Rev 0 to Scenario 25, Gpu Oyster Creek Nuclear Generating Station Emergency Preparedness Exercise Scenario

ML20079N749
Person / Time
Site:	Oyster Creek
Issue date:	10/31/1991
From:	GENERAL PUBLIC UTILITIES CORP.
To:
References
NUDOCS 9111110380
Download: ML20079N749 (625)
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A Nuclear Corporation i il I Oyster Creek Nuclear Generating Station

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

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, GENERAL PUBLIC UTILITIES OYSTER CREEK NUCLEAR GENEFATING STATION EMERGENCY PREPAREDNESS EXERCISE SCENARIO (Revision O)

OCTOBER 1991 I

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E W ANNUAL EXf:RCISE Scenario No. 25 JCNGS Rev. O I

GENERAL PUBLIC UTILITIES OYSTER CREEK NUCLEAR GENERATING STATION TAlltE OF Cpl [Tff{Li

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EECTION EAGI 1.0 TADLE 9F CONTE!!TS 1-1 2.0

SUMMARY

2.1 Introduction 2-1 l_ 2.1.1 Purpose 2.1.2 Narrative Summary 2.2 Schedule of Events I 2.3 Partacipatar.g 0 ganizations 3.0 OBJECTIVES A?.D GUIDt. LINES 3-1

- 3.1 etives 3,2 Pt.. or.tance Guidelines 4.0 SCEllARIO TIME LINE 4-1 g

W 5.0 CONTROLLER / OBSERVER ORGANIJATION r

5.1 Assignments b-1 5.2 Facility Telephone Numbers I 6.0 5.3 SC2!!\RIO CONTROL F sAuation and Comment Forma c 6.1 Pre-exercise Briefing 6-1 6.2 Initial Conditions 6.2.1 Plan of the Day - Morning Briefing c G.2.2 STA Plant Status Sheet 6.3 Radiclogical Aneumptions AESCEN31/2/ Disk 18 I _- - - _ _ - _ _ _ _ _ _ _ _ _ _ -

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ANNLfAL EXERCISE Scenarjo No. 25 OCNGS Hev. O E IAj!(E.OP CONTt'NTS

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A FUPPORTING DATA A-1 Operational Data A-1-1 A-1.0 Critical Plant Parameters A-1.1 Critical Plant Parameters Summary A-1.2 HVAC System Status A-1.3 Annunciator Status Sheets A-1.4 Radiation Monitoring System Data A-2 Meteorological Data A-2.1 Meteorological Data A-2-1 A-3 Source Term and Radiochemistry Data A-3-1 l

A-3.1 Reactor Water Activity A-3.2 Torus Water Activity A-3.3 Drywell Gas Activity A-3.4 Torus cas Activity A-3.5 Reactor Building Activity A-3.6 Turbine Building Activity A-3.7 PAGEMS I Stack Activity A-3.8 Refuel Floor Activity A-4 Offsite Radiological Data A-4-1 em A-4.1 Radiological Survey / Sampling Data I A-4.2 Rueter-Stokes Data Summary Table A-4.3 Envirorsnental Sampling Data A-4.4 Plume Search Data A-4.5 Dose Projections A-1 Onsite Radiological Data A-5-1 A-5.1 Floor Plan Radiation Dose Rates A-5.2 Emergency Facilities Radiation Data A-5.3 onsite Survey Data A-6 Massage Cards A-6-1 AESCEN91/3/ Dick 18 E

l I ANNUAL EXERCISE OCNGS Scenario No. 25 Rev. O I

TADLE OF. CONTENTS (Cont inued )

SECTION RILE Ed.QE B EINI-SCENARIOS D-1 Tornado Warnings B-1-1 I B-2 B-3 fuc Feed Pump Lube Oil Leak Turbino Control Oil railure D-2-1 B-3-1 D-4-1 B-4 Failure of SLC System I B-5 B-6 D-7 Alternate SLC Injection CRD Pump railure AEOF Activities B-5-1 B-6+1 D-7-1 B-8 D-8-1 I

Public Informat ion Activities B-9 PTTC Activities B-9-1 C PLANT AND LOCbL UIFORMATION I C-1 Site and Systems Data C-1-1 I C-1.1 C-1.2 C-1.3 Site Map BWR Schematic Diagrams System Label Guidos C-1.4 Acronym List I C-1.5 Access RWP Identifications C-1.6 Emergency Preparedness Contacts C-2 Release Path C-2-3 C-3 Directions to Oyster Creek Nuclear Generating Station C-3-1 -

C-4 Local ' )dging List C-4-1 C-5 Local Restaurant List C-5-1 I

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I ANNUAL EXERCISE OCNGS Scenario No. 25 Rev. 0 l I  !

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I Section 2.0 2.1 Introduction 2.2 Schedule of Evente 2.3 Participating organizations I

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. 0 I

2.1 IntroducticD 2.1.1 Purpose I This scenario will be used as the 1991 Exercise at Oyster Creek Nuclear Generating Station on October 22, 1991. The scenario is designed to be as realistic as practical while complying with TEMA requirements and meeting the exercise objectives. Specific I objectives are set forth in this document, but in general, the intent is to exercise a full spectrum of emergency response to a radiological emergency at OCNGS.

Plant data were generated on the Oyster Creek Dasic Principles Trainer and are included as a section of this scenario. The BPT is a partial scope simulator. BPT data were loaded into a simulated I SPDS system that in PC based. Simulated SPDS systems will provide plant data in the CR, TSC, EOF, OSC, and PTFC. SPDS system terminals are located in each of these ERF's. Several electronic I pages of data corresponding to real SPDS system screens will be available to drill participants. Should this system fail, Controllers will revert to Plant Data Sheets presented in the scenario.

All radiological and chemistry data are generated by a plant specific computer program, developed by the Emergency Preparedness I Department, called RADDMAPP. QAD/CG is a sub-module of the program for calculating in-plant doses due to shine and was obtained commercially.

Of f site radiological data are calculated by GPU Nuclear s RAC dose projection program.

I The radiological release will be due to fuel damage and a scram discharge volume LOCA resulting in a release to the Reactor Building and subsequent elevated release from the stack. Section C provides a release path diagram. Dose rates require protective actions for the public.

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1 ANNUAL EXERCISE Scenario No. 25 OCNGS Aev. O I

2.1 Irlt rodu ct ion (continued)

Offsite dose values and timing were specified by FEMA iapresentatives during a meeting on 9/27/90 at FEMA Region 2 offices. It is difficult to develop a realistic scenario which moots the timing requirements and involves the fuel damage necessary l

W for the required doses. This being the case, fuel damage has been artificially accelerated, and the source term has been artificially increased at the stack.

All times indicated in this scenario are noted at "T" time. This is the time f rom the start of t he scenario. Although the proposed l start time is 3:30 p.m., this cannot be a certain start time due to W the fact that Oyster Creek will be operating during the exercise.

The condition of the r lant may require a short delay in exercise initiation. This being the case, clock times are not included in exercise data. Exercise Controllers and Observers are well versed in this practice at Oyster Creek.

Section 4.0 of this scenari'o contains the Scenario Time Line. This matrix is intended to be a guide for Observers. Major event 9 and expected actions are catalogued here for easy reference. Set. tion C l contains the mini-scenarios for each key activity outside of the B Control Room. These are organized to provide Observer information on the specific activities they may be critiquing. Section C 3 contains site specific information that may be useful to Observers g unfamiliar with OCNGS and its environs.

The scenario has been independently reviewed by a Shift Technical Advisor (STA), Radiological Engineer, Maintenance, Environmental, W" Communications, Licensing and senior management personnel.

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

2.1.2 Narrative Summary I The exercise will be initiated by a tornado warning from the National Weather Service for the immediate area. The site I

I meteorologist will be provided with the necessary information to follow-up on such a warning. The anticipated response includes implementation of the "High Winds" procedure (ADN-3200.31). The I

warning from the weather service will necessitate the declaration of I an Unusual Event based on Category 0"$. These events are to initiate the exercise only and are unrelated to the remainder of the exercise.

Approximately one hour after the weather warning, thunderstorms will strike the area then dissipate. During this period, the plant will

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continue to operate at full power. A lube oil leak will develop on I. the D reactor feed pump resulting in high temperature of its bearing fvilowed by the trip of its motor breaker. The loss of feed will result in decreasing reactor vessel level below the scram retpoint.

The automatic scram and follow-up manual scram will be incomplete j with reactor power decreasing to approximately 40%. This condition j will require the declaration of an Alert based on Category C-1.

I Reactor vessel level will recover to the normal operating band (160"-165" TAF) and the main turbine will control reactor pressure.

Due tc the abnormal rod pattern established by the failure to scram, I

some clad damage is postulated to occur. EOP implementation is anticipated, and continued efforts to insert control rods will moet with limited success allowing power to be reduced to the 15-20%

range over the next 1.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.

Following the Alert classification, the next major event will be caused by a failure of the pressure control system. The bypass I valves will fall shut and turbine trips increasing reactor pressure which will initiate both Isolation Condensers and lift two EMRVs.

The control of reactor pressure, utiliz.ing the EMRVs, will increase torus temperature eventually exceeding the standby liquid injection I temperatura (fig. L per EMG-3200.09). This condition requires declaration of a Site Area Emergency based on Category C-1.

Additionally, the Standby Liquid Control System (SLC) will fail to I function due to faulty squibs. This will necessitate alternate injection and implementation of level reduction per the Emergency Operating Procedure for " Level / Power" control. RPV level will be I controlled by procedure between -30"TAF and 0"TAF as necessary to reduce reactor power below the 2% criteria.

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

2 .1. 2 Ha r r a t ive Sy_tngIV fCentinuedl SLC alternato injection requires entry into contaminated and high radiation areas; these activities will be performed up to the point of actual entry into a controlled area. Actions which are required g to be performed in these controlled areas will be simulated. All g other activities necessary to support the SLC function will be performed in accordance with the mini-scenario.

The implementation of the " Level / Power Control" procedure requires mukoup be provided by SLC and the CRD system. During this period with RTV level near the top of the active fuel, the operating CRD g pump will trip and the backup will not start. Additionally, one g EMRV used for pressure control fails to shut fully. .'thout makeup ability, RPV level will dverease below -30* TAF which requires the declaration of a General Emer" .cy based on Category A-1.

EOPs require operators to restore reactor level with feed pumps or emergency depressurire to utilize lower pressure injection sources. lE The remaining two feed pumps (A & C) fail to start and power to the EMRVs is lost. This causes level to continue to decrease and pressure to decrease slowly with the single EMRV left open.

After a short period, power is restored to the EMRVs and the operators emergency depreneurite the reactor. When condensate starts to enter the reactor, the flow controller fails and maximum condensate pump flow occurs. This large addition of colder water  ;

causes a rapid increase in feedwater flow and emptying of the hotwell. The feedwater flow increase will quickly raise reactor g level, initiating a power excursion and pressure transient causing a 3 leak to develop from the north Scram Discharge Volume (SDV) concurrent with additional fuel clad damage from the cool water. un 5

The leak in the SDV will fill the Reactor Dutiding with activity for release through Standby Gas Treatment Syste (SBGT) cnd the stack to l the environment. Reptoration of the RPV level and clearing any at otner scram signals which may be inputting to RPS will allow resetting the scram, depressurizing the SDV and terminating the leak into the Reactor Building.

Emergency teams in the Reactor Building may be evacuated until Rad con evaluates the radiological conditions. The release, as a result of the SDV leak to the Reactor Building, will result in a peak offsite projected dose of 4.82 Rom at 3.7 miles.

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2.2 Schedule of Ever112 l

l 2.2.1 Obr erycr Pre-briefing Date and Times 10/17/91 1:00 p.m.

l I 2.2.2 Location:

Observer Briefing Uld. 12 LP Conference Room Date and Times 10/21/91 10:00 a.m.

Location: Did. 12 Auiitorium l

l 2.2.3 NRC GET ig Date and Times 10/22/91 9:00 a.m. I 3 Location: D1d. 14 Forked River Site l

2.2.4 NRC Entrance and Driefings Date and Times 10/22/91 10:00 a.m.

Locations HOB 2nd Floor

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2.2.5 NRC Scenario Review and Site Tour Date and Times Location:

10:30 a.m.

MOD 2nd Floor i

2.2.6 NRC (Only', Hooting Date and Times 11:00 a.m.

Location: HRC Residents Office

" 2.2.7 Txercice Period Date and Time: 10/22/91 3:30 p.m. -

10:30 p.m.

Location: All Areas 4 2.2.8 Observer Debrit!

Data and Times 10/23/91 8:00 a.m.

I Location: Energy Spectrum 2.2.9 NRC Observer Debrief I Date and Times Location:

10/23/91 8:30 a.m.

Bld. 12 EP Conference Room l

I 2.2.10 Exercise critique Date and Times Location:

10/23/91 1:00 p.m.

Energy Spectrum 2.2.11 NRC Exercise Critique Date and Times 10/23/91 3:00 p.m.

Location: Energy Spectrt.m I

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. 2.3 Eprt icipat ina Oroanitat iong i 2.3.1 GPUN Organizations g Operating Shift Personnel g Radiological Controle Personnel security Peroonnel InitiuA Response Emergency Ocganization I 2.3.2 Emergency Support Organiention Offsite Agencies New Jersey Office of Emergency Management New Jersey Departr'ent of Environmental Protection I

ocean County Department of Emergency Services Municipalities .n and around the Emergency Planning Zone

NRC Incident Response Team l I

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I Afil4UAL EXERCISE Scenario llo. 2L OctlGS Rev. O I

3- Gk ketives The 1991 Oyster Creek 14uelear Generating Station Annual Exercise Objectives are as follows:

1. Demonstrate the ability of on-shift and Initial Response Emergency Organization (IREO) personnel to detect and assess tecident

! conditions.

I 2. Demonotrate the ability of on-shift and IREO personnel to properly declare emergency classification based on plant accident conditions.

Ja. Demonstrate the timely notification of offsite response organizations.

3b. Demonstrate the tirnely mobilitation of the GPU Emergency Response j Organization (ERO).

I 3c. Demonstrate the proper notification of nonessential personnel on site and in owner controller area.

4. Demonstrate adequate coneunications between Emergency Response

, Facilities (ERF's) and onsite and offsite CPU emergency teams.

Sa. Demonstrate adequate radiological controls for internal and external I Sb.

exposure during emergencies.

Demonstrate adequate radiological controls for contamination of personnel and equipment.

6. Demonstrate that appropriate Protective Action Recommendatio.ns can be provided to flew Jersey authorities.

7. Demonstrate that the on-shift ERO can adequately respond to the initial stages of an emergency.

! 8a. Dec.onstrate that the IRO and Emergency Support Organization (ESO) can supplement and support the en-shift emergency organization.

8b. Demonstrate adequate transition of authority between emergency organizations.

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I;

9. Demonstrate the ability to assign qualified individuals to the Emergency Response Organization for shift operation. ,

10. Demonstrate the ability to properly conduct a critique with l participants and to identify major strengths and weaknesses.

Optional Obiectives

1. Demonstrate Joint information Center (Hedia Center) activities.

2. Demonstrate the ability of first aid and/or rescue teams to respond in a timely manner. (Demonstrated in MS-1 exercise scheduled week of j 10/7/91.) 1 1

3. Demonstrate the asility of offsite medical personnel to respond to g onsite injured personnel. (Demonstrated in MS-1 exercise scheduled g week of 10/7/91.)

4. Demonstrate the capability of the PTFC to support emergency operations.

5. Demonotrate the ability of security personnel to provide prompt access for offsite emergency equipment and personnel. (De nonot rat ed in MS-3 exercise scheduled week of 10/7/91.)

6. Demonstrate adequate rumor contr,

7. Demonstrate the ability to perform duse estimates f or the af fereted population.

8. Demonstrate the ability to perform post accident sampling and analysis.

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9. Demonstrate the ability to perform accountability for all personnel onsite.

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ANNUAb EXERCISE Scenario No. 25 OCNGS key. O I 3.2 Performante Guidelines The f ollowing exercise guidelines have been c'eveloped to define the

" extent of pley* by the exercise participants in nieeting the exercise objectives.

1. The 1991 Annual Exercise will be conducted on October 22, 1991.

Exercise participants will possess prior knowledge of the exercise I date and approximate start time. Ilowever, all personnel should follow their normal routinos f or that day except those prestaged in accordance with Item b below.

2. Control Room activities will be performed in the Control Room. ,

controllers will provide the Operations staff with a set of scenario mesuages and alarm panel indications which will simulate plant conditions. The Controller will also provide information on the status of plant systems to the extent that such status would normall'y =

be indicated in the Control Room. The Control Room Controller may I verbalize alarms or readings that would be obvious to operators such as front panel readings to approach real time response ecnditions.

3.

I Plant parameters will + displayed on a simulated SPDS system in the Control Room, TSC, OSC, PTTC, and EOF. Critical Plant Parameters were developed using the OCHGS Basic Principles Simulhtor. These parameters were then leaded into the simulated SPDS system data I files. The simulated SPDS will be available at all ERFs where SPDS is available.

I 4. Control Room instrument indications that are important to the scenario will be posted. These include such items as Ventilation System, Area Radiation Monitoring Eystem, Heteorological Monitoring System, and Effluent Monitoring System, as indicated in the scenario. Critical Plant Parametcre will be posted only if the simulated SPDS fails. ,

S. Excrcise participants will be prestaged as follows:

• An additional shift of Operations personnel will be stationed to I

watch the plant during the drill. They are necessary to ensure nuclear safety and will be exempted from the drill.

Security guards necessary to ensure site security will be stationed and exempted.

Some maintenance workers may be exempted from the drill to support plant operations.

In order to minimite control Rocm crowding, which is due to drill observers and participants, the Public Information I representative normally dispatched to the Control Room will instead report to the TSC and be briefed by the Drill Controller.

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ANNUAL EX'"RCISE Scenario No. 25 Il ,

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6. The drill will commenee with a postulated plant incident which will initiate the declaration of :n Unusual Event and will escalate l W

through an Alert, Site Area Emergency, to Genert.1 Emargency.

7. A mini-scenario has been developed to detail the expected response of g Operations personnel to alternate injection of liquid poison. g Specific details as to the extent of play are in that mini-scenario but generally, the team will not enter conttiminated areas, posted high radiation areas, or manipulate plant r;quipment. Equipment in emergency lockers is intended to be used and re-inventoried the day after the exercise.

8. Exercise players will pet'orm, as appropriate, radiological monitoring and dose assessment activities to the extent appropriate to the scenario. This will include actual sampling onsite and offsite.

9. At least two (2) Offsite Radiolc<, :al Field Monitoring Teams and one (1) Onsite Radiological Field Monitoring Team will be dispatched for the purpose of testing response time, communications, and a h

W monitoring and sampling procedores. The field teams will gather sample material and route those samples for analysis.

Each Radiological Field F.onitoring Team will be accompanied by an observar throughout the exerciwe. Each field team will rendezvous with its observer at the emergency kit location.

10. All emergency response facilities, as mentioned in the " Objectives",

will be manned and will perform their prescribed functions as appropriate to the exercise scenario.

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11. The Prompt Notifice '.on System will not be activated. NB B

12. The Emergency Broadcast System will not be activated.

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ANWML EXI.RCISE Scenario No. 25 OCl:CS Fev. O I

13. Where possible, actual samples will be obtained and analyzed. It must be realized this is dependent on plant status and management priorities. As RIGEMS is now the routine effluent monitoring system, it cannot be aligned to its post accident sampling configuration for I the exercise. A sample cartridge t,ill be prestaged for pickup. The operati ons t ' 1 rop the cartridge will be simulated but will be observed.

14. The scenario wil. require the assembly and accounting for nonessential site personnel. Personnel will be allowed to return to duty after accountability is completed. This iu normally done about I hour 15 minutes after accountability is announced.

g 35. Exemptions from accountabilia.y may be allov%d if the work is critical I to plaat operedons. Ali such exemptions will be approved in advance by plant 'nanagement.

16. Emergency management may decide to svacuate nonessential personnel I from the site. Preparations for the evacuation will be observed, but the evacuation will not be pertormed. Plant page announevments will be modified to reflect this.

17. Participation by (.e?UNC onsite personnel directly involved in responding to an emergency shall be carried out to che fullest extent I

practical, ir.cluding the deployment ( f the radiological monitoring teams, emergency repair teams, and other emergency werkers. However, exercise participation shall not be carried to the extent of mar.ipulating plant equipment or deviation f ron. Rad Cc , Eafety, I Security, or other plant procedures. This requirement may at times delay scenario plan wnile actions are taken to e.'aure procedural

ompliance. This delay shall not be con? trued detra7 ting from ,

team response.

10. Initial conditions are given in the Control Room. Initial conditions that would normally be known by plant staff regarding current plant conditions may be communicated by drill Csntrollers in other locations at a convenient time before or during the exercise.

Examples of this would be identification of on-going maintenanc3 and I out-of-service cystems; simulated " Plan of the Day" :.r.el.ing minutes; "Exercine" log entries; and other such items.

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ANNUAL EXERCISE Scenario No. 25 OCWGS nev. O 19.

I If re;uired by the exercise scenario, alternate means of accessing the piant shall merely be simulated and p_qt actually implemented.

20. Food will be provided to exercise participante during evening hours.

Delivery of this food will be arranged outside the extent of scenario play.

g Personnel will be allowed to eat in predesignated areas during g the exercise. This activity will be considered outside of the exercise.

21. Mini-scenarios include details for specific actions necessary to support exercise control. Simulations, such as phone calla from the I

public, are specified in the mini-scenarios. No other live or eimulated events are to be included in the " extent of pley" of the 5 5

wxercise. Simulations not described it. the mini-scenarios are given below:

The Control Room staff is expected to implement the High Winds" ABN in response to the tornado warning. This procedure calls for evacuation of most plant areas. The staff will be judged on theit ability to follow the procedure but page announcements l

W will not be made to evacuate site buildings and phone calls to department heads will be simulated.

The offsite dose required by FEMA for this scenario require an incredible source term. This requirew very high radiation levels in the Reactor Building. Evacuation of onsite centers is not an objective for this exercise but would be required if +he Reactor auilding source term were reflected in scenarlo data.

• he source term has been suppressed beyond the Reactor Building l it. orde:: to allow the scenario objectives to be demonstrated. E en I

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M & & O M M & S W 5 W W S Y M S S AN74UAL EXERCISE SCENARIO 20. 25 OCE4GS REV. O 4.0 EXERCISE GUIDE T-TIME MAJOR EVENT MES'5 AGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS

-07:30 Plant status Plant status prior to POD memo Dtill POD members None at this time (At POD briefing drill commencement STA status Controller meeting)

Approx. Initiation of Weather conditions

-07:30 Mini-scenario tornado watch B-1 Approx. Severe weather Severe weather MB1-1 EAC Controller Site Watch weather

-07:30 watch expected Meteorologist Inform management

-00:15 Initial Current plant statua PD-1 Plant Data Drill Feview data conditions Controller participants 00:00 Tornado warning Tornado warning for MB-1-2 Section Site Inform GSS of  !

(enpected to immediate area from Secretary Meteorologist impending weather be 3:30 pm) National Weather situation [

Service  ;

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SCENARIO NO. 25 ANNUAL EXERCISE REV. O OCNGS 4.0 EXERCISE GUIDE MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS T-TIME MAJOR EVENT Implement E-Plan.

00:05 Unusual Event Notify plant Declaration manacement.

Simulate imple-00:10 Implementation menting "High of Site Pro-Winds" ABN tective Actions procedure Activation of PI 00:25 Iniciation of etaff and develop-Mini-scenario ment of press B-B Public releases Information Activation MB-1-3 Section site Relax actions as 00:45 Tornado warn- required in "High Secretary Meteorologist ing downgraded Winds" ABN to a tornado appropriately watch "B" Feactor Feed I 00:59 Initiation of Pump oil leak Mini-scenario B-2 i Plant data and Control Room CRO respond to 00:59 Loss of "B" Plant parameters annunciator Staff decreasing RPV Reactor Feed .

level. Implement displays Pump EOPs.

AETMLN91/1/ Disk 18 M M M M M M M M M M M M M M W EE M M M

W W W W W W W W M M M M M M m M M M M ANNUAL EXERCISE SCENARIO WO. 25 OCNGS REV. O 4.0 EXERCISE GUIDE T-TIME MAJOR EVENT MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS 01:01 Failure to Plant parameters PD-la Plant Data Control Room Declare Alert Scram and rod positions display staff classification.

Implement EOPs.

01:10 "B" reactor Lube oil supply line MB-2-1 Mechanical Equipment EO inform Control feed pump lube cracked and lube oil Observer Operator Room, contain and oil leak running out isolate oil 01:15 Activate Activate GPUN Emergency Emergency Response Response Facilitie" Oraanization 02:10 Initiation of PTFC asked to MB-9-1 PTFC Observer Leader Tech Call GE and brief or later Mini-scenario activate GE Support them B-9 PTFC Activities 02:15 Initiation of Annunciator Control Room Establish alternate Mini-scenario display and staff heat sink B-3 plant data Failure of i turbine control oil system Loss of conden-cer as heat sink I

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AMNUAL EXERCISE SCEUARIO No. 25 OCHGS REV. O 4.0 EXERCISE GUIDE T-TIME MAJOR EVENT MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS O2:30 Boron injection Plant parameters Plant Data Emergency Declare Site Area limit reached Display Resporse Emergency class-Organization ification 02:30 Conduct Plant page announcement Emergency Site personnel Report account-Accountability Director ability status within 30 min.,

complete within 60 minutes.

02:30 Initiate Mini-scenario B-4 Failure of SLC System 02:31 Failure of Status of SLC Systein 1 MB-4-1 Plant Data Control Room Attempt to actuate standby liquid Controller Staff System 2 control system AETMLN91/3/ Disk 18 E E E E E E E CD W W W W M M M M M M E

kW M M E \M E. M M M M M M M M K M M M' E SCENARIO NO. 25 ANNUAL EXERCISE REV. O OCNGS 4.0 EXEPCISE GUIDE 6

MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS T-TIME MAJOR EVENT Status of SLC System 2 MB-4-2 Plant Data Control Room Establish alternate O2:32 Operator boron injections controller staff attempts to capability actuate system 2 MB-3-1 Mechanical Turbine control Commence repairs 02:40 Turbine control " oil on floor at HP turbine front standard" observer oil damage oil leak repair team Ops /OSC team 02:40 Initiation of dispatched to Rx Mini-scenario Building for B-3, Alternate alternate injection SLC Injection ED/ Ops Coord.

implement 2000-OPS-3024.28 Standby Liquid Control System Diagnostics and Restoration Actions AETMLN91/4/ Disk.18

ANNUAL EXERCISE SCENARIO NO. 25 OCHGS REV. O 4.0 EXERCISE C ID_E E

T-TIME MAJOR EVENT MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS O2:45 Initiation of Bequests to process MB-7-1 EOF Group Leader Process or later Mini-scenario personnel Observer Admin. Personnel B-7 AEOF 03:00 Inspection of Description of failed MB-4-3 Mechanical SLC Inspection Report to or later SQUIB valves valves Observer Team management 03:05 Arrival of GE Names of GE engineers MB-7-2 AEOF Site Services Process personnel or later engineers at MB-7-3 Observer Coordinator AEOF 03:20 First batch of or later Boron injected 03:40 Initiation of CRD Pump A trips MB-6-1 Plant Data Control Room Dispatch repair Mini-scenario CRD Pump B running Controller staff team B-6, CRD Pump Failure 04:00 EMRV fails to Plant parameters Plant Data shut Display I

AETMLN91/5/ Disk 18 CD m m m- M m m m m im m a m m m mm m m

-M M M EM M M M M M M M MM M M M M M M' ANNUAL ERERCISE SCENARIO NO. 25 OCNGS REV. O 4.0 EXERCISE GUIDE T-TIME MAJOR EVENT MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS 04:05 A & C feed A & C feed pumps trip PD-1B Plant Data Control Room Inform OSC pump fails to Controller Staff start 04:05 B, C, D, & E B, C, D, & E EMRVs PD-lC Plant Data Control Room Inform OSC or later EMRVs are will not open Controller Staff Perform SDR failed closed procedure 06:15 CRD pump A Strong smell of burned MB-6-2 CRD pump team CRD pump repair Commence repair motor inspect- insulation. Any Observer team or replacement ion visible wires show l ,

evidence of melting.

If meggared, readings k indicate a short.

04:15 CRD pump B Motor running, no MB-6-3 CRJ pump team CRD pump repair Troubleshoot and inspection pump discharge Observer team commence repairs AETMLN91/6/ Disk 10

SCENARIO NO. 25 ANNUAL EXERCISE REV. O 0."2G S 42 LE_XEPCISE GUIDE MESSAGE CONTCiT MSG. i40 DELIVERED BY DELIVERED TO EXPECTED ACTIONS 1-zIME MAJOR EVENT I

Plant parameters P? ant Data CRT Declare General 04 : *.5 RPV level de-

' Emergency class-j crease <-30" ification TAF Minimum PAR ex-pected: shelter 2m radius 5m downwind 1

1 MB-6-2 CRD pump team C 0 pump repair commence repair 04:15 CRD pump A Strong smell of burned insulation. Any observer team or replacement mater inspect-ion visible wires show evidence of melting.

i

! If maggared, readings indicate a short.

CRD pump B Motor running, no MB-6-3 CRD pump team CRD pump repair Troublesisoot and 04:15 commence repairs pump discharge Observer team inspectinn PD-2 Plant Data Control Room Make modified page 04:20 Prcrent Page Modify GE page Controller Staff announcement announcement to announcement so as to evacuate site not evacuate site AETMLN91/6/ Disk 18 M5 m6 M M M M M M M M M EN M M M M M M

m M M M M M M M M M M M M M m M M M M ANNUAL EXERCISP SCENARIO NO. 25 OCNGS REv. O 4.0 EXERCISE GUIDE f-TIME MAJOR EVENT MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS 04t2O A & C feed pump Observe that: PD-lD Team Observer Main Feed Pump Report to Control or later motor observed A&C feed pump motors Repair Team Room that feed failed are failed pumps can't be repaired cuickly 04:20 Determined that PD-1E n Observer I&C Repair Team Restore power or later EMRV power is lost 04:53 Power restored PD-lF Team Observer I&C Repair Team Inform Control to EMRVs Room 04:55 Wind shift Plant data Revise PAR to include new sectors 05:00 Scram discharge Plant parameters Plant Data CRT Actions to isolate volume rupture leak to Beactor building (reset scram).

0S:00 Rx Building RAC recommends evac- Page announcement evacuation uation of Rx Building and Rx Building until radiological evacuation alarms.

assessment can be made Personnel evacuate Rx Building.

AETMLN91/7/Dink 18

ANNUAL EXERCISE SCENARIO No. 25 OCNGS REV. O 4.0 EXERCISE GUIDE T-TIME MAJOR EVENT MESSAGE CONTENT MSG. NO DELIVERED BY DELIVERED TO EXPECTED ACTIONS 05:30 Peak offsite 4.82 Rem at 3.7 projacted dose miles 1

05:30 Rx level Scram may be reset recovers to

>150"

, 05:45 ore Damage Core iamage MB-?-2 PTFC Observer Leader Tech Calculate core request to calculation request Support damage PTFC 07:00 Exercise Secure Emergency termination '

caponce Facilities 1

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I ANNUAL EXERCISE OCNGS Scenario No. 25 Rev. O I

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I ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I 5.1 Assianmente ECC Plant Data Controller J. Frank I Operations Observer Roving Observer Ops J. Boyle H. Tritt TSC I Lead Controller Radiological Assessment Controller R. Sullivan R. Heffner i

TSC Observers P. Scallon l I K. Burkholder l l

l OSC -

OSC Cor. troller I. Wazzan

{

OSC Rover T. Quintenz i OSC Observers S. Lutz l R. Peck  !

T. Osborne I Chemistry Observer Radiological Observers R. Stoudnour C. Pollard K. Stultz

]

R. Beck Onsite Monitoring Observer Rad con Tech Security Observer S. Michelson G. Applegate Media Controller J. Williams EOF Controller J. Bontempo EACC Observers J. Vouglitois EOF Observer R. Finicle Offsite Monitoring Observers G. Cildea W. Beebe i D. Weigle PTFC Observer G. Bond AEOF Observer S. McAllister I

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

5.2 La.c il it y Telephone Numbers Controller Location Number Control Room 971 4955, ECC Drill Controller 971-4550 Tech Support Center 971-1379 971-4158 971-0961 TSC Drill controller 971-4537 Operations Support Center 971-4240 000 Orill Controller 971-4507 Emergency Operations Facility (908) 367-8771

=

(908) 362-8812 Shift Commander Office, ht.in Gate 971-4954 971-2159 Emergency Preparedness Office 971-4011 Media Center (908) 349-1630 W (908) 240-1631 (900) 240-6466 AEOF (609) 971-1220 (609) 971-1126 =

5 PTFC (201) 316-7394 l -(201) 316-7395 l (201) 316-7396 (201) 316-7650 I

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5.3 ]Drtigtion j and Comment Forms I DRILL OBSERVER EVALUATION Cl(ECKLIST l

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. 0 I'

COMMENTS / DEFICIENCIES RECOMMENDAT!ONS/ REMARKS

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7NNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

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I Section 6.0 I 6.1 6.2 Pre-exercise Briefing Initial conditions I

I 6.2.1 Plan of the Day - Morning Briefing 6.2.2 STA Plant Status Sheet 6.3 Radiological Assumptions l

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I ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

6.1 Pre-exercise Briefina I A. The Group Shift Supervisor may terminate the exercise at any time plant conditions warrant.

B. Take no actions that affect unit or non-exercise related operations.

C. Take immediate action (s) to restore safe operation if an unsafe I condition exists.

a concern.

Ignore exercise situation if actual safety becomes D. All simulations and verifications will be expressed in spoken words.

E. Exercise events will be initiated by the drill controllers issuing message cards, plant status sheets, alarm window cards, and verbal I. instructions as appropriate.

F. Controllers will provide appropriate information at the location where that information would normally be available (e.g., reactor I. status at the Control Room, dose rate readings with field teams, etc.).

O. Only selected parameters and readings will be provided. The selected information will be sufficient to make decisions in accordance with Oyster Creek plans and procedures.

H. The purpose of the exercise is to test Emergency Plan Implementing Procedures and implementation of the major aspects of the Emergency P1an. DO NOT BECOMS OVERLY CONCERNED WITH THE MECHANICS OF THE REACTOR OR THE CAUSE OF THE ACCIDENT. THIS EXERCISE IS DESIGNED TO TEST OYSTER CREEK PLANS AND PROCEDURES AND IS NOT CONCERNED WITH I

ESTABLISHING THE PROBABILITY, FEASIBILITY, OR DETAILED MECHANICS OF THE SIMULATED ACCIDENT.

I. There will be one or more Observer / Controller at each important ,

location. Controllers will provide itformation and clarification on which actions are to be simulated or are outside the scope of this exercise in order to keep the exercise progrerling in accordance with i the scenario. Observer / Controllers will also observe all aspects of the exercise to prepare an in-house evaluation of plans, procedures, and training.

'I J. All exercise related public address announcements and offsite corrinunicationu will begin and end with the statement "T"IS IS A p2IlL , THIS IS A DRILL"...

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ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

6.3 Pre-exercise Briefing (continued)

K. Initial Response Emergency Organization and the Emergency Support organization will respond to the exercise.

L. The Drill Controller may authorize the Contrc11ers to modify the scenario to fit unusual conditions or events to maintain the scenario within the scope of the exercise objectives and in order to maximize the practical training benefit presented by the exercise experience.

If a modification is made, the controller should report to the Drill controller what changes were made.

M. If samples inside or outside the site arc deemed necessary, they will actually be collected, if possible, and their analysis conducted or simulated as directed by a controller. Observer will accompany the survey teams both onsite and offsite.

N. This exercise is conducted to evaluate plant plans and procedures.

The exercise is also a ttaining vehicle for members of the Oyster Creek Emergency Response Organization to practice working together N.

with outside organizations. Please make not of any improvements in any area that you observe as a participant and submit them to the observer / Controller at the conclusion of the exercise.

Note: Answer questions from shift personnel regarding the exercise before proceeding to T-00:00 Major Scenario Events.

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I All!JUAL EXEROISE OCl4GS Scenario 110 21 Rev. O a

'THIS IS A DRILL" j PLAN Of THE DAY - MOR!il!JG BRIEFI!1G

.I l g Presently operating at 100% following a " loss of f eedwater heating t ransient.

g Transient was controlled by recire flow. Chemistry samples t aken indicate l normal activity.

Past two months conciatently at 1930 MWth except for reduced power surveillances and a two week outage to repair a f ailed MSIV. ,

i I AOG was returned to service yenterday. "A" recombiner minor maintenance is in progress.

cortpleted yestecda".

Number 1 emergency diecel gewrator quarterly inspection was Power was reduced to 80s at 1:30 a.m. this morning to j

control itsee of Iced heating transient. Return to full power is expected by I 8:30 a.m. Number I ftre pond pump and #1 ftre diesel pump were tagged out of service for mechanical PMs.

Major equipment out of cervice:

• SRH 22

• Mech. vacuum purrp 1-1A, 1-2A, 1-2D surrp pumps * 'B' Iso cond. vent valve (V-14-2)

• Service water rad monitor a #2 oprinkler system

• Travelling screen #2

• EPR

• V-28-13 and 14 * #1 firo pond pump i

• #1 fire diesel pump t

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I ANNUAL EXERCISE Scenario No. 25 1 OCNGS Rev. O I

STAS P. C. DRILL ( )

I SHIFT TECHNICAL ADVISOR PLANT STATUS OYSTER CREEK NUCLEAR GENERATING STATION DATE:

TIME:

10/22/91 06:00 I MODE SWITCil REACTOR POWER:

RUN MS RAD LEVELS (UNITS):

A-135 D-144 C-164 D-136

• 1884 MWTil 634 MWE (GRO9E ) 613 MWE(NET) AOG IN SEHVICE I 97.6% (THERMAL) 98.9% NET (620)

MAIN STEAM FLOWS 7.31 MLB/HR OFFGAS ACTIVITY (UNITS): 120/116 CONV FACT: bl / 53 01/23/91 STACK GAF ACTIVITY (CPS): 10 / 11 I STEAM CHEST PRESS: NA PSIG RX LEVEL: 160* TAF (YARWAY)

FEED PUMPS:

FEED FLOWS ALL ON C.90 MLD/HR RX PhESS: 1021 PSIG (NR) FEED TEMP (flNAL): 305.6 F I THERMAL LIMITS (% OF LIMIT / LOCATION)

COND DEMIN DP: 37 PSID (TIME 05:21) CONDENSER VAC: 28. 9/2 8. 9/29. 0 HG MCPR 89.0 37 20 BAROMETER: 30.21 "HG MLHGR 75.1 37 20 11 INTAKE TEMPS 36.6 f DRIGADE 46.8 f MAPLHGR 88.3 43 20 11 DISCHARGE TEMP 57.7 F I PCI(KW/FT)

RECIRC PUMPS:

0.00 37 ALL ON 22 11 RX CHEMISTRY: DATE 10/21/91 TIME: 9:10 POWER: 1926 MWth FLOW: 14.72 X 10E4 GPM pH: 6.12 0 25.0 C I CORE DP: 16.49 PSID RX CONTAINMENT COND: 0.100 US/CM, I-131: 7.18 E-4 UCI/ML (DO5E EQ)

HWC G.5 SCFM ECPMS:

CLi<0.60 uG/L NA VOLTS i DW PAESS 1.25 PSIG, TEMP 138.8 F(BULK)

TORUS PRES 3.20 PSIG, TEMP 84.5 F TORUS LEVEL 145.8 IN CHLORINATION STATUS:

CIRC WATER: OOS SERVICE WATER: OOS I TRUNNION ROOM TEMP 130F RBCCW TEMP 73F

. NRW/AOC: OOS TBCCW TEMP 89F LEAKAGE (GPM): BASED ON 24 HR AVERAGE UNIDENTIFIED: 2.15 IDENTIFIED: 4.26 I

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i i ANNUAL EXERCISE Scenario flo. 25

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STA: P. C. DRILL ( )

SHIFT TECHNICAL ADVISOR PLANT STATUS DATE: 10/22/91 OYSTER CREEK NUCLEAR GENERATI!iG STATION TIME: 06:00 14

]

CONTINUOUS DAYS ON LINE: 63 l

LOAD LIMITED BY: LICENSE LIMIT - 1930 MWth (UPON RETURN TO TULL POWER) i l

! MAJOR EQUIPMENT OUT OF SERVICE / TECH JPEC ITEMS: W

]

• SRM 22

• MECH VACUUM PUMP 1-1A,1-2A,1-2B SUMP TUMPS *

* 'B' ISO COND VENT VALVE (V-14-1) l

]

• SERVICE WATER RAD MONITOR * #2 SPRIfir.LER SYSTEM E

• TRAVELLING SCREEN #2

• EPR l

• V-28-13 AND 14 * #1 FIRE POND PUMP

• #1 FIRE DIESEL PUMP l

MAJOR PLANNED EVOLUTIONS AND TESTING

J

• NONE l SIGNIFICANT EVENTS / COMMENTS l

• AOG WAS RETURNEli TO SEPVICE YESTERLAY. "A" RECOMBINER MINOR MAINTENANCE -

IS IN PROGRESS.

• #1 EMERGENCY DIESEL GENERATOR QUAllTERLY INSPECTION WAS COMPLETED YESTERDAY.

g

• • POWER WAS REDUCED TO B0g AT 1:3D AM THIS MORNING TO CONTROL LOSS OF W

I FEED HEATING TRANSIENT. l

1. 1 TIRE POND PUMP AND / / IRE DIESEL PUMP WERE TAGGED OUT OF SERVICE FOR MECHANICAL PM'S.

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1 mr ANHt!AL EXERCISE Sconario No. 25 l OCHGS Hov. O I l 6.3 Radiological ho putopt ion s I 1. ftp3_trct.J Pqin i

l Claddin/ failuro is pontulated an occurring during thin exorclou.

The activity in the plant la tracked in the RADDMAPP oconario l generation code. The codo tracks r.etivity transport throughout I oyster Crook and includon footopie radioactivo decay and daughter product buildup, gaceous and 11guld partition of chemical opocles, l

j plateout of chemical spoelen, and filter officiencien for illter l

' l l trains and liquid filtration in tho torus water. The apocific valuce 5 unod for each chemical are listed in the table L.elow:

I Chemical Spoclon Gan-liquid HEPA Charcoal Dopouition I .

Partition Efficiency Etficiency Vulocity (nips) I Noble Ganon .99 .01 .01 0.

Halogens .001 .90 .95 .005 Co n iurn, Rubidium 001 .90 .99 .001 Strontium, Barium .001 .99 .99 .001 To11urium .001 .99 .99 .001 Holybdonum, Ruthonium .001 .999 .999 .001 y, La, & Co .001 .999 .999 .001 I

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ANWUAL EXERCISE Scenario Ido. 25 OCNGS Rov. O II. In-plant Padiation Dopet Onsitt. exposure rates are calculated by the RADDMAPP scenario generater. RADDMAPP utilizes the QAD-CG gamma shielding code to calculate all onsite rad!ation exposure rates.

RADDMAPP considers contributions from Core Power Operations, Core Fission Product Activity, Drywell Shine, Torup Shine, Reactor Building Shine, Local Airborne concentrations, contaminated Piping, and the Release Plume.

Reactor Building dose rates and airborne concentrations are elevated due to a Scram Discharge Volume (SDV) rupture at T=05:00 until the l

5 line is isolated by resetting the scram. This will also be the source for the elevated release through the atack.

III. Offnite kalg

1) The radioactive releases from the plant are calculated using the RAC code. =

a) The main release from the plant stack is modeled by RAC as an elevated release using a finite plume model.

2) The data for Emergency Air Sampling is derived from ,

EPIP-OC .11.

3) The BNE air sample data calculated assumes a 5 minute sample collection at 2 cfm and a 5 minute sample counting as described in the BNE's procedure. The sampler efficiency is

!lE assumed to be 1.5%.

m

4) Iodine deposition is calculated using the method described in Reg. Guide 1. Direct frisker readings are calculated as recommended by NUREG/R-3365. Smear readings assume a detector efficiency of lot.

IV. Onsite Padiation Doie_g Onsite exposure rates are the sum of overhead shine from the stack release, direct shine from the stack and activity in the Reactor Building.

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) 00NGS Rev. O a

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E11PPORTING DATA l

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l ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. 0 l

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ffCTLON A-1 RJtEhhT.10!JAL DATh 1 A-1.0 Critical Plant Parameters i

, A.1.1 Critical Plant Parameters Summary l I A.I.2 A.1.3 A.I.4 HVAC System Status Annunciator Status Sheets Hadiation Monit.oring System Data I

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M M M M M M M M M M M M M M OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.la CRITICAL PLANT PARAMETER SUMFJGY For Controller and Observer Use only 158. 157. 161. 162. 171.

RPV Level (in TAF) 160. 142. 140.

980. 978. 1034. 978. 932.

RPV Pressure (psig) 1035. 1031. 987.

532. 501. 504, 504. 532. 524. 532.

RX Coolant Temp. (F) 526.

40. 28. 22. 14. 12.

Reactor Power t't) 100. 90. 59.

1.3 1.3 1.2 1.2 D.W. Pressure (psig) 1.3 1.3 .9 1.3 138. 138. 138. 134. 130. 128. 125. 124. ,

D.W. Temperature (F) l

85. 110.

Torus Temp. (F) 85. 85. 85. 85. 85. 85.

144.0 145.0 144.0 144.0 144.0 Torus Level (inches) 144.0 144.0 144.0 O. O. O. O. O. O.

D.G. #1 Load (KW) O. O.

O. O. O.

D.G. #2 Load (KW) O. O. O. O. O.

29.8 29.7 29.8 30.0 30.0 31.0 30.9 30.6 CST Level (ft) .25 .25 RX Bldg Vac (in H2O) .25 .25 .25 .25 .25 .25 01:05 01:30 01:45 02:00 02:15 02:30 T-Time (hr: min) 00:00 01:00 Clock Time (hr: min)

TORUS Pressure equal to DRYWELL Pressure

OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.lb CRITICAL PLANT PARAMETER

SUMMARY

For Controller and Observer Use Only RPV Level (in TAF) 149. 68. 41. 15. 2. -1671 -50. -58.

RPV Prescare (psig) 992. 951. 935. 798. 849. 834. 872. 865.

RX Coolant Temp. (F) 524. 530. 524. 518. 522. 490. 472. 471.

Reactor Power (%) 12. 9. 12. 5. 11. 12. O. O.

D.W. Pressure (psig) 1.2 1.2 1.2 1.2 1.2 1.3 1.4 1.4 D.W. Temperature (F) 125. 125. 126. 126. 125. 125. 126. 126.

Tort" Temp. (F) 111. 112. 114.. 115. 1150. 116. 118. 120.

Torus Level (inches) 146.0 146.0 147.0 147.0 148.0 149.0 149.O! 149.0 D.G. #1 Load (KW) O. O. O. O. O. O. O. O.

D.G. f2 Load (KW) O. O. O. O. O. O. O. O.

CST Level (Ot) 30.5 30.5 30.3 30.3 30.1 30.0 29.9 29.8 RX Bldg Vac (in H2O) .25 .25 .25 .25 .25 .25 .25 .25 T-Time (hr: min) 02:45 03:00 03:15 03:30 03:45 04:00 04:15 04:18 Clock Time (hr: min)

TORUS Pressure equal to DRYWELL Pressure EM M M M M M i M M M M M M

M M M M M '

M WM . M M M OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.lc CRITICAL PLANT PARAMETER

SUMMARY

- - - - - - - - - - - - - - - - - - - - - - = = - - - - ---

For Controller and Observer Use Only RPV Level (in TAF) OSL OSL 59. 138. 158. 156. 169. 167.

RPV Pressure (psig) 546. 420. 152. 52. 52 59. 59. 38.

RX Coolant Temp. (F) 471. 443. 353. 266. 265. 271. 297. 223.

Reactor Power {%) 1. O. O. O. O. O. O. O.

D.W. Pressure (psig) 1.5 1.6 1.6 1.6 1.6 1.6 1.6 1.6 D.W. Temperature (F) 126. 127. 126. 124. 123. 124. 124. 124.

Torus Temp. (F) 121. 122. 123. 122. 124. 122. 112. 114.

Torus Level (inches) 150.0 150.0 150.0 150.0 150.0 151.0 151.0 151.0 D.G. #1 Load (KW) O. O. O. O. O., O. O. O.

D.G. #2 Load (KW) O. O. O. O. O. O. O. O.

CST Level (ft) 29.7 29.7 29.7 29.6 29.6 29.5 29.5 29.5 RX Bldg Vac (in H2O) .25 .25 .20 .00 .00 .05 .10 .15 T-Time (br: min) 04:30 04:45 05:00 05:30 05:45 06:00 06:30 07:00 Clock Time (hr: min) i TORUS Pressure equal to DRYWELL Pressure l

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.2a VE!1TILTTION FAN STATUS I- ......_____ ____ ____

T-Time: 00:00 PANEL 11R EF-1-5 ON Reactor Building Exhaust EF-1-6 OFF Standby I EF-1-7 EF-1-8 EF-1-9 O?!

OFF OFF Turbine Standby Standby Building Exhaust Gas Treatment A Gas 1 "tment B AOG PANEL ON Augumented Offgan System NOT IN CONTROL ROOM EF-1-16 ON Old RadWm. :. Building EF-1-17 OFF Old Radwaste Building HV-053A ON New Radwaste Building HV-053B OFF New Radwaste Building I

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OCNGS SCEllARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.2b VE!1TILATION FAN STATUS T-Tine: 01:10 FANEL 11R EF-1-5 ON Reactor Building Exhaust I

EF-1-6 OFF Standby EF-1-7 0 11 Turbine Building Exhaust EF-1-8 OFF Standby Gas Treatment A EF-1-9 OFF Standby Gas Treatment B AOG PANEL OFF Augumented Offgas Systen NOT IN CollTROL ROOM EF-1-16 ON Old Radwaste Building EF-1-17 OFF O.'.3 Radwaste Building HV-053A ON New Radwaste Building HV-053B OFF New Radwasto Building I~

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OCllGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.2c VENTILATION FAN STATUS T-Time: 02:55 PAllEL 11R EF-1-5 OFF Reactor Building Exhaust I EF-1-6 EF-1-7 EF-1-8 OFF ON ON Standby Turbine Standby Building Exhaust Gas Treatment A l EF-1-9 OFF Standby Gas Treatment B '

AOG PANEL

OFF Augumented Offgas System NOT IN CONTROL ROOM

, EF-1-16 Oli Old Radwaste Building EF-1-17 OFF Old Radwaste Building HV-053A ON New Radwaste Building HV-053B I OFF New Radwaste Building i

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Air Comressor Area Redweste Pwp Room 83 100 94 3.0 Redweste Control Room 5.0 Redweste Conveyor Aiste 85 86 0.3 I Redweste store and ship flP volve Roces Persomel Air Lxt 57 88 89 4.0 3.0 1.0 Reactor Oper floor Area 40.

