2.4000E+01 2.3200E-04 9.6000E+01 1.3800E-04 7.2000E+02 O.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3

sec^-1)

O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOOE+00 Location Occupancy Factor Data Time (hr) Occupancy Factor O.OOOOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 O.OOOOE+00 USER SPECIFIED TIME STEP DATA - SUPPLEMENTAL TIME STEPS Time Time step O.OOOOE+00 1.OOOOE-01 1.OOOE+00 1.OOOE-02 2.OOOOE+00 5.OOOE-01 8.OOOOE+00 1.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 5.OOOOE+00 7.2000E+02 O.OOOOE+00 I CC-AA-309-1001, Rev 2

Attachment E Page 22 of 48 RADTRAD Version 3.03 (Spring 2001) run on 8/31/2005 at 13:24:44 Dose, Detailed model and Detailed Inventory Output Exclusion Area Boundary Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.0000E+00 CR Air Intake Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Accumulated dose (rem) 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Control Room Doses:

Time (h) = 0.0333 Whole Body Thyroid TEDE Delta dose (rem) 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Accumulated dose (rem) O.OOOOE+00 O. OOOOE+00 O.OOOOE+00 Environment Integral Nuclide Release:

Time (h) = 0.0333 Ci kg Atoms Bq Environment Transport Group Inventory:

Total Release Time (h) = 0.0333 Release Rate/s Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.0000E+00 0.OOOOE+00 Dose Effective (Ci) I-131 (Thyroid) 0.OOOOE+00 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 0.OOOOE+00 Total I (Ci) 0.OOOOE+00 I CC-AA-309-1001, Rev 2

Attachment E Page 23 of 48 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.0000E+00 0.0000E+00 Elemental I (atoms) 0.0000E+00 0.0000E+00 Organic I (atoms) 0.0000E+00 0.0000E+00 Aerosols (kg) 0.OOOOE+00 0.0000E+00 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.0000E+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.0000E+00 0.OOOOE+00 Aerosols (kg) 0. OOOOE+00 0.OOOOE+00 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 0.0333 Filtered Transported Noble gases (atoms) 0.OOOOE+00 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 0.00 E+00 Organic I (atoms) 0.OOOOE+00 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 0.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment E Page 24 of 48 Exclusion Area Boundary Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 6.7043E-03 6.7067E-01 3.5617E-02 Accumulated dose (rem) 6.7043E-03 6.7067E-01 3.5617E-02 CR Air Intake Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 5.0282E-03 5.0300E-01 2.6713E-02 Accumulated dose (rem) 5.0282E-03 5.0300E-01 2. 6713E-02 Control Room Doses:

Time (h) = 0.5000 Whole Body Thyroid TEDE Delta dose (rem) 1.9849E-04 3.9047E-01 1.7027E-02 Accumulated dose (rem) 1.9849E-04 3.9047E-01 1.7027E-02 Environment Integral Nuclide Release:

Time (h) = 0.5000 Ci kg Atoms Bq Kr-85 1.2696E-01 3.2360E-07 2.2927E+18 4.6975E+09 Kr-85m 1.8452E+00 2.2421E-10 1.5885E+15 6.8271E+10 Kr-87 2.9843E+00 1.0536E-10 7.2928E+14 1. 1042E+11 Kr-88 4.7621E+00 3.7978E-10 2.5990E+15 1.7620E+11 Rb-86 2. 1776E-03 2.6762E-11 1.8740E+14 8.0571E+07 I-131 9.2271E-01 7.4427E-09 3.4214E+16 3.4140E+10 I-132 1.2103E+00 1.1725E-10 5.3493E+14 4.4781E+10 I-133 1.8498E+00 1.6329E-09 7.3936E+15 6.8441E+10 I-134 1.4819E+00 5.5550E-11 2.4965E+14 5.4830E+10 I-135 1.6830E+00 4.7922E-10 2.1377E+15 6.2270E+10 Xe-133 1.5357E+01 8.2D43E-08 3.7148E+17 5.6821E+11 Xe-135 6.3283E+00 2.4 781E-09 1.1054E+16 2.3415E+11 Cs-134 2.4593E-01 1.9D08E-07 8.5425E+17 9.0995E+09 Cs-136 7.2985E-02 9.9583E-10 4.4096E+15 2.7005E+09 Cs-137 1.5133E-01 1.7397E-06 7. 6474E+18 5.5991E+09 Environment Transport Group Inventory:

Total ReLease Time (h) = 0.5000 Release Rate/s Noble gases (atoms) 2.6801E+18 1.4390E+15 Elemental I (atoms) 5.8639E+15 3.2577E+12 Organic I (atoms) 5.6982E+14 3.16557E+11 Aerosols (kg) 1.9392E-06 1.0773E-09 Dose Effective (Ci) I-131 (Thyroid) 1.2880E+00 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1.6261E+00 Total I (Ci) 7.1476E+00 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.2:379E+18 Elemental I (atoms) 5.3140E+15 5.3:L40E+15 CC-AA-309-1001, Rev 2

Attachment E Page 25 of 48 Organic I (atoms) 0.OOOOE+00 4.J)679E+14 Aerosols (kg) 1.2281E-05 l.E872E-06 Intact Control Volume 3 to Environment. Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.9368E+17 Elemental I (atoms) 4.9678E+14 4.9678E+14 Organic I (atoms) 0.OOOOE+00 8.3837E+13 Aerosols (kg) 3.3860E-07 5.0105E-08 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 4.9536E+16 Elemental I (atoms) 6.2727E+13 6.2727E+13 Organic I (atoms) 0.OOOOE+00 1.0549E+13 Aerosols (kg) 2.0447E-08 1.5131E-09 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.8388E+15 Elemental I (atoms) 0.OOOOE+00 6.2236E+12 Organic I (atoms) 0.OOOOE+00 6.0477E+ll Aerosols (kg) 0.0000E+00 2.0537E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.7421E+16 Elemental I (atoms) 0.0000E+00 1.6973E+14 Organic I (atoms) 0.OOOOE+00 1.6494E+13 Aerosols (kg) 0.OOOOE+00 5.6010E-08 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 0.5000 Filtered Transported Noble gases (atoms) 6.0103E+16 0.0300E+00 Elemental I (atoms) 1.3542E+14 0.0000E+00 Organic I (atoms) 1.2802E+13 0.OOOOE+00 Aerosols (kg) 4.4116E-08 0. 0)OOOE+00 Exclusion Area Boundary Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 9.4773E-03 8.83994E-01 4.8708E-02 Accumulated dose (rem) 1.6182E-02 1.!5606E+00 8.4325E-02 CR Air Intake Doses:

CC-ALA-309-1001, Rev22

Attachment E Page 26 of 48 Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 7.1080E-03 6. 6746E-01 3. 6531E-02 Accumulated dose (rem) 1.2136E-02 1.1705E+00 6.3244E-02 Control Room Doses:

Time (h) = 0.6667 Whole Body Thyroid TEDE Delta dose (rem) 3.0175E-04 5. 6853E-01 2.5203E-02 Accumulated dose (rem) 5.0024E-04 9. 5901E-01 4.2230E-02 Environment Integral Nuclide Release:

Time (h) 0.6667 Ci kg Atoms Bq Co-58 3.1425E-06 9.8828E-14 1.0261E+12 1.1627E+05 Co-60 3. 7621E-06 3.3282E-12 3.3405E+13 1.3920E+05 Kr-85 3.3671E-01 8.5823E-07 6.0804E+18 1.2458E+10 Kr-85m 4.7960E+00 5. 8278E-10 4.1289E+15 1.7745E+1]

Kr-87 7.3772E+00 2. 6044E-10 1.8028E+15 2.7296E+11.

Kr-88 1.2235E+01 9.7578E-10 6. 6776E+15 4.5271E+11 Rb-86 5.0744E-03 6.2364E-11 4.3670E+14 1.8775E+OEI Sr-89 3. 9917E-03 1.3740E-10 9.2970E+14 1.4769E+08 Sr-90 5.8023E-04 4.2537E-09 2.8463E+16 2.1469E+O,'

Sr-91 4.8317E-03 1.3329E-12 8.8207E+12 1.7877E+08 Sr-92 4.6799E-03 3.7233E-13 2.4372E+12 1.7316E+08 Y-90 6.8668E-06 1.2621E-14 8. 4453E+10 2.5407E+05 Y-91 5.2024E-05 2. 1214E-12 1. 4039E+13 1.9249E+O06 Y-92 1.8880E-04 1.9621E-14 1.2844E+1l 6.9857E+OE6 Y-93 6.1995E-05 1.8582E-14 1.2032E+11 2.2938E+06 Zr-95 7. 3051E-05 3.4004E-12 2.1555E+13 2.7029E+O06 Zr-97 7.2008E-05 3.7668E-14 2.3386E+11 2.6643E+OE6 Nb-95 7. 3417E-05 1. 8775E-12 1.1902E+13 2.7164E+OE6 Mo-99 1.0456E-03 2.1801E-12 1.3261E+13 3.8687E+07 Tc-99m 9.2228E-04 1.7540E-13 1.0669E+12 3.4124E+05' Ru-103 8.8584E-04 2.7448E-11 1. 6048E+14 3.2776E+07' Ru-105 5.6336E-04 8.3808E-14 4.8067E+11 2.0844E+07 Ru-106 3.7764E-04 1.1288E-10 6.4128E+14 1.3972E+07 Rh-105 5.9250E-04 7.0197E-13 4.0261E+12 2.1922E+07 Sb-127 1.2271E-03 4.5948E-12 2.1788E+13 4.5401E+Oi Sb-129 3.2873E-03 5.8458E-13 2.7290E+12 1.2163E+OE Te-127 1.2253E-03 4. 6429E-13 2.2016E+12 4.5336E+07 Te-127m 1.6694E-04 1. 7698E-11 8.3923E+13 6.1769E+O06 Te-129 3.4294E-03 1. 6376E-13 7. 6447E+11 1.2689E+08 Te-129m 5.3464E-04 1.7747E-11 8.2850E+13 1.9782E+07 Te-131m 1. 6018E-03 2.0088E-12 9.2346E+12 5.9268E+07 Te-132 1.5739E-02 5.1841E-11 2.3651E+14 5.8233E+08 I-131 2. 1482E+00 1.7327E-08 7. 9655E+16 7.9482E+1C I-132 2.7559E+00 2.6699E-10 1.2181E+15 1.0197E+11 1-133 4.2908E+00 3.7878E-09 1.7151E+16 1.5876E+11 I-134 3. 1427E+00 1. 1780E-10 5. 2943E+14 1.1628E+11 I-135 3.8704E+00 1. 1021E-09 4. 9162E+15 1.4320E+11 Xe-133 4.0725E+01 2. 1757E-07 9.8514E+17 1.5068E+12 Xe-135 1. 6901E+01 6.6182E-09 2. 9523E+16 6.2534E+11 Cs-134 5.7320E-01 4.4303E-07 1. 9910E+18 2.1208E+1C Cs-136 1.7006E-01 2.3204E-09 1.0275E+16 6.2924E+09' CC-AA-309-1001, Rev 2

