Text

Vols 1 & 2 of 1993 Emergency Exercise Scenario, Conducted on 931208
	ML20029E145
Person / Time
Site:	Farley
Issue date:	10/07/1993
From:	Averett J, Hill R, Dennis Morey; SOUTHERN NUCLEAR OPERATING CO.
To:	;
References
	NUDOCS 9405170078
	Download: ML20029E145 (556)
	v • d • e

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1 1993 EMERGENCY EXERCISE

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,L SCENARIO j

APPROVED:

( /d 4 R. D. Hill ' Date h Yu% /C h3 D. N. Morey Date' APPROVED: PUBLIC INFORMATION SCENARIO

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9405170078 931007- 9 PDR ADOCK 0500 5

N L December 8, 1993 Farley Nuclear Plant Emergency Exercise Package VOLUME PAGE I. Objectives . . . . . . . . . . . . . . . . I 2 II. Scenario . . . . . . . . . . . . . . . . . I 9 A. Scenario Summary . . . . . . . . . . I 10 B. Public'Information . . . . . . . . . I 25 C. Plant Parameter Graphs . . . . . . . I '66 D. Radiation Monitor Data . . . . . . . I 122 E. In Plant Area Dose Rates . . . . . . I 166 F. Plume Maps . . . . . . . . . . . . . I 228 G. Meteorological Information . . . . . I 243

/ :H . Sample Data . . . . . . . . . . . . I -246 III. Controller Guides . . . . . . . . . . . I 276 IV. Monitor Checklists . . . . . . . . . . . I 311 V. Appendix A - SPDS Rad Data Screens . . . II 343 VI. Appendix B - SPDS RCS/CTMT/ECCS Screens. II 344 VII. Appendix C - Plant Operational Data. . . II 345 VIII. Appendix D - ERDS Data Screens . . . . . II 346

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4 The contents of this document are to be released only on a need-to-know basis prior to December 9, 1993.

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O OBJECTIVES O

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1993 FARLEY NUCLEAR PLANT EMERGENCY EXERCISE OBJECTIVES l December 8, 1993 1

1. Participating Organizations Full Participation: Southern Nuclear Operating Company (SNC),

Alabama Power Company, State of Alabama, Houston County, State of i Georgia and Early County.

l II. Purpose A. To meet the requirements of 10CFR50, Appendix E, and NUREG-0654/ FEMA-REP-1, Rev. 1.

B. To conduct a small-scale exercise that will include the mobilization of SNC, Alabama Power Company, state and local personnel and resources adequate to verify the capability of participating organizations to respond to an accident scenario requiring response.

III. Southern Nuclear Operating Company and Alabama Power Company Objectives A. On-site

1. Demonstrate that control rocm staff can tssess the event, classify 1 the event, take corrective measures to control the event and activate emergency response procedures.

2. Demonstrate that plant staff can activate and staff the Technical Support Center (TSC) and perform accident response activities including:

a. Dose Assessment

b. Off-site notification and protective action recommendations

c. Reclassification of emergency status

d. Personnel Accountability for all personnel on-site

e. Radiation Monitoring Team (RMT) Dispatch and Control (if required)

f. Site access control and admittance of essential personnel

g. Dispatch and control of re-entry teams

3. Demonstrate the capability to turn over EOF functions to the EOF staff when the E0F is activated and staffed.

4. Demonstrate that plant staff can activate and staff the Emergency Operations Facility (EOF) and perform accident response activities including:

a. Assuming the dose assessment function and the RMT direction and control function from the TSC staff.

b. Coordinating logistics, engineering functions, licensing functions and manpower with the TSC and E0C.

c. Preparing and coordinating news releases and activating the NMC.

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5. Demonstrate the capability to augment EOF' staff with non-essential plant personnel.

6. Demonstrate the adequacy of the plant's communication system including:

a. Communication links to Corporate Emergen:y Operations Center (EOC)

b. News Media Center (NMC)

c. Interplant communications

d. Communication links to state and local authorities

7. Demonstrate the capability to perform radiological monitoring.

B. Off-Site

1. Demonstrate that the corporate staff can be activated and staff the E0C in a timely fashion.

2. Demonstrate that Corporate Headquarters Emergency Operations Center (E0C) staff can provide support for:

a. Activation of facilities

b. Logistics

c. Engineering and Licensing

d. Support organization notification

e. Briefing of company management

f. News release preparation

3. Demonstrate that the Public Information Organization can respond to media and public inquiries, establish a rumor control center, and issue and coordinate news releases.

IV. State and Local Objectives

- See Attachment 1 (Any state or local objective that cannot be demonstrated due to conditions inconsistent with the scenario will be demonstrated in a separate drill.)

V. Joint Objectnes (SNC, Alabama Power Company, State of Alabama, State of Georgia, Houston County and Early County)

A. Demonstrate that all parties can coordinate news releases .

and conduct a joint news conference.

B. Demonstrate that adequate technical information can be exchanged among involved agencies.

VI. Exercise Limits The plume exposure exercise will begin prior to 8 A.M. CST and conclude by 2:30 P.M. CST.

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ATTACHMENT 1 STATE AND LOCAL OBJECTIVES O

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State of AL.

Houston State Early County of GA. County

1. MOBILIZATION OF EMERGENCY PERSONNEL. Demonstrate the capability to alert and fully mobilize personnel for both emergency facilities X X X X and field operations. Demonstrate the capability to activate and staff emergency facilities for emergency operations.

2. FACILITIES-EQUIPMENT, DISPLAYS, AND WORK ENVIRONMENT.

Demonstrate the adequacy of facilities, equipment, X X X X displays, and other materials to support emergency operations.

3. DIRECTION AND CONTROL. Demonstrate the capability to direct and control X X X X emergency operations.

4. COMMUNICATIONS. Demonstrate the capability to communicate with all apprc;riate emergency X X X X personnel at facilities and in the field.

5. EMERGENCY WORKER EXPOSURE CONTROL. Demonstrate the capability to continuously monitor and X control radiation exposure to emergency workers.

6. FIELD RADIOLOGICAL MONITORING - AMBIENT RADIATION.

Demonstrate the appropriate use of equipment and X N/A j determining field radiation measurements.

7. PLUME DOSE PROJECTION. Demonstrate the capability to develop dose projections and X N/A X N/A protective action recommendations regarding evacuation and sheltering.

8. FIELD RADIOLOGICAL MONITORING - AIRBORNE RADIOI0 DINE AND PARTICULATE ACTIVITY MONITORING.

Demonstrate the appropriate use of equipment and procedures for the measurement of airborne X N/A radiciodine concentrations as low as 10-7 (0.0000001) microcuries per cubic centimeter in the presence of noble gases and obtain samples of particulate activity in the airborne plume.

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9. PLUME PROTECTIVE ACTION DECISION MAKING.

Demonstrate the capability to make timely X X X X and appropriate protective action decisions (PAD).

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f State Houston State Early of AL. County of GA. County

10. ALERT AND NOTIFICATION. Demonstrate the

/G capability to promptly alert and notify the X X X X d public within the 10-mile plume pathway emergency planning zone (EPZ) and disseminate instructional messages to the public on the basis of decisions by appropriate State or local officials.

11. PUBLIC INSTRUCTIONS AND EMERGENCY INFORMATION.

Demonstrate the capability to coordinate the formulation and dissemination of accurate X X X X information and instructions to the public.

12. EMERGENCY INFORMATION - MEDIA. Demonstrate the capability to coordinate the development X X X X and dissemination of clear, accurate, and timely information to the news media.

13. EMERGENCY INFORMATION - RUMOR CONTROL. Demonstrate the capability to establish and operate rumor X N/A X N/A control in a coordinated and timely manner.

14. IMPLEMENTATION OF PROTECTIVE ACTIONS. USE OF KI FOR EMERGENCY WORKERS, INSTITUTIONALIZED ;

INDIVIDUALS, AND THE GENERAL PUBLIC. Demonstrate O the capability and resources to implement potassium iodide (KI) protective actions for emergency workers, institutionalized individuals, i

l ar ', if the State plan specifies, the general public.

15. IMPLEMENTATION OF PROTECTIVE ACTIONS - SPECIAL POPULATIONS. Demonstrate the capability and N/A N/A X resources necessary to implement appropriate !

protective actions for special populations.

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16. IMPLEMENTATION OF PROTECTIVE ACTIONS - SCHOOLS.

Demonstrate the capability and resources necessary to implement protective actions for school N/A N/A N/A children within the plume pathway emergency planning zone (EPZ).

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17. TRAFFIC AND ACCESS CONTROL. Demonstrate the organizational capability and resources necessary to control evacuation traffic flow '

and to control 3ccess to evacuated and sheltered N/A X N/A ;

areas. !

18. RECEPTION CENTER - MONITORING, DEC0hTAMINATION, AND REGISTRATION. Demonstrate the adequacy of O procedures, facilities, equipment, and personnel for the radiological monitoring, decontamination, N/A N/A and registration of evacuees.

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State _ Houston State Early of AL. County of GA. County

'19. CONGREGATE CARE. Demonstrate the adequacy of facilities, equipment, supplies, N/A N/A personnel, and procedures for congregate care of evacuees.

20. MEDICAL ~ SERVICES - TRANSPORTATION. Demonstrate the adequacy of vehicles, equipment, procedures, !

and personnel for transporting contaminated, X*

injured, or exposed individuals.

21. MEDICAL SERVICES - FACILITIES. Demonstrate the adequacy of the equipment, procedures, and supplies, 'and personnel of medical X*

facilities responsible for treatment of contaminated, injured, or exposed individuals.

22. EMERGENCY WORKERS, EQUIPMENT, AND VEHICLES -

MONITORING AND DECONTAMINATION. Demonstrate the adequacy of procedures for the monitoring and decontamination of emergency workers, equipment snd vehicles.

23. SUPPLEMENTARY ASSISTANCE (FEDERAL /0THER).

O Demonstrate the capability to identify the need for external assistance and to request X N/A X N/A such assistance from Federal or other support organizations.

24. POST-EMERGENCY SAMPLING. Demonstrate the use of equipment and procedures for the collection and transportation of samples from areas that received deposition from the airborne plume.

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25. LABORATORY OPERATIONS. Demonstrate laboratory I operations and procedures for measuring and X ,

analyzing samples. l l

26. INGESTION EXPOSURE PATHWAY - DOSE PROJECTION AND l PROTECTIVE ACTION DECISION MAKING. Demonstrate I the capability to project dose to the public for the ingestion pathway and to recommend protective measures.

27. INGESTION EXPOSURE PATHWAY - PROTECTIVE ACTION IMPLEMENTATION. Demonstrate the capability to implement protective actions for ingestion exposure pathway.

To be tested in a separate drill the day before the exercise.

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State Houston ' State Early of AL. County of GA. County

28. RELOCATION, RE-ENTRY, AND RETURN - DECISION MAKING.

/T Demonstrate the capability to develop decisions on

(.) relocation, re-entry, and return, d

29. RELOCATION, RE-ENTRY, AND RETURN - IMPLEMENTATION ,

Demonstrate the capability to implement relocation, re-entry and return.

30. CONTINUOUS, 24-H0VR STAFFING. Demonstrate the capability to maintain staffing on a continuous, 24-hour basis through an actual shift change.

31. OFFSITE SUPPORT FOR THE EVACUATION OF ONSITE PERSONNEL. Demonstrate the capability to provide offsite support for the evacuation of onsite personnel.

32. UNANN0UNCED EXERCISE OR DRILL. Demonstrate the capability to carry out emergency response functions in an unannounced exercise drill,

() EPA PAGs and other relevant factors.

33. OFF-HOURS EXERCISE OR DRILL. Demonstrate the capability to carry out emergency response functions during an off-hours exercise drill.

34. LICENSEE OFFSITE RESPONSE ORGANIZATIONS.

Demonstrate the capability of licensee offsite response organization

[ licensee (0RO)] personnel to interface with non-participating organizations and accomplish coordination essential for emergency response. ;

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O O O 1993 FARLEY NUCLEAR PLANT i RADIOLOGICAL EMERGENCY EXERCISE SCENARIO TIMELINE POTENTIAL (CONFIDENTIAL) CONTROLLER NOTES:

DOWNGRADE NMC TO PAGE DIAL 6866 -

IF NOUE ERF STAFFED CONTROLLER PAGER FS WAS DECLARED ACTNATION l CONTROL ROOM-

'N ERFS TSM191.

N s ACTNATED EOF-5627/6211 NMC-2044 POTENTIAL FOR NOUE DECLARATION ALERT. SITE AREA GENERAL l :

0700 0800 0900 1000 1100 1200 1300 m

I l l n RHR SYSTEM 2 MW/ MIN RVUS- LEAK!NG CL TERMINATE LEAK IN RAMPDOWN INDICATES PENETRATION RECIRC ,

I A RHR BT M RHR BMS N MMEW '

BREAKER ROOM BECO M G MDIO E M ;

TRIPS UNCOVERED RELEASE k

OUTER MEDIUM \ LEAKING MAIN SIZE LOCA _\ PENETRATION AIRLOCK RESULTS IN \ . LOCATED &

DOOR CTMT PRESSURE 1 A RHR REPAIRS INITIAL CONDITIONS REPAIRED >27 PSIG PUMP BREAKER INITIATED ' UNTT 1 IS ACCIDENT UNIT (CTMT INTEGRITY RESTORED) REPA!RS (RELEASE WILL 1B CTMT SPRAY PUMP OOC O

BOTH UNIT.1 1D N WER E pgP, P STARTED MAIN AIRLOCK 1B RHR SYSTEM ON REC 1RC SEALS LEAKING AIRLOCK INNER SEAL OOC (LOSS OF CTMT INTEGRITY) 1 A AUX BLDG EXH FAN OOC 1 A MDAFW PUMP OOC I

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(J SCENARIO

SUMMARY

Page Initial Plant Conditions 11 Equipment and System Status Maintenance Itema Narrative Summary 16 Sequence of Events 18 Power History and Misc Data 23 0

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1993 ANNUAL DRILL O 1x111it coxoirious UNIT 1 STATUS 100% steady state (reached 100% 3 days ago following a shut.down for repairs to the main generator hydrogen cooler) . i I

1B containment spray pump red tagged out of service for the l last 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months due to damaged seal (repairs are waiting on i parts, expect repairs will be completed in 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .).

1B RHR system running on recirculation for a required STP. A ,

Train RHR was just run prior to starting B train to ensure l operability Unit 1 main containment air lock is inoperable due to a failed seal on the inner door.

Maintenance crew going to unit 1 main airlock to repair the seal on the inner door.

1D containment fan cooler red tagged out of service due to a service water leak that grounded the motor .

MOL / 1500 MWD /MTU Boron concentration 810 ppm.

Unit 1B train PRF in operation for an STP.

1A MDAFW pump red tagged out of service for bearing replacement. It has been inoperable for 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months , expect repairs to be complete in the next 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

A train is the on-service train B train CCW (1A pump) is running to support running of B train RHR.

lA Aux Building Exhaust fan is out of service because of an abnormal noise coming from the fan.

O INITIAL CONDITIONS PAGE 1 11 l'

CJ .NzT 2 e,AmeS 100% steady state BOL <500 MWD /MTU Boron concentration 1190 ppm A train is the on service train 2B Charging pump inoperable and tagged out of service due to an overheated bearing and loud noise coming from the pump 2C condensate pump caution tagged for emergency use only due to overheating during long term operation. The decision has been made to continue operation at 100%.

RE15B Steam Jet Air Ejector '

radiation monitor detector replacement is in progress.

FNP-2-STP-33.1B is in progress on B Train Solid State Protection System.

Fire Detection system 2A-22 is in alarm due to a faulty detector. A fire watch has been established.

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l INITIAL CONDITIONS PAGE 2 12 ;1

,,_, UNIT 1 LCOS

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b 1B Containment Spray pump MANDATORY Technical Specification 3.6.2.1 in effect since yesterday at 0700.

1B RHR ADMINISTRATIVE Technical Specification 3.5 2 in effect since 0630 this morning while running the 1B RHR pump. The B train RHR System is operational.

Main Containment airlock inner door MANDATORY Technical Specification 3.6.1.3 in effect since 0640 this morning.

1D Containment Fan cooler ADMINISTRATIVE Technical Specification 3.6.2.3 in effect since 1245 on last Sunday.

1A MDAFW pump MANDATORY Technical specification 3.7.1.2 in effect since 1900 last night.

UNIT 2 LCOS 2B Charging Pump Administrative Technical Specification 3.1.2.4 and 3.5.2 since 2 days ago at 1900.

RE15B SJAE Radiation Monitor Mandatory Technical Specification 3.3.3.1 since 3 days ago. Alternate sampling methods are in effect.

B Train Solid State Protection System Voluntary Technical specification 3.3.1 in effect since 0630 for testing.

Containment Smoke Detection System Mandatory Technical Specification 3.3.3.9 since last night at 2330.

O INITIAL CONDITIONS PAGE 3 13 I2

UNIT 1 MAINTENANCE. ITEMS 3

' (d 1B Containment Spray pump waiting on repair parts for seal replacement.

Air lock door maintenance team is already on the way to the air lock with all of the parts that they need to effect repairs.

1D Fan Cooler scheduled for repairs during the next outage.

lA auxiliary building fan MWR has just been written and has been sent to planning. The tagging order has just been completed.

The 1A MDAFW pump is in the process of being torn down to replace the bearings.

UNIT 2 MAINTENANCE ITEMS '

2B Charging Pump MWR has been planned and repairs are scheduled to start at 1600 today The 2C condensate pump MWR has been planned and work is scheduled in three weeks when a rampdown is scheduled for other reasons.

R15B detector replacement is in progress, expect repairs to be complete in 3 hours3.472222e-5 days 8.333333e-4 hours 4.960317e-6 weeks 1.1415e-6 months .

Fire Detection System 2A-22 MWR is in planning at the current time.

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l O INITIAL CONDITIONS PAGE 4 14

I Meteorlogical Conditions Wind speed:

3.6 mph at 150 feet ,

3.0 mph at 35 feet ,

Wind direction from:

102 degrees at 150 feet 99 degrees at 35 feet Delta T:

.8 degrees channel 1 8 degrees channel 2 l

N- INITIAL CONDITIONS PAGE 5 l i

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1993 ANNUAL DRILL

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NARRATIVE

SUMMARY

The drill starts at 0700 when the Control Room staff is informed that both the inner and outer airlock doors on the main airlock of Unit One containment are leaking. The Technical Specifications require that a plant shutdown and cooldown be initiated in an hour if the airlock cannot be repaired. A Notification of Unusual Event (NOUE) declaration must be made if a plant shutdown is required by Technical Specifications. The control room staff may declare a precautionary NOUE prior to the start of the shutdown. Plant staff will start repair activities.

At 0715 the control room staff receives a report that the 1A RHR pump is inoperable due to a breaker problem. The control room staff will apply the appropriate Technical Specifications and have repair activities started.

At 0755 the outer containment airlock door has been repaired.

Plans to shutdown the plant are canceled. If a NOUE was declared a down grade and closeout may be considered.

Between 0800 and 0815 the control room staff will discover a leak in the operating train of RHR, B train. This leak will require declaring the second train of RHR inoperable. The Technical (7 Specifications require that a plant shutdown and cooldown be V initiated in an hour if at least one train of RHR is not returned to service within an hour.

Due to both trains of RHR being inoperable an ALERT emergency classification must be declared. Plant staff will start taking actions for an alert and the TSC and EOF staffs will be called in.

One hour later neither RHR pump has been able to be repaired and a plant shutdoun is commenced.

Within 75 minutes of the Alert declaration the TSC and potentially the EOF should have minimum staff in place and start turning over to perform designated functions. The EOC in Birmingham will also have etaff available to support plant operations At 0945 a medium sized LOCA occurs causing containment pressure to rise above 27 psig. A Site Area Emergency must be declared.

Several pieces of containment cooling and ECCS equipment fail causing only one spray pump, one fan cooler, and one MDAFW to be running and no RHR pumps to be operating.

The core becomes uncovered and containment radiation levels rise indicating that core damage has occurred. When samples can be drawn, sample analysis will confirm that core damage has occurred.

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At 1000 one RHR pump can be - restarted allowing the core to be t : recovered.

q,j At 1045 a. failure of the containment isolation occurs causing a release into the pcnetration room and subsequently to the i Environment through the plant vent stack.

A General Emergency should be declared at'this time.

It iG anticipated that the leaking containment penetration can be repaired by the plant staff.

The EOF staff will continue the efforts to track the plume and provide environmental monitoring and dose assessment. The. EOF staff will be further challenged with licensing questions, public information, engineering and logistics support activities.

The News Media Center (NMC) will be activated and staffed by representatives from SNC, APC, the State of Alabama, the State of Georgia, Houston County and Early County, Media and public interest will be simulated and news releases will be prepared and released.

The exercise will terminate once the radiation monitoring teams have tracked the plume, the EOF has been staffed and is performing ,

EOF activities and the NMC has conducted a press conference.

Termination will be coordinated with the State of Alabama and the

, ( State of Georgia if occurring prior to 1300 Central time.

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O O 1993 ANNUAL DBHL EVENTS TIME EVENT ACTION / EXPECTED RESPONSE TIME 07:00 Control Room receives a report that the e Declare both doors inoperable outer door of the main airlock is e Apply motherhood Technical Specification damaged and will not provide 3 0.3 Containment integrity

Plan to commence plant shutdown by 0800 e Start repair activities 9 Contact Operations Manager e Contact Emergency Director e Contact Recovery Manager o contact Emergency Support Manager e A NOUE is required for a loss of CTMT integrity that requires shutdown. A shutdown is required in 1 hr. A Drecautionary NOUE may be declared at this time.

e If NOUE is declared make appropriate e notifications.

TIME 07:15 A System Operator reports that he heard e Declare the 1A RHR Pump inoperable and a popping noise and an insulation smell apply Technical Specification 3.5.2 for coming from the 1A RHR Pump breaker, one train of RHR and then the breaker indicating lights

Initiate repair activities. The breaker went out. There is no smoke or fire. cubicle is damaged and repairs will take approximately 2 to 3 hours3.472222e-5 days 8.333333e-4 hours 4.960317e-6 weeks 1.1415e-6 months TIME 07:55 The outer containment airlock door is

Shutdown plans are canceled repaired and is operable e Consider downgrade to no emergency class If NOUE was declared TIME 08:00 A leak develops in the B Train RHR system in the heat exchanger room

, causing an increase in RHR Heat Exchanger room sump level and an l increase in Penetration room radiation i

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i uS3 ANNUALMHJ.EVEMS '

TIME EVENT ACTION / EXPECTED RESPONSE TIME 08:00 Shift crew detects RHR leak e Secure B Train RHR to 08:15

Isolate B Train RHR e Determine that two trains of RHR are now inoperable

Apply Technical Specification 3.0.3 e Start repair activities e Contact Operations Manager e Contact Emergency Director e Contact Recovery Manager e contact Emergency Support Manager e No rampdown is required at this time

Declare an ALERT based on loss of both trains of RHR e Make appropriate notifications e Call out the TSC and EOF staffs

{l TIME 09:00 Two Trains of RHR have been inoperable e Commence rampdown at 2 MW/ MIN '

to 09:15 for 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months TIME 09:15 Minimum TSC and EOF staffs are on site e Activate the TSC and consider activating to 09:30 the EOF ro TIME 09:45 A Medium sized LOCA occurs. RCS

Shift crew takes action per appropriate T pressure remains above RHR pressure. Emergency Response Procedures CTMT pressure exceeds 27 psig causing o Upgrade emergency classification to SITE spray actuation AREA EMERGENCY e Make appropriate notifications e Sound Plant Emergency Alann e '

Perform Accountability

Have the News Media Center activated if not previously done.

e Have the EOF activated if not previously done TIME 09:45 Containment Fan Coolers 1B and 1C

Consider sending a repair party to repair tripped on fault when Safety Injection fan coolers tried to start them in slow speed.

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1993 ANNUAL DDHL EVENIS TIME EVENT ACTION / EXPECTED RESPONSE TIME 09:45 The TDAFW pump failed to come up to

Consider sending a repair party to repair speed during the Safety Injection. TDAFW pump TIME 09:45 The following equipment was tagged out or failed to operate during the Safety Injection:

1A RHR PUMP 1B RHR PUMP 1B CONTAINMENT SPRAY 1B CONTAINMENT FAN COOLER 1C CONTAINMENT FAN COOLER 1D CONTAINMENT FAN COOLER 1A MDAFW PUMP TDAFW TIME 09:45 RVLIS indication show RX vessel upper-m to 10:00 head and plenum voiding increasing and

~ the core becoming completely uncovered Time 10:00 CTMr radiation monitors R-27 A&B start

No specific action required. Staff may rapidly increasing indicating, in want to declare a General Emergency as a O conjunction with core uncovery that 0 precautionary measure. Controller to 50% fuel failure has occurred intervention may be required to prevent this declaration.

TIME 10:00 The 1A RHR pump repairs are reported

Have the tags cleared on the RHR pump and complete start the RHR pump.

TIME 10:13 The 1A RHR pump is started TIME 10:45 The following Rad monitors increase and

Upgrade emergency classification to go into alarm: GENERAL' EMERGENCY.

Penetration room R-10

Make protective action recommendations Plant Vent Stack R-14

Make appropriate notifications Plant Vent Stack R-21

Send a reentry team to locate the source Plant Vent Stack R-22 of the leak from the containment Indicating a failure of the CTMT isolation

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U 1993 ANNUALDRFl$\Ws TIME EVENT ACTION /EXPFCTED RESPONSE TIME Leaking penetration is located e Send a reentry team to repair the leak 10:45+

TIME Leaking penetration is sealed e When the plant staff takes appropriate 10:45+ actions to repair the leak we.will inform the plant staff that no further efforts will be required to repair the leak.

However the release will continue to allow exercising the Radiation Monitoring teams.

, TIME 13:00 TERMINATE THE DRILL

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fNP-o-r17-3622 JOSE 1H M. FARLEY NUCLEAR PIANT POWER HIS'IDRY AND MISC. DM nm /2 93 LMIT l

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C') TIME CRITICAL CR.ITICAL % RX PWR 'IURB. PH CPPSIA ^""TEMP c". " INITIALS 0000 Y 99.98 e62 l. 2 9I @[

0100 i 100 00 $63 l,25 _ 90 CA 0200 $ 00.97 062 I.E 90 6 Y o300 X 99,99 263 I.25 90.(o OA 0400 X /00,00 862.5 / . 2o 9/ "d8 0500 K 99,96 .943 I.l5 91 bA osco X Qf.9B E3 1,2 QO.7 b o700 )( 99,97 RGl.5 1. 2 40.6 [

0800 X ioo.co asi.5 /.Is 90.7 MPn?

0900 X 99.97- 862,5 I.25 90.A b 1000 X 99 96, 862. 1. 2. 9'l N87 :

1100 X 99 98 862. 5 1, 2. Gn. 2 M 1200 X 49.9B 86 3 1,lF 90.3 M 1300 X 99.96 B62.5 1. 2. 90.4 Y

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14oa *X 1 oo .co ess 1.Is 90.s WWI 1soo K 9R A, ssz.. s I.Is 9o.s ##)

1600 k' 99.98 8(4,5 l,2 4I Y 1700 Y 94.4/o 86l. l.2 91,2 N 1800 )( 99.96 662.5 ).2.3 QI.3 N 1900 [ / C0 . 00 863 l . 2O kl, S W 2000 N 99,97 s(o2,5 l.25 92 N 2100 X 99.98 263 f . 22. 91.6 Y 2200 X 99,9(o 96l 1.15 RI W W

2300 (O(). 00 63 ). E o4D.5 xenon & Samarium Worths as of 2400 on12~7-93 Burnup through 2400 of /2 1 93 Burnup __ / 502.3 MWD /MIU xs worth 2652. 2.l pcm sm worth 949.51 pcm Erro- un_ c4p ,

% XE Conc qq .RE % Sm Conc 49.95 !

% I Conc 99.4f % Pm Conc _9 4. 9/ll !

O COMMENTS:

Figure 1 Rev. 3 24 q

PUBLIC INFORMATION SCENARIO Page Methodology 26 Event Summary and Anticipated Actions 27 Media Relations - Plant Switchboard Operator 28 Public Inquiry - Plant Switchboard Operator 30 Media Relations - Corp. Media Relations Staff 32 Public Inquiry / Rumor Control - Corp. Public 39 Inquiry Staff Public Inquiry / Rumor Control - Visitor's Center 48 Public Inquiry / Rumor Control / Media Relations - 49 Visitor's Center Political Liaison / Governmental Relations 50 I Financial Response 51 l

Media Monitoring - Corp. 52 i Media Relations - NMC 53 Media Monitoring - NMC 60 News Conference - NMC - 1st News Conference 61 News Conference - NMC - 2nd News Conference 64 O

25 s

_ . . . _ _ . _ ._ _ _ _- _ - . . . . - - . _ _ __ __ ._m I

l 1

1993 Public Information Scenario 1

1

~'\ METHODOLOGY

[& The development of this scenario took into account the actual experiences of other nuclear utilities and industrial facilities that have l experienced emergency events resulting in considerable public interest and l Concern.

Those events were utilized as a realistic experience base. The other key factors taken into account were APC, SNC and the Farley Nuclear i Plant's own unique situation and programs. This included analysis of recent issues of public, media, employee and financial interest related to the plant and utility; normal APC and SNC media contacts history; Farley public acceptance situation; Farley emergency procedures and APC and SNC emergency public information procedures.

Using the information base described above, a realistic scenario of public information repercussions to the corresponding technical scenario was developed which includes the following:

-Public and employee inquiries (quantity, nature, source, recipient)

-Political official inquiries (quantity, nature, source, recipient)

-Media inquiries (quantity, nature, source, recipient)

-Financial community inquiries (quantity, nature, source, recipient)

-Questions which a spokesman, technical briefers and News Media Center staff would likely receive

-Madia relations situations at the News Media Center requiring staff to make decisions and take actions based on procedures and training The time frames provided for these activities are based on the timing and movement of the technical scenario and emergency team responses to scenario events.

26 te

1993 Public Information Scenario APPROXIKATE EXERCISE TIME EVENT

SUMMARY

AND ANTICIPATED ACTIOt!S 4

7:00 a.m. Notification of Unusual Event declared when Unit 1 outer docr of the main airlock is damaged and will not provide containment integrity.

7:45 a.m. Media calls begin coming in to FNP switchbcard questioning containment integrity.

7:55 a.m. Media calls begin coming in to Corporate Headquarters.

8:00 a.m. Public calle begin coming in to FNP Switchboard and Corporate Headquarters.

8:00 a.m. Alert declared due to a leak in residual heat removal ;

system.

l 8:00 a.m. EOC activates.

8:15 a.m. Media rumor of radiation leakage due to residual heat removal leak.

8:30 a.m. Public calls come in on radiation leakage.

8:45 a.m. Birmingham TV and radio stations request an interviev with a company spokesman.

9:15 a.m. EOF staffed. NMC staffed. I 9:45 a.m. NMC activated. 3 l

9:45 a.m. Site Area Emergency declared due to a medium size loss of coolant accident. Containment pressure causes spray )

activation. Containment fan coolers ~ trip. Residual ;

heat removal pump fails. Auxiliary feedwater pump )

falls. l 10:00 a.m. News conference is held at NMC.

10:00 a.m. Reactor core becoming completely uncovered. 50 percent fuel failure has occurred.

10:25 a.m. Media insists on having a technical briefing on the failing equipment.

10: 30 a.m. Rumor detected in both media and public that an employee sent in to repair inoperable equipment was exposed to high levels of radiation, g 10:45 a.m. General Emergency declared when radiation monitors go 1 into alarm in penetration room and plant vent stack. j l

11:00 a.m. News Conference is held at NMC. j l

11:30 a.m. Media requests technical briefing.

1:00 p.m. Terminate drill.

27

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1993 Public Information Scenario EVENT: Media Relations - Plant Switchboard Operator MESSAGE FOR: Farley Nuclear Plant Switchboard Operator PHONE NUMBER . 205/899-5156 CONTROLLER CUIDANCE:

The Farley Switchboard Operator ghgyld refer you to the Corporate q Headquarters at 250-2385 or 250-2386. If she does so, call 250-2385 '

and repeat the same question. If she does not refer you to one of these numbers, do what the operator tells you to do and note the actions.

Begin and and each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

7:45 a.m. THIS IS A DRILL. This is Judy Styles at WKMX. I understa.d that the door to containment is damaged. What's going on out there? Are you leaking radiation? What are you doing to fix the problem? THIS IS A DRILL.

7:50 a.m. THIS IS A DRILL. I'm Paul Trevor wi:h RULA in Eufaula. I just heard that the containment door is damaged. Won't that ,

cause you to leak radiation? How will you fix it? THIS IS A -l DRILL. I

'N 7:55 a.m. THIS IS A DRILL. This is Kendall Weaver with AP. What's this I hear about a containment airlock door being damaged?

Are your employees in any danger? THIS IS A DRILL.

8:05 a.m. THIS IS A DRILL. What is the plant manager's name? Please transfer me to his office. (If they transfer you to his office ask to speak with him. If you talk to him say ...

THIS IS A DRILL. I heard that there was a radiation leak at your plant. I'm with WDHN in Dothan and I got a report from one of your employees that the leak is due to equipment problems and that you should have already shut the plant down. Do you have any comment? We're going live with this report in about 5 minutes.

8:15 a.m. THIS IS A DRILL. I'm Kathy Stark with WDHN-TV in Dothan. I heard that you had a radiation leak at the Farley Plant.

Something about the heat removal system in the core. What's happening over there? THIS IS A DRILL.

8:20 a.m. THIS IS A DRILL. This is Billy Presley of the Dothan Eagle.

Who is in charge of plant? What's his phone number? Would you transfer me to him? THIS IS A DRILL.

8:25 a.m. .THIS.IS A DRILL. My name is Doug Handsome with WALB-TV in Albany, Georgia. What's this we're hearing about a radiation leak at your plant?' THIS IS A DRILL.

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9:45 a.m. THIS IS A DRILL. My namn is Lois Hammer with WSFA-TV in Montgomery. I have a report from someone in you plant that half of your safety equipment was off line for repairs and that other half is failing. Why weren't you prepared for this? Why didn't you shut down the plant if you had so many systems down for repair? THIS IS A DRILL.

T 10:00 a.m. THIS IS A DRILL. I'm with WMBB-TV in Panama City. We're hearing that you have an emergency at Plant Farley. What's going on? I've also heard that your core is-completely uncovered and totally out of control. Why hasn't the NRC stepped in since you aren't able to control your own plant?

THIS IS A DRILL.

10:20 a.m. THIS IS A DRILL. This is Bob Hughes of WXIA in Atlanta. I need information on the accident at your nuclear pcwer plant.

THIS IS A DRILL.

10:35 a.m. THIS IS A DRILL. This is Christy Curly with WJHG-TV in Panama City. I have a source inside the plant that told me that you are leaking radiation into the atmosphere and that everything will be destroyed for hundreds of miles around uhe plant. I'm going live with this story in 5 minutes. Do you have any comments that you want me to include? THIS IS A DRILL.

10:40 a.m. THIS IS A DRILL. I'm with ABC News. I just heard that you sent an employee in to repair broken equipment and exposed him to lethal amounts of radiation. THIS IS A DRILL.

10:55 a.m. THIS IS A DRILL. This is Keith James with WOOF-AM/FM. I heard that you are leaking radiation into the atmosphere.

What's this going to do to the countryside? What about livestock? THIS IS A DRILL. i 11:30 a.m. THIS IS A DRILL. This is Janet Jones. I'm with WDJR in Dothan. I need the most current information that you have.

We're going live on the radio in 2 minutes. What can you tell me? THIS IS A DRILL.

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1993 Public Information Scenario EVENT: Public Inquiry - Plant Switchboard Operator MESSAGE FOR: Farley Nuclear Plant Switchboard Operator PHONE NUMBER: 205/899-5156 CONTROLLER GUIDANCE: ,

The Farley Switchboard Operator should refer you to the Corporate Headquarters at 1-800-367-4020. If she does so, call 250-1552 and repeat the same question. If she does not refer you to this number, do what the operator tells you to do and note the actions.

Begin and end each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

8:00 a.m. THIS IS A DRILL. I heard on WKMX (radio) that you have had an accident at the plant. What's going on? THIS IS A DRILL.

8:10 a.m. THIS IS A DRILL. I heard on the radio that the door to containment was open. What's that mean? Are you contaminating us all? What's to become of us? THIS IS A DRILL.

8:15 a.m. THIS IS A DRILL. What's this I hear about a leak in your containment? Why haven't we been evacuated? Are you trying to cover it up? Have you told the NRC7 THIS IS A DRILL.

8:25 a.m. THIS IS A DRILL. I want to speak to someone about the meltdown that is occurring at your plant. THIS IS A DRILL.

8:40 a.m. Ask for the Control Room. Identify yourself as Elmer Harris (CEO of Alabama Power). If you get the Control Room, do ngt identify yourself. Ask what is going on at the plant. Get person's ame. Tell them thank you and hang up. Inform controller if you reached the control Room.

8:55 a.ni. THIS IS A DRILL. I cannot find that calendar you sent me that tells me what to do in an emergency. Can you tell me?

THIS IS A DRILL.

9:10 a.m. THIS IS A DRILL. I work in maintenance. Do I need to come on in to help out? THIS IS A DRILL. i l

9:25 a.m. THIS IS A DRILL. I heard about the accident and need to know if I should leave my home now. THIS IS A DRILL. ;

9:50 a.m. THIS IS A DRILL. I just heard that you're losing coolant. -l Will the plant melt down now? THIS IS A DRILL.

10:10 a.m. THIS IS A DRILL. My husband just called from hi. cellular phone. He's been fishing on the river. He's hearing all kinds of sirens coming from the nuclear plant. Has it blown up?

Will my husband die from radiation? We wanted to have i children, can we still have them? THIS IS A DRILL.

30 , l

, . _ _ . . _ . . _ _ . m ._ - . - . - . . _ ._ . . - . . _ . _

10:45 a.m. THIS IS A DRILL. -I heard yo'- have an injured employee. The news said he was exposed to lethal amounts of radiation. Who is it? My husband and my son both work there. Was it one of them? My brother-in-law works there too. Was it him? THIS IS A DRILL.

11:00 a.m. THIS IS A DRILL. I heard sireras outside. I live real close to the plant. What's happening. Am I supposed to leave?

THIS IS A DRILL.

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1993 Public Information Scenario f Media Relations - Corporate Media Rolstione staff EVENT:

f h2SSAGE FOR: Corporate Media Relations staff 250-1517 or 250-2385 (CALL BOTH NUMBERS)

PHONE NUMBER:

CONTROLLER GUIDANCE:

Begin and end each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

THIS IS A DRILL.

This is Judy Styles at WKMX. I understand 7:55 a.m. What's going on out that the door to containment is damaged.

there? Are you leaking radiation? What are you doing to fix the problem?

I 7:57 a.m. THIS IS A DRILL. theI'm Paul Trevor with WULA in Eufaula.

containment door is damaged. Won't that just heard that How will you fix it?

cause you to leak radiation?

What's THIS IS A DRILL. This is Kendall Weaver with AP.

8:00 a.m. airlock door being damaged?

this I hear about a containment Are your employees in any danger?

THIS IS A DRILL.

This in David Gayle at WOOF radio.

8:03 a.m. called and said there was a problem at Emergency ManagementI am an Emergency Broadcasting Station your nuclear plant.

and need to let the public know if there is an emergency.

What's happening? THIS IS A DRILL.

THIS IS A DRILL.

This is Billy Presley at the Dothan Eagle.

8:05 a.m.

I'm on deadline for the first edition and I heard there may have been an accident at the plant. Can you confirm this?

THIS IS A DRILL.

This is Ella Fitzpatrick at WTVY-TV in 8:10 a.m.

Dothan. I heard that there's a problem at the plant. Have as a you begun evacuating residents in area near the plant precaution? What about the employees? Is anyone hurt? THIS IS A DRILL.

Hi, I'm Stacy Lyle with WESP in Dothan. I 8:13 a.m. THIS IS A DRILL. Something heard that you've got a problem with your plant.

about a leak in the heat removal system. I don't understand THIS exactly what's going on. Can you give me some details?

IS A DRILL.

I THIS IS A DRILL. I'm Kathy Stark with WDHN-TV in Dothan.

8:15 a.m.

heard that you had a radiation leak at the Farley Plant. What's Something about the heat removal system in the core.

happening over there? THIS IS A DRILL.

THIS IS A DRILL. This le Louis Pierce at WDHN-TV in Dothan.

8:18 a.m. Farley? When did the accident Is there a leak of radiation at What details can you give me? THIS IS A DRILL.

begin?

32 .

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8:20'a.m. THIS IS A DRILL. This is Jeff Davis at AP. What is going on at Farley? One of our stations down there says there's a radiation leak. THIS IS A DRILL.

8:22.a.m. THIS IS A DRILL. This is Billy Presley of the Dothan Eagle.

'("'N s ,) Who's in charge of the plant? What's his phone number? Would you transfer me to him? THIS IS A DRILL.

8:25 a.m. THIS IS A DRILL. My name is Doug Handsome with WALB-TV in Albany, Georgia. What's this we're hearing about a radiation leak at your plant? THIS IS A DRILL.

8:30 a.m. THIS IS A DRILL. This is Sally Butterworth at WESP radio in Dothan. My sources at the plant tell me the plant is in a dangerous situation now. Is it about to blow up, or has that already happened? THIS IS A DRILL.

8:35 a.m. THIS IS A DRILL. This is Ken Jackson at WMBB-TV in Panama City. I need some information about the leak. The coolant system is leaking, right? How much water is left to keep'the reactor cool? What's the total volume of water in the coolant system. You have shut the plant down, right? THIS IS A DRILL.

8:40 a.m. THIS IS A DRILL. This is Debbie Williams at WTVY radio in l Dothan. If you have to shut the plant down, will everyone l lose electricity? THIS IS A DRILL. ]

l 8:45 a.m. THIS IS A DRILL. This is Ken Jackson at WMBB-TV in Panama g City. How can I get in contact with the NRC? Where are they

! located? THIS IS A DRILL.

8:50 a.m. THIS IS A DRILL. This is Andy Freeman at WBBK in Blakely, GA. What is being done to stop the leak? THIS IS A DRILL.

8:55 a.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

I have a few more questions. I understand that an " Alert" emergency classification means there is substantial degradation of the plant safety. Should the public run for their lives now? Are you sending employees home? THIS IS A DRILL.

9:00 a.m. THIS IS A DRILL. This is Janice Martin at AP. I understand .j the plant is in a state of emergency. . What does this'mean in specific terms? THIS IS A DRILL.

9:05 a.m. THIS IS A DRILL. I heard that the Farley plant is at an Alert. I also understand that this emergency classification gets emergency workers ready. What are they preparing to do -

make the repairs to stop the leak of coolant? How can they do this without being exposed to radiation? THIS IS A DRILL.

9:10 a.m. THIS IS A DRILL. This is Susan Elsie WKMX in Enterprise. You ')

haven't informed us of'anything about this accident. How do l you expect us to let the public know what'e' going on. I want 1

[^ some information now. What are you hiding? (Refuse to be called back. Insist on talking to someone now. Tell them you will hold, if necessary.) THIS IS A DRILL.

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9:15 a.m. THIS IS A DRILL. This is Tom Brokaw. I've heard that you have an emergency at your nuclear plant. Give me the details. (After they give you some information, say ...) OK that's.what you're telling everyone else. Now, tell me what's really going on ... strictly off the record, of course. THIS IS A DRILL.

9:20 a.m. THIS IS'A DRILL. This is Tammy Jones. I work at WOOF in Dothan. I heard that you have an emergency at the plant and I was wondering, should my mother go ahead and leave? She lives real close to the plant. THIS IS A DRILL.

9:30 a.m. THIS IS A DRILL. This is Bob Griffin at WJJN radio in Dothan. Have employees been evacuated? THIS IS A DRILL.

9:35 a.m. THIS IS A DRILL. Steve Dorning here with CNN. I just heard that you've got a serious problem at your nuclear plant.

What's going on? Are we about to have the American version of Chernobyl? What are you doing to protect the public?

What about your employees? THIS IS A DRILL.

9:40 a.m. THIS IS A DRILL. Hy name is Lois Hammer with WSFA-TV in Hontgomery. I have a report from someone in your plant that ,

half of your safety equipment was off line for repairs and that the other half is failing. Why weren't you prepared for this? Why didn't you shut down the plant if you had so many systems down for repair? THIS IS A DRILL.

9:45 a.m. THIS IS A DRILL. This is Steve Dorning again with CNN. Now I'm hearing rumors of incompetence there at the plant. You knew you had safety equipment down for repairs and you knew that you couldn't operate the plant safely but you did it anyway. Now you've got an emergency at the plant and you'll probably kill everything for miles and miles around the plant. What are you going to do about this? THIS IS A DRILL.

9:48 a.m. THIS IS A DRILL. This is Sam Spade with CBS-New York. I've been hearing about your problems at Plant Farley all day.

Now I'm hearing that you're losing coolant too! Are you finally going to close down your nuclear plant? You plants in the South seem to be plagued with problems anyway. THIS IS A DRILL.

9:50 a.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

A source of mine who's an employee at Farley Plant called and said that fuel damage was likely, the core was uncovered and that basically the plant was out of control. How did you let this happen? Doesn't this mean that a meltdown has begun?

THIS IS A DRILL.

9:52 a.m. THIS IS A DRILL. This is David Gayle at WOOF radio. I heard ,

your accident has just gotten much worse. What's happening? l THIS IS A DRILL. <

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[ 9:54 a.m. THIS IS A DRILL. This is Steve Summers of the Los Angeles !

Times. I understand that you have a major leak in coolant.

l How are you going to keep the core cool? What's going to happen next? Are we going to have the destruction that resulted from Chernobyl? Are you going to compensate everyone for their losses? THIS IS A DRILL.

34 !

9:56 a.m. THIS IS A DRILL. This is Alan Square of the Atlanta Journal.

What county is the plant in? Has the governor ordered evacuation of county yet? Where will all of the people go?'Is this the worst accident at your nuclear power plant? THIS IS A DRILL.

9:50 a.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

We have received calls from people near the plant who are hearing sirens coming from it. What's happened now? Is it getting worse? What are the sirens for? Are these evacuation sirens? THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. This is Cal Cooley at WBRC. Has the NRC been notified of accident? Have they taken over the plant?

Have they pulled your license as a result of this accident?

How can I get in touch with the NRC. Are they in Washington?

THIS IS A DRILL.

10:05 a.m. THIS IS A DRILL. This is Ken Jackson at WMBB-TV in Panama j City. What is being done to ensure the public is protected.

Are you suggesting that people living near the plant evacuate? (If they tell you that you need to talk to the emergency management agency, ask ...) Don't you make recommendations to them? THIS IS A DRILL.

10:08 a.m. THIS IS A DRILL. This is Ella Fitzpatrick of WTVY-TV. What areas of the county have you ovacuated? THIS IS A DRILL.

10:10 a.m. THIS IS A DRILL. I'm with WhB3-TV in Panama City. We're .

hearing that you have an emergency at Plant Farley. What's I going on? I've also heard that your core is completely uncovered and totally out of control. Why hasn't the NRC stepped in since you aren't able to control your own plant? ,

THIS IS A DRILL.

10:15 a.m. THIS IS A DRILL. This is Steve Dorning with CNN again. I've been trying to get in touch with one of the emergency management agencies around the plant but I can't get an answer. Have they left? What's going on? THIS IS A DRILL.

10:20 a.m. THIS IS A DRILL. This is Scott Richards with WBRC-TV in Birmingham. I heard that you were having a news conference ;

somewhere about the conditions at Plant Farley. Where is it?

We want to attend. THIS IS A DRILL 10:23 a.m. THIS IS A DRILL. This is Andy Freeman at WBBK in Blakely, GA. My source tells me that you're losing coolant to the reactor core. What will happen now? Is the core melting through the floor? Shouldn't everyone in the county leave now? THIS IS A DRILL.

10:25 a.m. THIS IS A DRILL. This is Toni Childs with the Chicago Tribune. I'm doing a story on the accident at Plant Farley.

I understand that it was caused by negligence ... that the

t. -

plant management knew this could happen but they refused to i take the plant off line. Can you give me some inside information. My editor has authorized me to offer $1000 for the story. THIS IS A DRILL. 4 i

35 v, ,

10:28 a.m. THIS IS A DRILL. Tble is Sally Butterworth at WESP radio in Dothan. I heard there are some injured workers being taken to a Dothan hospital. Which hospital? THIS IS A DRILL.

10:30 a.m. THIS IS A DRILL. This is James Murphy with WKYY in New York.

@ We've been following the story on your emergency at Plant Farley and we've just heard that you have an employee who was injured while trying to fix some broken equipment. We understand that he was exposed to lethal amounts of radiation. Are you planning on providing for his family for the rest of their lives? Do you plan to send other employees in to fix the equipment? THIS IS A DRILL.

10:33 a.m. THIS IS A DRILL. This is Patricia Dye of WULA radio in Eufaula. Have you gotten the problem fixed yet? Is this the first accident you've ever had? THIS IS A DRILL.

10:35 a.m. THIS IS A DRILL. This is Barbie Boulder at Channel 42 in Birmingham. Can you explain what happens during a meltdown at a nuclear power plant? THIS IS A DRILL.

10:37 a.m. THIS IS A DRILL. This is Christy Curly with WJHG-TV in Panama City. My source inside the plant that told me that you are leaking radiation into the atmosphere and that everything will be destroyed for hundreds of miles. I'm going live with this story in 5 minutes. Do you have any comments that you want me to include? THIS IS A DRILL.

10:40 a.m. THIS IS A DRILL. This is Ray Active of WVTM. Is the reactor core covered with water or has it all leaked out? Can you

[ pump in more water from the river or that big pond you have on the plant site? THIS IS A DRILL.

10:42 a.m. THIS IS A DRILL. This is Tom Tidwell at WOOF radio. We just heard the report that you have an injured employee and that he was exposed to lethal amounts of radiation. My secretary's husband works there and she is upset. Can you tell me who was injured. She's desperate to know if it's her husband. THIS IS A DRILL.

10:45 a.m. THIS IS A DRILL. This is Paul Harvey. Update me on the coolant leak. How did the leak begin? What is the source of the leak? Can it be stopped? THIS IS A DRILL.

10:50 a.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

I have a report that radiation is leaking in the plant. I need to confirm this. I have a deadline in 15 minutes. THIS IS A DRILL.

10:55 a.m. THIS IS A DRILL. This is Keith James with WOOF-AM/FM. I heard that you are leaking radiation into the atmosphere.

What's this going to do to the countryside? What about livestock? THIS IS A DRILL.

11:00 a.m. THIS IS A DRILL. This is Rita Snellgrove of CBS in New York.

[\_e Is this the worst nuclear power plant accident since Three Mile Island? THIS IS A DRILL.

36 ;-

11:05 a.m. THIS IS A DRILL. This is Sam Donaldson at ABC News. I heard l that you are now releasing radiation into the atmosphere. i How much are you releasing and please put it in non-technical l terms. What are you doing to protect the public? What about l livestock 7 Have you shut down your other unit? You obviously are competent to operate it. THIS IS A DRILL.

11:10 a.m. THIS IS A DRILL. This is Kevin Coolidge with AP. Is any water left in the core to keep it cool? If not, what are you ]

doing to try and cool the core? Is it out of control? Are '

you trying to shut down the plant? THIS IS A DRILL.

11:15 a.m. THIS IS A DRILL. This is Bob Hughes of WXIA in Atlanta. I )

need information on the accident at your nuclear power plant.

THIS IS A DRILL.

11:20 a.m. THIS IS A DRILL. This is Tina Towns with the Birmingham News. I'm doing a story on your plant. Start at the beginning and tell me what's going on. What caused this to start with and how did it get worse? Why couldn't you control your own plant? Give me all the details. THIS IS A DRILL.