I Reactor t wip Drain tank 8 10 Clearsc System Pwo Area f ust Pool ?titors (ORW)

C1 C2 C3 15.

35.

6.0 Emergency Condenser Area I $hutdown Meet Eschenger Spent fuel Pool Area Liquid Poison System Aree C6 C4 C5 20.

4.0 1.5 2.0 4 C7 I Control Rod Drivs Modute Air Ejectors Area fuel Pool (Low Range)

Fuel Pool (High Range)

C8 C9 C 10 64.

2.0 30.

1.0E-13 Amps RAGEMS HIGH-RANGE MONITOR: 6. cps RAGLMS LOW RANGE MONITORS:

CHRRM NUMBER 1:

4. R/hr CHRRM NUMBER 2:

4. R/hr 490. mR/hr OFFGAS AIR EJECTOR MONITOR: 99. units MAIN STEAM LINE MONITOR:

I I

I

SCENARIO 25 I

OCNGS ANNUAL EXERCISE REV NO O TABLE A-1.4b Radiation Monitoring System Data (T = 01:00) (

)

NOTE: 'OSH' = Offscale High I

AttA PROCE $$

RADIAf10N MONifDR$ CODE @/br RADI Atl0N MON 110R$ CODE M/hr Admin BLd3 Entry furb Blds A 1 0.4 Conteirvnent sprey Hz A Ef f P 1 0.5 Access to Control Room A2 0.03 Contalment $ pray HK B Ef f P 2 0.7 Reactor Control Rom A3 0.2 Contoiment sprey mu C (f t P 3 15.

Turbine Oper floor Entry A4 3.0 conteirrent sprey MX D Ef f P 4 15.

Lndry & Decon Areetthern Le A 5 0. Vent Montfold Red Mon Ch 1 P 5 1.0 furb Lttee Ott Equip Area A6 0.4 Vent Manifold Red Mon Ch 2 P 6 1.0 1.0 lg Feed Pury Area A7 2.0 cond vent i Red Won Ch i P7 Condensate Pv t 4ree A8 3.0 L nd vent 1 Red Mon th 2 P8 1.0 Cond Domin votve Aree A9 4.0 Cond vent 2 Red Mon Ch 1 P9 1.0 Regenerrtion Area A 10 10. Cond vent 2 Red Mon Ch 2 P 10 1.0 Makeup Domin Aree B1 0.2 servict Water Olschtge Ma P 11 150. cpe M tir Conpressor Area B2 0.5 RBCCV Olscharge Monitor P 12 430 cps Redweste Ptsp Roca 03 100.

Redweste Control Room t4 3.0 Redweste Conveyor Aisle B5 5.0 Redweste Store ano Ship B*6 0.3 T!P Velve Room B7 4.0 Persomet Air Lock 88 3.0 Reactor Oper Floor Area B9 1.0 Reector Equip Drain tank t 10 40.

Cleante system Ptem Area C1 15.

Fuel Poct fitters (ORW) C2 35. 5 Emergency Ccvienser Area C3 6.0 Shutdown L e: Exchanger C4 20. g spent Fuel Fool Area C5 4.0 Liquid Pott an System Area C6 1.5 Controt R(1 Orive Module C7 2.0 Air Ejectors .*?:L C8 59.

Fuel Pool (Low Range) C9 2.0 fuel Pool (High Range) C 10 30.

RAGEMS HIGH-RANGE MONITOR: 1.0E-13 Amps RAGEMS LOW RANGE MONITORS: 6. cps CHRRM NUMBER 1: 4. R/hr CHRRM NUMBER 2: 4. R/hr E OFFGAS AIR EJECTOR MONITOR: 440. mR/hr E MAIN STEAM LINE MONITOR: 89. units I

I I

a

_m _  %. - , - . - _ _ _ _ _ _ _ m _.-_a_. ..-___m ia m _ _. - _ - _ .

I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.4c Radiation Monitoring System Data (T = 01:15)

( )

NOTE: 'OSH' = Offscale High ,

I AREA PROCE SS RADI Af!C* MONITOR $ CODE W/hr RADI AflCW h]NITOR$ C00E d/hr Adnin Blds Entry-furb Blog A 1 0.4 Conteirvnent spray Mx A Ef f P 1 0.5 Access to Control Rom A2 0.03 Conteirvaent sprey at B Ef f P 2 0.7 Reactor Control Room A3 0.2 Contelrrent $ pray Mt C Ef f P 3 15.

Turbine Oper Floor Entry A4 3.0 containment Snray Nu 0 Ef f P 4 1$.

Lrdry & Decon Areatcnem to A $ 0. Vent Menif old had Mon Ch 1 P S 1.0 I furb Lube Oil Equip Area A6 Feed Ptry Area Condensate Ptro Area A7 A8 C.4 2.0 3.0 Vent Montfold Red Mon Ch 2 P 6 Cond Vent 1 %d Mon Ch 1 Cord Vent 1 Red Mon Ch 2 P8 P7 1.0 1.0 1.0 Cond Domin vetve Area A9 4.0 Cond Vent 2 Red Pon Ch 1 P9 1.0 Regeneration Area A 10 10. Cond Vent 2 Red Mon Ch 2 P 10 1.0 Mekeup Demin Area B1 0.2 Service Wete- Dischtge Mon P 11 1$0. cps Air Conpressor Aree B2 0.5 RBCCW Discharge Monitor P 12 430. cps Redweste Pupp toom B3 100.

Redweste Control Room B4 3.0 Redweste Conveyor Af ste B8 9 Redweste Store and Ehlp B 4_

I flP Velve Room Personnel Air (fck Reactor Oper Floor Area 57 B8 B9 3.0 1.0 Reactor Equip Drain f enk B 10 40.

I Cleanup System Ptep Area C1 Fuel Pool Filters (ORW)

Emergency Condenser Area C3 C2 1$.

35.

6.0 Shutdown Heat Exchanger C4 20.

Spe3t FL+l Pool Area C5 4.0 Liquid Poison System Area C6 1.$

Control Rod Drive Module C7 2.0 Air Ejectore Area C8 44.

Fue' Pool (Low Range) C9 2.0 Fuel Pool (Hign Range) C 10 30.

1. 0E-13 A:aps I RAGEMS HIGH-RANGE MONITOR:

RAGEMS LOW RANGE MONITORS: 6. cps CHRRM NUMBER 1: 4. h/hr CHRRM NUMBER 2: 3. R/hr OFFGAS AIR EJECTOR MONITOR: 400. :nR/hr MAIN STEAM LINE MONITOR: 70, units

I SCENARIO 25 REV NO O OCNGS ANNUAL EXERCISE TABLE A-1.4d (T = 01:30) ( )

...NOTE:

Radiation Monitoring System Data. .. .... . ... ........ .... ..... ....

' Osit ' = Of f scale liigh 1

i PROClil CODE mR/hr g

ARfA CCol PA/hr R d lAllON N0h'10R$

R ADI A110N MCX1110R$

Contelrrent spray MX A (ff P 1 0.5 Admin Bldg Entry furb Stdo A 1 0.4 0.7 A2 0.03 Conteirmnt $ prey Hu e Ef f P 2 E i Access to Control Room Conteirvent sprey MK C Ef f P 3 15.

A3 0.2 '5.

Reactor Control Room conteinnent sprey NE D Eff P*4 Turbine Oper Floor Entry A4 3.0 1.0

0. Vent Montf old Red Mon th i P 5 I trdry & Decon Ares (Chee la A 5 1.0 Vent Montfold Red Mon Ch 2 P 6 Turb tube Ott Equip Area A6 0.4 1.0 A7 2.0 Cond Vent 1 Red Mon Ch i P7 Feed Pu y Area 1.0 A8 3.0 Cord Vent 1 Red Mon th 2 P6 1.0 Cordensate Pum Area 4.0 Cond Vent 2 Red Mon th 1 P9 A9 1.0 Cond Domin velve Aree 10, Cord Vent 2 Red Mon Ch 2 P 10 A 1D 150. cps Regeneration Area 51 0.2 service water Olechree Mon P 11 430. cps Makeup Comin Area P 12 Air ccv9ressor Ares 02 0.5 RSCCW Discherae Monitor g' Redweste Pump Room 63 100. g I4 3.0 Redsaste Control Room Redweste Conveyor Afste 35 5.0 Redwocte Store ord $ hip s6 0.3 87 4.0 as 11P Volve Room 08 3.0 Persorriel Air Lock 1.0 Reactot Oper floor Aree B9 g' Reactor Equip Drain f ora t 10 40.

15.

g Cleerup lystem Puy Area C1 C2 35.

fuel Pool Fitters (ORV) E Emergency Condenser Area C3 6.0 C4 20.

$hutdown Heat Eschenger C5 4.0 spent Fuel Pool Aree 1.5 tiquid Poison syttom Aree C6 2.0 Control Rod Drive Makte C7 C8 65.

lg Air tjectors Aree fuel Pool (Low Range) C9 2.0 fuel Pool (Mige tange) C 10 30.

1.0E-13 Amps RAGEMS IIIGil-RANGE MONITOR: 6. cpa RAGEMS LOW RANGE MONITORS: '

3 ,

CHRRM NUMBER 1:

3. R/hr g CHRRM NUMBER 2 3. R/hr 610. mR/hr OFFGAS AIR EJECTOR MONITOR: 94. Linits MAIN STEAM LINE MONITOR:

I I

I

I OCNGS SCENARIO 25 REV NO O ANNUAL EXERCISE TABLE A-1.4e Radiation Monitoring Systern Data (T = 01:45) ( )

NOTE: 'OSH' = Offscale High I AttA PROCES$

RADiefl0N MONITOR $ COCE W/h RADIAft0N IOllTOR$ CCCE W/hr A:Rnin 8tdg (ntry furb Bldg A 1 0.4 Contairvnent $ prey Mt A Ef f P 1 0.5 I Access to Control Rocsa Reactor Control Room Turbine oper floor intry A4 A2 A3 0.03 0.2 3.0 conteirvnent St.f iy Mt B Ef f P 2 Contelrvnent sprey WX C Ef f P 3 conteirenent sprey NE C (f f P 4 0.7 15.

15.

trdry & Decon Ares (Chem La A 5 0. Vent mentfold Red Mon CA 1 P 5 1.0 I turb Lube Olt (qutp Area A6 Feed Pum Area Cordensete Pum Area A7 A8 0.4 2.0 3.0 sent Montfold Red Mon Ch 2 P 6 tond vent 1 Roo non Ch 1 Cond Vent 1 Red Mon Ch 2 P8 P.7 1.C 1.0 1.0 Cond Demin Volve Area A9 4.0 cond vent 2 Red Mon Ch 1 P9 1.0 I Regeneration Area Makew Domin Area Air Cumressor Area A 10 B1 t2 10.

0.2 0.5 Cond vent 2 Red Mon Ch 2 P 10 service water Dischtse Mon P 11 RRCCW 01scherge Moniter P 12 1.0 150. cps 430. eps I Redweste Pum Room t3 100.

kodweste Control Room B4 3.0 Dadueste Cor veyo Alste B5 5.0 Redweste Store and Chip B6 ') . 3 I 11P Velve Room Persoreet t er Lock Reactor Oper floor Aree B7 BS B9 4.0 3.0 1.0 Reactor Equip Drain tenk 8 10 40.

Clean @ System Puy Area C1 15.

fuel Pool filters (ORW) C2 35.

Emergency Condenser Aree C-3 6.0 Shutdown Meet Exchanger C4 20.

I Spent f uel Pool Area Liquid Poison System Area C6 Control Rod Drive module C7 C5 4.0 1.5 2.0 Air Ejectors Area C8 71.

f uel Poot (Low Range) C9 2.0 fuel Pool (High Range) C 10 30 I RAGEMS HIGH-RANGE MONITOR:

RAGEMS LOW RANGE MONITORS:

1.0E-13 Amps 250, cps CHRRM NUMBER 1: 3. R/hr I CHRRM NUMBER 2:

OFFGAC AIR EJECTOR MONITOR:

MAIN STEAM LINE MONITOR:

3. R/hr 670. mR/hr 125. units I

I I

I - _

1

I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.4f Radiation Monitoring System Date (T = 02:00) ( )

NOTE: 'OSH' = Offscale High AkEA PROCES$

RADIni10N Moulf0R$ CODE mR/hr RADIAfl0N MONITOR $ CODE rd/hr Achin Blog Entry furb tids A 1 0.4 Containment sprey MX A Eff P 1 24.

Access to Centrol Room A2 0.03 containment sprey MX B Eff P 2 24 Reactor Control Room A3 0.2 Conteinment $ prey MX C Eff P 3 15.

Turbine Oper floor Entry A4 3.0 Containment Spray MX 0 Eff P 4 15.

Lndry & Decon Ares (Chem to A 5 0. Vent Manifold Red Mon Ch 1 P 5 1.0 furb Lube all Equip Aree A6 0.4 vent Manifold Red Mon Ch 2 P 6 1.0 feed Pwp Area A7 2.0 Cond Vent i Red Mon Ch 1 P*7 1.0 Condensatt Pw p Area A8 3.0 Cond vent 1 Red Mon Ch 2 P8 1.0 Cond Domin Velve Area A9 4.0 Cond Vent 2 Red Mon Ch 1 P9 1.0 Regeneration Area A 10 10. Cond Vent 7 Red Mon Ch 2 P-10 1.0 Makeup comin Area 81 0.2 service Water Dischtge Mon P 11 150. eps Air Corpressor Aree B2 0.5 RBCCW Olscherpe Monitor P-12 430. cps Redweste Pwp Room 83 100.

Redweste Contrut Room 94 3.0 i Redweste Conveyor Alste B5 5.0 Redweste Store and Ship B6 0.3 flP Velve Room I7 4.0 h W

Personnet Air Lock s8 3.0 Reactor Oper Floor Area A9 1.0 Reactor Equip Drain Tank 8 10 40.

Clemmo System Pwp Area C-1 1$.

Fuel Pool filters (ORW) c2 35.

Energency condenser Area C3 6.0 Shutdown fleet Emchanger C-4 20. 13 Spent Fuet Pool Area C5 4.0 Liquid Poison System Area C6 1.5 l

Control Rod Drive Module C-7 7.0 Air Ejectors Area C8 76. g fuel Pool (tow Range) C9 2.0 W Fuel Pool (Migh Range) C-10 30.

RAGEMS HIGH-RANGE MONITOR: 1.0E-13 Amps l RAGEMS LOW RANGE MONITORS: 308. cps B CHRRM NUMBER 1: 2. R/hr a CHRRM NUMBER 2: 3. R/hr g OFFGAS AIR EJECTOR MONITOR: 720. mR/hr MAIN STEAM LINE MONITOR: 180. units I

N

=

. _ _ . _. __. =. _ _ . - -- -- - -- - _ - -

1 I

SCENARIO 25 I OCNGS ANNUAL EXERCISE REV NO O TABLE A-1.4g Radiation Monitoring System Data (T = 02:15) ( )

I NOTE: 'OSH' = Offscale High I AR[A RADIAtlDN MONITOR $ CTE r8/hr PROCfl$

RADIAf!ON MONIf0R$ C00t mR/hr containment $ prey M1 A Eff P 1 25.

I Achir Side intry furb Blds A 1 Access to Control Room Reactor Control Room A2 A3 0.03 0.4 0.2 Containment $ prey MK $ Ef f P 2 Containment $ prey MK C f f f P 3 Conteirvrent $ prey HX 0 ff f P 4 25.

15.

15.

furbine Oper floor Entry A4 3.0 I Lndry & Decon Ares (Chem to A $

Turb Lube 0ll Eguip Aree A6 f eea Pi.sy Area A7 0.4 2.0

0. Vent Manifold Red Mon Ch 1 P $

Vent Manif old Red Mon Ch 2 P 6 Cond vert 1 Red Mon Ch 1 P7 '

1.0 1.0 1.0 1.0 A8 3.0 Cond vent 1 Red Mon Ch 2 P8 I condensatt Pum Area Cond Domin valve Area Regenerstion Aree Mate w Demin Aree A ';

A 10 B1 4.0 10.

0.1 Cond Vent 2 Rtd Mon Ch 1 P9 Cond vent 2 Red Mon Ch 2 P 10 Service Water Dischrge Mon P 11 1.0 1.0 150. eps RSCCV Discharge M mitor P 12 430. cpe I Air Cor9tessor Aree 82 0.5 Redweste Pg Room 83 100.

Redweste Control toom 84 3.0 Redweste Conveyor Alste B$ 5.0 I Redweste Store end Shig.

TIP vetve Room Personnel Air Lock B6 87 B8 0.3 4.0 3.0 Reactor Oper floor tres 89 1.0 I Reactor Envip Drain f ont B-10 Cleanun System Pum Area C1 Fuel Pool F8tters (ORW) C2 40.

15.

35.

Emergency Condenset Area C3 9.0 I Shutdown Heat Exchanger Spent Fuel Pool Aree Liquid Poison System Area C6 C4 C5 20.

4.0 1.5 I control Rod Drive Module C7 8.0 Air Ejectors Area C8 0.

fuel Pool (Low Range) C9 2.0 Fuel Pool (High Range) C 10 30.

RAGEMS HIGH-RANGE MONITOR:

1.0E-13 Amps RAGEMS LOW RANGE MONITORS: 450, cps

~

CHRRM NUMBER 1: 3. R/hr CHRRM NUMBER 2: 2. R/hr OFFGAS AIR EJECTOR MONITOR: 850. mR/hr MAIN STEAM LINE MONITOR: 220. units I

I I

I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.4h Radiation Monitoring System Data (T = 02:30)

( )

AREA PROCESC RADIAflDN MONITOR $ CCCE M/hr RADI Afl0N MONifDR$ CODE M/hr Achin Bldg Entry furb Bldg A*1 0.4 Contairment sprey MR A Ef f P 1 26.

Access to Contrcl Room A2 0.C3 Conteirvnant Spray Mx B Ef f P 2 26.

Reactor control Room A3 0.2 Cont o f frent Spray HM C E f f P 3 13.

turbine Oper Floor Entry A4 3.0 conteirinent Spray Nx D Ef f P 4 15.

Lndry & Decon Ares (Chem La A 5 0. Vent Manifold Red Mon Ch 1 P 5 1.0 l Turb Lube Olt Equip Area A6 0.4 Vent Montfold Red Mon Ch 2 P 6 1.0 E Feed Purp Area A7 2.0 Cond vent i Red Mon Ch 1 P7 1.0 Conder.sete Pteg. Ar ea A8 3.0 Cord vent 1 Red Mon Ch 2 P8 1.0 Cond Domin valve Area A9 4.0 Cond Vent 2 Red Mon Ch 1 PJ 1.0 Regeneretton Area A 10 10. Cond vent 2 Red Mon th 2 P 10 1.0 W Maketo Domin Area B1 0.2 service Water Olschrge Mon P 11 150. cps Air Coppressor Aree B2 0.5 RCCCJ Discharge wonitor P 12 430. cps g Redweste Ptep Room B3 100, g RMwaste *ontrol Room B4 3.0 Redweste Conveyor Aisle B5 5.0 Redweste Store and Ship B6 0.3 flP Velve Room B7 4.0 Personnel mir Lock B8 3.0 Reactor Cper Floor Aree B9 1.0 Reactor Equip Orein Tank B 10 40. l Cleanup System Ptep Aree t1 15. E fuel Pool filters (ORW) C2 35.

Emerge'wy Condenser free C3 12. em Shutdown S et Exchanger C4 20.

Spent fuel Pool Area C5 4.0 Liquid Poison System Arne C6 1.5 Control Rod Drive Moriale C7 9.0 g Air Ejectors Area CA 95. g fuel Pool (Low Range) C9 2.0 fuel Pool (High Range) C 10 30.

RAGEMS HIGH-RANGE MONITOR: 1.0E-13 Amps RAGEMS LOW RANGE MONITORS: 30. cps CHRRM NUMBER 1: 2 R/hr CHRRM NUMBER 2: 2. R/hr OFFGAS AIR EJECTOR MONITOR: 900. mR/hr MAIN STEAM LINE MONITOR: 260. units I

I E

a L

I SCENARIO 25 REV NO O OCNGS ANNUAL EXERCISE TABLE A-1.41 02:45) ( )

(T =

Radiation Monitoring ......---.......

System Data.......-- .--.-

I NOTE:

'OSH* = Offscale High I AREA RADIAf!ON MONITOR $

CODE r$/hr PROCE55 RA01Atl0N MON 110R$

CODE nA/hr 47.

0.4 Coctetment sprey ofX A Ef f P 1 Atknin tids Entry turb Stdg A 1 47.

0.03 conteirvent sprey HK 8 Etf P 2 A2 15.

Access to control Roorn 0.2 Contoiment Sprey NX C Ef f P 3 A-3 15.

Reactor Control Room 3.0 contetreent sprey Nx 0 Ef f P 6 A4 I Turbine owr Floor Entry 1.0

0. Vent Mont f rn d a nd Mon th 1 P 5 Lrdry & Decon Aree(Chem to A 5 1.0 0.4 vent Manifold Red Mon th 2 P 6

, TurbLube01tiquipAree A6 Cond vent 1 Red Mon Ch i P-7 1.0 Feed Pung Area A7 2.0 1.0 Cond vent 1 Red Mon Ch 2 P8 I A8 3.0 1.0 Condensate Pung Area Cond Vent 2 Red Mor. Ch 1 P9 A7 4. ') 1.J Cond Demin Velve Area 10. Cond ven. 2 Red Mon Ch 2 P 10 A*10 150. cps Regeneration Area Service Water Dischrge Mon P 11 81 n2 P 12 430. ces Makeup Drain Area RSCCW Discharge Monitor I Air tonpressor Aree Redweste Pwp toom R9dweste Control Room 62 83 R4 J.5 103.

3.0 B5 5.0 Redweste Conveyor Aisle 86 0.3 Roweste Store and ship W 87 4.0 flP Velve Room 3.0 88 Persomet Air Lock 1.0 89 I Reactor Oper floor Area Reactor Equip Drain lenk 8 10 Cleanup System P wp Area C1 C2 40.

15.

35.

Fuel Pool Filters (ORW) 1C.

Emergency Cordenser Aree C3 C-4 20.

Shutdown Heat Exchanger C5 4.0

$ pent Fuel Pool Area C6 1.5 Liquid Poison System Area I Control Rod Drive Mocble C7 Air Ejectors Aree Fuel Poct (Low Range s C8 C9 17.

98.

2.0 C 10 30.

Fuel Pool (High Range) 1.0E-13 Amps RAGEMS HIGH. RANGE MONITOR: 34. cps RAGEMS LOW RANGE MONITORS:

CHRRM NUMBER 1: 2. R/hr CHRRM NUMBER 2: 2. R/hr 930. mR/hr OFFGAS AIR EJECTOR MONITOR: 280, units I MAIN STEAM LINE MONITOR:

