Gsep Exercise, for 960619

ML20117D374
Person / Time
Site:	LaSalle
Issue date:	06/19/1996
From:	COMMONWEALTH EDISON CO.
To:
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ML20006J000	List: ML20117D372 ML20117D374
References
NUDOCS 9604230405
Download: ML20117D374 (415)
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LaSalle 1996 GSEP Exercise INDEX l l

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Sect. Contents Book Sect. Contents Book 1 GENERAL All 6 IN-PLANT DATA Full

- index IP Messages OSC

- Scope of Participation - Security Messages Chem

- Evaluation Guidance - Plant Rad Maps TSC

- Ground Rules

- Phone List l

- Participant List 2 SCENARIO All 7 CHEMISTRY Full

- Timeline - Initial Chemistry Chem

- Narrative Summary - Exer. RCS Samples TSC 4

Event Summaries - Exer. HRGS Data

- Real / Exercise Time 3 OBJECTIVES Full 8 ENVIRONS Full

- Exercise Objectives - Meteorological Data TSC

- State Objectives - Environs Messages EOF

- Onsite Environs CEOF

- Offsite Environs ET Full 9 RESPONSE CELL Fuji 4 CONT. INFORMATION

- Message Descriptions TSC - RC Guidance

. . - Message Summary EOF - RC Messages i

1. - CM Messages CEOF - Mock NRC Guidance

- CO Messages /NARS 5 CONTROL ROOM Full 10 JPIC Full

- CR Messages JPIC )

- Plant Status . 1

- Plant Recorders .

- CR Rad Monitors i

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i SCOPE OF PARTICIPAT ON 4

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LaSalle 19M OSEP Exercise SCOPE OF PARTICIPATION i

DATE- Wednesday, June 19,1996  ;

i TYPE: Daytime Exercise, Full State Participation 1 l PURPOdE: The purpose of this Exercise is to test the basic elements of l

! the Comed Generating Stations Emergency Plan (GSEP).  ;

The Exercise will include the mobilization of Comed personnel and resources to verify their capability to respond i to a simulated emergency.

l OFFSITE AGENCY PARTICIPATION: j Full Participation, State of Illinois, Grundy County, LaSalle County Radiological Emergency Assessment Center Joint Public Information Center Emergency Operations Center State Forward Command Post i

• 1 Radiological Assessment Field Teams l

_- Grundy County Emergency Operations Center  !

LaSalle County Emergency Operations Center  !

COMED FACILITIES ACTIVATED: -

Simulator Control Room TSC l OSC Environs Teams CEOF EOF JPIC Nuclear Duty Officer Bulk Power Operations Communications Services A

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COMED FACILITIES NOT ACTIVATED: NONE The exercise " Nuclear Duty Officer" will be notified of simulated events as appropriate on real-time basis. The dispatch of exercise participants to the CEOF, Mazon EOF, and Mazon JPIC will be initiated by the exercise Nuclear Duty Officer. Exercise Participants will be prepositioned close to the CEOF and EOF to permit the use of Comed personnel from distant working locations.

Comed will demonstrate the capability to make contact with contractors whose assistance would be required by the simulated accident situation, but will not i actually incur the expense of using contractor support, except as pre-arranged specifically for the Exercise.

. All of the events described in this Exercise are simulated. t 4g 1

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LaSalle 1996 GSEP Exercise EVALUATION GUIDANCE i

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LaSalle 1996 GSEP Exercise l' EVALUATION GUIDANCE Scoring of the exercise is accomplished by the evaluators assigned to each facility At the Controller / Evaluator ideeting held before each exercise or pre-exercise, the Lead Scenario Developer i hands out Controller Packages to each of the Lead Controllers. These Controller Packages contain Evaluation Forms that are specific to the evaluator positions in the facility, The Evaluation Packages i have all of the terminal and enabling objectives for that evaluation position and space to put comments applicable to each terminal objective. Also included are data sheets where you can keep a chronological log of observations. It is recommended that notes are kept of observations and the resultant comments be transferred to the evaluation forms later This results in a more objective evaluation of performance.

After the exercise, the evaluators for each facility should meet to compare observations and judgements.

The Lead Controller for the facility should preside over this meeting. This is where each of the entMng objectives should be scored. A grade other than Satisfactory shall have documentation explaining why the objective was evaluated the way it was. A full facility Evaluation Form should be filled out by the Lead Contreller that contains all of the enabling objective grades. The following is the grading l 4 criteria for the enabling objectives: 1 Outstandina (10)- An enabling objective can be rated as OUTSTANDING if the objective was met satisfactorily while demonstrating exemplary performance through the use of unique procedures, equipment, training, or techniques that have not been dictated to the station by outside forces. The strength noted should have applicability to the other stations' EP programs.

No problems were identified during the accomplishment of the objective.

Excellent (8) - An enabling objective can be rated as EXCELLENT if the objective was demonstrated satisfactorily but with a performance level that was above what would normally be 3 expected.

Satisfactory (7)- An enabling objective can be rated as SATISFACTORY if the objective was demonstrated within acceptable performance at a level that would normally be expected.

Satisfmetary with Comments (6) - An enabling objective for which the facility demonstrated acceptable periormance, but for which comments were generated thht would improve performance. Performance would not have contributed to the failure of the objective under different circumstances. Corrective Actions are not required to be included in the exercise evaluation.

Weak (3) - An enabling objective is WEAK if demonstration of the objective was minimally or marginally acceptable. Problems were noted that could have contributed to the failure of the objective under different circumstances. Corrective Actions are required to be included in the exercise evaluation.

Not Met (0) - An enabling objective can be rated as NOT MET if the demonstration was unacceptable under any circumstances. These involve serious problems which contributed to the inability to meet the performance criteria and require Corrective Actions be included in the exercise evaluation.

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LaSalle 1996 GSEP Exercise GROUND RULES W

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LaSalle 1996 GSEP Exercise j GROUND RULES l .

EXERCISE GROUND RULES f

1. Take immediate actions to prevent or to remedy an unsafe condition,

regardless of the the affect on exercise play. Participants are not

permitted to enter actual contaminated or High Radiation areas, or other 4

areas restricted for safety reasons, to perform exercise-related work, t  ;

j 2. Take no actions that affect active or operating plant equipment (except for  ;

permitted chemistry sampling). Use only mock equipment designated for l i the exercise. l i

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] 3. Data conflicts between the Control Room Simulator and exercise Point History will be genera!!y resolved by Lead Facility Controllers in favor of I the exercise Point History.

i I 4. Participants and Controllers are expected to lead and follow all communications with the phrase "THIS IS AN EXERCISE".

5. Participants are expected to use actual means of communications except ,

l i for exercise-related telephone numbers, simulation cells, and other j designated systems. Participants should make contact with those

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persons they feel necessary to their response, without regard to whether I i those persons are pre-designated as exercise participants. Vendors l 3 should be contacted for information only and to verify phone numbers.

No exercise-related work is to be requested from Comed vendors.

6. Participants should follow all procedures currently in force, and take expected actions to respond to the scenario. Participants should decide the level of documentation necessary to the situation : necessary documents (Work Packages, Out of Services, RWPs, etc.) should be generated and marked "FOR GSEP USE ONLY".

7. All specialty plant teams should be dispatched as needed (first aid, fire, hazmat, etc.)

8. Provide only information derived from the approved Exercise Manual, or approved by the appropriate Lead Facility Controller. Do not improvise information. Information may only be provided at the location that it would normally be available, and/or following appropriate participant actions to obtain it.

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LaSalle 1996 GSEP Exercise GROUND RULES

9. Participants are required to llave appropriate tools, equipment, and instruments available at all work sites in order to be permitted to complete (simulate) the work. Parts must be verified as available from Stores, but shall not be removed from Stores.

10. Required chemistry and environmental samples shall be actually collected.

11. Controllers are not permitted to direct, prompt, or lead Participants, except through the use of designated Control Messages. Controllers are permitted to question Participants in order to gain information necessary to evaluate the exercise.

4 SUMM ARY OF EXERCISE PARTICIPATION Description Simulated By Actual / Participating Exercise Nuclear Duty Officer insert name Near Site EOF Mazon EOF Joint Public information Center Mazon JPIC Communications Services Participating State Facilities (IL) Participating

LaSalle & Grundy Counties Participating NRC Base Team or Operations Center Response Cell NRC Site Team Mock NRC Team at TSC and EOF NRC Emergency Notification System Response Cell ,

(ENS)

NRC Health Physics Network (HPN) Response Cell ERDS Data Sim'ed by Message Murray & Trettel (Met Contractor) Response Cell Teledyne Brown (Sampling Contractor) Response Cell NARS Phone Actual"ARS Phone Point History Source GSEP.EX Station HRSS Teams Actual Station Assembly Sim'ed by Message Station ERF Evacuation Sim'ed by Message Station Non-Essential Personnel Sim'ed by Message i Evacuation Station Relocation Center Sim'ed by Message Station Drills Conducted None Conducted e

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l LaSalle 1996 CSEP Exercise PHONE LISTS l 1

i % EXERCISE PHONES MATRIX l

Please pay attention to the special phone instructions below or else you will reach the real Control Room and not the people you need to talk to.

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Call From: Call To: Dial:

LaSalle Station Simulator extensions: (

2208,2209,2211,2306. 431 walt for dial tone - XXXX l 2307,2308 All other simulator 8-782-XXXX (Comed Tie Line) extansions or l 1-815-458-3411, then wait for auto l

! operator, then XXXX l a Other than LaSalle Simulator extensions:

Station with Comed Tie 2208,2209,2210,2211, Not Available une 2306,2307,2308,2395 All other simulator 3 782 XXXX (Comed Tie Line) extensions Other than LaSalle Simulator extensions: 1815-458 3055 or Station with Commercial 2208,2209,2210,2211, 3060/3066/3070/3077, then wait for Une 2306,2307,2308,2395 dial tone, then XXXX l

All other simulator 1815-458 3411, then wait for auto

> extensions operator, then XXXX Simulator extensions: LaSalle Station XXXX j 2208,2209,2210,2211, 2306,2307,2308,2395 Comed Tie une 8-Tie Line XXXX Outside Une 9-(XXX)-XXX XXXX Simulator extensions: TSC/OSC/CR B Phone TSC: *3#

2208,2209,2210,2211, OSC: *5#

l l 2306,2307,2308,2395 3-way call via switchhook TSC or OSC TSC/OSC/CR-B Phone Simulator: 4#

TSC: 3 OSC:5 3-way call via switchhook 2

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LaSalle 1996 GSEP Exercise PHONE LISTS

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PARTICIPANT PHONE LIST LaSalle Station Outside Line to LaSalle Station (815) 357-6761- Operations Staging Area 2144 XXXX (before OSC is staffed)

Comed Tie Line Prefix 527-XXXX Staging area for Maint Shops, 2144 Chem, Rad Techs (before OSC is staffed)

Security Control Room - To be 2218 used for all Security mat'ers.

Control Room Simulator (PTC)- See Exercise Phones Matrix for help. Dialing the wrong numbers will probably make you reach the actual Control Room.

4 Unit 1 Supervisor 2209/2210 Shift Engineer 2209/2210 Unit 1 NSO 2308 Emergency 2211 Center Desk NSO 2208 Control Room Fax 2023 l

Response Cell (Dixon)

Position Phone Fax Nuclear Duty Officer

. . . NRC-ENS (815)-288-8143 NRC-HPN (815)-288-6143

" NRC - Region ill (815)-288-6143 (815)-288-6976 Teledyne isotopes (815}-288-6715 Murray and Trettel (815)-288-6715 J

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l LaSalle 1996 @SEP Exercise PHONE LJSTS

] CONTROLLER PHONE LIST LaSalle Station Outside Line to (815) 357 6761 XXXX Comed Tie Line Prefix 8-527 XXXX j LaSalle Station Control Room Simulator (PTC)- See Exercise Phones Matrix for help. Dialing the wrong numbers will probably make you reach the actual Control Room.

Outside Line to PTC (815)-458-3411 Simulator Operator 2284 Comed Tie Line 8-782-XXXX (OSC Controller call back #)

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Lead Controllers Lead On-Site Controller - Paul Sunderland (815)-458-3411 2448 Control Room Simulator l TSC Paul Elkmann 2714 4

OSC Rex Krohn 2196 Lead Off-Site Controller - Marty Vonk (815)-942-8161 EOF (NRC Desk)

Comed Tie = 347 CEOF Leslie Holden (708)-663-6547 or use

] (708)-663-73D7 for clerical JPIC Dan Silcox (815)-942-8142 i

Response Cell Adam Nykiet (815)-288-6976 IDNS Sheryl Soderdahl (217) 494 8467

. Additional Response Cell Number to give Participants when needed because inclusion of this 2

number on the Participant Phone List would have constituted prompting.

National Earthquake Center (815)-288-6976 icw.oocG

LaSalle 1996 GSEP Exercise PARTICIPANT LIST l

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! REAL / EXERCISE TIME i

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l LaSalle 1996 GSEP Exercise REAL VS EXERCISE TIME Baal Exercise Baal Exercise Baal Exercise 0700 -30 0920 110 1140 250 0710 -20 0930 120 1150 260 0720 -10 0940 130 1200 270 0730 0 0950 140 1210 280 0740 10 1000 150 1220 290

, 0750 20 1010 160 1230 300 0800 30 -

1020 170 1240 310 0810 40 1030 180 1250 320 0820 50 1040 190 1300 330 0830 60 1050 200 1310 340 0840 70 1100 210 1320 350 0850 80 1110 220 1330 360 l 1

0900 90 1120 230 1340 370 1 0910 100 1130 240 1350 380 1400 390 l

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i TIMELINE 1

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I LaSalle 1996 GSEP Exercise TIMELINE i

Initial Conditions Unit 1 Unit 2 Power Operation O 88% power Day 25 of 47 day refueling outage (L2GSEP7) 1C RHR Pump OOS for motor rewind Systems OOS include; MSIVs, CD/CB, HD, FW

- Day 2 of a 7 day LCO Main Turb/ Gen Scenario l

l 0730 (0) Start Scenario i 0752(22) Earthquake - ALERT - (HA4)

- Seismic event causes accelerometers to deflect to > OBE earthquake 4

- Recire Flow Control Valve opens due to card failure l

- RCIC spurious actuation due to switches' activating on tremors

! - 1E51-045 doesn't open fully

- Instrument Air Sensing Une Leak

- Security E Field Failure

- Miscellaneous plant occurrences j

0944 (134) APRM Spiko- ATWS - SITE EMERGENCY - (MS3) l l

- Rod fuses broken cause four rods to SCRAM on half SCRAM l

1 - SCRAM contactor failure i

> - The SCRAM Discharge Volume (SDV) fills so that a hydraulic lock prevents fullinsertion.

l i - SDV drain valve 1C11 F389 closed 1139 (249) Earthquake Aftershocks - GENERAL EMERGENCY - (FG1)

- LOCA in Steam Tunnel (FW Leak)/ Core uncovery/ Fuel damage

- Release to Chimney reaches -Se7 uCi/sec

- HPCS Failure due to toppled light fixture de-energizing injection valve

- Loss of Off-Site Power due to SAT deluge causing failure of SAT.

- Loss of 0 D/G due to failed overspeed switch

- Loss of LPCS l j

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- Failure of ACB 1414 to close when cross-tie attempted l 1 - 1B RHR trip / Loss of LPCI Loss of LaSalle MetTower

- Miscellaneous Station events i

1400 (390) Time Jump to June 20,1996,1400

- Exercise Termination for Control Room, OSC and Env. Teams 1500 (420) Exercise Termination i

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LaSalle 1996 GSEP Exercise 4

NARRATIVE

SUMMARY

LaSalle 1996 CSEP Exercise NARRATIVE

SUMMARY

w INmAL CONDmONS UNIT 1 Unit 1 is at 88% power in a 214 day run. It is late in core life with refueling scheduled in 45 days as soon as Unit 2 comes out of its outage. The 1C RHR Pump is Out of Service (OOS) on day two of a seven day LCO for motor rewinding. The motor is scheduled to be back on Friday and the pump should be back in service on Saturday. All other systems are operating as expected except for A Model, which is inoperable due to system testing and troubleshooting.

UNIT 2 4

Unit 2 is in day 27 of a 45 day refueling outage (L2GSEP7). Fuel has been removed from the reactor and the core reload is scheduled to commence next Monday (6/24). Outage work is being performed on the following OOS systems and components:

- MSIVs

- Condensate

- Heater Drains

- Feedwater Main Turbine / Generator n.

PLANT OPERATIONS Earthquake (ALERT)

At 0752, an earthquake will strike the LaSalle County Station. The strength of the earthquake reaches 4.2 on the Richter scale. At this strength, everyone will feel the tremors. Slight damage to' structures may be observed. Heavy fumiture may be moved in houses. People driving automobiles will feel the tremors. At LaSalle, accelerometers will register a sn earthquake greater than an Operating Basis Earthquake (OBE). The tremors are felt at Dresden and Braidwood Stations, but the strength of the earthquake does not require G9EP Classification or cause any damage at those sites. Damage at LaSalle Station will consist of the following: ,

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- Damage to the electronic circuitry for the 1 A Recirc Flow Control Valve so that it fails open.

RCIC spurious actuation

- Security E Field failure

- Instrument Air sensing line break

- Miscellaneous minor plant damaga l

Expected Response A Local Operator should be sent to check the seismic monitoring panels in the Auxiliary Electric Equipment Room (AEER) to verify the strength of the earthquake. Also, a call should be made to the National Earthquake Center. When the validity of the earthquake is established, the Operating Crew should declare an ALERT per EAL HA4 (Natural OR Destructive Phenomena

.j inside a Vital Area). Official notifications should be made and the OSC, TSC and CEOF should kNasseeensummryel

LaSalle 1996 GSEP Exercise NARRATIVE

SUMMARY

Inside a Vital Area). Official notifications should be made and the OSC, TSC and CEOF should I be activated. Command and Control should be transferred to the TSC as soon as possible after

! - minimum staffing is achieved. Local Operators should be sent to inspect the station for damage.

The major items listed above will be discussed individually. The miscellaneous minor damage will consist of damaged tagging, f allen waste buckets, ladders, scaffolding, fic e extinguishers, etc. The plant should commence a normal shutdown, however, the Recire Flow Control Valve l

l problem will prevent that untilit is fixed. However, insertion of the CRAM arrays can be used to l start a shutdown. Further control rod insertion may be considered. ,

Recirc Flow Control Valve Failure / Fuel Damage Due to a f ailed card f rom the earthquake, the 1 A Recire Flow Control Valve will open fully causing reactor power to increase to about 92%.

Expected Response The procedure for the earthquake calls for a normal reactor shutdowa, however, with the failed Recirc Flow Control Valve, recire flows can't be matched. Instrument Maintenance should be dispatched to troubleshoot and repair the failed valve circuitry. The Operating Crew should l recognize that the recirculation flow mismatch is an entry condition into Tech Spec 3.4.1.3. and they must restore the flow mismatch to nmmal within two hours or declare the recirc loop with .

the lower flow inoperable and set up for singie loop operation. The Operating Crew should also monitor steam line and off-gas radiatiori levels to look for fuel damage, however there will be no i indication of any fuel damage.  ;

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RCIC Spurious Actuation l s The earthquake will also cause relays to pick up that cause a spurious actuation of RCIC. (Note that spurious actuations of RCIC have occurred at LaSalle due to transients in systems that l

share the same sensing lines as RCIC.) When the RCIC actuation occurs, the steam line

' isolation valve to the RCIC pump (steam driven) only opens a little and then binds so that not enough steam is admitted to the pump to pump any water.

Expected Response l The Operating Crew should recognize that RCIC actuated and that they are not getting flow through the system. Local Operators and Mechanical Maintenance should be dispatched to the RCIC Room to investigate and repair the problem with RCIC. It should be noted that RCIC may l

not be retumed to operation before 12:00.

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Security E Field Fallure The earthquake damages the Security E Field by breaking a wire northeast of the switchyard.

Security will detect the f ailure and alert the Control Room of the failure.

Expected Response The Operating Crew should dispatch electricians to troubleshoot and repair the E Field. Note, if they are still working on the E Field at 11:40 am, they will be able to hear the events that occur then and will probably pick up some radiation dose from the release.

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LaSalle 1996 GSEP Exercise NARRATIVE

SUMMARY

- Instrument Air Sensing Line Leak l The earthquake will cause the 1/2 inch copper tubing on the sensing line for the Unit 1 instrument Air Receiver pressure switch to undergo fatigue failure and leak. The leak will be unisolable, however small enough so that instrument air pressure is unaffected. The pressure switch will sense low pressure and activate a Control Room annunciator.

Expected Response The Operating Crew should recognize that instrument Air system pressure is normal as the small leak is not large enough to cause system problems. Local Operators should be dispatched to check the Unit 1 Instrument Air Receiver area and Isolate the leak. The problem might be found by the operators dispatched to check for earthquake damage. Mechanical Maintenance should be dispatched to repair the leak.

ATWS (SITE EMERGENCY)

• At 0944,1D Average Power Range Monitor (APRM) has a power spike that initiates a half SCRAM signal. The earthquake damaged fuses in four rods so that when the RPS B power is lost, RPS A power is not available to the four rods and they SCRAM. This results in a condition that the Operating Crew should SCRAM the reactor. Due to a failure in the SCRAM contactors, only half of the rods SCRAM. The rods that insert fill the SCRAM Discharge Volume and hydraulically locks the rods about halfway in the core. Failure of one of the drain valves in the discharge header prevents draining the header and initiating a successful SCRAM.

Expected Response

_.- The Operating Crew should respond to the ATWS per LGA-NS-01. Mechanical Maintenance should be dispatched to itubleshoot and repair the drain valve. Rods should be manually inserted one at a time intc the coral. The generator will trip shortly after the ATWS and bypass valves provide a heat sink for the reactor. Electricians and/or System Engineering may be I

despatched to troubleshoot and repair the SCRAM circuitry. A SITE EMERGENCY should be caclared by the TSC per EAL MS3 (Auto and Manual SCRAM Not Successful). Official l ntlifications should be made and the EOF activated. A Site Assembly should be initiated l (simulated). Plans for evacuating non-essential personnel should be made. Command and j Control should be transferred to the CEOF as soon as possible. The CEOF should transfer l I

Command and Control to the EOF as soon as possible after minimum staffing is achieved.

Earthquake Aftershocks At 1139, earthquake aftershocks rock LaSalle Station at about the same strength as the original earthquake. The tremors can be felt around the station as well as the Mazon EOF and Dresden and Braidwood Stations. As before, the aftershocks do not cause any damage to Dresden and Braidwood Stations and no GSEP classifications are required. Major damage at LaSalle Station includes:

- LOCA with core uncovery and fuel damage

- Failure of Transformer 142 (SAT)

- Failure of 0 D/G to start

- Loss of HPCS l - Loss of LPCS

- Loss of LPCI l

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l LaSalle 1996 GSEP Exercise NARRATIVE

SUMMARY

Expected Response Response to the aftershocks should be similar to the response to the original earthquake except that the accompanying problems are more severe now so more priority will be given to the damage caused by the earthquake. Checking the seismic monitoring instrumentation may not be accomplished.

LOCA/ Core Uncovery/ Fuel Damage (GENERAL EMERGENCY)

The aftershocks cause a main feedwater line outside of the Drywell to rupture and cause a Loss of Coolant Accident. The 1 A Feedwater Header Test Check Valve (1821 F032A) will stay partially open. Compounding the LOCA will be a loss of Transformer 142 (SAT) due to arcing when a deluge valve for the SAT opens during the aftershocks. The O D/G does not start due to a failed overspeed pressure switch. Cross tying busses 241Y and 141Y will be complicated by a broken closing spring on ACB 1414, the Unit 1 cross-tie breaker to Bus 241Y. With the loss of Busses 151,152,141X and 141Y, the Motor-Driven Feedwater Pump, Condensate Pumps, Heater Drain Pumps,1 A RHR Pump and the LPCS Pump are without power. To make matters I worse, a lighting fixture falls on Bus 143-1 and damages the switch for the breaker for the HPCS Injection Valve (1E22 F004). This valve is normally closed and will not open when HPCS is actuated. RCIC is still OOS from the initial earthquake and the 1C RHR Pump is OOS for the .

motor winding job. And finally, when the 1B RHR pump is started, the aftershocks caused j misalignment in the pump bearings and seals and the pump trips shortly after being started. I These problems leave the reactor without a source of water so that the core is uncovered. This l causes a potentialloss of the cladding and a loss of the RCS due to low reactor water level. The open feedwater line is a threshold condition for a loss of Containment. The fuel failure that l results from the transient will result in a release of about SE7 uCi/sec from the main chimney. l The release will be unmonitored because the loss of Bus 141X disables the WRGM which is powered from 480VAC Bus 137X. Standby Gas Treatment will start and a release of about 1.2 i E4 uCi/sec will be monitored through that system, however the true magnitude of the release out i

_. I of the chimney will not be detected until busses 141X and Y are re-energized. State GEMS monitors, Reuter-Stokes monitors and Station Environs Teams will be able to monitor the release.

Expected Response The Operating Crew should recognize that the LOCA has occurred and that a path for a feedwater LOCA exists and attempt to mitigate the event through use of Emergency Procedures.

Difficulty will be encountered in finding a source of water for the reactor core from the failures encountered above. Attempts should be made to repair the above equipment as soon as possible to add water to the reactor. Investigation efforts shou!d reveal that the easiest equipment to retum to service will be to locally open the HPCS Injection Valve or get a tool to move the broken HPCS Injection Valve switch to the ON position allowing the valve to be opened and inject water into the core. The other repair success path is to energize the LPCS Pump and 1 A RHR Pump by cross tying Bus 141Y to 241Y. An attemate breaker to replace the broken ACB 1414 should be installed.

The EOF should declare a GENERAL EMERGENCY based on EAL FG1 due to the loss of RCS and Containment and potential loss of the cladding fission product barriers described above.

! Official notifications should be made.

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The release should be detected by the State and by Station Environs Teams. Dose projections should be made that reflect greater than 5 Rem CDE to the thyroid at the Site Boundary.

Protective Action Recommendations (PARS) should be made that reflect the dose projections.

The PARS for the GENERAL EMERGENCY NARS form may be default values because they don't have dose projections that reflect the release on time to include them. A new NARS should

" be issued when new PARS are called for.

kNes96eeneummry.docM

LaSano 1996 CSEP Exercise NARRATIVE

SUMMARY

Loss of Met Tower The earthquake causes power to be lost from the LaSalle Met Tower. All information from the Met Tower will not be able to be accessed.

Expected Response Environs personnel will have to get their Met Data from another source for their dose projections and NARS forms. They can either poll the Dresden Met Tower, Braidwood Met Tower or call Murray and Trettel for the information. Polling the Braidwood Met Tower is the least desirable since they have no tall chimney to reflect the conditions at LaSalle.

RELEASE

SUMMARY

Weather Conditions 4

The weather conditions are quite nice for today. Temperatures will rise from the high 50s in the moming to the high 70s in mid aftemoon. The skies will be sunny'with southwesterly winds around 10 mph throughout most of the day.

Release Path The release path is a little complex. The LOCA occurs in the Steam Tunnel (see drawing) and -

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the steam from the feedwater break flows along the steam and feedwater piping downward to,

where the feedwater and steam pipes enter the Turbine Building. That room is pressurized and

" the blow-out panels blow out into the Turbine Building. The Reactor Building Ventilation System will isolate instantly due to high radiation. The release will go up the Turbine Building exhaust system to the main chimney. The dampers for the Unit 1 side should close. Some of the steam ,

j will get out f arther into the Unit 1 Turbine Building through the wire mesh (cyclone fence) where the steam and feed piping go. The Unit 2 exhaust fans will draw the radioactive steam into the j Unit 2 side and exhaust the steam out the main chimney. l 1

Release Path UnN1 Twb BIdG to trrough -

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l LaSalle itM OSEP Exercise NARRATIVE

SUMMARY

l -g Release Magnitude The calculations of field data for the release are based on a WRGM release rate of 5.2E7 uCi/sec. The Station will not know this number at first because of the loss of electrical power to the WRGM. The state will know this due to GEMS data, it is assumed that the lodine removal

! rate will be 70% because of the 50% efficient filters in the Turbine Building Exhaust lines and the path of the release through the Turbine Building. Also, there is a heat exchanger that the steam passes through in the Turbine Building Exhaust System. It may not be obvious to the Environs Group, but a clad gap release is postulated. If they concentrate on drywell radiation, it is too low to select a clad gap release. This is because the scenario has the release bypass the drywell and drywell radiation monitors only see shine from the piping in the drywell. The stability class for the release is D based on the detta-T between the 375 ft and 33 ft level information. With '

this information, a CDE dose to thyroid for a one hour release is 5 Rem at about four miles.

i Protective Action Recommendations For the GENERAL EMERGENCY, the EOF may use default PARS because they may not have good release information yet by the time the NARS form is due to the state. This delay would be caused by not having the WRGM, having to obtain Met Data from off site and the delay in getting Env!rons Team data. In that case, PARS of (E) S) S) would be selected on the NARS form. When it is detected that the 5 Rem line is outside the Site Boundary, a new NARS form )

should be issued recommending (E) E) S).

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LaSalle 1996 GSEP Exercise 4

l 4 EVENT SUMMARIES

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LaSalle 1996 @SEP Exercise EVENT GUMMARIES

• a Event 1 Earthquake Event 2 Recirc Flow Control Valve Failure Event 3 RCIC Spurious Actuation Event 4 Security E Field Failure Event 5 Instrument Air Sensing Line Break Event 6 ATWS i

• ' Earthquake Aftershocks Event 7 Event 8 LOCA in Steam Tunnel / Release ,

Event 9 HPCS Injection Valve Failure Event 10 Loss of SAT

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- Event 11 Failure of 0 D/G to Start Event 12 Failure of Unit Cross-Tle Breaker ACB 1414

~ Event 13 1B RHR Pump Trip Event 14 Loss of MetTower i

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LaSalle 1996 @SEP Exercise EVENT SUMMARIES p.

Event 1 Eadhquake Description At 0752, an earthquake will hit the LaSalle Station area. The earthquake will register at 4.2 on the Richter scale and be felt by personnel on site. Annunciators wili alarm on the Main Control Board that indicate that a seismic event has occurred.

Accelerometers in the Auxiliary Electric Room willindicate that an Operating Basis Earthquake has occurred. Major damage will occur to the recire flow control valve (Event 2). RCIC will spuriously actuate (Event 3). The Security E Field will fail (Event ,

I 4). Finally, a sensing line for the 1 A Instrument Air Receiver will break from fatigue failure (Event 5). Minor damage can be observed throughout the station. ,

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Challenging Aspects The Operating Crew will be challenged to recognize that the earthquake is strong enough to declare an ALERT and to commence a normal plant shutdown par the annunciator response procedures. Local Operators will be challenged to f discover miscellaneous minor damage throughout the station. )

Expected Actions The Operating Crew should dispatch operators to inspect the station for damage. A normal unit shutdown should be commenced except that the recirc flows can't be balanced due to the card f ailure in the control circuit (Event 2). A GSEP ALERT should be declared per EAL HA4 (Natural or Destructive Phenomena inside a Vital Area) after confirmation of the earthquake with the National Earthquake Center and Station Seismic Monitoring Panels in the Auxiliary Electric Equipment j Room (AEER).

Success Paths Success in this event is achieved by recognizing and declaring the ALERT condition, commencing a unit shutdown and dispatching Local Operators to look for ef amage. j Mockups / Simulation Local indications will be simulated by paper messages. The LaSalle Simulator will be used to provide Control Room indications.

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LaSalle 1996 GSEP Exercise EVENT SUMMARIES Event 2 Recirc Flow Control Valve Failure Description As a result of the earthquake, a velocity summing amplifier on PC Card #1 in the HPU Servo Controller Drawer (1H13-P634) fails. This causes the 1 A Recirc Flow Control Valve to fail open from about 50% open. This causes power to increase from 88%

to about 92%.

Challenging Aspects The Operating Crew will be challenged to recognize the failed Recire Flow Control Valve and the resulting power increase.

They also will be challenged to commence reducing power for the unit shutdown by means other than the recire flow control valves since they can not be balanced. IMD will be challenged to isolato and replace the failed PC card and retum the flow a

control valve to service.

Expected Actions The Operating Crew should recognize that the Recire Flow Control Valve has failed and is 100% open and that power has increased to about 92%. They should also recognize that a shutdown of Unit 1 by normal means can not occur because they can not balance recire flows. Also, they should recognize m that they have two hours to restore the recire flow mismatch or declare the loop with the lower flow inoperable and make the

~j adjustments to place the loop inoperable per Tech Spec 3.4.1.3.

Main steam lines and off-gas radiation should be monitored periodically to check for any fuel damage. IMD should be dispatched to check recire flow control circuitry and repair the problem.

Success Paths Success in this event is achieved by replacing the f aulty PC Card and retuming the recire flow control valve to service.

Mockups / Simulation A spare drawer will be used as a mockup of the HPU Servo Controller Drawer to simulate IMD troubleshooting activity. The LaSalle Simulator will be used to provide Control Room indications.

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LaSalle 1996 CSEP Exerclae EVENT SUMMARIES I Event 3 RCIC Spurious Actuation 1

1 Description Due to the earthquake, a spurious actuation of RCIC will occur due to tripping of the 1821 N710A and C relays. This causes 4

the following:

- 1E51 F045, RCIC Turbine Steam Supply Valve opens

- 1E51-F046, RCIC Turbine Lube Oil Cooler Inlet Stop Valve opens

- 1E51-C005, RCIC Barometric Condenser Vacuum j Pump starts

- 1E51-F059, RCIC Full Flow Test Downstream Stop i Valve closes.

j - 1E51-F010, RCIC Pump Suction from CST 4 Downstream Stop Valve opens.

4 Due to a broken gearing mechanism that prevents local and 1 J remote operation,1E51 F045 only opens partially. There is not I

enough steam flow through the valve to pump any water. After l i a short delay, the breaker for the valve trips due to overcurrent i and the valve has no positio'n indication.

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Challenging Aspects The Operating Crew will be challenged to recognize the spurious actuation of RCIC since there are no activation signals present.

Id Mechanical Maintenance will be challenged to repair the valve.

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Expected Actions The Operating Crew should recognize that the RCIC system is

' running and that there is no valid actuation signal. They should also recognize that there is no flow in the system and that there appears to be a problem with 1E51 F004. Local Operators l should be dispatched to the RCIC Room and to the valve i breaker to investigate the problem with 1E51 F045. RCIC I should be placed Out of Service. Mechanical Maintenance personnel should be dispatched to repair the valve.

4 j Success Paths Success in this event is achieved by repairing 1E51-F045 and restoring RCIC to operation.

]

3 Mockups / Simulation The LaSalle Simulator will be used to provide indications to the Operating Crew. A mockup of 1E51-F045 will be used for repair 4 operations. Repair of the valve may not occur before 12:00 pm.

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Reactor Core m isolation Cooling Valve sticks on actuation Drywell f signal hti Stm Sys: ,

1E51- 1E51- 1E51- 1E51- I F998 F945 F368 F381 RClC e i g

Cond Reactor RCIC ,

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PUMP l Vessel FOSS F065 1h1-F 3 v

4 Suppression Pool .g l

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Cycled Cond. , ,

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LaSalle i996 @SEP Exercise EVENT SUMMARIES Event 4 Security E Field Fallure The earthquake causes a wire to be broken on the E Field in the Description 12/13 area. This causes alarms in the Security Control Room and a failure of the E Field. The Control Room will be informed by Security that the Security E Field is inoperable and request that Electricians troubleshoot and repair the E Field. If Electrical Maintenance is still at the job site at 11:40 am, they will be close enough to the plume to receive a dose. Also, they will hear a loud explosion when the SAT shorts out.

Challenging Aspects The Operating Crew will be challenged to prioritize all of the jobs needed to be done due to the earthquake. Electrical

• Maintenance will be challenged to repair the E Field.

)

Expected Actions The Operating Crew should dispatch Electrical Maintenance to the area of the Security Fence dictated by Security. The l Electricians should locate and repair the broken wire. Note that the priority of this job may be less than other jobs early in the earthquake scenario. The Operating Crew should consider reportability requirements.

/

Success Paths Success in this event is achieved when the E Field is back in ,

service after repairs are completed.

l Mockups / Simulation A Security Controller will provide security inforrnation to the l

Operating Crew. An E Field Mockup will be available in the  !

Training Building for E Field repairs. The Electricians will initially go to the scene of the wire break. When they assess what parts they need, they will go simulate obtaining parts and then go to the mockup location.

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LaSalle 1996 GSEP Exerclae EVENT SUMMARIES

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Event 5 Instrument Air Sensing Line Break Description The earthquake causes a 1/2 inch copper tube sensing line to l break from fatigue. The sensing line is for the pressure switch l

for the Unit 1 instrument Air Receiver. The leak is upstream l

) from the T valve and unisolable, however, the leak is small enough that Instrument Air System pressure is not challenged.

The pressure switch senses a loss of pressure and actuates an alarm in the Control Room.

Challenging Aspects The Operating Crew will be challenged to recognize that a l

problem has occurred in the Instrument Air System. Local Operators will be chal!enged to locate the air leak. Mechanical a Maintenance will be challenged to repair the air leak.

Expected Actions The Operating Crew should recognize that this is a local problem and that instrument Air pressure is not being challenged by this event. They should dispatch Local Operators to locate any problems with Instrument Air. The leak may be found by people dispatched to inspect for damage from the earthquake. Mechanical Maintenance should be dispatched to

~. the scene to repair the sensing line.

J Success Paths Success in this event is achieved by repairing the leak.

Mockups /S!mulation The LaSalle Simulator will be used to provide indications to the Operating Crew. A mockup will be used for repair operations. A Seivice Air hose will be set up to simulate the noise made by an air line leak.

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LaSalle 1996 @SEP Exercise l

EVENT SUMMARIES t i

Event 6 ATWS Description At 0944, APRM D experiences a spike in power that causes a half SCRAM on the B Channel. Fuses for four control rods (117) have failed and so those four rods SCRAM because there is no power to A or B Channel to prevent them from inserting. q When a manual SCRAM is initiated, the SCRAM contactors 14F and 14H will fall and only half of the rods SCRAM. The SCRAM Discharge Volume (SDV) will be filled f rom the four rods inserting and the other rods that insert so that the rods that do ,

SCRAM only go halfway into the core. When the SCRAM signal l l

is reset, one of the drain valves for the SDV, (1C11-F389), will not open as expected due to a failed valve diaphragm.

1 4

Challenging Aspects The Operating Crew will be challenged to recognize and l

mitigate the ATWS conditions. Mechanical and Electrical Maintenance personnel will be challenged to repair the SDV Drain Valve and SCRAM contactors. The TSC will be challenged to declare a SITE EMERGENCY and carry out the appropriate actions for the GSEP classification.

Expected Actions The Operating Crew should attempt to manually SCRAM the l -

unit when the half SCRAM signal results in inserting four rods.

, j

" They should also enter procedure LGA-NB-01 to recover from

( the ATWS. This willlead them to resetting the SCRAM signal l l

by installing jumpers in the back of the Control Board panels.

Also, the stuck open SDV valve will not open so the hydtt.ulic

(

lock remains in place. At this time, the rods should be inserted l

' manually. The turbine / generator will trip shortly after the ATWS so that the Bypass Valves become the most effective heat sink.

l Mechanical and Electrical Maintenance should be dispatched to l repair the SDV drain valve and SCRAM contactors respectively, j.

f The TSC should declare a SITE EMERGENCY due to EAL MS3 (ATWS with Manual SCRAM Unsuccessful). Appropriate i notifications should be made and a Site Assembly initiated. The EOF should be activated. The CEOF should make preparadons l

to assume Command and Control of the situation.

l ,

Success in this event is achieved by the mitigation of the ATWS Success Paths using LGA-NB-01, declaration of the SITE EMERGENCY, ,

making appropriate notifications and bringing the reactor l subcritical either by individually inserting all of the rods or fixing the SDV drain valve and achieving a manual SCRAM.

Mockups / Simulation The LaSalle Simulator will be used to present Control Room f indications to the Operating Crew. A mockup of the SDV drain I valve will be available for use by the Mechanical Maintenance a

Team dispatched to repair the valve.

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RPS SCRAM Channels 1 . . _ .

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1E-1-4215AH Excerpt K148 K14F K14H K14D I K140 7  ; 7 K14 F 7 K148 T TK14H 6 T T I

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~e I SCRAM SCRAM SCRAM SCRAM V Sderes Sdeno.ds Sderads Sderes

' SCRAM SCRAM - SCRAM SCRAM Q ,,, Sderods Q,,, Sdenoids Q ,,, Sdenoids Q,,, Sdenoids i I I I I

After Half Screm, 4 rods on Bus A After menuel SCRAM, cortectors stay shti and have blown fuses and SCRAM half of the rods we not SCRAM because1 heir because Bus A and D power is lost. SCRAM sdeno.ds stay energzed and the whte RPS Bus lights stay R.

1E 1-4215AJ Excerpt l

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l SCRAM Header IC11 F389 1 C11 F381 Groups 1 7 Reactor Building ,

SCRAM D/C ""*

4 SCRAM Header Groups 814 1 d 1 FU 1 Diaphragm ruptures so that valve will l not open )

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LaSalle 1996 GSEP Exercise EVENT SUMMARIES A.

Event 7 Earthquake Aftershocks Description At 1139, earthquake aftershocks will hit the LaSalle Station area with local strengths of 4.1 on the Richter scale. The aftershocks cause more damage at LaSalle Station and can be felt in the Mazon EOF as well as Dresden and Braidwood Stations. Major damage at LaSalle Station include:

- LOCA (Event 8)

- Failure of SAT (Event 10)

- Failure of 0 D/G (Event 11)

- Loss of HPCS (Event 9)

- Loss of LPCI(Event 13)

- Loss of Met Tower (Event 14) l Challenging Aspects The Operating Crew will be re-challenged to recognize that another earthquake has occurred, however, the events caused by the aftershocks will be more challenging than before.

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Expected Actions The Operating Crew should recognize and respond to the aftershocks, however the events caused by the aftershocks will l be more severe than earlier in the moming and actions can be l m l

'. found for the events as listed above. l u l l

Success Paths Success in this event is achieved by recognizing that the events seen at the station are caused by earthquake aftershocks.

Mockups / Simulation The LaSalle Simulator will be used to provide information to the Operating Crew conceming the earthquake.

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LaSalle 1996 GSEP Exercise EVENT SUMMARIES 3

Event 8 LOCA in Steam Tunnet/ Release Description The earthquake after shocks cause a severe feedwater break to occur outside of the drywell. The Feedwater .Line will not be able to be isolated due to 1 A Feedwater Header Test Check Valve (1821-F032A) not closing. The valve will have both closed and open Indication. 'Due to failures defined in the following related events, core uncovery takes place and rapid, -

escalated fuel damage occurs. The fission product laden steam / water will travel down the steam and feedwater piping and pressurize the room where the piping exits into the Unit '

Turbine Building. This room will rapidly pressurize and cause the blow-out panels to rupture. Some steam will enter the

' Reactor Building Ventilation System, but that system will isolate a when the radiation from the steam is detected. Outside of the blow-out panels, the Turbine Ventilation System has dampers that will take a suction on the area and direct the radioactive steam to the vent stack. These dampers will isolate due to the high flow conditions. Steam in the area also escapes into the Turbine Building through the wire mesh where the piping goes i

into the Turbine Building. If Unit 1 Turbine Building Ventilation is isolated, this steam will be forced out of the Turbine Building by the Unit 2 Turbine Building Ventilation System. The release will not be monitored by the Stack WRGM due to a loss of power, however, the State GEMS monitors, Reuter-Stokes l "7 1

> monitors and station Environs Teams will be able to monitor the release. The Standby Gas Treatment System will start and also register a release, however,it is not of high enough magnitude to result in the field readings of the Environs Teams.

4 4

Challenging Aspects The Operating Crew and ERFs will be challenged to detect the l LOCA and the release that results. They will also be challenged i

to recognize that a GENERAL EMERGENCY condition exists due to a loss of all three fission product barriers. The environs j personnel will be challenged to quantify the release and make appropriate Protective Action Recommendations (PARS),

i Expected Actions The Operating Crew is expected to recognize the LOCA and s

resulting release conditions and that the feedwater LOCA is unisolable. It should be noted that the Reactor Building should not experience a severe radiological environment like the Turbine Building will. The facility in Command and Control should recognize the release in progress and the loss of fission product barriers and declare a GENERAL EMERGENCY due to EAL FG1. The environs groups should quantify the release and make the appropriate PARS.

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LaSalle 1996 @SEP Exercise EVENT SUMMARIES m~' Event 8 LOCA in Steam Tunnet/ Release (cont)

Expected Actions (cont) The facility in Command and Control should make the appropriate notifications for the event. Environs Teams should be directed to the optimum locations to monitor the release with attention being given to radiological precaution.s.

Success Paths Success in this event is achieved by making the appropriate classification, notifications and PARS within the proper time constraints.

• Mockups / Simulation Information regarding this event will be provided by the LaSalle Simulator. Local operations will be controlled with paper messages. Note that simulated radiological conditions near the LOCA site and near where the steam pipes enter the Turbine Building will probably preclude entry into the those areas.

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Release Path Steam exists Steamis sucked i

UnM 1 Turb BMG to TB through to 42 side by M 2 Twb E@

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exhausts to

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f LaSails 1996 GSEP Exercise l EVENT SUMMARIES Event 9 HPCS injection Valve Failure Description The earthquake aftershocks cause the lighting focture at Bus 143 to shake loose and fall on top of the breaker that powers the HPCS injection valve (1E22 F004). The breaker switch is forced to the off position and the handle is broken off. When a HPCS actuation signal occurs, this valve will stay closed and HPCS flow will not be available. Position Indication will be dark for this valve. This failure will be important due to decreasing l

reactor level. It should also be the easiest success path for providing water to the core.

1 l Challenging Aspects The Operating Crew will be challenged to recognize that HPCS l

a has no flow and find out the reason for the condition. Local Operatora will be challenged to find some way to operate the I

broken switch and re-energize valve 1E22-F004.

Expected Actions The Operating Crew should , recognize that there is no HPCS 1 flow when the system is actuated and that 1E22 F004 has no position indication. Local Operators should be dispatched to investigate the failure of HPCS and find the broken breaker m switch in the OFF position. When the breaker is repositioned,

i. HPCS may be retumed to service to raise reactor water level. A

" tool will be required that can grip the switch to get enough l

leverage too operate it. An altemative is that Local Operators l

may be dispatched to locally operate 1E22-F004. Either way will be successful.

Success Paths Success in this event is achieved by retuming HPCS to operation and refilling the reactor.

Mockups / Simulation The LaSalle Simulator will be used to cresent information to the Operating Crew in the Control Room. Local Operations will be controlled by paper messages at the actual location of Bus 143.

Note that the scenario calls for HPCS to be back in operation at about 12:00 pm. If the investigation / repair team arrives at that time, then the breaker will just be mispositioned and just tuming it to ON will energize the valve.

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m High Pressure Core Spray DryweO Brkt de-energized

'g so velve wont open Reactor when logic demands Vessel q g '

A c> -DC Vi r, v 1E22- 1E22-F004 F005 s

W# e M Suppression Pool _

1E22-F015 y bf 2

h8p Cycled Cond. y Storage Tank 1E22-F001

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3 4KV Bus 143-1 l'.--.

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DISCHARGE SwRch moved VALVE 1E22 F004 to 0FF posMion

RELAYS NSOE COMPT HAVE 480VAC ACROSS OFF THE CONTACTS g

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LaSello 1996 GSEP Exercise EVENT SUMMARIES

.m i Event 10 Loss of SAT Description The earthquake aftershocks cause the deluge valve for the SAT to open and deluge of the transformer begins. The transformer shorts out and arcs violently (a lot of noise and fireballs) and a loss of off-site power results. This noise will be heard by anyone on-site and by anyone outside (Environs Teams) within five miles of the station. The 4KV diesels attempt to start and supply power to the 4KV busses (141X,141Y,142X,142Y and 143).

However, the O D/G fails to start due to a false overspeed trip signal (see Event 11).

Challenging Aspects The Operating Crew will be challenged to recognize the loss of a off-site power and monitor the status of supplying power to safeguards busses. Local Operators and Electricians will be challenged to recognize that deluge is operating and that the SAT is not recoverable for a long period of time.

Expected Actions The Operating Crew should recognize that the SAT has been lost and the status of D/Gs supplying power to 4KV busses.

They should dispatch Local Operators to investigate the status of the SAT. Response to the loss of the O D/G is in Event 12.

m When found to be the cause, local operators should isolate the

'j failed deluge valve. Since the SAT is the normal source of power to Bus 142X, the Operating Crew should restore power to Bus 142X from Bus 142Y after the 1 A D/G has restored power to Bus 142Y.

Success Paths There is no major success path in this event because the SAT will not be able to be retumed to service before the end of the exercise. A minor success path will be isolating the deluge valve for the SAT.

Mockups / Simulation The LaSalle Simulator will be used to provide information to the Control Room. Paper messages will be used at the actual equipment locations to control the event.

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Fire Protection System i

I Fire Main I MT W E MT MAIN Debge Valve The as how vePves f ads open and appew betweenthe shorts txi SAT i U 1 Trackwey and Red. Access PoM -

tsolaion of the debge f j W may ocott h any togeal combneton above 4

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SYS AUX UMT AUX g TR.142 Y X TR.141 x y Overspeed swich ol $l h3 og fais due to tremors BUS 152 BUS 151 j  ;

1B DJG 1 A D/G 0 DX;

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LaSalle 1996 GSEP Exercise EVENT SUMMARIES 3

Event 11 Failure of 0 D/G to Start Description When the Systems Auxiliary Transformer fails and power is lost to Bus 141X and Y, the O D/G receives a start signal. The aftershocks will still be occurring and the tremors cause the overspeed switch to fail and generate an overspeed signal and the O D/G shuts down. The overspeed signalis one that shuts down the diese! even during LOCA conditions. The major effect of the loss of Division 14160 volt ESF power is to lose the LPCS Pump and 1 A RHR Pump (LPCI) so that they can't be used to help recover reactor level.

Challenging Aspects The Operating Crew will be challenged to recognize that an 4 overspeed condition has shut down the O D/G. The Operating Crew will be further challenged to supply water to the reactor to prevent or mitigate core uncovery. Local Operators and instrument Maintenance will be challenged to recognize that the O D/G tripped on overspeed and the overspeed switch will have to be replaced.

Expected Actions The Operating Crew should recognize that a failure of the O D/G has occurred and dispatch Local Operators to investigate the

cause of the failure. With other problems ln the unit, the

" Operating Crew should be concemed over the loss of LPCS and LPCI and the ability to keep the core covered. Attemate ways to supply power to Division I should be explored, including powering Division I from Unit 2. Local Operators should find that 0 D/G has tripped on overspeed. Instrument Maintenance should be dispatched to investigate and repair the overspeed switch.

Success Paths Success in this event is achieved by identifying that the overspeed switch has failed and that switch replacement is needed.

Mockups / Simulation Localinformation will be simulated at the O D/G through use of paper messages. The LaSalle Simulator will be used to supply Control Room information.

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Event 12 Failure of Unit Cross-Tie Breaker ACB 1414 l

Description When the O D/G fails to start, the Operating Crew should attempt to cross-tie Bus 141Y with Bus 241Y. When attempts are made to close ACB 1414, a broken closing spring prevents the breaker from closing.

l Challenging Aspects The Operating Crew will be challenged to dispatch Local Operators and Electrical Maintenance to invastigate the problem and repair the failed breaker. Electrical Maintenance will be challenged to provide a quick fix to restore power to Bus 141Y. l

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Expected Actions The Operating Crew should recognize that ACB 1414 failed to l l

' close and that Bus 141Y is still de-energized. Local Operators and Electrical Maintenance personnel should be dispatched to l

ACB 1414 to investigate and repair the problem. Breaker 1414's i

! broken charging spring should be detected and a replacement )

breaker should be used to replace the breaker with the broken j charging spring. The Electricians and Local Operators should use their imaginations to come up with a breaker either from l

Unit 2 or from a breaker not needed in Unit 1. There are no

- spares in Bus 141Y.

I j w/ l Success in this event is achieved by restoring power to Bus j l

Success Paths '

1 141X and Y and retuming LPCS and the 1 A RHR Pump to serViCO.

Mockups / Simulation Localinformation will be simulated at Bus 142Y through use of paper messages. The LaSalle Simulator will be used to supply Control Room information.

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kNas96e6woummMl4

LaSalle 1996(BSEP Exercise l l

EVENT SUMMARIE3 l Event 13 1B RHR Pump Trip l

[ Description Whm Reactor Pressure reaches 400 psig, RHR Pumps can be used in the Low Pressure Core Injection (LPCI) mode to supply l

water to the core. With the SAT and 0 D/G failures, Division 1 is not available. Also, RHR Pump 1C is OOS. The Operating Crew can start RHR Pump 18 for LPCI, however, when they do, the pump trips because the aftershocks misaligned the shalt with the bearings and seals causing the excescive resistance.

Challenging Aspects The Operating Crew will be challenged to recognize that LPCI is not working and find other ways of adding water to the reactor core.

4 Expected Actions The Operating Crew should recognize that the 1B RHR Pump has tripped and send Local Operators to investigate the cause of the pump trip. Local Operators should find indications that the shaft is misaligned with the bearings and seals. Mechanical i Maintenance should be dispatched to the 1B RHR Pump as personnel resources are available as this may not be high priority due to the nature of the failure.

i Success Paths Since the,1B RHR pump will not be available by the end of the l

-# exercise, success in this event is achieved by restoring LPCI from energizing Bus 141Y to get the 1 A RHR Pump retumed to service.

Mockups / Simulation The LaSalle Simulator will be used to provide indications to the Operating Crew. Paper messages will be used to provide information at the 1B RHR Pump.

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LaSalle 1996 GSEP Exercise EVENT SUMMARIES b.'

1 Event 14 Loss of Met Tower Description The earthquake aftershocks cause the met tower electrical connections to be sheared and all points from the met tower are lost. ,

I Challenging Aspects The Environs Groups at the EOF, CEOF and TSC will be challenged to obtain met data from an attemate source during a time when the data will be needed for protective action i recommendations and dose projections. l l

l Expected Actions The Environs group should recognize that the LaSalle met data l 4 is bad on point history and obtain met data from Dresden, i Braidwood or Murray and Trettet to use in dose projections and l protective action recommendations. Braidwood is the least '

desirable source of Met Data because it does not have an elevated chimney like LaSalle or Dresden. )

Success Paths Success in this event is achieved by obtaining met data from an attemate source without delaying dose projections and s protective action recommendations.

.. _ . e Mockups / Simulation Exercise point history provides LaSalle met data information.

Dresden, Braidwood and Murray and Trettel information is provided in the Met Data section of the manual.

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7 LaSalle 1996 GSEP Exercise 4

EXERCISE OBJECTIVES

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LaSalle 1996 GSEP Extreise OBJECTIVES m Rev. 2, 2/20/96 Critical Objectives- An "** denotes a critical objective. Critical objectives are selected by facility for terminal objectives only.

Objective Selection if an enabling objective is not selected, place a "NS"in the left margin corresponding to the objective.

Drill Notation H denotes a HRSS Drill objective, E denotes an Environs Drill Objective.

1. FACILITY DIRECTION AND CONTROL 1.a Demonstrate the ability to staff an ERF.

(CR, TSC, OSC, CEOF, EOF) 1.a.1 Augment staff with personnel needed to assist with GSEP activities (communicators, etc) within 30 minutes of an ALERT or higher classification.

(CR)

' 1.a.2 Establish minimum staffing within 30 minutes of an ALERT or higher classification during a daytime event and within 60 minutes during an off-hours event without pre-staging.

(TSC) 1.a.3 Provide OSC Director and OSC Supervisor within 30 minutes of an ALERT '

or higher classification during a daytime event and within 60 minutes during an off-hours event without pre-staging.

(OSC) 1.a.6 Augment the ERF staff beyond normallevels as needed to perform ERF functions.

(CR, TSC, OSC, CEOF, EOF) 1.b Demonstrate the ability to transfer and/or accept Command and Control.

(CR, TSC, CEOF, EOF) 1.b.1 Recognize that minimum staffing exists in the facility / area of responsibility that is accepting Command and Control.

(TSC, CEOF, EOF) 1.b.2 ,Brief the minimum staff on the status of the event and the current proposed plan of action prior to accepting Command and Control.

(TSC, CEOF, EOF) 1.b.3 A tumover is made between the Emergency Directors / personnel involved. l (CR, TSC, CEOF, EOF) j 1.b.4 Transfer Command and Control officially and announce the transfer to the l ERFs involved and to off-site officials. j 1.b.5 Trar ster control of the Environs Teams.

(TSC, EOF)  :

1.c Demonstrate the ability to direct and operate an ERF during an emergency event.

(CR, TSC, OSC, CEOF, EOF) 1.c.1 Direct activities of personnel in their respective areas as specified in the GSEP and position-specific procedures.

(CR, TSC, OSC, CEOF, EOF) l idim96exWxotipMI '

LaSalle 1996 GSEP Ex:rcise OBJECTIVES 1.c.2 Perform the non-delegable responsibilities of Command and Control to include:

- Final decision to declare the emergency classification.

- Final decision to notify and make Protective Action Recommendations to offsite authorities.

- Authorization of personnel exposure beyond 10CFR20 limits under emergency conditions.

- Issuance of thyroid blocking agents to Comed emergency workers and onsite personnel.

(CR, TSC, CEOF, EOF) 1.c.3 Perform duties in accordance with current position-specific procedures.

(CR, TSC, OSC, CEOF, EOF) 1.c.4 Prepare for a shift change within the facility. l (TSC, CEOF, EOF) 1.c.5 Maintain a record of GSEP related events. l (CR, TSC, OSC, CEOF, EOF) a 1.c.6 Establish priorities for plant tasks.

(CR, TSC) 1.c.7 Maintain cognizance of priorities for plant tasks.

(CR, TSC, OSC, CEOF, EOF) 1.d Demonstrate the ability to interface with the NRC Site Team.

(TSC, EOF) 1.d.1

• Provide access for the NRC Site Team.

(TSC, EOF) 1.d.2 Provide an initial briefing to the NRC Site Team.

(TSC, EOF) 1.d.3 Introduce NRC Site Team to Comed counterparts.

" (TSC, EOF) 1.d.4 Provide the NRC Site Team with adequate and timely information pertaining to critical emergency response activities. '

(TSC, EOF) 1.d.5 Provide answers to NRC Site Team questions as soon as practicable.

(TSC, EOF)

2. ASSESSMENTS, CLASSIFICATIONS AND PROTECTIVE ACTION RECOMMENDATIONS l 2.a Demonstrate the ability to classify an event for conditions.

(*CR. *TSC, 'CEOF,

• EOF) 2.a.1 Determine conditions exceed an EAL Threshold Value within 15 minutes of reaching the Threshold Value for that EAL.

(CR, TSC, CEOF, EOF) 2.a.2 Declare the highest classification corresponding to all applicable EALs.

(CR, TSC, CEOF, EOF) 2.a.3 Monitor EALs to see if conditions cause other EAL Threshold Values to be

. exceeded.

(CR, TSC, CEOF, EOF) 2.a.4 Report if any EAL Threshold Values are exceeded to the facility in Command and Control. -

(CR, TSC, CEOF, EOF)

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kNas96exwxobp. doc \2

1.aSalle 1996 GSEP Exercise OBJECTIVES 2.b Demonstrate the ability to identify and recommend protective actions.

(*CR, *TSC, 'CEOF,

• EOF) 2.b.1 Recommend appropriate Protective Action Recommendations (PARS) within 15 minutes of an emergency classification.

(CR, TSC, CEOF, EOF) 2.b.2 implement appropriate protective actions for Comed emergency workers considering:

Current plant status

- Current dose assessment and projections

- Current meteorology and expected weather conditions (CR, TSC, CEOF, EOF) 2.c Demonstrate the ability to analyze events from available information.

(CR, TSC, CEOF, EOF) 2.c.1 Use instrumentation displays and point history to determine plant status and recognize abnormalconditions.

(CR, TSC, CEOF, EOF) 2.c.2 Develop strategies to bring the plant to a safe shutdown condition.

(CR, TSC, CEOF, EOF) 2.c.3 Assess equipment or component f ailures and develop corrective actions.

(CR, TSC, CEOF, EOF) 2.c.4 Estimate core damage per procedures.

(TSC, EOF) 2.c.5 Identify actual and/or potential release paths.

(CR, TSC. CEOF, EOF)

3. NOTIFICATIONS 3.a Demonstrate the ability to make notifications of classified events to offsite officials.

(*CR, *TSC, *CEOF,

• EOF) 3.a.1 Notify the appropriate States and local organizations within 15 minutes of

. classifying an event or a change of any condition indicated on a NARS form via the NARS or backup means if the NARS fails.

(CR, TSC, CEOF, EOF) 3.a.2 Complete the NARS form correctly.

(CR, TSC, CEOF, EOF) 3.a.3 Notify the NRC as soon as possible after the State notifications but not later than one hour after classifying the event.

(CR, TSC, CEOF, EOF) 3.a.4 Complete Event Notification Worksheets correctly if an Event Notification System (ENS) open line is not maintained.

(CR, TSC, CEOF, EOF) 3.a.5 Verify ANI and INPO notifications have been made.

(EOF) 3b Demonstrate the ability to provide information updates to offsite officials.

(CR, TSC, CEOF, EOF) 3.b.1 Provide information updates to the States at least hourly per the State Agency Update Checklist (SAUC).

(CR, TSC, CEOF, EOF) 3.b.2 Complete the SAUC forms correctly.

(CR, TSC, CEOF, EOF)

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LaSalle 1996 GSEP Exercise OBJECTIVES m -

3.b.3 Report significant changes in conditions to the NRC as soon as possible if an ENS open line is being maintained and within 30 minutes through the use of the Event Notification Worksheet if the open line is not maintained.

(CR, TSC, CEOF, EOF)

4. COMMUNICATIONS AND INFORMATION PROCESSING I

4.a Demonstrate the ability to communicate with offsite agencies.

(CR, TSC, CEOF, EOF) 4.a.1 Establish and maintain an ENS open line with the NRC upon request.

(CR, TSC, CEOF, EOF) 4.a.2 Establish and maintain a Health Physics Network (HPN) open line with the NRC upon request.

(TSC, CEOF, EOF) 4.a.3 Establish communications and exchange information with offsite agencies

, performing environmental monitoring.

(TSC, CEOF, EOF) 4.a.4 Establish communications and exchange information with the State and with .

County EOCs.  !

(CEOF, EOF) 4.a.S Contact vendor support organizations that can provide emergency

' assistance.

(TSC, CEOF, EOF) l 4.a.6 Activate and/or verify activation of the Emergency Response Data System l (ERDS). 1 (CR, TSC, CEOF, EOF) 4.a.7 Provide answers to offsite agency information requests. l l (CR, TSC, CEOF, EOF) 4.b Demonstrate the ability to communicate with other Emergency Response l Facilities (ERFs) and Comed support groups.

(CR, TSC, OSC, CEOF, EOF, JPIC) 4.b.1 Exchange data and technical information between ERFs.

(CR, TSC, OSC, CEOF, EOF) 4.b.2 Establish counter part communications with other ERFs.

(CR, TSC, OSC, CEOF, EOF) 4.b.3 Establish communications with Comed support groups / executives.

_ (TSC, CEOF, EOF, JPIC) 4.b.4 Provide /obtain technical information to/for the JPIC for use in media releases.

(EOF, JPIC) l 4.c Demonstrate the ability to communicate within an ERF. I j (CR, TSC, OSC, CEOF, EOF, JPIC) 1 4.c.1 Provide briefings and updates conceming plant status, event classification

.and activities in progress at least every 30 minutes for the CEOF and EOF l

and per station procedures for the CR, TSC and OSC. l (CR, TSC, OSC, CEOF, EOF) l 4.c.2 Share information within the ERF..

(CR, TSC, OSC, CEOF, EOF, JPIC) l 4.c.3 Update status boards at least every 30 minutes with current and accurate '

i.nformation. l (TSC, OSC, CEOF, EOF)

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LaSalle 1996 GSEP ExGrcise OBJECTIVES 4.c.4 Maintain Significant Events Log.

(TSC, EOF)

5. RADIATION PROTECTION .

5.a Demonstrate the ability to provide radiation protection for onsite personnel. <

l (CR, TSC, OSC, CEOF, EOF) 5.a.1 Obtain and/or document radiological survey information.

(TSC, OSC) 4 5.a.2 Provide or ensure radiological protection. l (CR, TSC, OSC) 5.a.3 issue and control dosimetry.

(OSC) l 5.a.4 Decontaminate or ensure decontamination of contaminated individuals. I (TSC, OSC) j 5.a.5 Determine need for and administer thyroid blocking agent.

(TSC, CEOF, EOF) 5.b Demonstrate the ability to provide control of radiation exposure.

(CR, TSC, OSC, CEOF, EOF) 5.b.1 Evaluate onsite radiologicalinformation.

(CR, TSC, OSC, CEOF, EOF) 5.b.2 Monitor, track and document radiation exposure to in-plant personnel.

(OSC) 5.b.3 Evaluate personnel exposure against administrative and 10CFR20 limits.

(TSC, OSC, CEOF, EOF) d

'. 5.b.4 Evaluate projected exposures and implement ALARA practices to reduce exposure to in-plant personnel.

(CR, TSC, OSC) 5.c Demonstrate the ability to establish and monitor effectiveness of ERF radiological controls.

(CR, TSC. OSC)

! 5.c.1 Perform habitability surveys.

(CR, TSC. OSC) 5.c.2 Establish radiological access control.

(TSC. OSC) 5.c.3 Evaluate need for the evacuation of the ERF.

(CR, TSC OSC) l

6. ENVIRONS ASSESSMENT AND MONITORING l

6.a Demonstrate the ability to determine the magnitude of source term of the release.

(TSC, CEOF, EOF) 6.a.1 Determine the release rate from scenario information.

(TSC, CEOF, EOF) 6.b Demonstrate the ability to perform offsite dose projections.