Attachment E Page 27 of 48 Cs-137 3.5270E-01 4.0549E-06 1.7824E+19 1.3050E+10 Ba-139 5.7918E-03 3.5409E-13 1.5341E+12 2.1430E+08 Ba-140 7.7415E-03 1.0574E-10 4.5486E+14 2.8643E+08 La-140 1.0228E-04 1.8402E-13 7.9158E+11 3.7845E+06 La-141 6.5192E-05 1.1527E-14 4.9234E+10 2.4121E+06 La-142 5.2579E-05 3.6730E-15 1.5577E+10 1.9454E+06 Ce-141 1.8357E-04 6.4424E-12 2.751 6E+13 6.7919E+06 Ce-143 1.6632E-04 2.5046E-13 1.0547E+12 6.1540E+06 Ce-144 1.5138E-04 4.7462E-11 1.9849E+14 5.6011E+06 Pr-143 6.5211E-05 9.6841E-13 4. 0782E+12 2.4128E+06 Nd-147 2.9553E-05 3.6531E-13 1.4 966E+12 1.0935E+06 Np-239 2.2789E-03 9.8231E-12 2.4751E+13 8.4318E+07 Pu-238 7.2694E-07 4.2462E-11 1.0744E+14 2.6897E+04 Pu-239 6.0611E-08 9.7513E-10 2.4571E+15 2.2426E+03 Pu-240 8.2274E-08 3.6106E-10 9.0599E+14 3.0441E+03 Pu-241 2.7548E-05 2.6742E-10 6.6824E+14 1.0193E+06 Am-241 1.6213E-08 4.7239E-12 1.1804E+13 5.9989E+02 Cm-242 3.7576E-06 1.1338E-12 2.8213E+12 1.3903E+05 Cm-2 44 2.6660E-07 3.2953E-12 8.1331E+12 9.8641E+03 Environment Transport Group Inventory:

Total Release Time (h) = 0.6667 Release Rate/s Noble gases (atoms) 7.1077E+18 2.9614E+15 Elemental I (atoms) 1.2962E+16 5.4004E+12 Organic I (atoms) 1.4163E+15 5.9008E+11 Aerosols (kg) 4.5262E-06 1.8858E-09 Dose Effective (Ci) I-131 (Thyroid) 2.9940E+00 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 3.7701E+00 Total I (Ci) 1.6208E+01 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.7282E+18 Elemental I (atoms) 1.1422E+16 1.1422E+16 Organic I (atoms) 0.OOOOE+00 1.1320E+15 Aerosols (kg) 2.8450E-05 4.3719E-06 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.0000E+00 1.2.247E+18 Elemental I (atoms) 1.3810E+15 1. 3310E+15 Organic I (atoms) 0.OOOOE+00 2.5436E+14 Aerosols (kg) 1.0082E-06 1.4319E-07 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.5'770E+17 CC-AA-309-1001, Rev 2

Attachment E Page 28 of 48 Elemental I (atoms) 1.7915E+14 1.7915E+14 Organic I (atoms) 0.OOOOE+00 3.2803E+13 Aerosols (kg) 6.2442E-08 4.6206E-09 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.5284E+15 Elemental I (atoms) 0.0000E+00 1.3753E+13 Organic I (atoms) 0.0000E+00 1.5027E+12 Aerosols (kg) 0.OOOOE+00 4.7935E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 0.0000E+00 2.0532E+17 Elemental I (atoms) 0.OOOOE+00 3.7509E+14 Organic I (atoms) 0.OOOOE+00 4.0984E+13 Aerosols (kg) 0.OOOOE+00 1.3073E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 0.6667 Filtered Transported Noble gases (atoms) 1.6620E+17 0.0000E+00 Elemental I (atoms) 3.1871E+14 0.0000E+00 Organic I (atoms) 3.3930E+13 0.OOOOE+00 Aerosols (kg) 1.0987E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 8.0790E-01 4. 4282E+01 3.2092E+00 Accumulated dose (rem) 8.2408E-01 4. 5843E+01 3.2935E+00 CR Air Intake Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 6.0592E-01 3. 3212E+01 2.4069E+00 Accumulated dose (rem) 6.1806E-01 3. 4382E+01 2.4702E+00 Control Room Doses:

Time (h) = 2.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.7984E-03 5.4583E+00 2.6466E-01 Accumulated dose (rem) 8.2986E-03 6. 4173E+00 3.0689E-01 Environment Integral Nuclide Release:

Time (h) = 2.0000 Ci kg Atoms Bq Co-58 1.9798E-03 6.2:263E-11 6.4648E+14 7.3254E+07 Co-60 2.3711E-03 2.0976E-09 2.1053E+16 8. 7731E+07 Kr-85 3.1288E+01 7.9748E-05 5.6501E+20 1.1577E+12 CC-AA-309-1001, Rev 2 1

Attachment E Page 29 of 48 Kr-85m 3.7914E+02 4. 6071E-08 3.2641E+17 1.4028E+13 Kr-87 3. 9173E+02 1.3829E-08 9.5728E+16 1.4494E+13 Kr-88 8.8193E+02 7.0333E-08 4.8131E+17 3.2631E+13 Rb-86 1.3584E-01 1.6695E-09 1.1691E+16 5.0262E+09 Sr-89 2.5145E+00 8.6550E-08 5. 8564E+17 9. 3035E+10 Sr-90 3. 6570E-01 2. 6810E-06 1. 7939E+19 1.3531E+10 Sr-91 2.8385E+00 7. 8302E-10 5. 1818E+15 1.0502E+ll Sr-92 2.3097E+00 1. 8376E-10 1.2029E+15 8. 5461E+10 Y-90 6.7231E-03 1.2357E-11 8.2685E+13 2.4875E+08 Y-91 3.3143E-02 1.3515E-09 8. 9437E+15 1.2263E+09 Y-92 3.7783E-01 3. 9266E-11 2.5703E+14 1.3980E+10 Y-93 3.6572E-02 1.0962E-11 7.0981E+13 1.3531E+09 Zr-95 4. 6021E-02 2. 1422E-09 1.3580E+16 1.7028E+09 Zr-97 4.3623E-02 2.2819E-11 1.4167E+14 1. 6140E+09 Nb-95 4.6272E-02 1. 1833E-09 7. 5012E+15 1.7121E+09 Mo-99 6. 5235E-01 1.3602E-09 8.2738E+15 2.4137E+10 Tc-99m 5.8093E-01 1.1048E-10 6. 7205E+14 2.1495E+10 Ru-103 5.5792E-01 1.7287E-08 1.0107E+17 2.0643E+10 Ru-105 3. 0563E-01 4.5467E-11 2. 6077E+14 1.1308E+10 Ru-106 2.3799E-01 7. 1137E-08 4.0415E+17 8.8057E+09 Rh-105 3. 7257E-01 4.4141E-10 2.5316E+15 1.3785E+10 Sb-127 7. 6779E-01 2.8751E-09 1.3633E+16 2.8408E+10 Sb-129 1.7761E+00 3.1583E-10 1.4744E+15 6. 5714E+10 Te-127 7. 6975E-01 2. 9167E-10 1. 3831E+15 2.8481E+10 Te-127m 1.0523E-01 1.1156E-08 5.2898E+16 3.8934E+09 Te-129 1.9605E+00 9. 3616E-11 4.3703E+14 7.2540E+10 Te-129m 3.3704E-01 1.1188E-08 5.2228E+16 1.2470E+10 Te-131m 9.8730E-01 1.2381E-09 5.6918E+15 3. 6530E+10 Te-132 9.8349E+00 3.2395E-08 1.4779E+17 3. 6389E+ll I-131 6.2421E+01 5.0350E-07 2.3146E+18 2.3096E+12 I-132 7. 1145E+01 6.8925E-09 3.1445E+16 2. 6324E+12 I-133 1.2110E+02 1.0690E-07 4. 8405E+17 4.4807E+12 I-134 4. 4176E+01 1.6560E-09 7. 4422E+15 1. 6345E+12 I-135 1.0193E+02 2.9025E-08 1.2948E+17 3.7715E+12 Xe-133 3.7743E+03 2.0164E-05 9. 1301E+19 1.3965E+14 Xe-135 1. 5712E+03 6. 1526E-07 2.7446E+18 5.8134E+13 Cs-134 1.5367E+01 1.1877E-05 5.3377E+19 5. 6858E+ll Cs-136 4.5497E+00 6.2078E-08 2.7488E+17 1. 6834E+ll Cs-137 9.4559E+00 1. 0871E-04 4.7786E+20 3.4987E+ll Ba-139 2.2695E+00 1.3875E-10 6.0113E+14 8. 3973E+1C Ba-140 4.8685E+00 6.6502E-08 2.8606E+17 1.8013E+ll La-140 1. 1496E-01 2.0682E-10 8.8964E+14 4.2534E+OS0 La-141 3. 4691E-02 6. 1342E-12 2.6199E+13 1.2836E+OS' La-142 2.1644E-02 1. 5120E-12 6.4122E+12 8.0083E+OE Ce-141 1.1565E-01 4.0587E-09 1.7335E+16 4.2789E+OS0 Ce-143 1. 0272E-01 1.5468E-10 6.5142E+14 3.8007E+OS0 Ce-144 9. 5401E-02 2. 9911E-08 1.2509E+17 3.5298E+09 Pr-143 4. 1182E-02 6. 1157E-10 2.5755E+15 1.5237E+09 Nd-147 1.8579E-02 2.2966E-10 9.4084E+14 6.8742E+08 Np-239 1.4194E+00 6. 1182E-09 1.5416E+16 5. 2517E+10 Pu-238 4. 5817E-04 2.6763E-08 6.7718E+16 1.6952E+07 Pu-239 3.8205E-05 6. 1466E-07 1.5488E+18 1.4136E+06 Pu-240 5. 1855E-05 2.2757E-07 5.7101E+17 1. 9186E+OE Pu-241 1.7362E-02 1.6855E-07 4.2117E+17 6.4241E+08 Am-241 1.0221E-05 2.9780E-09 7.4415E+15 3.7818E+05 I CC-AA-309-1001, Rev 2

Attachment E Page 30 of 48 Cm-242 2.3679E-03 7.1445E-10 1.7779E+15 8.7612E+07 Cm-244 1.6803E-04 2.0769E-09 5.1260E+15 6.2170E+06 Environment Transport Group Inventory:

Total Release Time (h) = 2.0000 Release Rate/s Noble gases (atoms) 6.5995E+20 9.1660E+16 Elemental I (atoms) 2.6062E+17 3.6197E+13 Organic I (atoms) 5.5154E+16 7.6602E+12 Aerosols (kg) 1.2531E-04 1.7404E-08 Dose Effective (Ci) I-131 (Thyroid) 8.5998E+01 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1.0659E+02 Total I (Ci) 4.0078E+02 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000

Filtered Transported Noble gases (atoms) 0.OOOOE+00 4.3350E+20 Elemental I (atoms) 1.9714E+17 1.9714E+17 Organic I (atoms) 0.OOOOE+00 3.5093E+16 Aerosols (kg) 7.5576E-04 1.1614E-04 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.9732E+20 Elemental I (atoms) 5.4977E+16 5.4977E+16 Organic I (atoms) 0.OOOOE+00 1.7432E+16 Aerosols (kg) 5.9778E-05 8.8456E-06 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.9151E+19 Elemental I (atoms) 8.6096E+15 8.6096E+15 Organic I (atoms) 0.OOOOE+00 2.6480E+15 Aerosols (kg) 4.3903E-06 3.2488E-07 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 2.0006 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.7323E+17 Elemental I (atoms) 2.1252E+14 1.5900E+13 Organic I (atoms) 4.6111E+13 1.9685E+12 Aerosols (kg) 1.0361E-07 5.8401E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Transported CC-AA-309-1001, Rev 2

Attachment E Page 31 of 48 Noble gases (atoms) O. OOOOE+00 3.3103E+17 Elemental I (atoms) O. OOOOE+00 4.2280E+14 Organic I (atoms) O.OOOOE+00 5.1334E+13 Aerosols (kg) O.OOOOE+00 1. 5399E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 2.0000 Filtered Trainsported Noble gases (atoms) 3.5187E+17 0. 000OE+00 Elemental I (atoms) 3.7513E+14 0. OOOOE+00 Organic I (atoms) 4.1796E+13 0.OOOOE+00 Aerosols (kg) 1.3204E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (r rem) 1.0463E+00 4. 9935E+01 3. 9201E+00 Accumulated close (rem) 1.8704E+00 9. 5778E+0l 7.2136E+00 CR Air Intake Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 6.3319E-0l 3.0218E+0l 2.3722E+00 Accumulated dose (rem) 1.2512E+00 6. 4600E+01 4.8424E+00 Control Room Doses:

Time (h) = 3.0500 Whole Body Thyroid TEDE Delta dose (rem) 1.7118E-02 5.3260E+00 3. 0122E-0l Accumulated dose (rem) 2.5417E-02 1. 1743E+01 6.0810E-01 Environment Integral Nuclide Release:

Time (h) 3. 0500 Ci kg Atoms Bq Co-58 4.8532E-03 1.5263E-10 1.5847E+15 1.7957E+08 Co-60 5.8137E-03 5. 1431E-09 5.1621E+16 2. 1511E+08 Kr-85 8. 3729E+0l 2.1341E-04 1. 5120E+21 3.0980E+12 Kr-85m 9.2185E+02 1. 1202E-07 7. 9362E+17 3.4108E+13 Kr-87 7.6757E+02 2.7098E-08 1.8757E+17 2. 8400E+13 Kr-88 2.0342E+03 1.6223E-07 1. 1102E+18 7.5265E+13 Rb-86 2.8101E-Ol 3.4536E-09 2.4184E+16 1.0397E+10 Sr-89 6. 1632E+00 2. 1214E-07 1. 4354E+18 2.2804E+1l Sr-90 8. 9666E-01 6.5734E-06 4.3985E+19 3.3177E+10 Sr-91 6.6749E+00 1 .8414E-09 1.2186E+16 2.4697E+ll Sr-92 4. 9191E+00 3. 9136E-10 2.5617E+15 1.8201E+ll Y-90 2.0764E-02 3.8165E-11 2. 5537E+14 7.6827E+08 Y-91 8. 1858E-02 3.3.379E-09 2.2089E+16 3.0287E+09 Y-92 1.2257E+00 1.2'738E-10 8.3379E+14 4.5350E+10 Y-93 8.6213E-02 2.5341E-11 1. 6733E+14 3. 1899E+09 Zr-95 1.1281E-01 5.2512E-09 3.3288E+16 4.1740E+09 Zr-97 1.0446E-01 5.4544E-11 3.3925E+14 3.8650E+09 Nb-95 1.1345E-0l 2.9014E-09 1.8392E+16 4. 1978E+09 Mo-99 1.5898E+00 3.31L47E-09 2.0163E+16 5.8822E+10 Tc-99m 1.4232E+00 2.7066E-10 1.6464E+15 5.2658E+10 l CC-ALA-309-1001, Rev 2

Attachment E Page 32 of 48 Ru-103 1.3674E+00 4.2368E-08 2. 4771E+17 5.0593E+1C Ru-105 6. 8637E-01 1. 0211E-10 5.8563E+14 2.5396E+1C Ru-106 5. 8351E-01 1. 7441E-07 9. 9088E+17 2. 1590E+1C Rh-105 9. 1105E-01 1.0794E-09 6. 1906E+15 3.3709E+1C Sb-127 1.8744E+00 7. 0188E-09 3. 3282E+16 6. 9352E+1C Sb-129 3.9792E+00 7. 0761E-10 3.3033E+15 1.4723E+11 Te-127 1.8835E+00 7. 1370E-10 3.3843E+15 6. 9691E+10 Te-127m 2.5802E-01 2.7354E-08 1.2971E+17 9.5467E+09 Te-129 4. 5135E+00 2. 1552E-10 1.0061E+15 1. 6700E+11 Te-129m 8.2641E-01 2.7432E-08 1.2806E+17 3. 0577E+10 Te-131m 2.3886E+00 2.9955E-09 1.3770E+16 8.8379E+10 Te-132 2.3991E+01 7.9022E-08 3. 6052E+17 8. 8765E+11 I-131 1.3060E+02 1.0535E-06 4.8429E+18 4. 8323E+12 I-132 1.3680E+02 1.3253E-08 6.0462E+16 5. 0615E+12 I-133 2.4918E+02 2.1996E-07 9. 9597E+17 9. 2195E+12 I-134 6.4416E+01 2.4147E-09 1. 0852E+16 2.3834E+12 I-135 2. 0170E+02 5.7434E-08 2.5620E+17 7.4629E+12 Xe-133 1.0076E+04 5.3831E-05 2.4374E+20 3.7282E+14 Xe-135 4. 1153E+03 1. 6115E-06 7.1886E+18 1.5227E+14 Cs-134 3. 1816E+01 2.4590E-05 1. 1051E+20 1. 1772E+12 Cs-136 9.4083E+00 1.2837E-07 5. 6842E+17 3.4811E+11 Cs-137 1. 9578E+01 2.2508E-04 9.8939E+20 7.2438E+11 Ba-139 4.2813E+00 2. 6174E-10 1. 1340E+15 1.5841E+11 Ba-140 1.1921E+01 1.6284E-07 7.0047E+17 4.4109E+11 La-140 3.7151E-01 6. 6838E-10 2. 8751E+15 1.3746E+10 La-141 7.7057E-02 1.3626E-11 5. 8195E+13 2.8511E+09 La-142 4.1861E-02 2. 9242E-12 1.2401E+13 1.5488E+09 Ce-141 2.8347E-01 9.9485E-09 4.2490E+16 1. 0488E+10 Ce-143 2.4882E-01 3. 7469E-10 1.5779E+15 9.2065E+09 Ce-144 2.3390E-01 7.3335E-08 3.0669E+17 8.6543E+09 Pr-143 1.0112E-01 1.5016E-09 6. 3237E+15 3. 7413E+09 Nd-147 4.5484E-02 5. 6224E-10 2.3033E+15 1.6829E+09 Np-239 3.4555E+00 1.4895E-08 3. 7531E+16 1.2785E+ll Pu-238 1. 1234E-03 6.5620E-08 1. 6604E+17 4. 1566E+07 Pu-239 9.3683E-05 1.5072E-06 3. 7977E+18 3.4663E+06 Pu-240 1.2714E-04 5.5797E-07 1.4001E+18 4.7043E+06 Pu-241 4 .2571E-02 4. 1326E-07 1.0327E+18 1.5751E+09 Am-241 2.5065E-05 7.3029E-09 1.8249E+16 9.2740E+05 Cm-242 5.8052E-03 1.7516E-09 4. 3588E+15 2. 1479E+08 Cm-244 4.1199E-04 5.0924E-09 1.2568E+16 1.5243E+07 Environment Transport Group Inventory:

Total Relea se Time (h) = 3.0500 Release Rate/ s Noble gases (atoms) 1.7650E+21 1.6075 E+17 Elemental I (atoms) 4.7446E+17 4.3211 E+13 Organic I (atoms) 1.3084E+17 1.1916 E+13 Aerosols (kg) 2.6101E-04 2.3771 E-08 Dose Effective (Ci) I-131 (Thyroid) 1.7880E+02 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 2.2002E+02 Total I (Ci) 7.8269E+02 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

I CC-AA-309-1001, Rev 2

Attachment E Page 33 of 48 Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0691E+21 Elemental I (atoms) 3.3892E+17 3.3892E+17 Organic I (atoms) 0.OOOOE+00 7.7560E+16 Aerosols (kg) 1.5491E-03 2.3805E-04 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 6.0068E+20 Elemental I (atoms) 1.1614E+17 1.1614E+17 Organic I (atoms) 0.OOOOE+00 4.5930E+16 Aerosols (kg) 1.4928E-04 2.2089E-05 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 9.5428E+19 Elemental I (atoms) 1.9835E+16 1.9835E+16 Organic I (atoms) 0.OOOOE+00 7.4821E+15 Aerosols (kg) 1.1819E-05 8.7457E-07 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.3459E+18 Elemental I (atoms) 3.6076E+14 1.7397E+13 Organic I (atoms) 9.8576E+13 2.4985E+12 Aerosols (kg) 1.9754E-07 6.7889E-09 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.0274E+17 Elemental I (atoms) 0.OOOOE+00 4.5607E+14 Organic I (atoms) 0.OOOOE+00 6.3111E+13 Aerosols (kg) 0.OOOOE+00 1.7507E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 3.0500 Filtered Transported Noble gases (atoms) 9.0040E+17 0.OOOOE+00 Elemental I (atoms) 4.1783E+14 0.0000E+00 Organic I (atoms) 5.1097E+13 0.OOOOE+00 Aerosols (kg) 1.5308E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE CC-AA-309-1001, Rev 2

Attachment E Page 34 of 48 Delta dose (rem) 6.1709E+00 2. 1259E+02 1. 8558E+01 Accumulated dose (rem) 8.0413E+00 3.0837E+02 2.5772E+01 CR Air Intake Doses:

Time (h) = 8.0000 Whole Body Thyroid TEDE Delta dose (rem) 3.7343E+00 1.2865E+02 1.1230E+01 Accumulated dose (rem) 4.9856E+00 1.9325E+02 1. 6073E+01 Control Room Doses:

Time (h) = 8.0 000 Whole Body Thyroid TEDE Delta dose (rem) 1.3318E-01 2. 5475E+01 1.6032E+00 Accumulated dose (rem) 1.5859E-01 3.7218E+01 2. 2113E+00 Environment Integral Nuclide Release:

Time (h) = 8.0000 Ci kg Atoms Bq Co-58 1.7749E-02 5. 819E-10 5.7956E+15 6.5672E+08 Co-60 2. 1281E-02 1.8826E-08 1.8896E+17 7.8739E+08 Kr-85 6.9893E+02 1.7815E-03 1.2621E+22 2.5860E+13 Kr-85m 4.8239E+03 5.8617E-07 4. 1529E+18 1.7848E+141 Kr-87 1. 7215E+03 6.0775E-08 4.2068E+17 6.3695E+13 Kr-88 8.4057E+03 6.7035E-07 4.5875E+18 3.1101E+14<

Rb-86 8. 9736E-01 1.1028E-08 7.7227E+16 3.3202E+1(l Sr-89 2. 2532E+01 7.7555E-07 5.2477E+18 8.3367E+11 Sr-90 3.2823E+00 2.4063E-05 1. 6101E+20 1.2145E+11 Sr-91 2. 0852E+01 5.7524E-09 3. 8068E+16 7.7153E+11 Sr-92 1.1079E+01 8. 8139E-10 5. 7694E+15 4.0990E+1].

Y-90 1. 4997E-01 2. 7565E-10 1.8444E+15 5.5488E+O9 Y-91 3.0885E-01 1.2594E-08 8.3343E+16 1.1427E+10 Y-92 6.4946E+00 6. 7495E-10 4.4181E+15 2.4030E+11 Y-93 2.7175E-01 8. 1452E-11 5.2743E+14 1.0055E+10C Zr-95 4. 1253E-01 1.9203E-08 1.2173E+17 1.5264E+10 Zr-97 3. 4907E-01 1.8260E-10 1.1337E+15 1.2916E+10 Nb-95 4. 1529E-01 1.0620E-08 6. 7324E+16 1.5366E+10 Mo-99 5.6825E+00 1. 1848E-08 7.2071E+16 2.1025E+1]

Tc-99m 5. 1746E+00 9. 8409E-10 5. 9862E+15 1.9146E+11 Ru-103 4.9970E+00 1.5483E-07 9. 0526E+17 1.8489E+11 Ru-105 1.8257E+00 2. 7160E-10 1.5577E+15 6.7551E+10C Ru-106 2. 1356E+00 6.3834E-07 3. 6266E+18 7.9018E+10 Rh-105 3.2738E+00 3.8787E-09 2.2246E+16 1.2113E+1]

Sb-127 6.7452E+00 2.5258E-08 1. 1977E+17 2.4957E+11.

Sb-129 1.0502E+01 1.8675E-09 8. 7182E+15 3.8857E+1].