I I

I

- ~~~ ~

OCNGS SCENARIO 25 REV NO O ANNUAL EXERCISE TABLE A-1.4j Radiation Monitoring System Data (T = 03:00) ( [

l NOTE: 'OSH' = Cff0c.ite Mich AREA FROCES$

RACI Afl0N MONIT0es CODE 2/hr RADI Afl0N MON!f 0R5 CODE d/hr Adnin Bldg Entry furb Bldg A 1 0.4 Contelrvnent sprey MX A Ef f P 1 68. 1 Acc*ss to Control Room A2 0.03 Conteirmnt (oray MX I (f f D 2 68.

Reactor Control Room A3 0.2 Contelrvnent $ prey HM C Ef f P 3 15. 515 l Turbine Oper Floor Entry A4 3.0 conteirvnent $ prey MX D Ef f P 4 15.

trery & Decon Ares (Chem la A 5 0. vent Manifold Red Mon Ch 1 P 5 1.0 Turb Lee Oil Equip Area A6 0.4 ver t Mani f olt'

• Mm Ch 2 P 6 1.0 feed Pa n Area A7 2.0 Cond vent 1 Re6 . Ch 1 P7 1.0 Condensete Pw p Area A8 3.0 Co-d Vent i Red ko. "h 2 P8 1.0 cond Domin Velve Area A9 4.0 Cond vent 2 Red Mon th 1 P9 1.0 i Regeneration Area A 10 10. Cond vent 2 Red Mon Ch 2 P 10 1.0 l Mekeup Domin Aree B1 0.2 service veter alschrge Mon P 11 150. cps Air Conpressor Aree B2 0.$ RBCCW Dis herpe Monitor P 12 430. cg 4

Redweste Pwp Room B3 100. l, g

Redweste Control Room B4 3.0 Radweste Conveyor Aisle 45 5.0 embeste store and ship B6 0.3 ,

TIP Velve Room B7 4.0 '

Personnel Air Lock B*8 3.0 Reactor Oper Floor Area BG 1.0 Reactor Equip Drain tank B 10 40.

Cleerg System Pwp Area C1 15.

Fuel Pool Filters (ORW) C2 35.

Emergency Cond$nter A . - C3 P1.

Shutdown Heat Exchang' C4 20. W Spent Fuel Pool Area C5 4.0 l Liquid Poison system Area C6 1.5

ontrol Rod Drtve Module C-7 24.

Air Ejectors Area C8 100. l g

Fuel Pool (Low Range) C9 2.0 Fuel Pool (Higt. Range) C 10 30.

RAGEMS HIGH-RANGE MONITOR: 1.0E-13 Amps RAGEMS LOW RANGE MONITORS: 35. cps CHRRM NUMBER 1: i R/hr g CHRRM NUMBER 2: 2. R/hr g' OFFGAS AIR EJECTOR MONITOR: 950. mR/hr -

MAIN STEAM LINE MONITOR: 290. units I

I s.

SCENARIO 25 I OCNGs REV NO O ANNUAL EXERCISE TABLE A-1.4k l

1251___!_______ 1

! ""!*!!!" " "!!!!!"? NOTE:

S!*!!!_

'OSH' = *!" Offscale .__E High "__

I ARIA

• ROC [$$

R ADI Ai!DN MONITOR $

Cott 2/hr CCCE W/hr RADIATION HONif0RS 75 .

Contelrvnen'. Spray FX A Ef f P 1 0.4 75 .

A-tmin Olds Entry Turb Blds A 1 Contairmt $ prey MX B Ef f P 2 A2 0.03 15.

Access to Control toom 0.2 conteirvwnt sprey NX C [f f P 3 A3 15.

I Reactor Control Room Contelrvnent $ prey MX 0 f ff P 4 A4 3.0 1.0 Turbine oper floor Entry 0. vent manif old and Mon Ch 1 P 5 1.0 Ltdry & Decon Area (Chee is A 5 Vent Manif old Rad Mon Ch 2 P 6 1.0 A6 0.4 P.7 turb Lube Oil Equip Arts cond vent 1 ar.d Mon Ch 1 P8 A7 2.0 1.0 I Feed pus Area Condensate Pum Area Cond Domin Valve Area A8 A9 A 10 3.0 4.0 10.

Cond vent i Red mon Ch 2 P9 Cond vent 2 and Mon Ch 1 P 10 Cond vent 2 and Mon Ch 2 1.0 1.0 150. cps Regenes ation Aree 0.2 service Water Olschree mon P 11 I s1 P 12 430. cps Make @ Oeein Area 0.5 altCW Discharge Monitor Air Cocpressor Aree 02 83 100.

Radweste Pum toom 3.0 84 I

Radweste Contro( toom 5.0 eacNeste conveyor Alste s5 S6 0.3 Redweste Store and Ship 4,0 B7 flP valve Room 3.0 88 i

I Personnet Air Lock Reactor Oper Floor Area Reactor Equip Or.in tank Cleanup System Pum Area 89 s - 1('

C1 1.0 40.

15.

C2 35.

I Fuel Pool Filters (ORW)

Eme*gency condenser Arae

$hutdown Heat Eachenger C3 C4 C5 25.

20.

4.0 Spent Fuel Pool Area 1.5 I .iquid poison System Area Control Red Drive Module Air Ejectors Area C6 C7 C8 C9 27.

103.

2.0 Fuel Pool (Low Range)

I Fuel Pool (High Range) C 10 RAGEMS HIGH-RANGE MONITOR:

3D.

I 1.0E-13 Amps 38, cps RAGEMS LOW RANGE MON. TORS:

I CHRRM NUMBER 1:

CHRRM NUMBER 2:

2. R/hr

2. R/hr 980. mn/hr OFFGAS A!R EJECTOh MONITOR: 300. units ,

MAIN STEAM LINE MONITOR:

I

OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TAELE A-1.41 Radiation Monitoring System Data (T = 03:30) ( )

E NOTE: 'OSH' = Offscale High AREA PROCESS RADIATION MONIT('R$ CCEE W/hr RADI Afl04 MONITORS CODE fest/h r 3 Admin ttdo Entry Turb Bldg A 1 0.4 Contelrvnent $ prey MX A Ef f P 1 81.

Access to Control Ro.nn A2 0.03 Conteirvnent sprey Nx e Ef f P 2 81.

Reactor Control Room A3 0.2 Contairenent Spray HX C Ef f P 3 15.

Turbine Oper Floor Encry A-4 3.0 Cont Irvnent sprey HX 0 Ef f P 4 15.

Lndry & Decon Ares (Chee le A 5 0. Vent c'enif olci Red Mon Ch 1 P 5 1.0 T~ i Lube Dit Equip Area A6 0.4 Vent Manifold Red Mon Ch 2 P 6 1.0 feed Pw p Area A7 2.0 Co,nd Vent 1 Red Mon Ch 1 P7 1.0 Condensate PJ p Area A8 3.0 cond Vent 1 Red Mon Ch 2 P8 1.0 Cmd Domin Velve Area A9 4.0 cond Vent 2 Red Mon Ch 1 P-9 1.0 Regeneration Area A 10 10. Cond Vent 2 Red Mon Ch 2 P 10 1.0 Mabeup Oomin Aree B1 0.2 service Water Olschtge Men P 11 150. cps Air Coppressor Aree BT 0.5 RBCCW Dische*pe Monitor P 12 430. cne Redweste Pwe h em Redweste Consi st kom B3 B4 100.

3.0 l'

m Redweste Conveyor Ai.to B1 5.0 Redweste store and ship B6 0.3 flP Velve Room B7 4.0 Personnel Air Lock B8 3.0 Reactor Oper Floo* Area B9 1.0 Reactor Equip Drain Tank B 10 40. g Cleanup system Pwo Area C-1 15. g Fuel Pool filters (ORW) C-2 35.

Erw!rgency Condenser Area C3 29. ,

th'.*down Heat Exchanger C4 20. g

'.,4r.t Fuel Pool Aree C5 4.0 E Liquid Potson system Area C6 1.5 Control Rod Drive Module C7 29.

Air Ejectors Area C8 102.

Fuel Pool glow Range) C9 2.0 m Fuel Pool (High Range) C 10 30.

RAGEMS HIGil-RANGE MONITOR: 1.0E-13 Amps RAGEMS LOW RANGE MONITORS: 42. cps CHRRM NUMBER 1: 2. R/hr 3 CHRRM NUMBER 2: 1. R/hr g OFFGAS AIR EJECTOR MONITOR: 970, mR/hr MAIN STEAM LINE MONITOR: 300, units I

I I

E

SCENARIO 25 I OCNGS ANNUAL EXERCISE REV No 0 I TABLE A-1.4r.

(T = 03:45) ( )

Radiation Monitoring System Data..........................................

I NOTE:

'OSH' = Offscale High I ARCA CODE W/hr PROCtll R ADI Atl0W MokIT0t$

CODE M /hr RADIA110N MONlf0R$

Contalmer,t $ pray M1 A Ef f P.1 83.

Adnin SLde Entry furb Bldg A 1 0.4 83.

0.03 Contelrrent $ prey MX B (f f P 2 A2 15.

Access to Control toorn 0.2 Contelrrent Sprey M1 C (f f P 3 A3 15.

teactor Control Room Contelrrent sprey M10 ff f P 4 I Turbine Oper F:oor Entry A4 3.0 1.0

0. Vent Manifold Red Mon Ch 1 P 5 Lnary & Decon Ares (Chem to A 5 1.0 A6 0.4 Vent Manifold ted m.m th 2 P 6 Turb Lube Ott Equip Area 1.0 A7 2.0 Corv4 Vent i had Mon Ch

• P7 1.0 Feed Puv Area I Condensate Puy Area Cond Dem{n Vetve Area Regeneration Area A8 A9 A 10 3.0 4.0 10.

0,2 Cord vent i Red Mon Ch 2 P8 Card vent 2 Red Mon Ch 1 Cond vent 2 Red Mon Ch 2 service Weter Disebree Men P 11 P9 P 10 1.0 1.0 150. cps Makeup Domin Area 81 P 12 430. cps I Air Conpressor Area Redweste Pep Room Redweste Control acam 82 83 s4 0.5 100.

3.0 RBCCW Olscharge Monitor B5 5.0 I Redweste Conveyor Aisle Redweste Store and Ship flP vetve Room B6 87 88 0.3 4.0 3.0 Personnet Air Lock 1.0

_ Reactor Oper Fleor Area B9 teactor Et.ulp Drain Tent 8 10 40.

15.

Cleanup System Pe p Area C1 C2 35.

fuel Poot filters (ORW)

I Emergency Condenser Area shutdown Meet Exchanger Spent fuel Poot Area C3 C4 C5 29.

20.

4,0 C6 1.5 Liquid Poison 8/ stem Aree I Control Rod Drive Module C7 Air tjectors Area fuel Pool (Low Range)

C8 C9 30.

102.

2.0 30.

I Fuel Pool (High Range) C+10 1.0E-13 Amps RAGEMS HIGH-RANGE MONITOR: 43. cps RAGEMS LOW RANGE MONITORS:

CHRRM NUMBER 1:

2. R/hr CHRRM NUMBER 2:

1. R/hr 970. mR/hr OFFGAS AIR EJECTOR MONITOR: 300. units I MAIN STEAM LINE MONITOR:

I I

SCENARIO 25 I

OCNGS AN14UAL EXERCISE REV NO O TABLE A-1.4n Radi tion Monitoring System Data (T = 04:00) ( )

NOTE: 'OSH' = Offscale High AREA PR9 Celi RADIAfl0N MONITOR $ C@E W/nr RADIAfl0N MONif0N$ COD ( d/hr Actuin Bldg [litry*furb Stdg A 1 0.4 contairvrent $ pray Na A (f f P 1 85.

Access to Control Room A2 0.03 containment $ pray Nx 1 Eff P 2 85.

Reactor Control liocen A3 0.2 Containment sprar Mr C fff P 3 17.

is.rtdne Oper Floor Entry A4 3.0 Conteirvaent $prar NX 0 f f f P 4 17.

(rdev & Decon Ares (Caw la A 5 0. Vent Manif old Red Mon Ch 1 P 5 1.0 furb Lube Dit Equip Ares A6 0.4 vent Manifold Red Mon th 2 P 6 1.s Fwed Pte, Area A7 .? . 0 Cond vent 1 Red Men Ch 1 P7 1.0 W tendensate Pum Area A5 3.0 cond vent 1 Red Mon th 2 P8 1,0 cond Deel*i valve Area A9 40 Cond vent 2 Rad Mon Ch 1 P9 1.0 g Regenerstien Area a 10 10. Corvi vent 2 Rad Mon Ch 2 P-10 seriice Water Olschrge Mon P 11 1.0 g Makeig) Domin ,.ree R1 0.2 '. ? 0. c ps air Corg>ressor Area t2 0.5 RBCCW Discharge Monitor P 12 4ao. cps Redwuste Pusp Room 03 100.

Redweste Cuitrol Room 94 3.0 Radweste cmveyor Alste 65 5.0 Redweste Store and $ hip 86 0.3 flp Velve Room B7 4.0 Personnel Air Lock 86 3.0 El Reactor Oper Floor Area 89 1.0 Reactor fcp;Ip Drain Tank B 10 40.

Cleanup tystes Puy Area C1 15.

Fuel Pool Filters (ORW) C2 35.

Emergency condenser Area C3 30.

Shutdost Heat tach 6nger C4 20. m Spent fuel Pool Area C5 4.0 Liquid Poison system Area C6 1.5 E

l Control Rod Drive Module C7 30.

Air Ejectors Aree C8 104, 1 Fue'. Pool (Low Range) C9 2.0 Fuel Pt,ul (High Range) C 10 30.

RAGEMS HIGH-RANGE MONITOR: 1,0E-13 Amps l RAGEMS LOW RANGE MONITOP.S; 40. cps 3 l CHRRM NUMBER 1.- 1. R/hr l CHRRM NUMBER 2: 1. R/hr l OFFGAS AIR EJECTOR MONITOR: 990. mR/hr MAIN STEAM LINE MONITOR: 310. units I

I I

i E

=

1

OCNGS SCENARIO 25 ANNUAL EXERCIDE REV NO O TABLE A-1.4o Raoiation Monitoring System Data (T = 04:15) ( )

NOTE: 'OSH' = Offscale High J

I At[A RADIATION MON 110Rg r(=>t @/hr PROCtl$

RADIA110N MON!T0el C006 W/hr Achin tids Entry furb It.ig A+1 0.4 Conteircent sprey HK A Ef f P 1 0$N I Access to Control Room teettor Control Room Turbine Oper Floor Entry A2 A3 A*4 0.03 0.2 3.0 Conteirrent sprey Hu I f f f P 2 Contatreont sprey Ms C Ef f P.3 Contaireent sprey Ma 0 f f f P 4 0$N 17.

17.

tndry & Decon Arte(Chem La A $ 0. Vent Manifeld Red Mon Ch i P 5 1.0 furb tube Oil toutp Aree A6 0.4 Vent Montfottf Red Mon th 2 P 6 1.0 feed Ptro Area A7 2.0 Cond Vent 1 Red Mon Ch 1 P7 1.0 Condensate Ptsp Area A6 3.0 Cond Vent 1 and Mon Ch 2 P8 1.0 I Cond Deatn Vetve Aree Aegeneration Area Makete Desin Area Air Conpreteor Ares A9 A 10 91 82 4.0 10.

0.2 0,5 Cond Vent 2 Red Mon Ch 1 P9 Cond vent 2 Red Mon Ch 2 P 10 service Water Dischree Mon P 11 asCCW Discharge Monitor P.12 1.0 1.0 150. cpe 430. eps I Rocheste Ptep Roan Redweste Control soam Redweste Conveyor Alsta B3 84 65 100.

3.0 5.0 Redweste Store er$ ship 86 0.3 I flP valve Room Perew nnel Air Lock Rocctor Oper floor Aren 87 08 B9 4.0 8.0 1.0 40.

I Reactor Equio Drain tank 6 10 Cleerg 5,* tem Ptap Area C1 15.

Fuel Fool Fit tore (ORV) C2 35.

(mergency Corwsenser Area C3 30.

I C4 shut m en Meet Eachenger 20.

Spent ' .mrt Pool Area CS 4.0 Ligt.!n Poison Systs.e Area C6 1,5 centrol tod prive Module C7 78.

I Air EJectore Area fuel Prot (tow Range)

Fuel Poot (High Range)

C8 C9 C 10 160.

2.0 30.

I RAGEMS HIGH-RANGE MONITOR:

RAGEMS LOW RANGE MONITORS:

1.0E-13 A.'?s

45. cps CHRRM NUMBER 1: 25. R/hr I CHRRM NUMBER 2:

OFFGAS AIR EJECTOR MONITOR:

MAIN STEAM LINE MONITOR:

22. R/hr 1500. mR/hr 550. units I

, .v---.._., - - - . - . - ~ . - - - , , --.r-* . - - - - , , , . , - - - - . . - - , , - - ---,.--r -

r y

OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O TABLE A-1.4p Radiation Monitoring System Data (T = 04:30)

( )

NOTE: 'OSH' = Offscale High AREA PROCtts RAD!Afl0N MONif0R$ CODE d/hr RADIAftDN MONif0R$ CCOE @/hr Achin Blds Entry furb Ildo A*1 0.4 Containment $ prey NX A (ff P 1 05N Access to Control Roam A-2 0.03 containment $ prey NE 8 fff P 2 0$N Reactor Control toom A3 0.2 Conteirrent $ prey M C Ef f P 3 19. g furbine Oper Floor Entry A4 3.0 Containment $ prey NX D Etf P 4 19.

Lndry & Decon Areetchem to A 5 0. Vent nenifold tad Mon Ch 1 P 5 1.0 furb Lube Ot t Ecpip Area A6 0.4 vent Montfold Red Mon Ch 2 P 6 1.0 l Feed Ptro Area A7 2.0 Cond vent 1 Red Mon Ch 1 PT 1.1 E Oondensete Pu m Area A8 3.0 Cond vent i Red Mon Ch 2 P8 1.1 Cond Desin vetve Area A9 4.0 Cond vent 2 bd Mon Ch 1 P9 1.1 Regeneration Aree A*10 10. Cond vent 2 Red Mon Ch 2 P 10 1.1 Makeup Domin Arse 01 0.2 Service Water Dischese Mon P 11 150. cps Air ;onpressor Area 32 0.5 80CCW Discharge Monitor P 12 430. cps Redweste Pwp toom 83 100, 2ndt:este Control Room 84 3.0 todweste Conveyor Alste B5 5.0 7edweste store end ship t6 0, i flP Velve Room 87 4.

Dersonnet Air ' .ock 08 12 Reactor f oer Floor Aree B9 1.

Reactor Etpip Drain Tank t 10 41 Cloenup system Ptmp Area C1 1?

Fuct Poot Filters (ORU C2 3' . 5 Emergercy Condenser Area C3 3.

Shutdown best Exchanger C4  ! ). um Spent Fuel Pool Area Liquid Poison System Area C6 C-5 <.0

,.6 g

Control Rod Drive Module CT 106.

Air Ejectors Area C8 lu, Fuel Poot (Low Range) C9 2.0 Fuel Foot (High Range) C 10 30.

RAGEMS HIGH-RANGE MONITOR: 1.0E-13 Amps RAGEMS LOW RANGE MONITORS: 50. cps CHRRM NUMBER 1: 40. R/hr CHRRM NUMBER 2: 42. R/hr OFFGAS A1.R EJECTOR MONITOR: 100. mR/hr MAIN STEAM LINE MONITOR: 30 units I

I E

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

l I l l

SCENARIO 25 l REV No 0 OCNGS ANNUAL EXERCISE I TABLE A-1.4q (T = 04:45) ( )

Radiation Monitoring System Data.. ............. ......... ..... . ........................

I NOTE: SH' = Of f scale High i

I AttA RADIAf10N MONITOR $

CCol d/hr PRottl5 R ADI Afl0N MOWif 0A$

Ctot id/hr Contefreent sprey Mx A f f f P.1 csh Admin Side Entry furb 0;og A 1 0.4 Conteltnent $ prey kr s Ef f P 2 05N 82 0.03 Access to Control Roorn contairnent sprey HM C (f f P 3 19.

A3 0.2 19.

Reactor Control Rocra Conteltpent sprey Mx 0 ttf P 4 Turbine Oper floor Entry 44 3.0 I Lndry & Detret Arte(Chem la A 5 furb Ltee Ott E-wip Aaes Feed Pung Area A6 A-T 0,

0.4 2.0 vent Manifold Red Mon th 1 P 5 vent Manif old And Mon Ch 2 P 6 Cord Vent i Red Mon Ch 1 P*T 1.0 1.0 1.1 1.1 Cond vent 1 Red Mon th 2 P8 I Condensate Pug Area A8 3.0 1.1 A9 4.0 Cond vent 2 Red Mon Ch 1 P9 Cond Domin valve Aree 1.1 A 10 10. Cond vent 2 and Mon th 2 P 10 150. cps Regeneration Area 31 0.2 service Water Dischree mon P 11 Makew Deafn Area P 12 430. cps I 0.5 RECCW Discherg, Monitor Air Cor9ressor Area B2 Redweste Ptse Rnom 03 100.

B4 3.0 Rec %sste Control Room Reh este Conveyor Aiste 85 5.0 I Redweste Store and Ship 11P Valve Room Personnet Air Lock B6 R.T B8 0.3 4.0 21.

B9 1.0 I Reactor one floor Area Reactor EcN i p Drain tank 8 10 Cleanup systen Pum Area C1 C2 41.

15.

35.

Fuel soot fitters (ORV)

I Emergency Condenser Area C3 30.

$hutdown Heat tachanger C4 20.

Spe*it f uel Poot Area C5 4.0 Lirpid Poison System Area C6 1.6 t87.

Contrat Rod Drive Module CT I. Air tJectors Area fuel Pool (tow Range)

C8 C9 10.

2.0 fuel Pool (High Rangel C 10 30.

1.0E-13 Amps RAGEMS HIGH-RANGE MONITOR: 6. cps RAGEMS LOW RANGE MONITORS:

CHRRM NUMBER 1: 56. R/hr CHRRM NUMBER 2: 57. R/hr 1. mR/hr OFFGAS AIR EJECTOR MONITOR: 1. units I MAIN STEAM LINE MONITOR:

-I I

j i

OCNGS SCENARIO 25 1 ANNUAL EXERCISE REV NO O TABLE A-1.4r Radiation Monitoring System Data (T = 05:00) ( )

NOTE: 'CSH' a Offscale High 3 g1I ,

l ARfA RAD! Afl0N MON!f 0R$ CODE Nt/hr PROCEsb RADI A110N MON 170R$ C001 rnit /h r I Aunin 8tdg Entry furb Side A 1 1." Contelnment $ prey NX A Eff P 1 OSM Access to Control Room A2 0.id Containment $ prey NX $ (f f P*2 0$N Reactor Control Room A3 1.2 Containnem Spray NE C Ef f P 3 0$H um ,

furbine Oper floor Entry A4 3.1 Conteirvent spray NK D (ff P 4 0$N I

Lndry & Decon Aree(Chem Le A 5 0. vent Manifold Red Mon Ch 1 P-5 350.

iurb t,ube Oil Equip Area A6 5.0 vent Manifold Red Mon Ch 2 P 6 340, feed Pw p Area A7 7.8 Cord Vent 1 Red Mon Ch 1 P+/ 0$N Condensate Pw p Area A8 7.9 Cond vent i Rad Mon Ch 2 P8 0$N A9 4.0 Cond vent 2 Red Mon Ch 1 P9 0$M M Corvi Domin Valve Area 2.0 cond vent 2 Red Mon Ch 2 P 10 i Pepeneration Aree A 10 0$M Makeup Demb tree B1 0.2 Service Water 01schrge Mon P 11 180. cps Air Conprecaer Aree B2 0.5 R$CCW Discharge Monitor P 12 470. eps Redweste Pwp Room B3 100. l Radweste Control Room B4 4.9 Radweste Conveyor Afste 95 6.9 Redweste Store and Ship t6 1.9 flP Velve Roce 87 0$M Personnet Air Lock B8 0$N E Reactor Oper Floor f.rea B9 0$N Reactor (ciulp Drain Tank 8 10 0$N Cleanup System Pum Area C1 0$M Fuel Poot Fi t ters (ORW) C2 35.

Emergency Condenser Area C3 0$N Shutdown Heat (Achanger C4 OSH E

$ pent Fuel Poot Area C5 014 Liquid Poison Systee Area C6 0$N Control Pod Drive Module C7 OSH Air Ejectors Area C8 80. l g

Fuel Pool (Low Range) C9 0$N Fuel Pool (High Range) C+10 1600.

RAGEMS HIGH RANGE MONITOR: 1.0E-13 A.mps RAGEMS LOW RANGE MONITORS: 6. cps CHRRM NUMBER 1: 65. R/hr g CHRRM NUMBER 2: 63. R/hr E OFFGAS AIR EJECTOR MONITOR: 1 mR/hr MAIN STEAM LINE MONITOR: 1. units I

E

SCE!!ARIO 25 I OCNGS ANNUAL EXERCISE REV NO O TABLE A-1.4s Radiation Monitoring System Data (T = 05:15) ( )

NOTE: 'OSil' = Of f scale High ARIA PROClll RADlAfloN MON 110R$ C001 W/hr RADIAll0N MONif0R$ C001 d/hr I Acknin Bldg intry furb Stdg A 1 1$. Contelrvnent $ prey HK A (f f P 1 0$N Access to Control Room A2 18. Contelrvnent sprey Mr 3 tif P.2 Osu Reactor Control Room A3 20. Contetreent $ prey Mr C fff P 3 0$N Turbine Oper floor intry A4 4.8 Contaltunent $ prey MX 0 (f f P 4 0$N I

I tndry & Decon Aree(Chem 4 A 5 turb tihe Olt E4Jlp Aree A6 Feed Pung Area A7 0.

40.

70.

Vent Montfold Red mon Ch 1 P 5 Vent Manifold And Mon th 2 P 6 Cond vent 1 Red Non Ch 1 PT OSH 0$N 0$N Condensate Puno Arte A*8 70. Cond Vent 1 Red Mon Ch 2 P8 0$N Cond Deatn velve Area A9 3.4 Cond Vent 2 Red Mon th 1 P9 054 M Reteneration Area A 10 3.6 Cond Vent 2 R M Man Ch 2 P 10 05N Maketo Domin Aree 81 2.1 service Water Dischrge Mon Pali 2000 cps Air Conpressor Aree B2 3.5 RSCCW Discharge Monitor P 12 1203. cps l

l I Redweste Pwp Room Redweste Control Room Redweste Conveyor Afste B3 6-4 B5 120.

9.0 26.

I Redweste Store ord Ship t6 30.

flP Velve Room BT 0$N Personnel Air ek t8 0$N Reetter Oper floor Area B9 0$N I Reactor Equip Drain isnk 1 10 Cleanup $yStem Ptap Area C1 Fuel Pool Filters (ORW) C2 0$N OSM 35.

Emergency Condenser Area C-3 0$N I Shutdown Heat tachanger Spent Fuel Pool Area Liquid Potoon System Area C-6 C4 C5 0$N 0$N 0$N Control Rod Drive ModJte CT 0$N I Air Ejectore Area Fuel Pool (Low Range)

Fuel Pool (High Range)

C8 C9 65.

05N Ca to 2.Bt5 RAGEMS HIGH-RANGE MONITOR: 3.8E-09 Amps RAGEMS LOW RANGE MOtIITORS: OSH cps I CHRRM NUMBER 1:

CHRRM NUMBER 2:

OFFGAS AIR EJECTOR MONITOR:

78. R/hr

80. R/hr

1. mR/hr MAIN STEAM LINE MONITOR: 1. units I

I I

_ ~ _ _ _ _ _ _ - _ _ - -

OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-1.4t Radiation Monitoring System Data (T = 05:30) ( )

NOTE: 'OSH' = Offscale High AttA PROCill RADIAfl0N MON 110e5 C'It 2/hr R ADI A110N MON 110R$ CODE rd/hr Acknin Blde Entry-1 urb tido A 1 30. Contairenent Spray MX A Ef f P 1 05M Access to Control tocan A2 35. Conteirvnent $ pray NX B f f f P 2 05M teactor Control Room A3 20. Contentsvent spray Nx C Ef f P 3 0$N furbine Oper Floor Entry A4 6.7 Containment sprey NX D (f f P 4 0$N Lndry & Decon Ares (Chem la A 5 0. Vent manifold Red Mon Ch 1 P 5 OSM furb Lube Oil Equip Area A6 40. Vent Manifold Red Mon Ch 2 P 6 0$N Feed Puy Area A7 70. Cond Vent i Red kon Ch 1 P7 Q$N Condensate Puw Area A8 70. Cond vent i Red Mon Ch 2 P8 0$N Cond Domin valve Area A9 3.4 Cond vent 2 Red Mon Ch 1 P*J 0$N Regeneration Area 8. 10 3.6 Cond Vent 2 Red Mon Ch 2 P 10 0$N Makeup comin Area 31 ') . 8 $ervice Water Olschree Moo P.11 t000, cpe Air Compressor Aree t1 1.0 RBCCW Discharge Monitor P 12 2000, cim Redweste Pu S Roose B1 115.

Radweste Control Room B4 9.0 tadweste Conveyor Aiste BS 11 Redwaste store and ship t6 6.9 flP valve Roorn B7 OSH Personnel Air Lock 88 0$h Reactor Oper Floor Area 89 0$N teactor Equip Drain f ar* g 10 Osw Cleanup System Pu m Area C1 05M Fuel Pool Filters (ORW) C2 35.

Emergency Condemer Aree C3 OSM Shutcown Heat Eschenger C4 OSM Spent Fuel Pool Area C5 OSH Liquid Poison System Area C6 05N Control Rod Drive Mochte C7 0$N Air tjectore Area C8 65.

f uel Pool (Low Range) C9 0$N l

Fuel Pool (Migh Range) C 10 2.715 RAGEMS HIGH-RANGE MONITOR: 3.7E-09 Amps RAGEMS LOW RANGE MONITORS: OSH cps l CHRRM HUMBER 1: 80. R/hr l CHRRM NUMBER 2: 81. R/hr

! OFFGAS AIR EJECTOR MONITOR: 1 mR/hr l MAIN STEAM LINE MONITOR: 1. units I

I' l s a

I OCNGS SCENARIO 25 REV NO O ANNUAL EXERCISE I '

TABLE A-1.4u

)

(T = 05:45) (

Radiation Monitoring .. .... ....

System ....Data.

'OSH' = Offscale High NOTE:

I AttA PROC (1$

CCO2 pd/hr C00t ed/hr R A01 A110N **lf 0R$

RADI A11Ce MON 110R$

OSH 30.

Conteirment tprey NK & Ef f P 1 Achin 8lde Entry furb Stag A 1 OSH

60. Contstrvwe n t $ prey Na a tif P 2 A2 C$N Access to Control toom Contatryent $ prey Mt C Eff P 3 A3 20.

I 0$N teactor Control Room 6.7 Contstrinent sprey Mr 0 (f f P 4 furbine oper floor Entry A6 0$N

0. Vent mentfold had mon th 1 P 5 OIN tndry & Decon Aree(Chem to A 5 Vent Mantteld Red Non Ch 2 P 6 46 40. P7 0$N turb Lube Ott twip Area Cord vent i tad Non Ch 1 I A7 65. P8 0$N Feed Pu w Area 65, tond vent 1 tad mon th 2 A8 P9 0$N Condensate Ptro Area A9 4.3 Cord Vent 2 tad Mon Ch 1 OSM Cond Onmin valve Area A 10 5.8 Cond vent 2 tad Kon Ch 2 P 10 1700, cps tegeneretton Area Service Water C'schtge Non P 11 I Maketc Domin Area Air Ctepressor Aree todweste Ptep toom 81

$*2 8*3 0.4 0.7 115.

eBCCW Discharge Monitor P 12 1800, tps 84 9.9 I todweste Control toom tec)weste Conveyor Afste tedweste Store and Ship B$

96 87 9.8 8.9 OSM TIP Vetve Room 88 OSM I Personnet Air Lock teactor Oper Floor Area Reactor twip Drain f ank 8 10 89 C1 0$N 05N CSN Cleanup $ystem Ptap Area I C2 35.

Fuel Pool filters (OtW)

(mergency Condenser Area C3 0$N

$hutdown Nest tachanger C4 0$N C$ 0$N Spent Fuel Pool Aree I Liquid Poison System Area Control tod Drive Module Air Ejectors Area C*6 C7 C8 0$N 05N 36.

f uel Pool ((ow Range) C9 CSN I fuel Pool (High tange) C 10 2.785 RAGEMS HIGH-RANGE MONITOR:

3.6E-09 Amps OSH cps I RACEMS LOW RANGE MONITORS:

CHRRM NUMBER 1:

84. R/hr

82. R/hr 1. mR/hr CHRRM NUMBER 2:

I OFFGAS AIR EJECTOR MONITOR:

MAIN STEAM LINE MONITOR:

1. units I

I I

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

OCNGS SC'ENARIO 2 5 ANNUAL EXERCISE REV NO O l

l TABLE A-1.4v (T

Radiation Monitoring System Dato_____ ...____________......_.__..______=___ 06:00) ( )

NOTE: 'OSH' = Offscale High AREA PROCE$$

RADIAfl0N MOWif0R$ CCCE ad/b r RADIAf!ON MON!!DC3 CODE mR/hr Actnin Bldg Entry furb Blog A 1 30. Contatrvnent $ptcy HX A Ef f P 1 0$N i Access to Control Rocn A2 70. Containment $ pray NW B [f f P 2 CSM l Reactor Control Room A3 2(' . Contalinent $ prey MX C Ef f P 3 0$N N I furbine Oper Floor intry A6 6.8 Contalinent $ prey HX 0 Ef f P 4 0$H l Lndry & Decon Ares (Chem to A 5 C. Vent penifold Red Man Ch 1 P 5 0$M furb Lube 0ll Equip Area A6 40. Vent Manifold Red Moi Ch 2 P 6 0$N Feed Pmp Area A7 60. Cond vent 1 Red Mon ch 1 P7 0$N Condensate Pm p Area 48 60. Cond Vent 1 Red Mon '. 2 P8 0$H Cond Domin valve Area A9 4.1 Cond bent 2 Red Mea Ch i P9 0$N Regeneratio-) Area A 10 10. Cond Vent 2 Red ',on Ch 2 P 10 0$M g Makeup Demin Ales 31 0.3 Service Water Dischree Mm P 11 1200. cps Air Conpressor Aree B2 0.6 RBCCW Discharge Monitor P 12 1350. cps Redweste Pup Rwa 03 110. l Redweste Control Room B4 9.9 5 Redwest* Conveyor Alele B* 11.

Redweste Store end Ship df 6.b flP Velve Room BT 0$6 -

Personnel Air Lock B8 056 Reactor Oper floor .ree B9 0$6 Reactor Equip Drain fenk B 10 0$6 Cleen@ System vung Area C1 0$b het Pool Filters (ORW) C2 osh Emergercy Condenser Area C3 0$p Shutdown Heat Enchanger C4 0$M Spent Fuel Pool Area C-5 OSM Liquid Poison System Area C6 0$W Control Rod Drive Module C7 0$N Air Ejectors Area C8 22.

Fuel Pool (Low Range) C9 05)

Fuel Pool (Migh Range) C+10 2.6El RAGEMS HIGH-RANG 1: MONITOR: 3.6E-09 Amps RAGEMS LOW RANGE MONITORS: OSH cps CHRRM NUMBER 1: 81. R/hr 3 CHRRM NUMBER 2: 79. R/hr g OFFGAS AIR EJECTOR MONITOR: 1. mR/hr MAIN STEAM LINE MONITOR: 1. units I

E a

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

I SCENARIO 25 REV NO O OCNGS ANNUAL EXERCISE I TABLE A-1.4W (T = 06:30) ( )

Radiation Monitoring System .. Data.

I NOTE: 'OSH' = Offscale High I AREA RADIAtl0N MON 110t$

CODE int /hr PROCESS RADIA110N MON 110t$

CODE r#/hr 05N 25, Conteitenent sprey Na A f f f P 1 Actein Bldg (ntry forb Bide A 1 Conteitenent spray NE 8 Ef f P 2 05N Access to Control foom A2 40.

0$N A3 15. Conteltrent sprey Na C Ef f P 3 neettor Control totwo Containment $ prey Nu D Eff P 6 05N furbine Oper floor Entry A6 6.7 I Lndry & Decon Ares (Chem to A 5 Turb Lube Oil Eq.afp Area A6 A7 0.

30.

60.

Vent Montfold Red Mon th 1 P-5 Vent Manifold tad Mon Ch 2 P 6 Cond Vent i Red Mon Ch i P7 OsN 0$N 0$N f eed Puy Area 0$N 50, Cond vent i tod Mon Ch 2 P8 I Corv$ensate Puy Area Cond Domin vetve Area tegeneretfon Area A8 A9 A 10 4.0 10, 0.2 Crn*f vent 2 Red Mon Ch 1 P9 Cond vent 2 Red Mon Ch 2 P 10 service watcr Dischree Mco P 11 OsN 05N 900. cps Makeup Domin Aree E1 P 12 1002. cpe I Air Cor$ressor Ares todweste Pump toom Redweste Control toen 02 83 84 0.5 100.

3.6 tsCCW Discherse Monitor Redweste Conveyor Aiste t5 5.6 I Redweste Store and s'ailp 11P Velve Room Personnel Air Lock t6

$*7 B8 1.0 OSN 0$N B9 0$N I Reactor Oper floor Aree teetter Egalp Drain Tank s 10 Cleanup lystem Pug Aree C1 C2 OSN O!N 35.

f uel Pool Filters tf T..

I C3 0$N Emergency Condewer A ee C+4 CSN Shutdown Nett erd.M C C-5 05N Spent Fuel Pool Area 0$N Liquid Poison System Area C6 I Control Rod Drive McMe C7 Air Electors Area Fuel Pool (Low Range)

C8 C9 0$N 50.

05N Fuel Pool (Nigh Range) C 10 2.5E5 3.4E-09 Amps RAGEMS HIGH-RANGE MONITOR: OSH cps RAGEMS LOW RANGE MONITORS:

CHRRM NUMBER 1: 72. R/hr CHRRM NUMBER 2: 74. R/hr OFFGAS AIR EJECTCR MONITOR:

1. mR/hr

1. units t

I I MAIN STEAM LINE MONITOR:

!I l

l i

I SCENARIO 25 OCNGS REV NO O ANNUAL EXERCISE TABLE A-1.4w Radiation Monitoring System Data (T = 07:00) ( )

---

...........--------------------------------------- 'OSH' = Offocale High NOTE:

AREA Pt0Ctl$

CODE nd/hr RADI Afl0N McNitoR$ C00t e* /i kADI Atl0M MOW 110R$

Artnin Oldg Entry furb Bldg A 1 20. Conteltrent $ prey HK A Ef f r

• 0$W A2 60. Contetrywnt $ prey HK 8 f f f s C4H Access to control Room 3 A3 12. Contetrvwnt $ prey ux C (f f P 3 0$N teactor Control Room Turbine Oper floor Entry A6 6.7 Contattrent $ prey MK D E f f P 6 OSH

0. Vent Montfold Red Mon th 1 P 5 0$N Lndry & Decon Ares (Chee la A 5 vent Manif old and won th 2 P 6 0$N Turb tube Oil teatp Aree A6 25.

A7 50. Cond vent 1 Red Mon CP 1 P7 0$N Feed P g Area

50. Cond Vent i ted Mon Ch 2 P8 0$N Condensate Ptse Area A8 A9 4.0 Cond Vent 2 Red Mon Ch i P9 0$n Cond Domin Velve Area A 10 'O. Cond Vent 2 Red Mon Ch

• P 10 0$N tegeneration Area 81 0.2 Service Water DIschree Mon P 11 810 cps Makete Domin Aree 930. cps Air Conpressor Area B2 0.5 8BCCW Discharge Monitor P 12 Redweste Pug Room e3 100, tedneste Control Room B4 3.1 Redweste conveyor Alste 54 5.1 Redweste Store end Ship t6 0.6 ftP Velve Room 87 OSM m

Personnel Air Lock BB 0$N Reactor Oper floor Area 89 0$H Reactor Equip Drein tank 8 10 0$M Cleanup $yetee Pury Area C1 0$N fuel Pool filters toew) C2 35.

Energency Condenser Area C-3 0$H 3

$hutdo.sn Heat Exchanger C6 0$N Spent f uel Pool Area C5 0$N g Liquid Poison System Area C6 0$N Control Rod Drive Module C7 0$N Air Electors Aree C8 40.

fuel Pool (Low Range) C9 0$H fuel Pool (High Range) C 10 2.4E5 RAGEMS HIGH-RANGE MONITOR: 3.3E-09 Amps E OSH cps E RAGEMS LOW RANGE MONITORS:

CHRRM NUMBER 1: 68. R/hr CHRF.M NUMBER 2: 69. R/hr OFFGAS AIR EJECTOR MONITOR: 1. mR/hr MAIN STEAM LINE MONITOR: 1. units I

a

M b

5 * * ~ SCENARIO 25 REV NO O rr g Al'"MS APE PRroE!1TLY ACTIVE * *

• pg pg -

g .

• c H $' [1,313J TT1:

$g! ,

f i ~*

' 2 -O C" ^

• 00:00 (15:30) g( .> J .

- .v;4Md I -- --

5 MINUTE VALUES-----------RAGEMS II----------

ND / ' ow Rate v.:0D0 SCFM Sample Gas Pressure 0.64 ATM

@M ?.[

V -

Oloccy 782. FPM P.R.VntDct Flow Rate 43143 SCFM r O.? y " '

J \ 'a Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM

..A,

..> as Temp 73. Dc9 F P.R.Sars e Flow Rata 1.323 SCFM Smr s .i ow Rate 1.2ic 2CFM P.R. Sample Velocity 2021. FPM r b-Gaa 'el t city S35. FPM P.R. Isok. Vel. PTtio 1.02

.- soK aecic /e1. Ratio i

0.94 OpF1 VntDct ~ -. ate 34748 SCFM JRM nkSrce Current 0.3099E-10 Amps LbAr.VntDct c4owRate 9385. SCFM g iC

• P BC).Grnd Currcnt 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM g  % ! 3.C. Rad. conc * .00646 ** OF/LA Smpl FlowRate 1.398 SCFM OF/IJ. Sampi Velocity 1841. FPM

. ,. Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

Stk Ied. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current 0.57440-10 Amps

_________ ____.___________...--------- HRM Bkgrnd Current 0,2060E-1.' Amps I SYS2 LRM Backgrnd Cov-*

SYS2 LRM ChekSrce Cc.

OpFl/LA P/I !? ample Flow 0.669E+04 SCF

24. CPM 142. CPM LRM F.adiation Count -1. CFM 24Hr PumpRm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Flow 0.135E&O8 SCF Fump R!a P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF

(**iEquivalent uCi/cc Xe 133) (*=Preasure Corrected)

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OCNGS SCLNARIO 25 ANNUAL EXERCISE REV NO O

• • • NO ALARMS APS PRESENTLY ACTIVE **?

LOGIN USER NES [1,113) TT1:

RAGEMS REPORT: 22-OCT-91 03:00 (18:30)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Pate 150000 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFN Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Tamp 73. D_J F P.R. Sample flow Rate 1.323 SCFM Srple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Stuple Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 Isokinetic Vel. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.30;, -10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Current 0.276t.-12 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc * .00646 ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas F.7w 0.236Et09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlo. 0.684E+04 SCF HRM I.C. Rad. Conc.* O.00646 ** g Stk Iod. Sample GasFlow 0.682E+04 SCF

---

HRM ChkSrce Current 0.5744E-10 HRM Bkgrnd Current 0.2060E-12 Amps Amps E SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChetSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SC OpFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SC~

Pump Rm P/I Sami- ~ t Flou 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+0F SCF

(**=Equivslent u ,1/cc Xe 133) (*= Pressure Corrected)

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I O I > * *

• NO ALARMS ARE PRESENTLY ACTIVE * *

• LOGIN USER NES (1,113) TT1:

RAGEMS REPORT: 22-OCT-91 03:05 (18:35)

I ---------RAGEMS I ---------

Stack Gas Flow hate 5 MINUTE VALUES-----------RAGLMS II----------

137500 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM I Stk Sample Gas Pres Stk Sample Ga.- Temp Smple Gas Flow Rate 0.91 ATM

73. Dog F 1.222 SCFM P.R.VntDct Velocity P.R. Sample Flow Rate P.R. Sample Velocity 2071. PPM 1.323 SCFM 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 Isokinetic Vel, Ratio 0.94 OpF1 V tDct FlowPate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BekGrnd current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM I HRM I.C. Rad.Conci .00646 24-liour Stack Gas Flow 0.23GE+00 SCF

• • OF/LA Smpl FlowRate OF/LA Sampl Velocity OF/ LA Isok. Vel . Ratio 1.398 "CFM 1841. FEM 1.01 i

Stk Part Sample CasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.*

I Stk Iod. Sample GasFlow 0.682E+04 SCF SYS2 LRM Backornd Count 0.00646 **

HRM ChkSrce Current 0.6744E-10 Amps HRM Bkgrnd Current 0.2060E-12 Amps

24. CPM mrN Radiation Count -1. CFM I SYS2 LRM ChekSrce Count OpF1/LA P/I Sample Flow 0.669E+04 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 142. CPM 2411r PumpRm VntDct Flow 0.623E+08 SCF 2411r LbAr VentDuct Flow 0.)'55E+08 SCF 2411r SpF1 VentDuct Flow 0.498E+08 SCF l

(0*= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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I

OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRESENTLY ACTIVE ***

LOGI'1 USER NES '- [1,113) TT1:

RAGEMS REPORT: 22-OCT-91 05:15 (20:45) g

---

RAGEMS I --------- 5 MINUTE VALUEF-----------RAGEMS II---------- g Stack Gas Flow Rate 137513 SCFM Sample Ga3 Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73. Deg F P.R. Sample Flow Rate 1.323 SCFM Smple Gas Flow Rate 1.222 6CFM P.R. Sample Velocity 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok.Ve). Ratio 1.02 Isokinetic Ve]. Ratio 0.94 OpF1 VntDct FlowPate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM MRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• 9.36 ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1b41. FPM 24-Hour Stack Gas Flow 0.236C+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 ** g Stk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current 0.57C h10 imps 3

---

HRM Bkgrnd Current 0. 2 0( 'r \mps SYS2 LRM Backt3rnd Count 24. CPh LRM Radiation Count . CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.023E ;8 SC OpFl/IJ. P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SC Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF (O*= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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I OCNGS SCENALIO 25 ANNUAL EXERCISE REV F.O O I > * *

• NO ALARMS ARE PRESENTLY ACTIVE * *

• LOGIN USER FES (1,113) TT1:

RAGEMS REPORT: 22-OCT-91 05:20 (20:50)

I ---------RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate Otack Gas Velocity 137599 SCFM

32. FPM Sample Gas Pressure P.R.VntDct Flow Rate 0.64 ATM 43143 SCFM I Stk Sample Gas Pres Stk Sample Gas Temp Smple Gas Flow Rate 0.91 ATM

73. Deg F 1.222 SCFM P.R.VntDct Velocity P.R. Sample Flow Rate P.R. Semple "elocity 2071. FPM 1.323 SCFM 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok.Vol. Ratio 1.02 I Isokinetic Vel. Ratio HRM ChkSrce Current 0.3099E-10 Amps HRM BckGrnd Current 0.2060E-12 Amps 0.94 OpF1 VntDct FlowRate LbAr.VntDct FlowRate OF/LA Stack Velocity 34748 SCFM 9385. SCFM 1857. FPM I HRM I.C. Rad. Conc

• 24-Hour Stack Gas Flow 0.236E+09 SCF 9.28 ** OF/LA Smpl FlowRate OF/LA Sampl Velocity OF/LA Isok. Vel. Ratio 1,398 SCFM 1841. FPM 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

Stk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Curr -t 0.57t.4~E-10 Amps

---

HRM Bkgrnd Currt 0.2060E-12 Amps SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Co .t -1. CFM I SYS2 LRM ChekSrce Count OpFl/LA P/I Sample Flow 0.669E+04 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Flow 0.135E+r8 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF

(**= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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OCNGS SOENARIO 25 I

ANNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRESENTLY ACTIVE ***

I,0 GIN USER NES [1,113] TT1: -

RnGEMS REPORT: 22-OCT-91 05:25 (20:55)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II---------- E g Stack Gas Flow Rate 137400 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM N Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73. Deg i P.R. Sample Flow Rate 1.323 SCFM Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Sample Gaa Velocity 835. FFM P.R. Isok. Vel. Ratio 1.02 Isokinetic Vol. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• 9.17 ** OF/LA Smpl FlowRate

---

1.398 SCFM l OF/LA Sampl Velocity 1841. FPM E 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 ** g Stk Iod. Sample GasFlow 0.682E+04 SCF

---

HRM HRM Bkgrnd Current 0.2060E-12 Amps ChkSrce Current 0.5744E-10 Amps g SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM s SYS2 LRM ChekSrca Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SC$

OpFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCM Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0. 98E+08 SCF

(**= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

I i I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O

.I > '*

• NO ALARMS ARE PRESENTLY ACTIVE * *

• LOGIN USER NES [),113] TT1:

RAGEMS REPORT: 22-OCT-91 05:30 (21:00)

I ---------RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

S tack Gas Flow Rate Stack Gas Velocity 137491 SCFM 782. FPM Sample Gas Pressure 0.64 ATM l

P.R.VntDct Flow Rate 43143 SCFM I I Stk Sample Cas Pres S- Sample Gas Temp Smple Gas Flow Rate 0.91 ATM

73. Dog F 1.222 SCFM P.R.VntDct Velocity P.R. Sample Flow Rate P.R. Sample Velocity 2071. FPM 1.323 SCFM 2021. FPM l

Sampla Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 Isokinetic Vel. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.'vntDct FlowRate 9385. SCFM HPM BckGrnd Current 0.2060E-12 Amps '

OF/LA Stack Velocity 1837. FPM I HRM I.C. Rad. Conc

• 24-Hour Ctack Gas Flow 0.236E+09 SCF 9.11 ** OF/IJ Smpl FlowRate OF/Ln Sampl Velocity OF/LA Isok. Vel. Ratio 1.398 SCFM 1841. FPM 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad.Crnt

• 0.00646 **

I Stk Iod. St.mple GasFlow 0.682E+04 SCF SYS2 LRM Backgrnd Count 24. CPM HRM ChkSrce C u re it 0. 5744 E-10 Amps HRH Bkgrnd Curruat 0.2060E-12 Amps LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count I OpFl/LA P/I Sample Flow 0.669E+04 SCF Pump Rm P/I Sanple Flow 0.739E+04 SCF 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF (o*= Equivalent uCi/cc Xe 132) (*= Pressure Corrected)

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV No o

• • • NO ALARMS ARE PRESENTLY ACTIVF ***

LOGIN USER NES [1,113] TT1:

RAGEMS REPORT: 22-OCT-91 05:35 (21:05)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

.itack Gas Flow Rate 137595 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73. Dog F P.R. Sample Flow Rate 1.323 SCFM Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 E Isokinetic Vel. Ratio 0.94 OpF1 VntDct FloWRate 34748 SCFM E HRM ChkSrce Current 0.3099E-10 Amos LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Curre.nt 0.2060E-12 Aros OF/LA Stack Velocity 1857. FPM HRM I.C. Rad.Conca 9.04 ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841 FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 ** g Jtk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current 0.5744E-10 Amps E

---

----------------------------- HRM Bkgrnd Current 0.2060E-12 Amps SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SC$

OpFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct F2aw 0.135E+08 SCE Pump Rm P/I Sample Flow 0.;39E+04 SCF 24Hr Opfl VentDuct Flow 0.498E+08 SCF

(**= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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l I OCNCS SCENARIO 25 ANNUAL EXERCISE REV NO O I > * *

• NO ALARMS ARE PRESENTLY ACTIVE * *

• LOGIN USER NES (1,113) TT1:

RACEMS REPORT: 22-OCT-91 05:40 (12110)

I ---------RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate Stack Gas Velocity 137417 SCFM 782. FPM Sample Gas Pressure P.R.VntDct Flow Rate 0.64 ATM 43143 SCFM I Stk Sample Gas Pres Stk Sample Gas' Temp Smple Gas Flow Rate 0.91 ATM