11:30 a.m. THIS IS A DRILL. This is Janet Jones. I'm with WDJR in Dothan. I need the most current information that you have.

We're going live on the radio in 2 minutes. What can you tell me? THIS IS A DRILL.

11:35 a.m. THIS IS A DRILL. This is Grover Morris of the Orlando sentinel. I need information about your meltdown. Where is O the plant located? Where is the nearest airport? THIS IS A DRILL.

11:40 a.m. THIS IS A DRILL. I'm with the Headland Observer. I want to go out and get some good photos of the plant for our front page. Can you set up something for me? THIS IS A DRILL.

11:50 a.m. THIS IS A DRILL. This is Stacy Stix with The Ashferd Power.

I'm doing a story on the people who work in the plant. Who is in charge of the plant? What are his credentials? I'd like to interview some of your employees and get their stories. Can you set something up for me? THIS IS A DRILL.

11: 55 a.m. THIS IS A DRILL. This is Tom Brokaw again. Where can I land my helicopter? I want to be at the next news conference. By the way, when is it scheduled? Also, I want a private interview with the president of the company, Elmer Harris, I believe. How soon can that be arranged? THIS~IS A DRILL.

12:00 noon THIS IS A DRILL. This is Katie Carlson with the Albany Herald. Explain what the deal is about Southern Nuclear Company. Why don't you operate your own company? Is this your way of passing the buck when you screw up? THIS IS A DRILL.

I 37

- . ' Ralph Nadar held a news conference in Washington a little while ago and criticized Alabama Power, Southern Nuclear and the NRC for allowing.this plant to operate unsafely for years. I need some response to feed to the networks.

Who is responsible if a person gets injured leaving his home after evacuation was ordered?

Who is responsible for decontaminating homes of radiation?

You only take protective measures for people within 10 miles of the plant. But this radiation is likely to go far beyond that, isn't it?

Request to be taken to the plant to videotape. If denied, request background footage.

The emergency calendar states that state health authorities may give out special pills to protect a person's thyroid from radioactive iodine. Is this being done?

Are schools being evacuated? If so, where are the students being taken? Can parents go pick them up now?

CONTROLLER MESSAGE:

At the end of the news conference, three " reporters" should separately

[ ask a Media Relations Representative to get a utility or agency 3 spokesperson to do a live interview. Space the request out 5 to 10 minutes between reporters. If a spokesperson does not come to help you in a few minutes, renew your request. De very persistent.

38

1993 Public Information Scenario EVENT: Public Inquiry / Rumor Control - Corporate Public Inquiry staff MESSAGE FOR: Corporate Public Inquiry staff PHONE NUHBER: 250-1552 CONTROLLER GUIDANCE:

Begin and end each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIHE:

8:00 a.m. THIS IS A DRILL. Someone told me there is a problem at that >

nuclear plant. What's happening? THIS IS A DRILL.

8:05 a.m. THIS IS A DRILL. I heard something on the radio about an emergency at your nuclear plant. What's going on? THIS IS A DRILL.

8:10 a.m. THIS IS A DRILL. A friend of mine who works at the plant told me that you left open the door to the reactor. What's wrong with you people? What are you trying to do? THIS IS A DRILL.

8:12 a.m. THIS IS A DRILL. What's this I hear about leaving a door open? Are your employees all idiots? THIS IS A DRILL.

8:15 a.m. THIS IS A DRTLL. I heard you have a radiation leak at the plant. What's happening? Do I need to leave? THIS IS A DRILL.

(NOTE: You should be referred to an Emergency Management Agency for answer to the above question. If so, ask for the ,

phone number, but DO EoT call agency.)

8:17 a.m. THIS IS A DRILL. I heard there is a problem at the nuclear plant. It was something about a leak. Do I need to evacuate? l I can't find my dog, Hissy. If I find Missy, can I take her l with me? THIS IS A DRILL.

l (NOTE: You should be referred to an Emergency Management Agency for answer to the above question. If so, ask for the phone number, but DO NOT call agency.) 1 8:20 a.m. THIS IS A DRILL. What's going on at Plant Farley? I heard something about an emergency. THIS IS A DRILL. j l

8:25 a.m. THIS IS A DRILL. You finally had an accident at that plant.

I new it would happen some day. What am I supposed to do? Do I psck everything I can in my car and move to Birmingham? Are you going to buy my house? What about my stuff that I can't fit in my car? Will you replace it? THIS IS A DRILL.

k (NOTE: You should be referred tc an Emergency Management Agency for answer to part of the above question. If so, ask for the phone number, but DO NOT call agency. Insist on an answer about Alabama Power buying your house & other stuff.)

39 ,

t

8:30 a.m. THIS IS A DRILL. Are you releasing radiation at that nuclear plant? (Do not pause; keep asking questions without allowing time for answer.) What about my life? Am I going to die? What about my kids? Why did you do this to us? You said it was g safe. THIS IS A DRILL.

sl 8:33 a.m. THIS IS A DRILL. I live in Ashford and I heard you have had an accident at the nuclear plant. Is this true? (Wait for answer.) What should I do? THIS IS A DRILL.

8:35 a.m. THIS IS A DRILL. I heard that someone got hurt in that accident you had at the nuclear plant. Who was he? THIS IS A DRILL.

8:37 a.m. THIS IS A DRILL. I heard there's a meltdown going on at the nuclear plant. Is this true? Why didn't you warn us so we !

could get out in time? Are you trying to kill us? THIS IS A DRILL.

8:40 a.m. THIS IS A DRILL. I heard about the accident at the plant and that you're leaking radiation. I need help. I have no car. I have to leave my house, don't I? THIS IS A DRILL.

(NOTE: You should be referred to an Emergency Management Agency for answer to part of the above question. If so, ask for the phone number, but DO NOT call agency.)

8:43 a.m. THIS IS A DRILL. I heard that you had a leak at the plant, j What's up? THIS IS A DRILL.

8:45 a.m. THIS IS A DRILL. I heard on the radio there is an emergency l

O- at the plant. Why hasn't my radio you gave me gone off yet to '

alert me of the danger? My friend who works at the plant told me that you were leaking radiation. What should I do, stay home or leave? THIS IS A DRILL.

(NOTE: You should be referred to an Emergency Management Agency for answer to the above question. If so, ask for the phone number, but DO NOT call agency.)

~

8:48 a.m. THIS IS A DRILL. I have a respirator. Should I leave so I I will have electricity to run it? THIS IS A DRILL.

8:50 a.m. THIS IS A DRILL. Hy stock has been doing real well lately.

Now you had to go and do this. What's it going to do to the value of my stock now? THIS IS A DRILL.

(You should be referred to a Financial Officer. If so, call the number you are given. )

, 8:55 a.m. THIS IS A DRILL. What's going on at your plant? Who's in

! charge? Does he know what he's doing? What are his l

credentials? THIS IS A DRILL.

9:00 a.m. THIS IS A DRILL. My neighbor says there's a problem at the nuclear plant. What's going on? My radio hasn't gone off. I'm 82 and need lots of notice if I'm going to have to leave.

Why did you do this? I'm scared! Can you call my daughter to come and get me? She works at your plant somewhere. THIS IS A DRILL.

40

l 9:05 a.m.' THIS IS A DRILL. I heard there's an emergency at your l nuclear plant. I can see smoke from over there. Is it on l fire? THIS IS A DRILL. j 9:10 a.m. THIS IS A DRILL. I'm scared about this radiation stuff, can

[

you send someone with a protective shield for me to wear to leave? (Wait on some answer.) Well, my dentist always gives me a shield to protect me when he does an X-ray. Why won't )

you? THIS IS A DRILL.

l 9:15 a.m. THIS IS A DRILL. What in the world is causing all those problems I'm hearing about on the radio. Aren't you people trained to run a nuclear plant? THIS IS A DRILL.

9:18 a.m. THIS IS A DRILL. This is Senator Sam Nunn. What's going on at the Farley Nuclear Plant? I keep hearing rumore about an emergency. THIS IS A DRILL.

(You should be referred to a Political Liaison. If so, call the number you are given.)

l 9:20 a.m. THIS IS A DRILL. I heard there was a door to containment left open and on top of that you've got a leak in that part of the plant that keeps the core cool. What happened to cause all of this? I know that Alabama Power has been cutting back on employees. What did you do, fire everyone who knew what they were doing? Don't you have minimum requirements for employees? Don't they have to know what 1 they are doing? THIS IS A DRILL. i l

9:25 a.m. THIS IS A' DRILL. I need to know what items I should take with me in case we have to evacuate. I can't find that emergency calendar you sent me. Please tell me what I need to take. THIS IS A DRILL.

9:30 a.m. THIS IS A DRILL. I heard that your nuclear plant is leaking _ ,

radiation. I live in Gordon and want to know if the )

radiation is blowing toward my house. THIS IS A DRILL.

9:35 a.m. THIS IS A DRILL. I need transportation. Can you help me?

My car is in the whop and my husband is out.cf town in the I truck. I need your help. Also, can you get in touch with my husband for me? THIS IS A DRILL.

(NOTE: You should be referred to an Emergency Management j Agency for answer to the above question. If so, ask for the 'l pLone number, but 20 NOT call agency.) I 9:40 a.m. THIS IS A DRILL. I just got home and my son told me that something was going on at Farley. What's up? THIS IS A DRILL.

9:45 a.m. THIS IS A DRILL. I heard you have a leak at the plant. My l husband / cousin / friend is fishing in the river this morning.

He's right there next to the plant. Are you going to evacuate him? THIS IS A DRILL.

9:50 a.m. THIS IS A DRILL. I heard sirens outside, but my radio has not gono off. Were these the emergency sirens? I live way out in the country and don't have any neighbors that I can ask. THIS IS A DRILL.

41 ' i q

. - - ~ _ - - .

9:55 a.m. THIS IS A DRILL. I haar sirens coming from the direction of the plant. What's happening? Are these evacuation sirens?

THIS IS A DRILL.

9:58 a.m. THIS IS A DRILL. I heard that you have a major coolant leak

, at the plant. What caused it? What are you doing to fix it?

THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. Hy friend called and said the warning sirens have gone off at the plant. I have a son who works there. Is he hurt? Is he going to die from all of that radiation? THIS IS A DRILL.

10:05 a.m. THIS IS A DRILL. I heard that you have a major coolant leak at the plant and that the reactor is uncovered now. What going to happen now? Will-the plant melt down? Won't this end up just like Chernobyl? THIS IS A DRILL.

10:10 a.m. THIS IS A DRILL. Is any radiation being released in the plant? Will this kill your workers? What about the public?

THIS IS A DRILL.

10:15 a.m. THIS IS A DRILL. I live in Ashford. Do I need to leave my home? THIS IS A DRILL.

(NOTE: You should be referred to Alabama or Houston County Emergency Management Agencies for answer to the above question. If so, ask for the phone number, but DO NOT call agency.)

10:20 a.m. THIS IS A DRILL. I need help figuring out what zone I am in on this calendar you mailed me. I live '.n Alabama near the dam (Andrews Lock and Dam, just north of the plant). Am I in F-5 or I-57 Help me, please. THIS IS A DRILL.

10:25 a.m. THIS IS A DRILL. You lied to us all in Houston County. You always said this plant wa9 safe. Well, now you're just going to have to buy my house. You took half my farm to build the stupid plant. I want to talk to someone about buying my house right now. THIS IS A DRILL.

10:28 a.m. THIS IS A DRILL. What kind of danger are employees in? My son works there. Can he come and get me? I'm scared! I want to talk to him right now!!! (Be insistent.) THIS IS A DRILL.

10:30 a.m. THIS IS A DRILL. This accident is scaring me. Should I get my daughter at Ashford Academy and leave the county?. THIS IS A DRILL.

10:32 a.m. THIS IS A DRILL. This is Mrs. Alexander in Columbia. What zone do I live in? How am I to know if I'm to evacuate if I don't even know which zone I'm in? THIS IS A DRILL.

10:35 a.m. THIS IS A DRILL. I want to know about this meltdown at the nuclear plant. What is going on? My daughter and my grandchildren live near the plant. Are they in danger? I called them but no one answered the phone. Is your radiation killing people around the plant? Could they be dead? THIS IS A DRILL.

42 a .

10:38 a.m. THIS IS A DRILL. I heard an employee was injured and.that he's going to die from radiation exposure. Who was it? Was it ry husband? I'm pregnant and scared!! And I want to talk to him now! May I speak to him please? Can he call me? (Be insistent.) THIS IS A DRILL.

10:40 a.m. THIS IS A DRILL. Someone said there is a problem at that nuclear plant. They said something about there being a coolant leak and the core being uncovered. What's happening?

THIS IS A DRILL.

I 10:42 a.m. THIS IS A DRILL. I heard you have a radiation leak at the plant. What's happening? Do I need to leave my home? THIS IS A DRILL.

10:45 a.m. THIS IS A DRILL. I heard there's a meltdown happening at that nuclear plant. What should I do? I live in Ashford.

THIS IS A DRILL.

(NOTE: You may be referred to Alabama or Houston County Emergency Management Agencies for part of answer to the above question. If so, ask for the phone number, but 90 NOT call agency.)

10:45 a.m. THIS IS A DRILL. I need help. I do not have a car. Am I supposed to leave my home now? I live in Columbia. THIS IS A DRILL.

(NOTE: You should be referred to Alabama or Houston County Emergency Management Agencies for answer to the above question. If so, ask for the phone number, but DO NOT call agency.)

10:50 a.m. THIS IS A DRILL. I cannot find my calendar and don't know what I am supposed to do if I have to evacuate. What should I do? Can you read the information in the calendar to me? THIS IS A DRILL.

10:55 a.m. THIS IS A DRILL. I heard someone has been killed in the accident you had today. Who was he? THIS IS A DRILL.

11:00 a.m. THIS IS A DRILL. I heard that you have a General Emergency at your plant. What does that mean? My sister and her husband live near there. Are they ok? THIS IS A DRILL.

11:03 a.m. THIS IS A DRILL. I heard about an employee being injured at the plant. Is it my husband? (Be very hysterical.) Is he ok? THIS IS A DRILL.

11:05 a.m. THIS IS A DRILL. I heard on the radio that the situation at the plant is getting worse and the reactor is losing coolant.

Can the core actually get so hot that it melts through the concrete floor? THIS IS A DRILL.

11:08 a.m. THIS IS A DRILL. I feel ill. How can I tell if radiation is g getting in my house. Is that what this black box you gave me is supposed to tell me? THIS IS A DRILL.

11:10 a.m. THIS IS A DRILL. Am I going to lose power to my house because of this accident? THIS IS A DRILL.

43

11:12 a.m. THIS IS A DRILL. I live in Columbia. Is radiation from your plant blowing my way? THIS IS A DRILL.

11:15 a m. THIS IS A DRILL. I heard you have a leak at the nuclear plant. Will it kill Missy, my poodle? She's been outside all

( morning. What should I do? THIS IS A DRILL.

(NOTE: You should be referred to Alabama Department of Public Health for answer to the above question. If so, ask for the phone number, but RQ EqT call agency.)

11:18 a.m. THIS IS A DRILL. The radio says things are getting worse.

I'm scared. I need a ride. (NOTE: Be persistent about getting a ride.) THIS IS A DRILL.

(NOTE: You should be referred to Alabama or Houston County Emergency Management Agencies for answer to the above question. If so, ask for the phone number, but DQ NOT call agency.)

11:20 a.m. THIS IS A DRILL. I heard one of your people on TV saying there is no inmediate danger to the public. You've got radiation leaking out of the plant. Don't you consider that dangerous? THIS IS A DRILL.

11:23 a.m. THIS IS A DRILL. I can't figure out my zone on this crazy map in the calendar. I live in Webb. (You should be told you are in Zone E-10.) Well, what should I do now? THIS IS A DRILL.

11:25 a.m. THIS IS A DRILL. (Be very argumentative.) I think that

( guy you put on TV is lying. You just want to protect your pocketbooks at our expance. You're going to kill everything down here just to make a profit. THIS IS A DRILL.

11:28 a.m. THIS IS A DRILL. I am scared. Should I go get my daughter out of school at Ashford Academy and leave the county? THIS IS A DRILL.

(NOTE: You should be referred to Alabama or Houston County Emergency Management Agencies for answer to .the above question. If so, ask for the phone number, but 29 NOT call agency.)

11:30 a.m. THIS IS A DRILL. Are things getting any better at the nuclear plant? I am real scared about this. THIS IS A DRILL.

11:33 a.m. THIS IS A DRILL. My wife / husband works at the plant. What are you doing to protect the employees? THIS IS A DRILL.

11:35 a.m. THIS IS A DRILL. Your radio is telling me to tune into radio or TV. I don't have either because they're always filled with a lot of trash. Well, just tell me what I am supposed to do.

Do I need to go to Wal-Mart and bay a radio? Will you pay for it? THIS IS A DRILL.

11:40 a.m. THIS IS A DRILL. I'm having a dinner party tonight for my new preacher and I need to know if I need to cancel it. THIS IS A DRILL.

44

11:43 a.m. THIS IS A DRILL. I'm in a hotel in Dothan and I'm haaring all kinds of things on the radio about an accident at a nuclear power plant here. Nobody here at the hotel seems to know what to do. Wnat am I supposed to do? Which direction should I head? THIS IS A DRILL.

11:45 a.m. THIS IS A DRILL. I heard some people have been killed at the plant. Hy son works there. Are there any survivors? Is my son ok? THIS IS A DRILL.

11:48 a.m. THIS IS A DRILL. Someone said there is t problem at that nuclear plant. What's happening? THIS IS A DRILL.

11:50 a.m. THIS IS A DRILL. I heard you have a radiation leak at the plant. What's happening? Do I need to leave my home? THIS IS A DRILL.

(NOTE: You may be referred to Alabama or Houston County Emergency Management Agencies for answer to part of the above question. If so, ask for the phone number, but QQ NOT call agency.)

11:53 a.m. THIS IS A DRILL. I heard there's a meltdown happening at that nuclear plant. What should I do? I live near Blakely, GA. THIS IS A DRILL.

(NOTE: You may be referred to Alabama or Houston County Emergency Management Agencies for answer to the above question. If so, ask for the phone number, but QQ NOT call agency.)

.11:55 a.m. THIS IS A DRILL. I need help. I do not have a car. Am I supposed to leave my home now? I live in Columbia. THIS IS A DRILL.

(NOTE: You should be referred to Alabama or Houston County Emergency Management Agencies for answer to the above question. If so, ask for the phone number, but DQ NOT call agency.)

11:58 a.m. THIS IS A DRILL. I cannot find my calendar.and don't know what I am supposed to do to evacuate. Can you read the information in the calendar to me? THIS IS A DRILL.

Noon THIS IS A DRILL. I heard someone has been killed in the accident'you had today. Who was he? THIS IS A DRILL. ]

12:03 p.m. THIS IS A DRILL. I heard on the radio that the situation at the plant is getting worse and the reactor is losing coolant.

What's going on? THIS IS A DRILL.

12:05 p.m. THIS IS A DRILL. I'm trying to reach my sister in Columbia.

Where have the residents gone? How can I find her? THIS IS A DRILL.

12:0B p.m. THIS IS A DRILL. I feel sick. How can I tell if radiation is getting in my house? THIS IS A DRILL.

12:10 p.m. THIS IS A DRILL. Am I going to lose power to my house because of this accident? THIS IS A DRILL.

45 o i

12:13 p.m. THIS IS A DRILL. I live in Henry County. Is radiation from your plant blowing my way? (If told unsure of wind direction, asks) Can you at least find out which way the wind is blowing from your plant? THIS IS A DRILL.

C k 12:15 p.m. THIS IS A DRILL. I can't figure out my zone on this crazy map in the calendar. I live on Hwy. 42 near the little church. (If asked, you live on the south side of Hwy 42. You should be told you are in Zone D-5.) Well, what should I do now? Has my area been ordered to evacuate? THIS IS A DRILL.

12:18 a.m. THIS IS A DRILL. I just got home and my little radio is going off. What's going on? When did this mese start? THIS IS A DRILL.

12:20 a.m. THIS IS A DRILL. What is going to be done to keep looters away from my home since you have ordered me to leave my home?

THIS IS A DRILL.

12:23 a.m. THIS IS A DRILL. I've heard some areas have been evacuated.

Do I need to close my gas station and leave, too? THIS IS A DRILL.

12:25 p.m. THIS IS A DRILL. (Be very argumentative.) That guy on TV is lying. Why won't he tell us how you all screwed up and a lot of people will die? THIS IS A DRILL.

12:28 p.m. THIS IS A DRILL. I am scared. Should I go get my son out of school at columbia Middle School and leave the county? THIS IS A DRILL.

/}

~s/

l (NOTE: You may be referred to Alabama or Houston County Emergency Management Agencies for answer to the above question. If so, ask for the phone number, but 29 E9I call agency.)

12:30 p.m. THIS IS A DRILL. Have you all got that nuclear plant fixed yet? Wnat is taking so long? THIS IS A DRILL.

12:33 p.m. THIS IS A DRILL. I heard an employee was killed during the accident at Farley. My daughter works there. Can you tell me who was killed? THIS IS A DRILL.

12:35 p.m. THIS IS A DRILL. Is radiation leaking out of the plent? What about my life? Am I going to die? THIS IS A DRILL.

(NOTE: You may be referred to Alabama Department of Public Health for answer to the above question. If so, ask for the phone number, but po EqT call agency.)

12:38 p.m. THIS IS A DRILL. What's wrong with all of your equipmenti If it wasn't already broken, it's breaking down now when you need it. Don't you maintain your equipment? THIS IS A DRILL.

12:40 p.m. THIS IS A DRILL. Help! My radio is going off. What should I do? Where do I go? What do I take with me? THIS IS A DRILL.

(NOTE: You may be referred to Alabama or Houston County Emergency Management Agencies for answer to the above question. If so, ask for the phone number, but DO NOT call agency.) 4g -

,d_ ._ 4 _A- J 4 aM c- 4 4AWc-+ -Mj L4- - e44--

t 12:45 p.m. THIS IS A DRILL. I forgot my medicine when.I was leaving my house. The deputy blocking the road won't let me go back. I must have that medicine. What can I do? THIS IS A DRILL.

12:50 p.m. THIS IS A DRILL. Will you go to my house and check it for radiation before I go back? THIS IS A DRILL.

12:55 p.m. THIS IS A DRILL. Where's the mushroom cloud now? Will the i fallout destroy my house? THIS IS A DRILL 1:00 p.m. THIS IS A DRILL. My 14-year-old son is at my home. He doesn't answer the phone. I'm unsuro if he's heard the radio go off and that he needs to evacuate. He can't drive. Help me! THIS IS A DRILL. ,

1:05 p.m. THIS IS A DRILL. Should I turn my heat off? If I don't, will it pull radiation into my house? THIS IS A DRILL.

1:08 p.m. THIS IS A DRILL. Have you released employees to go home?

(Wait for answer, which will probably be that employees have not been sent home.) My husband needs his medicine. Can I bring it to him? If not, can you send someone to get it for him? THIS IS A DRILL.

1:10 p.m. THIS IS A DRILL. I heard you had a press conference a few minutes ago. I did not hear it on TV. What did they say? Did they say there was any danger to the public? THIS IS A DRILL.

1:13 p.m. THIS IS A DRILL. I have a pacemaker. Will this radiation you f" are releasing cause any problems? I always see signs that people with pacemakers should not go near a microwave. Don't they have radiation? THIS IS A DRILL.

1:15 p.m. THIS IS A DRILL. What in the heck happened at that nuclear plant? Were the operators drunk or on drugs? How do you know?

Are you testing operators for drugs or alcohol today? THIS IS A DRILL.

1:18 p.m. THIS IS A DRILL. I heard you were having a meltdown. What i about all those poor people in China you will kill when you !

melt the Earth all the way through? THIS IS A DRILL.

1:20 p.m. THIS IS A DRILL. Is there still a leak of radiation from the i plant? Wouldn't it stop if you shut the plant down? THIS IS '

A DRILL.

1:23 p.m. THIS IS A DRILL. -This is Ralph Nader in Washington. Will you commit to closing the plant to protect the public from future danger? THIS IS A DRILL.

1:25 p.m. THIS IS A DRILL. Will your release of radiation kill all the ,

pretty deer on your plant site? (If you are referred to Public Health, insist that you want information about the plant site.) THIS IS A DRILL.

1:30 p.m. THIS IS A DRILL. I heard your plant is leaking radiation. I thought it was leak-tight. THIS IS A DRILL.

47

1993 Public Information Scenario EVENT: Public Inquiry / Rumor Control - Visitors Center MESSAGE FOR: Farley Visitors Center PHONE NUMBER: 205/899-6666 CONTROLLER GUIDANCE:

Begin and end each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

8:15 a.m. THIS IS A DRILL. I heard you have had an accident at the plant. What's going on? THIS IS A DRILL.

8:30 a.m. THIS IS A DRILL. I need help figuring out which zone I live in. I live in Blakely, GA. THIS IS A DRILL.

9:00 a.m. THIS IS A DRILL. I heard you have had an accident at the nuclear plant and that there was a leak. Should I leave my home now? THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. A friend who lives near the plant said there's all kinds of sirens going off at the plant. What's going on? Do I need to leave my home? THIS IS A DRILL.

10:25 a.m. THIS IS A DRILL. My radio you gave me seems to be broken.

Can you send someone out here with another one so I can hear what I need to do during this emergency? THIS IS A DRILL.

10:55 a.m. THIS IS A DRILL. I live near the plant and just woke up and heard about all the problems you're having. What's going on?

The radio said you're releasing radiation and that you almost killed one of your employees. What should I do? THIS IS A DRILL.

l l

l

\

48 i

I

1993 Public Information Scenario EVENT: Public Inquiry / Rumor Control / Media Relations - Visitors Center

/"'g MESSAGE FOR: Farley Visitors Center U PHONE NUMBER: 1-800-344-8295 s

CONTROLLER GUIDANCE:

Begin and end each message with: "THIS IS A DRILL."

NOTE: If you cannot get through on this line-or get a recording, call 205/899-5156 and. repeat question to plant operator.

SCENARIO MESSAGES:

TIME:

8:30 a.m. THIS IS A DRILL. This is the principal at Northview High School. I heard about the problem at the plant. Will you be coming out to use the band rooms at the high school? THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. My radio that you gave me isn't working.

Should I leave now? Can you bring me a new radio so I'll know what to do? THIS IS A DRILL.

O 49

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

1 1993 Public Information Scenario l

EVENT: Political Liaison / Governmental Relations I MESSAGE FOR: Political Liaison

]

PHONE NUHBER: 250-2600 AH2 8-287-5405 CONTROLLER GUIDANCE: ,

1 Make same calls to each number.

Begin and and each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME: >

8:20 a.m. THIS IS A DRILL. This is Johnny Gunter, the mayor of Ashford. I heard there's been an accident at the nuclear plant. What's happening. (Wait for answer.) What should I tell residents to do, leave? THIS IS A DRILL.

9:00 a.m. THIS IS A DRILL. This is Robert Crowder, chairman of the Houston County Commission. What in the world is going on at that plant of yours? The news said you left the door to containment open. I knew you didn't know what you were doing. THIS IS A DRILL.

9:45 a.m. THIS IS A DRILL. This is Sen. Heflin's office in Washington.

The senator wants to know what is going on at the nuclear fs plant. Does he need to call the NRC for you? Do you want him to come down for press conferences? THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. This is Helvin Books, the mayor of Columbia. I heard you have a coolant leak and that the reactor core is now uncovered. Is anyone hurt? Is a leak into the atmosphere probable? THIS IS A DRILL.

10:30 a.m. THIS IS A DRILL. This is Johnny Gunter from Ashford again. I am hearing that you've got a leak and the core is uncovered.

Are you leaking radiation? I also heard that yott had ari employee die from radiation exposure. Have you had any other injuries? THIS IS A DRILL.

11:00 a.m. THIS IS A DRILL. This is state Rep. John Beasley. What is happening at the nuclear plant? Has everyone in the area been evacuated? THIS IS A DRILL.

50

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

1993 Public Information Scenario EVENT: Financial Response MESSAGE FOR: Financial Reeponse Officer PHONE NUMBER: 250-2454 or 250-3425 CONTROLLER GUIDANCE:

Begin and end each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

9:00 a.m. THIS IS A DRILL. I am a preferred stockholder. I heard about an accident at your nuclear plant. Do you think the stock will drop as a result? Should I sell all my stock right now?

THIS IS A DRILL.

9:30 a.m. THIS IS A DRILL. This is Sally Smith at the Wall Street Journal. Do you have any insurance on the plant for the type of emergency that happened today? What about insurance for damage to people's homes? What about out of pocket expenses if they are evacuated? What about loss of crops and livestock? THIS IS A DRILL.

9:45 a.m. THIS IS A DRILL. This is Bob Fish from the Journal of

. Commerce. Will you have to close the plant? If so, do you have funds set aside to pay for shutting it down? dow much?

What if you don't have enough7 THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. I just had the highest power bill I've ever had this past summer. Will our bills go up even higher now?

THIS IS A DRILL.

10:25 a.m. THIS IS A DRILL. I'm a Southern Company Stockholder. Will the accident at Farley affect the price of Southern Company stock? Do you think it will cause it to drop? With all the problems at the plant, I wouldn't be surprised if it were worthless. THIS IS A DRILL.

11:00 a.m. THIS IS A DRILL. This is Tom Smooze with Merrill Lynch. I'm being bombarded with calls from clients who own shares of ,

Southern Company and Alabama Power Company stock. What information can you give me? They're wanting to know if the stock is going to be worthless and whether or not to sell now. How is this emergency at your Plant Farley going to d affect the etock? What liabilities does the company have?

How much of it will be paid by-stockholders? THIS IS A DRILL.

l l

11:30 a.m. THIS IS A DRILL. This is Joe Grey at Prudential-Bache. Will 'l you need to sell bonds to get money to' pay for the repairs to l the plant? When do you think you will know? THIS IS A DRILL. I f"'N l

\,,) Noon THIS IS A DRILL. I'm a Southern Company stockholder. Do you l think this emergency at Farley Nuclear Plant will have an l adverse affect on our stock? What's going on out there anyway? -Any new developments? THIS IS A DRILL.

51 ):

1993 Public Information Scenario EVENT: Media Monitoring - Corporate MESSAGE FOR: Corporate Media Monitoring staff PHONE NUMBER: 250-1467; 250-1407; or 250-1476 (Haster Control)

CONTROLLER GUIDANCE:

Begin and and each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

8:05 a.n. THIS IS A DRILL. Channel 13 reported that there was a problem at Farley Nuclear Plant when the Unit 2 airlock was damaged and would not provide containment integrity. THIS IS

, A DRILL.

8:50 a.m. THIS IS A DRILL. Channel 6 reports that a major accident has occurred at Alabama Power's Farley Nuclear Plant near Dothan.

Water that cools the reactor is leaking out and there is a danger of meltdown occurring. THIS IS A DRILL.

9:00 a.m. THIS IS A DRILL. WZZK radio reports that a serious accident has occurred at Farley Nuclear Plant near Dothan. There is a large reactor coolant leak occurring at the plant. THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. The Associated Press is attributing information to WTVY in Dothan that there is a reactor coolant leak at Farley Nuclear Plant and that the core is completely uncovered. THIS IS A DRILL.

10:45 a.m. THIS IS A DRILL. CNN is reporting that the plant is releasing radiation into the atmosphere from the vent stacks.

Also, an employee has died from exposure to lethal amounts of radiation. THIS IS A DRILL.

)

52

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

1993 Public Information Scenario EVENT: Media Relations - News Media Center MESSAGE FOR: News Media Center Media Relations representatives PHONE NUMBER: 205/793-4321 CONTROLLER GUIDANCE:

Begin and and each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

9:35 a.m. THIS IS A DRILL. Steve Dorning here with CNN. I just heard that you've got a serious problem at your nuclear plant.

What's going on? Are we about to have the American version of Chernobyl? What are you doing to protect the public?

What about your employees? THIS IS A DRILL.

9:40 a.m. THIS IS A DRILL. My name is Lois Hammer with WSFA-TV in Montgomery. I have a report from someone in your plant that half of your safety equipment was off line for repairo and that the other half is failing. Why weren't you prepared for this? 'Why didn't you shut down the plant if sot had so many o}sLems down for repair? THIS IS A DRILL.

9:45 a.m. THIS IS A DRILL. This is Steve Dorning again with CNN. Now I'm hearing rumore of incompetence there at the plant. You r knew you had safety equipment down for repairs and you knew

\

that you couldn't operate the plant safely but you did it anyway. Now you've got an emergency at the plant and you'll probably kill everything for miles and miles around tae plant. What are you going to do about this? THIS IS A DRILL.

9:48 a.m. THIS IS A DRILL. This is Sam Spade with CBS-New York. I've been hearing about your problems at Plant Farley al) day.

Now I'm hearing that you're losing coolant too! Are you finally going to close down your nuclear plant? You plants in the South seem to be plagued with problems anyway. THIS IS A DRILL.

9:50 a.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

A source of mine who's an employee at Farley Plant called and said that fuel damage was likely, the core was uncovered and that basically the plant was out of control. How did you let this happen? Doesn't this mean that a moltdown has begun? l THIS IS A DRILL. -l i

9:52 a.m. THIS IS A DRILL. This is David Gayle at WOOF radio. I heard your accident has just gotten much worse. What's happening?

THIS IS A DRILL.

9:54 a.m. THIS IS A DRILL. This is Steve Summers of the Los Angeles

( Times. I understand that you have a major leak in coolant.

How are you going to keep the core cool? What's going to happen next? Are we going to have the destruction that resulted from Chernoby1? Are you going to compensate everyone for their losses? THIS IS A DRILL.

53

9:56 a.m. THIS IS A DRILL. This is Alan Square of the Atlanta Journal.

What county is the plant in? Has the governor ordered evacuation of county yet? Where will all of the people go? Is this the worst accident at your nuclear power plant? THIS IS A DRILL.

9:58 a.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

We have received calls from people near the plant who are hearing sirens coming from it. What's happened now? Is it getting worse? What are the sirens for? Are these evacuation sirens? THIS IS A DRILL.

10:00 a.m. THIS IS A DRILL. This is Cal cooley at WBRC. Has the NRC been notified of accident? Have they taken over the plant?

Have they pulled your license as a result of this accid 9nt?

How can I get in touch with the NRC. Are they in Washington?

THIS IS A DRILL.

10:05 a.m. THIS IS A DRILL. This is Ken Jackson at WHBB-TV in Panama City. What is being done to ensure the public is protected.

Are you suggesting that people living near the plant evacuate? (If they tell you that you need to talk to the emergency management agency, ask ...) Don't you make recommendations to them? THIS IS A DRILL.

10:08 a.m. THIS IS A DRILL. This is Ella Fitzpatrick of WTVY-TV. What areas of the county have you evacuated? THIS IS A DRILL.

10:10 a.m. THIS IS A DRILL. I'm witn WHBB-TV in Panama City. We're hearing that you have an emergency at Plant Farley. What's going on? I've also heard that your core is completely uncovered and totally out of control. Why hasn't the NRC stepped in since you aren't able to control your own plant?

THIS IS A DRILL.

10:15 a.m. THIS IS A DRILL. This is Steve Dorning with CNN again. I've been trying to get in touch with one of the emergency '

management agencies around the plant but I can't get an answer. Have they left? What's going on? THIS IS A DRILL.

10: 20 a.m. THIS IS A DRILL. This is Scott Richards with WBRC-TV in Birmingham. I heard that you were having a news conference somewhere about the conditions at Plant Farley. Where is it?

We want to attend. THIS IS A DRILL 10:23 a.m. THIS IS A DRILL. This is Andy Freeman at WBBK in Blakely, GA. My cource tells me that you're losing coolant to the reactor core. What will happen now? Is the core melting through the floor? Shouldn't everyone in the county leave now? THIS IS A DRILL.

10:25 a.m. THIS IS A DRILL. This is Toni Childs with the Chicago Tribune. I'm doing a story on the accident at Plant Farley.

I understand that it was caused by negligence ... that the plant management knew this could happen but they refused to s take the plant off line. Can you give me some inside information. My editor has authorized me to offer $1000 for the story. THIS IS A DRILL.

54 L

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

10:28 a.m. THIS IS A DRILL. This is Sally Butterworth at WESP. radio in Dothan. I heard there are some injured workers being taken to a Dothan hospital. Which hospital? THIS IS A DRILL.

10:30 a.m. THIS IS A DRILL. This is James Murphy with WKYY in New York.

\,,) We've been following the story on your emergency at Plant Farley and we've just heard that you have an employee who was injured while trying to fix some broken equipment. We understand that he was exposed to lethal amounts of radiation. Are you planning on providing for his family for the rest of their lives? Do you plan to send other employtes in to fix the equipment? THIS IS A DRILL.

10:33 a.m. THIS IS A DRILL. This is Patricia Dye of WULA radio in Euf aula. Have you gotten the proble.n fixed yet? Is this the first accident you've ever had? THIS IS A DRILL.

10:35 a.m. THIS IS A DRILL. This is Barbie Boulder at Channel 42 in Birmingham, can you explain what happens during a meltdown at a nuclear power plant? THIS IS A DRILL.

10:37 a.m. THIS IS A DRILL. This is christy curly with WJHG-TV in Panama city. My source inside the plant that told me that you are leaking radiation into the atmosphere and that everything will be destroyed for hundreds of miles. I'm going live with this story in 5 minutes. Do you have any comments that you want me to include? THIS IS A DRILL.

10:40 a.m. THIS IS A DRILL. This is Ray Active of RVTM. Is the reactor core covered with water or has it all leaked out? can you pump in more water from the river or that big pond you have on the plant site? THIS IS A DRILL.

10:42 a.m. THIS IS A DRILL. This is Tom Tidwell at WOOF radio. We just heard the report that you have an injured employee and that he was exposed to lethal amounts of radiation. My secretary's husband works there and she is upset. Can you ,

tell me who was injured. .She's desperate to know if it's her I husband. THIS IS A DRILL.

10:45 a.m. THIS IS A DRILL. This is Paul Harvey. Update me on the j coolant leak. How did the leak begin? What is the source of i the leak? Can it be stopped? THIS IS A DRILL.

10:50 a.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

I have a report that radiation is leaking in the plant.-I need to confirm this. I have a deadline in 15 minutes. THIS IS A DRILL.

10:55 a.m. THIS IS A DRILL. This is Keith James with WOOF-AM/FM. I heard that you are leaking radiation into the atmosphere.

What's this going to do to the countryside? What about l livertock? THIS IS A DRILL.

11:00 a.m. THIS IS A DRILL. This is Jody Harris of the Atlanta constitution. Is the core molting? Haven't you. lost the coolant? How much risk is the public in right now? Will residents around the plant see their hair fall out? THIS IS A DRILL.

55

11:05 a.m. THIS IS A DRILL. This.is Sherry Allen of the Mobile Press Register. Have you lost all cooling water for the reactor?

Where does the water go? How can you keep the core cool with no cooling water? THIS IS A DRILL.

11:05 a.m. THIS IS A DRILL. This is Allen Taylor of the Pensacola News Journal. What does this coolant water do ... how does it keep core cool? Is is like a radiator or something? (Wait for answer.) Isn't the plant shut down? Then losing coolant water won't matter, right? THIS IS A DRILL.

11:10 a.m. THIS IS A DRILL. This is Sharon McConnell of the Huntsville Times. Is radiation leaking out of the plant? You've got a leak of radioactive water inside the plant, right? What's keeping this radiation inside the plant? THIS IS A DRILL.

11:15 a.m. THIS IS A DRILL. This is John Puckett of the Associated Press. Have plant employees been evacuated? Isn't the plant filled with radiation from all of the leaks? Aren't employees at serious risk? In fact, haven't you already had one employee die from exposure to radiation? THIS IS A DRILL.

11:20 a.m. THIS IS A DRILL. This is Etowah Smith of Mutual Radio in Washington. I understand you have had a major pipe break and there may not be any cooling water left in the core. Isn't this how a meltdown begins? What do you think is going to happen? THIS IS A DRILL.

l l 11:25 a.m. THIS IS A DRILL. This is Ellen Morrison of the LA Times.

l What is a " General Emergency?" Exactly what happened at the plant for this emergency level to be declared? THIS IS A DRILL.

11:30 a.m. THIS IS A DRILL. This is Mary Hughes of the Montgomery Advertiser. What happens when there's a meltdown? I've never been around one before. THIS IS A DRILL.

l 11:35 a.m. THIS IS A DRILL. This is Carol Mitchell at the U.S. Council for Energy Awareness (a pro-nuclear power group) in i Washington. Ralph Nader is blasting you and nuclear power and I would like some information to use to blast back. What can you tell me about things going on down there? THIS IS A DRILL.

11:40 a.m. THIS IS A DRILL. This is Jim Garrison of NBC radio. What are you doing for cooling water for the reactor? How are you cooling the core? THIS IS A DRILL.

11:43 a.m. THIS IS A DRILL. This is Louis Pierce at WDHN-TV in Dothan.

Update me on the coolant leak. Have you been able to stop the leak yet? Have you determined the source yet? THIS IS A DRILL.

11:45 a.m. THIS IS A DRILL. This is David Gayle at WOOF radio. Was today's accident caused by any sort of operator error? Have you tested the operators for drugs or alcohol? What about a lack of maintenance? THIS IS A DRILL.

56

11:50 a.m. THIS IS A DRILL. This is Tyler Hayes of the Tampa Tribune.

With the loss of this unit, you.will have to burn more coal to make up for the loss of generation. How much more

~

pollution -- sulfur dioxide, carbon dioxide and nitrous oxide

/'* -- will you pump into the air as a result of this? THIS IS A L

$ DRILL.

c 11:55 a.m. THIS IS A DRILL. This is Jenny Davis at the Birmingham Post-Herald. Does this accident have anything to do with the need to replace the steam generators that was reported last year? THIS IS A DRILL.

11:55 a.m. THIS IS A DRILL. This is Joan Horton of the Headland observer. There is a leak of reactor coolant, right? Have you run out of water to keep the core cool? Where have you been getting water to replace the coolant which leaked out?

What happened to the coolant that leaked out? Where did it go? THIS IS A DRILL.

Noon THIS IS A DRILL. This is Andy Freeman at WKKB in Blakely. Is tne core melting? Haven't you lost the coolant? How much risk-is the public in right now? Will residents around the plant see their hair fall out? THIS IS A DRILL. '

12:05 p.m. THIS IS A CRILL. This is David Bluejay at the Associated Press. I am going to the plant to take photos. Please have an i . escort meet me at the plant gate. Now, where is the entrance?

THIS IS A DRILL.

12:10 p.m. THIS IS A DRILL. This is Graham Heath of the New York Times.

Have you lost all cooling water for the reactor? How can you keep the core cool with no cooling water? THIS IS A DRILL.

12:15 a.m. THIS IS A DRILL. This is Al Harris at the Tallahassee Tribune. What in the world will you do with all of that radioactive water that has leaked out? Can you just re-use it? THIS IS A DRILL.

12:15 p.m. THIS IS A DRILL. This is Susan Elsie at WKMX in Enterprise.

Have plant employees been evacuated? Aren't employees at serious risk? THIS IS A DRILL.

12:20 p.m. THIS IS A DRILL. This is Archie Royal of the Dothan Eagle. I have heard you have had major equipment problems, and if that weren't enough, there is no more cooling water left in the core. Has the core begun melting? THIS IS A DRILL.

12:25 p.m. THIS IS A DRILL. This is Sid Sutherland at WLWI radio. What happens to radiation in the atmosphere? Where does it go?

Does it fall to the ground somewhere? THIS IS A DRILL. i 12:30 p.m. THIS IS A DRILL. This is Bob _ Griffin at WJJN radio. Who will-go out and determine whether homes, farmland and animals have been contaminated with radiation? Do they wear special clothing? How do you protect them? THIS IS A DRILL.

12:33 p.m. THIS IS A DRILL. This is Jeff Davis at AP. Do you know exactly where the radiation has gone? THIS IS A DRILL.

57 l

12:35 p.m. THIS IS A DRILL. This is David Gayle at WOOF radio. About this radiation leak, what is leaking air, water, or what? Can you see radiation? THIS IS A DRILL.

/ 12:40 p.m. THIS IS A DRILL. This is Lori Nabors of the Dallas

(,, Times-Herald. I understand that radiation is leaking out of the plant. I thought the plant was leak-tight. THIS IS A DRILL.

12:45 p.m. THIS IS A DRILL. This is Gary Davis of CNN. Is the other unit running. (If told yes, ask:) Aren't you running the risk of another major accident over in that unit? THIS IS A DRILL.

12:50 p.m. THIS IS A DRILL. This is Larry Welk of the Daily Planet in Dothan. Can workers repair the problem without exposing themselves to radiation? THIS IS A DRILL.

12:55 p.m. THIS IS A DRILL. This is Billy Presley at the Dothan Eagle.

Have any plant workers been exposed to radiation today? Will they die? THIS IS A DRILL.

1:00 p.m. THIS IS A DRILL. This is Cal Cooley at WBRC-TV. Will radiation kill animals left in the area? Will farmers have to shoot their cows and horses? THIS IS A DRILL.

1:05 p.m. THIS IS A DRILL. This is Debbie Williams at WTVY radio. Will you have to wait for all radiation to leak out of the plant before you can make repairs? THIS IS A DRILL.

1 10 p.m. THIS IS A DRILL. This is Ellen Monroe of the Dothan

( Progress. How many people have been evacuated so far? Well, how many people live in the zones that have been evacuated?

Do you anticipate further evacuations? THIS IS A DRILL.

1:15 p.m. THIS IS A DRILL. This is Sally Butterworth at WESP radio.

Which direction is the radiation blowing? THIS IS A DRILL.

1:20 p.m. THIS IS A DRILL. This is Patricia Dye of WULA radio in Eufaula. You only take protective measures for people within 10 miles of the plant. But this radiation is likely to go far beyond that, isn't it? What about people outside of the IO-mile radius? THIS IS A DRILL.

1:25 p.m. THIS IS A DRILL. This is Vance Garrett of the St. Petersburg Times. Have any workers been injured today?'Does this include those exposad to radiation? THIS IS A DRILL.

1:30 p.m. THIS IS A DRILL. This is Sheila Evans of WXIA in At?.anta.

How likely are members of the public to develop cancer from today's accident?- THIS IS A DRILL.

1:30 p.m. TH:S IS A DRILL. This is Ken Jackson of WMBB-TV in Panama Cir.y . I heard people were fishing on the Chattahoochee River.

Dic you go tell them to get out of the river? THIS IS A DRI1L.

1:35 p.m. THIS IS A DRILL. This is Greg Barry of NBC News. Is the plant salvageable? THIS IS A DRILL.

58 -

. _ _ _- . .-_ _ - - . _ m 1:40 p.m. 'THIS IS A DRILL. This is Elmer Fudd of the Tuscaloosa' News.

Do you have insurance to pay for the repairs or will ratopayers pay for them? THIS IS A DRILL.

1:45 p.m. THIS IS A DRILL. This is Harvey Copeland of the Gadsden C Time s . When the problem developed, how long did you continue to operate the plant? THIS IS A DRILL.

1:50 p.m. THIS IS A DRILL. This is Wilma Howton of the Birmingham News. How many people have died in nuclear accidents-in the world? How about in the United States? Who can I call to get this information? THIS IS A DRILL.

J 59

1993 Public Information Scenario EVENT: Media Monitoring - News Media Center MESSAGE FOR: NMC Media Monitoring staff l CONTROLLER GUIDANCE:

Begin and end each message with: "THIS IS A DRILL."

SCENARIO MESSAGES:

TIME:

10:00 a.m. THIS IS A DRILL. WDHN-TV is reporting that there is an accident at the Farley Nuclear Plant and that reactor coolant is leaking out. The core is quickly beccuing uncovered and a l meltdown is imminent.

I 10:45 a.m. THIS IS A DRILL. WOOF radio is reporting that an employee who was sent in to repair inoperable equipment died from exposure to radiation. THIS IS A DRILL.

11:15 a.m. THIS IS A DRILL. CBS is reporting that the third worst nuclear accident in the world is occurring near Dothan, ;

Alabama. The reactor has lost coolant and the local ;

government officials are preparing to evacuation thousands of J residents. THIS IS A DRILL. j Noon THIS IS A DRILL. Ralph Nader held a news conference in Washington criticizing Alabama Power, Southern Nuclear and the NRC for allowing the plant to operate unsafely for years.

The story is carried by all three TV networks, CNN and the Associated Press.

60

1993 Public Information Scenario EVENT: News Conferences - News Media Center- j l

MESSAGE FOR: Utility and Agency Spokesmen CONTROLLER GUIDANCE: I l

Anticipated time of news conference: 10:00 a.m. Some of these questions are based on events that should occur by 10:00 a.m. If news ;

conference is held before then, carefully review questions asking specifics )

about problems with plant systems before asking them.

Reporters may also develop their own questions from the information provided by the utility and agency spokesmen. ]

Ouestions for Hock Media / Reporters First News Conference Can things get any worse?

You have a leak of the Residual Heat Removal System? What is that system? What does it do? What is the source and cause of the leak?

How much radiation is leaking out of the plant?

You have a leak in the Reactor Coolant System and in the Residual Heat 7 Removal System. How are you cooling the core? Isn't the Residual

( Heat Removal System a back-up system for the Reactor Coolant System?

How long before you lose all cooling water? How much water is in the system?

How are you replacing the water that is leaking out? Where's this water coming from? Where does it goes once it leaks out?

How long will this emergency supply of water last? Will you run out?

I understand that the core is quickly becoming uncovered. What will happen when it is completely uncovered?

You've had a number of leaks and equipment failures today. You must have poor equipment in the plant. Don't you inspect them?

Explain what the deal is between Alabama-Power and Southern Nuclear.

It sounds like a good way for you to pass the buck to the other so that no one's ever at fault. Who's actually in charge of the plant?

Has any damage occurred to the fuel? (If spokesman says yes, askr) ~

guess this means a meltdown as begun. How can this be stopped?

Isn't the Reactor Coolant System under extreme pressure? When the loss of coolant accident occurred, didn't this increase pressure in the containment building? What can this additional pressure do to the containment building?

(If spokesman mentioned equipment failing, aska) This sounds like poor maintenance. Don't you regularly check your equipment?

61

Wasn't sono squipmsnt off-lins for repair before any of this ever happensd today? Shouldn't you have shut down the plant until you had the proper safety equipment to prevent accidents such as this?

'~' -

(If spokesman does not mention equipment f ailure, asks) Was the accident today caused by any equipment failure?

(If Site Area Emergency has been declared, askt) Did you evacuate your employees at that point? If not, don't you think they are at risk?

How much radiation are workers being exposed to? Will it kill them?

How much exposure to radiation do you allow each employee to receive?

What are the levels allowed by the NRC7 What are the levels allowed at Plant Farley?

Where's all the water from these leaks going? Is it radioactive?

How do you notify hunters and fishermen of an emergency? I know that fishermen like to fish in the river right next to the plant. Will you bring them in with your employees co piotect them?

What's being done to repair the problem?

Is the plant still running? Did you shut it down at the first indication of trouble? (If spokesman indicates the operators gradually shut the unit down when problems started, ask:) Wouldn't you have avoided all of these leaks and radiation problems if you had shut the plant down immediately? Can't you push one button and stop the plant?

What is the population in the area near the plant?

What's being done to ensure the public is protected? Are evacuations occurring?

Are plant workers being exposed to radiation? If so, what are the dosages? Isn't that dangerous for your employees?

If someone is exposed to radiation during today's accident -- a plant worker or the public -- how long will it likely take for them to develop cancer?

How many female employees do you have working at the plant? How many are on your team of emergency workers handling the emergency? What if they are exposed to radiation? Will this affect their future children?

Who's in charge of the emergency? Who's running the plant?

I want to go out to the plant and get some background footage and an interview with whoever is ir. control of this emergency. Can you make arrangements for my cameraman and myself to go out there?

Southern Company stock has been doing real well lately. How do you think this emergency will affect the price of your stock?