Te-127 6.8355E+00 2. 5901E-09 1.2282E+16 2.5291E+11 Te-127m 9. 4467E-01 1. 0015E-07 4. 7489E+17 3.4953E+101 Te-129 1.2865E+01 6. 1430E-10 2.8677E+15 4.7600E+1].

Te-129m 3.0240E+00 1.0038E-07 4. 6861E+17 1.1189E+11 Te-131m 8.3008E+00 1.0410E-08 4. 7854E+16 3.0713E+11 Te-132 8. 6068E+01 2.8350E-07 1.2934E+18 3.1845E+12 I-131 4.2874E+02 3.4583E-06 1.5898E+19 1.5863E+13 I-132 3.1377E+02 3.0398E-08 1. 3868E+17 1.1610E+1, I-133 7.6529E+02 6.7557E-07 3.0589E+18 2.8316E+13 I-134 8.0824E+01 3.0298E-09 1.3616E+16 2.9905E+12 I-135 5.3442E+02 1. 5217E-07 6. 7883E+17 1.9773E+1-,

CC-AA-309-1 001, Rev 2

Attachment E Page 35 of 48 Xe-133 8.2815E+04 4.4243E-04 2. 0033E+21 3.0642E+15 Xe-135 2.8484E+04 1. 1154E-05 4. 9756E+19 1.0539E+15 Cs-134 1 . 0194E+02 7.8792E-05 3. 5410E+20 3.7719E+12 Cs-136 3.OOOOE+01 4.0932E-07 1. 8125E+18 1.1100E+12 Cs-137 6.2736E+01 7.2125E-04 3. 1704E+21 2.3212E+12 Ba-139 7.0980E+00 4.3394E-10 1. 8800E+15 2.6262E+11 Ba-140 4.3414E+01 5.9302E-07 2.5509E+18 1.6063E+12 La-140 2.8857E+00 5. 1918E-09 2.2333E+16 1.0677E+11 La-141 1.9770E-01 3.4958E-11 1.4931E+14 7.3150E+09 La-142 7.3311E-02 5.1213E-12 2. 1719E+13 2.7125E+OS, Ce-141 1.0360E+00 3.6360E-08 1.5529E+17 3.8333E+1C Ce-143 8. 6873E-01 1.3082E-09 5.5091E+15 3.2143E+1C Ce-144 8.5602E-01 2.6839E-07 1.1224E+18 3.1673E+lC Pr-143 3.7247E-01 5.5313E-09 2.3294E+16 1.3781E+lC Nd-147 1.6550E-01 2.0458E-09 8.3811E+15 6.1236E+09 Np-239 1.2302E+01 5.3030E-08 1.3362E+17 4.5519E+11 Pu-238 4. 1123E-03 2. 4021E-07 6. 0781E+17 1.5216E+OE Pu-239 3.4303E-04 5. 5188E-06 1.3906E+19 1.2692E+07 Pu-240 4.6542E-04 2.0425E-06 5.1251E+18 1.7220E+07 Pu-241 1.5583E-01 1.5128E-06 3.7801E+18 5.7658E+05 Am-241 9.1816E-05 2. 6751E-08 6. 6847E+16 3.3972E+OE Cm-242 2.1242E-02 6.4092E-09 1. 5949E+16 7.8596E+08 Cm-244 1.5081E-03 1. 8641E-08 4. 6008E+16 5.5800E+07 Environment Transport Group Inventory:

Total Release Time (h) = 8.0000 Release Rate/s Noble gases (atoms) 1.4684E+22 5.0985E+17 Elemental I (atoms) 1.2383E+18 4.2996E+13 Organic I (atoms) 9.2083E+17 3.1973E+13 Aerosols (kg) 8.4089E-04 2.9197E-08 Dose Effective (Ci) I-131 (Thyroid) 5.7355E+02 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 6.9045E+02 Total I (Ci) 2.1230E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.0000E+00 7.1455E+21 Elemental I (atoms) 7.6484E+17 7.6484E+17 Organic I (atoms) 0.OOOOE+00 4.4730E+17 Aerosols (kg) 4.7418E-03 7.2867E-04 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 6.1905E+21 Elemental I (atoms) 3. 7803E+17 3.7B03E+17 Organic I (atoms) 0.OOOOE+00 3.8900E+17 Aerosols (kg) 7.1620E-04 1.0598E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

I CC-AA-309-1001, Rev 2

Attachment E Page 36 of 48 Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.3492E+21 Elemental I (atoms) 9.6809E+16 9.6809E+16 Organic I (atoms) 0.000OE+00 8.5620E+16 Aerosols (kg) 8.4371E-05 6.2434E-06 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0379E+19 Elemental I (atoms) 8.9011E+14 2.2744E+13 Organic I (atoms) 6.4603E+14 8.0283E+12 Aerosols (kg) 5.9890E-07 1.0843E-08 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.5101E+18 Elemental I (atoms) 0.OOOOE+00 5.7489E+14 Organic I (atoms) 0.OOOOE+00 1.8600E+14 Aerosols (kg) 0.OOOOE+00 2.6517E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 8.0000 Filtered Transported Noble gases (atoms) 9.2167E+18 0.OOOOE+00 Elemental I (atoms) 5.6302E+14 0.OOOOE+00 Organic I (atoms) 1.5067E+14 0.OOOOE+00 Aerosols (kg) 2.5328E-07 0.OOOOE+00 Exclusion Area Boundary Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.0496E+01 2.0366E+02 2.1173E+01 Accumulated dose (rem) 1.8538E+01 5.1203E+02 4.6945E+01 CR Air Intake Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.7398E+00 5.3162E+01 5.5269E+00 Accumulated dose (rem) 7.7254E+00 2.4641E+02 2.1600E+01 Control Room Doses:

Time (h) = 24.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4987E-01 1. 5314E+01 9. 9645E-01 Accumulated dose (rem) 3.0846E-01 5.2532E+01 3.2077E+00 Environment Integral Nuclide Release:

CC-AA-309-1001, Rev 2

Attachment E Page 37 of 48 Time (h) = 24.0000 Ci kg Atoms Bq Co-58 2.7580E-02 8. 6735E-10 9.0057E+15 1.0205E+0§ Co-60 3.3106E-02 2.9288E-08 2. 9396E+17 1.2249E+0O Kr-85 4. 3193E+03 1.1009E-02 7.7999E+22 1. 5981E+14 Kr-85m 1.0250E+04 1.2455E-06 8. 8240E+18 3. 7924E+14 Kr-87 1.8483E+03 6.5250E-08 4.5166E+17 6.8385E+13 Kr-88 1.3039E+04 1.0398E-06 7. 1159E+18 4 . 8243E+14 Rb-86 1.3568E+00 1.6675E-08 1. 1677E+17 5.0203E+10 Sr-89 3. 4994E+01 1.2045E-06 8. 1503E+18 1.2948E+12 Sr-90 5. 1065E+00 3.7436E-05 2.5049E+20 1.8894E+ll Sr-91 2.7329E+01 7.5389E-09 4.9891E+16 1.0112E+12 Sr-92 1.2027E+01 9.5682E-10 6.2631E+15 4. 4498E+ll Y-90 3.8254E-01 7.0311E-10 4.7047E+15 1.4154E+10 Y-91 4.9410E-01 2.0148E-08 1.3333E+17 1.8282E+10 Y-92 8.8713E+00 9.2195E-10 6.0349E+15 3.2824E+ll Y-93 3. 5898E-01 1.0760E-10 6. 9675E+14 1.3282E+10 Zr-95 6. 4093E-01 2.9834E-08 1.8912E+17 2.3714E+10 Zr-97 4.8798E-01 2.5526E-10 1.5848E+15 1. 8055E+10 Nb-95 6. 4607E-01 1.6522E-08 1.0474E+17 2. 3905E+10 Mo-99 8.5762E+00 1.7881E-08 1.0877E+17 3. 1732E+ll Tc-99m 7.9293E+00 1.5080E-09 9. 1730E+15 2.9338E+ll Ru-103 7.7571E+00 2.4035E-07 1.4053E+18 2.8701E+ll Ru-105 2.1347E+00 3. 1757E-10 1. 8214E+15 7. 8984E+10 Ru-106 3.3217E+00 9.9287E-07 5. 6408E+18 1 .2290E+ll Rh-105 4.9006E+00 5.8060E-09 3.3300E+16 1. 8132E+ll Sb-127 1.0267E+01 3.8444E-08 1.8229E+17 3. 7986E+ll Sb-129 1.2226E+01 2.1741E-09 1.0149E+16 4.5236E+ll Te-127 1.0505E+01 3.9803E-09 1.8874E+16 3.8867E+ll Te-127m 1.4700E+00 1.5584E-07 7.3896E+17 5.4389E+10 Te-129 1. 6016E+01 7. 6475E-10 3.5701E+15 5. 9258E+ll Te-129m 4.6974E+00 1.5593E-07 7.2792E+17 1.7380E+ll Te-131m 1 .2114E+01 1.5191E-08 6.9835E+16 4.4820E+ll Te-132 1.3050E+02 4.2984E-07 1. 9610E+18 4. 8283E+12 I-131 7.3595E+02 5.9363E-06 2.7289E+19 2. 7230E+13 1-132 3.9463E+02 3.8231E-08 1. 7442E+17 1. 4601E+13 I-133 1.1786E+03 1.0404E-06 4.7110E+18 4. 3609E+13 I-134 8.1010E+01 3.0367E-09 1.3647E+16 2. 9974E+12 I-135 6.8898E+02 1. 9619E-07 8.7516E+17 2.5492E+13 Xe-133 4.8619E+05 2.5974E-03 1.1761E+22 1. 7989E+16 Xe-135 9.5183E+04 3.7272E-05 1.6626E+20 3.5218E+15 Cs-134 1.5482E+02 1.1966E-04 5.3777E+20 5.7283E+12 Cs-136 4.5275E+01 6.1774E-07 2.7354E+18 1. 6752E+12 Cs-137 9.5286E+01 1.0955E-03 4.8154E+21 3.5256E+12 Ba-139 7.2186E+00 4.4132E-10 1. 9120E+15 2. 6709E+ll Ba-140 6. 7088E+01 9.1640E-07 3. 9419E+18 2.4823E+12 La-140 7.4324E+00 1.3372E-08 5. 7519E+16 2.7500E+ll La-141 2.2674E-01 4.0093E-11 1.7124E+14 8.3895E+09 La-142 7.5072E-02 5.2443E-12 2.2241E+13 2.7777E+09 Ce-141 1.6080E+00 5.6433E-08 2.4102E+17 5. 9495E+10 Ce-143 1.2746E+00 1.9194E-09 8.0831E+15 4.7161E+10 Ce-144 1. 3314E+00 4.1742E-07 1.7457E+18 4. 9260E+10 Pr-143 5.8349E-01 8.6650E-09 3. 6491E+16 2. 1589E+10 Nd-147 2.5548E-01 3.11580E-09 1.2938E+16 9.4528E+09 Np-239 1.8477E+01 7.99644E-08 2.0068E+17 6. 8364E+ll Pu-238 6.3979E-03 3.7.372E-07 9.4562E+17 2.3672E+08 CC-AA-309-1001, Rev 2 l

Attachment E Page 38 of 48 Pu-2 39 5.3385E-04 8. 5888E-06 2.1641E+19 1.9752E+0?

