ML20202D576
ML20202D576 | |
Person / Time | |
---|---|
Site: | Pilgrim |
Issue date: | 11/08/1997 |
From: | BOSTON EDISON CO. |
To: | |
References | |
NUDOCS 9712050068 | |
Download: ML20202D576 (301) | |
Text
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..y 4 -u 1997 EXERCISE EVENT SCHEDULE j. " 'u Event: Exercise Controller Meeting -
Date: Monday, November 3,1997 - Time: ~ 0900- 1200-
' Location: EOF-Attendees:. - Controllers -
Eventi . Exercise Player Meeting - Date: . Tuesday, November 4,1997
- Time: 1000 1100
' Location: Engineering & Support Bldg., Conf. Rm Ea/b Attendees: . Players Event: NRC Entrance and Briefing Date: Tuesday, November 4,1997 Time: 1500 1630
- Location: - Engineering & Support Bldg., Lobby t,onf. Rm. .
Attendees: ' invited personnel only ; _j Event: NRC Evaluated Exercise D1te: Wednesday, November 5,1997 Time: . Unannounced . Location: . EOF, TSC, OSC, Simulator, MC, ClO Attendees: Players, Controllers, NRC Evaluators, and Commonwealth Participants Event: Lead Controller Debrief Date: Wednesday, November 5,1997 . i e . Time: Immediately following the exercise V Location: EOF Attendees: Lead Exercise Controller and Lead Facility Contrallers Event: Exercise Critique and NRC Exit-Date: Friday. November 7,1997
, Time:' 1000 1200-Location: Engineering & Support Bldg., Conf. Rm. 2alb Attendees: Invited personnel only Event: - Exercise Critique
, Date: - Friday, November 7,1997 Time: 1300 - 1400 Location: Engineering & Support Bldg., Conf, Rm. 2a/b
-- Attendees: Players and Controllers s
I f . o dj ll eplexer/97 exer doc i l l SCOPE ( The 1997 Pilgnm Nuclear Power Station (PNPS) Emergency Preparedness Exercise to be conduc dunng the week ending November 8.1997; will test, and provide the oppor1 unity to evaluate, the Edison Emergency Plan and Emergency Plan implementing Procedures (EPIPs). It will also test the Emergency Response Organization's (ERO) ability to assess, identify, classify, and respond to emergency conditions and take appropriate actions to protect the health and safety of the pub Control Room (Simulator) Operations Support Center (OSC), Technical Support Center (TSC), Emergency Operations Facility (EOF), Media Center (MC), and Corporate Information Cente be activated and personnel assigned to those facilities will partic.pate in the exercise. Local government agencies, the Massachusetts Emergency Management Agency (MEMA), and the Massachusetts Oepartment of Public Health (MPDH) will participate. The Exercise will not involve activation of t Boston Edison Corporate Radiological Emergency Plan (CREP). The scenario willinitially simulate core damage due to faulty scram testing and high radiation levels i the Off Gas System causing an Alert. High Torus radioactivity then results in a Site Area Emergency classification A subsequent main steam line leak and radioactive release to the environment results General Emergency. These classifications and escalations will test the effectiveness of the integrate capabilities of Boston Edison's ERO with the Commony,ealth of Massachusetts and Local Gove with respect to protective action decisions and communications. Y l l l r l l } eplexer/97 exer doc
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- OBJECTIVES - ,
Exercise Planningj A1) . Conduct an exercise of the PNPS Emergency Plan.
- _ A2)- : Provide for Commonwealth of Massachusetts participation. ;
A3)- Prepare an exercise information package. A4) Conduct a critique of the exercise. AS) Prepare an exercise report, s A6). Identify open items. _ _ A8) Conduct an exercise in various weather conditions (during different seasons) (summer scenario). e i Emergency Organization, dupport, and Resources -
- 81)- Demonstrate he prompt activation, adequacy of staffing, and setup of facilities. ; B2) Demonstrate the capability of the ERO to implement EPIPs.
- 83) Demonstrate the ability of tne Emergency Director to provide overall direction.
B4) Demonstrate the ability to effectively transfer command and control of emergency response functions from the CR to the EOF. B5) Demonstrate the ability to maintain continuous staffing. B6) Demonstrate the capability of the ERO to interface with Commonwealth and local govemments.
- 87) ' Demonstrate the ability to control access to emergency facilities.
- 88) Demonstrate the ability to provide a liaison at each participating offsite govemmental emergency operations center (EOC).
B9) Demonstrate adequacy of facilities and equipment to support emergency operations.
' B13) Demonstrate the ability to nctify on-call ERO personnel and document acceptable response times.
Incident Asssssment and Classification C1) Demonstrate the ability to make rapid assessment of radiological hazards, including the dispatch and cooidination of Radiation Monitoring Teams (RMTs). C2) Demonstrate the ability to recognize Emergency Action Levels (EALs) and properly classify emergencies in accordance with EPIPs. Notification and Communications
. D1) Demonstrate the ability to notify offsite emoroency uganizations within 15 minutes.
- 02) Demonstrate the ability to notify the NRC of any emergency classification within one hour of the declaration.
- 03) Demonstrate the ability to notify PNPS ERO personnel.
D4) Ocmonstrate the ability to develop end send timely follow-up information messages for offsite duthorities. DS) L Demonstrate the communications capability between the CR (Simulator), TSC, OSC, CIC, Media Center, and EOF-
' D6) Demonstrate the communications capability between PNPS and local govemment/ Commonwealth. i D7) o Demonstrate the availability of back up means of communication.
' i D8) . Demonstrate the adequacy of communications capabilities between PNPS and the RMTs. 5 l l
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Radiological Consequence Assessment w E1) Demonstrate methods and techniques for determining the source term of releases. E2) Demonstrate the adequacy of methods and techniques for determining the magnitude of releases based on plant system pararneters and effluent monitors. E3) Demonstrate the ability to estimate integrated dose from projetted and actual dose rates and compare to Environmental Protection Agency Protective Action Guidelines. E4) Demonstrate the abikty to monitor and control emergency worker exposure and implement exposure guidehnes. E12) Demonstrate the capability for onsite and offsite radiological rnonitoring. E13) Demonstrcte the abikty to collect and analyze simulated elevated airborne or liquid samples. Protective Action F1) Demonstrate the ability to make Protectivo Action Recommendations to offsite authoritiea. Public Information G1) Demonstrate the operations of the Media Center and the availabihty of space for the media. G2) Demonstrate the ability to brief the media in a clear, accurate, and timely manner. G3) Demonstrate coordination of information prior to its release. G4) Demonstrate the abikty to establish and operate n'mor co1 trol in a coordinated fashion. e v eplexerr97 exer doc
NARRATIVE
SUMMARY
n Lnilial Conditions
!! is July 23.1997, the plani has been at 100% power for the previous 180 days. During the hight shift power was reduced to 90% for scram testing of control rods. All tests are completed and the reactor is being returned to 100% power. The reactor engineer directed that upon reaching 100% power a 3D ' l Monicore hourly report be obtained. Several plant components are tagged out of service for l maintenance including Control Rod Onve (CRD) Pump *A*. '
- The wind is from the ENE at 4 MPH. It is a clear summer moming. The temperature is 70 degrees.
Secuence of Events Major core damage has alretdy occurred by the opening event of this scenanoc- Incorrect information : was available to operators during the planned scram testing of control rods. As a result, flux peaking in > une 'itored sectors was sufficient to rupture the cladding in several areas of the core. This will be-cr led by a 3D Monicore hourly report printout, i The exercise is initiated when operators in the Control Room (Simulatar) receive and recognize a Hi-Hi radiation alarm on the air ejector radiation monitors. t A reactor scram will eventually occur as a result of AOG System timer activation unless operators - t manually scram the reactor prior to this action. Either action is acceptable. One MSIV inside l containment fails to fully seat when the MSIVs are closeo. Because of high coolant activity the RPV must remain isolated.
. The air ejector off gas radiation level quickly increases to greater than 20,000 mR/hr. The Watch
, , Engineer should then declare an ALERT based on Emergency Action Level (EAL) 1.2.1.2. When the Alert is declared, the emergency response organization (ERO) is notified by activation of the , Computerized Automated Notification System (CANS). When sufficient numbers of the ERO members arrive at the Technical Support Center (TSC), the Operations Support Center (OSC), the Emergency Operations Facility (EOF), Corporate Information Center (CIC), and the Media Center (MC), each facility l will be activated. - i Alsout an hour after the Alert is declared, indications are received that Stand by Gas Treatment (SBGT)
*A* fails due to broken fan belts. OSC Teams should be sent out to repair this equipment in accordance ,
, with appropriate priorities. i
- Normal plant cooldown will continue. Hth Pressure Coolant injection (HPCI) will be in
- full flow test
- for pressure control and the cooldo'wn rate will be limited to the Tech. Spec. value of <100 deg per hour.
Efforts should be made to close the MSIV on steam line *A*. (Player actions to close this valve will be permitted however, the closure will be too late to prevent the eventual radioactive release).
^
Torus Containment High Radiation Monitoring System (CHRMS) will increase but w31 remain below 200 R!Hr as fission product gases from HPCI steam exhaust to ll.e torus. High radiation levels will be observed in the HPCI areas in the Reactor Building. After about 21/2 hours of elapsed time, the torus radioactivity exceeds 200 R/hr. The Watch Engineer should declare a SITE AREA EMERGENCY based on EAL 1.4.1.3. p ~ After about 4 hours of elapsed time, a test connection on the steam line;with the partially open MSIV breaks in the steam tunnel This releases highly radioactive steam into the steam tunnel where it will be
- - directed to SBGT and is released from the main stack to the environs. The offsite release will be in 4 excess of 240,000 CPS on the Main Stack Radiation Monitors. A GENERAL EMERGENCY will be
! declared bawd on EAL 5.1.1.4 At the General Emergency, offsite (Commonwealth and local) emergency response facilities should be activated. The EOF should provide Protective Action . Recommendations (PARS) to the Commonwealth. eplexerI97 exer. doc - E.__.___.___...__- . -- . _ _ _ _- , - - -_. - - _. - .-.
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, At this time the reactor coie still has a considerable level of decay heat. Rapid depressurization and shutdown cooling is required. One shutdown cooling suction line valve inside the drywell does not open due to a failed breaker. Until this breaker is replaced, the offsite release continues as the safety relief valves cycle open and closed, holding the reactor pressure at 50 psig. The emergency response organization should demonstrate the replacement of the breaker, opening of the shutdown cooling system suction valve and cooling of the reactor to atmospheric pressure. When the pressure is reduced, the offsite release is terminated and downgrading of the emergency should be considered. The exercise will terminate when all objectives have been met. 4 h eplexer/97 exer doc
l l 1 TIMELINE V Elapsed Actual Event Details / Expected Actions Time Time 0030 Exercise Controllers in position.
-0020 Initial conditions Established. Simulator crew is briefed. Unknown to (Message SIM-01) the crew, major core damage has .
occurred during the night shift due to incorrect scram testing of control rods. Night shift reactor engineer has requested a 3D Monicore case printout. 0005 Announcement of the Exercise. Control rcom announcer (on-shift NWE (Mess ge CR 02) or NOS) makes initiating announcement over Gaitronics system. 0000 Exercise commences. Indications of high The crew in the Control Room (Simulator) AOG air ejector radiation. recognizes high AOG air ejector radiation. ; (Message SIM-03) The 13 minute timer is initiated. The following alarrns/ indications are received: Pre-treatment Rad Hi CP600R-B4 Pre-treatment Rad Hi-Hi CP600R A4 13 Min Timer initiated CP600R B3 Main Steam Line Rad Hi C904LC-B6 Main Steam Line Rad Hi-Hi C904LC-A6 Turbine Building Rad Hi C904LC D7 eO 0005 Operators reduce power. Operators snould reduce reactor power by reducing the recirculation pump speed. 0005 Core damage ascertained. (Message The NWE is presented with a 3D SIM-04) Monicore case printout showing core damage 0010 Reactor Scram. (Message SIM-05) Operators should scram the Reactor and close MSIVs. MSIV AC203-1 A does not fully close. Operators enter EOP-1, "RPV Control." The following alarms / indications are received by the CR: Manual Scram Chan. A C905R-81 Manual Scram Chan. B C905R B4 If low water level: Auto Scram Chan. A C905R-A1 Auto Scram Chan. B C905R-A4 Reactor Level Lo C905R-C2 N.) eplexer/97 exer doc
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p Elapsed Actual Event Details / Expected Actions Q Time Time 0015 The Nuclear Watch Engineer (NWE) The NWE recognizes an Alert, based on l should declare an Alert based on EAL EAL 1.2.1.2., Air Ejector Off gas l 1.2.1.2, Radiation Monitors > 20,000 mR/hr. l Notifications of emergency responders and offsite authorities are made. OSC, ; TSC. and EOF are activated. 0020 Alert announcement. CR announcer announces Alert over (Message CR 06) Gaitronics. 0025 Contingency Alert message. Controllers will issue this message only (Message SIM-07X) if the Alert has Mt been declared by this time. 0030 Coolant sample request. The NWE may request a Reactor Coolant sample be taken. 0040 ERO Mobilization. The ERO should be mobilizing and activating Emergency Facilities. 0100 Coolant Sample. (Message OSC-08) The Coolant Sample Team will be given high rad levels at the sample point. A sample cannot be obtained. g 0100 Contingency message, isolate RB This message will be provided to the ventilation. Initiate SBGT. (Message NWE only if the RB has not already SIM-0X) isolated (and SBGT has not initiated) on low reactor water level. 0100 Plant cooldown. Plant data shows that a normal cooldown, using HPCI, is in progress. Torus CHRMS will begin to increase due to HCPI steam exhaust to the Torus. + 0115 Facility Activation. TSC, OSC and EOF should be activated The ED should have taken over command and control of the emergency from the NWE/NOS. 0130 SBGT *A" System Failure. (Message Operators recognize the failure of SBGT SIM-10) *A* System. The following alarms / indications are received: Misc, C7L Panet Alarm - C2RA7 SBGTS Trouble C904L-E7 0145 OSC SBGT *A" Team dispatched. A team from the OSC should be sent out to trouble shoot the SBGT *A" System , f ailure. O 0145 Governor's declaration of emergency. The Governor of Massachusetts should have declared a State of Emergency, ep/ exer!97 exer doc
_=- .- _. . ._. -- p - Elapsed ActJal Event Details / Expected Actions Time Time 0150 Plant cooldown. Normal plant cooldown will continue.. HPCI will be in " full flow test
- for pressure control. ,
i 0150 MSIV 'A' closure attempt. Efforts should be made to close MSIV 1 A02031 A, but it will not be successful. 0155 OSC SBGT 'A' Team reports damage. The belts between the motor and the (Message OSC 11) SBGT 'A' discharge fan are broken, 0200 Parirs/ recreational areas closed. The towns should report that parks / recreational areas have been closed. 0230 Torus CHRMS increases to >200 R/hr. Control Room Operators recognize an (Message SIM-12) increase in Torus CHRMS radiation levels >200 R/hr. 0235 The Emergency Director (ED) should The ED recognizes the SAE based on declare a Site Area Emergency (SAE) EAL 1.4.1.3., CHRMS reading >200 based on EAL 1.4.1.3. R/hr. Offsite notifications are made. 0240 SAE Announcement. CR announcer announces SAE over (Message CR-13) Gaitronics. 0245 Contingency SAE message. Controllers willissue this message only (Message 2OF 14X) if a SAE has not been declared by this time. 0255 SBGT 'A' System repaired. (Message OSC Teams have completed the repair OSC 15) of the SBGT 'A' broken belts. OSC should report this to the CR/ Simulator. 0305 Accountability is achieved. 0315 Plant cooldown continues. Normal plant cooldown will continue at a rate < 100'/hr. RPV pressure remains at levels consistent with the cooldown rate-0320 Siren Activation, Offsite Precautionary The Commonwealth should have Actions. activated EPZ Sirens /EBS. Transfer of school children, transportation pre-staging, and precautionary ingestion pathway activities should have been started. eplexer/97 exer doc
Elapsed Actual Event Details / Expected Actions e Time Time 0405 Steam Line Break. (Message SIM 16) Operators recognize high steam tunnel temperature and radiation levels due to failure of a 2* test connection on main steam line "A" down stream of the failed MSIV. Radioactive steam leaks into the steam tunnel and a release path through SBGTS to the main stack occurs. The following alarms / indications are received: Main Steam Line Hi Temp C905L-A1 Main Steam Line Hi Temp C905L-A2 Steam Leakage Area Temp HI 903L-A6 Reactor Bldg. Rad Hi 903LC-A7 Panel C921 (Steam Leak Detection)
- Main Steam Tunnel Hi Temp Panel C911 (Area Rad Monitoring Panel) - Rx. Bldg. SE Access Area SBGT Discharge Rad Hi 904LC-F4 0410 RPV Blowdown. Operators blowdown the reactor vessel by SRVs in accordance with EOP-4. or EO P 5.
0410 Shutdown Cooling. (Message SIM-17) Operators should attempt shutdown
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cooling in accordance with EOP 1. However, it cannot be implemented because MOV 1001-50 will not open due to the failure of breaker 52-2046. I 0415 High Main Stack Radiation Levels. Operators recognize High Main Stack (Message SIM-18) Radiation. The fe?owing alarms / indications are received: Stack Gas Hi Hi Radiaten - CP600R-A8 Stack Gas Hi Radiation - CP600R 88 0420 The ED should declare a General The ED recognizes the GE based on Emergency (GE) based on EAL EAL 5.1.1.4, Valid Main Stack Process S.1.1.4. Radiation Monitor 1705-18A and B panel 910 reading > 2.4ESCPS. Offsite notifications are made and PARS should be provided to the Commonwedith within 15 minutes. 0425 CR GE announcement. CFs announcer announces General (Message CR 19) Emergency over Gaitronics. A U eplexer/97 exer doc l
Elapsed Actual Event Details / Expected Actions g) 1 Time Time N._) 0425 CR/TSC implement actions to terminate TSC/CR personnel should consider three the release methods of terminating the release from the steam tunnelleak.
- Repair breaker 52-2046 to initiatr shutdewn cooling.
Repair main steam line leak.
- Close MSIV AO-203-1 A.
0430 Contingency GE message. (Message Controllers issue this message if a GE EOF-20X). has not been declared by this time. 0430 OSC Teams dispatched. OSC Teams should be dispatched to one or more of the following: MCC B-20 to troubleshoot breaker 52-2046. Steam tunnel to repair main steam line leak.
- Drywell (after de-inerting) to mechanically close MSIV AO-203-1 A.