(TSC, CEOF, EOF) 6.b.1 Determine dose projections from scenario information.

(TSC, CEOF, EOF) 6.b.2 Determine or confirm Event Classification.

(TSC, CEOF, EOF)

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q t.aSalle 1996 GSEP Exercise OBJECTIVES 6.b.3 Determine or confirm Protective Action Recommendations.

(TSC, CEOF, EOF) ,

6.c Demonstrate the ability to obtain and use meteorological data. l (CR, TSC, CEOF, EOF) 6.c.1 Obtain and assess meteorological data and forecasts.

(CR, TSC, CEOF, EOF) 6.c.2 Determine stability class.

(TSC, CEOF, EOF) 6.c.3 Determine affected sectors.

(TSC, CEOF, EOF) 6.d Demonstrate the ability to direct Environs Team activities.

(E) (TSC, EOF) 6.d.1 initially assemble, brief and dispatch Environs Teams (ETs) within 45  !

minutes of determining need for ETs or from declaration of SITE 1 EMERGENCY or higher classification.

(E) (TSC) ,

8 6.d.2 Use the GSEP radio or backup means to communicate with ETs. (This 1 includes using call letters every 15 minutes per FCC regulations.) l (E) (TSC, EOF) I 6.d.3 Direct ET movement.

(E) (TSC, EdF) 6.d.4 Formulate sampling strategy. 1 l

(E) (TSC, EOF) 6.d.5 Maintain a record of GSEP events. i

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6.d.6 Keep ETs aware of criticalinformation such as:

,,,' - release status met data l

- plant status - PARS

- Command and Control status - event classification

- findings from other ET(s)

(E) (TSC, EOF) 6.d.7 Monitor and record personnel exposure to the ETs.

(E) (TSC, EOF) 6.d.8 Obtain exposure approvals for the ETs.  !

(E) (TSC, EOF) l 6.d.9 Assess the radiological protection needs of the ETs, including equipment and l

thyroid blocking agent. l (E) (TSC, EOF) l 6.e Demonstrate the ability of the Environs Teams to collect samples and perform environmental monitoring.

(E) (ET) 6.e.1 Conduct an inventory of equipment per station procedures.

(E) (ET) l 6.e.2 Obtain dose rate measurements and collect environmental samples in accordance with approved procedures for:

- water samp!es

- vegetation samples

- soil samples

- snow samples (E) (ET) d k%1s96ex'exobp doc %

l.aSalle 1996 GSEP Exercise OBJECTIVES 1

-- l 6.e.3 Collect and evaluate air samples in accordance with approved procedures l for: '

iodine activity j particulate activity j (E) (ET) 1 6.e.5 Use the Comed and/or IDNS maps. l (E) (ET) i 6.e.6 Use the GSEP radio or backup means to communicate with ERFs. I (E) (ET) !

6.e.7 Maintain a record of GSEP related events.

(E) (ET) 6.e.8 Simulate the replacement of environmental TLDs. 1 (E) (ET) j 6.e.9 Package, label and store all required ernirons samples for the analysis lab. 1 (E) (ET) l 6.e.10 Demonstrate the use of monitoring equipment including:

4 - personaldosimetry

- radiation monitoring instrumentation

- environs sampling equipment (E) (ET) 6.e.11 Demonstrate health physics, ALARA and contamination control practices.

(E) (ET) j

7. IN-PLANT TEAM PERFORMANCE AND MONITORING

) 7.a Demonstrate the ability to dispatch and control in-Plant Teams.

(CR, *OSC) 7.a.1 Assemble in-Plant Teams.  ;

(OSC) )

7.a.2 Brief in-Plant Teams on their tasks and radiological conditions / hazards prior l to dispatching.

(CR, OSC)  !

7.a.3 Dispatch in Plant Teams. l 7.a.4 *Priontize personnel resources for in-Plant Teams.

l (CR, OSC) l 7.a.5 Ensure Environs Teams are dispatched from the OSC without delay.

l (OSC) l 7.a.6 Debrief in-Plant Teams upon retum to the OSC.

(OSC) l 7.a.7 Keep in Plant Teams aware of criticalinformation.

l (OSC) i 7.a.8 Monitor activities of in-Plant Teams.

(OSC) 7.b Demonstrate the ability of in-Plant Teams to perform their assigned functions.

(OSC) 7.b.1 Perform assigned task (s). .

(OSC) 7.b.2 Locate and demonstrate use of personnel protection equipment.

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LaSalle 1996 GSEP Exercise OBJECTIVES 7.b.3 Demonstrate the use of monitoring equipment to include:

- personaldosimetry

- radiation monitoring instrumentation (OSC) 7.b.4 Monitor personnel exposure to radiation and keep within pre-established limits, administrative limits and 10CFR20 limits.

(OSC) 7.b.5 Maintain ALARA practices to reduce overall cumulative team radiation exposure.

(OSC) 7.b.6 Communicate with ERFs while in the field.

(OSC) 7.b.7 Locate, transport and demonstrate use of emergency equipment and supplies.

(OSC) i 7.b.8 Locate or identify need for spare parts. l

. (OSC) 1 7.b.9 Perform, document and post radiation surveys.

(OSC) 7.c Demonstrate the ability to collect analyze RCS and Containment Atmosphere I samples using High Radiation Sample System (HRSS) equipment. l (H) (OSC) 7.c.1 . Assemble, brief and dispatch an HRSS sampling team from the OSC.

(H) (OSC) 7.c.7 Collect a liquid RCS sample from the HRSS Liquid Sample Panel.

-3 (H) (OSC)

. 7.c.8 Collect a Containment /Drywell air sample using the Containment Air Sample '

Panel (CASP).

(H) (OSC) 7.c.10 Perform analysis on the samples.

(H) (OSC) 7.c.14 Maintain ALARA practices to reduce overall cumulative team radiation exposure.

(H) (OSC)

8. SECURITY 8.a Demonstrate the ability of the Security Force, Security Director and Safeguards Specialist to implement the Security Plan during an emergency other than a security event driven scenario.

(CR, TSC, EOF) 8.a.1 Respond to the emergency in accordance with the Security Plan and procedures.

(CR, TSC, EOF) 8.a.2 . Coordinate implementation of the Security Plan with the GSEP.

(TSC, EOF) 8.a.3 Coordinate emergency response action with offsite agencies.

(TSC, EOF) kNN .

LaSalle 1996 GSEP Exercise OBJECTIVES 1 8.b Demonstrate the ability to establish access control at the ERFs.

(CR, TSC, OSC, EOF, JPIC) l 8.b.1 Establish access control.

(CR, TSC, OSC, EOF, JPIC) 8.b.2 Ensure secunty practices do not impede emergency response.

(CR, TSC, OSC, EOF) 8.c Demonstrate the ability to assemble, account for and evacuate onsite personnel.

(CR, TSC, EOF)

, 8.c.1 Initiate Site Assembly at SITE EMERGENCY.

! (CR, TSC) 1 8.c.4 Identify essential personnel within thirty minutes after completion of Site

] Accountability.

(TSC)

• l 8.c.5 initiate Site Evacuation when deemed appropriate and at least at a SITE EMERGENCY.

(TSC) 4 8.c.6 Plan and explain travel route for Site Evacuation, Environs Teams and shift relief.

(TSC, EOF)

} 8.c.7 Arrange for traffic control prior to initiating Site Evacuation.

] (TSC, EOF) 1

9. RECOVERY l

. . , 9.a Demonstrate the ability to enter a Recovery classification.

. .i (TSC, CEOF, EOF) 9.a.1 Identify the criteria to enter recovery.

(TSC, CEOF, EOF) 9.a.2 Discuss entry into Recovery with State and Federal officials.

(CEOF, EOF) i 9.a.3 Discuss Recovery with the other ERFs.

(TSC, CEOF, EOF)

10. EMERGENCY NEWS CENTER (ENC)/ JOINT PUBLIC INFORMATION CENTER (JPIC) 10.a Demonstrate the ability to exercise facility direction and control.

(JPIC) 10.a.1 Open the JPIC to the media within 30 minutes of arrival of JPIC Coordinator or JPIC Staff and greet the media representatives.

(JPIC) 10.a.2 Direct activities of personnelin the ENC and JPIC as specified in the GSEP y and position-specific procedures.

(JPIC) 10.a.3 Perform duties as specified in the GSEP and position-specific procedures.

(JPIC) 10.a.4 Conduct tumover of news center duties from Communication Services.

(JPIC) 10.a.5 Establish rumor control activities.

(JPIC)

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I LaSalle 1996 GSEP Exercise OBJECTIVES 7 e, 10.a.6 Coordinate / exchange news information among Comed and offsite spokespersons.

(JPIC) 10.a.7 Monitor the media to detect and correct errors.

(JPIC) 10.a.8 Maintain a Comed representative in the JPIC at all times, and accommodate the media representatives.

(JPIC) 10.a.9 Maintain a chronological event description log.

(JPIC) 10.a.10 Maintain a record of GSEP activities.

(JPIC) 10.b Demonstrate the ability to provide media briefings.

(JPlC) l 10.b.1 Ensure technical accuracy of the briefings.

(JPIC) a 10.b.2 Present briefings on schedule and after significant events while in a SITE or GENERAL EMERGENCY.

(JPIC) 10.b.3 Prepare information at a level that the public can understand. l (JPIC) 10.b.4 'Use visual aids as necessary to support briefings.

(JPIC) 10.b.5 Respond to media requests for information.

(JPIC)

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10.c Demonstrate the ability to provide press releases. l 10.c.1 Ensure technical accuracy of the press releases.

(JPlC) 10.c.2 Deliver press releases after a significant event while in a SITE or GENERAL EMERGENCY. ,

(JPIC) 10.c.3 Prepare information at a level the public can understand.

(JPIC) 10.c.4 Obtain Public Information Manager approval for press releases.

(JPIC)

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LaSalle 1996 GSEP Exercise 4

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STATE OBJECTIVES l J ...s

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l nER0!SE OBJEC:' VES FOR TF.E O STATE OF ILLINOIS, I.ASALLE CO'JNTY AND GRUNDY COUNTY l s t_g a r ty EXERCISE JUNE 19, 1996 i I OBJECT!vZ LASALLE GRUNDY '

l STATE g2QCZ _copNTY Group A Demons; rate the capability to alert and S S S 1.

fully mobilize personne* fer both emer- ,

gency facilities and field operations. 1 l Demonstrate the capability :o activate and l staff emergency facilities for emergency j operations. l Demonstrate the adequacy of facilities. S S S l

2. 1 equipment, displays. and other materials ,

' to support emergency operations.

Demonstrate the capability to direct and S S S 3.

centrol emergency operations.

Demonstrate the capability to communicate S S S 4.

with all appropriate emergency personnel at facilities and in the field.

S

5. Demonstrate the ability to continuously S S

monito

and control radiation exposure to

-/ ee.ergency workers.

NA

6. Demonstrate the appropriate use of equip- S NA ment and pro =edures for deternining field radiation measurements.

NA NA

7. Demonstrate the capability to develop S dose prc$ections and protective ac: ion reco.mmendations regarding evacuation and sheltering.

NA NA

8. Demonstrate the appropriate use of equipa S ment and precedures for the measurerant of airborc9 radiciodine (0.0000001)concentrations microcuries peras low as 10 cubic centimeter in the presen e of noble games and obtain samples of particulate

! activity in the airbczne pluce.

NA NA 2

9. Der.onstrate the capability to make timely S and appropriate protective ac: on deci-sions (PAD)

OMEcTIVE LASA1,LE DRAFT GRUNDY m g cetmTY Demonstrate the capability te promptly S S S

• 0.

alert and notify the public within the i 10 mile plume pathway emergency planning zone (EPZ) and dissemina:e instructional messages to the public on the basis of decisions by appropriate State or local officials.

11. Demonstrate the espabiliry to coordinate S S S the formulatier. and dissemination of '

accurate information and instructions to the public.

12. Demonscrate the capability to coordinate S S S the development and dissemination of clear, accurate, and timely information j to the news media.

Demenstrate the capability to establish S S S 13.

and operate rumor control in a coordinated l and timely manner. 0 Group B S S S

14. Demonstrate the capability and resources 1

to implenent potassium iodide (K:) pro-

~s tactive actions for emergen y workers,

) institutionalized individuals, and, if

' -' the State plan specifies, the general public.

NA S S

15. Demonstrate the capability and resources necessary to implement appropriate pro-tective actions for special populations.

S NA

16. Demonstrate the capability and resources NA necessary to implement pro:ective actions for schoci children within the plume pathway emergency planning zone (EPZ) . I NA

17. Demonstrate the organizational capability S S snd rescurces necessary to control evaeus- i tien traffic flow and to centrol access to evacuated and sheltered areas.

9 NA RA

18. Demonstrate the adequacy of procedures, facilities, equipment, and pereo:mel for the radiological monitoring, decon-tamination, and registration of evacuses.

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1 DRAFT LASALLE GRUNDY

"'N g coutrrY ~ ggg[Iy, cai.7ECTIvr Dee.castrace the adeqcacy of facilities, 5 NA NA 19.

equipmen:. supplies, personnel, and pro-cedu:es for congregate care of evacuees.

Demonst: ate the adequacy of vehicles, NS NA NA  ;

20.

equipment, procedures, and personnel for  :

transporting contaminated, injured, or exposed individuals.  !

Demonscrate the adequacy of the equipment. N3 NA NA 21.

procedures, supplic , and personnel of medical facilities responsible for c: eat-ment of contaminated, injured, c: exposed individuals.

a Demonstrate the adequacy of procedures S NA NA 22.

for the monitoring and decontamination of emergency workers. equipment, and vehicles.

Group c

23. Demonstrate the capability to identify NS NA NA the need for external assistance and te request such assistance f:om rederal or

other suppo:t organizations.

~J S NA NA

24. Demonstrate the use of equipment and precedu:es for the collection and transportation of samples from areas that received deposi: ion from the air-borne plume.

25. Comonstrate laboratory operations and S NA NA procedures for measuring and analyzing eacales.

26. Demonstrate the capability to pro]ect NS NA NA dose to the public for the ingestien exposu:e pathway and te recommend pro-tective actions.

27. Demonst: ate the capability to irplee.ent NS NA NA protettive actions for the ingestion expcsure pathway.

28. Demonstrate the capability to develop NS NA RA decisions on relocation, re-entry, and

eturn.

DRAFT 1

OBJECTIVE 1ASALLE GRUNDY l

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NS NS

29. Demonstrate the capability to implenant NS I

appropriate measuzes for relocation, )

re entry, and return.

NS NS

30. Demonstrate the capability to maintain NS staffing on a continuous, 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> basis through an actual shift change.

S NA

.11. Demonstrate the capability to provide NA offsite support for the evacuation of onsite personnel.

NS NS NS

32. De.monstrate the capability to carry out emergency response functions in an un-announced exercise or drill.

NS NS NS *

33. Detr.onetzate the capability to carry out emergency response functions during an off hours exercise or drill.

5 Selected NS Not Selected NA Not Applicable l

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i LaSalle 1996 GSEP Exercise i

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MESSAGE DESCRIPTIONS i

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l LaSalle 1996 CSEP Exercise MESSAGE DESCRIPTIONS ,

l , MESSAGE DESCRIPTIONS l

MESSAGES Provided to assist Controllers in providing information to the exercise Participants.

MESSAGE TYPE Identifies Exercise Messages with an alpha-numerical system l AND NUMBER (described below). Messages are issued in numerical sequence to the appropriate Participants as indicated on the message itself and in the Message Summary.

MESSAGE The messages include the person (s) they are to be issued to, the time ADDRESS (real and scenario) issued and any prerequisites to be satisfied before issuing the message.

)

• CONTROLLER Controller Notes are included to provide information to the Controller.

NOTES They can be used as cautions or as reminders for coordination of exercise information. ,

I MESSAGE TYPE DESCRIPTION CM CONTROL MESSAGE j j a) Messages issued at specific times to any of the groups in the station or ERFs. j b) cms control the main flow of the scenario.

c) cms include tumover, timejump and termination information.

CO CONTINGENCY MESSAGE a) Used if Participants fail to take the major actions necessary to keep the scenario on track. j b) The Controller giving CO Messages must explain, in detail, the actions the i Participant is expected to perform. l c) COs are only issued with the concurrance of the Lead On-Site and/or Off- l Site Controller. '

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CR CONTROL ROOM MESSAGE a) Message issued to Control Room personnel.

b) Issuance is usually dependant on a prerequisite action having occurred, i asking for information, or performing a specific task.  !

i c) CRs specify the indications received upon simulated control board i l manipulations if the simulator is not operating or for equipment not  !

l simulated in the Control Room. j j d) CRs may include annunciator status, equipment status and other mimics of l l plant inforrnation available to the Operating Crew.

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LaSalle 1996 CSEP Exertise MESSAGE DESCRIPTIONS

,s PS PLANT STATUS a) Sheets that contain information on key parameters which would normally be monitored from the Control Room.

b) Plant Status is issued at regular intervals to reflect a number of parameters important to the exercise to be used if the simulatoris not running.

c) Other plant status issued, not in the form of PS messages may include plant recorder, radiation and temperature monitoring information.

IP IN PLANT MESSAGES a) Usually issued to Participants from the OSC, such as maintenance crews and local operators.

b) Messages are written in response to conditions found at a certain location earned by the Participants through actions performed.

c) IPs include equipment status, local indications. p!snt observations, results of attempted actions and local radiological data.

1 SEC SECURITY MESSAGES a) Usually issued from Security personnel. Can be issued from other personnel for messages with security information.

b) includes information conceming the security force, assemblies, search and rescue, security observations, etc.

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,_j ENV ENVIRONS MESSAGES 1 a) These messages are issued to Environs Teams in the field.

b) Included are conditions off site that affect Environs Teams such as weather, I flooding and access to off-site areas.

l RC RESPONSE CELL l

l a) Issued from the Response Cell.

b) Includes all Response Cell injects to the exercise.

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i LaSalle 1996 GSEP Exercise

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MESSAGE

SUMMARY

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l LaSafb 1996 GEEP Exercise l MESSAGE

SUMMARY

i Number Ilmt issue to: Description CM-1 0700 ( 30) All Participants initial Conditions CR-1 0700 (-30) NSO Control Board initial Conditions i

CR2 0752 (22) NSO Earthquake (et al)

IP-1 0752 (22) All Plant Participants Earthquake IP-2 0752-0815 Local Operator Seismic Monitoring Panelinfo (22-45)

SEC-1 0753(23) Control Room Security earthquake info CR-3 0800-0930 NSO CRAM Arrayinsertion (30-120) 8 IP-3 0800-1000 Local Operators Earthquake damage inspection l (30-150)

IP-4 0800-1000 Local Operator RCIC Valve 1E51-F045 info (30-150)

IP-5 0800-1300 Local Operator 1E51-F045 Breaker on Bus 121Y info (30-330)

", IP-8 0800-1300 mms Troubleshoot and repair 1E51 F045 V (30-330)

IP 7 0800-1000 IMs Troubleshoot and repair 1 A Recirc Flow (30-150) Control Valve IP-8 0800-1200 Local Operator 1 A Inst Air Leak info (30-270)

IP-9 0800 1200 mms Repair of Inst Air Leak info (30-270)

IP-10 0800 1200 ems E Field repair info (30-270)

CO-1 0822 (52) Shift Engineer ALERT Contingency CM-2 0830-0930 Station Director /ASD Braidwood/Dresden Earthquake info (60-120)

SEC-2 0830-1400 TSC Security Dir. E Field repair info to TSC

, (60-390)

SEC-3 0830-1030 TSC Security Dir. S'ecurity personnel printout info

( (60-180) l l CR4 0900-0944 NSO Recirc Flow Control Valve repaired (90 134) t

, LaSalle 1996 GSEP Exercise MESSAGE

SUMMARY

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Number TJma issue to: Descriotion CR-5 0944 (134) NSO Half SCRAM /ATWS CR6 0945 (135) NSO Turbine / Generator Trip I

SEC-4 0945-1030 TSC Security Dir. Assembly personnelinfo (135-180)

CR 7 0950 (140) NSO Annunciator info

]

CR-8 0950-1145 NSO Driving Rods individually I (140-255)

IP-11 0950-1200 Local Operator 1C11 F389 info

. (140 270)

IP-12 1000-1200 mms 1C11-F389 repair info

• l (150-270)

IP-13 1000-1400 ems SCRAM circuitry troubleshooting info

, (150-390) l CO-2 1014 (164) Station Director SITE EMERGENCY Contingency CR-9 1030 (180) NSO Equipment / Annunciator status

~' - CR-10 1100-1200 NSO Repair of 1C11 F389 s (210 270)

CM-3 1139 (249) TSC Earthquake Aftershocks CM-4 1139 (249) EOF Earthquake Aftershocks CR 11 1139 (249) NSO Earthquake Aftershocks/LOCA IP 14 1139 (249) All Plant Participants Earthquake Aftershocks CR-12 1140(250) NSO Loss of SAT /HPCS/LPCS/LPCI IP-2 1140-1215 Local Operator Seismic Monitoring Panel info (250-285) 2 CR-13 1141-1210 NSO Restoring power to Bus 142X (251 280)

IP-15 1141 (251) Participants in area SAT Failure info SEC-5 1141 1145 TSC Security Dir, Security Earthquake Aftershocks/SATinfo (251-255) .

ENV1 1141 (251) Environs Teams SAT Failure Info i

j CR-14 1142 (252) NSO Start of 1B RHR Pump d CR-15 1143 (253) NSO SGTS Starts

LaSalle 1996 QSEP Exercise l MESSAGE

SUMMARY

_ , Number Ilms issue to: Descriotion IP-16 1145-1400 Local Operators Earthquake damage inspection info (255-390)

IP 17 1145-1230 Local Operator Bus 143-1 (HPCS) info (255-300)

IP-18 1145-1230 Local Operator 1E22 F004 local operations info (255-300) l l IP 19 1145-1230 Local Operator SAT inspection info l

(255-300)

IP-20 1145-1230 Local Operator 1FPO4JA Fire Panelinspection info (255-1230)

IP-21 1145-1300 Local Operator SAT deluge ivestigation info 4

(255-330) j IP-22 1145-1230 Local Operator 0 D/G info (255-300)

IP-23 1145-1400 IMs 0 D/G failed overspeed switch info (255-390)

IP-24 1145-1300 Local Operator Bus 141Y ACB 1414 investigation info l (255-330)

IP-25 1145-1230 ems Bus 141Y ACB 1414 repair info (255-300)

IP-26 1145-1400 Local Operator 1B RHR Pump trip investigation info (255-390)

IP-27 1145 1400 mms 1B RHR Pump repair info (255-390)

CR-16 1200-1210 NSO HPCS back in ser/ ice (270-280)

CR 17 1200-1300 NSO Energize Busses 141Y and 141X (270-330) l IP-28 1200-1400 Participant Met Towerinspection info (270 390)

CO-3 1209 1215 MEO GENERAL EMERGENCY Contingency (279-285) l '

CM-5 1400 (390) TSC, EOF, CEOF Timejump Message i

CM-6 1400 (390) CR, OSC, Ets Exercise Termination CM7 1500 (420) All Participants Exercise Termination v

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LaSalle 1996 GSEP Exercise l Control Messages This is an Exercise CONTROL MESSAGE CM 1 Time: 0700 ( 30)

Issue to: All Participants Prerequisites: None p

1. Hand out the attached Shift 'Ingineer Tumover Checklist to the following:

a. Control Room Personnel

b. Local Operators at the staging area ,

a c. OSC Director

2. Hand out the LaSalle Plan of the Day to the following:

a. All TSC and OSC personnel at the players meeting.

b. Make two copies available in the Simulator Control Room,

c. Make five copies available in the TSC.

d. Make five copies available in the OSC.

3. Handout the attached copies of the CECO Nuclear Ope ations Daily Plant Status to the following:

a. All CEOF personnel at players meeting.

b. All EOF /JPIC personnel at the players meeting.

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._, LaSalle 1996 GSEP Exercise Control Messages

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1 This is an Exercise i

CONTROL MESSAGE CM-2 Time: 0830-0900 (60 90)

'. Issue to: Station Director /ASD l From: NDO

, Prerequisites: None

1. Inform the SD/ASD that Braidwood and Dresden Stations both experienced tremors, a however no damage was detected and no GSEP classification levels were encountered.

2. Attempt to get update information on LaSalle status.

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- LaSalle 1996 GSEP Exercise 3

Control Messages This is an Exercise CONTROL MESSAGE f CM-3 l

l Time: 1139 (249)

issue to

TSC l Prerequisites: Earthquake aftershocks event in progress

1. The ground is shaking slightly. Anything in the area that is not secure is shaking. If you are in an area that has tables, non-secure items on the table are moving across the table 8 slightly. Dust is coming out of the overheads in a small amount.

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2. The tremors last for one minute and thirty seconds.

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n LaSalle 1996 GSEP Exercise Control Messages This is an Exercise l

CONTROL MESSAGE CM4 l

Time: 1139 (249)

Issue to: EOF Prerequisites: Earthquake aftershocks event in progress

)

1. The floor is shaking slightly. Anything in the area that is not secure is shaking. If you  !

are in an area that has tables, non-secure items on the table are moving across the table a slightly.

2. The tremors last for one minute.

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! LaSalle 1996 GSEP Exercise m

Control Messages This is an Exercise CONTROL MESSAGE CM-5 Time: 1400 (390)

Issue to: TSC, EOF, CEOF Participants Prerequisites: Permission of the Lead On Site /Off Site Controllers i  !

l l 1. There has been a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> timejump to June 20,1996 at 1400. .

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2. The following conditions apply: y l a) Reactor Conditions <_,

Radiological Conditions b) c) HRSS Sample in progress y

l d) Meteorological Conditions e) Environmental Conditions f) State and County Activities

3. Hand out the following materials:

! a) Timejump Plant Status Sheet

' Timejump Equipment Status Sheet b) c) HRSS Chemistry Report for June 19,1996 l

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._. LaSalle 1996 GSEP Exercise Control Messages This is an Exercise 1 I

CONTROL MESSAGE CM4 l Time: 1400 (390) l Issue to: Control Room, OSC, Environs Teams i Prerequisites: Permission of the Lead On-Site Controller l

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1. The 1996 LaSalle GSEP Exercise is terminated. We thank you for your participation  !

l and ask that you sign the Attendance Sheets. Also, please feel free to make comments I

! on the Participant Comment Sheets being handed out. These allow us to get your input 1 4 into the scenario, performance and the facility. Finally, please stay around for a short critique with the Lead Facility Controller.

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LaSalle 1996 GSEP Exercise Control Messages l

This is an Exercise l J

CONTROL MESSAGE CM 7 Time: 1500 (420)

Issue to: All remaining Participants Prerequisites: Permission of the Lead Off Site Controller

1. The 1996 LaSalle GSEP Exercise is terminated. We thank you for your participation and ask that you sign the Attendance Sheets. Also, please feel free to make comments on the Participant Comment Sheets being handed out. These allow us to get your input 8 into the scenario, performance and the facility. Finally, please stay around for a short critique with the Lead Facility Controller.

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LaSalle 1996 GSEP Exercise Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR1 Time: 0700 ( 30)

Issue to: NSO Prerequisites: Starting board walk-down after initial briefing initiating Action l Response

1. Hand the following to the NSO:

4 - Initial Equipment Status Sheet Initial Rod Pattem Sheet j i

- Initial PCIS Sheet

- Initial ESF Panel Sheet CONTROLLER NOTE: Use only if the simulator is not running. ,

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LaSalle 1996 GSEP Exercise 3 EQUIPMENT STATUS Time: 0700 (-30) l l

Recire Pumps l 1 A- R l 18- R l SRM Positions l A- out l B- out l CRD Pumps l 1 A- R l 18- A l l C- out l D- out l RHR Pumps 1 A- A 18- A MSIV Positions l A- O l A- O l 1C- oos 1B21-F022/28 l B- O l B- O l RHR SW Pumps 1 A- A 1 C- A l C- O l C- O l l 18- A l 1D- A l l D- O l D- O l Rx Feed Pumps l 1 A- R l 1B- R l Safety / Relief l A- C l B- C l

• l Mtr Drvn- A l Valve Positions l C- C l D- C l Cire Wtr Pumps 1 A- R 1B- R 1821-F013 l E- C l F- C l 1 C- A l G- C l H- C l CD/CB Pumps 1 A- R 1B- R l J- C l K- C l l 10- R l 1D- A l l L- C l M- C l Serv Wtr Pumps 1 A- R 1B- R l N- C l P- C l 0- A l R- C l S- C l

, RWCU Pumps 1 A- R 18- R U- C V- C j 1C- A E

RBCCW Pum s 1 A- R 1B- A U1 SAT TBCCW Pum s 1 A- R 1 B- A U1 UAT E HPCS Pum A U1 Main Xfrmrs E- E W-E LPCS Pum A 6.9 KV Busses 151- E 152- E RCIC Pump A 4 KV Busses 141X- E 141Y- E SBLC Pumps 1 A- A 1 B- A 142X- E 142Y- E Legend l R = Running l 143- E - - -

A = Available N = Not Available l 0 D/G A -

T = Tripped P = Lockout /PTL 1 A D/G A E = Energized O = Open 1B D/G A D = De-Energized C = Closed kNaS96eM.dodl

l LaSalle 1996 GSEP Exercise ROD PATTERN '

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l Prerequisite: Initial Rod Pattem i Part of message CR 1 1

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55 48 48 48 48 48 48 48 48 48 51 48 48 48 48 48 48 48 48 48 48 48  !

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43 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 l

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27 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 l

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LaSalle 1996 GSEP Exercise ESF PANEL Time: 0700 ( 30)

ENGINEERED SAFEGUARDS FEATURES IUL-AN001 1 2 3 4 5 6 7 8 9 10 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 I

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LaSalle 1996 GSEP Exercise

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Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR-2 Time: 0752 (22)

Issue to: NSO 1

Prerequisites: None Initiating Action l Response

1. READ TO CONTROL ROOM. You feel the floor shaking slightly. There is a small amount of dust coming out of the overheads. Any loose material on the desk surfaces i

a is shaking or moving slightly. l

2. The following annunciator is alarming: (

1

- 1PM10J B5-04 STRONG MOTION SEIS INST SYS INIT CONTROLLER NOTE: Use ITEM 1 and 3 even if the simulator is running. All other information is to be given only if the simulator is not running.

3. The Earthquake tremors last for one and a half minutes. l

4. 15 seconds after the earthquake alarm, the following annunciators alarms: j

. - 1H13-P601 D4-06 RCIC RUNNING

- 1PM10J B5-03 SEISMIC OBE/SSE LEVEL EXCEEDED

1. Checks RCIC System Indications 5.a RCIC TURBINE STEAM INLET 5.

ISOL VLV 1E51 F045 indicates both open and shut.

! 5.b RCIC LUBE OIL CLG WATER VLV 1E51 F046 is open. i 5.c BARO CNDSR VACUUM PMP 1E51-C005 is on. l 4

5.d RCIC FULL FLOW TEST DWNST .

STOP VLV 1E51-F059 is closed.

5.e RCIC PUMP SUCTION FROM CST

- DWNST STOP VLV 1E51-F010 is closed.

5.1 There is no system flow.

6. 30 seconds after the earthquake alarm, the following annunciators alarm:

1H13-P602 A101 A RR FLOW CONTROL VALVE TROUBLE

- 1H13 P603 A5-11 FLUX / FLOW CONTALR OUTPUT SGNL ABNL

7. Checks Jet Pump Flows 7.a Jet Pump A = 80 M#s/hr 7.b Jet Pump B = 14 M#s/hr

8. Checks Driving Flows 8.a A = 44 M#s/hr 8.b B = 33 M#s/hr

9. Checks valve positions. 9.a A = 100%

9.b B = 50%

10. Checks Servo Errors 10.a A = 100 10.b B=0 x:=os.w.m.s.oxe

m CR-2 (cont)

11. 35 sec after the earthquake alarms, 11. RCIC TURBINE STEAM INLET and checks RCIC indications. ISOL VLV 1E51 F045 open and shut indications ao dark.

12. 40 seconds after the earthquake alarms, the following annunciator alarms:

1

- 1PM10J B2-04 INSTR AIR PRESSURE LO/H1

13. 45 seconds after earthquake alarms, the following annunciators alarm:

1H13-P601 D1-03 RCIC TURB OIL PRESS LOW

- 1H13 P601 D2-05 RCIC PMP DSCH FLOW LO l 14. Give out alarm typer information.

15. Three minutes after the earthquake alarms, hand the NSO the following information:

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- 0755 Equipment Status Sheet

- 0755 Annunciator Sheet

- 0755 ESF Panet Sheet I

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LaSalle 1996 GSEP Exercise

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ALARM TYPER INFORMATION Time: 0752 (22) 069 075200 123 A 1272 SEISMIC INST SYS ACTUATED l

069 075212 l 123 A 0078 RCIC RUNNING ALARM l 069 075220 l 123 A 1271 SEISMIC OBE/SSE LEVEL EXCESSIVE l 1

069 075230 l 123 A 0151 FLUX CONTLR OUTPUT SIGNAL ABNORMAL ,

s 123 A 0580 VLV A SRVO-AMP CONT SIG ABNORMAL l 123 A 0583 FCV A MOTION INHIBIT 069 075240 l 123 A 1191 INSTR AIR RECEIVER PRESS LO l l

l 069 075245 1 RCIC PUMP DISCHARGE FLOW LO l

! 123 A 0549 123 A 0550 RCIC TURBINE OIL PRESS LO l

', 069 075250 l 123 A 0550 RCIC TURBINE OIL PRESS NORMAL (

l I

i l

CONTROLLER NOTE: Use only if the simulator is not running.

1 l

l LaSalle 1996 GSEP Exer:Ise l EQUIPMENT STATUS Time: 0755 (25)

Recire Pumps l 1 A- R l 1B- R l SRM Positions l A- out l B- out l CRD Pumps l 1 A- R l 1B- A l l C- out l D- out l RHR Pumps 1 A- A 18- A MSIV Positions l A- O l A- O l 1C-oos 1B21-F022/28 l B- O l B- O l RHR SW Pumps 1 A- A 1C- A l C- O l C- 0 l l1B-A l 1D- A l l D- O l D- O l Rx Feed Pumps l 1 A- R l 1B- R l Safety / Relief l A- C l B- C l

• l Mtr Drvn- A l Valve Positions l C- C l D- C l Circ Wtr Pumps 1 A- R 1 B- R 1821-F013 l E- C l F- C l 1 C- A l G- C l H- C l CD/CB Pumps 1 A- R 1 B- R l J- C l K- C l l 1C- R l 1D- A l l L- C l M- C l Serv Wtr Pumps 1 A- R 1 B- R l N- C l P- C l 0- A l R- C l S- C l

, RWCU Pumps 1 A- R 1 B- R U- C V- C 9 1 C- A RBCCW Pum s 1 A- R 1 B- A U1 SAT E .

TBCCW Pum s 1 A- R 1B- A U1 UAT E HPCS Pum A U1 Main Xfrmrs E- E W-E LPCS Pum A 6.9 KV Busses 151- E 152- E RCIC Pump oos 4 KV Busses 141X- E 141Y- E SBLC Pumps 1 A- A 1 B- A 142X- E 42Y-Legend l R = Running 143- E '

A = Available N = Not Available 0 D/G A T = Tripped P = Lockout /PTL 1 A D/G E = Energized O = Open 1B D/G A D = De-Energized C = Closed kNe596e6es.docQ

/ (s. ) . .

s f

i i

I LASALLE 1996 GSEP EXERCISE  :

ANNUNCIATORS  !

THE 0755 (25) A- I SBGT ECCS -1H13-P601 2PMO7J 81PM0 A B C D RWCU S RECRC -1H13-P602 l F E A B r

i REACTOR CONTROL- 1H13-P603 FEEDWATER COf0ENSATE CONTROL 1PM03J A B A B TLR8 DECONTROL 1PMO2J ELECTRICALCONTROL 1PM01J '

A B A B CredT MON 8 LEAK DET AUXLIARY SYSTEMS OFF-GAS CONTROL A 1PM13J B A 1PM10J B A 1N62-P600 B l HVACCONTROL 1PMD6J 345KVSNTCHYARD OPM12J l B A A B C I

o

LaSalle 1996 GSEP Exercise ESF PANEL Time: 0755 (25)

ENGINEERED SAFEGUARDS FEATURES IUL-AN001 1 2 3 4 5 6 7 8 1

9 10 12 13 14 15 16 i

4 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 40

-~,

V 41 42 43 44 45 46 47 48 4

l \

1 l

1 LaSalle 1996 GSEP Exercise 3 Control Room Messages This is an Exercise CONTROL ROOM MESSAGE I CR3  ;

Time: 0800-0930 (30 120)

Issue to: NSO Prerequisites: Decision made to insert CRAM arrays j

l Initiating Action Response

1. Selects an individual rod. 1. Rod selected light on Rod Display panel lights. )

8 2. Inserts rod manually. 2.a. Starts at 48 position.

2.b Rod Display bumps in by two inches at a time with a - between the l Indications.

2.c After thirty seconds, rod position is )

00 and the FULL IN light for that rod l Is lit.

3. All CRAM arrays are inserted. 3. Hand the NSO a new Rod Pattem Sheet. i m CONTROLLER NOTE: Use only if the simulator is not running. l

-) I d

4 l

l l

l kNas96eM-msgh7

l.aSalle 1996 GSEP Exercise ROD PATTERN Prercquisite: Afterinsertion of CRAM Arrays Part of message CR-3 I

1 59 48 48 48 48 48 48 48 55 48 48 48 48 48 48 48 48 48  !

l 51 48 48 48 48 48 48 48 48 48 48 48 I

47 48 48 48 48 48 48 48 48 48 48 48 48 48 43 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 39 48 48 48 48 48 00 48 48 48 00 48 48 48 48 48

! 35 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 I i

31 48 48 48 48 48 48 48 00 48 48 48 48 48 48 48 l 27 M M M M M M M M M M M M M M M l 23 48 48 48 48 48 00 48 48 48 00 48 48 48 48 48 i

19 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 l 15 48 48 48 48 48 48 48 48 48 48 48 48 48 i 11 48 48 48 48 48 48 48 48 48 48 48 07 48 48 48 48 48 48 48 48 48 l 03 48 48 48 48 48 48 48 02 06 10 14 18 22 26 30 34 38 42 46 50 54 58 i

4 1

i j ^,

4

L.sSalle 1996 GSEP Exercise

'N Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR-4 Time: 0900-0944 (90-134) l Issue to: NSO Prerequisites: Recirc Flow Control Valve circuit repaired initiating Action l Response .

1. The following annunciators are clear:  !

1 H13-P602 A1-01 A RR FLOW CONTROL VALVE TROUBLE

- 1H13-P603 AS-11 FLUX / FLOW CONTRLR OUTPUT SGNL ABNL

2. Checks Jet Pump Flows 2.a Jet Pump A Flow = 35 M#s/hr 1 2.b Jet Pump B Flow = 35 M#s/hr l I

3. Checks Valve Positions 3.a A = 50%

3.b B = 50%

4. Checks Servo Errors 4.a A=0 l 4.b B=0 1 CONTROLLER NOTE: Use only if the simulator is not running.

^

J' l

l l

l I

4 b

k: m eeg M

l LaSalle 1996 GSEP Exercise Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR-5 Time: 0944 (134)

Issue to: NSO Prerequisites: None initiating Action l Response

1. The following annunciators alarm:

1H13-P603 A1-08 APRM HI 1H13-P603 A3-08 ROD OUT BLOCK 1H13-P603 A5-03 CRD HYD ACCUM TROUBLE 1H13-P603 A5-05 CH B APRM Hi-Hl/INOP 1H13-P603 B1 10 CH B APRM THERMAL TRIP

- 1H13-P603 B2-08 CH A2/B2 NEUT MON TRIP

- 1 H13-P603 83-11 CH B2 REACTOR AUTO SCRAM

2. Hand the NSO the following information:

- Rod Pattem Sheet 3 - Alarm Typerinformation

,* j

3. Checks Rod displays. 3. The blue SCRAM lights are lit for the following rods:

43,30 23,38-23,46-35

4. Checks RPS Bus display. 4. The RPS A lights are lit and the middle two RPS B lights are lit. The outer RPS B lights are dark

5. Initiates Manual SCRAM. 5. Hand the NSO second rod pattem.

6. Checks RPS Bus Display 6. All RPS Bus lights are dark except .

for the middle twoo RPS B lights which are lit.

7. Hand the NSO the following information at 0945:

- Alarm Typer information (Hand out every minute as indicated on sheets)

- Annunciator Sheet

8. Looks at SDV vent and drain valves. 8. All SDV vent and drain valves are shut.

9. Installs jumpers to reset SCRAM. 9. Operators can install jumpers in back of panels. ,

CONTROLLER NOTE: Simulator Operator needs to " install" jumpers on simulator.

10. Looks at SDV vent and drain valves. 10. All vent and drain valves are open except SDV UPSTRM DRAIN ISOL VLV 1C11-F389 remains shut.

CONTROLLER NOTE: Use only if the simulator is not running.

\.

Y

LaSalle 1996 GSEP Exercise

. ROD PATTERN Prerequisite:- After Half SCRAM signal from APRM Spike Part of message CR- $

l l

59 48 48 48 48 48 48 48 55 48 48 48 48 48 48 00 48 48 1

51 48 48 48 48 48 48 48 48 48 48 48 47 48 48 00 48 48 48 00 48 48 48 00 48 48 43 48 48 48 48 48 00 48 48 48 48 48 48 48 48 48 39 48 00 48 48 48 00 48 48 48 00 48 48 48 48 48 35 48 48 48 48 48 48 48 48 48 48 48 00 48 48 48 i 73 31 48 48 48 00 48 48 48 00 48 48 48 00 48 48 48 J

27 M M M M M M M M M M M M M M M 23 M M M M M  % M  % M  % 4 4 4  % M l

19 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 15 48 48 00 48 48 48 00 48 48 48 00 48 48 l 11 48 48 48 48 48 48 48 48 48 48 48 07 48 48 00 48 48 48 48 48 48 03 48 48 48 48 48 48 48 02 06 10 14 18 22 26 30 34 38 42 46 50 54 58 i

N

I LaSalle 1996 GSEP Exercise

• ALARM TYPER INFORMATION j Time: 0944 (134) l l cr/o o44435 HI 123 A 0723 APRM ALARM l 123 A 0727 RBM HI/INOP 070 094440 ALARM 1

123 A 0056 CRD DRIFT ALARM l 123 A 0719 CHAN B APRM HI-HI/INOP l 123 A 0949 APRM CH D THERMAL TRIP 123 A 1405 CH A2/B2 NEUTRON MONITOR TRIP ALARM 123 A 1413 CHAN B-2 AUTO SCRAM 070 09$445 1?3 A 0058 AC':UMULATOR TROUBLE 123 N 0059 R OD Olli BLOCK NORMAL

• ALARM a 122 A 0543 SCRAM LV VOL NOT DRAIN .

123 U 0719 CHAN B APRM HI-HI/INOP NORMAL l3 N 0723 APRM NORMAL 123 r4 0727 REM HI/INOP NORMAL RESET

'.23 N 0?49 APRM CH D THERMAL RESET 123 N 1405 CH AC/B2 NEUTRON MONITOR 070 09A450 LO 123 A 0048 CRD CHARGINO WATER PRESS ALARM

! 123 A 0059 ROD OUT BLOCK VOL HI ROD ELK ALARM I-.. 1:' 3 A 0062 SCFm D15 SCRAM

..j 123 A 0077 LG CaiARCINO WTR HDR Ai/B1 l 115 A 3216 CH A1.'B1 MSIV NOT FULL OP TRIP-BYP 23 4 C121 "' : 3 62/B2 MSIU NOT FULL OF TRIP-BYP

5 A I c,6 4 IRM DOWN;CALE ALARM

.23 A. 97'O Lid:M DDWNSC ALE ALARM l  ?

- 07'56 '.:RD WATEF Fil DIFF PRESS HI t"' A 0 7 c ~. F i . C I" . T EX WTR Li>L 4 LO 12' 4 '?-7 .0 (HAR%INO WTR HDR A2/B2 SCRAh 22 4 1376 CHAN A CRD DISCH VOL LU HI .

_ f.

- 6 DiAN Al RX A*JTO SCRAM ALARM

. ; 1.~ ~ C ': A M A r.' SCRAM SW ARMED ALARM 1: A ,~7 CHAN I. C r D DISCH VOL LV HI

,~3 A .an? 244- E MAN SCRAM SW ARMED ALARM

'. '. . 1411 % AN a-P ~;x AUTO S~ RAM ALARM l '. ; ; 4*.2 CHAN b-1 RX AU'O SCRAM ALARM "vceg:sg - RY LVL LO.*PRESE HI ALA:M

.i ? .' . "S L'

':-T RIP *LO SPEED ALARM

.2 4 o ! -' :A '--1A 12 3 A / e 0 8 H f' 12 T C .s EA STh CL ULU N2' OPEN -

rvs ey . y, i.t : :: . v :. r -u..

.) ..e..e i n.' r. i T ;- i s.

n.

4. ~ ,: . ..

;.

1 A. C

':C R .:. A M FILnT ULV HDR F RE 5 5

-. n c- D.... . , I ...

r.

,_C.ny-u.c

.t h. .s LO'*'..M

-i t i n 1 " *.- ; *'7'

. D

• t. 1 AFI n n n' 71 F APriE D AL4 "

i. : -i? A-TRI: /LD SF EED ALARM i . J. ,-

c . , ,: . --v,;; v. e r,g e_ r-. , .

s u 4 :. s.

! ,.. r .,

..,-....t . .

n-_me

. . . . ~.

e ,s L,,L -u e r . e.  : a. :. .

V '.: .: III' ( ' .:. rc 4 F.r U3s?c LEVEL 3 LC i -

. v ..:. :. :. .

-N; -%r : .*.

. . ..L,.

CONTROLLER NOTE: Use only if the simulator is not running.

LaSalle 1996 GSEP Exett:Ise m ROD PATTERN Prerequisite: After Manual SCRAM Part of message CR-5 59 48 20 20 48 26 48 48 55 20 20 48 20 48 48 00 48 26 51 20 48 20 48 48 26 48 26 26 48 26 47 48 20 00 48 20 48 00 26 48 26 00 48 26 l 1

43 20 48 48 20 48 00 20 48 26 48 48 26 48 26 26 39 48 00 48 20 20 00 20 48 48 00 48 26 26 48 26 35 48 20 20 48 20 48 48 26 48 26 26 00 26 48 48 q 31 20 48 20 00 48 20 48 00 26 48 26 00 48 26 48

./

27 20 48 48 20 48 20 20 48 26 48 48 26 48 26 26 23 48 20 48 20 20 00 20 00 48 00 48 26 26 00 26 19 48 20 20 48 20 48 48 20 48 26 26 48 26 48 48 15 48 20 00 48 20 48 00 26 48 26 00 48 26 11 48 20 48 20 20 48 26 48 48 26 48 07 20 20 00 20 48 48 26 48 26 03 20 48 48 20 48 26 26 02 06 10 14 18 22 26 30 34 38 42 46 50 54 58 k .*

( () /

l LASALLE 1996 GSEP EXERCISE ANNUNCIATORS TBE 0945(as) /t fier per ig -)r*p l SBGT ECCS - 1H13-P601 A

2PMO7J & 1PM07 B C D l  :::: ,

-- t RWCU 8 RECRC - 1H13-P602 F E A B REACTOR CONTROL- 1H13-P603 FEEDWATER CONDENSATE CONTROL 1PM03J A B A R

" .E"EE" EE EEEEEEEEEEE.

.."."E*."E"

.. ...... - - - - - ....E.E TURBINECONTROL 1FMO2J ELECTRICALCONTROL 1PM01J A B _ _ A B L  !" - l-n - y  ;;

CNMT MON & LEAK DET AUXUARY SYSTEMS OFF-GAS CONTROL A 1PM13J B A 1PM10J B A 1N62-P600 B l_: ::: l r -

HVACCONTROL 1PM06J 345KVSWTCHYARD OPM12J B A _ _A _ C mu_E___

s

l l

l l

l LaSalle 1996 GSEP Exercise ALARM TYPER INFORMATION Time: 0945 (135) i 070 M$M BYF ASS i 1 : :- A 0146 TCV FST CLS 1SV A TRIF RI BYPASS l 123 A 0202 TCV FST CLS T S t! E TRIP RI LIMITED 123 A 0%1 FLOL CONT A MAX OPEN 123 A 0?di FLOW CONT B MAX OPEN LIMITED 12: A 1034 RX FW PUMP 1B TRIP l

BYPASS l 13A 1372 CH A1/B1 MODE SW S/D SCRA EYPASS 12: A 1407 CH L MODE SW S/D SCRAM 00c'E PRTS MONITORING SYS TROUBLE 4 123 A 1410 07c 0'y!bL NORMAL 123 N 00G6 CRD DRIFT OPEN

?23.A 0432 2Nb SRD TNK 1A SPILL VLV OPEN 123 A 0:46 2f4D SF:D TNK 1B SPILL.VLV CLOSED 123 A 04?1 HP HIR 16A DRN VALVE A CLOSED l 30. 3 A C372 HP HTR 16A DRN VALVE B CLOSED l

123 A 0493 H: H ' F. 16A DRN VALVE C CLOSED 123 A G404 HP HTR 16B DRN VALVE D CLCSED 1:7. A 0495 HP HTR 165 DRN VALUE E CLOSED i '. 3 A 04?i HD WIR 161: DRN VALVE F CLOSED 127 A C5::3 L: HTR 15A DPN VALVE I N J. 3504 L C' HTF 15B DRN VALVE CLOSED

1. 3 4 DECT P HTR 150 DRN VALVE CLOSED l

1 3 A 0/10 :

• Hl R 14A E:t STM CK VLV NOT OFEN l

t

• if'1 :F FTR 14B EX STM CK VLV NOT OPEN

( 122

' e #12 0 air 14C EX STM CK ULV NOT OFEN

';. . o Spi;-. NORMAL

~'3 D.i" 1 RX LVL LO/FRESS HI

' : ~_ .

LO

'O A '.231 2 STOE RHTR DFN TK 1A LEV

. . : 21 2ND BPD TNK 1A DRN VLV

' CLOSED

. ; v4:5- OTGE PFTR DRN TK 15 LEV LO CLOSEE M 0447 2ND SRL Tf4K II DRN VLV NOT OFEN

' '; ' . A O.11I _F Hii 12A EX STM CK VLV I NOT OPEN

'3 A C314 LP HTR 13F EX STM CK VLV NOT OFEN

_J' A Ge.15 L' E T:: 13C EX STM CK VLV t40RMAL  ;

' J N 1227 U ._ E U E L 3 CONFIRMED i e 2_7 DIV 2 RA LVL LOJFRES5 HI NORMAL l

123 r' 13FC CH4N A RX t/EESEL LEVEL 3 NORMAL 3

<2 1411 CH A2/B2 PV VE5SEL LEVEL NORMAL

. . ..a

.: LP H /N 14A liRN VALVE- CLOSED

. 0 ".. r ..

H;, 1 , ,:-.

er h. n . u.J .

.v:-,cv n

1 .e g 0 .u.. . .e . u _ - - .  ;

.g ...

u.- .v%

. . 1 a.t.- . . . :;. .,c v

]

i l

4 v l l

CONTROLLER NOTE: Use only if the simulator is not running.

1 1-3

_. __ J

LaSalle 1996 GSEP Exercise ALARM TYPER INFORMATION l Time: 0945 (135) cont i

070 WJ} S 20 173 A 0422 MSR DRN TK 1A SPILL VALVE OPEN 123 A 0423 MSP DRN TN 1A DRN VALVE A CLOSED 173 A 0 4 ~. A MSR DRN TK 1A DRN UALVE B CLOSED 123 A 0425 MSR DRN TN 1A DRN VALVE C CLOSED 123 A F2S IST SPD TNK 1A SPILL VLV OPEN 123 (- 0436 MSR DRN TN 1B SPILL VALVE OPEN 123 A 6437 MSR DRN TN 1B DRN VALVE L CLOSED 123 A 0438 MSR DRN TN 1B DRN VALVE E CLOSED 123 A 0439 MSR DRN TK 1B DRN VALVE F CLOSED 123 A 0442 IST SRD TNK 1F SPILL VLV 0 FEN 4 123 A 0719 2HAN B APRM HI-HI/INOP ALARM 1 ". 3 A 0723 AFRM HI 123 A 13 0 $ C H A 1,' P 1 NEUTRON MONITOR TRIP 173 A 2405 CH J2/B2 NEUTRON MONITOR TRIP 0'/O'C?f526 i3 A v421 MOI S T-SE'P DRN TN 1A LEVEL LO 123 A 0429 IST SRD TNK 1A DRN VLV CLOSED I '. 2 A 0435 MOIST-SEP DRN TK 1B LEVEL LO 127 A C243 IST SRD TNA 1B DRN VLV CLOSED l

^  ::I A OM 7 ERM SHDET FERIOD ALARM  !

123 A ( 778 2HAN A APRM HI-HI/INOP AL ARPi l'2 N 07e7 Fu CON! RX WTR LVL 4 NORMAL

.'?O Oyp.31 22.1 ; 04;7 1 ETGE RHTR DEN TN 1A LEV LO l 123 A 0441 1 STOE RHTR DRN TN 1B LEV LO 1

1 1.' i 0727 RBh HI/INOP ALARM 1

122 A e 2 7 F!l 20NT RX WTR LVL 7 HI l

ifo c4m 4 e 3022 PX UTP LVL AT LVL 6 HI 127 h ri?e ~CU F?T CLS TSV A TRIP RI NORMAL l  : C r 1222 CV TST CLS TSV F TRIP RI NORMAL

.27 A CSa~

.1 A J 53: D UESSEL HI WTR LYL CH A TRIP 1

..-2 A 0740 RY VEESEL H) WTR LUL CH E TRIP l 1~ A Je3 ;/ VESSEL HI WTR LVL CH C TRIP 07- ?Q340 l  :. : A 0177 c.. O K U FUS 1Y1 ACB-1511 A-TRIP 12:: : DIS' 4KU BUE 141X A2L 1411 A-TRIP l

. , - 6 0156 ?CV ??T CLS TSV A TRIP FI FYPASS BYPAES t .eT' .3a A,:.:a.

. . ... 02:2 b100 c c..,.e

, ' 2L?o.:

e. N. . . c. 2 TSU y ,

B,.vTRIF RI r,. ,. ~ . . . .

i e.1 r III 2T0 EXCIT2; FIELD BREAKER- TRIP

- : A :5 ' P) se EM I R ono 1A o,9KU E R t: TRIP i  ; '.% A  %", ' ;F II JE t- A1 T ER TRIP AL A Rti

'23 A :7L 3 4 5 !r " C0 10-11 TRIF i -

. A a i." 2 .t 4 5 :.V CI; :- 10 TRIF 4

: e m: ' grP TR 7 t- EH2 1ASTEP 4LARM l i u..

7

. i '.

2:: 1  :; IP 0"EREFEED ALARM I CONTROLLER NOTE: Use only if the simulator is not running.

1

l LaSalle 1996 GSEP Exercise 3 ALARM TYPER INFORMATION  !

l Time: 0945 (135) cont i

070 og454o(edl i 123 A 0705 TURB TRIP NON-EHC ALARM 123 A 0006 1 URB TRIP PS-100A/B LOSC 123 A 0901 TURBINE DYPASS VALVE OPEN ALARM l 123 A 0906 RFFT EXT CTEAM CHECK VLV CLOSED l 123 A 0961 RX RECIR PMP 1B 6.9KV BRK TRIP l 123 A 0774 RR P-1B SEAL STAGING FLOW HI-LO 123 A 1032 RX FU PUMP 1C A-TRIP 223 A 1033 RX FW PUMP 1A TRIP 123 A 1143 RR P-1B TRANS NOT AVBL ALARM

• 123 A 12b-' TSV 1 NOT FULL OPEN I 123 A 1255 TEU 2 NOT FULL OPEN in A 12.59 TSV 3 NOT FULL OPEN l

123 A 1240 iSV 4 NOT FULL OPEN i

l'?3 s. 1302 CHAN A1/B1 TCV FAST CLSR ALARM

! 123 A 1384 LH A1/B1 TSV NOT FULL OPE ALARM i

123 c 1403 CHAN A2/B2 TCV FAST CLSR ALARM i

! 123 A 1404 CH A2/B2 TSV NOT FULL OPE ALARM 070 094546

' ': 3 A C~:93 LP H1R 13A DRN VALVE CLOSED l

T 123 A 0391 LF HTR 13B DRN VALVE CLCSED l ld '.13 A 03V5 LP HTN 13C DRN VALVE CLOSED l .23 A C 5'S RP F - A TRANS NOT AVBL ALARM l 123 A C b 88 FJ P-1A SEAL STAGING FLOW HI-LO l In N 0667 ERh SHORT PERIOD NORMAL

6 l 1 1:- 1C':{550 r;; '. RY W~R LVL AT LVL 8 NORMAL

! 123 si f:549 PCIO FUMP DISCHARGE FLOW NORMAL l ' ~ , 1 0 ';; G RC) C TI RBINE DIL F RESS NORMAL ,

l 'L3 P 356( l l '3 5 0719 RX JEESEL HI WTR L!L CH A RESET  !

. ., N 0743 RT t'E35EL H: UTR LVL CH B RESET

< 5- :N: 1 McIN CCN~ROL PANEL TROUELE ,

'A":

i., 4 .J -; Fr y u E I t,E L a: .47R LYL CH C RESE7 4

i s_

CONTROLLER NOTE: Use only if the simulator is not running.

I i

LaSalle 1996 GSEP Exercise ALARM TYPER INFORMATION Time: 0946 (136) 070 C %k600 23 N 073' FU CONT RX WTR LVL 7 NORMAL 123 A 0807 COMB MAX FLOW CONTROL LIM ALARM 123 N 1032 RX FW PUMP 1C RESET 123 A 1456 CONDENSFR A OUTLET TEMP HI 070 094606 123 A 0054 CONT ROD DRIVE HYD TEMP HI 123 N 0727 RBM HI/INOP NORMAL 070 094611 223 A 0767 FW CONT RX WTR LVL 4 LO 4 0 70 074626 123 A 1229 RX LEVEL 3 CONFIRMED ALARM 123 A 1380 CHAN A RX VESSEL LEVEL 3 LO 123 A 1401 CH A2/D2 RX VESSEL LEVEL LO 070 074630 123 A 0152 CNDS EMER OVERFLOW VLV NOT CLSD 123 A 0265 CNDS HOTWELL LEVEL HI 123 A 0378 DIV 1 RX LVL LO/ PRESS HI ALARM 123 N 0715 CHAN A APRM HI-HI/INOP NORMAL i

.m 123 N 0807 COMB MAX FLOW CONTROL LIM NORMAL '

] 23 A 1235 DIV 2 RX LVL LD/ PRESS HI Y'O 094636 ALARM

O i- 0545 RCIC PUMP DIS 2HARGE FLOW LO j 122 A 0550 RCIC TURBINE DIL PRESS LO 070 0746 M 1?? N 0?78 DIV 3 FX LVL LD/ PRESS HI NORMAL 3 ? A 0667 SPM SHORT PEFIOD ALARM 122 A 0718 CH Ari A APRM HI-HI/INOP ALARM 113 N 1 25 D V 2 PX LUL LO/ PRESS HI NORMAL

." O c gM: 6

'4 1229 CX LE'.8EL 2 CONFIRMED NORMAL

ri : -: C ' CH A2/F2 RX VESSEL LEVEL NORMAL

_  ; ~, ? . '::NDENSER A QUTLET TEMP i40RMAL l

v CONTROLLER NOTE: Use only 11 the simulator is not running.

LaSalle 1996 GSEP Exercise N ALARM TYPER INFORMATION Time: 0947 (137)

O'/O 094700 173 A 0378 LIV 1 RX LVL LD/ PRESS HI ALARM 123 A 1235 I:IV 2 RX LVL LO/ PRESS HI ALARM 121 N 1380 CHAN A RX VESSEL LEVEL 3 NORMAL 070 074706 123 N 0378 DIV 1 RX LVL LO/ PRESS HI NORMAL 123 N 1235 DIV 2 RX LVL LO/ PRESS HI NORMAL 070 094716 323 N 0667 SRM SHORT PERIOD NORMAL 070 094721 ,

123 N 0058 ACCUMULATOR NORMAL 070 094745

}22 A ODOS TURI:INE PMG MALFUCTION ALARM lm U

4 CONTROLLER NOTE: Use only if the simulator is not running.

LaSalle 1996 GSEP Exercise 1

l N. ALARM TYPER INFORMATION

! Time: 0949 (139) l 070 094055 123 A 1360 CHAN A RX VESSEL LEVEL 3 LO l 070 094901 123 A 0378 DIV 1 RX LVL LO/ PRESS HI ALARM 123 A 1229 RX LEVEL 3 CONFIRMED ALARM 123 A 1235 DIV 2 RX LVL LO/ PRESS HI ALARM 123 A 1401 CH A2/B2 RX VESSEL LEVEL LO 070 094910 123 N 0378 DIV 1 RX LVL LO/ PRESS HI NORMAL 123 N 1235 DIV 2 RX LVL LO/ PRESS HI NORMAL 070 09$ 15

• a 123 N 1229 RX LEVEL 3 CONFIRMED NORMAL 123 N 1380 CHAN A RX VESSEL LEVEL 3 NORMAL l

123 N 1401 CH A2/B2 RX VESSEL LEVEL NORMAL l 070 09J$.9 21 123 A 0378 DIV 1 RX LVL LO/FRESS HI ALARM 123 A 1235 DIV 2 RX LVL LO/ PRESS HI ALARM i 070 09$926 1 123 N 0378 DIV 1 RX LVL LO/ PRESS HI NORMAL 123 N 1235 DIV 2 RX LVL LO/ PRESS HI NORMAL

^

123 N 1386 CHAN Al RX AUTO SCPAM NORMAL

'] 103 N 14: 1 2HAN A-2 RX AUTO SCRAM 223 *: '412 CHAN B-1 RX AUTO SCRAM NORMAL NORMAL 123 N 14'3 CHAN E-2 AUTO SCRAM NORMAL 073 0749 0 123 A 0727 RBM HI.'INOP ALARM 070 0?4046

.'i

I; C*T i. E V HI/INOP N Q ;. y :., L l

l l

i v

CONTROLLER NOTE: Use only if the simulator is not running.

4

i LaSalle 1996 GSEP Exercise m, ALARM TYPER INFORMATION Time: 0950 (140) 1 1

! l j 070 095000 I 122 A 0727 RBM HI/INOF ALARM 070 095006 123 A 0843 TURB BRG HBR PRESS LO l 123 A 0867 TURB-GEN VIBRATION HI i l 070 095011 l 123 N 0727 RBM HI/INOP NORMAL I 070 095016 t 123 A 0727 RBM HI/INOP ALARM i

• 070 075021 l 122 N 0727 RBM HI/INOP NGRMAL l

070 095026 123 N 0867 TURB-GEN VIBRATION NORMAL 070 095045 123 A 0219 SCRAM DISCH HI WTR LVL TRIP-BYP 123 A 0220 SCRAM DISCH HI WTR LVL TRIP-BYP I

i l

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s 8

CONTROLLER NOTE: Use only if the simulator is not running.

a - - . , . -

LaSalle 1996 GSEP Exercise

' Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR-6 Time: 0945 (135)

Issue to: NSO Prerequisites: One minute thirty seconds after Start of ATWS Initiatina Action Response

1. Looks at Turbine and Generator 1. Turbine and Generator indicate tripped. All turbine valves indicate closed.

2. Looks at Bypass Valves 2. All indicate full open.

X X X X X o o o o o o o o o o

3. Looks at Bypass valves for the time 3. 0947-1004 spans shown. X X X X o o o o o X o o o o o 1005 1009

-s o X X X o

] o o o X o o o o o X 1010-1017 X X o o o o o X o o oo o X X 1018-1025 X o o o o ,

o X o o o o o X X X 1026-1145 o o o o o X o o o o o X X X X CONTROLLER NOTE: Use only if the simulator is not running.

+

ksas96exw.msom7

I LaSalle 1996 GSEP Exercise l

~ ' ',

Control Room Messages i i

This is an Exercise l l

CONTROL ROOM MESSAGE l CR-7 Time: 0950 (140)

Issue to: NSO Prerequisites: None I l

l l

l

! 1. Hand out the following to the NSO:

I a

! - 0950 Annunciator Sheet 0950 ESF Panel Sheet I

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

( ~

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LASALLE 1996 GSEP EXERCISE TIME 0950 (eao) A3 SBGT ECCS - 1H13-P601 2PMO7J 81PM07J A B C D RWCU & RECIRC - 1H13-P602 F E A B

=

. - I "

l REACTOR CONTROL- 1H13-P603 FEEDWATER CONDENSATE CONTROL 1PM03J A B A B "mE"EE"mEE EEEEEE""""""

m"m"E"m"E"a m=== ======= - - -

EE m===== m m.

TURBINECONTROL 1PMO2J ELECTRICALCONTROL 1PM01J A B A B

=

i CNMT MON 8 LEAK DET AUXUARY SYSTEMS OFF-GAS CONTROL A 1PM13J B A 1PM10J B A 1N62-P600 B

:::: ~

HVACCONTROL 1PM06J 345KVSWTCHYARD OPM12J B A _ _A_ _ B C

LaSalle 1996 GSEP Exercise 7 ESF PANEL Time: 0950 (140)

ENGINEERED SAFEGUARDS FEATURES IUL-AN001 4 5 6 7 8 9 12 13 14 15 16 17 18 19 20 21 22 23 24 j

i 25 26 27 28 29 30 31 32 33 34 37 38 40

...s, N

41 42 43 44 45 46 47 48 v'

l LaSalle 1996 GSEP Exercise

~'

Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR-8 Time: 0950 1145 (140 255)

Issue to: NSO l Prerequisrtes: Decision made to drive rods Individually l initiating Action Response

1. Selects an individual rod. 1. Rod selected light on Rod Display panel lights. e

2. Inserts rod manually. 2.a. Starts at position on Rod Pattem Sheet.

2.b Rod Display bumps in by two inches at a time with a - between the indications.