Pu-240 7.2408E-04 3. 1777E-06 7. 9735E+18 2.6791E+07 Pu-241 2.4244E-01 2.3535E-06 5. 8809E+18 8.9701E+09 Am-241 1.4298E-04 4. 1658E-08 1.0409E+17 5.2901E+06 Cm-242 3.3030E-02 9. S660E-09 2. 4800E+16 1.2221E+09 Cm-244 2.3462E-03 2.S9001E-08 7.1576E+16 8.6810E+07 Environment Transport Group Inventory:

Total Release Time (h) = 24.0000 Release Rate/s Noble gases (atoms) 8.9943E+22 1.0410E+18 Elemental I (atoms) 1.9795E+18 2.2911E+13 Organic I (atoms) 5.0021E+18 5.J895E+13 Aerosols (kg) 1.2783E-03 1.4796E-08 Dose Effective (Ci) I-131 (Thyroid) 9. 5451E+02 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1.1239E+03 Total I (Ci) 3.0792E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.8431E+22 Elemental I (atoms) 1.1610E+18 1.1610E+18 Organic I (atoms) 0.OOOOE+00 2.1529E+18 Aerosols (kg) 7.1323E-03 1.0960E-03 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.8183E+22 Elemental I (atoms) 5.8214E+17 5.8214E+17 Organic I (atoms) 0.OOOOE+00 2.1332E+18 Aerosols (kg) 1.1152E-03 1.6503E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.3378E+22 Elemental I (atoms) 2.4117E+17 2.4117E+17 Organic I (atoms) 0.OOOOE+00 7.4211E+17 Aerosols (kg) 2.3372E-04 1.7295E-05 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.3089E+19 Elemental I (atoms) 1.1124E+15 2.4990E+13 Organic I (atoms) 1.8720E+15 2.0412E+13 Aerosols (kg) 7.2951E-07 1.2162E-08 CC-AA-309-1001, Rev 2

Attachment E Page 39 of 48 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) O.OOOOE+00 7.5568E+18 Elemental I (atoms) O.OOOOE+00 6.2480E+14 Organic I (atoms) O.OOOOE+00 4.6119E+14 Aerosols (kg) O.OOOOE+00 2.9448E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 24.0000 Filtered Transported Noble gases (atoms) 3.7974E+19 0.0 OOE+00 Elemental I (atoms) 6.4127E+14 0.0 OOE+00 Organic I (atoms) 4.5031E+14 0.0,OOOE+00 Aerosols (kg) 3.0601E-07 0.0OOOE+00 Exclusion Area Boundary Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.4491E+01 2.4234E+02 2.2186E+01 Accumulated dose (rem) 3.3028E+01 7.5438E+02 6. 9131E+01 CR Air Intake Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 2.4719E+00 4.1341E+01 3.7846E+00 Accumulated dose (rem) 1.0197E+01 2.3775E+02 2.5384E+01 Control Room Doses:

Time (h) = 96.0000 Whole Body Thyroid TEDE Delta dose (rem) 7.7230E-02 4.3526E+00 2.3388E-01 AccumulatedI dose (rem) 3.8569E-01 5.7385E+01 3.4416E+00 Environment Integral Nuclide Release:

Time (h) 96.0000 Ci kg Atoms Bq Co-58 2.8205E-02 8.8o99E-10 9.2096E+15 1.0436E+09 Co-60 3.3863E-02 2.9357E-08 3. 0068E+17 1.2529E+09 Kr-85 2. 1959E+04 5.5369E-02 3.9653E+23 8. 1247E+14 Kr-85m 1.0816E+04 1.3143E-06 9.3119E+18 4. 0020E+14 Kr-87 1.8483E+03 6.5251E-08 4.5167E+17 6. 8386E+13 Kr-88 1.3146E+04 1.0484E-06 7.1746E+18 4.8641E+14 Rb-86 1.3855E+00 1.7027E-08 1.1923E+17 5. 1262E+10 Sr-89 3.5783E+01 1.2.317E-06 8.3342E+18 1.3240E+12 Sr-90 5.2232E+00 3.8:291E-05 2.5622E+20 1.9326E+11 Sr-91 2.7448E+01 7.5718E-09 5.0108E+16 1. 0156E+12 Sr-92 1.2027E+01 9.55688E-10 6.2636E+15 4.4502E+11 Y-90 4. 1508E-01 7.6293E-10 5.1050E+15 1.5358E+10 Y-91 5. 0668E-01 2.0,561E-08 1. 3673E+17 1. 8747E+10 Y-92 8.8820E+00 9.2:306E-10 6.0422E+15 3.2864E+ll Y-93 3. 6071E-01 1.0,312E-10 7.0010E+14 1.3346E+10 Zr-95 6. 5543E-01 3.0309E-08 1. 9340E+17 2.4251E+10 CC-AA-309-1001, Rev 2 l

Attachment E Page 40 of 48 Zr-97 4.9236E-01 2.5756E-10 1.5990E+15 1.8217E+1C0 Nb-95 6. 6083E-01 1.6900E-08 1.0713E+17 2.4451E+10 Mo-99 8.7303E+00 1.8203E-08 1.1073E+17 3.2302E+1l Tc-99m 8. 0851E+00 1.5376E-09 9.3532E+15 2.9915E+ll Ru-103 7. 9315E+00 2.4576E-07 1. 4369E+18 2. 9347E+11 Ru-105 2. 1361E+00 3.1778E-10 1.8226E+15 7.9037E+lC' Ru-106 3.3975E+00 1.0155E-06 5.7695E+18 1.2571E+11 Rh-105 4.9765E+00 5.8959E-09 3.3815E+16 1. 8413E+11 Sb-127 1.0464E+01 3. 9184E-08 1.8580E+17 3.8717E+1I Sb-129 1 .2233E+01 2.1754E-09 1.0156E+16 4.5263E+l1 Te-127 1.0722E+01 4.0627E-09 1 . 9265E+16 3.9671E+11 Te-127m 1.5036E+00 1.5940E-07 7.5587E+17 5. 5633E+lC Te-129 1. 6117E+01 7. 6961E-10 3.5928E+15 5. 9635E+ll Te-129m 4.8030E+00 1.5943E-07 7. 4429E+17 1. 7771E+ll Te-131m 1.2277E+01 1.5396E-08 7.0776E+16 4.5424E+1l Te-132 1.3293E+02 4.3786E-07 1. 9976E+18 4. 9184E+12 I-131 1. 1716E+03 9.4506E-06 4.3445E+19 4.3350E+1^*

I-132 4. 0717E+02 3.9446E-08 1. 7996E+17 1.5065E+1<

I-133 1.3691E+03 1.2086E-06 5. 4723E+18 5.0655E+18 I-134 8. 1010E+01 3.0367E-09 1.3647E+16 2.9974E+12 I-135 7.0054E+02 1.9948E-07 8. 8984E+17 2.5920E+1-Xe-133 2.0441E+06 1.0920E-02 4.9447E+22 7.5632E+1E Xe-135 1.2615E+05 4.9399E-05 2.2036E+20 4.6676E+1l Cs-134 1.5820E+02 1.2227E-04 5.4951E+20 5.8534E+12 Cs-136 4. 6215E+01 6.3057E-07 2.7922E+18 1.7100E+12 Cs-137 9. 7369E+01 1.1194E-03 4. 9207E+21 3.6027E+12 Ba-139 7.2186E+00 4 .4132E-10 1. 9120E+15 2.6709E+11 Ba-140 6.8544E+01 9.3629E-07 4.0275E+18 2.5361E+12 La-140 8.0349E+00 1.4456E-08 6.2182E+16 2.9729E+11 La-141 2.2684E-01 4.0110E-ll 1.7131E+14 8.3930E+09 La-142 7.5072E-02 5.2443E-12 2.2241E+13 2.7777E+09 Ce-141 1.6440E+00 5.7698E-08 2.4643E+17 6.0828E+10 Ce-143 1.2927E+00 1.9465E-09 8. 1974E+15 4.7828E+10 Ce-144 1.3617E+00 4.2694E-07 1.7855E+18 5.0384E+10 Pr-143 5. 9729E-01 8.8699E-09 3.7354E+16 2.2100E+10 Nd-147 2. 6098E-01 3.2260E-09 1.3216E+16 9.6562E+09 Np-239 1. 8796E+01 8.1019E-08 2. 0415E+17 6.9544E+11 Pu-238 6.5442E-03 3.8226E-07 9. 6724E+17 2.4213E+08 Pu-239 5.4608E-04 8.7856E-06 2.2137E+19 2.0205E+07 Pu-240 7.4063E-04 3.2503E-06 8. 1557E+18 2.7403E+07 Pu-241 2.4798E-01 2.4073E-06 6. 0153E+18 9.1752E+09 Am-241 1.4627E-04 4.2617E-08 1.0649E+17 5.4119E+06 Cm-242 3.3782E-02 1.0193E-08 2.5365E+16 1.2499E+09 Cm-244 2.3999E-03 2.9664E-08 7.3212E+16 8.8795E+07 Environment Transport Group Inventory:

Total Release Time (h) = 96.0000 Release Rate/s Noble gases (atoms) 4.4622E+23 1.2911E+18 Elemental I (atoms) 2.9662E+18 8.5829E+12 Organic I (atoms) 2.0477E+19 5.9252E+13 Aerosols (kg) 1.3063E-03 3.7798E-09 Dose Effective (Ci) I-131 (Thyroid) 1.4223E+03 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 1. 6119E+03 CC-AA-309-1001, Rev 2

Attachment E Page 41 of 48 Total I (Ci) 3.7294E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 l.E1l6E+23 Elemental I (atoms) 1.7192E+18 1. 192E+18 Organic I (atoms) 0.OOOOE+00 8.23825E+18 Aerosols (kg) 7.2866E-03 1.1197E-03 Intact Control Volume 3 to Environment. Transport Group Inventory:

Pathway.

Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.8106E+23 Elemental I (atoms) 8.5750E+17 8.5750E+17 Organic I (atoms) 0.OOOOE+00 8.3693E+18 Aerosols (kg) 1.1262E-03 l.E665E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 8.4252E+22 Elemental I (atoms) 3.9946E+17 3.9946E+17 Organic I (atoms) 0.OOOOE+00 3.8305E+18 Aerosols (kg) 2.6948E-04 1.9941E-05 Filtered Intake to Control Room TransFort Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 1.0335E+20 Elemental I (atoms) 1.3059E+15 2.6945E+13 Organic I (atoms) 4.9068E+15 5.1067E+13 Aerosols (kg) 7.3497E-07 1.2217E-08 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 2.3170E+19 Elemental I (atoms) 0.OOOOE+00 6.6824E+14 Organic I (atoms) 0.OOOOE+00 1.1424E+15 Aerosols (kg) 0.OOOOE+00 2.9571E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 96.0000 Filtered Transported Noble gases (atoms) 1.2483E+20 0.OOOOE+00 Elemental I (atoms) 6.8795E+14 0.OOOOE+00 Organic I (atoms) 1.1715E+15 0.OOOOE+00 Aerosols (kg) 3.0792E-07 0.OOOOE+00 I CC-AA-309-1001, Rev 2

Attachment E Page 42 of 48 Exclusion Area Boundary Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9585E+01 5.0156E+02 3.4858E+01 Accumulated dose (rem) 5.2613E+01 1.2559E+03 1.0399E+02 CR Air Intake Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 1.9873E+00 5.0894E+01 3.5371E+00 Accumulated dose (rem) 1.2185E+01 3.3865E+02 2.8921E+01 Control Room Doses:

Time (h) = 720.0000 Whole Body Thyroid TEDE Delta dose (rem) 4.0977E-02 3.8944E+00 1.5957E-01 Accumulated dose (rem) 4.2667E-01 6. 1279E+01 3. 6012E+00 Environment Integral Nuclide Release:

Time (h) = 720.0000 Ci kg Atoms Bq Co-58 2.8205E-02 8.8699E-10 9.2096E+15 1. 0436E+09 Co-60 3.3863E-02 2.9957E-08 3. 0068E+17 1.2529E+OS0 Kr-85 1.2357E+05 3. 1495E-01 2.2314E+24 4.5720E+15 Kr-85m 1.0816E+04 1.3143E-06 9.3119E+18 4. 0020E+14 Kr-87 1.8483E+03 6. 5251E-08 4.5167E+17 6.8386E+13 Kr-88 1 .3146E+04 1.0484E-06 7.1746E+18 4.8641E+14 Rb-86 1.3855E+00 1.7027E-08 1. 1923E+17 5.1262E+10 Sr-89 3. 5783E+01 1.2317E-06 8.3342E+18 1.3240E+12 Sr-90 5.2232E+00 3. 8291E-05 2.5622E+20 1.9326E+11 Sr-91 2.7448E+01 7.5718E-09 5.0108E+16 1.0156E+12 Sr-92 1.2027E+01 9.5688E-10 6. 2636E+15 4.4502E+11 Y-90 4 .1508E-01 7. 6293E-10 5. 1050E+15 1.5358E+1C, Y-91 5. 0668E-01 2.0661E-08 1.3673E+17 1.8747E+1C Y-92 8.8820E+00 9.2306E-10 6. 0422E+15 3.2864E+11 Y-93 3. 6071E-01 1.0812E-10 7. 0010E+14 1.3346E+1C Zr-95 6. 5543E-01 3.0509E-08 1.9340E+17 2.4251E+1C Zr-97 4.9236E-01 2.5756E-10 1.5990E+15 1.8217E+1C Nb-95 6.6083E-01 1.6900E-08 1. 0713E+17 2.4451E+1C Mo-99 8.7303E+00 1.8203E-08 1. 1073E+17 3.2302E+11 Tc-99m 8.0851E+00 1.5376E-09 9. 3532E+15 2.9915E+11 Ru-103 7. 9315E+00 2.4576E-07 1.4369E+18 2.9347E+11 Ru-105 2.1361E+00 3. 1778E-10 1.8226E+15 7.9037E+1C Ru-106 3.3975E+00 1. 0155E-06 5. 7695E+18 1.2571E+11 Rh-105 4.9765E+00 5.8959E-09 3. 3815E+16 1.8413E+11 Sb-127 1 .0464E+01 3. 9184E-08 1. 8580E+17 3.8717E+11 Sb-129 1.2233E+01 2. 1754E-09 1.0156E+16 4.5263E+11 Te-127 1.0722E+01 4.0627E-09 1. 9265E+16 3.9671E+11 Te-127m 1.5036E+00 1.5940E-07 7.5587E+17 5.5633E+1C Te-129 1. 6117E+01 7. 6961E-10 3.5928E+15 5.9635E+11 Te-129m 4.8030E+00 1.5943E-07 7.4429E+17 1.7771E+11 Te-131m 1.2277E+01 1.5396E-08 7.0776E+16 4.5424E+11 Te-132 1.3293E+02 4.3786E-07 1.9976E+18 4.9184E+12 I-131 2. 1406E+03 1.7266E-05 7. 9375E+19 7.9202E+13 I CC-AA-309-1001, Rev 2 l

Attachment E Page 43 of 48 I-132 4. 0717E+02 3.9447E-08 1.7996E+17 1.5065E+1:3 I-133 1.3855E+03 1.2230E-06 5. 5379E+18 5.1263E+1:3 I-134 8. 1010E+01 3.0367E-09 1.3647E+16 2.9974E+12 I-135 7.0054E+02 1.9948E-07 8.8984E+17 2.5920E+1:3 Xe-133 4.5051E+06 2.'4 068E-02 1.0898E+23 1.6669E+17 Xe-135 1.2627E+05 4.9445E-05 2.2057E+20 4.6720E+15 Cs-134 1.5820E+02 1.2227E-04 5.4951E+20 5.8534E+12 Cs-136 4. 6215E+01 6.3057E-07 2.7922E+18 1.7100E+12 Cs-137 9. 7369E+01 1.1194E-03 4. 9207E+21 3.6027E+12 Ba-139 7.2186E+00 4.4132E-10 1. 9120E+15 2.6709E+1:L Ba-140 6.8544E+01 9.3629E-07 4.0275E+18 2.5361E+12 La-140 8.0350E+00 1.4456E-08 6.2182E+16 2. 9729E+1:

La-141 2.2684E-01 4.0110E-11 1.7131E+14 8.3930E+09 La-142 7.5072E-02 5.2443E-12 2.2241E+13 2.7777E+09 Ce-141 1.6440E+00 5.7698E-08 2.4643E+17 6.0828E+10 Ce-143 1.2927E+00 1.9465E-09 8.1974E+15 4.7828E+10 Ce-144 1. 3617E+00 4.2694E-07 1.7855E+18 5.0384E+10 Pr-143 5. 9729E-01 8.E699E-09 3.7354E+16 2.2100E+10 Nd-147 2. 6098E-01 3.2260E-09 1. 3216E+16 9.6562E+09 Np-239 1. 8796E+01 8.1019E-08 2. 0415E+17 6.9544E+11 Pu-238 6.5442E-03 3.8226E-07 9. 6724E+17 2.4214E+08 Pu-239 5.4608E-04 8.7856E-06 2.2137E+19 2.0205E+07 Pu-240 7.4064E-04 3.2503E-06 8.1557E+18 O 7 2.7404E+0 Pu-241 2.4798E-01 2.4073E-06 6.0153E+18 9.1752E+09 Am-241 1.4627E-04 4.2617E-08 1.0649E+17 5.4119E+06 Cm-242 3.3782E-02 1.0193E-08 2.5365E+16 1.2499E+09 Cm-244 2.3999E-03 2.9664E-08 7.3212E+16 8.8795E+O' Environment Transport Group Inventory:

Total Release Time (h) = 720.0000 Release Rate/s Noble gases (atoms) 2.3406E+24 9.0302E+17 Elemental I (atoms) 5.0398E+18 1.9444E+12 Organic I (atoms) 5.4399E+19 2.0987E+13 Aerosols (kg) 1.3063E-03 5.0398E-10 Dose Effective (Ci) I-131 (Thyroid) 2.3940E+03 Dose Effective (Ci) I-131 (ICRP2 Thyroid) 2.5853E+03 Total I (Ci) 4.7148E+03 MSIV Failed Control Vol 1 to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) O.OOOOE+00 9.3783E+23 Elemental I (atoms) 2.9070E+18 2.9070E+18 Organic I (atoms) O.OOOOE+00 2.1979E+19 Aerosols (kg) 7.2866E-03 1.1197E-03 Intact Control Volume 3 to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) O.OOOOE+00 9.3777E+23 Elemental I (atoms) 1.4515E+18 1.4515E+18 CC-AA-309-1001, Rev 2

Attachment E Page 44 of 48 Organic I (atoms) o.OOOOE+00 2.1966E+19 Aerosols (kg) 1.1262E-03 1.6665E-04 Intact Control Volume 5 to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.0000E+00 4.6563E+23 Elemental I (atoms) 6.9882E+17 6.9882E+17 Organic I (atoms) 0.OOOOE+00 1.0683E+19 Aerosols (kg) 2.6949E-04 1.9942E-05 Filtered Intake to Control Room Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 3.2547E+20 Elemental I (atoms) 1.5475E+15 2.9385E+13 Organic I (atoms) 8.8582E+15 9.0979E+13 Aerosols (kg) 7.3497E-07 1.2217E-08 Unfiltered Inleakage to Control Room Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 7.2531E+19 Elemental I (atoms) 0.OOOOE+00 7.2245E+14 Organic I (atoms) 0.OOOOE+00 2.0294E+15 Aerosols (kg) 0.OOOOE+00 2.9571E-07 Control Room Exhaust to Environment Transport Group Inventory:

Pathway Time (h) = 720.0000 Filtered Transported Noble gases (atoms) 3.9742E+20 0.OOOOE+00 Elemental I (atoms) 7.4498E+14 0.OOOOE+00 Organic I (atoms) 2.1044E+15 0.OOOOE+00 Aerosols (kg) 3.0792E-07 0.000OE+00 930 I-131 Sumnary Drywell MSIV Failed Control V Intact Control Volume Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curies) 0.000 4.5398E+03 0.0000E+00 0.OOOOE+00 0.033 2.6872E+05 0.0000E+00 0.OOOOE+00 0.400 2.8307E+06 7.6676E+01 7.5746E+01 0.500 3.4219E+06 1.1620E+02 1.1443E+02

0. 667 5.3103E+06 2.0709E+02 2.0306E+02 1.000 8.8331E+06 4.9351E+02 4.8006E+02 1.160 1.0413E+07 5.7414E+02 6.5314E+02 1.410 1.2763E+07 l.0040E+03 9.6654E+02 l CC-AA-309-1001, Rev 2

Attachment E Page 45 of 48

1. 660 1.4976E+07 1.3843E+03 1.3240E+O 3

1. 910 1.7060E+07 1.8068E+03 1.7170E+0 3

2. 000 1.7781E+07 1.9679E+03 1.8657E+O 3 2 .400 1.2108E+07 2.2847E+03 2.1471E+O,1 2 .700 9. 1056E+06 2. 4101E+03 2.2447E+O--I

3. 000 6.8575E+06 2.4682E+03 2.2755E+O-,:

3 .050 6.5416E+06 2.4727E+03 2.2756E+O--,

3. 350 4. 9361E+06 2.4758E+03 2.2529E+O,:

3. 600 3.9056E+06 2.4529E+03 2.2101E+03:

3. 900 2. 9512E+06 2.4036E+03 2.1389E+O':

4 .200 2.2325E+06 2.3375E+03 2.0534E+03:

4.500 1. 6914E+06 2.2604E+03 1.9593E+03:

4 .800 1.2840E+06 2.1763E+ 03 1.8606E+03':

5. 100 1. 0106E+06 2.0885E+03 1.7606E+03:

5.400 8.5226E+05 2.0007E+03 1.6628E+03:

5.700 7. 1981E+05 1. 9141E+03 1.5683E+O':

6. 000 6.0899E+05 1.8292E+03 1.4773E+O':

6. 300 5. 1628E+05 1.7464E+03 1.3902E+03:

6. 600 4. 3871E+05 1.6660E+03 1.3070E+03':

6. 900 3.7380E+05 1.5881E+03 1.2278E+OR:

7.200 3. 1949E+05 1. 5130E+03 1.1526E+OR':

7. 500 2.7405E+05 1.4406E+03 1.0814E+O_';

7 .800 2.3603E+05 1. 3710E+03 1.0140E+O-,;

8 .000 2. 1419E+05 1.3262E+03 9.7116E+021 8 .300 1.8593E+05 1.2614E+03 9.0997E+02!