0445 OSC Breaker Team finds damage. OSC Team at MCC B-20 finds that (Message OSC-21) breaker 52-2046 is damaged beyond g iepair.11 must be replaced. t j V 0450 Steam Tunnel Repair Team reports OSC Team at steam tunnel reports conditions. (Message OSC-22) extremely high radiation levels. 0505 Siren activation, protective actions. The Commonwealth should have activated sirens /EBS and directed Protective Actions to the public. 0530 Brer.ker 52 2046 has been replaced. The OSC breaker team has replaced (Message OSC-23) breaker 52-2046. 0545 Release termination. The radiation release is terminated with the opening of the shutdown cooling suction valve and depressurization of the reactor coolant system. 0600 MSIV closed (Message OSC-24) OSC Teams close MSIV AO-203-1 A. 0605 .xer(se termination. Terminate the exercise when all (Message All-25) objectives have been demonstrated. (h
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( )' E$0STON N COMPANY 'L ' is~~j FtLGRiM NUCL POWER STATN 1997 EVALUATED DERCISE #97-06A PLANT MESSAGES SUMVAR( ELAPSED MESSAGE MESSAGE TIME fJO 0020 Alt-01 MESSAGE FOR Watch Engineer arw1 Lead Facety Players INFORMATiON INITIAL CONDITlONS
!! rs July 23 1997 The plant has been at 100% power for the prenous 180 days Dumg the rugM sh.ft ponw was reduced to 90% for scram testng of cont os rods At tests are completed and the reactor is being returned to 100% power The reactor enyiees deettes that upon reactwng 100% power a 3D Momcore case pmtout be ottaned Several pbnt u =vy.-ees are tagged out of serece for mantenance, includeg CRD pump A" INITIAL METEROLOGICAL CONDITK)NS The wind es from the Ef4E at 4 MPH ft es a ciear summer rnornmg The tempera *ure es 70 degrees 0020 A!!.01 ADDITIONAL CONTROLLER INFORMATION Ttws message es to be preser'ted when the control room (simulator) sta# is in piace and when the lead player a' each faalty arr ves ANTICIPATED PLAYER RESPOfJSE Players shou'd becorne famaar eth the format and content of the inessage. plant part. meter data and radWort data sheets The NWE and lead players at each facility should brief all of their staM wth this enformahon 4
7035 CR42 MESSAGE FOR On she tJWE/fJ0S INF ORMA TION e Have the control room make the followtng announcernent over tite page system
-Artention' At*enton' Trws es the Control Room Pdgrim fluckar Power Staten es cummencs , the 1997 EXERCISE All announcements preceded by -THis !S A DRILL' are for designated exercise participants All personnel a e to hmst use of Gait" s untit the exerc!se has been terminated " ~
-0005 CR42 ADDITIOtJAL COf4 TROLLER INFORMATIOf4 Provide this message to the On Shift fJWE/NOS to indiate the ? 997 EXERCISE ANTICIPATED PLAYER RESPONSE The tJWE,NOS witi make the sanouncement on the Gaironsts system orisste emer/9746 msg doc ~1-
t' % ' 4 ' BOSTOi; DN COMPANY [^ FILGRttJ kUCcdPOWER STATION ( 1997 EVALUATED EXERCtSE e37EA PLANT MESSAGES
SUMMARY
I ELAPSED MESSAGE MESSAG-TIME 'NO ' 0000 SIM 43 MESSAGE FOR' Wath ErgneerWOS tNFORMATION The fonowng alarms /indeates are recerved Pre-treatrr.ent Rad Hi CP600R-B4 ;
. P e-treatment Rad HbHi CP600R-A4 13 Me Tener trea'ed CP600R-B3 Man Steam Line Rad Hs C904LC-B6 Man Steam Line Rad HFHa C904LC-A6 Turbee Bwksng Rad Hs C904LC-D7 0000 SIM-03 ADDITIONAL CONTROLLER INFORMATION-intbate the ewercrse by providing this message to the control room sta*f. Ttus is the htiat message for the 1997 EXERCISE The wrong rod poseons we programmed into the RWM and pus shee*s dureg scram tune testeg Thrs resulted m exceedmg the ma s hmds and Wcant fuel damage if operatorf, ask, they should be told that the 13 minute tener began wtwa *.nas message was presented to them !f operatars ask what effect the reducton (( recrculation pump speed ts havmg, they should be told that the of* gas recordef shows sorne effect but that the recorder sts shows a rapid increase ANTICIPATED PLAYER RESPONSE:
Operators A recognize twgh off-gas radaten Operators wis reduce rewtor power by reducog the reewc pump speed When tohs tv some effed vs wo . but that the recorder travg ts stat showmg a rapid merease, the operators wdl probably scram the reactor poor to the 13 mmute timer esolatmg the AOG The MSIVs should be attempt 3ci to be closed followng the scram COMMENTS 0005 SIM 44 MESSAGE FOR Watch Engrneer'NOS - INFORMATION The attached 3D Monacore cate prantos d was just obtained onsste enerS746 msg doc -2
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v-i DOSTOte EDtSON COMPArdt ' PILGRtM f40 CLEAR POWER *,TATiON 3 1997 EVALUATED EXERCISE #97-06A PLANT MESSAGES
SUMMARY
ELAPSED MESSAGE - MESSAGE TWE NO. _ , 0005 S: Mot ADDITIONAL CONTROLLER ttJFORMATIOrd Present the 3D Moracone case prw to the NWE t The 30 Morucare case pnntout shows many fuel bund:es wtuch haw encec ed thermal >nds Ttus data confams the perforatum of eq n3 m a y , fissen product eventory can be espected at N reactor coolant system ANTICIPATED PLAYER RESPONSE: EOPs and procedures should be followed Cooldown M be andra edr by use of HPCI in ' full flow test" COMMENTS MESSAGEFOR Watch Engmeer 0010 SIME INFORMATiOtt Wa fonowng annunc.nators are recevved n the control room. Auto Scram Chan A C905R-At Auto Scram Chan B C905R-A4 ManualScram Chan A C905R B1
- Manual Scram Chan B C905R-B4 Reactor Levet to C905R-C2 A3 rods are fut n Al ekoncalloads have property transferred. ; raws of a group 2 and grap 6 asotaten are received (Iow teactor water leveQ Secondary contawwneed has esoiated and 58GT ntiated
BOSTOs Df4 CO8.1PANY PtLGREA NUCLmt POWER STATK)N 1997 EVALUATED EXERCISE *97-06A . 6 PLANT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE T!VE NO 001p SIM45 ' ADDITIONAL CONTROLLER INFORMATIOf 4 i ' Present thrs enessage a*!er the operator sc*nms the reactor. ANTICIPATFD PLAYER RESPONSE. I The eactor pressure and water ievet should be maentaned n accordance we *.OP-1. Reactor Pressure Vessef Contror. Normai reactor etx4 dove should begin. A5 plant systems are normal 4Goweg the scram and the closure e.' JSIVs wet the tonowng exception. One MStV AO 203-1 A, the mboard MSIV on steam bne A shows ar. *rderm date" postson (i e . rxA fully closed). HPCI should be operated n "fus fkm tesr, An ALERT should be declared on EAL 1212 m accordance with EP-IP-100 due to off-gas ra$ation mcators reading $20.000 mRtw A Gastrorncs announcement should be made, CANS shou!d be activated, the emergency facdces shouk' be actrvated and at offste nobficaborts should be 'nade 0020 CR46 MESSAGE FOR- CWShift NWEiNOS
-i ?
tNFORMATION Please make the fonowng Garrones annoincemet 4
- Attention an personnel, attentson ad personnel r Thrs 's a dnRt An Alert has been declared due to air ejector off-gas rad mondors greater than 20.000 mR hr An on.cas members of the Ernergency Response Organeateon report to your designated emergency response facdty If this were an actual event, s8 BEco personnel would assemble an thest riormal offce or shop area, report to ther supervisor, arm
- awa:t anstructaons A4 visdors, ar nonessentW contractor personne4.'
ai declared pregnart females and at handicapped persW e kaw the see at thrs tune For the purposes cf tfus dna, au repartcoants are to cantn;e .[ mnth your normat dutes Ttws rs a d!F ' REPEAT MESSAGE ADDITICNiL CONTROLLER INFORMATION.
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0020 CR46 Provide this rrhssage to the On-shift NWE/NOS to announce the Alert ~ ANTICIPATED F AYER RESPOfGE: Sound station alarm and make announcement over Gaarorucs 'i n 002S SiM 47X MESSAGE FOR- Wach Engineer.NOS 9 ! CONTINGENCY ACTION IWESSAGE. Declare an Alert based on EAL 1.212 ,
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. N f ,0NCOMPANY i/\ '/~ . BOSTO( i .( PtLGRrM NUCLA POWER STATIOtd 1997 EVALUATED EXERCISE #97 06A .
PLANT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE TIME NO 0025 SM)7x ADD 1TIOtJAL COtJ TROLLER INFORMATIC*4 Provde inns message to the ED (NWE) crey cf an Ateet has not been declared by ttws time ANTICIPATED PLAYER RESPONSE-implement EP-IP-100, Attactwnent 2. Alert " Actnrate CANS Make Offste noticatons. 0100 OSC-08 MESSAGE FOR. Reactor Coolant Sample Team Leader INFORMAT10N Dose rates at the samp bne are > 12R/Hf 0100 OSC-08 ADDITIOf4AL CONTROLLER INFORMAT80N - Present thrs rnessage to the Coolant Sample Team when they reach the sample poant and monstor the sample hne
- The samphng team may request that the isolation vatwes (44 & 45) be opened This will be permited and then the attached mesuge wdt be grven to the samphng team when the team sanulates taking a radiation readeng ANTICIPATED PLAYER RESPONSE:
The core cootant sample kne should be morutored before tatung a sample Upon teameng of the hegh eattation level, the 'eam should NOT take a sample 0100 SIM49X MESSAGE FOR. Watch Engsneer INFORMAT!ON k Isolate tre reactor building ventdaten system and andate start:Iby gas treatment 0100 SIM 49X ADDITIOf 4AL COf4 TROLLER 1NFORMATION Tps message wiB be provided to the NWE ef R B ventdation has not already esolated (and SBGT wuttated) on low reactor water levet scram iW tt s necessary for the offsde objectnres of itps exercase that an elevated, filtered release occur. ANTIC! PATED PLAYER RESPONSE. NWE will dwect the isolatxm of RBV and ruhaton of SBGT. onsste ener/97 06 msg doc I
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PtLGRM,1 NUCLM POWER STATIOf4
.D 1997 EVALUATED EXERCISE ar97-06A
, PLANT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE TIME . NO.
.0130 SIM-10 MESSAGE FOR Watch Engmeer INFORMATiOf4 The fonoweg annurcators are recerved rt the control room.
Mrsc C7L Panet Alarm C2RA7 l SBGTS trouth C904L-E7 0130 SIM-10 ADDIIlONAL CONTROLLER INFORMATION-Presert thrs rnessage to the *.Vatch Engreer The dnve belts for SBGT *A* fan are troken Replacemert bets should be loca'ed, estalled and SBGT *A* tested and returned to service ANTICIPATED PLAYER RESPONSE: The operators should recogr *e fadure of SBGT *A*. Operstors should fonow Procedure 2 2 50. " Standby Gas Treatment" to place SBGT *B n service The TSC should be enformed of fadure of SBGT *A*. A repar team should be dispatched from the OSC. Upon arnval at the equipment, and d the proper tests are made, they wdl discover that the fan bets are troken The repaa team should notify the CTtrol roorn and she OSC. Replacemert betts WM be obtained and ostatied (semulated) Upon replacement the SBGT *A* can be tested and become operable 0655 OSC-11 MESSAGE FOR Repar Teart Leader at the SBGT *A* Fan INFORM %TtOf3 The belts between the motor and the SBGT *A* discharge fen are troken 0135 OSC.11 ADDITIONAL CONTROLLER INFORMATiON Ttus message should be provided to the OSC tmam @ when tnew mvestigation would show that the bets are broken ANTICIPATED PLAYER RESPONSE Report fodmgt to the OSC i 1 i l onsdeiewer!974Mmsg doc '
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(N/ ) PILGR'!A NUCLv..t POWER STATIO*4 1997 EVALUATED EXERCISE 897-06A PLANT VESSAGES
SUMMARY
ELA PSED MESSAGE MESSAGE TIME NO 0230 S:M-12 MESSAGE FOR Watch Eng neer INFORMAT:Cr4 Torus CHRMS rad +atm levels have increased to levels > 200 Rur 0230 SIM-12 ADDITIOf1AL CONTROLLER INFORMATION Prov*de this message to the fME TORUS CHRMS has been increasing due to fisseon prodtds m the HPCI steam eftfuent gomg into tcras uter. The levet is rh.w above the E Al for a SITE AREA EMERGENCY While proarf contaenment rad:ation levels are high the third and final barre has not been breached AtJTICIPATED PLAYER RESPOt4*E When the TSC & EOF become aware of the torus CHRMS radiaton levets, the Emergency Dwector .hould declare a SITE ARE A EMERGEf4CY m accordance wnh EP-IP.100 based on
- Containment High Range Radiaton Monstor readogs > 200 RiHr ~ (EAL 1413) EP-IP-10Q Attachment 3. S4e Area Emergency should be implemented A Ga: tron cs announcement should be made The Emergency Plant Manager should be w#ed OffsMe agances should be notified by the EOF 0240 CR-13 MESSAGE FOR Oortrol Room Nuciear Operations Superwsor N
INFORMATION Hase the Control Room sound the stateon alarm and make the following announcement over Gadronecs THIS IS A DRILL THIS IS A DRfLL Attenten att personnet' Attenteon all personnel" A StiE ARE A EMFRGEP' 7Y has been declared due to fugh contamment radiation Had thts been an actual emergency, all personnel who are NOT part of the Emergency Response i pruzation y ould be directed to esacuate to the design #ed assemtdy area and would receive furthe< snstructons at your est gate for the purpose of the cuercrse, non-exercise partictpants are to contmue mth pt normal dutes THIS IS A DRILL THIS IS A DRtLL tREPEAT MESSAGE) onsite caerG7-06tnsg doc
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- (,/ .'d 1997 EVALUATED EXERCtSE 83M)SA PLANT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE TIME NO C240 CR-13 ADDITIONAL CONTROLLER INFORMATIOfd
- Provo trws rnessage to the On Watch NOS.
ANTICIPATED PLAYER RESPONSE Antonce the SAE cuer Gatrones Ernergencv Deector 0245 EOF-14X MESSAGE FOR ~ INFORMATIO*d Declare a StTE AREA EMERGENCY due to *Contarwnent High Range Area Rad #en Mondorng readog > 20n RMr * (EAL 1413) 0320 EOF-14% ADDITIONAL CONTROLLER INFORMATION Deiner this enessage ordy if a SITE AREA EMERGENCY has wA been hed ANTICIPATED PLAYER RESPONSE A StTE AREA EMERGENCY should be declared The control room should be prompted la rnake Nt announcement et the SITE AREA EMERGENOY The EOF should implement EP-1P-100. Attachment 3, and make offsde richfcatons 0255 OSC-15 MESSAGE FOR OSC Tea's at SBGTS A" INFORMATION The SBGTS *A fan betts have been repaneo 0255 OSC-15 ADD'TIONAL CONTROLLER INFC9MATION-Present this message to OSC SBGTS -A* repair teams ANTICIPATED PLAYER RESPONSE Report completed repairs to OSC onsee/exen97-06 msg doc -3
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1 (7 BOSTOi Dt4 CouPANY P!LGRFM f4UCL-1 POWER S"ATION a 1997 EVALUATED EXERCISE #97-06A PLANT MESSAGES SttMMAR Y ELAPSED McSSAGE L'ESSAGE TIME NO 04:6 SE16 MESSAGE FOR Watch Engmeer INFORMATION ' The fo8oweg annunc:ators are rece?ved ri the Control Room-Man Steam Lme He Temp C905L-A16 ^2 Steam Leakage Area Temp Hi 903L-A6 Reactor Bidg Rad H-903tC-A7 Panel C921 (Steam Leak Detecten)
- Main Steam Tunnel H Temp Panet C911 (Area Rad Mondonng Panet) fh Bldg SE Access Area SBGT Desch Rad M 904LC-F4 i
0405 StM-16 ADDITIONAL CONTROLLER INFORMATION: Present thes message to the NWE. A two och test connecton on steam kne "A" has troken off Hgh pressure steam vnth very high radmactrvdy es spray.ng mto the steam tunnel The flow path t for offsde seicase rs through the SBGTS to the main stack l i ANTICIPATED PLAYER RESPONSE. The control room should recognee and notrfy the TSC of the hgh tempef atures and the high actrvdy level m the steam iM Operators should blow down the reactor pressure vesseli A W. EOP 4 and arubate shutdown coohng i A W EOP-1 ' Staddown coohng cannot be accomphshed because the shtt,down coohng sucten vabe MOV 1001-50 win not open (See the newt rnessage ) MESSAGE FOR Watch Ei9is 0410 SIM-17 INFORMATlON MOV 1001-50 win cd open onsae/ener!97-OGmsg doc . YT w e
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BOSTOf- f DM COMPANY PALGRIM NUCLuA POWER STAT!ON - 1997 EVALUATED EXERCISE 897-06A Pl ANT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE TIME NO.
.i 0410 SIM-17 ADDITIONAL CONTROLLER IfJORMATION Thrs message we De provused to the Watch Engc.er when actms are taken to irwtete shutdown coohng Ttus waive cannot be opened untA 0530 Breater 52-2046 for MOV 1001-50 mattunctmed and ne+1s to be reptaced Replacement we be permeted Vane MOV 100150 can te opened at 0530 NOTE A dects:en to blowdowm and rutete shutde*n coohng snay be made much earlier Ttws we be permeed tM the shutdown coohng system cannot be ;
put n service before 0530 ANTICIPATED PLAYER RESPONSE: TSC w4 be notafed by the Control Rcom A repae team should be assgned to get t!,e vane opened 0415 7tM-18 MESSAGE FCR Watch Engmeer . t JNFORMATlON , The following annuncetors are recerved m the Control Room Stack Gas H: He Radetm CP600R-A8 , Stack Gas He Radsation CP600R-B8 , i 0415 S!M-18 AGD4TIONAL CONTROLLER INFORMATtON. With .ne mttsal pipe break the reactor prassure is sie tagh When the operators use SRVs to reduce the pressure the offste resease rare we decreass MOV i 100150 we not open and the reactor pressure carn.e be reduced below 50 pssg (the rescat pressure of the SRVs) Sufficent decay heat sta entsts to ; mamtan the reactor pressure greater than 50 pssg dunng the terriender of trus Eseretse. SRVs we cycle to reduce and maintain the pressure at 50 psig i ANTICIPATED PLAYER RESPONSE: i Recognize Hgh Main Stack raoiatm levets Study EOPs, P&lDs and procedures to achseve shutdown coohng Ceclare General Emeegency based on EAL 51.14. Vahd Man Stack process iadiation rnondor readeng > 24 E5 CPS Contnue attempts to depressunte the reactor Make Gadforucs announcement. Make offsite notifications Maka Protect:ve Actm R- ..erdatms to the Commonwealth. b i onsrfe>emerG7-06 msg A .
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\ > /'] . BOSTOL(m AN COMPANY (/ .i PtLGRM NtJCL_,J POWER STATION \ . 1997 EVALUATED EXERCISE #97GA PLANT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE-TWE NO. 0425- CR-19 MESSAGE FOR Control Room Nuclear Opei. -i. Supe. visor ifGCRMATtON s Have the Contret Room sound the staten abrm and r".ak.e the folkunng announcemerd ove the page system THIS IS A DRtLL THISIS A DRILL "Attenton a# personnes' At'etton all personnet' A GENE AAL EMERGENCY has beert declared % to an eleva*ed mam stack release For **w purpose of the evererse, as non-exercrse partcpants are to contoue v## your normal dutes. THIS IS A DRtLL THIS IS A DRtLL ,
. (REPEAT GESSAGE) 0425 CR-19 ADDITIONAL CONTROLLER INFORMATION Present thts rnessage to the On Watch NOS ANTICIPATED PLAYER RESPONSE.
Make the Gadronics announcement 0430 EOF-20X MESSAGE FOR: Emergency Dwector INFORMATION Declare a GENERAL EMERGENCY based on EAL 51.1.4,
- Man stack process radiaton monstor readog > 2 4 E5 cps
- onsne ener1974M5 msg doc 11
N-p\ - BOSTOR hN COMPANY _/ . { PILGRtM NUC'LulPOWER STATION 1997 EVALUATED EXERCISE #97-06A PLANT MESSAGES
SUMMARY
i- ELAPSE.D MESSAGE MESSAGE TIME NO M3G ECF-20X ADDITIONAL CONTROLLER ?NFORMATION a De4rver tru message orey if a GENERAL EMERGEf>CY has not teen declared ANTICIPATED PLAYER RESPONSE-The Emergency Duector should dectare a GENERAL EMERGENCY m accordance with EAL 51.14 W Stack Process Ramation Mondor readng > 2 4 E S cps EP-IP-100, Attachment 4, " General Emergency" should be emplemented An memert should be made on Gadronses Offste not6catens shoukt be made from the ECF PARS should be provided to the Comtronwealth by the Errergency Drector. 0445 OSC-21 MESSAGE FOR Repar Team Leader at MCC B-20 INFORMATiON Breaker 52 2046 rs faufted beyond repair. The breaker must be replaced 0445 OSC-21 ADDITIONAL CONTROLLER INFORMATION. Thrs message wdl be presented to the repar team leader when testng of the breaker rs sanutated Breaker 52-2046 en MCC B-20 as the normal power source for MOV 1001-50
- This breaker es defectnte and must be replaced Attsmpts to transfer MOV power to B-17 was f ad due to faults on the output side of 52-2046. The new breaker should be placed in service at 0530 ANTICIPATED PLAYER RESPONSE
The repar team should perform routne checks of the breaker n MCC B-20 A replacement breaker must be dehe*ed to MCC B-20 The correct tools should be at the repar station The repar team should demonstrate the physacal and admmistratrve actions necessary to replace the t:7eaker (simulated) 0450 OSC-22 MESSAGE FOR Repar Team at the steam tunnet INFORMATiON. Tbe radiation levet ts 50 R.tir i onsdeteverr974Mmsg doc j
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f^\ ' BOSTO;L DN COMPAffY ( ,/ PILGRIM NUCi ! POWER STATsON ('f 1997 EVALUATED EXERCfSE #97-06A PLANT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE, TIME NO G450 OSC-22 ADD!TIOf4AL CONTROLLER INFORMATiON Player s may cceisoder antermg tne steam tunnel to iocate the lean and effect a repar if consxiered, and if a radia*m measurement es rest this tressage should be given to the radiate protectaan team when they measure the radiate level A# pretmnary consideratons must be addressed - ALARA, physical protection from het steam, and admsnestra%e approvals Proper riot *eg and equepmers must be avadable and demonstrated ANTICIPATED PLAYER RESPONSE. The repaw team should demonstrate their abihty to plug the s*eam leak. They must desplay or corsfrm that as admmestrative regsrements have been met The repas team should descrtbe the actons 'ney wouk3 take to locate ths leak on an enittai entry (simulated) A pbg then must be fou 14 (or made) and a vather entry would be permttted (simulated) The repaw team must descree the actms they win take, display the tools and how they would be used and estmate the time requ: red 0530 OSC-23 MESSAGE FOR- OSC Team at Breaker S2-2046 INFORMATiOf4 Breaker S2 2046 has teen replaced 0530 OSC 23 ADDITION AL CONTROLLER I?JFORMATION Present thrs message to the Repair Teams comp:eting the replacement of the breaker :or opening MOV 100150 Do not present before 0530 ANTICIPAT ED PLAYER RESPONSE
. Report breaker replacement to OSC 0600 OSC-24 MESSAGE FCR. OSC Repaw Team Leader enterrig Die drywell to close MSiv (or when appr opriate)
INFORMATION
- 1. There is a piece of metal debrrs Jammed L+tweefi the stem and vafve operator of MS!V AO-203-1 A preventing fun closure 2 MSIV AO-203-1 A ts closed onstte,emer.97-06 msg doc .-. . - . _ _ _ _ _ _ _ _ _ _ _ - _ _ _ - . _ _ _ - - _ _ _ _ _ - _ - - - - - _ . - _
g 80STOf [ s jDN COMPANY - I PILGRIM HUCbt POWER STATION 1997 EVAL' UA TED EXERCISE #97-06A PLAteT MESSAGES
SUMMARY
ELAPSED MESSAGE MESSAGE TIME NO 0600 CSC ADDIflOff AL COrdTROLLER INFORMATION Present pad 1 of the message when the team rs ready to erger the crywen. Present part 2 at 0600 ftwhen tne DW rs ver: fed cemerted (simuta'ed). DW ertry wt!I be permitted by the team (senulated) t,a prehms .ry consaseratens must be addresst.d -- ALARA, personnel safety extended exposure authorrzed, and a plan of acten Proper cictheg and equgwnent rnust be demonstrated When the repar team demonstrates the proper actons, they can report the ~MSIV AO-203-1 A is close( at 0600 Do not aflow closure poor to 0600 ANTICIPATED PLAYER RESPONSE: The repaa team should demonstrate thew abdity to effect valve closang by confarrrung that at adtrunestrative requremerts have been met for DW entry, describing the actons they mil take, obtairung the necessary tools and equepment, dernonstratog the use of tools, and estunatrng the trne requwed for edCh action: Report closure of MStV AO-203-t A to OSC. 0605 A18-25 MESSAGE FOR. Watch Engineer Ernergency Drector Ernergency Plant Manager Company spokesperson m the Meda Center > INFORMATION The 1997 EXERCISE rs termnated Have the Control Room make fotbwing Gastronics announcement Attenbon' Attention' This is the Control Room. The Pdgnm Nuclear Power Station 1997 EXERCISE has been completed No fu ther exercase announcements m8 te made t 0605 All-25 ADDITIONAL CONTROLLER INFORMATION
. Provide thes message to the person m enarge of each facshty only when the lead Emercise Controner has determined tnat as oblestrwes have been tested.