2.c After thirty seconds, rod position is l 00 and the FULL IN light for that rod is lit.

3. All rods are inserted. 3. Hand the NSO a new Rod Pattem

-. Sheet that indicates all rods in.

CONTROLLER NOTE: Use only if the simulator is not running.

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kNes96eter msg. docs 9

1.aSalle 1996 GSEP Exercise

^

ROD PATTERN Prerequisite: After all rods manually inserted Part of message CR- 6 59 00 00 00 00 00 00 00 55 00 00 00 00 00 00 00 00 00 51 00 00 00 00 00 00 00 00 00 00 00 4

47 00 00 00 00 00 00 00 00 00 00 00 00 00 43 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 39 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 35 @ @ @ @ @ @ @ @ @ @ @ @ @ @ @

1 31 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 J'

27 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 l 23 00 00 00 00 00 00 00 00 00 00 00 00 00 00 l

19 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 15 00 00 00 00 00 00 00 00 00 00 00 00 00 l l

11 00 00 00 00 00 00 00 00 00 00 00 07 00 00 00 00 00 00 00 00 00 03 00 00 00 00 00 00 00 02 06 10 14 18 22 26 30 34 38 42 46 50 54 58 i i

v

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

LaSalle 1996 GSEP Exercise

Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR-9 Tirne

1030 (180)

Issue to: NSO Prerequisites: None l

1. Hand out the following to the NSO:

a

- 1030 Equipment Status Sheet l

- 1030 Annunciator Sheet

- 1030 ESF Panel Sheet l

, v' khs96etct-msg. doc \l0

LaSalle 1996 GSEP Exercise i ^' EQUIPMENT STATUS

)

i l Time: 1030 (180) i -

) Recire Pumps l 1 A- R l1B-R l SRM Positions l A- OUT l B- OUT l CRD Pumps l 1 A- R l 1B- A l l C- OUT l D- OUT l RHR Pumps 1 A- P 1B- P MSIV Positions l A- O l A- O l l 1C- oos 1B21-F022/28 l B- O l B- O l j RHR SW Pumps l 1 A- A 1C- A l C- O l C- O l l l 18- A l 1D- A l D- O l D- O l Rx Feed Pumps l 1 A- T l 1B- T Safety / Relief l A- C l B- C l l

l . l Mtr Drvn- R Valve Positions l C- C l D- C l Circ Wtr Pumps 1 A- R 18- R 1B21-F013 l E- C l F- C l 1 C- A l G- C l H- C l

! CD/CB Pumps 1 A- R 1 B- A l J- C l K- C l

! l 10- A l 1D- A l l L- C l M- C l l Serv Wtr Pumps 1 A- R 1 B- R l N- C l P- C l l O- A l R- C l S- C l RWCU Pumps 1 A- R 1B- R U- C V- C m

j j 1C- A RBCCW Pum s 1 A- R 1B- A U1 SAT E l

TBCCW Pum s 1 A- R 1B- A U1 UAT E HPCS Pum P U1 Main Xfrmrs E- E W-E l P 6.9 KV Busses 151- E 152- E

LPCS Pum

! RCICPump oos 4 KV Busses 141X- E 141Y- E j SBLC Pumps 1A A 1B- A X- E 42Y- E Legend l R = Running 143- E i

I A = Available N = Not Available O D/G A T = Tripped P = Lockout /PTL 1 A D/G A l

E = Energized O = Open 1B D/G A D = De-Energized C = Closed i

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LASALLE 1996 GSEP EXERCISE ANNUNCIATORS TNE 1030 (ggy A- 9 SBOT ECCS - 1H13-P601 2PMO7J & 1PM07 A B C D -

RWCU & RECRC -1H13-P602 F E A B REACTOR CONTROL- 1H13-P603 FEEDWATER COtOENSATE CONTROL 1PM03J A B A B

....EE......

TUR8HECONTROL 1PMO2J ELECTRICALCONTROL 1PM01J A B B g

AUXI_iARY SYSTEMS I,A -

CNMT MON & LEAK DET OFF-GAS CONTROL

_A_ _1_PM13_J_ _B_ A 1PM10J B A 1N62-P600 B HVACCONTROL iPM06J 345KVSWTCHYARD OPM12J B A _ _A_ _ B C

N y

_m.__-__..__ .-______ ________ _ ___ __ _ _ _ _ _ _ _ _ _ -

4l

, l LaSalle 1996 GSEP Exercise ESF PANEL Time: 1030 (180) l 8 ENGINEERED SAFEGUARDS FEATURES l IUL AN001 l

4 5 6 7 8 j 1 9 12 TTTT 19 20 21 22 23 24 17 18

)

l l

1

' 32 25 26 27 28 29 30 31 37 38 40

- -, 33 34

)

.l 43 44 45 46 47 48 41 42 l

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LaSalle 1996 GSEP Exercise l

! ^ Control Room Messages l This is an Exercise l CONTROL ROOM MESSAGE CR 10 1 1

Time: 1100-1200 (210 270)

Issue to: NSO j Prerequisites: 1C11-F389 la repaired l l

Initiating Action Response

1. Checks position of 1C11-F389. 1. 1C11 F389 indicates open.

2. Two minutes pass. 2. The following annunciators clear:

a - 1H13-P603 B4-06 CH A1/B1 CRD DSCH VOL LVL Hi 1H13-P603 B4-08 CH A2/B2 CRD DSCH VOL LVL HI

3. Initiates manual SCRAM. 3.a. If SCRAM contactors fixed, hand NSO new Rod Pattem Sheet that indicates all rods in.

3.b if SCRAM contactors not fixed, all rods that were partially inserted

• ]. SCRAM. All rods that remain full out do not move.

CONTROLLER NOTE: Use only if the simulator is not running.

I k%1ts96exW-msg.00C\l1

l l LaSalle 1996 GSEP Exercise j m ROD PATTERN i

l Prerequisite: After 1C11-F389 and SCRAM contactor fixed and manual SCRAM l Part of message CR- 10 l l

1

)

59 00 00 00 00 00 00 00 i

55 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  !

51 00 00 00 00 ,

• 00 00 00 00 47 00 00 00 00 00 00 00 00 00 l M  %  %  %  %  %  %  %  %  %  %  %  %  %  %  % ,

1 39 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 l

1 l '

i 35 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00

^ 00 00 00 00 00 00 00 00 00 00 l 31 00 00 00 00 00

.h 00 00 00 00 00 27 00 00 00 00 00 00 00 00 00 00 23 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 19 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 l 15 00 00 00 00 00 00 00 00 00 00 00 00 00 1

11 00 00 00 00 00 00 00 00 00 00 00 07 00 00 00 00 00 00 00 00 00 03 OC 00 00 00 00 00 00 02 06 10 14 18 22 26 30 34 38 42 46 50 54 58 4 .

i i

LaSalle 1996 GSEP Exercise Control Room Messages This is an Exercise l CONTROL ROOM MESSAGE CR-11 Time: 1139 (249) L lasue to: NSO l Prerequisites: None initiating Action l Response

1. READ TO CONTROL ROOM. You feel the floor shaking slightly. There is a small amount of dust coming out of the overheads. Any loose material on the desk surfaces 4 is shaking or moving slightly. l The following annunciators alarm.

- 1PM10J B5-03 SEISMIC OBE/SSE LEVEL EXCEEDED

- 1PM10J B5-04 STRONG MOTION SEIS INST SYS INIT

2. Fifteen seconds after the earthquake aftershocks start, the following annunciators are alarming:

m - 1H13 P601 F3-03 DIV 1 RX LV LO AND/OR PRESS HI i

's - 1H13-P601 F4-01 DIV 1 MSL PIPE TNL DIF/AMB TEMP HI l

1. - 1H13-P603 A4-09 FW CNTRL RX VSSL LO LVL 4  !

- 1H13-P603 B2-02 C/D MSIV INBD/OTBD NOT FULL OPEN

- 1H13-P603 B2-03 CH A1 REACTOR AUTO SCRAM

- 1H13-P603 B3-03 CH B1 REACTOR AUTO SCRAM

- 1H13-P603 B5-05 CH A1/B1 RX VSSL WTR LVL LO l

- 1H13-P603 B5-09 CH A2/B2 RX VSSL WTR LVL LO

- 1PM10J B3-03 FIRE DET CONT PNL TROUBLE

3. Looks at Reactor Pressure and 3. Reactor level is decreasing rapidly. ,

Level. Reactor pressure is decreasing.

(Use recorders to show dropping j levels and pressures.) l

4. Checks Feedwater Panel. 4, 1 A FW HDR TEST CK VLV 1B21- l F032A indicates both open and l closed and the <85% OPEN light is  ;

lit.

5. Checks Panel 1FPO4JB. 5. The following alarms are lit in blue: i i

1. 404 SAT DELUGE PRESS SWITCH

- #225 FIRE DET PNL 1FPO4JA TRBL

6. Hand NSO the 1139 Alarm Typer information.

CONTROLLER NOTE: Use ITEM 1 even if the simulator is running. Use all other items only if the simulator is not running.

l m

kMN4fSQ.Ml2 l l

LaSalle 1996 GSEP Exercise

'- ALARM TYPER INFORMATION t

Time: 1139 (249) l l

07G 113915 l 123 A 00E6 DG-0 EXCITER DISCHARGE TRIP l 123 A 0124 DO-O NOT READY FR A-START ALARM 123 A 0767 fW CONT RX WTR LVL 4 LO l23 A 1061 FIRE DETECTION CONT PNL TROUBLE 1,23 A 1251 l

070 113920 123 A 0307 LD P-TNL MS LN SYS A TEMP HI I 3 2; A 0376 DIV 1 RX LVL LO/ PRESS HI ALARM 123 A 0482 DIV 1 RX BLDG VENT RAD HI-HI l

8 123 6 0827 TURE BLDO uni RSR ISO DMF CLCSED ,

123 A 0%66- CNDS BSTR SUCT HDR 2RESS LO l l

123 A. 305G UTA UENT STACK MON RAD HI

123 A 1085 LD P-TNL MS LN SYS B TEMP HI i 127 / 119d REACTOR BLDG VENT RAD HI 123 A 122v RX LEVEL 3 CONFIRMED . ALARM )

l 123 A 1235 DIV 2 RX LVL LO/ PRESS HI ALARM 1 l 123 A 1256 MSIUD INBD/0UTBD NOT FULL OPEN 123 A 1330 IIV 3 FUEL POOL RAD DNSCL ALARM

? ?, A 1%HO CHAR 1 A RX VESSEL LEVEL 3 LO  !

~

122 A :3Ee CHAN Al RX At'TD SCRAM ALARM

! 123 A 1401 CH A2/B2 RX YESFEL LEVEL LO l 123 A 1412 CHAN B-1 RX AUTO SCRAM ALARM I L .! A 143 1URS ELDG LOCAL PNL VENTS TROUBLE l l t23 4 148: TURB 1:LDG EYH FANS FLOW LGES 7

• 392t. l l 123 A n3!2 'd ! 1NED VLV D ACCUM PRESS LO l 12? A ??~i ES : t' ISOL SIG CH A1 TRIP TROUBLE  :

" . , - A C ' MSIU ISOL EIG CH A2 1RIr TROUBLE l l 123 A 045t RX BLDG SUF CANS AIR FLOW LOSS I i

i 1

, 04t! R :' MD EXH CANS AIR FLOW LOSS 1

.T : OW.0 CNI:S 1.F.TP NOT IN STANDBY ALARM l l

'. 2 3 A lIS3 h t ! ',' A ' NDD '0UTBD NOT FULL OFEh l 22 A 1254 MS:UE INBD/0UTPD NOT FULL OPEN

'A 1255 h5 IVC INBD.'OL'TFD NOT FULL

. OFEN f

23 4 :27" CHAR MSIt/ NOT FULL OF ALARM l

2 ~- A . J'n M'I o ISOL F.IO CH Ii iRIP TROUELr i 1 2 P J . '. ? l ' SSL Si2 CH B2 TRIP TROUFLE (

l

' :< ;, m A.- E t' t u NO FULL 0:EN A AFM l

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l LaSalle 1996 GSEP Exercise ALARM TYPER INFORMATION Time: 1139 (249) cont 00 113470 122 N 0362 MS INBD VLV D ACCUM PRESS NORMAL 322 A 0877 1A/1E/1C FW PHP SUCT PRESS LO 123 A 1225 AUX BLDG FLR 3RN SUMP LVL HI-HI 070 113935 123 N 0877 1A/1D/1C FW PMP SUCT PRESS NORMAL 123 N 08S6 CNDS BSTR SUCT HDR PRESS NORMAL

70 113T40 323 A 001A 4KU LUS 143 VOLTAGE LO 4 123 A 0036 HPCS PUMP BNR 2 CLOSED ALARM 123 A C886 CNDE BSTR SUCT HDR PRESS LG G70 113945 123 N'001.: 4NV BUS 143 VOLTACE NORMAL 123 A 0034 HPCS PUMP DISCH PRESSURE HI l

'23 A 0266 CNDS HGTWELL LEVEL LO G70 113755 123 A 0278 INJF.CT VLV DIFF PRESS LO 122 A C527 RHR INJ VLt> SYS1 DIF PRES LO

- %, i. :< 3 ci 0 4a 7 oC SYS MON PNL iPL76J TROUBLE

'/ 1: 3 A 0572 RX WTR LI)L 2 LO 1: - A 13 7 0 ;'H P INJ ULV SYS2 DIF PRES LO 122 A (;74. PC SYS h0N PNL IPL77J TROUBLE j I

l l

j wi CONTROLLER NOTE: Use only if the simulator is not running. ,

I

l l LaSalle 1996 GSEP Exercise l~ Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR-12 l Time: 1140 (250)

Issue to: NSO Prerequisites: Earthquake aftershocks have started 1

initiating Action l Response

1. Hand out the following information to the NSO:

4 - 1140 Annunciator Sheet

- 1140 Equipment Status

- 1140 Alarm Typer information

2. Checks Electrical Panels 2.a SAT Feed breakers to Busses 151, 152,141X and Y and 142X and Y have tripped.

2.b The following Bus Alive lights are lit:

- 142Y and associated 480 voit busses m 2.c The following Bus Alive lights are not lit:  ;

]' -

151 - 152 t 141X - 141Y 142X - 131 A/B j 132A/B - 133 l 133A/B - 134A/B 131XN - 135X/Y 137XN i 2.d SAT feed meters allindicate zero , !'

amps, volts, MW and frequency.

I 2.e O D/G failed to start with feed ACB (1413) to Bus 141Y open. l Parameters are as follows:

- 0 MW - O amps  !

- O volts - O hertz f

3. Checks TM Panels in back cf control 3. Hand NSO 1140 TM Panel Sheet.

panels. All alarming temperatures read at 250 degrees-F.

4. Checks status of HPCS. 4.a The HPCS pump is on but has no flow indicated.

4.b HPCS INJECTION VLV 122-F004 has no open or closed indication.

l 4.'c All other valves in the flow path  ;

indicate normally for a HPCS f actuation.

l  ;

l CONTROLLER NOTE: Use only if the simulator is not running.

f

, v ,

kNas96eter.msgel3

( d . - )

LASALLE 1996 GSEP EXERCISE ANNUNCIATORS THE 114 0 (25g A- _ 5 SBOT ECCS - 1H13-P601 2PMO7J 81PM07J A B C D RWCU 8 RECRC - 1H13-P602 F E A B

====::ii REACTOR CONTROL- 1H13-P603 FEEDWATER COtOENSATE CONTROL 1PM03J A B A B m!======"". 's "m" m"

' I:n Em!":

m == === mm

• m:

==== === m

=  !:=

TURBNE CONTROL 1PMO2J ELECTRICALCONTROL 1PM01J A B A B

.. 5 .2  :.  ::"" Em m:Em": E mi::i::::

l lii::ii:"!::i":

CNMT MON 8 LEAK DET AUXUARY SYSTEMS OFF-GAS CONTROL A 1PM13J B A 1PM10J B A 1N62-P600 B

":. "Eme:: . :==="

m== B

==.

= .."== m!"m.

HVACCONTROL 1PMD6J 345KVSWTCHYARD OPM12J B A A ___@ C --

. e,,,gg __ __mm__

== m use  :

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..w, n- --u .__s-.-....- u-~ ---.-a, ..w - - - - - - - - - - - - - - - - - --

i LaSalle 1996 GSEP Exercise f'

EQUIPMENT STATUS

}

Time: 1140 (250) i 1 1 Recire Pumps 1 A- T l 18- T l SRM Positions l A- IN l B- IN l l CRD Pumps 1 A- T l1B-A l l C- IN lD-IN l l l

l RHR Pumps 1 A- N 1B- A MSIV Positions l A- C l A- C l j 1C- oos 1821-F022/28 l B- C l B- C l j RHR SW Pumps 1 A- N 1 C- N l C- C l C- C l l 18- N l 1D- N l l D- C l D- C l j Rx Feed Pumps 1 A- N l 1B- N l Safety / Relief l A- C l B- C l j 2 Mtr Drvn- T l Valve Positions l C- C l D- C l l Circ Wtr Pumps 1 A- 1821-F013 l E- C l F- C l l 1C- N l G- C l H- C l I CD/CB Pumps 1 A- T 1 B- T l J- C l K- C l 1C- T l 1D- T l lL-C l M- C l l Serv Wtr Pumps 1A 1B l N- C l P- C l t 0- N l R- C l S- C l

.- RWCU Pumps 1 A- T U- C V- C

.].. _ 1 C- N

RBCCW_Pump u _s__1 A- T B- SAT -

i j h 1A 1 B- N UAT hR U1 Main Xfrmrs E- D W-

]

i hN 6.9 KV Busses 151- D 152-l RCICPump oos 4 KV Busses 141X- 141Y- D i

SBLC Pumps 1 A- N 1B- N 2X- D 142Y- E Legend R = Running 143- E l

j A = Available N = Not Available 0 D/G T T = Tripped P = Lockout /PTL 1 A D/G R l

1 E = Energized O = Open 1B D/G R D = De-Energized C = Closed l

I 1

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LaSalle 1996 GSEP Exercise ,

.m ALARM TYPER INFORMATION .

l l

Time: 1140 (250) 070 1 00 l I

123 A 004 DG-1B ENGINE RUNNING ALARM l

223 A 0023 RX WTR LVL AT LVL 2 LO 123 A 0024 RX WTR LVL AT LVL 2 LG 123 A 0028 HPCS SYSTEM ACTUATED ALARM I 323 A 05V4 DIV 1 RR TRIP-ATHS INIT ALARM 123 A 0-'30 DIV 1 ARI LOGIC INIT ALARM 123 A 0911 HPCU A ISOLATION VALVES CLOSED 123 A 0912 HPCU F ISOLATION VALVES CLOSED J22 A 0999 DIV 2 RR TRIP-ATHS INIT ALARM 123 A 1165 PC cat

• PNL IPL75) TROUBLE ,

113 A t030 RX UTR LVL 2 LO i

123 A 12d9 DIV 2 API LOGIC INIT ALARM 070 1 14 O.Y.

123 A 0264 2NDS EMERG MAKE UP VALVE OPEN Fo 114010 223 A 0736 PRI CNMT WTR CHLR P-1A A-TRIP 070 114015 123 A 0506 1A RR PNP SEAL CLG WTR FLW LO 123 A 0622 PRI CNMT WTR CHLR IC TROUBLE I 322 A 0627 OLNUP RECIRC PUMP 1A A-TRIF

-}

123 A 0630 CLNUF RECIRC PUMP 1B 123 A 0632 CLNU:' RECIRC PUMPS FLOW A-TRIP

'O 102 A 0972 1B ER P9 SEAL CLG WTR FLW LO 123 A 1006 C L NtJ P FILTER DEMINERALIZR TROUELE 070 114020 1

.23 A 05c3 LR P-1A MTR CLG WTR FLOW LO 23 4 OC?E RR P .".F MTP CLG UTP FLOW LC

70 134025

'123 A 14 05 i UR 6 1.L:iG DIFF P'RESS HI -

- 'r 14045 112 A C 01 '. M 'i EUE 143 MN FD BKR  :-TRIP 223 A ^001 CONT RCD DRIVE FD PUMP 1A A-TRIF

' TJ A 00'1 4U% i ,'R DEMAND METEC. PWR LOSS

.,; ~  %. .. s 12I A _ 0 '/ i, i; 3 A . > r,2 ;

223 0030 DU HUM tlCN EAM*LE PUMP A-TRIF i 1:- A 00?6 : CV DATT CFG:. OUT VLTG LO/FLR l 2

122 A 0002 250', BATT CHGR AC VLTG FAILURE 123 A 01D2 IN2T N2 COMP'. 1A OL TRIP i

'22 A 0104 175 B ATT 1A CHG OUT VLTG 0/FLR 12A :: 0* 125V 1-ATT 1A CHGR AC VLTG FAILU:.E 1 : ;. A 0120 I' I '! ! FX ' R L V L : LG LO LD NCPMAL I J13 * *1'~ 2'U C H G :. 1DC2bf OUT VLTG :0/FL: l

e. - s. i. .. v H u. ... .. .e. ,. e e.. c- ,. , , . .

-r. . t .: F .N,,

ue

r. ::

.-  ; ; . C H r,:p :: c3 ?E CUT f. T 3

_ .C7 L ;.

j Q ..

. -. .- ..=

3. . - 1 , ,. .-- ,

. - . I m,2...n:

- . . , , m. - .. . .. :

CONTROLLER NOTE: Use only if the simulator is not running.

.4a a -. a. s._m , ._at.,4 4 4 2+J .a,4- 4 a +i . .+ e 4 m m .,_.,,._.-

LaSalle 1996 GSEP Exercise

^. ALARM TYPER INFORMATION Time: 1140 (250) cont c90 IIt404 5 fran-+\

123 A 0121 DG-0 AIR COMP B6 BTeEAKER A-TFIP 123 A 012? DG-0 ENG OIL CIRC PUMP A-TRIF 123 A 010E' 480V FUS 135X VOLTAGE LO

'23 A C129 450V BUS 135Y VOLTAGE LO 123 A 0136 SER 120VAC PWR SOURCE FAILURE i 123 A 0139 VIS ANN 120VAC PWR SOURCE FAILURE I 122 A 0143 S(5 AU'x T-140 UDG-Y VLTG LO  !

123 A 0154 LAB HVAC PNL OPL14JB TROUBLE l 12;. A 0155 SYS AUX T142 SYS2 LCCKOUT TRIP 123 A 0164 UNIT AUX T-141 TROUBLE

'. ' ' i A 0155 3(!; AUX T142 SYS1 LOCKOUT TRIP 123 A C168 SYS AllX T-142 DIFF TRIP

• 4 I:'34 0173 EYS AX T-142 SUD PRESS TRIF

'.23 A 7174 SYS AUX ?-142 TROUBLE  !

123 A 0175 SYS tiUX T-142 WDG-X VLTG LO  !

123 A 019 6. 7NV blJS 151 VOLTAGE LO 121 A 0180 d.9N/ DUS 152 UOLTAGE LO 123 4 0184 6.?MV FUS 152 AOB-1522 A-TFIP 123 A 0109 4rV EUS 141Y ACB 1412 A-TRIP 123 A 0191 41V BUS 141X VOLTAGE LO 122 A 919: 3 M ') BU5 141Y VOLTAGE LO 123 tJ 0196 700 FET CL? TSV A TRIP RI NORMAL

1. 2. A G200 #FOU FUE 131A VCLTAGE LO l 123 A OTO' 4BOU BCE 131B VOLTAGE LO 12J A 0202 400V B05 133A VOLTAGE LO 123 A C203 4E0V BUS 133B VOLTAGE LO I ' ', A 0206 4SOV 1.U L 132A VOLTAGE . 0 l 22 A (20' 300e BU2 130B VOLTAGE LO l2' A ??Of 4 H ': 'r U S 174A VOLTAGE LO

.' ! :* A 0:20 490'? i- U S 134? UOLTAGE LG L2 A C22' 4E0V IGS 131X VOLTAGE LO l

.:) .:. 0: : ;. 4 te ' B U ', ;3: Y VOLTAGE LO

!  ; 0 .- ; 6: 4 4?W ,

J E 137's VOLTAGE . .G l

i- ::1!. -50" Fli? 23

• VOLTAGE LO  !

. :;;e '

-i A_ Di MEIV NOT FULL 0: NORMAL

.: .. -' o 02?* 2; RAM LISCH HI WTR LVL U RMAL

. t' DI20 F.CMAn LISCF HI 1.'TR LVL .

NORMAL

'3 l. Or;. CF A2 'F2 MEIV NOT FULL Oc NORMAL

. h C .' TCU FET CL' 1EV i TRIF RI NORMAL

. r" A ::221 3.;07 RM HUA; :NL :FL30J T R O U E ' E'

;. [22: S M G e- R" HUAC NL 1FL31J TROULLE l

12'e 4. O'e7 . p 0 R TP. hVAC F t 1 F L E E .' TROUPLE '

r

,,.a.

.s t - ,.....,d..-

u c. . G .2f.2

.u. n.

- ; - ...- F. .>

z . ... u . s . e. u v . t. , 1, . -.

." 3 A s;- Ur L . ' 'm 'i rJDRM EUP VLTG _ 0

.. - .. . .. e. .. . i . - .: :. F. ~: - l . .

...,s..-

r: 2 _ .

Co4 JO3 E M L : 3 tW E _ T' VALVE NOT 0:EN

, .: : . :. 7 I. . ' i: :; A-TEIP

v - - - .

_

_ e. - : pys- ;p  :.  : I:

.:- .. , Rt . .e; sv_.m: t CONTROLLER NOTE: Use only if the simulator is not running.

t 1

l

LaSelle 1996 GSEP Exercise m ALARM TYPER INFORMATION Time: 1140 (250) cont 070 INo45' (cet) 1M A G302 tiEATER DRAIN TANK LEVEL LO 123 A 0300 DG-C HUAC PNL 0:L17 TROUBLE 123 A 000G LD LOGIC A PWR FLR/ TEST ALARM 127 A 0340 MN T-lu TROUBLE 1.3 A 0342 MN T-1E TROUBLE 123 A 0351 HTR DRN TNK DIS VLV A CLOSED l 3 A 0382 HTR DRN TNK DIS VLV E CLOSED 123 A 0303 HTR DRN TNK DIS VLV C CLOSED l'.!3 A 0401 ISO PHASE BUE FAN 1A TRIP 123 A 0402 ISO PH BUS FAN 1A AIR FLG LG

".23 A 0403 ISO PHASE EUS FAN 1B A-TRIP 123 a 0410 SP WTR TEMP TECH SPEC LIM HI i

123 2. 04.1I SP WTR TMP RY SHUTDOWN HI-HI 123 A ?413 GFF GAS BLDG SUP FAN OA A-TRIF

.23 A G4'4 0Fr gab ELDG EXH FAN OA A ~RIF 123 A 04 M 'J F F GAS DLDG PNL OPL21JA TROUBLE

.t ' 3 fl O / 2: tDR DhN TN 1A SPILL VALVE CLOSED 123 N 042D iST SRD TNK 1A SPILL VLV CLOSED 12,3 ra 0412 2ND SRD TNN 1A SPILL VLV CLOSEb ,

. ./ 3 N 043d, MSR DRN TN 1B SPILL VALVE CLOSED '

' ' ' ' N 042.2 IST SPD TNN 1B SPILL.VLV CLOSED l

^ :23 N 0446 2ND SRD TNK 1B SPILL VLV CLOSED I 2 .S 044D TTA HLU RECOVERY ?YS TROUBLE III A C44I S .E ELDG AIFLOCK J10 J

'V

. '; ' A 047E MSIV INI:D LOGIC PWR FLR

'23 A 04SO DIO 1 HN STM LN RAD DNSCL ALARM

.1 2 ' n /.491 :IV MN STEAM LINE RAD NORMJ.L

07 ti 0452 D'V RX DLDG VENT RAD NORMAL

A S1: A:*CE 2Nh* MON PNL 15L15J 'ROUELE

• f D529 FUFL rCDL LEVEL LO l'- ..

.'. 5 3 3  : ' '. :t 1r E : '5UFGE TANK LVL uG

4. M- ; 30t ;m :I,3T VLV HDR cRE39 HI

. 4. c M -- : ( (ECiRC LDOF A VALVE TROUBLE

.I.  : 05; .B RE L Eri t. rFO' RE.AY TRIF

. 'q" sr. l-1A

-TRIF / 0 SPEED NORMAL

.- :. '=n re c t : HYL PUF START-UF INHIEIT

• ^; -; V: ' 3U CGNT A c; A y GPEN NORMAL

>;3 A :dre .- M O T I 0 t; INHIEIT A

..- i; r ! A DRWL HI P F:EES INTLN ALARM 3 . .- : ren: . ,., e.- . , m. alr..I;q ppe ;.

. .. . . uv

^

.:. .0'  ;'H T: i% PUMPS A/E CUB F:.N A-TRIP

'? *

' . . . . ~ ;,t?. G S: R *: PNL CONT P'JR  ::.ILURE

. ,;. N :- C NUT : E ~. F C P U h F S F L O W. NORMAL

27 A '3I* r rt Dr: MIN INFL CNDTVTy HI-LO

A t . c. _ . O r I; T E;: INLET TEM HI-FI

I? '. f 1 y '. PC:C v CUEICLE CAN A-TRI:

':. '.J e r FT H:.AL :"P 1 F L i .; TROUELE

. uz. DD-O rn TR; 43rz: PU9F .-TRI:

,- - *r+ ,

s. - ....

'.. ,e ..;y . . - t,, ,-

... e. - 6:n: r. i., - A ..t.et.

: ;. p g-TF :..

)

CONTROLLER NOTE: Use only if the simulator is not running.

l

LaSaHe 1996 GSEP Exercise m

ALARM TYPER INFORMATION Time: 1140 (250) cont e70 114ev5(c..#)

127 A 06b8 APRM FLOW BIAS OFF NORMAL ALARM 123 A Oo71 PC VENT FAN IVP15SA-SF TROUBLE 123 A Cc75 345KV CB 1-13 TRIP 127 A OL7o 345MU CB 11-13 TRIP

2- A J'713 ARPM FLOW BIAS OFF NORMAL ALARM 123 A 0718 CHAN A APRM HI-HI/INOP ALARM 323 A 0 ". C CHAN l' APRM HI-HI/INOP ALARM 123 A 0721 LPRM HI 123 A 0723 APRM HI 123 A 0725 APRM FLOW BIAS OFF NORMAL ALARM 123 A 0733 1HTO1E PWR FAIL DIV 1 ALARM 123 A 074~. SGUIP VLV CONTINUITY LOSS ALARM

, 7.23 A C745 FL: ALVE CONTROL EIGNAL AILURE 123 A 0747 0F,I CNMT PURGE SYSTEM TROUBLE 173 A 074? PRIMARY CNMT PURGE FAN A-TRIP

'23 A 0753 CRD PUMP CUF VENT FAN 1A A-TRIP 123 A (954 R )' FLDG AIRLOCK A14 UV 123 A 0755 RX BLD0 AIRLOCK G? UV I?3 4 0759 STANDBY LIGUID PUMP A A-TRIP 103 A C761 RPS M-G 1A FREQUENCY LO

'3 A 0'67 091 CNMT VENT SUP FAN 1A A-TRIP 123 A 0772 EHC HYD FLL FLT PUMP A-TRIP y 12 ?,

A 07"3 ' URii IRIP 24VDC LOSS 12 3 t; 07?1 1CRP TRIF EHC MASTER NORMAL 3 N O MI TURD TRIP CVEREPEED NORMAL

'._3 N 07?5 TURB TRIP NON-EHC NORMAL l  ? A OM7 EHC POSITIVE 30V LOES

'7~

A C'OS EHC NECATIVE 22V LOSS

.3 n CN LHC ELECT MALFUNCTION ALARM l23 r; Ws3 TURFINE PhG MALFUCTION NORMAL 1,

A M:: %N ET AT')R COOL ANT PUMP A A-TRIP

.l'34 0333 C-EN ETATOR COOLING PNL TROUPLE

OCI2 HYIROGEs F ANEL TPOUPLE

27 A '42 ' U P I' T :.'ic N I N G G E A R A-TRIP

'i A . ,-0 2 :

Ur3 NCT CUCT DUMP A-TRIF

' A C347 T Ure p F F G HIJ. PRESS LO 1

C C b "' TURD 01L RES VAP EXT M01 A-TRIF 4

- A 'D50 TURI' TG OIL PUM: A-TRIF

, e '4.55 '3 E ti K MN TEAL CIL PUMP A-TEI?

I? A :05: GEF h EECRC SEAL OIL PUMP A-TRIP

- 7 4 '1: GEN F' SEAL 3IL VAC PUMP A-TRIP l  !LI A IP5: GEN F E tG F SEAL DIL PUMP RUNNING l  : e-C000 10 N 1- 85G LP 1 ATRIF / TEMP ALARM 3: A Oc1 ' U F P I T:'. LP DISCH PREES' LO55 I' A 0 6. ~ U R E. SR. ~ IUCTION FRESS LG53

! . ~. 5 *Ei VOL? AGE SUPERVIEORY TRIP

• 7; A CE ': I'r i b:N E T E A .*. LINE FLOP HI

.- . ' 0 " t. , 'u 1 v ;- CON: uACUUM LO ls/ '. : D A < O CNDO i, I:JCSTER PUMP 1A A-TRIP 1 .

. 2 ,:. 1 :. .%" r_ . 4 , P. : R e e...:.,

N . a. .m. e. '_

; . ' - r"n ; '- 7 ($ : I- LUE F F:E E LC CONTROLLER NOTE: Use only if the simulator is not running.

l l

• LaSalle 1996 GSEP Exercise ALARM TYPER INFORMATION Time: 1140 (250) cont c~10 8 840tl5' (c'ont )

11.2 A 0800 CNDS BSTR FMP 10 LUB F'REE LO

27 A OG93 TURB BRG LF 2 ATRIF/ TEMP ALARM I

1:'3 A aHe4 TURD BRG LP 3 ATRIP / TEMP ALARM 123 A 02?S TURb BRG LP 4 ATRIP /TEMF ALARM 123 A 0096 TURB BRG LP 5 ATRIP / TEMP ALARM

23 A 0007 ' URB PRG LP 6 ATRIP / TEMP ALARM J'3 A OG96 TURD BRG LP 7 ATRIP / TEMP

. ALARM 323 A 08?? TURB BRG LP 8 ATRIP / TEMP ALARM 17.3 N 0900 CNDS BSTR NOT IN STANDBY NORMAL l 123 A 0703 APRM CH C THERMAL TRIP

! l'C A 0704 APRM CH E THERMAL TRIP 1:3A 0705 SUP 000'. WATER LVL LO i (23 A OM1 CfCLED CNDS TRANS PUMP 1A A-TRIP l I 1::3 A OC ':YCLED ONDE Tf;ANE PUMP 1B A-TRIF i

. 27 4 0;27 TNDS TRAN PHP DI5 HDR PRS LO  !

103 A 09' 2 4KV BS 142X-Y TIE BK 14::5 A-TRIP  !

133 A CF34 4KV DUS 142Y ACB 1422 A-TRIF

)

I': 3 A* 0925 CND5 TRANSFER JOCKEY PUMP A-TRIP 1:" -

01'32 4NV BUS 142X VOLTAGE LO 123 A Sc41 430'! BUS 132X VOLTAGE LO i'3 A 0742 4 b0 *J I!U S 132Y VOLTAGE LO ,

I.O, J. A OG3 ASW BUS 135 VOLTAGE LO I d .

. !. A C944 E' UTP IMP TECH EFEC LIM HI l

0:: .:. 09 e EF LITR TMP RX SHUTDOWN HI-HI

'i 23 A 046 ICS 142Y BNR FD T134X-Y A-TRIF

.' s. f. 7 4 5 APRM CH B THERMAL TRIP

', :i "O A F* CH 3 THERMAL TRIP

_c . A 050 APRM CH F THERMAL TRIF

.: 4 0'45 v' A ? 'i E TPTMT PLT FL FKR A-TRIF

.L . 096o 2006 EWOR 13dt MAN CP EMR A-TRIF .

l - .

C'47 rCV B HYD PWR START-UF INHIBIT

'a2 A e.- r L O'.! CONT F MA) OPEN NORMAL

.' 2 C'70 FY3 E D R L'L HI PREES INTLN ALARM 22 A ^C0c 2 45 CH3R 1DC3SE AC '/LTG FAILURE l A M/T; : 4'1 CHGR 1D:2SE GUT VLTG LO/FLR 1 ;;. A

'?B. 24' CHCR iLC37E A VLTG FAILURE 1 A iO4 24U CHCR 1DC27'E OUT VLTG _0/FLR

. A ::% :25V :: A T T 1? CHG OUT VL'O LC.'rLR

. . . A 'i' . a t ;2's FC'* II CHGR AC VLTG FAILURE

. 2 _' A MC :?-1A Er.3 CIL CIRC FUMF A-TRIP

. (5

./E-1A CLG WTE PUMP ltR A-TRIF

.. ti

. ., .. . . e. . , p. .-, ;. .

.. .t c.

. . ...R.

.6 Age.

.. c. H c.

h. .

.. . p,1.:.

.I t : '14 ~~Etl. -

r I r. ; - sgp og .

T F.0 0 E L E

.. .: '1 ' t I ? t E .. : ice : ,: ~. r OA RUNNING I ..  ; . . :. .. . r -: ; .:. ' '.: F I. T U R N - G E. A F A-TRIF i

a ' F; 5

TUFI : U rs N -G E A :- A-Trip

-. . ,. + . ,

v

4. r

.. e:

.: ..,g.,

r r. : . Le.e s.

, .: - -r  : :: - .1  : p T --U: ,<p 35.

. .  : F.

. . e . n.

- * . u J c t:- 1^.;.cr ron RAD ALARM l

l CONTROLLER NOTE: Use only if the simulator is not running.

l i

I i

P LaSalle 1996 GSEP Exercise

} ALARM TYPER INFORMATION Time: 1140 (250) cont 070 Il@i/S CGnf)

J3e 1057 STA W rJ T E1ACh MON INST FAILURE ILJ A d62 FIRE PRC1 JOCKEY PUMP A A-TKIP 123 A 106 TRANS1? ENS SYS PS1 PWR FAILURE 123 A 10.,7 TRANSC. ENS SYS PS2 PWR FAILURF 123 A 1068 MISC AUTO CONTROL SYS PWR FAILURE 23 A iM'S DG-14 AIR COMP F6A BNR A-TRIP i3 A 1076 DG-1A AIR COMP E6 BREAKER A-TRIP 123 A 1091 STANDPY LIQUID PUMP B A-TRIP 123 A 1002 480V BUS 134X UOLTAGE LO 123 A 10'i? 480V BUS 134Y VOLTAGE LO l 1 2 -' A 10ie A80V BU5 136X VOLTAGE LO 4 123 A 1097 iBOY UUS 136Y VOLTAGE LO l . ' ' ! /, ' l ' '. SGTE PRIMARY CAN A-TRIP '

" 2 *d

. A '.01 T.GiB COOLING FAN A-TRIP

'22 A 1102 SOTS ELECTRIC HEATER PWR AILURE 123 3. 1107 OG FOSI-TREAT SAMPLE FLOW HI-LO

' 2 ;! A 11CE R;U P MOTION INHILIT  !

I in A 1;35 FREEZ PROT PNL OHT01J PWR FAILURE 1:3 A 1127 CAUSTIC HT PNL OHT02J PWR FAILURE l

2 7. A 1139 RADWETE KT PNL OHT03J PUR FAILURE l c3 4 ~. 4 1 ~ URF BLDG PROC S AMP;.E PUR LOSS  !

t '.i2 A '.)'3 RX El.D3 PROC SAMPLE POWER LOSS 123 A 1149 1HTC2E puR FAIL LIV 2 ALARM 23 A 1]Li D C4 - 1 A TC TRANSFER PUMP A-TRIP 12 '; A 11P PF M3 EET P PRCT RELAY TRIP l

' .; ' N 1 1 d ^. R:' P 'D A-TRIP /LO S*EED NORMAL l

~ A : : J i' Y RE.L I RC L ~iOP E VALVE TROUBLE l

.. L' .0GIC E T'W R F L R./ T E S T ALARM l

?. A ; ; 7 r. p u H J a. MCN 'NL I P L 7 9 .' TROUELE j

' r.

4. .' wurAU CNDE PUMP 1A A-TRIP

..- c. ..:-

.. ~ e p. 4 c.p p .e vt e. t s p t., t e.

. c : r e. e.

. .- LO.

,. ..m: :-. M-..m, r

. . .s ,. , . ~ . , . .r :. i 1.,  : -.C..-v. H2 .-v

- : ::--  : : :E ttItT RAD ItJECL

. ALARM

* '

E ele ry,g gyy is p i, 3;.: E R A A-TR*P CN T't.3 EXH "A FLOWER E A-IRIP

'.. t. ...

. :. . A- p. e, .*l . .. .:

.. -e. u. A 1< -c t n. : t e p. m

-t _ . . t. r.

"2? A. '231 Tih PI E EW II: IiLOWER E A-IRI

'a . 7

, *, ,**, , . . ';'.f ' ".'. -a (1' f" ?. { ;, A. .

1.q ". 7. I 9aW '- 1' *1

, i t,. .. n. s. ri.

,r sc.^ > iU, .

t e :, D. E ViHING CCOLANT FLOW LO-LO

~ * * *** * *

• ^2C i .. t*L* .;  ;. .

.r. * , 4. *

. C. f,- .' U . . p y; - 7

. .W t r lA8 *w f., lL

. . r ' ~v.'- , ., ~ : .. . r... ,.;c-"...

., .'.t.-

. r , ' e' . r,.*-

rz.

. ,, , .g . . . . . . . . . ,

, n r. ri

.. r . . .. v. . i i r. - .. 9

r. . e v cut ,

. . . . . - . . . 3,,

.....e.i:-t

. .__ < s. f c . . . :: .nc h. e. :. , .c

. i 1

,,-.c.. . ..  : a n. i y : e p. e.

v-e ; :: ... =

. i -' .: 0 : <r F N A:: F Art C. A-TF:P

~ , .

.,a - ...

.\.

n n, , :. - ...- -.t.

rm v e-...r. a .

v ..-. .

v : r u r; =_

...- . . ~ . . ..

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.: .:. p :.:;... p , i: :; .r.: .

.- ., . ... .. t ... ..y: .

g., . .

. .. :.:e. L C-l CONTROLLER NOTE: Use only if the simulator is not running. ,

LaSalle 1996 GSEP Exercise S

ALARM TYPER INFORMATION Time: 1140 (250) cont 030 f t404S (co&

123 s.

1312 NAl:EUP DE riI N CONTROL FNL TROUBLE 4J b. . .'....

1 b L' a ,e 1 F U. T.;. ,6 F. n ,uum ts n ti DN . .:wt Nu.:.,Mn.l.

123 4 1362 MSIU OUTBD LOGIC PWR FLR 123 A 1366 CJNTRCL ROOM REFRIC UNIT TROULLE 123 A 1369 C0r.TPOL ROOM HVAC SYS PWR FAILURE 123 A 1372 RP9 M-G *0 FREQUENCY .

LO i

103 A 1378 CHAN A FRI CONT PRESSUR HI l' 3 e 1377 CHAN A RX VESSEL PRESS HI 123 A 13S1 CHAN A hN STEAM LINE RAD HI

'23 A 1585 CH A1/E1 NEUTRON MONITOR TRIF

'22 A 1385 CONT PM MON PNL 14J INST FAILURE I

, 3 '! 3 A 1 3 % ",0 N T RM MGN 14J INST CAILU~.E 123 A 33?4 RBL R STM OUTLT PL14J INST Fe,ILURE 223 4 13?5 CHAN D PRI CONT PRESSURE HI 123 A 140C CHAN B RX VESSELL PRESSURE HI

I3 A

4 0 '. CF A2/F2 *iN STEAri LINE RA HI 1.'34 2405 CH A2/32 NEU F;ON MONITOR TRIP 122 A 1410 STATION AIR COPPRESSOR 1 A-TRIP 123 4 1424 4hy B t.' S 142Y VOLTAGE LO 123 A 1429 u.r ann .UVAC PWR SOURCE FAILURE l'.31 1274 RFF 3e PUMPS C/D CUB FAN A-TRIP

. .. i A ,' 'N E- C A-TRIF

• . A :. 4 M INST N2 COMPR 1B OL TRIP

'. w :::E H A T E F *NLET TEMF LO E : 1: 14 c'O WTF HLR CONT PNL B TROUBLE

- : 4 ~.' ^ OG CLYCOL PUMP 1A A-TRIF

.a: ' :2 2 73 GLY ^0L UMF 1E A-TRIP

".7 , ., t. : E 0 ; .':P v .:. t P.tMP COMP F UMo A-TRIF

.3 34I! T i. . ~- bLD3 LIF FRESS NOFMAL 1er o ?C DU' N CUE VENT FAN 1A . A-TRIP L,:. r' . r.

c , .,< ' ..r,'

.. . ., U, r.,

. p c. h s- -N em a h m , r. -- -ar

,40

G_ Y LG' T ANb AGITATCO A-TRIF

.,; .- : .gi? . . . . . - . . - - . . .

e :. r. . p : h e; . ,. . ..s fv fi A L cl ., l*.C. P' . . ..

, D

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to.,,r t' o p o. r- p i e r., ri .E '

t.. ..* ..p. ::

. .* * .$ g. . -' 8 .: .f p .

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DLL'J r* a R, , ,s UL,., b. .I 4l v, . O '/

'y

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. g- - . .

w . g.. ,-.. .m:

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tr.a: -e

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uw

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rh M

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r 7  ! ; ,,

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8,".'

"' '. * . ? .g. ; . .S T, ".4 s ** .> . t.l .>', 0 '

. . r**  ;. . ? ."...* ::

. A .'

~ ~ ~ *

e.

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L..  : : L'i;; I ~. 7. ". : .. .

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s.  : ... : - -

.o ,. ; p T ;;. w ,; . ; r ..:. e . ; F. ..- -

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s. . , . ,:

CONTROLLER NOTE: Use only if the simulator is not running.

LaSalle 1996 GSEP Exercise G. ALARM TYPER INFORMATION Time: 1140 (250) cont

' ,' /. 124050 k...-..-..r i t. vare r. n. r.- :.. o-4 . .,:. .!

O. .v. .o ns nitn

h. 0 n M n. .a J0 as V.>., Ai '; 6, A h is oI. f. . 0 h, .u .> s A s. .UUM L-u

~ ?3 A 0044 TURB BRG OIL PRc..: t. u 1 "' 3 A : E45 TUf:b SKAFT FUMP SUC FREES LO 120 A 0S46 E riE R BERG OIL PUMP RUNNING

'22 A 0877 1A/IP/1C FW PMP SUCT PRESS LO

23 A cud: CNDS 5STFi SUCT HLR PRESS LO 1~3 A 0887 CNDS F S DISCH HDR PRESS LG 3 ;'3 A 1041 FU PMP ". A TURB BRG OIL PR LO 123 A 1046 FW PMP 1B TURB BF:G OIL PR LO l '. .' A 13'.;8 F W P M :' SEAL ~NJ PMP B PRE LO ,

127 ! 133': FW PtP SE AL I N ,.' PMF A PR5 LO 312 A 15 C N i' S 's TO FEEDVATER PUMPS LO

', 7 0 2.140:,5 122 N 013; V;.5 ANN 120VAC PWR SOURCE NORMAL 123 N 0242 SWGF RM HVAC FNL iPL31J NORMAL 1.i 2 f4 054 SCRAh T'ILOT VLV HDR PRESS NORMAL 123 4 0844 TURB FRG OIL PRESS NORMAL 123 t1 086E ~E: VOLTAGE SUPERVISORY RESET 322 A OGGS CNT3 ?TP FhP 1A LUB PRES LO

-.  :: e t;;;:1 '. rc :. . r. Tp :*F 1D LJ.: : 0.: 5 .. 'O

.)  :

.s.r.. ., m..: . . : t .:. .: i t. :.. ;. ; ; .r -n .r. y .i.

.. tv O F. M s' '-

s' j N 0 /E .n.L BJS 142Y VOL1 AGE NORMAL M rs 0944 : :' i: T F. TMP ECH SPEC LIM NORMAL

' ? N  :/" 5: .i T F: 7Mr PX SHUTDOWN NORMAL

.7 c. c.' v, 2.:V CHG: iDC39E AC VLTG NORMAL

.. 5 :' T3 .l 7'iGP 100'EE OUT VLTG NORMAL J '. 'l

("FI NV CH6P JLC37E AC ULTG NOFMAL

, < .. .: ., . .,.. ,. r.. G n. .... ....

. ,:. , c_. - . . .

vu, . . .

eLi c,: S. tn n.s. . .-

f. N r.w 5 '; =. i t I ,: TT lb CHG OUT L' L ~ G NORMAL -

>a- c. .- , -ii ir u n G R. rC..,.a

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J.* f* U .J A L f'. .n. N. .' r\ .MML 3  : ( a r- rW rf F ~UFB BR3 Olu PR f.ORMAL i r. > $ ".. 's i t., .:.1 F C0dP 56A FN RESET

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.'- il 1.,1 : 4EM bOF }c% UOLTAGE NORMAL 1 ,. > cV LUI 1 d *f '.' O L T A G E NORMAL

~! t.  ; ' 3G ? f::JhAR) iAN RESET

' - , - e ; t.  :;GL*NC FAN *

.r r. r i I ..'~ 9ET? C' E C T R I C H E A T E R P'.1

NORMAL l

' .F '. H i 02 : : i.' R FAIL h ! ',' ; .

NORMAL I f- .,.s .

'5. , ,, . - . . . e c g-JM W .ih

. . A It c C. P r w. IP ,.'.g..

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r..... r.

..; . b. .

n.... .c. u k. r t... . nu CONTROLLER NOTE: Use only if the simulator is not running.

4 LaSelle 1996 GSEP Exercise .

Q ALARM TYPER INFORMATION l Time: 1140 (250) cont 1

010 IN05G (con $

123 N 12Pt CONTROL NM SUPPLY FAN DA RESET l 123 H 1272 CONT RM R T t4 AIR FAtt GA RESET ,

12; N 1000 ;R EMER hAKEUP FAN OA RESET 1 17 3 N 1302 DG-1A HV AC F NL 1FL25 NORMAL l l

1 2*; N 1303 EG-1A HVAC PNL 1PL25 PWR NORMAL 123 (; 1362 M?IV GUTBD LOGIC PWR NORMAL l NORMAL 113 4 1366 CONTROL ROOM REFRIG UNIT NORMAL 123 N 1269 CONTi:0L ROOM HVAC Sis PWR 123 N 1239 CONT RM MON F ML 14J INST NORMAL 123 t1 1390 CONT PM MON 14) INET NORMAL l 123 N 1394 RK P STM OUTLT FL14J INST NORMAL i a 123 N 1434 F.HR SW PUMP 5 C/D CUB FAN RESET l REEET  !

323 i4 1435 RHR PJMP L- C REEET 1 ~J 3 A :497 IM HU" MON EAMFLE FUMP

.H 15:3 ?? ELDG AI F:L OC K J10 NORMAL l

1 I

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l 1

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1 1

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CONTROLLER NOTE: Use only if the simulator is not running.

l

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LaSalle 1996 GSEP Ex:rcise CONTROL ROOM MESSAGES TEMPERATURE MONITORING PANELS

- g Time: 1140 (250)

, DIVISION I LEAK DETECTION 1H13 - P632 1 Reac Wtr Cleanup Reac Wtr Cleanup Reac Wtr Cleanup Pump Rm i Pump Rm 2 Pump Rm 3 Tem rature Meter E31 N600A dT E31 N600C dT E31 N600E dT Reec Wtr Cleanup Reac Wtr Cleanup Reac Wtr Cleanup Pump Rm 1 Pump Rm 1 Pump Rm 1 E31 N601 A T E31-N601C T E31-N601E T Reec Wtr Cleanup Reac Wtr Cleanup RCIC Pipe RCIC

HX Rm 1 HX Rm 2 Bienk Rouerg Area Emdp Area E31-N600G dT E31-N606) dT E31 N613A dT E31-N603A dT Reac Wir Cleanup Reac Wtr Cleanup RCIC Pipe RCIC HX Rm 1 HX Rm 2 Bienk Routng Area Equip Area

• E31-N60aj T E31 N612A T E31 N602A T E31 N601G T Main Steam Une Man Steam Une RHR RHR Pipe Tunnel Pipe Tunnel Equip Area Equip Area Blank E31 N615A dT E31-N615C dr E31-N614A dT E31614C dT Man Steam Une Main Steam Une RHR RHR Pipe Tunnel Pipe Tunnel Equip Area Equip Area Blank E31-N604A T E31-N604C T E31-N606A T E31608C T DIVISION ll LEAK DETECTION l 1H13 - P642 Reac Wr Cisanup Reec We Cieanup TemNrature Meter I ReacWeCuanup Pump Rm 1 E31-N6006 dT Pump Rm 2 E31 N6000 dT Pump Rm 3 E31-N600F dr Reac Wtr Cleanup Reac Wtr Cleanup Reac We Cleanup Pump Rm 1 Pump Rm 1 Pump Rm 1 E31 N601B T E31 N6010 T E31 N601F T Reac Wtr Cleanup Reac Wtr Cleanup RCIC Pipe RCIC HX Rm 1 HX Rm 2 Blank Rou6ng Area EqiAp Area E31 N600H dT E31-N600K dT E31 N6138 dT E31 N6038 dT ~

Reac Wtr Cleanup Reec Wtr Cleanup RCIC Ppe RCIC HX Rm 1 HX Rm 2 Bienk Roueng Area Equip Area E31-N601H T E31-N600K T E31 N6129 T E31-N602B T 3r RHR RHR I i Eque Area Equip Area Blank E31-N6140 dT E31-614D dT RHR RHR

~ ^

a 1 Equip Area Equip Area Blank E51 N6068 T E31-606D T knee 96ehredeta2\1

LaSalle 1996 GSEP Exercise Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR 13 Time: 1141 1210 (251 280)

Issue to: NSO Prerequisites: Performing electrical operations on the control panels init ating Action Response

1. Attempts tepower Bus 142X from 1. Attempt is successful and the Bus 142Y. 141X BUS ALIVE light is lit. Hand 8 out Equipment Status Sheet and Alarm Typer information when action completed.

2. Attempts to cross-tie bus 141Y with 2.a The 2414 breaker closes (Unit 2) 241Y. 2.b The 1414 breaker will not close when operated. (Stays open)

CONTROLLER NOTE: Use only if the simulator is not running.

e-l l

l lv kwmxW-msgM14

LaSalle 1996 GSEP Exercise

' ^-

EQUIPMENT STATUS 4

Time: 1141-1200 (251 270) After Bus 142X re energized l

Recire Pumps l 1 A- T l 1B- T l SRM Positions l A- IN l B- IN l l CRD Pumps l 1 A- T l 18- A l l C- IN l D- IN l 1 RHR Pumps 1 A- N 1 B- T MSIV Positions l A- C l A- C l l 1C- oos 1821-F022/28 l B- C l B- C l RHR SW Pumps 1 A- N 10- A l C- C l C- C l l 1B- N l 1D- A l l D- C l D- C l Rx Feed Pumps l 1 A- N l 1B- N l Safety / Relief l A- C l B- C l l Mtr Drvn- T l Valve Positions l C- C l D- C l Circ Wtr Pumps 1 A- T 18- A 1821-F013 l E- C l F- C l 1 C- N l G- C l H- C l CD/CB Pumps 1 A- T 1 B- T l J- C l K- C l l 1C- T l 1D- T l l L- C l M- C l Serv Wtr Pumps 1 A- T 1 B- A l N- C l P- C l

0- A l R- C l S- C l m RWCU Pumps 1 A- T 1 B- A U- C V- C

, ) 1 C- N RBCCW Pumps 1 A- T 1 B- A U1 SAT D TBCCW Pum s 1 A- T 1 B- N U1 UAT D HPCS Pum R U1 Main Xfrmrs ED W- D LPCS Pum N 6.9 KV Busses 151- D 152- D l RCIC Pump oos 4 KV Busses 141X- D 141Y- E l SBLC Pumps 1 A- N 1 B- A 42X- 42Y- E i Legend l R = Running 143- E '

A = Available N = Not Available O D/G T T = Tripped P = Lockout /PTL 1 A D/G R E = Energized O = Open 1B D/G R D = De-Energized C = Closed k.M.

LaSalle 1996 GSEP Exercise e ALARM TYPER INFORMATION

\

Time: When [h3 ;q g pg , g 070 120f29 123 N 0?33 4NV BS 142X-Y TIE BK 1425 RESET 070 120f35 123 N 0071 AUX PWR DEMAND METER PWR NORMAL 123 N 0073 HPCS DG STOR TANN RM HATCH NORMAL

23 N 0164 UNIT AUX T-141 NORMAL  !

123 N 0303 HEATER DRAIN TANK LEVEL NORMAL l 123 A 0622 TRVLG SCRN PNL iPL2CJ TROUBLE 123 N 0623 TRULG SCRN PNL CONT PWR NORMAL 123 N 0747 PPI CNMT PURGE SYSTEM NORMAL

, 123 N 0755 RX BLDG AIRLOCK 09 NORMAL i 23 ti 0941 480U E.US 132X VOLTAGE NORMAL i 123 N 09:2 480V FUF 132Y VOLTAGE NORMAL  !

123 N 0943 480V BUS 138 VOLTAGE NORMAL I 123 N 010 DS; FIRE PMP FOTRANS PMP RESET  ;

123 N 1014 DIESEL FIRE PUMP OA NORMAL I 323 N 3062 FIRE PROT JOCKEY PUMP A RESET l

23 $ 1202 DG FRE-TREAT RAL DNSCL NORMAL  ;

222 N 244 DG 0 STOR T ANN F.M H ATCH NORMAL 1 f.'3 N 3245 CEN BRUSHING COOLANT FLOW NORMAL

.]q 103 N 12 4 C E!! RECTIFIER COOLANT FLOW NORMAL 1 l

12'; it 3424 4KV BUF 142Y VOLTACE NORMAL 123 N'1534 RX BLDG CAM PNL 1PL99J

~ NORMAL l l

1

~

l l

l l

CONTROLLER NOTE: Use only if the simula;or is not running.

LaSalle 1996 GSEP Exercise Control Room Messages l^

This is an Exercise CONTROL ROOM MESSAGE l CR 14 I

Time: 1142 (252) l t

issue to: NSO

Prerequisites

Attempts LPCI Operations initiatina Action l Response

1. Hand out the following to the NSO:

I

• i

- 1142 PCIS Sheet 1142 ESF Panet Sheet

- 1141+ Alarm Typer information (Hand out sheets per times on top)

2. Attempts to start 1B RHR pump for 2. 1B RHR Pump trips.

LPCI.

CONTROLLER NOTE: Use only if the simulator is not running.

i l

l kNas96exweegel5 ,

PCIS STATUS DISPLAY PANEL -DIV I 4d: WW

~

E w

+ =e z H

==:

=l$j

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amo=a mes

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w eEi O nme nq2 (2s2)

PCIS STATUS DISPLAY PANEL -DIV 11 E GEb=P -

g W- r ,

E j= $t =

g gg N<-\ E E

=r goap

=

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ts o

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2. _ _ _ .

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f .,, LaSalle 1996 GSEP Exercise

' 'i ESF PANEL Time: 1142 (252) i ENGINEERED SAFEGUARDS FEATURES IUL AN001 Y 6 Y 9 12 13 14 16 8

17 18 19 20 21 22 23 24 l

25 28 29 31 32 l

l

.~, T 34 37 T

._)

41 42 44 45 46 47 48 4

'Y

LaSalle 1996 GSEP Exercise m ALARM TYPER INFORMATION Time: 1141 (251)

': ? G 114f00 123 A 0 2I'" L F'C S E ( S T E M ACTUATEL 123 A 0277 REACTOR WATER LEVEL 1 LO l 7 23 A 0 ':19 STM SEAL EVAPORATOR LEVEL LO 123 A 1354 RHR RX CH B/D LEVEL 1 LO l '.' 3 A 1479 TURD LLDG EXHAUST FAN 1A A-TRIP

~,23 A 1480 TURB BLDG EXHAUST FAN 1B A-TRIP 070 114105 i 123 A 1355 RHR SYSTEM 2 ACTUATEL l 070 114f10 i 123 A 1221 ADS B RHR B/C PERMSV ALARM a

O O 114f15 l 123 A 1360 RHR PUMP 1B INJECT FLOW ALARM

! 070 114t25 123 t' 1255 RHR SYSTEM 2 NORMAL 123 N 1360 RHR PUMP 1B INJECT FLOW NORMAL 070 114130 i 123 A 1028 SJAE 2ND STAGE STM FLOW A HI-LO l

123 N 1221 ADS B RHR B/C PERMSV NORMAL 070 114f40 12: A 0740 MS INDD VLV B ACCUM PRESS LO

'- -  !!3 A 1030 SJAE CHD STAGE STM FRES A HI-LO m W3 114f45 123 A 0061 Ts G D & DET DISPLAY SYS TEM HI 123 A 0361 MS INBD ULV C ACCUM PRESS LO

'J 7 0 114150 1

' 203 A 03'2 MS INLD VLV D ACCUM PRESS LO  :

r?( 114155 '

123 u 025? ME INED VLV A ACCUM PRESS LO 123 A C55* RCIC ETEAM SUPPLY PRESS LG -

l l '_3 A OSi5 RC.IC DIU 1 ISOL SIGNAL ALARM l  :"I e ;&S2 FCIC STEAM LINE ISOLATION ALARM

c. 1M4 t< '. I C ? TEAM SilPPLY PRESS LO

.: 1 -if.. . C 0 b i E t I, E R A GUTLET TEMP HI l I .

l i

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I CONTROLLER NOTE: Use only if the simulator is not running.

LaSalle 1996 GSEP Exercise

- ALARM TYPER INFORMATION Time: 1142 (252) 070 liggis

]23A 0'15 d GLAND STM Aux FL VLV OPEN

• 23 A 1150 123 A :.151 070 1142,20 123 A OG16 GLAND STM SEAL HDR PRESS LO 070 11h130 123 A 0604 N2 DRY 41 ELL INLET PRESS LO 123 A 0634 CLNUP RECIRC PUMP DIS PRS HI-LO 070 114240 123 N 0054 CONT ROD DRIVE HYD TEMP NORMAL a

070 11$145 123 A 0073 HPCS DG STOR TANK RM HATCH OPEN 123 A 1244 DG O STOR TANK RM HATCH OFEN l 123 A 1245 DG 1A ETOR TANK RM HATCH OPEN 4 070 114255 l 123 A 0807 EJAE A/B 2ND STAGE STM FL LO i

"7)

A l

J CONTROLLER NOTE: Use only if the simulator is not running.

I LaSalle 1996 GSEP Exercise

^3 ALARM TYPER INFORMATION Time: 1144 (254) i 1

070 114405  !

123 A 0527 RHR PMP DSCH PRESS LO l 123 A LPCS PMP DISCH PRESS LO 070 114420 123 A 1472 TURB BLDG DEMIN ROOM TEMP Hi 070 114430 123 N 0307 LD P-TNL MS LN SYS A TEMP NORMAL 123 A 0603 N2 DW REG SUPPLY PRESS LO 123 N 1085 LD P-TNL MS LN SYS B TEMP NORMAL 070 114435 123 N 0901 TURBINE BYPASS VALVE OPEN NORMAL l

.J i

l

~.

CONTROLLER NOTE: Use only if the simulator is not running.

l l

l LaSalle 1996 GSEP Exercise i

m. ALARM TYPER INFORMATION Time: 1146 (256) l 070 114645 i l 123 A 0619 CONDENSER A VACUUM LO l t

070 114650 l 123 A 620 CONDENSER B VACUUM LO i 123 A 621 CONDENSER C VACUUM LO 1

l 1

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l l

l l

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t CONTROLLER NOTE: Use only if the simulator is not running.

l l

LaSalle 1996 GSEP Exercise r

", ALARM TYPER INFORMATION Time: 1150 (260) 070 115000 l 123 A 0364 ADS LOGIC INITIATED ALARM 123 A 0756 CRD WATER FIL DIFF PRESS HI 123 A 1223 ADS LOGIC B INITIATED ALARM 070 115005 123 A 1199 DW AIR TEMP Hi -

1 070 115055 123 A 1446 ADSORBER VAULT TEMP Hi I

l 4 l l l l

1 l

l l l

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l CONTROLLER NOTE: Use only if the simulator is not running. ,

i

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LaSalle 1996 GSEP Exercise )

Control Room Messages i

j This is an Exercise 1 i

CONTROL ROOM MESSAGE CR 15 l l

I Time: 1143 (253) lasue to: NSO j Prerequisites: SGTS Starts initiatina Action Response

1. Looks at Annunciator Panel 1PMO7J. 1. The following annunciators are ,

alarming: , (

l l a - A4-02 j

- A5-01 4

- A5-02

2. Looks at valve lineup for U-1 SGTS. 2.a Unit is running with 4000 scfm flow.

2.b Damper alignmentis normalfor l

' SGTS operatino.

3. Looks at release rate and 3. Use recorder information to give concentrations on recorders. release rates and concentration information.

CONTROLLER NOTE: Use only if the simulator is not running.

3

/ a kNas96eter-msg.dodl6

LaSalle 1996 GSEP Exercise Control Room Messages This is an Exercise CONTROL ROOM MESSAGE l

i CR 16 l

Time: 1200 1210 (270 280)

Issue to: NSO Prerequisites: HPCS ready to start initiatina Action Response

1. Checks 1E22-F004. 1. Valve is open.

2. Starts HPCS pump. 2. Pump starts or is running if it was *

• . never stopped.