73. Deg F 1.222 SCFM P.R.VntDct Yelocity P.R.Samole Flow Rate P.R.Suuiple Velocity 2071. FPM 1.323 SCFM 2021. FPM Sample Gas Velocity 835. FPM P.P. Isok. Vel. Ratio 1.02 I Isokinetic Vel. Ratio HRM ChkSrce Current 0.3099F-10 Amps HRM BckGrnd Current i 2060E-12 Amps 0.94 OpFJ VntDct FlowRate LbA..VntDct FlovRate OF/LA Stack Velocity 34748 SCFF 9385. SCFM 1857. FPM HRM I.C. Rad. Conc * **

I -------------------------------------

24-Hour Stack Gas Flow 0.236E+09 SCF 8.92 OF/LA Smpl FlowRate OF/LA Sampl Velocity OF/LA Isok. Vel. Ratio 1.398 SCFM 1841. FPM 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

I Stk Iod. Sample GasFlow 0.682E+04 SCF SYS2 LRM Backgrnd Count 24. CPM HRM ChkSrce Current 0.5744E-10 Amps HRM Bkgrnd Current 0.2360E-12 Amps LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count I OpFl/LA P/I Sample Flow 0.669E+04 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF

(**= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRESENTLY ACTIVE * *

• LOGIN USER NES [1,113) TT1:

RAGEMS REPORT: 22-OCT-91 05:45 (21:15)

---

RAGEMS I --------- 3 5 MINUTE VALUES-----------RAGEMS II----- ---- E Stack Gas Flow Rate 137489 SCFM Sanple Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct F?ow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73. Deg F P.R. Sample Flow Rate 1.323 SCFM Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. EPM Sample Gas Velocity 835. FPN P.R. Isok. Vel. Ratio 1.02 Isokinetic Vol. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• 8.87 ** OF/LA Snpl FlowRate

---

1.398 SCFM E OF/LA Sampl Velocity 1841. FPM E 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Jample GasFlow 0.684E+04 SCF HRH I.C. Rad. Conc.* 0.00646 ** g Stk Iod. Sample GasFlow 0.682E+04 SCF

---

HRM ChkSrce Current 0.5744E-10 Amps g HRM Bkgrnd Current 0.200 9-12 Amps SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24HrPumpRmVntDctFlow0.623E+08SCj opFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCIM Pump RIA P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.49 E+08 SCF

(**-Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O I > *** NO ALARMS ARE PRESENTLY ACTIVE ***

LOGIN USER NES [1,113) 3T1:

RAGEMS REPORT: 22-OCT-91 05:50 (21:20)

I ---------RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate 137501 SCFM Sample Gas Pressure 0.64 ATM Stack Gac Velocity 782. FPM l P.R.Vntuct Flow Rate 43143 SCFM I 3tk Sample Gas Pres Stk Sample Gas Temp Smple Gas Flow Rate 0.91 ATM

73. Deg F 1.222 SCFM P.R.VntDct Velocity P.R. Sample Flow Rate P.R. Sample Velecity 2071. FPM 1.323 SCFM 2021. FPM l Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 Isokinetic Vel. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM j HRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM I

i HRM I.C. Rad. Conc

• 8.85 ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

Stk Iod. Sample GasFlow 0.682E4 04 SCF HRM ChkSrce Current 0.5744E-10 Amps

---

HRM Bkgrnd Current 0.2060E-12 Amps SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF OpFl/LA P/I Sample Flow 0.569E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+0S SCF

(*= Pressure Corrected)

I(o*=EquivalentuC1/ccXe133)

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O

• *

• NO ALARMS ARE PRESENTLY ACTIVE * *

• l

> 3 LOGIN USER NES (1,113) TT1:

RAGEMS REPORT: 22-OCT-51 05:55 (21:25)

---

RAGEMS 1 ---- ---- 5 MINUTE VALUES-----------RAGEMS II----------

Stac). Gas Flow Rate 137491 SCFM Sample Gas Pressure 3.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73. Deg F P.R. Sample Flow Rate 1.323 SCFM Seple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Sample Gas Velocity 635. FPM P.R. Isok. Vel. Ratio 1.02 Isokinetic Vel. Ratio 0 94 OpF1 VntDct FlowRate 24748 SCFM HRM ChkSrce Current 0.3099E-10 Anps LbAr.VntDct FlowRate 3385. SCFM HRM BckGrnd Current 0.2060E .?2 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• 8.8? ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas Flo'd 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E'04 SCF HRH I.C. Rad. Conc.* 0.00646 **

Stk Iod. Sample GasFlow 0.682E+94 SCF HRM ChkSrca Current 0.5744E-10 Amps

---

HRM Bkgrnd Current 0.2060E-12 Amps SYS2 LRM Backgrnd Count 24. CFM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCg OpFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SC13 Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+0C SCF O*= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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1

I OCNCS SCENARIO 25 ANNUAL EXERCISE REV NO O I > * *

• NO ALARMS ARE FRESENTI.Y ACTIVE * *

• LOGIN USER NES [1,113] TT1:

RAGEMS REPORT: 22-CCT-91 06:00 (21:30)

I ---------RAGEMS I --------- 5 !!INUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate Stack Gas Velocity 137489 SCFM 782. FPM Sample Gas Pressure P.R.VntDct Flow Rate 0.64 ATM 43143 SCFM I Stk San.ple Gas Pres Stk Sample Gas Tamp Smple Gas Flow Race 0.91 ATM

73. Deg F 1.222 SCFM P.R.VntDct Velocity P.R. Sample Flow Rate P.R. Sample Velocity 2071. FPM 1.323 SCFM 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 I Isokinetic Vel. Ratio HRM ChkSrce Current 0.3099E-10 Amps HRM BckGrnd Current 0.2060E-12 Amps 0.94 OpF1 VntDct FlowRate LbAr.VntDct FlowRate OF/LA Stack Velocity 34748 SCFM 9285. SCFM 1857. FPM

~

HRM I.C. Rad. Conc * **

I -------------------------------------

24-Hour Stack Gas Flow 0.236E+09 SCF 8.79 OF/LA Smpl FlowRate OF/LA Sampl Velocity OF/LA Isok. Vel. Ratio 1.398 CFM 1841. FPM 1.01 Stk Fart Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

I Stk Iod. Sample GasFlow 0.682E+04 SCF SYS2 LPJ4 Backgrnd Count 24. CPM HRM ChkSrce Current 0.5744E-10 Amps HRM Bkgrnd Current LRM Radiation Count 0.2060E-12 Amps

-1. CFM I SYS2 LRM ChekSrce Count OpFl/LA P/I Sample Flow 0.669E+04 Pump Rm P/I Sample Flow 04 739E+04 142. CPM SCF SCF 24Hr PumpBm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Flow 0.135E4 08 SCF 24Hr OpF1 VentDuct Flow 0.498E+0S SCF

• • mEquivalent uCi/cc Xe 133) (*= Pressure Corrected) '

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRESENTLY ACTIVE *** l

> E LOGIN USER NES [1,113) TT1:

RAGEMS REPORT: 22-OCT-91 06:05 (21:35)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate 137449 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 41143 SCFM Stk Sample Gas Pres 0.91 ATM P. R.Vret Velocity 2071. FPM g Stk Sample Gas Temp 73. Deg F P . R. S. e Flow Rate 1.323 SCFM E Smple Gas Flow Rate 1.222 SCFM P. R. Sa, e Velocity 2021. FPM Sample Gas Velocity 835. FPM P.R. Isox. Vel. Ratio 1.02 Isokinetic Vol. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Curre..it 0. 3 0"E-10 Araps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Current 0.20bOE-12 Amps OF/LA Stack Velocity 185'. FPM HRM I.C. Rad. Conc

• 8.72 ** OF/LA Smpl FlowRate 1.398 SCFM OF/Il 3ampi Velocity 1841. FPM

24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C.had. Conc.* 0.00646 **

Stk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current 0.5744E-10 Amps HRM Bkurnd Current 0.2060E-12 Amos SYS2 LRM Dackgrnd Count 24. CPM LRM Radiation Count -1. CF'M SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCIg OpFl/LA P/I Samp]e Flow 0.669E4 04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCl3 Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF

• • = Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O I > * *

• NO ALARMS ARE PRESENTLY ACTIVE **

• LOGIN USER NES [1,113) TT1:

RAGEMS REPORT: 22-OCT-91 06:10 (21:40)

---

RAG EMS I --------- 5 MI N UT E VALU ES -----------RAG EM S I I ----------

Stack Gas Flow Rate 137523 SCFM Sample Gas Pressure 0.64 ATM Stack Gas velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM I Stk Sample Gas Pres Stk Sample G-Smple Gas Fla Rate Temp 0.91 ATM

73. Deg F 1.222 SCFM P.R.VntDat Velocity P.R. Sample Flow Rate P.R. Sample Velocity 2071.

1.323 2021.

FPM SCFM FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 I Isokinetic Vol. Ratio HRM ChkSrce Current 0.3099E-10 Amps HRM BckGrnd Current 0.2060E-12 Amps 0.94 OpF1 VntDct FlowRate LbA: "ntDct FlowRate 34748 SCFM 9385. SCFM OF/L, Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• I 3.68 ** OF/LA Smpi FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

I Stk Iod. Sample GasFlow U.682E+04 SCF SYS2 LRM Backgrnd Count 24. CPM HRM ChkSrce Current 0.5744E-10 Amps HRM Bkgrnd Current 0.2060E-12 Amps LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count I OpFl/LA P/I Sample Flow 0.669E+04 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF 24Hr OpF1 VentDuct Flow 0.498E+0J SCF

-*= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O I

• • • NO ALARMS ARE PRESENTLY ACTIVE ***

LOGIN UFER NES [1,113] TTI:

RAGEMS REPORT: 22-OCT-91 06:15 (21:45) g

---

RAGEMS I --------- 5 MINIJTE VALUES-----------RAGEMS I l - - - -- - - - - - g Stack Gas Flow Rate 137449 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM g Stk Sample Gas Temp 73. Dog F F.R. Sample Flow Rate 1.323 SCFM 3 Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 Isokinetic Vol. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• 8.62 ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Ftk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Cone.* 0.00646 ** g Stk Iod. Sample GasFlow 0.682E+04 SCF

---

HRM ChkSrce Current 0.5744E-10 HRM Bkgrnd Current 0.2060E-12 Amps Amps g SYS2 LRM Backgrna Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCg OpFl/LA P/I Sample Flow 0.669E+04 bCF 24Hr LbAr VentDuct Flow 0.135E+08 SCE Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF C*= Equivalent uC1/cc Xe 133) (*= Pressure Corrected)

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=

I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I

O I > *** NO ALARMS ARE PRESENTLY ACTIVE ***

LOGIN USER NES [1,113) Til:

RAGEMS REPORT: 22-OCT-91 06:20 (21:50)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate 137538 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM l I Stk Sanple Gas Pres Stk Sample Gas Temp Smple Gas Flow Rate 0.91 ATM

73. Deg F 1.222 SCFM

" R.VntDct Velocity P.R. Sample Flow Rate P.R. Sample Velocity 2071. FPM 1.323 SCFM 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 I Isokinetic Vel. Ratio HRM ChkSrce Current 0.3099E-10 Amps HRM BckGrnd Current 0.2060E-12 Amps 0.94 OpF1 VntDct FlowRate LbAr.VntDct FlowRate 34748 SCFM 9385. SCFM OF/LA Stack Velocity 1857 FPM  ;

I HRM I.C. Rad. Conc

• 8.59

---

1 OF/LA Samp1 Velocity 24-Hour Stack Gas Flow 0.236E+09 SCF

• • l OF/LA Smpl FlowRate OF/LA Isok. Vel. Ratio 1.398 SCFM 1841. FPM 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

Stk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current 0.5744E-10 Amps HRM Bkgrnd Current 0.2060E-12 Amps SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM Cheksrce Count I OpFl/LA P/I Sample Flow 0.669E+04 SCF Pump Rm P/I Sample Flow 0.739E+04 3CF 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Elow 0.135E+08 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF

• • = Equivalent uCi/cc Xe 133) (*=Prer.:ure Corrected)

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRESENTLY ACTIVE * *

• Ei N

LOGIN USER NES (1,113) TT1: ,

RAGEMS REPORT: 22-OCT-91 06:25 (21:55) l

---

RAG EMS I --------- 5 Mi tfUTE VALUES - --------- -RAG EMS I I----------

Stack Gas Flow Rate 137521 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM ll Stk Sample Gas Temp 73. Deg F P.R. Sample Flow Rate 1.323 SCFM =

Saple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 g Isokinetic Vel. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM 'g HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• 8.45 ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRH I.C. Rad. Conc.* 0.00646 **

Stk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current 0.5744E-10 Amps

---

?--------- HRM Bkgrnd Current 0.2060E-12 Amps SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flns: 0.6?3E+08SCl OpFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCN Pump Rm P/I Sample Flow 0.739E+04 SCF 24Er OpF1 VentDuct Flow 0.498E+08 SCF

• • = Equivalent uCi/cc %e 133) (*= Pressure Corrected) ,

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=

I l OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRESENTLY ACTIVE *** l

> l LOGIN USER NES (1,113) TT1:

RAGEMS P.EPORT: 22-OCT-91 06:30 (22:00)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gan Flow Rate 137466 SCFM Sanple Gas Pressure 0.64 ATM I Stack Gas Velocity Stk Sample Gas Pros Stk Cample Gas Temp 782. FPM 0.91 ATM

73. Deg F P.R.VntDct Flow Rate P.R.VntDct Velocity P.R. Sample Flow Rate 43143 SCFM 2071. FPM 1.323 SCFM Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM I Sample Gas Velocity Isokinetic Vol. Ratio HRM ChkSrce Current 0.3099E-10 Amps 835. FPM 0.94 P.R. Isok. Vel. Ratio OpF1 VntDct FlowRate 1.02 34748 SCFM LbAr.VntDct FlowRate 9385. SCFM I HRM BekGrnd Current 0.2060E-12 Amps HRM I.C. Rad. Conc

• 8.37 **

OF/LA Stack Velocity OF/LA Smpl FlowRate OF/LA Sampl Velocity 1857. FPM 1.398 SCFM 1841. FPM 34-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GanFlow 0.684E+04 SCF HRM I.C. Rad. Conc.1 0.00646 **

Stk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current O.5744E-10 Amps HRM Bkgrnd Current 0.2060E-12 Amps g SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM g SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF OpFl/LA P/I Sample Flow 0.669E+04 SCF 24H - LbAr VentDuct Flow 0.135E+08 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 24E; OpF1 VentDuct Flow 0.498E+08 SCF 00= Equivalent uCi/cc Xe 133) (= Fressure Corrected)

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O I

• • • NO ALARMS ARE PRESENTLY ACTIVE ***

LOGIN USER NES [1,113) TT1:

RAGEMS REPORT: 22-OCT-91 06:35 (22:05)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate 137595 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73. Deg F P.R. Sample Flow Rate 1.323 SCFM Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Sample Gas Velocity 835. FPM P.R. 1sok. Vel. Ratio 1.02 Isokinetic Vel. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM -

HRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM HRM I.C. Rad. Conc

• 8.25 ** OF/LA smpl FlowRate 1.398 SCFM E OF/LA Sampl Velocity 1841. FPM E 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample .3asFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 ** g Stk Iod. Sample GasFlow 0.682E+04 SCF

---

HRM Bkgrnd Current 0.2060E-12 Amps g HRM ChkSrce Current 0.5744E-10 Amps SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChokS: :e Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCIg OpFl/LA P/I Samplc Flow 0.6S9E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCE Pump Rm P/I Sample Flow D.739E+04 SCF 24Hr OpF1 VcntDuct Flow 0.498E+08 SCF

• • = Equivalent uCi/c; Xe 133) (*= Pressure Corrected)

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O j i

)

• • • NO ALARMS ARE PRESENTLY ACTIVE ***

LOGIN USER NES (1,113) TT1:

I RAGEMS REPORT: 22-OCT-91 06:40 (22:10)

_____..----RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate 137434 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.Vn+0ct Velocity 2071. FPM Stk Sample Gas Temp 73. Deg F P.R.Sarple Flow Rate 1.323 SCFM Smple Gas 'ow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM I Sample Gas Velocity Isokinetic Vel. Ratio HRM ChkSrce Current 0.3099E-10 835.

0.94 FPM Amps P.R. Isok. Vel. Ratio OpF1 VntDct FlowRate LbAr.VntDct FlowRate 1.02 34748 9385.

SCFM SCFM I HRH BckGrnd Current 0.2060E-12 HRM I.C. Rad. Conc

• 8.19 Amps OF/LA Stack Velocity OF/1A Smpl FlowRate OF/1A Sampl Velocity 1857.

1.398 1841.

FPH SCFM FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 **

Stk Iod. Sample GasFlow 0.682E+04 SCF HRM ChkSrce Current 0.5744E-10 Amps

---

HRM Bkgrnd Current 0.2060E-12 Amps I SYS2 LRM Backgrnd Count SYS2 LRM ChekSrce Count OpFl/LA P/I Sample Flow 0.669E+04 24.

142.

CPM CPM SCF LRM Radiation Count -1. CFM 24Hr PumpRm VntDct Flow 0.623E+08 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF Pump Rm P/I Sainple Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF co= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRESENTLY ACTIVE *+* l

> 5 LOGIN USER NES [1,113) TT1:

RAGEMS REPORT: 22-OCT-91 06:45 (22:15)

---

RAGENS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate 137478 SCFM Sample Gas Pressure 0.64 ATM Stack Gas Velocity 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73. Deg F P.R. Sample Flow Rate l 1.323 SCFM E Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM Sample Gas Velocity 8J5. FPM P.R. Isok. Vel. Ratio 1.02 g Isokinetic Vel. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM g HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Currenc 0.2060E-12 Amps OF/LA Stac.k Velocity 1857. FPM HRH I.C. Rad. Conc

• 8.13 ** OF/LA Smpl FlowRate 1.398 SCFM E OF/LA Sampl Velocity 1841. FPM E 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.* 0.00646 ** g Stk Iod. Sample GasFlow 0.682E+04 SCF

---

HRM ChkSrce Current 0.5744E-10 HRH Bkgrnd Current 0.2060E-12 Amps Amps g SYS2 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCIE OpFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCS Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF] VentDucc Flow 0.498E+08 SCF

• • = Equivalent uCi/cc Xe 133) (*= Pressure Corrccted)

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O I > * *

• NO ALARMS ARE PRESENTLY ACTIVE * *

• LOGIN USER NES [1,113] TT1:

RAGEMS REPORT: 2 -OCT-91 06:50 (22:20)

I ---------RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II----------

Stack Gas Flow Rate Stack Gas Velocity 137417 SCFM 782. FPM Sample Gas Pressure 0.64 ATM P.R.VntDct Flow Rate 43143 SCFM I Stk Sample Gas Pres Stk Sample Gas Temp Smple Gas Flow Rate 0.91 ATM

73. Deg F 1.222 SCFM P.R.VntDct Velocity P.R.Sasple Flow Rate P.R. Sample Velocity 2071. FPM 1.123 SCFM 2021. FPM Sample Gas Velocity 835. FPM P.R. Isok. Vel. Ratio 1.02 I Isokinetic Vel. Ratio HRN ChKSrce Current 0.3099E-10 Ampo llRM BckGrnd Current 0.2060E-12 Amps 0.94 OpF1 VntDct FlowRate LbAr.VntDct FlowRate 34748 SCFM 9385. SCFM ,

OF/LA Stack Velocity 1857. FPM i

- HRM I.C. Rad. Conc

• 8.10 ** OF/LA Smpl FlowRate 1.398 SCFM OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA 1sok. Vel. Ratio 1.01 Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. Conc.*

I Stk Iod. Sample GasFlow 0.682E+04 SCF SYS2 LRM Backgrnd Count HRM Bkgrnd Current 0.00646 **

HRM ChkSrce Current 0.5744E-10 Amps 0.2060E-12 Amps

24. CPM LRM Radiation Count -1. CFM SYS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF OpFl/LA P/I Sample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow L.498E+08 SCF

'= Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O

• • • FO ALARMS ARE PRESENTLY ACTIVE *** Ii LOGIN USER NES (1,113) TT1: g RAGEMS REPORT: 22-OCT-91 06:55 (22:25)

---

RAGEMS I --------- 5 MINUTE VALUES-----------RAGEMS II---------- E Stac} 3as Flow Rate 137489 SCFM Sample Gas Pressure 0.64 ATM Stact. Gas Veloc'ty 782. FPM P.R.VntDct Flow Rate 43143 SCFM Stk Sample Gas Pres 0.91 ATM P.R.VntDct Velocity 2071. FPM Stk Sample Gas Temp 73, tog F P.R. Sample Flow Rate 1.323 SCFM Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM g Sample Gas Velocity 835. FPM P.R. Isok.Vol. Ratio 1.02 g Isokinetic Vel. Ratio 0.94 OpF1 VntDct FlowRate 34748 SCFM HRM ChkSrce Current 0.3099E-10 Amps LbAr.VntDct FlowRate 9385. SCFM HRM BckGrnd Current 0.2060E-12 Amps OF/LA Stack Velocity 1857. FPM l HRM I.C.Had. Conc

• 8.08 ** OF/LA Smpl FlowRate 1.398 SCFM N OF/LA Sampl Velocity 1841. FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok.Vul. Ratio 1.01 g Stk Part Sample GasFlow 0.684E+04 SCF HRM I.C. Rad. conc.* 0.00646 ** g Stk Iod. Sample GasPlow 0.682E+04 SCF HRM ChkSrce Current 0.5744E-10 Amps

---

HRM Bkgrnd Current 0.2060E-12 Amps SY32 LRM Backgrnd Count 24. CPM LRM Radiation Count -1. CFM SYS2 LRM Ch?kSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SC OpF1/LA P/I Gample Flow 0.669E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF Pump Rm P/I fample Flow 0.739E+04 SCP 24Hr OpF1 VentDuct Flow 0.498E408 SC

• • =Equivalert uCi/cc Xe 133) (*= Pressure Corrected)

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OCNGS SCENARIO 25 9NNUAL EXERCISE REV NO O

• • • NO ALARMS ARE PRZSENTLY ACTIVE ***

LOGIN USER NES [1,113) TT1:

I RAGEMS RFPORT: 22-OCT-91 Stack Gas Flow Rate 07:00 (22:30)

---

RACEMS I --------- 5 MINU1E VALUES-----------RAGEMS II----------

137501 SCFM Sample Gas Pressure 3.64 ATM I Stack Gas Velocity Stk Sample Gas Pres Stk Sample Gas Temp 782. FPM 0.91 ATM

73. Deg F P.R.VntDct Flow Rate P.R.VntDct. Velocity P.R. Sample Flow Rate 43143 SCFM 2071. FPM 1.323 SCFM Smple Gas Flow Rate 1.222 SCFM P.R. Sample Velocity 2021. FPM I Sample Gas Velocity Isokinetic Vel. Ratio HRM ChkSrce Curr ent 0.3099E-10 Amps 835. FPM 0.94 P.R. Isok. Vel. Ratic OpF1 VntDct FlowRate LbAr.VntDct FlowRate 1.02 34748 SCFM 9385. SCFM

~

HRM BckGrnd Current 0.2060E-12 Amps I HRM I.C. Rad. Conc

• 8.07 **

OF/LA St'.ck Velocity OF/LA Smpl FlowRate OF/LA Sampl Velocity 1857. FPM 1.398 SCFM 1841. FPM 24-Hour Stack Gas Flow 0.236E+09 SCF OF/LA Isok. Vel. Ratio 1.01 I Stk Part Sample GasFlow 0.684E+04 SCF Stk Iod. Sample GasFlow 0.632E404 SCF HRM I.C. Rad. Conc.* 0.00646 **

HRM ChkSrce Current 0.5744E-10 Amps HRM Bkgrnd Current 0.2060E-12 Amps

?4. CPM LRM Radiation Count -1. CFM IbfS2LRMBackgrndCount JIS2 LRM ChekSrce Count 142. CPM 24Hr PumpRm VntDct Flow 0.623E+08 SCF OpFl/LA P/I Sample Flow 0.660E+04 SCF 24Hr LbAr VentDuct Flow 0.135E+08 SCF Pump Rm P/I Sample Flow 0.739E+04 SCF 24Hr OpF1 VentDuct Flow 0.498E+08 SCF oe' Equivalent uCi/cc Xe 133) (*= Pressure Corrected)

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O ,

TABLE A-2.la METEOROLOGIC DATA (T = 00:00) ( )

Wind Speed 380 ft.: 4.3 mph I Uind Direction 380 ft.:

Delta Temp 380-33':

Wind Speed 33 ft.:

201

-3.40 3.0 degrees F deg mph Wind Direction 33 ft.: 198 degrees I Delta Temp 150 33':

AmbiE'nt T'mperature:

Precipitatiori (rain):

-1.00 84.5

.00 F deg dog F inch I -

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-2.lb METEOROLOGIC DATA (T = 00:15) ( )

Wind Speed 380 ft.: 4.3 mph Wind Direccirn 380 ft.: 201 degrees Delta Temp 380-33': -3.40 F deg Wind Speed 33 ft.: 3.0 mph Wind Direction 33 ft.: ~198 degrees Delta Temp 150-33': <-1.00 F deg Ambient Temperature: 84.5 deg F Precipitation (rain): .00 inch I

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I OCNGS ANNUAL EXERCISE SCENARIO 25 REV 110 0 TABLE A-2.lc METEOROLOGIC DATA (I = 00:30) ( )

I I Wind Speed 380 ft.:

Wind Direction 380 ft.:

Delta Temp 380-33':

3.8 204

-3.50 mph degrees F deg Wind Speed 33 ft.: 3.5 mph I Wind Direction 33 ft.:

Delta Temp 150-33':

Ambient Temperature:

197

.90 84.3 degrees F deg deg F Precipitation (rain): .00 inch I

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OCNGS SCENARIO 25 ANNUAL EXEPOISE REV NO O "

TABLE A-2.1d METEOROLOG1C DATA (T = 00:45) ( )

Wind Speed 380 ft.: 4.5 mph Wind Direction 380 ft.: 210 degrees Delta Temp 380-33': -3.20 F deg Wind Speed 33 ft.: 3.2 mph Wi!.d Direction 33 ft.: 200 degrees Celta Tenp 150-33': -1.10 F deg '

Ambient Temperature: 84.0 deg F Precipitation (rain): .00 inch I

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I. OCNGS ANNUAL EXERCISE SCE!1ARIO 25 REV !!O O TABLE A-2.le METEOROLOGIC DATA (T = 01:00) ( )

I ___ _______________ ___________

I Wind Speed 380 ft.:

Wind Direction 380 ft.:

Delta Temp 380-33': -3.30 F deg 4.0 mph 208 degrees Wind Speed 33 ft.: 3.8 mph I Wind Direction 33 ft.:

Delta Temp 150-33':

Ambient Temperature:

-1.00 F dog 84.5 deg F 200 degrees precipitation (rain): .00 inch I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-2.lf METEOROLOGIC DATA (T = 01:15) ( )

Wind Speed 380 ft.: 13.5 rph Wind Direction 380 ft.: 220 degrees Delta Temp 380-33': -4.10 F deg Wind Speed 33 ft.: 9.8 mph a Wind Direction 33 ft.: 208 degrees Delta Temp 150-33': -1.60 F deg E Artient Temperature: 85.3 deg F Precipitation (rain): .00 inch I

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I OCNGS ANNUAL EXERCISE SCENARIO 25 REV NO O TABLE A-2.lg METEOROLOGIC DATA (T = 01:30) ( )

I _________. ____.-_...____________.._____ .

Wind Speed 380 ft.: 14.8 mph Wind Direction 380 ft.: 270 degrees i Delta Temp 380-33': -3.80 F deg l Wind Speed 33 ft.: 8.4 mph I

l Wind Direction 33 ft.: 247 degrees Delta Temp 150-33': -1.50 F dog Ambient Temperature: 77.1 dog F Precipitation (rain): .25 inch I

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OCl!GS SCENARIO 25 -

ANNUAL EXERCISE REV NO O TABLE A-2.1h METEOROLOGIC DATA (T = 01:45) ( )

Wind Speed 380 ft.: 7.3 mph Wind Direction 380 ft.: 290 degrees Delta Temp 380-33': -2.70 F deg Wind Speed 33 ft.: 4.2 mph B Wind Direction 33 ft.:

Delta Temp 150-33':

281 degrees

-1.10 F deg g'

Ambient Temperature: 76.9 deg F Precipitation (rain): .35 inch I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-2.11 METEOROLOGIC DATA (T = 02:00) ( )

I Wind Speed 380 ft.:

Wind Direction 380 ft.: 315 Delta Temp 380-33': -1.60 8.2 mph degrees F deg Wind Speed 33 ft.: 4.5 mph I Wind Direction 33 ft.:

Delta Temp 150-33':

Ambient Temperature: 76.4

?96

.90 degrees F deg deg F Precipitation (rain): .35 inch I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O METEOROLOG1C DATA TABLE A-2.1j (T = 02:15) ( )

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I Wind Speed 380 ft.: 8.5 mph l Wind Direction 380 ft.: 342 degrees 3 Delta Temp 380-33': -1.30 F deg i Wind Sraed 33 ft.: 4.5 mph '

Wind D. ection 33 ft.: 334 degrees Delta Temp 150-33': .90 F deg Ambient Temperature: 74.8 deg F Precipitation (rain): .35 inch i

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.I Wind Speed 380 ft.: 6.8 mph I. Wind Direction 380 ft.:

Delta Temp 380-33':

355

-1.20 degrees F deg Wind Speed 33 ft.: 4.2 mph l Wind Direction 33 ft.: 338 degrees '

3 Delta Temp 150-33': .80 F deg Ambient Temperature: 73.7 dog F Precipitation (rain): .35 inch I

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OCNGS SCENARIO 2G ANNUAL EXERCISE REV NO O ""

TABLE A-2.11 1 METEOROLOGIC DATA (T = 02:45) ( ) l I

Wind Speed 380 ft.:

Wind Direction 380 ft.:

7.4 mph 359 degrees li W .

Delta Temp 380-33': -1.00 F dog I Wind Speed 33 ft.: 4.1 mph Wind Direction 33 ft.: 340 degrees Delta Temp 150-33': .60 F deg Ambient Temperature: 73.6 deg F Precipitation (rain): .35 inch ,

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O '

I. METEOROLOGIC DATA TABLE A-2.1m (T = 03:00) ( )

I Wind Speed 380 ft.:

Wind Direction 380 ft.:

Delta Temp 380-33':

7.0 4

60 mph degrees F dog Wind S;.eed 33 ft.: -4.1 mph Wind Direction 33 ft.: 351 degrees Delta Temp 150-33': .50 F deg Ambient Temperature: 76.1 deg F Precipitation (rain): .35 inch I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-2.1n METEOROLOGIC DATA (T = 03:15) ( )

Wind Speed 380 ft.: 6.7 mph E Wind Direction 380 ft.: 2 degrees E Delta Temp 380-33': .10 F deg Wind Speed 33 ft.: 3.8 mph Wind Direction 33 ft.: 353 degrees Delta Temp 150-33': .20 F deg Ambient Temperature: 75.8 deg F Precipitation (rain): .35 inch I

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I OCNGS ANNUAL EXERCISE SCENARIO 25 REV NO O TABLE A-2.lo METEOROLOGIC DATA (T = 03:30) ( )

.l Wind Speed 380 ft.: 6.8 mph

-I Wind Direction 380 ft.: 8 degrees Delta Temp 380-33': .10 F deg Wind Speed 33 ft.: 4.0 mph I Wind Direr. tion 33 ft.:

Delta Temp 150-333:

Ambient Temperature:

.10 74.8 6 degrees F deg dog F Precipitation (rain): .35 inch

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Wind Speed 380 ft.: 7.0 mph Wind Direction 380 ft.: 6 degrees Delta Temp 380-33': .10 F deg Wind Speed 33 ft.: 4.4 mph E Wind Direction 33 ft.: 351 degrees Delta Temp 150-33': .20 F dog E Ambient Temperature: 73.7 deig F Precipitation (rain): .35 inch I

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I OCNGS ANNUAL EXERCISE SCENARIO 25 REV NO O TABLE A-2.1q l

I METEOROLOGIC DATA (T = 04:00) ( )

i I Wind Speed 380 ft.:

Wind Direction 380 ft.:

Delta Temp 380-33':

6.5 mph 357 degrees

.10 F deg Wind Speed 33 ft.: 3.9 mph Wind Direction 33 ft.: 1 degrees I_ Delta Temp 150-33': .10 F deg Ambient Temperature: 73.1 deg F Precipitation (rain): .35 inch I.

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O '

TABLE A-2.1r METEOROLOGIC DATA (T = 04:15) ( )

Wind Speed 380 ft.: 6.2 mph ,

Wind Direction 380 ft.: 2 degrees Delta Temp 380-33': .40 F deg Wind Speed 33 ft.: 3.6 mph Wind Direction 33 ft.: 4 degrees Delta Temp 150-33': .40 F deg Ambient Temperature: 72.6 dog F Precipitation (rain): .35 inch l

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~I ANNUAL EXERCISE REV NO O TABLE A-2.ls METEOROLOGIC DATA (T = 04:30) (_ )

I _________ __________________ _______________

Wind Speed 380 ft.: 6.4 mph

,I Wind Direction 380 ft.: O degrees Delta Temp 380-33': 1.20 F deg Wind Speed 33 ft.: 3.8 mph I Wind Direction 33 ft.:

Delta Temp 150-33':

Ambient Temperature:

358 degrees

.80 F dog 70.4 deg F I

Precipitation (rain):

.35 inch I j I

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1 OCNGS SCENAR* 'S l ANNUAL EXERCISE REV NC '

B TABLF A-2.lt METEOROLOGIC DATA (T = 04:45) ( )

t Wind Speed 380 ft.: 5.9 mph E Wind Direction 380 ft.: 5 degrees E Delta Temp 380-33': 1.60 F deg Wind Speed 33 ft.: 4.5 mph Wind Direction 33 ft.: 5 degrees

! Delta Temp 150-33': 1.00 F deg l Ambient Temperature: 68.2 deg F Precipitation (rain): .35 inch i

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I OCNGS ANNUAL EXERCISE SCENARIO 25 REV NO O TABLE A-2.lu METEOROLOG1C DATA (T = 05:00) ( )

I Wind Speed 380 ft.:

Wind Direction 380 ft.:

Delta Temp 380-33':

5.4 mph 9 degrees 2.00 F deg Wind Speed 33 ft.: 2.9 mph E Wind Direction as ft.: '10 degrees E. Delta Temp 150-33': .80 F deg Ambient Temperature: 66.9 deg F Precipitation (rain): .35 inch 3

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-2.1v METEOROLOGIC DATA (T = 05:15) ( )

Wind 'pced 380 ft.: 5.1 mph Wind Direction 380 ft.: 18 degrees Delta Temp 380-33': 2.90 F deg Wind Speed 33 ft.: 3.1 mph a Wind Direction 33 ft.:

Delta Temp 150-33':

22 degrees

.80 F deg g

Ambient Temperature: 63.4 deg F Precipitation (rain): .35 inch I

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I ____________________________________________

I Wind Speed 380 ft.:

Wind Direction 380 ft.:

Delta 'I .mp 3 8 0-3 3 ' :

5.3 23 3.10 mph degrees F deg i

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Wind Speed 33 ft.: 3.7 mph I

Wind Direction 33 ft.: 24 degrees '

Delta Temp 150-33': .60 F dog Ambient Temperature: 60.9 deg F Precipitation (rain): .35 inch 1

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L OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-2.1x METEOROLOGIC DATA (T = 05:45) ( )

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Wind Speed 3u0 ft.: 4.8 mph l

Wind Direction 380 ft.: . 20 degrees Delta Temp 380-33': 3.20 F deg Wind Speed 33 ft.: 3.2 mph Wind Direction 33 ft.: 18 degrees Delta Temp 150-33': .90 F deg Ambient Temperature: 58.2 deg F Precipitation (rain): .35 inch I

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I ____________________________________________

I Wind Speed 380 ft.:

Wind Direction 380 ft.:

Delta Temp 380-33':

5.0 mph 24 degrees 2.90 F deg Wind Speed 33 ft.: 4.1 mph I Wind Direction 33 ft.:

Delta Temp 150-33':

Ambient Temperature:

'20 degrees 1.00 F dog 57.1 dog F Precipitation (rain): .35 inch I

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OCl1GS SCE!1ARIO 25 A!GIUAL EXERCISE REV 140 o i

TABLE A-2.1::

METEOROLOGIC DATA (T = 05:15) ( )

Wind Speed 380 ft.: 4.7 mph Wind Direction 380 ft.: 18 degrees Delta Temp 380-33': 2.90 F dog Wind Speed 33 ft.: 3.5 mph Wfnd Direction 33 ft.I 21 degrees Delta Temp 150-33': 1.10 F dog Art.bient Temperature 55.8 Coq r PrecipitLtica (rain): .35 inch

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i OCNGS SCE!1ARIO 25  !

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!I AN!iUAL EXERCISE REV 110 0 l I

TABl.E A-2.laa i HETEOROLOGIC DATA (T = 06:30) ( )

l l t'.nd Speed 380 ft.: 6.2 stph  ;

W Wind Direction 380 ft.. 23 degreen Delta Temp 180-33's 3.40 F deg ,

l Wind Speed 33 ft.: 4,C. mph i Wind Direction 33 ft.: 24 degrees '

Delta Temp 150-33' 1.10 F dog i i

Ambient Temperaturet 54.8 dog F Precipitation (rain): .35 inch

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A!J11UAL EXE!!CISE 1(EV 110 0 "'

) TABLE A-2. lab METE 0110 LOGIC DATA (T = 06:45) ( )

Wind Speed 380 ft.: 5.8 mph Wind Direction 380 ft.: 29 degrees 1

Delta Temp 380-33': 3.60 T deg Wind Speed 33 ft.: 4.2 mph n l Wind Direction 33 ft.: 25 degrees g4 Delta Temp 150-33'- 1.20 F dog Ambient Temperatuet: 53.7 deg F Precipitation (rai;.): .35 inch I

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OCNGS SCENARIO 25 l ANNUAL EXERCISE pnv 90 o j l

TABLE A-2. lac I METEOR 0 LOGIC DATA (T = 07:00) ( )

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3 Delta Temp 150-33': 1.00 F dog Ambient Temperature: 53.1 deg F

Precipitation (rain)

.35 inch l

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ANfiUAL EXI:HCISE Scenar10 No. 25 OCNGS Rev. 0 I l i I i

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Section A-3 A-3.1 Heactor Water Activity j A-3.2 Torus Water Activity A-3.3 Drywell Gas Activity A-3.4 Torus Gau Activity A-3.5 Reactor Building Activity i

A-3.6 Turbine Building Activity A-3.7 RAGCMS Stack Activity A-3.8 Refuel Floor Activity

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koactor Water Activity i

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I OCNGS SCENARIO 25 I ANNUAL EXERCISE TABLE A-3.la REV NO O I REACTOR WATER ACTIVITY (T = 00:00) (

)

There is an analysis delay of up to 30 rninutes af ter sampling I Nuclide Concentration Xe-135 4.54E-04 uCi/cc I I-131 I-132 I-133 4.71E-04 uCi/cc 1.01E-03 uC1/cc 5.98E-03 uCi/cc

'~

2.33E-02 uCi/cc I I-134 I-13b Cs-137 1.40E-02 uCi/ c 1.24E-04 uCi/cc TOTAL WATER SAMPLE 4.49E-02 uCi/cc DEI 131 2.65E-03 uCi/cc I

I Normal Sample (10 ml) Dose Rate at i ft.: *

< 2. mR/hr I PASS Sample (1. ml) Dose Rate at 1 ft.:

PASS Sample ( .:1 ml) Dose Rate at 1 ft.:

< 2. mR/hr

< 2. mR/hr I

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OCNGS SCE!1ARIO 25 I

ANNUAL EXERCISE .

REV 110 0 TABLE A-3.lb REACTOR WATER ACTIVITY (T = 01:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclidt Concentration Kr-85m 2.05E-01 uC1/cc ,

Kr-87 3.59E-01 uC1/cc Kr 8 5.31E-01 uCi/cc Xe-133 1.80E+00 uCi/cc Xe133m 6.21E-02 uCi/cc Xc-135 3.17E-01 uC1/cc Xe125m 5.06E-01 uCi/cc -

Xe-138 1.32E+00 uCi/cc Br-83 Br-84 5.33E-02 uCi'ec g 8.07E-02 uC g I-131 5.31E-01 ut  ;

I-132 7.4;E-01 uCi/cc I-133 8.74E-01 uCi -

I '34 1.11E+00 uCi,.c I-;35 8.98E-01 uCi/cc Rb-88 8.56E-01 uCi/cc l Rb-89 1.08E+00 uCi/cc 5 Cs-134 1.03E-01 uCi/cc Cs-137 1.90E-01 uCi/cc g Cs-138 2.73E+00 uCi/cc g

TOTAL WATER SAMPLE 1.4aE+01 uCi/cc DEI 131 7.94E-01 uCi/cc I

Normal Sample (10 ml) Dose Rate at i ft.: < 2. mR/hr PASS Sample (1- ,1 ) Dose Rate at I ft.: < 2. mR/hr PASS Sample (.1 ml) Dose Pate at I ft.: < 2. mR/hr I

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I OCNGS SCE!1AR10 25 ANNUAL EXERCISE REV NO O TABLE A-3.lc REACTOR WATER ACTIVITY (T = 01:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 2.56E-01 uCi/cc Kr-87 4.11E-01 uCi/cc I Kr-88 Xe-133 Xc133m 6.50E-01 uCi/cc 2.33E+00 uCi/cc 8.04E-02 uC1/cc I Xc-135 Xe135m Xe-138 4.30E-01 uCi/cc 3.83E-01 uCi/cc 1.04E+00 uC1/cc Br-83 1.41E-01 uC1/cc Br-84 1.68E-01 uCi/cc I-131 1.50E400 uCi/cc I-132 1.95E+00 uC1/cc I 1-133 I-134 I-135 2.44E+00 uCi/cc 2.55E+00 uCi/cc 2.44E+00 uCi/cc Rb-88 1.50E+00 uC1/cc Rb-89 1.69E+00 uCi/cc Cn-134 2.92E-01 uCi/cc Cs-137 5.37E-01 uCi/cc TOTAL WATER SAMPLE 2.72E+01 uCi/cc DEI 131 2.23E+00 uCi/cc I

I Normal Sample (10 ml) Dose Rate at i ft.:

PASS Sample (1. ml) Dose Ratc at i ft.:

<2. mR/hr

< 2. mR/h'c I PASS Sample (.1 ml) Dose Rate at i ft.: < 2. mR/hr I

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OCl1GS SCE!1ARIO 25 I

AtiliUAL EXERCISE REV 110 0 TABLE A-3.1d REACTO1 ATER ACTIVITY (T = 02:00) ( )

There is an analysis delay of up to 30 minutes after sampling 11uclide Concentration Kr-85m 3.74E-01 uCi/cc Kr-E# 5.30E-01 uCi/cc Kr-88 9.22E-01 uCi/cc Xe-133 3.60E+00 uC1/cc Xe133m 1.23E-01 uCi/cc Xe-135 7.05E-01 uC1/cc Xe135m 3.08E-01 uCi/cc Xe-138 8.685-01 uCi/cc Br-83 2.51E-01 uCi/cc g Br-84 2.17E-01 uC1/cc 3 I-131 2.96E+00 uC1/cc 1-132 3.46E+00 uCi/cc I-133 4.78Et00 uCi/cc I-134 3.SGE+00 uCi/cc I-135 4.64E400 uC1/cc Rb-88 1.56E+00 uCi/cc Rb-89 1.54E+00 uCi/cc Cc-134 5.77E-- uCi/cc Cs-137 1.06E+00 uCi/cc g Cc-138 8.89E+00 uCi/cc g

TOTAL WATER SAMPLE 4.13E+0) uCi/cc DEI 131 4.37E+00 uCi/cc I

11ormal Sample (10 :al) Dose Rate at 1 ft.: 2.5. mR/hr

• PASS Sample (1. cl) Dose Rate at 1 ft.: < 2. mR/hr PASS Sample (.1 ml) Dose Rate at 1 ft.: < 2. mR/hr I

I I

a

=

OCl4GS SCE!4ARIO 25

ANNUAL EXERCISE REV NO O j TABLE A-3.le REACTOR WATER ACTIVITY (T = 02

30) ( )

There is an analysis delay of up to 30 minutou after sampling l Nuclido Concentration j Kr-85m 4.97E-01 uCi/cc j Kr-87 6.08E-01 uCi/cc l

i Kr-88 1.18E+00 uCi/cc Xe-133 5.11E+00 uCi/cc

! Xe133m 1.75E-01 uC1/cc  !

Xc-135 1.06E+00 uCi/cc j Xe135m 2.12E-01 uC1/cc

Xc-138 6.16E-01 uCi/cc r I Br-83 3.22E-01 uCi/cc I Br-84 1.92E-01 uCl/cc j I-131 4.27E+00 uCi/cc j I-132 4.43E+00 uCi/cc

=g I-133 6.83E+00 uCi/cc

3 I-134 4.08E+00 uCi/cc j 1-135 6.43E+00 uCi/cc jg Rb-88 1.14E+00 uCi/cc '

! g Rb-89 9.34E-01 uCi/cc j Cs-134 8.34E-01 uC1/cc

{ Cc-137 1.53E+00 uCi/cc

! Cc-138 8.43E+00 uCl/cc 1 __--____-______

TOTAL WATER SAMPLE 4.90E+01 uCi/cc DEI 131 6.27E+00 uCi/cc I 6 iI I Normal Sample (10 ml) Dose Rato at 1 ft.:

PASS Sample (1. ml) Dose Rato at 1 ft.:

2.9 mR/hr

< 2. mR/hr I PASS Sample (.1 ml) Doso Rato at 1 ft.: <2, mR/hr i

I I

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

OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O  !

'BLE A-3.1f REA* TOR WATER ACIIVITY (T = 03:00) ( ) l There is an annlysis delay of up to 30 minuten after sampling baclide Concentration Kr-85m 8.92E-01 uCi/cc Kr-87 9.33E-01 uCi/cc Kr-88 2.05E+;. uCi/cc Xc-133 9.82E+00 uCi/cc Xe133m 3.33E-01 uti/cc ve-135 2.lf 00 uCj'ec e135m 2.13E-01 uC c Xe-138 6.26E-01 uC.jec Br-83 5.89E-01 uCi/cc Br-84  ? 40E-01 uCi/cc I-131 84E400 uCi/cc I-132 6.08E+00 uCi ic I-113 1.40E+01 aC1, cc l I-134 6.11E+00 uC1/cc i 1-135 1.27E401 uC1/cc  ;

Rb-88 1.30E+00 uCi/cc <

Rb-89 8.74E-01 uCi/cc On-134 1.73E+00 uC.!cc Cs-1. 7 3.17E+00 uC1/cc g Cs-138 1.12E+01 uCi/cc 5

TOTAL WATER SAMPLE 8.60E+01 uCi/cc DEI 131 1.29E+01 uCi/cc i