ANTICIPATED PLAYER RESPONSE: - AN players should assemble an of the wrtten rnatenal that was generated durmg the exercise for assembly by the Lead Facd.ty Controfer. As logtooks, procedure manuas, and engeneenng matenals should be returned to the proper fdes onsite/ exer /97-06 msg doc .
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE
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i V MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. All-01 ELAPSED T!ME -0020 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS _AFFECTING NORMAL PLANT OPERATlONS MESSAGE FOR: Watch Engineer and Lead Facility Players INFORMATION: INITIAL CONDITIONS lt is July 23,1997. The plant has been at 100% power for the previous 180 days. During the night shift power was reduced to 90% for scram testing of control rods. All tests are completed and the raector is being returned to 100% power. The reactor engineer directed that upon reaching 100% power a 3D Monicore case printout be obtained. Several plant components are tagged out of service for maintenance, including CRD pump *A".
\~ INITIAL METEROLOGICAL CONDITIONS The wind is from the ENE at 4 MPH. It is a clear summer morning. The temperature is 70 degrees.
i 4 l- ~ 'wJ THIS IS A DRILL DO NO INITIATE ACTIONS AFFECT!NG NORMAL PLANT OPERATIONS onste exer $7 06frmS7-06 msg doc
PNPS EMERGENCY PREPAREDNESS DRlLUEXERCibii MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. All-01 ELAPSED T:ME -0020 TIME THIS IS A DRlLL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: This message is to be presented when the control room (simulator) staff is in place and when ' the lead player at each facility arrives. ANTICIPATED PLAYER RESPONSE: Players should become familiar with the format and content of the message, plant parameter data and radiation data sheets. The N'4E and lead players at each facility should brief all of their staff with this information. b v m ( I THIS IS A DRILL
' DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS mwenerf97arrrrvs7amsg.soe
3 PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE 7S
- MESSAGE FORM SCENArilONO 97 06 MESSAGE NO CR-02 ELAPSED TIME -0005 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: On Shift NWE/NOS INFORMATION:
Have the control room make the following announcement over the page system:
" Attention! Attention 1.s is the Control Room Pilgr n Nuclear Power Station is commencing the 1997 EXERCISS. All a:'nouncements preceded by *THIS IS A DRILL' are for designated exercise participants. All personnel are to limit use of Gaitronics until the exercise has been term;nated."
O O s THIS IS A DRtt t DO NO INITIATE ACTIONS AFFECTING '_3 JNT OPERATIONS onsite eier97 00trrn97 06 msg doc
m i PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. CR-02 ELAPSEL TIME 0005 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFOPMATION: Provide this message to the On Shift NWE/NOS to initiate the 1997 EXERCISE. ANTICIPATED PLAYER RESPONSE: The NWE/NOS will make the announcement on the Gaitronics system. O e THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS one. ...c97-omma7amig ooc
PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. SIM-03 ELAPSED TIME 0000 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer /NOS INFORMATION: The following alarms / indications are received: Pre treatment Rad Hi CP600R 84 Pre-treatment Rad Hi Hi CP600R A4 13 Min Timer Initiated CP600R 83 Main Steam Line Rad Hi C904LC 86 Main Steam Line Rad Hi Hi C904LC A6 Turbine Building Rad Hi C904LC D7 i
/'N U . THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS on.neemS7atrmwamsg ooc l _ -
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE ' (_ MESSAGE FORM ! 1 SCENARIO NO 97-06 MESSAGE NO. SIM-03 ELAPSED TIME 0000 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECT'S}G NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Initiate the exercise by providing this message to the control room staff. This is the initial message for the 1997 EXERCISE. The wrong rod positions were programmed into the RWM and pull sheets during scram time testing. This resulted in exceeding thermallimitt 6,'d significant fuel damage. If operators ask, they should be told that the 13 minute timer began when this message was presented to them. If operators ask what effect the reduction of recirculation pump speed is having, they should O be told that the offgas recorder shows some effect but that the recorder still shows a rapid O increase. ANTICIPATED PLAYER RESPONSE: Operators will recognize high off gas radiation. Operators will reduce reactor power by reducing the recirc pump speed, When teld that some effect is noted but that the recorder tracing is still showing a rapid increase, the coerators will probably scram the reactor prior to the 13 ndnute timer isolating the AOG. The MSIVs should be attempted to be closed following the scram, COMMENTS: 1 k THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsde:ever!974frm97-06 msg doc
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PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. SIM 04 ELAPSED TIME 0005 TIME , THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer /NOS INFORMATION: The attached 3D Monicore case printout was just obtained. P O t-O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLAIJT OPERATIONS onste net 97 06frmS746 msg doc
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- A 3D Monicore Periodic Log Report will be inserted at the time of l the exercise to reflect the current rod pattern. l 1
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i PNPS EMEROENCY PREPAREDNESS DRILL / EXERCISE O MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. SIM 04 ELAPSED TIME 0005 TIME - i THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: ! Present the 3D Monicore case printout to the NWE. The 3D Monicore case printout shows many fue' bundles which have exceeded thermallimits. This data confirms the perforation of cladding and that a high fission product inventory can be , expected in the reactor coolant system. ANTICIPATED PLAYER RESPONSE: EOPs and procedures should be followed. I Cooldown should be initiated by use of HPCI in
- full flow test".
COMMENTS: Q
,G THIS IS A DRILL 00 NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsneceser.97 06frm97@ msg doc
PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE . l O' MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. SIM-05 i ELAPSED TIME 0010 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer INFORMATION: The following annunciators are received in the control room. Auto Scram Chan. A C905R A1 Auto Scram Chan. B C905R A4 Manual Scram Chan. A C905R B1 Manual Scram Chan, B C905R 84 . Reactor Level Lo C905R-C2 O All rods are fullin. All electricalloads have property transferred. Indications of a group 2 and group 6 isolation are received (Iow reactor water level). Secondary containment has isolated ; and SBGT initiated. . 4 l O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS
._ onsite/enetS7&aftrn97 06 msg doc
p PNPS EMERGENCY PREPAREDNESS DRlLL/ EXERCISE b MESSAGE FORM SCENARIO NO. 97 00 MESSAGE NO. SIM-05 ELAPSED TIME 0010 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Present this message after the operator scrams the reactor. ANTICIPATED PLAYER RESPONSE: The reactor pressure and water level should be maintained in accordance with EOP 1,
- Reactor Pressure Vessel Control". Normal reactor cooldown should begin. All plant systems are normal following the scram and the closure of MSIVs with the following exception. One MSIV AO 2031 A, the inboard MSIV on steam line A shows an " intermediate" position (i.e., not fully closed). HPCI should be op9 rated in
- full flow test".
An ALERT should be declared on EAL 1.2.1.2 in accordance with EP lP 100 due to off-gas radiation monitors reading >20,000 mR/hr. A Gaitronics announcement should be made, CANS should be activated, the emergency facilities should be activated and all offsite notifications should be made. O THIS IS A DRILL l DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsnesenerf97 06frm97Emsg doc i , ._ . . .-_ .- _ ., , --... ._
i i PNPS EMERGENCY PREPAREDNESS DRlLUEXERCISE , MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. CR 06 ELAPSED TIME 0020 TIME THISIS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: On Shift NWE/NOS INFORMATION: Please make the following Gaitronics announcement:
" Attention all personnel; attention all personnel: This is a dnll! An Alert has been declared due to air ejector off gas rad monitors greater than 20,000 mR/hr. All on call members of the Emergency Response Organization report to your designated emergency response facility. If this were an actual event, all BECo personnel would assemble in their normal office or shop area, report to their supervisor, and await instructions. All visitors, all nonessential contractor O personnel, all declared pregnant females and all handicapped personnel would leave the site at this time. For the purposes of this dnll, all non participants are to continue with your normal duties. This is a drill!"
REPEAT MESSAGE i O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS I onsaecenet-974ffm17 oGmsg doc l-
I i i PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE MESSAGE FORM SCENARIO NO 97 06 MESSAGE NO. CR-06 ELAPSED TIME 0020 TIME THIS iS A DRlLL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Provide this message to the On-shift NWE/NOS to announce the Alert, ANTICIPATED PLAYER RESPONSE: SounJ station alarm and make announcement over Gaitronics. O i O THIS IS A DRILL 00 NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS l onsite enerS746frmST-06 msg doc
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE . MESSAGE FORM l SCENARIO NO. 97 06 MESSAGE NO. SIM-07X l l' ELAPSED TIME 0025 TIME
'l THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer /NOS .
CONTINGENCY ACTION MESSAGE: Declare an Alert basect on EAL 1.2.1.2. 1 O THIS IS A DRILL l DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onste'eser97&frmS7 06 msg doc
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l PNPS EMERGENCY PREPAREDNESS ChtLl/ EXERCISE d(* MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. SIM-07X - ELAPSED TIME 0025 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Provide this message to the ED (NWE) only if an Alert has not been declared by this time. ANTICIPATED PLAYER RESPONSE: Implement EP IP 100, Attachment 2, *Alect" Activate CANS. Make Offsite notifications. O l i O THIS IS A DRILL DO NO INITIATE ACTICNS AFFECTING NORMAL PLANT OPERATIONS
~ - onste/enef 97&>frm97-00mg doc
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PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE MESSAGE FORM SCENARIO NO. 97 00 MESSAGE NO. OSC 08 ELAPSED TIME 0100 TIME
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THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Reactor Coolant Sample Team Leader. i 1 INFORMATION: Dose rates at the sample line are > 12R/Hr. O ' i I O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLS.NT OPERAT'lONS onue/vner$7 00frmS7&amsg doc
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PNPS EMERGENCY PREPAREDNESS EP.lLUEXERCISE MESSAGE FORM SCENARIO NO. 97 06
- MESSAGE NO. OSC 08 ELAPSED TIME 0100 TIME J
THIS IS A DRILL 00 NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Present this message to the Coolant Sample Team when they reach the sample point and monitor the sample line. The sampling team may request that the isolation valves (44 & 45) be opened. This will be permitted and then the attached message will be given to the sampling team when the team simulates ' '*g a radiation reading. ANTICIPATED PLAYER RESPONSE: The core coolant sample line should be monitored before taking a sample. Upon leaming of O the high radiation level, the team should NOT take a sample. V - u 1
- . .en THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS
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PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE MESSAGE FORM i SCENARIO NO 97 00 MESSAGE NO. SIM 09X l ELAPSED TIME 0100 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer i INFORMATION: Isolate the reactor building ventilation system and initiate standby gas treatment. O O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ofwte> exec.97-06frrn97-OGmsg doc
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. . . - -- . . ~ . - -- .. - , .- - _- PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE MESSAGE FORM - SCENARIO NO. 97 06 MESSAGE NO. SIM 09X l ELAPSED TIME 0%0 TIME THIS IS A ORILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ; ADDITIONAL CONTROLLER INFORMATION. This message will be provided tc the NWE if RB ventilation has not already isolated (and SBGT initiated) on low reactor water level scram signal. It is necessary for the offsite objectives of this exercise that an elevated, filtered releare occur. ANTICIPATED PLAYER RESPONSE-NWE will direct the isolation of RBV and init:ation of SBGT. O O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsne/ener97 06frmS7 06 msg doc
Pr EMERGENCY PREPAREDNESS DRILL / EXERCISE , MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. SIM 10 ELAPSED TIME 0130 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer INFORMATION: The following annunciators are received in the control room. Misc C7L Panel Alarm C2RA7 SBGTS trouble C904L E7 O
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THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onste/ever/97 06frmS7 06 msg doc
PNPS EMERGENCY PREPAREDNESS DRlLL/ EXERCISE . O $ bi MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. SIM-10 ELAPSED TIME 0130 TIME THIS IS A DRitt DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ; ADDITIONAL CONTROLLER INFORMATION: Present this message to the Watch Engineer. The drive belts for SBG T "A" f an are broken. Replacement belts should be located, installed and SBGT "A" tested and returned to service. ANTICIPATED PLAYER RESPONSE: The operators should recognize failure of SBGT "A". Operators should follow Procedure 2.2.50, " Standby Gas Treatment" to place SBGT *B"in service. The TSC should be informed of failure of SBGT 'A". A repair team should be dispatched from the CSC. Upon arrival at the equipment, and if the proper tests are made, they will discover that the fan belts are broken. The repair team should notify the control room and the OSC. Replacement belts should be obtairied and installed (simulated). Upon replacement the SBGT "A" can be tested and become operable. O THIS IS A DRILL l DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS l onsde ener$7&frm974 msg doc I
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE [ MESSAGE FORM SCENARIO NO 97 06 MESSAGE NO. OSC 11 ELAPSED TIME 0155 TIME new THIS IS A DR!LL 00 NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERAYlONS e .- MESSAGE FOR: R6 pair Team Lerder at the SBGT "A" Fan INFOP4ATION: The belth betwem tat m.t.5c' ttM the SBGT *A" discharge far, are broken. O t l O THIS IS A DRILL DO h'O INITIA,TE AC flONS AFFECTING NORMAL PLANT OPERATIONS
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PNPS EMERGENCY PREPAREDNESS DRlltJEXERCISE MESSAGE FORM SCEN ARIO NO. 97-06 MESSAGE NO. OSC 11 ELAPSED TIME C155 TIME l l THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: This message should be provided to the OSC team only when their investigation would show that the belts are broken. ANTICIPATED PLAYER RESPONSE: Report findings to the OSC. O O - TH;S IS A DRILL DO NO INITIATE AC1tOQ1 AFFECTING NORMAL PLANT OPERATIONS onsne' exer,97-00frm97&amsg doc
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE i MESSAGE FORM t SCENARIO NO. 97 06 MESSAGE NO. SIM 12 ELAPSED TIME 0230 TIME
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THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS i MESSAGE FOR: Watch Engineer INFORMATION. Torus CHRMS radiation levels have increased to levels > 200 R/Hr. O ( _ THIS IS A DRILL DC ;NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS mwemmastrmvamg coe (
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, PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE MESSAGE FO.RM SCENARIO NO. 97 06 MESSAGE NO. SIM 12 ELAPSED TIME 0230 TIME THIS IS A DRlLL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Provide this message to the NWE. TORUS CHRMS has been increasing due to fission products in the HPCI steam effluent going into torus water. The levelis now above the EAL for a SITE AREA EMERGENCY, While primary containment radiation levels are high the third and final barrier has not been breached. ANTICIPATED PLAYER RESPONSE: When the TSC & EOF become aware of the torus CHRMS radiation levels, the Emergency Q L' Director should declare a SITE AREA EMERGENCY in accordance with EP-IP 100 based on
' Containment High Range Radiation Monitor readings > 200 R/Hr."(EAL 1.4.1.3). EP-IP.100, Attachment 3. " Site Area Emergency should be implemented. A Gaitronics announcement should be made. The Emergency Plant Manager should be notified. Offsite agencies should be notified by the EOF.
U THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OoERATIONS , onsse ener 97-00frmv7-06 msg ooc
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[V t MESSAGE FORM ; SCENARIO NO. 97-06 MESSAGE NO. CR 13 j ELAPSED TIME 0240 TIME I l THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS w -. MESSAGE FOR: Control Poom Nuclear Operations Supervisor INFORMATION: Have the Control Room sound the station alarm and make the following announcement over Gaitronics THIS IS A DRILL THis IS A DRILL Attt>ntion all personnell Attention all personnel!! A SITE AREA EMERGENCY has been O declared due to high containment radiation, Had this been an actual emergency, all personnel b who are NOT cart of the Emergency Response Organization would be directed to evacuate to the designated assembly area and would receive further instructions at your exit gate. For the purpose of the exercise, non-exercise panicipants are to continue with your normal duties, THl3 !S A DRILL THIS IS A DRILL (REPEAT MESSAGE)
'N (0 THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsde/ exer,97 06frmS7@ msg doc
i l PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE /^T O MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. CR 13 ELAPSED TIME 0240 TIME THIS IS A DRILL I DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS
- ADDITIONAL CONTROLLER INFORMATION:
Provide this message to the On Watch NOS.
. ANTICIPATED PLAYER RESPONSE:
Announce the SAE over Gaitronics. O
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THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsnavner/97&frmS7-06 msg doc
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PNPS EMERGENCY PREPAREDNESS DRILL' EXERCISE (()T MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. EOF 14X ELAPSED TIME 0245 TIME
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THIS IS A DRILL l DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Emergency Director INFORMATION: Declare a SITE AREA EMERGENCY due to " Containment High Range Area Radiation Monitorin0 reading > 200 R/Hr."(EAL 1.4.1.3). n l O THIS IS A DRILL. l , DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS on.w.ne<s7-oor,ms7 osmsg ooe
k l PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE - MESSAGE FORM SCENARIO NO. 47-06 MESSAGE NO. EOF 14X ELAPSED TIME 0320 TIME
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THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Deliver this message only if a SITE AREA EMERGENCY has not been declared. ANTICIPATED PLAYER RESPONSE: A SITE AREA EMERGENCY should be declared. The control room should be prompted to make an announcement of the SITE AREA EMERGENCY. The EOF should implement EP lP. 100, Attachment 3, and make offsite notifications. O
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- THIS IS A DRILL 00 NO INITlATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onswemerS7 06frmS7&smsg doc
s PNPS EMERGENCY PREPAREDNESS DRlLUEXERCISE (/ MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. OSC 15 ELAPSED TIME 0255 TIME
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THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ' MESSAGE FOR: OSC Teams at S8GTS *A" INFORMATION: The SBGTS "A" fan belts have been repaired. O N) THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS
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PNPS EMERGENCY PREPAREDi4ESS DRILL / EXERCISE v MESSAGE FORM SCENARIO :;O. 97 06 MESSAGE NO. 03C 15 ELAPSED TIME 0255 TIME _ THIS IS n DRILL ? DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Present this message to OSC SBGTS "A" repair teams. ANTICIPATED PLAYER RESPONSE: Report completed repairs to OSC. e ' THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsitetener!97&frmS7 06 msg o.4
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE k- MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. SIM 16 ELAPSED TIME 0405 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS
- MESSAGE FOR: Watch Engineer INFORMATION:
The following annunciators are received in the Control Room. Main Steam Lino Hi Temp. C905L A1&A2 Steam Leakage Area Temp HI 903L A6 Reactor Bldg. Rad Hi- 903LC-A7 Panel C921 (Steam Leak Detection)
- Main Steam Tunnel Hi Temp /^N Panel C911 (Area Rad Monitoring Panet)
U - Rx. Bldg. SE Access Area SBGT Disch Rad Hi 904LC-F4 0 THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsAoiesert97 06frm/97-06 msg doc
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,_ PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE b MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. SIM 16 ELAPSED TIME 0405 TIME THIS IS A DRILL DO NOT INiflATE ACTIONS AFFECTING NORMA'. PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION:
Present this message to the NWE. A two inch test connection on steam line "A" has broken off. High pressure steam with very high radioactivity is spraying into the steam tunnel. The flow path for offsite release is through the SBGTS to the main stack. ANTICIPATED PLAYER RESPONSE: The control room should recognize and notify the TSC of the high temperatures and the high
/\ activity level in the steam tunnel.
V Operators should blow down the reactor pressure vessel I.A.W. EOP-4 and initiate shutdown cooling 1.A.W. EOP-1. Shutdown cooling cannot be accomplished because the shutdown cooling suci.on valve MOV 1001-50 will not open. (See the next message.) 9 O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onste/enerS7 06trm'97 0Cmg doc
l l PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. SIM-17 ELAPSED TIME 0410 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer INFORMATION: MOV 1001-50 will not open. s THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsite.enerS7&hmS7-05 msg doc
[^ PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE ( MESSAGE FORM MESSAGE NO. SIM-17 SCENARIO NO. 07-06 TIME ELAPSED TIME 0410
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THIS IS A DRlLL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS _ ADDITIONAL CONTROLLER INFORMATION: This message will be provided to the Watch Engineer when actions are taken to initiate shutdown cooling. This valve cannot be opened until 0530. Breaker 52-2046 for MOV 1001-50 malfunctioned and needs to be replaced. Replacement will be permitted. Valve MOV 100150 can be opened at 0530. NOTE: A decision to blowdown and initiate shutdown cooling may be made much earlier. This
- will be permitted but the shutdown cooling system cannot be put in service before 0530.
ANTICIPATED PLAYER RESPONSE: TSC will be notified by the Control Room. A repair team should be assigned tu get the valve opened. O
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THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS on$de/ exer /97 06frm/97 06 msg dx
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE f ()). MESSAGE FORM SCENARIO NO, 97-06 MESSAGE NO. SIM 18
- ELAPSED TIME 0415 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer lNFORMATION-The folicwing annunciators are received in the Control Room.