Who's going to have to pay for all the damage and repairs to the

/ plant? Will Alabama Power's customers foot the bill or maybe the

\ stock holders?

Who's going to compensate those whose property values crash as a result of this emergency?

62

How will you ensure that everyone gets out if there is an evacuation order? How do you know if everyone leaves? What happens if someone refuses to leave?

O I understand that Alabama Power and Southern Nuclear are both downsizing. Do you think that the problems at the plant _today could have been avoided if you had had the additional staff or if you had kept some of your more experienced staff?

CONTROLLER HESSAGE A few minutes after the news conference ends, 3 or 4 " reporters" need to separately ask a Media Relations Representative to get a spokesman to either: (a) review some diagrams with you to better explain the technical aspects of the emergency, or (b) do a live interview. If you don't have your interview within about 5 or 10 minutes, ask again.

Be very persistent.

O O

63

q

'l 1993 Public Information Scenario EVENT: News Conference - News Media Center j MESSAGE FOR: Utility and Agency Spokeamen CONTROLLER GUIDANCE:

Anticipated time of newa conference: 11:00 a.m. Some of these questions are based on events that should occur by 10s45 a.m. If news conference is held before then, carefully review questions asking specifica about problems with plant systems before asking them.

If any more news conferences are held, utilize questions not asked in previous news conferences, and possibly develop questions fron information provided by spokesmen.

Questions for Mock Media / Reporters Second News Conference (Spokesman should explain that a General Emergency has been declared.)

I have a source that told me you sent an employee in to repair some inoperable equipment and exposed him to lethal amounts of radiation.

Can you give us his name and has his family been notified yet? Do you plan to send in other employees?

How much radiation is being released? (If spokesman says he doesn't know, ask him why he's doesn't know and when he will. If he does tell you how much, how many millirems, ask him to explain what a millirem is. Put it in terms that everyone can understand.)

What should people do?

When will the radiation cloud cover Dothan?

What will happen to crops and animals?

What kind of barriers are in place -- and obviously failed -- to prevent radiation from leaking out of the plant?

You have three barriers against release of radiation? Shouldn't there be more? If there had been more barriers, couldn't this accident have been avoided?

How can you possibly stop the death and destruction of southeast Alabama now that you're releasing radiation?

What can possibly be done to repair the accident now? If you send workers in there to try and stop the radiation leak, you'll kill them, won't you?

If.there are fishermen out on the river. How do you communicate to them that there is an emergency? What do you do to protect them?

64 ,. o y

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

Three. Mile Island resulted in a number of deaths from cancer caused by the release of radiation. What are your predictions on the number of people in Houston County who will die from this major accident? (NOTE:

TMI did not cause cancer deaths, but try to trap spokesman.)

O) k, s How soon will radiation reach Columbia and other populated areas? Is the city of Dothan in any danger?

How are you keeping the core cool? How much water is left in your ,

emergency water tanks? (If told re-circulating water in containment, ask ) Aren't you pumping hot water onto the reactor core? This won't cool it down. Won't you continue meltdown?

Why didn't you evacuate people earlier? This delay will likely cause more fatalities among the public, and certainly more cases of cancer.

If you have a leak from the reactor, then isn't containment now filled with radiation? Can you ever go back in it? How can you fix the leak if you can't go back in?

Will you have to close the plant? Don't you think you should if for no other reason than to protect the public?

How much will it cost to repair the plant? Does the utility have insurance to pay to repair the plant?

Who will reimburse the public for their losses? There will be a loss ,

in property values not to mention the out of pocket expenses wnile.

they are evacuated from their t.omes.

What will happen to the businesses that can't operate because of your emergency? What about the people who lose pay because they can't work due to your emergency, or worse still, what about those people who lose their jobs? Who will compensate them?

Why did Alabama Power build this plant? Didn't the company management know about how dangerous radiation is?

Is the other unit still running?

(If answer is yes, asks) Are you checking the same equipment and problem areas in that unit to be sure the same thing.doesn't happen in that unit and then we'd have twice the disaster on our hands?

How many workers in the plant were exposed to radiation?

Can workers repair the leaks in containment without exposing themselves to radiation?

I understand this is the third worst nuclear accident in the world. Is that correct?

Do you have to wait for all radiation to leak out of the plant before starting repairs to stop the leak?

How many people have been evacuated?

Do you have someone go~ house to house to check to see if everyone has left their homes? If so, won't they be exposed to radiation?

65

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i 3

i RADIATION MONITOR GRAPHS >

i

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interpolate readings between the fifteen minute readings provided on the controller data sheets.

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O O O RADIATION MONITOR GRAPHS TABLE OF CONTENTS PAGE RE0001 CONTROL ROOM R/HR 124 RE0002 CTMT AREA MONITOR R/HR 125 RE0003 RADIO CHEMISTRY LAB AREA MONITOR MR/HR 126 RE0004 CHARGING PUMP ROOM AREA MONITOR MR/HR 127 RE0005 FUEL HANDLING BLDG AREA MONITOR MR/HR 128 RE0006 SAMPLE AREA MONITOR MR/HR 129 RE0007 CTMT INCORE SEAL AREA MONITOR R/HR 130 RE0008 DRUMMING STATION AREA MONITOR MR/HR 131 RE0010 PENE ROOM FILT PARTICULATE MONITOR CPM 132 RE0011 CTMT AIR PARTICULATE MONITOR CPM 133 RE0012 CTMT GAS MONITOR CPM 134 RE0013 WASTE GAS PROCESSING MONITOR CPM 135 RE0014 VENT GAS MONITOR CPM 136 RE0015A SJAE EXHAUST LOW RANGE MONI".OR CPM 137 RE0015B SJAE EXHAUST MID RANGE MONITOR MR/HR 138 RE0015C SJAE EXHAUST HI RANGE MONITOR R/HR 139 RE0016 BORON RECYCLE DISTILATE CPM 140 RE0017A COMPONENT COOLING WATER MONITOR CPM 141 RE0017B COMPONENT COOLING WATER MONITOR CPM 142 U

RE0018 WASTE DISPOSAL LIQUID MONITOR CPM 143 RE0019 SG BLOWDOWN SAMPLE MONITOR CPM 144 RE0020A SW FROM CTMT CLR TRN A MONITOR CPM 145 RE0020B SW FROM CTMT CLR TRN B MONITOR CPM 146 <

RE0021 VENT AIR PARTICULATE MONITOR CPM 147 RE0022 VENT GAS MONITOR CPM 148 RE0023A SG BLOWDOWN TREATMENT MONITOR CPM 149 RE0023B SG BLOWDOWN TREATMENT MONITOR CPM 150 RE0024A CTMT PURGE MONITOR CPM 151 RE0024B CTMT PURGE MONITOR CPM 152 RE0025A SPENT FUEL POOL AREA MONITOR CPM 153 RE0025B SPENT FUEL POOL AREA MONITOR CPM 154 RE0027A CTMT RADIATION HIGH LEVEL CHAN A R/HR 155 RE0027B CTMT RADIATION HIGH LEVEL CHAN B R/HR 156-RE0029B-I VENT IODINE GAS (SPING-4) uC/ML 157 ,

S RE0029B-NG VENT NOBLE GAS - (SPING-4) uC/ML 158 '

5 RE0035A CONTROL ROOM VENTS CPM 159

-RE0035B CONTROL ROOM VENTS CPM 160 RE0050 GROSS FAILED FUEL DETECTOR CPM 161 RE0060A SG A RELIEF MONITOR R/HR 162 RE0060B SG B RELIEF MONITOR R/HR 163 RE0060C SG C RELIEF MONITOR R/HR 164 RE0060D_ AFW TURBINE EXHAUST MONITOR R/HR '165

, O O O 1

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4

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- - - - - - - - _ - - - - - - _ _ - - - - - _ - - - - - - ~ - -- - - - - m o n s v - -

L O O O l

FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL l

1.00E+04 g 1.00E+03-

= g 1.00E+02; i I E c

1.00E + 01 = ,

g--~~B

ewww 1.00E+00-1.00E-01 . . , , . . . . . . , i 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 CHARGING PUMP ROOM AREA R-4

~

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL r 1.00E+01 g ,

1.00E+00g wwemwvewvwwwvoremwmemme

~

= g 1.00E !

~

I

?

2 j,ggg_gg =_ _

1.00E~03 g .

1.00E-04 i. i i i i i i i i i i i 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 -12:30 -

FUEL HANDLING BUILDING AREA R-5 7,.. ,

O O 0; FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL q 1.00E+01 J 1.00E+ 00_

-WeW +hW4(AW&<WW MYW#FLNt*AWeN\nhWMP^tv%If a- 1.00E-01 g

~

h ~

x -

1.00E-02=

E i

.I 1.00E :

1.00E-04 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 1.1:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 SAMPLE AREA R-6

.....,:.--,.....-----__.xa.______-__.--._.-c.-----_- . .. - -

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL ,

1.00E+01 3-t l

1.00E+00 l

5 r

- 1.00E-01 =

a m E

~~~~~"

1.00E _

1.00E !

1.00E-04 . . . . . . , , . , , ,

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 INCORE SEAL TABLE AREA R-7 V.

i

O O O l

i FARLEY NUCLEAR 3LANT 1993 ANNUAL DRILL 1.00E + 01 -

1.00E+00 g___-________

- 1.00E-01 =

0 m E k

C 1.00E-02; 1.00E :

1.00E-04 . . . . . . . > > > . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 DRUMMING STATION AREA R-8 0,

O O OL FARLEY NUCLEAR PLANT .

1993 ANNUAL DRILL 1.00E+06 1.00E+05 1.00E+04-M 1

1.00E+03 \

g ;

-~wme w~w e e%%<v 1.00E+02g E ,

1.00E+ 01 -

1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 PENETRATION ROOM FILTRATION R-10 4

. _ _ _ __ ._ .- _ -. -_. .. _: -. ~ = _ _ _ _

O Q Q :

9 FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL -

1.00E+06 1.00E+05 1.00E+04 __ _ _

O 2 -

o- 1.00E+03=

O i 1.00E+02 1.00E +01 '

g 1.00E+00 . . . . . . . . . . . .

07:00 08:00 -09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 CONTAINMENT AIR PARTICULATE R-11

3

. _ . . - - . - , + , - . . , , , - - r . . ,e-- w. as . 2-. ,, .-.a , e

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 1.00E+05-1.00E+04h o- 1.00E+03= '

O ! -

---~~~-

1.00E+02 1.00E + 01 -

1.00E+00 . . i i , , , i . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 CONTAINMENT GAS R-12

3

O O O

=ARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06s

!mw w+ww wbnuw~<w mimvwwt~nnmsnur 1.00E+05s 5

1.00E+04h =

~

M :

3

a. 1.00E+03=

0 i '

1.00E + 02-1.00E+ 01 g 1.00E+00 . . . . . . . . . . . .

07:00 08:00 -09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 l WASTE GAS PROCESSING R-13 1 %

l i

O O O [

FARLEY NUCLEAR PLANT 1993 ANNUAL JRLL 1.00E+06; .;

i i

1.00E+05; J' p

E !, i 1.00E+04 g r '-

5 y !- k- ~ ~~ ,-

n_ 1.00E+03g i i ! i i : t O : i .

i !

1.00E+02; a

I r

1.00E+01 s ,

I i 1.00E+00 . , , . . . . ,, ,i,i i i i 07:00 08:00 09:00 10:00 11:00 12:00 13:00-

- 07:30 08:30 09:30 :10:30 11:30 12:30-VENT GAS R-14 e

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL i 1.00E+06g E

1.00E+05s '

E l

1.00E+04g j -

ti 3 :

o_ 1.00E+03=

4 0 !

1.00E+02: :

5 ______ __ _ .

1.00E+01 g 1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 STEAM JET AIR EJECTOR LOW RANGE R-15A Y

, .a T

'(

a "y- T _ . _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . - _ _ _ _

O O o !

=A7 LEY NUCLEAR PLANT ,

1993 ANNUAL DRILL 1.00E+ 02-1.00E+01; y T -

m 1.00E+ 005 s E l :

1.00E :

~

1.00E-02 07:00

~w-wncen-~nw~wm 08:00 09:00 .

10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30

- STEAM JET AIR EJECTOR MID RANGE R-158

O O O :

i i

FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL i

1.00E+03-I 1.00E+02 3

- 1.00E+ 01 =

0 m 5 r E : ,

[ -

l 1.00E+00 3 E .

1.00E-01 5

= ;

1.00E-02 . . . > > . . . . . . . -

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 c STEAM JET AIR EJECTOR HIGH RANGE R-15C ,

i

O O O FARLEY NUCLEAR 3LANT 1993 ANNUAL DRILL 1.00E + 06 .

g 1.00E+05-- I 1.00E+04=

1.00E+03

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

1.00E+02 1.00E+01 g 0 :0 b8:0 b9:0 10:0 11:0b 12:0 13:00 07:30 08:30 09:30 10:30 11:30 - 12:30 BORON RECYCLE DISTILATE R-16 t

O e O .

s L

FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL '

1.00E+06g t

E 1.00E+05-1.00E+04 .

E g ,

o_- 1.00E+03 O- !

i 1.00E+02; -

- . =. =. ---~

_ =_-- -

1.00E +01 ,

i d

.1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30- 11:30 12:30

~

COMPONENT COOLING WATER R-17A

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 g 1.00E+05-1.00E+04; z !

1.00E+03-1.00E+02 -- - - . .

-- -- -- ~- -

1.00E+ 01 0 :0 b8:Ob b9:0 10:0 11:0 12:0 13:00 07:30 08:30 09:30 10:30 11:30 12:30 COMPONENT COOLING WATER R-17B 1

O O

~

O-FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 g 1.00E+05 3 5

1.00E+04; E

~ ~~ ~ ~ ~ ^- ^ -~ ~~~=

1.00E+03e *

~

"- ~ ' ~~~

~

~~~ ~~ --

O !

1.00E+02 1.00E+01 1.00E+00 . . . . . . . . . . . . .

-07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30' 08:30 09:30 10:30 11:30 12:30 LIQUID WASTE DISPOSAL R-18 1 .

_ _ , _ - w = w c- - - - -

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06-1.00E+05-1.00E+04-

1 o- 1.00E+03

0 1 1.00E+02-

-=

1.00E + 01 -

1.00E+00 . . . . . . . . . . . . .

07:00 08:00 09:00- 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30- 12:30 STEAM GENERATOR BLOWDOWN SAMPLING R-19' n

.___,.U,, . , . , - , , ,,w- .

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL l 1.00E+06 g 1.00E+05-1.00E+04a a s o- 1.00E+035 0 i 1.00E+02 ___________

1.00E+01 1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 i

07:30 08:30 09:30 10:30 11:30 12:30 SW RETURN FROM CNM COOLERS A TRN R-20A i

o o o ,

FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06- -

1.00E+05-1.00E+04 s s - '

o_ 1.00E+03=

0 i 1.00E+02g ____________

1.00E+01 g 1.00E+00 . . . . . , . . > > . i '

07:00 '08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09'30

10:30 11:30 12:30 SW RETURN FROM CNM COOLERS B TRN R-20B -

_ _ _ - . - . -- _ , ..,a -- - - - - .

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 w

1.00E+05

! 5 1.00E+04=

E k 1

o 1.00E+03

.o

.~ wh~ -- www 1.00E+02g

- 1.00E+01 1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30. 12:30 PLANT VENT STACK AIR PARTICULATE R-21

.8

-r -- , , , ,i. ,. , , - ~ __ 4

O O O 1

FARLEY NUCLEAR PLANT l' 1993 ANNUAL DRILL 1.00E+06 g 1.00E+05- gx w 1.00E+04h

- E e 2 -

- o_ 1.00E+03=

O i 1.00E+ 02= ,

l_

~~ k ----e t 1.00E+01 g_

1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 PLANT VENT STACK GAS R-22

-w , . - 9 - ta,e-s- - _ _ _ _ _ _ _ . - _m . __-_.__.__ ___.-__, _ _ _ -_-_

O O O ;

e FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06g i

= l -

1.00E+05- ,

1.00E+04= ,

l 0 :E.

t

-o_ 1.00E+03 l

0 5

1.00E+02; ._. .

l :

l 1.00E+01 g l ?

l -

i 1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00..

p 07:30 08:30 09:30 10:30 11:30- 12:30 l S/G BLOWDOWN PROCESSING R-23A l.

r A

?-

O O O

=ARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E + 06s i E l :

I 1.00E+05g 5

1.00E+04=

8 3 :

I o- 1.00E+03:-

1 o i i

1.00E+02 -

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

1.00E +01 g 1 1.00E+00 i i , . , i , , i i i i 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 S/G BLOWDOWN PROCESSING R-238 l

1

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL t 1.00E+06s 1.00E+05 g .

I

! ~~~""~~ \ ~~~~~~ '

i 1.00E+04; E

. 5 2 -

o_ 1.00E + 03=

O !

l 1.00E+02; -

1 l :

1.00E+01 g

E i 1.00E+00 . . . . . . . . .- . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 -12:30 CONTAINMENT PURGE R-24A ,