8 .600 1.6543E+05 1. 1993E+03 8.5238E+02 8 .900 1.4782E+05 1.1401E+03 7.9824E+02

9. 200 1.3270E+05 1.0836E+03 7.4740OE+02

9. 500 1. 1971E+05 1.0298E+03 6.9967E+02

9. 800 1.0856E+05 9.7848E+02 6.5491E+02

10. 100 9.8970E+04 9.2961E+02 6.1293E+02

10. 400 9.0733E+04 8. 8310E+02 5.7360E+02

24. 000 3. 8631E+04 9. 4023E+01 3.7307E+Ol

96. 000 2. 7199E+04 1.2420E+01 9.4697E+OC 720. 000 1.3252E+03 6.0512E-01 4.6137E-Ol Intact Control Volume Intact Control Volume Intact Control Volume Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curies)

O. 000 O.OOOOE+00 0.0000E+00 O.OOOOE,+OC

0. 033 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00

0. 400 6.0688E-01 3.8825E+01 7.9030E-02

0. 500 1.1231E+00 5.9072E+01 1.4840E-01

0. 667 2.4621E+00 1.0587E+02 3.3300E-01

1. 000 7.6708E+00 2.5491E+02 1.0805E+OC

1. 160 1.1607E+01 3.5004E+02 1.6665E+OC

1. 410 1.9755E+01 5.2575E+02 2.9233E+00 1 .660 3.0316E+01 7.3108E+02 4.6267E+00

1. 910 4.3166E+01 9.6250E+02 6.7956E+00

2. 000 4.8315E+01 1.0516E+03 7.6918E+00 2 .4 00 6.2336E+01 1.2356E+03 1.0247E+01

2. 700 7.2175E+01 1.3189E+03 1.2217E+01

3. 000 8.0679E+01 1.3688E+03 1.4128E+01

3. 050 8.1943E+01 1.3745E+03 1.4436E+01

3. 350 8.8549E+01 1.3964E+03 1.6207E+01

3. 600 9.2773E+01 1.4014E+03 1.7566E+01 I CC-AA-309-1001, Rev 2

-/

Attachment E Page 46 of 48 3.900 9. 6371E+01 1.3954E+03 1. 9044E+0O 4.200 9.8502E+01 1.3799E+03 2.0347E+01 4.500 9.9345E+01 1.3575E+03 2. 1478E+0O 4.800 9.9090E+01 1.3303E+03 2.2442E+01 5.100 9.7923E+01 1.2999E+03 2.3247E+01 5.400 9.6028E+01 1.2682E+03 2.3905E+01 5.700 9.3575E+01 1.2358E+03 2.4429E+01 6.000 9.0705E+01 1.2030E+03 2. 4832E+01 6.300 8.7536E+01 1. 1701E+03 2.5126E+01 6.600 8.4163E+01 1. 1373E+03 2.5321E+01 6.900 8.0665E+01 1. 1047E+03 2.5428E+01 7.200 7.7104E+01 1.0725E+03 2.5458E+01 7.500 7. 3531E+01 1.0408E+03 2.5418E+01 7.800 6.9986E+01 1.0096E+03 2.5317E+01 8.000 6.7653E+01 9.8918E+02 2.5220E+01 8.300 6.4221E+01 9.5905E+02 2.5034E+01 8.600 6.0884E+01 9.2963E+02 2.4805E+01 8.900 5.7658E+01 9.0096E+02 2. 4539E+01 9.200 5.4555E+01 8.7303E+02 2. 4242E+01 9.500 5.1581E+01 8.4585E+02 2.3919E+01 9.800 4.8740E+01 8. 1942E+02 2.3573E+01 10.100 4.6035E+01 7.9374E+02 2.3208E+01 10.400 4.3464E+01 7.6880E+02 2.2829E+01 24 .000 5.7385E+00 1.8148E+02 8.8053E+00 96.000 2.8197E+00 1.0241E+01 2.8390E+00 720.000 1.3738E-01 4.9626E-01 1. 3824E-01 Environment Control Room Void Time (hr) I-131 (Curies) I-131 (Curies) I-131 (Curies) 0 .000 O.OOOOE+00 O.OOOOE+00 1.1492E-03 0.033 O.OOOOE+00 O.OOOOE+00 4.0943E+00 0.400 4.7972E-01 4.1316E-03 5.4049E+02 0.500 9.2271E-01 6.5992E-03 8.2544E+02

0. 667 2.1482E+00 1.2189E-02 1.4895E+03 1.000 7.4199E+00 1.0545E-02 3.6424E+03 1.160 1.1772E+01 1.0225E-02 5.0437E+03 1.410 2.1558E+01 1.0352E-02 7.6808E+03 1.660 3.5568E+01 1.1236E-02 1.0835E+04

1. 910 5.4378E+01 1.2861E-02 1.4475E+04 2.000 6.2421E+01 1.3621E-02 1.5899E+04 2.400 8.6345E+01 1.3596E-02 2.2074E+04 2.700 1.0623E+02 1.3858E-02 2.5370E+04 3.000 1.2707E+02 1.4208E-02 2.7841E+04 3.050 1.3060E+02 1.4269E-02 2.8188E+04 3.350 1.5200E+02 1.4619E-02 2.9954E+04

3. 600 1.6993E+02 1.4872E-02 3.1083E+04 3.900 1.9134E+02 1.5105E-02 3.2123E+04 4.200 2.1246E+02 1.5250E-02 3.2901E+04 4.500 2.3315E+02 1.5304E-02 3.3480E+04 4.800 2.5331E+02 1.5270E-02 3.3910E+04 5.100 2.7287E+02 1.5155E-02 3.4230E+04 5.400 2.9179E+02 1.4969E-02 3.4487E+04 5.700 3.1006E+02 1.4723E-02 3.4697E+04 6.000 3.2766E+02 l.14429E-02 3.4869E+04 6.300 3.4461E+02 1.4096E-02 3.5009E+04 r CC-AA-309-1 001, Rev 2

Attachment E Page 47 of 48 6.600 3. 6091E+02 1.3732E-02 3.5122E+04 6.900 3.7656E+02 1.3346E-02 3.5213E+04 7.200 3. 9159E+02 1.2943E-02 3.5284E+04 7.500 4. 0601E+02 1.2530E-02 3.5340E+04 7.800 4.1984E+02 1.2111E-02 3.5383E+04 8.000 4.2874E+02 1. 1830E-02 3.5405E+04 8.300 4 .4163E+02 1.0341E-02 3.5431E+04 8.600 4.5399E+02 9. 1072E-03 3.5448E+04 8.900 4.6583E+02 8. 0811E-03 3.5460E+04 9.200 4.7718E+02 7.2237E-03 3.5467E+04 9.500 4.8805E+02 6.5035E-03 3.5469E+04 9.800 4.9848E+02 5.8951E-03 3.5467E+04 10.100 5.0849E+02 5. 3781E-03 3.5462E+04 10.400 5. 1808E+02 4.9360E-03 3.5454E+04 24 .000 7.3595E+02 9.4162E-04 3.4444E+04

96. 000 1.1716E+03 3.1579E-04 2.8792E+04 720. 000 2.1406E+03 9. 1518E-06 4.3783E+O03 Cumulative Dose Summary Exclusion Area Bounda CR Air Intake Contro]L Room Time Thyroid TEDE Thyroid TEDE Thyroid TEDE (hr) (rem) (rem) (rem) (rem) (rem) (rem) 0 .000 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOCOE+00 0.033 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOCOE+00 0.400 3.4901E-01 1.8503E-02 2. 6176E-01 1.3877E-02 1. 9258E-01 8.387 6E-03 0.500 6.7067E-01 3.5617E-02 5. 0300E-01 2. 6713E-02 3. 9047E-01 1.7027E-02 0.667 1.5606E+00 8.4325E-02 1. 1705E+00 6.3244E-02 9. 5901E-01 4.2280E-02 1.000 5. 4138E+00 3.2286E-01 4.0604E+00 2.4215E-01 2. 3421E+00 1. 04 6E-01 1.160 8.6049E+00 5.3645E-01 6.4536E+00 4.0234E-01 2.9508E+00 1.3284E-01 1.410 1.5794E+01 1.0420E+00 1. 1846E+01 7. 8153E-01 3.8893E+00 1.7715E-01 1.660 2.6097E+01 1.7972E+00 1. 9573E+01 1.3479E+00 4.8752E+00 2.2588E-01 1.910 3.9930E+01 2.8408E+00 2. 9947E+01 2.1306E+00 5.9784E+00 2.8329E-01 2.000 4.5843E+01 3.2935E+00 3. 4382E+01 2.4702E+00 6. 4173E+00 3.0689E-01 2.400 6.3416E+01 4. 6551E+00 4.5016E+01 3.2941E+00 8. 4172E+00 4.1716E-01 2.700 7. 7977E+01 5.7978E+00 5. 3828E+01 3.9856E+00 9.9329E+00 5.0310E-01 3.000 9. 3202E+01 7.0077E+00 6. 3041E+01 4 .7177E+oo 1. 1482E+01 5.9279E-01 3.050 9.5778E+01 7.2136E+00 6. 4600E+01 4.8424E+00 1.1743E+01 6.0810E-01 3.350 1. 1135E+02 8.4700E+00 7.4026E+01 5.6026E+00 1. 3335E+01 7.0224E-01 3.600 1.2437E+02 9.5317E+00 8.1901E+01 6.2452E+00 1.4688E+01 7.8330E-01 3.900 1.3987E+02 1.0811E+01 9.1282E+01 7.0196E+00 1. 6335E+01 8.8318E-01 4.200 1.5511E+02 1.2085E+01 1.0051E+02 7.7906E+O0 1. 7999E+01 9.8522E-01 4.500 1.7000E+02 1. 3345E+01 1.0952E+02 8.5527E+00 1. 9671E+01 1.0886E+0O 4.800 1.8447E+02 1.4583E+01 1. 1827E+02 9.3017E+00 2.1340E+01 1.1927E+00 5.100 1.9846E+02 1.5794E+01 1.2674E+02 1. 0034E+01 2.2996E+01 1.2967E+00 5.400 2. 1196E+02 1 . 6974E+01 1.3491EtO2 1.0749E+01 2. 4632E+01 1.4001E+00 5.700 2.2495E+02 1. 8122E+01 1.4277Et02 1.1444E+01 2. 6240E+01 1.5022E+00 6.000 2.3744E+02 1.9237E+01 1. 5032Ei-02 1. 2118E+01 2. 7815E+01 1.6028E+00 6.300 2.4942E+02 2.0316E+01 1.5758E+02 1.2771E+01 2.9352E+01 1.7013E+00 6.600 2. 6091E+02 2. 1360E+01 1.6453E+02 1.3403E+01 3.0847E+01 1.7975E+00 6.900 2. 7192E+02 2.2369E+01 1.7119E+02 1.4014E+01 3.2298E+01 1.8913E+00 7.200 2.8246E+02 2.3343E+01 1.7757E+02 1. 4603E+01 3.3703E+01 1.9823E+00 7.500 2.9254E+02 2. 4282E+01 1.8367E+02 1.5171E+01 3.5061E+01 2.0706E+00 CC-AA-309-1001, Rev 2

Attachment E Page 48 of 48 7.800 3.0218E+02 2.5187E+01 1. 8950E+02 1.5719E+01 3. 6371E+01 2.1560E+00 8.000 3.0837E+02 2. 5772E+01 1.9325E+02 1. 6073E+01 3. 7218E+01 2.2113E+00 8.300 3. 1731E+02 2. 6621E+01 1.9558E+02 1.6294E+01 3.8389E+01 2.28'78E+00 8.600 3.2586E+02 2. 7439E+01 1.9782E+02 1. 6508E+01 3. 9414E+01 2.3548E+00

8. 900 3.3403E+02 2. 8226E+01 1.9995E+02 1. 6713E+01 4. 0318E+01 2.41'38E+00 9.200 3.4185E+02 2. 8983E+01 2.0199E+02 1. 6911E+01 4. 1121E+01 2.4663E+00 9.500 3. 4931E+02 2. 9711E+01 2.0394E+02 1 . 7101E+0l 4. 1840E+01 2.5133E+00 9.800 3.5645E+02 3.0411E+01 2.0580E+02 1. 7284E+01 4.2487E+01 2.5556E+00

10. 100 3.6328E+02 3. 1085E+01 2.0758E;+02 1.7460E+01 4. 3074E+01 2.5941E+00 10.400 3. 6981E+02 3. 1733E+01 2.0929E+02 1. 7629E+01 4. 3610E+01 2.6293E+00 24.000 5. 1203E+02 4. 6945E+01 2.4641E,+02 2. 1600E+01 5. 2532E+01 3.207E+00

96. 000 7.5438E+02 6.9131E+01 2.8775E,+02 2.5384E+01 5. 7385E+01 3.4416E+00 720. 000 1.2559E+03 1.0399E+02 3.3865E+02 2.8921E+01 6. 1279E+01 3.6012E+00 Worst Two-Hour Doses Exclusion Area Boundars Time Whole Body Thyroid TEDE (hr) (rem) (rem) (rem) 3.0 2.5151E+00 1.0060E+02 8.3822E+00 l CC-AA-309- 001, Rev 2