3. Checks HPCS flow. 3. Flow is 4000 opm

4. Checks reactor level. 4. Give reactor level per Plant Status and recorders.

5. Hand out 1200 Alarm Typer information to NSO CONTROLLER NOTE: Use only if the simulator is not running.

l l

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j k:m meg.do617

1 LaSalle 1996 GSEP Exercise m ALARM TYPER INFORMATION Time: 1200 (270) 070 ff $14 HI 123 A 0033 HFC3 LISCHARGE FLOW 070 120015 123 A 0908 SUF POOL WATER LVL LO 070 120020 123 N 0277 REACTOR WATER LEVEL 1 NORMAL 123 N 0364 ADS LOGIC A INITIATED NORMAL 123 N 1223 ADE LOGIC B INITIATED NORMAL 123 N 1354 RHR RX CH B/D LEVEL 1 NORMAL 070 120019 123 N 0023 RX WTR LUL AT LVL 2 NORMAL 123 N 0024 RX WTR LVL AT LUL 2 NORMAL 670 120935 i10RMAL 123 ri 0:j28 HPCE SYSTEM A TUATED m,

J i

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l CONTROLLER NOTE: Use only if the simulator is not running. I

l f

LaSalle 1996 GSEP Exercise G, Control Room Messages This is an Exercise CONTROL ROOM MESSAGE CR 17 Time: 1200 1300 (270 330)

Issue to: NSO Prerequisites: Report from field that ACB 1414 is ready to be operated.

Initiating Action Response l 1. Closes ACB 1414 from Main Control 1. Breaker closes and Bus Alive light Board. lights for Bus 141Y.

• 2. Has LocalOperator close ACB 2. When reported from field that ACB l locally. 1414 is closed, the breaker indicates closed and the Bus Alive light lights for Bus 141Y.

3. Performs actions to energize other 3. Operations are successfuland the busses from 141Y. respective Bus Alive lights light.

4. Starts 1 A RHR Pump. 4. Pump starts and delivers 5000 gpm to LPCI.

5. Starts LPCS Pump. 5. Pump startrs and delivers 1800 gpm

', 6. Hand out the following to the NSO:

- 1211 Equipment Status Sheet

- 1212 Annunciator Sheet

- 1212 PCIS Sheet

- 1212 TM Panel Sheet

- AlarmTyperinformation

- 1215 ESF Panet Sheet CONTROLLER NOTE: Use only if the simulator is not operating.

l

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kNas96eter megMl8 1

( (s '

)

t l.ASALLE 1996 GSEP EXERCISE  !

ANNUNCIATORS  !

TNE (2i2 (2ea ALL 4KU Bussas 'g A- 6 SBOT ECCS - 1H13-P601 l 2PMO7J & 1PM07J A B C D i

___u um_____m

____. = =

l RWCU 8 RECRC -1H13M2 F E A B  !

ggumem,a j me t

-  ::=="Eit i l

REACTOR CONTROL- 1H13-P603 FEEDWATER CONDENSATE CONTROL iPM03J i A B A B  :

~

m an  :-  := m a  := ===- :mm.  :"====------

anEm"E an Em a E E Em mE=EEEEEE"EI E"""

=== == ==== ==== === m a ==== m = ==== "."""

TURBBECONTROL 1PMO2J ELECTRICALCONTROL 1PM01J A B A B M -- -

W CNMT MON 8 LEAK DET AUXLIARY SYSTEMS OFF-GAS CONTROL A 1PM13J B A 1PM10J B A 1N62-P600 8 Em:

I"m""a I name ==

HVACCONTROL 1PM06J 345KVSNTCHYARD OPM12J B A _A_ C EEEE 5 _B___

9 9

, _ _ _ _ _ _ _ m .

____ . - . ~ . - . _

i i

i LaSalle 1996 GSEP Exercise

!^ EQUIPMENT STATUS 1

l f Time: 1211 (281) After Bus 141X and 141Y re energized and LPCS established i

1 l

Recirc Pumps l 1 A- N l 18- N l SRM Positions lA-IN lB-IN l j CRD Pumps l 1 A- A l 18- A l lC-IN l D- IN l

) RHR Pumps 1 A- A 18- T MSIV Positions l A- C l A- C l 1C- oos 1B21-F022/28 l B- C l B- C l RHR SW Pumps 1 A- N 1C- A l C- C l C- C l l J l 18- N l 1D- A l l D- C l D- C l Rx Feed Pumps l 1 A- N l 1B- N l Safety / Relief l A- C l B- C l l l '

i o

l Mtr Drvn- N l Valve Positions l C- C l D- C l 1

Circ Wtr Pumps 1 A- N 1 B- A 1821-F013 l E- C l F- C l 1 C- N l G- C l H- C l 1 CD/CB Pumps 1 A- N 1 B- N l J- C l K- C l l l 10- N l 1D- N l l L- C l M- C l

Serv Wtr Pumps 1 A- N B- R l N- C l P- C l

! 0- A l R- C l S- C l I m RWCU Pumps 1 A- N B- U- C V- C l .j _ 10- N U1 SAT h 1 A- N B- R B- N U1 UAT D i h 1 A- N U1 Main Xfrmrs E- D

] hALPCS Pump R 6.9 KV Busses 151- D 152-RCIC Pump oos 4 KV Busses 141 X- 141Y- E l

SBLC Pumps 1 A- N 1 B- A 142X- E 142Y- E Legend l R = Running 143- E

)

A = Available N = Not Available 0 D/G N i

T = Tripped P = Lockout /PTL 1 A D/G R i E = Energized O = Open 1B D/G R D = De-Energized C = Closed l

i l

i idJas96eM.dod6

)

PCIS STATUS DISPLAY PANEL -DIV i

]

l lW A T' i ._.-  % __.

g -

E l -

E

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e

i

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i

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! geno / y amo=a -

1

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] T i m E '. {2Q (2BQ l PREREG.'- i3u6 NI% + Y RE-ENETeGrcEb i

i j PCIS STATUS DISPLAY PANEL -DIV 11 ase-- -

s p

! = .I  :- =

(m\ _m--

E

u. -

'EmiiiT l

, w- ts o 4 -

g -,

m j E IN I

. M g I~ E M-

s. _._

. F ir.ra=Estan -

l LaSalle 1996 GSEP Ex:rcise CONTROL ROOM MESSAGES l TEMPERATURE MONITORING PANELS m.

Time: 1212 (282)

DIVISION : LEAK DETECTION l

l 1H13 - P632 Reac Wtr Oeenup Reac Wtr Oeenup Reac Wtr Oeenup Pump Rm 1 Pump Rm 2 Pump Rm 3 Temperature Meter E31 N600A GT E31 N600C dT E31-N600E dT Reac Wtr Oeenup Reac Wtr Oeenup Reac Wir Qeanup Pump Am 1 Pump Rm 1 Pump Rm 1 E3144601 A T E31 N601C T E31 N601E T RCIC Pipe RCIC Reac Wtr Oeenup Bienk RousnDArea Equip Area HX Am 2 l ReacWtrOsanup HX Am 1 E31 N6000 dT E31 N60GJ dT E31 N613A dT E31-N603A dT RGC Reac Wtr Oeenup RCIC Ptpe ,

Reac Wtr Osanup Equip Area HX Rm 2 Bienk Roueng Area HX Rm 1 E31-N602A T 4

E31-N600J T E31-N612A T E31 N6010 T RHR RHR Ewip Area Equlp Area Blank 1

E31 N614A dT E31614C dT i RHR RHR Equip Area Equip Area Bienk

E31606C T E31 N606A T i

i i

' DIVISION 11 LEAK DETECTION l

]- l 1H13 - P642 Reac We oesnup Reac We acanup Reac w e oesnup Pump Rm 2 Pump Rm 3 Pump Am 1 Temperature Meter E31 N6000 dT E31-N6000 dT E31 N600F di Reac Wir Oeenup Reac Wtr Oeenup Pump Rm 1 Pump Rm 1 l ReacWtrOeenup Pump Rm 1 E3144601B T E31 N6010 T E31 N601F T RCIC Pipe RCIC Reac Wtr Osanup Reac Wtr Geenup Bienk Routng Area Equip Area HX Rm i HX Rm 2 E31 N6138 dT E31 N6038 dT E31 N600H dT E31-N600K dT RCIC Pipe RCIC Reac Wtr Oeenup Reac Wtr Cleanup Bienk Roueng Area Equip Area HX Rm 1 HX Rm 2 E31-N6128 T E31-N6028 T E31 N601H T E31 N600K T RHR RHR Equip Area Equip Atee Bienk E31 N6148 dT E31-6140 dT RHR RHR

~ ~ Equip Area Equip Area Bienk E31-N6068 T E31606D T

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LaSalle 1996 GSEP Exercise S ALARM TYPER INFORMATION Time: 1210 (280) 070 121614 123 A 0190 4KV BUS 141Y-241Y BKR A-TRIP 123 N 1306 RB CCW PMP SUCT HDR TEMP NORMAL C70 121020 123 N 0189 4KV BUS 141Y ACB 1412 RESET 123 N 019C 4KV BUS 141'r -:'41 Y B NR RESET 070 121050 123 N 0080 DW HUM NON SAMPLE PUMP RESET  !

123 N 0096 250V BATT 2HGR OUT VLTG NORMAL l

23 N 009S 250V BATT CHGR AC VLTG NORMAL i 123 N C104 125V BATT 1A CHG OUT VLTG NORMAL 123 N 0105 125V ltATT 1A CHGR AC VLTG NORMAL 4

123 ti 0111 2cV CHbR 1DC35E OUT VLTG NORMAL l i

123 N 0112 24V CHOR IDC35E AC VLTG NORMAL 123 N 0114 24ti CHGR 1DC36E OUT VLTG NORMAL 123 N 0115 24V CHGR 1DC26E AC VLTG NORMAL 123 N 0121 DG-0 AIR COMP B6 BREAKER RESET 123 N 0322 DG-0 Et4G OIL CIRC PUMP RESET 123 N 0128 4809 I:US 135X VOLTAGE NORMAL 3 3 N 012F A80V BUS 135Y VOLTAGE NORMAL 123 N 0336 SER '20VAC PWR EDURCE

. NORMAL j

' 7 3 ri 0102 4KV EUS 141X UOLTAGE NORMAL j 122 N M o 2 4 D; BUE 14: Y UOLTAGE NORMAL I

' 2 :' N 0.M 2 ~0CV BUS i ? 1 Y. VOLTAGE NORMAL  !

~23 N C217 4100 FUS 131Y VOLTAGE NORMAL 12! il G: 14 1800 1:U S 137X VOLTACE NORMAL

!!7 N '20i 480;. liU S 337Y VOLTAGE NORMAL i h 3 t: G241 1WGR Rh HVAC PNL IPL20J NORMAL

'. 7 3 N 6 2 ', '. @ R P M MVA: PNL IPL8?J NORMAL

". W 02Fi. Uf'S 480VAC NORM SUF VLTG NORMAL

. ts 32d; 'P ? RECT!F]ER OUTPUT NORMAL

!'-  ; 02;4 Lt.;g : UMP EREAKER CLOSEL -

12: N " 4 S5 D :-D HUAC F t4L OPL17 NORhAL

i s .: 330 L: 06IC A ~iiR FLR/ TEST NGRMAL

. :: . 4 D '., :

• LU AIF TEMP HI

.J O % T -1W a '

NORMAL 1.; it 0 3 t. 2 MN T-1E NORMAL i??S DIV i E /. LVL LO/ PRESS HI NORMAL

:- r. f410 '3 WTP TEMP TECH S?EC LIr.

NORMAL

. a431 9F WT TV Ei !.,HUTEGWN NORMAL 1J2 N 479 MIIV IN': D .b!I PWR NORMAL 1~2 4! O'.i2 7 R-!R PMF DECH PRESS NORMAL

23 ii :54: L DCS PhP I.T FCH PRESS . NORMAL c: N s'. h. 4 Is e Y-:C 2 F C L G0 F A VALVE NORMAL 127 i- ; d' 7 P.e 74.. P U M *- F A / is CUB FAN 'EEET

- c. N'. 1; .A 3CRN FN- 1PL20J NORMAL 4 . c. 4 1 L P S ,' F ? ?. 2 P r# CUI. CLE FAN FEEET

'a '

W. 4 :. S t.!a P :. F H'! AC DtL :FL2?J NORMAL U .2' 4 0642 1G-0 FO TPA'J3FER DUhf RE?E' N .e: . ;g a;y e 2 .-

. N_ l'; 2e NO: , AL CONTROLLER NOTE: Use only if the simulator is not running.

1

l t

l LaSalle 1996 GSEP Exercise ,

%. ALARM TYPER INFORMATION l l Time: 1210 (280) cont l 070 I2 to 50 (th  !

l 123 N 0355 gg: 5'UNP A CUPICLE FAN NORMAL l

123 N 0733 1HT01E PWR FAIL DIU 1 NORMAL I 123 N 0745 FW VALVE CONTROL SIONAL NORMAL 123 N 0754 RX BLDG AIRLOCK A14 NORMAL l 123 N 0757 STANDPY LIQUID PUMP A RESET 123 N 0763 PRI CNhT VENT SUP FAN 1A RESET 1 123 N 1429 V1S ANN 120VAC PWR SOURCE NORMAL 070 12:05i.

, 123 A 0273 LPCS LOOP INJECTION FLOW HI 323 A G3: 7 LI RWCU ROOM AMF TEMP HI 123 A 0363 ADS A LPCS/RHR A PERMSV ALARM 103 A ': T 22 F H r. S Y S T E r 1 ACTUATEL i l 1

l l

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1J I

I CONTROLLER NOTE: Use only if the simulator is not running.

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i LaSelle 1996 GSEP Exerclae l ew ALARM TYPER INFORMATION 1

1

• Time: 1211 (281) 070 121100 l 123 A 0171 4KV BUS 141X VOLTAGE LO i 123 A 0212 480V BUS 131X VOLTAGE LO 123 A 0213 480V BUS 131Y VOLTAGE LO 123 A 0214 480V BUS 137X VOLTAGE LO

! 123 A 0215 480V BUS 137Y VOLTAGE LO

! 123 A 0243 SWGR RM HVAC PNL 1PL88J TROUBLE l 123 A 0340 MN 1-1W TROUBLE

! 123 A 0342 MN T-1E TROUBLE l 123 A 0528 RHR PUMP 1A INJECT FLOW ALARM 123 A 0622 TRVLG SCRN PHL 1PL20J TROUBLE

. C/0 121104 323 N 1229 RX LEVEL 3 CONFIRMED NORMAL 070 121914 123 N 0767 FW CONT RX WTR LVL 4 NORMAL 070 121t19 l 123 N 0171 4KV BUS 141X VOLTAGE NORMAL i 123 N 0212 480V BUS 131X VOLTAGE NORMAL l

123 N 0213 4SOV BUS 131Y VOLTAGE NORMAL 123 N 0214 480V BUS 137X VOLTAGE NORMAL 127 N 0215 480V BUS 137Y VOLTAGE NORMAL 123 N 0043 SWGR RM HVAC PNL 1PLSSJ NORMAL 12 3 N 03 4 0 M N T- 1 L' NORMAL 123 N 0340 MN T-1E NORMAL l 1 :': N 0422 TRVLG SCRN FNL 1PL20J NORMAL

'5.3 A 0737 FW CONT RX WTR LVL 7 HI l 1U A 1a04 TURE BLBG SUP AIR FLDl4 LOSS l 20 121125 l 1"3 A 0e22 El UTR LVL AT LVL E HI f J23 H 03C3 INST N2 COMPR 1A OL RESET '

l 73 i: C?~'3 LDCE LOOF INJECTION FLOld NORMAL 1;? 4 0:I 4 aS&U EUS 133 UOLTAGE NORMAL

!21 N CS?" FUEL POCL LEVEL NORMAL

~3 4

• S c. 0

.23 -

0671 PC VENT FAN 1UP15SA-SF NORMAL

, 123 N 073! PRI CNMT WTR CHLR P-1A RESET

! 3 A V 3? D VESSEL HI UTR LVL CH A TRIP

23 A 0740 PX VESSEL HI HTR LVL CH B TRIP

!?? A 0743 TU VESSEL H1 14TR LVL CH C TRIP 123 t; 0703 CPD PUhP CUF UENT FAN 1A RESET

'.23 N 4'34 TitRD DLDG SUP AIR FLOlf NORMAL G 7 's 1: 1144 l // N CO36 HPCS PUV BNR 2 CLOSEL' NORMAL c ; (. *21150

. ':3 N *;2' PHR E'tSTEM 1 NORMAL

, r 'O ',21 h 5

-m f: ^034 WPCE FUMF DISCH PREESURE NORMAL

, v .'? n c520 W F ~J W 14 INJECT FLOW NORMAL l

I

! CONTROLLER NOTE: Use only if the simulator is not running.

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l 1 LaSalle 1996 GSEP Exercise

! '- ESF PANEL l I )

i Time: 1215 (285) l j ENGINEERED SAFEGUARDS FEATURES l I

! IUL AN001 1 2 3 5 6 7 8

,i T 12 TTTT o

17 18 19 20 21 22 23 24 i

1 1 25 26 27 28 l 29 30 31 32 i

i j , 33 34 35 37 38 40 i

l 41 42 43 44 45 46 47 48 i

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LaSalle 1996 GSEP Exercise 4

PLANT STATUS

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

LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES

.~

PLANT STATUS MESSAGE

' PS 1 Time: 0700 (-30) UNIT 1 REACTOR PARAMETERS BALANCE OF PLAfG Reactor Power 88  % Generator Power 971 MWe SRM Power n/a cps Condensate Flow 1.6E4 gpm Reactor Pressure 988 psig Condenser Level 43.3 inches Reactor Level WR 36.8 inches Condenser Vacuum 3.4 in HG Reactor Level NR 35.6 inches FW Pp D/C Preas 1055 psig Reactor Level FZ -111 inches Feedwater Temp 345 'F 4 Core Flow 87 M#/hr Core DP 12.6 psid Jet Pump A Flow 47 M#/hr ECCS STATUS Jet Pump B Flow 47 M#/hr RR A+B Temp 527 'F HPCS Flow 0 gpm RR A+B Temp 527 'F LPCS Flow 0 gpm Steam Flow 11.2 M#/hr RCIC Ilow 0 gpm Feedwater Flow 12.0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uC1/oc Drywell Radiation 3.7 R/hr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCl/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCl/cc SP Temperature 93 'F SBGTWRGM Act 10 uCl/see SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.5 mph Spent FP Level 12.6 inches Wind Direction 238 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.0 'F V

LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-2 Time: 0730 (0) UNIT 1 i

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 88  % Generator Power 971 MWe 4 SRM Power n/a cps Condensate Flow 1.6E4 gpm j Reactor Pressure 988 psig Condenser Level 43.3 inches Reactor Level WR 36.8 inches Condenser Vacuum 3.4 in HG Reactor Level NR 35.6 inches FW Pp D/C Press 1055 psig )

Reactor Level FZ -111 inches Feedwater Temp 345 'F e j i

Core Flow 87 M#/hr Core DP 12.6 psid Jet Pump A Flow 47 M#/hr ECCS STATUS Jet Pump B Flow 47 M#/hr RR A+B Temp 527 *F HPCS Flow 0 gpm RR A+B Temp 527 *F LPCS Flow 0 gpm Steam Flow 11.2 M#/hr RCIC Flow 0 gpm Feedwater Flow 12.0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc l DrywellTemp 114 "F Stack WRGM Mid 1.5E-4 uCi/cc I Drywell Radiation 3.7 R/hr Stack WRGM Hi- 1.0E 1 uCi/cc Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm .

SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc l uCi/cc l SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 SP Temperature 93 *F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm l

l MET DATA (200 ft) SPENT FUEL POOL Wind Speed 7.5 mph Spent FP Level 12.6 inches Wind Direction 245 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.1 'F

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LaSalle 1996 GSEP Exercles PLANT STATUS MESSAGES PLANT STATUS MESSAGE S PS-3 i

l Time: 0740 (10) UNIT 1 l I

REACTOR PARAMETERS BALANCE OF PLANT I

Reactor Power 88  % Generator Power 971 MWe SRM Power n/a cps Condensate Flow 1.6E4 gpm

Reactor Pressure 988 psig Condenser Level 43.3 inches Reactor LevelWR 36.8 incnes Condenser Vacuum 3.4 in HG Reactor Level NR 35.6 inches FW Pp D/C Press 1055 psig l Reactor Level FZ -111 inches Feedwater Temp 345 *F ,

! 8 Core Flow 87 M#Mr Core DP 12.6 paid Jet Pump A Flow 47 M#Mr ECCS STATUS Jet Pump B Flow 47 M#Mr I

RR A+B Temp 527 *F HPCS Flow 0 gpm RR A+B Temp 527 'F LPCS Flow 0 gpm Steam Flow 11.2 M#Mr RCIC Flow 0 gpm i Feedwater Flow 12.0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#Mr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONfTORING l Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc DrywellTemp 114 *F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 3.7 RMr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm ,

SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGTWRGM Act 10 uCl/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.6 mph Spent FP Level 12.6 inches Wind Direction 236 degrees Spent FP Temp 88 *F Diff Temp (33/375 ft) -1.2 'F

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LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES

~

PLANT STATUS MESSAGE 3' '

PS-4 Time: 0750 (20) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 88  % Generator Power 971 MWe SRM Power n/a cps Condensate Flow 1.6E4 gpm i Reactor Pressure 988 psig Condenser Level 43.3 inches Reactor LevelWR 36.8 inches Condenser Vacuum 3.4 in HG Reactor Level NR 35.6 inches FW Pp D/C Press 1055 psig Reactor Level FZ -111 inches Feedwater Temp 345 'F 4 Core Flow 87 M#/hr Core DP 12.6 psid Jet Pump A Flow 47 M#/hr ECCS STATUS Jet Pump B Flow 47 M#/hr RR A+B Temp 527 'F HPCS Flow 0 gpm RR A+B Temp 527 "F LPCS Flow 0 gpm Steam Flow 11.2 M#/hr RCIC Flow 0 gpm

, Feedwater Flow 12.0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc Drywell Temp 114 *F Stack WRGM Mid 1.5E-4 uCl/cc Drywell Radiation 3.7 R/hr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCL/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCl/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E 4 uCl/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGTWRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.9 mph Spent FP Level 12.6 inches Wind Direction 227 degrees Spent FP Temp 88 *F Diff Temp (33/375 ft) -1.1 'F d

v N -

LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES

.-~. PLANT STATUS MESSAGE I PS-5 Time: 0755 (25) UNIT 1 REACTOR PARAMETERS BALANCE _QEP_LANI Reactor Power 92  % Generator Power 1056 MWe SRM Power n/a @s Condensate Flow 1.6E4 gpm i Reactor Pressure 985 psig Condenser Level 43.1 inches '

Reactor Level WR 37.5 inches Condenser Vacuum 3.6 in HG Reactor Level NR 35.7 inches FW Pp D/C Press 1068 psig Reactor Level FZ -111 inches Feedwater Temp 351 'F 4 Core Flow 98 M#/hr Core DP 15.8 psid Jet Pump A Flow 80 M#/hr ECCS STATUS .

Jet Pump B Flow 14 M#/hr l RR A+B Temp 529 'F HPCS Flow 0 gpm l RR A+B Temp 529 'F LPCS Flow 0 gpm l Steam Flow 12.3 M#/hr RCIC Flow 0 gpm l Feedwater Flow 12.3 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc Drywell Temp 114 'F Stack WRGM Mid 1.5E 4 uCl/cc Drywell Radiation 3.8 R/hr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm ,

SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc I SP Level WR 0.12 ft SBGT WRGM Mid 1.0E 4 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGTWRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.9 mph Spent FP Level 12.6 inches Wind Direction 227 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.1 *F

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LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES

..s PLANT STATUS MESSAGE

'- PS-6 Time: 0800 (30) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 92.1  % Generator Power 1056 MWe SRM Power n/a cps Condensate Flow 1.8E4 gpm Reactor Pressure 985 psig Condenser Level 43.1 inches Reactor Level WR 39.1 inches Condenser Vacuum 3.6 in HG Reactor Level NR 35.8 inches FW Pp D/C Press 1068 psig Reactor Level FZ -111 inches Feedwater Temp 351 *F e

• Core Flow 98 M#Mr Core DP 15.8 psid Jet Pump A Flow 80 M#/hr ECCS STATUS Jet Pump B Flow 14 M#/hr RR A+B Temp 529 *F HPCS Flow 0 gpm RR A+B Temp 529 'F LPCS Flow 0 gpm Steam Flow 12.3 M#/hr RCIC Flow 0 gpm Feedwater Flow 12.6 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm O

CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc DrywellTemp 114 *F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 3.8 R/hr Stack WRGM Hi 1.0E-1 uCi/cc

! Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCL/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm ,

SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 10 uCl/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 6.2 mph Spent FP Level 12.6 inches Wind Direction 227 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.2 F W

4 kNas96stpad

LaSalle 1996 GCEP Exercise PLANT STATUS MESSAGES Pl. ANT STATUS MESSAGE

' PS-7 Time: 0810 UNIT 1 (40)

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 92.1  % Generator Power 1052 MWe SRM Power n/a cps Condensate Flow 1.8E4 gpm Reactor Pressure so5 psig Condenser Level 43.2 inches Reactor LevelWR 35.6 inches Condenser Vacuum 3.6 in HG '

Reactor Level NR 35.8 inches FW Pp D/C Press 1068 psig Reactor Level FZ 111 inches Feedwater Temp 351 'F 4 Core Flow 98 M#/hr Core DP 15.8 psid Jet Pump A Flow 80 M#/hr ECCS STATUS Jet Pump B Flow 14 M#/hr ,

RR A+B Temp 529 'F HPCS Flow 0 gpm l RR A+B Temp 529 'F LPCS Flow 0 gpm Steam Flow 12.3 M#/hr RCIC Flow 0 gpm Feedwater Flow 13.1 M#/hr RHR A Flow 0 gpm l CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm l RHR C Flow 0 gpm f i

CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCl/cc Drywell Radiation 3.8 R/hr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm ,

SP Pressure 0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 10 uCi/sec l' SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL 4

Wind Speed 9.2 mph Spent FP Level 12.8 inches (

Wind Direction 238 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.2 *F 1

V kNas96erps. doc \7 l

LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-8 Time: 0820 (50) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 92.2  % Generator Power 1049 MWe SRM Power n/a cps Condensate Flow 1.8E4 gpm Reactor Pressure 983 psig Condenser Level 43.3 inches Reactor Level WR 36.7 inches Condenser Vacuum 3.6 in HG Reactor Level NR 35.8 inches FW Pp D/C Press 1068 psig Reactor Level FZ -111 inches Feedwater Temp 350 'F Core Flow 98 M#/hr Core DP 15.8 psid a Jet Pump A Flow 80 M#/hr ECCS STATUS Jet Pump B Flow 14 M#/hr ,

RR A+B Temp 529 *F HPCS Flow 0 gpm l RR A+B Temp 529 *F LPCS Flow 0 gpm l Steam Flow 12.2 M#/hr RCIC Flow 0 gpm Feedwater Flow 13.1 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCL/cc Drywell Radiation 3.8 R/hr Stack WRGM Hi 1.0E-1 uCi/cc i Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCl/sec j Drywell Hydrogen 0  % Stack Flow 108 10Kcfm ,

SP Pressure -0.4 psig SBGT WAGM Lo 1.0E-7 uCi/cc l SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc  !

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCi/cc  !'

SP Temperature 93 'F SBGT WRGM Act 10 uCl/sec SBGT Flow 0 cfm i

MET DATA (200 ft) SPENT FUEL POOL Wind Speed 12.5 mph Spent FP Level 12.6 inches Wind Direction 233 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 1.4 *F 1

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LaSalle 1996 @SEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE

' PS-9 UNIT 1 Time: 0830 (60)

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 92.3  % Generator Power 1049 MWe SRM Power n/a cps Condensate Flow 1.8E4 gpm Reactor Pressure 983 psig Condenser Level 43.3 inches Reactor Level WR 38.3 inches Condenser Vacuum 3.6 inHG Reactor Level NR 34.7 inches FW Pp D/C Press 1068 psig ,

Reactor Level FZ -111 inches Feedwater Temp 350 T Core Flow 98 M#/hr Core DP 15.8 paid 8 Jet Pump A Flow 80 M#/hr ECCS STATUS  ;

M#Mr l Jet Pump B Flow 14  !

2 RR A+BTemp 529 T HPCS Flow 0 gpm I

! RR A+B Temp 529 T LPCS Flow 0 gpm Steam Flow 12.2 M#Mr RCIC Flow 0 gpm Feedwater Flow 13.0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#Mr RHR B Flow 0' gpm RHR C Flow 0 gpm t

CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc i I

DrywellTemp 114 T Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 3.8 RMr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCl/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCL/cc SP Temperature 93 T SBGTWRGM Act 10 uCl/sec SBGT Flow 0 cfm

(

i 1 MET DATA (200 ft) SPENT FUEL POOL l I

inches Wind Speed 11.8 mph Spent FP Level 12.6  !

Wind Direction 237 degrees Spent FP Temp 88 T Diff Temp (33/375 ft) -1.5 T l

l 1

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LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE

. - - ..', PS-10 Time: 0840 (70) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT 1047 MWe l Reactor Power 92.4  % Generator Power SRM Power n/a cps Condensate Flow 1.8E4 gpm )

Reactor Pressure 983 psig Condenser Level 43.3 inches  !

Reactor Level WR 36.7 inches Condenser Vacuum 3.6 in HG l Reactor Level NR 35.7 inches FW Pp D/C Press 1068 psig l Reactor Level FZ -111 inches Feedwater Temp 350 *F Core Flow 98 M#/hr Core DP 15.8 psid i Jet Pump A Flow 80 M#/hr ECCS STATUS Jet Pump B Flow 14 M#/hr l RR A+B Temp 529 *F HPCS Flow 0 gpm RR A+B Temp 529 'F LPCS Flow 0 gpm Steam Flow 12.2 M#/hr RCIC Flow 0 gpm i gpm Feedwater Flow 13.0 M#/hr RHR A Flow 0 i

CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm

'j gpm RHR C Flow 0 l

CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc

Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc 1 Drywell Radiation 3.8 R/hr Stack WRGM Hi 1.0E-1 uCi/cc

! Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCL/sec 4 Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCi/cc l

j SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCi/cc SP Temperature 93 'F SBGT WRGM Ac + 10 uCi/sec l

SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 12.9 mph Spent FP Level 12.6 inches i

Wind Direction 224 degrees Spent FP Temp 88 'F

{

Diff 1emp (33/375 ft) -1.5 F 4

i 4

k.msesexW.coc\l0

LaSalle 1996 G2EP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE m

• PS 11 Time: 0850 (80) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 92.4  % Generator Power 1045 MWe SRM Power n/a cps Cmxlensate Flow 1.8E4 gpm Reactor Pressure 983 psig Condenser Level 43.3 inches Reactor LevelWR 31.2 inches Condenser Vacuum 3.6 in HG Reactor Level NR 34.9 inches FW Pp D/C Press 1068 psig Reactor Level FZ -111 inches Feedwater Temp 350 'F Core Flow 98 M#/hr Core DP 15.8 psid 8 Jet Pump A Flow 80 M#/hr ECCS STATUS Jet Pump B Flow 14 M#/hr i RR A+B Temp 529 *F HPCS Flow 0 gpm RR A+B Temp 529 'F LPCS Flow 0 gpm Steam Flow 12.2 M#/hr RCIC Flow 0 gpm Feedwater Flow 13.0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm ,

l CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCl/cc DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 3.8 R/hr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP LevelWR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCl/cc SP Temperature 93 'F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATAl200_ft) SPENT FUEL POOL Wind Speed 13.3 mph Spent FP Level 12.6 inches Wind Direction 223 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.5 'F kNasssexW. ell

LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES

.s PLANT STATUS MESSAGE I PS 12 Time: 0900 UNfT 1 (90)

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 92.5  % Generator Power 1045 MWe SRM Power n/a cps Condensate Flow 1.8E4 gpm Reactor Pressure 983 psig Condenser Level 43.3 inches Reactor Level WR 31.8 inches Condenser Vacuum 3.6 in HG Reactor Level NR 35.6 inches FW Pp D/C Press 1066 psig Reactor Level FZ 111 inchas Feedwater Temp 350 Y Core Flow 98 M#Mr Core DP 15.8 psid i Jet Pump A Flow 80 M#Mr ECCS STATUS Jet Pump B Flow 14 M#Mr RR A+B Temp 529 T HPCS Flow 0 gpm RR A+B Temp 529 T LPCS Flow 0 gpm Steam Flow 12.2 M#/hr RCIC Flow 0 gpm Feedwater Flow 13.0 M#Mr RHR A Flow 0 gpm i CRD Pump Flow 0.03 M#Mr RHR B Flow 0 gpm l RHR C Flow 0 gpm l l

l CONTAINMENT BADIAIIDERONIIQBiffG Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc )

DrywellTemp 114 T Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 3.8 RMr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 T SBGT WRGM Act 10 uCl/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.2 mph Spent FP Level 12.6 inches Wind Direction 222 degrees Spent FP Temp 88 T Diff Temp (33/375 ft) 1.4 Y

k. W .docl2

LaSalle 1996 CSEP Exertise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-13 1

Time: 0910 (100) or After CRAM Array insertion UNIT 1 i

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 77.5  % Generator Power 915 MWe SRM Power n/a eps Condensate Flow 1.6E4 gpm l j Reactor Pressure 983 psig Condenser Level 43.3 inches Reactor Level WR 34.5 inches Condenser Vacuum 3.3 in HG I 35.6 inches FW Pp D/C Press 1044 psig l l Reactor Level NR Reactor Level FZ 111 inches Feedwater Temp 342 'F l 100 M#/hr  !

Core Flow Core DP 16.8 psid l

• Jet Pump A Flow 80 M#/hr ECCS STATUS l Jet Pump B Flow 14 M#Mr j l

RR A+BTemp 529 'F HPCS Flow 0 gpm RR A+B Temp 529 *F LPCS Flow 0 gpm l Steam Flow 10.6 M#/hr RCIC Flow 0 gpm Feedwater Flow 12.4 M#Mr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#Mr RHR B Flow 0 gpm i RHR C Flow 0 gpm l CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCVcc DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc l Drywell Radiation 3.7 RMr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm l SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCl/cc , l SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc  ;

SP Temperature 93 'F SBGTWRGM Act 10 uCi/sec SBGT Flow 0 cfm l

MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.2 mph Spent FP Level 12.6 inches Wind Direction 221 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1,3 'F I .

i kwel3 l

1 LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-14 Time: 0920 (110) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 75.5  % Generator Power 911 MWe SRM Power n/a cps Condensate Flow 1.6E4 gpm Reactor Pressure 983 psig Condenser Level 43.3 inches Reactor Level WR 35.4 inches Condenser Vacuum 3.2 in HG j Reactor Level NR 35.2 inches FW Pp D/C Press 1043 psig  !

Reactor Level FZ -111 inches Feedwater Temp 341 *F Core Flow 100 M#/hr Core DP 16.4 psid  ;

• Jet Pump A Flow 80 M#/hr ECCS STATUS ,

Jet Pump B Flow 17 M#/hr i RR A+B Temp 529 'F HPCS Fiow 0 gpm i RR A+B Temp 529 'F LPCS Flow 0 gpm l Steam Flow 10.6 M#/hr RCIC Flow 0 gpm j Feedwater Flow 11.5 M#/hr RHR A Flow 0 gpm  :

CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm j RHR C Flow 0 gpm j i

CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCl/cc l Drywell Temp 114 *F Stack WRGM Mid 1.5E-4 uCl/cc l Drywell Radiation 3.5 R/hr Stack WRGM Hi 1.0E-1 uCl/cc  !

Drywell Humidity 0.08  % StackWRGM Act 2.1 E2 uCi/sec l Drywell Hydrogen 0  % Stack Flow 108 10Kcfm ,i SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCi/cc j SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCl/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCl/cc l SP Temperature 93 'F SBGTWRGM Act 10 uCl/sec j SBGT Flow 0 cfm  ;

l MET DATA.f200 ft) SPENT FUEL POOL i l

Wind Speed 13.1 mph Spent FP Level 12.6 inches Wind Direction 227 degrees Spent FP Temp 88 "F Diff Temp (33/375 ft) -1.4 *F

\

b l

khs96erps. doc \l4

LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES

. s, PLANT STATUS MESSAGE PS-15 Time: 0930 (120) UNIT 1 l

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 65.1  % Generator Power 650 .MWe SRM Power n/a cps Condensate Flow 1.2E4 gpm Reactor Pressure 971 psig Condenser Level 43.5 inches Reactor Level WR 36.8 inches Condenser Vacuum 2.7 in HG Reactor Level NR Z.1 inches FW Pp D/C Press 1005 psig Reactor Level FZ -111 inches Feedwater Temp 318 'F Core Flow 69 M#/hr 1 Core DP 12.3 paid 4 Jet Pump A Flow 35 M#/hr ECCS STATUS Jet Pump B Flow 35 M#/hr RR A+BTemp 524 *F HPCS Flow 0 gpm RR A+B Temp 524 'F LPCS Flow 0 gpm Steam Flow 7.8 M#/hr RCIC Flow 0 gpm Feedwater Flow 10.1 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc l Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCVec Drywell Radiation 3.0 R/hr Stack WRGM Hi 1.0E-1 uCVcc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm l

SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCVcc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E 4 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 13.2 mph Spent FP Level 12.6 inches Wind Direction 236 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.7 *F l

1 1

k.wm15 l

LaSalle 1996 COEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-16 l

Time: 0940 (130) UNIT 1

! REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 54.7  % Generator Power 598 MWe

, SRM Power n/a cps Condensate Flow 1.1 E4 gpm l Reactor Pressure 960 psig Condenser Level 43.5 inches Reactor LevelWR 39.0 inches Condenser Vacuum 2.5 inHG Reactor Level NR 35.9 inches FW Pp D/C Press 993 psig Reactor Level FZ -111 inches Feedwater Temp 310 'F Core Flow 70 M#Mr ,

Core DP 8.2 psid e j 4 Jet Pump A Flow 35 M#/hr ECCS STATUS -

l Jet Pump B Flow 35 M#/hr  ;

RR A+B Temp 525 'F HPCS Flow 0 gpm l RR A+B Temp 525 'F LPCS Flow 0 gpm j Steam Flow 7.3 M#/hr RCIC Flow 0 gpm '

l Feedwater Flow 8.6 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc l Drywell Radiation 2.9 R/hr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCi/cc j SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGTWRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.1 mph Spent FP Level 12.6 inches Wind Direction 226 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 1.6 'F t

• g kNas96eepsm16

1 LaSalle 1996 02EP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE I

' PS-17 I

Time: 0945 (135) UNIT 1 l

REACTOR PARAMETERS BALANCE OF PLANT l Reactor Power 22.5  % Generator Power 598 MWe SRM Power n/a cps Condensate Flow 1.1 E4 gpm j Reactor Pressure 944 psig Condenser Level 47.3 inches ,

Reactor Level WR 22.2 inches Condenser Vacuum 2.4 in HG 1 Reactor Level NR 17.2 inches FW Pp D/C Press 953 psig Reactor Level FZ -111 inches Feedwater Temp 251 *F Core Flow 33 M#/hr l Core DP 1.8 psid ,

8 Jet Pump A Flow 16.5 M#/hr ECCS STATUS Jet Pump B Flow 16.5 M#/hr RR A+B Temp 520 'F HPCS Flow 0 gpm RR A+B Temp 520 'F LPCS Flow 0 gpm Steam Flow 7.0 M#/hr RCIC Flow 0 gpm Feedwater Flow 7.7 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc Drywell Temp 114 'F Stack WRGM Mid 1.5E 4 uCi/cc Drywell Radiation 2.9 R/hr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure 0.4 psig SBGT WRGM Lo 1.0E-7 uCl/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCl/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCl/cc SP Temperature 93 *F SBGT WRGM Act 10 uCl/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 12.3 mph Spent FP Level 12.6 inches Wind Direction 228 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.6 'F l j -

kNas96etps.dodl7

LaSelle 1996 GSEP Exercise PLANT STATUS MESSAGES

!) PLANT STATUS MESSAGE PS 18 Time: 0950 (140) UNIT 1 l REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 27.5  % Generator Power 0 MWe l SRM Power n/a cps Condensate Flow 6900 gpm Reactor Pressure 944 psig Condenser Level 48.0 inches Reactor Level WR 20.9 inches Condenser Vacuum 2.5 in HG j Reactor Level NR 17.7 inches FW Pp D/C Press 960 psig Reactor Level FZ -111 inches Feedwater Temp 184 *F Core Flow 33 M#/hr l Core DP 1.8 psid 4 Jet Pump A Flow 16.7 M#/hr ECCS STATUS Jet Pump B Flow 16.7 M#/hr RR A+B Temp 520 *F HPCS Flow 0 gpm RR A+B Temp 520 F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 6.3 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm t

. CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCVec DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc  !

Drywell Radiation 2.7 R/hr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCl/cc '

SP Level NR 0.2 inches SBGT WRGM Hi 1.0E 1 uCi/cc SP Temperature 93 *F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL l l

Wind Speed 10.8 mph Spent FP Level 12.6 inches  !

Wind Direction 234 degrees Spent FP Temp 88 *F 1 Diff Temp (33/375 ft) -1.5 *F l

l I

\ .a kNas96e#s.coc\18

1 LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES

~

PLANT STATUS MESSAGE PS-19 l

Time: 1000 (150) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 27.0  % Generator Power 0 MWe l SRM Power n/a cps Condensate Flow 6650 gpm i Reactor Pressure 944 psig Condenser Level 43.6 inches l Reactor Level WR 19.8 inches Condenser Vacuum 2.5 in HG Reactor Level NR 18.5 inches FW Pp D/C Press 958 psig Reactor Level FZ -111 inches Feedwater Temp 124 'F Core Flow 33 M#/hr Core DP 1.8 psid j i

Jet Pump A Flow 16.7 M#/hr ECCS STATUS i l

Jet Pump B Flow 16.7 M#/hr RR A+B Temp 520 'F HPCS Flow 0 gpm RR A+B Temp 520 'F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 3.5 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING

] l Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc ,

Drywell Radiation 2.8 R/hr Stack WRGM Hi 1.0E 1 uCi/cc j Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec l Drywell Hydrogen 0  % Stack Flow 108 10Kcfm j SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc l SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc  !

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.8 mph Spent FP Level 12.6 inches Wind Direction 231 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.5 'F 1

l j v kNas96eeps.dod19

l LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-20 Time: 1010 (160) UNIT 1 l

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 18.0  % Generator Power 0 MWe SRM Power n/a cps Condensate Flow 3530 gpm Reactor Pressure 942 psig Condenser Level 42.1 inches Reactor Level WR 17.8 inches Condenser Vacuum 2.0 in HG Reactor Level NR 19.9 inches FW Pp D/C Press 950 psig Reactor Level FZ -111 inches Feedwater Temp 123 'F Core Flow 31 M#/hr Core DP 1.5 psid 8 Jet Pump A Flow 15.3 M#/hr ECCS STATUS Jet Pump B Flow 15.3 M#/hr RR A+B Temp 520 *F HPCS Flow 0 gpm RR A+B Temp 520 'F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm j Feedwater Flow 2.6 M#/hr RHR A Flow 0 gpm i l

CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 2.5 R/hr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec '

l Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCi/cc SP LevelWR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 10 uCl/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL.

Wind Speed 4.0 mph Spent FP Level 12.6 inches Wind Direction 229 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.4 'F s-k.wsse.w.oocc0

LaSeite 1996 CSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE

'm PS-21 Time: 1020 (170) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 9.0  % Generator Power 0 MWe SRM Power n/a cps Condensate Flow 2640 gpm Reactor Pressure 939 psig Condenser Level 41.6 inches Reactor Level WR 22.2 inches Condenser Vacuum 1.9 in HG  !

Reactor Level NR 19.0 inches FW Pp D/C Press 944 psig Reactor Level FZ -111 inches Feedwater Temp 129 'F Core Flow 26 M#/hr Core DP 1.1 psid 4 Jet Pump A Flow 13.6 M#/hr ECCS STATUS Jet Pump B Flow 13.6 M#/hr RR A+B Temp 519 'F HPCS Flow 0 gpm l

RR A*BTemp 519 'F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 1.7 M#/hr RHR A Flow 0 gpm l

CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT fl&QlATION MONITORING l

Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 2.3 R/hr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCL/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCl/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm l MET DATA (200 ft) SPENT FUEL POOL l

Wind Speed 10.4 mph Spent FP Level 12.6 inches l degrees Spent FP Temp 88 'F i Wind Direction 235 Diff Temp (33/375 ft) -1.6 'F l

1 l

i

%J

4

. LaSalle 1996 @SEP Exercise i PLANT STATUS MESSAGES

'% PLANT STATUS MESSAGE PS-22 1

I Time: 1030 (180) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 3.5  % Generator Power 0 MWe

SRM Power n/a ops Condensate Flow 4530 gpm Reactor Pressure 937 psig Condenser Level 40.1 inches Reactor Level WR 19.5 inches Condenser Vacuum 1.8 in HG Reactor Level NR 18.0 inches FW Pp D/C Press 941 psig l Reactor Level FZ -111 inches Feedwater Temp 128 *F

, Core Flow 23.5 M#/hr

] Core DP 0.8 psid i 4 Jet Pump A Flow 11.2 M#/hr ECCS STATUS j Jet Pump B Flow 11.2 M#/hr i RR A+B Temp 518 'F HPCS Flow 0 gpm j RR A+B Temp 518 ' 'F LPCS Flow 0 gpm gpm Steam Flow 0 M#/hr RCIC Flow 0 Feedwater Flow 0.8 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm i RHR C Flow 0 gpm '

1 i

. CONTAINMENT RADIATION MONITORING f Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc j Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCl/cc j Drywell Radiation 2.1 R/hr Stack WRGM Hi 1.0E 1 uCL/cc j Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec l Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCl/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCl/cc

] -0.2 h1ches SBGT WRGM Hi 1.0E-1 uCi/cc SP Level NR SP Temperature 93 'F SBGT WRGM Act 10 uCi/sec  ;

SBGT Flow 0 cfm j i I 4  !

l MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.0 mph Spent FP Level 12.6 inches  !

Wind Direction 232 degrees Spent FP Temp 88 'F l Diff Temp (33/375 ft) -1.6 'F i

l J .'

l kNass6egs.docG2 I

LaSalle 1996 CSEP Exer!!se PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS 23 Time: 1040 (190) UNIT 1 1

REACTOR PARAMETERS BALANCE OF PLANT l Reactor Power 0  % Generator Power 0 MWe SRM Power n/a cps Condensate Flow 3740 gpm l Reactor Pressure 935 psig Condenser Level 40.1 inches Reactor LevelWR 16.2 inches Condenser Vacuum 1.7 in HG Reactor Level NR i7.9 inches FW Pp D/C Press 938 psig Recctor Level FZ -111 inches Feedwater Temp 127 'F i Core Flow 16 M#/hr Ccre DP 0.4 psid ,

j i

Jet Pump A Flow 7.9 M#/hr ECCS STATUS Jet Pump B Flow 7.9 M#/hr i

RR A+B Temp 518 'F HPCS Flow 0 gpm RR A+B Temp 518 'F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 0.3 M#/hr RHR A Flow 0 gpm 4 CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm l RHR C Flow 0 gpm i m 2

jg CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc Drywell Temp 114 *F Stack WRGM Mid 1.5E-4 uCi/cc

, Drywell Radiation 2.0 R/hr Stack WRGM Hi 1.0E 1 uCi/cc I

- Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCi/sec l Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure 0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc '

SP Level NR 0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 *F SBGT WRGM Act 10 uCl/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 10.7 mph Spent FP Level 12.6 inches Wind Direction 233 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.5 'F l

/

% = 23 1

LaSalle 1996 COEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-24 UNTT 1 Time: 1050 (200)

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 1940 cps Condensate Flow 3740 gpm 929 psig Condenser Level 40.1 inches Reactor Pressure Reactor Level WR 16.8 inches Condenser Vacuum 1.7 in HG 18.0 inches FW Pp D/C Press 935 psig Reactor Level NR Reactor Level FZ -111 inches Feedwater Temp 127 *F Core Flow 15 M#/hr Core DP 0.4 psid Jet Pump A Flow 7.7 M#/hr ECCS STATUS l a

7.7 M#/hr l Jet Pump B Flow RR A+B Temp 517 *F HPCS Flow 0 gpm  !

RR A+B Temp 517 *F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm

- Feedwater Flow 0.1 M#/hr RHR A Flow 0 gpm ,

CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm t l

RHR C Flow 0 gpm I

1 1

CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCVcc DrywellTemp 114 *F Stack WRGM Mid 1.5E-4 uCl/cc Diywell Radiation 2.0 R/hr Stack WRGM Hi 1.0E-1 uCVcc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCVsec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm

-0.4 psig SBGT WRGM Lo 1.0E 7 uCVec  ;

SP Pressure I 0.12 ft SBGT WRGM Mid 1.0E-4 uCVec SP Level WR SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCi/cc SP Temperature 93 *F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm SPENT FUEL POOL l MET D ATA (200 ft)

Wind Speed 7.7 mph Spent FP Level 12.6 inches 238 degrees Spent FP Temp 88 *F Wind Direction Diff Temp (33/375 ft) -1.6 *F

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LaSalle 1996 CSEP Exersise PLANT STATUS MESSAGES PLANT STATUS MESSAGE m PS-25 Time: 1100 UNIT 1 (210)

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 1050 cps Condensate Flow 3740 gpm Reactor Pressure 924 psig Condenser Level 40.1 inches Reactor LevelWR 21.6 inches Condenser Vacuum 1.7 in HG Reactor Level NR 17.5 inches FW Pp D/C Press 926 psig Reactor Level FZ -111 inches Feedwater Temp 126 'F Core Flow 15 M#/hr Core DP 0.4 psid a Jet Pump A Flow 7.7 M#/hr ECCS STATUS Jet Pump B Flow 7.7 M#/hr RR A+B Temp 516 'F HPCS Flow 0 gpm RR A+B Temp 516 *F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm

- Feedwater Flow 0.1 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm HHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 2.0 R/hr Stack WRGM Hi 1.0E 1 uCi/cc Drywell Humidity 0.08  % StackWRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCl/cc SP Temperature 93 'F SBGTWRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.3 mph Spent FP Level 12.6 inches Wind Direction 239 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.5 'F kNas96erps.coc\25 f

LaSalle 1996 GHEP Exercise PLANT STATUS MESSAGES l l

' PLANT STATUS MESSAGE l PS-26 l

Time: 1110 (220) UNIT 1 4

. REACTOR PARAMETERS BALANCE OF PLANT l

I Reactor Power 0  % Generator Power 0 MWe l 4

SRM Power 670 cps Condensate Flow 3740 gpm i Reactor Pressure 910 psig Condenser Level 40.1 inches Reactor Level WR 22.4 inches Condenser Vacuum 1.7 in HG Reactor Level NR 18.0 inches FW Pp D/C Press 913 psig l Reactor Level FZ -111 inches Feedwater Temp 125 *F l i Core Flow 15 M#Mr l Core DP 0.4 psid Jet Pump A Flow 7.6 M#/hr ECCS STATUS ,

, Jet Pump B Flow 7.6 M#/hr l RR A+B Temp 515 F HPCS Flow 0 gpm RR A+B Temp 515 *F LPCS Flow 0 gpm ,

Steam Flow 0 M#/hr RCIC Flow 0 gpm l Feedwater Flow 0.1 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm

,J 9 CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCVcc Drywell Temp 114 *F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 2.0 R/hr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm ,

SP Pressure 2.4 psig SBGT WRGM Lo 1.0E-7 uCl/cc '

4 SP Level WR 0.12 ft SBGT WRGM Mid 1.0E-4 uCi/cc '

i SP Level NR 0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc

SP Temperature 93 *F SBGT WRGM Act 10 uCl/sec ,

i SBGT Flow 0 cfm l I

l MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.9 mph Spent FP Level 12.6 inches

, Wind Direction 231 degrees Spent FP Temp 88 'F 1

Diff Temp (33/375 ft) -1.6 *F l

l l

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LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-27 Time: 1120 (230) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT  !

Reactor Power 0  % Generator Power 0 MWe SRM Power 605 cps Condensate Flow 3700 gpm Reactor Pren: re 8% psig Condenser Level 40.1 inches Reactor Level WR 19.7 inches Condenser Vacuum 1.7 inHG Reactor Level NR 18.0 inches FW Pp D/C Press 897 psig Reactor Level FZ -111 inches Feedwater Temp 124 'F l Core Flow 15 M#/hr Core DP 0.4 psid 3 Jet Pump A Flow 7.6 M#/hr ECCS STATUS Jet Pump B Flow 7.6 M#/hr RR A+B Temp 514 *F HPCS Flow 0 gpm RR A+B Temp 514 'F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm

. Feedwater Flow 0.1 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm II CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCVec Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 2.0 R/hr Stack WRGM Hi 1.0E 1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCl/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E 4 uCi/cc SP Level NR 0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 10 uCi/sec SBGT Flow 0 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 8.3 mph Spent FP Level 12.6 inches Wind Direction 238 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.7 'F e

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LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES r

PLANT STATUS MESSAGE e PS-28 r

Time: 1130 (240) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Heactor Power 0  % Generator Power 0 MWe  !

j SRM Power 540 cps Condensate Flow 3700 gpm  !

i Reactor Pressure 882 psig Condenser Level 40.0 inches Reactor LevelWR 19.7 inches Condenser Vacuum 1.7 in HG l Reactor Level NR 18.0 inches FW Pp D/C Press 881 psig l < Reactor Level FZ -111 inches Feedwater Temp 115 *F Core Flow 15 M#Mr Core DP 0.4 paid M#Mr ECCS STATUS 4 Jet Pump A Flow 7.6 j Jet Pump B Flow 7.6 M#Mr j RR A+B Temp 513 'F HPCS Flow 0 gpm RR A+B Temp 513 'F LPCS Flow 0 gpm 2

Steam Flow 0 M#Mr RCIC Flow 0 gpm

. Feedwater Flow 0.1 M#Mr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#Mr RHR B Flow 0 gpm

3. RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCVcc DrywellTemp 114 *F Stack WRGM Mid 1.5E-4 uCVcc Drywell Radiation 2.0 RMr Stack WRGM Hi 1.0E-1 uCVcc

! Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCVsec Drywell Hydrogen 0  % Stack Flow 108 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 7 uCVec SP Level WR 0.12 ft SBGT WRGM Mid 1.0E 4 uCVcc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCVcc

SP Temperature 93 'F SBGTWRGM Act 10 uCVsec 1 SBGT Flow 0- cfm 1

MET DATA (200 ft) SPENT FUEL POo1 Wind Speed 7.9 mph Spent FP Level 12.6 inches j Wind Direction 241 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) -1.5 F v

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LaSelle 1996 GSEP Exercise PLANT STATUS MESSAGES m PLANT STATUS MESSAGE PS 29 Time: 1140 (250) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 320 cps Condensate Flow 3700 gpm Reactor Pressure 825 psig Condenser Level 40.0 inches Reactor Level WR 38.5 inches Condenser Vacuum 1.8 in HG Reactor Level NR 36.9 inches FW Pp D/C Press 827 psig Reactor Level FZ -111 inches Feedwater Temp 109 T Core Flow 1.4 M#/hr Core DP 0.4 psid a Jet Pump A Flow 7.4 M#/hr ECCS STATUS Jet Pump B Flow 7.4 M#/hr RR A+B Temp 513 T HPCS Flow 0 gpm RR A+B Temp 513 T LPCS Flow 0 gpm l Steam Flow 0 M#Mr RCIC Flew 0 gpm I

. Feedwater Flow 0.2 M#Mr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#Mr RHR B Flow 0 gpm RHR C Flow 0 gpm

. CONTAINMENT RADIATION MONITORING l 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc j Drywell Pressure '

DrywellTemp 114 Y Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 2.0 RMr Stack WRGM Hi 1.0E 1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec l Drywell Hydrogen 0  % Stack Flow 108 10Kcfm i SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-7 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.0E 4 uCi/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 T SBGT WRGM Act 10 uCi/sec SBGT Flow 0' cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 T Diff Temp (33/375 ft) 0 Y t

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LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-30 Time: 1145 (255) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 230 cps Condensate Flow 0 gpm Reactor Pressure 30 psig Condenser Level 32.9 inches Reactor LevelWR -150 inches Condenser Vacuum 2.2 in HG Reactor Level NR 0 inches FW Pp D/C Press 25 psig

. Reactor Level FZ -211 inches Feedwater Temp 106 *F l Core Flow 0 M#/hr l Core DP 02 psid ,

s Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 275 *F HPCS Flow 0 gpm RR A+B Temp 275 'F LPCS Flow 0 gpm i Steam Flow 0 M#/hr RCIC Flow 0 gpm l Feedwater Flow 0.9 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0 M#/hr RHR B Flow 0 gpm ,

RHR C Flow 0 gpm )

I CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCl/cc j Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc 1 Drywell Radiation 2.3 R/hr Stack WRGM Hi 1.0E-1 uCi/cc j Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 0 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 3.0E-4 uCl/cc SP Level WR 0.12 ft SBGT WRGM Mid 3.0E-4 uCl/cc

• SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 50 uCi/sec SBGT Flow 4000 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F 1 Diff Temp (33/375 ft) 0 'F

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l LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES l l

.,' PLANT STATUS MESSAGE ,

PS-31  !

Time: 1150 (260) UNIT 1 1 \

REACTOR PARAMETERS BALANCE OF PLANT l

l Reactor Power 0  % Generator Power 0 MWe l

SRM Power 225 cps Condensate Flow 0 gpm l Reactor Pressure 4 psig Condenser Level 33.0 inches l Reactor Level WR -150 inches Condenser Vacuum 6.7 in HG Reactor Level NR 0 inches FW Pp D/C Press 4 psig Reactor Level FZ 311 inches Feedwater Temp 98 'F Core Flow 0 M#/hr l Core DP 0.2 psid ,

a Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 225 *F HPCS Flow 0 gpm RR A+B Temp 225 'F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm

. Feedwater Flow 0.9 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm j CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E-7 uCi/cc l l Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 3.5 R/hr Stack WRGM Hi 1.0E-1 uCL/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 0 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 2.2E-3 uCi/cc SP Level WR 0.12 ft SBGT WRGM Mid 2.2E 3 uCl/cc '

SP Level NR -0.2 inches SBGT WRGM Hi 1.0E 1 uCl/cc SP Temperature 93 *F SBGT WRGM Act 1.4E2 uCL/see SBGT Flow 4000 cfm MET.DATAl200 ft) SPENT FUEL POOL Wind Speed O mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F a

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LaSalle 1996 CSEP Exercles l PLANT STATUS MESSAGES I

~ PLANT STATUS MESSAGE PS-32 Time: 1155 (265) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 220 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 33.0 inches j Reactor Level WR -150 inches Condenser Vacuum 10.7 in HG l Reactor Level NR 0 inches FW Pp D/C Press O psig Rea.ctor Level FZ -311 inches Feedwater Temp 92 'F Core Flow 0 M#/hr Core DP 0.2 psid 4 Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Fbw 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm  ;

RR A+B Temp 212 'F LPCS Flow 0 gpm l Steam Flow 0 M#/hr RCIC Flow 0 gpm  ;

- Feedwater Flow 0.5 M#/hr RHR A Flow 0 gpm  !

CRD Pump Flow 0 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCl/cc DrywellTemp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 4.8 R/hr Stack WRGM Hi 1.0E 1 uCi/cc ,

Drywell Humidity 0.08  % Stack WRGM Act 2.1 E2 uCi/sec I Drywell Hydrogen 0  % Stack Flow 0 10Kcfm l SP Pressure -0.4 psig SBGT WRGM Lo 2.3E-2 uCi/cc ,

SP Level WR 0.12 ft SBGT WRGM Mid 2.3E 2 uCi/cc SP Level NR -0.2 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 'F SBGTWRGM Act 6.5E2 uCi/sec j SBGT Flow 4000 cfm  ;

MET DATA (200 ft) SPENT FUEL POOL 1

Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F f*

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LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES m PLANT STATUS MESSAGE ,

PS-33 Time: 1200 (270) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 215 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 33.0 inches Reactor Level WR -150 inches Condenser Vacuum 14.4 in HG l Reactor Level NR 0 inches FW Pp D/C Press O psig Reactor Level FZ -311 inches Feedwater Temp 88 'F Core Flow 0 M#/hr Core DP 0.2 psid a Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr

! RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+8 Temp 212 'F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm  ;

- Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm l

CONTAINMENT RADIATION MONITORING  ;

Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc DrywellTemp 114 *F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 6.0 R/hr Stack WRGM Hi 1.0E-1 uCl/cc ~

l Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCi/sec  !

Drywell Hydrogen 0  % Stack Flow 0 10Kcfm l

l SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-1 uCl/cc SP Level WR 0.12 ft SBGT WRGM Mid 1.2E 1 uCi/cc ' i SP Level NR -0.2 inches SBGT WRGM Hi 1.2E 1 uCl/cc SP Temperature 93 'F SBGT WRGM Act 2.6E3 uCi/sec SBGT Flow 4000 cfm 1 l

l MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F O

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LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES

. PLANT STATUS MESSAGE PS-34 Time: 1205 (275) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 175 cps Condensate Flow 0 gpm Reactor Pressure o psig Condenser Level 32.2 inches Reactor LevelWR 60 inches Condenser Vacuum 17.6 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig Reactor Level FZ -111 inches Feedwater Temp 99 'F Core Flow 0 M#/hr Core DP 0.2 psid ,

4 Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 *F HPCS Flow 4000 gpm RR A+BTemp 212 'F LPCS Flow 0 gpm Steam Fk>w 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc Drywell Temp 114 'F Stack WRGM Mid 1.5E-4 uCi/cc Drywell Radiation 5.9 R/hr Stack WRGM Hi 1.0E-1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCVsec Drywell Hydrogen 0  % Stack Flow 0 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-1 uCi/cc SP Level WR -0.36 ft SBGT WRGM Mid 4.3E-1 uCi/cc '

SP Level NR 5.5 inches SBGT WRGM Hi 4.3E-1 uCi/cc ,

SP Temperature 93 'F SBGTWRGM Act 9.5E3 uCi/sec SBGT Flow 4000 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F f

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LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE lO I

PS-35 Time: 1210 (280) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT l

Reactor Power 0  % Generator Power 0 MWe SRM Power 165 cps Condensate Flow 0 gpm l

Reactor Pressure O psig Condenser Level 32.4 inches Reactor Level WR 60 inches Condenser Vacuum 20.5 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig

! Reactor Level FZ -111 inches Feedwater Temp 99 *F Core Flow 0 M#/hr Core DP 0.2 psid a Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr i RR A+B Temp 212 *F HPCS Flow 4000 gpm l RR A+B Temp 212 *F LPCS Flow 0 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm

. Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.2E 7 uCi/cc Drywell Temp 114 *F Stack WRGM Mid 1.5E-4 uCl/cc Drywell Radiation 5.9 R/hr Stack WRGM Hi 1.0E 1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 2.1E2 uCl/sec Drywell Hydrogen 0  % Stack Flow 0 10Keim l SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 1 uCi/cc SP Level WR -0.97 ft SBGT WRGM Mid 5.7E 1 uCl/cc ,

l i SP Level NR 12.0 inches SBGT WRGM Hi 5.7E 1 uCi/cc SP Temperature 93 'F SBGT WRGM Act 1.2E4 uCi/sec i

SBGT Flow 4000 cfm l

l

[ MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 *F Diff Temp (33/375 ft) 0 *F t

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i

LaSalle 1996 COEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE

' PS-36 Time: 1215 (285) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 160 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.4 inches Reactor LevelWR 60 inches Condenser Vacuum 24.8 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig Reactor Level FZ -111 inchcs Fee $ rater Temp 95 "F Core Flow 0 M#/hr Core DP 0.2 psid 4 Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 *F HPCS Flow 0 gpm RR A+B Temp 212 *F LPCS Flow 1800 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm

- Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 1.0E 1 uCi/cc Drywell Temp 114 'F Stack WRGM Mid 1.7E 1 uCi/cc Drywell Radiation 5.8 R/hr Stack WRGM Hi 1.7E 1 uCi/cc Drywell Humidity 0.08  % StackWRGM Act 5.0E7 uCl/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 1 uCl/cc SP Level WR -1.3 ft SBGT WRGM Mid 5.3E-1 uCi/cc ,

SP Level NR -15.6 inches SBGT WRGM Hi 5.3E-1 uCi/cc SP Temperature 93 *F SBGTWRGM Act 1.2E4 uCl/sec SBGT Flow 4000 cfm 1

MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F

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l LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS 37 Time: 1220 UNIT 1 (290) l REACTOR PARAMETERS BALANCE OF PLANT l

Reactor Power 0  % Generator Power 0 MWe l

l SRM Power 157 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.4 inches Reactor LevelWR 60 inches Condenser Vacuum 27.6 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig

! Reactor Level FZ -111 inches Feedwater Temp 90 'F l l Core Flow 0 M#/hr Core DP 0.2 psid 4 Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm l RR A+B Temp 212 'F LPCS Flow 50 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm l 0 gpm Feedwater Flow 0 M#/hr RHR A Flow CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm l 0 gpm RHR C Flow l

1 CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 1.0E-1 uCl/cc Drywell Temp 114 'F Stack WRGM Mid 1.3E-1 uCVcc R/hr Stack WRGM Hi 1.3E 1 uCVcc I Drywell Radiation 5.8 Drywell Humidity 0.08  % Stack WRGM Act 2.3E7 uCl/sec l Drywell Hydrogen 0  % Stack Flow 56 10Kcfm I SP Pressure -0.4 psig SBGT WRGM Lo 1.0E-1 uCi/cc  !