3

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 p 1.00E+055-

! T

~~~~# ~~~~~

1.00E+04 m :

" 3

n. 1.00E+03=

0 i 1.00E+02 1.00E+ 01 g 1.00E+00 i i i i i i i > > i i i 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 CONTAINMENT PURGE R-248

O O O FARLEY NUCLEAR PLANT ;

1993 ANNUAL DRILL 1.00E+06 1.00E+05 1.00E+04h E

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

-= - - - - ~~~.-

. -. . .w- . - - - . -.--

E 1.00E+02 1.00E+01 g-1.00E+00 . . . . . . . . . . . . ;

07:00 08:00 09:00 10:00 11:00 12:00 13:00 i 07:30 08:30 09:30 10:30 11:30 12:30 SPENT FUEL POOL VENTILATION R-25A j m

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 1.00E+05 1.00E+04;

^

l :E o- 1.00E + 03=

0 5 1.00E+02h --= - - - = - - - - - -- =- =--

l :

1.00E+01 g 1.00E+00 i . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30

! SPENT FUEL POOL VENTILATION R-25B rc

O O O FARLEY NUCLEAR PLANT l 1993 ANNUAL DRILL i

1.00E+07 3 1.00E+06:

1.00E+05 E

g g 1.00E+04[

I :

1.00E+03[

1.00E+02; 1.00E+01

? ( ~

/

1.00E+00l i i r i i i i i i i i i 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 '09:30 10:30- 11:30 12:30 CONTAINMENT HIGH RANGE AREA R-27A a

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

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+07 3 1.00E+06-1.00E+05 E

~

5 m 1.00E+04g ,

E

?

1.00E+03; -

E 1.00E+02; 1.00E+01

e -

[

~

1.00E+00 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30. 09:30 10:30- 11:30 12:30 CONTAINMENT HIGH RANGE AREA R-27B.

m;. .

O O O FARLEY NUCLEAR PLANT 993 ANNUAL DRILL 1.000E-03; ;

1.00E-04 l t

5 .

1.00E ,

l l

= 1.000E /Ri '

m m-

~ __i g ,

h 1.000E-07[ ; h ! !

-> E q 1.000E-083 ,

I I

1.00E-09; . j ;

1 i

I '

1.00E-10s - _,#

g ;h _ ;

1 i 1 1.00E-11 i i ! . ! . i i i i i i i, , i i 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 .12:30 l' PLANT VENT IODINE (SPING-4) R-29B-1

,w

O O O -

4 FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E ~

i .

l l

1.00E-023

=

_ 1.00E-03s i 2 E o :

3 -1.00E-04 g

~

1.00E-05-_J ____ -

i l 1.00E-06 i i , i i i , , ii i , i i i i 07:00 08:00 09:00 10:00- 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 1 PLANT VENT NOBLE GAS (SPING-4)R-29B-NG

O O O FARLEY NUCLEAR PLANT ,

1993 ANNUAL DRILL 1.00E+06-1.00E+05 3 E

=* 1.00E+04 3 2 E O

1.00E+03- .

1.00E + 02-

1 1.00E+01 PIMP?PYPiWD?@^P 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 CONTROL ROOM VENTS R-35A

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

O o O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 g 1.00E+05 g

- 1.00E+04 3 8 2 E

~

l b 1.00E+03-1.00E+02;

-mmwwmmmmmwww 1.00E+01 . . . . . . . . . . . .

07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30 10:30 11:30 12:30 CONTROL ROOM VENTS R-35B

'u

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+06 g 1.00E +051 5

1.00E+04 S 2

c. 1.00E+03$

0 5 1.00E+02 1.00E+01 1.00E+00 . . . . . . . . . . . .

07:00 -08:00 09:00 10:00 11:00 12:00 13:00

.07:30 08:30 09:30 10:30 11:30 12:30 GROSS FAILED FUEL DETECTOR R-50

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

O O O FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+03 3 1.00E+02 3 5

g 1.00E+ 01 -

2 :

05 1.00E+00-1.00E-01 3 1.00E-02 PTT""~^T^~*^TTTTTT 07:00 08:00 09:00 10:00 11:00 12:00 13:00 07:30 08:30 09:30' 10:30 11:30 12:30 S/G ATMOSPHERIC RELIEF MONITOR R-60A 7

- _ _ _ _ _ - _ mu__1.___m_ _________m__m_ _mm_T -.___ _m -- _ T _ a a er m-

O O O f

FARLEY NUCLEAR PLANT '

1993 ANNUAL DRILL 1.00E + 03-E 1.00E+ 02 3

=

1.00E+01

(' E 2 5

e -

O -

l 1.00E+00 3 .

1

=

1.00E =

-. ::. .~ .-

I 1.00E-02 . . . . . . . . . . . .

07:00 08:00 '09:00 10:00 11:00 12:00- 13:00 07:30 08:30 09:30 10:30 11:30 '12:30 S/G ATMOSPHERIC RELIEF MONITOR R-60B -

l

u. - . . . ._- . . _ _ _ - _ - - . _ _ _ - - _ - - _ .

O O O s

FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL ,

1.00E+03 3

i. :

r 1.00E + 02- -

g 1.00E+ 01 -

2 :

O_ -

0 -

1.00E+00 3 -

=

1.00E -

- t

? ~ ;~ ^ ; "

1.00E-02 7 ~7 TF. > > .

.07:00 08:00 09:00 10:00 11:00- 12:00 13:00 r 07:30 08:30-- 09:30 10:30- 11:30 12:30 S/G ATMOSPHERIC RELIEF MONITOR R-60C .

1 1

_ _ . _ _ _ _ _ _ . _ _ _ _ _ - - e .. c. .r

O O O ,

FARLEY NUCLEAR PLANT 1993 ANNUAL DRILL 1.00E+03-1.00E+02 3 i E

~

g 1.00E+ 01 3 2 ? .

1 O -

1.00E+00-1.00E :

O: b8:0 b9: S0:0 11:0 1h:0 k3:00 07:30 08:30 09:30 10:30 11:30 12:30 TDAFW STEAM EXHAUST R-60D 3,

t

(D V

IN-PLANT AREA DOSE RATES PR99 In-Plant Dose Rate Figures (R/hr) 167 CTMT Personnel Hatch Is '

RCS or Related Piping

( 139' Penetration Room 121' Penetration Room 100' Penetration Room 77/83' Penetration Room RCS Sample Drill Monitor Thumb Rules 189 Aux Bldg Hallway (By time of PASS Sample) 193 Airborne Sample Analysis (uC/ml)

Hallway Dose Rates (R/hr)

Radiation Monitors O .;N) 166

1 l

IN-PLANT DOSE RATE FIGURES O

O 167

Time: 08:00:00 In-Plant Dose Rates c

(.

Personnel Access Hatch OW CW l OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level-oW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.102 0.082 Penetration Room-3' O.026 0.006 6' O.024 0.004 OW CW OC 0.030 0.030 3' O.002 0.002 Penetration Room 100' Level 6' O.001 0.001 OW CW OC 0.085 0.065 3' O.025 0.005 f}

V 6' O.024 0.004 Penetration Room 77/83' Level OW CW OC 0.076 0.056 3' O.025 0.005 6' O.024 0.004 LEGEND OC - On Contact OW CW O'N - Open Window OC 0.104 0.006 All dose rates CW - Closed Window 3' O.000 0.000 are in:

6' O.000 0.000 3' - Three Feet From Source rem / hr 6' - Six Feet From Source

(]G

( RCS Sample Time: 08 00:00 168 g

- - " 8:25:

In-Plant Dose Rates O Personnel Access Hatch OW CW OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.100 0.080 Penetration Room 3' O.026 0.006 6' O.024 0.004 OW CW OC 0.030 0.030 3' O.002 0.002 Penetration Room 100' Level 6' O.001 0.001 OW CW '

OC 0.083 0.063 3' O.025 0.005

\ 6' O.024 0.004 Penetration Room 77/83' Level oW CW OC 0.072 0.052 3' O.025 0.005 6' O.023 0.003 LEGEND OC - On Contact OW CW OW - Open Window OC 0.104 0.006 All dose rates CW - Closed Window 3' O.000 0.000 are in:

3' - Three Feet From Source rem / hr

( 6' - Six Feet From Source RCS Sample ]

169 Time: 08:15:00 g

""*' 8 in-Plant Dose Rates

. Personnel Access Hatch OW CW OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.099 0.079 Penetration Room 3' O.026 0.006 6' O.024 0.C04 OW CW OC 0.030 0.030 3' O.002 0.002 Penetration Room 100' Level 6' O.001 0.001 OW CW OC 0.083 0.063

, 3' O.025 0.005 u 6' O.024 0.004 Penetration Room 77/83' Level OW CW OC 0.070 0.050 3' O.025 0.005 6' O.023 0.003 l

l LEGEND l

OC - On Contact OW CW OW - Open Window OC 0.104 0.006 All dose rates CW - Closed Window 3' O.000 0.000 are in:

6' O.000 0.000 1 3' - Three Feet From Source rem / hr !

6' - Six Feet From Source RCS Sample me: 08:30:00 170 &

'i"*: 8:45:

in-Plant Dose Rates Personnel Access Hatch OW CW OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.097 0.077 Penetration Room 3' O.026 0.006 6' O.024 0.004 OW CW OC 0.030 0.030 3' O.002 0.002 Penetration Room 100' Level 6' O.001 0.001 OW CW f.

OC 0.083 0.063

' 3' O.025 0.005 6' O.024 0.004 Penetration Room 77fd3' Level OW CW OC 0.069 0.049 3' O.025 0.005 6' O.023 0.003 LEGENE OC - On Contact OW CW OW - Open Window OC 0.104 0.006 All dose rates CW - Closed Window 3, o,000 o,000 are in:

' ~

3' - Three Feet From Source rem / hr 6' - Six Feet From Source RCS Sample 171

^i i Time: 08:45:00

Ti"* S: :oo In-Plant Dose Rates

'O b Personnel Access Hatch OW CW OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside 0.076 Penetration Room OC 0.096 3' O.026 0.006 6' O.024 0.004 OW CW OC 0.030 0.030 3' O.002 0.002 Penetration Room 100' Level s' O.001 0.001 OW CW OC 0.082 0.062 3' O.025 0.005 O% 6' O.024 0.004 Penetration Room 77/83' Level OW CW OC 0.068 0.048 3' O.025 0.005 6' O.023 0.003 LEGEND OC - On Contact OW CW OW - Open Window OC 0.104 0.006 All dose, rates CW - Closed Window 3' O.000 0.000 are in:

6' O.000 0.00 3' - Three Feet From Source rem / hr 6' - Six Feet From Source s

RCS Sample Time: 09:00:00 172 (

'I"*' *"

In-Plant Dose Rates Personnel Access Hatch OW CW OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.096 0.076 Penetration Room 3' O.026 0.006 6' O.024 0.004 OW CW OC 0.030 0.030 3' O.002 0.002 Penetration Room 100' Level 6' O.001 0.001 OW CW OC 0.083 0.063 I 3' O.025 0.005 6' O.024 0.004 Penetration Room 77/83' Level OW CW OC 0.067 0.047 3' O.024 0.004 6' O.023 0.003 LEGEND OC - On Contact OW CW OW - Open Window OC 0.104 0.006 All dose rates CW - Closed Window 3' O.000 0.000 are im 6' O.000 0.000 3' - Three Feet From Source rem / hr I 6' - Six Feet From Source RCS Sample 31

173 Time: 09:15:00

Ti"* "3 :

In-Plant Dose Rates t0 V

Personnel Access Hatch OW CW OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside Penetration Room OC 0.095 0.075 3' O.026 0.006 6' O.024 0.004 OW CW OC 0.030 0.030 3' O.002 0.002 Penetration Room 100' Level 6' O.001 0.001 OW CW OC 0.083 0.063

( 3' O.025 0.005 6' O.024 0.004 Penetration Room 77/83' Level OW CW OC 0.066 0.046 3' O.024 0.004 6' O.023 0.003 LEGEND OC - On Contact OW CW OW - Open Window OC 0.104 0.006 All dose rates CW - Closed Window 3' O.000 0.000 are in:

6' O.000 0.000 3' - Three Feet From Source rem / hr 6' - Six Feet Frorr, Source RCS Sample

Time: 09:30:00 174

In-Plant Dose Rates O Personnel Access Hatch OW CW OC 0.004 0.004 3' O.002 0.002 6' O.001 0.001 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.093 0.073 Penetration Room 3' O.026 0.006 6' O.024 0.004 OW CW OC 0.029 0.029 3' O.002 0.002 Penetration Room 100' Level 6' O.001 0.001 OW CW OC 0.082 0.062

-b V

3' O.025 0.005 6' O.024 0.004 Penetratien Room 77/83' Level OW CW OC 0.066 0.046 3' O.024 0.004 6' O.023 0.003 l LEGEND OC - On Contact OW CW OW - Open Window OC 0.101 0.006 All dose, rates CW - Closed Window 3' O 000 0.000 are in:

6' O.000 0.000 3' - Three Feet From Source rem / hr 6 - Six Feet From Source RCS Sample 175 g 1 Time: 09:45:00

- "**

l in-Plant Dose Rates l Personnel Access Hatch OW CW ,

OC 0.399 0 399 I 3' O.200 0.200 6' O.100 0.100 Penetration Room 139' Level OW CW

~

AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside !

OC 0.107 0.092 Penetration Room 3' O.041 0.013 6' O.040 0.009 OW CW OC 0.039 0.013 3' O.007 0.003 Penetration Room 100' Level 6' O.002 0.002 OW CW p Of 3

0.102 0.088

() 6, 0.036 0.035 0.010 0.008 Penetration Room 77/83' Level OW CW OC 0.341 0.321 3' O.040 0.020 6' O.031 0.011 e.

.y LEGEND OC - On Contact OW CW OW - Open Window OC 697.932 41.055 All dose rates CW - Closed Window 3' 1.521 0.127 are in:

6' O.253 0.032 3' - Three Feet From Source rem / hr O

() 6' - Su Feet From Source RCS Sample 176

't" Time: 10:00:00

%,,s

Time: 10:15:00 In-Plant Dose Rates n

A)

Personnel Access Hatch OW CW OC 0.917 0.917 3' O.459 0.459 6' O.229 0.229 Penetration Room 139' Level OW CW

~

AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.127 0.112 Penetration Room 3' O.061 0.033 6' O.060 0.029 OW CW OC 0.059 0.023 3' O.027 0.013 Penetration Room 100' Level 6' O.022 0.007 OW CW OC 0.122 0.098 3' O.056 0.021 6' O.055 0.019 Peretration Room 77/83' Level OW CW OC 0.344 0.324 3' O.040 0.020 6' O.031 0.011 LEGEND OC - On Contact ~

OW CW OW - Open Window OC 873.957 51.409 All dose rates CW - Closed Window 3' 1.904 0.159 are in:

' ~

rem / hr 3' - Three Feet From Source 6' - Su Feet From Source l

RCS Sample 177 t' Time: 10:15:00 i

Time: 10:30:00 In-Plant Dose Rates

.Q -

b Personnel Access Hatch OW CW OC 1.167 1.167 3' O.584 0.584 6' O.292 0.292 Penetration Room 139' Level OW CW AREA 0.022 0.002 Penetration Room 121' Level OW CW RCS Piping Outside OC 0.147 0.114 Penetration Room 3' O.081 0.045 6' O.080 0.041 OW CW OC 0.079 0.033 3' O.047 0.019 ,

Penetration Room 100' Level 6' O.042 0.013 OW CW OC 0.142 0.098

' 3' O.076 0.031 6 0.075 0.029 Penetration Room 77/83' Level OW CW OC 0.379 0.359 3' O.042 0.022 6' O.032 0.012 LEGEND OC - On Contact ~

OW CW OW - Open Window OC 714.211 42.012 All dose rates ,

CW - Closed Window 3' 1.556 0.130 are in:

6' O.259 0.032 3' - Three Feet From Scurce rem / hr 6' - Sa Feet Frem Scurce RCS Sample (l-

\

178 Time: 10:30:00 l i

Time: 10:45:00 In-Plant Dose Rates

[

V} -

Personnel Access Hatch OW CW OC 1.329 1.329 3' O.665 0.665 6' O.332 0.332 Penetration Room 139' Level OW CW AREA 372.073 33.825 Penetration Room 121' Level OW CW RCS Piping Outside OC 445.428 107.180 Penetration Room 3' 376.148 37.900 6' 374.111 35.862 OW CW OC 73.287 73.287 3' 4.071 4.071 Penetration Room 100' Level 6' 2.036 2.036 OW CW OC 445.650 107.401

(- 3' 6'

376.161 374.117 37.912 35.869 Penetration Room 77/83' Level OW CW OC 372.413 34.165 3' 372.092 33.844 6' 372.083 33.834 LEGEND OC - On Contact '

OW CW OW - Open Window OC 175.269 10.310 All dose rates CW - Closed Window 3' O.382 0.032 are in:

6' O.064 0.008 3' - Three Feet From Source rem / hr 6' - Six Feet From Source RCS Sample 179 --

Time: 10:45:00

Time: 11:00:00 In-Plant Dose Rates

- g-O Personnel Access Hatch OW CW OC 1.443 1.443 3' O.722 0.722 6' O.361 0.361 Penetration Room 139' Level OW CW AREA 404.943 36.813 Penetration Room 121' Level OW CW RCS Piping Outside OC 473.115 104.985 Penetration Room 3' 408.730 40.600 6' 406.836 38.707 OW CW OC 67.697 67.697 3' 3.761 3.761 Penetration Room 100' Level 6' 1.880 1.880 OW CW OC 472.923 104.793 f; 3' 408.719 40.590 V' 6' 406.831 38.701 Penetration Room 77/83' Level OW CW OC 405.685 37.556 3' 404.984 36.854 6' 404.963 36.834 LEGEND OC - On Contact OW CW OW - Open Window OC 153.796 9.047 All dose rates CW - Closed Window 3' O.335 0.028 are in:

6' O.056 0.007 3' - Three Feet From Source rem / hr 6' - Sw Feet From Source RCS Sample me: :00:00 180 l

l Time: 11:15:00 In-Plant Dose Rates Personnel Access Hatch OW CW OC 1.518 1.518 3' O.759 0.759 6' O.380 0.380 Penetration Roorn 139' Level OW CW AREA 428.017 38.911 Penetration Room 121' Level OW CW RCS Piping Outside OC 456.337 67.231 Penetration Room l 3' 429.590 40.484 6' 428.804 39.697 OW CW OC 3.670 3.670 3' O.204 0.204 Penetration Room 100' Level 6' O.102 0.102 OW CW OC 433.774 44.668 >

3' 428.337 39.230 j

\ 6' 428.177 39.071 Penetration Room 77/83' Level l OW CW ]

OC 454.739 65.633 j 3' 429.501 40.395 1 6' 428.759 39.653 LEGEND OC - On Contact OW CW OW - Open Window OC 7.991 0.470 All dose rates CW - Closed Window 3' O.017 0.001 are in:

6' O.003 0.000

3' - Three Feet From Source rem / hr 6' - Six Feet From Source RCS Sample igy .(.

Time: 11:15:00

Time: 11:30:00 In-Plant Dose Rates n

.lj Personnel Access Hatch OW CW OC 1.562 1.562 3' O.781 0.781 6' O.390 0.390 Penetration Room 139' Level OW CW AREA 442.285 40.208 Penetration Room 121' Level OW CW RCS Piping Outside OC 474.644 72.567 Penetration Room 3' 444.083 42.005 6' 443.184 41.107 OW CW OC 4.451 4.451 3' O.247 0.247 Penetration Room 100' Level 6' O.124 0.124 OW CW OC 448.852 46.775

(

3' 6'

442.650 442.467 40.573 40.390 Penetration Room 77/83' Level OW CW OC 472.295 70.217 3' 443.952 41.875 6' 443.118 41.041 l

LEGEND -

OC - On Contact OW CW

~

OC 9.270 0.545 All dose rates CN - Closed Window 3' O.020 0.002 are in:

6' O.003 0.000 3' - Three Feet From Source rem / hr J 6' - Six Feet From Source RCS Sample 182 s( Time: 11:30:00

""* ' * " 5 :

in-Plant Dose Rates O F'ersonnel Access Hatch -

OW CW OC 1.579 1.579 :

3' O.790 0.790 6' O.395 0.395 Penetration Room 139' Level OW CW AREA 449.247 40.841 Penetration Room 121' Level OW CW RCS Piping Outside OC 485.061 76.654 Penetration Room 3' 451.237 42.830 6' 450.242 41.835 OW CW OC 5.408 5.408 3' O.300 0.300 Penetration Room 100' Level 6' O.150 0.150 OW CW OC 459.491 51.084 0- 3' 6'

449.817 449.532 41.410 41.125 Penetration Roorn 77/83' Level OW CW OC 484.474 76.067 3' 451.205 42.798 6' 450.226 41.819

'_EG END OC - On Contact ~

OW CW OW - Open Window OC 10.796 0.635 All dose rates CW - Closed Window 3' O.024 0.002 are in:

6' O.004 0.000 3' - Three Feet From Source rem / hr 6' - Six Feet From Source RCS Sample 183 O Time: 11:45:00

Time: 12:00:00 In-Plant Dose Rates O

L/

Personnel Access Hatch OW CW OC 1.608 1.608 3' O.804 0.804 6' O.402 0.402 Penetration Room 139' Level OW CW AREA 459.805 41.800 Penetration Room 121' Level OW CW RCS Piping Outside OC 516.894 98.890 Penetration Room 3' 462.977 44.972 6' 461.391 43.386 OW CW OC 30.568 30.568 3' 1.698 1.698 Penetration Room 100' Level 6' O.849 0.849 OW CW OC 499.895 81.990 f

3' 6'

462.032 460.919 44.028 42.914 Penetration Room 77/83' Level OW CW '

OC 495.834 77.830 3' 461.807 <3.802 6' 460.806 42.801 l

LEGEND OC - On Contact ~

OW CW l

OW - Open Window 1 OC 57.011 3.354 All dose rates !

CW - Closed Window 3' O.124 0.010 are in:

6' O.021 0.003

)

j 3' - Three Feet From Source rem / hr l 6' - Sm Feel Frcrn Source RCS Sample 184 i- Time: 12:00:00

Time: 12:15:00 In-Plant Dose Rates Personnel Access Hatch OW CW OC 1.618 1.618 3' O.809 0.809 6' O.405 0.405 Penetration Room 139' Level OW CW AREA 464.959 42.269 Penetration Room 121' Level OW CW RCS Pioing Outside OC 502.132 79.442 Penet.ation Room 3' 467.024 44.334 6' 465.991 43.302 OW CW OC 13.758 13.758 3' O.764 0.764 Penetration Room 100' Level 6' O.382 0.382 OW CW OC 491.912 69.223 O 3' 6'

466.456 465.707 43.766 43.018 Penetration Room 77/83' Level OW CW OC 501.558 78.868 3' 466.992 44.302 6' 465.975 43.286 LEGEND OC - On Contact gg g OW - Open V/ indow OC 24.821 1.460 All dose rates CW - Closed Window 3' O.054 0.005 are in:

3' - Three Feet From Source rem / hr 6' - Six Feet From Source RCS Sample 185 [' Time: 12:15:00

nme: 2:30:00 in-Plant Dose Rates D

(v. Personnel Access Hatch OW CW OC 1.625 1.625 3' O.812 0.812 6' 0,. 4 0 6 0.406 Penetration Room 139' Level oW CW AREA 468.751 42.614 Penetration Room 121' Level OW CW RCS Piping Outside OC 504.109 77.9, Penetration Room 3' 470.715 44.57u 6' 469.733 43.596 OW CW OC 15.303 15.303 3' O.850 0.850 Penetration Room 100' Level 6' O.425 0.425 OW CW OC 500.246 74.109 O 3' 6'

470.501 469.626 44.363 43.489 Penetration Room 77/83' Level OW CW OC 504.986 78.849 3' 470.764 44.627 6' 469.758 43.620 LEGEND OC - On Contact ~

OW CW OW Open Window OC 26.537 1.561 All dose rates CW - Closed Window 3' O.058 0.005 are in:

6' O.010 0.001 3' - Three Feet From Source rem / hr 6* - Su Feet From Source

.RCS Sample 186 i C' Time: 12:30:00

Time: 12:45:00 In-Plant Dose Rates t

(s/

Personnel Access Hatch OW CW OC 1.629 1.629 3' O.815 0.815 6' O.407 0.407 Penetration Room 139' Level OW CW AREA 471.872 42.897 Penetration Room 121' Level OW CW RCS Piping Outside OC 505.392 76.418 Penetration Room 3' 473.734 44.760 6' 472.803 43.829 OW CW OC 15.621 15.621 3' O.868 0.868 Penetration Room 100' Level 6' o.434 0.434 OW CW OC 506.161 77.186 3' 473.777 44.802 *

[s 6' 472.824 43.850 Penetration Room 77/83' Level OW CW OC 508.426 79.452 3' 473.903 44.928 6' 472.887 43.913 LEGEND -

OC - On Contact ~

OW CW OW - Open Window OC 26.252 1.544 All dose rates CW - Closed Window 3' 0.057 0.005 are in:

6' O.010 0.001 3' - Three Feet From Source ' rem / hr r ) 6' - Six Feet From Source

%)

RCS Sample

[ Time: 12:45:00

"" * : 2 in-Plant Dose Rates

-r%

)

Personnel Access Hatch OW CW OC 1.629 1.629 3' O.814 0.814 6' O.407 0.407 Penetration Room 139' Level OW CW AREA 473.207 43.019 Penetration Room 121' Level OW CW RCS Piping Outside OC 502.890 72.702 Penetration Roorn 3' 474.856 44.668 6' 474.031 43.843 OW CW OC 13.497 13.497 3' O.750 0.750 Penetration Room 100' Level 6' O.375 0.375 OW CW OC 507.079 76.891 f

s 3'

6' 475.089 474.148 44.901 43.960 l

Penetration Roo,m 77/83' Level OW CW OC 509.757 79.569 3' 475.238 45.049 6' 474.222 44.034 LEGEND OC - On Contact ~

OW CW OW - Open Window OC 22.241 1.308 All dose rates CW - Closed Window 3' O.048 0.004 are in:

6' O.008 0.001 3' - Three Feet From Source rem / hr 6' . Sm Feet From Source RCS Sample 188 ,[c Time: 13:00:00

.se._ _m.A-k l d at d 4. ~--- h4g O

DRILL MONITOR THUMB RULES .

O l

b O .

189 i

1 y

.(_/

DRILL MONITOR THUMB RULES

1. Volume of air sample in liters:

CPM:

Air activity (uci/ml)

2.2 E8

Vol. of sample (1) - Frisker cpm mR/hr:

Air activity (uci/ml)

4.4 E4

Vol, of sample (1) - mR/hr

2. Volume of air sample in f t3 :

CPM:

Air activity (uci/ml)

6.2 E9

Vol. of sample (ft )3 - Frisker cpm .

CPM for 15 ft3 :

Air activity (uci/ml)

9.3 E10 - Frisker cpm mR/hr:

Air activity (uci/ml)

1.2 E6

Vol. of sample (ft 3) - mR/hr 3

mR/hr for 15 ft :

Air activity (uci/ml)

1.9 E7 - mR/hr

3. Converting cpm to mR/hr:

5,000 cpm -- 1 mR/hr G

LJ v

190 ,

gg_, _, A ,4 sa r--aA -- n 4 4 O

AUXILIARY BUILDING FOLLOWING '

PASS SAMPLE O

O it\

191

Auxiliary Building. Hallway 11:00:00 Sample Time + 15 minutes

() Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 5.44e-10 5.43e-09 1.96e-09 7.64e-10 6.71e-10 1.01e-09 uc/ml Kr-85m 1.89e-08 1.89e-07 6.80e-08 2.65e-08 2.33e-08 3.51e-08 uc/ml Kr-87 4.06e-08 4.05e-07 1.46e-07 5.70e-08 5.01e-08 7.55e-08 uc/ml Kr-88 4.74e-08 4.73e-07 1.70e-07 6.65e-08 5.85e-08 8.81e-08 uc/ml Xe-131m 9.67e-10 9.66e-09 3.48e-09 1.36e-09 1.19e-09 1.80e-09 uc/ml Xe-133 3.07e-07 3.06e-06 1.10e-06 4.31e-07 3.79e-07 5.71e-07 uc/ml Xe-133m 1.07e-08 1.07e-07 3.84e-08 1.50e-08 1.32e-08 1.99e-08 uc/ml Xe-135 7.16e-08 7.15e-07 2.58e-07 1.01e-07 8.84e-08 1.33e-07 uc/ml Xe-135m 2.15e-09 2.14e-08 7.72e-09 3.01e-09 2.65e-09 3.99e-09 uc/ml Xe-138 5.63e-09 5.63e-08 2.03e-08 7.91e-09 6.96e-09 1.05e-08 uc/ml 1-131 1.28e-08 1.28e-07 4.59e-08 1.79e-08 1.58e-08 2.38e-08 uc/ml I-132 1.20e-08 1.20e-07 4.34e-08 1.69e-08 1.49e-08 2.24e-08 uc/ml I-133 2.45e-08 2.45e-07 8.82e-08 3.44e-08 3.03e-08 4.56e-08.uc/ml I-134 9.79e-09 9.78e-08 3.52e-08 1.38e-08 1.21e-08 1.82e-08 uc/ml I-135 1.96e-08 1.96e-07 7.07e-08 2.76e-08 2.42e-08 3.65e-08 uc/ml Rb-88 2.15e-08 2.15e-07 7.73e-08 3.02e-08 2.65e-08 4.00e-08 uc/ml Cs-138 2.25e-09 2.24e-08 8.09e-09 3.16e-09 2.78e-09 4.18e-09 uc/ml N-G 5.05e-07 5.05e-06 1.82e-06 7.10e-07 6.24e-07 9.40e-07 uc/ml Iodines 7.87e-08 7.87e-07 2.83e-07 1.11e-07 9.72e-08 1.47e-07 uc/ml Part 2.37e-08 2.37e-07 8.54e-08 3.34e-08 2.93e-08 4.41e-08 uc/ml Hallway Dose Rates LEVEL 155' 139 130 121' 100' 77' Units CW 0.006 0.058 0.021 0.008 0.007 0.011 r/hr OW 0.064 0.642 0.231 0.090 0.079 0.120 r/hr 1

l Auxiliary Building Radiation Monitors )

MONITOR R-33 R-32 R-31 R-30 Units i

1.61e+03 1.61e+04 2.27e+03 1.99e+03 cpm l

-l 11:00:00 sample time + 15 minutes ]

192 I

Auxiliary Building Hallway 11:00:00 Sample Time + 30 minutes

( Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 5.37e-10 1.06e-09 7.42e-10 6.39e-10 5.73e-10 4.35e-10 uc/ml Kr-85m 1.79e-08 3.54e-08 2.4Be-08 2.14e-08 1.91e-08 1.45e-08 uc/ml Kr-87 3.50e-08 6.91e-08 4.83e-08 4.16e-08 3.73e-08 2.83e-08 uc/ml.

Kr-88 4.40e-08 8.69e-08 6.08e-08 5.24e-08 4.69e-08 3.57e-08 uc/ml Xe-131m 9.55e-10 1.89e-09 1.32e-09 1.14e-09.1.02e-09 7.74e-10 uc/ml Xe-133 3.03e-07 5.98e-07 4.18e-07 3.60e-07 3.23e-07 2.45e-07 uc/ml Xe-133m 1.05e-08 2.07e-08 1.45e-08 1.25e-08 1.12e-08 8.51e-09 uc/ml Xe-135 6.98e-08 1.38e-07 9.64e-08 8.31e-08 7.44e-08 5.66e-08 uc/ml Xe-135m 1.08e-09 2.13e-09 1.49e-09 1.28e-09 1.15e-09 8.73e-10 uc/ml Xe-138 2.67e-09 5.26e-09 3.68e-09 3.17e-09 2.84e-09 2.16e-09 uc/ml I-131 1.26e-08 2.49e-08 1.74e-08 1.50e-08 1.34e-08 1.02e-08 uc/ml I-132 1.10e-08 2.18e-08 1.52e-08 1.31e-08 1.18e-08 8.95e-09 uc/ml I-133 2.40e-08 4.74e-08 3.32e-08 2.86e-08 2.56e-08 1.95e-08 uc/ml I-134 7.94e-09 1.57e-08 1.10e-08 9.45e-09 8.46e-09 6.43e-09 uc/ml 1.89e-08 3.73e-08 2.61e-08 2.25e-08 2.01e-08 1.53e-08 uc/ml

~

1-135 Rb-88 3.18e-08 6.28e-08 4.39e-08 3.79e-08 3.39e-08 2.58e-08 uc/ml Cs-136 2.67e-09 5.27e-09 3.69e-09 3.18e-09 2.85e-09 2.17e-09 uc/ml

\

N-G 4.85e-07 9.58e-07 6.70e-07 5.77e-07 5.17e-07 3~.93e-07 uc/ml Iodines 7.45e-08 1.47e-07 1.03e-07 8.86e-08 7.94e-08 6.04e-08 uc/ml Part 3.45e-08 6.81e-08 4.76e-08 4.10e-08 3.68e-08 2.79e-08 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100 77 Units CW 0.006 0.011 0.008 0.007 0.006 0.005 r/hr OW 0.062 0.122 0.085 0.073 0.066 0.050 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units

"% 2.14e+03 4.22e+03 2.54e+03 2.28e+03 cpm 11:00:00 sample time + 30 minutes

\

193

I I

Auxiliary Building Hallhay 11:00:00 Sample Time + 45 minutes

( Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units l

______________'_________'_________'_________'_________'___ l Kr-85 4.34e-10 3.26e-10 2.87e-10 4.21e-10 3.98e-10 2.20e-10 uc/ml Kr-85m 1.40e-08 1.05e-08 9.22e-09 1.36e-08 1.28e-08 7.08e-09 uc/ml Kr-87 2.47e-08 1.85e-08 1.63e-08 2.40e-08 2.26e-08 1.25e-08 uc/ml Kr-88 3.35e-08 2.52e-08 2. 21e -08 3. 25e-08 3. 07e-08 1.70e-08 uc/ml Xe-131m 7.72e-10 5.80e-10 5.10e-10 7.49e-10 7.08e-10 3.91e-10 uc/ml Xe-133 2.44e-07 1.84e-07 1.61e-07 2.37e-07 2.24e-07 1.24e-07 uc/ml Xe-133m 8.47e-09 6.36e-09 5.59e-09 8.22e-09 7.77e-09 4.29e-09 uc/ml Xe-135 5.57e-08 4.18e-08 3.68e-08 5.40e-08 5.11e-08 2.82e-08 uc/ml Xe-135m 4.43e-10 3.33e-10 2.93e-10 4.30e-10 4.06e-10 2.24e-10 uc/ml Xe-138 1.03e-09 7.76e-10 6.82e-10 1.00e-09 9.48e-10 5.24e-10 uc/ml I-131 1.02e-08 7.65e-09 6.72e-09 9.88e-09 9.34e-09 5.16e-09 uc/ml I-132 8.28e-09 6.22e-09 5.47e-09 8.04e-09 7.59e-09 4.19e-09 uc/ml I-133 1.93e-08 1.45e-08 1.27e-08 1.87e-08 1.77e-08 9.76e-09 uc/ml I-134 5.27e-09 3.96e-09 3.48e-09 5.11e-09 4.83e-09 2.67e-09 uc/ml I-135 1.49e-08 1.12e-08 9.83e-09 1.44e-08 1.37e-08 7.54e-09 uc/ml Rb-88 2.95e-08 2.22e-08 1.95e-08 2.87e-08 2.71e-08 1.50e-08 uc/ml Cs-138 1.98e-09 1.49e-09 1.31e-09 1.92e-09 1.81e-09 1.00e-09 uc/ml N-G 3.83e-07 2.88e-07 2.53e-07 3.72e-07 3.52e-07 1.94e-07 uc/ml Iodines 5.79e-08 4.35e-08 3.82e-08 5.62e-08 5.31e-08 2.93e-08 uc/ml Part 3.15e-08 2.37e-08 2.08e-08 3.06e-08 2.89e-08 1.60e-08 uc/ml Hallway Dose Rates LEVEL 155' 139 130 121 100 77 Units CW 0.004 0.003 0.003 0.004 0.004 0.002 r/hr OW 0.049 0.036 0.032 0.047 0.045 0.025 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.90e+03 1.43e+03 1.85e+03 1.75e+03 cpm M

11:00:00 sample time + 45 minutes 194 g O

Auxiliary Building Hallway 11:00:00 Sample Time + 60 minutes I Airborne sample Analysis

(_/ _______________________ ___________________________________________

ISOTOPE 155 139' 130' 121' 100' 77' Units Kr-85 3.33e-10 1.62e-10 1.43e-10 2.65e-10 2.65e-10 1.33e-10 uc/ml Kr-85m 1.03e-08 5.02e-09 4.42e-09 8.20e-09 8.18e-09 4.10e-09 uc/ml Kr-87 1.65e-08 8.04e-09 7.08e-09 1.31e-08 1.31e-08 6.58e-09 uc/ml Kr-88 2.41e-08 1.18e-08 1.04e-08 1.92e-08 1.92e-08 9.62e-09 uc/ml Xe-131m 5.91e-10 2.88e-10 2.53e-10 4.71e-10 4.70e-10 2.35e-10 uc/ml Xe-133 1.87e-07 9.12e-08 8.02e-08 1.49e-07 1.49e-07 7.46e-08 uc/ml Xe-133m 6.46e-09 3.15e-09 2.77e-09 5.15e-09 5.14e-09 2.58e-09 uc/ml Xe-135 4.21e-08 2.05e-08 1.80e-08 3.35e-08 3.35e-08 1.68e-08 uc/ml Xe-135m 1.72e-10 8.41e-11 7.400-11 1.37e-10 1.37e-10 6.88e-11 uc/ml Xe-138 3.79e-10 1.85e-10 1.63e-10 3.02e-10 3.02e-10 1.51e-10 uc/ml I-131 7.79e-09 3.80e-09 3.34e-09 6.21e-09 6.20e-09 3.11e-09 uc/ml I-132 5.88e-09 2.87e-09 2.52e-09 4.69e-09 4.68e-09 2.34e-09 uc/ml I-133 1.46e-08 7.13e-09 6.28e-09 1.17e-08 1.16e-08 5.83e-09 uc/ml I-134 3.31e-09 1.61e-09 1.42e-09 2.64e-09 2.63e-09 1.32e-09 uc/ml I-135 1.11e-08 5.41e-09 4.76e-09 8.85e-09 8.83e-09 4.43e-09 uc/ml Rb-88 2.36e-08 1.15e-08 1.01e-08 1.88e-08 1.87e-08 9.40e-09 uc/ml Cs-138 1.25e-09 6.09e-10 5.36e-10 9.94e-10 9.93e-10 4.98e-10 uc/ml

)'

N-G 2.88e-07 1.40e-07 1.24e-07 2.29e-07 2.29e-07 1.15e-07 uc/ml Iodines 4.27e-08 2.08e-08 1.83e-08 3.40e-08 3.40e-08 1.70e-08 uc/ml Part 2.48e-08 1.210-08 1.06e-08 1.98e-08 1.97e-08 9.89e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100 77 Units i CW 0.003 0.002 0.001 0.003 0.003 0.001 r/hr OW 0.036 0.018 0.016 0.029 0.029 0.014 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units l

rN 1.48e+03 7.23e*02 1.18e+03 1.18e+03 cpm

___________________________________________________________________ l 1

l l

11:00:00 sample time + 60 minutes l 195 l

Auxiliary Building Hallway 11:00:00 Sample Time + 75 minutes

() Airborne Sample Analysis ISOTOPE 155' 139' 130' 121 100 77 Units Kr-85 2.49e-10 1.03e-10 8.65e-11 1.67e-10 1.74e-10 8.66e-11 uc/ml Kr-85m 7.43e-09 3.06e-09 2.57e-09 4.97e-09 5.19e-09 2.58e-09 uc/ml Kr-87 1.08e-08 4.45e-09 3.74e-09 7.23e-09 7.54e-09 3.75e-09 uc/mi Kr-88 1.70e-08 7.01e-09 5.90e-09 1.14e-08 1.19e-08 5.91e-09 uc/ml Xe-131m 4.43e-10 1.82e-10 1.54e-10 2.96e-10 3.09e-10 1.54e-10 uc/ml Xe-133 1.40e-07 5.77e-08 4.86e-08 9.38e-08 9.78e-08 4.86e-08 uc/ml Xe-133m 4.83e-09 1.99e-09 1.68e-09 3.23e-09 3.37e-09 1.68e-09 uc/ml Xe-135 3.11e-08 1.28e-08 1.08e-08 2.08e-08 2.17e-08 1.08e-08 uc/ml Xe-135m 6.57e-11 2.71e-11 2.28e-11 4.40e-11 4.59e-11 2.28e-11 uc/ml Xe-138 1.36e-10 5.61e-11 4.73e-11 9.12e-11 9.51e-11 4.73e-11 uc/ml I-131 5.84e-09 2.40e-09 2.02e-09 3.91e-09 4.08e-09 2.03e-09 uc/ml I-132 4.09e-09 1.68e-09 1.42e-09 2.74e-09 2.86e-09 1.42e-09 uc/ml I-133 1.09e-08 4.48e-09 3.77e-09 7.28e-09 7.60e-09 3.77e-09 uc/ml I-134 2.04e-09 8.39e-10 7.07e-10 1.36e-09 1.42e-09 7.07e-10 uc/ml I-135 8.11e-09 3.34e-09 2.81e-09 5.43e-09 5.67e-09 2.82e-09 uc/ml Rb-88 1.76e-08 7.24e-09 6.10e-09 1.18e-08 1.23e-08 6.10e-09 uc/ml Cs-138 7.32e-10 3.02e-10 2.54e-10 4.90e-10 5.11e-10 2.54e-10 uc/ml N-G 2.12e-07 8.74e-08 7.36e-08 1.42e-07 1.48e-07 7.36e-08 uc/ml Iodines 3.10e-08 1.27e-08 1.07e-08 2.07e-08 2.16e-08 1.07e-08 uc/ml Part 1.83e-08 7.54e-09 6.35e-09 1.23e-08 1.28e-08 6.36e-09 uc/ml Hallway Dose Eates LEVEL 155 139 130 121 100 77 Units CW 0.002 0.001 0.001 0.002 0.002 0.001 r/hr OW 0.027 0.011 0.009 0.018 0.019 0.009 r/hr i

i Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units i

___________________________________________________________________ ]

l 1.09e+03 4.50e+02 7.31e+02 7.63e+02 cpm N- ___________________________________________________________________

1 i

1 l

11:00:00 sample time + 75 minutes j 196 , l

Auxiliary Building Hallway 11:00:00 Sample Time + 90 minutes Airborne Sample Analysis ISOTOPE 155 139 130' 121 100 77 Units Kr-85 1.85e-10 7.04e-11 5.73e-11 1.07e-10 1.15e-10 5.83e-11 uc/ml Kr-85m 5.30e-09 2.02e-09 1.64e-09 3.07e-09 3.30e-09 1.67e-09 uc/ml Kr-87 6.98e-09 2.66e-09 2.17e-09 4.04e-09 4.35e-09 2.20e-09 uc/ml Kr-88 1.19e-08 4.52e-09 3.68e-09 6.87e-09 7.40e-09 3.75e-09 uc/ml Xe-131m 3.28e-10 1.25e-10 1.02e-10 1.90e-10 2.04e-10 1.03e-10 uc/ml Xe-133 1.04e-07 3.95e-08 3.22e-08 6.00e-08 6.46e-08 3.27e-08 uc/ml Xe-133m 3.57e-09 1.36e-09 1.11e-Os 2.07e-09 2.22e-09 1.13e-09 uc/ml Xe-135 2.27e-08 8.65e-09 7.05e-09 1.32e-08 1.42e-08 7.17e-09 uc/ml Xe-135m 2.48e-11 9.43e-12 7.69e-12 1.43e-11 1.54e-11 7.82e-12 uc/ml Xe-138 4.84e-11 1.84e-11 1.50e-11 2.80e-11 3.01e-11 1.53e-11 uc/ml I-131 4.32e-09 1.65e-09 1.34e-09 2.50e-09 2.69e-09 1.36e-09 uc/ml I-132 2.81e-09 1.07e-09 8.72e-10 1.63e-09 1.75e-09 8.87e-10 uc/ml I-133 8.00e-09 3.04e-09 2.48e-09 4.63e-09 4.98e-09 2.52e-09 uc/ml I-134 1.24e-09 4.72e-10 3.85e-10 7.18e-10 7.72e-10 3.91e-10 uc/ml I-135 5.86e-09 2.23e-09 1.82e-09 3.39e-09 3.65e-09 1.85e-09 uc/ml Rb-88 1.27e-08 4.82e-09 3.93e-09 7.33e-09 7.88e-09 3.99e-09 uc/ml Cs-138 4.12e-10 1.57e-10 1.28e-10 2.39e-10 2.57e-10 1.30e-10 uc/ml N-G 1.55e-07 5.89e-08 4.80e-08 8.96e-08 9.64e-08 4.88e-08 uc/ml Iodines 2.22e-08 8.46e-09 6.89e-09 1.29e-08 1.38e-08 7.01e-09 uc/ml Part 1.31e-08 4.98e-09 4.05e-09 7.57e-09 8.14e-09 4.12e-09 uc/ml Hallway Dose Rates LEVEL 155' 139 130' 121 100 77 Units CW 0.002 0.001 0.001 0.001 0.001 0.001 r/hr OW 0.019 0.007 0.006 0.011 0.012 0.006 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units g 7.80e+02 2.97e+02 4.51e+02 4.86e+02 cpm 1

11:00:00 sample time + 90 minutes l 197 ... 1 vs ' ,

Auxiliary Building Hallway 11:00:00 Sample Time + 105 minutes Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 1.36e-10 4.94e-11 3.93e-11 6.99e-11 7.67e-11 3.99e-11 uc/ml Kr-85m 3.75e-09 1.36e-09 1.08e-09 1.93e-09 2.11e-09 1.10e-09 uc/ml Kr-87 4.48e-09 1.63e-09 1.30e-09 2.30e-09 2.53e-09 1.32e-09 uc/ml Kr-88 8.22e-09 2.98e-09 2.38e-09 4.22e-09 4.64e-09 2.41e-09 uc/ml Xe-131m 2.41e-10 8.75e-11 6.97e-11 1.24e-10 1.36e-10 7.08e-11 uc/ml Xe-133 7.62e-08 2.77e-08_2.20e-08 3.92e-08 4.30e-08 2.24e-08 uc/ml Xe-133m 2.62e-09 9.50e-10 7.57e-10 1.35e-09 1.48e-09 7.68e-10 uc/ml Xe-135 1.65e-08 5.99e-09 4.77e-09 8.48e-09 9.30e-09 4.84e-09 uc/ml Xe-135m 9.26e-12 3.36e-12 2.68e-12 4.76e-12 5.23e-12 2.72e-12 uc/ml Xe-138 1.70e-11 6.19e-12 4.93e-12 8.77e-12 9.62e-12 5.01e-12 uc/ml I-131 3.18e-09 1.15e-09 9.19e-10 1.63e-09 1.79e-09 9.33e-10 uc/ml I-132 1.92e-09 6.97e-10 5.55e-10 9.86e-10 1.08e-09 5.63e-10 uc/ml I-133 5.83e-09 2.12e-09 1.69e-09 3.00e-09 3.29e-09 1.71e-09 uc/ml I-134 7.49e-10 2.72e-10 2.17e-10 3.85e-10 4.22e-10 2.20e-10 uc/ml I-135 4.20e-09 1.52e-09 1.21e-09 2.16e-09 2.37e-09 1.23e-09 uc/ml Rb-88 8.92e-09 3.24e-09 2.58e-09 4.59e-09 5.03e-09 2.62e-09 uc/ml Cs-138 2.26e-10 8.22e-11 6.55e-11 1.16e-10 1.28e-10 6.65e-11 uc/ml N-G 1.12e-07 4.07e-08 3.24e-08 5.77e-08 6.33e-08 3.29e-08 uc/ml Iodines 1.59e-08 5.76e-09 4.59e-09 8.16e-09 8.96e-09 4.66e-09 uc/ml Part 9.15e-09 3.32e-09 2.65e-09 4.70e-09 5.16e-09 2.69e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130' 121' 100' '77' Units CW 0.001 0.000 0.000 0.001 0.001 0.000 r/hr OW 0.014 0.005 0.004 0.007 0.008 0.004 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 5.48e+02 1.99e+02 2.82e+02 3.09e+02 cpm 11:00:00 sample time + 105 minutes 198

-s

Auxiliary Building Hallway 11:00:00 Sample Time + 120 minutes Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 9.95e-11 3.49e-11 2.74e-11 4.65e-11 5.16e-11 2.76e-11 uc/ml Kr-85m 2.64e-09 9.26e-10 7.26e-10 1.23e-09 1.37e-09 7.32e-10 uc/ml Kr-87 2.86e-09 1.00e-09 7.88e-10 1.34e-09 1.48e-09 7.94e-10 uc/ml Kr-88 5.66e-09 1.99e-09 1.56e-09 2.64e-09 2.93e-09 1.57e-09 uc/ml Xe-131m 1.76e-10 6.19e-11 4.85e-11 8.24e-11 9.14e-11 4.89e-11 uc/ml Xe-133 5.57e-08 1.95e-08 1.53e-08 2.60e-08 2.89e-08 1.54e-08 uc/ml Xe-133m 1.91e-09 6.70e-10 5.25e-10 8.92e-10 9.90e-10 5.29e-10 uc/sl Xe-135 1.19e-08 4.18e-09 3.27e-09 5.56e-09 6.17e-09 3.30e-09 uc/ml Xe-135m 3.44e-12 1.21e-12 9.49e-13 1.61e-12 1.79e-12 9.56e-13 uc/ml Xe-138 5.97e-12 2.10e-12 1.65e-12 2.79e-12 3.10e-12 1.66e-12 uc/ml I-131 2.32e-09 8.16e-10 6.39e-10 1.09e-09 1.20e-09 6.44e-10 uc/ml I-132 1.30e-09 4.57e-10 3.58e-10 6.09e-10 6.75e-10 3.61e-10 uc/ml I-133 4.23e-09 1.49e-09 1.16e-09 1.98e-09 2.19e-09 1.17e-09 uc/ml I-134 4.49e-10 1.58e-10 1.24e-10 2.10e-10 2.33e-10 1.25e-10 uc/ml I-135 2.99e-09 1.05e-09 8.24e-10 1.40e-09 1.55e-09 8.30e-10 uc/ml Rb-88 6.21e-09 2.18e-09 1.71e-09 2.90e-09 3.22e-09 1.72e-09 uc/ml Cs-138 1.22e-10 4.30e-11 3.37e-11 5.72e-11 6.35e-11 3.39e-11 uc/ml N-G 8.09e-08 2.84e-08 2.23e-08 3.78e-08 4.20e-08 2.24e-08 uc/ml Iodines 1.13e-08 3.97e-09 3.11e-09 5.28e-09 5.86e-09 3.13e-09 uc/ml Part 6.33e-09 2.22e-09 1.74e-09 2.96e-09 3.28e-09 1.76e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100 77 Units CW 0.001 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.010 0.004 0.003 0.005 0.005 0.003 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 3.80e+02 1.34e+02 1.78e+02 1.97e+02 cpm

\~ ___________________________________________________________________

11:00:00 sample time + 120 minutes 199 gn4

Auxiliary Building Hallway 11:15:00 Sample Time + 15 minutes

()

Airborne Sample Analysis ISOTOPE 155 139 130' 121' 100' 77 Units Kr-85 3.64e-11 3.64e-10 1.31e-10 5.12e-11 4.50e-11 6.78e-11 uc/ml Kr-85m 1.22e-09 1.22e-08 4.38e-09 1.71e-09 1.50e-09 2.27e-09 uc/ml Kr-87 1.80e-09 1.80e-08 6.49e-09 2.53e-09 2.23e-09 3.36e-09 uc/ml Kr-88 2.99e-09 2.98e-08 1.07e-08 4.20e-09 3.69e-09 5.56e-09 uc/ml Xe-131m 6.48e-11 6.47e-10 2.33e-10 9.10e-11 8.00e-11 1.21e-10 uc/ml Xe-133 1.56e-08 1.56e-07 5.62e-08 2.19e-08 1.93e-08 2.91e-08 uc/ml Xe-133m 5.42e-10 5.41e-09 1.95e-09 7.61e-10 6.69e-10 1.01e-09 uc/ml Xe-135 3.71e-09 3.71e-08 1.34e-08 5.22e-09 4.59e-09 6.91e-09 uc/ml Xe-135m 5.56e-11 5.55e-10 2.00e-10 7.81e-11 6.87e-11 1.03e-10 uc/ml Xe-138 1.38e-10 1.37e-09 4.95e-10 1.93e-10 1.70e-10 2.56e-10 uc/ml I-131 6.29e-10 6.29e-09 2.26e-09 8.84e-10 7.77e-10 1.17e-09 uc/ml I-132 5.52e-10 5.51e-09 1.98e-09 7.75e-10 6.81e-10 1.03e-09 uc/ml I-133 1.20e-09 1.20e-08 4.31e-09 1.68e-09 1.48e-09 2.23e-09 uc/ml I-134 3.96e-10 3.96e-09 1.43e-09 5.57e-10 4.89e-10 7.38e-10 uc/ml I-135 9.43e-10 9.42e-09 3.40e-09 1.33e-09 1.16e-09 1.76e-09 uc/ml Rb-88 1.36e-09 1.35e-08 4.87e-09 1.90e-09 1.67e-09 2.52e-09 uc/ml Cs-138 5.49e-11 5.48e-10 1.98e-10 7.72e-11 6.78e-11 1.02e-10 uc/ml

(-

\

N-G 2.62e-08 2.62e-07 9.42e-08 3.68e-08 3.23e-08 4.87e-08 uc/ml Iodines 3.72e-09 3.72e-08 1.34e-08 5.23e-09 4.59e-09 6.92e-09 uc/ml Part 1.41e-09 1.41e-08 5.07e-09 1.98e-09 1.74e-09 2.62e-09 uc/ml Hallway Dose Rates LEVEL 155' 139 130' 121' 100' 77' Units CW 0.000 0.003 0.001 0.000 0.000 0.001 r/hr OW 0.003 0.033 0.012 0.005 0.004 0.006 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 9.09e+01 9.07e+02 1.28e+02 1.12e+02 cpm 11:15:00 sample time + 15 minutes 200 a

Auxiliary Building Hallway 11:15:00 Sample Time + 30 minutes

) Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 3.60e-11 7.11e-11 4.97e-11 4.28e-11 3.84e-11 2.92e-11 uc/ml Kr-85m 1.16e-09 2.29e-09 1.60e-09 1.33e-09 1.23e-09 9.38e-10 uc/ml Kr-87 1.55e-09 3.07e-09 2.15e-09 1.85e-09 1.66e-09 1.26e-09 uc/ml Kr-88 2.77e-09 5.48e-09 3.83e-09 3.30e-09 2.96e-09 2.25e-09 uc/ml Xe-131m'6.40e-11 1.26e-10 8.84e-11 7.61e-11 6.82e-11 5.18e-11 uc/ml Xe-133 1.54e-08 3.04e-08 2.13e-08 1.83e-08 1.64e-08 1.25e-08 uc/ml Xe-133m 5.33e-10 1.05e-09 7.37e-10 6.35e-10 5.69e-10 4.32e-10 uc/ml Xe-135 3.62e-09 7.14e-09 5.00e-09 4.30e-09 3.86e-09 2.93e-09 uc/ml Xe-135m 2.79e-11 5.51e-11 3.86e-11 3.32e-11 2.98e-11 2.26e-11 uc/ml Xe-138 6.51e-11 1.29e-10 9.00e-11 7.75e-11 6.94e-11 5.28e-11 uc/ml I-131 6.21e-10 1.23e-09 8.58e-10 7.39e-10 6.62e-10 5.03e-10 uc/ml I-132 5.05e-10 9.98e-10 6.98e-10 6.01e-10 5.39e-10 4.10e-10 uc/ml I-133 1.17e-09 2.32e-09 1.62e-09 1.40e-09 1.25e-09 9.52e-10 uc/ml I-134 3.21e-10 6.35e-10 4.44e-10 3.82e-10 3.43e-10 2.60e-10 uc/ml I-135 9.08e-10 1.79e-09 1.25e-09 1.08e-09 9.68e-10 7.36e-10 uc/ml Rb-88 2.01e-09 3.96e-09 2.77e-09 2.39e-09 2.14e-09 1.63e-09 uc/ml Cs-138 6.53e-11 1.29e-10 9.02e-11 7.77e-11 6.96e-11 5.29e-11 uc/ml N-G 2.52e-08 4.98e-08 3.49e-08 3.00e-08 2.69e-08 2.05e-08 uc/ml Iodines 3.53e-09 6.97e-09 4.88e-09 4.20e-09 3.76e-09 2.86e-09 uc/ml Part 2.07e-09 4.09e-09 2.86e-09 2.46e-09 2.21e-09 1.68e-09 uc/ml P

Hallway Dose Rates LEVEL 155 139 130' 121 100 77' Units CW 0.000 0.001 0.000 0.000 0.000 0.000 r/hr OW 0.003 0.006 0.004 0.004 0.003 0.003 r/hr -

Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.24e+02 2.44e+02 1.47e+02 1.32e+02 cpm 11:15:00 sample time + 30 minutes 201 d

Auxiliary Building Hallway 11:15:00 Sample Time + 45 minutes Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 2.91e-11 2.19e-11 1.92e-11 2.82e-11 2.67e-11 1.47e-11 uc/ml Kr-85m 9.00e-10 6.76e-10 5.95e-10 8.74e-10 8.26e-10 4.56e-10 uc/ml Kr-87 1.10e-09 8.24e-10 7.25e-10 1.07e-09 1.01e-09 5.56e-10 uc/ml Kr-88 2.11e-09 1.59e-09 1.39e-09 2.05e-09 1.94e-09 1.07e-09 uc/ml Xe-131m 5.17e-11 3.88e-11 3.41e-11 5.02e-11 4.74e-11 2.62e-11 uc/ml Xe-133 1.24e-08 9.35e-09 8.22e-09 1.21e-08 1.14e-08 6.31e-09 uc/ml Xe-133m 4.30e-10 3.23e-10 2.84e-10 4.17e-10 3.94e-10 2.18e-10 uc/ml Xe-135 2.88e-09 2.17e-09 1.90e-09 2.80e-09 2.65e-09 1.46e-09 uc/ml Xe-135m 1.15e-11 8.62e-12 7.58e-12 1.11e-11 1.05e-11 5.82e-12 uc/ml Xe-138 2.52e-11 1.90e-11 1.67e-11 2.45e-11 2.31e-11 1.28e-11 uc/ml I-131 5.02e-10 3.77e-10 3.31e-10 4.87e-10 4.60e-10 2.54e-10 uc/ml I-132 3.79e-10 2.85e-10 2.50e-10 3.68e-10 3.48e-10 1.92e-10 uc/ml I-133 9.42e-10 7.08e-10 6.22e-10 9.14e-10 8.64e-10 4.77e-10 uc/ml I-134 2.13e-10 1.60e-10 1.41e-10 2.07e-10 1.96e-10 1.08e-10 uc/ml I-135 7.15e-10 5.37e-10 4.72e-10 6.94e-10 6.56e-10 3.62e-10 uc/ml Rb-88 1.86e-09 1.40e-09 1.23e-09 1.81e-09 1.71e-09 9.44e-10 uc/ml Cs-138 4.83e-11 3.63e-11 3.190-11 4.69e-11 4.43e-11 2.45e-11 uc/ml N-G 2.00e-08 1.50e-08 1.32e-08 1.94e-08 1.83e-08 1.01e-08 uc/ml Iodines 2.75e-09 2.07e-09 J.82e-09 2.67e-09 2.52e-09 1.39e-09 uc/ml Part 1.91e-09 1.44e-09 1.26e-09 1.86e-09 1.75e-09 9.68e-10 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.003 0.002 0.002 0.002 0.002 0.001 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.11e+02 8.37e+01 1.08e+02 1.02e+02 cpm 11:15:00 sample time + 45 minutes 202

Auxiliary Building Hallway 11:15:00 Sample Time + 60 minutes

() Airborne Sample Analysis ISOTOPE 155 139' 130 121 100' 77 Units Kr-85 2.23e-11 1.09e-11 9.56e-12 1.78e-11 1.77e-11 8.89e-12 uc/ml Kr-85m 6.64e-10 3.24e-10 2.85e-10 5.29e-10 5.28e-10 2.65e-10 uc/ml Kr-87 7.34e-10 3.58e-10 3.15e-10 5.84e-10 5.83e-10 2.92e-10 uc/ml Kr-88 1.52e-09 7.42e-10 6.53e-10 1.21e-09 1.21e-09 6.07e-10 uc/ml Xe-131m 3.96e-11 1.93e-11 1.70e-11 3.15e-11 3.15e-11 1.58e-11 uc/ml Xe-133 9.52e-09 4.64e-09 4.09e-09 7.59e-09 7.57e-09 3.80e-09 uc/ml Xe-133m 3.28e-10 1.60e-10 1.41e-10 2.62e-10 2.61e-10 1.31e-10 uc/ml Xe-135 2.18e-09 1.06e-09 9.35e-10 1.74e-09 1.73e-09 8.68e-10 uc/ml

.Xe-135nt 4.47e-12 2.18e-12 1.92e-12 3.56e-12 3.55e-12 1.78e-12 uc/ml Xe-138 9.26e-12 4.52e-12 3.97e-12 7.38e-12 7.36e-12 3.69e-12 uc/ml I-131 3.84e-10 1.87e-10 1.65e-10 3.06e-10 3.05e-10 1.53e-10 uc/ml I-132 2.69e-10 1.31e-10 1.16e-10 2.14e-10 2.14e-10 1.07e-10 uc/ml I-133 7.16e-10 3.49e-10 3.07e-10 5.70e-10 5.69e-10 2.85e-10 uc/ml I-134 1.34e-10 6.54e-11 5.75e-11 1.07e-10 1.07e-10 5.35e-11 uc/ml I-135 5.34e-10 2.60e-10 2.29e-10 4.25e-10 4.24e-10 2.13e-10 uc/ml Rb-88 1.49e-09 7.25e-10 6.38e-10 1.18e-09 1.18e-09 5.92e-10 uc/ml Cs-138 3.05e-11 1.49e-11 1.31e-11 2.43e-11 2.42e-11 1.22e-11 uc/ml N-G 1.50e-08 7.32e-09 6.45e-09 1.20e-08 1.19e-08 5.99e-09 uc/ml Iodines 2.04e-09 9.93e-10 8.74e-10 1.62e-09 1.62e-09 8.12e-10 uc/ml Part 1.52e-09 7.39e-10 6.51e-10 1.21e-09 1.21e-09 6.05e-10 uc/ml Hallway Dose Rates LEVEL 155' 139 130' 121 100 77' Units i

CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.002 0.001 0.001 0.001 0.001 0.001 r/hr i l

Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 8.78e+01 4.28e+01 6.99e+01 6.98e+01 cpm 4

11:15:00 sample time + 60 minutes 203 7m

Auxiliary Building Hallway 11:15:00 Sample Time + 75 minutes

() Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 1.67e-11 6.88e-12 5.80e-12 1.12e-11 1.17e-11 5.80e-12 uc/ml Kr-85m 4.79e-10 1.97e-10 1.66e-10 3.21e-10 3.34e-10 1.66e-10 uc/ml Kr-87 4.80e-10 1.98e-10 1.66e-10 3.21e-10 3.35e-10 1.67e-10 uc/ml Kr-88 1.07e-09 4.42e-10 3.72e-10 7.19e-10 7.50e-10 3.73e-10 uc/ml Xe-131m 2.97e-11 1.22e-11 1.03e-11 1.99e-11 2.07e-11 1.03e-11 uc/ml Xe-133 7.13e-09 2.94e-09 2.47e-09 4.77e-09 4.98e-09 2.47e-09 uc/ml Xe-133m 2.45e-10 1.01e-10 8.51e-11 1.64e-10 1.71e-10 8.51e-11 uc/ml Xe-135 1.61e-09 6.63e-10 5.58e-10 1.08e-09 1.12e-09 5.59e-10 uc/ml Xe-135m 1.70e-12 7.02e-13 5.91e-13 1.14e-12 1.19e-12 5.92e-13 uc/ml Xe-138 3.33e-12 1.37e-12 1.15e-12 2.23e-12 2.32e-12 1.16e-12 uc/ml I-131 2.88e-10 1.18e-10 9.98e-11 1.93e-10 2.01e-10 9.99e-11 uc/ml I-132 1.87e-10 7.71e-11 6.49e-11 1.25e-10 1.31e-10 6.50e-11 uc/ml I-133 5.32e-10 2.19e-10 1.84e-10 3.56e-10 3.72e-10 1.85e-10 uc/ml I-134 8.25e-11 3.40e-11 2.86e-11 5.52e-11 5.76e-11 2.86e-11 uc/ml I-135 3.90e-10 1.61e-10 1.35e-10 2.61e-10 2.72e-10 1.35e-10 uc/ml Rb-88 1.11e-09 4.57e-10 3.84e-10 7.42e-10 7.74e-10 3.85e-10 uc/ml Cs-138 1.79e-11 7.37e-12 6.20e-12 1.20e-11 1.25e-11 6.21e-12 uc/ml N-G 1.11e-08 4.56e-09 3.84e-09 7.41e-09 7.73e-09 3.84e-09 uc/ml Iodines 1.48e-09 6.09e-10 5.13e-10 9.90e-10 1.03e-09 5.13e-10 uc/ml Part 1.13e-09 4.64e-10 3.91e-10 7.54e-10 7.87e-10 3.91e-10 uc/ml Hallway Dose Rates LEVEL 155' 139' 130' 121 100' 77' Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.001 0.001 0.000 0.001 0.001 0.000 r/hr i Auxiliary Building Radiation Monitors L MONITOR R-33 R-32 R-31 R-30 Units l l

6.50e+01 2.68e+01 4.35e+01 4.54e+01 cpm 1

l 11:15:00 sample time + 75 minutes 204 '

i l

Auxiliary Building Hallway 11:15:00 Sample Time + 90 minutes Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 1.24e-11 4.72e-12 3.84e-12 7.17e-12 7.72e-12 3.91e-12 uc/ml Kr-85m 3.41e-10 1.30e-10 1.06e-10 1.98e-10 2.13e-10 1.08e-10 uc/ml Kr-87 3.11e-10 1.18e-10 9.63e-11 1.80e-10 1.93e-10 9.80e-11 uc/ml Kr-88 7.49e-10 2.85e-10 2.32e-10 4.33e-10 4.66e-10 2.36e-10 uc/ml Xe-131m 2.20e-11 8.36e-12 6.81e-12 1.27e-11 1.37e-11 6.93e-12 uc/ml Xe-133 5.28e-09 2.01e-09 1.64e-09 3.06e-09 3.29e-09 1.67e-09 uc/ml Xc-133m 1.81e-10 6.90e-11 5.62e-11 1.05e-10 1.13e-10 5.72e-11 uc/ml Xe-135 1.18e-09 4.48e-10 3.65e-10 6.81e-10 7.33e-10 3.71e-10 uc/ml Xe-135m 6.42e-13 2.45e-13 1.99e-13 3.72e-13 4.00e-13 2.03e-13 uc/ml Xe-138 1.18e-12 4.50e-13 3.67e-13 6.84e-13 7.36e-13 3.73e-13 uc/ml I-131 2.13e-10 8.11e-11 6.61e-11 1.23e-10 1.33e-10 6.72e-11 uc/ml I-132 1.29e-10 4.90e-11 3.99e-11 7.45e-11 8.02e-11 4.06e-11 uc/ml I-133 3.91e-10 1.49e-10 1.21e-10 2.26e-10 2.44e-10 1.23e-10 uc/ml I-134 5.02s-11 1.91e-11 1.56e-11 2.91e-11 3.13e-11 1.58e-11 uc/ml I-135 2.82e-10 1.07e-10 8.73e-11 1.63e-10 1.75e-10 8.88e-11 uc/ml Rb-88 7.98e-10 3.04e-10 2.48e-10 4.62e-10 4.97e-10 2.52e-10 uc/ml Cs-138 1.01e-11 3.83e-12 3.12e-12 5.83e-12 6.27e-12 3.18e-12 uc/ml g

f.s ___________________________________________________________________

N-G 8.07e-09 3.07e-09 2.50e-09 4.67e-09 5.03e-09 2.55e-09 uc/ml Iodines 1.06e-09 4.05e-10 3.30e-10 6.16e-10 6.63e-10 3.36e-10 uc/ml Part 8.08e-10 3.08e-10 2.51e-10 4.68e-10 5.03e-10 2.55e-10 uc/ml Hallway Dose Rates :

___________________________________________________________________ l LEVEL. 155 139 130 121 100 77 Units l

________________'_________'_________' l e

CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.001 0.000 0.000 0.001 0.001 0.000 r/hr Auxiljary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units ,

l g 4.67e+01 1.78e+01 2.70e+01 2.91e+01 cpm 1

11:15:00 sample time + 90 minutes 205 ., J

Auxiliary Building Hallway 11:15:00 Sample Time + 105 minutes r

( Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 9.12e-12 3.31e-12 2.64e-12 4.69c-12 5.14e-12 2.68e-12 uc/ml Kr-85m 2.42e-10 8.77e-11 6.99e-11 1.24e-10 1.36e-10 7.09e-11 uc/ml Kr-87 1.99e-10 7.24e-11 5.77e-11 1.02e-10 1.12e-10 5.85e-11 uc/ml Kr-88 5.18e-10 1.88e-10 1.50e-10 2.66e-10 2.92e-10 1.52e-10 uc/ml Xe-131m 1.62e-11 5.86e-12 4.67e-12 8.30e-12 9.11e-12 4.74e-12 uc/ml Xe-133 3.88e-09 1.41e-09 1.12e-09 1.99e-09 2.19e-09 1.14e-09 uc/ml Xe-la3m 1.33e-10 4.82e-11 3.84e-11 6.83e-11 7.50e-11 3.90e-11 uc/ml Xe-135 8.53e-10 3.10e-10 2.47e-10 4.39e-10 4.81e-10 2.50e-10 uc/ml Xe-135m 2.40e-13 8.72e-14 6.95e-14 1.23e-13 1.35e-13 7.05e-14 uc/ml Xe-138 4.16e-13 1.51e-13 1.20e-13 2.14e-13 2.35e-13 1.22e-13 uc/ml I-131 1.57e-10 5.69e-11 4.53e-11 8.05e-11 8.84e-11 4.60e-11 uc/ml I-132 8.78e-11 3.19e-11 2.54e-11 4.52e-11 4.96e-11 2.58e-11 uc/ml I-133 2.85e-10 1.04e-10 8.25e-11 1.47e-10 1.61e-10 8.38e-11 uc/ml I-134 3.03e-11 1.10e-11 8.77e-12 1.56e-11 1.71e-11 8.90e-12 uc/ml I-135 2.02e-10 7.32e-11 5.84e-11 1.04e-10 1.14e-10 5.92e-11 uc/ml Rb-88 5.63e-10 2.04e-10 1.63e-10 2.89e-10 3.17e-10 1.65e-10 uc/ml >

Cs-138 5.53e-12 2.01e-12 1.60e-12 2.84e-12 3.12e-12 1.62e-12 uc/ml s ___________________________________________________________________

N-G 5.85e-09 2.12e-09 1.69e-09 3.01e-09 3.30e-09 1.72e-09 uc/ml Iodines 7.62e-10 2.77e-10 2.20e-10 3.92e-10 4.30e-10 2.24e-10 uc/ml Part 5.68e-10 2.06e-10 1.64e-10 2.92e-10 3.21e-10 1.67e-10 uc/ml Hallway Dose Ratos LEVEL 155' 139' 130' 121 100' 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.001 0.000 0.000 0.000 0.000 0.000 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units ,

___________________________________________________________________ l 1

3.29e+01 1.19e+01 1.69e+01 1.85e+01 cpm l

l 11:15:00 sample time + 105 minutes 206 I

Auxiliary Building Hallway 11:30:00 Sample Time + 15 minutes