Ctack Gas Hi Hi Radiation CP600R-A8 Stack Gas Hi Radiation CPC00R 88 r~N k (]~ THIS IS A DRILL DO NO INITI. ATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsde, exer.97 06frmS74hsg doc
PNPS EMERGENCY PRC 'AREDNESS DRILUEXERCISE (] MESSAGE FORM 97-06 MESSAGE NO. SIM 18 SCENARIO NO TIME ELAPSED TIME 0415 THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: With the initial pipe break the reactor pressure is still high. When the operators use SRVs to reduce this pressure the offsite release rate will decrease. MOV 100150 will not open and the reactor pressure cannot be reduced below 50 psig (the reseat pressure of the SRVs). Sufficient decay heat still exists to maintain the reactor pressure greater than 50 psig during the remainder of this Exercise. SRVs will cycle to reduce and maintain the pressure at 50 psig. ANTICIPATED PLAYER RESPONSE: Recognize High Main Stack radiation levels. Study EOPs, P&lDs and procedures to achieve shutdown cooling. Declare General Emergency based on EAL 5.1.1.4, Valid Main Stack i j process radiaticn monitor reading > 2.4 ES CPS. Continue attempts to depressurize the reactor. Make Gaitronics announcement. Make offsite notifications Make Protective Action Recommendations to the Commonwealth. O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsde>ener$7 06frm.97Gmsg doc
i PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE
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()\ MESSAGE FORM SCENARIO NO. 97-06 MESDAGE NO. CR 19 ELAPSED TIME 0425 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Control Room Nuclear Operations Supervisor INFORMATION: Have the Control Room sound the station alarm and make the following announcement over the page system. THIS IS A DRILL THIS IS A DRILL
" Attention all personnel! Attention all personnel! A GENERAL EMERGENOY has been
(] declared due to ar, Gl;vsted main stack release. For the purpose of the exercise, all non-V exercise participants are to continue with your normal duties. THIS IS A DRILL THIS IS A DRILL (REPEAT MESSAGE) THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onste<emee97&ffmS74Emsg doc
PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE ( MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. CR 19 ELAPSED TIME 0425 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTr OLLER INFORMATION:
- Present this message to the On Watch NOS.
ANTICIPATED PLAYER RESPONSE: Make the Gaitronics announcement. f.
\j O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsstemerS7&frrn/97& msg dx
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O - MESSAGE FORM
- SCENARIO NO. 9t-06: - MESSAGE NO.- EOF 20X
] t ELAPSED TIME L 0430 TIME , THIS IS A DRILL . - DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FORf Emergency Director - .
- INFORMATION: . Declare a GENERAL EMERGENCY based on EAL 5.1.1.4, " Main stack process radiation - . monitor reading > 2.4 ES cps." <
e i i-O C i f I f l. a-i- l O THIS IS A DRILL -
- 00 NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS )
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. . . . . - - . _ , . _ .-__.~.__--__-m. . - . _ - - . _ _ - . . - . . _. . _ _ . . ._ .._ .- . i. !PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE O MESSAGE FORM i SCENARIO NOf 97-06 MESSAGE NO; EOF-20X ELAPSED TIME 0430' - TIME THIS IS A DRILL -
DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS. - ADDITIONAL CONTROLLER INFORMATION: Deliver this message only if a GENERAL EMERGENCY has not been declarvA L
- ANTICIPATED PLAYER RESPONSE:
The Emergency Director should declare a GENERAL EMERGENCY in accordance with EAL 5.1.1.4, "Mair. Ubu Process Radiation Monitor reading > 2,4 E 5 cps". EP IP-100,
. Attachment 4. " General Emergency" should be implemented. An announcement should be made on Gaitronic.S. Offsite notifications should be made from the EOF. PARS should be - provided to the Commonwealth by the Emergency Director, )
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DO NO INITIATE ACTIONS AFFECPNG NORMAL. PLANT OPERATIONS - ansa.c rts7arrms7.oem.g ooe
.PNPS EMERGENCY PREPAREDNESS DRlLUEXERCISE L MESSAGE FORM SCENARIO NO, ~ 97 MESSAGE NO. OSC 21 ELAPSED TIME - 0445 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT CPERATIONS MESSAGE FOR: Repair Team Leader at $?CC B 20 INFORMATION:
Breaker 52 2046 is faulted beyond repair, The breaker must be replaced. , i e g 1 l 4 i i
. THIS IS A DRILL DO NO INITIATE ACT!ONS AFFECTING NORMAL PLANT OPERATIONS -
i onsAetow47 06frmS7 06 msg doc .
PNPS EMERGENCY PREPAREDNESS DRlLL/ EXERCISE O O MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. OSC-21 ELAPSED TIME 0445 TIME _ THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: This message will be presented to the repair team leader when testing of the breaker is simulated. Breaker 52 2046 in MCC B 20 is the normal power source for MOV 1001 50. This breaker is defective and must be replaced. Attempts to transfer MOV power to B 17 will fait due to faults on the output side of 52-2046. The new breaker should be placed in service at 0530. ANTICIPATED PLAYER RESPONSE: Q (V The repair team should perform routine checks of the breakerin MCC B-20. A replacement breaker must be delivered to MCC B-20. The correct tools should be at the repair station. The repair team should demonstrate the physical and administrative actions necessary to replace the breaker (simulated). t THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ons.telexerS7-06frm/97 06 msg doc
l PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE O V MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. OSC-22 ELAPSED TIME 0450 TIME
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THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Repair Team at the steam tunnel INFORMATION: The radiation levelis 50 R/hr O e THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLAN'l OPERATIONS l onstemmen97@tmv97.Cresq doc l I
PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE ,O (_) MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. OSC 22 ELAPSED TIME 0450 TIME THIS IS A DRILL 00 NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATiO_NS ADDITIONAL CONTROLLER INFORMATION:
-. Players may consider entering the steam tunnel to locate the leak and effect a repair, if considered, and if a radiation measurement is made, this message should be given to the radiation protection team when they measure the radiation level. >
All preliminary considerations must be addressed -- ALARA, physical protection from hot steam, and administrative approvals. Proper clothing and equipment must be available and demonstrated. ANTICIPATED PLAYER RESPONSE: I ) (/ The repair team should demonstrate their ability to plug the steam leak. They must display or confirm that all administrative requirements have been met. The repair team should describe the actions they would take to locate the leak on an initial entry (simulated). A plug then must be found (or made) and another entry would be permitted (simulated). The repair team must describe the actions they will take, display the tools and how they would be used and estimate the time required. O THIS IS A DRILL 00 NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsdeienerS7-06frm/97 06 msg doc
PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE MESSAGE FORM SCENARIO NO. 97 06 MESSAGE NO. OSC 23 ELAP!2.ED TIME 0530 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: OSC Team at Breaker 52 2046 INFORMATION: Breaker 52 2046 has been repleted. O Ag C\ THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsdwents97@ftrN97-00 msg doc
I PNPS EMERGENCY PREPAREDNESS DRILUEXERC!SE MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. OSC 23' ELAPSED TIME 0530 TIME THlS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION: Present this message to the Repair Teams completing the rt placement of the breaker for opening MOV 1001 50. Do not present before 0530. ANTICIPATED PLAYER RESPONSE: Report breaker replacement to OSC. O e THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS orw+wier/97&frmS7& msg doc
i PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE 1 C MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. OSC 24 ELAPSED TIME 0600 TIME (or when appropriate) _ _ _ THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: OSC Repair Team Leader entering the drywell to close MSIV. INFORMATION:
- 1. There is a piece of metal debris jammed between the stem and valve operator of MSIV AO-2031 A preventing full closure.
- 2. MStV AO-203-1 A is closed O THIS iS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsite,'ener!97 00frmS7-06 msg doc
i PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE
'w_) MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. OSC 24 ELAPSED TIME 0600 TIME THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROLLER INFORMATION:
Present part 1 of the message when the team is ready to enter the drywell. Present part 2 at 0600. If/when the DW is verified deinerted (simulated), DW entry will be permitted by the team (simulated). All preliminary considerations must be addressed -- ALARA, personnel safety, extenced exposure authonzed, and a plan of action. Proper clothing and equipment must be demonstrated. When the repair team demonstrates the prcper actions, they can report the "MSIV AO-203-1 A is closed" at 0600. Do not allow closure prior to 0600. ANTICIPATED PLAYER RESPONSE: ('))
'm The repair team should demonstrate their ability to effect valve closing by confirming that all administrative requirements have been met for DW entry, desenbing the actions they will take, obtaining the necessary tools and equipment, demonstrating the use of tools, and estimating the time required for each action.
Report closure of MSIV AO-203-1 A to OSC. O- THIS IS A DRlLL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS onsdeJemS7-00trm97 06 msg doc
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,,_s PNPS EMERGENCY PREPAREDNESS DRILUEXERCISE i )
(_/ MESSAGE FORM SCENARIO NO. 97-06 MESSAGE NO. All 25 , ELAPSED TIME 0605 TIMF _ THIS IS A DRILL DO NOT INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS MESSAGE FOR: Watch Engineer Emergency Director Emergency Plant Manager Company Spokesperson in the Media Center INFORMATION: The 1997 EXERCISE is terminated. Have the Control Room make following Gaitronics announcement. Attention! Attention! This is the Control Room. The Pilgrim Nuclear Power Station 1997
/ EXERCISE has been completed. No further exercise announcements will be made, k,)/
O THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMAL PLANT OPERATIONS _ onsaemett97&fmv97-06 msg doc
l PNPS EMERGENCY PREPAREDNESS DRILL / EXERCISE l 'l (_/ MESSAGE l-ORM SCENARIO NO. 97-% MESSAGE NO. All-25 ELAPSED TIME 0605 TIME THIS IS A DRILL DO NOT !NITIATE ACTIONG AFFECTING NORMAL PLANT OPERATIONS ADDITIONAL CONTROU.ER INFORM.ATION: Provide this message to the perton in charge of earh facility only when toe Lead Exercise Controller has determined that a!! objectives have been tested. ANTICIPATED PLAYER RESPONSE-s All players should assemble all of tne wntten material that was generated during the exercise for assembly by the Lead Facility Controller. Alllogbooks, procedure manuals, and engineering materials should be retumed to the proper files. O v THIS IS A DRILL DO NO INITIATE ACTIONS AFFECTING NORMA L PLANT OPERATIONS l onsste exer /9106frm97&esg dex
BOSTot N COMPANY O P1LGRIM NUC POWER STATION 1997 NRC EVALUATED FULL PARTiC1PALON EXERCISE I PLANT PARAMETER SUVMARY l 1 Elapsed Reactor RPV RPV Water Drywe8 y Drywes Torus Contanwnent Contaarnent Power Pressure Level Temp Pressure Pressure H2 O2 Tree
-015 90 1020 28 125 73 128 13 00 0 2 100 1036 28 125 73 128 13 00 0 2 0 00 70 990 28 123 73 128 12 00 0 2 0 05 0 15 3 950 10 121 73 129 12 00 0 2 0 30 2 930 20 119 78 129 12 00 0 2 0 45 2 900 30 118 79 129 12 00 0 2 1 00 2 890 30 116 80 130 12 00 0 2 1 15 2 850 30 115 81 130 12 00 0 2 1 30 1 780 30 115 82 130 12 00 0 2 1 45 1 700 30 114 83 130 11 00 0 2 2 00 1 620 30 114 83 131 11 00 0 2 540 30 114 83 131 11 01 0 2 2 15 1 2 30 1 470 30 114 83 131 11 01 0 2 2 45 1 410 30 114 84 131 11 of 0 2 3 00 1 360 30 113 84 132 11 01 0 2 3 15 1 320 30 113 84 132 to 01 0 2 3 30 1 285 30 113 84 132 10 01 0 2 3 45 1 265 30 113 85 132 to 02 0 2 4 00 1 250 30 113 85 133 to 02 0 2 4 15 1 60 30 112 85 133 to 02 0 2 4 30 1 50 30 112 85 133 10 02 0 2 4 45 1 60 30 112 86 133 to 02 0 2 5 00 0 50 30 112 86 133 10 03 0 2 5 15 0 60 30 112 86 134 to 03 0 2 5 3G 0 50 30 111 87 134 10 03 0 2 5 45 0 46 30 111 87 134 10 03 0 2 6 00 0 46 30 111 87 134 to 03 0 2
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w { b' ? BOSTO NCOMPANY (/ t PILGR!M NUC POWER STATlON 1997 NRC EVALUATED FUL1 PARTICIPATION EXERCISE PLANT PAR AMETER
SUMMARY
^
RHR A RHR C A RHR MODF RHR S RHR D Loop Flow B RHR MODE CS A C3 B Trm, toop Fiovv Fnow Fcm avad 0 and avad 0 avai 0 avad 0 4 15 avad 0 00 avad avad 0 avad avad 0 avad .O avad .[Q_ a ad avaa o avad avad 0 avad 0 avad ___0 0 05 avad a<ad 0 avad avad .O avad __ O awad 0 l 0 15 0 30 mstvc asad _4fLOQ_ Torus CorAng osrve avad _,4_ SLOQ_ Torus Coo:cg avad Q avad Q 05 mstvc aud 4_9Q0_ Torus Coohng msrve avad 4.900 Torus Cooteg avad _Q_ avad _g_ 1 00 mstvc avad 19QCL Torus Coohng msave avad 4 90Q_ Tcrus Coceng avad 0 avA 0__- 1 15 insrve asad 4 900_ Torus Coohng msrvc avad 4JiQ Torus Cooing avad 0 a<ad 0 1 30 mstvc avad JSR Torus Coolmg instvc avad 4.900_ Torus Cochng avad _ ___0 asad 0 1 45 mstvc asad JJQQ_ Torus Coohng nsrve avad 4 90Q Torus Coohng avad O_ _ . avad 0 a<ad 4 900 Torus Cooing estvc avad 4 900 Torus Cooing avad 0 avad 0 2 00 insrvc msrve avad _43 20_ Torus Coohng ensrve avad 4 90Q_ Torus Cookng avad Q avad __0 2 15 msrve a ad _4_900_ Torus Coolog ansrve avad 4 900_ Torus Cochng avad O avad 0 2 30 _ 2 45 mstvc avad 4 900_ Torus Coohng mstvc avad 3 2QQ. Torus Coohng avad 0 and J_ anstvc asad _4_R Torus Cookng ansrve avad 4 900 Torus Coohng avad O____ 3vad Q 3 00 315 mstvc awad _43QQ_ Torus Coohng insrve avad j91 Torus Coohng avad O avad 0 3 30 insrvc a <a4 1990__ Torus Coohng ansrve avad _4,3R Terus Coohng avad 0 and _Q_ 3 45 insrve a ad ,,,4_900_ Torus Coohng msrve avad 4 900_ Torus Cochng and . O a<ad _Q_ 4 00 mstvc aul _4hQQ,_ Torus Coohng insrve avad 4 900 Toru. Coohng avad 0 avad ____0 4 15 insrvc awad _4300_ Torus Cochng insrve avad _4J2Q._ Torus Coolog svad 0 a<ad _0_. 4 30 msrve avad 4_390_ Torus Coohng instvc avad JSR Torus Coolrng avad _Q_ and 0 4 45 ansrve avad _4_9Q0_ Torus Coohng osrve avad 43QQ_ Torus Coohng avad _Q_ avad 0 5 00 msrvc asad _43Q0_,, Torus Coonng msrvc avad 4 900 Torus Coohng avad __Q_ avad 0 t l 5 15 anstvc aci _4_90Q_ Torus Coo!mg insrve avad 4.90Q_ Torus Coohng avad 0 avad 0 5 30 ansrve a ca.1 _43Q0_ Torus Coolmg insrve avad _4.900._ Torus Coolog avad 0 avad 0 5 45 mstvc a .ad _4JQ0_ Torus Coohng msrve avad 4JQQ_ Torus Coohng avad 0 avad _)_ l 6 00 ansesc a<ad 19 1 Torus Coobng mstvc avad 4 900 Torus Cooiing a<ad 0 avad _Q_
N COMPANY G BOSTOf( PitGRIM NUCLEAk POWER STATION 1997 NRC fVALUATED FULL PARTIC PATION ExERCtSE PLANT PARAMETER
SUMMARY
Elapsed GP 1 Req Gr' 2 Req GP 3 Reg GP 4 Req GP 5 Reg GP6 Req GP1tsd GP 2 Isol GP 3 tson GP 41sd GP 5 ! sot GP5isd pct 5 Bypassed Twne N Y tJ N N tJ N Y tJ N N 4 15 N 0 00 tJ N ( f4 f4 N f4 N Y N N t4 N y N tJ FJ N N Y tJ f4 N 0 05 f4 Y y N N Y Y Y Y N N Y ee m *s w, 0 15 N N y N N tJ Y Y Y N N Y u m sa wm 0 30 N y N N FJ Y Y Y N N Y se m a .4,,, 0 45 tJ tj tJ Y N tJ N Y Y Y N N Y ac m a.,, 1 00 N N N Y N " " ' " " "'**" 1 15 y N tJ N Y Y Y fJ tJ Y nm a , gy y tJ Y tJ N fJ Y Y Y tJ tJ Y se m ia w, 1 45 N ti N y n N tJ Y Y Y N f4 Y asm aw, 2 00 tJ N Y N " " # # " " # ** * '* * 2 15 N y N N tJ Y Y Y N FJ Y n m is wm 2 30 tJ FJ tg Y N tJ F4 Y Y Y N f4 Y sem a e, 2 45 N N V N N " " " # " * *** 3 00 tJ tJ y tJ N FJ Y Y Y N tJ Y so m a 4, 3 15 N 3y N N y f4 N tJ Y Y Y N N Y e, m ,a , , I N N y N N N Y Y Y N N Y o m sa me,. 3 45 Y U N 'E Y Y Y iE N Y ** Y ? ' * ~2 4 00 tJ 13 tj rJ Y tJ N Y Y Y Y f4 Y se m is w,,, 4 15 rJ tJ ta Y FJ f4 Y Y Y Y fJ Y se m is w ,,, 4 30 PJ N tJ tJ Y H N Y Y Y Y N Y se m 3s f 4 45 tJ tJ tJ Y tJ f4 Y Y Y Y tJ Y u m ,s ,,,. 5 00 5 15 t. FJ tl Y N 'I Y Y Y Y U Y ** ' ' ' ' * " N tJ Y TJ N Y Y Y Y N Y o m in g 5 30 PJ tJ tJ Y Y FJ Y Y rd Y Y f u m 's e, 5 45 PJ fJ ;J tJ 'Y Y FJ Y Y rJ Y Y Y 6 00
-m i ,-- ,) / j BOSTOf N COMPATdy g/
( " j PILGR tM I4UC POWER STAT 60N 1997 HRC EVALUATED FULL PARTICIPATION EXERCISE PtANT PARAMETER
SUMMARY
Etapsed b RBCCW A RBCCW 8 RECCW C RBCCW D RBCCW E RBCCW F TBCCW A TBCCW B SSW A SSW B SSW D S$W E SSW C Trne WATER A WATER B
.-O 15 aad msrve s.ad a<ad aad insrve ansrve avad awad nsnc nsr<C msnc a<M m %
0 00 avad osrve a.ad aad and msac esuc avad aas esac onc nsrvc avad insnc ansrvc O CS and msuc asad-a<ad avad owc mac avad avad esnc osuc msnc a. M esrve ansrvc 0 15 a<ad ensrvc a.M avad avad esoc Msne a<ad avad osnt esnc esac a<ad insrve msrve 0 30 m5rve ingvc a.34 avsd acad nsrve ansrve avad avail insrvc mne mrve avad instvc anyvc 0 45 msrvc snsr.c a<ad asad avad osrvc estvc avad avad insrve msrve msrve ava4 ensrvc insrve 1 00 insrve any,c a<ad avad avad instvc ansrve avad avai msrve msrve ms vc avad msrec insrvc 1 15 msrvc msrve asad a<ad avad msrve msrve ava:s a.ad msrve insrve msrve avad insrve msrvc 1 3,) esrve insryc asM avad avad ensrse insryc avad a<a4 msrvc msrec insrvc avaW mstvc arvsrvc 1 45 anstvc insrvc a<ad and avM mnc esuc a<ad a <M mstvc snsrvc insrve avad msrve insa c 2 00 insrvc insrve a.ad avad avat esrve instvc avad avad insrvc psrve nstvc avad osrec insrve 2 15 mrvc esryc asad aad a<ad msac nsac avad asad esat nsnc msac avad msr<c msrve 2 30 .nstvc msrsc a.M avad avad msne msac a.ad avad ansac insrvc instvc avad msrvc insrvc 2 45 msrve InsrvC a,a4 84ad avad instvc esrVC avad asad nsrvC insrec insrve a<ad insrvC instvc 3 00 mstvc insrec a <a:1 avad avad msrvc ensrvc avad avad esx esryc msrvc a vail insrvc sneve 31$ esrvC insr<C 3,94 avail aVall OsrvC msrVC avad avad InsrvC InsrVC Ostvc $4ad snsrvC snsryc 3 30 msrvc and a -<ad avad instvc avad avad insr<c instvc msrvc ansrve msrvc a <ad ar'srvc insrve 3 43 pstvC &nsryc 3.M a<a4 avad msrVC msrvC aVad avad ostvc n$rvC M5rVC avad ir.$ rec instvC 4 00 ensrvc a.ad a<M and ensrvc sns x avad avad artsryc insrve ansrvc insrvc and omc msx 4 g e, insrvC msrvC avad avad a <ad insrvC ansrvC avad asad ensrvC ar sr\e Insrvc asM snst'VC mc 4 30 ansrvC instvc a.a4 avad avad mstvc Instvc avad avai msrwC insrvC 'srvC Mvad msrVC InsrWC 4 45 msrVC Insryc a < 'sd 3/ad Sk a*t msrVC msrvc avad asad Osryc insrvC InsrVC avM mryc mg
's 00 instvc msrec a .< a d a<ad avad ensrve ersrve avad avad insryc ansrve ansrvc a.ad ernrvc errstvc 5 15 insrve insrvc aad asM avad msryc nsac a<ad avad msryc msrvc insryc avad mstvc ensrve $ 30 m5ryc fnsr.C atad avad avad $nsryc insrvC avad a tad ansrVC artsryc unsryc a<ad insrvc mstvC 5 45 msrvc Msrvc asa1 avad avad insrve instvc asad a<ad insrvc insrvc msrvc a<ad esrve insrvc 6 00 insrvc irtsrvc a.ad a <ad asad insrve insrve asad avad ansrvc ensrve mstvc a <ad instvc insrvc
BOSTO"(
- f. pHCOMPAyy P!LGRIM NUCW1 POWER STATION
~
1997 NRC EVALUATED FULL PARTICIPATION EXERCM, ! PLANT PARAMETER
SUMMARY
Elapsed ~HPCI Trne- STATUS HPCI MODE STATUS RCIC MODE RECIRC A ** RECIRC Speed B Speed" CRD A CRD B SBGT A SBGT8
-015 a<ad avad .
nevc 72 nsrve 1 oos msrvc avad ' avad ] 0 00 avad avad m*ve 78 mstvc JL oos mrvc avad a.ad 0 05 asad avad estvc 55 mstvc _ 55 oos msrve .avas avad O.15 avas avad estvc 26 26 mstvc oos ' msrve estvc mrw . 0 30 msrvc Pressure Cortrol avad msrvc 26 msrvC 26 00s mrvc msrx aW 0 45 estvc Pressure Cortsof avad mstvc 1 surve 26 oos . oos msrve avad
'1 00 - . . msrve Pressure Control avad estvc 26 estvc 26 cos oos msnc e6ad 1 15 mstvc Pressure Certrol avad estvc 26 msac 26 oos aos mstvc avad 130 msrvc Pressure Cortrol avad msrve 25 ' mstvc _L oos oos oos msrw 1 45 mstvc Pressure Cortrol avad estvc 26 mrve 26 oos oos es msrve 2 00 mstvc Pressure Cortrol avad mstvc 26 mstvc 26 oos oos oos estvc 2 15 mstvc Pressure Cortrol avad msrve 26 msrvc 26 oos oos a nsrve 2.30 msrvc Pressure Control avad 26 estvc mstvc _L cos oos oos msrve .