SP Level WR -1.3 ft SBGT WRGM Mid 4.0E-1 uCi/cc '

-15.6 inches SBGT WRGM Hi 4.0E-1 uCVec SP Level NR SP Temperature 93 'F SBGT WRGM Act 7.3E3 uCi/sec i SBGT Flow 4000 cfm l I

MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches l f degrees Spent FP Temp 88 'F l Wind Direction 0 Diff Temp (33/375 ft) 0 'F e i e

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LaSalle 1996 CSEP Exercise l PLANT STATUS MESSAGES

~

PLANT STATUS MESSAGE PS-38 Time: 1230 (300) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 150 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.4 inches Reactor LevelWR 60 inches Condenser Vacuum 29.8 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig Reactor Level FZ -111 inches Feedwater Temp 85 'F Core Flow 0 M#/hr Core DP 0.1 psid 4 Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+B Temp 212 'F LPCS Flow 50 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 2.0E-2 uCi/cc Drywell Temp 114 * *F Stack WRGM Mid 1.2E-2 uCl/cc Drywell Radiation 5.7 R/hr Stack WRGM Hi 1.0E-1 uCi/cc Drywell Humidity 0.08  % Stack WRGM Act 3.3E5 uCl/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 9.0E-2 uCi/cc SP Level WR -1.3 ft SBGT WRGM Mid 9.0E-2 uCi/cc '

SP Level NR -15.6 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 *F SBGT WRGM Act 9.5E2 uCi/sec SBGT Flow 4000 cfm j MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F l Diff Temp (33/375 ft) 0 "F 1

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LaSalie199c 6* w r.2 m PLANT STATUi35'MSSAGES

, PLANT STATUS MESSAGE PS 39 Time: 1&' (320) UNIT 1 REACTOR PARAMETERS QL 5. DUNG off PLANT ,

l

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l Reactor Power 0  %. Gm :m mecrPower 0 MWe cps SRM Power 132 Cor }~mme Pow 0 gpm l Reactor Pressure O psig Con cco!NLevel 32.0 inches Reactor LevelWR 60 inches Cersf r#.>merVacuum 30.0 in HG Reactor Level NR 50 inches FW $ M 0,C %es O peig Reactor Level FZ -111 inches Feep+2do.ter Temp 85 Y Core Flow 0 M#/hr Core DP 0.1 paid .

4 Jet Pump A Flow 0 M#/hr g.QJ;ff G r n t1; i Jet Pump B Flow 0 M#/hr RR A+B Temp 212 *F HPCB FC3 Ac*' O gpm RR A+B Temp 212 T LPCS 31? Pcw 50 gpm i Steam Flow 0 M#/hr RCIO C~; Scw 0 , gpm Feedwater Flow 0 M#/hr - RHR A i A Ccw 0 gpm CRD Pump Flow 0.03 M#/hr RHRBFSFN O gpm RHRCF1Ocw 0 gpm J

- CONTAINMENT R ADIWQMN MONITORING Drywell Pressure 0.19 poig Stack WA wnM Lo 2.0E-4 ' uCi/cc DrywellTemp 114 T Stack WR 'i%M Mid 2.0E-4 uCVcc Drywell Radiation 5.5 R/hr Stack WP 71GM Hi 1.0E-1 uCVoc Drywell Humidity 0.08  % Stack Wh , /pGM Act 4.0E3 uCVsec l 0  % Stack PC w j Drywell Hydrogen 56 10Kcfm i l

l SP Pressure -0.4 psig SBGT WT? :GV Lo 7.0E-4 -uCWec SP Level WR -1.3 ft SBGT Wit '7M Mid 7.0E 4 uCVec '

SP Level NR -15.6 inches SBGT WR M V Hi 1.0E uCVcc SP Temperature 93 'F SBGT WR ~ iM Act - 1.3E2 uCVsec SBGT Flav 4000 cfm MET DATA (200 ft) SPENT FQ! n poot.

Wind Speed 0 mph Spent FP t F 12.6 inches degrees Spent FP Te op l Wind Direction 0 88 Diff Temp (33/375 ft) 0 *F

, 1 l

3 kNesesseps.docWO

LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-41 UNIT 1 Time: 1300 (330)

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 124 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.0 inches Reactor Level WR 60 inches Condenser Vacuum 30.0 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig Reactor Level FZ -111 inches Feedwater Temp 85 'F Core Flow 0 M#Mr Core DP 0.1 psid

• Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#Mr RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+B Temp 212 'F LPCS Flow 50 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 0 M#Mr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHRCRow 0 gpm CONTAINMENT MDjAIlpti MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 1.1 E-5 uCi/cc DrywellTemp 114 *F Stack WRGM Mid 1.0E-4 uCi/cc Drywell Radiation 5.4 RMr Stack WRGM Hi 1.0E 1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 7.0E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 4.3E-5 uCi/cc SP Level WR -1.3 ft SBGT WRGM Mid 1.0E-4 uCL/cc ,

SP Level NR -15.6 inches SBGT WRGM Hi 1.0E 1 uCVcc SP Temperature 93 'F SBGT WRGM Act 30 uCi/sec SBGT Flow 4000 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F

. \

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l kNas96ex5s.docW1 l 1

LaSalle 1996 C"EP Exercise PLANT STATUS MESSAGES

^

PLANT STATUS MESSAGE PS-39 Time: 1240 (310) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT l

Reactor Power 0  % Generator Power 0 MWe l SRM Power 140 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.0 inches ,

Reactor LevelWR 60 inches Condenser Vacuum 30.0 in HG  !

Reactor Level NR 50 inches FW Pp D/C Press O psig l Reactor Level FZ -111 inches Feedwater Temp 85 'F Core Flow 0 M#/hr Core DP 0.1 psid a Jet Pump A Flow 0 M#/hr ECCS STATUS l Jet Pump B Flow 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+B Temp 212 'F LPCS Flow 50 gpm (

Steam Flow 0 M#/hr RCIC Flow 0 . gpm

- Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 2.0E-4 uCi/cc Drywell Temp 114 *F Stack WRGM Mid 2.0E-4 uCi/cc Drywell Radiation 5.6 R/hr Stack WRGM Hi 1.0E 1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 4.0E3 uCi/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm i SP Pressure -0.4 psig SBGT WRGM Lo 7.0E-4 uCi/cc SP Level WR -1.3 ft SBGT WRGM Mid 7.0E-4 uCi/cc '

i SP Level NR -15.6 inches SBGT WRGM Hi 1.0E-1 uCi/cc 1 SP Temperature 93 'F SBGT WRGM Act 1.3E2 uCi/sec  !

SBGT Flow 4000 cfm MET DATA (2QfLtil SPENT FUEL POOL j Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F l Diff Temp (33/375 ft) 0 'F i

kNas96 eros.coc\39

LaSalle 1996 GSEP Exercise .

PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-40 UNIT 1 Time: 1250 (320)

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 132 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.0 inches Reactor LevelWR 60 inches Condenser Vacuum 30.0 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig Reactor Level FZ 111 inches Feedwater Temp 85 'F Core Flow 0 M#/hr Core DP 0.1 psid a Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr l RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+B Temp 212 'F LPCS Flow 50 gpm ,

Steam Flow 0 M#/hr RCIC Flow 0 gpm )

Feedwater Flow 0 M#/hr RHR A Flow 0 gpm j CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.0E-5 uCVec Drywell Temp 114 'F Stack WRGM Mid 1.0E-4 uCVcc Drywell Radiation 5.5 R/hr Stack WRGM Hi 1.0E 1 uCVcc Drywell Humidity 0.08  % StackWRGM Act 1.2E3 uCi/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.5E 4 uCi/cc SP Level WR -1,3 ft SBGT WRGM Mid 1.5E-4 uCi/cc ,

SP Level NR -15.6 inches SBGT WRGM Hi 1.0E 1 uCl/cc SP Temperature 93 *F SBGT WRGM Act 50 uCi/sec SBGT Flow 4000 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 *F Diff Temp (33/375 ft) 0 'F k.Ws96erps.doMO

LaSalle 1996 CSEP Exercise PLANT STATUS MESSAGES l 1 \

PLANT STATUS MESSAGE

^

l PS-41 1

Time: 1300 UNIT 1 (330) l l

REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 124 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.0 inches Reactor Level WR 60 inches Condenser Vacuum 30.0 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig

! Reactor Level FZ -111 inches Feedwater Temp 85 'F i Core Flow 0 M#/hr Core DP 0.1 psid '

• Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm HR A+8 Temp 212 *F LPCS Flow 50 gpm l Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm l

RADIATION MONITORING

} CONTAINMENT Drywell Pressure 0.19 psig Stack WRGM Lo 1.1E 5 uCi/cc Drywell Temp 114 'F Stack WRGM Mid 1.0E 4 uCi/cc Drywell Radiation 5.4 R/hr Stack WRGM Hi 1.0E 1 uCl/cc Drywell Humidity 0.08  % Stack WRGM Act 7.0E2 uCt/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure 0.4 psig SBGT WRGM Lo 4.3E-5 uCi/cc SP Level WR 1.3 ft SBGT WRGM Mid 1.0E-4 uCi/cc ,

SP Level NR -15.6 inches SBGT WRGM Hi 1.0E-1 uCi/cc SP Temperature 93 *F SBGTWRGM Act 30 uCi/sec SBGT Flow 4000 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F t Diff Temp (33/375 ft) 0 'F l

l kNas96exW.dod41 l

l

. .m _ _ _ _ _ _ . , __ . _ _ _ .____ _ . __. _ . _ __ _ __ . _ . - _ _ _ _ _ _ _ _ ._ ___

l LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES l PLANT STATUS MESSAGE PS 42 Time: 1315 (345) UNIT 1 i

I REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 112 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.0 inches Reactor Level WR 60 inches Condenser Vacuum 30.0 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig Reactor Level FZ -111 inches Feedwater Temp 85 *F i Core Flow 0 M#/hr Core DP 0.1 paid s Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+B Temp 212 'F LPCS Flow 50 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm

. Feedwater Flow 0 M#/hr RHR A Flow 0 gpm

CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 4.5E-6 uCVcc DrywellTemp 114 *F Stack WRGM Mid 1.0E-4 uCVcc Drywell Radiation 5.2 R/hr Stack WRGM Hi 1.0E-1 uCVcc Drywell Humidity 0.08  % Stack WRGM Act 5.5E2 uCVsec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 2.0E-5 uCi/cc SP Level WR -1.3 ft SBGT WRGM Mid 1.0E 4 uCl/cc '

SP Level NR -15.6 inches SBGT WRGM Hi 1.0E-1 uCVcc SP Temperature 93 'F SBGTWRGM Act 20 uCl/sec SBGT Flow 4000 cfm MET DATA (2003) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F V

kNasseeres.cocW2 l I

LaSalle 1996 @SEP Exercise PLANT STATUS MESSAGES PLANT STATUS MESSAGE PS-43 Time: 1330 (360) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 100 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.0 inches Reactor Level WR 60 inches Condenser Vacuum 30.0 in HG l Reactor Level NR "X) inches FW Pp D/C Press O psig  !

Reactor Level FZ -111 inches Feedwater Temp 85 *F Core Flow 0 M#/hr Core DP 0.1 psid j 4 Jet Pump A Flow 0 M#/hr ECCS STATUS l Jet Pump B Flow 0 M#/hr l RR A+B Temp 212 'F HPCS Flow 0 gpm i RR A+B Temp 212 'F LPCS Flow 50 gpm l Steam Flow 0 M#/hr RCIC Flow 0 gpm I Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm l

CONTAINMENT RADIATION MONITORING f

~

Drywell Pressure 0.19 psig Stack WRGM Lo 2.1 E-6 uCVcc Drywell Temp 114 'F Stack WRGM Mid 1.0E-4 uCL/cc Drywell Radiation 5.1 R/hr Stack WRGM Hi 1.0E-1 uCVcc Drywell Humidity 0.08  % StackWRGM Act 5.0E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 1.0E 5 uCi/cc SP Level WR 1.3 ft SBGT WRGM Mid 1.0E 4 uCi/cc SP Level NR -15.6 inches SBGT WRGM Hi 1.0E-1 uCl/cc SP Temperature 93 'F SBGT WRGM Act 14 uCl/sec I SBGT Flow 4000 cfm j l

MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F Diff Temp (33/375 ft) 0 'F

'w.'

kNasseerps.oocW3

LaSalle 1996 ESEP Exercise PLANT STATUS MESSAGES 1

m '

PLANT STATUS MESSAGE PS-44  ;

l Time: 1345 (375) UNIT 1 l

l REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 87 cps Condensate Flow 0 gpm ,

Reactor Pressure O psig Condenser Level 32.0 inches l Reactor LevelWR 60 inches Condenser Vacuum 30.0 in HG j Reactor Level NR 50 inches FW Pp D/C Press O psig i Reactor Level FZ -111 inches Feedwater Temp 65 *F l Core Flow 0 M#/hr )

Core DP 0.1 psid , I a Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+8 Temp 212 'F LPCS Flow 50 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRD Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 1.2E-6 uCi/cc l DrywellTemp *F Stack WRGM Mid uCi/cc 114 1.0E-4 Drywell Radiation 4.9 R/hr Stack WRGM Hi 1.0E 1 uCL/cc Drywell Humidity 0.08  % Stack WRGM Act 4.5E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 6.0E-6 uCi/cc SP Level WR 1.3 ft SBGT WRGM Mid 1.0E-4 uCi/cc SP Level NR -15.6 inches SBGT WRGM Hi 1.0E 1 uCi/cc SP Temperature 93 *F SBGT WRGM Act 13 uCi/sec SBGT Flow 4000 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 *F Diff Temp (33/375 ft) 0 *F J

LaSalle 1996 GSEP Exercise PLANT STATUS MESSAGES s

PLANT STATUS MESSAGE PS-45 Time: 1400 (390) UNIT 1 REACTOR PARAMETERS BALANCE OF PLANT Reactor Power 0  % Generator Power 0 MWe SRM Power 75 cps Condensate Flow 0 gpm Reactor Pressure O psig Condenser Level 32.0 inches Reactor Level WR 60 inches Condenser Vacuum 30.0 in HG Reactor Level NR 50 inches FW Pp D/C Press O psig Reactor Level FZ -111 inches Feedwater Temp 85 'F Core Flow 0 M#/hr Core DP 0.1 psid ,

a Jet Pump A Flow 0 M#/hr ECCS STATUS Jet Pump B Flow 0 M#/hr RR A+B Temp 212 'F HPCS Flow 0 gpm RR A+B Temp 212 'F LPCS Flow 50 gpm Steam Flow 0 M#/hr RCIC Flow 0 gpm Feedwater Flow 0 M#/hr RHR A Flow 0 gpm CRO Pump Flow 0.03 M#/hr RHR B Flow 0 gpm RHR C Flow 0 gpm CONTAINMENT RADIATION MONITORING Drywell Pressure 0.19 psig Stack WRGM Lo 1.0E 6 uCi/cc ,

Drywell Temp 114 *F Stack WRGM Mid 1.0E-4 uCL/cc '

i Drywell Radiation 4.8 R/hr Stack WRGM Hi 1.0E 1 uCVec Drywell Humidity 0.08  % StackWRGM Act 4.2E2 uCi/sec Drywell Hydrogen 0  % Stack Flow 56 10Kcfm SP Pressure -0.4 psig SBGT WRGM Lo 3.5E-6 uCL/cc SP Level WR -1.3 ft SBGT WRGM Mid 1.0E-4 uCi/cc 1

SP Level NR -15.6 inches SBGT WRGM Hi 1.0E 1 uCi/cc SP Temperature 93 'F SBGTWRGM Act 12 uCi/sec SBGT Flow 4000 cfm MET DATA (200 ft) SPENT FUEL POOL Wind Speed 0 mph Spent FP Level 12.6 inches Wind Direction 0 degrees Spent FP Temp 88 'F '

Diff Temp (33/375 ft) 0 'F i

4 icusseerps.oocW5

LaSalle 1996 GSEP Exercise o

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PLANT RECORDERS O

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LaSalle 1996 GSEP Exercise PLANT RECORDERS l@c [4co 1300 1300 1230 1230 -

1200 1200 '

i 1130 '

1130 1100 '

1100 i 1030 1030 1000 1000 0930 0930 0900 0900 0830 0830 ,

t 0800 0800 t i

0730 0730 0700 0700 tem-w -w no -se ~ o w so  % -zeo -zso -no -no .go -m %

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( 0 . . s LaSalle 1996 GSEP Exercise PLANT RECORDERS 1400 M 1300 l 1300 1230 1230 1200 1200 g j ,

1130 '

1130 l

1100 1100 1030 1030 1000 1000 0930 0930 .

0900 0900 0830 0830 '

0800 0800 '

0730 0730 0700 , , , , . , ,o yo g,oO 0700 o 2s so Ts ico izs RR PUMP SUCTION TEMPERATURE JET PUMP FLOW /

1833-R650 CORE PLATE FLOW 1B21-R613 1 RED A TEMP 2 GREEN B TEMP 1 RED JET PUWP FLOW 2 GREEN CORE PLATE FLOW t

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t.aSalle 1996 GSEP Exercise PLANT RECORDERS ll40D l@O 1300 1300 1230 1230 1200 1200 1130 1130 1100 .

1100 1030 '

1030 1000 i

- - 1000 '

0930 g 0930 0900 k -

0900 0830 1 I 0830 I 0800 0730 I 0800 I 0730 i 0700 I 0 25 so 75 100 125 0700 I o 25 50 75 10 0' 125 1RM/APRM 1CS1-R603A IRM/APRM 1 RED 1C-51-R6038 IRM A/APRM A RX POWER 2 GREEN % C/APRM C RX POWER 1 RED IRM B/APRM B RX POWER 2 GREEN IRM D/APRM D RX POWER

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LaSalle 1996 GSEP Exercise  !

PLANT RECORDERS l

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'"" 1130 A 1130 1130 3 -

1100 1100 \ i 1100

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0730 0730 0730 0700 0700 l '

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Da O DOO 200 300 4D0 500 loco 0700 '

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LaSalle 1996 GSEP Exercise PLANT RECORDERS ltfoO ;

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2 GREEN DRYWELL PRESS WIDE RG

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LaSalle 1996 GSEP Exercise PLANT RECORDERS ll100 N 1300 1300 1230 11 I 1230 1200 1200 1130 1130 1100 I~ 1100 I

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1030 I 1030 i 1000 11 1 1000 11 0930 0930 1 0900 II 0900 i 0830 I 0830 I 0800 l 0800 I 0730 I 0730 I 0700 De o l

se zoo so 42, @ W 0700 1 o iz 3 4 3 7 g S? O Ico 2co m #+O 7c DW/SP AIR TEMP (BLUE) 1TR-CM038B POST LOCA GROSS GAMMA RAD (BLUE) 1RR-CM017 REEN DR R EMP 3 BLUE SUPP CHAMBER AIR TEMP

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s LaSalle 1996 GSEP Exercise 6

CR RAD MONITORS G

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1

LaSalle 1996 @SEP Exercise CONTROL ROOM RAD DATA TIME: 0700 ( -30 )

-m, AREA RADIATION 1D21 - P600 5 6 3 ARM POWER SUPPLY RB 620 RB 766 Aux Bidg Cnmt RB 607 SBGT RT Phase Sep RX Sempio Sin 6on Purge 600 V 1D21 K602A 1021 K601G 1D21-1D21 K6028 11 12 13 1-4 3 8 <1 5 5 6 RB 761 RB 761 TB Off Gas RB RB 740 RB740 RB North HCU RB South HCU Sample Sim60n TIP Room RB TIP Detve UnMs RB CRD Storage 1D21 K601C 1D21 K601D 1D21 K601N 1021 K6020 1D21-K601E 1021 K601T 15 1-6 17 18 1-9 1 10 25 20 1 8 ARM POWER SUPPLY RB 710 RB 710 TB TBCP RB A RHR Hx Rm RB B RHR Hx Rm Sample Ses6cn Regen VIv Aiele 600 V 1021 K602F ID21 K602E 1021-K601U 1021 K602P 1 11 1 12 1 13 1 14 7 6 2 <1 <1 TB RB 673 RB 673 TB Aux Electric SPARE URC VIv Aiele RB RCIC Room RB HPCS Pp Rm CD/CB Pmpe Equip Room 1D21-K602G 1D21 K602G 1021 K601H 1D21 K6010 1D21 K601F 1-15 1 16 1 17 1 18 1-19 REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 9.73E+2 9.73E+2 9.73E+2 9.73E+2 1 A Main Steam 18 Main Steam 1C Main Steam 1D Main Stearr une Rad Monitor Une Rad Monitor une Rad Monitor une Rad Monitor 1D18-K610A 1D18-K610B 1D18-K610C 1D18-K610D 1

1

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l

LaSalle 1996 CSEP Exercise CONTROL ROOM RAD DATA TIME: 0700 ( -30 )

s.

AREA RAD COMMON MON 1H13 - P624 200 <1 3 ARM POWER SUPPLY Refuel HI Refuel Low New Fuel Refuel Floor Swage VeuR Equip Hath 600 V OD21-K604A 0021 K601M 0021 K601N 0021 K601 A 3-1 32 3-3 S4 i

<1 <.1 1 1 1 <1 j Aux Bidg Vent Control Room TB Hi Press TB RB Aux Bidg Hot i Stad Sample TurtWnes Decon PM Trachvey 12 Corddor I 0021 K6010 0021-K600A 0021-K601P 0021-K6010 0021 K601R 0021 K601S 3-5 34 37 34 3-9 3-10

<1 <1 <1 7 ARM POWER SUPPLY TB Off Gas BMG Off Gas Badg Offe Bldg Basement Elevator HVAC Exhaust Upper Bomt Char Abe Vtv Adele 600 V 0021 K6010 0021 K601K OD21 K601L 0021 K602B 3 11 3-12 3 13 3 14 m

<.1 <1 <1 <.1 SeMoe Badg SeMee Bldg SeMce Bldg SeMce Bldg SPARE SPARE Orke Coddor Laundry Machine Shop Lunch Rm Corndor 0021 K600C OD21.K601T 0021 K601V OD21 K600F 3 15 3 16 3 17 3-18 PROCESS RAD MONITORS '

1H13 - P604 6.7E-8 2.63E+1 40 60 Off Gas Pre-Trtml Off Gas Pre-Trtmt 1 A Off Gas Post Trtmt 1B Off-Gas Post Trtmt Linear Monitor Log Monitor Rad Monitor Rad Monitor 1D18-K600 1 D18-K613 1D18-K601 A 1D18-K601B 343 252 2.4E+3 530 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr Rad Monitor Rad Monitor '

Rad Monitor Rad Monitor 1D18-K604 1018-K605 1D18-K607 1D18-K608 J'

LaSalle 1996 @SEP Exercise CONTROL ROOM RAD DATA TIME: 0752 (25) 9 r AREA RADIATION 1D21 - P600 5 6 3 ARM POWER SUPPLY RB 620 R8 766 Aux Bldg Cnmt RS 607 SBGT RT Phoes Sep RX Semple Ste6an Purge 600 V 1021 K602A 1D21-K601G 1021-1D21 K6028 11 12 1-3 14 3 6 <1 5 5 6 i

R8 761 RB 761 TB Off Gas R8 RB 740 R8 740 R8 Notti HCU RB South HCU Semple Staten TIP Room RB TIP Drive Unite R8 CRD Storege 3

10214601C 1021-K601D 1D21 K601N 102146020 1021 K601E 10214601T 16 14 17 18 1-9 1 10 25 20 1 6 ARM POWER SUPPLY RB 710 RB 710 TB TBCP R8 A RHR Hx Rm R8 B RHR Hx Rm Semple Ste6cn Regen Viv Aiele 600 V 1D21 K602F 1021 K602E 1D21 K601U 1021 K602P i 1 11 1 12 1 13 1 14 l 7 6 2 <1 <1 TB RS 673 RS 673 TB Aux Elecirte SPARE URC Viv Aiele R8 RCIC Room RB HPCS Pp Rm CD/C8 Pmpo E@lp Room 1021 K602G 1021 K602G 1021-K601H 1021-K6010 1021 K601F 1 15 1 16 1 17 1 16 1 19 REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 9.88E+2 9.88E+2 9.88E+2 9.88E+2 1 A Main Steam 1B Main Steam 1C Main Steam 1D Main Steam Une Rad Monitor Line Rad Monitor Line Rad Monitor Line Rad Monitor 1D18-K610A 1D18-K610B 1D18-K610C 1D18-K610D

• e" m

6

LaSa!!e 1996(CSEP Exercise CONTROL ROOM RAD DATA TIME: 0755 ( 25 )

.q AREA RAD COMMON MON 1H13 - P624 200 <1 3 ARM POWER SUPPLY Refuel Hi Refusi Low New Fuel Refuel Floor Storage VauR Equip Hak:h 600 V 0021 K604A 0021-K601M 0021-K601N 0021 K601 A 3-1 3-2 33 34

<1 <.1 1 1 1 <1 Aux Bldg Vent Control Room TB Hi Press TB RB Aux Bug Hot ,

Stack Sample Turtnnes Oecon Pit Trackway Lab Corddor l

0021-K6010 0021 K600A 0021 K601P 0021 K6010 0021 K601R 0021 K601S  !

3-5 34 37 38 3-9 3-10

<1 <1 <1 7 ARM POWER SUPPLY TB Offh Badg Off-Gas Bidg Offh Bldg Basement Eleveer HVAC Exhaust Upper Bemt Char Abe V!v Aiele 600 V 0021 K601G 0021 K601K 0021-K601L 0021-K602B 3-11 3 12 3-13 3 14

<.1 <1 <1 <.1 l

SeMce Bidg SeMce Bidg SeMoe Badg SeMce Bidg SPARE SPARE Orace Corddor Laundry Madne Shop Lunch Rm Corddor 0021 K600C 0021.K601T 0021 K601V 0021 K600F 3 15 3-16 3-17 3-18 PROCESS RAD MONITORS 1H13 - P604 6.9E 8 3.20E+1 42 63 Off-Gas Pre Trtmt Off Gas Pre-Tftmt 1 A Off-Gas Post Trtmt 18 Off-Gas Post Trtmt unear Monitor Log Monitor Rad Monitor Rad Monitor 1D18-K600 1D18-K613 1D18-K601 A 1D18-K601B 346 255 2.4E+3 540 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr Rad Monitor Rad Monitor '

Rad Monitor Rad Monitor 1D18-K604 1D18-K605 1D18-K607 1D18-K608 J

LaSalle 1996 GSEP Exercise CONTROL ROOM RAD DATA )

TIME: 0950 (140 )

'h l AREA RADIATION 1D21 - P600 4 4 3 ARM POWER SUPPLY RB 820 RB 807 RB 786 Aux Badg Cnmt SBGT RT Phase Sep RX Sampe Staton Purge 600 V 1D21-K602A 1D21-K6028 1D21-K601G 1021-11 12 13 14 M

<1 5 5 6 TB Off Gas RB RB 740 RB 740 SampleStaton TIP Room RB TiP Drive UnHs RB CRD Storege 3

1D21-K601N 1021 K602D 1D214601E 1D21-K601T 17 1-8 1-0 1 10 100 100 <1 6 RB 710 RB 710 TB TBCP ARM POWER SUPPLY RB A RHR Hx Rm RB B RHR Hx Rm Sample Staton Regen Viv Meie 1021-K602F 1021-K602E 1D21-K601U 1021 K602P 600 V 1 11 1 12 1 13 1 14 5 6 1 <1 <1 TB RB 673 RB 673 TB Aux Electric SPARE URC V1v Male RB RCIC Room RB HPCS Pp Rm CD/CB Pmpo Equip Room 1D21 K602G 1D21 K602G 1021 K601H 1021 K6010 1021-K601F 1 15 1 16 1 17 1 18 1 19 REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 9.20E+2 9.20E+2 9.20E+2 9.20E+2 1 A Main Steam 1B Main Steam 1C Main Steam 1D Main Steam Une Rad Monitor une Rad Monitor une Rad Monitor Une Rad Monitor 1D18-K610A 1D18-K610B 1D18-K610C 1D18-K6100 l

l I

LaSalle 1996 CSEP Exer: Iso l CONTROL ROOM RAD DATA TIME: 0950 (140) 1m l

I AREA RAD COMMON MON 1H13 - P624 200 <1 1 ARM POWER SUPPLY Refuel HI Refuel Low New Fuel Reluel Floor Storage Vault Equip Hatch 600 V 0021 K604A 0021 K601M 0021 K601N 0021 K601 A 3-1 32 33 34

<1 <.1 <1 <1 <1 <1 Aux Bkig Vent Contol Room TB Hi Press TB RB Aux Bldg Hot Stadt Sample Turtnnes Decon Pit Trackway Lab Contdor

• 0021 K6010 0021-K600A 0021-K601P 0021 K6010 0021 K601R 0021 K601S 35 S6 S7 3-6 3-9 S10

<1 <1 <1 4 ARM POWER SUPPLY TB Off-Gas Bidg Off Gas Bidg Off4ae Bldg Basement Elevator HVAC Exhaust Upper Bemt Cher Abe Vht Aiele 600 V 0021 K601G 0021 K601K 0021-K601L 0021-K602B 3 11 3-12 3 13 3 14 l) <.1 <1 <1 <.1 SeMoe Bldg SeMee Bidg SeMce Bldg SeMee Bidg SPARE SPARE OfAce Corridor Laundry MacNne Shop Lunch Rm Corridor 0021 K600C 0021.K601T 0021-K601V f)O21-K600F l 3-15 3 16 3-17 3 16 PROCESS RAD MONITORS 1H13 - P604 6.3E-8 3.13E+1 35 51 Off-Gas Pre-Trtmt Off Gas Pre-Trtmt - 1 A Off-Gas Post Trtmt 1B Off-Gas Post Trtml

Unear Monitor Log Monitor Rad Monitor Rad Monitor i

1D18 K600 1D18-K613 1018-K601 A 1D18-K601B 315 218 1.9E+3 445

! 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr Rad Monitor Rad Monitor .

Rad Monitor Rad Monitor 1D18 K604 1D18-K605 1D18-K607 1D18-K608

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

J

! LaSalle 1996 GSEP Exercise

CONTROL ROOM RAD DATA

TIME

1100 ( 210 )

.m l AREA RADIATION 1D21 - P600 3 3 2 ARM POWER SUPPLY RB 820 RB786 Aux B6dg Cnmt RB 807 SBGT RT Phase Sep RX Sample Stagon Purge WV 1D21-K602A 1021 K6028 1D21-K601G 1021 11 12 1-3 1-4

<1 4 4 o Tb Off Gas RB RB 740 RB 740 Sample Stanon TIP Room RB TIP Drtvo UrWts RB CR0 Storage 1021-K601N 1021-K602D 1D21 K601E 1021-K601T 17 1-8 1-9 1 10

<1 5 ARM POWER SUPPLY TB TBCP Sample Stanon Regen VN awe 600 V 1D21-K601U 1D21 K602P 1 13 1 14 4 5 <1 <1 <1 TB RB 673 RB 673 TB Aux Electric SPARE URC Viv awe RB RCIC Room RB HPCS Pp Rm CDCB Pmps Ecpip Room 1D21 K602G 1D21 K602G 1021-K601H 1D21-K6010 1021-K601F 1 15 1 16 1 17 1 18 1 19 REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 8.94E+2 8.94E+2 8.94E+2 8.94E+2 1 A Main Steam 1B Main Steam 1C Main Steam 1D Main Steam Une Rad Monitor Une Rad Monitor Une Rad Monitor Une Rad Monitor 1018-K610A 1D18-K610B 1D18-K610C 1D18-K610D l l

I l

e

LaSalle 1996 8SEP Exercise CONTROL ROOM RAD DATA TIME: 1100 ( 210 )

^

s.

AREA RAD COMMON MON 1H13 - P624.

200 <1 <1 ARM POWER SUPPLY Rd.nl Hi Neuel Low New Fuel Refuel Floor Serage VauR Equip Hath 600 V 0021 K604A 0021 K601M 0021-K601N 0021 K601 A 31 3-2 3-3 34

<. ) <1 <1 <1 <1

<1 I

Aux Bidg Vert Control Room TB Hi Press TB RB Aux Bidg Hot Stack Sample Turbines Oecon PR Trackway Lab Con 1 dor 0021 K6010 0021 K600A 0021 K601P 0021 K6010 0021-K601R 0021 K601S 35 3-6 3-7 3-8 3-9 3 10

<1 <1 <1 3 TB Off-Gas Bidg Off Gas Bldg Off-Gas Bidg ARM POWER SUPPLY Basement Elevabr HVAC Exhaust Upper Bomt Char Abs Vtv Alsie 0021 K601G 0021 K601K 0021-K601L 0021-K6028 600 V l S 11 S12 S13 3 14 j

<.1 <1 <1 <.1 SeMm Bldg SeMee Bldg Service Bidg SeMee Bidg SPARE SPARE OfRce Corndor Laundry MacNne Shop Lunch Rm Corndor 0021-K600C 0021.K601T 0021 K601V 0021 K600F 3 15 3 16 3-17 S18 PROCESS RAD MONITORS 1H13 - P604 6.1 E 8 2.97E+1 32 48 Off Gas Pre-Trtmt Off Gas Pre Trtmt- 1 A Off-Gas Post Trtmt 1B Off-Gas Post Tr'mt Linear Monitor Log Monitor Rad Monitor Rad Monitor 1D18-K600 1D18-K613 1D18-K601 A 1D18-K601B 300 200 1.7E+3 400 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr Rad Monitor Rad Monttor Rad Monitor Rad Monitor 1D18-K604 1D18-K605 1D18-K607 1D18-K608 W

l LaSalle 1996 CSEP Exercise CONTROL ROOM RAD DATA I

TIME: 1145 ( 255 )

q AREA RADIATION 1D21 - P600 OSL OSL OSL ARM POWER SUPPLY RB 820 RB 807 RB 766 Aux Bldg Cnmt SBOT RT Phase Sep RX Samp6e Station Purge 0V 1D21 K602A 1021 K6028 1D21-K601G 1021-11 12 13 14 OSL OSL OSL OSL OSL OSL RB 761 RB 761 TB Off Gas RB RB 740 RB740 RB South HCU Sample Staton TIP Room RB TIP Drtve UnHs RB CRD Storage j

, RB North HCU 1021-K601C 1D21 K6010 1D21 K601N 1D21-K6020 1021 K601E 10214601T j 15 16 17 18 19 1 10 l

I OSL OSL OSL OSL RB 710 RB 710 TB TBCP ARM POWER SUPPLY RB A RHR Hx Rm RB B RHR Hx Rm Sample Sta6cn Regen VIv Aiele 10214602F 1D214602E 1021-K601U 1021-K602P 0V 1 11 1 12 1 13 1 14

.s OSL OSL OSL OSL OSL RB 673 RB 673 TB Aux Electric SPARE TB URC VIv Alone RB RCIC Room RB HPCS Pp Rm CDCB Pmps Equip Room l 1D21 K602G 1D21.K602G 1D21-K601H 1D21 K6010 1021 K601F l 1 18 1 19 l 1 15 1 16 1 17 1

REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 8.57E+2 8.57E+2 8.57E+2 8.57E+2 18 Main Steam 1C Main Steam 1D Main Steam 1 A Main Steam Une Rad Monitor Une Rad Monitor Une Rad Monitor Une Rad Monitor 1D18-K6108 1D18-K610C 1D18-K610D 1018-K610A B

1 LaSalle 1996 G!EP Exercleo q

CONTROL ROOM RAD DATA TIME: 1145 (255)

... l AREA RAD COMMON MON l

1H13 - P624 l

380 1 1 l

ARM POWER SUPPLY Refuel HI Refuel Low New Fuel Refuel Floor Storage Vault Equip Halm a

600 V 0021 K604A 0021 K601M 0021 K601N 0021-K601A 3-1 3-2 3-3 34

<.1 <1 <1 <1

, Coreal Room TB Hi Press RB Aux Bldg Hot Turbines Trackway Lab Corridor

] ,

00214600A 0021-K601P 0021-K601R 0021 K601S 34 3-7 3-9 3-10

]

<1 <1 <1 3 ARM POWER SUPPLY TB Off-Gas Bidg Off Gas Bido Off Gas Bidg i f

l Basement Elevator HVAC Exhaust Upper Bsmt Char Abs Viv Aiele l 600 V 0021 K601G 0021 K601K 0021-K601L 0021 K602B 3 11 3-12 3-13 3 14

<.1 <1 <1 <.1 SeMee Bidg SeMce Bldg SeMce 94dg SeMce Bidg SPARE SPARE Offlee Corridor Laundry Machme Shop Lunch Rm Corttdor 0021 K600C 0021 K601T 0021 K601V 0021 K600F 3 15 3 16 S17 3 18 PROCESS RAD MONITORS 1H13 - P604 2.5E-8 2.50E+1 44 Off-Gas Pre-Trtmt Off Gas Pre-Trtmt 1 A Off-Gas Post Trtmt 1B Off-Gas Post Trtmt Linear Monitor Log Monitor Rad Monitor Rad Monitor 1D18-K600 1D18-K613 1D18-K601 A 1D18-K601B 1.5E+3 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr Rad Monitor Rad Monitor ,

Rad Monitor Rad Monitor 1 D18-K604 1 D18-K605 1D18-K607 1D18-K608

l l

LaSalle 1996 CSEP Exerclae CONTROL ROOM RAD DATA  !

TIME: 1200 ( 270 )

.m

)

1 AREA RADIATION I 1D21 - P600 i

OSL OSL OSL ARM POWER SUPPLY RB 620 RB 807 RB 786 Aux Bldg Cnmt SBGT RT Phase Sep RX Samp6e Stenon Purge 0V 1D21-K602A 1021 K6028 1D21 K601G 1D21-11 12 13 14 l

OSL OSL OSL OSL OSL OSL RB 761 RB 761 TB Off Gas RB RB 740 RB 740 RB North HCU RB South HCU Semple Staton TIP Room RB TIP Detvo Urdts RB CRD Storage 1D21 K601C 1021 K601D 1021-K601N 1021-K602D 1021 K601E 1D21 K6017 1 15 14 17 14 19 1 10 l OSL OSL OSL OSL l

ARM POWER SUPPLY RB 710 RB 710 TB TBCP ,

RB A RHR Hx Rm RS B RHR Hx Rm Semple Ste6an Regen Viv Aiele l 0V 1021-K602F 1021 K602E 1021-K601U 1D21 K602P 1 11 1 12 1 13 1 14 OSL OSL OSL OSL OSL TB RB 673 RB 673 TB Aux Electric SPARE URC Viv Aleie RB RCIC Room RB HPCS Pp Rm CCWCB Pmps Equip Room 1D21 K602G 1D21 K602G 1D21-K601H 1021-K6010 1021 K601F 1 15 1 16 1 17 1 18 1 19 REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 8.21 E+2 8.21 E+2 8.21 E+2 8.21 E+2 1 A Main Steam 18 Main Steam 1C Main Steam 1D Main Steam Line Rad Monitor Une Rad Monitor Une Rad Monitor Line Rad Monitor 1D18-K610A 1D18-K610B 1D18-K610C 1018-K610D

1 l

LaSalle 1996 G*JEP Exercise i CONTROL ROOM RAD DATA

. TIME: 1200 (270) 5

AREA RAD COMMON MON 1H13 - P624 m 1 1 j 1

.; ARM POWER SUPPLY Refuel Hi Refuel Low New Fuel Refuel Fbor Skrage VeuR Equip Hat:h l 600 V 0021-K604A 0021-K601M OD21 K601N 0021 K601 A l 31 32 34 34

) <.1 <1 <1 <1

)

j Control Room TB Hi Press RB Aux Bidg Hot l Turbines Trackway Lab Corndor l 00214600A 0021-K601P 0021 K601R 0021 K601S 3-6 3-7 3-9 3-10 i

<1 <1 <1 4 i -

ARM POWER SUPPLY TB Off<>as Badg Off<>as Badg Off-Gas Badg 1 Bawnent Elmdor HVAC EMaust Upper Bomt Char Abe Viv Alels 600 V 0021 K6010 0021 K601K 0021-K601L 0021-K6028 3-11 3-12 3 13 3-14 3

jd <.1 <1 <1 <.1 i

SeMee Bldg SeMoe Bidg SeMee Bidg SeMoe Oldg SPARE SPARE f

i Ofnce Corridor Laundry Machine Shop tmch Rm Corndor 0021 K600C 0021 K601T 0021-K601V 0021 K600F 3 15 3-16 3 17 3 16 i

i PROCESS RAD MONITORS l 1H13 - P604 l

2.1 E-8 1.82E+1 40 l

Off-Gas Pre-Trtmt Off Gas Pre Trtmt - 1 A Off-Gas Post Trtmt 1B Off Gas Post Trtml j Unear Monitor Log Monitor Rad Monitor Rad Monitor i j 1 D18-K600 1D18-K613 1D18-K601 A 1D18-K601B 1 l

j 1.4E+3 1

I 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr l Rad Monitor Rad Monitor Rad Monitor Rad Monitor i 1D18 K604 1018-K605 1018-K607 1D18-K608 i

,._/

l I

a

l.aSalle 1996 GSEP Exercise I CONTROL ROOM RAD DATA TIME: 1215 (285)

AREA RADIATION 1D21 - P600 OSL OSt oSL ARM POWER SUPPLY RB 820 RB 607 RB 766 Aux Bidg Cnmt SBGT RT Phase Sep RX Samp6e Staton Purge OV 1D21 K602A 1D21 K602B 1021-K601G 1021-11 12 13 14 OSL OSL OSL OSL OSL OSL RB 761 RB 761 TB Off Gas RB RB 740 RB 740 RB North HCU RB South HCU Sample Staton TIP Room RB T1P Drtvo Urvte RB CRO StoragI 1021 K601C 1021 K601D 1021 K601N 1021 K602D 1D21-K601E 1021-K601T J 15 1-6 17 1-6 19 1 10 )

OSL OSL OSL OSL ARM POWER SUPPLY RB 710 RB 710 TB TBCP RB A RHR Hx Rm RB B RHR Hx Rm Sumple Sta6on Regen V!v Ale 6e

, OV 1021-K602F 1021 K602E 1021-K601U 1D21 K602P 1 1 11 1 12 1 13 1 14 l OSL OSL 03L OSL OSL l

TB RB 673 RB 673 TB Aux Electric SPARE ,

URC Viv Aiele RB RCIC Room RB HPCS Pp Rm COCB Pmps Egalp Room l

l 1D21 K602G 1D21. K6020 1021-K601H 1D21 K6010 1D21 KC01F 1 15 1 16 1 17 1 18 1 19 l

l t

l REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM l f

l 1H13 - P635 1H13 - P636 l l

7.95E+2 7.95E+2 7.95E+2 7.95E+2 1 A Main Steam 1B Main Steam 1C Main Steam 1D Main Steam Une Rad Monitor Une Rad Monnor Une Rad Monitor Une Rad Monitor 1D18-K610A 1D18-K610B 1018-K610C 1D18-K610D i

LaSalle 1996 GSEP Exercise CONTROL ROOM RAD DATA TIME: 1215 ( 285 )

AREA RAD COMMON MON 1H13 - P624 300 1 1 ARM POWER SUPPt.Y Refuel HI RenselLow New Fuel Refuel Floor i Storage Vault Equip Hatd) 600 V 0021 K604A 0021-K601M 0021-K601N 0021 K601 A 31 3-2 33 34

<.1 <1 <1 <1 Control Room TB Hi Press RB Aux Badg Hot Turbines Trackway Lab Cord 8

0021 K600A 00214601P 0021 K601R 0021 K601S 34 37 3-9 3 10

<1 <1 <1 4 ARM POWER SUPPLY TB Off-Gas Bidg Off-Gas Bldg Off-Gas Badg Basement Em HVAC Exhaust Upper Bsmt Char Abs Viv Aleie 600 V 0021 K601G 0021 K601K 0021-K601L 0021 K602B 3-11 3-12 3-13 3 14 4

<.1 <1 <1 <.1 SeMee Badg SeMeo Badg SeMce B6dg SeMce Bedg SPARE SPARE Ofnce Corridor Laundry Machine Shop Lundi Rm Conidor 0021 K600C 0021.K601T 0021 K601V 0021-K600F 3-15 3-16 3-17 3-16 PROCESS RAD MONITORS 1H13 - P604 1.9E 8 1.40E+1 25 35 Off-Gas Pre-Trtmt Off Gas Pre-Trtmt 1 A Off Gas Post Trtmt 1B Off-Gas Post Trtmt Unear Monitor Log Monitor Rad Monitor Rad Monitor 1D18-K600 1D18-K613 1D18-K601 A 1D18-K6018 250 150 1.4E+3 350 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr Rad Monitor Rad Monitor Rad Monitor Rad Monitor 1D18-K604 1D18-K605 1018-K607 1D18-K608

LaSalle 1996(ESEP Exercise CONTROL ROOM RAD DATA TIME: 1230 ( 300 )

1 l AREA RADIATION l 1D21 - P600 OSL OSL OSL l ARM POWER SUPPLY RB 820 RB 766 Aux Bidg Cnmt RB 607 SBGT RT Phase Sep RX Samp6e Sta6cn Purge 0V 1021 K602A 1D21 K602B 1D21-K601G 1021 11 12 13 1-4 OSL OSL OSL OSL OSL OSL RB 761 RB 761 TB Off Gas RB RB 740 RB 740 RB North HCU RB South HCU S mp6e Sta6cn TIP Room RB TIP Oftw Units RB CRO Storage 1D21 K601C 1D21-K6010 1D21 K601N 1D21 K6020 10214601E 1D21 K601T 15 1-6 17 18 1-9 1 10 OSL OSL OSL OSL ARM POWER SUPPLY RB 710 RB 710 TB TBCP RB A RHR Hx Rm RB B RHR Hx Rm Sample Sta6on Regen Viv Aisle 0V 1021-K602F 1D21 K602E 1021-K601U 1021 K602P 1 11 1 12 1 13 1 14 V OSL OSL OSL OSL OSL TB RB 673 RB 673 TB Aux Electric SPARE URC Viv Aleie RB RCIC Room RB HPCS Pp Rm CDCB Pmps Equip Room 1D21-K602G 1D21.K602G 1D21-K601H 1021 K6010 1021 K601F 1 15 1 16 1 17 1 18 1 19 REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 7.76E+2 7.76E+2 7.76E+2 7.76E+2 1 A Main Steam 1B Main Steam 1C Main Steam 1D Main Steam Une Rad Monitor Une Rad Monitor Une Rad Monitor une Rad Monitor i 1D18-K610A 1D18-K6108 1D18-K610C 1D18-K610D 1

l l u' i

j i

i 1

LaSello 1996 GSEP Exercise CONTROL ROOM RAD DATA

TIME

1230 ( 300 )

G AREA RAD COMMON MON 1H13 - P624 250 1 1 ARM POWER SUPPLY Refuel Hi Refuel Low New Fuel Refuel Floor l Strage Vaun Eg4 Hath 600 V 0021-K604A 0021 K601M 0021-K601N 0021 K601A 31 3-2 3-3 34

<.1 <1 <1 <1 Control Room TB Hi Press RB Aux Bldg Hot Turbines Trackway Lab Corrtdor 0021-K600A 0021 K601P 0021 K601R 0021-K601S 3-6 37 3-9 3-10

<1 <1 <1 4 ARM POWER SUPPLY TB Off Gas Bidg Off 4as Bldg Off4as Bldg Basement Elevator HVAC Exhaust Upper Bemt Cher Abe Vfv Alele 600V 0021 K6010 0021-K601K 0021 K601L 0021 K602B 3 11 3 12 3 13 3 14

'-- <.1 <1 <1 <.1 SeMce Badg SeMce Bldg SeMce Bldg SeMce Bidg SPARE SPARE Ofnce Corridor Laundry Machne Shop Lunch Rm Conidor 0021-K600C 0021-K601T 0021 K601V 0021-K600F 3-15 3 16 3 17 3 18

~

PROCESS RAD MONITORS 1H13 - P604 1.8E-8 1.30E+1 23 32 Off-Gas Pre-Trtmt Off Gas Pre-Trtml- 1 A Off-Gas Post Trtmt 1B Off-Gas Post Trtmt (

Linear Monitor Log Monitor Rad Monitor Rad Monitor i 1 D18-K600 1D18-K613 1D18-K601 A 1D18-K601B 240 140 1.3E+3 340 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr Rad Monitor Rad Monitor Rad Monitor Rad Monitor 1D18-K604 1 D18-K605 1D18-K607 1D18-K608

LJnSalle 1996 @SEP Exercise CONTROL ROOM RAD DATA TIME: 1300 ( 330 )

G AREA RADIATION 1D21 - P600 OSL OSL OSL ARM POWER SUPPLY RB 620 RB 607 RB 766 Aux Bidg Cnmt SBGT RT Phase Sep RX Sample Simeon Purge OV 10214602A 1021 K6028 1D21-K6010 1D21-11 12 13 14 OSL OSL OSL OSL OSL OSL RB 761 RB 761 TB Off Gas RB RB 740 RB 740 RB North HCU RB South HCU Sample Stason TIP Room RS TIP Drtve UnMs RB CRD Store (ps 1D21-K601C 1D21 K601D 1021-K601N 1021 K602D 1D21 K601E 1021 K601T 15 16 17 16 19 1 10 OSL OSL OSL OSL ARM POWER SUPPLY RB 710 RB 710 TB TBCP RB A RHR Hx Rm RB B RHR Hx Rm Sample Sta6an Regen Viv Alsie 0V 1D21 K602F 1021 K602E 1D21 K601U 1021 K602P 1 11 1 12 1-13 1 14 OSL OSL OSL OSL OSL TB RB 673 RB 673 TB Aux Elec61c SPARE URC Viv Alsie RB RCIC Room RB HPCS Pp Rm CDCB Pmpo Equip Room 1021 K602G 1D21. K602G 1D21 K601H 1021 K6010 1021-K601F 1 15 1 16 1 17 1 16 1 19 REACTOR PROTECTION SYSTEM REACTOR PROTECTION SYSTEM 1H13 - P635 1H13 - P636 6.13E+2 6.13E+2 6.13E+2 6.13E+2 1 A Main Steam 1B Main Steam 1C Main Steam 1D Main Steam Line Rad Monitor Une Rad Monitor Une Rad Monitor Une Rad Monitor 1 D18-K610A 1D18-K610B 1D18-K610C 1D18-K610D 4

LaSalle 1996 GSEP Exercise CONTROL ROOM RAD DATA TIME: 1300 ( 330 )

3 AREA RAD COMMON MON 1H13 - P624 200 1 1 Refuel Hi Refuel Low New Fuel Refuel Floor ARM POWER SUPPLY S1orage vaun Equip Hatch 0021 K604A 0021 K601M 0021-K601N 0021-K601A 600 V 31 32 3-3 34

<.1 <1 <1 <1 Control Room TB Hi Press RB Aux B6dg Hot Turbines Trackway Lab Corridor

• 0021 K601R 0021 K601S 0021 K600A 0021 K601P 34 3-7 3-0 3-10

<1 <1 <1 3 TB Off<ms B6dg Off Gas Bidg Off Gas 86dg ARM POWER SUPPLY Basement Elevsky HVAC Exhaust Upper Bemt Char Abs Vtv Aleie 600 V 0021 K601G 0021-K601K 0021 K601L 0021 K6028 3-11 3 12 3-13 3 14

,,\  :

<.1 <1 <1 <.1 SeMee Bidg SeMce Bidg SeMce Bidg SeMoe Bidg SPARE SPARE Omce corridor Laundry MacNne Shop Lunch Rm Corridor 0021 K600C 0021 K601T 0021-K601V 0021 K600F 3-15 3-16 3 17 3 18 PROCESS RAD MONITORS 1H13 - P604 1.6E-8 1.10E+1 18 28 Off Gas Pre-Trtmt Off Gas Pre-Trtmt - 1 A Off-Gas Post Trtml 1B Off-Gas Post Trtmt l Rad Monitor Rad Monitor Unear Monitor Log Monitor

{ 1D18-K601B i 1D18-K600 1D18-K613 1D18-K601 A l

220 120 1.2E+3 320 l

1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr l Rad Monitor Rad Monitor l Rad Monitor Rad Monitor 1D18-K604 1D18-N606 1D18-K607 1D18-K608 j

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LaSalle 1996 GSEP Exercise J CONTROL ROOM RAD DATA l TIME: 1300 ( 330 )

m AREA RAD COMMON MON 1H13 - P624 200 1 1 ARM POWER SUPPLY Refuel Hi Refuel Low New Fuel Refuel Floor Storage Vaun Equip Hatch 600 V 0021 K604A 0021 K601M 0021-K601N 0021-K601 A i 31 3-2 33 S4

<.1 <1 <1 <1 <1 Control Room TB Hi Press TB RB Aux Bldg Hot j Turtines Demn Ptt Trackway Lab Corridor

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0021 K600A OD21 K601P OD21 K6010 OD21 K601R 0021-K601S i 34 37 3-8 3-9 3 10 I

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ARM POWER SUPPLY TB Offh Bidg Off Gas B6dg Offh Badg I Basement Elevator HVAC Exhaust UpperBamt Char Abs Viv Aleie 600 V 0021 K601G 0021-K601K 0021 K601L 0021-K6028 3-11 3 12 3-13 3 14 i

<.1 <1 <1 <.1 l 1

SPARE I SeMce Bidg SeMee Oldg SeMee Bidg SeMoe Bidg SPARE Ofnce Corridor Laundry Machine Shop Lunch Rm Corridor 0021 K600C 0021 K601T 0021-K601V 0021-K600F 3 15 3-16 3 17 3-16 PROCESS RAD MONITORS 1H13 - P604 i l

1.6E-8 1.10E+1 28 Off-Gas Pre-Trtmt Off Gas Pre-Tftmt ' 1 A Off-Gas Post Trtmt 1B Off-Gas Post Trtmt 1 Unear Monitor Log Monitor Rad Monitor Rad Monitor l 1D18-K600 1D18-K613 1D18-K601 A 1 D18-K601B 120 1.2E+3 1 A RHR WS 1B RHR WS RBCCW Eff Service Wtr {

Rad Monitor Rad Monitor ,

Rad Monitor Rad Monitor }

1D18-K604 1D18-K605 1 D18-K607 1 D18-K608 j D'

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I LaSalle 1996 GSEP Exercise O TEMPERATURE MONITORING PANELS

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if the NSO checks the 1H13-P632/42 Leak Detection Panels, use the following tables to provide ternperature indication and the attached panel drawings to present alarm conditions.

1H13 P632 LEAK DETECTION l 0700 1140 1200 1215 1300 0700 1 1140 1200 1215 1300 600A 100 0 0 90 88 600J 72 0 0 70 70 600C 100 0 0 90 88 612A 93 0 0 88 85 600E 80 0 0 65 65 602A 90 0 0 85 83 601A 95 0 0 70 70 615A 98 0 0 200 150 601C 95 0 0 55 55 615C 98 0 0 200 150 601E 80 0 0 57 57 614A 75 0 0 75 75 600G 90 0 0 70 70 614C 78 0 0 80 79 600J 63 0 0 65 65 604A 95 0 0 220 175 e 613A 100 0 0 90 88 604C 95 0 0 220 175 603A 92 0 0 90 88 606A 73 0 0 92 90 601G 89 0 0 85 83 608C 75 0 0 76 76 l

1 1H13 P6422 LEAK DETECTION l 0700 1140 1200 1215 1300 0700 1140 1200 1215 1300 600A 100 93 93 90 88 600J 72 70 70 70 70

'D

. 600C 100 93 93 90 88 612A 93 90 90 88 85 I Id 600E 80 65 65 65 65 602A 90 87 87 85 83 601A 95 70 70 70 70 615A 98 >350 >350 200 150 601C 95 55 55 55 55 615C 98 >350 >350 200 150 601E 80 57 57 57 57 614A 75 75 75 75 75 600G 90 70 70 70 70 614C 78 80 80 80 79 ,

220 175 l 600J 63 65 65 65 65 604A 95 250 250 613A 100 95 95 90 88 604C 95 250 250 220 175 603A 92 90 90 90 88 608A 73 95 95 92 90 601G 89 87 87 85 83 608C 75 76 76 76 76 t

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LaSalle 1996 GSEP Exercise G TEMPERATURE MONITORING PANELS Time: 1140 (250)

DIVISION I LEAK DETECTION 1H13 - P632 Reec We osanup Reac We oesnup Reac Wecww Pump am 1 Pung Rm 2 Pump Am 3 Temperature Meter E31-N600A dT E31-N600C dT E31 N600E dT '

Reac We Deanup Reac Wtr Qeanup Reac Wtr Deanup Pump Rm 1 Pump Rm 1 Pump Rm 1 .

E31 N601 A T E31 N901C T E31 N001E T l Reac Wtr Oeenup Reac Wtr Oeanup RCIC Pye RQC l HX Rm 1 HX Rm 2 Bienk Routng Area Eqdp Area l

E31 N6000 dT E31 N60a) dT E31 N613A dT E31 N603A dT Reac Wtr Geenup Reac Wtr Geenup RCIC Poe RQC a

HX Rm 1 HX Rm 2 Bienk Routng Area Equip Area l E31 N601G T E314460al T E31-N612A T E31 N602A T l l

Main Steam Une Main Steam Une RHR RHR Pipe Tmnel Pipe Tunnel Egip Area Eqdp Area Blank E31-N615A dT E31-N615C dT E31-N614A dT E31614C dT

. Main Steam Une Main Steam Une RHR RHR Pipe Tmnel Pipe Tunnel Equip Asea Eqdp Area Bienk E31 N604A T E31-N604C T E31-N606A T E31606C T 1

v l DIVISION 11 LEAK DETECTION l 1H13 - P642 '

Reac We oesnup Reee we oesnup Reac we cww Pung Rm i Pung Rm 2 Pump Rm 3 Temperature Meter E31 N6000 dT E31 N6000 dT E31-N600F dT Reac Wtr Qeanup Reac Wir Osanup Reac Wtr Cleanup Pump Rm 1 Pump Rm 1 Pump Rm i E31 N601B T E31-N601D T E31 N601F T Reac Wtr Geenup Reac Wtr Deanup ROC Pipe RCIC

• HX Rm 1 HX Rm 2 Bienk Routng Area Equip Aroa E31 N600H dT E31 N600K dT E31-N6138 dT E31 N6038 dT Reac Wtr Goanup Reac Wtr Cleanup RQC Poe RCIC HX Rm 1 HX Am 2 Bienk Routng Atee Equip Area E31 N601H T E31-N600K T E31 N6128 T E31-N6028 T RHR RHR Equip Area ESAp Area Bienk E31 N6148 dT E316140 dT RHR RHR Equlp Area Equip Area Blank E31 N6068 T E31606D T

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j LaSalle 1996 GSEP Exercise i ^

4 TEMPERATURE MONITORING PANELS 1 i Time: 1212 (282) i I

l DIVISION I LEAK DETECTION i l 1H13 - P632

Reac We Ciennup Reac Wr Osenup Reec Wir Ciennup Purnp Rm 1 Purnp Arn2 Purnp Rrn 3 Tem rature Meter E31-N600A dT E31-N6000 dT E31 N600E dT

.l Reac Wir Cleanup Reac Wir Cloenup Reac Wtr Cleanup i Pump Rm 1 Pump Rm 1 Pump Rm 1 j E31-N601 A T E31-N601C T E31-N601E T 4 Reac Wir Cleanup Reac Wtr Cleanup RCIC Pipe RCIC i HXRm1 HX Rm 2 Blank Rouang Area EgiAp Ares j E31-N6000 dT E31 N600J di E31 N613A dT E31-NG03A dT

! a Reac Wtr Cleanup Reac Wtr Cleanup RCIC Pipe RCIC I HX Rm 1 HX Rm 2 Blank Routng Area EgJip Aree l E31 N601G T E31-N60a) T E31 N612A T E31 N602A T 1 RHR RHR l Equip Are. Equip Area Blank 4 E31-N614A dT E31614C dr

! , RHR RHR Equip Area Equip Area Blank

, E31 N606A T E31606C T j 'N j / DIVISION ll LEAK DETECTION l

l l 1H13 - P642 Reec Wtr Osenup Reec We Qeenup Reac WW Qeenup PumpRrn1 Purnp Rm 2 Nnp R n 3 I

Tem rature Meter E31 N6008 dT E31-N6000 dT E31 N600F dT Reac Wir Cleanup Reec Wtr Cleanup Reac Wtr Cleanup

Pump Rm 1 Pump Rm 1 Pump Rm 1 i E31 N6018 T E31 N601D T E31-N601F T l Reac Wtr Cleanup Reac Wtr Osenup RCIC Pipe RCIC '

j HX Rm 1 HX Rm 2 Bienk Rou6ng Area Equip Are.

E31 N600H dT E31 N600K dT E31 N6138 dT E31 N6038 dT j Reac Wtr Oe nup Reac Wtr Cleanup RCIC Pipe RCIC HX Rm 1 HX Rm 2 Bienk Rouang Area Equip Area E31-N601H T E31-N600K T E31-N6128 T E31 N6028 T

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RHR RHR j . . _ _ =

Equip Area Equip Area Blank

, E31 N6148 dT E31614D dT

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Equip Area Equ6p Area Bienk i E31-N606B T E316060 T 5

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IP MESSAGES i l

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l LaSalle 1996 GSEP Exercise in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE l lP 1 1 Time: 0752 (22)

Issue to: All Participants in the area Prerequisites: None

1. The ground is shaking slightly. Anything in the area that is not secure is shaking. If you

! are in an area that has tab!en, non-secure items on the table are moving across the table slightly.

4

2. The tremors last for one minute and thirty seconds.

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3. if ir. :he area of any of the problems encountered in Message IP-3, give that information to your participant.

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In-Plant Team Messages This is an Exercise l

IN PLANT TEAM MESSAGE  !

IP-2 l Time: 0752-0815 (22-45) and i 1140-1215 (250 285)

Issue to: Local Operator j Prerequisites: Dispatched to Aux Electric Room for either the earthquake event or the 1 l

l aftershock event. j

! l Initiating Action Response l 1. I Locates Seismic Monitoring Panel. 1. I Give Operator attached information.

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OPERATNG SAFE SEISMIC SEISMC BASIS SHUTDOWN SYSTEM SW ALARM EARTHQUAKE EARTHQUAKE TRlGGERED RELAY

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LaSallo 1996 GSEP Exercise in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP-3 Time: 0800-1000 (30-150)

Issue to: Participants dispatched to inspect for earthquake damage Prerequisites: Earthquake event has occurred initiating Action Response 4

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i LaSalle 1996 GSEP Exercise

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in-Plant Team Messages This is an Exercise i

IN PLANTTEAM MESSAGE IP-4

! Time: 0800-1000 (30-150)

Issue to: Local Operator

! Prerequisites: Dispatched to investigate problems with 1E51 F045 l Initiating Action Response

1. Locates 1E51 F045. 1. Take the participants to the mockup.

i I

2. Attempts to operate 1E51-F045 2.a Clutch engages.

manually. 2.b Handwheel spins freely.

8 2.c Can hear loose metallic parts rattling inside the gearing mechanism.

3. Attempts to operate 1E51-F045 3. Valve positions as expected.

manually after the valve is fixed.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room any valve manipulations.

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LaSalle 1996 GSEP Exercise in-Plant Team Messages This is an Exercise j IN PLANT TEAM MESSAGE IP 5 Time: 0800-1300 (3 4 330)

Issue to: Local Operator Prerequisites: Dispatched to 250 vde Bus 121Y to close breaker for 1E51 F045 Initiating Action Response

1. Locates breaker and attempts to 1.a if RCIC actuation signalis reset, close the breaker. breaker closes.

o 1.b If valve is fixed, the breaker closes.

1.c if valve is not fixed and there is a RCIC actuation signal present, breaker closes and then trips open

- 15 sec later.

CONTROLLER NOTE: Call the Simulator Operator (8 782-2284) before allowing the l Participants to report to the Control Room that the breaker is shut.

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LaSalle 1996 GSEP Exercise in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE l lP-6 i

Time: 0800 1300 (30-330) l Issue to: mms '

Prerequisites: Dispatched to troubleshoot and repair 1E51 F045

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Response i Initiatino Action '

1. Take the participants to the mockup.

1. Locates 1E51 F045.

Attempts to operate 1E51-F045 2.a Clutch engages.

2.

manually. 2.b Handwheel spins freely. '

2.c Can hear loose metallic parts rattling a

inside the gearing mechanism.

Takes apart gearing mechanism. 3.a Pieces of the worm gear are laying at ,

3. l the bottom of the housing.

3.b Just a little of the drive gear is in place, but there is no way that the i 4

gear can be operated either in manual or automatic.

4. Valve will work in manual or  !

4. Replaces gearing mechanism.  !

(Actual repairs are to be performed automatic.

r l on the mockup.)

'. CONTROLLER NOTE: The valve may not be repaired before 1200. l CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the ,

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Participants to report to the Control Room any valve manipulations. l l

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LaSalle 1996 GSEP Exercise

. in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE ,

IP-7 l I

Time: 0800 1000 (30-150)

Issue to: IMs Prerequisites: Dispatched to troubleshoot and repair 1 A Recirc Flow Control Valve l circuitry Initiating Action Response

1. Locates 1 A Recire Flow Control 1. Proceed to spare drawer to be used  ;

Valve drawer area. as the mockup. e i 4 2. Takes readings on drawer. 2.a Output of PC Card 3 is 0 on the Digital Multimeter DMM) for a full closed signal.

2.b Output of PC Card 1 (TP-8)is pegged high on the DMM for a full

. open signal. I

3. Looks at the Velocity Summing 3. It is charred and partially melted. (

Amplifier (BB 3046) on PC Card 1.  ;

4. Replaces any card other than PC 4. Same result as in step 2 above.

Card 1.

All readinos are as expected.

lE 5. Replaces PC Card 1. 5.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the l

Participants to report to the Control Room that the Recirc Flow Control Valve circuitry is repaired.

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Recirc Flow ControlValve Circuitry m

Servo Errof Sensor Velocdy Sutmng Ampe#er per eme fods causmg pt 14 odpd to

_- 1ed openthe 1 A Redre Flow ast cn is Cortrol Valve.

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in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE iP-8 Time: 0800 1200 (30 270)

Issue to: Local Operator Prerequisites: At 1 A Instrument Air Receiver initiating Action Response

1. Approaches 1 A Instrument Air 1. Starts to hear hissing that gets louder Receiver. as you approach the receiver.

• CONTROLLER NOTE: There should be a mockup that gives the hissing, but give the information if this isn't working.

2. Finds location of the leak. 2.a Direct participants to the mockup.

2.b The leak is in 1/2 inch piping leading to pressure switch 1PSL-IA021, upstream of the T-Valve.

Checks pressure locally. 3. Pressure is 95 psi.

3.