(_, Airborne Sample Analysic ISOTOPE 155 139 130 121 100 77 Units Kr-85 4.63e-11 4.63e-10 1.67e-10 6.51e-11 5.72e-11 8.62e-11 uc/ml Kr-85m 1.49e-09 1.49e-08 5.36e-09 2.09e-09 1.84e-09 2.77e-09 uc/ml Kr-87 1.96e-09 1.96e-08 7.04e-09 2.75e-09 2.42e-09 3.64e-09 uc/ml Kr-88 3.57e-09 3.57e-08 1.29e-08 5.02e-09 4.41e-09 6.65e-09 uc/ml Xe-131m 8.23e-11 8.22e-10 2.96e-10 1.16e-10 1.02e-10 1.53e-10 uc/ml Xe-133 1.94e-08 1.94e-07 6.99e-08 2.73e-08 2.40e-08 3.61e-08 uc/ml Xe-133m 6.71e-10 6.71e-09 2.42e-09 9.43e-10 8.29e-10 1.25e-09 uc/ml Xe-135 4.70e-09 4.70e-08 1.69e-08 6.61e-09 5.81e-09 8.75e-09 uc/ml Xe-135m 3.51e-11 3.51e-10 1.26e-10 4.94e-11 4.34e-11 6.54e-11 uc/ml Xe-138 8.20e-11 8.18e-10 2.95e-10 1.15e-10 1.01e-10 1.52e-10 uc/ml I-131 7.78e-10 7.77e-09 2.80e-09 1.09e-09 9.61e-10 1.45e-09 uc/ml I-132 6.33e-10 6.33e-09 2.28e-09 8.90e-10 7.82e-10 1.18e-09 uc/ml I-133 1.47e-09 1.47e-08 5.30e-09 2.07e-09 1.82e-09 2.74e-09 uc/ml I-134 4.03e-10 4.02e-09 1.45e-09 5.66e-10 4.97e-10 7.49e-10 uc/ml I-135 1.14e-09 1.14e-08 4.09e-09 1.60e-09 1.40e-09 2.12e-09 uc/ml Rb-88 1.62e-09 1.62e-08 5.83e-09 2.28e-09 2.00e-09 3.01e-09 uc/ml Cs-138 3.27e-11 3.27e-10 1.18e-10 4.60e-11 4.04e-11 6.08e-11 uc/ml

\

N-G 3.21e-08 3.20e-07 1.15e-07 4.50e-08 3.96e-08 5.96e-08 uc/ml Iodines 4.42e-09 4.42e-08 1.59e-08 6.21e-09 5.46e-09 8.23e-09 uc/ml Part 1.65e-09 1.65e-08 5.95e-09 2.32e-09 2.04e-09 3.07e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130 J21' 100 77' Units CW 0.000 0.004 0.001 0.001 0.000 0.001 r/hr OW 0.004 0.040 0.014 0.006 0.005 0.007 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.07e+02 1.07e+03 1.50e+02 1.32e+02 cpm O- ___________________________________________________________________

l l

l

. 11:30:00 sample time + 15 minutes 207 7 7

l

Auxiliary Building Hallway 11:30:00 Sample Time + 30 minutes

) Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 4.58e-11 9.04e-11 6.32e-11 5.45e-11 4.88e-11 3.71e-11 uc/ml Kr-85m 1.42e-09 2.80e-09 1.96e-09 1.68e-09 1.51e-09 1.15e-09 uc/ml Kr-87 1.69e-09 3.33e-09 2.33e-09 2.01e-09 1.80e-09 1.37e-09 uc/ml Kr-88 3.32e-09 6.56e-09 4.59e-09 3.95e-09 3.54e-09 2.69e-09 uc/ml Xe-131m 8.13e-11 1.60e-10 1.12e-10 9.67e-11 8.67e-11 6.59e-11 uc/ml Xe-133 1.91e-08 3.78e-08 2.65e-08 2.28e-08 2.04e-08 1.55e-08 uc/ml Xe-133m 6.61e-10 1.31e-09 9.13e-10 7.87e-10 7.05e-10 5.36e-10 uc/ml Xe-135 4.58e-09 9.05e-09 6.33e-09 5.45e-09 4.88e-09 3.71e-09 uc/ul Xe-135m 1.76e-11 3.48e-11 2.44e-11 2.10e-11 1.88e-11 1.43e-11 uc/ml Xe-138 3.88e-11 7.66e-11 5.36e-11 4.62e-11 4.14e-11 3.14e-11 uc/ml I-131 7.68e-10 1.52e-09 1.06e-09 9.14e-10 8.19e-10 6.22e-10 uc/ml I-132 5.80e-10 1.15e-09 8.02e-10 6.91e-10 6.19e-10 4.70e-10 uc/ml I-133 1.44e-09 2.85e-09 1.99e-09 1.72e-09 1.54e-09 1.17e-09 uc/ml I-134 3.26e-10 6.44e-10 4.51e-10 3.88e-10 3.48e-10 2.65e-10 uc/ml I-135 1.09e-09 2.16e-09 1.51e-09 1.30e-09 1.17e-09 8.87e-10 uc/ml Rb-88 2.40e-09 4.74e-09 3.31e-09 2.86e-09 2.56e-09 1.94e-09 uc/ml Cs-138 3.89e-11 7.67e-11 5.37e-11 4.63e-11 4.15e-11 3.15e-11 uc/ml N-G 3.10e-08 6.12e-08 4.28e-08 3.69e-08 3.31e-08 2.51e-08 uc/ml Iodines 4.21e-09 8.31e-09 5.82e-09 5.01e-09 4.49e-09 3.41e-09 uc/ml Part 2.44e-09 4.81e-09 3.37e-09 2.90e-09 2.60e-09 1.98e-09 uc/ml Hallway Dose Pates LEVEL 155 139 130 121 100 77 Units CW 0.000 0.001 0.000 0.000 0.000 0.000 r/hr OW 0.004 0.008 0.005 0.005 0.004 0.003 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.46e+02 2.88e+02 1.74e+02 1.55e+02 cpm 11:30:00 sample time + 30 minutes 208

Auxiliary Building Hallway 11:30:00 Sample Time + 45 minutes

() Airborne Sample Analysis ISOTOPE 155 139' 130' 121 100 77 Units Kr-85 3.70e-11 2.78e-11 2.44e-11 3.59e-11 3.39e-11 1.87e-11 uc/ml Kr-85m 1.10e-09 8.28e-10 7.27e-10 1.07e-09 1.01e-09 5.58e-10 uc/ml Kr-87 1.19e-09 8.94e-10 7.86e-10 1.16e-09 1.09e-09 6.03e-10 uc/ml Kr-88 2.53e-09 1.90e-09 1.67e-09 2.45e-09 2.32e-09 1.28e-09 uc/ml Xe-131m 6.57e-11 4.93e-11 4.34e-11 6.38e-11 6.03e-11 3.33e-11 uc/ml Xe-133 1.55e-08 1.16e-08 1.02e-08 1.50e-08 1.42e-08 7.84e-09 uc/ml Xe-133m 5.33e-10 4.00e-10 3.52e-10 5.17e-10 4.89e-10 2.70e-10 uc/ml Xe-135 3.65e-09 2.74e-09 2.41e-09 3.54e-09 3.35e-09 1.85e-09_uc/ml Xe-135m 7.25e-12 5.45e-12 4.79e-12 7.04e-12 6.66e-12 3.68e-12 uc/ml Xe-138 1.50e-11 1.13e-11 9.93e-12 1.46e-11 1.38e-11 7.62e-12 uc/ml I-131 6.20e-10 4.66e-10 4.10e-10 6.02e-10 5.69e-10 3.14e-10 uc/ml I-132 4.35e-10 3.27e-10 2.87e-10 4.22e-10 3.99e-10 2.21e-10 uc/ml I-133 1.16e-09 8.68e-10 7.63e-10 1.12e-09 1.06e-09 5.86e-10 uc/ml I-134 2.17e-10 1.63e-10 1.43e-10 2.10e-10 1.99e-10 1.10e-10 uc/ml I-135 8.62e-10 6.48e-10 5.69e-10 8.37e-10 7.91e-10 4.37e-10 uc/ml Rb-88 2.23e-09 1.67e-09 1.47e-09 2.16e-09 2.04e-09 1.13e-09 uc/ml Cs-138 2.88e-11 2.16e-11 1.90e-11 2.79e-11 2.64e-11 1.46e-11 uc/ml m ___________________________________________________________________

N-G 2.46e-08 1.85e-08 1.62e-08 2.39e-08 2.26e-08 1.25e-08 uc/ml Iodines 3.29e-09 2.47e-09 2.17e-09 3.19e-09 3.02e-09 1.67e-09 uc/ml Part 2.26e-09 1.70e-09 1.49e-09 2.19e-09 2.07e-09 1.14e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr l OW 0.003 0.002 0.002 0.003 0.003 0.002 r/hr l

Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.32e+02 9.91e+01 1.28e+02 1.21e+02 cpm l

-1 11:30:00 sample time + 45 minutes i 209 ,n I

Auxiliary Building Hallway 11:30:00 Sample Time + 60 minutes

() Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 2.83e-11 1.38e-11 1.22e-11 2.26e-11 2.25e-11 1.13e-11 uc/ml Kr-85m 8.12e-10 3.96e-10 3.48e-10 6.47e-10 6.46e-10 3.24e-10 uc/ml Kr-87 7.96e-10 3.88e-10 3.41e-10 6.34e-10 6.33e-10 3.17e-10 uc/ml Kr-88 1.82e-09 8.87e-10 7.81e-10 1.45e-09 1.45e-09 7.26e-10 uc/ml Xe-131m 5.03e-11 2.45e-11 2.16e-11 4.01e-11 4.00e-11 2.00e-11 uc/ml Xe-133 1.18e-08 5.77e-09 5.08e-09 9.43e-09 9.41e-09 4.72e-09 uc/ml Xe-133m 4.07e-10 1.98e-10 1.75e-10 3.24e-10 3.24e-10 1.62e-10 uc/ml Xe-135 2.76e-09 1.34e-09 1.18e-09 2.20e-09 2.19e-09 1.10e-09 uc/ml Xe-135m 2.83e-12 1.38e-12 1.21e-12 2.25e-12 2.25e-12 1.13e-12 uc/ml Xe-138 5.52e-12 2.69e-12 2.37e-12 4.39e-12 4.39e-12 2.20e-12 uc/ml I-131 4.75e-10 2.31e-10 2.04e-10 3.78e-10 3.78e-10 1.89e-10 uc/ml I-132 3.09e-10 1.51e-10 1.33e-10 2.46e-10 2.46e-10 1.23e-10 uc/ml I-133 8.78e-10 4.28e-10 3.77e-10 6.99e-10 6.98e-10 3.50e-10 uc/ml I-134 1.36e-10 6.64e-11 5.84e-11 1.08e-10 1.08e-10 5.43e-11 uc/ml I-135 6.43e-10 3.14e-10 2.76e-10 5.13e-10 5.12e-10 2.56e-10 uc/ml Rb-88 1.78e-09 8.67e-10 7.63e-10 1.42e-09 1.41e-09 7.09e-10 uc/ml Cs-138 1.82e-11 8.85e-12 7.79e-12 1.45e-11 1.44e-11 7.24e-12 uc/ml N-G 1.85e-08 9.02e-09 7.94e-09 1.47e-08 1.47e-08 7.38e-09 uc/ml Iodines 2.44e-09 1.19e-09 1.05e-09 1.95e-09 1.94e-09 9.73e-10 uc/ml Part 1.80e-09 8.76e-10 7.71e-10 1.43e-09 1.43e-09 7.16e-10 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.002 0.001 0.001 0.002 0.002 0.001 r/hr Auxiljary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.04e402 5.07e+01 8.29e+01 8.28e+01 cpm j ___________________________________________________________________

11:30:00 sample time + 60 minutes 210

Auxiliary Building Hallway 11:30:00 Sample Time + 75 minutes I Airborne Sample Analysis ISOTOPE 155 139 130 121' 100 77 Units Kr-85 2.13e-11 8.75e-12 7.37e-12 1.42e-11 1.48e-11 7.38e-12 uc/ml Kr-85m 5.86e-10 2.41e-10 2.030-10 3.92e-10 4.09e-10 2.03e-10 uc/ml Kr-87 5.21e-10 2.14e-10 1.81e-10 3.49e-10 3.64e-10 1.81e-10 uc/ml Kr-88 1.28e-09 5.29e-10 4.45e-10 8.60e-10 8.97e-10 4.46e-10 uc/ml Xe-131m 3.77e-11 1.55e-11 1.31e-11 2.52e-11 2.63e-11 1.31e-11 uc/ml Xe-133 8.86e-09 3.65e-09 3.07e-09 5.93e-09 6.19e-09 3.08e-09 uc/ml Xe-133m 3.04e-10 1.25e-10 1.05e-10 2.04e-10 2.12e-10 1.06e-10 uc/ml Xe-135 2.04e-09 8.39e-10 7.06e-10 1.36e-09 1.42e-09 7.07e-10 uc/ml Xe-135m 1.08e-12 4.44e-13 3.74e-13 7.21e-13 7.52e-13 3.74e-13 uc/ml Xe-138 1.98e-12 8.16e-13 6.87e-13 1.33e-12 1.38e-12 6.88e-13 uc/ml I-131 3.56e-10 1.47e-10 1.23e-10 2.38e-10 2.48e-10 1.23e-10 uc/ml I-132 2.15e-10 8.86e-11 7.46e-11 1.44e-10 1.50e-10 7.46e-11 uc/ml I-133 6.53e-10 2.69e-10 2.26e-10 4.37e-10 4.56e-10 2.27e-10 uc/ml I-134 8.38e-11 3.45e-11 2.91e-11 5.61e-11 5.85e-11 2.91e-11 uc/ml I-135 4.700-10 1.94e-10 1.63e-10 3.15e-10 3.28e-10 1.63e-10 uc/ml Rb-88 1.33e-09 5.46e-10 4.60e-10 8.88e-10 9.26e-10 4.60e-10 uc/ml Cs-138 1.07e-11 4.39e-12 3.69e-12 7.13e-12 7.44e-12 3.70e-12 uc/ml

/~T -_--___-___-_______-________-------_____---_____-__________--____-.

O N-G 1.37e-08 5.62e-09 4.73e-09 9.14e-09 9.54e-09 4.74e-09 uc/ml Iodines 1.78e-09 7.32e-10 6.16e-10 1.19e-09 1.24e-09 6.17e-10 uc/ml Part 1.34e-09 5.51e-10 4.64e-10 8.95e-10 9.34e-10 4.64e-10 uc/ml Hallway Dose Rates LEVEL 155' 139 130 121 100 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.002 0.001 0.001 0.001 0.001 0.001 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units l

7.73e+01 3.18e+01 5.17e+01 5.40e+01 cpm

___-_________--___---_-__________---_____--__----___--- l 11:30:00 sample time + 75 minutes

,' i

Auxiliary Building Hallway 11:30:00 Sample Time + 90 minutes Airborne Sample Analysis ISOTOPE 155 139 130' 121 100 77 Units Kr-85 1.58e-11 6.00e-12 4.89e-12 9.12e-12 9.81e-12 4.97e-12 uc/ml Kr-85m 4.18e-10 1.59e-10 1.30e-10 2.42e-10 2.60e-10 1.32e-10 uc/ml Kr-87 3.37e-10 1.28e-10 1.04e-10 1.95e-10 2.10e-10 1.06e-10 uc/ml '

Kr-88 8.96e-10 3.41e-10 2.78e-10 5.18e-10 5.58e-10 2.83e-10 uc/ml Xe-131m 2.79e-11 1.06e-11 8.66e-12 1.62e-11 1.74e-11 8.81e-12 uc/ml Xe-133 6.56e-09 2.50e-09 2.03e-09 3.80e-09 4.09e-09 2.07e-09 uc/ml Xe-133m 2.25e-10 8.55e-11 6.97e-11 1.30e-10 1.40e-10 7.09e-11 uc/ml Xe-135 1.49e-09 5.66e-10 4.61e-10 8.61e-10 9.27e-10 4.70e-10 uc/ml Xe-135m 4.06e-13 1.55e-13 1.26e-13 2.35e-13 2.53e-13 1.28e-13 uc/ml Xe-138 7.04e-13 2.68e-13 2.18e-13 4.07e-13 4.38e-13 2.22e-13 uc/ml I-131 2.63e-10 1.00e-10 8.17e-11 1.53e-10 1.64e-10 8.31e-11 uc/ml I-132 1.48e-10 5.63e-11 4.59e-11 8.56e-11 9.21e-11 4.67e-11 uc/ml I-133 4.80e-10 1.83e-10 1.49e-10 2.78e-10 2.99e-10 1.51e-10 uc/ml I-134 5.10e-11 1.94e-11 1.58e-11 2.95e-11 3.18e-11 1.61e-11 uc/ml I-135 3.39e-10 1.29e-10 1.05e-10 1.96e-10 2.11e-10 1.07e-10 uc/ml Rb-88 9.55e-10 3.63e-10 2.96e-10 5.53e-10 5.95e-10 3.01e-10 uc/ml Cs-138 6.00e-12 2.28e-12 1.86e-12 3.47e-12 3.74e-12 1.89e-12 uc/ml N-G 9.97e-09 3.79e-09 3.09e-09 5.77e-09 6.21e-09 3.15e-09 uc/ml Iodines 1.28e-09 4.88e-10 3.97e-10 7.42e-10 7.98e-10 4.04e-10 uc/ml Part 9.61e-10 3.66e-10 2.98e-10 5.56e-10 5.98e-10 3.03e-10 uc/ml Hallway Dose Rates LEVEL 155 139' 130' 121 100 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.001 0.000 0.000 0.001 0.001 0.000 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 5.55e+01 2.11e+01 3.21e+01 3.46e+01 cpm pl:30:00sampletime+90 minutes

Auxiliary Building Hallway 11:45:00 Sample Time + 15 minutes

) Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 5.08e-11 5.08e-10 1.83e-10 7.14e-11 6.27e-11 9.45e-11 uc/ml Kr-85m 1.57e-09 1.57e-08 5.66e-09 2.21e-09 1.94e-09 2.93e-09 uc/ml Kr-87 1.88e-09 1.88e-08 6.78e-09 2.65e-09 2.33e-09 3.51e-09 uc/ml Kr-88 3.69e-09 3.68e-08 1.33e-08 5.18e-09 4.55e-09 6.86e-09 uc/ml Xe-131m 9.03e-11 9.02e-10 3.25e-10 1.27e-10 1.11e-10 1.68e-10 uc/ml Xe-133 2.14e-08 2.14e-07 7.70e-08 3.01e-08 2.64e-08 3.98e-08 uc/ml Xe-133m 7.38e-10 7.37e-09 2.66e-09 1.04e-09 9.11e-10 1.37e-09 uc/ml Xe-135 5.28e-09 5.27e-08 1.90e-08 7.42e-09 6.52e-09 9.82e-09 uc/ml Xe-135m 1.97e-11 1.97e-10 7.09e-11 2.77e-11 2.43e-11 3.67e-11 uc/ml Xe-138 4.33e-11 4.32e-10 1.56e-10 6.08e-11 5.35e-11 8.06e-11 uc/ml I-131 8.57c-10 8.56e-09 3.08e-09 1.20e-09 1.06e-09 1.59e-09 uc/ml I-132 6.48e-10 6.47e-09 2.33e-09 9.10e-10 8.00e-10 1.21e-09 uc/ml I-133 1.61e-09 1.61e-08 5.790-09 2.26e-09 1.99e-09 2.99e-09 uc/ml I-134 3.64e-10 3.64e-09 1.31e-09 5.12e-10 4.50e-10 6.78e-10 uc/ml I-135 1.22e-09 1.22e-08 4.39e-09 1.72e-09 1.51e-09 2.27e-09 uc/ml Rb-88 1.67e-09 1.67e-08 6.02e-09 2.35e-09 2.07e-09 3.11e-09 uc/ml Cs-138 1.73e-11 1.73e-10 6.22e-11 2.43e-11 2.14e-11 3.21e-11 uc/ml N-G 3.48e-08 3.47e-07 1.25e-07 4.88e-08 4.29e-08 6.47e-08 uc/ml Iodines 4.70e-09 4.69e-08 1.69e-08 6.60e-09 5.80e-09 8.74e-09 uc/ml Part 1.69e-09 1.69e-08 6.08e-09 2.37e-09 2.09e-09 3.14e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100' 77 Units CW O.000 0.004 0.001 0.001 0.000 0.001 r/hr OW 0.004 0.043 0.016 0.006 0.005 0.008 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.10e+02 1.10e+03 1.55e+02 1.36e+02 cpm 11:45:00 sample time + 15 minutes 213

a + L-. 4 > -<m,.

Auxiliary Building Hallway 11:45:00 Sample Time + 30 minutes O

( ,/ . Airborne Sample Analysis ISOTOPE 155 139' 130' 121 100 77 Units Kr-85 5.02e-11 9.91e-11 6.93e-11 5.97e-11 5.35e-11 4.07e-11 uc/ml Kr-85m 1.49e-09 2.95e-09 2.06e-09 1.78e-09 1.59e-09 1.21e-09 uc/ml Kr-87 1.62e-09 3.21e-09 2.24e-09 1.93e-09 1.73e-09 1.32e-09 uc/ml Kr-88 3.43e-09 6.77e-09 4.73e-09 4.08e-09 3.65e-09 2.78e-09 uc/ml Xe-131m 8.91e-11 1.76e-10 1.23e-10 1.06e-10 9.50e-11 7.22e-11'uc/ml Xe-133 2.11e-08 4.17e-08 2.92e-08 2.51e-08 2.25e-08 1.71e-08 uc/ml Xe-133m 7.27e-10 1.44e-09 1.00e-09 8.65e-10 7.75e-10 5.89e-10 uc/ml Xe-135 5.14e-09 1.01e-08 7.10e-09 6.12e-09 5.48e-09 4.16e-09 uc/ml Xe-135m 9.89e-12 1.95e-11 1.37e-11 1.18e-11 1.06e-11 8.02e-12 uc/ml Xe-138 2.05e-11 4.05e-11 2.83e-11 2.44e-11 2.19e-11 1.66e-11 uc/ml I-131 8.45e-10 1.67e-09 1.17e-09 1.01e-09 9.02e-10 6.85e-10 uc/ml I-132 5.93e-10 1.17e-09 8.20e-10 7.06e-10 6.33e-10 4.81e-10 uc/ml I-133 1.57e-09 3,lle-09 2.18e-09 1.87e-09 1.68e-09 1.28e-09 uc/ml I-134 2.95e-10 5.83e-10 4.08e-10 3.51e-10 3.1Se-10 2.39e-10 uc/ml I-135 1.17e-09 2.32e-09 1.62e-09 1.40e-09 1.25e-09 9.52e-10 uc/ml Rb-88 2.48e-09 4.89e-09 3.42e-09 2.95e-09 2.64e-09 2.01e-09 uc/ml Cs-138 2.05e-11 4.05e-11 2.84e-11 2.45e-11 2.19e-11 1.66e-11 uc/ml

\

N-G 3.37e-08 6.65e-08 4.65e-08 4.01e-08 3.59e-08 2.73e-08 uc/ml Iodines 4.48e-09 8.86e-09 6.20e-09 5.34e-09 4.78e-09 3.63e-09 uc/ml Part 2.50e-09 4.93e-09 3.45e-09 2.97e-09 2.66e-09 2.02e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100 77 Units CW 0.000 0.001 0.001 0.000 0.000 0.000 r/hr OW 0.004 0.008 0.006 0.005 0.004 0.003 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.50e+02 2.96e+02 1.79e+02 1.60e+02 cpm

\_ ___________________________________________________________________

11:45:00 sample time + 30 minutes 214 -

Auxiliary Building Hallway 11:45:00 Sample Time + 45 minutes O

( ,/ Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-66 4.06e-11 3.05e-11 2.68e-11 3.94e-11 3.72e-11 06e-11 uc/ml Kr-85m 1.16e-09 8.73e-10 7.68e-10 1.13e-09 1.07e-09 5.89e-10 uc/ml Kr-87 1.15e-09 8.61e-10 7.57e-10 1.11e-09 1.05e-09 5.81e-10 uc/ml Kr-88 2.61e-09 1.96e-09 1.72e-09 2.53e-09 2.39e-09 1.32e-09 uc/ml Xe-131m 7.20e-11 5.41e-11 4.75e-11 6.99e-11 6.60e-11 3.65e-11 uc/ml Xe-133 1.70e-08 1.28e-08 1.13e-08 1.65e-08 1.56e-08 8.64e-09 uc/ml Xe-133m 5.86e-10 4.40e-10 3.87e-10 5.69e-10 5.37e-10 2.97e-10 uc/ml Xe-135 4.09e-09 3.08e-09 2.70e-09 3.98e-09 3.76e-09 2.08e-09 uc/ml Xe-135m 4.07e-12 3.06e-12 2.69e-12 3.95e-12 3.73e-12 2.06e-12 uc/ml Xe-138 7.94e-12 5.97e-12 5.25e-12 7.71e-12 7.29e-12 4.02e-12 uc/ml I-131 6.83e-10 5.13e-10 4.51e-10 6.63e-10 6.27e-10 3.46e-10 uc/ml I-132 4.45e-10 3.34e-10 2.94e-10 4.32e-10 4.08e-10 2.26e-10 uc/ml I-133 1.26e-09 9.49e-10 8.34e-10 1.23e-09 1.16e-09 6.40e-10 uc/ml I-134 1.96e-10 1.47e-10 1.29e-10 1.90e-10 1.80e-10 9.93e-11 uc/ml I-135 9.26e-10 6.95e-10 6.11e-10 8.99e-10 8.49e-10 4.69e-10 uc/ml Rb-88 2.30e-09 1.73e-09 1.52e-09 2.23e-09 2.11e-09 1.16e-09 uc/ml Cs-138 1.52e-11 1.14e-11 1.00e-11 1.48e-11 1.39e-11 7.70e-12 uc/ml

(~~) ___________________________________________________________________

v N-G 2.68e-08 2.01e-08 1.77e-08 2.60e-08 2.46e-08 1.36e-08 uc/ml Iodines 3.51e-09 2.64e-09 2.32e-09 3.41e-09 3.22e-09 1.78e-09 uc/ml Part 2.31e-09 1.74e-09 1.53e-09 2.25e-09 2.12e-09 1.17e-09 uc/ml Hallway Dose Rates LEVEL 155 139' 130 121 100 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.003 0.003 0.002 0.003 0.003 0.002 r/hr Auxilinry Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units

, 1.36e+02 1.02e+02 1.32e+02 1.25e+02 cpm i

11:45:00 sample time + 45 minutes 215 je

Auxiliary Building Hallway 11:45:00 Sample Time + 60 minutes I Airborne Sample Analysis ISOTOPE 155 139 130 121 100' 77 Units Kr-85 3.11e-11 1.52e-11 1.33e-11 2.48e-11 2.47e-11 1.24e-11 uc/ml Kr-85m 8.57e-10 4.18e-10 3.68e-10 6.83e-10 6.81e-10 3.42e-10 uc/ml Kr-87 7.66e-10 3.73e-10 3.29e-10 6.10e-10 6.09e-10 3.05e-10 uc/ml Kr-88 1.88e-09 9.16e-10 8.06e-10 1.50e-09 1.49e-09 7.49e-10 uc/ml Xe-131m 5.51e-11 2.69e-11 2.36e-11 4.39e-11 4.38e-11 2.20e-11 uc/ml Xe-133 1.30e-08 6.36e-09 5.60e-09 1.04e-08 1.04e-08 5.200-09 uc/ml Xe-133m 4.47e-10 2.18e-10 1.92e-10 3.56e-10 3.56e-10 1.78e-10 uc/ml Xe-135 3.09e-09 1.51e-09 1.33e-09 2.46e-09 2.46e-09 1.23e-09 uc/ml Xe-135m 1.58e-12 7.72e-13 6.80e-13 1.26e-12 1.26e-12 6.32e-13 uc/ml Xe-138 2.91e-12 1.42e-12 1.25e-12 2.32e-12 2.32e-12 1.16e-12 uc/ml I-131 5.23e-10 2.55e-10 2.24e-10 4.17e-10 4.16e-10 2.08e-10 uc/ml I-132 3.16e-10 1.54e-10 1.36e-10 2.52e-10 2.52e-10 1.26e-10 uc/ml I-133 9.60e-10 4.68e-10 4.12e-10 7.64e-10 7.63e-10 3.83e-10 uc/ml I-134 1.23e-10 6.00e-11 5.28e-11 9.81e-11 9.80e-11 4.91e-11 uc/ml I-135 6.91e-10 3.37e-10 2.96e-10 5.50e-10 5.49e-10 2.75e-10 uc/ml Rb-88 1.84e-09 8.94e-10 7.87e-10 1.46e-09 1.46e-09 7.31e-10 uc/ml Cn-138 9.60e-12 4.68e-12 4.12e-12 7.64e-12 7.63e-12 3.83e-12 uc/ml N-G 2.02e-08 9.83e-09 8.66e-09 1.61e-08 1.60e-08 8.04e-09 uc/ml Iodines 2.61e-09 1.27e-09 1.12e-09 2.08e-09 2.08e-09 1.04e-09 uc/ml Part 1.84e-09 8.99e-10 7.91e-10 1.47e-09 1.47e-09 7.35e-10 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100' 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.003 0.001 0.001 0.002 0~.002 0.001 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.07e+02 5.23e+01 8.55e+01 8.54e+01 cpm 11:45:00 sample time + 60 minutes 216 4 w

Auxiliary Building Hallway 11:45:00 Sample Time + 75 minutes

) Airborne Sample Analysis ISOTOPE 155' 139 130 121 100 77 Units Kr-85 2.33e-11 9.60e-12 8.08e-12 1.56e-11 1.63e-11 8.09e-12 uc/ml Kr-85m 6.18e-10 2.55e-10 2.14e-10 4.14e-10 4.32e-10 2.15e-10 uc/ml Kr-87 5.01e-10 2.06e-10 1.74e-10 3.36e-10 3.50e-10 1.74e-10 uc/ml Kr-88 1.33e-09 5.46e-10 4.60e-10 8.87e-10 9.26e-10 4.60e-10 uc/ml Xe-131m 4.13e-11 1.70e-11 1.43e-11 2.77e-11 2.88e-11 1.43e-11 uc/ml Xe-133 9.77e-09 4.02e-09 3.39e-09 6.54e-09 6.82e-09 3.39e-09 uc/ml Xe-133m 3.34e-10 1.38e-10 1.16e-10 2.24e-10 2.33e-10 1.16e-10 uc/ml Xe-135 2.28e-09 9.41e-10 7.92e-10 1.53e-09 1.60e-09 7.93e-10 uc/ml Xe-135m 6.04e-13 2.49e-13 2.09e-13 4.04e-13 4.22e-13 2.10e-13 uc/ml Xe-138 1.05e-12 4.31e-13 3.63e-13 7.01e-13 7.31e-13 3.64e-13 uc/ml I-131 3.92e-10 1.61e-10 1.36e-10 2.62e-10 2.74e-10 1.36e-10 uc/ml I-132 2.20e-10 9.06e-11 7.63e-11 1.47e-10 1.54e-10 7.63e-11 uc/ml I-133 7.14e-10 2.94e-10 2.47e-10 4.78e-10 4.98e-10 2.48e-10 uc/ml I-134 7.58e-11 3.12e-11 2.63e-11 5.07e-11 5.29e-11 2.63e-11 uc/ml 1-135 5.05e-10 2.08e-10 1.75e-10 3.38e-10 3.52e-10 1.75e-10 uc/ml Rb-88 1.37e-09 5.64e-10 4.75e-10 9.16e-10 9.56e-10 4.75e-10 uc/ml Cs-138 5.63e-12 2.32e-12 1.95e-12 3.77e-12 3.93e-12 1.95e-12.uc/ml N-G 1.49e-08 6.14e-09 5.17e-09 9.97e-09 1.04e-08 5.17e-09 uc/ml Iodines 1.91e-09 7.85e-10 6.61e-10 1.28e-09 1.33e-09 6.61e-10 uc/ml Part 1.37e-09 5.66e-10 4.77e-10 9.20e-10 9.60e-10 4.77e-10 uc/ml Hallway Dose Rates LEVEL 155 139 130' 121 100 77 Units CW 0.000 0.000 0.000 0.000 0.000 0.000 r/hr OW 0.002 0.001 0.001 0.001 0.001 0.001 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 7.98e+01 3.29e+01 5.34e+01 5.57e+01 cpm

('

11:45:00 sample time + 75 minutes 217 ,

i

Auxiliary Building Hallway 12:00:00 Sample Time + 15 minutes (O,/ Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 1.37e-10 1.37e-09 4.92e-10 1.92e-10 1.69e-10 2.54e-10 uc/ml Kr-85m 4.07e-09 4.07e-08 1.47e-08 5.72e-09 5.03e-09 7.57e-09 uc/ml Kr-87 1.00e-08 9.99e-08 3.60e-08 1.41e-08 1.24e-08 1.86e-08 uc/ml Kr-88 9.33e-09 9.32e-08 3.36e-08 1.31e-08 1.15e-08 1.74e-08 uc/ml Xe-131m 2.439-10 2.43e-09 8.74e-10 3.41e-10 3.00e-10 4.52e-10 uc/ml Xe-133 1.30e-07 1.30e-06 4.69e-07 1.83e-07 1.61e-07 2.42e-07 uc/ml Xe-133m 4.48e-09 4.47e-08 1.61e-08 6.29e-09 5.53e-09 8.33e-09 uc/ml Xe-135 3.29e-08 3.28e-07 1.18e-07 4.62e-08 4.06e-08 6.11e-08 uc/ml Xe-135m 6.09e-11 6.08e-10 2.19e-10 8.56e-11 7.52e-11 1.13e-10 uc/ml Xe-138 1.26e-10 1.26e-09 4.54e-10 1.77e-10 1.56e-10 2.35e-10 uc/ml I-131 5.37e-09 5.37e-08 1.93e-08 7.55e-09 6.63e-09 9.99e-09 uc/ml I-132 3.77e-09 3.77e-08 1.36e-08 5.30e-09 4.66e-09 7.02e-09 uc/ml I-133 1.00e-08 1.00e-07 3.60e-08 1.41e-08 1.24e-08 1.86e-08 uc/ml I-134 1.87e-09 1.87e-08 6.75e-09 2.63e-09 2.32e-09 3.49e-09 uc/ml-I-135 7.46e-09 7.46e-08 2.69e-08 1.05e-08 9.22e-09 1.39e-08 uc/ml Rb-88 4.24e-09 4.23e-08 1.52e-08 5.95e-09 5.23e-09 7.87e-09 uc/ml Cs-138 5.04e-11 5.03e-10 1.81e-10 7.08e-11 6.22e-11 9.37e-11 uc/ml

\

N-G 1.91e-07 1.91e-06 6.89e-07 2.69e-07 2.36e-07 3.56e-07 uc/ml Iodines 2.85e-08 2.85e-07 1.03e-07 4.00e-08 3.52e-08 5.30e-08 uc/ml Part 4.29e-09 4.28e-08 1.54e-08 6.02e-09 5.29e-09 7.97e-09 uc/ml ,

Hallway Dose Rates LEVEL 155' 139' 130' 121' 100' 77' Units CW 0.002 0.022 0.008 0.003 0.003 0.004 r/hr OW 0.024 0.242 0.087 0.034 0.030 0.045 r/hr ,

Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 3.64e+02 3.63e+03 5.11e+02 4.49e+02 cpm l

1 12:00:00 sample time + 15 minutes l 218 -n

..)

Auxiliary Building Hallway 12:00:00 Sample Time + 30 minutes

() Airborne Sample Analysis ISOTOPE 155 139 130 121 100 77 Units Kr-85 1.35e-10 2.67e-10 1.87e-10 1.61e-10 1.44e-10 1.09e-10 uc/ml Kr-85m 3.87e-09 7.64e-09 5.35e-09 4.60e-09 4.13e-09 3.14e-09 uc/ml Kr-87 8.62e-09 1.70e-08 1.19e-08 1.03e-08 9.20e-09 6.99e-09 uc/ml Kr-88 8.67e-09 1.71e-08 1.20e-08 1.03e-08 9.25e-09 7.03e-09 uc/ml Xe-131m 2.40e-10 4.73e-10 3.31e-10 2.85e-10 2.56e-10 1.94e-10 uc/ml ,

Xe-133 1.28e-07 2.54e-07 1.77e-07 1.53e-07 1.37e-07 1.04e-07 uc/ml '

Xe-133m 4.41e-09 8.70e-09 6.09e-09 5.25e-09 4.70e-09 3.57e-09 uc/ml Xe-135 3.20e-08 6.32e-08 4.42e-08 3.81e-08 3.41e-08 2.59e-08 uc/ml Xe-135m 3.06e-11 6.04e-11 4.23e-11 3.64e-11 3.26e-11 2.48e-11 uc/ml Xe-138 5.97e-11 1.18e-10 8.25e-11 7.11e-11 6.37e-11 4.84e-11 uc/ml I-131 5.30e-09 1.05e-08 7.32e-09 6.31e-09 5.65e-09 4.30e-09 uc/ml I-132 3.46e-09 6.82e-09 4.77e-09 4.11e-09 3.69e-09 2.80e-09 uc/ml I-133 9.80e-09 1.94e-08 1.35e-08 1.17e-08 1.05e-08 7.94e-09 uc/ml I-134 1.52e-09 3.00e-09 2.10e-09 1.81e-09 1.62e-09 1.23e-09 uc/ml I-135 7.18e-09 1.42e-08 9.92e-09 8.55e-09 7.66e-09 5.82e-09 uc/ml Rb-88 6.27e-09 1.24e-08-8.66e-09 7.46e-09 6.68e-09 5.08e-09 uc/ml Cs-138 5.99e-11 1.18e-10 8.27e-11 7.12e-11 6.38e-11 4.85e-11 uc/ml ,

s ___________________________________________________________________

N-G 1.86e-07 3.68e-07 2.58e-07 2.22e-07 1.99e-07 1.51e-07 uc/ml Iodines 2.73e-08 5.38e-08 3.77e-08 3.24e-08 2.91e-08 2.21e-08 uc/ml Part 6.33e-09 1.25e-08 8.74e-09 7.53e-09 6.75e-09 5.13e-09 uc/ml Hallway Dose Rates LEVEL 155' 139 130 121' 100' 77 Units CW 0.002 .0.004 0.003 0.003 0.002_ 0.002 r/hr OW 0.024 0.046 0.032 0.028 0.025 0.019 r/hr Auxiliary Building Radiation Monitors ,

MONITOR R-33 R-32 R-31 R-30 Units ;

4.62e+02 9.12e+02 5.50e+02 4.92e+02 cpm 12:00:00 sample time + 30 minutes 219

'i

Auxiliary Building Hallway 12:00:00 Sample Time + 45 minutes i Airborne Sample Analysis ;

ISOTOPE 155 139' 130' 121 100 77 Units I Kr-85 1.09e-10 8.21e-11 7.21e-11 1.06e-10 1.00e-10 5.53e-11 uc/ml Kr-85m 3.01e-09 2.26e-09 1.99e-09 3.92e-09 2.76e-09 1.53e-09 uc/ml Kr-87 6.08e-09 4.57e-09 4.02e-09 5.91e-09 5.58e-09 3.08e-09 uc/ml Kr-88 6.60e-09 4.96e-09 4.36e-09 6.41e-09 6.05e-09 3.34e-09 uc/ml Xe-131m 1.94e-10 1.45e-10 1.28e-10 1.88e-10 1.78e-10 9.81e-11 uc/ml Xe-133 1.04e-07 7.79e-08 6.85e-08_1.01e-07 9.52e-08 5.26e-08 uc/ml Xe-133m 3.55e-09 2.67e-09 2.35e-09 3.45e-09 3.26e-09 1.80e-09 uc/ml Xe-135 2.55e-08 1.91e-08 1.68e-08 2.47e-08 2.34e-08 1.29e-08 uc/ml Xe-135m 1.26e-11 9.45e-12 8.31e-12 1.22e-11 1.15e-11 6.37e-12 uc/ml Xe-138 2.31e-11 1.74e-11 1.53e-11 2.25e-11 2.12e-11 1.17e-11 uc/ml I-131 4.28e-09 3.22e-09 2.83e-09 4.16e-09 3.93e-09 2.17e-09 uc/ml I-132 2.59e-09 1.95e-09 1.71e-09 2.52e-09 2.38e-09 1.31e-09 uc/ml I-133 7.86e-09 5.91e-09 5.19e-09 7.63e-09 7.21e-09 3.98e-09 uc/ml I-134 1.01e-09 7.58e-10 6.66e-10 9.79e-10 9.25e-10 5.11e-10 uc/ml I-135 5.66e-09 4.25e-09 3.74e-09 5.49e-09 5.19e-09 2.87e-09 uc/ml Rb-88 5.82e-09 4.37e-09 3.84e-09 5.65e-09 5.34e-09 2.95e-09 uc/ml Cs-138 4.43e-11 3.33e-11 2.92e-11 4.30e-11 4.06e-11 2.24e-11 uc/ml N-G 1.49e-07 1.12e-07 9.83e-08 1.44e-07 1.37e-07 7.54e-08 uc/ml Iodines 2.14e-08 1.61e-08 1.41e-08 2.08e-08 1.96e-08 1.08e-08 uc/ml Part 5.87e-09 4.41e-09 3.87e-09 5.69e-09 5.38e-09 2.97e-09 uc/ml Hallway Dose Rates LEVEL 155' 139' 130' 121' 100 77 Units CW 0.002 0.001 0.001 0.002 0.002 0.001 r/hr OW 0.019 0.014 0.012 0.018 0.017 0.009 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 4.08e+02 3.07e+02 3.96e+02 3.75e+02 cpm 22d2:00:00 sampie time + 45 minutes

Auxiliary Building Hallway 12:00:00 Sample Time + 60 minutes

p

'( Airborne Sample Analysis ISOTOPE 155' 139' 130' 121' 100' 77' Units Kr-85 8.37e-11 4.08e-11 3.59e-11 6.67e-11 6.65e-11 3.34e-11 uc/ml Kr-85m 2.22e-09 1.08e-09 9.52e-10 1.77e-09 1.76e-09 8.84e-10 uc/ml Kr-87 4.07e-09 1.98e-09 1.75e-09 3.24e-09 3.24e-09 1.62e-09 uc/ml Kr-88 4.76e-09 2.32e-09 2.04e-09 3.79e-09 3.78e-09 1.90e-09 uc/ml Xe-131m 1.48e-10 7.23e-11 6.36e-11 1.18e-10 1.18e-10 5.91e-11 uc/ml Xc-133 7.94e-08 3.87e-08 3.40c-08 6.32e-08 6.31e-08 3.16e-08 uc/ml Xe-133m 2.71e-09 1.32e-09 1.16e-09 2.16e-09 2.16e-09 1.08e-09 uc/ml '

Xe-135 1.92e-08 9.38e-09 8.25e-09 1.53e-08 1.53e-08 7.67e-09 uc/ml Xe-135m 4.90e-12 2.39e-12 2.10e-12 3.90e-12 3.89e-12 1.95e-12 uc/ml Xe-138 8.49e-12 4.14e-12 3.64e-12 6.76e-12 6.75e-12 3.39e-12 uc/ml I-131 3.28e-09 1.60e-09 1.41e-09 2.61e-09 2.61e-09 1.31e-09 uc/ml I-132 1.84e-09 8.98e-10 7.90e-10 1.47e-09 1.46e-09 7.34e-10 uc/ml I-133 5.97e-09 2.91e-09 2.56e-09 4.76e-09 4.75e-09 2.38e-09 uc/ml I-134 6.34e-10 3.09e-10 2.72e-10 5.05e-10 5.04e-10 2.53e-10 uc/ml I-135 4.22e-09 2.06e-09 1.81e-09 3.36e-09 3.36e-09 1.68e-09 uc/ml Rb-88 4.65e-09 2.26e-09 1.99e-09 3.70e-09 3.69e-09 1.85e-09 uc/ml Cs-138 2.80e-11 1.36e-11 1.20e-11 2.23e-11 2.22e-11 1.11e-11 uc/ml N-G 1.13e-07 5.49e-08 4.83e-08 8.97e-08 8.95e-08 4.49e-08 uc/ml Iodines 1.59e-08 7.77e-09 6.84e-09 1.27e-08 1.27e-08 6.36e-09 uc/ml Part 4.67e-09 2.28e-09 2.00e-09 3.72e-09 3.72e-09 1.86e-09 uc/ml l

l l

Hallway Dose Rates LEVEL 155' 139' 130' 121' 100' 77' Units CW 0.001 0.001 0.001 0.001 0.001 0.001'r/hr i OW 0.014 0.007 0.006 0.011 0.011 0.006 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R Units ,

1 1

3.20e+02 1.56e+02 2.55e+02 2.54e+02 cpm )

12:00:00 sample time + 60 minutes 221 , t l

.1 j

+ . . -

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

Auxiliary Building Hallway 12:15:00 Sample Time + 15 minutes

[

w Airborne Sample Analysis ISOTOPE 155' 139' 130' 123' 100 77' Units Kr-85 7.54e-11 7.53e-10 2.71e-10 1.06e-10 9.31e-11 1.40e-10 uc/ml Kr-85m 2.16e-09 2.16e-08 7.77e-09 3.03e-09 2.67e-09 4.02e-09 uc/ml Kr-87 4.26e-09 4.25e-08 1.53e-08 5.98e-09 5.26e-09 7.92e-09 uc/ml Kr-88 4.84e-09 4.83e-08 1.74e-08 6.80e-09 5.98e-09 9.00e-09 uc/ml Xe-131m 1.34e-10 1.34e-09 4.81e-10 1.88e-10 1.65e-10 2.49e-10 uc/ml Xe-133 6.35e-08 6.34e-07 2.28e-07 8.92e-08 7.84e-08 1.18e-07 uc/ml Xe-133m 2.18e-09 2.18e-08 7.83e-09 3.06e-09 2.69e-09 4.05e-09 uc/ml Xe-135 1.62e-08 1.62e-07 5.85e-08 2.28e-08 2.01e-08 3.02e-08 uc/ml Xe-135m 1.51e-11 1.51e-10 5.44e-11 2.12e-11 1.87e-11 2.81e-11 uc/ml Xe-138 2.95e-11 2.94e-10 1.06e-10 4.14e-11 3.64e-11 5.49e-11 uc/ml I-131 2.60e-09 2.59e-08 9.35e-09 3.65e-09 3.21e-09 4.83e-09 uc/ml I-132 1.69e-09 1.69e-08 6.10e-09 2.38e-09 2.09e-09 3.15e-09 uc/ml I-133 4.80e-09 4.80e-08 1.73e-08 6.75e-09 5.93e-09 8.94e-09 uc/ml I-134 7.45e-10 7.44e-09 2.68e-09 1.05e-09 9.20e-10 1.39e-09 uc/ml I-135 3.52e-09 3.52e-08 1.27e-08 4.94e-09 4.35e-09 6.55e-09 uc/ml Rb-88 2.20e-09 2.19e-08 7.90e-09 3.08e-09 2.71e-09 4.08e-09 uc/ml Cs-138 1.18e-11 1.18e-10 4.24e-11 1.65e-11 1.45e-11 2.19e-11 uc/ml

) . _----_-_. _-______-_-_--_--------_--_---_--____--_-----.-______--

N-G 9.34e-08 9.33e-07 3.36e-07 1.31e-07 1.15e-07 1.74e-07 uc/ml Iodines 1.34e-08 1.33e-07 4.81e-08 1.88e-08 1.65e-08 2.49e-08 uc/ml Part 2.21e-09 2.20e-08 7.94e-09 3.10e-09 2.73e-09 4.10e-09 uc/ml f

Hallway Dose Rates LEVEL 155' 139' 130' 121' 100' 77' Units t CW 0.001 0.011 0.004 0.001 0.001 0.002 r/hr ,

OW 0.012 0.117 0.042 0.016 0.015 0.022 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.81e+02 1.80e+03 2.54e+02 2.23e+02 cpm 12:15:00 sample time + 15 minutes

/

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

Auxiliary Building Hallway 12:15:00 Sample Time + 30 minutes Airborne Sample Analysis ISOTOPE 155' 139' 130 121' 100 77 Units Kr-85 7.44e-11 1.47e-10 1.03e-10 8.86e-11 7.94e-11 6.03e-11 uc/ml Kr-85m 2.05e-09 4.05e-09 2.83e-09 2.44e-09 2.19e-09 1.66e-09 uc/ml Kr-87 3.67e-09 7.25e-09 5.07e-09 4.37e-09 3.91e-09 2.98e-09 uc/ml Kr-88 4.50e-09 8.88e-09 6.21e-09 5.35e-09 4.80e-09 3.64e-09 uc/ml.

Xe-131m 1.32e-10 2.61e-10 1.82e-10 1.57e-10 1.41e-10 1.07e-10 uc/ml Xe-133 6,.26e-08 1.24e-07 8.65e-08 7.45e-08 6.68e-08 5.07e-08 uc/ml Xe-133m 2.14e-09 4.23e-09 2.96e-09 2.55e-09 2.29e-09 1.74e-09 uc/ml Xe-135 1.58e-08 3.12e-08 2.18e-08 1.88e-08 1.69e-08 1.28e-08 uc/ml Xe-135m 7.59e-12 1.50e-11 1.05e-11 9.03e-12 8.09e-12 6.15e-12 uc/ml-Xe-138 1.40e-11 2.76e-11 1.93e-11 1.66e-11 1.49e-11 1.13e-11 uc/ml I-131 2.56e-09 5.06e-09 3.54e-09 3.05e-09 2.73e-09 2.08e-09 uc/ml I-132 1.55e-09 3.07e-09 2.15e-09 1.85e-09 1.66e-09 1.26e-09 uc/ml I-133 4.70e-09 9.29e-09 6.50e-09 5.60e-09 5.02e-09 3.81e-09 uc/ml I-134 6.04e-10 1.19e-09 8.34e-10 7.18e-10 6.44e-10 4.89e-10 uc/ml I-135 3.39e-09 6.69e-09 4.68e-09 4.03e-09 3.61e-09 2.74e-09 uc/ml Rb-88 3.25e-09 6.41e-09 4.49e-09 3.87e-09 3.47e-09 2.63e-09 uc/ml Cs-138 1.40e-11 2.76e-11 1.93e-11 1.67e-11 1.49e-11 1.13e-11 uc/ml N-G 9.10e-08 1.80e-07 1.26e-07 1.08e-07 9.70e-08 7.38e-08 uc/ml Iodines 1.28e-08 2.53e-08 1.77e-08 1.52e-08 1.37e-08 1.04e-08 uc/ml l Part 3.26e-09 6.44e-09 4.51e-09 3.88e-09 3.48e-09 2.64e-09 uc/ml Hallway Dose Rates LEVEL 155' 139' 130' 121' 100' 77' Units l

CW 0.001 0.002 0.001 0.001 0.001 0.001 r/hr OW 0.011 0.023 0.016 0.014 0.012. 0.009 r/hr l

Auxiliary Building Radiation Monitors MONITOR R-33 R R-31 R-30 Units 2.32e+02 4.58e+02 2.76e+02- 2.47e+02 cpm l

12:15:00 sample time + 30 minutes 223 i 4

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l 1

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l Auxiliary Building Hallway 12:15:00 Sample Time + 45 minutes 7~

(,) Airborne Sample Analysis i

I ISOTOPE 155 139 130 121 100' 77 Units Kr-85 6.02e-11 4.52c-11 3.98e-11 5.84e-11 5.52e-11 3.05e-11 uc/ml Kr-85m 1.60e-09 1.20e-09 1.05e-09 1.Fie-09 1.46e-09 8.09e-10 uc/ml Kr-87 2.59e-09 1.95e-09 1.71e-09 2.51e-09 2.38e-09 1.31e-09 uc/ml i Kr-88 3.42e-09 2.57e-09 2.26e-09 3.32e-09 3.14e-09 1.73e-09 uc/ml '

Xe-131m 1.07e-10 8.01e-11 7.04e-11 1.04e-10 9.78e-11 5.40e-11'uc/ml Xe-133 5.06e-08 3.80e-08 3.34e-08 4.91e-08 4.64e-08 2.56e-08 uc/ml Xe-133m 1.73e-09 1.30e-09 1.14e-09 1.68e-09 1.58e-09 8.75e-10.uc/ml Xe-135 1.26e-08 9.46e-09 8.32e-09 1.22e-08 1.16e-08 6.38e-09 uc/ml Xe-135m 3.12e-12 2.34e-12 2.06e-12 3.03e-12 2.86e-12 1.58e-12 uc/ml Xe-138 5.41e-12 4.06e-12 3.57e-12 5.25e-12 4.96e-12 2.74e-12 uc/ml I-131 2.07e-09 1.56e-09 1.37e-09 2.01e-09 1.90e-09 1.05e-09 uc/ml I-132 1.16e-09 8.75e-10 7.69e-10 1.13e-09 1.07e-09 5.90e-10 uc/ml ;

I-133 3.77e-09 2.83e-09 2.49e-09 3.66e-09 3.46e-09 1.91e-09 uc/ml I-134 4.01e-10 3.01e-10 2.65e-10 3.89e-10 3.68e-10 2.03e-10 uc/ml {

I-135 2.67e-09 2.00e-09 1.76e-09 2.59e-09 2.45e-09 1.35e-09 uc/ml l, Rb-88 3.02e-09 2.27e-09 1.99e-09 2.93e-09 2.77e-09 1.53e-09 uc/ml Cs-138 1.04e-11 7.78e-12 6.84e-12 1.01e-11 9.50e-12 5.25e-12 uc/ml

___________________________________________________________________ i N-G 7.27e-08 5.46e-08 4.80e-08 7.05e-08 6.67e-08 3.68e-08.uc/ml Iodines 1.01e-08 7.57e-09 6.65e-09 9.78e-09 9.24e-09 5.11e-09 uc/ml Part 3.03e-09 2.27e-09 2.00e-09 2.94e-09 2.78e-09 1.53e-09 uc/ml Hallway Dose Rates LEVEL 155' 139' 130' 121' 100' 77' Units I

l CW 0.001 0.001 0.001 0.001 0.001 0.000 r/hr OW 0.009 0.007 0.006 0.009 0.008 0.005 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 2.06e+02 1.55e+02 2.00e+02 1.89e+02 cpm 12:15:00 sample time + 45 minutes 224 .

Auxiliary Building Hallway 12:30:00 Sample Time + 15 minutes s

Airborne Sample Analysis ISOTOPE 155' 139' 130' 121' 100' 77' Units Kr-85 7.04e-11 7.03e-10 2.53e-10 9.88e-11 8.69e-11 1.31e-10 uc/ml Kr-85m 1.94e-09 1.94e-08 6.98e-09 2.72e-09 2.39e-09 3.61e-09 uc/ml Kr-87 3.57e-09 3.57e-08 1.29e-08 5.02e-09 4.41e-09 6.65e-09 uc/ml Kr-88 4.25e-09 4.25e-08 1.53e-08 5.97e-09 5.25e-09 7.91e-09 uc/ml Xe-131m 1.25e-10 1.25e-09 4.49e-10 1.75e-10 1.54e-10 2.32e-10 uc/ml Xe-133 6.10e-08 6.09e-07 2.19e-07 8.57e-08 7.53e-08 1.13e-07 uc/ml Xe-133m 2.09e-09 2.08e-08 7.51e-09 2.93e-09 2.58e-09 3.88e-09 uc/ml Xe-135 1.58e-08 1.58e-07 5.69e-08 2.22e-08 1.95e-08 2.94e-08 uc/ml Xe-135m 7.39e-12 7.37e-11 2.66e-11 1.04e-11 9.13e-12 1.37e-11 uc/ml Xe-138 1.36e-11 1.36e-10 4.89e-11 1.91e-11 1.68e-11 2.53e-11 uc/ml I-131 2.49e-09 2.49e-08 8.97e-09 3.50e-09 3.08e-09 4.64e-09 uc/ml I-132 1.51e-09 1.51e-08 5.44e-09 2.12e-09 1.86e-09 2.81e-09 uc/ml ,

I-133 4.57e-09 4.57e-08 1.65e-08 6.42e-09 5.65e-09 8.51e-09 uc/ml I-134 5.87e-10 5.86e-09 2.11e-09 8.24e-10 7.25e-10 1.09e-09 uc/ml I-135 3.29e-09 3.29e-08 1.18e-08 4.62e-09 4.06e-09 6.12e-09 uc/ml Rb-88 1.93e-09 1.93e-08 6.94e-09 2.71e-09 2.38e-09 3.59e-09 uc/ml Cs-138 5.43e-12 5.41e-11 1.95e-11 7.63e-12 6.70e-12 1.01e-11 uc/ml T ___________________________________________________________________

J N-G 8.89e-08 8.88e-07 3.20e-07 1.25e-07 1.10e-07 1.65e-07 uc/ml Iodines 1.25e-08 1.24e-07 4.48e-08 1.75e-08 1.54e-08 2.32e-08 uc/ml Part 1.93e-09 1.93e-08 6.96e-09 2.72e-09 2.39e-09 3.60e-09 uc/ml l

Hallway Dose Rates LEVEL 155 139 130' 121' 100 77 Units l

CW 0.001 0.010 0.004 0.001 0.001 0.002 r/hr l OW 0.011 0.111 0.040 0.016 0.014 0.021 r/hr

___________________________________________________________________ l Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.62e+02 1.62e+03 2.28e+02 2.00e+02 cpm i

___________________________________________________________________ j 12:30:00 sample time + 15 minutes 225 y p +,m - -

E i

l Auxiliary Building Hallway 12:30:00 Sample Time + 30 minutes ;

e)

(,, Airborne Sample Analysis ISOTOPE 155' 139' 130' 121' 100' 77 Units 6.95e-11 1.37e-10 9.60e-11 8.27e-11 7.41e-11 5.63e-11 uc/ml Kr-85 Kr-85m 1.84e-09 3.64e-09 2.55e-09 2.19e-09 1.96e-09 1.49e-09 uc/ml Kr-87 3.08e-09 6.08e-09 4.25e-09 3.66e-09 3.28e-09 2.50e-09 uc/ml Kr-88 3.95e-09 7.80e-09 5.46e-09 4.70e-09 4.21e-09 3.20e-09 uc/ml Xe-131m 1.23e-10 2.43e-10 1.70e-10 1.47e-10 1.31e-10 9.98e-11 uc/ml Xe-133 6.01e-08 1.19e-07 8.31e-08 7.16e-08 6.41e-08 4.87e-08 uc/ml Xe-133m 2.05e-09 4.05e-09 2.84e-09 2.44e-09 2.19e-09 1.66e-09 uc/ml Xe-135 1.54e-08 3.04e-08 2.13e-08 1.83e-08 1.64e-08 1.25e-08 uc/ml Xe-135m 3.71e-12 7.32e-12 5.12e-12 4.41e-12 3.96e-12 3.01e-12 uc/ml Xe-138 6.43e-12 1.27e-11 8.88e-12 7.65e-12 6.86e-12 5.21e-12 uc/ml I-131 2.46e-09 4.86e-09 3.40e-09 2.93e-09 2.62e-09 1.99e-09 uc/ml I-132 1.38e-09 2.73e-09 1.91e-09 1.65e-09 1.48e-09 1.12e-09 uc/ml I-133 4.48e-09 8.85e-09 6.19e-09 5.33e-09 4.78e-09 3.63e-09 uc/ml I-134 4.76e-10 9.39e-10 6.57e-10 5.66e-10 5.07e-10 3.86e-10 uc/ml I-135 3.17e-09 6.25e-09 4.38e-09 3.77e-09 3.38e-09 2.57e-09 uc/ml Rb-88 2.85e-09 5.63e-09 3.94e-09 3.40e-09 3.04e-09 2.31e-09 uc/ml Cs-138 6.45e-12 1.27e-11 8.90e-12 7.67e-12 6.88e-12 5.22e-12 uc/ml N-G 8.67e-08 1.71e-07 1.20e-07 1.03e-07 9.24e-08 7.02e-08 uc/ml Iodines 1.20e-08 2.36e-08 1.65e-08 1.42e-08 1.28e-08 9.70e-09 uc/ml Part 2.86e-09 5.65e-09 3.95e-09 3.40e-09 3.05e-09 2.32e-09 uc/ml Hallway Dose Rates LEVEL 155' 139 130 121 100 77 Units CW 0.001 0.002 0.001 0.001 0.001 0.001 r/hr OW 0.011 0.021 0.015 0.013 0.012 0.009 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 2.07e+02 4.08e+02 2.46e+02 2.21e+02 cpm 12:30:00 sample time + 30 minutes 226 ,

Auxiliary Building Hallway 12:45:00 Sample Time + 15 minutes Airborne Sample Analysis ISOTOPE 155 139 130 121 100' 77' Units Kr-85 7.65e-11 7.64e-10 2.75e-10 1.07e-10 9.44e-11 1.42e-10 uc/ml Kr-85m 2.03e-09 2.03e-08 7.30e-09 2.85e-09 2.50e-09 3.77e-09 uc/ml 4

Kr-87 4.00e-09 3.99e-08 1.44e-08 5.61e-09 4.93e-09 7.43e-09 uc/ml Kr-88 4.35e-09 4.34e-08 1.56e-08 6.11e-09 5.37e-09 8.09e-09 uc/ml Xe-131m 1.36e-10 1.35e-09 4.88e-10 1.90e-10 1.67e-10 2.52e-10 uc/ml Xe-133 7.81e-08 7.80e-07 2.81e-07 1.10e-07 9.64e-08 1.45e-07 uc/ml Xe-133m 2.66e-09 2.66e-08 9.59e-09 3.74e-09 3.29e-09 4.96e-09 uc/ml Xe-135 2.05e-08 2.05e-07 7.39e-08 2.89e-08 2.54e-08 3.82e-08 uc/ml Xe-135m 4.82e-12 4.80e-11 1.73e-11 6.77e-12 5.95e-12 8.95e-12 uc/ml Xe-138 8.35e-12 8.33e-11 3.00e-11 1.17e-11 1.03e-11 1.55e-11 uc/ml I-131 3.20e-09 3.20e-08 1.15e-08 4.50e-09 3.95e-09 5.95e-09 uc/ml I-132 1.80e-09 1.80e-08 6.48e-09 2.53e-09 2.22e-09 3.35e-09 uc/ml I-133 5.83e-09 5.82e-08 2.10e-08 8.19e-09 7.20e-09 1.08e-08 uc/ml I-134 6.19e-10 6.18e-09 2.23e-09 8.70e-10 7.64e-10 1.15e-09 uc/ml I-135 4.12e-09 4.12e-08 1.48e-08 5.79e-09 5.09e-09 7.67e-09 uc/ml Rb-88 1.97e-09 1.97e-08 7.09e-09 2.77e-09 2.43e-09 3.67e-09 uc/ml Cs-138 3.34e-12 3.32e-11 1.20e-11 4.69e-12 4.12e-12 6.19e-12 uc/ml N-G 1.12e-07 1.12e-06 4.03e-07 1.57e-07 1.38e-07 2.08e-07 uc/ml Iodines 1.56e-08 1.56e-07 5.60c-08 2.19e-08 1.92e-08 2.90e-08 uc/ml Part 1.98e-09 1.97e-08 7.11e-09 2.78e-09 2.44e-09 3.67e-09 uc/ml Hallway Dose Rates LEVEL 155 139 130 121 100' 77' Units 0.002 r/hr CW 0.001 0,013 0.005 0.002 0.002 OW 0.014 0.140 0.050 0.020 0.017 0.026 r/hr Auxiliary Building Radiation Monitors MONITOR R-33 R-32 R-31 R-30 Units 1.80e+02 1.80e+03 2.53e+02 2.22e+02 cpm 12:45:00 sample time + 15 minutes 227 L'

(_,)

PLUME MAPS tass Onsite Field Dose Rates 229 Onsite Map 231 Offsite Plume Map Directions 232 Offsite Plume Maps 233 Offeite Iodine Filter Results 242a Offsite Particulate Filter Results 242b Offsite Gamma Spec Filter Results 242c l

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I Onsite Field Dose Rates ;

For the purposes of this drill, the plume will be elevated until it reaches the plant site boundary where it touches down. Shown on the following pages are dose rates corresponding to onsite predesignated monitoring points as shown on the map. All dose rates for points within the one mile boundary are mR/hr ion chamber closed window readings. For locations between points in the plume path, interpolate dose rates.between the indicated points. Open window ion chamber readings will equal closed window readings until the one mile site boundary is reached.

O Any air samples taken at less than the one mile site boundary will read background on the frisker. For air samples drawn at the one mile site boundary or beyond, use the data tables for offsite air sample filter results.

Dose rates in the EOF may be calculated by attenuating the "W" readings from the next page by a factor of five based on the EOF's design shielding factor of five.

!v 229

() Onsite Field Dose Rates (cont)

Time W X Z Y 0800 0.0 0.0 0.0 0.0 0815 0. 0 0.0 0.0 0.0 0830 0.0 0.0 0.0 0.0 0845 00 0.0 0.0 0.0 0900 0.0 0.0 0.0 0.0 0915 0.0 0.0 0.0 0.0 0930 0.0 0.0 0.0 0.0 0945 0.0 0.0 0.0 0.0 1000 0.0 0.0 0.0 0.0 1015 0.0 0.0 0.0 0.0 ,

1030 0.0 0.0 0.0 0.0 1045 2.0 7.0 1.0 0.1 i

1100 3.0 8.0 1.2 0.1 1115 18.0 82.0 6.0 1.0 -j 1130 25.0 147.0 12.0 2.0 1145 30.0 150.0 15.0 2.0 +

1200 10.0 65.0 5.0 2.0 1215 23.0 120.0 15.0 0.8 1230 5.0 80.0 10.0 1.6 1245 1.0 25.0 3.0 0.8 1300 2.0 48.0 5.0 1.2 0

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( *as 231

Offsite Plume May_sa Numbers shown in the plume are average mR/hr ion chamber beta /camma open window dose rates at the plume centerline. At plume centerline, instantaneous values should range randomly by 10% of the indicated values. Several minutes worth of monitoring should average out to a reading close to the indicated value. The highlighted lines indicate the two sigma plume boundary.

Outside the boundary, readings should be background. Between the boundary and the centerline, the average readings should be estimated based on a bell shaped curve corresponding to background at the plume edge and the maximum value shown at centerline.

Readings taken at locations between indicated doses should be interpolated. All values shown are mr/hr ion chamber open window readings. Closed window gamma readings will equal 1/2 the open window beta / gamma readings. Height of the detector above ground will not affect readings.

If an RMT is monitoring background with a GM type instrument and approaches close to the edge of the plume, then increased count rate (cpm) readings should be given by the controller to indicate presence of the plume edge. If this method is used by the team, the maximum cpm value given at the edge of the plume should not be greater than 4,000 cpm. Once the team is in the plume, use the indicated ion chamber dose rates or interpolated doses.

Air sample results from the site boundary out to ten miles are

() included on additional sheets.

232

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CPM 5 P-CPM 10 700 0 0 0 0 715 0 0 0 0 730 0 0 0 0 745 0 0 0 0 800 0 0 0 0 815 0 0 0 0 830 0 0 0 0 845 0 0 0 0 900 0 0 0 0 915 0 0 0 0 930 0 0 0 0 945 0 0 0 0 1000 0 0 0 0 j 1015 0 0 0 0 1030 0 0 0 0 1045 1600 0 0 0 1100 1700 0 0 0 1115 18300 380 0 0 1130 33600 13800 0 0 1145 32800 9800 0 0 1200 17100 6900 0 0 1215 26200 4600 170 0 1230 17300 7200 3200 0 1245 6200 4000 2l00 0 1300 11400 1600 1700 0 NOTE : The epm listed is for the mileage boundaries, for air samples 3 taken between boundaries interpolate the value between the values for the boundaries on each side. SB = Site Boundary 2 = Two Mile Boundary O 5 = Five Mile llourulary 10 = Ten Mile Boundary 1 f O i l 1 Offsite Filter Gamma Spectroseopy Results O O 242c l ' ' TIME . 1030 O LOCATION . SB 2 MILE 5 MILE uti/ml %MPC uci/ml %MPC uci/ml %MPC Rb-88 . bbbhbb bb bbbEbb b$b b$bbEbb b$b Cs-138 0.00E+00 0.0 0.00E+00 0.0 0.00E+00 0.0 1-131 - 0.00E+00 0.0 0.00E+00 0.0 0.00E+00- 0.0 ' I-132 . 0.00E+00 0.0 0.00E+00 0.0 0.00E+00 0.0 I-133 . 0.00E+00 0.0 0.00E+00 0.0 0.00E+00 0.0 1-134 . 0.00E+00 0.0 0.00E+00 0.0 0.00E+00 0.0 I-135 - 0.00E+00 0.0 0.00E+00 0.0 0.00E+00 0.0 TOTAL PART. 0.00E+00 0.0 0.00E+00 0.0 0.00E+00 0.0 TOTAL 100. 0.00E+00 0.0 0.00E+00 0.0 0.00E+00 0.0 i TIME - 1045 LOCATION . SB 2 MILE 5 MILE uci/ml %MPC uci/ml %MPC uci/ml %MPC l Rb-88 - kbhhbb k$b bbbhbb bb bbbhbb bb Cs-138 - 4.40E-09 0.4 0.00E+00 0.0 0.00E+00 0.0 1-131 - 6.87E-10 7.6 0.00E+00 0.0 0.00E+00 0.0 1-132 . 6.49E-10 7.2 0.00E+00 0.0 0.00E+00 0.0 ( I-133 . 1.32E-09 14.7 0.00E+00 0.0 0.00E+00 0.0 i I-134 . 5.26E-10 5.8 0.00E+00 0.0 0.00E+00 0.0 l I-135 . 1.06E-09 11.7 0.00E+00 0.0 0.00E+00 '0.0 ! TOTAL PART. 1.76E-08 1.8 0.00E+00 0.0 0.00E+00 0.0 TOTAL IOD. - 4.24E-09 47.1 0.00E+00 0.0 0.00E+00 0.0 ] ) J TIME - 1100 LOCATION - SB 2 MILE 5 MILE uci/ml %MPC uci/ml %MPC aci/ml %MPC Rb-88 . k$4bhbb k4 bbbhbb bb bbbkbb bb Cs-138 - 4.68E-09 0.5 0.00E+00 0.0 0.00E+00 0.0 I-131 . 8.59E-10 9.5 0.00E+00 0.0 0.00E+00 0.0 1-132 . 8.llE-10 9.0 0.00E+00 0.0 0.00E+00 0.0 1-133 . 1.65E-09 18.4 0.00E+00 1.0 0 0.00E+00 0.0 I-134 . 6.57E-10 7.3 0.00E+00 0.0 0.00E+00 0.0 1-135 - 1.32E-09 14.7 0.00E+00 0.0 0.00E+00 0.0 TOTAL PART. 1.87E-08 1.9 0.00E+00 0.0 0.00E+00 0.0 TOTAL 100. = 5.30E-09 58.9 0.00E+00 0.0 0.00E+00 0.0 0 7 242a O TIME LOCATION . 1115 SB 2 MILE 5 MILE uci/ml %MPC uci/ml %MPC uci/ml %MPC Rb-88 - k$bkk bh kb$k b$k4hbb bb b$bbkbb b$b Cs-138 - 5.03E-08 5.0 1.05E-09 0.1 0.00E+00 0.0 1-131 . 8.59E-09 95.4 1.72E-10 1.9 0.00E+00 0.0 I-132 - 8.11E-09 90.1 1.62E-10 1.8 0.00E+00 0.0 i 1-133 . 1.65E-08 183.7 3.31E-10 3.7 0.00E+00 0.0 I-134 . 6.57E-09 73.0 1.31E-10 1.5 0.00E+00 0.0 1-135 . 1.32E-08 146.6 2.64E-10 2.9 0.00E+00 0.0 TOTAL PART. 2.01E-07 20.1 4.18E-09 0.4 0.00E+00 0.0 TOTAL IOD. 5.30E-08 588.9 1.06E-09 11.8 0.00E+00 0.0 TIME . 1130 LOCATION . SB 2 MILE 5 MILE uci/ml %MPC uci/ml %MPC uci/ml %MPC Rb-88 . h$hhh bh hh$h k$kkh bh kk$k bbbhbb bb Cs-138.. 9.24E-08 9.2 3.80E-08 3.8 0.00E+00 0.0 1-131 - 1.55E-08 171.7 6.87E-09 76.3 0.00E+00 0.0 I-132 . 1.46E-08 162.2 6.49E-09 72.1 0.00E+00 0.0 1-133 - 2.98E-08 330.7 1.32E-08 147.0 0.00E+00 0.0 1-134 . 1.18E-08 131.4 5.26E-09 58.4 0.00E+00 0.0 I-135 - 2.38E-08 263.9 1.06E-08 117.3 0.00E+00 0.0 TOTAL PART. 3.70E-07 37.0 1.52E-07 15.2 0.00E+00 0.0 TOTAL 100. = 9.54E-08 1060.0 4.24E-08 471.1 0.00E+00 0.0 TIME . 1145 LOCATION - 58 2 MILE 5 MILE , l uci/ml %MPC uti/ml %MPC uci/ml %MPC j Rb-88 . h$hkh bh hh k 8$bbhb8 8k bbbhbb bb Cs-138 - 9.02E-08 9.0 2.70E-08 2.7 0.00E+00 0.0 1-131 . 1.55E-08 171.7 5.15E-09 57.2 0.00E+00 0.0 1-132 . 1.46E-08 162.2 4.87E-09 54.1 0.00E+00 0.0 I-133 - 2.98E-08 330.7 9.92E-09 110.2 0.00E+00 0.0 1-134 . 1.18E-08 131.4 3.94E-09 43.8 0.00E+00 0.0 1-135 - 2.38E-08 263.9 7.92E-09 88.0 0.00E+00 0.0 TOTAL PART. 3.61E-07 36.1 1.08E-07 10.8 0.00E+00 0.0 TOTAL 100. = 9.54E-08 1060.0 3.18E-08 353.3 0.00E+00 0.0 .o - 242e TIME . 1200 O- LOCATION . S8 2 HILE 5 MILE uci/ml %MPC uci/ml %MPC uci/ml %MPC Rb-88 - k kkh bh kk k bbbhbb bh bbbkbb bb Cs-138 4.70E-08 4.7 1.90E-08 1.9 0.00E+00 0.0 I-131 . 7.73E-09 85.9 3.35E-09 37.2 0.00E+00 0.0 1-132 . 7.30E-09 81.1 3.16E-09 35.1 0.00E+00 0.0 I-133 - 1.49E-08 165.4 6.45E-09 71.7 0.00E+00 0.0 1-134 - 5.91E-09 65.7 2.56E-09 28.5 0.00E+00 0.0 1-135 . 1.19E-08 132.0 5.15E-09 57.2 0.00E400 0.0 TOTAL PART. - 1.88E-07 18.8 7.59E-08 7.6 0.00E+00 0.0 TOTAL 100. - 4.77E-08 530.0 2.07E-08 229.7 0.00E+00 0.0 TIME . 1215 LOCATION . SB 2 MILE 5 MILE uci/ml %MPC uci/ml %MPC uci/ml %MPC Rb-88 = h kbE bh hk$b b$bbEbb b$b k$4bEbb bk Cs-138 = 7.20E-08 7.2 1.27E-08 1.3 4.68E-10 0.0 I-131 - 1.03E-08 114.5 2.06E-09 22.9 1.72E-10 1.9 I-132 . 9.73E-09 108.1 1.95E-09 21.6 1.62E-10 1.8 1-133 - 1.98E-08 220.5 3.97E-09 44.1 3.31E-10 3.7 I-134 - 7.89E-09 87.6 1.58E-09 17.5 1.31E-10 1.5 I-135 . 1.58E-08 176.0 3.17E-09 35.2 2.64E-10 2.9 < TOTAL PART. - 2.88E-07 28.8 5.06E-08 5.1 1.87E-09 0.2 TOTAL 10D. = 6.36E-08 706.7 1.27E-08 141.3 1.06E-09 11.8 i I l 4 TIME - 1230 l LOCATION - SB 2 MILE 5 MILE ! uti/ml %MPC uci/ml %MPC uci/ml %MPC j Rb-88 = 1.43E-07 14.3 5.94E-08 5.9 2.64E-08 2.6 ; Cs-138 - 4.76E-08 4.8 1.98E-08 2.0 8.80E-09 0.9 I I-131 . 7.73E-09 85.9 3.61E-09 40.1 2.06E-09 22.9 l-132 . 7.30E-09 81.1 3.41E-09 37.8 1.95E-09 21.6 I-133 = 1.49E-08 165.4 6.95E-09 77.2 3.97E-09 44.1 I-134 - 5.91E-09 65.7 2.76E-09 30.7 1.58E-09 17.5 I-135 . 1.19E-08 132.0 5.54E-09 61.6 3.17E-09 35.2 ..................................................................... j TOTAL PART. 1.90E-07 19.0 7.92E-08 7.9 3.52E-08 3.5 ! TOTAL 100. - 4.77E-08 530.0 2.23E-08 247.3 1.27E-08 141.3 l 242f l l [ TIME - 1245 LOCATION . SB 2 MILE 5 MILE uci/ml %MPC uci/ml %MPC uci/ml %MPC Rb-88 - b bb bb bk bbbEbb b$b k$hbbbb k$h Cs-138 1.71E-08 1.7 1.10E-08 1.1 5.78E-09 0.6 I-131 - 2.83E-09 31.5 1.80E-09 20.0 1.29E-09 14.3 1-132 - 2.68E-09 29.7 1.70E-09 18.9 1.22E-09 13.5 I-133 . 5.46E-09 60.6 3.47E-09 38.6 2.48E-09 27.6 I-134 - 2.17E-09 24.1 1.38E-09 15.3 9.86E-10 11.0 1-135 - 4.36E-09 48.4 2.77E-09 30.8 1.98E-09 22.0 TOTAL PART. = 6.82E-08 6.8 4.40E-08 4.4 2.31E-08 2.3 TOTAL 100. - 1.75E-08 194.3 1.llE-08 123.7 7.95E-09 88.3 TIME . 1300 LOCATION - SB 2 MILE 5 MILE uti/ml %MPC uci/ml %MPC uci/ml %MPC Rb-88 - 9.41E-08 9.4 1.32E-08 1.3 1.40E-08 1.4 Cs-138 - 3.14E-08 3.1 4.40E-09 0.4 4.68E-09 0.5 I-131 - 5.15E-09 57.2 7.73E-10 8.6 1.03E-09 11.4 5 I-132 = 4.87E-09 54.1 7.30E-10 8.1 9.73E-10 10.8 I-133 - 9.92E-09 110.2 1.49E-09 16.5 1.98E-09 22.0 1-134 - 3.94E-09 43.8 5.91E-10 6.6 7.89E-10 8.8 I-135 - 7.92E-09 88.0 1.19E-09 13.2 1.58E-09 17.6 ................n.................................................... TOTAL PART. - 1.25E-07 12.5 1.76E-08 1.8 1.87E-08 1.9 TOTAL IOD. = 3.18E-08 353.3 4.77E-09 53.0 6.36E-09 70.7 O O p3 2429 l l I l METEROLOGICAL FORECAST DATA I Zone 15 - Aviation Weather Forecast j From 0800 to 1200 use the forecasts below: 6 hour forecast Overcast at 6,000 Slight chance of scattered thunderstorms in PM Winds - 105 r.t 3 (105 is "from" wind direction in degrees and 3 is windspeed in knots) 12 hour forecast (valid after 1400) Scattared at 10,000 Windh - 140 at 5 From 1200 to end of exercise 6 hour forecast () Scattered at 10,000 20% chance of scattered thunderstorms Winds - variable 105 to 130 at 3 to 5 12 hour forecast (valid after 1800) Clear Winds - 140 at 4 Public Weather Forecast Current conditions (valid until 1000) Cloudy with 15% chance of PM thunderstorms Temperature 62 degrees F Barometric Pressure - 30.10 and stable Winds - from east-southeast between 2 and 5 mph Predicted Clearing during the late afternoon High temperature in the low-70's Winds - from the east to southeast between 3 to 6 mph \ l' 244 l 1 _ _ _ _ -. . - l i i METEOROLOGICAL DATA WIND WIND TEMP RELEASE SOURCE TIME SPEED DIRECT DIFF FROM PVS OF (MPH) (FROM) (DEGREES F) (uC/ml)