2 45 msrve Pressure contros avad . mstvc 26 msrve 26 cos . oos oos msrve , 3 00 ' estyc Pressure Cortrol avad estvc 26 **vc 26 oos - oos msrec . avad 3 15 mstvc Pressure Control avad estvc 26 msrw 26 oos estvc o srve avad . 3 30 . mstvc Pressure Contr01 avad mstvc 26 mstvc ,,,,,.M_ cos estvc mstvc avad ; 3 45 mstvc Pressure Cortrol avad estvc _M_ ansrve at oos mstvc mstvc a<ad ! 4 00 mse vc ' Pressure Control avad esrve 26 mstvc 26 oos mrve msrvc avad 415 avad avad esrw 26 mrvc _, M._,_ oos mstvc msrve avadi , 4 30 avad avad mstvc 26 i estvc _L oos msrve msrvc avad 4 45 ' avad avad esrvc at msrve 26 005 mryc ensrve ' aW 5 00 avad avad mstvc 26 msrve at oos msrve ' esrve avad' 515 avad avad msrve 26 estvc 26 oos . mrve estvc avad A , 5 30 avad avad ostvc __2L_ mrvc oos ' _ 29.__ w%rve msrve avad S 45 avad avad 26 osrve estvc _L cos mrve . msrn asad . avad avad osrve ^ 6 00 1 msrve at oos mstvc mstvc aW t
)
4 s e
/
S BOSTON 'N COMPATW PILGR:M NUCLEAR POWER ST ATON 1997 NRC EVALUAlED FULL PARTIC:PATON EXERCISE PLANT PARAMETER SLA%tARY
^ 8 RB VENT RBdp l EW COfJD A CCND B COND C FEED A FEED B FEED C Levet Level 1
Tme
-015 nsrve mrvc msrve msrve msrve mrve .1 31 mrve -0 1 0 00 msrve msrve nsrvc ensrvc estvc msrec 31 31 msrvc _-0_1 0 05 csrvc ansrve nsr4 mstvc nstvc msrvc 31 31 csrvc A 0 15 esryc nsrve estvc mrve nsrve ensen: 31 _1L esolated -0 25_
C .30 msrve msrve avad estvc avad avad 31 31 isolated -0 25 0 45 ansrve estyc avad nstvc avad avad 31 . Q1 tsoiated -03 1 00 ecsrve nsrve avad ostvc avad avad 31 31 _ er cla*td J1 l 1.15 msrve insrve avad nsrve. avad avad 31 _31_ rsotated _-025 1 30 nsrve msrve avad msrvo avad avad _ 31 _ 31 isolated _-0,1 l 1 45 ansrvc ensrvc avad mrve svad avad 31 JL esolated -0.25 2 00 merve osrvc avad esrve avad avad 31 31 rsotared A1 215 mstvc ensryc avad nsrve avad avad _lL 31 esotated A;l5_ 2 30 msrve msrve avad ens.vc avad avaJ J1_ A rsotated -03 2 45 ansrve insrve avad esrvc avad avad 31 31 rsotated _g1 l l 3 00 mstvc mstic avad estvc avad avad JL JL isolated Al 3 15 msrvc ens vc avat mstvc avad avad 31 JL esolated Al 3 30 msrec .nsryc avad mstvc avad avad 31 JL esota'ed Al 3 45 insrve msrve and msrw avad avad 31 _,J_L isolated -Q Q l l 4 00 msrec insrvc avai nsrve .)vad avad 31 31 e<-ota'ed Al i 4 15 msryc msrve avad mstvc avad avad J1_ _J1_ rsotatad Al 4 30 ensrvc ensrve avad mcevc avad avad _lk _L tsotated A1 4 45 insrve mryc avad mstvc 2vad avad 31 J1 isola +ed -Q_1 5 00 insrvc msrve evad msrve avad avan jL _L twlated A1 5 15 msrvc ensrvc avad ensrve avad avai 31 _.)L tsolated E_ 5 30 ansive ostvc avad instvc avaii avad 1 _1L rsotted A1 5 45 msrve . srve avad insrvc avad avad ., JL ,JL esotated E_ 6 00 anstvc nsrve avad insrve avad avan 31 _L esc 4ated _fLE
i i
- t w 5.t997 PNPs s?.05 A 2 SAFEGUARDS 3 RHR Mode 4 CS 1 AC Ptar/ER SOURCES Loop A: A avail Loop A:
UAT insryc Rx Top Signal C avad avad S/U XFMR avad Mode Run Loopp;ow. S mich Loop Flow 0 gpm 0 ppm avang P/D XFMR SBLC A avail Loop B. B avad LoopB EDG A avat! Pumps E avad D avait avai! EDG B avad SBLC TK LVL 4.300 gal toop p% Loop Flow 0 gpm 0 gpm BODG avail 6 COOLING WATER 7 g,nCI 5 PCIS Required ,lsotated RBCCW Loop A A avail ,SSW Loop A A ava+f avad N Pumps B instvc l Pumps B insrve GP1 N (MSIVs) C avad { Loop B D instcc GP2 N N (Pri Cont) ' v Loop B D avad , E instvc GP3 Y (SDC) E avad Smng C avait 8 RCIC l GP4 rJ N (HPCI) N F instvc l avail GP5 N (RCIC) ' N (RWCU) 3BCdh ~~~~~~A ~ ~ "n's~rv'c i [ 5ea'f/ater- ~ ~ ~ ~ ~ ~f ~ ~ ~ ~~enstv'c~ GP6 N Pumps 3 avad l Pumps B enstvc Bypassed ~ RECIRC 12 FEED /LUND CRITICAL PARAMETERS 9 Cond A instyc TIME -0.15 TRENDI,--,1 Recuc A insryc 72 % speed Pumps B in6fvc REACTOR POWER % 90 ,, Purnps C instvc RPV PRESSURE pseg 1020 ,, Feed A insryc RPV WATER LEVEL inches 28 .. Recirc A insryc
% speed Pumps B srnr"c DRYWELL TEMP deg F 125 ,,
Pumps 72 C insrvc TORUS WATER TEMP deg F 73 ,, 10 CRD A oos CST Leve' A 31 ft . TORUS WATER LEVEL inches 128 ,, g CRD B 31 ft DRYWELL PRESSURE psig 1.3 ,, Pumps B insrvc _ 13 RB VENT TORUS PRESSURE pseg o.o ,, 11 SBGT avail ensryc CONTAIN H CONC. 2 % 0 ,, A RB d/p -025 inches H.O CONTAIN O, CONC- % 2 ,, B avad
I ews sros a SAFEGUARDS h 3 RHR
%- s m:
Mode 4 CS 1 AC POWER SOURCES 2 Loop A: A avad Loop A UAT insrvc Rx inp Sqnal C avail avad S/U XFMR ava:1 Mode Run Loop Flow Switch Loop Flow 0 gpin 0 g:nn S/D XFMe", ava:1 SBLO A avail Loop B. B avad loop B EDG A avad Pumps B avail D avad avad EDG b avad SBLC TK LVL 4.300 gal Loop Flow Loop Flow 0 gpm 0 gpm BODG avail 5 PCIS 6 COOLING WATER 7 HPCI RBCCW Loop A A avail ,SSW Loop A A avail avail Recmred Isolated Pumps B instvc ,' Pumps B insrvc GP1 N N (MSIVs) N C avad l Loop B D insrvc GP2 N (Pn Cont) Y Loop B D avad l E insrvc GP3 Y (SDC) N E avail , Swing C avail 8 RCIC GP4 N (HPCI) N N (RCIC) F instvc avail GPS ~
~ ~
GP6 N N (RWCU) TB Cdd[ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ ~inE[c~ ~ ~ ~ [ 5ea 55ter ' ~ ~ ~ ~ ~ ~ ~A ~ ~ ~ ~tnsrvc~-~~~~~ Pumps B avad l Pumps B insrvc Bypassed RECIRC 12 FEED /COND CRITICAL PARAMETERS 3 A insryc Cond A insrvc TIME 0 00 TRENDT.-,1 Recirc 78 % speed Pumpn B insrvc REACTOR POWER % 100 t Pumps C insrvc RPV PRESSURE ps 9 1036 i Feed A insryc RPV WATER LEVEL inches 28 ., Recirc .A insrvc 78 % speed Pumps B instvc DRYVELL TEMP deg F 125 ., Pumps C insrvc TORUS WATER TEMP deg F 73 ,, 10 CRD A oos CSI Level A 31 ft. TORUS WATER LEVEL enches 128 ., CRD Pumps B insrvc B 31 ft. DRYVELL PRESSURE psy 13 ,, 13 RB VENT TORUS PRESSURE psg oo ,, 11 SBGT A avail inssvc CONTAIN H CONC. 2 % 0 ., RB dip -0 25__ inches H;O CONTAIN O, CONC % 2 B avail ..
.s enes 1i,7-os a % + s 1997 \
1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT insrvc Loop A: A avati Loep A. Rx Trip Signal C avad avad S/U XFMR avad Mode Run toop picy S/D XFMR avail Switch Loop Flow 0 gpm C gpm EDG A avat SBLC A avail Loop B. B avad loop B Pumps B avail D avad avail EDG B avad SBLC TK LVL 4.300 gal toop p;o, BODG avail Loop Flow 0 gpm 0 gpm 5 FCIS 6 COOLING WATER 7 HPCI Requ3rd Isolaid RBCCW Loop A A avad ; SSW Loop A A av aii avad GP1 N ?J (MOVs) Pumps B insrvc l Pumps B tr'sric GP2 N N (Pn Cont) C avad l LoopB D rnstvc GP3 Y Y (SDC) Loop B D avail l E in rvc GP4 N N (HPCI) E avad l Swing C avad I 8 RCIC GP5 N N (RCIC) F instyc
- avad GP6 N N (RWCU) lBCdi/'~ ~~~~~A ~ ~ ~ ~nsrvc
~ ~ ~ ~ ~ ~ ~ [ 5ea~flater ~ ~ ~ ~ ~ ~ ~ ~f ~ ~ ~ In%c ~ ~ ~ ~
Bypassed Pumps B avail l Pumps B enstvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Rectrc A insrvc Cond A insrvc TIME 0 05 TRENDi -el Pumps 55 % speed Pumps B instvc REACTOR POVER % 70 1 C insryc RPV PRESSURE psi 9 990 1 Recirc A instvc Feed A insrvc RPV WATER LEVE*_ inches 28 .. Pemps 55 % speed Pumps B insrvc DRYVELL TEMP deg F 123 1 10 CRD C instvc TORUS WATER TEMP deg F 73 ,, CRD A oos CST Level A 31 ft TORUS WATER LEVEL inches 123 ,, Pumps B instvc B 31 ft DRYWELL PRESSURE psi 9 12 1 11 SBGT 13 RB VENT TORUS PRESSURE ps 9 00 4, A avad insrvc CONTAIN H CONC % 2 o ,, B avad RB dip -0 25 inches H,0 CONTAIN. O CONC. 2 % 2 ,,
1 AC FuWER SOURCES evs w.ou 2 SAFEGUARDS h 3 RHR
% w s mr Mode 4 x
CS UAT avail Locp A: A avail loop A: R;r Trip Signa! Manual C ava3I avail S/U XFMR insrve Mode SID Loop Flow. S/D XFf/R avail Sw:tch Loop Flow G gpm 0 gpm EDG A avail SBLC A avail Loop B: B avail loop B: Pumps B avail D avail ava.I EDG B avail SBLC TK LVL 4.300 gal toop pio, BODG avail Loop Flow 0 ,gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RBCCW Loop A A avail lSSW Loop A A avait avail GP1 N Y (MSIVs) Pumps 82 insrvc l Pumps B ansrvc GP2 Y Y (Pri Cont) C avail l Loop B D insrvc GP3 Y Y (SDC) LoopB D avail l E insrvc GP4 N N (HPCI) E a ear! Swing C avai! 8 RCIC GP5 N N (RCIC) F insrvc
~ avail GP6 Y Y (RWCU) ~iBC 5~ ~ ~ ~ ~ ~ ~ ~ ~ ~A ~ ~ ~ insrvc~ ~ ~ T 5e~a E5ter~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ In~siv~c ' ~ ~ ~
Bypassed AO-203-1 A mid pos Pumps B avail l Pumps B insryc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A snsrvc Cond A insryc TIME O 15 TRENDT~->1 Pumps 26 % speed Pumps B instvc REACTOR POWER % 3 1 C insrvc RPV PRESSURE ps9 950 1 Recirc A insryc Feed A instvc RPV WATER LEVEL inches to 4 Pumps 26 % speed Pumps B instvc DRYVELL TEMP deg F 121 1 10 CRD C instvc TORUS WATER TEMP deg F 73 ,, CRD A oos CST Level A __11 ft. TORUS WATER LEVEL inches 129 T Pumps B insrvc B 31 ft. DRYWELL PRESSURE ps9 12 ,, 11 SBGT 13 RB VENT TORUS PRESSURE ps9 00 ,, A mstvc isolated CONTAIN H: CONC. % 0 ,, B insrvc RB dip -025 mches H O CONTAIN 0 CONC 2 % 2 ,, g
.vs ws* % +-:- s29w 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT avail Loop A- A mstvc loop A:
Rx Top Sqnal Manual C avail avail S/U XFMR insrvc Torus Cooling Mode S/D Loop Flow S/D XFMR avail Switch Loop Flow 4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B: B instvc loop B. Pumps B avail D a vail ava:I EDG B a va,, Torus Coohng SBLC TK LVL 4.300 gal Loop Flow BODG avail Loop Flow 4.900 gpm 0 _ gpm 5 PCIS 6 COOLING WATER 7 HPCI Required isolated RBCCW t oon A A insryc ; SSW Loop A A avati instvc GP1 N Y (MSIVs) Pumps B insrvc l Pumps B insrvc Pressure Control GD2 N Y (Pri Cont) C avail l Loop B D insrvc GP3 Y Y (SDC) Loop B D avail l E insrvc GP4 N N (HPCI) E avail l Sw ng C a vail 8 RCIC GP5 N N (RCIC) F instvc l avail GP6 N Y (RWCU) ~ TBC( 5~ ~ ~ ~ ~ ~ ~ ~ ~A " Un's~rv~c~ ~ ~ ~ [5e~a~5ater~ ~ ~ ~ ~ ' ~ - ~ f - - insiy~ ~ ~ ~ Bypassed AO-203-1 A mid pos Pumps B avail . Pumps B instvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Reorc A insive Cond A insrvc TIME O 20 TRENDT -el Pumps 26 % speed Pumps B insrvc REACTOR POWER % 2 i C avail RPV PRESSURE psig 930 i Rearr A insrvc Feed A rosrve RPV WATER LEVEL inches 20 i Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 119 10 CRD C avail TORUS WATER TEMP deg F 78 7 CRD A oos CST Level A 31 ft TORUS WATER LEVEL inches 129 4, Pumps B insrvc B 31 ft . DRYVELL PRESSURE ~' psig 12 4, 11 SBGT 13 RB VENT TORUS PRESSURE psrg 00 ,, A insryc asolated CONTAIN H CONC. % 2 0 ,, B avail RB d!p -025 inches H.O CONTAIN. O CONC. 2 % 2 ,,
p*;PS 9 W, A P h b s,199I 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS ' UAT avail Loop A: A insrvc (nop 4 Rx Tnp Sqnal Mant.al C avait avail S/U XFMR insrvc Torus Cooling Mode S/D Loop Flow. S/D XFMR avail Sw;tch Loop Flow 4.900 gom 0 gpm EDG A avail SBLC A avail Loop B' B instvc Loop B Pumps B avail D avail avail EDGB avail Torus Cooling SBLC TK LVL 4.300 gal Loop Flow BODG ava:1 Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RBCCW Loop A A insrvc l SSW Loop A A avail instvc GP1 N Y (MSIVs) Pumps B insrvc l Pumps B insrvc Pressure Control GP2 N Y (Pri Cont) C avail l Loop B D insrvc GP3 Y Y (SDC) Loop B D avail l E instvc GP4 N N (HPCI) E avail l Swing C avait g pcgg GPS N N (RCIC) F insrvc l ava:I
~ ~ ~
GP6 N Y (RWCU) TBC( E-~~~ A ~ ~ ln~s~rv~c'~ ~ T 5ea 5at er~ - ~ ~ ~ ~ ' ~ ~ ~A ~ ~ ~ In~s57 ~ ~ - Bypassed AO-203-1 A mid pos Pumps B avail l Pumps B instvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A msrvc Corid A msrvc TIME O 45 TREND T - 1 Pumps 26 % speed Pumps B insrvc REACTOR POWER % 2 ,, C avail RPV PRESSURE psig 900 L Recirc A insrvc Feed A insrvc RPV WATER LEVEL inches 30 7 Pumps _ 26 % speed Pumps B avail DRYWELL TEMP deg F 118 4 10 CRD C avail TORUS WATER TEMP deg F 79 t CRD A oos CST Level A 31 ft . TORUS WATER LEVEL inches 129 4, Pumps B oos B 21 ft . DRYVELcPRESSURE ps9 12 4, 11 SBGT 13 RB VENT TORUS PRESSURE ps 9 00 ,, A insryc isolated CONTAIN H CONC. % 0 ,, B avail R B d 'p -0 25 _ inches H.-O CONTAIN O CONC 2 % 2 <*
O Pt.Ps 97&A r4cmder s. tT97 1 AC FUWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT avail Loop A: A insrvc loop A: Rx Top Signal Manual C avail a vail S/U XFMR insrve Torus Cochng Mode S!D Locp Flow-S/D XFMR avail Switch Loop Flow 4.900 gpm 0 gpm EDG A avat! SBLC A avail Loop B. B instvc Loop B Pumps B avail D avati avail EDG B avail Torus Cochng SBLC TK LVL 4.300 gal toep pio, BODG avail Loop Flow 4.900 gpm 0 gpm S PCIS 6 COOLING WATER 7 HPCI R yuired Isolated RBCCW Loop A A instvc ; SSW Loop A A avail instic GP1 tJ Y (MSIVs) Pumps B instvc l Pumps B insrvc Pressure Control GP2 fJ Y (Pri Cont) C avail s LoopB D mstvc GP3 Y Y (SDC) LoopB D avail l E instvc GP4 N N (HPCI) E avai: Swmg C avait 8 RCIC GP5 N N (RCIC) F insrve '
~
avail GP6 N Y (RWCU) lBCUS~ ~ ~ ~ ~E ~ Rn's~rv~c~ ~ ~ ~ [ 5ea~Wat er' ~ ~ ~ ~ ~ ~ ~ ~i ' ~ ln~s~v~c ~ ~ ~
~r Bypassed AO-203-1 A mid pos Pumps B avail l Pumps B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A instvc Cond A insrvc TIME 1 00 THEND T4 --*1 Pumps 26 % speed Pumps B instvc REACTOR POVER % 2 ,,
C avail RPV PRESSURE psi 9
~
890 1 Recirc A insrvc Feed A insrvc RPV WATER LEVEL inches 30 ,, Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 116 4 10 CRD C *' 'l TORUS WATER TEMP deg F go t CRD A oos CST Level A 31 ft . TORUS WATER LEVEL inches 130 t Pumps B cos B 31 ft . DRYVELL PRESSURE psig 12 4, 11 SBGT 13 RB VENT TORUS PRESSURE psig 00 ,, A insrvc isolated CONTAIN H: CONC. % 0 ,. B avail RB d!p -025 inches H.O CONTAIN, O2 CONC- % 2 .,
nos v.oss em s. tw 1 AC PvWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT avail Loop A: A mstvc Loop A. Rx Top Sgnal Manual C avail avail S/U XFMR instvc Torus Coolmg Mode SID Loop Flow S/D XFMR ava:I Switch Loop Flow 4.900 _ gpm 0 gpm EDG A avail SBLC A avail LoopB: B insryc LoopB Pumps B a vail D avail ava:l EDG B avail Torus Cooling SBLC TK LVL 4.300 gal (nop pig, BODG avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RBCCW Loop A A insrvc l SSW Loop A A avail te:stvc GP1 r4 Y (MSIVs) Pumps B insrvc ,' Pumps B instvc Pressure Control GP2 tJ Y (Pri Cont) C avail l Loop B D insrvc GP3 Y Y (SDC) LoopB D avail l E instvc GP4 TJ N (HPCI) E ava:I , Swmg C avail 8 RCIC GP5 N N (RCIC) F instvc !