Normal Sample (10 ml) Dose Rate at 1 ft.: 5.2 mR/hr PASS Sample (1. ml .1 Dose .ato at I ft.: <2 mR/hr PASS Sample (.1 ml) Dose Rate at i ft.: < 2. mR/hr I

I e

1 OCNGS SCEllARIO 2 5 ANNUAL EXERCISE REV NO O I TABLE A-3.19 REACTOR WATER ACTIVITY (T = 03:30) (

)

There is an analysis delay of up to 30 minutes after sampling Nuclide concentration Kr-85m 9.20E-01 uC1/cc Kr-87 8.25E-01 uC1/cc I Kr-88 Xe-133 Xe133m 2.03E+00 uCi/cc 1.09E+01 uCi/cc 3.67E-01 uCi/cc Xe-135 2.50E+00 uCi/cc Xe135m 1.56E-01 uC1/cc Xe-138 4.52E-01 uCi/cc Br-8') 7.49E-01 uCi/cc I Br-84 I-131 I-132 2.12E-01 uCi/cc 1.27E+01 uC1/cc 1.02E+01 uCi/cc I I-133 I-134 I-135 1.99E+01 uCi/cc 6.36E+00 uCi/cc 1.75E+01 uCi/cc Rb-88 1.15E+00 uCi/cc I Rb-89 Cs-134 Cs-137 6 65E-01 uCi/cc 2.49E+00 uCi/cc 4.57E+00 uCi/cc '

Cs-138 1.04E+01 uCi/cc TOTAL WATER SAMPLE 1.05E+02 uCi/cc DEI 131 1.85E+01 uCi/cc I

Normal Sample (10 ml) Dose Rate at 1 ft.: 6.3 mR/hr PASS Sample (1. ml) Dose Eate at 1 ft.: < 2. mR/hr PASS Sample (.1 ml) Dose Rate at i ft.: < 2. mR/hr I

I I

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oCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O TABLE A-3.1h REACTOR WATER ACTIVITY (T = 04:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.00E+00 uCi/cc Kr-87 7.78E-01 uCi/cc g Kr-88 2.13E+00 uCi/cc g Xe-133 1.26E+01 uCi/cc Xe133m 4.24E-01 uCi/cc Xe-135 3.05E+00 uCi/cc Xe135m 1.47E-01 uCi/cc Xe-138 4.15E-01 uCi/cc Br-83 B.57E-01 uCi/cc g Br-84 1.76E-01 uCi/cc g I-131 1.65E401 uci/cc I- 32 1.17E+01 uCi/cc I .33 2 SE+01 uCi/cc I-134 6. 4E+00 uCi/cc I-135 2.17E+01 uCi/cc Rb-88 1.04E+00 uC1/cc Rb-89 5.59E-01 uC1/cc Cs-134 3.22E+00 uCi/cc Cs-137 5.92E+00 uCi/cc g Cs-138 8.91E+00 uCi/cc 5 Te-132 1.35E-01 uC1/cc TOTAL WATER SAMPLE 1.23E+02 uCi/cc DEI 131 2.37E401 uCi/cc

=

I Normal Sample (40 ml) Dose Rate at i ft.:

I 7.4 mR/hr PASS Sample (1. al) Dose Rate at 1 ft.: < 2. mR/hr PASS Sample ( 1 ml) Dose Rate at 1 ft.: < 2. mR/hr I

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a l

I OC11CS SCEllARIO 25 l All!1UAL EXEMOISE REV 110 I

0 TABLE A-3.11 REACTOR WATER ACTIVITY (T = 04:30) ( )

There is an analysis delay of up to 30 minutes after sampling 11uclide Concentration Kr-85m 4.04E+02 uCi/cc Kr-87 2.69E+02 uCi/cc I Kr-88 Xe-133 8.26E+02 uC1/cc 5.50E+03 uC1/cc j

i l

Xc133m 1.84E+02 uCi/cc l I Xc-135 Xc-138 Br-83 1.40E+03 uC1/cc 1.25E+02 uCi/cc 3.14E402 uCi/cc I-131 6.900403 uC1/cc I-132 4.27E+03 uCi/cc I-133 1.05E404 uCi/cc I-134 1.80E+03 uCi/cq I I-135 Rb-98 Rb-89 8.67E403 uti/cc 2.91E+02 uCi/cc 1.37E402 uC1/cc I Co-334 Cs-137 Cs-138 1.35E+03 uCi/cc 2.49E403 uCi/cc 2.40E+03 uCi/cc Te-132 5.66E+01 uCi/cc I TOTAL WATEP SA14PLE 4.93E+04 uCi/cc )

DEI 131 9.88E+03 uCi/cc ,

I I 11ormal Sample (10 inl) Dose Rate at i ft.: 2900, mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.:

PASS Sample (.1 ml) Dose Rate at 1 ft.:

290, mR/hr

29. mR/hr I

lI -

i

'I h

OC11GS SCE!1AR10 25 I

All!1UAL EXERCISE REV 110 0 TABLE A-3.1j REACTOR WATER ACTIVITY (T = 05:00) ( )

There is an analysis delay of up tc 30 minL es after campling

!Juclido Concentration Kr-85m 1.93E+02 uC1/cc Kr-87 1.08E+02 UCi/cc Er-88 3.79E+02 uCi/cc Xe-13' 2.84E+03 u i/cc a Xe133m 9.43E401 uCi/cc

) -135 7.17E*02 uCi/cc

). -138 2.68E+01 uC1/cc Br-83 8.18E+01 uci/cc I-1: 2.06E+03 uC1/cc I-132 1.11E+03 uC1/cc I-133 3.11E+03 "Ci/cc 3-134 67E+02 1/cc I-135 2.47E+03 _i/cc Rb-88 7.65E+01 LCi/cc RD-89 2.06E401 uCi/cc Cs-134 4.0SE+02 uCi/cc 3 Cs-137 7.43E+02 uC1/cc 5 Cs-138 4.93E+02 uC1/cc To-132 1.69E+01 uCi/cc TOTAL WATER SAMPLE 3 54E+04 uCi/cc DEI 131 2.93E+03 uCi/cc

}, -

g 11ormal Sample (10 ml) Dose Rate at 1 ft.: 920. mR/hr PASS Sample (1. ml) Dose f. ate at 3 ft.: 92. mF r PASS Samp:' ( .1 ml) Dosr. Rate at 1 ft.: 9.2 mR/nr I

I I

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ei

i OC11GS SCE!1ARIO 25

AtiliUAL EXERCISE REV 110 0 l

TABLE A-3.1k REACTOR WATER ACTIVITY (T = 05:30) ( )

4 There is an analynis delay of up to 30 minutes after campling IJuclide Concentration i Kr-85 1.05E401 uCi/cc

! Kr-85m 1.24E+02 uCi/cc Kr-87 5.72E+01 uCi/cc j Kr-88 2.32E+02 uC1/cc Xe-133 1.97E+03 uCi/cc I Xe133m Xe-135 Br-83 6.49E+01 uCi/cc 5.15E+02 uC1/cc 4.91E+01 uC1/cc i

I-131 1.43E+03 uCi/cc I-132 6.64E+02 uCi/cc j

I-133 2.12E+03 uci/cc I-134 1.81E+02 uCi/cc i Eg 2-235 Rb-88 2.62E+03 uCi/cc 3.26E+01 uC1/cc Cs-134 2.01E+02 uCi/cc Cn-137 5.15E+02 uC1/cc Cs-138 1.82E+02 uCi/cc ,

Te-132 1.16E401 uC1/cc '

i .__............

TOTAL WATER SAMPLE 1.01E+04 uC1/cc 1

DEI 131 2.02E+03 uCi/cc iI '

i j' .9rmal Sample (10 ml) Dose Rate at 1 ft.: 600. mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.: 60. mR/hr l PASS Sample ( .1 ml) Dose Rate at 1 ft.: 6.0 mR/hr  :

l I F lI I ,

I [

I I - __-_ - ..

OCl3GS SCENARIO 25 I

ANNUAL EXERCISE ~<EV NO O 3 REACTOR WATER TA: E A-3.11 g OT: TY (T = 06:00) '

)

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-C5 9.79E+00 uCi/cc Kr-85m 1.07E+02 uC1/cc g Kr-87 7E+01 uC1/cc Kr-88 4.

g 1.92E+02 uCi/cc

' '-133 1.84E+03 uCi/cc 33n 6.0 ' 01 uCi/cc

+

. 135 4.1 O'2 uCi/cc Br-83 3.9',_+01 uCi/cc I-131 1.33E+03 uCi/cc g

-132 5.34Ed uCi/cc 3 133 1.95E uCi/cc

_34 1. 4E+c. uC1/cc g

.35 1.44E+03 uCi/c g 88 2.27E+01 uCi/cc Cs-134 2. t 2E+02 uCi/cc Cs-137 4.81E+02 uCi/cc Cs-138 9.03E+01 uC1/cc To-132 1.06 +01 uCi/cc TOTAL WJ .R F3.MPLE 9.03E+03 uC1/ca DEI 131 1.87E+03 uC1/cc I

E Normal _mple (10 ml) Dore Rate at 1 ft.: 540. FR/hr PASS Sample (1. r '. ) Dose Rate at 1 ft.: E PASS Samp;c (.1 mi) Dose Rate at 1 ft.:

54. n ' 'lur g 5.4 mh/hr I

I I

I s

I OCllGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.1m REACTOR WATER ACTIVITY (T = 06:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85 9.41E400 uC1/cc .

Kr-85m 9.50E+01 uCi/cc I Kr-87 Kr-88 Xe-133 2.97E+01 uCi/cc 1.63E402 uCi/cc 1.77E+03 uCi/cc Xe133m 5.76E+01 uC1/cc Xe-135 4.87E+02 uCi/cc Br-83 3.31E+01 uCi/cc I-131 1.28E+03 uCi/cc I-132 4.41E+02 uCi/cc I-133 1.84E+03 uCi/cc I-134 7.38E+01 uCi/cc I I-135 Rb-88 Cs-134 1.32E+03 uCi/cc

.81E+01 uCi/cc

'.52E+02 uCi/cc I Cs-137 Cs-138 Te-132

.62E+02 uCi/cc

.58E+01 uCi/cc

( /1.04E+01 uCi/cc TOTAL WATER SAMPLE 8.39E+03 uC1/cc DEI ~

1.78E+03 uCi/cc I >

i

~f Normal Sample (10 ml) Dose 9a" at 1 it.: 500. mR/hr I PASS Sample (1. ml) Dose ha PASS Sample (.1 ml) Dese Ra , at I ft.:

at I ft.: 50. mR/hr 5.0 mR/hr I ++:

I I

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I

OC11GS SCEllARIO 25 I

AllliUAL EXERCISE REV 110 0 g T M' ',E A- 3 . I n g REACTOR t ?ER ACTI\1TY (T = 07:00) ( )

There is an analvnis delay of up to 30 minutes after campling fium ide Concentration K: 25 9.41E+00 uC1/cc Kr-85m 8.78E+01 uC1/cc g Kr-87 2.26E+ 1 uCi/cc 5 Kr-88 1.44E+02 uti/cc Xe-133 1.77E+03 uCi/cc Xe133m 5.72E+01 uCi/cc Xc-135 4.96E+02 uCi/cc Br-83 2.86E+01 uCi/cc I-131 1.27E+03 uCi/cc g I-132 3.80E+02 uCi/cc g I-130 1.81E+03 uCi/cc I-134 4.98E+01 uCi/c-I-135 1.25E+03 uCi/c Rb e 9 1.56E+01 uCi/cc Cs J4 . 52E+02 uCi/cc Cs-137  %.62E+02 uCi/cc l Cs-138 2.41E+02 uCi/cc 5 o-132 1.03E+0? '.Ci/cc TOTAL WATER SAMPLE 8.1*Erv3 uCi/cc DEI 131 1.77E+03 uC cc I

llormal Semple (10 ml) Doso Rate at I ft.: 490. mR/hr g PAS? Sample (1. ml) Dose Rate at I ft.:

PASS Sample (.1 ml) Dose Rate at 1 ft.:

49. mR/nr g 4.9 mR/hr I

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l'  ;

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• l

_ , _. - , -- ~ '1

I I ANNUAL EXERCISr OCf1G S Scerario No. 25 E"' O I .

. I I

I I '

I I S. _ .2 I Torus Water Activity I

I .

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I I AEMINS91/49/ Disk 1B

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3; I N.T E N'rlO N A L LY J I

LEFT BLAM I I '

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OCl4GS SCE!1ARIO 25 F A!111UAL EXERCISE REV 110 0 L TABLE A-3.2a TORUS WATER ACTIVITY (T = 00:00) ( )

There is an analysis delay of up to 30 minutes after sampling

! IJuclide Concentration Cs-134 5.07E-08 uCi/cc Cc-137 1.87E-06 uCi/cc I TOTAL WATER SAMPLE 1.93E-06 uCi/cc DEI 131 As round I

j 11ormal Sample (10 ml) Dose Rate at i ft.: < 2. mR/hr

,5 PASS Sample (1. ml) Dose Rate at 1 ft.: < 2. mR/hr L PASS Sample (.1 ml) Dose Rate at 1 ft.: < 2. mR/hr 8

I

i OCNCS SCE!JARIO 25 I I ANNUAL "XERCISE ngy 90 o g TABLE 1 3.2b TORUS WATER ACTIVITY (T = 01:00) (

g)

)

There is in analyas delay of up to 30 minutes after sampling Nuclide Cor. centration

--_____ ______________. g E

Cs-134 5.07E-08 uC1/cc Cs-137 1.88E-06 V / t.c TOTAL WATER SAMPLE 1.93E-06 uCi/cc DEI 131 4.22E-11 uCi/cc I

Normal Sample (10 ml) Dose Rate at i ft.: < 2. mR/hr MSS Sample (1. ml) Dose Rate at 1 ft.: < 2. rhr PASS Sample (.1 ml) Dose Rate at 1 ft.: < 2. ../hr I

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I.

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I OCllGS SCEllAR10 25 A!!!iUAL EXERCISE REV 110 0 I- TABLE A-3.2c TORUS WATER ACTIVITY (T = 01:30) ( )

There is an analysis ciclay of up to 30 minutes after sampling 11uc1ide Concentration Xe-133 3.16E-07 uCi/cc Xe-135 2.33E-07 uC1/cc I Br-83 Br-84 9.37E-07 uCi/cc 1.06E-06 uCi/cc I-131 1.01E-05 uti/cc I I-132 I-133 I -34 1.30E-05 uCi/cc 1.64E-05 uCi/cc 1.66E-05 uCi/cc I-135 1.64E-05 uCi/cc I Rb-88 Rb-89 8.49E-06 uCi/cc 9.64E-06 uCi/cc Cs-134 2.03E-06 uCi/cc I Cs-137 Cs-138 5.88E-06 uCi/cc 3.68E-05 uCi/cc TOTAL WATER SAMPLE 1.38E-04 uCi/cc DEI 131 1.50E-05 uti/cc I

I 14ormal Sample (10 ml) Doce Rate at 1 ft.: < 2. mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.: < 2. mR/hr PASS Sample (.1 ml) Doce Rate at 1 ft.: < 2. mR/hr I

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.2d g TORUS

R ACTIVITY (T = 02:00) (

)

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Xe-133 1.44E-06 uCi/cc Xe-135 1.95E-06 uCi/cc Br-83 6.69E-06 uC1/cc Br-84 5.51E-06 uCi/cc i-131 7.95E-05 uCi/cc I-132 9.23E-05 uCi/cc I-133 1.28E-04 uCi/cc I-134 1.01E-04 uCi/cc I-135 1 4E-04 uC1/cc g Rb-88 3.42E-05 uCi/cc g Rb-89 3.37E-05 uCi/cc Cs-134 1.56E-05 uCi/cc Cs-137 3.E-05 uCi/cc Cs-138 2.:_E-04 uC1/ :

TOTAL WATER SAMPLE 8.68E-04 uCi/cc DEI 132 1.17E-04 uCi/cc I

Normal Sample (10 ml) Dose Rate at 1 ft.: < 2. mRIhr I

ASS Sample (1. ml) Dose Rate at 1 ft.: <2. m.: ar =

PASS Sample (.1 ml) Dose Rate at 1 ft.: < 2. mR/hr l I

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B a

lI OCNGS ANNUAL EXERCISE SL E.:7.p m 25 REV NO O "

TABLE A-3.2e l TORUS WA1ER ACTIVITY (T = 02:30) ( )

. There is an analysis delay of up to 30 minutes atter sampling Nuclide Concentration Xe-133 1.89E-06 dCi/cc Xe-135 4.04E-06 uCi/cc I Br-83 Br-84 I-131 7.60E-06 uCi/cc 4.13E-06 uCi/cc 4

' 2 E-0 4 uCi/cc

.g 1-132 1.04E-04 uCi/cc 3 I-133 1.62E-04 uCi/cc I-134 9.30E-05 uCi/cv n I-135 1.53E-04 LCi/cc.

"'-88 2 85E- 5 " i/c I Rb-89 1.54E-05 uCi/cc Cs-134 2.00E-05 uCi/cc I Cs-137 Cc-138 3.95E-05 uCi/cc 1.65E-04 uCi/cc TOTAL WATER SAMPLE 8.92E-04 uCi/cc DEI 131 1.49E-04 uCi/cc I

I Normal Sample (10 ml) Dose Rate at i ft.: < 2. mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.:

I mR/hr

< 2.

PASS Sample (.1 ml) Dose Rate at 1 ft.: < 2. mR/hr I

I I

I I

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OCNGS SCENARIO 25 I

ANNUAL EXERCIFr REV NO O g TABLE A-3.2f g TORUS WATER ACTIVITY (T = 0 0) ( )

There is an analysis delay of up to 30 minutes after camplinc Nuclide Concentration Xe-133 3 .10 E- 0 /. uCi/cc Xe-135 2.80E-04 uC1/cc g Br-83 1.63E-03 uCi/cc g Br-84 6.47E-04 uCi/cc I-131 2.44E-02 'cc I-132 2.23E-02 ;cc I-133 3.86E-02 uCi/cc I-134 1.68E-02 uC1/cc I-135 3.52E-02 uCi/cc g Rb-88 3.11E-03 uCi/cc g Rb-89 2.11E-03 uCi/cc Cs-134 4.78E-03 uCi/cc g Cs-137 8.77E-03 uC1/c: B Cs-138 2.98E-02 uCi/cc Te-132 2.02E-04 uCi/cc g

TOTAL WATER SAMPLE 1.89E-01 uCi/cc 5 DEI 131 3.56E-02 uCi/cc l

Normal Sample (10 ml) Dose Rate at 1 ft.: < 2. mR/5r PASS Sample (1. ml) Dose Rate at 1 ft.: < 2. mR/c- h" PASS Sample (.1 ml) Dose Rate at 1 ft.: < 2. mR/hr I

I i

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I oCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I

O TABLE A-3.2g TORUS WATER ACTIVITY (T = 03:30) ( )

There is an analysis delay of up to 30 minutcs after sampling Nuclide Concentration Xe-133 4.85E-04 uCi/cc Xe-135 1.07E-03 uCi/cc I Br-83 Br-84 I-131 1.98E-03 uCi/cc 5.03E-04 uCi/cc 3.38E-02 uCi/cc g I-132 2.70E-02 uCi/cc g I-133 5.27E-02 uCi/cc I-134 1.63E-02 uCi/cc I-135 4.65E-02 uCi/cc I Rb-88 Rb-89 Cs-134 1.70E-03 uCi/cc 9.75E-04 uCi/cc

6. 6 2 E-0.1 uC1/cc g Cs-137 1.21E-02 uCi/cc g Cs-138 2.36E-C2 uC1/cc Te-132 2.78E-04 uCi/cc TOTAL WATER bAMPLE 2 26E 1 Ci cc DEI 131 4.89E-02 uCi/cc

,I L

I Normal Sample (10 ml) Dose Rate at 1 ft.: < 2. mR/hr

-l" PASS Sampl* (1. ml) Dose Rate at 1 ft.:

PASS Sanple (.1 ml) Dose Rate at 1 ft.:

< 2. mR/hr

< 2. mR/hr I

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=I I

I

OCNGS SCENARIO 'S I

ANNUAL EXERCISE RTV NO O g TABLF A-3.2h 5 TORUS WATI ACTIVI (T = 04:00) ( )

There is an analysis aclay of up to 30 minutes after sampling Nuclide Concentration Xe-133 6.20E-04 uCi/cc Xe-135 1.88E-03 uCi/cc g Br-83 2.03E-03 uCi/cc g Br-84 3.3 ' 04 uCiice I-131 3.93E-02 uC cc I-132 2.7 -02 uC cc I-133 6.0:

• uCi/cc I-134 1.35. t uC. cc I-135 5.17L-02 uCi/cc g Rb-88 8.90E-Ot '"i/c.

Rb-89 3 4.39E-0. i/c; Cs-134 7.71E-03 uCi/cc g Cs-137 1.41E-02 uCi/cc Cs-138 g 1.62E-02 uCi/cc Te-132 3.23E-04 uCi/cc TOTAL WATER SAMPLE 2.~17E-01 uCf ic DEI 131 5.65E-02 uC'/cc I

Normal Sample (10 r1) Dose Pate at . ft.: <. mR/hr "

PASS Sam; le (1. ml) Dose I.te at 1 ft.: < 2. mR/hr l PASS Sample ( .1 F \ Dose Rate at 1 ft.: < 2. mR/hr I

I I

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I I OCNGS ANNUAL EXERCISE SCENARIO 25 REV NO O TABLE A-3,21 TORUS WATER ACTIVITY (T = 04:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 4.04E+01 uCi/cc Kr-87 2.69E+01 uCi/cc I Kr-88 Xe-133 Xe133m 8.26E+01 uCi/cc 5.50E+02 uCi/cc 1.84E+01 uCi/cc Xe-135 1.40E+02 uCi/cc I Xe-138 Br-83 1.25E+01 uCi/cc 3.14E+01 uCi/cc -

I-131 6.90E+03 uCi/cc I I-132 I-133 I-134 4.27E+03 uCi/cc 1.05E+04 uCi/cc 1.80E+03 uCi/cc I 8.67E+03 uCi/cc I-135 Rb-88 2.91E+02 uCi/cc Rb-89 1.37E+02 uCi/cc Cs-134 1.35E+03 uCi/cc I Cs-137 Cs-138 Te-132 2.49E+03 uCi/cc 2.40E+03 uCi/cc 5.66E+01 uCi/cc I TOTAL WATER SAMPLE 4.00E+04 uCJ/cc DEI 131 9.88E+03 uCi/cc I -

Normal Sample (10 ml) Dose Rate at 1 ft.: 2900. mR/hr

'I PASS Sample (1. ml) Dose Rate at 1 ft.:

PASS Sample (.1 ml) Dose Rate at 1 ft.:

290, mR/hr

29. mR/hr I

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OCNGS SCENARIO 25 ANNUAL E 'ISE REV NO O TABLE A-3.2j TORUS WATER ACTIVITY (T = 05:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.93E+01 uCi/cc Kr-87 1.08E+01 uCi/cc Kr-88 3.79E+01 uCi/cc Xe-133 2.84E+02 uC1/cc Xe133m 9.43E+00 uCi/cc Xe-135 7.17E+01 uC1/cc l Xe-138 2.68E+00 uti/cc 5 Br-83 8.18E+00 uCi/cc I-131 2.06r+03 uCi/cc g I-132 1.11E+03 uCi/cc I-133 g

3.11E+03 uCi/cc I-134 3.87E+. uCi/cc I-135 2.47E+03 uCi/cc Pb-88 7.65E+01 uCi/c:

F.: 89 2.06E+01 uCi/cc

, Cs-134 4.05E+02 uCi/cc g C9-137 7.43E+02 uCi/cc

-138 4.93E+02 uCi/cc 5

-132 1.69E+01 uCi/cc TOTAL WATEP SAMPLE g

1.14E+04 uCi/cc DEI 131 2.93E+03 uCi/cc I

Normal Sample (10 ml) Dose Rate at 1 ft.: 920. mR/hr FASS Sample (1. ml) Dose Rate at 1 ft.: 92. mR/hr PASS Sample (.1 ml) Dose Rate at 1 ft.: 9.2 mR/hr I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.2k

~

TORUS WATER ACTIVITY (T = 05:30) ( )

5 There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration

. Kr-85 1.05E+00 uCi/cc  ;

Kr-85m 1.24E+01 uCi/cc 1 I Kr-87 Kr-88 Xe-133 5.72E+00 uCi/cc 2.32E+01 uCi/cc 1.97E+02 uCi/cc I Xe133m Xe-135 Br-E3 6.49E+00 uCi/cc 5.15E+01 uCi/cc 4.91E+00 uCi/cc

'm I-131 1.43E+03 uCi/cc g I-132 6.64E+02 uCi/cc I-133 2.12E+03 uCi/cc I-134 1.81E+02 uCi/cc l I-135 1.62E+03 uCi/cc 5 Rb-88 3.26E+01 uCi/cc Cs-134 2.81E+02 uCi/cc lg Cs-137 5.15E+02 uC1/cc

'5 cS-238 2.82t+02 uC1/cc Te-132 1.16E+01 uCi/cc TOTAL WATER SAMPLE 7.42E+03 uCi/cc DEI 131 2.02E+03 uCi/cc I

I Normal Sample (10 ml) Dose Rate at 1 ft.: 600. mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.: 60. mR/hr

.I PASS Sample (.1 ml) Dose Rate at 1 ft.: 6.0 mR/hr i

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TA1 A-3.21 E TORUS WATER ACTIV:

(T = 06:00) )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr 85 9.79E-01 uCi/cc Kr-85m 1.07E+01 uCi/cc g Kr-87 4. 7E+00 LCi/cc g Kr-88 1.92E+01 uCi/cc Xe-133 1.84E+02 uCi/cc Xe133m 6.03E+00 'Oi/cc Xe-135 4.95E+01 uC1/cc Br-83 3.97E+01 uCi/cc I-131 3.33E+03 u"i/cc g I-13.  ! 34E+02 L. /cc g I-133 1.95E+03 uCi/cc I-134 1.14E+02 uCi :c I-135 1.44E+03 uC1,cc Rb-83 2.27E+01 uCi/cc Cs-134 2.6 2+02 uCi/cc Cs-137 4 81E+02 uCi/cc E Cs-138 9.03E+01 uCi/cc 5 Te-132 1.08E+01 uCi/cc TOTAL WATER SAMPLE 6 56E+03 Ci/cc DEI 131 1.87E+03 uCi/cc I

I Normal Sample (10 ml) Dose Rate a ft.: 540, mR/hr g PASS Sample (1. ml) Dose Rate at 4 ft.:

PASS Sample (.1 ml) Dose Rate at i ft.:

54. mR/hr g 5.4 mR/hr I

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lI OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.2m TORUS WATER ACTIVITY (T = 06:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85 9.41E-01 uCi/cc Kr-85m 9.50E+00 uCi/cc I Kr-87 Kr-88 2.97E+00 uCi/cc 1.63E+01 uC1/cc Xe-133 1.77E+02 uCi/cc I Xe133m Xe-135 Br-83 5.76E+00 uCi/cc 4.87E+01 uCi/cc 3.31E+01 uCi/cc I-131 1.28E+03 uCi/cc I-132 4.41E+02 uCi/cc I-133 1.84E+03 uCi/cc I-134 7.38E+01 uCi/cc I Rb-88 Cs-134 I-135 1.32E+03 uCi/cc 1.81E+01 uCi/cc 2.52E402 uCi/cc I Cs-137 Cs-138 Te-132 4.62E+02 uCi/cc 4.58E+01 uCi/cc 1.04E+01 uCi/cc TOTAL WATER SAMPLE 60E 3 C1 cc DEI 131 1.78E+03 uCi/cc I

I Normal Sample (10 ml) Dose Rate at 1 ft.: 500. mR/hr

$ PASS Saltple (1. ml) Dose Rate at 1 ft.: 50. mR/hr in PASS Sample (.1 ml) Dose Rate at 1 ft.: 5.0 mR/hr I

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OC JS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.2n g TORUS WATER ACTIVITY (T = 07:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85 9.41E-01 uCi/cc Kr-85m 8.78E+00 uCi/cc g Kr-87 2.26E+00 uCi/cc g Kr-88 1.44E+01 uCi/cc Xe-133 1.77E+02 uCi/cc Xe133m 5.72E+00 uCi/cc Xe-135 4.96E+01 uCi/cc -

Br-83 2.86E+01 uCi/cc I-131 1.27E+03 uC!'cc g I-132 3.80E+02 uC: c 3 T-2 3 1.81E+03 uC2,cc I-134 4.98E+01 uC1/cc a I-135 1.25E+03 uCi/cc Rb-88 1.56E+01 uCi/cc 5 Cs-134 2.52E+02 uCi/cc Cs-137 4.62Ea'2 uCi/cc l Cs-138 2.41E 1 uC1/cc 5 Te-132 1.03E+01 uCi/cc TOTAL WATER SAMPLE 5.82E+03 uCi/cc DEI 131 1.7' E+03 uCi/cc I

E Normal Sample (10 ml) Dose Rate e' 1 ft.: '3. mR/hr g PASS Sample (1. nl) Dose Rate a- 1 ft.:

PASS Sarple (.1 ml) Dose Rate at 1 ft.:

29. mR/hr g 4.9 mR/hr I

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I AlltiUAL EXERCISE Scenario No. 25 OCNGS Rev. 0 I l, l

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I section A-3.3 Dr>vell Gas Activity I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.3a

I' DRYWELL GAS ACTIVITY (T = 00:00) ( )

4 l W- There is an analysis delay of up to 30 minutes after sampling J

Nuclide Concentration

)

)

Kr-85 2.11E-08 uCi/cc 1 TOTAL GAS SAMPLE 2.11E-08 uC1/cc j DEI 131 .As Found j

4 TOTAL FILTER SAMPLE As Found

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Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr lg l5 Hydrogen Concentration:

Oxygen Concentration:

.0%

.0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.3b g DRYWELL GAS ACTIVITY (T = 01:00) ( )

There is an analysis delay o; up to 30 minutes af ter sarnpling Nuclide Concentration Kr-85 2.11E-08 uC1/cc TOTAL GAS SAMPLE 2 11E 08 uCi/cc I-13 3.85E-15 uCi/cc I 13. 8.15E-15 uCi/cc l I-133 4.87E-14 uCi/cc W I-134 1.85E-13 uCi/cc I-135 1.14E-13 uCi/cc 3 p

j TOTAL CHARCOAL SAMPLE 3.59E-13 uCi/cc DEI 131 2.1CE-14 uCi/cc Cs-137 1.01E-15 uCi/cc TOTAL FILTER SAMPLE 1.04E-15 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentraticn: .0%

Oxygen concentration: .0%

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.3c DRYWELL GAS ACTIVITY (T = 01:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.67E-06 uCi/cc Kr-87 2.63E-06 uC1/cc I Kr-88 Xe-133 Xe133m 4.23E 06 uCi/cc 1.53E-05 uCi/cc 5.29E-07 uC1/crc I Xe-135 Xe135m Xe-138 2.67E-06 uCi/cc 2.03E-06 uCi/cc 5.65E-06 uCi/cc TOTAL GAS SAMPLE 3 49E-05 Ci/cc Br-83 4.12E-10 uCi/cc I Br-84 I-131 I-132 4.67E-10 uCi/cc 4.45E-09 uCi/cc 5.70E-09 uCi/cc I I-133 I-134 I-135 7.22E-09 uC1/cc 7.29E-09 uCi/cc 7.20E-09 uCi/cc TOTAL CHARCOAL SAMPLE 3.27E-08 uCi/cc DEI 131 6.60E-09 uCi/cc Rb-88 1.81E-07 uCi/cc Cs-138 1.36E-06 uCi/cc TOTAL FILTER SAMPLE 1 55E-06 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: .0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.3d g DRYWELL GAS ACTIVITY (T = 02: 00) ( )

There is an analysis delay of up to 30 minutes af ter sarnpling Nuclide Concentration Kr-85m 6.75E-06 uCi/cc Kr-87 9.37E-06 uCi/cc ,

Kr-88 1.66E-05 uCi/cc Xe-133 6.53E-05 uCi/cc Xe133m 2.24E-06 uCi/cc Xe-135 1.18E-05 uC1/cc Xe135m l

4.04E-06 uCi/c0 N Xe-138 1.19E-05 uCi/cc TOTAL GAS SAMPLE 1.28E-04 uC1/cc Br-83 2.94E-09 uC1/cc Br-84 2.42E-09 uCi/c0 I-131 3.49E-08 uCi/cc I-132 4.06E-08 uC1/cc I-133 5.62E-08 uCi/cc g I-134 4.43E-08 uCi/cc 5 I-135 S.46E-08 uCi/cc TOTAL CMARCOAL SAMPLE 2 36E-0 C c DEI 131 5.15E-08 uCi/cc Rb-88 8.54E-07 uCi/cc Cs-138 4.11E-06 uCi/cc

_______________ m TOTAL FILTER SAMPLE 5.00E-06 aci/cc l Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogea Concentration: . 0 ?.

Oxygen concentration: .0%

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.3e DRYWELL GAS ACTIVITY (T = 02:30) ( )

There is an analysis delay of up to lo minutes after saltpling Nuclide Concentration Kr-85m 7.68E-06 uCi/cc

.Kr-87 9.07E-06 uCi/cc I Kr-88 Xe-133 Xe133m 1.82E-05 uCi/cc 7.93E-05 uCi/cc 2.71E-06 uCi/cc Xe-135 1.43E-05 uCi/cc I. Xe135m Xe-138 1.85E-06 uCi/cc 5.79E-06 uCi/cc TOTAL GAS SAMPLE 1 40E 04 uCi/cc Br-83 3.08E-09 uCi/cc I

I-131 4.12E-08 uCi/cc I-132 4.22E-08 uCi/cc I-133 6.55E-08 uCi/cc I I-134 I-135 3.78E-08 uCi/cc 6.18E-08 uCi/cc TOTAL CHARCOAL SAMFLE 2.53E-07 uCi/cc I. DEI 131 6.03E-08 uCi/cc

_g Rb-68 1.15E-06 uCi/cc 3 Cs-138 3.76E-06 uCi/cc TOTAL FILTER SAMPLE I 4.94E-06 uC1/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen concentration: .0%

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1 OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O g TABLE A-3.3f g DRYWELL '1.S ACT!VITY (T = 03:00) ( )

._______ = . ___ _ __ _ ___________ __ __ __

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.35E-03 uCi/cc Kr-87 1.40E-03 uCi/cc g Kr-88 3.C',E-03 uCi/cc g Xe-133 1.4dE-02 uCi/cc Xe133m 5.04E-04 uCi/cc Xe-135 3.16L-03 uCi/cc Xe135m 2.67E-04 uCi/cc Xe-138 8.09E-04 uCi/cc TOTAL GAS SAMPLE 2.55E-02 uCi/cc Br-83 8.02E-07 uCi/cc I-131 1.20E-05 uCi/cc I-132 1.10E-05 uCi/cc I-133 1.90E-05 uCi/cc I-134 8.26E-06 uCi/cc g I-135 1.73E-05 uCi/ c 3

TOTAL CHARCOAL SAMPLE 6.88E-05 uCi/cc DEI 131 1.76E-05 uCi/cc Rb-88 7.95E-05 uCi/cc Cs-138 1.15E-04 uCi/cc TO"'AL FILTL. SAMPLE 2.03E-04 uCi/cc

• 5 Undiluted Gas Sample (15 ml) Dose Rate at 1 *t.: < 2. mR/hr

. Hydrogen Concentration: .0%

Oxygen Concentration: .0%

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I OCNGS SCENARIO 25 Al'NUAL EXERCISE REV NO O TABLE A-3.3g DRYWELL GAS ACTIVITY (T = 03:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.69E-03 uCi/cc Kr-87 1.47E-03 uCi/cc I Kr-88 Xe-133 Xe133m 3.71E-03 uCi/cc 1.99E-02 uCi/cc 6.74E-04 uCi/cc I Xe-135 Xe-138 4.17E-03 uCi/cc 4.09E-04 uCi/cc TOTAL GAS SAMPLE 3.23E-02 uCi/cc I Br-83 8.60E-07 uCi/cc I-131 1.47E-05 uCi/cc I I-132 I-133 I-134 1.17E-05 uCi/cc 2.29E-05 uCi/cc 7.09E-06 uCi/cc I-135 2.02E-05 uCi/cc I TOTAL CHARCOAL SAMPLE 7.77E-05 uC1/cc DEI 131 2.13E-05 uCi/cc Rb-88 2.30E-04 uCi/cc I Cs-138 TOTAL FILTER SAMPLE 2.11E-04 uCi/cc 4.50E-04 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr E Hydrogen Concentration: .0%

5 Oxygen Concentration: .0%

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..,,_..,--,,,4, ,-,--,----w -e- ,e- --e*ar w w'

OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.3h g DRYWELL GAS ACTIVITY (T = )0) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.79E-03 uCi/cc Kr-87 1.33E-03 uCi/cc Kr-88 3.80E-03 uCi/cc Xe-133 2.27E-02 uCi/cc Xe133m 7.64E-04 uCi/cc Xc-135 4.69E-03 uCi/cc $

3 TOTAL GAS SAMPLE 3.55E-02 uCi/cc Br-83 7.94E-07 uCi/cc I-131 1.54E-05 uCi/cc I-132 1.00E-05 uCi/cc I-133 2.37E-05 uCi/cc l I-134 5.30E-06 uCi/ W I-135 2.02E-05 uCi/ec TOTAL CHARCOAL SAMPLE 7.62E-05 uCi/cc

~

DEI 131 2.21E-05 uCi/cc Rb-88 2.83E-04 uCi/cc.g Cs-138 1.73E-04 uCi/cc g

TOTAL FILTER SAMPLE 4.65E-04 uCi/cc 5 Jndiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr ilydrogen Concentration: .0%

Oxygen concentration: .0%

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I OCNGS SCENARIO 25 ANNUAL EXERCISE I TABLE A-3.3i DRYWELL GAS ACTIVITY (T = 04:30) (

REV NO

)

O There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 4.97E-02 uCi/cc Kr-87 3.20E-02 uCi/cc I Kr-88 Xe-133 Xe133m 1.01E-01 uCi/cc 6.76E-01 uCi/cc 2.26E-02 uCi/cc I Xc-135 TOTAL GAS SAMPLE 1.58E-01 uCi/cc 1.06E-00 uCi/cc I-131 7.35E-04 uCi/cc I-132 4.52E-04 uC1/cc I-133 1.12E-03 uCi/cc

.I I-134 I-135 1.87E-04 uCi/cc 9.23E-04 uCi/cc TOTAL CHARCOAL SAMPLE 3.46E-03 uCi/cc DEI 131 1.05E-03 uCi/cc I Rb-88 Cs-138 4.17E-03 uCi/cc 2.03E-03 uCi/cc TOTAL FILTER SAMPLE 6.62E-03 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.:

tlydrogen Concentration: .0%

< 2. mR/hr -

Oxygen Concentration: .0%

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I, OCNGS SCENARIO 25 ANNUAL EXERCISE RL / NO O g TABLE A-3.3j g

'RYWELL GAS ACTIVITY (T = 05:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 4.59E-02 uCi'cc Kr-P7 2.44E-02 uCi fc g Kr-88 8.93E-02 uCi/cc g Xe-133 6.74E-01 uCi/cc Xe133m 2.25E-02 uCi/cc TOTAL GAS SAMPLE 1.02E-00 uC. cc I-131 6.15E-04 uCi/cc I-132 3.26E-04 uCi/cc .

I-133 9.24E-04 uC1/cc I-134 1.06E-04 uCi/cc I-135 7.35E-04 uCi/cc TOTAL CHARCOAL SAMPLE 2.73E-03 uCi/cc DE1 131 .74E-04 uCi/cc Rb-88 6.85E-03 uCi/cc Cs-138 2.40E-03 uCi/cc TOTAL FILTER SAMPLE 9.60E-03 uCi/cc ndiluted Gas Sample (15 ml) Dose Rate at 1 ft.: "

< 2. mR/hr B

Hydrogen Concentration: .0%

Oxygen Concentration: .01 I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TAB;sE A-3.3k DRYWELL GAS ACTIVITY (T = 05:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 4.24E-02 uCi/cc Kr-87 1.85E-02 uCi/cc I Kr-88 Xe-133 7.89E-02 uCi/cc 6.73E-01 uCi/cc Xe133m 2.23E-02 uCi/cc I Xe-135 TOTAL GAS SAMPLE 1.47E-01 uCi/cc 9.88E-01 uCi/cc I-131 5.15E-04 uC1/cc I-132 2.35E-04 uCi/cc I-133 7.62E-04 uCi/cc I I-134 I-135 5.96E-05 uCi/cc 5.85E-04 uCi/cc TOTAL CHARCOAL SAMPLE 2.17E-03 uCi/cc I. DEI 131 7.27E-04 uCi/cc I Rb-88 Cs-138 6.87E-03 uCi/cc 1.50E-03 uCi/cc TOTAL FILTER SAMPLE G.66E-03 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr -

Hydrogen Concentration: .0%

Oxygen Concentration: .0%

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OCl;3S SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.31 g DRYWELL GAS ACTIVITY (T = 06:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 3.96E-02 uCi/cc Kr-87 1.43E-02 uCi/cc g Kr-88 Xe-133 7.04E-02 uCi/cc g 6.78E-01 uCi/cc Xe133m 2.24E-02 uCi/cc Xe-135 1.43E-01 uCi/cc l

_______________ y TOTAL GAS SAMPLE 9.74E-01 uCi/cc I-131 4.35E-04 uCi/cc I-132 1.71E-04 uCi/cc I-133 6.35E-04 uCi/cc I-134 3.41E-05 uC1/cc I-135 4.71E-04 uCi/cr TOTAL CHARCOAL SAMPLE 1.76E-03 uCi/cc DEI 131 6.13E-04 uCi/cc Rb-88 6.30E-03 .C1/cc Cs-138 7.89E-04 uCi/cc TOTAL FILTER SAMPLE 7.34E-03 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr a E

Hydrogen Concentration: .0%

Oxygen Concentration: .0%

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OCNGS SCENARIO 25 ANNUAL EXERCISE I TABLE A-3.3m DRYWELL GAS ACTIVITY (T = 06:30) (

REV NO

)

O There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 3.66E-02 uCi/cc Kr-87 1.08E-02 uCi/cc o Kr-88 6.22E-02 uCi/cc Xe-133 6.76E-01 uCi/cc Xe133m  ?.23E-02 uCi/cc I Xe-135 TOTAL GAS SAMPLE 1.38E-01 uCi/cc 9.52E-01 uCi/cc I-131 3.64E-04 uCi/cc I-132 1.24E-04 uCi/cc I-133 5.24E-04 uCi/cc E I-134 1.93E-09 uCi/cc I-135 3.75E-04 uCi/cc TOTAL CHARCOAL SAMPLE 1.42E-03 uCi/cc DEI 131 5. 0 8 E-04 iC1/cc Rb-88 5.65E-03 uCi/cc Cs-138 3.86E-04 uci/cc TOTAL FILTER SAMPLE 6.25E-03 uC1/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr -

Hydrogen Concentration: .0%

I Oxyger. Concentrr. tion: .0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCIiE REV NO O g TABLE A-3.3n g DRYWELL GAS ACT: :TY ~ = 07:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuc.lide Concentration Kr-852 3.38E-02 uCi/cc Kr-88 5,50E-02 uCi/cc g Xe-133 6.74E-01 uC1/cc g Xe133m 2.21E-02 uCi/cc Xe-135 1.33E-01 uCi/cc TOTAL GAS SAMPLE >.;2E-01 uCi/cc I-131 3.05E-04 uCi/cc g I-132 8.92E-05 uCi/cc 3 I-133 4.32E-04 uCi/cc I-135 2.98E-04 uCi/cc TOTAL CHARCAAL SAMPLE 1.14E-03 uCi/cc DEI 131 4.23E-04 uCi/cc Rb-86 5.02E-03 uCi/cc TOTAL FILTER SAMPLE 5 37 3 Chcc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .r- 1 Oxygen Cc:; centration: .

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t ANNUAL EXERCISE Scenario No. 25 OCNGS Rev. O I

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OCllCS SCE!1ARIO 25 A!1NUAL EXERCISE REV 110 0 i

TABLE A-3.4a I ...

TORUS GAS ACTIV';JY (T = 00:00) (

)

There is an analysis delay of up to 30 minutes after sampling 14uclide Concentration I

Kr-85 1.42E-08 uCi/cc TOTAL GAS SAMPLE 42E 08 uC1/cc DEI 131 As round Cs-137 1.85E-06 uCi/cc TOTAL TILTER SAMPLE 1 90E 06 uC1/cc Undiluted Gas Sample (15 ml) Doce Rate at i ft.: < 2. mR/hr Hydrogen Concentration: .0% '

E *Y9 " C "c "tr*ti ": - ' '

l TT l

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OCNGS SCEllARIO 25 I

, 7:P!!UAL LXERCISE rey }JO O g TABLE A-3.4b g i

TORUS GAS ACTIVITY (T = 01:00) ( )

'luere is an ana] -is delay of up to 30 minutes after sampling -

11u Ide Concentration Kr-85 1.42E-08 uC1/cc TOTAL GAS SAMPLE 42E-08 Ci/cc DEI 131 As l'ound C. 17 1.85E-06 uCi/cc TOTAL l'!LOLR SAMPLE 1.90E-06 uCi/cc r Undiluted Gac Sample (15 ml) Dose Rate at 1 ft.

< 2. mR/hr lif& ogen Concentration: .0%  !

Oxygen Concentrat:an: .01 .

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E OClJGC SCE!JARIO 25 A14NUAL EXERCISE I . .. . ..

T'.)RUS GAS ACTIVITY (T = 01:30) (

TABLE A-3.4c REV !JO

)

O There is an analysic delay af up to 30 minutes after sampling i 11uclide Concentration Kr-85 1.42E-08 uCi/cc Kr-85m 9.21E-10 uC1/cc Kr-87 1.45E-09 uC1/cc Kr-88 2.33E-09 uCi/cc l' Xe-133 8.72E-09 uC1/cc j Xe-135 3.86E-09 uCi/cc g Xe135m 1.11E-09 uC1/cc Xe-138 3.10E-09 uCi/cc TOTAL GAS SAMPLE 6 EO 1 cc Br-83 2.15E-11 uC1/cc I Br-84 I-131 I-132 2.43E-11 uCi/cc 2.32E-10 uCi/cc 2.97E-10 uCi/cc I I-133 3.76E-10 uC1/cc '

I-134 3.80E-10 uCi/cc 7-13' 3.75E-10 uCi/cc h

TOTAL CHARCOAL SAMPLE 1.71E-09 uC1/cc DEI 131 3.44E-10 uCi/cc Cs-137 1.44E-06 uCi/cc TOTAL FILTER SAMPLE 1.40E-06 uCi/cc I

Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: .0%

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OCl4GS SCE!1ARIO 25 A1111UAL EXERCISE REV 110 0 g TABLE A-3.4d g TORUS GAS ACTIVITY (T = 02:00) ( )

There is an analysis delay of up to 30 minutes after sampling fluclide Concentration Kr-85 1.43E-08 uCi/cc Kr+85m 3.95E-09 uC1/cc g Kr-87 5.45E-09 uCi/cc g Kr-88 9.70E-09 uCi/cc

, Xe-133 4.11E-08 uC1/cc Xc133m 1.31E-09 uCi/cc l Xe-135 3.23E-08 uCi/cc p Xe135m 2.22E-09 uC1/cc Xc-138 6.57E-09 uCi/cc a g

TOTAL GAS SAMPLE 1.17E-07 uC1/cc Br-83 1.54E-10 uCi/cc Br-84 1.2SE-10 uC1/cc I-131 1.83E-09 uCi/cc J-132 2.12E-09 uCi/cc g I-133 2.94E-09 uCi/cc 3 I-134 2.31E-09 uCi/cc I-135 2.86E-09 uCi/cc a g

TOTAL CHARCOAL SAMPLE 1.23E-08 uCi/cc DEI 131 2.70E-09 uCi/cc Ps-137 1.12E-06 uCi/cc

_- ._ ......._. as TOTAL FILTER SAMPLE 1.16E-06 uCi/cc l Undiluted Gas Sample (15 mi) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: .0% ,

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____. ..___._ __. __ .. _ _._.______.. _ _._ .___~ .._ __._ _ ___ _..__.___ _ _..._________. _ _.._____

I 0C110S SCEllARIO 25 A!J!JUAL EXERCISE REV 110 0 I TABLE A-3.4e TORUS GAS ACTIVITY (T = 02:30) (

)

There is an analysis delay of up to 30 minutes after sampling fluclido Concentration I Kr-85 1.46E-08 uCi/cc l Kr-85m 7.19E-09 uCi/cc '

I Kr-87 hr-88 Xc-133 8.40E-09 uC1/cc 1.70E-08 uCi/cc 8.65E-08 uC1/cc g Xe-135 1.19E-07 uCi/cc Q Xe-138 4.54E-09 uC1/cc TOTAL GAS SAMPLE 2.61E-07 uC1/cc Br-83 2.63E-10 uCi/cc I-131 3.54E-09 uCi/cc I I-132 I-133 I-134 3.61E-09 uC1/cc 5.62E-09 uCi/cc 3.19E-09 uCi/cc

• I-135 5.30E-09 uCi/cc I TOTAL CHARCOAL SAMPLE 2.16E-08 uCi/cc DEI 131 5.18E-09 uCi/cc Cs-137 8.79E-07 uCi/cc I TOTAL FILTER SAMPLE 9.12E-07 uCi/cc Undiluted Gas Sainple (15 ml) Dose Rate at I ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen concentration: .0%

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OCNGS Sci:llARIO 25  !

I AllNUAL EXERCISE REV NO O g  !

i TABLE A-3.4f g!

l, TORUS GAS ACTIVITY (T = 03:00) ( ) i There is an analysis delay of up to 30 minut- after sampling i

!Juclide Concentrat..n '

j Kr-85m 2.58E-07 uCi/ct  !

Kr-87 2.67E-07 uCi/cc g '

l Kr-88 5.92E-07 uCi/cc i

Xc-133 gl 3.06E-06 uCi/cc ,

Xc133m 9.66E-08 uC1/cc '

Xe-135 2.41E-06 uC1/cc Xe-138 1.41E-07 uCi/cc TOTAL GAS SAMPLE 6.91E-06 uC1/cc Br-83 1.50E-08 uCi/cc j  !

I-131 2.25E-07 uC1/cc g .

j I-132 2.05E-07 uC1/cc g I-133 3.55E-07 uC1/cc I-13< 1.53E-07 uCi/cc I-135 3.23E-07 uCi/cc E'

3 TOTAL CHARCOAI SAMPLE 1..BE-06 uCi/cc ,

DEI 131 3.28E-07 uCi/cc Cs-134 6.25E-08 uC1/cc j Cs-137 7.68E-07 uCi/cc ,

Cs-138 L.81E-07 uCi/cc TC'AL FILTEh SAMPLE 1.17E-06 uCi/cc "

E; '

Undiluted Gas Sa. . et (15 a:1) Dose Pite at I ft.: < 2. mR/hr g i Hydrogen Crncentration: .0%

g, oxygen er centration: .0%

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l OCl4GS SCEtJARIO 25 AN!iUAL EXERCISE REV 110 0 TABLE A-3.49 i TORUS GAS ACTIVITY (T = 03:30) ( )

There is an analysis delay of up to 30 minutes after sampling fluclide Concentration Kr-85n 1.10E-06 uC1/cc Kr-87 9.54E-07 uC1/cc

,I Kr-88 2.41E-06 uC1/cc Xe-133 1.b3E-05 uCi/cc Xu133m 4.38E-07 uCi/cc I Xe-135 TOTAL GAS SAMPLE 2.21E-05 uCi/cc 4.27E-05 uCi/cc Br-83 5.78E-08 uCi/cc I-131 9.87E-07 uCi/cc I-132 7.87E-01 uCi/cc I I-133 I-134 I-135 1.54E*06 uCi/cc 4.74E-07 uC1/cc 1.36E-06 uC1/cc TOTAL CHARCOAL SAMPLE 5 2 E-06 uC1/cc DEI 131 1.43E-06 uCi/cc Rb-88 1.46E-07 uCi/cc Cs-134 2.08E-07 uCi/cc

'g Cs-137 8.93E-07 uCi/cc 3 Cs-138 7.41E-07 uCi/cc TOTAL FILTER SAMPLE 2.02E-06 uC1/cc I

Undiluted Gas Sample (15 ml) Dose Rate at I ft.* < 2. mR/hr Hydrogen Concentration: .0%

oxygen Concentration: .0%

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OCl1GS 1

SCE!1AltIO 25 A!1110AL EXERCISE REV 110 0 TABLE A-3.4h TORUS GAS ACTIVITY (T = (

10) (

)

There is an analysis delay of up to 30 minutes after sampling 11uclide Concentration tir-85m 1. 9' -06 uCi/cc Kr-87 1.462-06 uCi/cc F -88 4.20E-06 uCi/cc Xe-133 3.29E-05 uC1/cc Xe-135 6.72E-05 uC1/cc TOTAL GAS F 'LE 1.09E-04 uC1/cc Dr-83 9.28E-08 uC1/cc I-131 1.80E-06 ur'/cc I-132 1.26E-06 uC4/cc I-133 2.77E-06 uC1/cc I-134 ( 13E-07 uCi/cc I-135 .

17E-06 uC1/cc TOTAL CllARCOAL SA!4PLE 8.91E-06 uCi/cc DEI 131 2..  :-06 uC1/cc Rb-88 2.56E-07 uCi/cc Cs-134 3.64E.07 uCi/cc Cs-137 1.0"E 06 uC1/cc Cs-138 7.94E-07 uCi/cc TOTAL FILTER SAliPLE 2.52E-06 uCi/cc a.

Undiluted Gas Sanplc (15 nl) Doce Reate at a ft.: ( 2. raR ";r Ilydrogen Concentration: .0%

Oxygen Concentration: .0%

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E OCl4GS SCE!JARIO 25 AtiliUAL EXERCISE REV 110 0 TABLE A-3.41 TORUS GAS ACTIVITY (T = 04:30) (

)

l There is an analysis delay of up to 30 minuten after sampling

!Juclide Concentration Kr-85m 4.04E+02 uCi/cc Kr-87 2.69E+02 uC1/cc I Kr-88 Xe-133 8.26E+02 uCi/cc 5.50E403 uCi/cc Xe133r 1.84E+02 uCi/cc

, 3 Xc-135 1.40E+03 uC1/cc g Xe-138 1.25E+02 uCi/cc TOTAL GAS SAMPLE 8.71E+03 uCi/cc I Br-83 3.14E+02 uCi/cc 1

I-131 6.90E+02 uCi/cc 1-132 4.27E+02 uCi/cc I-133 1.05E+03 uCi/cc I-134 1.80E+02 uC1/cc 8.67E+02 uCi/cc I

I-135 TOTAL CHARCOAL SAMPLE 3.55E+03 uCi/cc DEI 131 9.88E+02 uCi/cc i I

IJormal Sample (10 ml) Dose Rate at 1 ft.: 2900. mR/hr .

PASS Sample (1. ml) Dose Rate at I ft.: 290. mR/hr ,

PASS Sample (.1 ml) Dose Rate at 1 ft.: 29. mR/hr I

g  ;

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l oCricS Scr!:AnIo 25 AtiliUAL EXERCISE REV 140 0 g' TABLE A-3,4j g TORUS GAS ACTIV!TY (T = 05: 00) ( )

Ther is an analysis delay of up to 30 minutes after sampling liuclide Concentration Kr-85m 1.93E+02 uCi/cc Kr-87 1.0"E-02 uCi/cc g Kr-88 3...E+02 uCi/cc g Xe-133 2.84E+03 uCi/cc Xe133m 9.43E+01 uC1/cc Xe-135 7.17E+02 uCi/cc Xe-138 2.68E+01 21/cc -

TOTAL GAS SAMPLE 4.26E&O3 uCi/cc Br-83 8.18E+01 uCi/cc I-131 2.06E403 uC1/cc g I-132 1.11E+03 uCi/cc I I-133 3.11E+03 uCi/cc I-134 3.87E+02 uC1/cc I-135 2.47E403 uCi/cc TOTAL CHARCOAL SAMPLE 9.22E+03 uCi/cc DEI 131 2.93E+03 uC1/cc I

11ormal Sample (10 ml) Dose Rate at 1 ft.: 920. mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.: 92. mR/hr PASS Sample (.1 ml) Dose Rate at 1 ft.: 9.2 mR/hr I

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I OCliGS SCE!1ARIO 25 AllllUAL EXERCISE REV !JO O TABLE A-3.4k TORUS GAS ACTIVITY (T = 05:30) (

) .

' There is an analysis delay of up to 30 minutes after sampling  !

11uclido Concentration '

Kr-85 1.05E401 uCi/cc Kr-85m 1.24E402 uCi/cc '

I Kr-87 5.72E+01 uCi/c  !

Kr-88 2.32E+02 uCi/cc Xe-133 1.97E+03 uCi/cc 3 Xe133m 6.49E+01 uCi/cc 3 Xe-135 5.15E402 uCi/cc TOTAL GAS SAMPLE 2.97E+03 uCi/cc Br-83 4.91E+01 uCi/cc I-131 1.43E+03 uCi/cc I I-132 I-133 I-134 6.64E+02 uCi/cc 2.12E+03 uCi/cc 1.81E+02 uCi/cc I-135 1.62E+03 uCi/cc I TOTAL CHARCOAL SAMPLE 6.06E404 uC1/cc DEI 131 2.02E+03 uC1/cc ,

t I flormal Sample (10 ml) Dose Rate at 1 ft.:

PASS Sample (1. ml) Dose kate at 1 it.:

PASS Sample (.1 ml) Dose Rate at I ft.:

600. mR/hr

60. mR/hr 6.0 mR/hr I

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OCNGS SCENARIO 2b I

ANNUAL EXERCISE REV NO O g TABLE A-3.41 g TORUS GAS ACTIVITY (T n 06:00) (

)

..~......m..... .

There it an analysis delay of up to 30 minutes after sampling Nuclide Concentratict IJ Kr-85 9.79E+00 uCi/cc Kr-85m 1.07E+02 uCi/cc g Kr-67 4.07E+01 uCi/cc g Kr-08 1.920+02 UCi/cc Xc-133 1.84E403 uC1/cc Xo133m 6.03E+01 uC1/cc Xe-135 l

4.95E+02 uC1/cc ju

......,a...--

TOTAL GAS SAMPLE 2.74E+03 uci/cc Dr-33 3.97E+01 uCj/cc I-131 1.33E+03 uCi/c0 1-132 5.34E+02 uC1/cc I-133 1.95E+03 uC1/cc I - 13.i 1.14E+02 uC1/cc I-135 1.44 E+03 uCi/cc E

. . . . . . . . . . . . g TOTAL CHARCOAL JAMPLE 5.41E+03 uCi/cc DEI 131 1.87E+03 uCi/cc i

Normal Sample (10 ml) Dose Rate at 1 ft.: 540. mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.: 54. mR/hr h PASS Sample (.1 ml) Doce Rate at I ft.: 5.4 mR/hr I

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E OCl4GS SCE!JARIO 25 ANiiUAL EXERCISE REV 110 0 TABLE A-3.4m >

TORUS GAS ACTIVITY (T = 06:30) (