DAY 35 150 35 150 CH A CH B CLASS NG IODINE 0800 2.2 2.4 99 102 .67 .67 D 8.2E-06 4.5E-11 0815 3.2 3.0 103 103 .75 .75 D 8.7E-06 4.4E-11 0830 3.1 3.3 101 103 .75 .75 D 8.4E-06 4.6E-11 0845 2.9 2.8 102 103 .77 .77 D 8.1E-06 4.9E-11 0900 3.0 3.1 101 103 .74 .74 D 8.8E-06 4.5E-11 0915 2.9 3.0 102 103 .74 .74 D 8.5E-06 4.7E-11 0930 2.9 2.9 102 103 .76 .76 D 8.2E-06 4.6E-11 0945 3.1 3.0 101 103 .73 .73 D 8.8E-06 9.4E-11 1000 3.2 3.1 103 103 .73 .73 D 8.8E-06 4.6E-11 1015 3.1 3.1 102 103 .78 .78 D 8.5E-06 4.7E-11 1030 3.1 3.1 102 103 .74 74 D 8.5E-06 4.6E-11 l 1045 3.2 3.1 102 103 .72 .72 D 8.6E-03 5.2E-08 1100 3.0 3.0 102 103 .75 .75 D 1.6E-01 9.9E-07 1115 3.2 2.9 103 103 .53 .53 E 1.1E-01 6.8E-07 1130 3.0 2.8 99 101 .20 .20 E 9.8E-02 5.5E-07 1145 2.8 2.8 98 97 .15 .15 E 7.1E-02 3.8E-07 1200 3.0 3.1 96 97 .15 .15 E 9.8E-02 5.2E-07 1215 3.1 2.9 94 97 .18 .18 E 6.1E-02 3.1E-07 1230 2.8 3.0 103 101 .14 .14 E 2.7E-02 1.3E-07 1245 2.8 3.1 118 119 .18 .18 E 5.2E-02 2.5E-07 1300 2.8 3.1 118 120 .18 .18 E 5.2E-02 2.5E-07
ASSUME PVS FLOW = 75,000 cfm 245

_ r%, ] NUCLIDE SAMPLES PA92 Notes 247 Nuclear Chemistry (RCS/CFT%TSUMP/CNMTATMS/ PVS) 248 RCS Chemistry Sample Data Prior to 1000 270 CNMT Sump Chemistry Data 271 CNMT Sump Level 272 CNMT Atmosphere Hydrogen Concentration Graph 274 l l i O l 246 1 I Os NUCLIDE SAMPLES The following tables represent nuclide concentrations (uCi/ml) of noble gases and iodides for the reactor coolant system, ECCS sump, CTMT atmosphere, and plant vent stack releases during simulated reactor core cladding damage. Values are i provided at 15 minute intervals from 8:00 A.M. Central to 13:00 i P.M. Central. The nuclide concentrations from 10:00 through 13:00 represent some amount of failed fuel cladding damage. ! Some of the particulate nuclides shown (such as Sr-89,90,91, & Y-91) will not show up on a gamma spectroscopy analysis. These isotopes wold have to be analyzed using chemical separation and gross beta counting techniques. They are expected for this type () of accident and can be analyzed at a later time. At 9:45 A.M. Central, a large LOCA occurs and the containment sump begins to fill with water from the reactor coolant system which is being diluted by water from the sodium hydroxide tank, accumulators, and refueling water storage tank. The sodium hydroxide tank adds sodium hydroxide, while the accumulators and refueling water storage tank add boron. If inquiries are made regarding isotopes not provided, indicate that the information is not available. DO NOT attempt to estimate other isotopic concentrations. Contact the lead , controller if this creates a problem. NOTE: The isotopic concentrations do not take into account MDC values. Unreasonably low values should be stated as MDC. ,a. 247 w., 2 - 2 L - L -~3- A.- a4 JL I 9 O : NUCLEAR CHEMISTRY O t

I D

d i 248 fd l l Nuclear Chemistry at Xe-133 6.00e-02 249 d. Time: 08:00:00 j Nuclear Chemistry at ISOTOPE RCS . I-134 9.87e-02 Nuclear Chemistry at ISOTOPE RCS Xe-135m 1.53e-02 Nuclear Chemistry at 'Xe-138 7.62e-02 Rb-88 2.97e-02 i Nuclear Chemistry at ISOTOPE RCS I-132 4.18e-02 Np-239 1.00e-04 Time: 09:00:00 Nuclear Chemistry at time: 09:15:00 \ ISOTOPE RCS Cs-137 1.20e-04 Cs-138 9.95e-02 N-G 2.54e-01 Huclear Chemistry at time: 09:30:00 ( _________________________ ISOTOPE RCS /lh Sr-91 D-E-I 7.49e-03 l Nuclear Chemistry at time: 09:45:00 \ ISOTOPE RCS Kr-88 2.19e-02 _ . - - . ~ 1 l Nuclear Chemistry at time: 10:00:00 . t~ N. ______________________ ISOTOPE RCS ______________________________ Xe-133 5.91e+03 I-134 4.04e+03 , Rb-88 Time: 10:00:00 S s _ - Nuclear Chemistry at Time: 10:15:00 . . . Nuclear Chemistry at time: 10:30:00 0 ISOTOPE Xe-135 Ba-140 time: 08:00:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 5.91e-09 0.00e+00 9.70e-13 0.00e+00 uc/ml Kr-85m 9.48e-03 0.00e+00 1.26e-06 3.01e-07 uc/ml Kr-87 1.78e-02 0.00e+00 2.12e-06 3.71e-07 uc/ml Kr-88 2.19e-02 0.00e+00 2.83e-06 6.28e-07 uc/ml Xe-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml , 0.00e+00 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 0.00e+00 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 0.00e+00 6.83e-06 2.49e-06 uc/mi Xe-135m 1.53e-02 0.00e+00 1.07e-06 2.65e-07 uc/ml Xe-138 7.62e-02 0.00e+00 5.09e-06 1.29e-06 uc/ml I-131 1.50e-03 0.00e+00 2.14e-11 3.72e-12 uc/ml I-132 4.18e-02 0.00e+00 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 0.00e+00 2.83e-10 4.27e-12 uc/ml I-134 9.87e-02 0.00e+00 1.13e-09 9.09e-12 uc/ml I-135 4.59e-02 0.00e+00 6.36e-10 6.11e-12 uc/ml Rb-88 2.97e-02 0.00e+00 1.30e-10 3.04e-12 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-91 3.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml ON Y-91 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Mo-99 5.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-103 8.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-106 7.00e-03 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-132m 9.00e-06 0.00e+00 0.00e+00~ 0.00e+00 uc/ml Sb-127 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-137 1.20e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-138 9.95e-02 0.00e+00 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml La-140 2.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Ce-144 5.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Np-239 1.00e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml N-G 2.54e-01 0.00e+00 2.79e-05 8.33e-06 uc/ml Iodines 2.08e-01 0.00e+00 2.62e-09 2.96e-11 uc/ml Part 1.37e-01 0.00e+00 3.15e-10 1.79e-11 uc/ml O D-E-I 7.49e-03 0.00e+00 1.05e-10 4.81e-12 uc/ml l time: 08:15:00 0 ---------------------------------------------------------------- CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.98e-09 0.00e+00 9.70e-13 0.00e+00 uc/ml Kr-85m 9.48e-03 0.00e+00 1.26e-06 3. Ole-07 uc/ml Kr-87 1.78e-02 0.00e+00 2.12e-06 3.71e-07 uc/ml Kr-88 2.19e-02 0.00e+00 2.83e-06 -6.28e-07 uc/ml Xe-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Xe-133 6.00e-02 0.00e+00 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 0.00e+00 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 0.00e+00 6.83e-06 2.49e-06 uc/ml Xe-135m 1.53e-02 0.00e+00 1.07e-06 2.65e-07 uc/ml Xe-138 7.62e-02 0.00e+00 5.09e-06 1.29e-06 uc/ml I-131 1.50e-03 0.00e+00 2.14e-11 3.72e-12 uc/ml I-132 4.18e-02 0.00e+00 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 0.00e+00 2.83e-10 4.27e-12 uc/ml 0.00e+00 1.13e-09 9.09e-12 uc/ml I-135 4.59e-02 0.00e+00 6.36e-10 6.11e-12 uc/ml' Rb-88 2.97e-02 0.00e+00 1.30e-10 3.04e-12 uc/ml Sr-89 0.00c+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 3.00e-05 0.00e+00 5.00e-05 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 8.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-106 7.00e-03 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-132m 9.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-127 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml So-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-137 1.20e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-138 9.95e-02 0.00e+00 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml La-140 2.00e-05 0.00e+00 0.00e+00 0.00e+00- uc/ml Ce-144 5.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Np-239 1.00e-04 0.00e+00 0.00e+00 -0.00e+00 uc/ml N-G 2.54e-01 0.00e+00 2.79e-05 8.33e-06 uc/ml Iodines 2.08e-01 0.00e+00 2.62e-09 2.96e-11 uc/ml Part 1.37e-01 0.00e+00 3.15e-10 1.79e-11 uc/ml O D-E-I 7.49e-03 0.00e+00 1.05e-10 4.81e-12 uc/ml Time: 08:15:00 250 L time: 08:30:00 Di i CNMTSUMP CTMTATMS PVS UNITS I Kr-85 1.66e-09 0.00e+00 9.70e-13 0.00e+00 uc/ml Kr-85m 9.48e-03 0.00e+00 1.26e-06 3.01e-07 uc/ml Kr-87 1.78e-02 0.00e+00 2.12e-06 -3.71e uc/ml Kr-88 2.19e-02 0.00e+00 2.83e-06 6.28c-07 uc/ml Xe-131m 0.00e+00 0.00e+00 0.00e+00 .0.00e+00 uc/ml Xe-133 6.00e-02 0.00e+00 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 0.00e+00 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 0.00e+00 6.83e-06 2.49e-06 uc/ml , 0.00e+00 1.07e-06 2.65e-07 uc/ml Xe-138 7.62e-02 0.00e+00 5.09e-06 1.29e-06 uc/ml I-131 1.50e-03 0.00e+00 2.14e-11 3.72e-12 uc/ml I-132 4.18e-02 0.00e+00 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 0.00e+00 2.83e-10 4.27e-12 uc/ml I-134 9.87e-02 0.00e+00 1.13e-09 9.09e-12 uc/ml I-135 4.59e-02 0.00e+00 6.36e-10 6.11e-12 uc/ml Rb-88 2.97e-02 0.00e+00 1.30e-10 3.04e-12 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-91 3.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Y-91 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Mo-99 5.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-103 8.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-106 7.00e-03 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-132m 9.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml-Sb-127 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-137 1.20e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-138 9.95e-02 0.00e+00 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml La-140 2.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Ce-144 5.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Np-239 1.00e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml N-G 2.54e-01 0.00e+00 2.79e-05 8.33e-06 uc/ml-Iodines 2.08e-01 0.00e+00 2.62e-09 2.96e-11 uc/ml Part 1.37e-01 0.00e+00 3.15e-10 1.79e-11 uc/ml D-E-I 7.49e-03 0.00e+00 1.05e-10 4.81e-12 uc/ml 251 Time: 08:30 00 time: 08:45:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.63e-09 0.00e+00 9.70e-13 0.00e+00 uc/ml Kr-85m 9.48e-03 0.00e+00 1.26e-06 3.01e-07 uc/ml Kr-87 1.78e-02 0.00e+00 2.12e-06 3.71e-07 uc/ml l Kr-88 2.19e-02 0.00e+00 2.83e-06 6.28e-07 uc/ml l Xe-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Xe-133 6.00e-02 0.00e+00 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 0.00e+00 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 0.00e+00 6.83e-06 2.49e-06 uc/ml Xe-135m 1.53e-02 0.00e+00 1.07e-06 2.65e-07 uc/ml 0.00e+00 5.09e-06 1.29e-06 uc/ml I-131 1.50e-03 0.00e+00 2.14e-11 3.72e-12 uc/ml I-132 4.18e-02 0.00e+00 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 0.00e+00 2.83e-10 4.27e-12 uc/ml 1 I-134 9.87e-02 0.00e+00 1.13e-09 9.09e-12 uc/ml-I-135 4.59e-02 0.00e+00 6.36e-10 6.11e-12 uc/ml , 0.00e+00 1.30e-10 3.04e-12 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml O Sr-91 Y-91 Mo-99 3.00e-05 0.00e+00 5.00e-05 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml Ru-103 8.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-106 7.00e-03 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-132m 9.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-127 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-137 1.20e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-138 9.95e-02 0.00e+00 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml La-140 2.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml-Ce-144 5.00e-06 0.00e+00 0.00e+00 0.00e+00 .uc/ml Np-239 1.00e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml N-G 2.54e-01 0.00e+00 2.79e-05 8.33e-06 uc/ml i Iodines 2.08e-01 0.00e+00 2.62e-09 2.96e-11 uc/ml Part 1.37e-01 0.00e+00 3.15e-10 1.79e-11 uc/ml D-E-I 7.49e-03 0.00e+00 1.05e-10 4.81e-12 uc/ml Time: 08:45:00 252 , time: 09:00:00 0 ---------------------------------------------------------------- CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.64e-09 0.00e+00 9.70e-13 0.00e+00 uc/ml Kr-85m 9.48e-03 0.00e+00 1.26e-06 3.01e-07 uc/ml Kr-87 1.78e-02 0.00e+00 2.12e-06 3.71e-07 uc/ml Kr-88 2.19e-02 0.00e+00 2.83e-06 6.28e-07 uc/ml Xe-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Xe-133 6.00e-02 0.00e+00 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 0.00e+00 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 0.00e+00 6.83e-06 2.49e-06 uc/ml Xe-135m 1.53e-02 0.00e+00 1.07e-06 2.65e-07 uc/ml Xe-138 7.62e-02 0.00e+00 5.09e-06 1.29e-06 uc/ml I-131 1.50e-03 0.00e+00 2.14e-11 3.72e-12 uc/ml - 0.00e+00 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 0.00e+00 2.83e-10 4.27e-12 uc/ml I-134 9.87e-02 0.00e+00 1.13e-09 9.09e-12 uc/ml I-135 4.59e-02 0.00e+00 6.3Gc-10 6.11e-12 uc/ml Rb-88 2.97e-02 0.00e+00 1.30e-10 3.04e-12 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 3.00e-05 0.00e+00 5.00e-05 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml Ru-103 8.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-106 7.00e-03 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-132m 9.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-127 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-137 1.20e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-138 9.95e-02 0.00e+00 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml La-140 2.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Ce-144 5.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml , 0.00e+00 0.00e+00 0.00e+00 uc/ml N-G 2.54e-01 0.00e+00 2.79e-05 8.33e-06 uc/ml Iodines 2.08c-01 0.00e+00 2.62e-09 2.96e-11 uc/ml Part 1.37e-01 0.00e+00 3.15e-10 1.79e-11 uc/ml D-E-I 7.49e-03 0.00e+00 1.05e-10 4.81e-12 uc/ml 253 . CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.65e-09 0.00e+00 9.70e-13 0.00e+00 uc/ml Kr-85m 9.48e-03 0.00e+00 1.26e-06 3.01e-07 uc/ml Kr-87 1.78e-02 0.00e+00 2.12e-06 3.71e-07 uc/ml Kr-88 2.19e-02 0.00e+00 2.83e-06 6.28e-07 uc/ml Xe-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Xe-133 6.00e-02 0.00e+00 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 0.00e+00 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 0.00e+00 6.83e-06 2.49e-06 uc/ml Xe-135m 1.53e-02 0.00e+00 1.07e-06 2.65e-07 uc/ml Xe-138 7.62e-02 0.00e+00 5.09e-06 1.29e-06 uc/ml I-131 1.50e-03 0.00e+00 2.14e-11 3.72e-12 uc/ml I-132 4.18e-02 0.00e+00 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 0.00e+00 2.83e-10 4.27e-12 uc/ml I-134 9.87e-02 0.00e+00 1.13e-09 9.09e-12 uc/ml I-135 4.59e-02 0.00e+00 6.36e-10 6.11e-12 uc/ml Rb-88 2.97e-02 0.00e+00 1.30e-10 3.04e-12 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 3.00e-05 0.00e+00 5.00e-05 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 8.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-106 7.00e-03 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-132m 9.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-127 0.00e+00- 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml . 0.00e+00 0.00e+00 0.00e+00 uc/ml ! 0.00e+00 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml l La-140 2.00c-05 0.00e+00 0.00e+00 0.00e+00 uc/ml 1 Ce-144 5.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml j Np-239 1.00e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml i l 0.00e+00 2.79e-05 8.33e-06 uc/ml Iodines 2.08e-01 0.00e+00 2.62e-09 2.96e-11 uc/ml Part 1.37e-01 0.00e+00 3.15e-10 1.79e-11 uc/ml D-E-I 7.49e-03 0.00e+00 1.05e-10 4.81e-12 uc/ml 254 j, Time: 09:15:00 _______________________________________ CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.67e-09 0.00e+00 9.70e-13 0.00e+00 uc/ml' Kr-85m 9.48e-03 0.00e+00 1.26e-06 3.01e-07 uc/ml Kr-87 1.78e-02 0.00e+00 2.12e-06 3.71e-07 uc/ml Kr-88 2.19e-02 0.00e+00 2.83e-06 6.28e-07 uc/ml Xe-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Xe-133 6.00e-02 0.00e+00 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 0.00e+00 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 0.00e+00 6.83e-06 2.49e-06 uc/ml Xe-135m 1.53e-02 0.00e+00 1.07e-06 2.65e-07 uc/ml Xe-138 7.62e-02 0.00e+00 5.09e-06 1.29e-06 uc/ml I-131 1.50e-03 0.00e+00 2.14e-11 3.72e-12 uc/ml I-132 4.18e-02 0.00e+00 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 0.00e+00 2.83e-10 4.27e-12 uc/ml I-134 9.87e-02 0.00e+00 1.13e-09 9.09e-12 uc/ml I-135 4.59e-02 0.00e+00 6.36e-10 6.11e-12 uc/ml Rb-88 2.97e-02 0.00e+00 1.30e-10 3.04e"12 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml 3.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml k s/ Y-91 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Mo-99 5.00e-05 0.00e+00 0.00e+00 0.00e+00 uc/ml Ru-103 8.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml-Ru-106 7.00e-03 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-132m 9.00e-06 0.00e+00 0'.00e+00 0.00e+00 uc/ml Sb-127 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sb-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 0.00e+00 0.00e+00 ,0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-137 1.20e-04 0.00e+00 0.00e+00 -0.00e+00 uc/ml Cs-138 9.95e-02 0.00e+00 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 0.00e+00 0.00e+00 0.00e+00 :c/ml La-140 2.00e 0.00e+00 0.00e+00 0.00e+00 , 3/ml Ce-144 5.00e-06 0.00e+00 0.00e+00 0.00e+00 uc/ml Np-239 1.00e-04 0.00e+00 0.00e+00 0.00e+00 uc/ml N-G 2.54e-01 0.00e+00 2.79e-05 8.33e-06 uc/ml' Iodines 2.08e-01 0.00e+00 2.62e-09 2.96e-11' uc/ml Part 1.37e-01 0.00e+00 3.15e-10 1.79e-11 uc/ml 1 ) 0.00e+00 1.05e-10 4.81e-12 uc/ml 255 Time: 09:30:00 l CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.66e-09 3.24e-10 9.70e-13 0.00e+00 uc/ml Kr-85m 9.48e-03 1.85e-03 1.26e-06 3.01e-07 uc/ml Kr-87 1.78e-02 3.48e-03 2.12e-06 3.71e-07 uc/ml: ~4.28e-03 2.83e-06 6.28e-07 uc/ml Xe-131m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Xe-133 6.00e-02 1.17e-02 8.31e-06 2.88e-06 uc/ml Xe-133m 3.00e-03 5.86e-04 4.15e-07 9.99e-08 uc/ml Xe-135 5.00e-02 9.77e-03 6.83e-06 2.49e-06 uc/ml Xe-135m 1.53e-02 2.98e-03 1.07e-06 2.65e-07 uc/ml Xe-138 7.62e-02 1.48e-02 5.09e-06 1.29e-06 uc/ml' I-131 1.50e-03 2.93e-04 2.14e-11 3.72e-12 uc/ml I-132 4.18e-02 8.16e-03 5.48e-10 6.40e-12 uc/ml I-133 2.00e-02 3.91e-03 2.83e-10 4.27e-12 uc/ml I-134 9.87e-02 1.93e-02 1.13e-09 9.09e-12 uc/ml I-135 4.59e-02 8.97e-03 6.36e-10 6.11e-12 uc/ml Rb-88 2.97e-02 2.83e-02 1.30e-10 3.04e-12 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 .0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 3.00e-05 0.00e+00 5.00e-05 2.87e-05 0.00c+00 4.78e-05 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 8.00e-06 7.65e-06 0.00e+00 0.00e+00 uc/ml Ru-106 7.00c-03 6.69e-03 0.00e+00 0.00e+00 uc/ml Te-129m 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Te-131m 0.00e+00 0.00e+00 0.00c+00 0.00e+00 uc/ml Te-132m 9.00e-06 8.60e-06 0.00c+00 0.00e+00 uc/ml Sb-127 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml-Sb-129 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-134 9.00e-05 8.60e-05 0.00e+00 0.00e+00 uc/ml Cs-136 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Cs-137 1.20e-04 1.15e-04 0.00e+00 0.00e+00 uc/ml Cs-138 9.95e-02 9.50e 1.85e-10 1.49e-11 uc/ml Ba-140 4.80e-05 4.59e-05 0.00e+00 0.00e+00 uc/ml La-140 2.00e-05 1.91e 0.00e+00 0.00e+00 uc/ml Co-144 5.00e-06 4.78e-06 0.00e+00 0.00e+00 uc/ml Np-239 1.00e-04 9.56e-05 0.00e+00 0.00e+00 uc/ml N-G 2.54e-01 4.95e-02 2.79e-05 8.33e-06 uc/ml Iodines 2.08e-01 4.06e-02 2.62e-09 2.96e-11 uc/ml Part 1.37e-01 1.31e-01 3.15e-10 1.79e-11 uc/ml O D-E-I 7.49e-03 1.46e-03 1.05e-10 4.81e-12 uc/ml 256 , Time: 09:45:00 i ~ . - . .- . _-. - . .- _________________________.________________ , CNMTSUMP CTMTATMS PVS UNITS i ______________-_--_-_____--------- 1 Kr-85 1.89e+01 2.69e-01 6.86e-04. 0.00e+00 uc/ml Kr-85m 7.94e+02 1.13e+01 2.89e-02 5.56e-11 uc/ml Kr-87 1.54e+03 2.13e+01 5.48e-02 1.61e-10 uc/ml i Kr-88 2.23e+03 3.18e+01 8.12e-02 9.89e-11 uc/ml Xe-131m 3.37e+01 4.80e-01 1.22e-03 0.00e+00 uc/ml ; 8.18e+01 2.10e-01 1.13e-10 uc/ml Xe-133m 2.08e+02 2.88e+00 7.42e-03 4.97e-11 uc/ml Xe-135 1.21e+03 1.68e+01 4.28e-02 5.80e-11 uc/ml Xe-135m 1.21e+03 1.68e+01 4.32e-02 7.21e-11 uc/ml Xe-138 4.28e+03 5.93e+01 1.53e-01 6.39e-11 ur/ml I-131 1.97e+03 2.59e+01 1.87e-02 0.00e+00 uc/ml I-132 2.69e+03 3.54e+01 2.56e-02 0.00e+00 uc/ml I-133 3.92e+03 5.16e+01 3.73e-02 0.00e+00 uc/ml ; 5.31e+01 3.85e-02 0.00e+00 uc/ml I-135 3.43e+03 4.51e+01 3.27e-02 0.00e+00 uc/ml 5.13e+02 7.46e+00 1.04e-02 0.00e+00 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00c+00 0.00e+00 uc/ml Sr-91 4.48e-05 7.22e-06 5.34e-10 0.00e+00 uc/ml Y-91 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Mo-99 7.56e-05 1.22e-05 9.03e-10 0.00e+00 uc/ml Ru-103 1.21e-05 1.96e-06 1.45e-10 0.00e+00 uc/ml Ru-106 1.06e-02 1.71e-03 1.27e-07 0.00e+00 uc/ml Te-129m 6.14e-01 8.88e-03 2.50e-08 0.00e+00 uc/ml Te-131m 1.50e+00 2.17e-02 6.12e-08 0.00e+00 uc/ml Te-132m 1.39e+01 2.01e-01 5.66e-07 0.00e+00 uc/ml Sb-127 7.06e-01 1.02e-02 2.88e-08 0.00e+00 uc/ml Sb-129 3.76e+00 5.43e-02 1.53e-07 0.00e+00 uc/ml Cs-134 4.34e+02 6.28e+00 1.77e-05 0.00e+00 uc/ml Cs-136 1.74e+02 2.51e+00 7.08e-06 0.00e+00 uc/ml Cs-137 2.72e+02 3.94e+00 1.11e-05 0.00e+00 uc/ml Cs-138 6.63e+02 9.47e+00 1.24e-02 0.00e+00 uc/ml Ba-140 7.27e-05 1.17e-05 8.69e-10 0.00e+00 uc/ml La-140 3.02e-05 4.88e-06 3.61e-10 0.00e+00 uc/ml Ce-144 7.58e-06 1.22e-06 9.06e-11 0.00e+00 uc/ml Np-239 1.51e-04 2.44e-05 1.81e-09 0.00e+00 uc/ml N-G 1.74e+04 2.43e+02 6.23e-01 6.73e-10 uc/ml Iodines 1.61e+04 2.11e+02 1.53e-01 1.36e-14 uc/ml uc/ml Part 2.08e+03 3.00e+01 2.28e-02 1.33e-16 D-E-I 2.84e+03 3.74e+01 2.70e-02 3.92e-15 uc/ml 257 . r ,- - + - - - , - - time: 10:15:00 ISOTOPE RCS CNMTSEMP CTMTATMS PVS UNITS Kr-85 5.16e+00 7.86e-01 1.44e-03 0.00e+00 uc/ml Kr-85m 2.09e+02 3.19e+01 5.85e-02 5.56e-11 uc/ml Kr-87 5.61e+02 5.70e+01 1.11e-01 1.61e-10 uc/ml Kr-88 5.74e+02 8.75e+01 1.60e-01 9.89e-11 uc/ml Xe-131m 9.20e+00 1.40e+00 2.57e-03 0.00e+00 uc/ml Xe-133 2.47e+03 2.51e+02 4.87e-01 1.13e-10 uc/ml Xe-133m 8.67e+01 8.81e+00 1.71e-02 4.97e-11 uc/ml Xe-135 5.31e+02 5.39e+01 1.02e-01 5.80e-11 uc/ml Xe-135m 2.58e+02 2.62e+01 5.09e-02 7.21e-11 uc/ml Xe-138 8.57e+02 8.71e+01 1.69e-01 6.39e-11 uc/ml I-131 8.22e+02 7.99e+01 7.22e-02 0.00e+00 uc/ml I-132 1.04e+03 1.01e+02 9.17e-02 0.00e+00 uc/ml I-133 1.63e+03 1.58e+02 1.43e-01 0.00e+00 uc/ml I-134 1.38e+03 1.35e+02 1.22e-01 0.00e+00 uc/ml I-135 1.40e+03 1.36e+02 1.23e-01 0.00e+00 uc/ml Rb-88 3.76e+02 5.28e+01 6.43e-02 0.00e+00 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-91 3.00e-05 6.37e-06 5.35e-10 0.00e+00 uc/ml O. Y-91 Mo-99 0.00e+00 5.15e-05 0.00e+00 1.09e-05 0.00c+00 9.20e-10 0.00e+00 0.00e+00 uc/ml uc/ml Ru-103 8.2Es-06 1.76e-06 1.48e-10 0.00e+00 uc/ml Ru-106 6.96e-03 9.38e-04 1.27e-07 0.00e+00 uc/ml Te-129m 2.56e-01 2.70e-02 1.21e-07 0.00e+00 uc/ml Te-131m 6.24e-01 6.58e-02 2.95e-07 0.00e+00 uc/ml Te-132m 5.79e+00 6.10e-01 2.74e-06 0.00e+00 uc/ml Sb-127 2.95e-01 3.10e-02 1.39e-07 0.00e+00 uc/ml Sb-129 1.51e+00 1.59e-01 7.13e-07 .0.00e+00 uc/ml Cs-134 1.82e+02 1.91e+01 8.58e-05 0.00e+00 uc/ml Cs-136 7.26e+01 7.65e+00 3.43e-05 0.00e+00 uc/ml Cs-137 1.14e+02 1.20e+01 5.37e-05 0.00e+00 uc/ml Cs-138 5.43e+02 5.65e+01 5.82e-02 0.00e+00 uc/ml Ba-140 4.97e-05 1.05e-05 8.86e-10 0.00e+00 uc/ml La-140 2.06e-05 4.36e 3.67e-10 0.00e+00 uc/ml Ce-144 5.18e-06 1.10e-06 9.24e-11 0.00e+00 uc/ml Np-239 1.03e-04 2.18e 1.84e-09 0.00e+00 uc/ml N-G 5.56e+03 6.05e+02 1.16e+00 6.73e-10 uc/ml Iodines 6.27e+03- 6.10e+02 5.51e-01 1.36e-14 uc/ml Part 1.30e+03 1.49e+02 1.23e-01 1.33c-16 uc/ml D-E-I 1.18e+03 1.15e+02 1.04e-01 3.92e-15 uc/ml 258 . ,v _ _ = - . .. - - - .~ . .- .- ________________________________________________________________ RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 2.48e+00 7.97e-01 1.79e-03 0.00e+00 uc/ml Kr-85m 9.66e+01 3.11e+01 6.99e-02 5.56e-11 uc/ml Kr-87 2.99e+02 5.35e+01 1.32e-01 1.61e-10 uc/ml Kr-88 2.59e+02 8.34e+01 1.88e-01 9.89e-11 uc/ml Xe-131m 4.41e+00 1.42e+00 3.19e-03 0.00e+00 uc/ml Xe-133 1.51e+03 2.69e+02 6.63e-01 1.13e-10 uc/ml Xe-133m 5.28e+01 9.44e+00 2.33e-02 4.97e-11 uc/ml ' 3.36e+02 5.99e+01 1.42e-01 5.80e-11 uc/ml Xe-135m 8.00e+01 1.43e+01 3.53e-02 7.21e-11 uc/ml Xe-138 2.51e+02 4.48e+01 1.11e-01 6.39e-11 uc/ml I-131 5.02e+02 8.59e+01 1.07e-01 0.00e+00 uc/ml I-132 5.92e+02 1.01e+02 1.26e-01 0.00e+00 uc/ml I-133 9.86e+02 1.69e+02 2.11e-01 0.00e+00 uc/ml I-134 6.95e+02 1.19e+02 1.48e-01 0.00e+00 uc/ml I-135 8.33e+02 1.42e+02 1.78e-01 0.00e+00 uc/ml Rb-88 2.34e+02 6.84e+01 1.14e-01 0.00e+00 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 2.14e-05 0.00e+00 3.59e-05 5.52e-06 0.00e+00 9.61e-06 5.33e-10 0.00e+00 9.30e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 5.75e-06 1.55e-06 1.50e-10 0.00e+00 uc/ml Ru-106 5.02e-03 6.61e-04 1.27e-07 0.00e+00 uc/ml Te-129m 1.57e-01 2.90e-02 1.85e-07 0.00e+00 uc/ml Te-131m 3.79e-01 7.02e-02 4.47e-07 0.00e+00 uc/ml Te-132m 3.53e+00 6.54e-01 4.16e-06 0.00e+00 uc/ml Sb-127 1.80e-01 3.33e-02 2.12e-07 0.00e+00 uc/ml-Sb-129 8.87e-01 1.64e-01 1.05e-06 0.00e+00 uc/ml Cs-134 1.11e+02 2.05e+01 1.31e-04 0.00e+00 -uc/ml Cs-136 4.43e+01 8.21e+00 5.22e-05 0.00e+00 uc/ml Cs-137 6.95e+01 1.29e+01 8.19e-05 0.00e+00 uc/ml i Cs-138 3.41e+02 6.22e+01 8.04e-02 0.00e+00 uc/ml , 3.45e-05 9.28e-06 8.98e-10 0.00e+00 uc/ml

La-140 1.43e-05 3.83e-06 3.70e-10 0.00e+00 uc/ml Ce-144 3.59e-06 9.68e-07 9.37e-11 0.00e+00 uc/ml Np-239 7.18e-05 1.92e-05 1.86e-09 0.00e+00 uc/ml N-G 2.89e+03 5.68e+02 1.37e+00 6.73e-10 uc/ml-Iodines 3.61e+03 6.17e+02 7.71e-01 1.36e-14 uc/ml Part 8.05e+02 1.73e+02 1.95e-01 1.33e-16 uc/ml !

i D-E-I 7.19e+02 1.23e+02 1.54e-01 3.92e-15 uc/ml Time. 10:30:00 259 7 ,' -. __ __ ~ _ _ ___ __ __ ._. _ . _ Nuclear Chemistry at time: 10:45:01 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.93e+00 7.09e-01 2.01e-03 6.82e-07 uc/ml Kr-85m 7.23e+01 2.66e+01 7.54e-02 2.56e-05 uc/ml Kr-87 2.59e+02 4.37e+01 1.40e-01 4.75e-05 uc/ml Kr-88 1.90e+02 6.98e+01 1.98e-01 6.71e-05 uc/ml Xe-131m 3.43e+00 1.26e+00 3.58e-03 1.21e-06 uc/ml Xe-133 1.49e+03 2.52e+02 8.07e-01 2.74e-04 uc/ml Xe-133m 5.22e+01 8.81e+00 2.82e-02 9.58e-06 uc/ml Xe-135 3.43e+02 5.77e+01 1.76e-01 5.98e-05 uc/ml Xe-135m 4.03e+01 6.80e+00 2.18e-02 7.40e-06 uc/ml Xe-138 1.19e+02 2.01e+01 6.45e-02 2.19e-05 uc/ml I-131 4.97e+02 8.03e+01 1.34e-01 4.55e-08 uc/ml I-132 5.44e+02 8.79e+01 1.47e-01 4.98e-08 uc/ml I-133 9.69e+02 1.57e+02 2.61e-01 8.87e-08 uc/ml I-134 5.65e+02 9.13e+01 1.52e-01 5.17e-08 uc/ml I-135 8.04e+02 1.30e+02 2.17e-01 7.36e-08 uc/ml Rb-88 2.03e+02 6.61e+01 1.50e-01 5.07e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 2.36e-05 0.00e+00 3.97e-05 4.72e-06 0.00e+00 8.35e-06 5.29e-10 0.00e+00 9.38e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 6.36e-06 1.35e-06 1.51e-10 0.00e+00 uc/ml Ru-106 5.57e-03 4.97e-04 1.27e-07 0.00e+00 uc/ml Te-129m 1.55e-01 2.72e-02 2.32e-07 0.00e+00 uc/ml Te-131m 3.74e-01 6.54e-02 5.59e-07 0.00e+00 uc/ml Te-132m 3.49e+00 6.11e-01 5.23e-06 2.62e-13 uc/ml Sb-127 1.78e-01 3.11e-02 2.66e-07 0.00e+00 uc/ml Sb-129 8.45e-01 1.48e-01 1.27e-06 0.00e+00 uc/ml . Cs-134 1.10e+02 1.92e+01 1.65e-04 .8.25e-12 uc/ml { uc/ml Cs-136 4.39e+01 7.68e+00 6.57e-05 3.29e-12 Cs-137 6.89e+01 1.20e+01 1.03e-04 5.16e-12 uc/ml , Cs-138 2.92e+02 5.03e+01 8.16e-02 2.77e-09 uc/ml l Ba-140 3.82e-05 8.08e-06 9.07e-10 0.00e+00 uc/ml La-140 1.59e-05 3.32e-06 3.73e-10 0.00e+00 uc/ml Ce-144 3.98e-06 8.43e-07 9.47e-11 0.00e+00 uc/ml Np-239 7.94e-05 1.67e-05 1.87e-09 0.00e+00 uc/ml N-G 2.57e+03 4.87e+02 1.52e+00 5.14e-04 uc/ml Iodines 3.38e+03 5.46e+02 9.11e-01 3.09e-07 uc/ml Part 7.23e+02 1.56e+02 2.32e-01 7.86e-09 uc/ml D-E-I 7.09e+02 1.15e+02 1.91e-01 6.49e-08 uc/ml Time: 10:45:01 260 y9 0 -. .-- . . ~ . _ _ . - - .- Nuclear Chemistry at time: 11:00:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.88e+00 6.13e-01 2.17e-03 7.36e-07 uc/ml Kr-85m 6.77e+01 2.21e+01 7.83e-02 2.66e-05 uc/ml Kr-87 2.49e+02 3.43e+01 1.42e-01 4.81e-05 uc/ml Kr-88 1.74e+02 5.68e+01 2.01e-01 6.82e-05 uc/ml Xe-131m 3.34e+00 1.09e+00 3.86e-03 1.31e-06 uc/ml Xe-133 1.64e+03 2.27e+02 9.35e-01 3.17e-04 uc/ml Xe-133m 5.73e+01 7.90e+00 3.26e-02 1.11e-05 uc/ml Xe-135 3.88e+02 5.33e+01 2.07e-01 7.03e-05 uc/ml Xe-135m 2.26e+01 3.11e+00 1.29e-02 4.36e-06 uc/ml Xe-138 6.28e+01 8.67e+00 3.58e-02 1.21e-05 uc/ml I-131 5.47e+02 7.22e+01 1.53e-01 5.20e-08 uc/ml I-132 5.56e+02 7.34e+01 1.56e-01 5.29e-08 uc/ml I-133 1.06e+03 1.40e+02 2.97e-01 1.01e-07 uc/ml I-134 5.10e+02 6.74e+01 1.43e-01 4.86e-08 uc/ml I-135 8.62e+02 1.14e+02 2.4?o-01 8.21e-08 uc/ml Rb-88 1.95e+02 5.79e+01 1.72e-01 5.82e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml O Sr-91 Y-91 Mo-99 2.72e-05 0.00e+00 4.58e-05 4.06e-06 0.00e+00 7.28e-06 5.24e-10 0.00e+00 9.43e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml Ru-103 7.35e-06 1.18e-06 1.53e-10 0.00e+00 uc/ml Ru-106 6.43e-03 3.95e-04 1.27e-07 0.00e+00 uc/ml Te-129m 1 71e-01 2.44e-02 2.65e-07 0.00e+00 uc/ml Te-131m 4.09e-01 5.85e-02 6.35e-07 0.00e+00 uc/ml Te-132m 3.84e+00 5.48e-01 5.95e-06 2.89e-13 uc/ml Sb-127 1.95e-01 2.79e-02 3.03e-07 0.00e+00 uc/ml Sb-129 8.95e-01 1.28e-01 1.39e-06 0.00e+00 uc/ml Cs-134 1.21e+02 1.73e+01 1.88e-04 9.12e-12 uc/ml Cs-136 4.83e+01 6.91e+00 7.50e-05 3.64e-12 uc/ml Cs-137 7.58e+01 1.08e+01 1.18e-04 5.71e-12 uc/ml Cs-138 2.58e+02 3.63e+01 7.24e-02 2.46e-09 uc/ml Ba-140 4.41e-05 7.06e-06 9.14e-10 0.00e+00 uc/ml La-140 1.83e-05 2.89e-06 3.74e-10 0.00e+00 uc/ml Ce-144 4.59e-06 7.37e-07 9.55e-11 0.00e+00 uc/ml Np-239 9.16e-05 1.45e-05 1.88e-09 0.00e+00 uc/ml N-G 2.67e+03 4.14e+02 1.65e+00- 5.60e-04 uc/ml Iodines 3.53e+03 4.67e+02 9.91e-01 3.36e-07 uc/ml , Part 7.04e+02 1.30e+02- 2.44e-01 8.30e-09 uc/ml l 1 D-E-I 7.77e+02 1.03e+02 2.18e-01 7.40e-08 uc/ml l 1 Time: 11:00:00 l 261 .A i 1 1 Nuclear Chemistry at time: 11:15: 00 0 _____--_-____--_________--______--____-______-_________________- UNITS ISOTOPE RCS CNMTSUMP CTMTATMS PVS Kr-85 1.51e+00 5.32e-01 2.30e-03 7.85e-07 uc/ml Kr-85m 5.25e+01 1.85e+01 7.97e-02 2.73e-05 uc/ml Kr-87 1.99e+02 2.67e+01 1.38e-01 4.73e-05 uc/ml Kr-88 1.32e+02 4.63e+01 2.00e-01 6.84e-05 uc/ml Xe-131m 2.69e+00 9.47e-01 4.08e-03 1.40e-06 uc/ml-Xe-133 1.50e+03 2.02e+02 1.05e+00 3.58e-04 uc/ml Xe-133m 5.22e+01 7.01e+00 3.64e-02 1.24e-05 uc/ml Xe-135 3.63e+02 4.85e+01 2.35e-01 8.03e-05 uc/ml Xe-135m 1.05e+01 1.41e+00 7.32e-03 2.50e-06 uc/ml Xe-138 2.75e+01 3.70e+00 1.92e-02 6.56e-06 uc/ml I-131 5.00e+02 6.43e+01 1.66e-01 5.72e-08 uc/ml I-132 4.72e+02 '6.07e+01 1.56e-01 5.40e-08 uc/ml I-133 9.60e+02 1.23e+02 3.19e-01 1.10e-07 uc/ml I-134 3.83e+02 4.93e+01 1.27e-01 4.39e-08 uc/ml I-135 7.69e+02 9.88e+01 2.55e-01 8.80e-08 uc/ml Rb-88 1.53e+02 4.91e+01 1.84e-01 6.31e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 2.96e-05 0.00e+00 4.94e-05 3.53e-06 0.00e+00 6.41e-06 5.17e-10 0.00e+00 9.46e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml RJ-103 7.91e-06 1.04e-06 1.53e-10 0.00e+00 uc/ml Ru-106 6.92e-03 3.30e-04 1.27e-07 0.00e+00 uc/ml Te-129m 1.56e-01 2.18e-02 2.85e-07 0.00e+00 uc/ml Te-131m 3.72e-01 5.18e-02 6.78e-07 1.03e-13 uc/ml Te-132m 3.50e+00 4.87e-01 6.38e-06 9.71e-13 uc/ml Sb-127 1.78e-01 2.48e-02 3.25e-07 0.00e+00 uc/ml Sb-129 7.87e-01 1.10e-01 1.43e-06 2.18e-13 uc/ml Cs-134 1.11e+02 1.54e+01 .2.02e-04 3.07e-11 uc/ml Cs-136 4.42e+01 6.15e+00 8.05e-05 1.23e-11 uc/ml Cs-137 6.93e+01 9.65e+00 1.26e-04 1.92e-11 uc/ml Cs-138 1.82e+02 2.49e+01 5.97e-02 2.06e-09 uc/ml Ba-140 4.75e-05 6.22e-06 9.19e-10 0.00e+00 uc/ml La-140 1.98e-05 2.54e-06 3.75e-10 0.00e+00 uc/ml Ce-144 4.94e-06 6.50e-07 9.60e-11 0.00e+00 uc/ml Np-239 9.88e-05 1.28e-05 1.89e-09 0.00e+00 uc/ml N-G 2.34e+03 3.55e+02 1.77e+00 6.05e-04 uc/ml Iodines 3.08e+03 3.97e+02 1.02e+00 3.53e-07 uc/ml Part 5.64e+02 1.06e+02 2.45e-01 8.44e-09 uc/ml O D-E-I 7.08e+02 9.10e+01 2.35e-01 8.11e-08 uc/ml Time: 11:15:00 262 , v, __ ram. 5 .2 1 4 ._w L 1-_a,+.'- dr - M Nuclear Chemistry at time: 11:30:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.11e+00 4.59e-01 2.39e-03 8.17e-07 uc/ml Kr-85m 3.71e+01 1.53e+01 7.98e-02 2.73e-05 uc/ml Kr-87 1.44e+02 2.01e+01 1.31e-01 4.48e-05 uc/ml Kr-88 9.10e+01 3.76e+01 1.96e-01 6.70e-05 uc/ml Xe-131m 1.97e+00 8.16e-01 4.25e-03 1.45e-06 uc/ml Xe-133 1.25e+03 1.74e+02 1.13e+00 3.87e-04 uc/ml Xe-133m 4.33e+01 6.03e+00 3.94e-02 1.34e-05 uc/ml Xe-135 3.08e+02 4.27e+01 2.57e-01 8.78e-05 uc/ml Xe-135m 4.43e+00 6.18e-01 4.03e-03 1.38e-06 uc/ml. Xe-138 1.10e+01 1.53e+00 9.98e-03 3.41e-06 uc/ml I-131 4.15e+02 5.53e+01 1.74e-01 6.00e-08 uc/ml I-132 3.64e+02 4.85e+01 1.52e-01 5.25e-08 uc/ml I-133 7.91e+02 1.05e+02 3.32e-01 1.14e uc/ml I-134 2.61e+02 3.48e+01 1.10e-01 3.78e-08 uc/ml I-135 6.22e+02 8.29e+01 2.61e-01 9.00e-08 uc/ml Rb-88 1.08e+02 4.07e+01 1.90e-01 6.51e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 3.02e-05 0.00e+00 5.05e-05 3.00e-06 0.00e+00 5.55e-06 5.11e-10 0.00e+00 9.50e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 8.08e-06 9.02e-07 1.55e-10 0.00c+00 uc/ml Ru-106 7.07e-03 2.86e-04 1.27e-07 0.00e+00 uc/ml Te-129m 1.30e-01 1.88e-02 2.97e-07 0.00e+00 uc/ml Te-131m 3.08e-01 4.45e-02 7.03e-07 0.00e+00 uc/ml Te-132m 2.90e+00 4.20e-01 6.64e-06 0.00e+00 uc/ml Sb-127 1.48e-01 2.14e-02 3.38e-07 0.00e+00 uc/ml Sb-129 6.29e-01 9.10e-02 1.44e-06 0.00e+00 uc/ml Cs-134 9.21e+01 1.33e+01 2.11e-04 ..0.00e+00 uc/ml Cs-136 3.67e+01 5.31e+00 8.39e-05 0.00e+00 uc/ml j Cs-137 5.76e+01 8.34e+00 1.32e-04 0.00e+00 uc/ml l Cs-138 1.14e+02 1.62e+01 4.71e-02 1.63e-09 uc/ml I Ba-140 4.85e-05 5.40e-06 9.25e-10 0.00e+00 uc/ml La-140 2.02e-05 2.20e-06 3.75e-10 0.00e+00 uc/ml Ce-144 5.05e-06 - 5.65e-07 9.67e-11 0.00e+00 uc/ml ) Np-239 1.01e-04 1.11e-05 1.89e-09 0.00e+00 uc/ml' ) l l N-G 1.89e+03 2.99e+02 1.86e+00 6.35e-04 uc/ml Iodines 2.45e+03 3.27e+02 1.03e+00 3.55e-07 uc/ml Part 4.13e+02 8.45e+01 2.38e-01 8.14e-09 uc/ml D-E-I 5.86e+02 7.81e+01 2.46e-01 8.47e-08 uc/ml 263 f) Time: 11:30:00 Nuclear Chemistry at time: 11:45:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 8.15e-01 4.00e-C1 2.45e-03 8.49e-07 uc/ml Kr-85m 2.62e+01 1.29e+01 7.88e-02 2.73e-05 uc/ml Kr-87 1.04e+02 1.53e+01 1.21e-01 4.19c-05 uc/ml Kr-88 6.28e+01 3.08e+01 1.89e-01 6.55e-05 uc/ml Xe-131m 1.45e+00 7.11e-01 4.35e-03 1.51e-06 uc/ml Xe-133 1.03e+03 1.52e+02 1.20e+00 4.15e-04 uc/ml Xe-133m 3.55e+01 5.24e+00 4.16e-02 1.44e-05 uc/ml Xe-135 2.59e+02 3.78e+01 2.74e-01 9.47e-05 uc/ml Xe-135m 1.86e+00 2.74e-01 2.17e-03 7.51e-07 uc/ml Xe-138 4.33e+00 6.39e-01 5.07e-03 1.75e-06 uc/ml I-131 3.41e+02 4.82e+01 1.78e-01 6.28e-08 uc/ml I-132 2.78e+02 3.92e+01 1.45e-01 5.10e-08 uc/ml I-133 6.46e+02 9.11e+01 3.36e-01 1.19e-07 uc/ml I-134 1.77e+02 2.49e+01 9.21e-02 3.25e-08 uc/ml I-135 4.99e+02 7.04e+01 2.60e-01 9.18e-08 uc/ml Rb-88 7.51e+01 3.38e+01 1.91e-01 6.63e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00c+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 3.03e-05 0.00e+00 5.06e-05 2.59e-06 0.00e+00 4.87e-06 5.03e-10 0.00e+00 9.50e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 8.10e-06 7.93e-07 1.55e-10 0.00e+00 uc/ml Ru-106 7.09e-03 2.50e-04 1.27e-07 0.00e+00 uc/ml Te-129m 1.07e-01 1.64e-02 3. Ole-07 0.00e+00 uc/ml Te-131m 2.52e-01 3.86e-02 7.08e-07 2.24e-13 uc/ml Te-132m 2.39e+00 3.66e-01 6.71e-06 2.12e-12 uc/ml Sb-127 1.22e-01 1.87e-02 3.42e-07 1.08e-13 uc/ml Sb-129 4.98e-01 7.63e-02 1.40e-06 4.42e-13 uc/ml Cs-134 7.59e+01 1.16e+01 2.13e-04 6.74e-11 uc/ml Cs-136 3.02e+01 4.63e+00 8.50e-05 2.68e-11 uc/ml Cs-137 4.75e+01 7.27e+00 1.33e-04 4.22e-11 uc/ml_ Cs-138 6.97e+01 1.05e+01 3.61e-02 1.28e-09 uc/ml Ba-140 4.86e-05 4.75e-06 9.26e-10 0.00e+00 uc/ml La-140 2.02e-05 1.92e-06 3.75e-10 0.00e+00 uc/ml Ce-144 5.06e-06 4.97e-07 9.69e-11 0.00e+00 uc/ml Np-239 1.01e-04 9.70e-06 1.89e-09 0.00e+00 uc/ml N-G 1.52e+03 2.56e+02 1.92e+00 6.63e-04 uc/ml Iodines 1.94e+03 2.74e+02 1.01e+00 3.57e-07 uc/ml Part 3.02e+02 6.84e+01 2.27e-01 8.05e-09 uc/ml O D-E-I 4.80e+02 6.78e+01 2.50e-01 8.83e-08 uc/ml Time: 11:45:00 264 Nuclear Chemistry at time: 12:00:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 4.80e-01 3.55e-01 2.50e-03 8.87e-07 uc/ml Kr-85m 1.48e+01 1.10e+01 7.73e-02 2.75e-05 uc/ml Kr-87 7.49e+01 1.23e+01 1.11e-01 3.92e-05 uc/ml Kr-88 3.48e+01 2.57e+01 1.81e-01 6.44e-05 uc/ml Xe-131m 8.52e-01 6.30e-01 4.44e-03 1.58e-06 uc/ml Xe-133 8.52e+02 1.40e+02 1.26e+00 4.44e-04 uc/ml Xe-133m 2.94e+01 4.81e+00 4.37e-02 1.53e-05 uc/ml Xe-135 2.18e+02 3.54e+01 2.90e-01 1.02e-04 uc/ml Xe-135m 7.82e-01 1.28e-01 1.16e-03 4.09e-07 uc/ml Xe-138 1.72e+00 2.82e-01 2.56e-03 8.99e-07 uc/ml I-131 2.83e+02 4.43e+01 1.86e-01 6.82e-08 uc/ml I-132 2.14e+02 3.35e+01 1.41e-01 5.15e-08 uc/ml I-133 5.31e+02 8.32e+01 3.50e-01 1.28e-07 uc/ml I-134 1.20e+02 1.88e+01 7.92e-02 2.90e-08 uc/ml I-135 4.03e+02 6.32e+01 2.66e-01 9.73e-08 uc/ml Rb-88 4.47e+01 2.85e+01 1.88e-01 6.70e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 3.00e-05 0.00e+00 5.00e-05 2.45e-06 0.00e+00 4.63e-06 4.98e-10 0.00e+00 9.54e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 8.01e-06 7.55e-07 1.56e-10 0.00e+00 uc/ml Ru-106 7.00e-03 2.21e-04 1.27e-07 0.00e+00 uc/ml Te-129m 8.88e-02 1.51e-02 3.15e-07 1.84e-13 uc/ml Te-131m 2.08e-01 3.53e-02 7.37e-07 4.30e-13 uc/ml Te-132m 1.98e+00 3.36e-01 7.01e-06 4.09e-12 uc/ml Sb-127 1.01e-01 1.71e-02 3.58e-07 2.09e-13 uc/ml Sb-129 3.97e-01 6.76e-02 1.41e-06 8.23e-13 uc/ml Cs-134 6.30e+01 1.07e+01 2.23e-04 1.30e-10 uc/ml Cs-336 2.51e+01 4.26e+00 8.89e-05 5.19e-11 uc/ml Cs-137 3.94e+01 6.70e+00 1.40e-04 8.15e-11 -uc/ml Cs-138 4.25e+01 7.12e+00 2.71e-02 1.00e-09 uc/ml Ba-140 4.80e-05 4.52e-06 9.32e-10 0.00e+00 uc/ml La-140 2.00e-05 1.83e-06 3.76e-10 0.00e+00 uc/ml 1 Ce-144 5.00e-06 4.73e-07 9.76e-11 0.00e+00 uc/ml Np-239 1.00e-04 9.22e-06 1.90e-09 0.00e+00 uc/ml N-G 1.23e+03 2.30e+02 1.98e+00 6.96e-04 uc/ml i Iodines 1.55e+03 2.43e+02 1.02e+00 3.74e-07 uc/ml ; Part 2.17e402 5.77e+01 2.16e-01 7.97e-09 uc/ml O m D-E-I 3.96e+02 6.21e+01 2.61e-01 9.56e-08 uc/ml-265 .j Time: 12:00:00 7* 1 1 Nuclear Chemistry at time: 12:15:00 ('~) . V ________________________________________________________________ ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 3.21e-01 3.12e-01 2.53e-03 9.14e-07 uc/ml Kr-85m 9.55e+00 9.28e+00 7.52e-02 2.72e-05 uc/ml Kr-87 5.73e+01 9.56e+00 1.01e-01 3.61e-05 uc/ml Kr-88 2.19e+01 2.13e+01 1.72e-01 6.24e-05 uc/ml Xe-131m 5.69e-01 5.54e-01 4.49e-03 1.62e-06 uc/ml Xe-133 7.47e+02 1.24e+02 1.32e+00 4.69e-04 uc/ml Xe-133m 2.57e+01 4.28e+00 4.54e-02 1.62e-05 uc/ml Xe-135 1.94e+02 3.21e+01 3.03e-01 1.08e-04 uc/ml Xe-135m 3.49e-01 5.81e-02 6.16e-04 2.20e-07 uc/ml Xe-138 7.23e-01 1.20e-01 1.28e-03 4.55e-07 uc/ml I-131 2.48e+02 3.95e+01 1.91e-01 7.19e-08 uc/ml I-132 1.74e+02 2.78e+01 1.34e-01 5.04e-08 uc/ml I-133 4.62e+02 7.36e+01 3.55e-01 1.34e-07 uc/ml I-134 8.65e+01 1.38e+01 6.66e-02 2.51e-08 uc/ml I-135 3.44e+02 5.49e+01 2.65e-01 9.99e-08 uc/ml Rb-88 2.91e+01 2.36e+01 1.83e-01 6.63e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml / Sr-91 2.95e-05 2.20e-06 4.91e-10 0.00e+00 uc/ml Y-91 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Mo-99 4.92e-05 4.22e-06 9.55e-10 0.00e+00 uc/ml Ru-103 7.88e-06 6.91e-07 1.56e-10 0.00e+00 uc/ml Ru-106 6.89e-03 1.94e-04 1.27e-07 0.00e+00 uc/ml Te-129m 7.80e-02 1.35e-02 3.21e-07 2.58e-13 uc/ml Te-131m 1.81e-01 3.14e-02 7.48e-07 6.01e-13 uc/ml Te-132m 1.73e+00 2.99e-01 7.14e-06 5.74e-12 uc/ml Sb-127 8.84e-02 1.53e-02 3.64e-07 2.93e-13 uc/ml Sb-129 3.35e-01 5.80e-02 1.38e-06 1.11e-12 uc/ml Cs-134 5.53e+01 9.55e+00 2.28e-04 ;1.83e-10 uc/ml Cs-136 2.20e+01 3.80e+00 9.07e-05 7.29e-11 uc/ml Cs-137 3.46e+01 5.98e+00 1.43e-04 1.15e-10 uc/ml Cs-138 2.73e+01 4.65e+00 2.01e-02 7.67e-10 uc/ml Ba-140 4.73e-05 4.13e-06 9.35e-10 0.00e+00 uc/ml La-140 1.97e-05 1.66e-06 3.76e-10 0.00e+00 uc/ml Ce-144 4.92e-06 4.32e-07 9.80e-11 0.00e+00 uc/ml Np-239 9.84e-05 8.41e-06 1.90e-09 0.00e+00 uc/ml N-G 1.06e+03 2.02e+02 2.02e+00 7.22e-04 uc/ml Iodines 1.31e+03 2.10e+02 1.01e+00 3.81e-07 uc/ml Part 1.71e+02 4.80e+01 2.03e-01 7.78e-09 uc/ml O D-E-I 3.46e+02 5.52e+01 2.66e-01 1.00e-07 uc/ml T' 266 25# _ _ _ . _ _ ~. .. . _ __ _ . Nuclear Chemistry at time: 12:30:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 2.51e-01 2.73e-01 2.55e-03 9.36e-07 uc/ml Kr-85m 7.19e+00 7.83e+00 7.30e-02 2.68e-05 uc/ml Kr-87 3.98e+01 7.46e+00 9.14e-02 3.29e-05 uc/ml Kr-88 1.61e+01 1.76e+01 1.64e-01 6.01e-05 uc/ml- ! Xe-131m 4.46e-01 4.85e-01 4.52e-03 1.66e-06 uc/ml Xe-133 5.94e+02 1.11e+02 1.36e+00 4.89e-04 uc/ml Xe-133m 2.04e+01 3.81e+00 4.67e-02 1.68e-05 uc/ml Xe-135 1.57e+02 2.91e+01 3.14e-01 1.14e-04 uc/ml .Xe-135m 1.41e-01 2.64e-02 3.24e-04 1.17e-07 uc/ml Xe-138 2.76e-01 5.16e-02 6.32e-04 2.28e-07 uc/ml I-131 1.97e+02 3.53e+01 1.95e-01 7.52e-08 uc/ml I-132 1.29e+02 2.30e+01 1.27e-01 4.89e-08 uc/ml. I-133 3.64e+02 6.52e+01 3.61e-01 1.39e-07 uc/ml I-134 5.65e+01 1.01e+01 5.59e-02 2.16e-08 uc/ml I-135 2.67e+02 4.78e+01 2.64e-01 1.02e-07 uc/ml Rb-88 2.05e+01 1.95e+01 1.76e-01 6.48e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml ( Sr-91 2.96e-05 2.01e-06 4.84e-10 0.00e+00 uc/ml Y-91 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Mo-99 4.93e-05 3.90e-06 9.57e-10 0.00e+00 uc/ml Ru-103 7.89e-06 6.38e-07 1.57e-10 0.00e+00 uc/ml Ru-106 6.91e-03 1.71e-04 1.27e-07 0.00e+00 uc/ml Te-129m 6.21e-02 1.21e-02 3.28e-07 3.23e-13 uc/ml Te-131m 1.44e-01 2.79e-02 7.59e-07 7.48e-13 uc/ml Te-132m 1.38e+00 2.67e-01 7.27e-06 7.16e-12 uc/ml , Sb-127 7.03e-02 1.36e-02 3.71e-07 3.66e-13_ uc/ml Sb-129 2.57e-01 4.99e-02 1.36e-06 1.34e-12 uc/ml Cs-134 4.40e+01 8.55e+00 2.33e-04 2.29e-10 uc/ml Cs-136 1.75e+01 3.40e+00 9.25e-05 9.12e-11 uc/ml Cs-137 2.75e+01 5.34e+00 1.45e-04 1.43e-10 uc/ml Cs-138 1.59e+01 3.03e+00 1.48e-02 5.81e-10 uc/ml Ba-140 4.74e-05 3.82e-06 9.38e-10 0.00e+00 uc/ml La-140 1.97e-05 1.53e-06 3.76e-10 0.00e+00 uc/ml Ce-144 4.93e-06 4.00e-07' 9.84e-11 0.00e+00 uc/ml Np-239 9.87e-05 7.76e-06 1.90e-09 0.00e+00 uc/ml N-G 8.36e+02 1.78e+02 2.06e+00 7.42e-04' uc/ml Iodines 1.01e+03 1.81e+02 1.00e+00 3.87e-07 uc/ml Part 1.27e+02 4.02e+01 1.91e-01 7.53e-09 uc/ml 6 D-E- I 2.74e+02 4.91e+01 2.72e-01 1.05e-07 uc/ml l 267 g Time: 12:30:00 l 1 l l Nuclear Chemistry at time: 12:45:00 0 ________________________________________________________________ ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 2.18e-01 2.40e-01 2.57e-03 9.55e-07 uc/ml Kr-85m 6.01e+00 6.62e+00 7.07e-02 2.63e-05 uc/ml Kr-87 2.77e+01 5.89e+00 8.19e-02 2.98e-05 uc/ml Kr-88 1.32e+01 1.45e+01 1.55e-01 5.77e-05 uc/ml Xe-131m 3.87e-01 4.26e-01 4.55e-03 1.69e-06 uc/ml Xe-133 4.74e+02 1.01e+02 1.39e+00 5.06e-04 uc/ml Xe-133m 1.62e+01 3.44e+00 4.79e-02 1.74e-05 uc/ml Xe-135 1.27e+02 2.66e+01 3.23e-01 1.18e-04 uc/ml Xe-135m 5.72e-02 1.22e-02 1.69e-04 6.15e-08 uc/ml Xe-138 1.05e-01 2.24e-02 3.11e-04 1.13e-07 uc/ml I-131 1.57e+02 3.19e+01 2.00e-01 7.85e-08 uc/ml I-132 9.51e+01 1.94e+01 1.21e-01 4.74e-08 uc/ml I-133 2.88e+02 5.86e+01 3.67e-01 1.44e-07 uc/ml I-134 3.69e+01 7.51e+00 4.71e-02 1.85e-08 uc/ml I-135 2.07e+02 4.22e+01 2.64e-01 1.04e-07 uc/ml Rb-88 1.62e+01 1.62e+01 1.68e-01 6.27e-09 uc/ml Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml O Sr-91 Y-91 Mo-99 2.97e-05 0.00e+00 4.95e-05 1.92e-06 0.00e+00 3.74e-06 4.79e-10 0.00e+00 9.61e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 7.92e-06 6.13e-07 1.58e-10 0.00e+00 uc/ml Ru-106 6.93e-03 1.51e-04 1.27e-07 0.00e+00 uc/ml Te-129m 4.95e-02 1.09e-02 3.36e-07 3 80e-13 uc/ml Te-131m 1.14e-01 2.51e-02 7.73e-07 8.75e-13 uc/ml Te-132m 1.10e+00 2.41e-01 7.43e-06 8.41e-12 uc/ml Sb-127 5.60e-02 1.23e-02 3.80e-07 4.30e-13 uc/ml Sb-129 1.97e-01 4.34e-02 1.34e-06 1.51e-12 uc/ml , Cs-134 3.51e+01 7.74e+00 2.38e-04 ,2.70e-10 uc/ml Cs-136 1.40e+01 3.08e+00 9.48e-05 1.07e-10 uc/ml Cs-137 2.20e+01 4.84e+00 1.49e-04 1.69e-10 uc/ml Cs-138 9.20e+00 2.00e+00 1.09e-02 4.35e-10 uc/ml Ba-140 4.75e-05 3.66e-06 9.44e-10 0.00e+00 uc/ml La-140 1.98e-05 1.47e-06 3.76e-10 0.00e+00 uc/ml Ce-144 4.95e-06 3.84e-07 9.90e-11 0.00e+00 uc/ml Np-239 9.90e-05 7.44e-06 1.91e-09 0.00e+00 uc/ml N-G 6.64e+02 1.58e+02 2.08e+00 7.59e-04 uc/ml Iodines 7.84e+02 1.60e+02 9.98e-01 3.92e-07 uc/ml Part 9.80e+01 3.42e+01 1.80e-01 7.27e-09 uc/ml Ot D-E-I 2.18e+02 4.43e+01 2.77e-01 1.09e-07 uc/ml 268 ) Time: 12:45:00 1 Nuclear Chemistry at time: 13:00:00 ISOTOPE RCS CNMTSUMP CTMTATMS PVS UNITS Kr-85 1.97e-01 2.17e-01 2.58e-03 9.69e-07 uc/ml-Kr-85m 5.25e+00 5.79e+00 6.90e-02 2.59e-05 uc/ml Kr-87 2.09e+01 4.87e+00 7.48e-02 2.73e-05 uc/ml Kr-88 1.13e+01 1.25e+01 1.48e-01 5.58e-05 uc/ml Xe-131m 3.48e-01 3.84e-01 4.57e-03 1.72e-06 uc/ml Xe-133 3.98e+02 9.28e+01 1.42e+00 5.18e-04 uc/ml Xe-133m 1.36e+01 3.16e+00 4.86e-02 1.77e-05 uc/ml Xe-135 1.07e+02 2.48e+01 3.28e-01 1.21e-04 'uc/ml Xe-135m 2.80e-02 6.53e-03 1.00e-04 3.67e-08 uc/ml Xe-138 7.25e-02 1.15e-02 1.76e-04 6.44e-08 uc/ml I-131 1.32e+02 2.94e+01 2.03e-01 8.08e-08 uc/ml I-132 7.53e+01 1.68e+01 1.15e-01 4.60e-08 uc/ml I-133 2.40e+02 5.36e+01 3.70e-01 1.47e-07 uc/ml I-134 2.65e+01 5.91e+00 4.09e-02 1.63e-08 uc/ml I-135 1.70e+02 3.80e+01 '2.63e-01 1.05e-07 uc/ml Rb-88 1.37e+01 1.39e+01 1.62e-01 6.09e-09 uc/ml ' Sr-89 0.00e+00 0.00e+00 0.00e+00 0.00e+00 uc/ml 0.00e+00 0.00e+00 uc/ml Sr-90 0.00e+00 0.00e+00 O Sr-91 Y-91 Mo-99 2.97e-05 0.00e+00 4.96e-05 1.86e-06 0.00e+00 3.63e-06 4.75e-10 0.00e+00 9.64e-10 0.00e+00 0.00e+00 0.00e+00 uc/ml uc/ml uc/ml Ru-103 7.94e-06 5.96e-07 1.59e-10 0.00e+00 uc/ml Ru-106 6.95e-03 1.37e-04 1.27e-07 0.00e+00 uc/ml Te-129m 4.17e-02 1.01e-02 3.42e-07 4.22e-13 uc/ml Te-131m 9.54e-02 2.31e-02 7.83e-07 9.66e-13 uc/ml Te-132m 9.20e-01 2.22e-01 7.55e-06 9.31e-12 uc/ml Sb-127 4.70e-02 1.14e-02 3.86e-07 4.76e-13 uc/ml Sb-129 1.61e-01 3.88e-02 1.32e-06 1.63e-12 uc/ml Cs-134 2.96e+01 7.14e+00 2.42e-04 2.99e-10 uc/ml Cs-136 1.17e+01 2.84e+00 9.63e-05 1.19e-10 uc/ml Cs-137 1.85e+01 4.46e+00 1.52e-04 1.87e-10 uc/ml Cs-138 5.99e+00 1.43e+00 8.44e-03 3.44e-10 uc/ml , Ba-140 4.76e-05 3.56e-06 9.48e-10 0.00e+00 uc/ml La-140 1.98e-05 1.43e-06 3.77e-10 0.00e+00 uc/ml Ce-144 4.96e-06 3.73e-07 9.95e-11 0.00e+00 uc/ml Np-239 9.92e-05 7.23e-06 1.91e-09 0.00e+00 uc/ml l N-G 5.57e+02 1.44e+02 2.09e+00 7.69e-04 .uc/ml l Iodines 6.44e+02 1.44e+02 9.93e-01 3.95e-07 uc/ml Part 8.08e+01 3.01e+01 1.71e-01 7.05e-09 uc/ml D-E-I 1.82e+02 4.07e+01 2.81e-01 1.12e-07 uc/ml Time: 13:00:00 269 _ o W /3 V RCS CIIEMISTRY DATA PRIOR TO 1000 TIME BORON (com) pH @ 25 C CI(opm) H2 (cc/kg) 700 810 6.65 <0.020 29.2 715 814 6.62 <0.020 30.0 730 823 6.60 <0.020 :. 9.7 745 805 6.67 <0.020 29.4 800 809 6.65 <0.020 29.1 815 800 6.70 <0.020 29.1 830 795 6.72 <0.020 29.0 845 790 6.75 <0.020 28.7 900 803 6.65 <0.020 28.8 915 811 6.59 <0.020 29.1 930 815 6.58 <0.020 28.8 945 832 6.55 <0.020 29.3 NOTE: INITIAL DATA BASED ON: RCS: pil - 6.65 RWST: pII - 4.65 Boron - 810 ppm Boron - 2410 ppm C1 - < 0.020 ppm C1 < 0.020 ppm O y 270 G V CONTAINMENT SUMP CHEMISTRY DATA TIME BORON (ppml) pH @ 25 C C1(ppm) H2 (cc/kg) 1000 1682 7.78 0.055 18.2 1015 1883 8.10 0.060 13.4 1030 2009 8.39 0.177 9.8 1045 2087 8.94 0.197 4.4 1100 2139 9.54 0.220 1.3 1115 2177 9.87 0.245 1.2 1130 2196 9.85 0.273 1.1 5 1145 2202 9.87 0.304 1.0 1200 2220 9.89 0.338 0.9 1215 2214 9.91 0.377 0.8 1230 2192 9.88 0.420 0.7 1245 2180 9.87 0.468 0.6 1300 2207 9.84 0.521 0.5 NOTE: INITIAL DATA BASED ON: RCS: pH - 6.65 RWST: pH - 4.65 Boron - 810 ppm Boron - 2410 ppm C1 - < 0.020 ppm C1 - < 0.020 ppm O 271 1. O CTMT SUMP LEVEL i l 1 O I I l l l 212 't O CTMT SUMP LEVEL TIME ECCS SUMP ECCS SUMP ECCS SUMP FEET GALLONS ML 09:45 0.0 0 0.00 E+00 10:00 1.0 81914 3.10 E+08 10:15 1.7 139247 5.27 E+08 10:30 2.4 196584 7.44 E+08 10:45 3.3 270303 1.02 E+09 11:00 4.1 335831 1.27 E+09' 11:15 4.9 401359 1.52 E+09 11:30 5.4 442314 1.67 E+09 11:45 5.6 458696 1.74 E+09 12:00 5.6 456896 1.74 E+09 12:15 5.6 456896 1.74 E+09 12:30 5.6 456896 1,74 E+09 12:45 5.6 456896 1,74 E+09 13:00 5.6 456896 1.74 E+09 (3.1004785 E08 ml/f t) O 273 ~ O CTMT ATMOSPHERE HYDROGEN CONCENTRATION i GRAPH O -0 274 I .p ~s 2.0 - 1.8 - NOTE: This plot provides a rough estimate of H2 concentration , l resulting from RCS degassing, Zr hydrid reaction and radiotysis. The major contributor to H2 in containment 1.6 - is radiolysis. H2 recombiners are assumed to be placed in service at one hour efter the St, and H2 production 1~4 rates will then equal removal rates for the remair: der of the exercise. 1.2 - % H2 I" 1.0 - g CONTAINMENT 0.8 - p O.6 - / / / 0.4 - / / / 0.2 - ./ / / T ! l t 1 O_0 1.0 2.0 - 3.0 4.0 TIME ; (in Hours After SI) 3- _ _ _ _. _ _ . _ _ . _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ i_______ ... lys \ . CONTROL ROOM ! DRILL GUIDE l O Pace 'I Control Room Controller Guides 277 . Main Control Board Annunciator Panels 282 { Outside Control Room Controller Cards 304 l f t O : 276.