~ ~ avail GP6 N Y (RWCU) TBCC 5~ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ insh c~~~ ~ I 5ea~dit er~ - ~ ~ ~ ~ ~ ~ ~ ~f - - ~ ~nsR c - - - -
Bypassea AO-203-1 A med pos Pumps B avail l Pumps B insryc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A snsrvc Cond A insrvc TIME 1:15 TRENDT.--,1 Pumps _ 26 % speed Pumps B instvc REACTOR POWER % 2 ,, C ava,I RPV PRESSURE psig 850 1 Recirc A insrvc Feed A insrec RPV WATER LEVEL inches 30 ,, Pumps 26 % speed Pumps B avail DRYVELL TEMP den F 115 10 CRD C avail TORUS WATER TEMP deg F 81 t CRD A 005 CST Level A 31 ft TORUS WATER LEVEL inches 130 ,, Pumps B cos B 31_ ft. DRYVELL PRESSURE ps9 1.2 ,, 11 SBGT 13 RB VENT TORUS PRESSURE psig 00 ,, A insryc isolated CONTAIN H CONC. 2 % 0 ,, B avail RB d'p -0 25 inches H.O CONTAIN O, CONC % 2 ,,
^
A 'N M # s 971E A h-4,; s 1997 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode L4 CS UAT avail Loop A: A insrvc Loop A Rx Tnp Segna! Manual C avail ava,g S/U XFMR instvc Torus Coohng Mode S/D toop prow S/D XFMR ava:1 Switch Loop Flow 4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B~ B insrve Loop g Pumps B avail D aval avail EDG B avail Torus Cochng SBLC TK LVL 4.300 gal toop pio, BODG ava:.1 Loop Flow 4.000 _ gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required isolated RBCCW Loop A A insrve ; SSW Loop A A avail insrvc GP1 N Y (MSIVs) Pumps B insrve l Pumps B insrvc Pressure Control GP2 N Y (Pri Cont) C avail l Loop B D insrve GP3 Y Y (SDC) Loop B D avail l E insrve GP4 N N (HPCI) E avail l Swing C avail
~
8 RCIC GP5 N N (RCIC) F insryc ! ava:t GP6 N Y (RWCU) lBC65 E-~ln'sIv~c~ ~ 7 5e~a~ ilater~ - ~ ~~ ~~ - ~f ~ ~ ~ In~s5 c~ ~ ~~ Bypassed A.O-203-1 A mid pos Pumps B avail l Pumps B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recisc A insrvc Cond A instvc TIME 1.30 TREND T,--.1 Pumps 26 % speed Pumps B insrvc REACTOR POWER % 1 1 C avail RPV PRESSURE psig 780 1 Recirc A insrvc Feed A insrvc RPV WATER LEVEL inches 30 ,, Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 115 ,, 10 CRD C avail TORUS WATER TEMP deg F 82 7 CRO A oos CST Level A 31 ft. TORUS WATER LEVEL inches 130 ,, Pumps B oos B 31 ft. DRYVELL PRESSURE psig 1.2 .. 11 SBGT 13 RB VENT TORUS PRESSURE pseg oo ,, A oos isolated CONTAIN. H, CONC. % 0 ,, B insrvc RB d!p -0 25 inches H.O CONTAIN. O2 CONC. % 2 ,,
p.es 97e ss 4 te.+n+ s. tw 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS
^
UAT ava+1 Loop A' A instyc Loop A: Rx Tnp Signal Manual C avail avail S/U XFMR insryc Torus Cooling Mode S!D toop Flow. S/D XFMR avail Switch Loop Flow 4.900 gpm 0 gpm EDG A avail SBLC A avari LoopB. B insrvc loop B-Pumps B avail D avail avail EDG B avart Torus Cooling SBLC TK LVL 4.300 gal toopp;ow BODG avait Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isotated RBCCW Loop A A instvc ; SSW Loop A A avail insrve GP1 N Y (MSIVs) Pumps B insrvc l Pumps B msrvc Pressure Control GP2 N Y (Pn Cont) C avai! l LoopB D insrvc GP3 Y Y (SDC) Loop B D avai! l E ensrve GP4 N N (HPCI) E avail , Swing C ava:I I 8 RCIC GPS N N (RCiC) F insryc , ava:t GP6 N Y (RWCU) ~TBC65~~~~~~~~~~A ~ Rnsrvc-~ ~ T5e~a 6 ter~ ~ ~ ~ ~ ~ ~ ~ ~A - - ~ ln'srQ ~ ~ - ~ Bypassed AO-203-1 A med pos Pumps B avail l Pumps B insrvc 9 RECIRC 12 FEED /COND CRIT! CAL PAR
- METERS Recirc A insryc Cond A insrvc TIME 1 45 TREND T4-->l Pumps __ _26 % speed Pumps B insrvc REACTOR POVER % 1 ,,
C avail RPV PRESSURE pseg 700 1 Recirc A insrvc Feed A insrvc RPV WATER LEVEL rnches 30 ,, Pumps 26 % speed Pumps B avat! DRYVELL TEMP dyF 114 4 10 CRD C avail TORUS WATER TEMP deg F 83 7 CRD A oos CST Level A 31 ft TORUS WATER LEVEL inches 130 ,_, Pumps 8 cos B 31 ft. DRYVELL PRESSURE psig ii 4 11 SBGT 13 RB VENT TORUS PRESSURE psig oo ,, A oos isolated CONTAIN H, CONC. % 0 .. B insrvc RB d.'p -025 inches H O CONTAIN. O2 CONC. % 2 ,,
^
ergs waa ex .e---te s. t ear 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT avai; Loop A- A instvc Loop A-Rx Tnp signal Manual C avail avail S/U XFMR insrvc Torus Cooling Mode S!D Loop Ficw S/D XFMR avat! Switch Loop Flow 4.900_ gpm 0 gpm EDG A a vail SBLC A ava:1 Loop B B insive LoopB. Pumps B avad D avail a vail EDG B avar! Torus Cooirng SBLC TK LVL 4.300 gal toop pig, BODG avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Reovered Isolated RBCCW Loop A A insrve ; SSW Loop A A avail rnsrvc GP1 N Y (MSIVs) Pumps B insrve l Pumps B insrvc Pressure Control GP2 N Y (Pro Cont) C avail l LoopB D instvc GP3 Y Y (SDC) LoopB D avail l E insrve GP4 N N (HPCI) E avail l Swing C avai! 8 RCIC GP5 N N (RCIC) F insrvc ! avM GP6 N Y (RWCU) ~TBC6f/~~~~~~ ~ ~A - ~ ~ ~ds~rv~c~ ~ ~ ~ I 5ea flater- - - ~ ~ ~ ~ - ~f ~ - in'sIv' - ~ - ' Bypassed AO-203-1 A mid pos Pumps B 9 vail l Pumps B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A snsrvc Cond A insrvc TIME 2 00 TRENDT.--,1 Pumps 26 % speed Pumps B insrvc REACTOR POVER % 1 ,, C avail RPV PRESSURE psi 9 620 i Recirc A insryc Feed A insrvc RPV WATER LEVEL inches 30 ., Pumps 26_ % speed Pumps B avail DRYVELL TEMP deg F 114 ,, 10 CRD C avail TORUS WATER TEMP deg F 83 ., CRD A 003 CST Level A 31 ft . TORUS WATER LEVEL inches 131 7 Pumps B oos B 31 ft. DRYVELL Pr+2SSURE ps:9 1.1 11 SBGT 13 RB VENT TORUS PRES SURE psig oo ,, , A oos isolated CONTAIN. H CONC. % 0 .. 8 insrvc RB d/p -0 2_5, inches H2 O CONTAIN O2 CONC. % 2 .,
P?4Ps 97 os A P4over-tee $ 1717 1 AC POWER SOURCEF 2 SAFEGUARDS 3 RHR Mode l 4 CS UAT ava,1 Loop A: A insrve Loop A Rx Trip Signal _ Manual C avail avail S/U XFMR insrve Torus Cochng Mode S/D Loop Flow S/D XFMR avail Switch Loop Flow 4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B. B insrve Loop B Pumps B avail D avail a vail EDG B avail Torus Cochng SBLC TK LVL 4.300 gal Loop Flow BODG avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI P quered Isolated 2 RBCCW Loop A A insrvc lSSW Loop A A ava:i instvc GP1 tJ Y (MSIVs) Pumps B insrvc l Pumps B insrvc Pressure Control GP2 N Y (Pri Cont) C avail l LoopB D msrvc GP3 Y Y (SDC) Loop B D avail l E instvc GP4 N N (HPCI) E avatl l Swing C avail 8 RCIC GP5 N N (RCIC) F insrvc ! - avail GP6 N Y (RWCU) lBdC5~~~~~~~~ A Un~s~rv~c~ ~ ~ ~ [ Sea 5ater- ~ ~ ~ ~ ~ ~A ~ ~ ~ In~sr~v- ~ ~ ~ ~ Bypassed AO-203-1 A med pos Pumps B avail l Pumps ts instvc 9 RECIRC 12 FEED /COND CRITICAi_ PARAMETERS Recirc A insryc Cond A msryc TIME 2 15 TRENDT.->J Pumps _ _26 % speed Pumps B msrvc REACTOR POWER % 1 ,, C avail RPV PRESSURE pstg 540
~ 1 Recirc A insrvc Feed A insrvc RPV WATER LEVEL inches 30 ,,
Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 114 ,, 10 CRD C avail TORUS WATER TEMP deg F S3 ,, CRD A oos CST Level A 31 ft . TORUS WATER LEVEL inches 131 ,, Pumps B oos B 31 ft. DRYVELL PRESSURE psig i1 ,. 11 SBGT 13 RB VENT TORUS PRESSURE psig 01 t A oos isolated CONTAIN H, CONC. % 0 ,, B instvc RB d:p -0 25 n ches H;O CONTAIN. O, CONC. % 2 ,,
g
^
mes rosa % e s. w 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT avail Loop A- A instvc Loop A: Rx Top Segnal Manual C avait avail S/U XFMR insrvc Torus Coolmg Mode S/D Loop Flow SiD XFMR avail Switch Loop Flow 4.900 gpm o g3n l EDG A avail SBLC A avail Loop B: B nstvc toep g Pumps B avail G avari avail EDG B avail ' Torus Coo:ing SBLC TK LVL 4.300 gal Loop Flow BODG ava,i Leop Flow 4 90g_ gpm 0 ppm 5 PCIS 6 COOLING WATER 7 HPCI R guired Ispiated RBCCW Loop A A instyc ;SSW Loop A A avail insrvc GP1 TJ Y (MSIVs) Pumps B insrvc l Pumps B instvc Pressure Control GP2 PJ Y (Pri Cont) C avail l LoopB D instvc GP3 Y Y (SDC) Loop B D avail l E instvc ! GP4 PJ f. (HPCI) E avail l Swing C avail 8 RCIC GP5 t4 f4 (RCIC) F insryc
~~
s avail GP6 PJ Y (RWCU) ~ TBC65-~ E~ in~sEc~ ~ T 5ea d'ater"~ ~ ~ ~ ~ ~f ~ ~ ~ Irisivc ~ ~ '- Bypassed AO-203-1 A med pos Pumps B ava>I l Pumps B insryc ' 9 RECIRC 12 FEED /COf.O CRITICAL PARAMETERS Recirc A msrve Cond A instvc TIME 2 30 TREtJD T4 -- *1 Pumps 26 % speed Pumps B instvc REACTOR POWER % 1 ,, C avarl RPV PRESSURE psig 470 4 Recirc A msrvc Feed A insrvc RPV WATER LEVEL inches 30 ., Pumps 26 % speed Pumps B avail DRYVELL TEMP deg F 114 ,, 10 CRD C avail TORUS WATER TEMP deg F 83 ., CRD A cos CST Level A 31 ft . TORUS WATER LEVEL inches 131 ,, , Pumps 8 oos B 31 ft. DRYWELL PRESSURE psg 11 ,, 11 SBGT 13 RB VENT TORUS PRESSURE pseg 0.1 ,, A oos isolated COfJTA tJ H: COf4C % o ,, B insrvc RB d/p -025 inches H;O COf4TAltJ O: COPJC % 2 ,,
1 AC POWER SOURCES er4es 97.osa 2 SAFEGUARDE h 3 RHR e.a = s.$997 Mode 4 CS UAT avail Loop A: A insrvc Loop A-Rx Trip Segna! Manual C avait avasi S/U XFMR insryc Torus Cochng Mode SID Loop Flow: S/D XFMR avail Sw:tch Loop Flow 4.900 gpm 0 gpm EDG A a vail SBLC A avail , LoopB- B msrvc Loop g. Pumps B ava.1 D avail avail EDG B ava:I Torus Cochng SBLC TK LVL 4.300 gal Loop Flow-BODG wail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RBCCW Loop A A insrve ; SSW Loop A A avail insrvc cp1 rd Y (MSIVs) Pumps B insrvc l Pumps B insrvc Pressure Control GP2 N Y (Pn Con!) C avai! l LoopB D insrvc GP3 Y Y (SDC) Loop B D avail l E insrve GP4 N f4 (HPCI) E ava:I Swing C av t! 8 RCIC GP5 N N (RCIC) F insrve ' avail GP6 N Y (RWCU) ' TBC65~ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ 'in~sEc~ ~ ~ ~ [ 5ea~f5t er~ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ ~n~s~rv~c ~ ~ ~ ~ ' Bypassed AO-203-1 A med pos Pumps B avail ' Pumps
, B insryc 9 RECIRC 12 FEEDICOND CR'TICAL PARAMETERS Recirc A insryc Cond A rnsryc TIME 2 45 TRENDf*--,1 Pumps 26 % speed Pun.ps B insrvc REACTOR POWER % 1 ,,
C avail RPV PRESSURE psg 410 Recirc A insryc Feed A insryc RPV WATER LEVEL inches 30 4 Pumps _ 26 % speed Pumps B avail DRYWELL TEMP deg F 114 ,, 10 CRD C avail TORUS WATER TEMP deg F 84 y CRD A ons CST Level A 31 ft TCRUS WATER LEVEL inches 131 ,, Pumps B oos B 31 ft. DRYWELL PRESSURE psig 1.i ,, 11 SBGT 13 RB VENT TORUS PRESSURE psig o1 ,, A oos isolated CONTAIN H CONC. 2 % 0 ., B insrvc RB dip -O25 inches H.O CONTAIN. O, CONC % 2 ,,
Pf6PS 974S A bemt:er S.1997 v/ 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT av*l Loop A: A insrvC Loop A Rx Tnp Sgna! Manual C avad avail S/U XFMR :nsrvc Torus Cochng Mode S/D Loop Flow S/D XFMR avail Switch Loop Flow 4.900 gpm O gpm EDG A avail SBLC A avail LoopB- B insrve LoopB Pumps B avail D avait avail EDG B avaii Torus Cooting SBLC TK LVL 4.300 gal toop pgow SODG avail Loop Flow 4.900_ gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isotated RBCCW Loop A A insrvc l SSW Loop A A ava! mstvc GP1 N Y (MSIVs) Pumps B insrvc l Pumps B insive Pressure Control GP2 N Y (Pri Cont) C avail l LoopB D insrvc Loop B ' GP3 Y Y (SDC) D avail , E insrvc GP4 N N (HPCI) E avail l Sw:ng C avait 8 RCIC GP5 N N (RCIC) F instvc l avail GP6 N Y (RWCU) ' iBCd5~ ~ ~ ~ ~ ~ ~ ~ ~ ~A ~~~ irIdv~c~ ~~ ~ [ 5e~a $at er~ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ In~sIv~c ~ ~ ' ~ Bypassed AO-203-1 A md pos Pumps B avail l Pumps B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A insryc Cond A insryc TIME 3 00 TRENDT. .1 Pumps 26 % speed Pumps B insrvc REACTOR POWER % 1 C avail RPV PRESSURE psig 360 i Hecirc A instvc Feed A insrvc RPV WATER LEVEL inches 30 ,, Pomps 26 % speed Pumps B ava:I DRYVELL TEMP deg F 113 1 10 CRD C avail TORUS WATER TEMP deg F 84 ,, CRD A cos CST Levei A 31 ft . TORUS WATER LEVEL inches 132 7 Pumps 8 oos B 31 ft. DRYVELL PRESSURE psi 9 1.1 ., 11 SBGT 13 RB VENT TORUS PRESSURE psg o1 ,, A insryc isolated CONTAIN H CONC. 2 % 0 ., B avail RB d'p -0 25_ inches H,0 CONTAIN 0: CONC % 2 ,,
m wssm a re s tw 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT avail Loop A: A mstvc Loop A' Rx Trip Signal Manual C avari avasi S/U XFMR msrvc Torus Cooling Mode SID Loop Flow: S!D XFMR avail Switch Loop Flow 4.900 gpm 0 gpm EDG A avati SBLC A avail Loop B. B instvc Loop B Pumps B avail D avati avail EDG B avail Torus Cocling SBLC TK LVL 4 300 gal Loop Flow DODO avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Rer2urred Isolate _d RBCCW Loop A A instvc , SSW Loop A A avail insryc GP1 N Y (MSIVs) Pumps B n'evc l Pumps B instvc Pressure Control GP2 N Y (Pri Cony C avail l Loop B D insrve GP3 Y Y (SDC) LoopB D avail l E mstvc GP4 N N (HPCI) E avail l Swing C avat! 8 RCIC GP5 N *1 (RCIC) F instvc l avad lB6C5~~ ~ ~~
~
GP6 f2 Y (RWCU) E ~ ~ In~dv'c' - ~ T 5ea~Wat r' ~ ~ ~ ~ "- ~A ~ - - insrvi ' ~ Bypassed A0-203-1A med pos Pumps B avail ' Pamps
, 6 msrvc 9 RECIRC 12 FEEDICOND CRITICAL PARAMETERS Recstc A insrvc Cond A instvc TIME 3 15 TREND T4--.1 Pumps 26 % speed Pumps B insryc REACTOR POWER % 1 ,,
C avail RPV PRESSURE pseg 320 1 Recuc A. insryc Feed A insrvc RPV WATER LEVEL inches 30 ,, Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 113 ,, 10 CRD C avail TORUS WATER TEMP deg F 84 ,, CRD A oos CST Level A 31 ft TORUS WATER LEVEL inches 132 ,, Pumgs B instvc 8 __ 31 ft- DRYVELL PRF.SSURE psig 10 1 11 SBGT 13 RB VENT TORUS PRESSURE psig 01 ,, A insryc isolated CONTAIN. H, CONC. % 0 ,, E, avail RB d/p -025 inches H.O CONTAIN O CONC. 2 % 2 ,,
s as ma ne 5. ro: 1 AC P ER SOUh0ES 2 SAFEGUARUS 3 RHR Mode 4 CS UAT avail Loop A: A instvc Loop A-Rx Tnp Segnal Manual C a vail ava:I S/U XFMR mstvc Torus Cooting Mode S/D toop pg3w. S/D XFMR avail Swdch Loop Flow 4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B: B ansrvc LoopB Pumps G avail D avasi va:I EDG B avati Torus Cooling SBLC TK LVL 4.300 gal toop pio, BODG avail Loop Flow 4.900 gpm 0 gum 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RBCCW Loop A A insryc ,SSW Loop A A ava'l insrvc GP1 N Y (MSIVs) Pumps B insrvc l Pumps B instvc Pressure Control GP2 tJ Y (Pri Cont) C avail l Loop B D insrve GP3 Y Y (SDC) Loop B D avail ' E insrvc GP4 N N (HPCI) E avai! Swing C avait s 8 RCIC GP5 N N (RCIC) F insrve l avail GP6 N Y (RWCU) TBdd5~ ~ ~ ~ ~ ~ ~ ~A ~ 7n~s~rv~c~ ~ ~ ~ [ 5e~a'5ater~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ ~in~sr~vE - ~ Bypassed AO-203-1 A med pos Pumps B avat! l Pumps B enstvc 9 RECIRC 12 FEED /COND CRITICAL PAR.AMETERS Rearc A instvc Cond A insrvc TIME 3 30 TRENDT --,1 Pumps 26 % speed Pumps B insrvc REACTOR POVER % 1 ,, C avail RPV PRESSURE psig 285 l 1 Reorc A insrvc Feed A instvc RPV WATER LEVEL inches 30 4, Pumps 26 % speed Pumps B avail DRYVELL TEMP deg F 113 ,, 10 CRD C avail TORUS WATER TEMP deg F 84 ,, CRD A oos CST Level A 31 ft . TORUS WATER LEVEL inches 132 .* Pumps B insrvc B 31 ft . DRYWELL PRESSURE pseg 10 ,, 11 SBGT 13 RB VENT TORUS PRESSURE pseg 0.1 ,, A insrvc isolated CONTAIN H: CONC % 0 ., B ava:I RB d/p -0 25 inches H.O CONTAIN O, CONC % 2 ,,
p
^
pues 97&> A h e 5 M7 1 AC PcrWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT ava:I loop A: A insryc Loop A: Rx Top S+gnal Manual C ava:I avail S/U XFMR insrvc Torus Cochng Mode S.O Lcep Flow: S/D XFMR avaig Swech Loop Flow 4.900 gpm 0 gpm EDG A ava;l SBLO A avail LoorB: B instvc Loop B. Pumps B avail D avait avad EDG B avail Torus Cochng SBLC TK LVL 4 300 ga: toop pio, BODG avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RSCCW Loop A A msavc , SSW Loop A A ava:1 instyc GP1 N Y (MSIVs) Pumps B insrvc ,' Pumps B insrvc Pressure Control GP2 N Y (Pn Cont) C avail l Loop B D insrvc GP3 Y Y (SDC) Loop B D ava:t l E insrvc GP4 N N (HPCI) E avari l Sring C avait 8 RCIC GP5 N N (RCIC) F instvc !