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Instrument Air System savee n SUNtf

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Rcyr Reve Wi Senseg Lhe 8 LW 2 V fractwes from 4fU W1

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In-Plant Team Messages

! This is an Exercise IN-PLANT TEAM MESSAGE l lP-9 l

Time: 0800-1200 (30 270)

Issue to: mms Prerequisites: Dispatched to repair broken sensing line for 1 A lA Receiver Initiating Action Response

1. Approaches 1 A Instrument Air 1. Starts to hear hissing that gets louder Receiver. as you approach the receiver.

8 CONTROLLER NOTE: There should be a mockup that gived.s hissing, but give the information if this isn't working.

2. Finds location of the leak. 2.a Direct participants to the mockup.

- 2.b The leak is in 1/2 inch piping leading '

to pressure switch 1PSL-IA021, upstream of the T-Valve.

3. Checks pressure locally. 3. Pressure is 95 psi.  !

,, 4. Performs fix of piping. 4. Fix holds as long as controller agrees l to the method of fix. Otherwise, leak j will persist until satisfactory method  ;

of fixino is performed.

5. Checks pressure locally. 5. Pressure is 105 psi.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room that the line is fixed. j l

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l LaSalle 1996 GSEP Exercise l in-Plant Team Messages i

This is an Exercise l IN-PLANT TEAM MESSAGE l lP-10 l

I j Time: 0800 1200 (30 270) lssue tc: ems Prerequisites: Dispatched to investigate and repair security E Field failure l

Initiating Action Response (

1. Heads out towards the failure in the 1.a Where the opening in the fence is, i E Field. there is a Security Guard on station.

l

• CONTROLLER NOTE: The CONTROLLER NOTE: You need to Participants or the OSC should have play the Security Guard as well as be l been in touch with Security to locate the controller for the Electricians. l where the problem is. Use your map (attached) to pick a spot for the 1.b As the Security Guard. pick a spot failure of the E Field. and show them that a single wire is severed and dangling on the ground.

2. The Electricians assess their parts 2.a Have the entire crew proceed to needs. obtain the parts to fix the field.

l 2.b Lead the participants to the mockup

.q in the on-site training area. i j

3. The Electricians fix the mockup to 3.a Call the Security Control Room actor the Controller's satisfaction. (Frank Sadnick) at X2615 and inform him that the E Field has been repaired.

3.b Take the Electricians back to the OSC.

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' In-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP 11 Time: 0950 1200 (140-270)

Issue to: Local Operator Prerequisites: Dispatched to investigate problems with 1C11 F389 Initiatina Action Response

1. Locates area where 1C11-F389 is. 1.a Do not let Participant enter the floor area where the valve is located because it is a real i

• Contaminated Area.

1.b Lead the Participant to the mockup.

2. Arrives at mockup. 2.a Valve indicates in the closed ,

I position.

2.b There is a hissing sound and on further investigation, air is escaping out of the weep hole.

3. Isolates instrument air to the valve. 3.a Valve stays closed.

3.b Hissing sound dies dawn and quits q after 15 seconds. ,

j 4. After Valve is repaired, and restores 4. No hissing sound is heard and valve repositions to the open position.

l Instrument Air to the valve.

5. If full PCs used. 5. Portal Monitors read as read.

6. If minimum PCs used. 6.a Hand Participants attached Portal Monitor Sheet A.

6.b When at decon, the left elbow is contaminated to 75K dpm (7.5K cpm) and left knee will be contaminated to 100K/dpm (10K com).

7. If no PCs used. 7.a Hand Participants attached Portal Monitor Sheet B.

7.b When at decon, the left elbow and knee are contaminated as in 6.b plus the bottom of the shoes are contaminatad to 150K dpm (15K cpm).

8. After decontamination. 8. All readings as read.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room any valve manipulations.

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LaSalle 1996 GSEP Exercise PORTAL MONITOR SHEETS Monitor Sheet A For Messages IP 11 and 12 l

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Monitor Sheet B j For Messages IP-11 and 12 l

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l LaSalle 1996 GSEP Exercise l ,'

c In-Plant Team Messages This is an Exercise l

IN-PLANT TEAM MESSAGE

! IP-12 Time: 1000-1200 (150 270) issue to: mms l Prerequisites: Dispatched to troubleshoot and repair 1C11 F389 l

Initiating Action Response l

1. Locates area where 1C11 F389 is. 1.a Do not let Participant enter the floor area where the valve is located because it is a real Contaminated Area.

1.b Lead the Participant to the mockup.

2. Arrives at mockup. 2.a Valve indicates in the closed position.

! 3. Attempts to repair mockup. 3.a When taken apart, there is a long rip in the diaphragm.

3.b When spare diaphragm is located, use existing one to reinstall. DO NOT GIVE US THE VALVE BACK BEFORE 1100).

4. If full PCs used. 4. Portal Monitors read as read.

i S. If minimum PCs used. 5.a Hand Participants attached Portal Monitor Sheet A.

5.b When at decon, the left elbow is contaminated to 75K dpm (7.5K cpm) and left knee will be contaminated to 100K/dpm (10K com).

l 6. If no PCs used. 6.a Hand Participants attached Portal Monitor Sheet B.

6.b When at decon, the left elbow and knee are contaminated as in 6.b plus the bottom of the shoes are contaminated to 150K dpm (15K cpm).

l 7. After decontamination. 7. All readings as read.

l CONTROLLER NO1E: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room when 1C11 F389 is repaired.

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in-Plant Team Messages  !

i This is an Exercise i IN PLANT TEAM MESSAGE IP 13 Time: 1000-1400 (150 390)

Issue to: ems Prerequisites: Dispatched to troubleshoot SCRAM circuitry initiating Action l Response CONTROLLER NOTE: The ems should conclude that there is a failure of the SCRAM contactors 14H and 14F and conclude that a complete SCRAM contactor replacement is necessary. This job will take more than the time of the exercise to complete. *

• 1. Comes to conclusion that SCRAM 1.a Have team estimate the time it takes contactors need to be replaced. to replace the SCRAM contactors.

1.b Have them report back to the OSC l when they have explained exactly what they are going to do.

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have blown fuses and SCRAM half of the rods we not SCRAM because their

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LaSalle 1996 GSEP Exercise In-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP 14 Time: 1139 (249)

Issue to: Any Participants in the area Prerequisites: None

1. The ground is shaking slightly. Anything in the area that is not secure is shaking. If you are in an area that has tables, non-secure items on the table are moving across the tat le slightly.

a

2. The tremors last for two minutes.

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3. If in the area of any of the problems encountered in Message IP-16, give that information to your participants.

4. If in an area that will hear the result of Message IP-15, give that information to your participants.

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I LaSalle 1996 GSEP Exercise

], in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP-15 Time: 1141 (251)

Issue to: Participants within earshot of SAT Fallure Prerequisites: Aftershock event has occurred

1. For Participants that are outside or near windows, they see what appears to be lightning.

2. For Participants in the following areas, they hear a loud explosion much like thunder an I instance after they saw the " lightning"if they were able to see it. ,

a

- Anyone outside

- Trackways l

- Service Building (close to walls or on top floor)

- Main Access Facility

. - Turbine Building on Turbine Deck and near edges of the building where i background noise is low (Unit 2 side since they in an outage for the l exercise) i l

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l LaSalle 1996 GSEP Exercise

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In-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP-16 Time: 1145-1400 (255-390)

Issue to: All participants dispatched to inspect for earthquake damage Prerequisites: Aftershock event has occurred l

Initiating Action Response 4

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i LaSalle 1996 GSEP Exercise

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In-Plant Team Messages l This is an Exercise IN-PLANT TEAM MESSAGE IP 17 i

Time: 1145-1230 (255-300) i issue to: Local Operator i

Prerequisites: Dispatched to Bus 143-1 '

initiating Action Response l

1. Arrives at Bus 143-1 1.a The light fixture is on the floor in j front of the Bus.

1.b The electrical connection to the light 4

fixture is intact and does not appear )

l severed. l 1.c Show participants attached drawing. I CONTROLLER NOTE: Simulate actions at the breaker. No actual breaker manipulations I should be performed on a live bus, l

. 2. Attempts to shut breaker by hand. 2.a If time is before 1200, breaker will not shut.

2.b if time is 1200 or after, breaker will shut.

3. Attempts to shut breaker with pipe 3. Breaker shuts.

wrench or other tool that controller l thinks will grip switch.

CONTROLLER MOTE: Call the Simulator Operator (8 782-2284) before allowing the Participants to report to the Control Room that the breaker is shat.

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4KV Bus 143-1 HPCS PUMP DISCHARGE Switch moved VALVE 1 E22-F004 to 0FF position ,

RELAYS INSIDE COMPT HAVE 480VAC ACROSS OF THE CONTACTS l

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in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP 18 Time: 1145 1230 (255 300)

Issue to: Local Operator Prerequisites: Dispatched to locally open 1E22 F004 initiating Action Response

1. Locates valve and opens it manually. 1. Valve opens as expected.

CONTROLLER NOTE: Call the Simulator Operator (8 782-2284) before a!!owing the Participants to report to the Control Room that the valve is open.

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Prerequisites: Dispatched to inspect the SAT Initiating Action Response i

1. Arrives at SAT. CONTROLLER NOTE: Try to find out if the deluga system has been isolated or if personnel have been a

dispatched to isolate the deluge system before leaving the OSC.

1.a Deluge is operating if it has not been determined that the deluge system has been isolated.

, 1.b The transformer is wet.

1.c One of the bushings (doesn't matter which one)is charred and broken with pieces of it on the ground.

1.d The electrical connection is still

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There is no fire.

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Unit 1 SAT Facing West nl/s .\l/s s},{fe s},{fe p @lUgg Pieces of rear i a i r a T is on busNng missing E i I E Snd found on the ground  ;  ;

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• This is an Exercise IN PLANT TEAM MESSAGE IP-20 Time: 1145-1230 (255 300)

Issue to: Local Operator Prerequisites: Dispatched to AEER to check Panel 1FPO4JA Initiatina Action Response I

1. Checks 1FPO4JA. 1. Red light is lit for SYS AUX TRANSF DELUGE PRESS SW.

2. Attempts to reset 1FPO4JA alarm. 2.a if deluge valve is isolated, the alarm i

goes off.

2.b if deluge is not isolated, the alarm will not reset.

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LaSalle 1996 GSEP Exercise in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP-21 Time: 1145 1300 (255 330)

Issue to: Local Operator Prerequisites: Dispatched to Investigate deluge of SAT.

Initiating Action Response i

1. Arrives at Deluge Valve area. 1. Can hear flow through SAT Deluge l Valve. l

2. Attempts to isolate SAT Deluge 2.a Controller will allow if combination of I

• valve manipulations would isolate l Valve.

flow per attached drawing.

2.b Flow noises stop.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the l Participants to report to the Control Room that the Deluge Valve is isolated.

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LaSalle 1996 GSEP Exercise 3 In-Plant Team Messages This is an Exercise IN-PLANT TEAM MESSAGE IP-22 Time: 1145 1230 (255-300)

Issue to: Local Operator Prerequisites: Dispatched to investigate why the 0 D/G failed to start Initiating Action Response

1. Enters 0 D/G Room. 1.a Annunciator hom is sounding.

1.b 0 D/G is not running.

2. Locates annunciator panel and 2.a The following annunciators are lit:

4 acknowledges alarms. 1 - FAILURE TO START 2 - OVERSPEED -

2.6 Annunciator hom stops. f

3. Inspects 0 D/G. 3. Appears as is. l

4. Looks at fuel rack. 4. Fuel rack is tripped.

5. Attempts to reset fuel rack by 5.a If S-8 not jumpered, Overspeed trip l lowering overspeed trip reset. will not relatch. (

5.b If S-8 jumpered, Overspeed will '

relatch.

. 6. Checks annunciator panel. 6.a . If S-8 not jumpered, Annunciator 1-2

- OVERSPEED is stillin alarm.

6.b if S-8 lumpered, alarm clears. )

7. Start 0 D/G locally after successful 7. O D/G starts. l jumper of switch S 8.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room that the O D/G is running.

0

LaSalle 1996 GSEP Exercise MOCK NRC GUIDELINES THIS IS AN EXERCISE

,, 3 i

MOCK NRC RADIOLOGICAL CONCERNS Continued Contamination Control

a. In-Plant

b. Off Site Containment Control (Primary / Secondary)

a. Status of Last ILRT

b. Status of Containment (press, temp Hydrogen)

Site Conditions 8 a. Inside Security Fence

b. Security Fence to Property Line Site Surveys

a. Radiological, Haz Mat, Security

b. Locations and conditions

c. Off-Site Assistance Radwaste Systems

- a. Status, Capability, availability

b. Off Site Assistance (CECO, Vendor, Federal, State)

Meteorological conditions

a. WS, WD, DT

b. Effect Sectors

c. Effect on PARS Field Teams Activities

a. Number, location, controlled by (TSC/ EOF)

b. State support with field teams

c. Type of monitoring, sampling

d. Plume determination, sectors, elevated vs ground

e. Teams from other stations, utilities i

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LaSalle 1996 GSEP Exercise G In-Plant Team Messages This is an Exercise ,

1 l

IN PLANT TEAM MESSAGE IP 23 1

Time: 1145-1400 (255 390)

Issue to: IMs/ mms '

Prerequisites: Dispatched to investigate the failed overspeed switch

)

Initiating Action Response j

1. Locates annunciator panel and 1.a The following annunciators are lit: )

acknowledges alarms. 1 - FAILURE TO START j 2 - OVERSPEED e

4 1.b Annunciator hom stops. l

2. Inspects 0 D/G. 2. Appears as is. l

3. Looks at fuel rack. 3. Fuel rack is tripped.

4. Checks annunciator panel. 4.a If S-8 not jumpered, Annunciator 12

- OVERSPEED is still in alarm.

" 4.b If S-8 lumpered, alarm clears. l

! 5. Attempts to jumper S-8. 5. Works as long as Controller feels that the jumper was installed properly.

.- CONTROLLER NOTE: The Team may decide to replace the mechanical overspeed trip  ; ,

mechanism. This will not be completed by the end of the exercise.

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6. Comes to conclusion that 6.a Have team estimate the time it takes mechanical overspeed trip to replace the mechanism. .

mechanism needs to be replaced. 6.b Have them report back to the OSC )

when they have explained exactly what they are going to do.

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CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the I

Participants to report to the Control Room that the O D/G S 8 switch is jumpered.

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LaSalle 1996 GSEP Exercise L ~ ~' In-Plant Team Messages This is an Exercise IN-PLANT TEAM MESSAGE IP-24 Time: 1145-1300 (255-330)

Issue to: Local Operators /EMD Prerequisites: Dispatched to Bus 141Y to investigate ACB 1414 Initiating Action Response

1. Looks at outside of ACB 1414. 1. Green open light is lit on Local Control Switch.

CONTROLLER NOTE: Simulate actions at the breaker. No actual breaker manipulations should be performed on a live bus.

2. Racks out breaker. 2. Nothing out of the ordinary is found.  ;

3. Inspects lower left opening where 3. Closing spring connection is broken l closing spring is. and closing spring is detensioned. i l

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing tha Participants to report to the Control Room that the new breaker is racked in.

4. Finds similar breaker on any bus 4. Controller must estimate time it from either Unit 1 or 2 and installs it would really take to do this and not in ACB 1414 cubicle. allow the Participants to report the l new breaker racked in to the Control l l

Room until the proper time has passed.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room that ACB 1414 has been closed locally. l S. Closes ACB 1414 locally. 5. Breaker makes closing noises and Red closed light is lit on Local Control Switch.

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LaSalle 1996 GSEP Exercise

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In-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP 25 Time: 1145-1230 (255-300)

Issue to: ems

, Prerequisites: Dispatched to troubleshoot and repair ACB 1414 j initiatino Action Response I 1. Looks at outside of ACB 1414. 1. Green open light is lit on Local 1

Control Switch.

• CONTROLLER NOTE: Simulate actions at the breaker. No actual breaker manipulations should be performed on a live bus.

2. Racks out breaker. 2. Nothina out of the ordinary is found.

3. Inspects lower left opening where 3. Closing spring connection is broken

] closina spring is. and closina spring is detensioned.

j ,

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room that the new breaker is racked in.

4. Finds similar breaker on any bus 4. Controller must estimate time it from either Unit 1 or 2 and installs it would really take to do this and not

. in ACB 1414 cubicle. allow the Participants to report the i new breaker racked in to the Control Room until the proper time has passed.

CONTROLLER NOTE: Call the Simulator Operator (8-782-2284) before allowing the Participants to report to the Control Room that ACB 1414 has been closed locally.

5. Closes ACB 1414 locally. 5. Breaker makes closing noises and Red closed light is lit on Local Control Switch.

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LaSalle 1996 GSEP Exercise in-Plant Team Messages This is an Exercise IN PLANT TEAM MESSAGE IP-26 Time: 1145-1400 (255-390)

Issue to: Local Operator Prerequisites: Dispatched to investigate why 1B RHR Pump tripped initiating Action Response

1. Arrives at entrance to RHR Pump 1.a Do not allow Participants to enter Room. High Radiation Area.

1.b Take the Participants to one of the

• Heater Drain Pumps (similar design l and construction) and use attached j picture to explain what they see.

2. Arrives at Heater Drain Pump. 2.a Pump housing appears to be at 5 degree angle from normal up and

- down.

2.b Pump shaft appears slightly misaligned with seals.

3. Inspects shaft at pump seats. 3.a Shaft is misaligned with seals.

3.b Water is bubbling out slowly of space e

, *) between shaft and seals.

CONTROLLER NOTE: Refer to Plant Maps to give RHR Pump Room Rad Data even though at the Heater Drain Pumps.

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1B RHR PUMP lm F 3 Pump Housing Pump sitting at 5 deg Motor W from normal Shaft not aligned J

seal assembly.

Water bubbling

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Pedestal R r O Wet Poe v

impeller 1 _~

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LaSalle 1996 GSEP Exercise In-Plant Team Messages This is an Exercise IN-PLANT TEAM MESSAGE IP-27 Time: 1145-1400 (255-390)

Issue to: mms Prerequisites: Dispatched to investigate and repalr 1B RHR Pump Initiating Action Response

1. Arrives at entrance to RHR Pump 1.a Do not allow Participants to enter Room. High Radiation Area.

1.b Take the Participants to one of the a Heater Drain Pumps (similar design and construction) and use attached picture to explain what they see.

2. Arrives at Heater Drain Pump. 2.a Pump housing appears in be at 5 degree angle from normal up and

- down.

2.b Pump shaft appears slightly misaligned with seals.

3. Inspects shaft at pump seals. 3.a Shaft is misaligned with seals.

3.b Wateris bubbling out slowly of space O, . between shaft and seals.

CONTROLLER NOTE: Refer to Plant Maps to give RHR Pump Room Rad Data even though at the Heater Drain Pumps.

4. Takes apart pump seals. 4. Seals are ruined and the pump shaft

" is severely scored.

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LaSalle 1996 GSEP Exercise In-Plant Team Messages This le an Exercise IN PLANT TEAM MESSAGE IP 28 Time: 1200-1400 (270-390)

(

Issue to: Participant dispatched to inspect Met Tower Prerequisites: Aftershock event has occurred initiating Action Response

1. Arrives at Met Tower. 1. Conditions are as found.

• 2. There is no current through the

2. Takes any readings on the power cables. power cables.

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Security Messages This is an Exercise l

SECURITY MESSAGE SEC-1 Time: 0753 (23)

Issue to: Control Room From: Security Control Room Prerequisites: Earthquake event has/is occurring.

1. Tell them the following information:

- What is the shaking? Did the Turbine trip?

4 The security cameras were shaking.

- We had an E Field go out of service. We think that the problem is in area  !

12/13. We have sent the mobile patrol to investigate.  !

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LaSalle 1996 GSEP Exercise

. Security Messages This is an Exercise SECURITY MESSAGE SEC-2 Time: 0830 1400 (60-390)

Issue to: TSC Security Director From: Security Control Room Prerequisites: Call from Controller that the E Field is repaired I

1. Inform the TSC Security Director that the E Field is repaired.

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Security Messages This is an Exercise SECURITY MESSAGE SEC-3 Time: 0830-1030 (60-180)

Issue to: TSC Security Director From: TSC RP/ Chem / Security Evaluator Prerequisites: TSC Security Director asks Security Control Room for printout of personnel on site.

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1. TSC RP/ Chem / Security Evaluator should hand over the attached list of personnel about l five minutes after the request. l l

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2. The Security Controller just needs to take the call and contact the Lead TSC Controller '

- via the phone list that the request was made in case the RP/ Chem / Security Evaluator didn't hear the phone call.

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LaSalle 1996 GSEP Exercise

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Security Messages This is an Exercise SECURITY MESSAGE SEC-4 Time: 0945-1030 (135-180)

Issue to: TSC Security Director From: RP/ Chem / Security Evaluator Prerequisites: Assembly in progress

1. If Security Director asks for a personnel printout, provide one (attached) within three 4 minutes per the following table:

Time after assembiv Printout 15-20 minutes A 20-25 minutes B 25-60 minutes C 4

2. Security Controller only needs to take the call.

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l LaSalle 1996 GSEP Exercise

' Security Messages This is an Exercise SECURITY MESSAGE SEC-5 Time: 1141-1145 (251 255)

Issue to: TSC Security Director From: Security Control Room Prerequisites: Earthquake Aftershocks event in progress

1. Issue a call to the TSC Security Director with the following information: l I

- There was a flash like lightning followed by an explosion like thunder. It is a sunny outside with very few clouds.

- The mobile patrol just reported that it was in the vacinity of the transformers.

1

- We have sent the Mobile Patrol over to investigate.

2. Call back two minutes later with the following information:

- The mobile patrol reports damage to one of the transformers.

- There are some pieces of a connection on the ground.

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- There is water spraying all over the damaged transformer.

There is no fire.

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PLANT RAD MAPS D ,

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1. DOSE RATE INFORMATION l l l I HOURLY DOSE RATES I I

TIME mR/hr UNLESS NOTED GENERAL HOURS A B C l D E F NOTES l 0730-0945 As Read As Read As Read As Read AREA "A" CHEST / HEAD  !

0945-1130' 150/350 10 As Read 200 12 Rem @ contact with pipe ,

1130-1400 300/700 20 As Read 400 3 Rem @ contact with pipe i

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2. AVERAGE mrem per minute OF TIME SPENT IN AREA

,o TIME HOURS A B C D E F GENERAL NOTES 0730-0945 As Read As Read As Read As Read 0945-1130 As Read As Read As Read As Read I

1130-1400! As Read As Read As Read As Read i

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3. AIRBORNE CONCENTRATIONS AND CONTAMINATION LEVELS i l I i I

I TIME GAS I IODINE PARTIC. CONTAMINATIOM GENERAL HOURS uCi/cc uCi/cc uCi/cc Levels in cpm /100 cm2 NOTES 0730-0945. As Read As Read As Read As Read As Read As Read i ,

0945-1130 As Read As Read As Read As Read As Read As Read 1130-1400l As Read IAs Read As Read As Read As Read As Read

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__. BY:

REVIEWED BY:

U-1 761 RK GEltERAI AREA # S19 L.m E E 8,

l LaSalle Station

"'g 761 ELEVATION GENERAL AREA

1. DOSE RATE INFORMATION I

I HOURLY DOSE RATES I I

TIME .mR/hr UNLESS NOTED l GENERAL HOURS A B C l D l E I F NOTES i  ! _

0730-0945 As Read As Read As Read iAs Read lAs Read t I I 0945-1130! 50 400 As Read 200 100 i 3 I  !

1130-1400! 75 400 As Read 200 100 I i

l I

2. AVERAGE mrem per minute OF TIME SPENT IN AREA  !

TIME HOURS A B C D E F GENERAL NOTES 0730-0945 As Read As Read As Read As Read As Read  !

l 0945-1130 1 7 As Read 2.5 1.5 l I

I 1130-1400 1 7 As Read 2.5 1.5 l

I l  !

i i t

! t l l l l i

3. AIRBORNE CONCENTRATIONS AND CONTAMINATION LEVELS I l TIME GAS IODINE PARTIC. ! CONTAMINATIOM i GENERAL HOURS uCi/cc uCi/cc uCi/cc ' Levels in cpm /100 cm2 i NOTES 0730-0945; As Read lAs Read As Read ! As Read _ As Read As Read i i  !

0945-1130_ As Read IAs Read As Read I As Read As Read I As Read l l I

1130-1400' As Read ! As Read As Read As Read As Read I As Read i

( C) -

)

@ u ra',n E-UNIT _{

,f l n fL h N# BLOG.

OL j L., ,,, -

a , ,,,, ,,, -

n i ELEV. 7 $f o

- fy*** -' -

i W-iu MW(e)-

b G j' B r N p B INST.SER.*

CP GE O

='-*' = g - -

CAL DUE: / /

D _ SOURCE CK BY

==

(INIT)

__ - P '=

GM Q

~ ~ " * " "

CAL DUE: / /

O O

-N I SOURCE CK BY 0-- 0-- B (INIT)

' AIR

_# ;9O _

~

CAL DUE: / /

b e{ _

- .x y OTHER G-

- - = .

ec 3 9 U ROUTINE e _

. Z M ,. . =

g 0 RWP"

@[

m,w,iJ g

A g j g g , ,

_ AIR SAMPLE RESULTS: DAC x O \ O h4 * #$

hWT WOT 4 DATE: / /

LJ LJ LJ LI LJ g TIME:  :

@ O @ @ @ @ BY:

REVIEWED BY1_

U-1 740 RK CENERAL AREA # 914 L o m E .iimi. E f' -

i l l ILaSalle Station I i

~~'

! i 1740 ELEVATION l j l i GENERAL AREA AND PLATFORM i l I i i

1. DOSE RATE INFORMATION i i l i i i I i i

i  ! } } I jHOURLY DOSE RATES I I I I l l TIME I i ImR/hr UNLESS NOTED I GENERAL HOURS A B I C l D E F i NOTES

' 1 ,

0730-0945) 50/30 As Read l. AREA "A" PLATFORM l l l 0945-1130 150/40 As Read AREA "B" GENERAL AREA l

1130-1400 150/40 As Read I"A" contact' general area 500/120 IWhen SDV open IWhen valve fixed "A"is

( '

l As Read l l

2. AVERAGE mrem per minute OF TIME SPENT IN AREA l

l , TIME l l j% HOURS A B C D E F GENERAL l NOTES 0730-0945 As Read l

0945-1130'; 2.5/1 1

1130-1400 2.5/1 i

- i i 8.0/2 i I j !When SDV open I t i i i l I

l

! I i I I i l I I l

3. AIRBORNE CONCENTRATIONS AND CONTAMINATION LEVELS I i I i

l  !  !

TIME I GAS  ! IODINE ! PARTIC. I CONTAMINATIOM  ! GENERAL HOURS i uCi/cc ( uCi/cc uCi/cc l Levels in cpm /100 cm2 i NOTES I  ! i l !__

07340945' As Read I As Read As Read IAs Read As Read l As Read i l I  !  !

0945-1130l As Read As Read As Read As Read As Read As Read I l

i i i i j 1130-1400 As Read lAs Read As Read As Read As Read I As Read i

! . I 110K cpm /100 cm2 i IWhen SDV open v

Cbmonwecith Ediso n t.asma.E Comte stan :

UNIT _ .1 gf F1_ n n n n FL.

7'/ / BLOG' atvana u-q r '.- o o o O O

- EtEv. EIO M W (*): - -- --

@ ]""

s

. .,.' "' l y -

' './' . ,

p ri. , INST.SER.*

'F (

@[ \ _

^ CP _______

Ca o a/o ri /

c h

a o

M a

n E-CAL DUE: _1_ _/__

SOURCE CK BY y .,_,

(INIT)

[

GM ______

8e, .. CAL DUE: _/__/__

SOURCE CK BY j (INIT)

AIR ______

gg CAL DUE: _1__/__

__ -.m um m erwee a c=

OTHER ________ ,

- e na wrwm onwee a em .r**=

O C O c3 U U r= = _

ROUTINE

)oZ l' O gg '

i gyg,j) 1 O RWP'

/ u

--- f O __________

g / g yo

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a

/r, O EQ mer AIR SAMPLE

' g I jfg! RESULTS: = - __OAC g /' n I -

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\!

U U U U U D A TE: ___Z _ _ z _ _

If- TIME: _--

@ @ @ b b b b B Y: ___ ____ __

REVIEWED BY: ____

o_i .2. = == m i.= = ,.2, b

F

! i ILaSalle Station I i l _' I 1820 ELEVATION  !

l IGENERAL AREA I

__ I l

~ I. I

1. DOSE RATE INFORMATION

!  ! l l I  !  ! l HOURLY DOSE RATES i i  !

I I I I TIME i mR/hr UNLESS NOTED i GENERAL HOURS A B C D E F  ! NOTES 0730-1130 As Read As Read As Read l  !

1130-1140; 10 50 As Read l i

80 400 As Read

, 1140-1200l 1200-1210! 140 700 As Read i 1210-1230l 110 600 As Read 1230-1300l 70 250 As Read 1300-1400; 10 50 As Read

2. AVERAGE mrem per minute FOR TIME SPENT IN AREA e TIME HOURS A B C D E F GENERAL s

NOTES 0730-1130, As Read As Read As Read l 1130-1140' As Read 1 As Read 1140-1200 1 6.6 As Read l 1200-1210, 2.5 12 As Read 1210-1230! 2 10 As Read ,

1 As Read l 1230-1300l 1 1300-1400! As Read As Read As Read l l l

. i i

i j i  !

I

3. AIRBdHNE CONCENTRATIONS AND CONTAMINATION LEVELS GAS IODINE PARTIC. CONTAMINATIOM GENERAL TIME uCi/cc uCi/cc uCi/cc I Levels in cpm /100 cm2 l NOTES HOURS I I I  !

0730-1400! As Read l As Read As Read I As Read As Read As Read i 1

l

~ -,J

O .

)

DdsrYn!="

UNIT - J_

23r BLDG.

j

' ELEV. 673 MW(e):

INST. SER.

• CP CAL DUE: / /

SOURCE CK BY (INIT)

GM CAL DUE: / /

A SOURCE CK BY (INIT) p AIR HS

• 153 CAL DUE: / /

OTHER h 0 ROUTINE

- O RWP" OB 0 AIR SAMPLE OO -

,, RESULTS: DAC DATE: //

-] TIME:  :

I l l BY:

REVIEWED BY:

I _ ., hgg, g,,,

o-1 m nac man me===s a4 S E CO'RNER

l ILaSalle Station I i 1673 ELEVATION I I"B" RHR HX ROOM i l i l  ! i I j l

1. DOSE RATE INFORMATION  ! j l

I HOURLY DOSE RATES I TIME l ImR/hr UNLESS NOTED GENERAL HOURS A I B C D E F NOTES t

0730-0945; 25 I

0945-1130 200 1 2 Rem @ contact with pipe 1130-1400; 400 13 Rem @ contact with pipe i

1  !

l I

2. AVERAGE mrem per minute OF TIME SPENT IN AREA

.m TIME j HOURS A B C D E F GENERAL NOTES 0730-0945 As Read 0945-1130 3.5

~1130-1400f 7 I

,  ! l

! l  ! i

' I l I i i i

3. AIRBORNE CONCENTRATIONS AND CONTAMINATION LEVELS i I  ! l  ! I  !

i l i i i TIME t GAS i IODINE PARTIC. I CONTAMINATIOM GENERAL HOURS l uCi/cc j uCi/cc uCi/cc Levels in cpm /100 cm2 NOTES I l I  !

0730-0945! As Read i As Read I As Read As Read As Read [As Read i I i  ! l 0945-1130l As Read i As Re.td As Read As Read As Read l As Read I I i <

1130-1400 A,s Read i As Read As Read As Read As Read I As Read i v

(

. (. ) . .)

n

@ Connonnealth tasaua cosmr srarum Ed i UNIT - J.

R/ BLDG.

ELEV. & 9'/  !

MW(e): j INST. SER.

• CP CAL DUE: / /

'N ./' SOURCE CK BY I

,X.,

/ \ (INIT)

GM CAL DUE: / /

s ,

SOURCE CK BY

'N /

f'x' (INIT)

AIR

~

CAL DUE: / / -

OTHER

{. D=

'N /

@ Y h "N ROU INE

[ RWP C

++ - -

AIR SAMPLE '

RESULTS: DAC

- NORTH-->

TIME:  : i BY:

REVIEWED BY:

U-1 RX 694 *B" RIDt BE ROOct # 000 w .__ m_

I II.aSalle Station I 1694 ELEVATION "B" RHR HX ROOM l

l

1. DOSE RATE INFORMATION l

HOURLY DOSE RATES l

TIME mR/hr UNLESS NOTED GENERAL HOURS A B C D E F NOTES 1

0730-0945 25 0945-1130' 200 2 Rem @ contact with pipe 1130-1400 400 3 Rem @ contact with pipe

2. AVERAGE mrem per minute OF TIME SPENT IN AREA

'3 TIME

,V HOURS A B C D E F GENERAL NOTES 0730-0945 As Read 0945-1130 3.5 1130-1400: 7 I

3. AIRBORNE CONCENTRATIONS AND CONTAMINATION LEVELS I

TIME GAS LODINE PARTIC. CONTAMINATIOM I GENERAL HOURS uCi/cc uCi/cc uCi/cc Levels in cpm /100 cm2 NOTES l 0730-0945 As Read As Read As Read As Read As Read 'As Read l t  !

0945-1130, As Read As Read As Read As Read As Read As Read l

l l _

1130-1400 As Read As Read As Read As Read As Read As Read l %)

l

_ _ _ - - - - ~ ~ '

.c &

S m

^'

boR TH 1ly : /

u l k l 8815

] ks o  ;

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s up d,:

ll 5 og m

t Tj / ,/~j " g  ;

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i

,1

, kI il  ; a, -

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\

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\ n h

\ x N NG T

,! i i .!al 54 ' \ ~ ~" N v

LaSalle Station N OUTSIDE AREAS INSIDE THE FENCE

1. DOSE RATE INFORMATION l

HOURLY DOSE RATES TIME mR/hr UNLESS NOTED GENERAL HOURS A B C D E F NOTES I

0730-1141 As Read As Read As Read As Read As Read As Read 1142-1156 As Read As Read 20 40 27 7 '

1157-1211 As Read As Read 40 100 50 15

, 1212-1226 As Read As Read 22 60 39 11 1227-1241 As Read As Read As Read 7 2 As Read 1242-1500 As Read As Read As Read As Read As Read As Read I

l 1

2. AVERAGE mrem per hour OF TIME SPENT IN AREA

fm TIME HOURS A B C D E F GENERAL NOTES 0730-1141 As Read As Read As Read As Read As Read As Read 1142-1156 As Read As Read As Read 1 As Read As Read 1157 1211 As Read As Read 1 1.5 1 As Read 1212-1226 As Read As Read As Read 1 As Read As Read 1227 1241 As Read As Read As Read As Read As Read As Read 1242 1500 As Read As Read As Read As Read As Read As Read

3. AIRBORNE CONCENTRATIONS AND CONTAMINATION LEVELS TIME GAS IODINE PARTIC. GM BACKGROUND GENERAL HOURS uCi/cc uCi/cc uCi/cc Levels in cpm /100 cm2 NOTES C D E 0730-1141 As Read As Read As Read 80,000 195,000 105,000 1142 1156 As Read As Read As Read 160,000 395,000 215,000 1157-1211 As Read As Read As Read 90,000 240,000 155,000 12121226 As Read As Read As Read 2,750 7,500 10,000 l

1227-1241 As Read As Read As Read As Read As Read As Read 12421500 As Read As Read As Read As Read _ As Read . As Read s s

o.

LaSalle 1996 GSEP Exercise e

INITIAL CHEMISTRY G

~)

i l

4 1

i l

t i

• i

~.d i

LOP 140-30 Revielen 3 Decer.ber II. 1993 GSEP 6 EXERCISE A-"'A E T A LASALLE 00T2 C STATION UNIT OO SA2".P

• I I:TOPF.ATION SHEET REACTOR WA ER ISOTCPIO ANAI.YSIS REASON FOR ANALYSIS (CHECK as many as applicable)

Determination of Dose Equivalent I-131 (Te ch . Spec. Table 4.4.5-1 Iter. I).

Determination of E-Bar (Tech. Spec. Table 4.4.5-1, Item 3).

Determination Dose Equivalent of Iodine fellowing specific activity exceeding 100/E uc /g or I-131 exceeding C.I Ciig (Tech. Spec. Table 4.4.5-1 Item 4a.).

a Determination of Iodine.

change of greater than 15% Sa=ple cbtained between I and 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> fc11owing l Table 4.4.5-1, Item (b) cf RATEO ~HERMAI. POWER in one hour (Tech. Spec.

l

• Determination of Iodine. Sa=ple cbtained between I and 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> following I offgas A CIONchanges, C.I or C.3.prior to the heldup line, as described in Tech. Spec. 3.4.5.

j Fuel Warranty (F.W.O.P. )

m.

I J Other:

\

SAMPLE DATA FOR Efil"RY Ittro ND:

Sample Time (dd nan-yyyy hh:c n:ss :cc)

Collector's Initials /6JUAl%/t332 SAMPLE quantity, grams du' ,

MWE/MWT l'14 it '

_9~1I / N Bi SAMPLE PREPARATION (CHECF. as cunny as applicable) -

Y Filtered through (EITTER ICM3ER) I Millipore Papers Oation Papers Anien Papers Gelled Unfiltered Reviewed: bt 6 udA, kM/9lo a

t

" GSEP m, EXERCISE

U-1 REACTOk WATER - BWR COOLA:n '

CONFIGURATION FILE......: $1$DIA4 (CRU. ARCHIVE _UNAPP)30P20513B_SAMP_9427.Cr

^ TECTOR SERIAL NUMBER..: 30-P20513B GEOMETRY................: 10L200 V THOD UNCERTAINTY (%)..: 5.0000 AVE UNC IN EFF (%)......: 6.55923E-0 ENERGY CALIB GAIN.......: 5.00080E-01 FWHM CALIB GAIN.........: 4.04778E-0; ENERGY CALIB OFFSET.....: 9.67608E-03 FWHM CALIB OFFSET.......: 4.73724E-01 ANALYST'S INITIALS.........: CE ANALYSIS DATE/ TIME.........: 38-JuM-1996 13 : 59 :20. 99 COLLECTOR'S INITIALS.......: NRH SAMPLE COLLECTION DATE/ TIME: 18-Ju9-1996 13:42:00.00 '

l DURATION OF DECAY..........: 0 00:17:20.99 COUNT LIVE TIME............: 0 01:00:00.00 -

COUNT REAL TIME............: 0 01:02:11.20

! DEAD TIME..................: 3.5%

SAMPLE MASS (GRAMS).........: 1.95110E+02 '

- GSEP MWT........................: 2438.

SAMP LE POINT . . . . . . . . . . . . . . . : EXERCISE l

REMARK.....................:

Summary of Nuclide Activity Total number of lines in spectrum 56 l Numbar of unidentified lines 10 l Numbnr of lines tentatively identified by NID 46 82.14%

Nuclide Type : AP Wtd Mean Wtd Mean l<%s Uncorrected Corr Decay Corr 1-Sigma plide Hlife Decay UCI/ GRAM Decay UCI / GRAM g 1-Si'ma Error % Error Flags

'nA-24 14.96H 1.04 3.423E-03 3.553E-03 0.249E-03 7.00 l CR-51 27.70D 1.00 3.533E-03 3.536E-03 0.283E-03 8.01 MN-54 312.14D 1.00 2.753E-05 2.754E-05 0.573E-05 20.81 MN-56 2.58H 1.24 1.051E-04 1.301E-04 0.215E-04 16.53 CO-58 70.82D 1.00 5.466E-05 5.468E-05 0.748E-05 13.67 CO-60 5.27Y 1.00 1.175E-04 1.175E-04 0.077E-04 6.55 ZN-65 243.90D 1.00 3.439E-05 3.440E-05 1.184E-05 34.43 ZN-69M 13.76H 1.04 5.769E-04 6.007E-04 0.447E-04 7.44 Total Activity : 7.872E-03 8.054E-03 Nuclide Type : FP Wtd Mean Wtd Mean Uncorrected Corr Decay Corr 1-Sigma Nuclide Hlife Decay UCI/ GRAM Decay UCI / GRAM 1-Sigma Error  % Error Flags SR-91 9.50H 1.06 5.863E-05 6.217E-05 0.841E-05 13.53 SR-92 2.71H 1.23 1.859E-04 2.279E-04 0.334E-04 14.63 MO-99 65.92H 1.01 2.022E-04 2.039E-04 0.383E-04 18.78 TC-99M 6.01H 1.10 2.229E-03 2.445E-03 0.180E-03 7.35 TC-101 14.20M 7.44 2.617E-04 1.947E-03 0.213E-03 10.95 0.818E-04 12.59 TC-104 18.20M 5.06 1.285E-04 6.503E-04 I-132 2.30H 1.27 2.070E-04 2.629E-04 0.142E-04 5.42 I-133 20.80H 1.03 1.043E-04 1.071E-04 0.114E-04 10.64 I-134 52.60M 1.84 3.642E-04 6.707E-04 0.367E-04 5.47 l -

l' V GSEP EXERCISE

~ ~

aunuary ul auc11ue ace vTty icontinuec) rue - -

Sample ID : Acquisition dnta 3 13 .kAN-1996 13:59:2C Nuclide Type : FP Wtd Mean Wtd Mean Uncorrected Decay Corr Decay Corr 1-Sigma clide Hlife Decay UCI/ GRAM UCI/ GRAM 1-Sigma Error % Error Flags A-135 6.61H 1.09 2.102E-04 2.287E-04 0.207E-04 9.06 XE-135M 15.29M 6.58 2.247E-05 1.479E-04 0.348E-04 23.49 CS-138 32.20M 2.64 4.261E-05 1.123E-04 0.217E-04 19.31 BA-141 18.27M 5.03 5.975E-05 3.007E-04 0.858E-04 28.54 Total Activity : 4.076E-03 7.366E-03 Grand Total Activity : 1.195E-02 1.542E-02 Flags: "K" = Keyline not found "M" = Manually accepted "E" = Manually edited "A" = Nuclide specific abn. 1.4-it 4

GSEP EXERCISE

.)

\

~~

rumt-nAu rean searca neport Paga -

Sample ID : Acquisition dato : IS MS-1996 13 : 59 :2C GSEP It Energy Area B HMggDnel Left Pw % Err Fit Nuclider .

140.62 117378 156975 1.06 281.18 276 11 1.9 TC-99M 155.12 4491 81220 1.02 310.18 308 6 10.1 4 174.42 2253 101002 1.08 348.76 346 17 22.5 6.66E+00 4 175.78 2155 151838 1.48 351.48 346 17 32.8 4 177.36 2628 118410 1.13 354.64 346 17 21.9 4 179.25 2573 152780 1.49 358.43 346 17 27.5 0 190.38 1459 63840 1.05 380.68 379 5 26.2 BA-141 0 306.93 8860 49648 1.21 613.74 610 8 4.5 TC-101 0 320.11 12926 55509 1.24 640.11 636 9 3.4 CR-51 0 357.97 4038 31393 1.47 715.80 712 9 8.1 TC-104 0 388.53 727 15453 1.22 776.92 775 6 27.3 0 405.76 718 15600 1.28 811.37 808 7 29.1 I-134 0 438.67 15810 20791 1.29 877.17 872 11 1.9 ZN-69M i 0 511.02 892603 38545 2.64 1021.86 1014 18 0.1  !

O 522.74 828 5642 1.46 1045.29 1042 8 16.1 I-132 1 2 526.73 455 4042 1.35 1053.26 1050 16 22.3 4.12E+00 XE-135M 2 530.05 2232 5741 1.51 1059.91 1050 16 7.4 I-133 Q 535.19 354 4806 1.24 1070.19 1067 8 34.4 TC-104 0 540.82 497 4543 1.25 1081.44 1078 8 23.9 I-134 0 545.88 940 6460 2.91 1091.58 1086 12 17.4 I-135 ,

CS-138 l 0 555.81 599 4607 1.12 1111.42 1107 9 20.9 SR-91 1 0 595.42 1006 4560 1.33 1190.63 1186 10 12.9 I-134 0 621.68 1044 4818 1.42 1243.14 1238 11 13.2 I-134 0 630.18 570 3660 1.30 1260.14 1257 8 18.9 I-132 0 667.73 4250 4775 1.46 1335.22 1330 12 3.6 I-132 1 677.42 214 2719 1.11 1354.60 1352 7 41.0 I-134 739.23 438 2433 1.48 1478.20 1475 9 20.9 MO-99 749.78 603 2278 1.94 1499.31 1495 9 14.9 SR-91 0 772.67 2954 3184 1.50 1545.07 1539 12 4.2 I-132 0 811.12 971 2976 1.98 1621.96 1616 12 11.7 CO-58 I-132 1 834.72 482 2380 1.62 1669.16 1664 14 19.6 6.67E-01 MN-54 1 837.04 216 2114 1.48 1673.79 1664 14 40.0 I-135 2 843.82 2891 2062 1.58 1687.34 1678 22 3.4 1.09E+00 ,

2 847.06 1691 2232 1.61 1693.83 1678 22 24.1 MN-56 1 0 857.14 540 2580 1.71 1713.98 1709 11 18.7 I-133 I I-134 l 0 883.93 4103 3706 1.57 1767.57 1759 16 3.7 I-134  ;

O 954.53 748 2879 2.09 1908.73 1903 13 15.3 SR-92 l I-132 1 0 1014.54 943 2360 1.64 2028.74 2024 10 10.2 0 1024.27 447 2635 1.35 2048.19 2043 11 22.8 SR-91 0 1039.52 253 2077 2.15 2078.70 2074 9 33.2 I-135 0 1072.65 733 2448 1.93 2144.93 2140 10 13.2 I-134 0 1115.43 247 2222 1.43 2230.48 2227 8 33.7 ZN-65 0 1131.61 642 3073 1.81 2262.84 2258 11 17.2 I-135 0 1136.39 543 2723 1.68 2272.41 2268 10 18.5 I-134 0 1173.31 1682 2256 1.85 2346.22 2341 13 6.3 CO-60 0 1260.54 758 1341 1.85 2520.66 2513 14 10.9 I-135 0 1332.49 1397 1125 1.75 2664.53 2657 15 5.9 CO-60 GSEP EXE:RCISEE

rost-N1D FCaK SDarcn Meport (Continuec) .m y c . s I Sample ID : Acquicition dato : 16- JdN-1996 13 : 59 :2 C It Energy Area Bkgnd FWHM Char.nel Left Pw % Err Fit Nuclides 1368.70 41546 1629 1.89 2736.95 2727 20 0.5 NA-24

. 1383.84 2014 888 1.95 2767.22 2758 16 4.0 SR-92 0 1435.59 380 894 1.75 2870.71 2863 15 17.9 CS-13t 0 1457.22 238 851 2.08 2913.95 2908 15 27.4 I-135 0 1581.81 72 510 0.93 3163.09 3158 11 61.7 0 1732.20 4121 886 2.10 3463.83 3456 16 2.2 0 1791.89 218 911 0.83 3583.20 3576 16 31.8 I-135 l 1 1807.02 200 613 2.33 3613.44 3608 21 23.9 8.98E-01 I-134 i 1 1811.14 292 757 2.19 3621.69 3608 21 20.5 MN-56 )

1 l

GSIEP  !

. EXERCISE I

q J

l l

Unicsntatico Energy Lines , _ , . ..__.

Sample ID

• Acquisition dato : 18-JuN-1996 13:59 : 2C It Enorgy Area Bkgnd FWHM Channel Left Pw Ctc/ Sac % Err %Eff Flags 0 155.12 4491 81220 1.02 310.18 308 6 1.25E+00 10.1- 2.23E-01

- 174.42 2253 101002 1.08 348.76 346 17 6.26E-01 22.5 2.13E-01 175.78 2155 151838 1.48 351.48 346 17 5.99E-01 32.8 2.12E-01 4 177.36 2628 118410 1.13 354.64 346 17 7.30E-01 21.9 2.11E-01 4 179.25 2573 152780 1.49 358.43 346 17 7.15E-01 27.5 2.10E-01 0 388.53 727 15453 1.22 776.92 775 6 2.02E-01 27.3 1.23E-01 0 511.02 892603 38545 2.64 1021.86 1014 18 2.48E+02 0.1 9.83E-02 2 843.82 2891 2062 1.58 1687.34 1678 22 8.03E-01 3.4 6.68E-02 0 1014.54 943 2360 1.64 2028.74 2024 10 2.62E-01 10.2 5.83E-02 0 1581.81 72 510 0.93 3163.09 3158 11 2.01E-02 61.7 4.17E-02 0 1732.20 4121 886 2.10 3463.83 3456 16 1.14E+00 2.2 3.87E-02 Flags: "T" = Tentatively associated L

l GSEP l EXERCISE i

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uucAAue u.ne activity neport Fuge a c Sample ID 8 Acquisition data a 18-Juu-1996 13:59:20 Nuclide Type AP E Uncorrected oecar Carr 1-Sigma clide Energy %A5h)(E UCI/ GRAM UCI/ GRAM  % Error Status na-24 1368.63 100.00* 4.670E-02 3.423E-03 3.553E-03 7.00 OK Final Mean for 1 Valid Peaks = 3.553E-03+/- 2.488E-04 ( 7.00%)

l l CR-51 320.08 9.83* 1.432E-01 3.533E-03 3.536E-03 8.01 OK Final Mean for i Valid Peaks = 3.536E-03+/- 2.833E-04 ( 8.01%)

MN-54 834.84 99.98* 6.731E-02 2.753E-05 2.754E-05 20.81 OK Final Mean for i Valid Peaks = 2.754E-05+/- 5.729E-06 ( 20.81%)

MN-56 846.76 98.90* 6.658E-02 9.880E-05 1.224E-04 25.15 OK 1810.72 27.20 3.720E-02 1.111E-04 1.376E-04 21.86 OK 4 Final Mean for 2 Valid Peaks = 1.301E-04+/- 2.151E-05 ( 16.53%)

CO-58 810.77 99.40* 6.876E-02 5.466E-05 5.468E-05 13.67 OK 863.94 0.68 6.562E-02 ----- Line Not Found ----- Absent 1674.68 0.52 3.978E-02 -----

Line Not Found -----

Absent Final Mean for 1 Valid Peaks = 5.468E-05+/- 7.475E-06 ( 13.67%)

CO-60 1173.24 99.90 5.242E-02 1.236E-04 1.236E-04 9.40 OK 1332.50 99.98* 4.766E-02 1.128E-04 1.128E-04 9.12 OK l

- Fina) Mean for 2 Valid Peaks = 1.175E-04+/- 7.702E-06 ( 6.55%)

ZN-65 11.- 55 50.70* 5.441E-02 3.439E-05 3.440E-05 34.43 OK l

Final Mean for 1 Valid Peaks = 3.440E-05+/- 1.184E-05 ( 34.43%)

ZN-69M 438.63 94.90* 1.111E-01 5.769E-04 6.007E-04 7.44 OK Final Mean for i Valid Peaks = 6.007E-04+/- 4.470E-05 ( 7.44%) l Nuclide Type: FP Uncorrected Decay Corr 1-Sigma Nuclide Energy %Abn %Eff UCI/ GRAM UCI/ GRAM  % Error Status i SR-91 555.57 60.70* 9.189E-02 4.129E-05 4.378E-05 22.21 OK l 620.10 1.74 8.433E-02 ----- Line Not Found ----- Absent 652.90 7.70 8.103E-02 ----- Line Not Found ----- Absent 749.80 23.10 7.292E-02 1.377E-04 1.460E-04 17.30 OK 925.80 3.99 6.236E-02 ----- Line Not Found ----- Absent ,

1024.30 33.50 5.791E-02 8.862E-05 9.398E-05 23.90 OK '

j Final Mean for 3 Valid Peaks = 6.217E-05+/- 8.413E-06 ( 13.53%)

i GSEP l l' EXERCISE ,

1 l

NuC1103 Lin3 Activity h3 port (ContinuCQ) Aww- . .

Sample ID : Acquioitien dets : 18-JS -1996 13 : 59 :2C GSEP Nuclide Type: FP EXERC lSqncorrected Decay Corr 1-Sigma clide Energy %Abn %Eff UCI/ GRAM UCI/ GRAM  % Error Status od-92 241.52 3.00 1.767E-01 -----

Line Not Found ----- Absent 430.56 3.30 1.128E-01 ----- Line Not Fonnd ----- Absent 953.32 3.60 6.098E-02 1.311E-03 1.607E-03 21.77 < <WM Interf 1383.94 90.00* 4.631E-02 1.859E-04 2.279E-C'4 14.63 OK Final Mean for 1 Valid Peaks = 2.279E-04+/- 3.33$3-05 ( 14.63%)

MO-99 140.51 90.60* 2.278E-01 ----- Line Not Found ----- << INT Rejec' 176.56 13.60 2.123E-01 2.853E-04 2.877E-04 33.83 OK 366.42 1.20 1.286E-01 ----- Line Not Found ----- Absent 739.50 12.22 7.371E-02 1.870E-04 1.886E-04 22.08 OK ,

777.92 4.31 7.094E-02 -----

Line Not Found ----- Absant '

Final Mean for 2 Valid Peaks = 2.039E-04+/- 3.828E-05 ( 18.78%)

TG-99M 140.51 88.97* 2.278E-01 2.229E-03 2.445E-03 7.35 OK j

} Final Mean for i Valid Peaks = 2.445E-03+/- 1.796E-04 ( 7.35%)

i i TC-101 127.21 2.55 2.299E-01 ----- Line Not Found ----- Absent ,

1 305.86 88.00* 1.480E-01 2.617E-04 1.947E-03 10.95 OK Final Mean for i Valid Peaks = 1.947E-03+/- 2.131E-04 ( 10.95%)

1-104 357.99 89.00* 1.310E-01 1.333E-04 6.742E-04 13.30 OK 530.53 15.50 9.535E-02 ----- Line Not Found ----- << INT Rejec 535.10 13.70 9.469E-02 1.049E-04 5.308E-04 37.74 OK

Final Mean for 2 Valid Peaks = 6.503E-04+/- 8.185E-05 ( 12.59%) i i

I-132 505.90 5.03 9.905E-02 ----- Line Not Found ----- Absent 522.65 16.10 9.649E-02 2.050E-04 2.605E-04 18.09 OK ! 630.22 13.70 8.328E-02 1.921E-04 2.441E-04 20.68 OK j 667.72 98.70* 7.964E-02 2.080E-04 2.643E-04 8.08 OK l 671.60 5.20 7.929E-02 ----- Line Not Found ----- Absent l 727.20 3.20 7.463E-02 ----- Line Not Found ----- Absent 772.60 76.20 7.130E-02 2.093E-04 2.658E-04 8.65 OK i 809.80 2.90 6.884E-02 ----- Line Not Found ----- Absent ! 812.20 5.60 6.876E-02 9.703E-04 1.233E-03 16.33 <<WM Interf

954.55 18.10 6.098E-02 2.608E-04 3.313E-04 17.09 <<WM Interf l 1398.57 7.10 4.593E-02 ----- Line Not Found ----- Absent Final Mean for 4 Valid Peaks = 2.629E-04+/- 1.424E-05 ( 5.42%)

i I-133 529.87 86.30* 9.542E-02 1.043E-04 1.071E-04 10.64 OK I 706.58 1.49 7.627E-02 ----- Line Not Found ----- Absent l l 856.28 1.23 6.600E-02 2.557E-03 2.627E-03 20.24 <<WM Interf i 2 4 875.33 4.47 6.499E-02 --- - Line Not Found ----- Absent l ! 1236.41 1.49 5.042E-02 ----- Line Not Found ----- Absent 1 i .

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Nuc1102. Lino Activity R3 port (continued) Pcg2 & c Sample ID : Acquinition data : 18-J uM-1996 13 : 59 :20 GSEP Nuclide Type FP EXERCi5F ~~ Uncorrected Decay Corr 1-Sigma clide Energy %Abn %Eff UCI/ GRAM UCI/ GRAM  % Error Status 1298.22 2.33 4.861E-02 ----- Line Not Found ----- Absent Final Mean for 1 Valid Peaks = 1.071E-04+/- 1.140E-05 ( 10.64%) I-134 405.45 7.30 1.184E-01 3.196E-04 5.884E-04 30.48 OK 540.83 7.80 9.391E-02 2.612E-04 4.811E-04 25.83 OK 595.36 11.40 8.704E-02 3.903E-04 7.187E-04 15.78 OK 621.79 10.60 8.416E-02 4.504E-04 8.293E-04 16.14 OK 677.34 8.50 7.877E-02 1.229E-04 2.262E-04 42.09 <<WM N-Sigmi 766.68 4.10 7.171E-02 ----- Line Not Found ----- Absent 847.03 95.40* 6.658E-02 ----- Line Not Found ----- << INT Rejec* 857.28 6.96 6.600E-02 4.519E-04 8.322E-04 20.19 <<WM Interf 884.09 65.30 6.452E-02 3.747E-04 6.900E-04 8.02 OK 1072.55 15.30 5.599E-02 3.294E-04 6.066E-04 15.80 OK 1136.16 9.70 5.367E-02 4.015E-04 7.393E-04 20.43 DK i 1806.84 5.70 3.728E-02 3.627E-04 6.680E-04 25.88 OK 1 Final Mean for 8 Valid Peaks = 6.707E-04+/- 3.671E-05 ( 5.47%) l I-135 220.50 1.75 1.876E-01 ----- Line Not Found ----- Absent

  ,           288.45    3.09    1.553E-01  -----

Line Not Found ----- Absent 417.63 3.52 1.156E-01 ----- Line Not Found ----- Absent 546.56 7.13 9.321E-02 5.443E-04 5.921E-04 19.09 <<WM Interf 836.80 6.68 6.717E-02 1.852E-04 2.015E-04 40.75 OK 972.60 1.20 6.015E-02 ----- Line Not Found ----- Absent MT] 1038.76 7.94 5.729E-02 2.138E-04 2.326E-04 34.00 OK ss 1101.58 1.60 5.491E-02 ----- Line Not Found ----- Absent 1124.00 3.61 5.410E-02 ----- Line Not Found ----- Absent 1131.51 22.50 5.383E-02 2.039E-04 2.218E-04 18.72 OK 1260.41 28.60* 4.970E-02 2.051E-04 2.231E-04 13.16 OK 1457.56 8.65 4.449E-02 2.383E-04 2.592E-04 28.40 OK 1502.79 1.07 4.343E-02 ----- Line Not Found ----- Absent 1566.41 1.29 4.202E-02 ----- Line Not Found ----- Absent 1678.03 9.50 3.971E-02 ----- Line Not Found ----- Absent 1706.46 4.10 3.915E-02 ----- Line Not Found ----- Absent 1791.20 7.71 3.755E-02 2.892E-04 3.146E-04 32.61 OK Final Mean for 6 Valid Peaks = 2.287E-04+/- 2.073E-05 ( 9.06%) XE-135M 526.57 81.20* 9.590E-02 2.247E-05 1.479E-04 23.49 OK Final Mean for 1 Valid Peaks = 1.479E-04+/- 3.475E-05 ( 23.49%) CS-138 408.98 4.66 1.176E-01 ----- Line Not Found ----- Absent 462.80 30.70 1.064E-01 ----- Line Not Found ----- Absent 547.00 10.76 9.321E-02 3.607E-04 9.507E-04 19.03 <<WM Interf 871.80 5.11 6.518E-02 ----- Line Not Found ----- Absent 1009.78 29.80 5.852E-02 ----- Line Not Found ----- Absent 1435.86 76.30* 4.502E-02 4.261E-05 1.123E-04 19.31 OK Final Mean for i Valid Peaks = 1.123E-04+/- 2.168E-05 ( 19.31%) ~ GSEP EXERCis

uueAAue.uAnu acLAvity neport scuncAnueu; ' , Samplo ID : Acquisition data : 18-JuN-1996'l3 : 59:2C Nuclide Type: FP

      .clide        Energ     %Abn      %Eff     Uncorrected UCI/ GRAM Decay UCI /GRAMCorr     1-Sigma
                                                                              % Error      Status uA-141             190.22   46.00*   2.043E-01 5.975E-05         3.007E-04   28.54          OK 276.99   23.30    1.601E-01   -----

Line Not Found ----- Absent 304.24 25.20 1.490E-01 ----- Line Not Found ----- Absent 343.71 14.20 1.354E-01 ----- Line Not Found ----- Absent 467.26 5.50 1.056E-01 ----- Line Not Found ----- Absent Final Mean for i Valid Peaks = 3.007E-04+/- 8.581E-05 ( 28.54%) Flag: "*" = Keyline GSEP EXERCISE

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na3kccca a port ' Sample ID : GSEP

                                               ^ * * ** * " * *** ' '8 " "" ~'" 'l ' '" ' ' l Half-Li4E  XF cc                  1-sigma                    l Nuclide    Half-life    Ratio     Tr 7 Ldrr$y MAbund    Activity % Error Rejected by NI-65           2.52H      0.32    366.27     4.61 --- Not Found ---     Abun.

_ 1115.53 14.80 1.466E-04 34.66 1481.84* 23.50 --- Not Found ---

                     % Abundances Found =     34.49 i

RU-105 4.44H 0.18 469.40 17.50 --- Not Found --- Abun. 656.10 2.40 --- Not Found --- 676.40 16.70 7.086E-05 41.89 724.50* 49.00 --- Not Found --- 875.80 3.40 --- Not Found --- i 969.40 2.34 --- Not Found --- l  % Abundances Found = 18.28 (Abn. Limit = 45.00%) AG-110M 249.80D 0.00 657.76* 94.38 --- Not Found --- Abun. l 677.62 10.55 9.900E-05 41.68 l 687.01 6.44 --- Not Found --- 763.94 22.28 --- Not Found --- 884.68 72.60 3.371E-04 7.86 3 937.49 34.29 --- Not Found --- 1384.30 24.28 6.893E-04 8.06 1505.04 13.05 --- Not Found ---

                     % Abundances Found =     38.66   (Abn. Limit =    55.00%)

XE-135 9.09H 0.09 249.79* 90.13 --- Not Found --- Abun.

      ~

358.39 0.22 5.706E-02 11.53 608.18 2.90 --- Not Found ---

                     % Abundances Found =       0.24 17 136         13.10D      0.00    176.56    13.60   2.877E-04   33.83    Abun.

s 340.57 46.80 --- Not Found --- 818.50*100.00 --- Not Found --- 1048.07 79.70 --- Not Found --- 1235.34 19.80 --- Not Found ---

                      % Abundances Found =      5.23 BA-140       12.76D       0.00   162.64      6.21 --- Not Found ---     Abun.

304.84 4.30 --- Not Found --- 437.55 1.93 2.842E-02 7.72 537.32* 24.39 --- Not Found ---

                      % Abundances Found =      5.24 (Abn. Limit = 50.00%)

ND-147 10.98D 0.00 91.11* 28.20 --- Not Found --- Abun. 319.41 1.87 1.861E-02 9.04 439.87 1.13 4.855E-02 8.65 531.03 12.30 8.966E-04 9.64

                      % Abundances Found =     35.17 Flaga "*" = Keyline GSEP EXERCISE

..ma .uaauun nupvi u suse . aA 1 Sample ID : Acquicitien data : Ic-JuW-1996 13:59:20 Intsrforing Interfored Nuclide Line Nuclide Line I-134 847.03 MN-56 846.76 TC-104 530.53 I-133 529.87 MO-99 140.51 TC-99M 140.51 Analyst: M ,,_ d . m . Date 6 - /B- 9 6 Rsviewed by: Date: l GSEEP l EXERCISE 4 ~.! l l

  #4 h

LCP-140 29 Revision 3 December 20, 1993

  ~

GSEP . EXERCISE AMACHMEtTP C SAMPLE INFORMATION S}GET DRYWELL NOBLE GAS ANALYSIS UNIT O SAMPLE PCIm- /PL 7[7 REASON FOR ANALYSIS (CHECK as many as applicable) N PURGE. purge. SAMPLE for principal (noble gas) ganma emitters prior to each (CDCM Table 12.1.1-1.A). Following Reactor Startup - after reactor is put into RUN mode or 24 hours from the time the reactor achieved criticality, whichever is first (CDCM Table '.2 . 4 .1 - 1. A, Note b). 4 Following Reactor Shutdown (CDCM Table 12.4.1 1.A, Note b). Following a greater than 15% change in rated thermal power within a one hour period (CDCM Table 12.4.1-1. A, Note b) . Other: SAMPLE DATA FOR ErrRY INIO ND Sample Date/ Time (dd sune-yyyy hh:tnm:ss:cc) /M M 96 / d//7 Collectors Initials CE Sample Volume, cc

                                                                              'As 6F SAMPLE PREPARATION           V          Filtered              Unfiltered Sample Count Time, At and volume adequate to meet ODCM LLD's?            Yes    No Reviewed: -

N QML

                                                                                  )

GSEP EXERCISE WLCP

U-l DRYWELL NOBLE GAS CONFIGURATION FILE NJ GSEP - - 280.CNF;1 . E R C I SE. $1SDIA4:(CRU. ARCHIVE _UNAPP]30P2

 - ^T                                                                                l ITECTOR SERIAL NUMBER..: 30-P20513B L/ GEOMETRY................: G4000.u'       l METHOD UNCERTAINTY (%)..: 5.0000          AVE UNC IN EFF (%)......: 9.21083E-01   l FWHM CALIB GAIN.........: 3.46370E-02 l

ENERGY CALIB GAIN.......: 4.99997E-01 ENERGY CALIB OFFSET.....: 1.36911E-02 FWHM CALIB OFFSET.......: 6.07100E-01 ANALYST'S INITIALS..........: MG ANALYSIS DATE/ TIME..........: (6 MC.-1996 01:49:16.57 " COLLECTOR'S INITIALS........: CE SAMPLE COLLECTION DATE/ TIME.: 19 NME -1996 01:17:00.00 v DURATION OF DECAY.,.........: 0 00:32:16.57 COUNT LIVE TIME.............: 0 00:20:00.00 COUNT REAL TIME.............: 0 00:20:00.05 DEAD TIME...................: 0.0% SAMPLE VOLUME (CC)..........: 4.56800E+03 v' REMARK......................: FOR PURGE ve S&mmary of Nuclide Activity

   **** There are no nuclides meeting summary criteria ****

l Flags: "K" = Keyline not found "M" = Manually accepted

    .      "E" = Manually edited             "A" = Nuclide specific abn. limit l

l Post-NID Peak Search Report l ***** No peaks found *****

 $2)                                                                                 l 1

GSEP EXERCISE i l l l 1 I I

___ . _ . _ _ . . _ . . _.____ _ , _ _, ' ' ^- Unid2ntified En2rgy Linas Samp19'ID 3 Acquisition dato 18 -Jab {-1996 sk9:16 Ncn3 Flegs: "T" = Tentatively associated l GSEP l EXERCISE I l i S l s . l l l l i h

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Pagn a a I Nuc11d2 Lina Activity Rtport Sample'ID : Acquisition data : 19-M4.-1996 01:49:16 Flags "*" = Keyline GSEP EXERCISE i l 4 l 1 l O, i l l l l 1 i

                                                                             )

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Sampla ID : Acquioition dato : 18-MA'-1996 01:49:16 l l Flcg "*" = Keyline  ; i i

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GSEP EXERCISE 4 a 1 4

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Mnx. unum PGrmiccible Concantration RGport Pc92 3 Samplo ID Acquisition dats : 18.WH-1996 01:49:16 Analyst: , At Date: d'/8'96

    aaviewed by:    d. M[s                             Date:      s w ast J

l l GSEP l EXERCISE 4 l l l l l l t u-l l

LcP-310-03

           ',                                                                          Ravicion 4 April 21, 1994 GSEP                            u EXERClSE ATTACHMEWP B TRITIUM CONCENTRATION IN AIR SAMPLE POINT   N"/        /

DATE-- 0M690 INITIALS I d N Sample Information Time On O//O Flow Reading OO (/ min Time off O/YO Flow Reading f' 00 (/ min 8 Sampling Duration 80 Min

        ~~

Average Flow Reading 6,00 t/ min x 1000 - fM mL._ mLn Volume calculation Average Flow [M mL_ X sampling 30 = volume / [ M mL min duration (min) sampled / Activity calculation YO Y,0 30. sban x ,g moisturized gel 9

                                                                                               = Tritium 2.22 E6 g. .- Volu:ne Saglec

• n e.:. /IO,CDC Conc.