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0 f CONTROL ROOM CONTROLLER. CARDS O 1 O o CONTROL ROOM CONTROLLER CARDS x 06:45 Crew brief for any last minute details prior to the start of the drill. 06:45 Provide the control room staff with the list of annunciators that are in alarm: BB4 CTMT CLR SW DISCH VLV CLOSED BH4 ESS VALVES OFF NORMAL BJS ESS VALVES OFF NORMAL BK1 PENE RM TO ATMOS A TRN DP HI-LO BK2 PENE RM TO ATMOS A TRN DP HI-LO CFS 1B RHR HX OUTLET FLOW LO FD1 IR HI FLUX AUTO / MAN RODSTOP FB2 NI-35 LOSS OF COMPENSATING VOLTAGE , 07:00 Control room crew on station 07:00 Containment airlock maintenance team on station. 07:00 Contcinment airlock maintenance team reports to the control room that the unit 1 containment outer airlock is damaged and will not close to ma at containment integrity. See the AIRLOCK SCENARIO for details. 07:15 A System operator makes the L'ollowing report to the control room: A popping noise was coming from the 1A RHR PUMP breaker and an insulation smell. The popping sound has stopped and the breaker indication light is now out. There is no indication of smoke or fire coming from the breaker at this time. See the RHR BREAKER SCENARIO for further details. 07:15+ When the control room operator checks the 1A RHR pump breaker the indicating lights are out. 07:55 from the AIRLOCK SCENARIO the outer airlock door is repaired and is now operable. 08:00 See the RHR HEAT EXCHANGER SCENARIO for control information outside the control room 08:02 FH1 RMS HI RAD alarm comes in. When RMS panel is checked R-10 Penetration room rad monitor is in alarm 08:05 BES BOP PANELS ALARM comes in. When the BOP is checked NF2 RHR HX RM SUMP LVL HI-HI OR TRBLE alarm has come in /N alarm. 278 / I 3 NTR L R M NTR LLER CARDS O 08:05+ When the RHR HX sump pumps are checked they are not in pull to lock but did not start automatically. The pumps will start if manually started. 08:05+ When RHR HX sump pumps are started, NF2 RHR HX RM SUMP LVL HI-HI OR TRBLE alarm clears. 08:05+ CF5 1B RHR HX OUTLET FLOW LO clears when the 1B RHR pump is stopped. 08:05+ BJS ESS VALVES OFF NORMAL alarm comes in when the 1B RHR system is isolated from the control board. 09:45 GB2 FIRST OUT PRZR LO PRESS RX TRIP GB4 PRZR LO PRESS RX TRIP SI 09:45+ Provide the following information to the. operators as they perform immediate actions following the SI:

Containment Fan Coolers 1B and 1C tripped on fault when Safety injection tried to start them in slow speed. See CONTAINMENT FAN COOLER SCENARIO for control details

(<_S ) outside the control room.

The TDAFW pump failed to come up to speed during the Safety injection. See the TDAFW PUMP SCENARIO for control details outside the control room.
The following equipment was tagged out or failed to operate during the Safety Injection:

1A RHR PUMP 1B RHR PUMP 1B CONTAINMENT SPRAY 1B CONTAINMENT FAN COOLER 1C CONTAINMENT FAN COOLER 1D CONTAINMENT FAN COOLER 1A MDAFW PUMP TDAFW 09:48 EE1 CTMT PRESS HI-1 ALERT EE2 CTMT PRESS HI-2 ALERT EE3 CTMT PRESS HI-3 ALERT EE4 CS ACTUATION EES CTMT ISO PH B JH1 1A SG MSIV CLOSED JH2 1B SG MSIV CLOSED JH3 1C SG MSlV CLOSED 279 t 'I t i r CONTROL ROOM CONTROLLER CARDS 09:50 ANNUNCIATORS IN ALARM S MINUTES AFTER SI HAS OCCURRED PROVIDE THE CREW WITH THE ANNUNCIATOR PANEL DRAWINGS FOR 0950 09:52 CD1 1A ACCUM PRESS HI-LO CD2 1B ACCUM PRESS HI-LO CD3 1C ACCUM PRESS HI-LO HA4 PRZR SAFETY VLV TEMP HI HAS PRZR PORV TEMP HI 09:54 CC1 1A ACCUM LVL HI-LO CC2 IB ACCUM LVL HI-LO CC3 1C ACCUM LVL HI-LO EG4 RWST MIN TECH SPEC LVL A TRN EH4 RWST MIN TECH SPEC LVL B TRN 09:55 FA1 SR HI FLUX AT S/D FA3 SR LOSS OF DETECTOR VOLTAGE clear 09:57 CA5 SPR ADD TK LVL LO 09:59 DC3 RCP #1 SEAL LO DP 10:02 DC1 RCP #1 SEAL LKOF FLOW LO FA1 SR HI FLUX AT S/D clears JA4 MS LINE PRESS LO ALERT JD5 HI STM FLOW & LO-LO TAVG OR LO STM PRESS STM LINE ISO 10:10 CH1 EXC LTDN HX OUTLRT TEMP HI 10:13 THE TAGS HAVE BEEN CLEARED AND THE 1A RHR PUMP IS NOW STARTED. (IF THE REMOVAL OF TAGS IS STILL IN PROGRESS INFORM THE CONTROL ROOM TO CONTINUE TO REMOVE THE TAGS BUT THAT THE DATA WILL SHOW THE PUMP RUNNING NORMALLY) 10:13 EE3 CTMT PRESS HI 3 ALERT CLEARS 10:17 JC1 1A SG LO-LO LVL ALERT clear JC2 1C SG LO-LO LVL ALERT clear JC3 1C SG LO-LO LVL ALERT clear 10:20 JA1 1A SG LO LVL ALERT clear JA3 1C SG LO LVL ALERT clear O 280 m CONTROL ROOM CONTROLLER CARDS (G 10:23 JF1 1A SG LEVEL DEV JF3 1C SG LEVEL DEV EE2 CTMT PRESS HI-2 ALERT CLEARS EES CTMT ISO PH B clears when phase B is reset BJ3 ESS VALVES OFF NORMAL alarms when accumulator valves closed 10:28 JF2 1A SG LEVEL DEV clears HA3/HB2 PRZR LEVEL LO, B/U HTRS OFF, LTDN SEC/PRZR LEVEL DEV LO clear HA2 PRZR LEVEL DEV HI B/U HTRS ON alarms as pzr level incresae during pressure reduction 10:45 FH1 RMS HI RAD, R21,22,14,10 alarm see CONTAINMENT LEAK SCENARIO for control details outside the control room. 1106 CF4 1A RHR HX OUTLET FLOW LOW clears CH2/CH3 RWST LEVEL A/B TRN LO (" 11:12 FH1 RMS HI RAD, R4 alarms when in recirc D] 11:23 EE1 CTMT PRESS HI-1 ALERT clears 11:38 CH4/CHS RWST LEVEL A/B TRN LO-LO a 281 4 n. . A e a no. w - = u a n s,w,-- e s -~>a. ..-au ---same--- s aa - x .- O MAIN. CONTROL BOARD ANNUNCIATOR PANELS O O 282 @ O s T L L 3 L s f o VL L V V V N LN LN LN S M R R P WTRO R RTW RT O L WDTo S t SPIT L M

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O OUTSIDE CONTROL ROOM CONTROLLER CARDS L O t P O ursiDs ras CoNrnot noou O CONTROLLER CARDS AIRLOCK SCENARIO THE FOLLOWING INFORMATION APPLIES TO CONDITIONS ARISING FROM THE FAILURE OF THE MAIN AIRLOCK: 0700 THE AIRLOCK DOORS WILL ONLY BE SIMULATED OPEN THE INNER AIRLOCK DOOR IS INOPERABLE BECAUSE IT FAILED THE AIRLOCK TEST WHEN THE INNER DOOR IS INVESTIGATED THEY WILL FIND LOOSE AND/OR MIS ALIGNED DOGS ON THE INNER DOOR PREVENTING A PROPER SEAL A MAINTENANCE CREW WILL ENTER THE AIRLOCK AT 0700 TO GET AN ADEQUATE SEAL ON THE INNER AIRLOCK WHEN OPENING THE OUTER AIRLOCK DOOR AT 0700 THE DOOR ONLY PARTIALLY OPENS THEN JAMS IN A MID POSITION DUE TO A FAILURE OF THE OPERATING MECHANISM - THIS SHOULD BE IMMEDIATELY REPORTED TO THE CONTROL ROOM THE OUTER AIRLOCK DOOR CAN BE CLOSED AND MADE OPERABLE BY REMOVING THE OPERATING MECHANISM OR OTHER ACCEPTABLE METHODS OF REPAIR, BASED ON MONITOR JUDGEMENT THE INNER AIRLOCK DOOR CAN BE MADE OPERABLE THROUGH TIGHTENING THE DOGS THE MAINTENANCE TEAM WILL BE REQUIRED TO HAVE ALL OF THE AVAILABLE TOOLS TO SIMULATE REPAIRS 0755 REGARDLESS OF THE STATE OF COMPLETION OF REPAIRS HAVE THE OUTER AIRLOCK DOOR REPORTED CLOSED AND OPERABLE AT 0755 IF THE MAINTENANCE TEAM HAS Not COMPLETED REPAIRS THEN HAVE THEM COMPLETE REPAIRS AFTER THE REPORT HAS BEEN MADE ALL PERSONNEL WILL BE OUT OF THE AIRLOCK AND THE AIRLOCK WILL BE REPORTED OPERABLE FOR BOTH THE INNER AND OUTR DOOR NO LATER THAN 0930. 305 O~UTSIDE THE CONTROL ROOM O CONTROLLER CARDS RHR BREAKER SCENARIO THE FOLLOWING INFORMATION APPLIES TO CONDITIONS ARISING FROM THE FAILURE OF THE 1A RHR PUMP BREAKER: 0715 A SYSTEM OPERATOR MAKES THE FOLLOWING REPORT TO THE CONTROL ROOM: A POPPING NOISE WAS COMING FROM THE 1A RHR PUMP BREAKER AND AN , INSULATION SMELL. THE POPPING SOUND HAS STOPPED AND THE BREAKER INDICATION LIGHT IS NOW OUT. THERE IS NO INDICATION OF SMOKE OR FIRE COMING FROM THE BREAKER AT THIS TIME. WHEN A MAINTENANCE CREW IS DISPATCHED HAVE THEM REPORT TO THE TRAINING CENTER TO PERFORM THE MAINTENANCE ON THE TRAINING BREAKER. WHEN INVESTIGATING THE BREAKER THE MAINTENANCE TEAM DETERMINES THAT THE CONNECTOR FOR THE AUXILIARY CONTACTS IS DAMAGED AND BURNED WHICH CAUSED THE CONTROL POWER TO TRIP. THERE IS NO DAMAGE TO THE BREAKER ITSELF, JUST THE CUBICLE THAT THE O BREAKER IS IN. REPAIRS CAN BE PERFORMED BY REPLACING THE CONNECTOR IN THE CUBICLE. HAVE THE MAINTENANCE TEAM MAKE NECESSARY REPAIRS TO THE TRAINING BREAKER IN THE TRAINING CENTER DO NOT REPORT REPAIRS COMPLETE UNTIL 1000. 1000 AFTER THE MAINTENANCE TEAM REPORTS TO THEIR DESIGNATED ASSEMBLY AREAS HAVE THEM REPORT TO THE CONTROL ROOM THAT THEY HAD COMPLETED REPAIRS TO THE BREAKER AND . RACKED IT IN JUST PRIOR TO THE PLANT EMERGENCY ALARM BEING ACTUATED AND THEY ARE READY TO CLEAR THE TAGS AND CLOSE THE BREAKER. O l , (- a 306 , UTSI E THE NTROL ROOM O CONTROLLER CARDS RHR HEAT EXCHANGER SCENARIO THE FOLLOWING INFORMATION APPLIES TO CONDITIONS ARISING FROM THE FAILURE OF THE IB RHR HEAT EXCHANGER: 0800 WHEN PERSONNEL ARRIVE IN THE RHR HEAT EXCHANGER ROOM WATER IS COMING FROM A RUPTURED RHR PIPE IN THE DISCHARGE OF THE 1B RHR HEAT EXCHANGER. LEAK RATE RHR PUMP RUNNING 70-80 GPM RHR PUMP OFF < 5 GPM CLOSE INSPECTION WILL REVEAL A FAILED WELD ADJACENT TO THE HEAT EXCHANGER TEMPORARY WELD REPAIRS WILL TAY,E APPROXIMATELY 8 TO 12 HOURS TO ACCOMPLISH. THE RUPTURED PIPE WILL NOT BE ABLE TO BE REPAIRED DURING THE DRILL REPAIRS WILL REQUIRE: O TAGGING THE SYSTEM DRAINING THE SYSTEM PROVIDING THE WELDING MACHINE AND NECESSARY EQUIPMENT MAKING THE WELD REPAIR O 307 = _ .__. _ ._ .-. . . . _ . _ . OUTSIDE THE CONTROL ROOM O CONTROLLER CARDS TDAFW PUMP SCENARIO THE FOLLOWING INFORMATION APPLIES TO CONDITIONS ARISING FROM THE FAILURE OF THE TDAFW PUMP TO COME UP TO SPEED: 0945 THE STEAM ADMISSION VALVES FOR THE PUMP ARE ALL OPERATING PROPERLY AND OPEN ALL ATTEMPTS TO BRING THE SPEED OF THE PUMP UP FROM ANY LOCATION ELECTRONICALLY WILL NOT WORK ANY ATTEMPT TO RAISE THE SPEED OF THE PUMP BY MECHANICALLY OPERATING THE THROTTLE VALVE MECHANISM WILL PESULT IN THE PUMP ' TRIPPING ON OVERSPEED. THE OVERSPEED MECHANISM WILL BE ABLE TO BE RESET, BUT WILL TRIP AGAIN IF OVERRIDE IS ATTEMPTED INVESTIGATION REVEALS THAT THE CAUSE OF THE FAILURE TO COME UP TO SPEED IS THE CARD THAT CONTROLS THE 100% SPEED HAS FAILED, CAUSING THE SPEED TO REMAIN AT A MINIMUM. REPAIRS CAN BE COMPLETED BY CALIBRATING OR REPLACING THE CARD O 308 J- s+:- J.-,., .ia w a- + - G< _ w -- -+# e - ursios ras CourRot noou O CONTROLLER CARDS CONTAINMENT FAN COOLER SCENARIO THE FOLLOWING INFORMATION APPLIES TO' CONDITIONS ARISING FROM THE FAILURE OF THE 1B AND 1C CONTAINMENT FAN COOLERS: 0945 IF A MAINTENANCE TEAM IS SENT TO INVESTIGATE THE FAN COOLERS THEY WILL FIND THAT AN INSTANTANEOUS TRIP FLAG IS ACTIVE ON BOTH BREAKERS INVESTIGATIONS REVEAL A 0 GROUND EXISTS ON ALL PHASES OF THE MOTORS O l 1 O l 309 l . ~ . - . ..- . . . . . . - . - - r OUTSIDE THE CONTROL ROOM CONTROLLER CARDS CONTAINMENT LEAK SCENARIO , THE FOLLOWING INFORMATION APPLIES TO CONDITIONS ARISING FROM THE FAILURE OF THE CONTAINMENT ELECTRICAL PENETRATION: 1045 THE ELECTRICAL PENETRATION FOR LETDOWN VALVES (#Q1T52B019A) IN THE A ELECTRICAL PENETRATION ROOM (ROOM 333) DEVELOPS A LEAK CAUSING A RELEASE FROM THE CONTAINMENT THE LEAK CAN BE STOPPED BY PACKING THE PENETRATION WITH SUITABLE PACKING MATERIAL. IF THE LEAK IS STOPPED PRIOR TO THE TERMINATION OF THE DRILL THE DRILL CREW WILL BE INFORMED THAT THEY ACCOMPLISHED THEIR GOAL OF STOPPING THE LEAK, BUT THE LEAK WILL CONTINUE UNTIL THE EFD OF THE DRILL TO EXERCISE THE RMTs O l I i l O l l ,? 310 I O MONITOR CHECKLISTS O I v s\\ \ 311 l MONITOR CHECKLISTS O The checklists provided are listings of procedurally required actions grouped by responsible position. The listings include some actions which will not be required based on the scenario events and some actions which may or may not be required depending on exercise free-play decision. Monitors are to mark those actions not required as N/A. Questions concerning the applicability of specific actions should be addressed to the Training Manager. O O 312 TSC STAFF EMERGENCY ACTION CHECXLIST O FOR DRILL MONITORS

1. Verify work station is set up (e.g., desk unlocked, phone, etc.)

2. Evaluate Rx vessel head vent requirements.

3. Evaluate long term plant status.

4. Plot hydrogen concentration on Post LOCA CTMT hydrogen concentration g raph.

5. Determine event specific procedure for post accident recovery (ex.

~~post SGTR cooldown).~~

6. Determine if RHR can be placed in service during post SGTR cooldown using backfill.

7. Determine method for establishing RCP seal injection and CCW cooling.

8. Provide recommendation for processing CTMT sump based on sample results.

9. Provide recommendation on placing preaccess filtration system or Post LOCA vent system in operation.

() 10. Determine long term plant status. L O ~' 313 EMERGENCY DIRECTOR EMERGENCY ACTION CHECKLIST O 'FOR DRILL MONITORS

1. Evaluate plant conditions and if conditions warrant, declare an emergency.

2. Assume the position of ED and announce to personnel in control room /TSC.

3. Verify correct control room response to the emergency condition.

4. Determine radiological status and initiate notification or evacua-tion per EIP's 9, 8, and 10.

5. Verify emergency organization callouts initiated per EIP-8. ,

6. Initiate rescue and emergency repair operations per EIP-14.

7. Maintain plant security per EIP-7.

8. Establish comun1 cations with and provide information to the Recovery -

~~Manager per EIP-27.~~

9. Perform personnel accountability per EIP-10.

10. Coordinate and maintain conmunications with off-site authorities per EIP-8 and EIP-9.

11. Direct setup of TSC per EIP-6, Appendix.

12. Provide staffing of the Technical Support Center within 75 minutes of the declaration of the emergency by notifying the Tech Manager.

13. Assign an individual to keep a record of all communications with the general office and offsite authorities.

14. Activate teams to search for unaccounted personnel according to EIP-14.

15. Evaluate the emergency conditions and direct non-essential personnel to either depart from the site or return to work.-

16. Provide transportation for persons without vehicles.

17. Provide clothing for personnel found to be contaminated.

18. Provide periodic plant status updates to off-site authorities.

19. Reassess conditions for possible upgrade of the emergency classification.

l

~~20. If a fire, implement EIP-13. j I~~

~~314 .. ._ -._.___ _ __ ._ _ _ _. __ . _ ___ ._.m_ _~~

21. Close out by verbal summary or escalate to a higher level emergency, ensure off-site authorities notified and security notified.

22. Activate only that portion of the emergency organization necessary to respond to the incident.

23. Implement an Alert per EIP-9 if the fire may potentially affect ECCS.

24. Determine the conditions for use of smoke removal units'in the RCA.

25. Authorize the HP Manager to dispatch HP personnel.

26. Authorize the HP Manager to reestablish manning of HP and dosimetry )

~~-offices.~~

27. Approve relocation of security personnel.

28. Ensure radiological conditions which may require the relocation of security are evaluated and provided to security personnel.

29. Approve exposure and/or dose rate limits with the aid of health physics, and be responsible for authorizing exceeding any 10CFR 20 exposure limit.

30. Ensure applicable portions of the re-entry guideline are completed.

31. Provide instructions for the Administrative Aide to notify TSC staff and the Recovery Manager.

32. Initiate environmental sampling.

33. Implement EIP- 8.

34. Authorize re-entries.

35. Provide met data and dose estimates to off-site authorities.

36. Coordinate press releases and recovery planning with the Recovery Manager.

37. Coordinate with security for dispatching of company representative to off-site agencies and any required departures from site.

38. Reassess conditions for possible upgrade to general emergency.

39. Evacuate area (s) of the plant site, as necessary.

40. Activate TSC, OSC, and EOF (at RM's discretion).

41. Provide periodic meteorological and dose estimates to off-site authorities.

42. Relocate the TSC should it become untenable due to radiological or other hazardous conditions.

O l 36 315 l l 'm. . _a _ . ._ _- ._ _ _ - _. A . .; _; -- - --- n:: - - - - - - - - -;--__A._, . ~ . . . . . . . = . . - - . . - . . .. . - .. - .

~~43. Assign an individual to maintain a 109 of important ED activities.~~

~~O 44, Within 8 hours of the declaration of an emergency, provide a TSC continuous staffing rotating schedule.~~

~~45. Authorize relocation of assembly areas from plume pathway. ,~~

O t O : 316 , i . . - ~ . . - , - - .-. , , . . . . _ . . _ . . . . _ _ . - . - ~ . . .-. A m.gs-- .,rnsi ,&, re 4 -S h 4A sa E i :4- - ,- C aLa- *a ka - em -L--o- a-- -- m -44Ls-4-r+Wm, A--- u -o 4 SHIFT SUPERVISOR .. EMERGENCY ACTION CHECKLIST FOR DRILL MONITORS

1. Announce the emergency on the PA system and dispatch a qualified individual to perform first aid.

2. Account for all personnel if the ED is not present. j

3. Ensure affected unit is in safe condition and assess fire.

4. Continue to reassess the situation for evacuation requirements and notify personnel accordingly. .

5. Implement an Alert per EIP-9 if applicable.

6. Implement a Site Area Emergency per EIP-9 if applicabic.

7. Direct Fire Brigade Chief in fighting the fire.

8. Monitor EIP-9 criteria.

9. Alert CSC if assistance from outside agencies is required.

10. If time and personnel permit, dispatch RMT to meet the offsite agency at the CSC.

~~O 11. Evacuate affected areas of the site as necessary for an ALERT. ,~~

12. Implement EIP- 8. The shift supervisor shall notify the Central Security Control and the Emergency Director.

13. Direct operational activities to combat the emergency and act as ,

~~Emergency Director.~~

~~14. Provide the ED the (following) information pertinent to the !~~

~~emergency. 1)-Status of the unaffected unit. 2). Status of affected unit. 3) Emergency classification. 4) Emergency actions initiated.~~

5) Release information. 6) Requests for off-site assistance initiated. 7) Notifications initiated. 8) Prognosis for worsening or termination of the event.

15. Implement a Notification of Unusual Event per EIP-9 if a contaminated, injured individual is transported to an off-site facility.

16. Dispatch RMT if radiation exposure or contamination is possibly involved.

17. Summon a local ambulance if the PEV is not available, giving the number-of injured personnel and whether radioactiva materials are ,

~~involved. 317 . . _ . _ . _ . = . _ . . - _ _ _ . - _ _ - _ _ . - - . _ _ - . . . . . . - _ . _ _ . . - _ . _ _~~

18. Inform CSC to escort the ambulance upon arrival at the plant site to the location of the injured personnel.

19. Notify SAMC and the company doctor and give all the information per EIP-11. 1) Number of casualties. 2) Whether radioacti material involved. 3) Level of contamination. 4) Nature of injury. 5)

~~Estimated time of arrival. 6) Any other pertinent information. 7) The hospital will call back for verification. 8) Ensure ED is notified.~~

20. Place the unit in a safe condition in accordance with the applicable Emergency Response Procedure.

21. Restrict access to the at-the-controls area to only authorized personnel.

22. Establish initial offsite communications.

O 3 I i t t 4 lO , ' 318 MAINTENANCE MANAGER EMERGENCY ACTION CHECKLIST FOR DRILL MONITORS

1. Assist the ED by selecting qualified personnr for assignment to a emergency repair party.

2. Assist the ED by planning activities and giving instructions to members of the Emergency Repair Party.

3. With HP Manager help, maintain exposures to maintenance personnel as low as reasonably achievable during re-entry repair or decontamination activities which result from an emergency.

4. Ensure re-entry team is assigned a team leader.

5. Ensure re-entry team wear radiological protection devices as directed by Health Physics.

6. Ensure activities and transit route of re-entry team are planned with help from the emergency staff.

7. Ensure re-entry personnel are briefed concerning the nature of the emergency, possible hazards, and duties in the emergency area.

8. Discuss conmunications and alternatives if no communications are available, with re-entry personnel.

9. Debrief re-entry personnel.

10. Report de-brief information to ED.

11. Complete applicable portions of the Re-entry Guideline.

O 319 ..,_.._. _. -- __.-__.,_._ __, - - ,,, _ , -- v,.. , , . _ . , _ , , TECHNICAL MANAGER EMERGENCY ACTION CHECKLIST FOR DRILL MONITORS

1. Assign appropriate personnel to setup the TSC for emergency use per FNP-0-EIP-6 appendix.

2. Assign a person to handle off-site comunications and to log off-site comunications. (Normally on-call licensing engineer.)

3. Assign an engineer or Counting Room Tech to support off-site dose assessment. (Normally on-call reactor engineer.)

4. Provide engineering support for assessing, mitigating, and/or recovering from the emergency. (On-call systems engineer.)

5. Dispatch the on-call liaison person to the-Houston County and/or Early County Emergency Operations Center when directed by the Emergency Director.

6. Direct the on-call ENV-Supervisor to support off-site dose assessment.

__7 . Direct the on-call Computer Support and on-call Quality Control personnel to activate the EOF per FNP-0-EIP-27, request HP support if needed. !

3. Perform hourly dose assessment.

9. Review outgoing telecopies prior to off-site transmission. '

i

~~10. Augment TSC and EOF staffs as required. ,~~

-\

~~11. At the direction of the ED or RM, perform forecast Dose Assessment per EIP-29. (Normally on-call reactor engineer.) ,~~

1

12. At the direction of the ED or RM, calculate radioactive release l potential per EIP-29. (Normally on-call reactor engineer.)

13. Direct the on-call Chemistry Supervisor to coordinate sampling.

14.- Ensurc TSC Gaitronics is switched to "TSC I COM" position, volume is turned up and the unit is operable. O 320 , _.. _ _ ._. _ . _ _ _ _ _ - _ _ . _ . . _._ __ i REACTOR ENGINEER EMERGENCY ACTION CHECKLIST O FOR DRILL MONITORS

1. Report to the TSC or location directed by the ED or Technical Manager.

2. Establish the plant parameter remote monitoring capability in the TSC upon direction of ED.

3. Complete manual dose assessment if automatic dose assessment is not available per EIP-9.

4. Transmit dose assessment reports to state / local agencies per EIP-8 and EIP- 9.

5. Compute the total core inventory per EIP-30 for times after shutdown as specified by the Technical Manager.

6. Determine plant power history for the 30 days prior to shutdown.

7. Determine power correction factor.

8. Determine corrected core inventory.

~~___9. Perform estimation of percent fuel damage per EIP-30. () 10. Determine the activity ratios for noble gases and iodines.~~

11. Compare calculated activity ratios and fuel pellet ratio per EIP-30.

12. Determine and record any available evidence of core uncovery.

1

13. Obtain and compare core exit thermocouple values per EIP-30.

14. Obtain and compare containment hydrogen concentration.

15. Determine the extent of zirconium water reaction per EIP-30.

16. Obtain and compare containment high range area radiation monitors per EIP-30.

17. Perform the final core damage assessment per EIP-30.

4 O F 321 ,e - . . . . . - ._ _ ~ - . - - - -- ..-rw- w -. - , LICENSING ENGINEER EMERGENCY ACTION CHECKLIST FOR DRILL MONITORS

1. Report to the TSC or location directed by ED or the Technical Manager.

2. Ensure TSC Gaitronics volume control is turned up, selected to TSC Com I Position, and the unit is operable.

3. Establish comunications with off-site authorities as directed by the ED per EIP-8 and EIP- 9.

4. Maintain a chronological log of all off-site communications noting the organization contacted and conversation sumary.

5. Transmit dose assessment reports to state / local agencies per EIP-8 and EIP- 9.

O O . 322 . _ , - . -. . .,. ~ ,Ja L; .- ;=~ ---- r_r-_-r,=.--=.._-_-.- - ~ . CHEMISTRY SUPERVISOR EMERGENCY ACTION CHECKLIST FOR ORILL MONITORS

1. Report to the TSC or other location designated by the Technical Manager or HP Manager.

2. Coordinate sampling and analysis of primary coolant and ECCS Sump (via RHR) for FNP-0-EIP-30 core damage assessment.

3. Coordinate sampling and analysis of the plant vent stack for determination of effluent source term for use in FNP-0-EIP-9 manual dose assessment calculations as needed.

4. Coordinate sampling and analysis of containment atmosphere for FNP-0-EIP-30 core damage assessment.

5. Coordinate sampling of site drinking water for radioactive contamination. If drinking water exceeds 10CFR20, App. B. Table 1 Column 2 limits, order quarantining and posting of affected outlets.

6. Coordinate sampling of Sewage Treatment Plant as needed, isolating '

~~sources of excessive contamination.~~

~~7. Coordinate sampling of Waste Settling Pond as needed, isolating sources of excessive contamination.~~

O O , 323 w ENVIRONMENTAL SUPERVISOR EMERGENCY ACTION CHECKLIST O FOR DRILL MONITORS 1

1. Report to the ADMS terminal in the TSC or other location directed by the Technical Manager or HP Manager.

2. Assist the Technical Manager with initial and follow-up notification messages for off-site dose assessment.

3. Report to the EOF Dose Assessment Director to assist in dose assessment at the direction of the ED or Technical Manager.

4. Obtain post accident samples from RCS, ECCS Sump, and containment atmosphere.

5. Analyze post accident samples for isotopic specific activity with no decay correction applied and determine the following per EIP-30:

a. Complete Table 3A, RCS Activity Worksheet.

b. Complete Table 3B, Containment ECCS Sump Activity Worksheet.

c. Complete Table 3C, Containment Atmosphere Activity Worksheet.

d. Estimate the total liquid mass by completing Table 5, Estimate of Total Liquid Mass Worksheet, O e. Estimate RCS water mass and containment water mass per EIP-30.

f. Calculate total activity of each nuclide released to the RCS.

g. Calculate total activity of each nuclide released to the containment water.

h. Calculate total activity of each nuclide released to the containment atmosphere.

i. Calculate the total activity released of each nuclide by summing RCS, sump, and containment atmosphere.

6. Divert E0F lab drains to holding tank from sewage treatment plant if the EOF lab is to be used for analyzing radioactive samples. :

7. Coordinate utilization of EOF laboratory and off-site laboratories as needed to support post accident sampling and analysis.

8. Activate nurse's station for dosimetry issue station as needed.

9. Coordinate issuance of personnel dosimetry as.needed.

. 10. Maintain log of all dosimetry devices issued by use of log book , recording SSN, name, and dosimetry number issued. 1 324 l i: I !. CHEMISTRY TECH EMERGENCY ACTION CHECKLIST FOR DRILL MONITORS j !

1. Sample RCS per CCP-1300. 1

2. 0btain CTMT atmosphere grab sample and analyze. 4 i e l 3. Sample for Boron concentration.

4. Sample CTMT sump liquid for radioactivity, chromates, and Boron.

l

5. Obtain and analyze stack sample. -l

6. Replacement of filters in Sping (if needed).

7. Analyze RHT samples as necessary.

~~l i i O . 1 e O~~

~~- 325~~

. . : .. -._. a . - - . . . . . _ - . _ . . - . . . . . . . . . . . _ . . - - - - . - . . - . , - - . . . . . - . . , - , . .... - _ - . . . .. . . ..=.. .-- . . - . - . -. - - - - HP MANAGER EMERGENCY ACTION CHECKLIST () FOR DRILL MONITORS

~~1. Report to TSC or other location directed by the E0 or Tech Manager. ,~~

1

2. Evaluate relocation of access control as necessary for re-entry.

3. Provide for on-site sampling and analysis of site drinking water, forage, soil, and air.

4. Provide ED with information concerning environmental monitoring data.

5. Maintain communications with environmental RMT's via radio located in the TSC.

6. Provide for off-site sampling and analysis of radiological samples of forage, soil, water, and air.

7. Dispatch HP technicians to provide radiation monitoring of personnel in the assembly areas and EOF.

8. Provide HP coverage when searching for personnel in the assembly areas.

9. Initiate recall of off-duty personnel.

J

10. Monitor plant status and environmental monitoring data concerning any-radiological incident.

11. Assign personnel to RMT and maintain RMT assignment log and RMT data log.

12. Assist ED in planning re-entry and recovery activities.

13. Provide supervision for personnel, area, and equipment decontamina-tion.

14. Review of personnel past exposure history prior to allowance on a re-entry team.

15. Pass along plant conditions to RMT's as incident progresses.

16. Initiate call-in of contract technicians. Route to RR when EOF has been staffed.

~~___17. Set up long-term shift fotation to support plant. ___18. Assist the Technical Manager in evaluating direct radiation, plume disposition and contamination in the environment.~~

~~19. Assess the control room and TSC personnel for issue of personnel dosimetry devices in an emergency.~~

~~I O q "' [ 326 I~~

20. Provide fire brigade support.

21. Complete re-entry team checklist.

l

22. Complete Re-entry Master List to log all re-entry team members.

23. Track and record doses received by re-entry personnel on Re-entry 1 Individual Exposure Record. 1

24. Implement in-plant iodine monitoring as needed.

l

~~25. Ensure in-plant C.A.M.'s for monitoring iodine are operable for l iodine > 1 MPC. !~~

l

26. Periodically update field RMT's as to plant's emergency status. l l

27. Withdraw RMT's from plume path when not actively surveying. '!

l

28. Relinquish control of RMT's to Dose Assessment Director when EOF is I manned and permission from ED is granted. l l

29. Recomend relocation of assembly areas to the ED. ;

i l 2 O l 1 O , 327 . ~ . . - - .- - .. .. - -.- - - . -- . - HP TECHS/RMT EMERGENCY ACTION CHECKLIST O FOR DRILL MONITORS FIRE: ,

1. Report to HP office adjacent to control room unless otherwise instructed by control room.

2. Don protective clothing and respiratory protection equipment.

3. Accompany members of fire brigade to the fire.

~~__,4 . Survey the area of the fire to determine radiological hazards, supervise the use of protective clothing and equipment.~~

5. Meet outside agencies at the CSC, issue them dosimetry, and remain with them inside the controlled area.

6. Comply with EIP-10 during evacuations.

7. Comply with EIP-11 with injured personnel.

8. Comply with EIP-13 when supporting fire brigade.

9. Decontaminate all personnel and equipment upon leaving RCA.

10. Survey all off-site personnel, equipment, and vehicles prior to releasing them from the protected area.

11. Ensure the return of all APC0 equipment issued to outside agencies.

12. Obtain the name and social security number of each off-site individual who entered the Protected Area and correlate the information with the appropriate personnel dosimetry device.

13. Obtain personnel dosimetry devices and other APC0 property from ambulance personnel when they are released.

~~PERSONNEL INJURY:~~

1. Establish the degree of contamination and exposure of the patient.

2. Establish protective clothing requirements for first aid personnel and/or ambulance personnel.

3. Decontaminate the casualty and minimize the spread of contamination.

4. Read the casualty (s) personnel dosimetry to determine classification and replace dosimetry (unexposed) on the-contaminated area.

~~O .. 328~~

5. Prepare the casualty for transportation to a medical treatment facility, if necessary.

6. Assist the hospital staff as required.

7. Periodically inform the ED as to the casualty's dispositions.

8. Detain ambulance and its attendants at hospital until properly monitored and decontaminated.

~~HOSPITAL:~~

1. Prepare morgue to receive casualty.

2. Maintain a log of all personnel who enter the radiation casualty receiving area.

3. Ensure ventilation system registers closed if high levels of contamination are involved.

4. Ensure drain valves aligned to holding tank.

5. Issue and log personnel monitoring devices to hospital personnel.

6. Keep the doctor informed of radiation and contamination levels.

7. Monitor the patient when directed by the doctor.

8. Ensure all body excreta and excised tissue are placed in appropriately sealed and labeled containers.

9. Provide decontamination information to doctor as requested. l l

10. Advise doctor of radiological precautions necessary during and after i transfer.

11. After patient has left the RCRA, survey personnel, equipment, and area.

12. Survey ambulance, ambulance personnel, path of casualty, and direct decontamination efforts if needed.

1

13. Collect and prepare all bioassay personnel, path of casualty, and I direct decontamination efforts.

14. Sample the run-off in the holdup tank for analysis at the plant..

15. Obtain personnel monitoring devices and appropriate information from hospital personnel, l

16. Document all survey data'and record all actions in the log book. l

17. Maintain comunications with ED or Health Physics Manager. i O -

~~329 RE-ENTRY: () 1. Com iy with EIP-14 if a member of a re-entry. team. . Don PC's and emergency' equipment and perform radiological surveys as 2. directed.~~

3. Post and establish contro? led access areas as appropriate.

4. Report findings to TSC or EOF.

5. Document Survey Data.

~~RMT:~~

1. Obtain the RMT kit, check operability, and don necessary protective ciothing.

2. Proceed to the ENV vehicle placard and perform radio operability -

~~check.~~

3. Perform direct radiation, air particulate, and radiciodine surveys.

4. Replace any TLD in the area and post additional TLD's as directed.

~~-5. Document survey data.~~

6. Relay data to the EOF or TSC.

7. If a vehicular accident sho"'d occur enroute to SAMC and the Plant Emergency Vehicle or ambu' 'ere to remain unattended, lock the vehicle, if radicactive r ' are involved placard " Radioactive".

8. Take soil, water, air, ar. etion samples.

i l \w,/ f3 D l 330 i 'l. p - p 9 9 y r - .*-w ww= , _ .~ . - - .- - . l l HOUSTON /EARLY COUNTY EOC LIAISON EMERGENCY ACTION CHECKLIST I FOR DRILL MONITORS l

1. Report to TSC.

2. Determine plant status.

3. Verify ED/TM briefing includes updated plant status, any press release information and approved route offsite with security approval.

4. Report to the Dose Assessment Room at the Houston /Early County Courthouse at the direction of the Recovery Manager.

5. Provide state and county government personnel with explanations of plant terminology, hardware, and operation.

6. Notify the Technical Manager (TSC), ED Assistant or Dose Assessment Director (EOF) if communication problems become evident or if significant off-site actions are pending.

__7 . Refrain from providing information or conments to news media personnel. O . I , m, 331. ~~, . . _ _ . . __ . - _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ - _ _ _ _ - _ - _ EMERGENCY C0ORDINATOR EMERGENCY ACTION CHECKLIST O FOR DRILL MONITORS

1. Activate the General Office Emergency Organization in accordance with EIP-111.

2. Obtain the emergency classification, and description of conditions and prognosis from the ED.

~~___3. Contact an the ESM to act as NMC spokesman.~~

4. Determine mode of transportation to the plant site and make provisions.

5. Contact the on-call Public Information Emergency Coordinator to activate the Corporate Communication Emergency Organization.

6. Have the ASD contact on-call individuals per G0 EIP 111,

7. Notify TSC of E0C Activation.

8. Establish contact with Recovery Manager.

9. Brief upper management on emergency and provide periodic update.

10. Provide N!1C Spokesoerson with status brie.fing when he arrives at NMC- ,

11. Deactivate EOC at direction of ESM.

12. Ensure that Tech Manager has dispatched plant personnel to staff EOF.

13. Coordinate as necessary to issue a press release per GO-EIP-114.

~~14 Coordinate performance of " Notification" section per EIP-111.~~

15. Advises chopper of plume path if release is in progress. ,

16. Keep adequate log of events. '

~~,,. m 332 RECOVERY MANAGER EMERGENCY ACTION CHECKLIST FOR DRILL MONITORS~~

1. Review Plant Parameter Status Boards.

2. Review off-site agency status.

3. Review requests for off-site assistance.

4. Review off-site Protective Action Status.

5. Review Dose Assessment Status with Dose Assessment Director.

6. Review Administrative Support Status with the RMA.

7. Review Engineering and Licensing Status with Engineering and Licensing Support Director.

8. Coordination of SNC emergency response activities with local, state and federal organization.

9. Serve as company spokeperson if no ESM is available.

10. Direct the overall recovery effort.

11. Review news releases.

12. Analyze data to make deescalation decision.

13. Review On-Duty Supervision" status boards.

14. Review 'i-Plant Protective Actions.

15. Review Public Information Status.

~~__16 . Update "On-Duty Supervision" status board.~~

~~17. Notify affected organizations of shift turnover completion. ,~~

l i 1 O ,. 333 -l I DOSE ASSESSMENT DIRECTOR ' l EMERGENCY ACTION CHECKLIST O FOR DRILL MONITORS

1. Coordinate company environmental monitoring activities.

2. Evaluate the magnitude and effect of actual or potential radioactive ;

~~releases. l~~

3. Maintain appropriate status boards.

4. Provide RM with recommendations for off-site protective measures.

5. Review status of off-site dose calculations.

6. Review existing meteorology and status of projections.

7. Review status of SNC RMT. l

8. Review status of AL & GA RMT.

9. Reviek status of environmental monitoring activities.

11. Ensure Dose assessment status boards are current.

___12. Notify RM shift turnover is complete and update "On-duty Supervision" status board. O O / -u 331 1 ADMINISTRATIVE SUPPORT DIRECTOR O EMERGENCY ACTION CHECKLIST FOR DRILL MONITORS

1. Maintain on-duty status boards.

2. Establish shif t schedules for E0C personnel.

3. Review status of all incomplete requests for materials and supplies.

4. Review status of all requests for manpower.

5. Review status of logistics associated with manpower augmentation.

6. Review status of corporate support organizations.

7. Provide for the manning of emergency communications.

8. Provide special communication needs.

9. Provide for manpower augmentation.

10. Administrative special budget activities.

11. Provide clerical support.

~~t J 335 ENGINEERING AND LICENSING SUPPORT DIRECTOR EMERGENCY ACTION CHECKLIST 'O FOR DRILL MONITORS~~

1. Review engineering support agency status.

2. Review status of incomplete requests for engineering support.

3. Review status of onsite engineering manpower augmentations.

4. Ensure that appropriate boards are current.

5. Notify EC of turnover completion and update "On-Duty Supervision" status board.

~~...__6 . Notify engineering support organizations. I~~

~~7. Coordinate information and obtain release approval for Network news releases as directed.~~

~~f O g 336 r HONITOR CHECK LIST CORPORATE HEADOUARTERS~~

1. PIEC is notified of event and notts information given to him.

2. PIEC reviews available manpower pool and makes position assignments.

3. PIEC notifies Activation Assistant of event, gives her position assignments, and instructs her to proceed with notification procedures.

4. PIEC contacts senior available PISC and advises him of situation and departure time / location.

5. PIEC contacts VP-Public Affairs and advises him of situation.

6. PIEC contacts Corp. Media Coord. and instructs him to report to '

~~the Corporate Headquarters (and notify other staff if needed).~~

7. PIEC contact PI EOC Coord. and instructs to report to E0C (and notify other staff if needed).

8. PIEC contacts PI EOF Coord, and advises him of situation and O- departure time / location.

~~9 PIEC contact NMC Coord. and instructs to report to NMC.~~

10. PIEC contacts PI Emergency Staff Office Coord, and instructs to notify personnel and report to EOF for set-up.

11. Activation Assistant contacts Asst. Corp. Media Coord, and <

~~instructs to report to Corp. Headquarters.~~

~~12. Activation Assistant contacts NMC Media Relations Coord, and instructs to Report to NMC.~~

~

~~13. Activation Assistant contacts NHC Asst. Media Relations Coord.~~

~~and instructs to report to NHC.~~

14. Activation Assistant contacts NMC Assistant and instructs to report to NHC after making other NMC staff notifications.

15. Activation Assistant contacts Employee Communication Coord. and notities to report to Corporate Headquarters after notifying needed staff.

16. Activation Assistant contacts Headquarters Rumor Control ,

g-~g personnel and notifies to report to Corporate Headquarters. V' 17. Activation Assistant contacts Emergency Telephone Answering Center Coord. and notifies to report to Corporate Headquarters. 9 337 N

18. Activation Assistant contacts Security and instructs to report to News Media Center in Dothan after making arrangements for security guards to also report to News Media Center in Dothan.

19. Activation Assistant contacts Select Groups & Political Liaison Coord. and instructs to report to Corporate lieadquarters after notifying other needed staff.

20. Activation Assistant contacts Financial personnel and notifies to report to Corporate Headquarters after notifying other needed staft.

21. Activation Assistant contacts Corporate Headquarters support staff and instructs to report to the Corporate Headquarters.

22. Activation Assistant coraaets any additional personnel needed and gives them instructions as indicated by PIEC.

M

23. Activation Assistant reports status of activation to PIEC and, once organization is activated, reports to emergency assignment.

24. Corporate Media Coordinator coordinates the activities of the media reps located at headquarters.

25. Corporate Media Coordinator coordinates agency approval and PISC approval of news releases prior to activation of the News Media Center in Dothan.

26. Corporate Media Coord, coordinates requests for information from the media.

27. Corporate Media Coord, monitors state and national media reports and evaluates consistency of information and ef fectiveness of public information releases.

~

28. Telephone Emergency Ansvering Center Coord. maintains and updates l tl.e emergency telephone actuality system.

29. Employee Communication Coordinator disseminates information to j

company employees and to system employee communications ; organizations. ) i 3C Employee Communication Coordinator responds to inquiries from l employees regarding drill or emergency. )

31. Corporate Headquarters Rumor Control notes rumors reported to the company and responds to those concerning Alabama Power or refers the call to the proper emergency management agency for response.

32. Select Groups and Political Liaison Coord is responsible for providing information to public officials who require information during an emergency at the.Farley Nuclear Plant.

~~3 7 8 338~~

33. The Financial area-coordinates requests for information from financial organizations.

34. Corporate Headquarters Security is responsible for preventing unauthorized personnel from entering the emergency organization's area. ,

~~MONITOR CBECK LIST EMERGENCY OPERATIONS FACILITT~~

1. PI ESOC contacts FNP Visitors Center Staff and coordinates their emergency activities.

2. PI ESOC calls Southeast Division Telecommunications to set up public address system and communication equipment at the News Media Center.

3. PI ESOC verifies security has been contacted and personnel are en route to the NMC.

4. PI ESOC instructs NHC Equipment Coord, to obtain equipment and supplies and set up in the News Media Center.

5. PI ESOC instructs staff to obtain office equipment and supplies for Emergency Operations Facility.

6. PI ESOC secures and schedules any necessary local transportation needed for public information staff and activities.

7. PI ESOC contacts the principal at Northview High School and arranges for the facilities at the high school to be available and doors unlocked.

8. PI ESOC verifies with NMC Equipment Coord. that all equipment listed in Appendix 4 of GO-EIP-118 is set up and operational at the NMC.

9. PI ESOC designates personnel to coordinate NMC operations until the coordinator arrives.

10. PI ESOC insures proper installation of telecopier, telephones and other equipment at EOF.

11. PI ESOC establishes communication with Emergency Operations Center and obtains all news releases from Corporate Headquarters.

12. PI ESOC sets up office space for EOF Coordinator.

() 13. 14. PI ESOC assists EOF Coordinator. PI ESOC assures that all EOF communications facilities remain 'v1 r 337 i h functional.

15. PI ESOC maintains supplies for EOF.

16. PI E0F Coordinator works with Nuclear Generation E0F personnel in obtaining information necessary for preparing news release drafts.

17. PI EOF Coordinator prepares news release drafts for approval.

18. EOF Coordinator maintains contact with PISC and NMC Coordinator.

~~MONITOR CHECK LIST NEVS HEDIA CENTER~~

1. Upon arrival at the NMC, the Equipment Coordinator contacts the principal at Northview to clear immediate admittance to the NMC.

2. NMC Equipment Coordinator obtains office / communication equipment and coordinates set-up and testing of equipment at NMC.

3. Southeast Division Telecommunications sets up and tests public address system & communications equipment at the NMC.

4. NMC Equipment Coord. & SE biv. Telecommunications report status of equipment operability upon arrival of NMC Coordinator and NMC Assistant.

5. NMC Assistant sets up offices in News Media Center.

6. NMC Assistant & Equipment Coord. set up news release posting area, bulletin boards and other informational boards in the agency room.

7. Equipment Coord. sets up news conference room and the media room.

8. NMC Coord. obtains copies of all news releases from Corporate Headquarters.

9. NMC Assistant verifies proper security is established and briefs security guards prior to NMC activation.

10. NMC Assistant distributes media (its and agency kits.

11. NMC Coord. notifies PISC that NMC is ready for activation.

12. NHC Coord. notifies Corporate Headquarters, EOF and EOC that the News Media Center is activated.

13. PISC, NMC Coord and NMC Assistant contact agency personnel and coordinate as needed.

~~.p a 343 a ~~~

14. NMC Media Relations Coord, notifies media of NMC activation.

15. NMC Asst. coordinates agency approval, PISC approval, NMC