~
avat! GP6 N Y (RWCU) TEid65-~~~~~~~~~A ~ ~ ln'sh'~c~ ~ ~ ~ [ 5eaEater~~~~~~~~~A ~~'In~srvc~~~~ Bypassed A_O-203-1 A med pos Pumps B avail l Pumps B instvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A inuvc Cond A instyc TIME 3 45 TRENDT ->1 Pumps 26 % speed Pumps B insrvc REACTOR POWER % 1 ,, C avail RPV PF. ESSURE ps+g 265 1 Reorc A insrvc Feed A instvc RPV WATER LEVEL inches 30 ,, Pumps __26 % speed Pumps B avail DRYVELL TEM deg F 113 ,, 10 CRD C avail TORUS WATER TEMP deg F 85 i CRD A oos CST Level A 31 it TORUS WATER LEVEL inches 132 ,, B 31 ft Pumps B insrvc DRYWELL PRESSURE psig B- ,, 11 SBGT 13 RB VENT TORUS PRESSURE ps'9 02 i l A insrvc isolated CONTAIN H, CONC. % O ,, B avail F B d!p -025 inches H.O CON TAIN. O, CONC. % 2 ,,
~
ngsgaa se s tvu 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode !4 CS UAT avail Loop A: A insrvC Loop A-Rx Top Segnal Manual C avad avad S/U XFMR msryc Torus Cochtg Mode S/D Loop Flow-S/D XFMR avail Switch Loop Flow 4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B. B insrvc , Loop B Pumps B avarl D avail ' avad EDG B avad Torus Cochng SBLC TK LVL 4.300 gal Loop pro, BODG avail Loop Flow 4.900 gpm 0 ppm 5 PCIS 6 COOLING WATER 7 HPCI Pequired Isolated RBCCW Loop A A insrvc ; SSW Loop A A as att ensryc GP1 r4 Y (MSIVs) Pumps B insrve l Pumps B instvc Pressure Control GP2 t4 Y (Pn Cont) C avail l LoopB D instvc GP3 Y Y (SDC) Loop B D avail l E instvc GP4 N N (HPCI) E avail l Swing C avail 8 RCIC GP5 N N (RCIC) F instvc l avad GP6 N Y (RWCU) ^TBC65~ - ~ ~ ~--- - E - - inEvc---- [ 5ea~fdts- ~ ~ ~ - ~ -- K ' - - n~M' ' ~ ~ Bypassed AO-203-1 A med pos Pumps B avail l Punips B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A instvc Cond A instvc TIME 4 00 TREND T.--*1 Pumps 26 % speed Pumps B insrvc REACTOR POWER % i ,, C avail RPV PRESSURE ps9 250 1 ' Recirc A instvc Feed A rnsrvc RPV WATER LEVEL inches 30 ,, Pumps 26 % speed Pumps B avail DRYWELL TEMP degF 133 ,, 10 CRD C avail TORUS WATER TEMP deg F 85 ,, CRD A 003 CST i_evel A 31 ft . TORUS WATER LEVEL inches 33 t Pumps B insrvc B 31 ft DRYWELL PRESSURE psg 1.0 ,, 11 S8GT 13 RB VENT TORUS PRESSURE ps*9 02 ,, A instvc isolated CONTAIN. H CONC % 0 ,, B avwl RB d!p -025 inches H.O CONTAIN O; CONC % 2 ,,
evsvosa sesw 2 SAFEGUARDS 3 RHR Mcde 4 CS 1 AC PGWER SOURCES Loop A- A msryc Loop A. UAT avail Rx Trip Segna! Manual C avail avail Terus Cochng S/U XFMR instvc Mode S/D Lacp Flew Sw:tch Loop Flow 4 900 cpm 0 , gpm StD XFMR avat! ava,i SBLC A avail loop B. B msryc Loop g. EDG A Pumps B avail D avail ava! Torus Coot ng EDGB avail SBLC TK LVL 4.300 _ gal Loop Flew avai! Loop Flow 4.900 gptn 0 gpm BODG PCIS 6 COOLING WATER 7 HPCI 5 RBCCW Loop A A insryc ; SSW Loop A A avasi avati R m urred Isolated Y Pumps B msrvc l Pumps B sosryc GP1 tJ (MSIVs) C avail l LoopB D rnsrvc GP2 tJ Y (Pri Cont) Y LoopB D avail l E insrvc GP3 tJ (SDC) Y E avail l Swing C avari 8 RCIC GP4 Y (HPCI) fJ F rnsrvc l , GP5 tJ (RCIC) GP6 N Y (RWCU) lBdd?[~~~~~ ~ 'A ~ Rn's v~c~ ~ T 5ea~f5ter- ~ ~ ~ ~ ~ ~ ~ ~f - - - risIv~c ~ Pumps B avail l Pumps 8 mstvc Bypassed AO-20?-1 A med pos 9 RECIRC 12 FEED!COND CRITICAL PARAMETERS A Cond A insryc TIME 4 15 TREtJD T4 -,1 Recirc insrvc 26 % speed Pumps B insrve REACTOR PO'*ER % 1 ,, Pumps C avail RPV PRESSURE psig 60 1 A msrvc Feed A rnsryc RPV WATER LEVEL encheS 30 ., Recirc Pumps 26 % speed Pumps B avait rHYVELL TEMP deg F 112 C avail .:*- ' VATER TEMP deg F 85 ., 10 CRD A oos CST Level A 31 ft. inches 133 ,, CRD ?..].UF VATER ! EVEL Pumps B insrvc B 31 ft i DRYW IPRFSSURE pssg io 1 ,, 11 A SSGT insryc 13 RB VENT 8solated []JS -{
' ' ' ~ .4 H2 Cots ps'9 02 0
B avail RB d'p -025 inches H,0 l Coi4TAIN O: COrJC. % 2 4,
IT .. . _ e ._ e 1 AC POWER SOURCES 2 SAFEGUARDS 3 loop A: RHR A instvc Mods ~ ~} ~6s -
~ ; w, A UAT avail C avm! 3;;u g Rx Tnp Segna! Manual _
I Ton:s Cocmg S/U XFMR insrvc ' S!D ,, ,, Made Sw:tch Loop Flow 4.900 gpm 0 gpm S/D XFMR avail f SBLC A avail Loop B: B enstvc . gep g J EDG A avail Pumps B avail D avail avail wa.I e Torus Coo!rnt FDG B SBLC TK LVL 4.300 gal Loop FN Loop Flow 4 h30 9 Pin 0 gpm BOD 3 avail PCIS 6 COOLING WATER 7 HPCI 5 Fequrfed Iso!ated RBCCW Lenp A A instvc , SSW Loop A A avail avail Y ;fadIVs) Pumps B insryc l Pumps a en3,vc GP1 N C avail loop B D ensrvc GP2 N Y (Pri Cont) j D avail E insryc Y (SDC) Luco B l GP3 N E avait ', Sver g C ava:1 8 RCIC GP4 Y Y (HPC8) F insivc ,' avait I GP5 N N (RCIC) I GP6 N Y (RWCU) ' i5555 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ lns~nIc~ ~ ' ~ " 5ea'5hr~ ~ ~ ~ ~ ~ ~ ~ ~f ~ ~ ~ InJv~ ~ ~ ~ ~ Fumps B ava:I l 5' umps B instvc Bypassed A_'_-203
- A med e;s RECIRC 12 FEED /COND CRITICAL PARAMETERS 9
Cond A snstvc TIME 4 30 T R E N D T. - ,1 Rc;irc A insrvc
% speed Pumps B insrvc REACTOR POWER % 1 .,
Pemps 26 C avail RPV PRESSURE ps>9 50 1 A insryc Feed A ens.Nc RPV WATER LEVEL inches 30 .. Recirc
% sgeed Pumps B avai' DRYVELL TEMP deg F 112 ..
Pumps 26 C avail TORUS WATER TEMP deg F 85 .. 10 CRD A cos CST Level A 31 L TORUS WATER LEVEL inches 133 ,, CRD instvc B 31 ft . DRYWELL PRESSURE pseg 1.0 ,, 8 Pumps G 13 R8 VENT TORUS PRESSURE ps89 02 ., 19 SBGT rso!ated CONTAIN. H, CONC. % 0 A instvc 4, RB d!p -025 inchesfi.O CONTAIN O, CONC % 2 ,, B avail
n
^
Pt.Ps97 M A h i+ s 1997 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT a<ad L%p A: A msNC Loop A: Rx Trip Segnal Manual C avail avad S/1) XFMR % <c Torus Cooing Mode S/D tooppio. SID XFMR avail Sw:tch Loop Flow 4.900 gpm 0 gpm EDG A ava:1 GBLC A avad Loop B. B instvc Loop B Pumps B avad D avait avad EDG B avail Torus Cooling SBLC TK LVL 4.300__ gal Loopprow. BODG avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Rggq lsotated RBCCW Loop A A insrvc l SSW Loop .* A avail avad GP1 N Y (MSIVs) Pumps B insrvc Pumps B instvc GP2 N Y (Pri Cont) C avail l LoopB D insrve GP3 N Y (SDC) Loop B D avail l E instvc GP4 Y Y (HPCI) E avail , Swing C avail 8 RCIC GD5 N N (RCIC) F insryc l avad GP6 N Y _ _ _ _ _ _ _ _ _ _ _ _ _ _ _A_ _ _ _ _insrvc (RWCU) _ TBCCW _ _ _ _ _ - _ 7, _Se a Wa t er A mstvc Bypassed AO-203-1 A mid pos Pumps B avad ,' Pumps B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A instvc Cond A insryc TIME 4 45 TRENDT. -,1 Pumps 26 % speed Pumps B instvc REACTOR POWER % 1 ,, C asa:I RPV PRESSURE pseg 60 t Recirc A insrvc Feed A insryc RPV WATER LEVEL mches 30 ,, Pumps 26 % speed Pumps 3 avait DRYWELL TEMP deg F 112 ., 10 CRD C avad TORUS WATER TEMP deg F e6 ; CRD A oos CST Level A 31 - TORUS WATEP LEVEL inches 133 ,, Pumps B mstvc B 31 ft DRYWELL PRESSURE psig 1.0 ., 11 SBGT 13 RB VENT TORUS PRESSURE psig 02 .. A mssc isciated CONTAIN H CONC.2 % 0 ., B avad RB d!p -025 inches H;O CONTtiN O, CONC. % 2 .>
s
^
pups 97cs A tw e e 5 5997 1 AC PCWER SOURCES 2 SAFEGUARDS 3 RHR Mode 14 CS UAT avail Loop A: A instvc
- oop A-Rx Tr p Sqnal Manual C avait avarl S/U XFMR insrvc Torus Cooling Mode SO Loop Flew SO XFMR ava:t Switch Loop Fit v 4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B: B insrvc Loop B.
Pumps B avail D avait avail EDG B avail Torus Coo'ing SBLC TK LVL 4.300 gal Loop Flow. BODG avail Loop Flow 4.900_ gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RBCCW Loop A A instvc ; SSW Loop A A avati avail GP1 N Y (MSIVs) Pumps B insryc l Pumps B insrvc GP2 fJ Y gPri Cont) C avail l LoopB D insrvc GP3 N Y (SDC) LoopB D ava;l l E insrve GP4 Y Y (HPCI) E avail Swing C avait 8 RCIC GP5 fJ N (RCIC) F insryc , , GP6 N Y (RWCU) ~TBCd5~ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ ~ insrvc~~ ~ ~ ~ ~ ~ [ 5ea'5aler~ ~ ~ ~ ~ ~ ~ ~ ~K - ~ in3ic- - - Bypassed AO-203-1 A mid pos Pumps B avail l Pumps B instvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A insrvc Cood A enstvc TIME 5 00 TRE*JD T< - >1 Pumps __26 % speed Pumps B instvc REACTOR POWER % 0 1 C avail RPV PRESSURE- psi 9 50 1 Recirc A insrvc Feed A insrvc RPV WATER LEVEL inches 3t, ,, Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 112 ,, 10 CRD i C avail TORUS WATER TEMP deg F 86 ,, CRD A ocs CST Level A 31 ft . TORUS WATER LEVEL inches 133 ., Pumps B insrvc B 31 ft DRYWELL PRESSURE psq 1.0 ,, 11 SBGT 13 RB VENT TORUS PRESSURE psig o.3 7 A insrvc isolated CONTAIN. H, CONC. % 0 ,, B avail RB d/p -0 25 inches h.O CONTAIN O, CONC % 2 ,,
^ .ws ves O
rm s tw G! 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT avail Loop A: A insrvc Loop A: Rx Tnp Signal Manual C ava:1 avail S/U XFMR rnsryc Torus Cooting Mode S. J Loop Flow S/D XFMR avail Switch 8,oep Flow 4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B: B instvc toopB Pumps B avail D avati avat! EDG B a vail Torus Cooling SBLC TK LVL 4.300 gal Loop Flow. BODG avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Pequired Isotated RBCCW Loop A A instvc ,SSW Loop A A avati ava.1 GP1 N Y (MS!Vs) Pumps B insryc l Pumps B insryc GP2 N Y (Pri Cont) C avail LoopB D instvc Loop B D avail ' GP3 N Y (SDC) , E insrve GP4 Y Y (HPCI) E avail l Swing C avail 8 RCIC GP5 N N (RCIC) F insrvc ! avail
~
GP6 N Y (RWCU) TBCC5~ ~ ~ ~ ~ ~ ~ ~ ~ ~E ~ ~ lndv~c~ ~ ~ ~ f 5e~a~6ater~ ~ ~ ~ ~ ~ ~ ~E - ~ ~ ln~sIv~c ~ ~ ~ ~ Bypassed AO-203-1 A mid pos Pumps B avail l Pumps B instvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A insrvc Cored A insryc TIME 5 15 TRENDT<.-,1 Pumps 26 % speed Pumps B insryc REACTOR POWER % 0 ., C avail RPV PRESSURE psig 60 t Recirc A insrvc Feed A insrvc RPV WATER LEVEL inches 30 ., Pumps 26 % speed Pumps B ava:t ~DRYV ILL TEMP deg F 112 ., 10 CRD C avail TORL'S WATER TEMP deg F 86 ,, CRD A cos CST Level A 31 ft TORUS WATER LEVEL inches 134 7 Pumps B insryc B 31 , ft. DRYWELL PRESSURE psig 1_o ,, 11 SBGT 13 RB VENT TORUS PRESSURE psig 0.3 ,,
~
A .nstvc esciated CONTAIN H: CONC. % 0 ., B avail RB d/p -025 inches H2 O CONTAIN O2 CONC. % 2 ,,
^
pr.ps 97w A f e s.t997 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode l4 CS UAT avail Loop A: A insryc toop A-Rx Top Sqnal Manual C avail ava>I S/U XFMR msrvc Torus Coobag Mode S/D toop pgaw S/D XFMR avail Switch Locp Flow _4.900 gpm 0 gpm EDG A avail SBLC A avail Loop B B insrvc toop g: Pumps B avail D avati avail EDG B avail Torus Cochng SBLC TK LVL 4.300 gal Loop Flow BODG avail Loop Flow 4.900 gpm 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI Requ: red Isolated RBCCW Loop A A insrve l SSW Loop A A ava:I aya3g GP1 N Y (MSIVs) Pumps B insrvc l Pumps B mstvc GP2 N Y (Pn Con') C aveI i Loop B D mstvc Loop B ' GP3 N Y (SDC) D avail i E insrvc GP4 Y Y (HPC!) E ava:1 l Swing C avail 8 RCIC GP5 N N (RCIC) F insryc l avail GP6 N Y (RWCU) 'MCdVII~~~~~~ ' A ~ - Esrvc~ ~ ~-[ 5ea' Water ~ ~ ~ ~ ~ ~ ~A - ~ ~ n~stvf ~ ~ ~ Bypassed AO-203-1 A mid pos Pumps B avail l Pumps B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A insrvc Cor.d A insrvc TIME 5 30 TREND T4 --,1 Pumps __26 % speed Purr.ps B instvc REACTOR POVER % 0 ,, C avail RPV PRESSURE psig 50 1 Recirc A instvc Feed A insrvc RPV WATER LEVEL inches 30 ,, Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 111 1 10 CRD C a vail TORUS WATER TEMP deg F 87 7 CRD A oos CST Level A 31 ft TORUS WATER LEVEL inches 134 ,, Pumps B insrvc B 31 ft DRYWELL PRESSURE psg io 11 SBGT 13 RB VENT TCPUS PRESSURE psy o3 ,, A msrvc isolated CONTAIN. H, CONC. % 0 ,, B avail RB dip -0 25 inches H.O CONTAIN. O, CONC. % 2 ,, ,
^
enes 97s4 % se,o.,s 1997 1 AC POWER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT ava41 Loop A: A instvc Loop A: Rx Top Signal Manual C a vail avad S/U XFMR insrvc Torus Coo 19 Mode S/D . Loop Flow. S/D XFMR avail Switch Loop Flow 4.900_ gpm 0 gpm EDG A avail SBLC A avail Loop B: B insrvc Loop B. Pumps B avail D avail avail EDG B avail Torus Cochng SBLC TK LVL 4.300 gal Loop Flow: BODG avail Loop Flow 4.900 gpi:' O gpm 5 PCIS 6 COOLING WATER 7 HPCI Required Isolated RBCCW Loop A A insrve ;SSW Loop A A avail aval GP1 N Y (MSIVs) Pumps B instvc l Pumps B insrve GP2 N Y (Pn Cont) C avail l Loop B D insrvc GP3 N N (SDC) Loop B D avail l E insrve - GP4 Y ( (HPCI) E avail l Swmg C avait 8 RCIC I GPS Y Y (RCIC) F insrve s avait
~~~~A "~ ln's~rv~c~ ~ ~ ~ I 5e~a~E5ter ~
TBCCf/-
~~~~~~~~~
GP6 N Y (RWCU) A ~ ~ ~ 'm~s~rv~c" ~ ' Bypassed AO-203-1 A mid pos Pumps B avail l Pumps B instvc 9 RECIRC 12 FEEDICOND CRITICAL PARAMETERS Recarc A instvc Cono A instvc TIME 5 45 TREND T4 -- .1 Pumps 26 % speed Purnps B insrvc REACTOR POVER % 0 .. L avail RPV PRESSURE y,9 46 1 Recuc A insrvc Feed A mstvc RPV WATER LEVEL inches 30 4, Pumps __26 % speed Pumps B avail DRYWELL TEMP deg F 111 ,, 10 CRD C avail TORUS WATER TEMP deg F 87 ,, CPD A 003 CST Level A 31__ ft. TORL , WATER LEVEL inches 134 ,, Pumps B instvc 3 31 fL DRYVELL PRESSURE psg 0 <, 11 SBGT 13 RB VENT TORUS PRESSURE psg o3 ,, A instvc isolated CONTAIN H CONC 2 _ % o R avail RB d/p -025 inches H;O CONTAIN O CONC. % - y ,,
(~3 PNPs 97-OS A [m) ( j hw 5 1W7 ( j) L 1 AC Pd?tER SOURCES 2 SAFEGUARDS 3 RHR Mode 4 CS UAT av*l Loop A: A rnsryc Leop A. Rx Trip signal Manual C avail avail S/U XFU R insryc Tcrus Coohng Mode SiD Loop Flow S/D XFr'R avat Switch Loop Flow 4.900 gp1 0 gpm EDG A avail SBLC A avail LoopB B instvc Loop g_ Pumps B avail D avail avai! EDG B avait Torus Cochng SBLC TK LVL 4.300 gal Loop Flow BODG avain Loop Flow 4.900 gyn 0 gpm 5 PCIS 6 COOLING WATER 7 HPCI R , red y Isolated RBCCW Loop A A instvc ; SSW Loop A A avail avail GP1 tJ Y (MStVs) Pumos B aris.vc ; Pumps B instvc GP2 N Y (Pri Cont) C avail l Loop B D insrve GP3 tJ N (SDC) LoopB D avail l E insric GP4 Y Y (HPCI) E avail l Swmg C ava*1 8 RCIC GP5 Y Y (RCIC) F insryc l avail GP6 f4 Y (RWCU) TBCCW A instvc _..-------_------------.---7--Wate' , Sea A mstvc Bypassed Pumos B avail ' Pumps B insrvc 9 RECIRC 12 FEED /COND CRITICAL PARAMETERS Recirc A insryc Cond A asryc TIME 6 00 TRENDT,-->l Pumps 26 % speed Pumps B insryc REACTOR POVER % 0 ,. C avail RPV PRESSURE pseg 4e ,, Recirc A insrvc Feed A ensryc RPV WATER LEVEL inches 30 ., Pumps 26 % speed Pumps B avail DRYWELL TEMP deg F 111 ,, 10 CRD C avail TORUS WATER TEMP deg F 87 ,, CRD A oos CST Level A 31 ft. TORUS WATER LEVEL irct es 134 ., Pumps B rosrvc B 31 ft DRYVELL PRESSURE p3rg 1.o ,, 11 SBGT 13 RB VENT TORUS PRESSURE psig 03 ,, A insryc isolated CONTAIN H CONC. 2 % 0 ,, B avail R B d'p -025 inches H.O CONTAIN O, CONC. % 2 ,,
- - RADIOLOGICAL ASSUMPTIONS
- 1. The postulated accident which occurs within the scenario will yield 25% clad damage Allin plant area radiation, airborne monitor!ng instrumentation and gerieral G' area information will reflect rneasurements consistent with this amount of damage.
The simulated radioactiva material released will consist of noble gases, radioiodines, and a small fraction of long lived particulate activity Release rates for the noble gasses were determined by the off site ob,lectives Noble gases and radioioo:re relative abundances released (Item 8) will be consistent with the postulated core damage activity, as determir ed using EPIP-300, " Core Damage" 2.11 ' dispersioi. factors used to calculate offsite data are thom derived for use with PNPS Dose Acsessment Program (DAPAR) centerline vas >
- 3. No filtering credit is allowed for the noble gases. Filtering efficiency for iudine and particulate removai via SBGT is taken to be approximately 99%.