MC1 Tritium Concentration = 'b g mL Reviewed byt . 18)dNib - f

                                                                . GSEP EXERCISE iv'            WLCP l

l

      ,               .                                                                 Revision 4 April 21, 1994 12 GSEP I                  '

EXERCISE . l A MACRMENT A l 1 l LASALLE COUNTY STATION s l ANALYSIS OF TRITIATED WATER i ON SILICA GEL SAMPLI: N-/ 40 sAMPLI DArr/TIxt: _ 19 JuM % C/YO l ' I I ANALy:ro By: 6 / /BJU#E 96 I / (In.tials and Data) i I l Total weight of silica gel (per Step F.25.b): i 36, b 4I I Aliquot weight: A de O 8__3,00 c 8.00 8,00 I Ave I Average Background CPMA (per Step F.29): I 7, O D

        .I Ave. Standard CPMA (per Step F.29):                                               7878,33 i

I I Ave. Sample cPxA A 133 33 i

 '          I (per Step F.30)

B l#9,33 e / R on Ave /M if  ;

 ~ d i lActivity of Standard calculated per Attachment C:                   I/NO k l

l EfJ',ciency of Standard (per Step F.22): O ' !! l Background counts 9 95% confidence level (per Step F.33): I  !' l Average Sample counts (per Step F.34): /W,If l l AVERAGE TRITIUM AC IVITY OF SILICA CIL IN dpm/gm I O ' I I I I l l Reviewed By: ' f /

                                                                                                      / tb JW96 GSEP EXERCISE

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t LCP-310-08 Revieirn 4 April 21, 1994 GSEP l EXERCISE ATTAC1 DENT C I l l I.ASALLE COUNTY STATION I STANDARD ACTIVITY DECAY CORRECTION "qRKSHEET I I STANDARD TDENTIFICATION AND DATA I l Identification No. E-12-90 1 l I Initial Standardization Date 4JUN90 l Initial Activity, dpm (A3 ) 84692 l l l Half Life, Years (T 1/2) 12.43 ! l l 4 i CALCULATION OF DECAY TIME INTERVAL

• l l

Date of Count (t) h /N I (year and day-of year) l l

• Date of Standardization (to) 90 155 I (year and day-of year)

I i Decay Time Inturval, t-to h "/3 7 ( l Decay Time Interval in years, (et) [S/N l l l [ (no. of years x 365.25 )+(no. of days)J/365.25 l l CALCUT ATTON OF AC*TVTTY ON COUNT DATE ! l I

             .I I

A. = Ao x EXP(-in(2) x (t 1/TI/2)) l . 84692 f,6 / 9M x ExP(-in(2) x ( i I / ) l 1 - /o/ 909 - epm i i ! l I I I I I 1

                                                                                  .. t.u.d, A O                                    i n m s I

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!                                                                                    GSEP pucA -. ^r K vs e qc--
  '%W f

WLCP J

1 J i, i 1 i i LaSalle 1996 GSEP Exercise 1 i l 4 1 1 1 l !- EXERCISE RCS SAMPLES V D

LCP-140 30 Ravicion 3 GSEP  !*"""" *' '"' EXERCISE A*"**AN?r" A LASAI.* E COUlTTY STATION UNIT O SA!G* E I!* FOPS.ATION SKEET REAOICR WATER ISIP:CPIC ANALYSIS REASON FOR ANALYSIS (CKECK as many as applicable) Determination of Dose Equivalent I-131 (Tech. Spec. Table 4.4.5 1, Item I) . Determination of E-Bar (Tech. Spec. Table 4.4.5-1, Item 3). Determination of Iodine fellowing spec:.fic activity exceeding 100/E uci/g or Dose Equivalent I 131 exceed:ng 0.0 eCi/g (Tech. Spec. Table 4.4.5 i 4a.). 1,, Item 4 N Determination of Iodine. 1 change of greater than 15%Sar:ple cbtained between I and 6 hours following Table 4.4.5-1, Item 4b). cf RATED THERMAL POWER in one hour (Tech. Spec. 1 Determination of Iodine. off gas changes, pr.or to the holdup line,Sa:ple cbtained between 2 and 6 hours followin ACTION C.2 or C.3. as described in Tech. Spec. 3.4.5. l Fuel Warranty (F.W.O.P. ) Other: SAMPLE DATA FOR EffrRY INTO ND: Sample Time (dd mmm yyyy hh:mm:ss:ce) Collector's Initials RNW9k li20 MtA , SAMPLE quantity, grams MWE/MWT (W 'l __ O / O i SAMPLE PREPARATION (CHECK as many as applicable) : l

            )('      Filtered through (EITTER NTMBER)                  I  Millipore Papers
                                                                         . Cation Papers V

Acidified Anion Papers i Gelled ' Unfiltered Reviewed: 6

                                                   .O*

• g g 4-- -W k"LCP

         .      .                   U-1 REACTOR WATER - BWR COOLANT l

CONFIGURATION FILE......: $1SDIA4:(CRU. ARCHIVE _UNAPP]35P11145B_SAMP_9430.CNF;1

       'TECTOR SERIAL NUMBER..: 35-P11145B s' GEOMETRY................: 03L200 THOD UNCERTAINTY (%)..: 5.0000                  AVE UNC IN EFF (%)......: 4.81544E-01 ENERGY CALIB GAIN.......: 5.00056E-01               FWHM CALIB GAIN.........: 2.28312E-02 ENERGY CALIB OFFSET.....: 8.64521E-02                FWHM CALIB OFFSET.......: 1.40747E+00 ANALYST'S INITIALS.........: LR ANALYSIS DATE/ TIME.........: 19-Je f '.9 9 6 l 12 3716,41 COLLECTOR'S INITIALS.......: NRH SAMPLE COLLECTION DATE/ TIME: 14- Jd 4- 19 9 6 } l'.20 : 00 : 0 5 DURATION OF DECAY..........:                  0 02:04:08.41                                                      l COUNT LIVE TIME............: 0 01:00:00.00 -

COUNT REAL TIME............: 0 01:03:13.18 DEAD TIME..................: 5.1% (3E?Eif) SAMPLE MASS (GRAMS).........: 1.95110E+02 ' f~ p~-*.y. l f51 MWT........................: 2438.0 ' SAMPLE POINT...............: REMARK.....................: ' S ry of Nuclide Activity Total number of lines in spectrum 52 Number of unidentified lines 5

       . Number of lines tentatively identified by NID                        47             90.38%                  l Nuclide Type : AP Wtd Mean           Wtd Mean Uncorrected        Decay Corr                  Decay Corr       1-Sigma
   ~~hclide          Hlife   Decay      UCI/ GRAM          UCI/ GRAM               1-Sipa Error        % Error Flags
   -..J-24          14.96H       1.13   3.294E-03          3.715E-03                  0.247E-03          6.64 CR-51           27.70D       1.00   3.657E-03          3.666E-03                  0.263E-03          7.17 MN-54          312.14D       1.00   2.711E-05          2.712E-05                  0.297E-05         10.95 MN-56            2.58H      2.00    4.872E-05          9.757E-05                  1.180E-05         12.09 CO-58           70.82D       1.00   4.761E-05          4.766E-05                  0.409E-05          8.57 CO-60            5.27Y       1.00   1.162E-04           1.162E-04                 0.058E-04          5.00 ZN-65          243.90D       1.00   4.482E-05          4.484E-05                  0.680E-05         15.16 ZN-69M          13.76H       1.14   5.437E-04          6.196E-04                  0.411E-04          6.63 ND-147          10.980       1.01   6.355E-05          6.399E-05                  1.350E-05         21.10 Total Activity :      7.843E-03          8.398E-03 Nuclide Type : FP Wtd Mean           Wtd Mean Uncorrected        Decay Corr                  Decay Corr       1-Sigma Nuclide          Hlife   Decay      UCI/ GRAM          UCI/ GRAM               1-Sigma Error % Error Flags SR-91           9.50H       1.21   8.361E-05           1.010E-04                 0.058E-04          5.75 SR-92           2.71H       1.94    1.201E-04          2.326E-04                 0.329E-04         14.13 Y-92            3.54H       1.66   4.799E-05           7.964E-05                 2.574E-05         32.32 MO-99           65.92H       1.03    1.336E-04          1.373E-04                 0.216E-04         15.71 TC-99M          6.01H       1.35    1.891E-03          2.550E-03                 0.178E-03          6.97 I-131          8.020       1.01    6.741E-06          6 804E-06                 3.135E-06         46.08 I-132           2.30H       2.18    1.258E-04          2.740E-04                 0.121E-04          4.40 I-133         20.80H       1.09    9.477E-05          1.033E-04                 0.081E-04          7.80 M

f e r . mn- y ,y

Summary.Of Nuclida Activity (continutd) PC93 & 4 Sampic ID Acquisition dato a 7 9-MH-lH6 f f 13T. Ib Nuclide Type : FP Wtd Mean Wtd Mean Uncorrected Corr Decay Corr 1-Sigma

       .clide      Hlife   Decay  UCI/ GRAM       Decay UCI / GRAM 1-Sigma Error % Error Flags      i I-134           52.60M    7.57  9.070E-05        6.863E-04       0.463E-04   6.75            I I-135            6.61H    1.31  1.844E-04        2.420E-04       0.110E-04   4.55            l XE-135           9.09H    1.22  3.527E-05        4.298E-05       0.512E-05  11.90            (

___-___ _ _________ l Total Activity : 2.814E-03 4.456E-03 l l Grand Total Activity : 1.066E-02 1.285E-02  ! Fltgs: "K" = Keyline not found "M" = Manually accepted "E" = Manually edited "A" = Nuclide specific abn. limit i GSEP EXE R .~:l SE 9 l l l l k

j rant-Niu reaA boaren kcport Paga a 2 Sample ID : ": 3N GSE P ^ca"i'ition data ' 29-a""-'* j It Energy Area Bkgnd EYFRCISE N bhannel Left Pw % Err Fit Nuclides I I l -? 92.32 3069 117361 2.39 184.45 181 8 19.4 ND-147 j l l 140.55 355247 289968 1.74 280.90 272 19 1.2 TC-99M  :

o 155.12 14400 119369 1.76 310.03 306 9 4.4 l 0 174.41 5158 212113 3.34 348.61 344 13 18.5 j 0 249.93 5434 81182 1.65 499.63 496 9 9.6 XE-135 l 0 320.12 53025 88273 1.75 640.00 635 11 1.2 ND-147 CR-51 1 4

0 364.05 746 38285 1.58 727.84 726 8 45.6 I-131 l i 0 388.48 1286 32218 1.40 776.70 774 8 24.4 l l 0 417.70 748 26735 1.54 835.13 832 8 38.0 I-135 l j 0 438.67 62838 41701 1.81 877.07 871 13 0.8 ZN-69M l ! ND-147 1 0 511.01 1230487 62915 2.90 1021.74 1011 24 0.1 1 0 522.68 1866 11397 1.66 1045.07 1042 8 10.2 I-132 1 3 526.64 2165 12477 1.48 1053.00 1049 17 9.5 3.69E+00

;     3      529.95      8900                14415  1.81  1059.62      1049   17  3.5            I-133           l

} O 541.24 437 9636 1.35 1082.19 1079 8 39.2 I - 1 34 i 4 546.60 1819 11675 1.99 1092.91 1088 10 11.4 I-135 i 0 555.51 4629 12983 1.89 1110.73 1106 11 5.0 SR-91 4 0 595.42 1016 9386 1.75 1190.54 1187 9 17.5 I-134 l i 0 621.40 1691 131f.0 2.11 1242.49 1236 13 14.2 I-134 l } O 630.86 2577 17703 1.92 1261.41 1252 18 12.3 I-132 1 J '0 653.58 1028 9426 2.17 1306.83 1302 10 18.0 SR-91 i 4 667.74 11905 9927 1.90 1335.16 1325 23 1.9 1.78E+00 I-132 i 4 670.73 1383 12478 2.93 1341.14 1325 23 18.9 I-132 1 0 739.91 1462 9805 1.97 1479.48 1474 13 14.2 MO-99 4 0 749.85 2077 8205 1.98 1499.36 1494 11 8.7 SR-91 jr 772.63 8075 10019 1.95 1544.91 1539 13 2.8 I-132 810.81 4012 9797 2.15 1621.27 1615 13 5.3 I-132 ) CO-58 , ! 4 S34.61 2259 8775 2.04 1668.87 1663 15 8.6 1.08E+00 MN-54 l l 4 836.94 999 5859 1.93 1673.52 1663 15 13.9 I-135

O 846.90 4933 11163 2.09 1693.44 1686 15 11.8 MN-56

. 0      857.30      1570                10218  2.26  1714.24      1707   14 13.9            I-133 l                                                                                                 I-134 1      0      884.09      4760                10756  2.19 1767.82       1760   15  5.0            I-134           .

i 0 934.36 520 7017 1.95 1868.34 1865 9 29.4 Y-92 ! 0 954.37 1751 10006 2.32 1908.35 1903 13 12.0 SR-92 i I-132 i 0 1024.03 2418 9454 2.14 2047.66 2042 12 8.3 SR-91 0 1038.96 936 8989 1.77 2077.52 2072 11 19.9 I-135 0 1072.21 908 10218 1.81 2144.00 2139 12 22.5 I-134 l 1115.67 0 1586 11382 1.97 2230.92 2226 12 13.7 ZN-65 . 0 1131.61 2527 11092 2.31 2262.79 2258 11 8.3 I-135 1 0 1136.38 745 10045 1.77 2272.32 2268 10 25.4 I-134 j 0 1173.29 7634 9092 2.20 2346.14 2340 13 2.8 CO-60 O 1260.55 3447 4862 1.97 2520.65 2514 14 4.6 I-135 i 0 1332.53 7467 4957 2.16 2664.59 2655 19 2.5 CO-60 1 0 1368.66 201755 6742 2.28 2736.84 2726 21 0.2 NA-24 0 1383.99 6573 3788 2.29 2767.50 2760 16 2.4 SR-92 0 1399.12 619 2826 2.37 2797.75 2791 14 18.7 I-132 l l l l r f W Y

                                                     -- - f  '
                                                                  ;~ -

l l

Fost-NID P@ak Snarcu Rsport (continu d) rogo a s Sample ID Acquicition dats : 19-Jd4- MQ6 l(t 37:Ib It Energy Area Bkgnd FWRM Channel Left Pw % Err Fit Nuclides

        '  1457.26                933         3206    1.79      2914.02           2906     16 14.0              I-135 1678.35               1011         2587    2.75      3356.15            3349    15 11.4              I-135 1       0   1706.87                387         2635    3.11      3413.19            3404    16 30.0              I-135

! 0 1732.17 11303 3386 2.41 3463.78 3455 17 1.5 0 1791.29 848 3293 1.58 3582.00 3574 16 15.5 I-135 0 1811.25 502 2940 2.24 3621.92 3616 12 22.2 MN-56 GSEP EXERC!SE 4 i i j m_ . l i 1

Unid%ntificd Ensrgy Linns Paqa a b f Acquisition dato t 18-JUN - R96 11'37:l6 Samplo ID s l It Encrgy Aron Bkgnd FWHM Chcnnel L3ft Pw Cts / Soc % Err %Eff Flags 0 155.12 14400 119369 1.76 310.03 306 9 4.00E+00 4.4 8.04E-01 l 1 174.41 5158 212113 3.34 348.61 344 13 1.43E+00 18.5 7.80E-01 l 388.48 1286 32218 1.40 776.70 774 8 3.57E-01 24.4 5.04E-01 i 0 511.01 1230487 62915 2.90 1021.74 1011 24 3.42E+02 0.1 4.28E-01 1 3 526.64 2165 12477 1.48 1053.00 1049 17 6.01E-01 9.5 4.20E-01 T I O 1732.17 11303 3386 2.41 3463.78 3455 17 3.14E+00 1.5 2.02E-01 Flags: "T" = Tentatively associated GSEP EXERCISE i 3 !b I l l I 1 l l l i l 1 i i J i i l I l l l

Nuclid3. Lina Activity Raport Pagn & t 4 Sample ID : Acquisition dato : 19-M -19% ll:37;lk GSEP Nuclide Type: AP p p C lW Corr 1-Sigma

      .clide    Energy    %Abn       %Eff      UCI/rrected GRAM Decay      UCI/ GRAM                        % Error    Status NA-24        1368.63  100.00*    2.357E-01   3.294E-03              3.715E-03                          6.64          OK        l Final Mean for    i Valid Peaks =        3.715E-03+/- 2.466E-04 (                                 6.64%)

CR-51 320.08 9.83* 5.676E-01 3.657E-03 3.666E-03 7.17 OK j Final Mean for i Valid Peaks = 3.666E-03+/- 2.630E-04 ( 7.17%) MN-54 834.84 99.98* 3.207E-01 2.711E-05 2.712E-05 10.95 OK Final Mean for i Valid Peaks = 2.712E-05+/- 2.968E-06 ( 10.95%)  ! MN-56 846.76 98.90* 3.179E-01 6.037E-05 1.209E-04 13.57 OK i 1810.72 27.20 1.960E-01 3.624E-05 7.257E-05 23.41 OK l 8 Final Mean for 2 Valid Peaks = 9.757E-05+/- 1.180E-05 ( 12.09%) CO-58 810.77 99.40* 3.262E 4.761E-05 4.766E-05 8.57 OK 863.94 0.68 3.141E-01 ----- Line Not Found ----- Absent l

             ,1674.68     0.52     2.064E-01   -----           Line Not Found                          -----     Absent Final Mean for    1 Valid Peaks =        4.766E-05+/- 4.086E-06 (                                 8.57%)            l 1.130E-04                                                  I CO-60        1173.24   99.90     2.602E-01   1.130E-04                                                 7.05          OK n,           1332.50   99.98*    2.398E-01   1.198E-04              1.198E-04                          7.07          OK i
 '~'         Final Mean for    2 Valid Peaks =        1.162E-04+/- 5.806E-06 (                                 5.00%)

ZN-65 1115.55 50.70* 2.686E-01 4.482E-05 4.484E-05 15.16 OK J i Final Mean for i Valid Peaks = 4.484E-05+/- 6.798E-06 ( 15.16%) l l ZN-69M 438.63 94.90* 4.686E-01 5.437E-04 6.196E-04 6.63 OK i l Final Mean for i Valid Peaks = 6.196E-04+/- 4.107E-05 ( 6.63%) l 1 ND-147 91.11 28.20* 6.588E-01 6.355E-05 6.399E-05 21.10 OK l 319.41 1.87 5.676E-01 1.922E-02 1.935E-02 8.30 <<WM Interf l 439.87 1.13 4.686E-01 4.566E-02 4.597E-02 7.97 <<WM Interf  ; 531.03 12.30 4.182E-01 ----- Line Not Found ----- << INT Rejec-Final Mean for 1 Valid Peaks = 6.399E-05+/- 1.350E-05 ( 21.10%) , w ,

                                                         %         9*

0 m- - i

J- .a.ipAwm _J.- +: e.J*e,ea ar A a am_4 .m, ,, w an _,,,aw,, . , , , , , , , ,,,,g , Nuclida Linn Activity Report (continund) Paan 7 , Sample ID : Acquisition date : 19- Jug- IN 6 i l'.37 : 16 ) rg GSEP I Nuclide Type: FP

                                          ~ ~I. .' ! .k3 h[

1 Uncorrected Decay Corr 1-Sigma j

lide Energy %Abn %Eff UCI/ GRAM UCI/ GRAM  % Error Stc' 3 i od-91 555.57 60.70* 4.073E-01 7.205E-05 8.705E-05 8.51 OL 620.10 1.74 3.818E-01 -----

Line Not Found ----- Absenc l 052.90 7.70 3.703E-01 1.387E-04 1.676E-04 21.22 OK 749.80 23.10 3.416E-01 1.013E-04 1.223E-04 12.16 OK 925.80 3.99 3.013E-01 ----- Line Not Found ----- Absent 1024.30 33.50 2.833E-01 9.801E-05 1.184E-04 10.84 OK l Final Mean for 4 Valid Peaks = 1.010E-04+/- 5.813E-06 ( 5.75%) l SR-92 241.52 3.00 6.705E-01 ----- Line Not Found ----- Absent l l 430.56 3.30 4.739E-01 ----- Line Not Found ----- Absent I l 953.32 3.60 2.958E-01 6.325E-04 1.225E-03 19.56 <<WM Interf i 1383.94 90.00* 2.339E-01 1.201E-04 2.326E-04 14.13 OK  ; i Final Mean for 1 Valid Peaks = 2.326E-04+/- 3.286E-05 ( 14.13%) I l

• l Y-92 448.50 2.30 4.624E-01 -----

Line Not Found ----- Absent j 934.50 13.90* 2.997E-01 4.799E-05 7.964E-05 32.32 OK l Final Mean for i Valid Peaks = 7.964E-05+/- 2.574E-05 ( 32.32%) Md-99 140.51 90.60* 8.124E-01 ----- Line Not Found -----

                                                                                                                           << INT Rejec-                                     1 176.56   13.60     7.766E-01          -----

Line Not Found ----- Absent 1 366.42 1.20 5.227E-01 ----- Line Not Found ----- Absent 739.50 12.22 3.443E-01 1.336E-04 1.373E-04 15.71 OK l 777.92 4.31 3.343E-01 Line Not Found Absent

      )                                                                                                   -----

l Final Mean for 1 Valid Peaks = 1.373E-04+/- 2.158E-05 ( 15. 71'% ) TC-99M 140.51 88.97* 8.324E-01 1.891E-03 2.550E-03 6.97 OK Final Mean for i Valid Peaks = 2.550E-03+/- 1.777E-04 ( 6.97%) i I-131 284.30 6.06 6.099E-01 ----- Line Not Found ----- Absent 364.48 81.20* 5.248E-01 6.741E-06 6.804E-06 46.08 OK 636.97 7.27 3.759E-01 ----- Line Not Found ----- Absent 722.89 1.80 3.491E-01 ----- Line Not Found ----- Absent Final Mean for i Valid Peaks = 6.804E-06+/- 3.135E-06 ( 46.08%) I-132 505.90 5.03 4.304E-01 ----- Line Not Found ----- Absent , 522.65 16.10 4.221E-01 1.056E-04 2.300E-04 12.76 OK l 630.22 13.70 3.780E-01 1.915E-04 4.169E-04 14.65 OK ! 667.72 98.70* 3.657E-01 1.269E-04 2.763E-04 6.93 OK l 671.60 5.20 3.647E-01 2.807E-04 6.111E-04 21.45 OK j 727.20 3.20 3.479E-01 ----- Line Not Found ----- Absent i 772.60 76.20 3.357E-01 1.215E-04 2.645E-04 7.69 OK ! 809.80 2.90 3.262E-01 1.632E-03 3.553E-03 13.47 <<WM Interf j 812.20 5.60 3.259E-01 ----- Line Not Found ----- Absent 1 j s- r l i j

I Nuclida. Lino Activity Rsport'(continutd) PagD 1 t Srmple ID Acquisition d0ta 19 .lO4-lH6 /l

• 37:I6 GSEP Nuclide Type: FP EXERClSE

c. Uncorrected clide Energy %Abn %Eff UCI/ GRAM Decay UCI /GRAMCorr% Error1-Sigma Status 954.55 18.10 2.958E-01 1.258E-04 2.739E-04 14.20 <<WM Interf 1398.57 7.10 2.323E-01 1.444E-04 3.144E-04 20.32 OK Final Mean for 6 Valid Peaks = 2.740E-04+/- 1.206E-05 ( 4.40%)

I-133 529.87 86.30* 4.187E-01 9.477E-05 1.033E-04 7.80 OK 706.58 1.49 3.538E-01 ----- Line Not Found ----- Absent 856.28 1.23 3.156E-01 1.557E-03 1.697E-03 15.77 <<WM Interf i 875.33 4.47 3.117E-01 ----- Line Not Found ----- Absent 1236.41 1.49 2.517E-01 ----- Line Not Found ----- Absent i 2.33 2.439E-01 Line Not Found Absent 1298.22 ----- ----- Final Mean for i Valid Peaks = 1.033E-04+/- 8.058E-06 ( 7.80%) I-134 405.45 7.30 4.914E-01 ----- Line Not Found ----- Absent

• 540.83 7.80 4.135E-01 5.215E-05 3.945E-04 40.34 OK 595.36 11.40 3.910E-01 8.770E-05 6.636E-04 19.49 OK 621.79 10.60 3.814E-01 1.609E-04 1.218E-03 16.74 OK 677.34 8.50 3.626E-01 ----- Line Not Found ----- Absent 766.68 4.10 3.372E-01 -----

Line Not Found ----- Absent

    .          847.03       95.40*   3.179E-01   -----

Line Not Found ----- << INT Rejec 857.28 6.96 3.156E-01 2.751E-04 2.081E-03 15.81 <<WM Interf 884.09 65.30 3.098E-01 9.052E-05 6.849E-04 8.72 OK 1072.55 15.30 2.754E-01 8.288E-05 6.271E-04 24.12 OK 1136.16 9.70 2.655E-01 1.113E-04 8.420E-04 26.81 OK 1806.84 5.70 1.963E-01 Line Not Found Absent

  }

Final Mean for 6 Valid Peaks = 6.863E-34+/- 4.629E-05 ( 6.75%) I-135 220.50 1.75 7.041E-01 ----- Line Not Found ----- Absent l 288.45 3.09 6.046E-01 ----- Line Not Found ----- Absent 417.63 3.52 4.827E-01 1.694E-04 2.223E-04 38.70 OK 546.56 7.13 4.112E-01 2.388E-04 3.133E-04 13.43 OK  ! 836.80 6.68 3.201E-01 1.798E-04 2.359E-04 15.71 OK 972.60 1.20 2.924E-01 ----- Line Not Found ----- Absent 1038.76 7.94 2.808E-01 1.616E-04 2.120E-04 21.14 OK 1101.58 1.60 2.708E-01 ----- Line Not Found ----- Absent 1124.00 3.61 2.674E-01 ----- Line Not Found ----- Absent 1131.51 22.50 2.662E-01 1.623E-04 2.130E-04 10.90 OK 1260.41 28.60* 2.486E-01 1.866E-04 2.448E-04 8.38 OK 1457.56 8.65 2.262E-01 1.835E-04 2.407E-04 15.69 OK 1502.79 1.07 2.216E-01 ----- Line Not Found ----- Absent 1566.41 1.29 2.157E-01 ----- Line Not Found ----- Absent 1678.03 9.50 2.061E-01 1.986E-04 2.606E-04 13.70 OK 1706.46 4.10 2.038E-01 1.784E-04 2.341E-04 31.04 OK 1791.20 7.71 1.974E-01 2.143E-04 2.812E-04 17.18 OK Final Mean for 10 Valid Peaks = 2.420E-04+/- 1.100E-05 ( 4.55%) GSEP

-                                             T c :c:E

( 'Nuclida. Lina Activity R: port (continued) peg 3 3, 5 l Samplo ID 8 Acquisition dato : 19 bM-1996 fl: 37:Ib l l l Nuclide Type: FP 1 -- l clide Energy %Abn %Eff Uncorrected UCI/ GRAM Decay UCI/GRAMCorr%1-Sigma Error Status ! 48-135 249.79 90.13* 6.577E-01 3.527E-05 4.298E-05 11.90 OK 358.39 0.22 5.298E-01 ----- Line Not Found ----- Absent 608.18 2.90 3.862E-01 ----- Line Not Found ----- Absent Final Mean for i Valid Peaks = 4.298E-05+/- 5.116E-06 ( 11.90%) i Flcgs "*" = Keyline GSE F) EXERCISE l l l S m

   %/

l l

                                                                                                     \

l l i i i

i Ha3cctro R: port peg 3 a 10 . Sample ID : Acquisition dato 19-J4N -l?96 / t:37 tla GSEP Nuclide Half-life Half-Lif{ytpmg. Ratio A EnerW p. nd 1-Sigma Activity % Error Rejected by NI-65 2.52H 1.03 366.27 4.61 --- Not Found --- Abun.

       -                                                1115.53     14.80 3.125E-04 15.69 1481.84* 23.50 --- Not Found ---
                                      % Abundances Found =          34.49 TC-104         18.20M                       8.56   357.99* 89.00 --- Not Found ---                      Decay,Abun.

530.53 15.50 1.729E-01 19.29 535.10 13.70 --- Not Found ---

                                      % Abundances Found =          13.11 AG-110M       249.80D                       0.00   657.76* 94.38 --- Not Found ---                      Abun.

677.62 10.55 --- Not Found --- 687.01 6.44 --- Not Found --- 763.94 22.28 --- Not Found --- 884.68 72.60 8.144E-05 8.39 937.49 34.29 --- Not Found --- 1384.30 24.28 4.454E-04 7.09 1505.04 13.05 --- Not Found --- 4  % Abundances Found = 34.87 (Abn. Limit = 55.00%) XE-135M 15.29M 10.19 526.57* 81.20 2.062E-02 11.69 Decay

                                      % Abundances Found = 100.00 Cs-138         32.20M                       4.84   408.98      4.66 --- Not Found ---                   Abun.                          l 462.80     30.70 --- Not Found ---                                                  l 547.00     10.76 4.191E-03 13.39                                                    1 871.80      5.11 --- Not Found ---

1009.78 29.80 --- Not Found --- 1435.86* 76.30 --- Not Found --- l

                                      % Abundances Found =           6.84     (Abn. Limit =           45.00%)                                l BA-140         12.76D                       0.0A   162.64      6.21 --- Not Found ---                   Abun.                          I 304.84      4.30 --- Not Found ---                                                  I 437.55      1.93 2.689E-02                6.94 537.32* 24.39 --- Not Found ---
                                      % Abundances Found =           5.24     (Abn. Limit = 50.00%)

Flags "*" = Keyline GSEP EEX ERCISEE

1 I

 !           e.                                                                                                     J l

I 1 l l J l l l 1 i 2 i LaSalle 1996 GSEP Exercise s 4

 }

I - EXERCISE HRSS DATA l l N

LASALE STATION 1996 GSEP EXERCISE JUNE 19,1996 HRSS SAMPLE RADIATION REPORT - l SAMPLE VOL = 0.024 ml UQUID RCS - HRSS

               % CLAD DAMAGE =                3
               % FUEL MELT =          0.00E+00 RESULTS      READ AS HRSS RAD ON PANEL CONTACT                 50.7          50  mR/h                            !

HRSS RAD @ 1 FT 4.6 5 mR/h HRSS RAD @ l METER 1.5 2 mR/h HRSS RAD @ 2 METERS < 1/ AS READ mR/h HRSS RAD @ 3 METERS < 1/ AS READ mR/h HRSS RAD @ 4 METERS < 1/ AS READ mR/h HRSS RAD @ 5 METERS < 1/ AS READ mR/h HRSS RAD @ 6 METERS < 1/ AS READ mR/h SAMPLE RAD @ CONTACT 422.4 420 mR/h a SAMPLE RAD @ l FT 8.4 6 mR/h 1 SAMPLE RAD @ 2 FT 2.1 2 mR/h f SAMPLE RAD @ 3 FT /1 METER <1/ AS READ mR/h l SAMPLE @ CONTACT w/ CART 46.8 50 mR/h I SAMPLE CART @ 1 FT 5.5 5' mR/h SAMPLE CART @ 2 FT 1.4 1 mR/h SAMPLE CART @ 3 FT <1/ AS READ mR/h m, .j Geu DETECTOR % DEAD TIME @ 3 cm 100 OUT OF RANGE Geu DETECTOR % DEAD TIME @ 10 cm 26.4 OUT OF RANGE Geu DETECTOR % DEAD TIME @ 20 cm 6.3 OK TO COUNT Geu DETECTOR % DEAD TIME @ 50 cm 1.1 OK TO COUNT l Geu DETECTOR % DEAD TIME @ 100 cm 0.3 OK TO COUNT m he 1300 HRS - 6/19/96 THIS LS AN EXERCISE HRSS RAD DATA

1 l LASALLE STATION 1996 GSEP EXERCtSE JUNE 19.1996 1 1 LASALLE STATION 1996 GSEP EXERCISE l 1 UNIT 1 REACTOR WATER BWR DILUTED COOLANT  ! l CONFIGURATION FILE.. $1SDIA1:(CRU. ARCHIVE UNAPP}21801A_SAMP_5052.CNF;1 l DETECTOR SERIAL NUMBER.. . 21-801 A GEOMETRY.. 100UQ040  ; METHOD UNCERTAINTY (%).. . 5.0000 AVE UNC IN EFF (%).. 4.0487E41 1

                                                                                                                 -                  l ENERGY CAUB GAIN.,

• 5.0017E-01 FWHM CAUB GAIN... 3.6656E-02 ENERGY CAUB OFFSET.. 1.0426E-01 FWHM CAUB OFFSET.. 4.9883E-01 ANALYST'S INITIALS.. PJE ANALYSIS DATE/ TIME.. . JUN-19-1996 / 15:25:00 1 COLLECTOR'S INITIALS.. SAM l SAMPLE COLLECTION DATE/ TIME./ JUN-19-1996 / 12:50:00 DURATION OF DECAY..

30 COUNT UVE TIME.. 30 COUNT REAL TIME.. .. 36.1834 DEAD TIME (%).. 0.3 i SAMPLE MASS (GRAMS).. ., 0.024 i I MWT.. . . . SAMPLE POINT.. . U1 HRSS REMARK.. FUEL DAMAGE 7 i Summary of Nucikle ActMty: Total Number of Unes in Spectrum 120 Number of Unidentified Unes 38 l Number of Unes Tenotively identifled by NIO 100 83.3 (%) l Nuclide Type : Activotion Products Wtd Meon Wtd Meon Uncorrected Decoy Corr DecayCorr 1-Sigmo NUCLIDE HUFE DECAY UCl/ GRAM UCl/ GRAM 1-SIG ERR  % ERROR CR-51 27.700 0.999479 1.03E+02 1.03E+02 0.00086764 10.68 MN-54 312.140 0.999954 1.03E+02 1.03E+02 0.00035327 17.73 MN-56 2.58H 0.87428 6.01E+01 6.87E+01 0.00014739 20.03 l CO 58 70.82D 0.999796 8.02E+00 8.02E+00 0.00092466 10.78 FE-59 44.51D 0.999676 1.03E+02 1.03E+02 0.00016362 7.46 CO-60 5.72Y 0.99;993 2.98E+00 2.98E+00 9.4212E-05 14.33 ZN65 243.900 0.999941 1.03E+02 1.03E+02 0.00080138 15.47 i

                                                                      =                                                             l TOTAL ACTMiY =                   4.82E+02        4.91 E+02 v

THIS IS AN EXERCISE U-1 RCS SAMPLE

• 1520 HRS -6/19/96

I LASALLE STATION 1996 GSEP EXERCISE JUNE 19.1996 I ,. SAMPLE 10... . .: SAMP172 ACQUISITION DATE.. .. - JUN-19-1996 / 15:25:00 PAGE 2 OF 2 Nuclide Type : Fission Products Wtd Mean Wtd Mean Uncorrected DecayCorr DecayCorr 1-Sigma NUCUDE HUFE DECAY UCl/ GRAM UCl/ GRAM 1-SIG ERR  % ERROR KR-83m 1.86H 0.830033 1.83E@ 2.21 E+00 0.00072789 22.12 BR-84 31.8M 0.52008 3.39E+01 6.51E+01 0.00065476 17.04 KR-85 10.74Y 0.999996 2.40E-02 2.40E-02 0.0006701 9.43 KR-85M 4.4H 0.924271 8.61E-01 9.32E-01 0.00032469 24.16 KR-87 1.27H 0.761219 7.22E-01 9.48E-01 0.00080381 13.36 KR-88 2.79H 0.883209 1.77E*00 2.00E+00 0.00066038 21.07 SR-91 9.50H 0.964183 9.78E+02 1.01 E+03 0.00048904 5.71 i Y-91 58.800 0.999755 1.23E+03 1.23E+03 0.00050265 20.49 MOTC-99M 65.92H 0.994765 1.61E+03 1.62E+03 0.00079013 5.83 , a TC-99M 6.01H 0.943977 1.14E+03 1.21E+03 0.00096906 12.44 RU-103 36.8D 0.999608 1.13E+03 1.13E+03 0.00063129 7.94 i 4.50H 0.92589 5.44E+02 5.88E+02 0.00049742 11.92 l RU-105 ' RU-106 1.00Y 0.99996 2.57E+02 2.57E+02 5.9271E-05 11.27 TE-129 1.15H 0.739853 3.47E+02 4.69E+02 0.00019864 5.22

  .             TE-132      78.20H       0.995579       4.37E+03     4.38E+03    0.00081073          11.99 F131        8.07D        0.998206       1.13E+01     1.13E+01      0.0001681          7.71 XE-131m     11.96D       0.998793       3.84E+00     3.84 :00    0.00036118          12.28 7.74E+00    0.00054583          21.84                      I l-133       8.7D         0.998342       7.73E+00 Q

V XE-133 XE-133m 5.26D 2.25D 0.997265 0.993604 4.04E+01 3.76E+00 4.05E+01 3.78E+00 0.00069257 0.000411 24.8 18.75 CS-134 2.07Y 0.999981 3.47E+02 3.47E+02 0.00095422 17.99 1-134 52.60M 0.674523 1.18EG 1.75E+00 0.00026509 18.77 0.94893 3.90E+00 4.11E+00 0.00019395 5.3 j h135 6.61H l XE 135 9.16H 0.962879 3.32E+00 3.44E+00 0.00023932 15.66 XE-137 6.37H 0.947057 3.11E-01 3.28E-01 0.00050593 24.1 CS-136 13.100 0.998899 1.38E+02 1.38E+02 0.00057122 13.38 CS 137 30.02Y 0.999999 4.75E+01 4.75E+01 0.00065543 8.83 BA-140 12.79D 0.998872 1.64E+03 1.64E+03 0.00086843 5.66 LA 140 40.22H 0.991422 1.59E+03 1.60E+03 2.8175E-05 23.39 CE-144 284.29D 0.999949 8.74E+03 8.74E+03 0.00011358 18.23 TOTAL ACTMTY = 2.42E+04 2.46E+04 GRAND TOTAL ACTMTY = 2.47E+04 2.51 E+04 DOSE EQUIVALENT F131 = 145E+01 l THIS IS AN EXERCISE U-I RCS SAMPLE 1520 HRS-6/19/%

1996 GSEP EXERCISE JUNE 19,1996 LASALE STATION _ CASP SAMPLE RADIATION REPORT : TOTAL RCS VOLUME RELEASED 7.20E+05 GAL TOTAL CONTAINMENT CONCENTRATION 0.00E+00 pCl/cc VOLUME (cc) COLLECTED 0.03 ACTUAL READ AS CONTACT RAD ON CASP SAMPLER 0 <0.1 mR/h CASP RAD @ 1 FT 0 <0.1 mR/h CASP RAD @ 1 METER 0 <0.1 mR/h CASP RAD @ 2 METERS 0 <0.1 mR/h CASP RAD @ 3 METERS 0 <0.1 mR/h CASP RAD @ 4 METERS 0 <0.1 mR/h CASP RAD @ 5 METERS 0 <0.1 mR/h CASP RAD @ 6 METERS 0 <0.1 mR/h 4 SAMPLE RAD @ CONTACT 0 <0.1 mR/h SAMPLE RAD @ l FT 0 <0.1 mR/h SAMPLE RAD @ 2 FT 0 <0.1 mR/h SAMPLE RAD @ 3 FT /1 METER 0 <0.1 mR/h l . SAMPLE @ CONTACT w/ CART 0 <0.1 mR/h SAMPE CART @ l FT 0 <0.1 mR/h l SAMPLE CART @ 2 FT 0 <0.1 mR/h 0 <0.1 mR/h ! ,]s SAMPW CART @ 3 FT Geu DETECTOR % DEAD TIME @ 3 cm 0 OK TO COUNT Geu DETECTOR % DEAD TIME @ 10 cm 0 OK TO COUNT Geu DETECTOR % DEAD TIME @ 20 cm 0 OK TO COUNT Geu DETECTOR % DEAD TIME @ 50 cm 0 OK TO COUNT l Geu DETECTOR % DEAD TIME @ 100 cm 0 OK TO COUNT l l t l j i THIS IS AN EXERCISE U-1 CASP SAMPW 1520 HRS- 6/19/96 i . -

i LaSalle 1996 GSEP Exercise i o . 1

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METEOROLOGICAL DATA l l e V* %- ,.-w -

l l l l LaSalle 1996 GSEP Exsrcise l METEOROLOGICAL DATA l LASALLE INSTANTANEOUS DATA I l ! Time 33 ft WS 200 h WS 375 ft WS 33 h WD 200 h WD 375 ft WD l l (mph) (mph) (mph) (degrees) (degrees) (degrees) A852 A850 A849 A853 A848 A847 0 3.16 7.45 12.41 236.6 245.4 235.2 10 7.33 8.64 12.47 233.3 236.4 232.5 20 3.88 8.86 11.80 242.7 227.0 223.8 30 0.89 6.16 8.69 224.4 227.3 228.8 40 5.22 9.19 11.91 236.9 237.6 232.0 50 8.05 12.52 16.30 235.4 232.9 229.7 60 4.48 11.80 12.70 234.4 236.8 220.2 70 4.25 12.92 13.48 227.5 223.9 227.0 80 6.69 13.33 17.53 230.0 232.7 227.6 90 1.h5 8.22 14.81 207.1 221.7 222.4 100 3.06 8.23 11.83 213.8 221.4 220.0 8 110 5.53 13.09 18.05 225.4 227.0 225.8 120 5.66 13.19 16.47 239.8 235.6 235.6 130 3.95 8.13 13.78 220.7 225.8 227.5 140 2.66 10.81 13.20 239.4 234.2 232.5 150 2.28 8.83 10.23 243.8 231.2 229.8 160 e 2.44 3.95 9.98 233.7 228.8 240.1 l 170 5.22 10.42 13.67 240.5 235.4 240.1 l 180 1.89 8.05 14.36 226.6 231.7 237.1 190 5.22 10.66 14.61 232.9 233.0 238.6  ; D 200 5.06 7.70 13.25 232.0 238.1 243.8 l

        )           210       1.33        8.27        10.94       241.0     239.4     239.6   !

220 8.64 8.94 13.75 233.2 230.7 228.6 l 230 4.58 8.31 12.03 241.6 238.4 238.1 l , 240 8.13 7.92 12.88 241.5 241.5 233.5 l l 250-end Bad Bad Bad Bad Bad Bad l ! l l i 4 i 1

i. -'

7 e G

LaSalle 1996 GSEP Exircise METEOROLOGICAL DATA LASALLE INSTANTANEOUS DATA Time 33 ft SD 200 ft SD 375 ft SD 33/200 ft 33/375 ft 33 ft Temp WD (deg) WD (deg) WD (deg) Diff T ( F) Diff T ( F) (F) C053 C073 C072 A855 A851 A854 0 7.95 3.37 2.08 0.31 -1.11 59.3 10 7.29 3.14 2.93 0.11 1.19 59.7 20 8.41 3.89 2.73 0.22 -1.11 60.1 30 4.71 3.52 2.19 0.31 -1.17 60.5 40 5.32 3.79 3.12 0.22 1.17 61.0 50 5.62 3.06 2.10 -0.02 -1.42 61.4 60 3.84 5.07 3.16 -0.19 -1.47 61.8 70 5.63 5.22 4.50 -0.13 -1.46 62.2 80 8.83 3.12 3.47 -0.21 -1.52 62.7 90 7.59 4.90 3.97 0.19 -1.38 63.1 100 7.60 6.70 3.96 -0.14 -1.32 63.5 i 110 9.66 3.42 2.59 -0.09 1.42 63.9 120 6.34 1.76 2.90 0.01 1.68 64.3 130 7.14 3.34 3.58 -0.13 -1.64 64.8 140 9.43 2.15 4.35 0.13 1.54 65.2 150 9.33 6.81 2.99 0.16 -1.51 65.6 160 3.38 4.47 3.96 -0.02 -1.45 66.0 ' 170 6.58 3.69 2.12 -0.11 -1.62 66.5 180 5.23 3.55 3.48 0.51 -1.56 66.9 190 6.58 2.61 2.95 0.08 -1.53 67.3 ~'\ 200 8.52 3.70 4.03 0.01 -1.59 67.7 I 210 6.68 2.81 3.28 -0.04 1.51 63.2 220 6.77 2.70 2.40 0.04 1.56 68.6 230 9.34 2.74 3.07 -0.30 -1.69 69.0 240 4.97 2.10 2.96 -0.34 1.53 69.4 l 250-end Bad Bad Bad Bad Bad Bad i l V

LaSalle 1996 GSEP Exercise METEOROLOGICAL DATA LASALLE 15 MINUTE AVERAGE DATA Time 33 ft WS 200 ft WS 375 ft WS 33 ft WD 200 ft WD 375 ft WD (m/s) (m/s) (m/s) (degrees) (degrees) (degrees) AM001 AM002 AM003 AM004 AM005 AM006 0 1.34 3.10 4.64 237.2 236.5 234.6 10 1.79 3.68 5.36 236.9 236.8 234.2 20 1.24 3.29 4.88 229.3 229.8 226.7 30 1.54 3.33 4.81 232.7 231.4 228.3 l 40 1.79 3.42 4.85 234.9 234.5 231.4 I 50 2.30 4.25 5.94 234.9 234.3 230.7 60 2.68 5.10 7.30 234.7 234.8 231.0 70 2.44 4.87 7.05 233.2 232.2 229.0 80 2.37 5.24 7.31 230.7 230.0 227.0 l 90 2.65 5.24 7.51 228.5 227.5 224.2 ) 100 2.39 4.68 7.25 227.6 225.6 222.7

• 5.10 7.47 229.1 228.2 225.3 110 2.51 120 2.51 5.22 7.44 230.7 231.4 228.8 130 2.60 5.33 7.12 232.1 232.2 229.8 140 2.10 4.68 6.68 231.2 232.2 230.2 150 1.79 4.14 6.12 231.5 232.2 231.2 160 1.47 3.28 5.26 235.6 234.7 233.5 170 2.18 3.75 5.48 239.3 238.7 236.4 180 2.59 4.11 5.76 240.0 238.2 236.1 190 2.29 4.19 5.80 237.1 237.0 235.0

"',- 200 2.13 4.29 5.93 235.4 236.5 235.1 V 210 2.12 3.70 5.32 238.5 238.9 237.7 220 2.01 3.78 5.46 236.5 237.9 236.4 l 230 1.70 3.94 5.91 232.2 233.1 231.7 l 240 2.18 4.05 6.01 237.5 236.5 235.5 250-end Bad Bad Bad Bad Bad Bad 1 l l l l l