~~~~ Coordinator approval and NHC Media Relations Coord. approval on news release drafts and notifies EOF of changes.~~

16. Media Relations Coord. posts and distributes approved news releases to reporters.

17. NHC Assistant Posts and distributes approved news releases to agency personnel and APCo personnel and spokespersons.

18. PISC & NMC Coordinator maintain communications with and coordinate news conferences with public information agency personnel and the NRC.

19. Media Relations Coord. notifies media of times for news conferences.

20. PISC and/or NMC Media Relations Coordinator acts as moderator ,.

~~during news conferences at the NMC.~~

21. Media Relations Coordinator monitors local news _ media reports and evaluates public information effectiveness. ,

22. Equipment Coordinator & SE Div.' Telecommunication maintain'all equipment in vorking order.

23. PISC directs activities of the Corp. Comm. Emergency Org and maintains contact with all areas of the organization.

24. PISC coordinates acquisition of additional public information support personnel from other system companies as needed.

25. Media Relations Coordinator coordinates requests for information from the media.

26. NHC Rumor Control notes rumors reported to the NMC and respends to those concerning APCo and refers the others to the proper emergency management agency for response. ;

lj

27. NHC Assistant coordinates support activities for the emergency management agencies.

28. NMC Media Relations Coord, coordinates all activities in the News, J l

~~Media Room and the News Conference Room.~~

~~29. Media Relations Coord, coordinates activities of NMC media Relations personnel.~~

~~-- 30. NMC security is responsible for signing in and badging anyone entering the NMC.~~

~~D 341~~

~~. , _ . ._ _ . . . - . . . , . . . _ _ , . . . . . - ..m , , , . - - 1~~

31. NMC security is responsible for preventing entry of unauthorized personnel into the NMC. l NMC security is responsible for preventing the media from !

32. entering the agency room. ,c 342 O I J APPENDIX A l SPDS - Radiation Monitor i Data Screens (PPC Group Review Page 16 & 17) l l l O F I l l O l 343 1 O O O PPC GROUP REVIEW PAGE 16 Time: 08:00:00 RE0002 CTMT AREA MONITOR 2.43e-02 R/HR RE0007 CTMT INCORE SEAL AREA MONITOP 8.40e-03 R/HR RE0027A CTMT RADIATION HIGH LEVEL CHAN A 1.00e+00 R/HR 1 RE0027B CTMT RADIATION HIGH LEVEL CHAN B 9.85e-01 R/HR RE0010 PENE ROOM FILT PARTICULATE MONITOR 1.64e+02 CPM RE0011 CTMT AIR PARTICULATE MONITOR 5.30e+03 CPM RE0012 CTMT GAS MONITOR 2.09e+03 CPM RE0013 WASTE GAS PROCESSING MONITOR 3.40e+03 CPM RE0014 VENT GAS MONITOR 2.29e+03 CPM RE0017A COMPONENT COOLING WATER MONITOR 5.21e+01 CPM RE0017B COMPONENT COOLING WATER MONITOR 7.93e+01 CPM RE0018 WASTE DISPOSAL LIQUID MONITOR 1.18e+03 CPM RE0019 SG BLOWDOWN SAMPLE MONITOR 3 . 7 4 e i-01 CPM RE0020A SW FROM CTMT CLR TRN A MONITOR 7.32e+01 CPM RE0020B SW FROM CTMT CLR TRN B MONITOR 8.25e+01 CPM RE0021 VENT AIR PARTICLE MONITOR 1.64e+02 CPM RE0022 VENT GAS MONITOR 4.12e+01 CPM RE0023A SG BLOWDOWN TREATMENT MONITOR 5.13e+01 CPM RE0023B SG BLOWDOWN TREATMENT MONITOR 7.50e+01 CPM RE0024A CTMT PURGE MONITOR 1.54e+04 CPM RE0024B CTMT PURGE MONITOR 1.51e+04 CPM RE0025A SPENT FUEL POOL AREA MONITOR 1.63e+03 CPM RE0025B SPENT FUEL POOL AREA MONITOR 8.31e+01 CPM s RE0003 RADIO CHEMISTRY LAB AREA MONITOR 2.01e-01 MR/HR RE0004 CHARGING PUMP ROOM AREA MONITOR 6.19e+00 MR/HR RE0005 FUEL HANDLING BLDG AREA MONITOR 3.24e-01 MR/HR RE0006 SAMPLE AREA MONITOR 2.04e-01 MR/HR RE0008 DRUMMING STATION AREA MONITOR 8.07e-01 MR/HR 6 RE0050 GROSS FAILED FUEL DETECTOR 1.21e+03 CPM s Time: 08:00:00 O O O PPC GROUP REVIEW PAGE 17 Time: 08:00:00 1 RE0015A SJAE EXHAUST LOW RANGE MONITOR 4.53e+01 CPM i RE0015B SJAE EXHAUST MID RANGE MONITOR 1.75e-02 MR/HR l RE00150 SJAE EXHAUST HI RANGE MONITOR 8.10e-06 R/HR j RE0029B VENT IODINE GAS (SPING-4) 5.04e-11 UC/ML RE0029B VENT NOBLE GAS (SPING-4) 7.86e-06 UC/ML l RE0060A SG A ATMOSPHERIC RELIEF MONITOR 1.17e-02 R/HR - RE0060B SG B ATMOSPHERIC RELIEF MONITOR 2.12e-02 R/HR RE0060C SG C ATMOSPHERIC RELIEF MONITOR 1.28e-02 R/HR RE0060D AUX FEED TURBINE EXHAUST MONITOR 1.14e-02 R/HR

~~RE0070A SG A N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD RE0070B SG B N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD RE0070C SG C N16 LEAK DETECTIONS SYSTEM O.00e+00 GPD ,~~

4 l ' I i l t l i I I Tire: 08:00:00 O O O Time: 08:15:00 PPC GROUP REVIEW PAGE 16 RE0002 CTMT AREA MONITOR 2.43e-02 R/HR RE0007 CTMT INCORE SEAL AREA MONITOR 8.94e-03 R/HR RE0027A CTMT RADIATION HIGH LEVEL CHAN A 1.00e+00 R/HR RE0027B CTMT RADIATION HIGH LEVEL CHAN B 1.03e+00 R/HR i RE0010 PENE ROOM FILT PARTICULATE MONITOR 1.93e+02 CPM RE0011 CTMT AIR PARTICULATE MONITOR 5.66e+03 CPM RE0012 CTMT GAS MONITOR 2.09e+03 CPM RE0013 WASTE GAS PROCESSING MONITOR 4.34e+05 CPM , RE0014 VENT GAS MONITOR 2.29e+03 CPM RE0017A COMPONENT COOLING WATER MONITOR 4.93e+01 CPM f , RE0017B COMPONENT COOLING WATER MONITOR 7.82e+01 CPM RE0018 WASTE DISPOSAL LIQUID MONITOR 1.22e+03 CPM RE0019 SG BLOWDOWN SAMPLE MONITOR 3.67e+01 CPM RE0020A SW FROM CTMT CLR TRN A MONITOR 7.43e+01 CPM RE0020B SW FROM CTMT CLR TRN B MONITOR 7.94e+01 CPM RE0021 VENT AIR PARTICLE MONITOR 1.99e+02 CPM RE0022 VENT GAS MONITOR 4.12e+01 CPM ' RE0023A SG BLOWDOWN TREATMENT MONITOR 5.19e+01 CPM RE0023B SG BLOWDOWN TREATMENT MONITOR 7.32e+01 CPM RE0024A CTMT PURGE MONITOR 1.54e+04 CPM RE0024B CTMT PURGE MONITOR 1.51e+04 CPM RE0025A SPENT FUEL POOL AREA MONITOR 1.55e+03 CPM RE0025B SPENT FUEL POOL AREA MONITOR 8.48e+01 CPM RE0003 RADIC CHEMISTRY LAB AREA MONITOR 2.17e-01 MR/HR RE0004 CHARGING PUMP ROOM AREA MONITOR 6.23e+00 MR/HR ' RE0005 FUEL HANDLING BLDG AREA MONITOR 2.82e-01 MR/HR RE0006 SAMPLE AREA MONITOR 2.04e-01 MR/HR i RE0008 DRUMMING STATION AREA MONITOR 7.97c-01 MR/HR RE0050 GROSS FAILED FUEL DETECTOR 1.21e+03 CPM Time: 08:15:00 O O O Time: '08:15:00 PPC GROUP REVIEW PAGE 17 I RE0015A SJAE EXHAUST LOW RANGE MONITOR 4.42e+01 CPM RE0015B- SJAE EXHAUST MID RANGE MONITOR 1.45e-02 =/HR ' RE0015C SJAE EXHAUST HI RANGE MONITOR 7.68e-06 R/HR RE0029B VENT IODINE GAS (SPING-4) 4.35e-11 UC/ML RE0029B VENT NOBLE GAS (SPING-4) 7.88e-06 UC/ML RE0060A SG A ATMOSPHERIC RELIEF MONITOR 1.19e-02 R/HR RE0060B SG B ATMOSPHERIC RELIEF MONITOR 2.09e-02 R/HR RE0060C SG C ATMOSPHERIC RELIEF MONITOR 1.28e-02 R/HR ' RE0060D AUX FEED TURBINE EXHAUST MONITOR 1.12e-02 R/HR RE0070A SG A N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD RE0070B SG B N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD RE0070C SG C N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD L k r i Time: 08:15:00 a O O O PPC GROUP REVIEW PAGE 16 Time: 08:30:00 , RE0002 CTMT AREA MONITOR 2.3Ge-02 R/HR RE0007 CTMT INCORE SEAL AREA MONITOR 8.44e-03 R/HR RE0027A CTMT RADIATION HIGH LEVEL CHAN A 1.00e+00 R/HR RE0027B CTMT RADIATION HIGH LEVEL CHAN B 9.13e-01 R/HR - RE0010 PENE ROOM FILT PARTICULATE MONITOR 1.63e+02 CPM RE0011 CTMT AIR PARTICULATE MONITOR 5.51e+03 CPM RE0012 CTMT GAS MONITOR 2.09e+03 CPM RE0013 WASTE GAS PROCESSING MONITOR 4.28e+05 CPM RE0014 VENT GAS MONITOR 2.29e+03 CPM RE0017A COMPONENT COOLING WATER MONITOR 4.81e+01 CPM RE0017B COMPONENT COOLING WATER MONITOR 7.62e+01 CPM ' RE0018 WASTE DISPOSAL LIQUID MONITOR 1.17e+03 CPM RE0019 SG BLOWDOWN SAMPLE MONITOR 3.87e+01 CPM RE0020A SW FROM CTMT CLR TRN A MONITOR 6.46e+01 CPM RE0020B SW FROM CTMT CLR TRd B MONITOR 7.32e+01 CPM RE0021 VENT AIR PARTICLE MONITOR 2.12e+02 CPM REOO22 VENT GAS MONITOR 4.12e+01 CPM i RE0023A SG BLOWDOWN TREATMENT MONITOR 5.17e+01 CPM i RE0023B SG BLOWDOWN TREATMENT MONITOR 7.27e+01 CPM RE0024A CTMT PURGE MONITOR 1.54e+04 CPM RE0024B CTMT PURGE MONITOR 1.51e+04 CPM ! RE0025A SPENT FUEL POOL AREA MONITOR 1.68e+03 CPM , RE0025B SPENT FUEL POOL AREA MONITOR 8.00e+01 CPM RE0003 RADIO CHEMISTRY LAB AREA MONITOR 2.04e-01 MR/HR RE0004 CHARGING PUMP ROOM AREA MONITOR 6.49e+00 MR/HR RE0005 FUEL HANDLING BLDG AREA MONITOR 2.70e-01'. MR/HR RE0006 SAMPLE AREA MONITOR 2.04e-01 MR/HR RE0008 DRUMMING STATION AREA MONITOR 8.87e-01 MR/HR RE0050 GROSS FAILED FUEL DETECTOR 1.21e+03 CPM i i Time: 08:30:00. O O O PPC GROUP REVIEW PAGE 17 Time: 08:30:00 RE0015A SJAE EXHAUST LOW RANGE MONITOR 4.46e+01 CPM ; RE0015B SJAE EXHAUST MID RANGE' MONITOR 1.53e-02 MR/HR ; RE0015C SJAE EXHAUST HI RANGE MONITOR 7.63e-06 R/HR ! RE0029B VENT IODINE GAS (SPING-4) 4.31e-11 UC/ML RE0029B VENT NOBLE GAS (SPING-4) 8.08e-06 UC/ML RE0060A SG A ATMOSPHERIC RELIEF MONITOR 1.23e-02 R/HR RE0060B SG B ATMOSPHERIC RELIEF-MONITOR 2.18e-02 R/HR RE0060C SG C ATMOSPHERIC RELIEF MONITOR 1.32e-02 R/HR RE0060D AUX FEED TURBINE EXHAUST MONITOR 1.13e-02 R/HR RE0070A SG A N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD RE0070B SG B N16 LEAK DEFECTIONS SYSTEM 0.00e+00 GPD i RE0070C SG C N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD i Time: 08:30:00 O O O PPC GROUP REVIEW PAGE 16 Time: 08:45:00-RE0002 CTMT AREA MONITOR 2.36e-02 R/HR RE0007 CTMT INCORE SEAL AREA MONITOR 9.45e-03 R/HR RE0027A CTMT RADIATION HIGH LEVEL CHAN A 1.00e+00 R/HR RE0027B CTMT RADIATION HIGH LEVEL CHAN B 9.20e-01 R/HR 4 RE0010 PENE ROOM FILT PARTICULATE MONITOR 1.59e+02 CPM RE0011 CTMT AIR PARTICULATE MONITOR 5.30e+03 CPM RE0012 CTMT GAS MONITOR 2.09e+03 CPM RE0013 WASTE GAS PPOCESSING MONITOR 3.25e+05 CPM RE0014 VENT GAS MONITOR 2.29e+03 CPM RE0017A COMPONENT COOLING WATER MONITOR 5.21e+01 CPM RE0017B COMPONENT COOLING WATER MONITOR 7.58e+01 CPM REOO18 WASTE DISPOSAL LIQUID MONITOR 1.16e+03 CPM RE0019 SG BLOWDOWN SAMPLE MONITOR 3.72e+01 CPM RE0020A SW FROM CTMT CLR TRN A MONITOR 6.57e+01 CPM RE0020B SW FROM CTMT CLR TRN B MONITOR 7.82e+01 CPM RE0021 VENT AIR PARTICLE MONITOR 2.20e+02 CPM RE0022 VENT GAS MONITOR 4.12e+01 CPM RE0023A SG BLOWDOWN TREATMENT MONITOR 5.09e+01 CPM RE0023B SG BLOWDOWN TREATMENT MONITOR 7.05e+01 CPM RE0024A CTMT PURGE MONITOR 1.54e+04 CPM RE0024B CTMT PURGE MONITOR 1.51e+04 CPM RE0025A SPENT FUEL POOL AREA MONITOR 1.57e+03 CPM REOO25B SPENT FUEL POOL AREA MONITOR 8.13e+01 CPM RE0003 RADIO CHEMISTRY LAB AREA MONITOR 2.16e-01 MR/HR RE0004 CHARGING PUMP ROCM AREA MONITOR 6.52e+00 MR/HR . RE0005 FUEL HANDLING BLDG AREA MONITOR 2.97e-01 MR/HR RE0006 SAMPLE AREA MONITOR 2.04e-01 MR/HR RE0008 DRUMMING STATION AREA MONITOR 7.84e-01 MR/HR RE0050 GROSS FAILED FUEL DETECTOR 1.21e+03 CPM Time: 08:45:00 O O O Time: 08:45:00 ) PPC GROUP REVIEW PAGE 17 RE0015A SJAE EXHAUST LOW RANGE MONITOR 4.4Se+01 CPM RE0015B SJAE EXHAUST MID RANGE MONITOR 1.62e-02 MR/HR RE0015C SJAE EXHAUST HI RANGE MONITOR 8.74e-06 R/HR RE0029B VENT IODINE GAS-(SPING-4) 4.60e-11 UC/ML RE0029B VENT NOBLE GAS (SPING-4) 8.45e-06 UC/ML RE0060A SG A ATMOSPHERIC RELIEF MONITOR 1.24e-02 R/HR-RE0060B SG B ATMOSPHERIC RELIEF MONITOR 2.31e-02 R/HR RE0060C SG C ATMOSPHERIC RELIEF MONITOR 1.28e-02 R/HR RE0060D AUX FEED' TURBINE EXHAUST MONITOR 1.07e R/HR RE0070A SG.A N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD , RE0070B SG B N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD RE0070C SG C N16 LEAK DETECTIONS SYSTEM 0.00e+00 GFD i I -t t [ i i i Time: 08:45:00 O O O PPC GROUP REVIEW PAGE 16 Time: 09:00:00 RE0002 CTMT AREA MONITOR 2.36e-02 R/HR RE0007 CTMT INCORE SEAL AREA MONITOR 8.46e-03 R/HR , RE0027A CTMT RADIATION HIGH LEVEL CHAN A 1.00e+00 R/HR RE0027B CTMT RADIATION HIGH LEVEL CHAN B 1.01e+00 R/HR RE0010 PENE ROOM FILT PARTICULATE MONITOR 1.68e+02 CPM RE0011 CTMT AIR PARTICULATE MONITOR 5.20e+03 CPM RE0012 CTMT GAS MONITOR 2.09e+03 CPM RE0013 WASTE GAS PROCESSING MONITOR 4.20e+05 CPM REOO14 VENT GAS MONITOR 2.29e+03 CPM RE0017A COMPCNENT COOLING WATER MONITOR 4.86e+01 CPM RE0017B COMPONENT COOLING WATER MONITOR 7.68e+01 CPM RE0018 WASTE DISPOSAL LIQUID MONITOR 1.25e+03 CPM RE0019 SG BLOWDOWN SAMPLE MONITOR 3.80e+01 CPM RE0020A SW FROM CTMT CLR TRN A MONITOR 7.68e+01 CPM REOO20B SW FROM CTMT CLR TRN B MONITOR 7.52e+01 CPM RE0021 VENT AIR PARTICLE MONITOR 1.68e+02 CPM RE0022 VENT GAS MONITOR 4.12e+01 CPM , RE0023A SG BLOWDOWN TREATMENT MONITOR 4.76e+01 CPM RE0023B SG BLOWDOWN TREATMENT MONITOR 7.04e+01 CPM REOO24A CTMT PURGE MONITOR 1.54e+04 CPM RE0024B CTMT PURGE MONITOR 1.51e+04 CPM RE0025A SPENT FUEL POOL AREA MONITOR 1.54e+03 CPM RE0025B SPENT FUEL POOL AREA MONITOR 8.59e+01 CPM RE0003 RADIO CHEMISTRY LAB AREA MONITOR 2.19e-01 MR/HR RE0004 C51ARGING PUMP ROOM AREA MONITOR 6.46e+00 MR/HR l , RE0005 FUEL HANDLING BLDG AREA MONITOR 2.53e-01 MR/HR REOOO6 SAMPLE AREA MONITOR 2.04e-01 MR/HR RE0008 DRUMMING STATION AREA MONITOR 7.52e-01 MR/HR RE0050 GROSS FAILED FUEL DETECTOR 1.21e+03 CPM Time: 09:00:00 O O O Time: 09:00:00 PPC GROUP REVIEW PAGE 17 ! i i RE0015A SJAE EXHAUST LOW RANGE MONITOR 4.57e+01 CPM . RE0015B SJAE EXHAUST MID RANGE MONITOR 1.64e-02 MR/HR RE0015C SJAE EXHAUST HI RANGE MONITOR 7.64e-06 R/HR RE0029B VENT IODINE GAS (SPING-4) 5.00e-11 UC/ML ; RE0029B VENT NOBLE GAS (SPING-4) 9.13e-06 UC/ML_ ! RE0060A SG A ATMOSPHERIC RELIEF MONITOR 1.25e-02 R/HR i RE0060B SG B ATMOSPHERIC RELIEF MONITOR 2.25e-02 R/HR RE0060C SG C ATMOSPHERIC RELIEF MONITOR 1.28e-02 R/HR ' RE0060D AUX FEED TURBINE EXHAUST MON 1 TOR 1.15e-02 R/HR RE0070A SG A N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD RE0070B SG B N16 LEAK DETECTIONS SYSTEM 0.00e+00 GPD , RE0070C SG C N16 LEAK DETECTIONS SYSTEM 0. 00e-: 0 0 GPD t 1 t Time: 09:00:00. . i x q

~~f '1 I/lO '~~~

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ML20029E145

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