)

There is an analysis delay of up to 30 minutes after sampling 11uclide Concentration Kr-85 9.41E+00 uC1/cc Kr-85m 9.50E+01 uCi/cc '

2.97E+01 uCi/cc

' l Kr-87

= Kr-88 1.63E+02 uCi/cc

e-133 1.77E+03 uC1/cc i Xe133m 5.76E+01 uCi/cc I Xe-135 4.87E+02 uCi/cc TOTAL GAS SAMPLE 2.61E+03 uC1/cc I Br-83 I-131 3.31E+01 uCi/cc 1.28E+03 uC1/cc I I-132 I-133 I-134 4.41E+02 uCi/cc 1.54E+03 uCi/cc 7.38E+01 uC1/cc E I-135 1.32E+03 uCi/cc i E

TOTAL CHARCOAL SAMPLE 4.99E+03 uC1/cc 1 DEI 131 1.78E+03 uCi/cc

!l Normal Sample (10 ml) Dose Rate at i ft.: 500, mR/hr l PASS Sample (1. ml) Dose Rate at 1 ft.: 50, mR/hr i I

PASS Sample (.1 ml) Dose Rate at 1 ft.: 5.0 mR/hr I.

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OCl1GS SCE!1ARIO 25 A!111UAL EXERCIST REV 110 0 g TABLE A-3.4n g

"'ORUS GAS ACTIVITY (T = 07:00) ( )

There is an analysis delay of up to 30 minutes after sampling 11uc11de Concentration Kr-85 9.41Le0' uCi/cc Kr-85m 8.78E+01 uCi/cc Kr-87 2.26E+01 uCi/ec Kr-88 1.44E+02 uCi/cc Xe-133 1.77E+03 uCi/cc Xe133m 5.72E+01 uCi/cc Xe 35 l

4.96E+02 uC1/cc y TOTAL GTS sal.uE 2.59E403 uCi/cc Br-83 2.86E+01 uCi/cc I-131 1.'7E+03 uCi/cc I 132 3 .E402 uCi/cc I-133 1.s1E+03 uCi/cc I-134 4.98E4 01 uCi /cc I-135 2.25E+03 uc./cc TOTAL WATER SAMPLE 4.79E+03 uC1/cc DEI 131 1.77E+03 uCi/cc 1

11ormal Sample (10 ml) Dose Rate at 1 ft.- 490. mR/hr PASS Sample (1. ml) Dose Rate at 1 ft.:

~

4: mR/hr PASS Sample ( .1 m .) Oose Rate at 1 ft.: 4. mR/hr I

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_.m_____ .______.____m_... .._____. _ _ __.. _____ _. _ ..__-- , _ . _ _ _ _ . . _ _ _ - . _ . - . _ _ . . _ . _ _ . _ . . _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

l AN!?UAL EXERCISg Scenal'io NO. 2b OCt1G S RE'V a C 1

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I Section A-3.6 RwActor Building Activity r

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, OCf1GS SCE!JARIO 25 ANNUAL EXERCISE REV 110 0 TABLE A-3.Sa REACTOR BLDG ACTIVITY (T = 00:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration TOTAL GAS SAMPLE As Found l DEI 131 As Found I TOTAL FILTER SAMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. I.1R/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr Not Air Sample Count Rate: cpm / min run I Air Sarple Contact Dose Rate:

<-2.

< 2. mrad /hr Floor Contamination: < 2. cpm /100cm2 i Wall and Equipment Contamination:

Personnel Contamination Rate:

< 2. cpm /100cm2

< 2. cpm /100cm2 per minute I

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OCliGT SCE14ARIO 25 I

A!I!1UA EXERCISE REV IJO O g TABLE A 3.Sb g REACTOR EL" ACTIVITY (T = 01 '0)

( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration TOTAL GAS SAMPLL As Found DEI 131 As Found TOTAL FI. OR SAMPLE As Found _

Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/

v Hyd ogen Cor ?nt;ation: .0%

Oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /ha Net Air barple count Rate: < 2. cpm / min run E Air Sample Ce act Dose Rate: < 2. n@ad/hr 3 Floor Contamination: < 2. cpm /100cm2 g Wall and Equipment Contamination: < 2. cpm /100cm2 g Personnel Contaminat ion Rate: < 2. cpm /100cm2 per r-.. ute I

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OCNGS SCEllARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.Sc REACTOR BLDG ACTIVITY (T = 01:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration TOTAL CAS SAMPLE As round I DEI 131 As Found I

TOTAL FILTER SAMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr Net Air Sample Count Rate: < 2. cpm / min run I Air Sample Contact Dose Rate: < 2. mrad /hr Floor Contamination: < 2. cpm /100cm2 i

I Wall and Equipment Contamination:

Personnel Contamination Rate:

< 2. cpm /100cm2

< 2. cpm /100cm2 pJr minuto i

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1 OCNuS SCENARIO 25 ANNUAL EXERCISE REV NO )

O E TABLE A-3.5d l )

REACTOR BLDG l.CTIV. TTY (T = 02:00) ( )

There is an analysis delay of up to 30 minutes after sampling '

Nuclido concentration TOTAL GAS SAMPLE As Foun.1 DEI 131 As Found TOTIL FILTER SAMPLE As Found 4 Undiluted Gas Sample (15 ml) Dose Rate at I ft.: < 2. mR/hr liydrogen concentration: .0%

Oxygen C.r..:entration: 21.01 Airborne Beta Done Rate: < 2. mrad /hr Net Air Sample Coutt Rate: < 2. cpm / min run l Air Sample Contact Dose Rate: < 2. mrad /hr u Floor Contamination: < 2. cpm /100cm2 g Wall and Equipment Contamination: < 2. cpm /100cm2 Pr~sonnel Contamination Rate: < 2. cpm /100cm2 per mAnate 5 I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I TABLE A-3.5e REACTOR BLDG ACTIVITY (T = 02:30) ( )

O There is an analysis delay of up to 30 minutes after san.pling Nuclide Concentration 4

TOTAL GAS SAMPLE As round I DEI 131 As round TOTAL FILTER SAMPLE As round Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 3. mR/hr Hydrogen Concentration: .0%

Oxygen concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr I Net Air Sample Count Rate:

Air Sample Contact Dose Rate:

< 2. cpm / min run

< 2. mrad /hr Ploor Contamination: < 2. cpm /200cm2 Wall and Equipment Contamination: < 2. cpm /100cm2 Personnel Contamination Rate: < 2. cpm /100cm2 per minute i

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7 OCNCS SCENARIO 25 I i Al<NUAL EXERCISE REV NO O TABLE A-3.Sf i REACTOR D'.3G ACTIVITY (T e 03:00) ( ) j L ore is an analysis delay of up to 30 minutes af ter sampling I, I Nuclide Concentration Kra85m 1.90E-10 uCi/cc I

Kr-87 1.97E-10 uCi/cc Fr-88 4.35E-10 uCi/cc Xe-133 1.09E-09 uCi/cc Xe133m 7.11E-11 uCi/cc Xe-135 4.40E-10 uCi/cc Xe-138 1.07E-10 uCi/cc TOTAL GAS SAMPLE 3.59E-09 u, /cc Br-83 1.09E-13 uCi/cc I-131 1.65E-12 uCi/cc I-132 1.50E-12 uCi/cc I-133 2.60E-12 uCi/cc I-134 1.12E-12 uCi/cc I-135 2.37E-12 uCi/cc TOTAL CHARCOAL SAMPLE 9.39E-12 uCi/cc DEI 131 2.40E-12 uCi/cc Rb-88 1.54E-11 uCi/cc TOTAL FILTER SAMPLE 3.85E-11 uCi/cc e

Undiluted Gas Sample (15 ml) Dose Rate at I ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr l "et Air Sample Count Rate: < 2. cpm / min run 5 Air Sample contact Dose Rate: < 2. mrad /hr Floor Contamination < 2. cpm /10^cm2 Wall and Equipment contamination: < 2. cpm /100cm2 Personnel Contaminaticn Rate: < 2. cpm /100cm2 per minute i

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.5g REACTOR BLDG ACTIVITY (T = 03:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 9.40E-10 uCi/cc Kr-87 8.19E-10 uC1/cc I Krn88 Xe-133 Xo133m 2.07E-09 uCi/cc 1.11E-08 uCi/cc 3.76E"10 uCi/cc 2.30E-09 uCi/cc I Xe-135 Xe-138 2.07E-10 uC1/cc TOTAL GAS SAMPLE 1.80E-08 uCi/cc Br-83 4.68E-13 uCi/cc I-131 8.00E-12 uCi/cc I I-132 I-133 I-134 6.38E-12 uC1/cc 1.25E-11 uCi/cc 3.84E-12 uCi/cc a I-135 1.10E-11 uCi/cc g _____...__..___

TOTAL CHARCOAL SAMPLE 4.23E-11 uCi/cc DEI 131 1.16E-11 uCi/cc Rb-88 1. 4; t-10 uC1/cc I Cs-138 TOTAL FILTER SAMPLE 1.31E-10 uCi/cc 2.78E-10 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr E Hydrogen Concentration: .0%

E Oxygen Concentration: 21.0%

Airborne Beta Do;e Rate: < 2. mrad /hr I Net Air Sample Count Rate:

Air Sample Contact Dose Rate:

9.1 cpm / min run

< 2. mrad /hr I Floor Contamination:

Wall and Equipment Contamination:

Personnel Contamination Rate:

< 2. cpm /100cm2

< 2. cpm /100cm2

< 2. cpm /100cm2 per minute I

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OCNGS SCENARIO 25 I '

ANNUAL EXERCISE REV NO O TABLE A-3.Sh REACTOP BLDG ACT7VITY (T = 04:00) ( )

There is an analysis delay of up to 30 minutes after sampling II Nuclide concentration Kr-85m 1.70E-09 uCi/cc Kr-87 1.25E-09 uC1/cc Kr-88 n

3.60E-09 uC 'cc Xe-133 2.15E-08 uC.fcc I Xe133m 7.25E-10 uCi/cc Xe-135 4.36E-09 uCi/cc E

_______________ g TOTAL GAS SAMPLE 3.35E-08 uCi/cc Br-83 7.22E-13 uCi/cc I-131 1.40E-11 uCi/cc I-132 9.79E-12 uCi/cc I-133 2.15E-11 uCi/cc I-134 4.77E-12 uCi/cc I-135 1.84E-11 uCi/cc g

TOTAL CHARCOAL SAMPLE 6.93E-11 uCi/cc 3 DEI 131 2.01E-11 uCi/cc Rt 88 2.97E-10 uCi/cc Cs-138 1.82E-10 uC1/cc TOTAL FILTER SAMPLE 4.87E-10 uCi/cc g

Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr Nec Air Sampie Coant Rate: 16. cpm / min run Air Sample Contact Dose Rate: < 2. mrad /hr Floor Contamination: < 2. cpm /100cm2 g Wall and Equipment Contamination: < 2. cpm /100cm2 Personnel Contsmination Rate: < 2. cpm /100cm2 3

per minute I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I TABLE A-3.51 REACTOR BLDG ACTIVITY (T = 04:30) (

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

)

O There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration I

Kr-85m 8.49E-06 uCi/cc Kr-87 5.66E-06 uCi/cc I Kr-88 Xe-133 1.74E-05 uCi/cc 1.16E-04 uCi/cc Xe133m 3.8SE-06 uCi/cc o I Xe-135 Xe-138 2.95E-05 uCi/cc 2.63E-06 uCi/cc h

TOTAL GAS SAMPLE 1.85E-04 uCi/cc I-131 1.47E-05 uCi/cc I-132 9.07E-06 uCi/cc I I-133

'"134 i+135 2.24E-05 uCi/cc 3.82E-06 uCi/cc 1.84E-05 uC1/cc TOTAL CHARCOAL SAMPLE 6.91E-05 uCi/cc DEI 131 2.10E-05 uCi/cc I Cs-134 2.88E-06 uCi/cc Cs-137 5.28E-06 uCi/cc I Cs-138 TOTAL FILTER SAMPLE 5.11E-06 uCi/cc 1.43E-05 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr I Hydrogen Concentration:

oxygen Concentration: 21.0%

.0%

Airborne Beta Dose Rate: 9.7 mrad /hr Net Air Sample Count Rate: 2.4E6 cpm / min run Air Sample Contact Dose Rate: 640. mrad /hr g Floor Contamination: < 2. cpm /100cm2 Wall and Equipment Contamination: < 2. cpm /100cm2 Personnel Contamination Rate: 11, cpm /100cm2 per minute I

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OCNGS SCENARIO 25 ANNUAL EXLa.'ISE REV NO 0 TABLE A-3.5j REACTOR BLDG ACTIVITY (T = 05:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-8Em #

1.45E+00 uCi/cc Kr-87 8.05E-02 uCi/cc Kr-88 2.84E+00 uCi/cc Xe-133 2.14E+01 uCi/cc Xe133m 7.09E-01 uC1/cc 1.. _ --

TOTAL GAS SAMPLE 3.29E+01 uCi/cc I-131 2.03E+00 uCi/cc I-132 1.09E+00 uCi/cc 1-133  ?.06E+00 uC1/cc I-134 3.65E-01 aci/cc I-135 2.43E+00 uCi/cc TOTAL CHARCOAL SAMPLE 9.05E+00 uCi/cc DEI 131 2.89E+00 uCi/cc Rb-88 1.91E-01 uCi/cc Cs-134 3.99E-01 uCi/cc Cs-137 7.32E-01 uC1/cc c -238 TOTAL FILTER SAMPLE

E:21.s!!::

1.82E+00 uC1/cc I

Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: I 2.5 mR/hr Hydroge- Concentration: .0%

Oxygt Concentration: 21.0%

Airborne Beta Dose Rate: 1.6E6 mrad /hr Net Air Sample Count Rate: 3.1E10 cpm / min run l Air Sample Contact Dose Rate: 8.5E7 mrad /hr Floor Contamination: 1.7E8 cpm /100cm2 Wall and Equipment Contamination: 1.7E7 cpm /100cm2 t

Fersonnel Contamination Rate: 1.4E6 cpn ?00cm2 por minute l

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O I TABLE A-3.5k REACTOR BLDG ACTIVITY (T = 05:30) (

)

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.25E+00 uCi/cc Kr-87 5.68E-02 uCi/cc I Kr-88 Xe-133 Xe133m 2.33E+00 uCi/cc 1.97E+01 uCi/cc 6.53E-01 uCi/cc I Xe-135 TOTAL GAS SAMPLE 4.80E400 uCi/cc 2.96E+01 uCi/cc 3-131 1 6E+00 uCi/cc ,,

I-132 .67E-01 uCi/cc ,

I-133 2.47E+00 uCi/cc I I-134 I-135 2.02E-01 uCi/cc 1.89E+00 uCi/cc TOTAL CHARCOAL SAMPLE 7.05E+00 uCi/cc DEI 131 2.35E+00 uCi/cc pI Rb-88 Cs-134 2.02E-01 uCi/cc 3.27E-01 uCi/cc Cs-137 6.01E-01 uCi/cc I Cs-138 TOTAL FILTER SAMPLE 2.24E-01 uCi/cc 1.37E+00 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: 2.2 mR/hr I Hydrogen Concentration:

Oxygen Concentration: 21.0%

.0%

Airborne Beta Dose Rate: 1.4E6 mrad /hr I Net Air Sample Count Rate: 2.4E10 cpm / min run Air Sample Contact Dose Rate: 8.4E7 mrad /hr I Floor Contamination: 3.4E8 cpm /100cm2 Wall and Equipment Contamination: 3.4E7 cpm /100cm2 Personnel Contamination Rate: 1.1E6 cpm /100cin2 per Ininute I

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OCNGS SCENARIO ;3 ANNUAL EXERCISE REV NO O TABLE A-3.51 REACTOR BLDG ACTIVITY (T = 06:00) ( )

There is an analysis delay of up to 30 minutes after Jampling Nuclide Concentration Kr-85m 1.07E+00 uci/cc Kr-87 4.00E-01 uCi/cc Kr-88 1.91E+00 uCi/cc Xe-133 1.83E+01 uCi/cc Xe131E 64 02E-01 uCi/cc Xe-135 /.31E+03 uCi/cc TOTAL GAS SAMPLE 2.67E+01 uCi/cc I-131 1.36E+00 uCi/cc I-132 5.41E-01 uCi/cc I-133 1.99E+00 uCi/ce, I-134 1.12E-01 uCi f cc I-135 1.47E+00 uCi/c -

TOTAL CIIARCOAL SAMPLE 5.52E+00 uC1/cc DEI 131 1.91E+00 uC1/cc Rb-88 1.77E-01 uCi/cc Cs-134 2.69E-01 uCi/cc Cs-137 4.93E-01 uC1/cc CS-iso 1.03E-01 uCifue TOTAL FILTER SAMPLE 1.05E+00 uci/cc se B

Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. nR/hr flydrogen concentrctior: .0%

oxygen Concentration 21.0%

As .orne Beta Dose Rate: 1200. mrad /hr 9e' Air Sample Count Rate: 1.9E8 cpm / min run Air Sample Contact Dose Rate: 8.3E4 mrad /hr Floor Contamination: 4.7ES cpm /100cm2 Wall and Equipm9nt Contamination: 4.7E4 cpm /100cm2 Personnel Con'camination Rate: 880. cpm /100cm2 per minute I

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I OCNGS SCENARIO 25 ANNUAL EXERC: '.E REV NO O TABLE A-3.5m REACTOR BLDG ACTIVITY (T = 06:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 9.14E-01 uCi/cc Kr-87 2.82E-01 uCi/cc Kr-88 1.56E+00 uCi/cc Xe-133 1.69E+01 uCi/cc Xc133m 5.54E-01 uCi/cc Xe-135 3.88E+00 uCi/cc TOTAL GAS SAMPLE 2.42E+01 uCi/cc I-131 1.12E+00 uCi/cc I-132 3,82E-01 uCi/cc I-133 1.61E+00 uCi/cc I I-134 I-135 6.17E-02 uCi/cc 3.15E+00 uCi/cc TOTAL CHARCOAL SAMPLE 4.34E+00 uCi/cc DEI 131 1.56E+00 uCi/cc k Rb-88 1.48E-01 uCi/cc h

Cs-134 2.20E-01 uCi/cc Cs-137 4.04E-01 uCi/cc Cs-138 4.61E-02 uCi/cc g# _______________

TOTAL FILTER SAMPLE 8.29E-01 uC1/cc Un ~1uted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr I Hydrogen Concentration:

Oxygen Concentration: 21.0%

.0%

I Airborne Beta Dose Rate: 1.1E6 mrad /hr Net Air Sample Count Rate: 1.5E10 cpm / min run Air Sample Contact Dose Rate: 8.2E7 mrad /hr Floor Contamination: 5.6E8 cpm /100cm2 hall and Equipment Contamination: 5.6E7 cpm /100cm2 Personnel Contamination Rate: 6.9ES cpm /100cm2 per minute I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O E TABLE A-3.5n g REACTO9 BLDG ACTIVITY (T = 07:00) ( )

-There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-P5m 7.82F-01 uCi/cc Kr-88 1.28E+C3 uCi/cc g X9-133 1.56E+01 uCi/cc g Xe133m 5.10E-01 uCi/cc ,

te-135 3. 4 E., -00 uCi/cc g

TOTAL GAS SAMPLE 2.20E+01 uCi/cc I-131 9.14E-01 uC1/cc I-132 2.70E-01 uCi/cc I-13; 1.30E+00 uCi/cc I-135 8.95E-01 uCi/cc -

g TOTAL CHARCOAL SAMPLE 3.43E+00 uCi/cc DEI 131 1.27E+00 uCi/cc Rb-88 1.22E-01 uCi/cc Cs-134 1.81E-01 uCi/cc g Cs-137 3.32E-01 uC1/cc g

TOTAL FILTER SAMPLE 6.63E-01 uCi/cc Undiluted Gas Sample 5 ml) Dose Rate at 1 ft.: < 2. mR/hr I

a Hyd 'ger. Concentration: .0%

C;.fgen Concentration: 21.0%

Airborne Btra Dose Rate: 9.5ES mrad /hr Net Air Sample Count Rate: 1.2E10 cpm / min run Air Sample Contact Dose Rate: 8.1E7 mrad /hr R

eloor Contamination: 6.3E8 cpm /100cm2 U Wall and Equai. ment Contamination: 6.3E7 cpm /100cm2 Personnel Contamination Rate: 5.5E5 cpm /100cm2 per minute I

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I ANNUAL EXERCISE OCNGS Scenario No. 25 Rev, O I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.6a

.l TURBINE BLDG ACTIVITY (T = 00:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration TOTAL GAS SAMPLE As Found I DEI 131 As Found I TOTAL FILTER SAMPLE As Found .

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Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%  !

Oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr I Net Air Sample Count Rate:

Air Sample Contact Dose Rate:

< 2. cpm / min run

< 2. mrad /hr Floor Contamination: < 2. cpm /100cm2 I Wall and Equipment Contamination:

Personne' Contamination Rate:

< 2. cpm /100cm2

< 2. cpm /100cm2 per minute I

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!~ OCNGS Rev. O I

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I OCNGS ANNUAL EXERCISE SCENARIO 25 REV NO O TABLE A-3.7a RAGEMS STACK ACTIVITY (T n 00:00 ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration I

Kr-85 1.99E-0C uti/cc TOTAL GAS SAMPLE 1. 99E-06 uti/cc I DEI 131 As Found TOTAL F.*LTER SAMPLE As Found I

Undiluted Gas Sample (15 ml) Dorre Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O TABLE A-3.7b RAGEMF STACK ACTIVITY (T = 01:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration l

Kr-85 1.99E-06 uC1/cc TOTAL GA SAMPLE 1 99E-06 uCi/cc DEI 131 As Found TOTAL FILTER SA:4PLE As Found g g

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Undilutt. Ts Sample (15 ml) Dose Rate at 1 ft.: s 2. mR/hr Hydrogen Cc centration:

Oxygen Concentration: 21.0%

.0% I I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.7c RAGEMS STACK ACTIVITY (T = 01:30) ( )

There is an anM ysis delay of up to 30 minutes after sampling I

uclide concentration Kr-85 1.99E-06 uCi/cc I TOTAL GAS SAMPLE 1.99E-06 uCi/cc DEI 131 As Found TOTAL FILTER SAMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.

< 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.7d g RAGEMS STACK ACTIVITY (T = 01:45) ( )

There is an analysir delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 2.42E-05 uCi/cc Kr-88 3.95E-05 uC1/cc Xe-133 S.10E-04 uCi/cc Xe133m 1.58E-05 uCi/cc Xe-135 1.07E-04 uCi/cc TOTAL GAS SAMPLE 5.97E-04 aCi/cc r

I-131 1.16E-09 uCi/cc I-132 1.67E-09 uCi/cc I-133 8.05E-09 uCi/cc I-135 5.54E-09 uCi/cc TOTAL CHARCOAL SAMPLE 2.12E-08 uCi/cc g'

DEI 131 7.86E-09 uCi/cc Rb-88 1.89E-09 uC1/cc Cs-134 2.80E-09 uCi/cc g Cs-137 5.14E-09 uCi/cc

_______________ E TOTAL FILTER SAMPLE 9.83E-09 uCi/cc Undiluted Gas Sample 15 ml; Dose Rate et 1 ft.: < 2. mR/hr I

en Hydrog.an Concentration:

Oxygan Concentration: 21.0%

.0% l_

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I TABLE A-3.7e RAGEMS STACK ACTIVITY (T = 02:00) ( )

O There is an analysis delay of up to 30 minutes af ter unpling Nuclide Concentration Kr-05m 4.00E-05 uCi/cc Kr-88 4.93E-05 uCi/cc Xe-133 5.12E-04 uCi/cc Xe133m 1.97E-05 uCi/cc Xe-135 1.34E-04 uC1/cc I TOTAL GAS SAMPLE 7.46E-04 uCi/cc I-131 7.07E-09 uCi/cc I I-132 I-133 2.08E-09 uC1/cc 1.00E-08 uCi/cc I-135 6.92E-09 uCi/cc I TOTAL CHARCOAL SAMPLE 2.55E-08 uC1/cc DEI 131 9.81E-08 uCi/cc Rb-88 2.37E-09 uCi/cc Cs-134 3.49E-09 uCi/cc Cs-137 6.42E-09 uCi/cc TOTAL FILTER SAMPLE 1.26E-08 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrog,a Concentration: .0%

Oxygen Concer.tration: 21.0%

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OCNGS. SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.7f g RACEMS STACK ACTIVITY /T = 32:15) ( )

There is an analysis delay of up to 30 minutes after sampling i Nuclide Concentration Kr-85m 4.03E-05 uCi/cc Kr-88 6.57E-05 uCi/cc g Xc-133 Xe133m 6.49E-04 uC3/cc g 2.63E-05 uCi/cc Xe-135 1.79E-04 uC1/cc TOTAL GAS SAMPLE 9.94E-04 uCi/cc l

[

1 I-131 9.42E-09 uCi/cc g I-132 2.78E-09 uCi/cc g I-133 1.34E-08 uCi/cc

' .35 9.21E-09 uCi/cc TOTAL CHARCOAL SAMPLE 3.53E-08 uCi/cc DEI 131 1.31E-08 uCi/cc Rb-88 3.15E-09 uCi/cc Cs-134 4.56E-09 uCi/cc g Cs-137 8.55E-09 uCi/cc g

TDTAL FILTER SAMPLE 1.68E-08 uC cc l

Undiluted Gas Sample (15 ml) Dose Race at 1 ft : < 2. mR/hr I

1.drogen Concentration: .0%

Oxygen Concent'ation: 21.0%

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-I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.7g RAGEMS STACK ACTIVITY (T = 02:30) ( )

There is an analysis delay of up to 30 minuten after sampling Nuc2ide Concentration I

Kr-85m 2.82E-06 uCi/cc Kr-88 4.59E-06 uCi/cc I Xe-133 Xe133m 4.77E-05 uCi/cc 1.84E-06 uCi/cc Xe-135 1.25E-05 uCi/cc I TOTAL GAS SAMPLE 6.95E-05 uCi/cc I-131 6.59E-10 uCi/cc I-132 3.94E-10 uC1/cc I-133 9.36E-10 uCi/cc I-135 6.44E-10 uCi/cc I TOTAL CHARCOAL SAMPLE 2.47E-09 uCi/cc DEI 131 9.14E-10 uCi/cc I- Rb-88 2.20E-10 uCi/cc Cs-134 3.25E-10 uCi/cc TOTAL FILTER SAMPLE 1.15E-09 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: <2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O TABLE A-3.7h RAGEMS STACK ACTIVITY (T = 02:45) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 3.21E-06 uCi/cc Kr-88 5.23E-06 uCi/cc Xe-133 5.44E-05 uCi/cc Xe133m 2.09E-06 uCi/cc Xe-135 1.43E-05 uCi/cc TOTAL GAS SAMPLE 7.91E-05 uCi/cc I-131 7.50E-10 uCi/cc I-332 2.21E-10 uCi/cc I-133 8.20E-10 uCi/cc 1-135 7.34E-10 uCi/cc TOTAL CHARCOAL SAMPLE 2.81E-09 uCi/cc DEI 131 3.04E-09 uCi/cc Rb-88 2.51E-10 uCi/cc Cs-334 3.71E-10 uCi/cc g Cs-137 6.81E-10 uCi/cc g

TOTAL FILTER SAMPLE 1.34E-09 uCi/cc Undiluted Gas Sample (15 ml) Dese Rate at 1 ft.: < 2. mR/hr I

am H"drogen Concentration: .0% l Oxygen Concentration: 21.0%

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1 OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.71 RAGEMS STACK ACTIVITY (T = 03:00) ( )

1 E There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration I

Kr-85m 3.44E-06 uCi/cc Kr-88 5.61E-06 uCi/cc Xe-133 5.83E-05 uCi/cc Xe133m 2.24E-06 uCi/cc Xe-135 1.53E-05 uC1/cc I TOTAL GAS SAMPLE 8.49E-05 uCi/cc I-131 8.05F-10 uCi/cc I I-132 I-133 2.38E-10 uCi/cc 1.14E-09 uCi/cc I-135 7.88E-10 uCi/cc I TOTA CHARCOAL SAMPLE 3.02E-09 uCi/cc DEI 131 1.12E-09 uCi/cc Rb-88 2 69E-10 uCi/cc Cs-134 3 BE-10 uCi/cc I c - >>

>c:12esier:

TOTAL FILTER SAMPLE 1.43E-09 uCi/cc Undi) ted Cas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/"'

Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 ANNUAL EXERCI E REV NO O g TABLE A-3.7j g RAGEMS STACK ACTIVITY (T = 03:15) ( )

There is a:. analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 3.71E-06 uCi/cc Kr-88 6.06E-06 uCi/cc g Xe-133 6.30E-05 uCi/cc g Xe133m 2.42E-06 uCi/cc Xe-135 1.65E-05 uCi/cc g

TOTAL GAS SAMPLE 9.17E-05 uCi/cc p I-131 8.69E-10 uCi/cc g 1-132 2.57E-10 uCi/cc g I-133 1.24E-09 uCi/cc I-135 8.50E-10 uCi/cc TOTAL CHARCOAL SAMPLE g

3.26E-09 uCi/cc DEI J31 1.21E-09 uCi/cc Rb-88 2.91E-10 uCi/cc Cs 4.29E-10 uCi/cc g Cs-137 7.89E-10 uCi/cc g

TOTAL FILTER SAMPLE 1.55E-09 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr an Hydrogen Concentration: .0% l Oxygen concentration: 21.0%

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I OCNGS SCENARIO 25 1

l ANNUAL EXERCISE REV NO O I- TABLE A-3.7k RAGEMS STACK ACTIVITY (T = 0? 30) ( )

There is-an analysis delay of up to 30 minutes after sampling Nuclide- Concentration Kr-85m 4.03E-06 uCi/cc Kr-88 6.57E-06 uCi/cc Xe-133 6.83E-05 uCi/cc Xe133m 2.63E-06 uCi/cc Xe-135 1.79E-05 uCi/cc I TOTAL GAS SAMPLE 9.94E-05 uCi/cc 9.42E-10 uCi/cc I

I-131 I-132 2.78E-10 uC1/cc I-133 1.34E-09 uCi/cc I-135 9.21E-10 uCi/cc I TOTAL CHARCOAL SAMPLE 3.53E-09 uC1/cc DEI 131 1.31E-09 uCi/cc Rb-88 3.15E-10 uCi/cc Cs-134 4.66E-10 uCi/cc

-I Cs-137 8.55E-10 uCi/cc TOTAL FILTER SAMPLE 1.68E-09 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O 3 TABLE A-3.71 g RAGEMS STACK ACTIVITY (T = 03:45) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 4.03E-06 uC1/cc Kr-88 6.57E-06 uC1/cc Xe-133 6.83E-05 uCi/cc Xe133m 2.63E-06 uC1/cc Xe-135 1.79E-05 uCi/cc g

TOTAL GAS SAMPLE 9.94E-05 uCi/cc W I-131 9.42E-10 uCi/cc g 1-132 2.76E-20 uC1/cc g I-133 1.34E-09 uCi/cc I-135 9.22E-10 uCi/cc TOTAL CHARCOAL SAMPLE 3.53E-09 uCi/cc DEI 131 1.31E-09 uCi/cc Rb-88 3.15E-10 uCi/cc Cs-134 4.66E-10 uCi/cc g Cs-13? 8.55E-10 uCi/cc g TOTAL FILTER SAMPLE 1.68E-09 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr I

as Hydrogen Concentration: .0% l Oxygen concentration: 21.01.

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.7m RAGEMS STA7K ACTIVITY (T = 04:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85r 3.91E-06 uCi/cc Kr-88 6.38E-06 uCi/cc Xe-133 6.63E-05 uCi/cc Xe133m 2.55E-06 uCi/cc Xe-135 1.74E-05 uCi/cc I TOTAL GAS SAMPLE 9.65E-05 u:i/cc r

I-131 9.15E-10 uC./cc I-132 2.7 : -10 uCi ' cc I-133 1.30E-09 uC. :c I-135 8.95E-10 uC.';c I TOTAL CHARCOAL SAMPLE 3.43E-09 uCi/cc DEI 131 1.27E-09 uCi/cc Rb-88 3.06E-17 uCi/cc Cs-134 4.52E- . uC1/cc TOTAL FILTER SAMPLE 1.63E-09 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: ' 2. mR/

Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.7n g RAGEMS STACK ACTIVITY (T = C4:35) ( )

There is an analysis delay of u) o 30 minutos after sampling Nuclide Concentration Kr-85m 4.42E-06 uCi/cc Kr-88 7.21E-06 uC1/cc g Xe-13' Xe1333.

7.49E-05 uCi/cc g 7 38E-06 uCi/cc Xe-135 .97E-05 uCi/cc TOTAL GAS SAMPLE 1.09E-04 uCi/cc I-131 1.03E-09 uC1/cc g I-132 3.05E-10 uCi/cc g I-133 1.47E-09 uCi/cc I-135 1.01E-09 uCi/cc TOTAL CHARCOAL SAMPLE 3.88E-09 uC1/cc DEI 131 1.44E-09 uCi/cc Rb-88 3. 4 GE-10 ti"i/cc Cs-134 5.12E-10 uCi/cc g Cs-137 9.38E-10 uCi/cc g

TOTAL FILTER SAMPLE 1.84E-09 uCi/cc Undiluted Gas Sample (15 m:~ Dose Rate at i ft.: < 2. mh/hr I

am Hydr.aen Concentration: .0% l Oxygen Concentration: 21.0%

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I l I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I

O TABLE A-3.7o

,' RAGEMS STACK ACTIVITY (T = 04:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 4.85E-06 uCi/cc 4

Kr-88 7.91E-06 uCi/cc

,I Xe-133 8.22E-05 uCi/cc Xe133m 3.16E-06 uC1/cc Xe-135 2.16E-05 uCi/cc f

I TOTAL GAS TAMPLE 1.20E-04 uCi/cc I-131 1.13E-09-uCi/cc I I-132 I-133 3.35E-10 uCi/cc 1.61E-09 uCi/cc I-135 1.11E-09 uCi/cc I TOTAL CHARCOAL SAMPLE 4.25E-09 uCi/cc DEI 131 1.57E-09 uCi/cc Rb-88 3. -E-10

./cc Cs-134 5.60E-10 .i/cc TOTAL FILTER SAMPLE 2.02E-09 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O 3 TABLE A-3.7p g RAGEMS STACK ACTIVITY (T = 04:45) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85 1.99E-06 uCi/cc TOTAL GAS SAMPLE 99E 06 uC c DEI 131 As Found

, TOTAL FILTER SAMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at I ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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p Equi I OCNGS SCENARIO 25 -

ANNUAL EXERCISE REV NO O TABLE A-3.7q RAGEMS STACK ACTIVITY (T = 05:00) ( '

There is an c nalys a elay of up to 30 minutes after sampling Nucl..e Concentration Kr-85 1.99E-06 uCi/cc a TOTAL GAS SAMPLE 1 9 E 06 i c I DEI 131 A t, F^und i

TOTAL FILTER SAMPLE As Found I

I Undiluted Gas Sample (15 ri) Dose Rate at 1 ft.: < 2. m2/hr I Hydrogen Concentration:

Oxygen Concentration: 21.0%

.0%

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O g TABLE A-3.7r g RAGEMS STACK 'CTIVITY (T = 05:15) (

)

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 3.79E-01 uCi/cc Kr-88 6.19E-01 uCi/cc g Xe-133 6.43E+C0 uC1/cc E Xe133m 2.47E-01 uC1/cc Xe-135 1.69E+00 uCi/cc TOTAL GAS SAMPLE l

9.37E+00 uCi/cc 5 I-131 8.87E-05 uCi/cc g I-1 2.62E-05 uCi/cc g I-1. 3 1.26E-04 uCi/cc I-135 8.68E-05 uCi/cc TOTAL CMARCOAL SAMPLE 3.33E-04 uCi/cc DEI 131 1.23E-04 uCi/cc Rb-88 2.97E-05 uCi/cc Cs-134 4.38E-05 uCi/cc g Cs-137 8.05E-05 uCi/cc g TOTAL FILTER SAMPLE 1.58E-04 uCi/cc Unciluted Gas Sampte (15 ml) Dose Rate at 1 ft.: < 2. mR/hr I

as Hydrogen Concentration: .0% ll Oxygen Concentration: 21.0%

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E OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-3.7s RAGEMS STACK ACTIVITY (T = 05:30) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 3.69E-01 uCi/cc Kr-88 6.02E-01 uCi/cc I Xe-133 Xe133m 6.25E+00 uCi/cc 2.41E-01 uCi/cc Xe-135 1.64E+00 uCi/cc I TOTAL GAS SAMPLE 9.10E+00, uCi/cc n

I-131 8.63E-05 uCi/cc I I-132 I-133 2.55E-05 uCi/cc 1.23E-04 uC1/cc I-135 8.44E-05 uCi/cc I TOTAL CHARCOAL SAMPLE 3.24E-04 uCi/cc DEI 131 1.20E-04 uCi/cc I. Rb-88 2.89E-05 uCi/cc Cs-1?4 4.26E-05 uCi/cc TOTAL FILTER SAMPLE 1.54E-04 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.01 I

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Il OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O g TABLE A-3.7t gi RAGEAS STACK ACTI\ITY (T = 05:45) ( )

There 10 an analysis delay of up to 30 1 outes after sampling Il Nuclidu Concentration Kr-85m 3.59E-01 uCi/cc Kr-88 5.85E-01 uCi/cc a Xe-133 6.08E+00 uC1/cc gi Xe' '1m 2.34E-01 uCi/cc '

Xe J5 1.60E+00 uCi/cc g

TOTAL CAS SAMPLE 8.86E400 uC1/cc E i I-131 8.39E-05 uCi/cc g I-132 2.48E-05 uCi/cc p' I-131 1.19E-04 uC1/cc I-135 8.31E-05 uC1/cc TOTAL CHARCOAL SAMPLE 3.15E-04 uCi/cc DEI 131 1.17E-04 uCi/cc '

Rb-88 2.81E 65 uCi/cc Cs-134 4.15E-J5 uC1/cc g Cs"137 7.62E-05 uti/cc g TOTAL FILTER SAMPLE 1.50E-04 uC1/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR,hr I

Hydrogen Cencentration: .0%

Oxygen Concentration: 21.0A I

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I OCllGS SCE!1ARIO 25 A1111UAL EXERCISE REV 110 0 TABLE A-3.7u RAsEMS STACK ACTIVITY (T = 06:00) ( )

There ist an analysis delay of up to 30 minuten after nampling l

!Juclide Concentration I Kr-85m 3.56E- 1 uCi/cc l

l Kr-88 5.80E-01 uC1/cc Xe-133 6.03E+00 uC1/cc Xe133m 2.32E-01 uC1/cc Xe-135 1.58E+00 uC1/cc

, I TOTAL GAS SAMPLE 8.77E+00 uCi/cc 8.32E-05 uCi/cc I

I-131 I-132 2.46E-05 uCi/cc I-133 1.18E-04 'JCi/cc I-135 8.14E-05 uCi/cc

]

TOTAL CHARCOAL SA!PLE 3.12E-04 uCi/cc j DEI 131 1.16E-04 uCi/cc Rb-88 2.78E-05 uCi/cc Cs-134 4.12E-05 uC1/cc TOTAL FILTER SAMPLE 1.48E-04 uC1/cc Undiluted Gas Sample (15 ml) Dose Ra'e at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen concentration: 21.0%

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OCllCS SCE!JARIO 25 I

A!J11UAL EXERCISE REV 110 0 g TABLE A-3.7v g RAGLMS STACK ACTIVITY (T = 06:15) ( )

There is an analysis delay of up to 30 minutes after camplinq lluclide Concentration Kr-85m 3.49E-01 uC1/cc Kr-88 5.70E-01 uCi/cc g Xc-133 5.92E+00 uCi/cc g Xc133m 2.28E-01 uCi/cc Xe-135 1.55E+00 uC1/cc TOTAL CAS SAMPLE 8.62E400 uCi/cc 1-131 8.17E-05 uC1/cc I-132 E 2.41E-05 uC1/cc g I-133 1.16E-04 uC1/cc I-135 7.99E-05 uCi/cc TOTAL CilARCOAL SAMPLE 3.06E-04 uCi/cc DEI 131 1.13E-04 uCi/cc Rb-88 2.73E-05 uCi/cc Cs-134 4.04E-05 uC1/cc 3 Cs-137 7.41E-05 uti/cc g t TOTAL FILTER SAMPLE 1.46E-04 uC1/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr I

== _

Hydrogen Concentration: .0% h Oxygen Concentration: 21.0%

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l OCNGS SCEllARIO 25 l

AltllUAL EXERCISE REV 110 I

0 TABLE A-3.7w RAGEMS STACK ACTIVITY (T = 06130) ( )

There is an analysis delay of up to 30 minutes after sampling Nuc1ide Concentration  ;

... ... ...... ... .... i Kr-85m 3.40E-01 uC Oc  !

Kr-88 5.55E-01 uC1fcc Xe-133 5.77E+00 uC1/cc Xe133m 2.22E-01 uCi/cc l Xe-135 1.51E+00 uCi/cc  !

I TOTAL GAS SAMPLE 8.39E+00 uCi/cc I-131 7.96E-05 uCi/cc I 1-132 I-133 2.35E-05 uC1/cc 1.13E-04 uCi/cc l

I-135 7.78E-05 uCi/cc I TOTAL CHARCOAL SAMPLE 2.98E-04 uCi/cc DEI 131 1.10E-04 uC1/cc Rb-88 2.G6E-05 uCi/cc Cs-134 3.93E-05 uCi/cc I "- '

'.22E33,uggc ,

TOTAL FILTER SAMPLE 1.42E-09 uC1/00 Undiluted Gas Sample (15 ml) Dose Rate at i ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O g TABLE A-3.7x g' RAGEMS STACK ACTIVITY (T = 06:45) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 3.29E-01 uCi/cc Kr-88 4.53E-01 uCi/cc g Xc-133 5.890+00 uC1/cc g Xe133m 2.15E-01 uC1/cc Xe-135 1.47E+00 uCi/cc TOTAL GAS SAMPLE 8.13E+00 uCi/cc I-131 7.71E-05 uC1/cc 3 I-132 2.28E-05 uC1/cc g I-133 1.10E-05 uCi/cc I-135 7.54E-05 uC1/cc TOTAL CHARCOAL SAMPLE 2.89E-05 uC1/cc DEI 131 1.07E-05 uC1/cc Rb-88 2.58E-05 uC1/cc Cs-134 3.81E-05 uCi/cc g Cs-137 6.99E-05 uCi/cc g

TOTAL FILTER SAMPLE 1.37E-04 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr I

am Hydrogen Concentration: .04 l Oxygen Concentration: 21.01 I

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I OClJGS SCE!;ARIO 25 A1111UAL EXERCISE I TADLE A-3.7y RAGEMS STACE ACTIVITY (T = 0 :00) (

REV 110

)

0 There is an analysis delay of up to 30 minuten after campling

!Juclide Concentration Er-85m 3.27E-01 uCi/cc Er-88 5.34E-01 uCi/cc Xe-133 5.54E400 uCi/cc Xe133m 2.13E-01 uCi/cc Xe-135 1.46E400 uCi/cc I TOTAL GAS SAMP E B.07E+00 uC1/cc 7.65E-05 uCi/cc I a $31

.;I

1.'. 3 2.59E-05 uCi/cc 1.09E-04 uCi/cc 1 1 *, ' 7.49E-05 uci/cc I TOTAL CFaRCOAL SAMPLE 2.87E-04 uCi/cc DEI 131 1.0(E-04 uCi/cc ,

Rb-88 2.56E-05 uC1/cc Cs-134 3.78E-05 uCi/cc TOTAL F7 ~"R SAMPLE 2.36E-04 uCi/cc Undiluted Gas Sample (15 ml) Done Rate at i ft.: < 2. mR/hr liydrogen Concentration: .0%

r ~en Concentration: 21.0%

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lI Alif;UAL EXERCISE Scenario flo. 2, '

i OCl4G S Fev. O i ,

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I SEction A-3.8

• mfuel Floor Activity l

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OCllGS SCE!JARIO 25 A11tJUAL EXERCISE REV 140 0 2

TABLE A-3.8a  ;

1 l

REFUEL FLOOR ACTIVITY (T = 00:00) ( )

There is an analysis delay of up to 30 minutes after sampling fluclide Concentration TOTAL GAS SAMPLE As Found i

I DEI 131 As Found l

I TOTAL FILTER SAMPLE As Found Undiluter ::as Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr g liet Air Sample Count Rate: < 2. cpm / min run 3 Air Sample Contact Dose Rate: < 2. mrad /hr Floor Contamination: < 2. cpm /100cm2 I Wall and Equipment Contamination:

Per..onnel Contamination Rate:

< 2. cpm /100cm2

< 2. cpm /100cm2 per minute I

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OCl1GS SCE!1ARIO 25 I

AliffUAL EXERCISE REV lio 0 3 TABLE A-3.8b g REFUCL FLOOR ACTIVITY (T = 01:00) (

)

Tht e is an analysis delay of up to 30 minutes after sampling

!Juclide Concentration TOTAL CAS SAMPLE As Found DEI 131 As Found TOTAL FILTER SAMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at I ft.: < 2. mR/hr flydrogen Concentration: .0%

Oxygen Concentration: 21.01, Airborne Beta Dose Rate: < 2. mE /hr 11ct Air Sample Count Rate: < 2. cp:. *in run g Air Sample Contact Dose Rate: <

• mRao/hr N Floor Contamination: < 2. cpm /100cm2 g Wall and Equipment Contamination: < 2. cpr '100cm2 g Personnel Contamination Rate: < 2. cpi 100cm2 por mi: .t e I

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I OC11GS SCE!JARIO 25 AN!iUAL EXERCISE REV 110 0 TABLE A-3.8c REFUEL FLOOR ACTIVITY (T = 01:30) ( )

There is an analysis delay of up to 30 minutes after sampling liuclide Concentration TOTAL GAS SAMPLE As Found I DEI 131 As Found I TOTAL FILTER SAMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

Air rne Beta .ase Rate < 2. mrad /hr I Net A.r Sample Count Rate:

Air Sample Contact Dose Rate:

< 2.

< 2.

cpm / min run mrad /hr Floor contamination: < 2. cpm /200cm2 I Wall and Equipment Contamination:

Personnel Contamination Rate:

< 2. cpm /100cm2

< 2. cpm /100cm2 por minute I

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OCilGS ScLIJARIO 25 I

All!1UAL EXERCISE REV 140 0 3 TAllLE A-3.Dd g REFUEL PLOOR ACTIVITY (T = 02:00) (

)

There is an analysis delay of up to 30 minutes after campling Nuclide Concentration TOTAL GAS SAMPLE As Found DEI 131 As round TOTAL TILTER ShMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Ilydrogen Concentration: .0%

0xygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr flot Air Sample Count Rate < 2. cpm / min run g Air Sample Contact Dose Rate: < 2. mrad /hr 5 Floor Contamination: < 2. cpm /100cm2 g Wall and Equipment contamination: < 2. cpm /100cm2 g Personnel Contamination Rate: s 2. cpm /100cm2 per minute I

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I OCllGS SCE!1ARIO 25 Afil1UAL EXERCISE REV 110 I

0 TABLE A-3.8e REFUEL FLooll ACTIVITY (T = 02:30) ( )

There is an analysis delay of up to 30 minutes after sampling 11uc3ide Concentration TOTAL GAS 3 AMPLE As Found DEI 131 As Found I TOTAL FILTER SAMPLE As Found Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr liydrogen Concentration: .0%

Oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr I flot Air Sample Count Rate:

Air Sample Contact Dose Rate:

< 2.

< 2.

cpm / min run mrad /hr Floor Contamination: < 2. cpm /100cm2 I Wall and Equipment Contamination:

Personnel Contamination Rate:

< 2. cpm /100cm2

< 2. cpm /100cm2 per minute I

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1 OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O g TABLE A-3.8f g RZTUEL TLOOR ACTIVITY (T = 03*00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.90E-10 uCi/cc Kr-87 1.97E-10 uCi/cc g Kr-88 4.35E-10 uCi/cc g Xe-133 2.09E-09 uC1/cc Xe133m 7.11E-11 uCi/cc Xe-135 4.40E-10 uCi/cc Xe-138 1.07E-10 uC1/cc T^TAL GAS SAMPLE 3.59E-09 uC1/cc Br-83 1.09E-13 uCi/cc I-131 1.65E-12 uCi/cc I-132 1.50E-12 uCi/cc I-133 2.60E-12 uci/cc I-134 1.12E-12 uCi/cc I-135 2.37E-12 uCi/cc E 3

TOTAL CHARCOAL SAMPLE 9.39E-12 uCi/cc DEI 131 2.40E-12 uCi/cc Rb-88 1.54E-11 uC1/cc TOTAL FILTER SAMPLE 3.85E-11 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at i ft.: < 2. mR/hr I

Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr E Not Air Sample Count Rate < 2. cpm / min run W Air Sample Contact Dose Rate: < r. mrad /hr Floor Contamination: < 2. cpm /100cm2 Wall and Equipment Contamination: < 2. cpm /100cm2 Per;;anel Contamination Rate: < 2. cpm /100cm2 per minute I

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I OCNGS SCE!1ARIO 25 A!1NUAL EXERCISE REV NO O TABLE A-3.8g REFUEL FLOOR ACTIVITY (T = 03:30) (

)

There is an annlysis delay of up to 30 minutes after campling Nuclide Concentration

r-85m 9.40E-10 uCi/cc Kr-87 8.19E-10 uCi/cc I Kr-88 Xc-13J Xe133m 2.07E-09 uCi/cc 1.11E-08 uCi/cc 3.76E-10 uCi/cc I Xe-135 Xe-138 2.30E-09 uCi/cc 2.07E-10 uCi/cc TOTAL GAL SAMPLE 1.80E-08 uCi/cc Br-83 4.68E-13 uCi/cc I-131 8.00E-12 uCi/cc I I-132 I-133 I-134 6.38E-12 uCi/cc 1.25E-11 uC1/cc 3.84E-12 uCi/cc I I-135 TOTAL CHARCOAL SAMPLE 1.10E-11 uC1/cc 4.23E-11 t.

1/cc DEI 131 1.16E-11 uCi/cc Rb-88 J.42E-10 uCi/cc I Cs-138 TOTAL FILTER SAMPLE 1.31E-10 uCi/cc 2.78E-10 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr Hydrogen Cormentration: .0%

Oxygen Ccncentration: 21.0%

I Airborne Beta Dose Rate:

Net Air Sample Count Rate:

Air Sample Contact Dose Rate:

< 2. mrad /hr 9.1 cpm / min run

< 2. mrad /h Floor Contamination < 2. cpm /100cm2 W: Il and Equipment Contamination: < 2. cpm /100cm2 Personnel Contamination Rate: < 2. cpm /100cm2 per minute l

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OCilGS SCEllARIO 25 I

AlillUAL EXERCISE REV 110 0 g TAl3LE A-3. 8h 3 REFUEL FLOOR ACTIVITY (T = 04:00) ( )

There is an analysis delay of up to 30 minutes after sampling 11uc11de Concentration Kr-85m 1.70E-09 uCi/cc Kr-87 1.25E-09 uCi/cc g Kr-88 3.60E-09 uCi/cc 5 Xe-133 2.15E-08 uCi/cc Xe133m 7.25E-10 uCi/cc TOTAL GAS SAMPLE 3.35E-08 uCi/c:

Br-83 7.22E-13 uC1/cc I-131 1.40E-11 uCi/cc I-132 9.79E-12 uCi/cc I-133 2.15E-11 uCi/cc I-134 4.77E-12 uCf./cc I-135 1.84E-11 uCi/cc g

TOTAL CHARCOAL SAMPLE 6.93E-11 uCi/cc 5 EEI 131 2.01E-11 uCi/cc Rb-88 2.97E-10 uCi/cc Cs-138 1.82E-10 uC1/cc TOTAL FILTER SAMPLE 4.87E-10 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at I ft.: < 2. mR/hr Hydrogen Concentration: .0%

oxygen Concentration: 21.0%

Airborne Beta Dose Rate: < 2. mrad /hr Fet Air Sample Count Rate: 16. cpm / min run l Air Sample Contact Dose Rate: < 2. mrad /hr y Floor Contamination: < 2. cpm /100cm2 3 Wall and Equipment Contamination: < 2. cpm /100cm2 3 Personnel Contamination Rate: < 2. cpm /100cm2 per minute I

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I O. <S SCEllARIO 25 A!!!JUAL EXERCISE REV 140 0 I . ... . .

TABLE A-3.81 REFUEL FLOOR ACTIVITY (T - 04:30) (