        .           4

i LaSalle 1996 GSEP Extreise METEOROLOGICAL DATA

   ~~~

i LASALLE 15 MINUTE AVERAGE DATA Time 33 ft SD 200 ft SD 375 ft SD 33/200 ft 33/375 ft WD (deg) WD (deg) WD (deg) Diff T Diff T ( C/100m) ( C/100m) AM007 AM008 AM009 AM010 AM011 0 7.67 3.83 4.04 0.28 -0.59 10 8.64 4.22 4.67 0.27 0.62 20 8.89 5.75 5.27 0.26 0.61 30 8.26 4.46 4.21 0.28 -0.60 40 7.81 4.00 3.90 0.26 -0.64

50 8.14 4.24 3.44 0.15 -0.71

! 60 7.12 3.73 2.95 -0.01 -0.77 ( 70 7.97 4.74 4.00 -0.11 -0.80 l 80 8.61 4.38 4.00 -0.20 -0.80 I 90 8.34 4.56 4.84 -0.20 -0.82 i a 100 7.88 5.01 4.56 -0.17 -0.81 l l 110 7.36 5.01 4.47 -0.11 -0.78 l 120 8.08 4.10 3.53 -0.17 -0.84 l 130 8.44 3.77 3.85 -0.18 -0.86 l 140 8.13 4.18 4.32 0.01 -0.83 l 150 9.07 5.02 4.19 0.04 -0.82 160 9.30 6.02 4.98 0.03 -0.84 170 7.72 3.97 3.99 -0.03 -0.83 l 180 7.17 3.70 3.59 0.14 -0.85 l ~% 190 7.55 3.51 3.18 0.20 -0.85 m - 200 7.23 3.02 3.21 -0.06 -0.84 l 210 6.81 3.81 3.78 0.00 -0.82 l 220 7.39 4.16 4.04 0.02 -0.81 230 7.85 4.59 3.33 -0.10 -0.86 - 240 7.52 4.41 4.28 -0.33 -0.85 l l 250-end Bad Bad Bad Bad Bad l l l l l I J

LaSalle 1996 GSEP Excrcise METEOROLOGICAL DATA DRESDEN / MURRAY & TRETTEL 15 MINUTE AVERAGE DATA Time 35 ft WS 150 n WS 300 h WS 35 h WD 150 ft WD 300 h WD (m/s) (m/s) (m/s) (degrees) (degrees) (degrees) AM001 AM002 AM003 AM004 AM005 AM006 250 2.39 3.90 5.94 239.8 239.3 238.7 260 2.83 4.16 5.96 241.3 241.8 241.7 270 2.41 3.79 5.60 240.5 242.2 242.4 280 2.12 3.17 4.82 241.8 241.9 242.3 290 2.45 3.49 5.06 243.4 242.8 243.6 300 2.68 3.93 5.89 249.1 248.6 248.9 310 2.56 4.02 6.32 253.4 253.4 254.2 320 1.98 3.38 5.91 254.5 256.3 258.0 330 2.15 3.54 5.87 252.7 255.5 256.6 340 2.25 3.54 5.69 N O.3 252.8 253.6

• 6.02 5.3 249.5 250.1 350 2.38 3.77 360 2.40 3.80 5.97 243.8 245.4 245.8 373 2.02 3.32 5.10 243.2 245.2 244.9 380 2.01 3.04 4.92 250.0 247.7 250.2 390 2.22 3.33 5.22 251.5 252.8 254.5 400 2.24 3.57 5.71 249.1 251.5 254.1 410 2.55 3.58 5.87 249.1 248.5 250.9 '

420 2.22 3.33 5.66 247.0 246.4 248.0

 .../

t I x -

l l LaSalle 1996 GSEP ExCrcise METEOROLOGICAL DATA l

  ~-

DRESDEN / MURRAY & TRETTEL 15 MINUTE AVERAGE DATA Time 35 ft SD 150 ft SD 300 ft SD 35/150 ft 35/300 ft WD (deg) WD (deg) WD (deg) Diff T Diff T l ( C/100m) ( C/100m) AM007 AM008 AM009 AM010 AM011 250 6.56 3.35 3.67 -0.37 -0.80 l 260 6.22 3.72 3.91 -0.37 -0.76 270 7.24 3.88 4.08 -0.37 -0.76 l 280 7.38 4.43 4.61 -0.38 -0.76 290 6.74 4.01 4.74 -0.35 -0.72 300 8.03 4.64 4.23 -0.39 -0.71 310 5.22 3.10 3.21 -0.40 -0.66 320 5.60 3.13 2.54 -0.22 -0.60 330 6.60 3.71 3.32 -0.11 -0.59 8 340 6.79 4.35 3.99 -0.08 -0.59 350 6.56 3.71 2.67 -0.07 -0.56

                                                                               )

360 6.87 3.80 3.75 -0.07 -0.55 1 370 6.84 4.30 4.22 -0.04 -0.55 380 6.67 4.12 4.83 0.02 -0.52

   ~

390 5.45 2.56 2.82 0.04 -0.47 I 400 5.92 3.13 2.48 0.08 -0.42 410 5.78 3.75 3.32 0.01 -0.43 420 6.68 3.83 4.20 -0.02 -0.45 ,

  ".,                                                                          j j                                                                            l l

l l l G l kNas96ermetdatadoc6 s

LaSall31996 GSEP Ex2rcise METEOROLOGICAL DATA BRAIDWOOD / MURRAY & TRETTEL 15 MINUTE AVERAGE DATA ! Time 34 ft WS 203 ft WS 34 ft WD 203 *t WD 34 ft SD 300 ft SD (m/s) (m/s) (degrees) (degrees) WD (deg) WD (deg) AM001 AM002 AM004 AM005 AM007 AM008 250 2.39 3.90 239.8 239.3 6.56 3.35 2M 2.83 4.16 241.3 241.8 6.22 3.72 l 270 2.41 3.79 240.5 242.2 7.24 3.88 l i 280 2.12 3.17 241.8 241.9 7.38 4.43 ' 290 2.45 3.49 243.4 242.8 _.6.74 4.01 300 2.68 3.93 249.1 248.6 8.03 4.64 ' l 310 2.56 4.02 253.4 253.4 5.22 3.10 i j 320 1.98 3.38 254.5 256.3 5.60 3.13 330 2.15 3.54 252.7 255.5 6.60 3.71 340 2.25 3.54 250.3 252.8 6.79 4.35 i 350 2.38 3.77 246.3 249.5 6.56 3.71 l

,            360         2.40        3.80          243.8       245.4            6.87     3.80 370         2.02        3.32          243.2       245.2            6.84     4.30 380         2.01        3.04          250.0       247.7            6.67     4.12

l 390 2.22 3.33 251.5 252.8 5.45 2.56 i 400 2.24 3.57 249.1 251.5 5.92 3.13 410 2.55 3.58 249.1 248.5 5.78 3.75 J

l 420 2.22 3.33 247.0 246.4 6.68 3.83 i r ', < Time 34/199 ft Time 34/199 ft Time 34/199 ft

Diff T Diff T Diff T

( C/100m) ( C/100m) ( C/100m) AM010 AM010 AM010 250 -0.37 310 -0.40 370 -0.04 260 -0.37 320 -0.22 380 0.02 270 -0.37 330 -0.11 390 0.04 280 -0.38 340 -0.08 400 0.08 , 290 -0.35 350 -0.07 410 0.01

300 -0.39 360 -0.07 420 -0.02 i

n 4 k t kMxVnetdatadoc\7

4 i 1 I q .- 1 1 l 4 i a i 'l ^ LaSalle 1996 GSEP Exercise i

o I

l i 4, ENVIRONS MESSAGES e i i j j l 4

l LaSalle 1996 GSEP Exercise Environs Messages This is an Exercise ENVIRONS MESSAGE ENV-1 Time: 1141 (251) Issue to: Environs Teams Prerequisites: Located within five miles of LaSalle Station when SAT arcs

1. You see a flash from the direction of LaSalle Station and hear what sounds like thunder after the flash according to the table below.

4 Distance away from station Time to hear " thunder" 5 miles 45 sec 4 miles 36 sec 3 miles 27 sec

   .                   2 milas                           18 sec                                        l 1 mile                            9 sec

2. If Environs Teams are in sight of the transformer area, let them know that was where the flash was from. If they get close enough, let them know water is spraying all around the

 ')
 ~

SAT and pelces of an electrical connection (bushing) are on the ground around the SAT. l l l r l l ~: I k.M M .MI

i l t 4 O i i 1 i l i ) LaSalle 1996 GSEP Exercise I I l l i ONSITE ENVIRONS i ! 7 l) i 1 I I l l f i l i t 4 e i

 )

I

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i i 4

I - Pa 1 of 11 I LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station. IMPORTANT INSTRUCTIONS: , I I I

1. For pre-established points that are LESS THAN ONE MILE from the station and for which no data  !

Is given here, the results are "as read" (i.e., normal background). I I I I I I I  ; CAUTION: Before presenting data as "as read" for a point in the vicinity of the one-mile i circle, check to make sure that the point is not in the set of tables for locations ONE OR MORE MILES from the station. I I I I

2. Use interpolation to estimate results for locations in the vicinity of pre-established points.

I I I I

3. Special codes for point locations:

1 I I "TLD 101-1" denotes Comed TLD location 101-1.

               " AIR 05" denotes Comed air sampler 05. I I         I         I          I    I chesodedA96U96AXLS Steett                                     THIS IS AN EXERCISE                                                  nu o. simio eu

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                                                                                              ~

Page 2 of 11 LaSalle 6/19!96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 11:42 to 11:56 Count Rate of Sample Collected in This Time GM Interval and Measured in Normal Background Background lodine Particulate 3ft WO 3ft WC 61n WO 61n WC At this Point Cartridge Filter Soli Foliage Point (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) (mR/hr)_(mR/hr}_ (mR/hr) A1 0.20 0.20 0.20 0.20 700 As Read As Read As Read As Read B1 0.20 0.20 0.20 0.20 700 As Read As Read As Read As Read C1 20.0 20.0 20.0 20.0 80,000 As Read As Read As Read As Read C2 0.55 0.55 0.55 0.55 2,200 As Read As Read As Read As Read D1 48.5 48.5 48.5 48.5 195,000 As Read As Read As Read As Read D2 13.5 8.00 13.5 8.00 55,000 1,000 1,050 As Read As Read E1 27.0 27.0 27.0 27.0 105,000 As Read As Read As Read As Read E2 0.60 0.60 0.60 0.60 2,350 As Read As Read As Read As Read F1 7.00 7.00 7.00 7.00 28,500 As Read As Read As Read As Read R2 0.10 0.10 0.10 0.10 380 As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read 160 As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read 195 As Read As Read As Read As Read TLD 102-1 0.05 0.05 0.05 0.05 260 As Read As Read As Read As Read TLD 102-2 0.10 0.10 _ 0.10 0.10 375 As Read As Read As Read As Read TLD 103-1 3.85 3.85 3.85 3.85 15,500 65 65 As Read As Read TLD 103-2 3.45 3.45 3.45 3.45 13,500 55 55 As Read As Read TLD 105-1 0.35 0.35 0.35 0.35 1,350 As Read As Read As Read As Read TLD 105-2 0.25 0.25 0.25 0.25 1,050 As Read As Read As Read As Read TLD 304-1 60.0 60.0 60.0 60.0 240,000 As Read As Read As Read As Read TLD 305-1 0.30 0.30 0.30 0.30 1,200 As Read As Read As Read As Read TLD 316-1 0.05 0.05 0.05 0.05 215 As Read As Read As Read As Read chesodevu96u96A XL.s sheed THIS IS AN EXERCISE no. o,3,mio pu

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Page 3 of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station ' Time: 11:57 to 12:11 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WC 61n WO 6in WC Background Cartiidge Filter Soll Foliage 3ft WO (mR/hr) (cpm) (cidii) (cpm) (cs,iii) { cpm) Point (mR/hr) (mR/hr) (mR/hr) 0.35 0.35 0.35 1,400 As Read As Read As Read As Read A1 0.35 0.40 0.40 0.40 0.40 1,400 As Read As Read As Read As Read B1 40.0 40.0 40.0 40.0 160,000 As Read As Read As Read As Read C1 1.10 1.10 1.10 1.10 4,400 As Read As Read As Read As Read , C2 100. 100. 100. 395,000 As Read As Read As Read As Read D1 100. 16.0 27.0 16.0 105,000 2,100 2,250 50 50  ! D2 27.0 50.0 50.0 50.0 50.0 215,000 As Read As Read As Read As Read  ! E1 1.20 1.20 1.20 1.20 4,700 As Read As Read As Read As Read E2 15.0 15.0 15.0_ 15.0 60,000 As Read As Read As Read As Read F1 As Read As Read As Read As Read 125 As Read As Read As Read As Read , F2 0.20 0.20 0.20 0.20 700 As Read As Read As Read As Read R2 _ I As Read As Read As Read As Read 275 As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read 345 As Read As Read As Read As Read TLD 101-2 0.10 0.10 0.10 0.10 470 As Read As Read As Read As Read j TLD 102-1 ' 0.20 0.20 0.20 0.20 700 As Read As Read As Read As Read TLD 102-2 8.00 8.00 8.00 8.00 31,000 85 90 As Read As Read TLD 103-1 7.00 7.00 7.00 7.00 28,000 60 60 As Read As Read TLD 103-2 0.70 0.70 0.70 0.70 2,650 As Read As Read As Read As Read TLD 105-1 0.50 0.50 0.50 0.50 2,100 As Read As Read As Read As Read TLD 105-2 120. 120. 120. 120. 490,000 As Read As Read As Read As Read , TLD 304-1 0.60 0.60 0.60 0.60 2,350 As Read As Read As Read As Read TLD 305-1 As Read As Read As Read As Read 385 As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read 125 As Read As Read As Read As Read AIR 05

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Page 4 of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 12:12 to 12:26 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6in WO 61n WC Background Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) A1 0.20 0.20 0.20 0.20 750 As Read As Read As Read As Read B1 0.20 0.20 0.20 0.20 700 As Read As Read As Read As Read C1 22.0 22.0 22.0 22.0 90,000 As Read A3 Read As Read As Read C2 0.50 0.50 0.50 0.50 1,800 As Read As Read As Read As Read D1 60.0 60.0 60.0 60.0 240,000 As Read As Read As Read As Read D2 42.0 24.0 43.0 24.0 170,000 8,000 8,500 65 55

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E1 39.0 39.0 39.0 39.0 155,000 As Read As Read As Read As Read E2 1.30 1.30 1.30 1.30 5,000 As Read As Read As Read As Read F1 11.0 11.0 11.0 11.0 43,500 As Read As Read As Read As Read F2 As Read As Read As Read As Read 120 As Read As Read As Read As Read H1 0.40 0.40 0.40 0.40 1,600 As Read As Read As Read As Read H2 ' As Read As Read As Read As Read 150 As Read As Read As Read As Read R2 0.10 0.10 0.10 0.10 425 As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read 165 As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read 200 As Read As Read As Read As Read TLD 102-1 As Read As Read As Read As Read 240 As Read As Read As Read As Read TLD 102-2 As Read As Read As Read As Read 345 As Read As Read As Read As Read TLD 103-1 2.70 2.70 2.80 2.70 11,000 As Read As Read As Read As Read TLD 103-2 2.50 2.50 2.50 2.50 10,000 As Read As Read As Read As Read TLD 105-1 0.70 0.70 0.70 0.70 2,950 As Read As Read As Read As Read TLD 105-2 0.60 0.60 0.60 0.60 2,300 As Read As Read As Read As Read TLD 304-1 90.0 90.0 90.0 90.0 345,000 As Read As Read As Read As Read TLD 305-1 0.60 0.60 0.60 0.60 2,450 As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read AIR 05 As Read As Read As Read As Read 120 As Read As Read As Read As Read chesodwu96U96ARs Sheet 1 THIS IS AN EXERCISE no. oy . .. ,,u

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• Page 5 of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 12:27 to 12:41

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Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6ln WO 6in WC Background Cartridge Filter Soll Foliage  ; Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) [ cpm) . (cpm) (cpm) (cpm) i A1 As Read As Read As Read As Read As Read As Read As Read As Read As Read B1 As Read As Read As Read As Read As Read As Read As Read As Read As Read - C1 0.70 C.70 0.70 0.70 2,750 As Read As Read As Read As Read C2 As Read As Read As Read As Read As Read As Read As Read As Read As Read D1 1.90 1.90 1.90 1.90 7,500 As Read As Read As Read As Read D2 7.00 4.10 7.00 3.90 28,500 2,950 3,100 65 55

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E1 2.40 2.40 2.40 2.40 10,000 As Read As Read As Read As Read E2 0.30 0.30 0.30 0.30 1,250 As Read As Read As Read As Read F1 0.80 0.80 0.80 0.80 3,200 As Read As Read As Read As Read F2 As Read As Read As Read As Read As Read As Read As Read As Read As Read H1 . As Read As Read As Read As Read 165 As Read As Read As Read As Read H2 As Read As Read As Read As Read As Read As Read As Read As Read As Read R2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read  ! TLD 102-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read i TLD 102-2 As Read As Read As Read As Read TLD 103-1 As Read As Read As Read As Read 160 As Read As Read As Read As Read l TLD 103-2 As Read As Read As Read As Read 155 As Read As Read As Read As Read TLD 105-1 0.20 0.20 0.20 0.20 700 As Read As Read As Read As Read TLD 105-2 0.10 0.10 0.10 0.10 550 As Read As Read As Read As Read TLD 304-1 4.50 4.50 4.50 4.50 18,000 As Read As Read As Read As Read i TLD 305-1 0.10 0.10 0.10 0.10 480 As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read  ! AIR 05 As Read As Read As Read As Read As Read As Read As Read As Read As Read  ! l [ c$mesodev4A96%LA96A XLs Sheett THIS IS AN EXERCISE n.,. o,3,,s,s ,.io pu

( Pag 6 of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 12:42 to 12:56 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 61n WC BackDround Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) n) Al AsReag h Reag A03d As Regg 4,Aead ,

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mR/hr AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead 1.600 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead 1 AsRead AsRead AsRead 0.20 AsRead AsRead AsRead AsRead AsRead B1 AsRead AsRead 0.70 AsRead AsRead AsRead AsRead AsRead AsRead C1 0.40 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead C2 0.40 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead W D1 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead a D2 AsRead AsRead AsRead AsRead AsRe d E1 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead E2 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead F1 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead / F2 AsRead AsRead AsRead AsRead AsRead AsRead AsRead AsRead Read Read Read Read ead AsRead 4 Read AsRead ' AsRead m

_ . . ~ . - - . - - - - - - - - - - ~ - - ( I ) Page 6 of 11 i LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 12:42 to 12:56 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate  ; 3ft WO 3ft WC 6in WO 61n WC Background Cartridge Filter Soil Foliage  ! Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) . A1 As Read As Read As Read As Read As Read As Read As Read As Read As Read B1 As Read As Read As Read As Read As Read As Read As Read As Read As Read i C1 As Read As Read As Read As Read As Read As Read As Read As Read As Read C2 As Read As Read As Read As Read As Read As Read As Read As Read As Read D1 As Read As Read As Read As Read As Read As Read As Read As Read As Read D2 0.40 0.40 0.70 0.20 1,650 As Read As Read 65 55 E1 As Read As Read As Read As Read As dead As Read As Read As Read As Read  ; E2 As Read As Read As Read As Read As Read As Read As Read As Read As Read F1 As Read As Read As Read As Read As Read As Read As Read As Read As Read ' F2 As Read As Read As Read As Read As Read As Read As Read As Read As Read H1 As Read As Read As Read As Read As Read As Read As Read As Read As Read , H2 -As Read As Read As Read As Read As Read As Read As Read As Read As Read R2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read I TLD 101-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 102-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read  ! TLD 102-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read' TLD 103-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read . TLD 103-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read f TLD 105-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 304-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read I TLD 305-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read AIR 05 As Read As Read As Read As Read As Read As Read As Read As Read As Read ews.odovu96U96AXLS Shoot 1 THIS IS AN EXERCISE w o. arim-io eu f

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Page 7 of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 12:57 to 13:11 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background l GM lodine Particulate 3tt WO 3tt WC 61n WO 6ln WC Background Castridge Filter Soll Foliage l Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) A1 As Read As Read As Read As Read As Read As Read As Read As Read As Read B1 As Read As Read As Read As Read As Read As Read As Read As Read As Read C1 As Read As Read As Read As Read As Read As Read As Read As Read As Read C2 As Read As Read As Read As Read As Read As Read As Read As Read As Read D1 As Read As Read As Read As Read As Read As Read As Read As Read As Read D2 0.40 0.40 0.70 0.20 1,600 As Read As Read 65 55 E1 As Read As Read As Read As Read As Read As Read As Read As Read As Read E2 As Read As Read As Read As Read As Read As Read As Read As Read As Read . F1 As Read As Read As Read As Read As Read As Read As Read As Read As Read F2 As Read As Read As Read As Read As Read As Read As Read As Read As Read H1 .As Read As Read As Read As Read As Read As Read As Read As Read As Read H2 As Read As Read As Read As Read As Read As Read As Read As Read As Read l R2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 102-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read , TLD 102-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 304-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 305-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read AIR 05 As Read As Read As Read As Read As Read As Read As Read As Read As Read cw.soomu96U96AXI.s Steett THIS IS AN EXERCISE no.o mio eu

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I Page 8 of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station I Time: 13:12 to 13:26 l

                                                                                                                              .                                                                                                      I Count Rate of Sample Collected in This Time                                                                       !

Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 6in WC Background Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) . (cpm) (cpm) (cpm) (cpm) . (cpm)  ; A1 ~As Read As Read As Read As Read As Read As Read As Read As Read As Read B1 As Read As Read As Read As Read As Read As Read As Read As Read As Read i C1 As Read As Read As Read As Read As Read As Read As Read As Read As Read [ C2 As Read As Read As Read As Read As Read As Read As Read As Read As Read [ D1 As Read As Read As Read As Read As Read As Read As Read As Read As Read , D2 0.40 0.40 0.70 0.20 1,500 As Read As Read 65 55  : E1 As Read As Read As Read As Read As Read As Read As Read As Read As Read i E2 As Read As Read As Read As Read As Read As Read As Read As Read As Read , F1 As Read As Read As Read As Read As Read As Read As Read As Read As Read  : F2 As Read As Read As Read As Read As Read As Read As Read As Read As Read , H1 _As Read As Read As Read As Read As Read As Read As Read As Read As Read i H2 As Read As Read As Read As Reed As Read As Read As Read As Read As Read l R2 As Read As Read As Read As Read As Read As Read As Read As Read As Read  ! TLD 101-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read i TLD 102-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 102-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read 1 TLD 103-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 304-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 305-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read AIR 05 As Read As Read As Read As Read As Read As Read As Read As Read As Read chexNU96U96AXLS Sheen THIS IS AN EXERCISE  % o, -,o pu

Nr 9 of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 13:27 to 13:41 _ Count Rate of Sample Collected in This Time interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6ln WO 6in WC Background Casti;(.ve Filter Soll Follage Point (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cp.T.) (cpT) [cp,T,) (mR/hr) A1 As Read As Read As Read As Read As Read As Read As Read As Read As Read B1 As Read As Read As Read As Read As Read As Read As Read As Read As Read C1 As Read As Read As Read As Read As Read As Read As Read As Read As Read C2 As Read As Read As Read As Read As Read As Read As Read As Read As Read D1 As Read As Read As Read As Read As Read As Read As Read As Read As Read D2 0.40 0.40 0.60 0.20 1,450 As Read As Read 65 55 E1 As Read As Read As Read As Read As Read As Read As Read As Read As Read E2 As Read As Read As Read As Read As Read As Read As Read As Read As Read 1-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read F2 H1 As Read As Read As Read As Read As Read As Read As Read As Read As Read H2 As Read As Read As Read As Read As Read As Read As Read As Read As Read R2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read KD 102-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 102-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 304-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 305-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 316-1 AIR 05 As Read As Read As Read As Read As Read As Read As Read As Read As Read chesodovu96U96AXLSSh o THIS IS AN EXERCISE n, o. 3,,mio pu

(". ) ' Page 10 of 11 i LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 13:42 to 13:56 I i Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate i 3ft WO 3ft WC 61n WO 6in WC Background Cartridge Filter Soll Foliage i Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) M (cpm) (cpm) (cpm) (cpm) A1 As Read As Read As Read As Read As Read As Read As Read As Read As Read 81 As Read As Read As Read As Read As Read As Read As Read As Read As Read C1 As Read As Read As Read As Read As Read As Read As Read As Read As Read i C2 As Read As Read As Read As Read As Read As Read As Read As Read As Read D1 As Read As Read As Read As Read As Read As Read As Read As Read As Read i D2 0.30 0.30 0.60 0.20 1,350 As Read As Read 60 55 E1 As Read As Read As Read As Read As Read As Read As Read As Read As Read E2 As Read As Read As Read As Read As Read As Read As Read As Read As Read F1 As Read As Read As Read As Read As Read As Read As Read As Read As Read F2 As Read As Read As Read As Read As Read As Read As Read As Read As Read H1 As Read As Read As Read As Read As Read As Read As Read As Read As Read H2 As Read As Read As Read As Read As Read As Read As Read As Read As Read ' R2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 102-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read + TLD 102-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read ' TLD 103-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read ' TLD 304-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 305-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read AIR 05 As Read As Read As Read As Read As Read As Read As Read As Read As Read i chesodevu96u96A ES SimeH THIS IS AN EXERCISE n, o, -,o pu

J (' . l ~ Page it of 11 LaSalle 6/19/96 Exercise Field Data for locations LESS THAN ONE MILE from the station Time: 13:57 to 14:11 '

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Count Rate of Sample Collected in This Time Interval and Measured in Nonnel Background GM lodine Particulate 3ft WO 3ft WC 6fn WO 6in WC Background Cartridge Filter Soil Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) { cpm) A1 As Read As Read As Read As Read As Read As Read As Read As Read As Read B1 As Read As Read As Read As Read As Read As Read As Read As Read As Read C1 As Read As Read As Read As Read As Read As Read As Read As Read As Read C2 As Read As Read As Read As Read As Read As Read As Read As Read As Read i D1 As Read As Read As Read As Read As Read As Read As Read As Read As Read D2 0.30 0.30 0.60 0.20 1,300 As Read As Read 60 55 E1 As Read As Read As Read As Read As Read As Read As Read As Read As Read E2 As Read As Read As Read As Read As Read As Read As Read As Read As Read F1 As Read As Read As Read As Read As Read As Read As Read As Read As Read t F2 As Read As Read As Read As Read As Read As Read As Read As Read As Read H1 As Read As Read As Read As Read As Read As Read As Read As Read As Read i H2 'As Read As Read As Read As Read As Read As Read As Read As Read As Read i R2 As Read As Read As Read As Read As Read As Read As Read As Read As Read

TLD 101-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 101-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 102-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 102-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 103-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 105-2 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 304-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 305-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read TLD 316-1 As Read As Read As Read As Read As Read As Read As Read As Read As Read AIR 05 As Read As Read As Read As Read As Read As Read As Read As Read As Read ew-mu sw THIS IS AN EXERCISE  % o,3,,mio pu

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[ l l LaSalle Station OUTSIDE AREAS INSIDE THE FENCE l

1. DOSE RATE INFORMATION HOURLY DOSE RATES TIME mR/hr UNLESS NOTED GENERAL HOURS A B C D E F NOTES 0730 1141 As Read As Read As Read As Read As Read As Read 1142-1156 As Read As Read 20 40 27 7 1157-1211 As Read As Read 40 100 50 15

( 1212-1226 As Rer.4 As Read 22 60 39 11 4 1227-1241 As Rtad As Read As Read 7 2 As Read 1242-1500 As Read As Read As Read As Read As Read As Read l l l

2. AVERAGE mrem per hour OF TIME SPENT IN AREA TIME HOURS A B C D E F GENERAL i

NOTES 0730-1141 As Read As Read As Read As Read As Read As Read 1142-1156 As Read As Read As Read 1 As Read As Read 1157-1211 As Read As Read 1 1.5 1 As Read 1212-1226 As Read As Read As Read 1 As Read As Read 1227-1241 As Read As Read As Read As Read As Read As Read 1242-1500 As Read As Read As Read As Read As Read As Read

3. AIRBORNE CONCENTRATIONS AND CONTAMINATION LEVELS GAS LODINE PARTIC. GM BACKGROUND GENERAL TIME uCl/cc uCycc Levelsin cpm /100 cm2 NOTES HOURS uCUcc C D E As Read As Read 80,000 195,000 105,000 0730-1141 As Read As Read As Read 160,000 395,000 215,000 1142 1156 As Read As Read As Read 90,000 240,000 155,000 1157 1211 As Read As Read As Read 2.750 7,500 10,000 1212 1226 As Read As Read As Read As Read As Read As Read 1227 1241 As Read As Read As Read As Read As Read .As Read 12421500 As Read l

i l l I l 1 l LaSalle 1996 GSEP Exercise OFFSITE ENVIRONS 1

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( . Page 1 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station. IMPORTANT INSTRUCTIONS: l I l

1. For pre-established points that are ONE OR MORE MILES from the station and for which no data is given here, the results are "as read" (i.e., normal background).

I I I I I I l CAUTION: Before presenting data as "as read" for a po!nt in the vicinity of the one-mile circle, check to make sure that the point is not in the set of tables for locations ONE OR MORE MILES from the station. I I I I

2. Use interpolation to estimate results for locations in the vicinity of pre-established points.

I I I I

3. Special codes for point locations:

l l l TLD 104-1 denotes Comed TLD location 104-1. AIR 03 denotes Comed air sampler 03. l l l 'I cwesoowu99U96EXIS SheeH THIS IS AN EXERCISE no,, o, 3,7 . , ny

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Page2of21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 11:4210 11:56 Count Rate of Sample Collected in This Time GM Interval and Measured in Normal Background Background lodine Particulate 3ft WO 3ft WC 61n WO 61n WC At this Point Cartridge Filter Soil Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) B3 0.25 0.25 0.25 0.25 1,050 50 50 As Read As Read C3 4.55 2.55 4.60 2.50 18,000 8,500 9,000 250 155 C4 0.25 0.15 0.25 0.15 950 2.300 2,400 105 75 C5 0.30 0.20 0.30 0.15 1,200 3,000 3,000 120 85 C6 3.50 1.95 3.65 1.90 14,000 35,000 35,000 900 500 C7 25.5 14.0 25.5 14.0 100,000 50,000 55,000 1,350 700 D3 12.0 7.00 12.5 7.00 50,000 22,000 23,500 600 350 D4 4.80 2.65 4.85 2.65 19,000 12,500 13,500 350 205 DS 7.50 4.00 7.50 3.95 30,000 40,000 40,000 1,000 500 D6 19.0 10.5 19.5 10.5 75,000 100,000 105,000 2,450 1,250 E4 As Read As Read As Read As Read 55 150 155 50 As Read F3 As Read As Read As Read As Read 170 As Read As Read As Read As Read TLD 104-1 9.50 5.50 10.0 5.50 40,000 17,500 18,500 500 250 TLD 104-2 9.50 5.50 9.50 5.50 40,000 17,000 18,000 500 250 TLD 106-1 As Read As Read As Read As Read 140 As Read As Read As Read As Read TLD 106-2 As Read As Read As Read As Read 155 As Read As Read As Read As Read TLD 204-1 1.25 0.70 1.30 0.70 5,000 6,500 7,000 210 130 TLD 204-2_ 1.00 0.55 1.05 0.55 4,000 5,000 5,500 175 110 AIR 03 9.50 5.50 9.50 5.50 40,000 17,000 18,000 500 250 RS-C 1.85 1.05 1.95 1.00 7,500 18,500 19,500 500 300 RS-D 3.90 2.15 4.00 2.10 15,500 21,500 23,000 600 300 C11 1.35 0.75 1.45 0.75 5,500 13,500 14,500 400 220 C12 4.90 2.75 5.00 2.65 19,500 35,000 40,000 950 500 C13 As Read As Read As Read As Read 60 450 500 60 55 C16 As Read As Read As Read As Read 50 195 205 50 As Read D11 4.60 2.55 4.75 2.50 18,500 25,000 25,000 650 350 E12 As Read As Read As Read As Read As Read 60 65 As Read As Read F11 As Read As Read As Read As Read 170 As Read As Read As Read As Read chesohu96U96aXt.S sheeti THIS IS AN EXERCISE nw o.wiss6 4 o7 pu

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                                                                                                                                                                                              %                           Page 3 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 11:57 to 12:11 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM                    lodine                      Particulate 3ft WO       3ft WC     61n WO    61n WC      Background            Cartridge Filter                                     Soll                                                             Follage Point         (mR/hr)     (mR/hr)    (mR!hr)   (mR/hr)     (cpm)                 (cpm)                       (cpm)                    (cpm)                                                            (cpm)

B3 0.50 0.50 0.50 0.50 1,900 60 60 As Read As Read C3 9.50 5.50 9.50 5.50 40,000 17,500 18,500 700 350 C4 0.45 0.25 0.45 0.25 1.700 4,500 5,000 210 130 C5 0.55 0.30 0.60 0.30 2,200 6,000 6,500 250 155 C6 6.50 3.65 7.00 3.45 25,000 70,000 75,000 2,500 1,350 C7 55.0 29.5 55.0 29.0 215,000 110,000 115,000 4,000 2,000 D3 25.5 145 , 26.0 14.5 105,000 45,000 50,000 1,700 900 D4 10.0 5.50 10.0 5.50 40,000 25,000 30,000 1,000 500 DS 13.0 7.50 13.5 7.00 50,000 70,000 70,000 2,500 1,350 D6 34.0 19.0 35.6 18.5 135,000 170,000 180,000 6,500 3,500 E4 . As Read As Read As Read As Read 60 245 250 55 50 F3 0.05 0.05 0.05 0.05 250 As Read As Read As Read As Read TLD 104-1 20.5 11.5 20.5 11.5 80,000 35,000 40,000 1,350 700 TLD 104-2 20.0 11.5 20.5 11.5 80,000 35,000 40,000 1,350 700 TLD 106-1 0.05 0.05 0.05 0.05 220 As Read As Read As Read As Read

    'TLD 106-2           0.05       0.05      0.05      0.05              245             As Read                     As Read                          As Read                                                As Read TLD 203-1      As Reaa    As Read    As Read   As Read               145                2,150                       2,300                                                              100                     75 TLD 203-2      As Read    As Read    As Read   As Read                  65              1,150                       1.250                                                                      75              60 TLD 204-1           2.30       1.30      2.40      1.25            9,000              13,000                       14,000                                                             500                     300 TLD 204-2           1.85       1.00      1.90      1.00            7,500              10,000                       11,000                                                            400                      235 AIR 03             20.0       11.5      20.5      11.5            80,000              35,000                       40,000                                                1,350                                700 RS-C                3.40       1.95      3.65      1.85           13,500              40,000                       40,000                                                1,400                                700 RS-D                7.50       4.15      8.00      4.05           30,000              50,000                       55,000                                                1,800                                900 C11                 2.50       1.45      2.70      1.35           10,000              30,000                       30,000                                               1,050                                 550 C12                 9.00       5.00      9.50      4.85           35,000              70,000                       75,000                                              2,500                                1,350 C13            As Read    As Read    As Read   As Read                  70                650                                    700                                                          75               60 (continued on next pace) c.-m9ss ns sw                                                 THIS IS AN EXERCISE                                                                                                                                    n.# o. anwe 4c7 pu

( i ("-) . Page 4 of 21 I LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 11:57 to 12:11 (continued) Count Rate of Sample Collected in This Time , Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 6in WC Background Cartridge Filter Soll Follage Point (mR/hr)_ (mR/hr) (mR/hr) (mR/hr) [ cpm) (cpm) (cpm) (cpm) (cpm) C16 0.65 0.35 0.65 0.35 2,500 6,000 6,500 200 125 C17 1.15 0.65 1.20 0.60 4,500 16,500 17,500 450 245  ; C19 As Read As Read As Read As Read 65 700 750 65 55 C22 As Read As Read As Read As Read As Read 150 155 50 As Reaa C25 As Read As Read As Read As Read As Read 115 120 As Read As Read D11 11.5 6.50 12.0 6.00 45,000 75,000 75,000 2,400 1,250 D12 1.35 0.80 1.45 0.75 5,500 13,000 14,000 350 205 D13 11.5 6.50 11.5 6.00 45,000 85,000 85,000 2,050 1,050 D14 0.10 0.05 0.15 0.05 450 5,000 5,500 165 105 D15 2.00 1.15 2.10 1.10 8,000 30,000 30,000 700 400 D16 2.90 1.60 3.00 1.55 11,500 30,000 30,000 750 400 D17 As Read As Read As Read As Read As Read 120 125 As Read As Read D18 0.65 0.35 0.65 0.35 2,500 9,000 9,500 250 150 D19 1.35 0.75 1.40 0.75 5,500 20,000 21,000 500 300 D20 As Read As Read As Read As Read As Read 125 130 As Read As Read D21 As Read As Read As Read As Read 95 800 850 65 55 D22 As Read As Read As Read As Read As Read 185 190 50 As Read D23 As Read As Read As Read As Read As Read 125 130 As Read As Read D24 As Read As Read As Read As Read 95 800 850 65 55 D25 As Read As Read As Read As Read As Read 185 190 50 As Read E12 As Read As Read As Read As Read As Read 75 80 As Read As Read F11 0.05 0.05 0.05 0.05 300 As Read As Read As Read As Read cw.wwu96U968 XLs simed THIS IS AN EXERCISE  % ,, m o7 pu

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{ I) . Prge 5 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 12:12 to 12:26 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 61n WC Background Cartridge Filter Soil Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) B3_ 0.25 0.25 0.25 0.25 950 As Read 50 As Read As Read C3 5.50 3.20 6.00 3.10 22,500 14,000 15,000 1,000 550 C4 0.15 0.10 0.20 0.10 600 1,800 1,950 250 150 C5 0.20 0.15 0.25 0.10 750 2,350 2,450 300 180 C6 2.05 1.35 2.60 1.10 8,000 30,000 30,000 3,000 1,650 C7 31.5 17.5 33.0 17.5 125,000 85,000 90,000 6,000 3,000 D3 15.0 8.50 15.5 8.50 60,000 35,000 40,000 2,500 1,300 D4 7.50 4.25 8.00 4.15 30,000 30,000 35,000 1,700 900 D5 9.00 5.00 9.50 4.90 35,000 50,000 55,000 4,000 1,900 l D6 23.5 13.5 25.5 13.0 95,000 130,000 135,000 9,500 5,000 E4 As Read As Read As Read As Read 75 650 650 70 60 F3 0.05 0.05 0.05 0.05 250 As Read As Read As Read As Read TLD 104-1 12.0 7.00 12.5 7.00 50,000 30,000 30,000 2,050 1,050 TLD 104-2 12.0 7.00 12.5 7.00 50,000 30,000 30,000 2,000 1,050 TLD 106-1 0.05 0.05 0.05 0.05 215 As Read As Read As Read As Read TLD 106-2 0.05 0.05 0.05 0.05 235 As Read As Read As Read As Read TLD 203-1 0.05 As Read 0.05 As Read 200 3,000 3,500 170 110 TLD 203-2 As Read As Read As Read As Read 85 1,550 1,650 110 80 TLD 204-1 1.70 1.00 1.85 0.95 7,000 13,500 14,500 850 450 TLD 204-2 1.35 0.80 1.45 0.75 5,500 10,500 11,000 650 350' AIR 03 12.0 7.00 12.5 7.00 50,000 30,000 30,000 2,000 1.050 RS-C 1.10 0.70 1.40 0.60 4,500 14,500 15,500 1,750 900 RS-D 6.00 3.60 7.00 3.35 24,500 70,000 70,000 3,500 1,700 C11 0.80 0.55 1.05 0.45 3,000 11,000 11,500 1,300 650 C12 . 4.60 2.75 5.00 2.50 18,500 35,000 40,000 3,500 1,750 C13 I As Read As Read As Read As Read 90 1,300 1.400 105 75 l i (continued on next page) cwesowu9@u968 XLS Sheed THIS IS AN EXERCISE n_ m

( ("d . Page 6 of 21 h LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 12:12 to 12:26 (continued) Count Rate of !L ..,,;6 Collected in This Time interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 6in WC Background Cartridge Filter Soll Fol:ege Point (cpm) (cpm) (cpm) (@n) (cpm) (mR/hr) (mR/hr) (mR/hr)_(mR/hr) . 0.75 0.45 0.85 0.40 3,000 11,000 11,500 450 250 C16 1.30 0.80 1.50 0.70 5,000 25,000 30,000 1,050 550 C17 C19 As Read As Read As Read As Read 65 700 750 80 65' C22 As Read As Read As Read As Read 50 240 250 55 50 As Read As Read As Read As Read 105 2,250 2,400 100 75 C25 C27 As Read As Read As Read As Read As Read 75 75 As Read As Read As Read As Read As Read As Read 115 3,000 3,000 115 80 C28 C31 As Read As Read As Read As Read As Read 75 75 As Read As Read  ! 10.0 5.50 10.5 5.50 40.000 95.000 100.000 4,500 2,350 D11 D12 3.10 1.75 3.30 1.70 12.500 30,000 30,000 1,050 550 D13 . 24.0 13.5 25.5 13.0 95,000 175,000 185,000 6,000 3,000 D14 0.50 0.30 0.55 0.25 1,950 12.500 13,500 450 250 D15 3.75 2.20 4.15 2.05 15,000 60,000 65,000 2,050 1,050 3.55 2.05 3.85 1.95 14,000 45,000 45,000 1,750 900 ! .D16 i D17 As Read As Read As Read As Read 50 180 185 55 50 D18 1.15 0.65 1.25 0.60 4,500 15,000 15,500 600 300 D19 4.60 2.60 4.85 2.50 18,500 40,000 45,000 1,500 750 D20 As Read As Read As Read As Read 50 210 220 55 50 l D21 2.00 1.15 2.15 1.10 8,000 30,000 35,000 800 450 D22 2.55 1.45 2.70 1.40 10,000 30,000 35,000 800 400 D23 As Read As Read As Read As Read 50 210 220 55 50 D24 2.00 1.15 2.15 1.10 8,000 30,000 35,000 800 450 D25 2.55 1.45 2.70 1.40 10,000 30,000 35,000 800 400 D26 As Read As Read As Read As Read 65 1,200 1,250 75 60 D27 1.75 1.00 1.85 0.95 7,000 30,000 30,000 700 350 D28 As Read As Read As Read As Read As Read 150 155 50 As Read (continued on next page) cw mdevu96u968XLSSheet1 THIS IS AN EXERCISE  % o,33 m l

. . . ~ PEge 7 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 12:12 to 12:26 (Continued) Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 61n WC Background Cartridge Filter Soll Foliage Point (mR!hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) (mR/hr) D29 0.20 0.15 0.25 0.10 850 8,000 8,500 230 '140 D30 0.45 0.30 0.50 0.25 1,850 13,500 14.000 350 200 E12 As Road As Read As Read As Read 50 130 135 50 As Read F11 0.05 0.05 0.05 0.05 250 As Read As Read As Read As Read cw.sooovu9su96BXLS Sh n THIS IS AN EXERCISE nw.o.arimo7 Pu

Page 8 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 12:27 to 12:41 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6in WO 6in WC Background Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) C3 0.20 0.20 0.40 0.10 850 350 350 1,000 550

• C4 As Read As Read 0.10 As Read 160 50 50 250 150 C5 As Read As Read 0.10 As Read 190 50 50 300 180 C6 0.45 0.45 1.00 0.25 1,800 95 100 3,000 1,650 C7 1.40 1.15 2.50 0.75 5,500 3,000 3,000 6,000 3,000 D3 0.55 0.50 1.00 0.30 2,200 800 850 2,500 1,300 D4 1.85 1.15 2.20 1.00 7,500 8,000 8,500 1,900 950 DS 4.65 2.80 5.50 2.50 18,500 30,000 30,000 4,500 2,250 D6 12.0 7.00 14.0 6.50 50,000 70,000 75,000 11,000 5,500 E4 0.15 0.10 0.15 0.10 500 2,200 2,300 115 80 TLD 104-1 0.45 0.40 0.80 0.25 1,750 _

650 650 2,050 1,050 TLD 104-2 0.45 0.40 0.80 0.25 1,750 650 650 2,000 1,050 TLD 203-1 As Read As Read 0.05 As Read 115 235 245 175 110 TLD 203-2 As Read As Read As Read As Read 85 100 105 110 80 TLD 204-1 1.45 0.85 1.65 0.80 6,000 13,500 14,500 1.150 600 TLD 204-2 1.10 0.65 1.25 0.60 4,500 10,500 11,000 900 450 AIR 03 0.45 0.40 0.80 0.25 1,750 650 650 2,000 1,050 RS-C 0.25 0.25 0.55 0.15 950 75 75 1,750 900 RS-D 8.00 4.60 9.00 4.25 30,000 85,000 90,000 5,500 2,500 C11 0.20 0.20 0.40 0.10 750 65 70 1,300, 650 C12 1.95 1.30 2.60 1.05 8,000 10,000 10,500 3,5001 If C13 As Read As Read As Read As Read 80 235 250 105 C16 0.15 0.10 0.20 0.05 500 2,500 2,500 500 C17 0.20 0.20 0.40 0.10 750 4,000 4,000 1.150 C19 As Read As Read As Read As Read 65 95 95 80 J C22 As Read As Read As Read As Read 55 190 200 60 55 (continusd on next page) ew.soomu96u968 XLS Stmet1 THIS IS AN EXERCISE  %. o, mo, pu

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Page 9 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 12:27 to 12:41 (continued) Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6ln WO 61n WC Background Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) [ cpm) (cpm) (cpm) (cpm) (cpm) C25 As Read As Read As Read As Read 90 1,350 1,450 130 90 C28 As Read As Read As Read As Read 100 1,200 1,250 140 95 C31 As Read As Read As Read As Read As Read 120 125 50 As Read D11 5.50 3.30 6.50 2.90 21,500 55,000 60,000 6,000 3,000 D12 2.80 1.65 3.15 1.55 11,000 40,000 45,000 1,950 1,000 D13 13.0 7.50 14.5 7.00 50,000 105,000 110,003 8,500 4,000 D14 2.30 1.30 2.45 1.25 9,000 25,000 30,000 1,050 550 D15 7.00 4.10 8.00 3.85 30,000 80,000 85,000 4,000 1,950 D16 0.65 0.50 1.05 0.35 2,500 15.500 16,500 2,100 1,050 D17 As Read As Read As Read As Read 110 1,750, 1,850 90 70 D18 2.85 1.65 3.10 1.55 11,500 40,00C' 45.000 1,500 750 D19 6.50 3.70 7.00 3.50 25,000 80,000 85,000 3.500 1,650 D20 As Read As Read As Read As Read 115 1,950 2,050 95 70 D21 1.55 0.95 1.85 0.85 6,000 35,000 35,000 1,600 800 D22 5.00 2.90 5.50 2.70 20,000 75,000 80,000 2,450 1,250 D23 As Read As Read As Read As Read 115 1,950 2,050 95 76 D24 1.55 0.95 1.85 0.85 6,000 35,000 35,000 1,600 800 D25 5.00 2.90 5.50 2.70 20,000__ 75,000 80,000 2,450 1,250 D26 0.05 0.05 0.10 As Read 250 10,500 11,000 300 175 D27 0.95 0.60 1.20 0.50 4,000 30,000 30,000 1,300 650 D28 As Read As Read As Read As Read 70 1,600 1,700 85 65 D29 0.05 0.05 0.15 As Read 300 6,500 7,000 350 210 D30 2.15 1.25 2.35 1.15 8,500 40,000 45,000 1,300 650 E12 As Read As Read As Read As Read 110 450 450 60 55 E19 As Read As Read As Read As Read As Read 90 90 As Read As Read E23 As Read As Read As Read As Read As Read 65 65 As Read As Read j c-m9sans swt THIS IS AN EXERCISE n.v. o. 3/15/96 4 07 PM

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Page 10 of 22 LaSaIIe 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 12:42 to 12:56 Count Rate of Sample Collected in This Time interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6ln WO 6ln WC Background Cartridge Filter Soil Foliage (cpm) (cpm) (cpm) (cpm) Lcpm) Point (mRMr) (mRmr) (mRmr) _ (mR&r) _ 0.15 0.15 0.30 0.10 550 As Read As Read 1,000 550 C3 C4 As Read As Read 0.10 As Read 160 As Read As Read 250 150 C5 As Read As Read 0.10 As Read 190 As Read As Read 300 180 0.45 0.45 1.00 0.25 1,800 As Read As Read 3,000 1,650 C6 0.80 0.80 1.85 0.40 3,000 As Read As Read 6,000 3,000 C7 0.35 0.35 0.80 0.20 1,400 As Read As Read 2,500 1.300 D3 0.25 0.25 0.60 0.15 1,050 As Read As Read 1,900 950 D4 0.60 0.60 1.35 0.30 2,350 120 120 4,500 2,250 DS 1.45 1.45 3.45 0.75 6,000 220 230 11,000 5,500 D6 E4 As Read As Read As R_ead As Read 85 75 80 115 80 0.30 0.30 0.65 0.15 1,100 As Read As Read 2,050 1,050 TLD 104-1 - 0.30 0.30 0.65 0.15 1,100 As Read As Read 2,000 1,050 TLD 104-2 TLD 203-1 As Read As Read 0.05 As Read 115 As Read As Read 175 110 0.25 0.20 0.45 0.15 1,000 1,050 1,100 1,150 600 TLD 204-1 TLD 204-2 0.20 0.15 0.35 0.10 800 850 900 900 500 0.30 0.30 0.65 0.15 1,100 As Read As Read 2,000 1,050 AIR 03 0.25 0.25 0.55 0.15 950 As Read As Read 1,750 900 RS-C 1.50 1.15 2.45 0.80 6,000 6,000 6,000 5,500 2,500 RS-D 0.20 0.20 0.40 0.10 700 As Read As Read 1,300 650 C11 0.50 0.50 1.15 0.25 2,000 70 75 3,500 1,850 C12 0.05 0.05 0.15 As Read 300 50 50 500 300 C16 0.15 0.15 0.35 0.10 650 55 55 1,150 600 C17 As Read As Read As Read As Read 90 75 75 130 90 C25 As Read As Read As Read As Read 100 115 120 140 95 C28 1.05 0.95 2.10 0.55 4,000 2,100 2,250 6,000 3,000 D11 1.10 0.70 1.45 0.60 4,500 7,000 7,500 2,100 1,100 D12 (continued on next psiie) cw oo.vuosu968XLsSheed THIS IS AN EXERCISE n . o vi ~ -

_ . _ _ _ _ _ _ _ . _ ___ __ _ _ = _ - _ _ .___ .. _ _ . _ _ . _ __ _ l'

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Page 11 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 12:42 to 12:56 (continued) Count Rate of Sample Collected in This Time interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 6ln WC Background Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) D13 1.10 1.10 2.60 0.55 4,500 1,050 1,100 8,500 4,000 D14 0.35 0.25 0.50 0.20 1,350 4,500 4,500 1,100 600 D15 0.75 0.65 1.45 0.40 3,000 5,000 5,000 4,000 2,000 D16 0.30 0.30 0.65 0.15 1,150 650 700 2,100 1,050 D17 0.15 0.10 0.15 0.05 500 4,500 5,000 185 120 D18 2.10 1.25 2.45 1.10 8,500 30,000 30,000 2,100 1,050 D19 2.90 1.80 3.55 1.55 11,500 30,000 30.000 4,000 1,950 D20 0.15 0.10 0.15 0.10 550 6,000 6,500 230 140 D21 0.25 0.25 0.55 0.15 1,000 4,000 4,500 1,650 850 D22 4.70 2.80 5.50 2.55 19.000 55,000 60,000 3,500 1,850 D23 0.15 0.10 0.15 0.10 550 6,000 6,500 230 140 D24 0.25 0.25 0.55 0.15 1,000 4,000 4,500 1,650 850 D25 4.70 2.80 5.50 2.55 19,000 55,000 60,000 3,500 1,850 D26 2.30 1.35 2.50 1.25 9,000 45,000 50,000 1,300 700 D27 0.20 0.20 0.45 0.10 900 8,500 9,000 1,500 750 D28 0.40 0.25 0.50 0.20 1,600 18,500 19,500 500 250 D29 0.05 0.05 0.15 As Read 250 2,150 2,300 400 235 D30 5.00 2.90 5.50 2.75 20,500 60,000 65,000 2,500 1,300 E12 As Read As Read As Read As Read 60 300 300 65 ~55 E14 As Read As Read As Read As Read As Read 150 155 50 As Read EIS As Read As Read As Read As Read As Read 80 80 As Read As Read E19 As Read As Read As Read As Read 60 1,250 1,350 75 60 E23 As Read As Read As Read As Read 60 950 1,000 70 60 c.W96U96&XLS Sh o THIS IS AN EXERCISE  % , -f pu

Page i2 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station l Time: 12:57 to 13:11 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6in W O 61n WC Background Cartridge Filter Soll Foliage Point . .( mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) . (cpm) (cpm) (cpm) C3 0.15 0.15 0.30 0.10 550 As Read As Read 1,000 550 C7 0.75 0.75 1.70 0.35 3,000 As Read As Read 6,000 3,000 D3 0.35 0.35 0.80 0.20 1,400 As Read As Read 2,500 1.300 D4 0.25 0.25 0.55 0.15 1,000 As Read As Read 1,900 950 DS 0.55 0.55 1.25 0.25 2,150 As Read As Read 4,500 2,250 D6 1.40 1.40 3.30 0.70 5,500 As Read As Read 11,000 5,500 TLD 104-1 0.25 0.25 0.60 0.15 1,100 As Read As Read 2,050 1,050 TLD 104-2 0.25 0.25 0.60 0.15 1,100 As Read As Read 2,000 1,050 TLD 204-1 0.15 0.15 0.35 0.10 600 As Read As Read 1,150 600 TLD 204-2 0.10 0.10 0.25 0.05 500 As Read As Read 900 500 AIR 03 . 0.25 0.25 0.60 0.15 1,100 As Read As Read 2,000 1,050 RS-D 0.70 0.70 1.65 0.35 3,000 As Read As Read 5,500 2,500 C12 0.20 0.20 0.45 0.10 800 As Read As Read 3,500 1,850 C17 0.10 0.10 0.20 0.05 350 As Read As Read 1,150 600 C25 As Read As Read As Read As Read 90 As Read As Read 130 90 C28 As Read As Read As Read As Read 95 As Read As Read 140 95 D11 0.50 0.50 1.15 0.25 2,000 As Read As Read 6,000 3,000 D12 0.30 0.30 0.65 0.15 1,100 As Read As Read 2,100 1,100 D13 1.10 1.10 2.55 0.55 4,500 As Read As Read 8,500 4,000 D14 0.15 0.15 0.35 0.10 600 As Read As Read 1.100 600 D15 0.50 0.50 1.20 0.25 2,050 50 50 4,000 2,000 D16 0.30 0.30 0.65 0.15 1,100 As Read As Read 2,100 1,050 D17 As Read As Read 0.05 As Read 190 300 300 190 120 D18 0.30 0.30 0.65 0.15 1,100 350 400 2,100 1.100 D19 0.50 0.50 1.15 0.25 2,000 140 145 4,000 1,950 D20 0.10 0.10 0.15 0.05 450 850 950 245 145 (continued on next page) chesodevtA96tA968.XLs sheet 1 THIS IS AN EXERCISE n w.o,ati m 7 Pu

i

        '                                                                                                                                              (h Pcge 13 of 21 LaSalle 6/19/96 Exercise Fleid Data for locations ONE OR MORE MILES from the station Time: 12:57 to 13:11 (continued)

Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3tt WC 61n WO 6ln WC Background Cartridge Filter Soll Foliage point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) D21 0.20 0.20 0.50 0.10 900 55 60 1,650 850 D22 0.50 0.50 1.15 0.25 2,000 1,300 1,400 3,500 1,850 D23 0.10 0.10 0.15 0.05 450 850 950 245 145 D24 0.20 0.20 0.50 0.10 900 55 60 1,650 850 D25 0.50 0.50 1.15 0.25 2,000 1.300 1,400 3,500 1,850 D26 0.50 0.35 0.75 0.25 2,050 4,500 4,500 1,400 700 D27 0.20 0.20 0.45 0.10 800 210 220 1,500 750 D28 0.40 0.25 0.50 0.20 1,600 9,500 10,000 650 350 D29 0.05 0.05 0.15 As Read 240 70 75 400 235 D30 0.45 0.40 0.90 0.20 1,700 9,000 9,500 3,000 1,400 E19 As Read As Read As Read As Read 130 850 900 90 70 E23 As Read As Read As Read As Read 105 1,100 1,150 90 70 chesodedA96u968 XLs Sheed THIS IS AN EXERClSE nev. o. anss6 to7 pu

 . _  _._.._._-._.__.-.m                               _ _ _ _ . _ _ . - __
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Pa9e i4 of 21 LaSaBe 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 13:12 to 13:26 Count Rate of Sample Collected in This Time interval and Saessured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6in WO 6ln WC Background Cartridge Filter Soll Follege (mR/hr) (mR/hr) (cpm) (cpm) (cidi.) (cf47.) (cigr.) Point (mR/hrJ_ (mRlhr) 0.15 0.15 0.30 0.05 550 As Read As Read 1,000 550 C3 C4 As Read As Read 0.05 As Read 150 As Read As Read 250 150 C5 As Read As Read 0.10 As Read 180 As Read As Read 300 180 0.40 0.40 0.95 0.20 1,650 As Read As Read 3,000 1,650 C6 0.75 0.75 1.80 0.40 3,000 As Read As Read 6,000 3,000 C7 0.35 0.35 0.75 0.15 1,350 As Read As Read 2,500 1,300 D3 0.25 0.55 0.15 950 As Read As Read 1,900 950 D4 0.25 0.55 0.55 1.30 0.30 2,250 As Read As Read 4,500 2,250 DS ~ 0.70 5,500 As Read As Read 11,000 5,500 D6 1.40 1.40 3.30 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,050 1,050 TLD 104-1 . 0.25 0.25 0.60 0.15 1.050 As Read As Read 2,000 1,050 TLD 104-2 0.15 0.15 0.35 0.10 600 As Read As Read 1,150 600 TLD 204-1 TLD 204-2 0.10 0.10 0.25 0.05 500 As Read As Read 900 500 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,000 1,050 AIR 03 0.20 0.20 0.50 0.10 900 As Read As Read 1,750 900 RS-C 0.70 0.70 1.60 0.35 2,500 As Read As Read 5,500 2,500 RS-D ' C11 0.15 0.15 0.40 0.10 650 As Read As Read 1.300 650 0.45 0.45 1.10 0.25 1,850 As Read As Read 3,500 1,850 C12 0.50 0.50 1.10 0.25 1,950 As Read As Read 6,000 3,000 D11 0.25 0.25 0.65 0.15 1,100 As Read As Read 2,100 1,100 , D12 1.00 1.00 2.40 0.50 4,000 As Read As Read 8,500 4,000 D13 0.15 0.15 0.35 0.10 _ 600 As Read As Read 1,100 600 D14 0.45 0.45 1.00 0.20 1,750 As Read As Read 4,000 2,000 D15 0.10 0.10 0.15 As Read 300 As Read As Read 2,100 1,050 D16 D17 As Read As Read 0.05 As Read 120 As Read As Read 190 120 0.25 0.25 0.60 0.15 1,100 As Read As Read 2,100 1.100 D18 (continued on next page) c.-me ns sw THIS IS AN EXERCISE n. . m7 pu

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Page 5 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 13:12 to 13:26 (Continued) Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 61n WC Background Cartridge Filter Soll Follage Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) . (cpm) (cpm) (cpm) (cpm) [ cpm) D19 0.30 0.30 0.75 0.15 1,250 As Read As Read 4,000 1,950 D20 As Read As Read 0.05 As Read 145 As Read As Read 245 145 D21 0.15 0.15 0.35 0.10 650 As Read As Read 1,650 850 D22 0.45 0.45 1.10 0.25 1,850 " As Read As Read 3,500 1,850 D23 As Read As Read 0.05 As Read 145 As Read As Read 245 145 D24 0.15 0.15 0.35 0.10 650 As Read As Read 1,650 850 D25 0.45 0.45 1.10 0.25 1,850 . As Read As Read 3,500 1,850 D26 0.20 0.20 0.40 0.10 750 As Read As Read 1,400 700 D27 0.20 0.20 0.45 0.10 750 As Read As Read 1,500 750 D28 0.10 0.10 0.20 0.05 350 215 225 700 350 D29 0.05 0.05 0.10 As Read 235 As Read As Read 400 235 D30 0.35 0.35 0.80 0.20 1,400 70 75 3,000 1,400 E23 As Read As Read As Read As Read 70 75 80 90 70 c.W96U968 XLs SteeH THIS IS AN EXERCISE no, o, y,smo7 pu

4 Page 16 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 13:27 to 13:41 Count Rate of Sample Collected in This Time Interval and Moesured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 6ln WC Background Cartridge Filter Soll FollaDe Point (mR/hr) (mR/hr) (mR/hr) (mR!hr) (cpm) (cpm) (cpm) (cpm) . (cpm) C3 0.15 0.15 0.30 0.05 550 As Read As Read 1,000 550 C4 As Read As Read 0.05 As Read 150 As Read As Read 250 150 C5 As Read As Read 0.10 As Read 175 As Read As Read 300 180 C6 0.40 0.40 0.95 0.20 1,600 As Read As Read 3.000 1,650 C7 0.75 0.75 1.75 0.40 3,000 As Read As Read 6,000 3,000 D3 0.35 0.35 0.75 0.15 1.300 As Read As Read 2,500 1.300 D4 0.25 0.25 0.55 0.15 950 As Read As Read 1,900 950 D5 0.55 0.55 1.30 0.30 2,200 As Read As Read 4,500 2,250 D6 1.35 1.35 3.25 0.70 5,500 As Read As Read 11,000 5,500 TLD 104-1 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,050 1,050 TLD 104-2 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,000 1,050 TLD 204-1 0.15 0.15 0.35 0.10 600 As Read As Read 1,150 600 TLD 204 2 0.10 0.10 0.25 0.05 450 As Read As Read 900 500 AIR 03 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,000 1,050 RS-C 0.20 0.20 0.50 0.10 900 As Read As Read 1,750 900 RS-D 0.65 -0.65 1.60 0.35 2,500 As Read As Read 5,500 2,500 C11 0.15 0.15 0.40 0.10 650 As Read As Read 1,300 650 C12 0.45 0.45 1.05 0.25 1,850 As Read As Read 3,500 1,850 C16 0.05 0.05 0.15 As Read 250 As Read As Read 500 300 C17 0.15 0.15 0.30 0.10 550 As Read As Read 1,150 600 D11 0.75 0.75 1.70 0.35 3,000 As Read As Read 6,000 3,000 D12 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,100 1,100 D13 1.05 1.05 2.45 0.50 4,000 As Read As Read 8,500 4,000 D14 0.15 0.15 0.35 0.10 550 As Read As Read 1,100 600 D15 0.50 0.50 1.15 0.25 1,950 As Read As Read 4,000 2,000 D16 0.25 0.25 0.55 0.15 950 As Read As Read 2,100 1,050 (continued on next page) cW96u968 XI.S Sh o THIS IS AN EXERCISE  %,o,3,s % 7pu Lams . .. - . _ ._-a--m.__ . .

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i Page i7 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station ' Time: 13:27 to 13:41 (continued) Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3tt W C 61n WO 61n WC Background Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) [ cpm) (cpm) (cpm) (mR/hr) D17 As Read As Read 0.05 As Read 120 As Read As Read 190 120 D18 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,100 1.100 0.50 0.50 1.15 0.25 1,950 As Read As Read 4,000 1,950 D19 D20 As Read As Read 0.05 As Read 145 As Read As Read 245 145 0.10 0.10 0.20 0.05 400 As Read As Read 1,650 850 D21 0.45 0.45 1.05 0.25 1,800 As Read As Rea 1 3,500 1,850 D22 D23 As Read As Read 0.05 As Read 145 As Read As Read 245 145 0.10 0.10 0.20 0.05 400 As Read As Read 1,650 850 D24 0.45 0.45 1.05 0.25 1,800 As Read As Read 3,500 1,850 D25 0.20 0.20 0.40 0.10 700 As Read As Read 1,400 700 D26 0.10 0.10 0.20 As Read 350 As Read As Read 1,500 750 D27 D28 0.10 0.10 0.20 0.05 350 As Read As Read 700 350 0.35 0.35 0.80 0.20 1,400 As Read As Read 3,000 1,400 D30 cw oo.vuceu96aXLSStmett THIS IS AN EXERCISE Rev. 0. 3/15/96 4c7 PM

( , - Page 18 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 13:42 to 13:56 Count Rate of S T.,,le Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 61n WC Background Cartridge Filter Soll Foliage i Point (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) M (cpm) (4,...) (cpm) . 0.15 0.15 0.30 0.05 500 As Read As Read 1,000 550 C3 C4 As Read As Read 0.05 As Read 145 As Read As Read 250 150 C5 As Read As Read 0.10 As Read 175 As Read As Read 300 180 0.40 0.40 0.95 0.20 1,600 As Read As Read 3,000 1,650 C6 0.75 0.75 1.75 0.35 3,000 As Read As Read 6,000 3,000 C7 0.30 0.30 0.75 0.15 1,300 As Read As Read 2,500 1,300 D3 0.25 0.25 0.55 0.10 950 As Read As Read 1,900 950 D4 0.55 0.55 1.25 0.25 2,150 As Read As Read 4,500 2,250 DS 1.35 1.35 3.20 0.70 5,500 As Read As Read 11,000 5,500 D6 0.25 0.25 0.60 0.15 1,000 As Read As Read 2,050 1,050 TLD 104-1 0.25 0.25 0.60 0.15 1,000 As Read As Read 2,000 1,050 TLD 104-2 0.15 0.15 0.35 0.10 600 As Read As Read 1,150 600 4 TLD 204-1 TLD 204-2 0.10 0.10 0.25 0.05 450 As Read As Read 900 500 0.25 0.25 0.60 0.15 1,000 As Read As Read 2,000 1,050 AIR 03 0.20 0.20 0.50 0.10 850 As Read As Read 1,750 900 RS-C 0.65 0.65 1.55 0.35 2,500 As Read As Read 5,500 2,500 RS-D 0.15 0.15 0.35 0.10 650 As Read As Read 1,300 650 C11 3.45 0.45 1.05 0.25 1,800 As Read As Read 3,500 1,850 C12 , C16 0.05 0.05 0.15 As Read 250 As Read As Read 500 35 0.15 0.15 0.30 0.10 550 As Read As Read 1,150 600 C17 0.70 0.70 1.70 0.35 3,000 As Read As Read 6,000 3,000 1 D11 0.25 0.60 0.15 1,050 As Read As Read 2,100 1,100

D12 0.25 1.00 1.00 2.40 0.50 4,000 As Read As Read 8,500 4,000 D13 0.15 0.30 0.10 550 As Read As Read 1,100 600 D14 0.15 0.50 1.15 0.25 1,900 As Read As Read 4,000 2,000 D15 0.50 0.25 0.60 0.15 1,050 As Read As Read 2,100 1,050 D16 0.25 (continued on next w) ew.=wu9Eu968 XLS Sheett THIS IS AN EXERCISE a o,3,33,,,4.o7 pu

 . . - . - _ = . , - , , _              _ _ . _       . . -
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T Ptge i9 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 13:42 to 13:56 (continued) i Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 68n WO 6ln WC Background Cartridge Filter Soll Follage Point (mR/hr) (mR/hr) (mR!hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) D17 As Read As Read 0.05 As Read 115 As Read As Read 190 120 D18 0.25 0.25 0.60 0.15 1,050 As Read As Read 2,100 1,100 D19 0.45 0.45 1.10 0.25 1,900 As Read As Read 4,000 1,950 D20 As Read As Read 0.05 As Read 145 As Read As Read 245 145 D21 0.20 0.20 0.45 0.10 750 As Read As Read 1,650 850 D22 0.45 0.45 1.05 0.25 1,800 As Read As Read 3,500 1,850 D23 As Read As Read 0.05 As Read 145 As Read As Read 245 145 D24 0.20 0.20 0.45 0.10 750 As Read As Read 1,650 850 D25 0.45 0.45 1.05 0.25 1,800 As Read As Read 3,500 1,850 D26 0.15 0.15 0.40 0.10 700 As Read As Read 1,400 700 D27 . 0.20 0.20 0.40 0.10 750 As Read As Read 1,500 750 D28 0.10 0.10 0.20 As Read 350 As Read As Read 700 350 D29 As Read As Read 0.10 As Read 175 As Read As Read 400 235 1,350 3,000

                         'D30                 0.35        0.35       0.80      0.20                    As Read       As Read                   1,400 cw oo.vuuumsxtssh n                                                 THIS IS AN EXERCISE                                           nu o.stimo7 pu

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Prge z0 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 13:57 to 14:11 Count Rate of Sample Collected in This Time Interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 6in WO 61n WC Background Cartridge Filter Soll Foliage Pcint (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) [ cpm) C3 0.15 0.15 0.30 0.05 500 As Read As Read 1,000 550 C7 0.65 0.65 1.60 0.35 2,500 As Read As Read 6,000 3,000 D3 0.30 0.30 0.75 0.15 1,250 As Read As Read 2,500 1.300 D4 0.25 0.25 0.55 0.10 900 As Read As Read 1,900 950 DS 0.50 0.50 1.15 0.25 1,950 As Read As Read 4,500 2,250 D6 1.30 1.30 3.05 0.65 5,000 As Read As Read 11,000 5,500 TLD 104-1 0.25 0.25 0.60 0.15 1,000 As Read As Read 2,050 1,050 TLD 104-2 0.25 0.25 0.55 0.15 1,000 As Read As Read 2,000 1,050 TLD 204-1 0.15 0.15 0.35 0.10 550 As Read As Read 1,150 600 TLD 204-2 0.10 0.10 0.25 0.05 450 As Read As Read 900 500 AIR 03 , 0.25 0.25 0.55 0.15 1,000 As Read As Read 2,000 1,050 RS-D 0.65 0.65 1.55 0.35 2,500 As Read As Read 5,500 2,500 C12 0.20 0.20 0.45 0.10 750 As Read As Read 3,500 1,850 C16 0.05 0.05 0.15 As Read 235 As Read As Read 500 300 C17 0.10 0.10 0.15 As Read 300 As Read As Read 1,150 600 D11 0.70 0.70 1.65 0.35 2,500 As Read As Read 6,000 3,000 D12 0.25 0.25 0.60 0.15 1,000 As Read As Read 2,100 1,100 D13 1.00 1.00 2.35 0.50 4,000 As Read As Read 8,500 4,000 D14 0.15 0.15 0.30 0.05 550 As Read As Read 1,100 600 D15 0.45 0.45 1.10 0.25 1,900 As Read As Read 4,000 2,000 D16 0.25 0.25 0.55 0.10 950 As Read As Read 2,100 1,050 D17 As Read As Read 0.05 As Read 115 As Read As Read 190 120 D18 0.25 0.25 0.60 0.15 1,000 As Read As Read 2,100 1,100 D19 0.45 0.45 1.10 0.25 1,850 As Read As Read 4,000 1,950 D20 As Read As Read 0.05 As Read 140 As Read As Read 245 145 D21 0.20 0.20 0.40 0.10 750 As Read As Read 1,650 850 (continued on next page) cNnesodevu96u968.XLs Sheett THIS IS AN EXERCISE n, o . m

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( / Page 41 of 21 LaSalle 6/19/96 Exercise Field Data for locations ONE OR MORE MILES from the station Time: 13:57 to 14:11 (continued) Count Rate of Sample Collected in This Time interval and Measured in Normal Background GM lodine Particulate 3ft WO 3ft WC 61n WO 61n WC Background Cartridge Filter Soll Foliage Point (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (cpm) (cpm) (cpm) (mR/hr) 0.45 0.45 1.05 0.20 1,750 As Read As Read 3,500 1,850 D22 D23 As Read As Read 0.05 As Read 140 As Read As Read 245 145 0.20 0.20 0.40 0.10 750 As Read As Read 1,650 850 D24 0.45 0.45 1.05 0.20 1,750 As Read As Read 3,500 1,850 D25 D26 0.15 0.15 0.40 0.10 700 As Read As Read 1.400 700 0.15 0.15 0.40 0.10 650 As Read As Read 1,500 750 D27 D28 0.10 0.10 0.20 As Read 350 As Read As Read 700 350 D29 As Read As Read 0.05 As Read 145 As Read As Read 400 235 0.35 0.35 0.80 0.15 1,350 As Read As Read 3,000 1,400 p30 c-guweymi THIS IS AN EXERCISE Rev. o. 345m A n7 PM

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I , i ! l 1 l i l t I i j LaSalle 1996 GSEP Exercise l T RESPONSE CELL GUIDANCE i i "N . t

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l l LaSalle 1996 GSEP Exercise ' NRC RESPONSE CELL GUIDANCE THIS IS AN EXERCISE NOTE: See the Mock NRC Guldlines section for pertinant information for question areas.

1. The initia! and final ENS call will be made by a controller to the real NRC.

2. Region 111 will not be playing during the exercise.

3. As you request specific information, make sure that a reply is given. If they say that they will get j back to you, make sure that they do.  ;

1

4. Use the ENS form information to get clarification on any point that is not explicitly clear, l

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5. Try to extract trend information whenever appropriate. ,

l 4

6. Question decisions until justification is received. l l

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7. Determine the root cause of the events in progress.

8. Determine the Emergency Procedures being used. i l

9. Determine the operational and maintenance activities taking place. Ask for a list of priorities for these items. l

10. Determine the prognosis and related time estimates for the specific maintenance activities. l

11. Use the HPN as much as possible. Ask for thirty (30) minute updates initially and more frequent updates if deemed appropriate.

12. The HPN can be used to track environmental concems, radiation monitoring and contaminated areas and personnel. l l

13. Identify yourself by the position for which you are placing or receiving calls. For example, information/ data exchange would be accomplished by communicators. Discussion / decision input (

would be accomplished by managers. l

LaSalle 1996 GSEP Exercise NRC RESPONSE CELL GUIDANCE THIS 13 AN EXERCISE RESPONSE CELL NRC CALL DIRECTORY

1. Since the NRC will be playing in the Exercise, the following guidance should be used only after the NRC terminates play.

2. The following questions / statements are to be used as guidance for the NRC Response Cell.

Freeplay any leading questions that may arise from the phone conversations.

3. The Response Cell should not initia's calls until after notification. At that time the Response Cell should take data, ask questions and make call backs for more detailed information.

• NRC CALLS Call # Time Message 1 10 minutes after From NRC Bethavia (Incident Resoonse Manaaer): After ALERT notification notification has been made on the ENS phone, the NRC Response Cell should call back and ask the following; What is the backup number? Who am I talking to? Have Accident conditions changed? When these questions are answered, inform the Participants that the NRC should be informed of

'] any changes in conditions and that continuous phone j m-communications are not necessary l 2 20 minutes after From Reaion 111 (Base Team Manaaer): Request an update l ALERT notification for Region Ill. Ask if any assistance will be necessary. Inform . l the Control Room that the NRC is now in the STANDBY Response Mode. RESPONSE CELL NOTE: - STANDBY means that the situation iis sufficiently complex or uncertain that that additional monitoring and preparations are needed to allow a quicker NRC response if the need arises. 3 At Notification of SITE From NRC Bethesda (Communicator): Take information. Ask EMERGENCY that continuous phone communications be established with a knowledgable individual. Maintain continuous communication and pursue questions which are not explained satisfactorily. 4 Fifteen Minutes after From NRC Peaion 111 (Base Team Manacer): Request an Site Emergency update for Re jion lit. Inform them that the NRC is increasing Notification its Responsc Mode to INITIAL ACTIVATION. Inform them that a Site Team wili be put together and that they will be informed of the makeup and arrival time of the team. RESPONSE CELL NOTE: - INITIAL ACTIVATION means

 '                                                that the NRC is dispatching a management team to the site.

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From NRC Reaion Ill (Base Team Manaaer): Region ill l- 5 To EOF at 1030 (if EOF unavailable, then Response Team to arrive at EOF approximately 1115. Team l t send to CEOF or TSC) consists of: f l TBD From NRC Headauarters: I am concemed with degrading plant 6 To EOF (MEO) at 1200 conditions and waiting for the station's estimate for stabilizing l the accident. Human error or maintenance problem? What implications does this have with other plant systems? To EOF at 1215 From Reaion lil: What is the general plant status? How much 7 radioactive material has been released? How much contamination have your workers been exposed to? We are going to upgrade our response to EXPANDED ACTIVATION. To EOF at 1245 From NRC Headauarters: Please provide a status update. 8 What are the current protective measures for the offsite public a been recommended? What has been implemented by the state? What have the environs teams been reading? Is there any evidence of failed fuel? How much?

LaSalle 1996 GSEP Exercise NRC RESPONSE CELL GUIDANCE THIS IS AN EXERCISE HPN GUIDANCE NRC concems on the HPN line include off-site doses, offsite data and protective actions. All calls on the HPN from the NRC will be initiated by the Protective measures Manager at the NRC Operations Center in Bethesda. Pertinent questions should be asked to gather information. Guidance questions to initiate communications include:

1. What are the current Containment Building radiation levels?

4

2. What are the current Auxiliary Building radiation conditions?

3. How are the accumulated doses of the people onsite being tracked?

  -           4. What is the extent of core damage?

5. Howis core damage determined?

6. How many field teams are out?

v~ 7. Where are the field teams? (Locate in miles and compass direction) l

8. What types of monitoring equipment are the field teams using?

9. What protective actions are you recommending for the public?

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10. What protection are you providing for onsite personnel? l I

11. Is the State (s) supplying any field data? Does it correlate?

12. We need current data for our computer input. Can you supply it from the EOF 7 (sample results, met data, isotopic information)

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i i i t i ! LaSalle 1996 GSEP Exercise ! a 'a i, , RC MESSAGES 4 .

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i i LaSalle 1996 GSEP Exercise i ! .' Response Cell Messages l l This is an Exercise  ! RESPONSE CELL MESSAGE RC-1 Time: 0755-0900 (25-90) i Issue to: Participants calling the National Earthquake Center i Prerequisites: Initial Earthquake event has occurred $ TBD 4 i 1 i M l

LaSalle 1996 GSEP Exercise Response Cell Messages i '; This is an Exercise RESPONSE CELL MESSAGE i RC-2 i Time: 1145-1300 (255-330) Issue to: Participants calling the National Earthquake Center Prerequisites: Earthquake Aftershocks event has occurred TBD 4 me e

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i 1 i i l LaSalle 1996 GSEP Exercise t a i MOCK NRC GUIDANCE 2 ' l e V

LaSalle 1996 G!EP Exercise MOCK NRC GUIDELINES .-- THIS IS AN EXERCISE NOTE: THIS MATERIAL IS ALSO SUITABLE FOR USE BY PERSONNEL PLAYING NRC POSITIONS IN THE RESPONSE CELL MOCK NRC QUESTIONS AND CONCERNS LQE

1. What were plant conditions prior to the Alert declaration?

I

2. Request Event Notification Worksheet if a continuous line has not been maintained.

3. Ask for verification of the magnitude of the discharge.

4. What are the radiation levels in the plant?

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5. How many people were on-site and number of Rad Workers assembled?

6. Have any protective measures for the off-site public been recommended?

7. Are there any radiological concems regarding workers in the area of the discharge release?

8. What is being done as precautionary measures?

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m. 9. What are background rad levels?

10. What are the Environs Teams readings?

11. Have you had any evidence of extensive fuel damage? f

12. What is the Status of the Containment Drywellintegrity? Electrical Equipment? Core Cooling?

13. Do you need any technical assistance from the NRC or any govemmental agency?

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LaSalle 1996 GSEP Exercise MOCK NRC GUIDELINES

  ..-                                             THIS IS AN EXERCISE

! MOCK NRC QUESTIONS AND CONCERNS I IE I 1. Ask for documentation of the plant condition prior to the Site Emergency? i 2. Ask for copies of the NARS and ENS forms. Ask questions for clarification.

3. Ask for what facilities the States have operational.

4. Ask if any other Govemment Agency may be needed for assistance.

5. Ask how the PARS were determined.

6. Ask for the status of Unit 2.

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7. Ask for documentation of any phone calls to Bethesda.

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8. What type of contamination have you found on your workers?

9. How do we arrange for lunches for our Site Team? Where can we order and set up an account?

;          10. How bad is the lodine problem in the plant?

g 11. Is there potential for a major lodine release? I l l 1

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q  ! ] 1.sSalle 1996 GSEP Exercise ) MOCK NRC GUIDELINES l ! _ THIS IS AN EXERCISE

MOCK NRC OPERADONS CONCERNS l

~ Reactor Status

a. Press, temperature, level and flow

b. Ability to shutdown unit l ECCS Status

a. Availability, Operability, and inventory l b. Ust types of system

c. Automatic vs Manual Actuations a

I CECO to State Interface Notifications

a. (Who) CECO personnel, (where) ERF, when 4 8

b. Concurrence

c. Changes in Protective Action Recommendation

d. Determine when decisions were made (time) and when notifications were made Repair Work Priority l

a. Status, Ust and relationship to events

b. Dose assessments, Safety, time, materials Core Damage t m a. Status of assessment and type of assessment i b. Yes/No and percent Id

c. Number of assemblies, rods

d. Type of damage thermal, mechanical i

Offsite Power

a. Status of switch yard, system grid

b. Ability to obtain portable diesel generator Onsite Power

a. Status of Unit diesel (s) 4 b. Status of ability to Cross tie

c. Status of diesel surveillance l

Balance of Plant Equipment Status

a. OOS/ BIS (date and time)

b. Available Systems i

ERDs Operation

a. Request historical printout of transmitted data i b. Verify Unit 1/2 Operation Recovery Determinations *

a. CECO procedure used

b. Consultations with (STATE / FED /TSC/ EOF) l c. Plant / Environs / Personnel Protected Assess status of vital equipment v

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1 LaSalle 1996 GSEP Exereise MOCK NRC GUIDELINES - THIS IS AN EXERCISE l MOCK NRC RADIOLOGICAL CONCERNS j Release (Gaseous) l

a. Monitored Pathway or Unmonitored pathway ]

b. Noble Gas &/orlodine

c. Concentrations, Release Rates, Dose Rates  !

d. Effect on Public

e. Effect on Farm Animals

f. Effect on crops ,

g. Durations  !

Release (Uquids)

a. Monitored Pathway or Unmonitored pathway , ,

i b. Release to waterway, lake, ground l

c. Isotopes

d. Concentrations, Release Rates

e. Durations Protective Measures (PARS)

a. Basis

b. PARS

c. Sector and distances

,% d. Reported by, at time, and date

e. Public Notified via EBS

f. Prompt Notification System activated Safety of Station Personnel performing:

a. Repair work

b. Essential Personnel

c. Nonessential Personnel in assembly areas

d. Radiological concems of all personnel

e. Hazardous materials effect on station personnel

f. Issue KI to Station Personnel, field teams Site Assembly

a. Initiated

b. Number of essential, nonessential

c. Relocation site / travel time, security

d. Radiological concems Water inventory

a. Reactor water storage tank inven.ory

b. Condensate storage

c. Ability to produce clean water

d. Ability to ship in clean water kNAS96exVnockntCg.00C}}