Attachment F Page 1 of 10 Attachment F Nuclide Inventory Name: Quad Cities Power Station Nuclide Inventory F:le Normalized MACCS Sample 3578 MWth BWR Core Inventory Power Level:

O.1000E+01 Nuclides:

60 Nuclide 001:

Co-58 7

0.6117120000E+07 0.5800E+02 0.1529E+03 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 002:

Co-60 7

0.1663401096E+09 0.6000E+02 0.1830E+03 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 003:

Kr-85 1

0.3382974720E+09 0.8500E+02 0.4364E+03 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 004:

Kr-85m 1

0.1612800000E+05 0.8500E+02 0.6772E+04 Kr-85 0.2100E+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 005:

Kr-87 1

0.4578000000E+04 0.8700E+02 0.1291E+05 Rb-87 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 006:

CC-AA-309-1001, Rev 2

Attachment F Page 2 of 10 Kr-88 1

0.1022400000E+05 0.8800E+02 0.1815E+05 Rb-88 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 007:

Rb-86 3

0.1612224000E+07 0.8600E+02 0.7096E+02 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 008:

Sr-89 5

0.4363200000E+07 0.8900E+02 0.2428E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 009:

Sr-90 5

0.9189573120E+09 0.9000E+02 0.3528E+04 Y-90 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 010:

Sr-91 5

0.3420000000E+05 0.9100E+02 0.3081E+05 Y-91m 0.5800E+00 Y-91 0.4200E+00 none O.OOOOE+00 Nuclide 011:

Sr-92 5

0.9756000000E+04 0.9200E+02 0.3362E+05 Y-92 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 012:

Y-90 I CC-AA-309-1001, Rev 2

Attachment F Page 3 of 10 9

0.2304000000E+06 0.9000E+02 0.3625E+04 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 013:

Y-91 9

0.5055264000E+07 0.9100E+02 0.3155E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 014:

Y-92 9

0.1274400000E+05 0.9200E+02 0.3377E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 015:

Y-93 9

0.3636000000E+05 0.9300E+02 0.3942E+05 Zr-93 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 016:

Zr-95 9

0.5527872000E+07 0.9500E+02 0.4443E+05 Nb-95m 0.7000E-02 Nb-95 0.9900E+00 none O.OOOOE+00 Nuclide 017:

Zr-97 9

0.6084000000E+05 0.9700E+02 0.4497E+05 Nb-97m 0.9500E+00 Nb-97 0.5300E-01 none O.OOOOE+00 Nuclide 018:

Nb-95 9

r CC-AA-309-1001, Rev 2

Attachment F Page 4 of 10 0.3036960000E+07 0.9500E+02 0.4464E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 019:

Mo-99 7

0.2376000000E+06 0.9900E+02 0.5121E+05 Tc-99m 0.8800E+00 Tc-99 0.1200E+00 none O.OOOOE+00 Nuclide 020:

Tc-99m 7

0.2167200000E+05 0.9900E+02 0.4484E+05 Tc-99 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 021:

Ru-103 7

0.3393792000E+07 0.1030E+03 0.4311E+05 Rh-103m 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 022:

Ru-105 7

0.1598400000E+05 0.1050E+03 0.3034E+05 Rh-105 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 023:

Ru-106 7

0.3181248000E+08 0.1060E+03 0.1837E+05 Rh-106 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 024:

Rh-105 7

0.1272960000E+06 CC-AA-309-1001, Rev 2

Attachment F Page 5 of 10 0.1050E+03 0.2882E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 025:

Sb-127 4

0.3326400000E+06 0.1270E+03 0.2999E+04 Te-127m 0.1800E+00 Te-127 0.8200E+00 none O.OOOOE+00 Nuclide 026:

Sb-129 4

0.1555200000E+05 0.1290E+03 0.8877E+04 Te-129m 0.2200E+00 Te-129 0.7700E+00 none O.OOOOE+00 Nuclide 027:

Te-127 4

0.3366000000E+05 0.1270E+03 0.2986E+04 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 028:

Te-127m 4

0.9417600000E+07 0.1270E+03 0.4060E+03 Te-127 0.9800E+OO none O.OOOOE+00 none O.OOOOE+00 Nuclide 029:

Te-129 4

0.4176000000E+04 0.1290E+03 0.8735E+04 I-129 0.1000E+01 none O.OOOOE+00 none 0.OOOOE+00 Nuclide 030:

Te-129m 4

0.2903040000E+07 0.1290E+03 l CC-AA-309-1 001, Rev 2

Attachment F Page 6 of 10 0.1300E+04 Te-129 0.6500E+00 I-129 0.3500E+00 none 0.OOOOE+00 Nuclide 031:

Te-131m 4

0.1080000000E+06 0.1310E+03 0.3955E+04 Te-131 0.2200E+00 I-131 0.7800E+00 none 0.0000E+00 Nuclide 032:

Te-132 4

0.2815200000E+06 0.1320E+03 0.3850E+05 I-132 0.1000E+01 none 0.OOOOE+00 none 0.OOOOE+00 Nuclide 033:

I-131 2

0.6946560000E+06 0.1310E+03 0.2710E+05 Xe-131m 0.1100E-01 none 0.OOOOE+00 none 0.OOOOE+00 Nuclide 034:

I-132 2

0.8280000000E+04 0.1320E+03 0.3914E+05 none 0.0000E+00 none O.OOOOE+00 none 0.OOOOE+00 Nuclide 035:

I-133 2

0.7488000000E+05 0.1330E+03 0.5501E+05 Xe-133m 0.2900E-01 Xe-133 0.9700E+00 none 0.OOOOE+00 Nuclide 036:

I-134 2

0.3156000000E+04 0.1340E+03 0.6035E+05 CC-AA-309-1001, Rev 2

Attachment F Page 7 of 10 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 037:

I-135 2

0.2379600000E+05 0.1350E+03 0.5157E+05 Xe-135m 0.1500E+00 Xe-135 0.8500E+00 none O.OOOOE+00 Nuclide 038:

Xe-133 1

0.4531680000E+06 0.1330E+03 0.5282E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 039:

Xe-135 1

0.3272400000E+05 0.1350E+03 0.2144E+05 Cs-135 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 040:

Cs-134 3

0.6507177120E+08 0.1340E+03 0.8009E+04 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 041:

Cs-136 3

0.1131840000E+07 0.1360E+03 0.2379E+04 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 042:

Cs-137 3

0.9467280000E+09 0.1370E+03 0.4928E+04 Ba-137m 0.9500E+00 l CC-AA-309-1001, Rev 2

Attachment F Page 8 of 10 none O.OOOOE+00 none O.OOOOE+00 Nuclide 043:

Ba-139 6

0.4962000000E+04 0.1390E+03 0.4888E+05 none O.OOOOE+00 none O.OOOOE+00 none 0.OOOOE+00 Nuclide 044:

Ba-140 6

0.1100736000E+07 0.1400E+03 0.4714E+05 La-140 0.1000E+01 none 0.OOOOE+00 none O.OOOOE+00 Nuclide 045:

La-140 9

0.1449792000E+06 0.1400E+03 0.5055E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 046:

La-141 9

0.1414800000E+05 0.1410E+03 0.4447E+05 Ce-141 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 047:

La-142 9

0.5550000000E+04 0.1420E+03 0.4286E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 048:

Ce-141 8

0.2808086400E+07 0.1410E+03 0.4465E+05 none 0.OOOOE+00 none O.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment F Page 9 of 10 none O.OOOOE+00 Nuclide 049:

Ce-143 8

0.11880000000E+06 0.1430E+03 0.4101E+05 Pr-143 0.1000E+01 none O.OOOOE+00 none 0.OOOOE+00 Nuclide 050:

Ce-144 8

0.2456352000E+08 0.1440E+03 0.3682E+05 Pr-144m 0.1800E-01 Pr-144 0.9800E+00 none O.OOOOE+00 Nuclide 051:

Pr-143 9

0.1171584000E+07 0.1430E+03 0.3963E+05 none O.OOOOE+00 none O.OOOOE+00 none O.OOOOE+00 Nuclide 052:

Nd-147 9

0.9486720000E+06 0.1470E+03 0.1800E+05 Pm-147 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 053:

Np-239 8

0.2034720000E+06 0.2390E+03 0.5587E+06 Pu-239 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 054:

Pu-238 8

0.2768863824E+10 0.2380E+03 0.1768E+03 U-234 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 CC-AA-309-1001, Rev 2

Attachment F Page 10 of 10 Nuclide 055:

Pu-239 8

0.7594336440E+12 0.2390E+03 0.1474E+02 U-235 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 056:

Pu-240 8

0.2062920312E+12 0.2400E+03 0.2001E+02 U-236 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 057:

Pu-241 8

0.4544294400E+09 0.2410E+03 0.6700E+04 U-237 0.2400E-04 Am-241 0.1000E+01 none O.OOOOE+00 Nuclide 058:

Am-241 9

0.1363919472E+ll 0.2410E+03 0.9857E+01 Np-237 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 059:

Cm-242 9

0.1406592000E+08 0.2420E+03 0.2285E+04 Pu-238 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 Nuclide 060:

Cm-244 9

0.5715081360E+09 0.2440E+03 0.1621E+03 Pu-240 0.1000E+01 none O.OOOOE+00 none O.OOOOE+00 End of Nuclear Inventory File CC-AA-309-l001, Rev 2

Attachment G Page I of2 Attachment G Release 'Fraction and Timing File Release Fraction and Timing Name:

BWR, NUREG-1465, Tables 3.11 & 3.13, June 1992 Duration (h): Design Basis Accident 0.5000E+00 0.1500E+01 O.OOOOE+00 O.OOOOE+00 Noble Gases:

0.5000E-01 0.9500E+00 O.OOOOE+00 C0.OOOOE+00 Iodine:

0.5000E-01 0.2500E+00 O.OOOOE+00 CI.OOOOE+00 Cesium:

0.5000E-01 0.2000E+00 O.OOOOE+00 O.OOOOE+00 Tellurium:

O.OOOOE+00 0.0500E+00 O.OOOOE+00 CO.OOOOE+00 Strontium:

O.OOOOE+00 0.2000E-01 O.OOOOE+00 CO.OOOOE+00 Barium:

0.OOOOE+00 0.2000E-01 O.OOOOE+00 CO.OOOOE+00 Ruthenium:

O.OOOOE+00 0.2500E-02 O.OOOOE+00 C.OOOOE+00 Cerium:

O.OOOOE+00 0.5000E-03 O.OOOOE+00 C.OOOOE+00 Lanthanum:

O.OOOOE+00 0.2000E-03 O.OOOOE+00 C.OOOOE+00 Non-Radioactive Aerosols (kg):

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 End of Release File l CC-AA-309-1001, Rev 2

Attachment G Page 2 of 2 Release Fraction and Timing Name: Iodine only NUREG 1465 BWR Duration (h):

0.5000E+00 1.5000E+00 O.OOOOE+00 CO.OOOOE+00 Noble Gases:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 C.OOOOE+00 Iodine:

0.0500E+00 0.2500E+00 O.OOOOE+00 C.OOOOE+00 Cesium:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 C.OOOOE+00 Tellurium:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 C.OOOOE+00 Strontium:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Barium:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Ruthenium:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Cerium:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Lanthanum:

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Non-Radioactive Aerosols (kg):

O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 End of Release File CC-AA-309-1001, Rev 2

ML060580583

Text

Title:

1.475' x (3.21' + 15.88' + 4.33') = 1.475' x 23.42'

1.475' x (3.21 ' + 15.86' + 4.33') = 1.475' x 23.40'

1.475' x (3.21' + 22.76' + 2.73') = 1.475' x 28.70'

SUMMARY

9.0 REFERENCES

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