) I There is L: analysis delay of up to 30 minutes af ter sarnpling fluclide Concentration Kr-85m 8.49E-06 uCi/cc Kr-87 5.66E-06 uCi/cc Kr-88 1.74E-05 uCi/cc Xe-133 1.16E-04 uC1/cc Xe133m 3.85E-06 uCi/cc I Xe-135 Xe-138 2.95E-05 uC1/cc 2.63E-06 uCi/cc TOTAL GAS SAMPLE 1.85E-04 uC1/cc I-131 1.47E-05 uC1/cc I-132 9.07E-06 uCi/cc I I-133 I-134 I-135 2.24E-05 uCi/cc 3.82E-06 uCi/cc 1.84E-05 uCi/cc I

TOTAL CHARCOAL SAMPLE 6.91E-05 uCi/cc DEI 131 2.10E-03 uC1/cc Cs-134 2.88E-06 uCi/cc Cs-137 5.28E-06 uCi/cc l "-

• TOTAL FILTER SAMPLE 5'2':22 " 9 1.43E-05 uci/cc I Undiluted Gas Sample (15 ml) Dose Rate at i ft.: < 2. mR/hr I Hydrogen Concentration:

Oxygen Concentration: 21.0%

.0%

I Airborne Beta Dose Rate:

liet Air Sample Count Rate: 2.4E6 cpm / min run Air Sample Contact Dose Rate:

9.7 mrad /hr 640. mrad /hr Floor Contamination: < 2. cpm /100cm2 Wall and Equipment Contamination: < 2. cpm /100cm2 Personnel Contamination Rate: 11. cpm /100cm2 per minute i

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OCNGS SCE!1ARIO 25 I

ANNUAL EXEPCISE RIN 140 0 g TABLE A-3.8j g REFUEL PLOOR ;CTIVITY (T = 05:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.45E+00 uCi/cc Kr-87 8.05E-02 uC1/cc g Kr-88 2.84E+00 uCi/cc g Xe-133 2.14E+01 uCi/cc Xe133m 7.09E-01 uCi/cc Xe-135 5.32E+00 uCi/cc E

___ . ___ -__-- E TOTAL GAS SAMPLE 3.29E+01 uCi/cc I-131 2.('E+00 uCi/cc I-132 1.t>E+00 uCi/cc I-133 3.06E+00 uCi/cc I-124 3.65E-01 uC1/cc I-135 2.43E+00 uCi/cc TOTAL CHARCOAL SAMPLE 9.05E+00 uCi/cc DEI 131 2.89E+00 uCi Rb-88 1.91E-01 uCi/cc Cs-134 3.99E-01 uCi/cc Cs-137 7.32E-01 uCi/cc TOTAL FII-TER SAMPLE 1.82E+00 uCi/cc

== _

Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: 2.5 mR/hr E'

Hydrogen Concentration: .0%

Or 7en Concentration: 21.0%

Airborne Beta Dose Rate: 1.6E6 mrad /hr E Not Air Sample Count Rate: 3.1E10 cpm / min run 5 Air Sample Contact Dose Rate: 8.5E7 mrad /hr Floor Contamination: 1.7E? cpm /100cm2 Wall and Equipmer;t Contamination: 1.7E7 cpm /100cm2 Personnel amination Rate: 1.4E6 cpm /300cm2 per minute I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO i

I TABLE A-3.8k REFUEL FLOOR ACTIVITY (T = 05:30) ( )

O There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.25E+00 uCi/cc Kr-87 5.68E-02 uCi/cc I Kr-88 Xc-133 2.33E+00 uCi/cc 1.97E401 uC1/cc Xe133m 6.53E-01 uCi/cc I Xe-135 TOTAL GAS SAMPLE 4.80E+00 uCi/cc 2.96E+01 uC1/cc I-131 1.66E+00 uCi/cc I-132 7.67E-01 uCi/cc I-133 2.47E+00 uC1/cc I-134 2.02E-01 uC1/cc I-135 1.89E+00 uCi/cc TOTAL CilARMAL SAMPLE 7.05E+00 uCi/cc DEI 131 2.35E+00 uCi/cc I Ro-88 Us-134 2.02E-01 uCi/cc 3.27E-01 uCi/cc Cr - 13 7 6.01E-01 uCf/cc I Cs-138 TOTAL FILTER SAMPLE 2.24E-01 1.37E+00 uCi/cc uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: 2.2 mR/hr I Hydr ogen Concentration:

Oxygen Concentration: 21.0%

.0%

I Airborne Beta Dose Rate: 1.4E6 mrad /hr Not Air Sample Count Rate: 2.4E10 cpm / min run Air Sample Contact Dose Rate: 8.4E7 mrad /hr Floor Contamination: 3.4EE cpm /100cm2 Wall and Equipment Contamination: 3.4E7 cpm /100cm2 Personnel Contamination Rate: 1.1E6 cpm /100cm2 per minute i

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OCNGS SCENARIO 25 I

ANNUAL EXERCISE REV NO O TABLE A-3.81 3

g REFUEL FLOOR ACTIVITY (T = 06:00) ( )

There is an analysis delay of up to 30 minutes after sampling Nuclide Concentration Kr-85m 1.07E+00 uCi/cc Kr-87 4.00E-01 uC1/cc Kr-88 1.91E+00 uCi/cc Xe-133 1.83E401 uCi/cc Xe133m 6.02E-01 uCi/cc Xe-135 4.31E+03 uCi/cc E

............. _ g TOTAL GAS SAMPLE 2.67E+01 uC1/cc I-131 3.36E+00 uCi/cc l{

1-132 5.4 3 E-01 uCi/cc: l' I-133 1.99E+00 uCi/cc I-134 1.12E-01 uCi/cc I-135 1.47E+00 uCi/cc TOTAL CHARCOAL SAMPLE 5.52E+00 uCi/cc DEI 131 1.91E+00 uCi/cc Rb-88 1.77E-01 uCi/cc Cs-134 2.69E-01 uCi/cc Cs-337 4.93E-01 uC1/cc TOTAL FILTER SAMPLE 1.05E+00 uCi/cc m -

Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mRfhr Hydrogen Concentration:

Oxygen Concentration: 21.0%

.ot l

Airborne Beta Dose Rate: 1200. mrad /hr Net Air Sample Count Rate: 1.9E8 cpm / min run Air Sample Contact Dose Rate: 8.3E4 mrad /hr Floor Contamination: 4.7E5 cpm /100cm2 Wall and Equipment Contamination: 4.7E4 cpm /100cm2 Personnel Contamination Rate: 880. cpm /100cm2 per minute I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO I TABLE A-3.8m REFUEL TLOOR ACTIVITY (T = 06:30) ( )

O There is an analysis delay of u}, to 30 minutes after sampling Nuclide Conc + nt r ::*:i an Kr-85m 9.14E-01 uCi/cc Kr-87 2.82E-01 uC1/cc I Kr-88 Xe-133 Xe133m 1.56E+00 uC1/cc 1.69E+01 uCi/cc 5.54E-01 uCi/cc Xo-135 3.88E+00 uCi/cc TOTAL GAS SAMPLE 2.42E+01 uCi/cc I-131 1.12E+00 uCi/cc I-132 3.82E-01 uC1/cc I+133 1.61E+00 uCi/cc I I-134 I-135 6.17E-02 uCi/cc 1.15E+00 uCi/cc TOTAL CHARCOAL SAMPLE 4.34E+00 uCi/cc DEI 131 1.56E400 uC1/cc Rb-88 1.48E-01 uCi/cc Cs-134 2.20E-01 uCi/cc Cs-137 4.04E-01 uCi/cc I Cs-138 TOTAL FILTER SAMPLE 4.61E-02 uC1/cc 8.29E-01 uCi/cc I Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. mR/hr I Hydrogen Concentration:

Oxygen Concentration: 21.0%

.0%

I Airborne Beta Dose Rate: 1.1E6 mrad /hr Net Air Sample Count Rate: 1.5E10 cpm / min run Air Sample Contact Dose Rate: 8.2E7 mrad /hr Floor Contamination: 5.6E8 cpm /100cm2 Wall and Equipment Contamination: 5.6E7 cpm /100cm2 Personnel Contamination Rate: 6.9E5 cpm /100cm2 per minute I

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OClJGS SCE! JAR 3 0 2 5 ANNUAL EXERCISE REV NO O g TABLE A-3.8n g REFlT.L FLC iCTIVITY (T = 07:00) ( ) l There is an analysis delay of up to 30 minutes after sampling Nuclide Concentntion Kr-85m 7.82E-01 uCi/cc Kr-88 1.28E400 uCi/cc g Xe-133 1.56E+01 uC1/cc g Xe133m 5.10E-01 uCi/cc Xe-135 3.48E+00 uCi/cc TOTAL GAS SAMPLE 2.20E+01 uC1/cc - ,

I-131 9.14E-01 uCi/cc g I-132 2.70E-01 uCi/cc E I-133 1.30E+JO uCi/cc I-;35 8.95E-01 uC1/cc TOTAL CilARCOAL SAMPLE 3.43E+00 uCi/cc DEI 131 1.27E+00 uC1/cc Rb-88 .22E-01 uCi/cc Cs-134 4.81E-01 uCi/cc g Cs-137 3.32E-01 uCi/cc g

TOTAL FILTER SAMPLE 6.63E-01 uCi/cc Undiluted Gas Sample (15 ml) Dose Rate at 1 ft.: < 2. maf :4r Hydrogen Concentration: .0%

Oxygen Concentration: 21.0%

A:.rborne Beta Dose Rate: 9.5ES mrad /hr '

Not Air Sample Count Rete: 1.2E10 cpm / min run Air Sample Contact Dose Rate: 8.1E7 mnad/hr Floor Contamination: 6.3E8 cpm /100cm2 Wall and Equipment Contamination: 6.3E7 cpm /100cm2 Personnel Contamination Rate: 5.5ES cpm /100cm2 per minute I

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I Section A-4 A-4.1 Radiological Survey / Sampling Data I

A-4.2 Reuter Stokes Data Summary Table A-4.3 Environmental Sarnpling Data

, A-4.4 Plume Search Data A-4.5 Dose Projections I

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Radiological Survey / Sampling Data i

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.I OCNGS SCEN.%RIO 2E ANNUAL EXERCIS7 REV NO O TABLE A-4.la RADIOLOGICAL SURVEY / SAMPLING DATA FIELD CLOSED WINDOW OPEN WINDOW SILVER FILTER change MONITOR 3 feet contac 3 feet contact ZEOL. PAPER in SRD POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) net epm not cpm mR ALL < 0.1 < 0.1 < 0.1 < 0.1 0 0 < 1 I *For Controller / Observer Use Cnly (Not to be Provided to Players):

Maximum Whole-Brdy Dose Rate: < 2 mrem /hr at a distance of: 2.00 miles downwind Maximum Thyroid Dose Commitment: < 10 mrem /hr at a distance of: 2.00 miles downwind

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OdvCS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-4.lb RADIOLOGICAL SURVEY / SAMPLING DATA (T = 05:30) ( )

FIELO CLOSED WINDOW OPEN WINDOW SILVER FILTER change MONITOR 3 feet contact 3 feet contact ZEOL, PAPER in SRD POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) not cpm not cpm mR

~

SSW2 28, 28. 28. 28. 0 0 5 OTHERS < 0.1 < 0.1 < 0.1 < 0.1 0 0 < 1

• For Controller / Observer Use Only I

(Not to be Provided to Players):

Maximum Whole-Bo.y Dose Rate: 530. mrem /hr at a distance of: 1.00 miles downwind Maximum Thyroid Dose Commitment: < 10 mrem /hr at a dictance of: 2.50 miles downwind I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-4.lc RADIOLOGICAL SURVEY / SAMPLING DATA

.I ________________________________

(T = 05:45) ( )

I FIELD CLOSED WINDOW OPEN WINDOW SILVEL .iLTER change MONITOR 3 feet contact 3 feet contact ZEOL. PAPER in SRD POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) not cpm net cpm mR SSW2 290. 290. 290. 290. 0 0 70 I OTHERS < 0.1 < 0.1 < 0.1 < 0.1 0 0 < 1 I

~

• For Controller / Observer Use Only (Not to be Provided to Players):

Maximum Whole-Body Dose Rate: 660. mrem /hr at a distance of: 2.5 miles downwind Maximum Thyroid Dose Commitment: < 10 mRe:!/hr at a distance of: 0.25 miles downwind' I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-4.1d RADIOLOGICAL SURVEY / SAMPLING DATA B g

(T = 06:00) ( )

FIELD CLOSED WINDOW OPEN WINDOW SILVER FILTER change MONITOR 3 feet contact 3 feet contact ZEOL. PAPER in SRD POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) not cpm net cpm mR SSW2 290. 290. 290. 290. O T 70 SSW4 750. 750. 750. 750. 0 0 190 SSW5a 33. 33. 33. 33. 0 0 8 OTHERS < 0.1 < 0.1 < 0.1 < 0.1 0 0 < 1 I

• For Controller / Observer Use only E (Not to be Provided to Players): E Maximum Wh71e-Body Dose Rate: 7"G. mrem /hr at a distance of: 3.50 miles downwind Maximum Thyroid Dose Commitment: < 10 mrem /hr at a distance of: 3.5 miles downwind 5

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-4.le I i .0 LOGICAL SURVEY / SAMPLING DATA (T = 06:15) ( )

FIELD CLOSED WINDOW OPEN WINDOW SILVER FILTER change MONITOR 3 feet contact 3 feet contact ZEOL. PAPER in SRD POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) net epm not cpm mR SSW2 260. 260. 260. 260. 0 0 60 SSW4 700. 700. 700. 700. 0 0 180

'I SSW5a SSW7 330.

5.1 330.

5.1 330.

5.1 330.

5.1 0

0 0

0 80 1

I OTHERS < 0.1 < 0.1 < 0.1 < 0.1 0 0 < 1

• For Controller / Observer Use Only (Not to be Provided to Players):

I Maximum Whole-Body Done Rate:

at a distance of:

710. mrem /hr 4.00 miles downwind Maximum Thyroid Dosa Commitment: 25. mrem /hr I at a distance of: 5.00 miles downwind I

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I OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABIZ A-4. lf RJE IOLOGICAL SURVEY /SAMPLINC DATA =

_________________________________ g (T = 06:30) ( )

FIELD CLOSED WINDOW OPEN WINDOW SILVER FILTER change I

MONITOR 3 feet contact 3 feet contact ZEOL. PAPER in SRD POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) net cpm not cpm mR

~

SSW2 200. 200. 200. 200. 0 0 50 SSW4 720. 720. 720. 720. 0 0 180 SSW5a 340. 340. 340. 340. 0 0 85 SSW7 56. 56. 56. 56. 0 0 15 SSW10 7.2 7.2 7.2 7.2 0 0 2 OTHERS < 0.1 < 0.1 < 0.1 < 0.1 0 0 < 1

• For Controller / Observer Use Only I

(Not to be Provided to Players):

Maximum Phole-Body Dose Rate: 720. mrem /hr at a distance of: 3.50 miles downwind Maximum Th roid Dose Commitment: 26. mrem /hr at a d stance of: 6.50 miles downwind I

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I OCNGS SCENARIO 25 I- ANNUAL EXERCISE REV NO O TABLE A-4.lg I RADIOLOGICAL SURVEY / SAMPLING DATA (T = 06:45) ( )

I FIELD CLOSED WINDOW OPEN WINDOW SILVER FILTER change MONITOR 3 feet contact 3 feet contact ZEOL. PAPER in SRD I POINT SSW2 (mR/hr) (mR/hr) 190. 190.

(mR/hr) (mR/hr) not cpm net cpm 190. 190. 0 0 mR 50 SSW4 0 170 I 670. 670. 670. 670. 0 SSW5a 310, 310. 310. 310. 0 0 75 SSW7 58. 58. 58. 58. 0 0 15 SSW10 72. 72. 72. 72. 0 0 20 SSW10a 5.8 5.8 13. 13. 0 0 2 OTHERS < 0.1 < 0.1 < 0.1 < 0.1 0 0 < 1 I

• For Controller / Observer Use Only I (Not to be Provided to Players):

Maximum Whole-Body Dose Rate: 670. mrem /hr at a distance of: 3.50 miles downwind Maximum Thyroid Dose Commitment: 40. mrem /hr at a distance of: 5.00 miles downwind I

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E OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O TABLE A-4.1h RADI 3ICAL SURVEY / SAMPLING DATA E

_________________________________ g (T = 07:00) ( )

FIELD CLOSED WINDOW OPEN WINDOW SILVER FILTER change I

MONITOR 3 feet contact 3 feet contact ZEOL. PAPER in SRD g POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) net cpm net cpm mR g

~

L3W2 17 0 . "~ 170, 170, 170. 0 0 -"4 0 SSW4 670. 670. 670. 570. 0 0 170 g SSW5a 240. 240. 240. 240. 0 0 60 5 SSW7 53. 53. 53. 53. 0 0 15 SSW10 75. 75. 75. 75. 0 0 20 SSW10a 58. 58, 130. 130. 18 5 15 4 OTHERS < 0.' < 0.1 < 0.1 < 0.1 0 0 < 1

• For Controller / Observer Use Only n (Not to be Provided to Players): g Maximum Whole-Body Dose Rate: 660. mrem /hr at a distance of: 3.50 miles downwind Maximum Thyroid Dose Commitment: 42. mrem /hr at a distance of: 6.50 miles downwind I

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-OCNGS SCENARIO 25 I ANNUAL EXERCISE TABLE A-4.11 REV NO O I. RADIOLOGICAL (T =

SU'_lVEY/ SAMPLING DATA 07:15) ( )

I FIELD CLOSED WINDOW OPEN WINDOW SILVER FILTER cl:3nge MONITOR 3 feet contact 3 feet contact ZEOL. D ^ P' " i SRD I

POINT (mR/hr) (mR/hr) (mR/hr) (mR/hr) not cpm .. m't

~~ -

SSW2 140. 140. 140. 140. O 500, e I SSW4 SSW5a SSW7 SSW10 500.

240, 42.

66.

500.

240, 42.

66.

500.

240.

42.

66 240.

42.

66.

SSW10a 56. 56. 130. 130. 2' OTHERS < 0.1 < 0.1 < 0.1 < 0.1 +

I

• For Controller / Observe. Use Only I (Not to be Provided to el _yers. , :

Maximum Whole-Body Dose Rate: 590. mRfr r:

at a distance of: 4.5 miles downwirai Maximum Thyroid Dose Commitment: 45. mrem /hr at a distance of: 8.0 miles downwind I

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OCNGS SCENARIO 25 ANNUAL EXERCISE REV NO O I '

TABLE A-4.2 REUTER-STOKES DATA

SUMMARY

TABLE Available Hourly at the EACC 12 minutes after the hour for the previous hour All Readings in mR/hr T-TIME R/S #1 R/S #2 R/S #3 R/S #4 R/S #5 00:00 .005 .005 .005 .005 .005 I 00:15 00:30 00:45

.005

.005

.005

.005

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.005

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.005

.005

.005

.005

.005

.005 01:00 .005 .005 .005 .005 .005 I 01:15 01:30 01:45

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005 02:00 .005 .005 .005 .005 .005 I 02:15 02:30 02:45

.005

.005

.005

.C05

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005 I 03:00 03:15 03:30

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005 03:45 I 04:00 04:15 04:30

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005 04:45 .005 .005 .005 .005 .005 I- 05:00 05:15

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.005

.042

.420 05:30 .036 .046

.005 .420 I 05:45 .360 .460 .005 06:00 .360 .470 .005 .005 .370 C6:15 .330 .420 .005 .005 .360 06:30 .250 .310 .005 .005 .270 I 06:45 07:00

.240

.21C

.310

.270

.005

.005

.005

.005

.260

.230 NOTE: ****** = offscale high (>100 mR/hr)

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I OCNGS ANNUAL EXERCISE SCENARIO 25 REV NO O TABLE A-4.3a ENVIRONMENTAL SAMPLING DATA I __________ ______ _________

(T = 00:00) ( )

OFFSITE LEAFY GROUND I MONITORING LOCATION iodine VEGETATION total DEPOSITION (pci/kg) (pci/kg) (cpm /100cm2)

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Table A-4.4a CLOSED UINDOW Mt0LE EJ07 DOSE RI.TES (MR/HR)

DWNWIND DISTANCE (MILES) 3.5 4.5 5 5.5 6 6.5 7 7.5 8 6.5 9 9.5 to ilME SH 1 1.5 2 2.5 3 4 515 530 470 530 545 420 480 570 620 660 600 420 490 520 560 660 710 750 580 610 650 700 710 670 650 615 3t3 440 530 490 530 580 670 720 660 630 590 600 580 630 38n 440 670 630 650 610 560 540 510 520 490 645 280 330 360 520 570 620 570 543 560 530 480 1 60 430 430 400 310 360 400 430 620 660 630 600 700 260 530 510 490 460 480 45G 400 380 350 340 303 330 380 410 470 500 480 590 560 715 250 420 510 480 460 440 410 380 390 360 320 300 360 400 430 480 460 460 430 730 230 280 400 400 380 360 430 400 380 360 330 310 280 330 360 400 460 440 420 420 745 210 250 360 3 70 360 350 330 310 350 330 300 260 310 340 360 430 410 390 400 380 800 200 230 772 597 5 70 5 72 423 399 381 260 242 1069 1170 1140 1238 1004 1004 952 764 INT

• 875 963 939 DOSE (MREM) 4027 3825 3621 3421 3220 3010 2800 2590 2380 4019 4312 4629 4946 5264 4986 4708 4431 4229 MAX ** 3290 3727 DOSE (MtEM) 0* INT DOSE IS THE ACTUAL DOSE RECEIVED BY AN INDIVIDUAL If HE WERE EXPOSED FOR THE ENTIRE RELEASE.

0** MAX DOSE IS THE PROJECTED DOSE (BASED ON THE CEFAUti DURATION) AT EACH DOWNWIND DISTANCE.

3 ALL VALUES ARE CALCULATED AT PLUME CENTERLINE ASSUME VALUE AT PLtP*E EDGE EQUALS 10% OF CENTERLINE 3 FC2 MEASUREMENTS TAKEN OFF-CENTERLINE, thTERPOLATE BETWEEN YME CENTERLlbE AED THE EDGE OF THE PLUME.

3 BACKGROUWD LEVELS (LiiS IMAN .05 MR/HR) ARE INDICATED BY

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DOWNVIND DISTANCE (MILES)

TIME SB 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5 8 8.5 9 9.5 to 515 530 4 70 530 545 420 480 5 70 620 660 600 420 470 $20 560 660 710 750 615 380 440 550 580 610 650 700 710 670 630 630 380 440 490 530 580 670 720 660 630 590 600 580 645 280 330 360 520 570 620 670 o30 650 610 560 540 $10 520 490 700 260 310 360 400 430 620 660 630 600 570 540 $60 530 480 460 830 830 780 715 250 300 330 380 410 470 500 480 590 560 530 510 490 460 480 870 780 730 680 660 730 230 280 300 360 400 430 480 460 460 430 420 $10 480 460 440 800 750 760 700 620 745 210 250 280 330 360 400 460 44C 420 420 400 400 380 360 430 780 740 700 650 600 800 200 230 260 310 340 360 430 410 390 400 380 360 370 360 350 640 600 690 640 590 3 4LL VALUES ARE CALCULATED AT PLUME CENTERL!NE 3 FC2 MEASUREMENTS TAKEN OFF-CENTERLINE, INTERPOLA!E BETWEEN THE CENTERLINE AND THE EDGE OF THE PLUME. ASSUME VALUE AT FitME EDGE EQUALS 10% OF CENTERLINE 3 BACKGROUND LEVELS (LESS THAN .05 MR/HR) ARE INDICATED BT

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J g ANNUA 1. EXERCISE Scenario No. 25 g OCNGS Rn. 0

I l A-4.5 DOSE PROJECTIONS I .

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e 1:no t 05:16:10 Dato: 06/11/1991 ELEVATED RELEASE CO!!CEliTRATIO!1S I Kr 85 Kr 85m 9.6E-03 3.4E-01 uCi/cc uCi/cc I

I 131 132 9.6E-05 9.7E-05 uCi/cc uCi/cc uCi/cc uCi/cc I

Kr 87 4.6E-01 I 133 1.9E-04 Kr 88 8.9E-01 uCi/cc I 134 9.5E-05 uCi/cc Xe 131m 1.7E-02 uCi/cc I 135 1.5E-04 uC1/cc Xe 133 2.9E+00 uCi/cc I Xe 133m Xe 135 Xe 135m 1.0E-01 5.2E-01 2.5E-01 uCi/cc uCi/cc uC1/cc Flow rato = 1.4E+05 cfm I

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Tire 05:17:49 Datet 06/11/199 ,

l A Sensor B Sensor USE Units 33 Ft Wind Speed 0.0 0.0 3.1 Mph 150 Ft Wind Speed 0.0 0.0 Mph 380 Ft Wind Speed 0.0 0.0 5.1 Mph 33 Ft Wind Direction 0.0 0.0 22 Degrees i i

150 Ft Wind Direction 0.0 0.0 Degrees 380 Ft Wind Direction 0.0 0.0 18 Degrees 150 Ft - 33 Ft Delta T 0.0 0.0 .8 Degrees F '

380 Ft - 33 Ft Delta T 0.0 0.0 2.9 Degrees F I

I Elevated Sector Affected SSW Ground Sector Affected SSW I

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1 Auto Ventilation FMT readings Utilitics 12S TIME 05:17= -- - " - - -

ll WHOLE BODY CHILD THYROID is. Dose Dose Rate Hours Dis. Chi /Q Dose Dose Rate Hours ilos mrem mrem /Hr to PAG Miles Sec/M*3 mRom mrem /Hr to P.S.G SD 3.29E+03 4.70E+02 2.1 SB 3.59E-21 BKG BKG >99 )

4.31E+03 6.16E+02 1.6 2.0 5.99E-09 7.40E-01 1.06E-01 >99 i I2.0 5.0 4.43E+03 2.38E+03 6.33E+02 3.40E+02 1.6 2.9 5.0 10.0 1.44E-06 1.62E-06 1.75E+02 1.94E+02 2.50E+01 2.77E+01

>99

>99 l

l10.0ax. Max.

l i

Jose Dose 5.27E+03 7.52E+02 1.3 C.1 1.66E-06 2.00E+02 2.85E+01 >99 l3.7 Ground Wind Speed 3.1 mph MET DATA Elevated Wind Speed 5.1 mph i

round Wind Dir (from) 22 degrees Elevated Wind Dir (from) 18 degrees round Stability Class E Elevated Stability Class F FIELD READINGS Time Location WB Dose Rate CT Dose Rate mrem /hr mRom/hr mRom/hr mrem /hr mRom/hr mrem /hr mrem /hr mrem /hr F1 Update All F2 Source Term F3 Met Data F4 Update Dose F9 Quit I EMERGENCY CLASSIFICATION GENERAL EMERGENCY based on whole body dose ASSUMPTIONS / INPUTS USED me = 05

17 Date = 6/11/1991 Stack release calculation ack low range reading = 0 cps ack high range reading = 2.220E-09 Amps ack high range reading = 0.000E+00 uC1/cc Stack flow rate = 137500 cfm mo after shutdown = 1.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> ntainment spray not considered ad damage spectrum chosen

(.03 noble gases, .02 iodines w/ partition f actor of 1000)

GT operating 21 ease duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> ssumed gross elevated release rates:

3.55E+08 uCi/s Noble Gas, 4.05E+04 uCi/s Iodine I;sumedgrossgroundreleaserates:

0.00E+00 uCi/s Noble Gas, 0.00E+00 uCi/s Iodine I

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,, g3 39,43 Dato: 06/11/1991 1 I ELEVATED RELEASE CollCEllTRATIO!!S I Kr 85 Kr 85m 9.8E-03 3.4E-01 uCi/cc uC1/cc I

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Time: 05:31:24 Date: 06/11/199 A Sensor B Sensor USE Units 33 Ft Wind Speed 0.0 0.0 3.7 Mph 150 Ft Wind Speed 0.0 0.0 Mph 380 Ft Wind Speed 0.0 0.0 5.3 Mph 33 Ft Wind Direction 0.0 0.0 24 Degrees 150 Ft Wind Direction 0.0 0.0 Degreen 380 ft Wind Direction 0.0 0.0 23 Degrees 150 Ft - 33 Ft Delta T 0.0 0.0 .6 Degrees F 380 Ft - 33 Ft Delta T 0.0 0.0 3.1 Degrees F I

I Elevated Sector Affected SSW Ground Sector Affected SSW I'

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=

Auto Ventilation I..CS _.

TIME 05:3)

FMT readings Utilities

~ = - - - - - -

k WilOLE BODY CllILD TilYROID Dis. Dose Dose Rate llours Dis. Chi /Q Dose Dose Rate llours IMilos 3.----

mrem mrem /llr to PAG Miles Fec/M'3 mrem mrem /llr to PAG SB 2.91E+03 4.16E+02 2.4 SB 3.46E-21 BKG BKG >99 2.0 3.94E+03 5.62E+02 1.8 2.0 6.01E-09 7.53E-01 1.0BE-01 >99 5.0 4.13E+03 5.90E+02 1.7 5.0 1.40E-06 1.74E+02 2.48E+01 >99 10.0 2.25E+03 3.21E+02 3.1 10.0 1.57E-06 1.91E+02 2.73E+01 >99 ax. Max.

flll,3.7Dose 4.88E+03 6.97E+02 1.4 Dose MET DATA 8.1 1.610-06 1.97E402 2.82E+01 >99 Ground Wind speed 3.7 mph Elevated Wind Speed 5.3 mph iround Wind Dir (from) 24 degrees Elevated Wind Dir (from) 23 degrees q round Stability Class E Elevated Stability Class F I FIELD READI!1GS hTime Location WB Done Rate CT Dose Rate g mrem /hr mrem /hr g mrem /hr mRen/hr mrem /hr mrem /hr IF Update All F2 Scurce Term F3 Met Data

..? *t m/ h r F4 Update Dose F9 Quit mrem /hr E

EMERGE!JCY CLASSIFICATIOli GEllERAL EMERGE!JCY based on whole body doso ASSUMPTIO!JS / IllPUTS USED me = 05:31 Dato = 6/11/1991 Stack release calculation l ack low range reading = 0 cps ack high range reading = 2.160E-09 Amps cck high range reading = 0.000E+00 uC1/cc Stack flow rate = 137500 cfm

.mo after shutdown = 1.25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br />

)ntainment spray not considered v ad damage spectrum chosen

(.03 noble gases, .02 iodines w/ partition factor of 1000)

I1GT operating 31 ease duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> Assumed gross elevated release rates:

3.45E+08 uCi/s lloble Gas, 3.93E+04 uCi/s Iodine Itsumedgrossgroundreleaserates:

0.00E+00 uCi/s lioble Gas, 0.00E+00 uC1/s Iodine I

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imo: 05:45 42 Date: 06/11/1991 ELEVATED RELEASE CONCE!1TRATIO!1S I

Kr 115 1.0E-02 UC. I 131 1.5E-04 uCi/cc Kr 8tm 3.3E-01 uCi/s I 132 1.3E-04 uC1/cc Kr 81 3.6E-01 uCi/cc I 133 2.9E-04 uCi/cc I Kr 88 Xe 131m Xo 133 8.3E-01 1.7E-32 3.0E+00 uCi/cc uCi/cc uCi/cc I

I 134 135 1.0E-04 2.3E-04 uCi/ec uCi/cc Xa 133m 1.1E-01 uC1/cc I X9 135 Xc 13 5'a 5.3E-01

'?.6E-02 uCi/cc uCi/cc Flow rate = 1.4E+05 cfm E

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Time: 05:46:10 Date: 06/11/199 A Sensor B Sensor USE Units j 33 Ft Wind Speed 0.0 0.0 3.2 Mph 150 Ft Wind Speed 0.0 0.0 Mph 380 Ft Wind Speed 0.0 0.0 4.8 Mph I

33 Ft Wind Direction 0.0 0.0 18 Degrees 150 Ft Wind Direction 0.0 0.0 Degrees 380 Ft Wind Direction 0.0 0.0 20 Degrees 150 Ft - 33 Ft Delta T 0.0 0.0 .9 Degrees F 380 Ft - 33 Ft Delta T 0.0 0.0 3.2 Degrees F I

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CS Auto Ventilation . FMT readings Utilitie-

-TIME 05:46-WHOLE BODY CHILD THYROID Dis. Done Dose Rate Hours Dis. Chi /Q Dose Dose Rate Hours Miles mrem mrem /Hr to PAG Miles Sec/M'3 mrem mrem /Hr to PAG SB 2.97E+03 4.24E+02 2.4 SB 3.82E-21 BKG BKG >99 2.0 4.04E+03 5.77E+02 1.7 2.0 5.95E-09 1.11E+00 1.59L-01 >99 5.0 4.27E+03 6.10E+02 1.6 5.0 1.49E-06 2.76E+02 3.95E+01 >99 10.0 2.30E+03 3.29E+02 3.0 10.0 1.70E-06 3.08E+02 4.40E+01 >99 Max. Max.

Dose Dose 3.7 5.05E+03 7.22E+02 1.4 8.1 1.73E-06 3.17E+02 4.53E401 >99 MET DATA Ground Wind Speed 3.2 mph Elevated Wind Spend 4.8 mph Ground Wind Dir (from) 18 degrees Elevated Wind Dir (from) 20 degrees Ground Stability Class E Elevated Stability Class F FIELD READINGS Location WB Dose Rate CT Dose 9 ate ITime mrem /hr mrem /hr l mrem /hr mrem /hr mRom/hr IF1 Update All F2 Source Term F3 Met Data mrem /hr F4 Update Dose F9 Quit mRom/hr mrem /hr I ~

EMERGEllC1 CLASSIFICATIO!!

GEllERAL EMERGENCY based on whole body dose ASSUMPTIO!1S / I!JPUTS USED ime = 05:46 Dato = 6 Stack release calculation /11/1991 tack low range reading = 0 cps tack higt range reading = 2.130E-09 Amps

. tack high range reading = 0.000E+00 uCi/cc Stock flow rate = 137500 cfm imo after shutdown = 1.50 hours5.787037e-4 days <br />0.0139 hours <br />8.267196e-5 weeks <br />1.9025e-5 months <br /> -

ontainment spray not considered uel melt spectrum chosen (1.0 noble gases, 1.0 iodines w/ partition factor of 1000)

IBGTcleaseoperating duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> Assumed gross elevated release ratest 3.(OE+0' uCi/s Noble Gas, 5.77E+04 uCi/s Iodine Issumedgrossgroundreleaserates 0.00E+00 uCi/s Noble Gas, 0.00E+00 uCi/s Iodine I

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ice: 06:00:29 Date: 06/11/1991 ELEVATED RELEASE CO!1CE!1TRATIOlis p4 '

Kr 85 1.0E-02 uCi/cc I 131 1.5E-04 uCi/cc Kr 85m 3.2E-01 uCt/cc I 132 1. 2 E -04 uCi/cc 3 Kr 87 3.2E-01 uCi/cc I 133 2.9E-04 uCi/cc g Kr 88 7.9E-01 uCi/cc I 134 8.3E-05 uCi/cc Xe 131m 1.7E-02 uCi/cc I 135 2.2E-04 uCi/cc Xe 133 3.0E+00 uCi/cc I Xe 133m Xe 135 Xe 135m 1.1E-01 5.2E-01 4.2E-02 uCi/cc uCi/cc uCi/cc Flow rate = 1.4E+05 cfm I

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Time: 06:00:52 _

Date: 06/11/199 I 1

A Sensor B Sensor USE Units 33 Ft Wind Speed 0.0 0.0 4.1 Mph 150 Ft Wind Speed 0.0 0.0 Mph 380 Ft Wind Speed 0.0 0.0 5.0 Mph 33 Ft Wind Direction 0.0 0.0 20 Degrees 150 Ft Wind Direction 0.3 0.0 Degrees 380 Ft Wind Direction 0.0 0.0 24 Degrees 150 Ft - 33 Ft Delta T 0.0 0.0 1 Degrees F 380 Ft - 33 Ft Delta T 0.0 0.0 2.9 Degrees F I I Elevated Sector Affected SSW Ground Sector Affected SSW I

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Auto Ventilation FMT readings Utilities ICS TIME 06:00 -

0- WHOLE BODY CHILD THYROID Dis. Dose Dose Rate Hours Dis. Chi /O Dose Dose Rate Hours IMiles mrem mrem /Hr to PAG Miles Sec/M"3 mrem mrem /Hr to PAG bB $6bb0 38hb+0h b6 SB 3 67b-21 BbG BkG >99 3.70E+03 5.29E+02 1.9 2.0 5.97E-09 1.13E+00 1.61E-01 >99 I2.0 5.0 3.96E+03 2.16E+03 5.66E+02 3.09E+02 1.8 3.2 5.0 10.0 1.45E-06 1.64E-06 2.71E+02 3.01E+02 3.88E+01 4.30E+01

>99

>99 l10.0 4ax. Max.

Dose Dose ,

3.7 4.67E+03 '

6.67E+02 1.5 8.1 1.68E-06 3.10E+02 4.43E+01 >99 0 MET DATA Ground Wind Speed 4.1 mph Elevated Wind Speed 5.0 mph 3round Wind Dir (fron) 20 degrees Elevated Wind Dir (from) 24 degrees F Elevated Stability Class F

! round Stability Class FIELD READINGS Location WB Dose Rate CT Dose Rate ITime mrem /hr mrem /hr "

i mrem /hr mRom/hr I

mrem /hr mrem /hr mrem /hr mrem /hr ,

F1 Update All F2 Source Term F3 Met Data F4 Update Dose F9 Quit I EMERGENCY CLASSIFICATION GENERAL EMERGENCY based on whole body doso ASSUMPTIONS / INPUTS USED lime =06:00 Date = 6/11/1991 stack release calculation ack low range reading = 0 cps ack high range reading = 2.090E-09 Amps ack high range reading = 0.000E+00 uCi/cc Stack flow rate = 137500 cfm

~imo after shutdown = 1.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> ntainment spray not considered al melt spectrum chosen (1.0 noble gases, 1.0 lodines w/ partition factor of 1000)

GT operatina alease duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> ssumed gross elevated release rates:

3.34E+08 uCi/s Noble Gas, 5.60E+04 uCi/s Iodine S sumed gross ground release rates:

E 0.00E+00 uCi/s Noble Gas, 0.00E+00 uCi/s Iodine I

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1:ne: 06:15:14 Date: 06/11/1991 ELEVATED RELEASE CollCEllTRATIollS I Kr 85 1.0E-02 uCi/cc I 131 1.5E-04 uCi/cc Kr 85m 3.1E-01 uCi/cc I 132 1.2E-04 uC1/cc I Kr 87 Kr 88 Xe 131m 2.8E-01 7.4E-01 1.7E-02 uCi/cc uCi/cc uti/cc I

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133 134 135 2.9E-04 6.8E-05 2.2E-04 uC1/cc uCi/cc uCi/cc he 133 3.0E+00 uCi/cc I Xe 133m Xe 135 Xe 135m 1.1E-01 5.2E-01 2.3E-02 uCi/cc uCi/cc uCi/cc Elow rate = 1.4E+05 cfm I

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Times 06:15:38 Date: 06/11/199 A Sensor B Sensor USE Units 33 Ft Wind Speed 0.0 0.0 3.5 Mph 150 Ft Wind Speed 0.0 0.0 Mph 380 Ft Wind Speed 0.0 0.0 4.7 Mph 33 Ft Wind Direction 0.0 0.0 21 Degrees 150 Ft Wind Direction 0.0 0.0 Degrees 380 Ft Wind Direction 0.0 0.0 28 Degrees 150 Ft - 33 Ft Delta T 0.0 0.0 1.1 Degrees F 380 Ft - 33 Ft Delta T 0.0 0.0 2.9 Degrees F I

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CS Auto Ventilation FMT readings Utilities

---TIME 06 : 15 --

WHOLE BODY .

CHILD THYROID Dis. Dose Dose Rate Hours Dis. Chi /Q Dose Dose Rate Hours Miles mrem mrem /Hr to PAG Miles Sec/M^3 mrem mrem /Hr to PAG j SB 2.63E+03 3.76E+02 2.7 SB 3.90E-21 BKG BKG >99 i2.0 5.0 3.65E+03 3.93E+03 5.22E+02 5.61E+02 1.9 1.8 2.0 5.0 5.93E-09 1.51E-06 1.12E+00 2.01E+02 1.59E-01 4.01E+01

>99

>99 ll 10. 0 2.13E+03 3.04E+02 3.3 10.0 . 73E-06 3.15E+02 4.49E+01 >99 Max.

IMax.Dose p 3.7 4.63E+03 6.62E+02 1.5 Dose 8.1 1.76E-06 3.23E+02 4.62E+01 >99 I

MET DATA h Ground Wind Speed 3.5 mph Elevated Wind Speed 4.7 mph gGround Wind Dir (from) 21 degrees Elevated Wind Dir (from) 28 degrees gGround Stability Class F Elevated Stability Class F FIELD READINGS ---

Location WB Dose Rate CT Dose Rate ITime mrem /hr mrem /hr h mrem /hr mRen/hr IF1 Update All F2 Source Term F3 Met Data mrem /hr mnem/hr F4 Update Dose F9 Quit mrem /hr mrem /hr I

EMERGENCY CLASSIFICATION

. GENERAL EMERGENCY based on whole body dose ASSUMPTIONS / INPUTS USED Iime=06:15 Date = 6 Stack release calculation /11/15 Itacklowrangereading=0 tack high range reading = cps 2.040E-09 Amps stack high range reading = 0.000E+00 uCi/cc Stack flow rate = 137500 cfm ,

me after shutdown = 2.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> ntainment spray not considered uol melt spectrum chosen (1.0 noble gases, 1.0 lodines w/ partition factor of 1000)

BGT operating lease duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> Assumed gross elevated release rates:

3.26E+08 uCi/s Noble Gas, 5.40E+04 uCi/s Iodine I3sumedgrossgroundreleaserates:

0.00E+00 uC1/s Noble Gas, 0.00E+00 uCi/s Iodine I

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'ino: 06:30:15 Dato: 06/11/1991 ELEVATED RELEASE CollCENTRATIONS I

! Kr 85 1.0E-02 uCi/cc I 131 1.5E-04 uC1/cc

Kr 85m 3.0E-01 uC1/cc I 132 1.1E-04 uCi/cc

'g Kr 87 2.5E-01 uCi/cc I 133 2.8E-04 uC1/cc g Kr 88 7.0E-01 uCi/cc I 134 5.6F-05 uCi/cc Xe 131m 1.8E-02 uCi/cc I 135 2.1E-04 uCi/cc Xe 133 3.0E+00 uCi/cc Xe 133m uCi/cc I Xe 135 Xe 135m 1.1E-01 5.1E-01 1.2E-02 uCi/cc uCi/cc Flow rate = 1.4E+05 cfm

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i Times 06:30:39 Date: 06/11/199 1

A Sensor B Sensor USE Units Ii 33 Ft Wind Speed 3.0 0.0 4 Mph i

150 Ft Wind Fpoed 0.0 0.0 Mph 380 Ft Wind Speed 0.0 0.0 6.2 Mph  !

33 ft Wind Direction 0.0 0.0 24 De .s 150 Ft Wind Direction 0.0 0.0 van ,

380 Ft Wind Direction 0.0 0.0 23 Degrees 150 Ft - 33 Ft Delta T 0.0 0.0 1.3 Degreen F 380 Ft - 33 Ft Delta T 0.0 0.0 3.4 Dogroos F I

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CS Auto Ventilation FMT readings Utilities TIME 06:30 WHOLE DODY . CilILD TilYROID Dio. Dose Dose Rate Hours Dis. Chi /O Dose Dose Rate llours mRom mrem /Hr to PAG Miles Sec/M 3 mrem mrem /Hr to PAG l Miles SB 1.94E+03 2.77E+02 3.6 SB 2.96E-21 BKG BKG >99 I2.0 S.O 2.7CE+03 3.03E+03 3.97E+02 4.32E+02 2.5 2.3 2.0 5.0 6.05E-09 1.272-06 1.14E+00 2.36E*02 1.63E-01 3.37E+01

>99

>99 ll10. 0 1.72E+03 2.46E+02 4.1 10.0 1.38?'-06 2.54E+02 3.63E+01 >99 Max.

IMax.

Dose 3.53E+03 5.04E+02 2.0 Dose 7.5 1.43E-06 2.64E+02 3.77E+01 >99 g' 3.7 MET DATA Ground Wind Speed 4.0 n.ph Elevated Wind Speed 6.2 cph 3round Wind Dir (from) 24 degrees Elevated Wind Dir (from) 23 degrees Ground Stability Class F Elevated Stability Class T FIELD READI!1GS Time Location WB Dose Rate CT Dose Rate mrem /hr mrem /hr ll mrem /hr mrem /hr I mrem /hr mrem /hr mrem /hr mrem /hr

\

\

F1 Update All F2 Source Term 3 Met Data F4 Update Dose F9 Quit E

EMERGE!1CY CLASSIFICATIO!1 GE!1ERAL EMERGE! ICY based on whole body dose s ASSUMPTIO!1S / I!! PUTS USED imo = 06:30 Date = 6/11/1991 Stack release calculation y g ack low range reading = 0 cps s

packhighrangereading=2.000E-09 stack high range reading = 0.000E+00 Amp uC1 /cc Stack flow rate = 137500 cfm Eime after c.'.utdown = 2.25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> tantainment spray not considered Fuel melt spectrum chosen (1.0 noble gases, 1.0 lodines w/ partition factor of 1000)

GT operating

' lease duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> Assumed gross elevated release rates:

3.20E+08 uCi/s 11oble Gas, 5.23E+04 uCi/s Iodine 5asumedgrossgroundreleaserates:

0.00E+00 uCi/s tioble Gas, 0.00E+00 uCi/s Iodine I

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I ime: 06:45:17 Date: 06/11/1991 ELEVATED RELEASE CONCENTRATIO!!S l i

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I Kr 85 Kr 85m 1.0E-02 uCi/cc uCi/cc I 131 1.5E-04 uCi/cc 1

l 2.8E-01 I 132 9.3E-05 uCi/cc 4

3 Kr 87 1.9E-01 uCi/cc I 133 2.8E-04 uCi/cc

!g

Kr 88 Xe 131m 6.3E-01 1.8E-02 uCi/cc uCi/cc I

I 134 135 3.8E-05 2.0E-04 uCi/cc uCi/cc

! Xe 133 3.1E+00 uCi/cc E Xc 133m 1.1E-01 uCi/cc jg Xe 135 5.0E-01 uCi/cc i

Xe 135m 3.7E-03 uCi/cc 4

g ricw rate - 1.4E+05 crm iI 4

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l Tima: 06:45:43 Date: 06/11/199:

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'ensor B Sensor USE Units lI l

33 Ft Wind Speed 0.0 0.0 4.2 Mph 150 Ft Wind Speed 0.0 0.0 Mph  !

380 Ft Wind Speed 0.0 0.0 5.8 Mph 33 Ft Wind Direction 0.0 0.0 25 Degrees 150 Ft Wind Direction 0.0 0.0 Degrees 380 Ft Wino Direction 0.0 0.0 29 Degrees 150 Ft - 33 Ft Delta T 0.0 0.0 1.2 Degrees F 380 Ft - 33 Ft Delta T 0.0 0.0 3.6 Degrees F I

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OS Auto Ver?ilation FMT readings Utilities TIME 06:45 b WHOLE BOD: CHILD THYROID Dis. Dose Dose Rate Hours Dis. Chi /Q Dose Dose Rate Hours d mrem mrem /Hr to PAG Miles Sec/M'3 mrem mrem /Hr to PAG g ..ilos SB 1.84E+03 2.63E+02 3.8 SB 3.16E-21 BKG BKG >99 I2.0 5.0 2.65E+03 2.91E+03 3.79E+02 4.16E+02 2.6 2.4 2.0 5.0 6.04E-09 1.32E-06 1.14E+00 2.48E+02 1.63E-01 3.54E+01

>99

>99 N10.0 1.65E+03 2.36E+02 4.2 10.0 1.46E-06 2.70E&O2 3.85E+01 >99 4 ax. Max.

ose Dose 3.7 3,39E+03 4.85E+02 2.1 7.5 1.50E-06 2.79E+02 3.98E+01 >99 MET DATA Ground Wind Speed 4.2 mph Elevated Wind Speed 5.8 mph I3roundWindDir (from) 25 degrees Elevated Wind Dir (from) 29 degrees

[GroundStabilityClass F Elevated Stability Class F FIELD READINGS Location WB Dose Rate CT Dose Rate ITime mrem /hr mrem /hr l mrem /hr mrem /hr I

F1 Update All F2 Source Term F3 Met Data mrem /hr mrem /hr F4 Update Dose F9 Quit mrem /hr mrem /hr

'E EMERGENCY CLASSIFICATION GENERAL EMERGENCY based on whole body dose ASSUMPTIONS / INPUTS USED

,ime = 06:45 Date = 6/11/1991

, Stack release calculation ack low range reading = 0 cps ack high range reading = 1.950E-09 Amps ack high range reading = 0.000E+00 uCi/cc Stack flow rate = 137500 cfm

' ate after shutdown = 2.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> ntainment spray not considered Fuel melt spectrum chosen 4

1.0 noble gases, 1.0 iodines w/ partition factor of 1200)

GT operating lease duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> Assumed gross elevated release rates:

m 3.12E+08 uCi/s Noble Gas, 4.99E+04 uCi/s Iodine

'gisumedgrossgroundreleaserates:

0.00E+00 uCi/s Noble Gas, 0.00E+00 uCi/s Iodine ll I

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'ine: 07:00:08 Date: 06/17/1991 I ELE'JATED RELEASE CONCENTRATIONS Kr 85 1.0E-02 uCi/cc I 131 1.5E-04 uCi/cc Kr 85m 2.7E-01 uCi/cc I 132 8.7E-05 uCi/cc Kr 87 1.7E-01 uCi/cc I 133 2.8E-04 uCi/cc I Xe 131m Kr 88 Xe 133 6.0E-01 1.8E-02 3.1E+00 uCi/cc uCi/cc uCi/cc I

I 134 135 3.2E-05 2.0E-04 uCi/cc uCi/cc Xe 133m 1.1E-01 uCi/cc Xe 135 4.9E-01 uCi/cc Xe 135m 2.0E-03 uCi/cc Flow rate = 1.4E+05 cfm I

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I Time: 07:00:50 Date: 06/17/199 A Sensor B Sensor USE Units 33 Ft Wind Speed 0.0 0.0 4.2 Mph 150 Ft Wind Speed 0.0 0.0 Mph 380 Ft Wind Speed 0.0 0.0 7 Mph 33 Ft Wind Direction 0.0 0.0 26 Degrees 150 Ft Wind Direction 0.0 0.0 Degrees 380 Ft Wind Direction 0.0 0.0 37 Degrees -

150 Ft - 33 Ft Delta T 0.0 0.0 1 Degrees F 380 Ft - 33 Ft Delta T 0.0 0.0 3.9 Degrees F I

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)CS Auto Ventilation FMT readings Utilities TIME 07:01=

WHOLE BODY CHILD THYROID Dose Il!! Dis.Miles mrem Dose Rate Hours Dis.

mrem /Hr to PAG Miles Sec/M'3 Chi /Q Dose mRom Dose Rate Hours mrem /Hr to PAG SB 1.59E+03 2.27E+02 4.4 SB 1.43E-21 BKG BKG >99 2.0 2.16E+03 3.09E+02 3.2 2.0 6.04E-09 1.14E+00 1.63E-01 >99 5.0 2.37E+03 3.39E+02 2.9 5.0 1.11E-06 2.08E+02 2.97E+01 >99 ml 1-0.0 1.39E+03 1.99E+02 5.0 10.0 1.29E-06 2.39F+02 3.41E+01 >99

' Max. Max.

Dose Dose i 3.4 2.76E+03 3.94E+02 2.5 8.1 1.31E-06 2.43E+02 3.48E+01 >99 MET DATA Ground Wind Speed 4.2 mph Elevated Wind Speed 7.0 mph Ground Wind Dir (from) 26 degrees Elevated Wind Dir (from) 37 degrees

Ground Stability Class F Elevated Stability Class F F FIELD READINGS l Time Location WB Dose Rate CT Dose Rate 3 mrem /hr mrem /hr

' l mrem /hr mrem /hr mrem /hr mrem /hr i I mrem /hr mrem /hr g .

F1 Update All F2 Source Term F3 Met Data F4 Update Dose F9 Quit l

EMERGENCY CLASSIFICATION GENERAL EMERGENCY based on whole body dose ASSUMPTIONS / INPUTS USED ime = 07:00 Date = 6 Stack release calculation /17/1991 tack low range reading = 0 cps tack high range reading = 1.920E-09 Amps tack high range reading = 0.000E+00 uci/cc Stack flow rate = 137500 cfm gime after shutdown = 3.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> gontainmentspraynotconsidered

.uel melt spectrum chosen (1.0 noble gases, 1.0 lodines w/ partition factor of 1000)

EBGT operating gelease duration = 7.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> Assumed gross elevated release rates:

3.07E+08 uCi/s Noble Gas, 4.87E+04 uCi/s Iodine

' Issumedgrossgroundreleaserates:

O.00E+00 uCi/s Noble Gas, 0.00E+00 uCi/s Iodine I

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._._..___....__.__.___..-..-_,_.m.m_ . . _ . _ _ _ _ . . _ _ _ . _ _ . _ . _ _ . . . . . . . _ _ . _ . . . . _ . _ _ . _ _ . _ _ _ _ _ . _ _ _ _ . . _ .

AtitJUAL EXERCISE Scenario fio. 25 OCf1G e, pey, o 1

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I Section A-5 A-5.1 Floor Plans A-5.2 Emergency Tacilities Radiation Data A-5.3 Onsite Survey Data l

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

i I

ant 1UAL EXERCISE Scenario flo. 25 OCr1GS Rev. O i

1 1

I 1 l

l I

I Section A-5.1 rioor e1.n.

ll Lg i

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l l

lI LI 4 1

l l

l l AEMIliS91/62/ Disk 18

A m, - w a _ _.t_,,-a--.am --. 444,.,..4 -- JA ., bJ A-. + -* a -ou--.- a- -a+s 4* e.+A-- n,m'=w- -- a _v- . . . _s I

I I

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I T-lS PAG E I I-g IN- ENT ONALLY Y g LEF-~ BLANK I I

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I; I'

l I

~

I!  ;

I a!

I IIME:00:00 SCENARION0253EYN00 I HA0FA0lllIV llllll I '(2,0 (2.0 (2,0 (2,0

( 2.0 \ ( 2.0 (2.0 llllll ( 2.0 I E 0

(2.0 (2.0 (2.0 (2.0 I ( 2[0 (2,0 10 HAlHT I HEIAIRSAMPLE: (100cpn/Minuterun FLOORCONIAMINATION: (100cpn/100cn2 PERSONNEL 00HIAHlHA110H:(100cen/ninuteoccupancs BLDG I

I flHE:00:00 SCDiARIO N0 25 REY N0 0 OSC FACILIIY (2.0

( 2.0 , (2.0 (2.0

( 2,8 ', (2,0 (2,8 I -

NERX l

, BLDG

' ENIRANCE

_ ((2,e2.0 g - <

(2,0 (2.0 g

kn AIR SAMPLE: (100cpn/Minuterun I FLC/>RCONIAMINATION: ( 100 cpn/100cn2 PERS0NNEL00HIAHINAll0Hl(100cen/ninuteoccupancy I

11NE : 00:00 l

2 ( 2,

-o U

o-4- I g

', c' l

1 =: :

a dn l

l

( 2, t' ( 2. (2. -

i

( 2, a, (2.

m c (2. ,( 2. up IP(2.I=

( 2. '

m

( 2, 3 m

Het Air Sanple: ( 2, cFn L,1(2.

FloorContaMination: (100eps/100cH2 ( 2. E Per mnel Contamination: ( 100 cpx per minute occupancy.) 5 IHIRDFLOOROFFICEBUILDING g

I IIME : 00:00 HetAirSanple: (l2,c?n/ninlrun

( 2.

(2. l AirSampleContactDoseRate: (2.mlad/hrl (2. (ll2,l- ,,

floorContanination;(100,opn/100cn3 ( 2, g Penannel Contanination'( 100. eps/100eR2

( 2.-

PerMinuteOccupancy\ - ( 2.

(2,~ /

(2./

15, 15.

(2. l D I 2.0 [I 2.0 d If !!  ! ! I.  !

!! 5,0 ELEY, 23'-6" RL BLD , b!! c]

I

!! , ,5. 0 UU l: !!

UU l

( 9.h ( 2, U '

l g 9,0 -

a 3 4 (lJ 2.

T" n -

m

( 2.- i .

2.0 4.0

( 2. __ , ,

2.P ,

4.0 g (2. ( 2.

a u (2. (2. E

I _.flME: 00:00 l ROOT 30, 40,-  !

l 30.

' ______ 20, -

30 -

30 - 40.- 21. -

. ~_. 20, 21, 0 HetAirSample:

I (2.c?n/Minrun dn Air Sanple Contact lose Rate l ( 2, niad/hrn i il

_. FloorContaxination'(100.cra/100cx2 2.0 PersonnelContamination: (100,cpn/100cm2 I __

20.

x,. -

's/

PerHinuteOccupanc9 21.

4 2.0 20, 40,-l 30,-

I 21,

30. ( 2,_

an-:

3 0. __.,._ 40. .__ 30. (22 g )( L_ _I -]n ,

ROOT , - ROOT ' -i 6 - - .

/ '( 2,7-I -

(2.

u ,_

I p _

0?ERAflHG TLOOR ELEY, 46'-6

I I IIME: 00:00 60, .

uf- _%

u i ( 2. -

60. /. (2.

l ._) HetAirSanp/Hinrun

( 2. cpx ;

le 3.0 3.0

'~

2.0 E l J i 30.

Air Sanple Contact hse (2. Mrad /hr jP tel a\

2,0-H 30, l aC FloorContaxination:

( 100 cpn/100cn2 ) ,i 10 l 10.

I PersonnelContamination:/

( 100, opn/100cn2 /

2.0 2.0 O t I

3 Per Minute Occup'ancy /

_  % j /

3.0

.0

' O .........,0 C' O O g g l ( 2.

(2.

~

~l' s

, ELEU 51'-3" RX.ELDC s

l, ,4 n........., , , ,

IIME: 00:00 l'

== HetAirSaale: ( 2, c m/nin run II l Lj0 0 AirSaxpleContactDoseRto: ( 2. Rhd/hrl l i floor Contanination: ( 100 cpn/100cm2 2.0

• Personnel Contanination: ( 100, cen/!00cn2 2.0 g==;[ FerMinuteOccupancy i2.

(2.

/

'~

!X q jl-

'('

, i o of j(2.-

- ( 2 ,=i c-"

= -- 310, 310.

~_

30 .

. 6 = -d 300, =.

0000000

~

= = = === [ 2.

( 2, i '

ME224NINEFLOOR ELEY, 23'-6" O

IlME: 00:00 q

u m 10, T 60, u m l

8.0 10, 6 6 . = == 20. ,,,

Sy a .

- \. -

o VI 8,0 8.0 8,0 HetAirSanpe: ( 2, cm/nin run O

L.,

3.0

-q AirSaHpleCentactDoseRate:

,\ Tloor Contamination: (100,cpn/100m2

( 2. Rhd/hr c! l

.ersonnelContanination:(100,cen/100cn2

3. 0.._{

__..}

D

( s

/

pp minute occupanc,y 5.0 5,0 t

3

@ 6,0 g

3.0 g i g

(2. 6.0 3.0 (2' F

] O..... . . . . . . . . Q'""'"'"""""'u i,[1 t 5 n ,

..... n a

( 2. - -

(2. / ' '. ELEU. 75'-3" RX.ELDC. I l 68 --

n's . . . . . . . . .h g n n gi 5

I --IlME - 00:00 ca O II" l l 400, ae0, O 3.0 3,0 400. 200. 1300.

(2 lY- = OO Ol'J 00 240 (2. 240l fr I

,-(2. L

( 2. HetAirSanple: (2,ovn/ninr.un (2. ,

( 2. , kirSaHpleContactDoseRate: ( 2. Rha#hrl %

( 2. I floor Contanination: (100.cpn/100cnf I C9

( 2,-

L-PersonnelContanination: ( 100, cen/100cn2-(,,,Ji300, 300.(_J( 340,340 Per jinute 000upancy 48 4.0 g ,, g_

L- O I fI -

1300, 1300 p a a a o

! ' 3.09 3.03

~3.0 3.0-I EASIMENTFLOOR ELEY, 0'-0 & 3'-6" I

I IlME : 00:00 u u g 1. ((2.2, u ( 2, lJ

,(2.,

n= ( 2. ,

] .,

E (2.

~~

NetAirSample: ( 2 c)n/ min run (2.

AirSanpleContactDoseRate; (2,niad/hr (2.

l- 3 lfloorContaMination: (100,opa/100cR2 PersonnelContamination: 100. cpn/100cn2 c

i ') ferMinuleOccupancs B

0 .' ~~6 s 50- t l

3 -

6.0 5. 0" "

/- i 6.0

\ / 6.0 g

3 fl C..........,0 C ,'!O O C l (2.- -

' .-l ( ( l

,. / RX. BlKP

(  ; \_-ILIV. 95'-3" l i, 2. .

JIME : 00:00 l

jg.:, , vr tJ x .up I i7 __ __

g 100,/'

l 103. /

NetAirSanlel <E,c7n/ninrun AirSampleContactDoseR$te: (2.nlad/hr N  !

NN FloorContanination:(100,opn/1000n2 Personnel Containation: (100.c*/10tH2 -

a E

g'N PerMinu]leOccupincy (N ELEY, -19'-3

l an' I

i\ Rx. Bldg.

o up I 'O h _11 l I

IIME: 00:00 l

i dn I

.T L.dn_ l

)

Net Air D 'o: (2.cpn/ninrun l

(/z/ Air Sanple Contact h:  :: ( 2, Mrad /hr 5 FloorContanination: ( 100, epH/100cH2\ ^

Personnel Contanination: ( 100. cpn/100cm2 g

u

.// ELEY, -6' -5

PerMinuleOccupant.,

ELEY, -l'-6" Rx. Bldg.

l'

!I l

E IIME: 00:00 NetAirSample: (2.can/minrun AirSanpleContactDoseRatel (2,nlauhr l FloorContamination: (100,opn/100cx2 Personnel Contanination ( 100, opn/100cn perHinuteoccupancy 8.0up L l ___

8'8 g N'N N

I 15, g N s I

15. _

DRYkELL g _

! k IIPDRIVE

! ELEY 33'-6" RXBLD0 I

g _IIME : 00:00 ,

o o g

I I a HetAirSanple: (2,can/ninru,A -

l AirSaHpleContatDoseRate:

FloonCoitamination:

(2.Mlad/hr (100 cpm /100cM2p.

PersonnelCortaninationl ( 100 cyn/100cn2/

l " '

coupgney 3 I 3.0 s,0  :

g _

I "Fd 1:1 g(2%' N ELEY.119'-3" RX.BLDC.

5

a ..---m A . -.e _.. AA. a.

I, I'

I I

I.

I I

T4ls PAGE l

gg INTENTIONALLY H I I

LEFT BLANK g i

I .

I I

I I

I

I IIHE:01l00 lI L

HA0 FACILITY SCENARION025REYN00 llllll I (2,0 (2,0

'((2,0'2.0 2.0

\ (( 2,0 (2.0 g llllll ( 2.0 (2.0 I '

i i i i I S _. (2.0 (2.0

?(2.0 a (2.6 I (2I0 (2,0 10 HAlHI I NETAIRSAMPLE: ( 10') cpn / Minute run FLOORCONIAMINATION: ( 100 cpn/100cM2 BLDG PERSONNEL 00HIAHlHAll0Hl(100cen/ninutecccupancs I

I IIME:01:00 SCENARION025REVN00 OSC FACILITY (2.0 l (z.a (2.0

)(2.0 ( 2.0 (2,0 (2,0 (2.0 l _ ,

NERX l _

, (2.0 (2,0 BLDG ENIRANCE g - /

(2.0 g (2.0 NEIAIRSAMPLE: ( 100 eps / Minute run I FLOORCONIAMINATION: (100cpn/100cn2 PERS0HNIL 00HIAHINAll0H: ( 100 cen/ninute ccoupancs I

IIME: 01:00 l 3e ( 2,

-O lj

' .=

l g

g

,  ? l f

I n = , =

't an ,

B 7 '

p i r

.l

( 2.

( 2, (2.

l m

t (2.

(2.

j-

,( 2. up (2.

2. = l (2.

HetAirSanple:(2,opn L,1( 2.

FloorContanination: (106 epm /100en2 (2.

Persor.nel Contamination: ( 100 cpn per minute occupancy.

THIRD FLOOR OFFICE El.'!LDING l

l IlME: 01:00 Het Air Sanple' <I'2,c,n/nfnrun 'I ( 2.

(2. l AirSampleContactDoseRate: ( 2. nlauhrl (2. .

FloorContanination;(100,opn/100cn2 (2. (ll2 l-

~

PersonnelContaxinationl(100.en/100cs2 ( 2.-

3 1

PerMinuteccupcy'\ ' ( 2.

- ( 2,'

( 2.

15.

15. 2.0

( 2, l 9 \ l 2,0 g

iill

" ' '5 ,

) ii I e ELEY, 23'-6" RX,BLE di c]

l

-I

!! 5.0 .. !!

U '._' Uu

( 9.0

( 2, U  :

l

(' 9,0 N a

( -

J2-2.0 4.0 I

( 2 . __ , _ , , 2.0 , 4.0 __ g (2. ( 2.

( 2, ( 2, E

1 I .IlME: 01:00 l E00f ,.  !

I

20. - - 25. - I l 20. i

____ 10.

20.-

25,- -

20 - 15.

. . 10, 15, 0 tiet Air Sample:

l (2.c dn AirSanpleContactDOSeRatel ( 2 n?n/ninlad /hr-l run 'I I FloorContaMination: (100,cpa/100cR2 2.0

[ PersonnelContamination: ( 100 cpn/100cn2 I 'y' PerHinuteOccupancs J 2.0 10', 20,- 25,- 20,- ( 2, I

15l

20. - 2 5 . ,__ 20. ( 2.,

, - u -

y noor O = 300r ' -

4 N. 7-I / -

2 0

p OPERATING TLOOR ELEY, 46'-6" I

I TIME: 01:00 60, u f- _

u i ( 2,

/ // ( 2.

() d_

60.

l / Het Air Sanple;N '-

3.0

/ (2.epH/alnrun 4.0 J "

/ \ 2.0 t

/ Air Sanple Contact Dose iate' -

2,0-I. 30.

30,

( ( 2. Mrad /hr ) '- ll l a10,[]

FlearContaxination'

( 100 cpn/100cn2 ) ,i c

2,0 l 10.

I Personnel Contamination:/

( 100, can/100cn2 /

2.0 3 O PerMinuleOcegney

[

k)s 3.0 I ] f!'O..........O ,

C"'

f'!O O 'O C l (2 (2l

~

~~

'~~-

ELEU. 51'-3" J

RX. U C e g.........s , , I ,

g

IIME : 01:00 I

V

' l I HetAirSanple, ( 2, c m/nin run lf I AirGaspleContactDoseRate: ( 2. Hlad/hol l 0

lJ B 0% floorContamination: (100,cpn/100cn2 5 2.0 =

Personnel Contanination: ( 100, cen/100cn2 2.0 PerMinuteOccupancy g{

\ 2, I (2.

i E

/

~

El s

I

^< (2.

i (2. l 4-' -

oor- -[(2.( 2,j c" 180.

= - 180, '

g l

. = = = ,180, a 0000000 fe= =

d = = f2.

A (2.

ME22ANINEFLOOR Ela, 23'-6" $

I O

TIME: 81:00 u

9 u ._r 10, tr 60, u m l

8.0 10 c=- 60.2 == 20.

g -

0 , "p 8.0 8,0 HetAirSanye; ( 2, o m/nin run H _q AirSaHpleContactDoseRate: C a 3.0 (2.Mlad/hrl c E

\ Tloor Contamination: ( 100 cpn/100cm2 3 , 0_,. Personnel Contanination: ( 100, cen/100cn2 g

\%

g

___{ f er Minute occupanc,9 5.0 5,0 m

3 g O m c c ' [

l 6,0 3,0 (2. 6.0 3.0

' g

] O..........,Q""""""""""t; ' ' c

., .' I J j!

(2

/N ELIU, 75'-3" l

l,

, RI.lDC.

, .e . . . . . . . . . g n ,, n ,

I I --TIME : 01:00 o lf" I 240, 170. O n$;l 240, I (2

~"'

L- 7 f OO OO 170.

OO 800.

150' '

(2l u I"

I r(-2.

(2. ,

(2~

( 2. r.

HetAirSanple; kirSaHpleContactDoseRate:

150.

( 2 can/nin[r'

( 2. Mlad/ht "

rtt n

( 2. (100,cpn/100cln'2 I C9

( 2.-

I floor Contamination:

Personnel Contaninationl ( 100, cen/100cn2-L- (,,jt 180,(_ g, 2gg,per Minute 000UPan09 4.0 180. 200,- 4,0 g "

~

LW '5 I .f~ I -

80%.

800' F ',

G G v p;3.0 '

I ,

3.0

~3.0 3.0-a I EASEMENTFLOOR ELEY, 0'-0" & 3'-6" I

g IIME: 01:00 u u Ir- L ( 2, u ( 2, u l C P-) (2. r:= ( 2. 'b (2.

l (2.

( 2.

HetAirSaMPle:

\ ( 2. c1x/ min rttn ( 2.

(2,Mla#lir (2 l 3 r

AirSanplleContactDoseRate; FloorContaMination: (100, cpg /100ca2 PersonnelContamination: (100,cpn/100cm2 e

J PerMinueOccupancs g

0 l! '5]0" t I 6 3 -

6.0 3.0 6,0 g

( ) 6.0 a!!: a<........a o  ?:lc o c I (2.- -

(

(2.

(2.

g

s. RXILDC

.- nEU. 95'-3" g , ,

i ll JIME : 01:00 1

30.

80'S:

' U xg .up I' g

f[j/,/1_.J I

j HetAirSanle! (2.c)M/Minrun AirSampleContactDoseR$te: ( 2. n; lad /hr Pers!f!n!hk!t!n  ! !k Per Minu]$$

le Occupancy

_ _ . ELEY -19'-3" -

dn ip I

IIME: 01:00 l i

gi 60, h TK Lan_

- ~

l g

HetAirSample:

Air Sample Contact h5e Rate;

( 2. c')M/ntn run

( 2 Mhd/hr 5 FloorContaMination: ( 100. cpn/100cR2' ,

a PersonnelContaMination: (100,cpn/100cn2 E

- PerMinuleOccuPancy ELEV, -6'-5" ELEV, -l'-6" Ex. Bldg.

l

I IIME : 01:00 Net Air Sample: ( 2. c m/ min run

( 2 nlaFhr l Air SanPle Contact Dose Rate l FloorContamination: (100.opn/100cn2 Personnel Contanination ( 100, opn/100cn perMinuteoccupancy ji] UP q I

s

_s s I N

' y\  !!: _

\ l g

DRYWELL \

I IIPDRIVE

! ELEY 33'-6" RXBLDG I

g _11ME: 01:00 _.

<, o g

I ,

I a

( ; c m/nin run HetAirSanple: ..

g AirSaupleContactDoseRate! (2.Mlad/hr --

[

FloorContamination: (100cpn/100cn2)

Personnel Contanination: (100cen/100cn2/

) PerMinuteoccupgncy

/ '

O I 5.e 5,0 I -

I ff(=' Ti2,2

( 2. X 3.0 0,0 EEY.11T -3" RX. EDC.

g ll 4

I ,

I I'

I Il  :

Rl l

THIS PAGE I  !

I' g3[ INTENTION ALLY  ; g~

I' LEFT BLAhh I .

as 1 I!

l I

I I

El m

.l

,- - . _..._____-__._-_i

I 11HE:02:00 SCENARIO N0 25 RIV r10 0 5

HA0TACILIIY llllll (2.0 (3.0 l \( 2,02.9

\ ( (2,0 2.0 (2.0 llllll ( 2.0 l -fg>B

( .0 l a a

_. (2.9 a(2,0 a (2.0 (2.0 (2I9 I (2.0 MINI l NETAIRSAMPLE: (100epN/MinutePun TLOORCONTA.T i '0P :

BLDG PERSONNELCONIAHgiDl{190cpv190cm2100 cPWninute oc g

.I I IlME : 02:00 SCEHARIO N0 25 REY N0 0 I OSC FACILITY g j]

2.0 - 2.0 2.9 2,0 2.0 2.0 g ~

NERX h _

' ( E9 .ANCE s2,0

/ /

g h2.0.s NETAIRSAMPLE: (100etu/Ninuterun I TLOORCONIAMINATION: (103cpv100cm2 PERSONNEL 00HIAHlHA!!0H ( 100 cedninute occupancy I

I 11ME: 02:00 g

Dr (2. U

p (2. e, l

l

~~

1 e dn I

r' .' -

J

~ ~ ~

. ( 2.

11 e(2.=

I (2. (2.

i((up g HetAirSamplet(8,opn L,l( 2, floor Containation! ( 100 ep/100 cu2 a (2. E Personnel Contamination: ( 100 cpn per minute occupancy.

THIRD TLOOR 0)TICE BUILD.!NG I

IIME: 02:00 HIc?dnin run (2.

Het Air Sample! (l2l (2.

Air Saple Contact Dose Rate: (2.nlad/hrl (2. ll Floor Contaninationi( 100, opv100cn2 ( 2, ( ! l' E Personnel Containation!( 109 e */100cu2

( 2.'

l rerMinutebecupancyy

{ 2, 15, 2.0

((

o ii it 2.0I

!! il l

"~

l 6ik 3 23#-h Mi El i  ! (

!! ,,5.9  !!!!

U :: .

UU 3,  !

C' 9,0 (2.

s M" 4 ( 2. ' l J 2's 95'

( f]

(2 , ,

25, 25.

l

2. (2.

P t 2i (2' l

I

_IlMI : 02:00 I ROOT l ~~~

_.,,,,# t.

5.-

5.-

19.-

10

• 5.

5.- 6.

I

.- 6, 6, O I _

Net Air $a 0: 2. c m/ min run I __

1oC!nt$nafton!( 00' $

Personnel Containation: (100, b

n/100cn2 J 2.0 2.0 ter N ute Occupancy I t, '

5. -

5.

.0,-

. 0.

5-5.

(,

((2.2,2 wn _, __

g __

X -- - '

noor = noor e

I -

R.r.

0?InAfING TLOOR ELIY, 46'-6" I ,

I IlME : 02:00 r

I ie: ' 0.

O!

a.,

T6 ( 2 ern i >/n Nn oun 3.0

'=='

I ' Air Sarle Contact hse a l jr 2.0 2,0-t

30. ( 2. MRa#he IL I C 30, Floor Containation:

(100,cpn/100cn2 ,i c

I . Oi

10. Pers nnel Co alnation:

( B0 cp 00cn2 /

2,0 2.0 l 5

.l 1

PQN.nu:e Occupuey /

d <

c

=

g -

3.0

' ' 8'8

] { . O. . . . . . . . . .,,0 C'"

l!C O 0 c 2, . .. ",~:

- c- i

3. '< N ', ELEY 51' 3" RX D C -

g r ,# . . . . . . . . .% ,_, , ,.,

IlMI : 02: 0 0'

HetA:r$anlei ( 2, o ninrun f  !

'j Air jauple Contact :)ose R te (2.Rcpn/ #bl00cm[z L0 0%  ! Floo entaint on: 100 2.0 Personne ont unna onl 199,9PdL99cn2 2,

2.9

". =. =-l _

PerMinuteOccupancy l

l 2.

~

~

./  !

h

~

L, l

l D Dr .

.(l') , a_a o_ h,', _

a g

u -

= = 5 ', c.

0000000

~

w Us m a ew [ 2.

7 (2.

r l

M NINE TLOOR -

ILEY, 23'-6" I

5 ilME : 02:00 u

0 u

8.9 tr 19, c=

tr 69. U m l

19. 60.m em 20. -

O 8'8 "' 20. I 39 a _

Ci

e 8.8 8,0 3 I H

Het Air Sam e: (2. dninrun O Air Stup e Contact hse tel (2. aub 3.0 c i Tloor Containation: 190,cpn/1 n2 PesonnelContaination: 100, ced190cn2 m 3 9].._

,]. pp minute occupanc,9 . E g a 6,9

/c 3,9

- i c

g

<2. 6.0 3.0

( 2' ~

] n O..........J"'[ Tf ~ iD

'. . .. "L ........" - .. i i g

j 2. '

N.

i y.- ......... n, ELEY. 75'-3" n

RX. DC.

m m 5

m

'I

-IINI : 82:08 I

ca nl -

I 70, 70.

60.

69, O

290.

ll

= nn nn nn 3,' 18-2 I m (2.

f3m (2,"

2. .

HetAir$anye;

58. fr

( 2, c >n/ Min r.un (2. ( 2. r kieSupleContactDeseRate! ( 2. nituhol -

I ,

2.

(( 2.-

I floor Cont aination: ( 100, cpn/100cn'2 g

C'1 L-~ yt Personnel M Contaninatijn:

.F_er,MnuteOccupancy

( 100, cen/100cn2-

,c- w c_

l "I 299.

[q 0 p v I u-  ;

, 3.0 3.0

,3.9 3.0-o BASEMEN 1ELOOR Ela, 8' -8" & 3'-6" I

TIME: 02:0E -

tr u t. ( 2, u a 1J g

O (2. rr ( . ,

rj 2.

1 I 3 ( 2, i / . .

NetAirSuple: (2.cpn/ninrun (2.

(2. '..'

I AirSanplleContactDoseRate: Floor Containation!

(2. Mrad /hr (2.

( 190, e f .' haonnel Contanination

(190,cpv190cm2 l -

1 PerMinuleOccupancs I , o l! jh 'j]p a t n ( )1:1 2 f h,' O ..........O O N',O O  :

l ( 2, . -

N.

~.-l

~

4.5 4,5 (2. ',' N ' (__ILEY. 95' 3" RXP 3LDC .

g & n u. . . . . . . . .% n n n

.IlMI: 02:00 T \ ip l

30.:i 30, l I

( _ _ l l

AirSapleconIotb$s!$$f!f!ld!h

\

floor Containat: on: ( 100, opn/190cn2 Personnel ContalnatLon: (100,epW100cu2 l

Per Minule Occupancy E

_ E E~ L an g

h,o N ('3/,[, j O0 ~

ur I

g f f I

11ME : 02:00 l i

fn I

L.dn_  !

60, g

AirSaMPleCon!ot$5 $$t ,n Floor Containation! ( 100, epv100cm b% E PersonnelCentuination: (100,cpv100cn2 8 PerMinuleOccupancy ELEY, -6'-5" ELEY, -l'-6" Rx, Bldg.

l

I NetAirSimple:

IlNE: 02:N ( 2. c */ min run ,

l '

Air SanPle Contact Dost httl Floo:=fontannat:.on:

t Contan:.nat:.on:

( 2 nln#hr IN. cpn/100cn2

( 100, opn/IMen Personne (

l perminuteoccupancy I ' i 8,9up L

>g 8.0 3

% N I

I  !

s 15.

15. _

g

.g MVWELL IIPDRlYE

.I ELN 33'-6" RXBLbG

)I

! 11ME : 02:08

<, o g I a 3 Het Air Sample: ( 2. c m/ min run . .

m Air Sauple Contact Dose Rate: (2.nta#hr -.

floorContamination: (100cpn/100cn2) g PersonnelContaninationl ( 190 cPn/199cn2/

' ~

teoccupancy 3 I s.0 5.9

l _

I r.2., -

N 38 3,9 (2X / ELEY.119'-3" U.BLDC.

u.A.= 4.M._.2 -S - - -'--4--.As,--3 h-AA- --4Md- *-"*"h-A'-- 4AJ-'S M^h>N* -d-"dE-C A *- "4 d'k'M"4d 4 3'M~-* --'*" --"**--'"'*-*'-'"***"---*b*-

9 I

I I

I I

THIS PAGE I I

K INTENTIONALLY g I

LEFT BLANK I I

I I

t I

I I

I I

a

'I g flME:01:00 SCENARIO N0 25 RW N0 0 HA0TAClllfV llllll (2,0 ( (2.0 l '((2,0 2.3 \ ( 2.0 (2.0 2.9 llllll ( 2.0 s

I j(j ,

I  :: i2.a (2.9 a (2.0 (2.9 2IS 10 2,0 MAlHI NET AIR SAMPLE! ( 199 epH /Ninute Pun BLDG l

PERS i i u occupancy I

I I IIME:03:00 SCEHARIO H0 25 RW N0 0 OSC g

FACILITY

.j 2.0 (2.9 15.

2,0 (2.0 15, g _

NERX l _

' 2.9 f RANCE 2,0 g , ,

(2.0 (2.0 g

NIT AIR SAMPLE! ( 100 epa / Minute run TLOORCONTAMlHATION: (199cpn/100cm2

( 3 m PERS0HNEL00HIAMlHA110Hl(100cpn/ninutecccupancy l

11ME: 03:00 l

3 .Z O j "

l U

-g

{2.,'

l 8, d D J

l

'An l

I

e. , ,

c' j. fl -

e

. ( 2.

3, IP l (2. ,{ j;g ( (2. 2=

HetAirSan>le:(2,cpn L ,1( 2.

FloorContaminat;Lon!(100 epa /100en2 (2.

Personnel Containation: ( 100 cpn per minute occupancy.

l IWIRDTLOOROff!CEBUILDING l

l .

TIME: 03:00 HetAirSanplel (I2,'~Wnin c

'I run (2.

(2.

l (2.nlad/hrl (2. .

AirSampleContactDoseRate:(100,cyn/Becn2 floorContaninatoni (2. (ll2,l- 3 Personnel Cont uinat:,on:( 100, e W 00en2

( 2.'

'--- Per - ( 2. m

( 2,'Minute i)ccupancy\ 15. (2. E

_ (2. 15. 12.

~

!j ::

!! ?!

l

!! 5,E dlV, 23'-6" RX, B G , d!! c]

-I

!! ,,5.0 UJ Uu l

O 9.h U  ;

I

( 9,0 ( 2, 0 90.

( 2._, , , 70. ,

70.

_ g

15. (2.

15, (2. E a

I

__IlME: 03:00 I R00F l _

2.

3.

3. - -

4.-

4. -

3.

3.- 2.

I

~

". 2, 2, O I .

dn r Het Air S a le:

Air Suple Contact hse R te: ( 2, dad /hn

( 2. c m/ min run d

floor Containation! ( 100, etn/lWen2 2.

I _.

Personnel Containation: (100, 100cm2 fer N ute Occupancy g 2.

I 2.

2.

I 2.

3.-

3.

(,

l.

' 3,-

3.-

2,

( 2,3.

( 2._

Wn I {

__ "']. 7

= Roor -

e I R0er "d.r.

OPERAllHG TL00R ELEY. W-6" I

I IIME : 03:00 60, u s u I (2.

N

/ (2.

I O60. -

Het(2.cyn le' Air Sup/uLn run 3.0 3.0

' ~

-d \

I > " Air Suple Contact hse , ate: -

j[

2.0 2,0-t 1 '

30. (2. mrad /hr ) '-

I C 30, floor Containation!

( 100, cpn/100cn2 ,i c

I . Oi 10.

I Personnel Containation:

( 100, c W 100cn2 /

/ 2.0 2.0 f

O t g Per Minu:e Occugney /

\ - <

~"~

lg 3,g 3 f,O..........,0

. s.

C '

f,h3 O C C i

( 2, . . - i -

(2. -

ELEU. 51'-3" RX.ELDG -

g W g/. . . . . ..' .% .

l

I IlME : 03:00 ll Het Air Suple: ( 2, cm/ min run f  !

a AirJupleCentactDeseRate: ( 2. Whd/bi l E b)] 0%

=-

floo?Containation: (109.cpn/199cn2 Personnel Containation: ( 100, W190cn2 E

2.0 2.0 ,.,-;: ? Per Mirate Occupancy g

\2. ~ ~v , "

I (2.

l E

' N

/

~

,X 3

{j; g L-0 O f' .

[(2- a"

-(2l) =-

39 30li -

g

=

u = = = 30, c.

0000000 2 = == [ 2.

{= (2.

ME22ANINIFLOOR ELEY, 23'-6" l

I IlME: 93:09 u u Lr ig,- t.r 69, u m l

O '

l 8.9 19. c== 69 = cm 29. .

8,8 f as,

~

3 O

""" 7. F O I

c Ci

3.9  :

8.0 HetAirSanPel ( 2 Om/ min run C a R

3.9 Q Air Suple Contact Dese Rate!

\ Tloor Containation: '.199. cpn/190cn?

( 2. Rhd/b l t 3 PersonnelContaination:(109,cpn/190cm =

3 ]0.._{

E

\ (j p,gP ninute 000upanc,9 U

l C O 5

6,9 3.0 C

jj. i 6.9 3.9 g

3 g-----.m.-n-

"u,, if

....- ... ..u _. -

g (2. '.e '

s ELEY. 75'-3" U. DC.

lw n's . . . . . . . . . h n n g W

I I -IlMt : 83:08 _.

m nl (e, 38, O I,8 I (9. 30. u9.

(2 Q 00 00 00 'A !A '

- (2. -

25. fr (2. (2 HetAir$anyei (2.cPn/Minr.un g (2. ( 2. ,. k ir Sanple Contiet Jose hte! ( 2. nRad/hr "

(2. I floo? Contamination:

( 100, cpn/100cln}

(2- Personnel Contaninatijnl ( 109, cen/100cn2-l O g. C ( g.le.rJnuteOccupancyj.

C C

,m _ wt I -f h,

13g' g F -

p ,

0 O v 3.9 ,3.0_ o 3.0- 3.0 I

HN.M 3 6,,

I I IIME: 03:00 g 7 O'{!: g { !:' , E '

( 2, '

(2.

'~

- NetAirSample: ( 2. c m/ min run (2.

( 2, nta#hr (2.

.l Air Sanplle

< - C,ontact base Ratel FloorContaninatten!(100,epn/100cn2  ;

3 '

.' PersonnelContamination: ( 100, cpn/100cn2

,l

. '1 Per Minule OccuPanc9 ll l

3 0 h.! ~1 J2.

1.

16.

u t

l ( )f!l 3 f!l C..........,0 0  !!'.O O  :

l (2.c -

~

/

gg, 19:

s'

\- ELEY. 95' 3" RX.P 3LDG lI i u( 2. 7.e<. ..... . /. g n n n

• 'T-9' w' w:. _ . - ,

I

.IIMI: 03:00

.up 3 g ',- J l

l 30]1 O/

100^

\-- i Con $tb$$ lkk isSaplflooncontan.natoni(100,opn/100cn2 Penannel Conta natLon: (109.el*/199en2 l

Per Minu e occupucy a

_ E ELEY, -19'-3" uT' \ O

~

I an Q Q' d

o ur g

I IlME: 03:00 l l l dn 60.

i V L.dn _  !

60, g

l NetAirSa (2.c;'n/minrun Air $arleContactDoseR$le: te; ( 2, nW/hr 5 Floor Containation: (19'J.epn/199en2 5 Fersonitel Containation: (100,cpn/199cn2 5

- Per Minu;e Occupancs ELEY, -6'-5" ELEV, -l'-6"  !

Rx Bldg. g i -

I

l I Net Air Suple: ( 2, c m/ min run TIME : 03:00 l Air Suple Contut hse hte!

floo? Conta nat:,on:

I, 2 ,4Fhr

90.epV100cx2 Personnel Contananat

.on: (( :.00, :pv100cn l Pern!nuteoccupancy

~

L

' l- '

8,0sp l __ s 8.0 I

I 15.

15. _

g EYWELL g

IlfDRIVE I ILEY 33'-6" RXDLM I

I _IlME: 03:00 E

g

.I Hit Air Suplel ( 2 C m/ min run.

e I

AirSupleContactDoseRate: (2.nRad/he --

floo? Containatlon: (100cpn/100cm2)

I Personnel Contanination! ( 190 cyn/199cn2/

perminuteoccupgncy 3

5.0 ,

5,9 l

,g l i FF("2.l s

3.0 3,9 '

ELEY. 119' -3" RX BLDC.

lI ( 2% F

I I

I I

I I

TFIS PAG,E I:

K INTENTIONALLY y I'

ll LEFT BLANK It I

I I

I I.

I I:

I E

=

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

I ,

l flME:93:39 SCENARIO M 25 REY N0 0 HM TA0llt!V IIIIll (2.0 (2.0 l '((2.0 2,0'\ (( 2.0 2.0 (2.0 llllll ( 2.9 s

2.- ,

l g e

> _l (2.0

! I g

.(2.9 a (2.0 (2.9 g

' 79 2

2.8 IHf I NETAIRSAMPLE: ( I M cpn / Minute run FLOOR CONTAMi i IN cpn/100cm2 BLM PERS0HNEL 00HiiiMIg!g: 100 cen/ninute occupanc9 g

I I  !!ME:0330 SCEHARIO N0 25 REV H0 0 I OSC FACILITY g { j.j (2.9 2.9 29.

g (2.0 ,

2.0 20.

HERX

' (2.9 ANCE (2.0 I -

(2.0 lg (2.0 l NETAIRSAMPLE: (190epn/Ninuterun PERSE 0$f$l$11h! k 1$ c n/huI! cccupanc9

.I

I IlME : 03:30 g

n,

.c _,

5 _ . =

{ g, 1..

g (2. , e, -

W g

g 1 =>e

an I 7

<3,

' ' l r' 2. ( 2, -

g

-- ~d s (2.

" ' = = = = == = =

2. =

(2. 2. up (2. g 3,

HetAirSample:(2,opn L-,1(2. E floor Containation: ( 100 epn/199 en2 (2. 8 Fersond! Contamination: ( 100 cpn per minute occupancy.

THIRD FLOOR OfflCE BillLDING I

IlME : 03:30

!,1cen/ninrun

'I (2. l Het Air Sanple: (2.

AirSapleContactDoseRate: (2.

I re,JWf k!'$'lle!l!!: ( 2. mrad /g"! ( 8'

{II i!::

- - Py!90e

<;e,ninute'cupqs13,-{;. 3

( 2, 15, 15. J

_P

i ?!

!! ij

\I: , .~:

)

15, l l

!! !! 6

-I u

5,G

5. -

EV, 23'-6 E. W , d.;n ll c J

l lC ,

l

[ ss '~ha '

( 2 =. - -

88. -

es.

I

20. (2. E

,, , 20. (2. m

I IlME : 03:30 I ROOT I N 3.

3.-'-

4.- -

3.

3.-

I j (. 2.

2,

4. - 2.

2, O

I fn~

Net Air Suplel

2. n auhr, 2.okn/ninrun d AirSupleContacthseRatet(

floor Containation: 90, epn/190cd 2.

I. __ Personnel Containation: (198.gpn/190cm2 ver Minute honrancy r 2.

x- ,

l ' '

(,-- 2, 2.

Wn-3- --

(._ 3,-

. ((2.2,1 g '

X e

noor = no0r l I

- R,}-

I OPERAf!NG TL00n ELEY, W-6"

> Q'9= l I

I IIME : 03:38

60. . u u i ( 2' -

l 68, f HetAirSanp/nnrun K

le' 3,0

<3

=

- 9.1 syn 3,9 7r \

I '

Air SMPle 00ntui hse ate l 2.0 2,0-t

30. (2.3Rauhr )r ll I .1 O 30.

I Floor Containation!

(ISS.cpn/196cm2 /

,i 10, 2,0 g 19. Personnel Containation:/ 2.0 I 100 can/100cn2 /

0 l 3

'\(Q P ney s c I f j:' O . .. . . . . . . ,0 N I 3 .e 8'8 3 C-  !'!C D 0 t l a.. :'....:

. a

/

, . . . . . .'.'. ..,y ELW . 51' ,, 3" RX BLDC I g , ,

IlME: 03:30 y~

(2.07dninrun Het Air Sanplel 9

0%

AirJupleContactDoseRate: (2.ula#hPll floonContulnation: (108.cpn/100cn2 E

a

,J 20 "-

2.9 q c._ Personnel Containation: Per M( ute 100, Occupancy gd100cn2 l

k2.

- tl1 l

/ B X < 2.

i L

(2.  !

.(2. ._a

.(2,] 30.

a O Dr . o_ 30, _

g u = = = ,30, c.

0000000 {w. 2 . .=

l

[2.  !

n (2.

@fjf.f?R

~~

l I

TIME: 03:30 u u t r ig, tr 60, u m l

Ql J 8.0 19. c= 69.m cm 29. ,

g 8,0 20, g

,,g:! a c l 8.9 i 8,0 HetAirSurel Air Suple Contact Dose Rate:

9,1 c dnin run

( 2. nkauh8 l a l L, 30Q. \ T100p Containatjon: (100.cpn/196cm2 c

PersonnelContaination:(100,cpv100cn2 39.] ___}

0 l g

o /grMinuteoccupancy c o ' 'd l

i s

6.0 3,0 I

l (2. 6.R 3.0

' ^

l l

] O . . . . . . . . ff, C,, "

,:i[", '

o F1 c g

(2 ,

. . ' . . y. ' . . .ELEU.

. g 75'-3" RX BLDC.

n ,

l

I

-IlMI : 03 '18 r I =a n 3.0 I

l se, O 3,8 I 48, 40, 30. 130, 2O 00 00 00 25 18'

- 2. .

25 fr

2. ( 2.

HetAirSanIe (2,on/ninr,un g 2. ,

( 2. ,. kirSupleContactDoseRte! ( 2. n ad/hrl "

2. I floon Contaninat on: 100,cpn/100ci2 2.- Personne ,Contaninaton: 100,cen/100cn2-I C' 1

>c L~

CR 30 l ,,A,, 35.

30, 35,Lerjinute Occupancy HL-4.0 4.0 1 b , l "I 130' l p'

J-- -

0 O v g _

3.0

,3.9 o ,

3.0 . 3.0~

5ASEMENT E00R ElIV, 0'-0" & 3'-6" IlME: 03:30 ..

l O ' !!: S !!:' ,E g

) c

( 2, ..

( 2. ~.'

. NetAirSample: 5.1o*/minrun /2.

Ifl!C!nt!$naion!(1 Nen2 t 3 .' l'ersonnel Contamination: (100,cpn/100cn2

.' j PerMinuleOccupancs l- =

l 3 0  !:! ~2 20,

_< 30. -

30.

- t l ) l

, 3

!!: a.........a o ti:o o c l ( 2, . -

P.

~:

20.

20, (2.

's s ntU. 95' 3" n.[:31.0c l

iw g-........% n n n y -

1 I

, g

.IlE : 83:30 -

.up -

30 :

I i l 1 30 1 __

l h[

1007 g 100./

JVF Air Sample Con ! t $sh!!! (2d[$ l PersSe[!$!!!!!n! PerMinueOccupancy l ELEY. -19'-3"

_ l aP Rx Bldg.

o i i an I

g O ur ya I

I IlE : 03:39 N

I sa r un--

li:

I N_ _.

Il!O ! mf ( c

( 100, chn/100cn2

/ Personnel Contamination:

Per Minule Occunnc9 g

./

ELEY, -6'-5" ELEY, -l'-6" Rx. Bldg.

I NetAirSanple: 9,1cpn/minrun flME : 03:30 l Air SanPle 00ntnot hie Rate!

PersonnelContanlnat:.on:((100 floopContan 2 MRAFht inat:.onl(100,opn/100cn l perMinuteoccupanev 8,0up L 8,9 x

I I 15, 15, g

g Mill ilfDRIVE I ELIY 33'-6" RXBLM I

I _IlME: 03:33 o o g I s B Het Air Sample 9,1 c m/ min run ..

• AirSanpleContietDeseRate' (2,niad/hr -- __

fIcontontaninatjon: (100cpn/190cn2)

I Personne., Contaninati,on: ( 100 cen/199cn2/

\ per minute occupa,ncy 3 I N._/ 5,-8 S,9 I I '

I g,( 2, jj ELEY,119' 3" RX, BLDG,

> X, I n

I' I

I I

I I

THIS PAGE I g I X

IN.TENTIONALLY I

LEFT BLANK I I

i I

I' I

I

! I i;

a "l

I I !!MI:94l99 SCENARIO N0 25 RW N0 9 HACTACILIIY llllll g

'( 2,9'. I 2,9 (2,9 (2,9 I ( 2.0 \ ( 2.9 (2.9 llllll ( 2.9

! 2.0 2.0 l 0 a

?

(2.0

! I h

.(2,9 a (2.8 (2.8 g

(2.9 T0 (2.0 I NET RIR SAMPLE! ( 196 epu /Ninute mn FLOORCONTAMINAI::0N: 198eW190cn2 MINT BLDG PERSONNEL CONIANIMION: 190 cPvninute occupancs g

,M I

I IIME:94l99 SCEMRIO N0 25 RW N0 0 OSC l FACILITY (2.0 (2.0 (2.9

\

'(2,g 2g, l (2iB (2.0 20.

NERX l -

r BLD0 ENIRANCE

{]

I -

(2,9

l (2.0 NETAIRSAMPLE

( 190 epm /Ninute nn l FLOORCONIAMINAT::0N: (100cpn/130cn2 mSaa staiMT a u99 craninute ce;,,incy I

I IlME : 04:00 D G j I' 3 '-

2. J L

2.

,_n, g

l g

l 1 = > = e i

7 '

r I I

c. p .

Ei  !

" l 2, 11: Ii f=

'~

u (2. *i(2. = l (2. ,{ {,_

up (2. g' l

HetAir$ ample:(2,opn L i( 2, FloorContamination: ( 100 cPn/100 en2 (2. l' PersonnelContamination: ( 100 cpn per minute occupancy.

l IHIRDTLOOROTTICEBUILDING l I

! IlME : 04:00 ll Hl  !

{2.

AirSampleconact se e!( n (2. (!I I2,-

I}00r(Ontaminall0n;(100,opn/lkn m2 ( 2, I""'

PersonnelContaMination(100,eM/100cu2 ( 2.-

jrerMinute cupancy g g j j. g l _ ( 2. 15. 15. J 9 \l 15, [ g

!  !! n )  !!il t]

li  :! !

!! IN, 23' 4" RX,EM,' O !I l -i i l , 5,6 ,5,E '

g u !:  !: u E7 N 4 ) 85.,!; e i

2. l_ , , 95.

2.l_, ., , y

85. ,

85.

l

20. (2. 8

20. ( 2, o

ul

I

_.IlME: 04:00 g

ROOT I -

3.

3. - -

4.- -

3.

3.- 2.

'l

.-g g~% 2. 4. -

2, 0 I -

2, Het Air Suple: (2.cPn/Nir,run 2,nRad/hrn liI AirSaNpleContacthseRate: i I floorcontuinatlon: ( (199. ern/199en2 2.

_. Personnel Containation: ( 199 c W 199cn2 r 2.

t, terMinuteOccuranc!r I 2.

2.

A -

3. - -

4. -

3.-

2.

2,

{ 2,2-

3. 4. _ 3. 2.

l wn-X

- RMT

- 6 I

1MT

__ f"),J-

.. ( 2.

l 0PIRAllHG TLMR ILIY, 46'-6" p (' au m I

I I1ME : 04:09 69, . u u I (2. -

l 69. /,,,

Het 16.epn le' Air Sanp/en run 3,9 (2.

'=='

3.0 l d_

" \ 2.0 c d

Air Santle Contact hse ate:

2,0-30.

30, (2.nRad/hr ) '- l L_,,

-I , floor Containation! _-

c aC (199.cpn/100cn2 ) ,i l 19,

19. Personnel Containation:/

2,9 2.9

)

1 ( 100, cW190cn2 l 3 0 PerMinuleOccupuey/ / c l

3,g 3 f!'O........,0 C l,!D '

D 3'8 0 c l a . .

,s.

( 2l ELEY 51' 3" RX.BLM Y l ~ w/ 'N %' . . . . . ., . .

l IIME: 04:00 g

HetAirSanple:

(2,o>dninr(un ll e

j Air Saxple Contact hse Rate: (2.Rhd/hPIl l,1 J 0% floopcontaminatjon: ( 100, cpx/100cx2

"- PersonnelContainationl(100,opv100cn2 t 2, 2,0 2.0 f_-g - PerMinuteOccupancy l I

I (2. - -

_ g (2.

I i

i ( 2, l

'(2.-

O D_Q

- - (2,] a-' =-

30.

30,i --

" r l

u = = - 30, c.

l

• r n 0000000y = = ( 2.

A (2. m ME22ANINEFLOOR

'1 E

EIY, 23'-6" l

IlME: 04:00 I u ;' u U-o -

1

?.0 10, la.

LT c=

60, 60.= c=

mD

20. =

8,0 20, E g -

7,g:l a c ,

.A 8,0  : E

'!VI 8.0 -

8,0 HetAirSanse; 16,opvninrun O E l a

,1 [" , 3 x. ,-j Air SaHPle Contact hse Rate: ( 2. nRad/ho l g

\ Yloor Containation: ( 100 cpm /100cm2 Personnel Contanination: ( 100, cpd100cn2 5 3.0..]. .}

( j y minute occupanc,y 5.0 5.0 E

@ U C 3,0 M C l

6,0

( 2. 6.0 3.0 B (2'

a J Q . . . . . . . . ,F_I"""' ~ ~ Tf ~~ jD P t

E. . ..

L.__ ' _J g

!(, a,-

Jl i ( 2. - ELEY, ?? 3" RX. BLM, ip

,.w.'. . . . .'. . .g , , 3

I a =IIMI: 04:00 __

a ca 01, 3

48, se, O 3l8 I -' 40, 30. 130.

<3m = nn ce nn 2 25' 1'-"'

I -

( 2, (2

( 2, 9

Het Air Suplei

25. 'r

( 2, e m/ min r,un (2. ( 2. , kir Suple Contact Dose Rate: ( 2. Rhd/hel "

I ,

1 (2.

( 2.-

I floor Containatlon: (100,cpn/100ci2 Personnel Containationl ( 190, cyn/190cn2-C9 L'-'

Ut 30. , N 35.Per Minute Occupancy 4.0 g 35,

,,  ; - -- w 4g,,

I h" I b,

130 g

a.

p' '

a a J 3.0 a ~3.h_ o 3.0 3.0

~~ BAST.MINIFLOOR ELEO e'-8" & 3'-6" I

IlME: 04:00 .

u u o e o, u ( a, u s l ( i. IF ( 2. y ( 2.

l .) ,.' t (2. 'J

- Net Air Suple: 16. e */ min run (2.

I ]

Air Suplle Contact Dose Rate: Floor Containation!

( 2, nhuhr (2.

c

( 100. e Personnel Containation: (100,cW100cn2 l

,J 'l PerMinuleOccupancs l

3 0 kl! v - t I ( ) !!l J

f!' O. ,. . . . . . . . . O O hlO O C l

' .'~ .

25.

( 2, - -

.. ( 25.

(2.

,u .-.........%

s

\__ILRI. 95'-3" RXBLDG h g if _n , ,_

.T1MI: 04:00_

I i

f,l l JP

_ _ I 100, l

100, g

Y HetAirSanlel 16,cw'ninrun AirSampleContactDoseR$te: ( 2. nta Uhr a flocr Contanination: ( 100, c n/100cn2 E Perscenel Containation: ( 100 e 100cn2 Per Minu;e Occumy g L _ 5

_ _ . ELEV, -19'-3" -

_ m up I I Rx, Bldg. Q E an g 3 ,

gf O uP g

I IlME: 04:00 i

n- I hT L dn_

l 60 AirSanpleConact'os $t ( .'

Floor Containation: ( 100. cp"v'100c \

PersonnelContu.ination: ( 100, cpn/100cn2 %

PerMinuleOccuPanc9 N.

l:

ELEY, -6'-5" ELEV, -l'-6"  ;

Rx. Bldg.

l 5

I HetAIrSample:

'lME: 04:00 16 c)n/ min run l Air knple Contact hie htt! ( 2 nla#hr floorContaninaton: (109.cpn/190cm2 Personnel Contaminatloni ( 199, opn/190cm i

l _

perminuteoccupancy 8.0up L I  % s.

8.9 I

I N \\ 15.

15.

g N _

MVWEL g

IIPDRIVE I M 33'-6" M EM I

I F IIME: 94:09 9

g _

I e HetAirSample 16,can/ninrun.

I AirSampleContactDoseRate: (2.n11#he -- L_ .

I FloorContamination: (199cpn/190cn21

'g- Persx::el Contanination: ( 100 cer/100cn2/

coupajoy 3

5.9 5,0  !

lI

.I 1) ff(=2 m -

( 2. X '/

)

3.9 3,0 ELIV.119'-3" RX.BLDC.

,l L2

i-I I

I I

I I

~~HIS PAGE I I

gg INTENTIONALLY y I

LEFT BLANK I I

i I

. I I

I I

I IIME:04:30 SCEHARIO N0 25 RIV N0 0

'l HACIA0lllIV llllll 2,0 (2.0 (2iB l '(( 2.0 2,9'\ {( 2.0 (2.0 llllll ( 2.0 s

-l ( 2.0

-42;9  ;

I a e

1 l (2.0 L- l 0

.(2.0 a (2.0 (2.0 g

( 2[0 i0 (2.0 NAlHf NETAIRSAMPLE: (100epu/Minuterun BLDG FLOORCONTAMINATION: (100cpn/100cn2

,g PERSONNEL 00HTAMlHAll0Hl<190cPh/MinuteOccuPnnc9 I

I IIMI : 04:30 SCEHARIO N0 25 RIV N0 0 I OSC

! ( ) ,

g (2.0 (2.0 100.

NIRX l' _

' ( 2.0 BLDG ENTRANCE (2.0 I -

(2,9 l (2.0 NETAIRSAMPLE: (100epu/Minuterun ll l

FLOORCONTAMINATION: (100cpn/100cm2 PERSONNEL CONIAMlHAIION: ( 100 cPn/ninute occupancy

IlME: 04:30 3 Ic m O j (2. U m (2. _, p y

g l

~

1 c= a e 'An

"+- '

• r' (2. ( 2.

g (2. 2=

J c

( 2. ,(2. up (2. g (2. R L

Het Air Sanplei ( 2 opn i(2, a floorContanination: ( 100 epn/100 en2 (2. E Personnel Contamination: ( 100 cpn per minute occupancy.

idlRDFLOOROfflCEBUILDING l I

IINE: 04:30

,' I (2.  !

HetAirSanPlel2,hE60W'ninrun (2. "

AirSampleContactJoseRate: 640, nhd/hrl (2. (ll2,'

l Floorcontanination:1,3E4cFn/100cn2 (2. E PersonnelCantanination: 120.epH/100cn2 ( 2.-

- ~

FerMinuteOccupancy\ 2. E

( 2,' 15, ' (( 2, m

( 2. 15. 49.

1  :.

E i ll "5,8 a 2r-6" a n. S;;oll R g n . .s.9 o ::  !: o l(' ,

9,0 ( 2,

(#

M" j 2. l a( [_ , 30, 530.

( 2._, , , ,530. , 530. l 100, ( 2.

, , 100. (2. l

---t a+.6,s e- -an-=

I

_IlMI: 04:30 g

ROOF l -

- 3.

4 . -- 3.

l g e 2 2, 0 NetAirSuple: ( 2 e m/ min run an AirSampleContactDoseRatei (2,ntad/hr d floor Containation: ( 100, epn/190c 2.

I. Personnel Containation: cpn/190cm2 2.

v - (199MinuteOccupancs3 ter I 2.

2.

A -

3. -

3.

4,-

4.

3.-

3.

2, 2,

( 2,9

( 2 . , ,,

g ' dn X -- _] '

e

= Rar I

Rar I' -

- id,f--

.(2 l

- I p. l0 d OPERAIING rLMR ELIV, 46'-6" h

I IIMI: 04:39 i ( 2, u

69, . u -

( Het ample; 2.4I6 eM/Hin run LG a.2 l d

" \\ 2.9 C 2

AirSampleContacth5eRatel -

2,0-1-

30. 649.nRauhr ) ,,,_j k,,,,,,

l 30, l floor Contuihation' g

.1 0 1.3I4 cpn/199cn2 ) ,i l

19, 2,0

19. Personnel Containation:/ 2.9 l 120, opn/100cn2 /

l 3 O Per Minute Occupacy /

V '

c l '

C f'!C 3.9 t

3 h ! ' O. . . . ,. . . . . . .,,0 O O l (2,r -

^

' A u

( 2g  ;, s ' RX. D C I l, n..........w 's j IIE. 51'-3", ,_ n 0 n,

I IlME: 04:30 U' f' I

HetAirSample: ( 2, t, a

L-jO 0%

Air Janple Contact Dose Rate! ( 2. nkvain FloorContamination: (100,cpn/100ck.?

a#hol l run l 2,0 =- Personnel Contanination ( 100, cid100cn2 a 2.0 c. __-c FepMinuteOccupancy g i

\. 2, (2. - m l l

/

jj; l

~

X q

. -h l

O Of . l{f',2 = _

" = _. Sgli _

a

-u = = = '

30, c. g 0000000 c a .] . .=

( 2.

(2.

E E

MI22ANINEFf.00R E

ELEY, 23'-6" I

IlMI: 04:30 j u 4

u 8.3 tr 11,

11. ==

tr 69, 60.m ==

u m 20.

q,p a 8,0 c

/

v i 8.3 -

l H 3.2",, , f _

8,3 HetAirSanye: 2,4E6c>dninrun AirSampleContactDeseRate: 640. xlauhe l O

t l

\ Tloor Contamination

1.3E4cpn/100cn2

___.. PersonnelContanination: 120,ced100cn2 l

3.]2..] Pninuteoccupanc,9 3

Em t_

O g - I t l

6,3 3,7 j2." ' 6.3 3.7 n

l J O .'- . . . . . . . . fi"" u !f C

~

..'h ll !l g (2.- -

(2. 4. f s

. . . . .'. . .g ELEU. 75'-3" RX. BLDC.

3 lw g ,, ,,

I ^

= -IlME : 04:30 -

B o n 3.9 48, 38, O 3,8 l 40, 30, 130.

(2 o nn no nn t 23, v-I -

( 2, (2.

(2,"

HetAirSanPle!

25.

• ff

( Si oPn/nin r.un (2. ( 2. ,. kirSaMpleContactDoseRate! ( 2. nRad/hrl "

I~

(2. I floor Cont ainatjon: (100,cpn/100ci2 Personnel Contanination: ( 190, crn/100cn2-( 2.-

C'1 C 35.Per Minute Occupanc9 4.9 I Vi 38. 38, U( 35, wt_

4.0 l f- ,

jq 0 p v' I u.

A 3.9 3.9

,3.B_

3.0 o

8ASIMINTFLOOR Ela, B'-8" & 3'-6" I!MI : 04:30 -

u u L ( 2,---- 1.J (2,LJ l ' '

(2. rF ( 2. ,

m(2.

J c 3 ( 2, . .

(2. E' / Net Air Suple 2. G c m/ min run ( 2.

(2.

I 3 AirSamplleContactDoseRate e

Iloor Containation: 1.3I4epu/100cn2 640, nhd/hr 129 cpn/100cn2 c

Personnel Containation:

l

.J ') .

PerMinuleOccuPanc9 l 3 0 !'.k 3 30, j '40.

48.

w t

l '

( )k!'.

] { !', O. . . . . . . . . . ,0 O d'.O O c l ( 2.

'..~

25.

25,

(

(2.

ELEU. 95'-3" RX.0 EDG l g . ' . . . .'. . -

W .

s n n n s _ _ - _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _

I'

.IlME: 04:30-jj.:, i V tJNy up -

, , _ _ i O

1007 11 Het Air San le:

AirSanpleContactDoseR!te: 640. 2,4E6 n auh3 ekn/nin run m

\ FloorContamination: 1,3E4cpn/100cn2 E PersonnelContanination: 129 ep/190cH2 Fer Minuie Occupancy g

\ ELEY, -19'-3" Rx. Bldg.

p _

g i i da' l 'E a l'1. _f /'/ O ur I

IIME: 04:30 i

n-  ! L dn_

60. g HetAirSamle: 2.4I6 c' #ain run-AirSanpleContactDoseR$te;640, dad /hr FloorContanination: 1.3I4 epW190ct Personnel Contaxination: 120,cpv100cn2 l Per Minule Occupancs \

ELEY, -6'-5" ELEV, -l'-6" Rx.Bia,. I E

I IlME ~- 04:3g HetAirSanle: 2.4E6 c'n/nin run l AirSanPleContactDoseRte 640, n FloorContamination: 13E4cpn/1990n2 aW PersonnelContaninationi .20,cPd100cn l per minutt_ aceupancy 8,0uP L l

i 8,9 I

I 15,

15. _

g HYWILL IIPDRIVE I ELEY 33'-6" RXBLM I

_IIME : 04:30 I

y e

l WhtAirSaMPlel Si4E6 AirSaupleContactDoseRate: 640. Whd/he 0

m/ min run ..

-- [

FloopContamination: 2.4E3cpn/1 Wen 2

'l PersonnelContanination: 11,cPW100cn2 g coup 3ncy 5.9 u .'

l1 '

' T A' .

H tun.11r -3" n. nDc.

< 3. x l nc-

! l I

I I

I THIS PAGE I I

3, INTENTIONALLY 'M LEFT BLANK I I

.. I I

I I

I I

I

, IINE:05:00 SCENARION025REYN00 E HA0FACILify llllll I' '

490, 120, 12.

<1950,\

'1950. 490.

l 120.

llllll 12.

(2.0 l d 2;B ... .

~'

l D c

o

_ (2.0 (2.0 D

.(2.0 (2.0 l ( 2$8 (2,0 10 MAlHI I NETAIRSAMPLE: (100cpH/Minuterun FLOORCONIAMihATION: (100cpn/100cn2 PERSONNEL 00HIAMlHAll0N: ( 100 cen/ninute occupanc9 BLDG I

I IINE:05:00 SCENARION025REYN00

! OSC FACILITY (2.0 (2.0 7.8 1600.

(2,0 7,8 1600, l _  !

NERX l l i

2.0

(( 2,0 BLDG ENTRANCE g - -

(2.0

( 2.0 l NET AIR SAMPLE: ( 100 cpH / Minute tal

's FLOORCONTAMINATION: (100cpn/100cn2 E PERS0HHEL 00HIAHlHA110H: ( 100 cen/ninute ccourancs l

IIME: 05:00  !

3,.

<2.

--o U

5.- _a I'

l (2. .  ; -

9 r l\

1 =>; I dn

- m E

0

-r 2d r' 2.1 2.1

~

2,1 I

~l m

c 5.4 5.4 l

,9.1 up I?:

5.4 d 5.4 i j 9,1 g I-,1 5 Het Air h nple: ( 5 opn 910.

floorContaxination: (100cpH/100ex2 910. E PersonnelContamination: (109cpnperMinuteoccupancy. E THIRD FLOOR OfflCE ElllLDING g

I IIME: 05:00 )' . =i i Het Air Sanple: 3.1E10 cen/nin ru 120.

lt 120, AirSampleContactDoseRate:8.5E7MRa#hrl 7.3 I floorContaninetion:1,7E8c 7,3 430,I" .,

Personnel Contaninuien!sx/100cx2 1.4E6 c:pn/199cn2 490.-

l!;

Per Minute UccupancyN 4700,'

4.2E4 73 00, ' 1950.

5.2E47800.

1950, l;l 0 J l 11,0E4 l I i,l :'!  ;; O I!

o no

-l 550. EV,2T-P' E, E , O!! 3 llhlM' !i!!

t E'

u = \. =u I

( 7400 9 gl.0E4 900,

! i 8"

a 185b_

Qj'i-4 m 6700. bP-t ll '

1850.__ , ,

(.3E4 ,1.Ei 1600, 7.8 l

1600, 7,8 E,

- - - _ - - - _ - - _ - -