- 4. Stack release concentrations are based upon a release flow rate of 4000 CFM for the high range monitor and 24,000 CFM for the normal range monitor. These flowrates are consistent with isolation of the reactor building ventilation, initiation of the Reactor Building Emergency ventilation system ind continued use of Weste Building, Off Gas Building, and Turbine Building (high) fans.
- 5. When the reactor scrams and the MSIVs close inboard MSIV on steamline "A" shows an iritermediate position (; e. not fully closeor Later the release path of radioactive mnierial will be from a broken two inch line in front of the outboard MSIV on steamline "A" Radioactive material will be released into the steam tunnel and
' exhausted through the Standby Gas Treatment system (SBGT) to the main stack and released to the environment. The Reactor Building atmosphere will show a buildup of airbnrne activity due to some 2 5% of the radioactive steam (consistent with a fuel gap release) escaping from the steam tunnel, to the RHR room, and into the Reactor Building Migration to other Reactor Building levels will occur over the course of the scenario.
6 Coolant release to the environment is utablished at approximately 50 GPM (3154 cc/sec) over the course of the steam leak 6 Field Survey Data: a The downwind gamma and child thyroid doses were determined using DAPAR centerline values, b Ingestion pathway and total population dose calcuiations are not demonstrated durino this exercise.
- c. All survey values are rounded off to provide reahstic survey meter responses.
d Air sample results (radiciodine net CPM) are calculated utilizing EPIP-440. lodine concentrations are used with an air sample volume of 20 ft3 , and an l [V) assumed Sam-l! efficiency of 1.5%. 97-06 Page 1 of 3 1997 Evaluated Exercise
L-s O RADIOLOGICAL ASSUMPTIONS e Assume ground level dose rates (mR/hr) are a factor of 12 of open window waist - high dose rates due to dose contribution of ground deposition for up to eight [ hours after the re%ase.
- 7. In Plant Data; a The fractions for the various radionuchdes are those listed in NEDO-22215
" Procedures for the Determination of Core Damage Under Accident Ccmdstions",
for gap release ratios. b The Steam Tunnel dose rates following the release were developed by alculating a centerpoint nersion dose in a aemi-infinite cloud of noble gases at 25% gap release, utilizing the formula-D = Xl
- DFi where:
D = gamma air dose Xj = concentration of nuclide i ( DFj = dose factor for exposure to a semi-infinite cloud of nuclide i. Dose factors were obtained from R'egulatory Guide 1.109, Table B-1, pp.1.109-21. t Where appropriate, the dose rates include contributions from various in-plant systems (i.e., piping, vent dwMg, etc ). These contnbutions also are reflected in the ARM readings. \ c Air sample resun were determined as described in 6 d. d Dose rates from pcwm:;aa int samples were calculated using the Radiological Health Handbook rum o mob: R/hr at 1 foot = 5.64xCxE, where C is the number of curies and E a the energy in MeV E is conservatively assumed to be 0 5 MeV for iodine and 0.7 MeV for noble gases Shielded values assume a 2 inch lead pig is used.
- f. It is assumed the reactor coolant reaches a maximum concentration within aproximately 30 minute
- after a reactor scram test was conducted resulting in
" cross tips" and some r ad damage. This maximum concentration is reduced by decay, emergency system operation and leakage / dilution.
- g. It is assumed the reactor has been operating for 180 days with no shutdowns at 1798 MWT (90% power) 97 06 Page 2 of 3 1997 Evaluated Exercise
~ RADISLQGICAL AssuMPTisN' h.- Onsite data will be provided to plant teams only when they perform appropriate i tasks and request specific information
- 8. Release Profile:
Noble Gas Release Rate Cbsec 4.00 4:15 4:30 4:45 5:00 6:15 6:30 5:45 8:00 lodine Release Rate 0 - II[hi 00 - - CUsec 4:00 4:15 4:30 4:45 5:00 5:15 5:30 6:45 6:00 , O 97-06 Pege 3 of 3 1997 Evaluated Exercise
WEATHER FORECA8T MESSAGE SOUTHERN NEW ENGLAND ZONE FORECASTS O NATIONAL WEATHER SERVICE, BOSTON MA. A c6lm region of air dominates the area over New England The high pressure center will remain for the majority of the next few days Winds will be i pt out of the northeast. Scattered clouds may develop late in the day with a light breezt coming in from the ocean. Outlook remains stable to the weekend when rain may move in from the west. GREATER BOSTON METROPOLITAN At4EA NORTHEASTERN, COASTAL, AND SOUTHEASTERN MA. This morning clear with high temperatures 70 to 75' Wind from the northeast 3 to 6 MPH.10% chance of precipitation. This afternoon clear with high temperatures 75* to 80 . Wind from the northeast 2 to 5 MDH.10% chance of precipitation, This evening scattered clouds with temperatures 75 to 80 Winds from the north 8 to 12 MPH.10% chance of precipitation. Tomorrow increasing cloudiness with daytime highs 75* to 80 Winds from the north to northwest 15 to 20 MPH.10% chance of precipitation. Long range forecast, scattered c!ouds with a 20% chance of rain. Daytime temperatures will range from 70 to 80 Winds will be from the west 10 to 15 MPH-CAPE COD AND THE ISLANDS, l SOUTH COASTAL, AND COASTAL R.I. This morning clear with high temperatures 70 to 75 . Wind from the northeast 4 to 6 MPH 10% chance of precipitation. This afternoon clear with high teraperatures 75 to 80 Wind from the northeast 3 to 5 MPH.10% chance of precipitation. This evening scattered clouds with temperatures 75 to 80 . Winds from the north 8 to 12 MPH.10% chance of precipitation. l Tomorrow increasing cloudiness with daytime highs 75 to 80 Winds from the north to northwest 15 to 20 MPH.10% cnance of precipitation. Long range forecast, scattered clouds with a 20% chance of rain Daytime temperatures will range from 70 to 80 Winds will be from the west 10 to 15 MPH l O 97-06 Page 1 of 1 1997 Evaluated Exercise
--mm -
9 Meteorological. nt and Flow Data l Meteorological Data Vent and Flow Data 160' Tower 33* Tower Delta T Air Temp SBGT RB Vent Mn Stack TB Vent Scenario 220' Tower CFM CFM MPH *From MPH 'From MPH 'F 'F CFM CFM Time *From 060 42 064 34 -1 5 70 ISOLATED 105.000 16.000 140.000 j 00:00 062 47 47 059 4.2 063 34 -1.5 70 4.000 ISOLATED 20.000 140.000 00:15 061 058 42 062 34 -1 5 70 4.000 ISOLATED 20.000 140.000 00:30 060 47 058 41 062 33 -1.5 71 4.000 ISOLATED 20.000 140.000 00:45 060 4e 057 4.1 061 33 -1 5 71 4.000 ISOLATED 20.000 140.000 01:00 059 46 46 056 4.1 060 3.3 -1.5 71 4.000 ISOLATED 20.000 140.000 01:15 058 i 45 056 40 060 32 -1.5 72 4.000 ISOLATED 20.000 140.000 01:30 058 46 055 41 059 33 -1 5 73 4.000 ISOLATED 20.000 140.000 01:45 057 4.5 054 40 058 32 -1.5 73 4.000 ISOLATED 20.000 140.000 02:00 056 053 40 057 32 -16 74 4.000 8SOLATED 20.000 140.000 02:15 055 45 052 39 GA 31 -1 6 74 4.000 ISOLATED 20.000 140.000 02:30 054 44 43 052 38 056 30 -1 6 75 4.000 ISOLATED 20.000 140.000 02:45 054 44 051 39 055 3.1 -1.6 75 4.000 ISOLATED 20.000 140.000 03:00 053 l 43 049 38 053 30 -1.6 76 4.000 ISOLATED 20.000 140.000 03:15 051 048 36 052 28 -1.6 76 4,000 ISOLATED 20.000 140.000 03:30 050 41 047 37 051 2.9 -1 6 77 4.000 ISOLATED 20.000 140.000 03:45 049 42 41 047 36 051 2.8 -1.7 78 4.000 ISOLATED 20.000 140.000 04:05 j 040 40 046 35 050 2.7 -1.7 78 4.000 ISOLATED 20.000 140.000 04:15 048 40 046 35 050 2.7 -1.7 79 4,000 ISOLATED 20.000 140.000 04:30 048 40 047 35 051 2.7 -1.7 80 4.000 ISOLATED 20.000 140.000 04:45 049 40 047 35 051 27 -1 7 80 4.000 ISOLATED 20.000 140.000 05:00 049 40 046 35 050 27 -1.7 81 4.000 ISOLATED 20.000 140.000 05:15 048 40 046 35 050 27 -1.7 81 4.000 ISOLATED 20.000 140,000 05:30 048 , 40 047 35 051 2.7 -1.7 82 l 4.000 ISOLATED 20.000 140.000 05:45 049 40 047 35 051 2.7 -17 81 4.000 ISOLATED 20.000 140.000 06:00 049 40 047 35 051 2.7 1.7 81 4.000 ISOLATED 20,000 140.000 06:15 049 049 40 047 35 051 2.7 -t 7 81 4.000 ISOLATED 20.000 140.000 06:30 Page 1 of 1 1997 Evaluated Exercise 97-06 _ _ . e
Efflunnt Radiation Menitor Datn p) ( ERM 1 MAIN STACK LOW (CPS) ERM-2 MAIN STACK HIGH (R/HR) ERM-3 RB VENT LOW (CPS) E RM-4 RB VENT HIGH (R/HR) ERM-5 TB VENT HIGH (R/HR) Time ERM-1 ERM-2 ERM 3 ERM-4 ERM-5 00.00 7.89E+01 DS 3.10E+01 DS DS 00.15 6.35E+02 DS. 3.01Et01 DS DS 00.30 1.85E+03 DS 2.76E+ 01 DS DS 00.45 3.20E+03 DS 1.99Et01 DS DS 01;00 1.2_2E +03 D_S _ 2 15E_+01 . D_S_ _ _ _ _ DS _ 01:15 3.60E+02 DS 2.02E+01 DS DS 01;30 .6J7E+0_1 .S. D 2.06E+01 _ DS . DS 01:45 7.11 E +01 DS 2.23E+01 . _ _ D_S . _DS _. _0 2:00 7,05E+01 . . DS 212E+01 .DS DS 021_15_ 7.06E+01 _ .DS . 1.85E +01 .DS_ DS 02;30 _7.12Et01 ._ DS _ 1.94E+01 DS_ DS - 02J5 7.02E+01 _ DS _ 2.12E+01 .D S. DS 03;_00 7.02E!01 _DS 2.03E.+01 . _ DS. _D_S 03:15 6.99E+01
. _D S. 2 04E!01 DS_ DS_
fx 03 30 7.11 E+01 03_:45 7.11 E+01 _ . _ D_S DS. 2.13E+01 2.21 E+01
. DS__ _
DS.
...D S .. _
_ ._DS_ 04:05 2.00E+04
. . .. DS_ . . 2.15E+01 .. .DS. __D S 04:15 .. O.SH 1.10E+00 2.07E+01 _D S_ D S_ _ _
04:30 .. _ OSH 1.07E+00 2.23E+01 .DS. DS 04;45 _ _Op H_ 1.0_4 E +0_02_.2] E+01 _ D.S DS 05:00 OSH _. 1.01 E +00 2.21 E+01 D S. DS 05:15 _ OSH_ 9.86E-01 2.21 E+01 DS DS _ 05:30 _. OSH. 9.65E-01 2.21 E+01 .DS DS 05145, 3_90E+05. _ 9 37E-_01 2.21 E+0] DS DS 06:00 2.00E+04 DS 2.21 E +01 DS DS O 97 06 Page 1 of1 1997 Evaluated Exercise
l ( Area Radiation Monitor Trend Data - l (All ARM's Read m mR/hr) ARM-3 MAIN CONTROL ROOM ARM-7 CHEM. WASTE TANK ARM-11 NEW FUEL RACKS i 1705-60 CHARCOAL B2D VAULT ARM-4 TURB FRONT STANDARD ARM-8 OUTStDE TIP ROOM ARM-12 NEW FUEL VAULT l ~ ARM-1 COND. PUMP STAIR ARM-5 RADWASTE CORRIDOR ARM-9 RADWASTE SH1P. LOCK . ARM-13 SH: ELD PLUG AREA ARM-2 FEEDWATER HEATERS ARM-6 RADWASTE SUMP AREA ARM-10 RX ACCESS AREA S E. ARM-14 SPENT FUEL POOL AREA - i Time 170540 ARM-1 ARM-2 ARM-3 ARM-4 ARM-5 ARM-6 ARM-7 A RM-8 ARM-9 A RM-10 ARM-11 ARM-12 i ARM-13 : ARM-14 00:00 1OE+02 6 OE+01 OSH DS 1 DE+03 1.0E +01 6OE+01 5OE+00 7. 0E+00 DS 1.2E+91 6 OE+00 DS 4 OE+00 1OE+01 00:15 9 7E+01 OSH ~ OSH DS 2 9E+03 1.0E4 01 6 CE+01 5 OE+00 7 CE+00 DS 5SE+01 1.0E+01 DS 7. 0E+00 14E+01 00:30 9 4E+01 'OSH OSH DS 1.5E+03 1.0E +01 6 OE+01 5 OE+00 7 OE+00 DS 5OE+01 1 OE+01 DS 9 OE+00 14 E+01 00:45 9 2E+01 OSH OSH DS SDE+02 1 OE+01 6.0E+01 5DE+00 7 CE+00 DS 4 OE+01 1 OE+01 DS 9 OE+00 14E+01 01:00 8 9E+01 OSH OSH DS 2.5E+02 1.0E+01 6.0E+ 01 5OE+00 6 OE+00 DS 3 OE+01 1.0E+01 DS 8 OE+00 1.2E+01 01:15 67E+01 OSH OSH DS 1.0E+02 1 OE+01 6 CE+ 01 5 OE+00 6 OE+00 DS 2.5E+01 1 OE+01 DS 8 OE+00 1.2E+01 ! 01:30 8 SE+01 OSH OSH DS 6 SE+01 1.0E+ 01 6 OE+01 5 OE+00 6.0E+00 DS 2.2E+01 1 OE+01 DS 8 OE+00 12E+01 i 01:45 8 2E+01 OSH OSH DS 6OE+01 1 OE+01 6 OE+01 5 OE+00 6 OE+00 DS 2.0E+01 1.0E+01 DS 8 OE+00 12E+01 02:00 8 OE+01 OSH OSH DS 5 8E+01 1 OE+01 6.0E+01 5 OE+00 6.0E+00 DS 1.8E+01 9 OE+00 DS 8 OE+00 1.2E+01 02:15 7 BE+0: OSH OSH us 5.3E+01 1 OE+01 6.0E+01 5 OE+00 6 OE+00 DS 1.7E+01 9 OE+00 DS 8OE+00 12E+01 02:30 7 6E+91 OSH OSH DS 5OE+01 1.0E+01 6 OE+01 5 OE+00 6.0E+00 DS 1.6E+01 9 OE+00 7,0E+00 DS 1.0E+01 02:45 7.4E' 01 OSH OSH DS 4 8E+01 1.0E+01 6 0E+01 5 0E+00 6 0E+00 DS 1.5E+01 9 0E+00 DS 7.0E+00 1.0E+01 03:00 7 2F+01 OSH OSH DS 4 4E+01 1.0E+01 6 0E+01 5 0E+00 5 0E+00 DS 1.5E+01 9 0E+00 DS 7 0E+00 ifE+01 i 03:15 7 0'i+01 OSh OSH DS 4 2E+01 1,0E+01 6.0E+01 5.0E+00 5.0E+00 DS 1.4E+01 9 OE+00 DS 7.0E+00 1.0E+01 03:30 6 f E+01 OSH OSH DS 4 OE+01 1 OE+01 6 OE+01 5OE+00 5OE+00 DS 1.4E+01 9 OE+00 DS 7,0E+00 1.0E+01 03:45 6 JE+01 OSH OSH DS 3 7E+01 1.0E+01 6 OE+01 5 OE+00 5 OE+00 DS 1.2E+01 9 OE+00 DS 7.0E+00 1OE+01 04:05 6 3E+01 OSH OSH DS 31E+01 1 GE+01 6.0E+01 5OE+00 8 OE+00 DS 1 OE+01 6 SE+01 DS 6 OE+01 6 SE+01 04:15 5 9E+01 OSP OSH DS 2.9E+01 1 OE+01 6 OE+01 5 GE+00 1 OE+01 DS OSH 6.5E+01 DS 6 OE+01 6 7E+01 04:30 5 SE+01 OSH OSH DS 2 8E+01 1 OE+01 6 OE+01 5 OE+00 1 OE+01 DS OSH 7.5E +01 ' DS 7.5E+01 8 2E+01 i 04:45 5 7E+01 OSH 91E+03 DS 2 7E+01 1 OE+01 6.0E+01 5 OE+00 1.0E+01 DS OSH 7 BE+01 DS 7.7E+01 8 2E+01 05:00 5 6E+01 OSH 8 SE+03 DS 2.5E +01 1 OE+01 6.0E+01 5OE+00 1 OE+01 DS OSH 7.5E+01 DS 7 4E+01 8 OE+01 05:15 5 SE+01 OSH 81E+03 DS 2 4E+01 1 OE+01 6.0E+01 5OE+00 9 OE+00 DS OSH 7,5E+01 DS 7 2E+01 8.0E+01 05:30 5 4E+01 OSH 6 5E+03 DS 2.1 E+ 01 1.0E+01 6 0E+01 5 0E+00 8.0E+00 DS OSH 6.5E+01 DS 6.3E+01 6.5E+01 r 05:45 5 4E+01 OSH 61E+03 DS 18E+01 1.0E+01 6 OE+01 5 OE+00 7.0E+ 00 DS OSH 6 SE 'J1 DS 6 OE+01 6 SE+01 06:00 5 2E+01 OSH 5.1E+03 DS 1.4E+ 01 1.0E+01 6 OE+01 5 OE+00 7 OE+00 OS OSH 6 6E+01 DS 57E+01 6 OE+01 i 97-06 Page 1 of 1 1937 Evalu ted hercise i
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Process Radiation Monitor Trend Data PRM-1 MAIN STEAM LINE A mRmr PRM S AIR EJECTOR OFF GAS mRmt PRM-9 SBGT SYSTEM mRmt PRM-13 DRWVELL CHRMS A Rmt PRM-2 MAIN STEAM UNE B mRms PRM4 RBCCW LOOP A CPS PRM-10 CONTROL ROOM AIR mRmr PRM-14 DRYWELL CHRMS B Rmr PRM-3 MAIN STEAM UNE C mRmr PRM-7 RBCCW LOOP B CPS PRM-11 RADWASTE DISCH CPS PRM-15 TORUS CHRMS A Rmt PRM.4 MAtN STEAM UNE D mRmr PRM-8 PEFUEL FLOOR VENT mRMr PRM-12 OG POST TREATMENT CPS PRM-16 TORUS CHRMS B Rmr Time PRM-1 PRM-2 F RM-3 PRM-4 PRM-5 PRM-6 PRM-7 PRM-8 PRM-9 PRM-10 PRM-11 PRM-12 PRM-13 PRM-14 PRM-15 PRM-16 00:00 3 OE+04 3 DE+04 3 GE+04 3 OE+04 3 CE*0': 1 SE+03 1 SE+03 5 OE+00 4 OE+00 5 OE-02 4 OE+03 5 OE+03 1OE+01 1 OE+01 DS DS 00:15 67E+04 87E+04 8 7E+04 . 8 7E+04 2 4E+ 04 1 SE+03 1 SE+03 5OE+00 8_0E+00 5 OE-02 4 OE+03 7 SE+03 1 SE*02 1 SE+02 2 OE+00 2 OE+00 00:30 4 SE+04 4 SE+04 4 SE+04 4 SE+04 2 OE+04 1 SE+03 1 SE+03 5OE+00 1 SE+01 5 CE-02 4 CE+03 12E+04 18E+02 I 18E+ 02 16E+01 16E+01 00:45 1 SE+04 1 SE+04 1 SE+04 1 SE+04 17E +04 1SE+03 1 SE+03 5OE+00 21E+01 5 OE-02 4 OE+03 14E+ 04 18E +02 18E+02 4 0F*01 4 OE+01 01:00 7 OE+03 7 OE+03 7 OE+03 7 DE+03 1 3E+04 1 SE+03 1 SE+03 5OE+00 2 OE+01 5 OE-02 4 OE+03 1 1E+ 04 18E+ 02 18E+02 6 OE+01 6 OE+01 I 01:15 3 OE+03 3 OE+03 3CE+03 3 OE+03 9 3E+03 1SE+03 1 SE+03 5OE+00 14E+01 5 CE-02 4 OE+03 6 3E+03 1 BE+02 18E+ 02 8 OE+01 8 OE+01 , 01:30 2 0E+03 2 0E+03 2 0E+03 2 0E+03 9 0E+03 1.5E + 03 15E+03 S JE+00 1 1E+01 5 0E-02 4 0E+03 4 3E+03 18E + 02 l 16E+02 10E+02 10E+ 02 01:45 16E+03 16E+03 16E+03 16E+03 8 7E+03 1 SE+03 1 SE402 5 OE+00 8OE+00 5 OE-02 4 OE+03 4 3E+03 18E+02 1 eE+02 12E+02 12E+02 02:00 12E+03 12E+03 12E+ 03 12E+03 8 4E+03 1 SE+03 1 SE+03 5OE+00 8 OE+00 5 OE-02 4 OE+03 41E+03 17E+02 17E+02 14E+02 14E+02 02:15 1 DE+03 1 OE+03 1 OE+03 1 OE+03 8 2E+03 1 SE+03 1 SE+03 5 OE+00 8 OE+00 5 OE-02 4 OE+03 3 9E+03 17E+ 02 17E+02 16E+02 16E+02 i 02:30 8 OE+02 8 OE+02 8 OE+02 8 OE+02 7 9E+03 1SE+03 1 SE+03 5CE+00 8 OE+00 5 OE-02 4 OE+03 3 BE+03 17E+02 02:45 6 OE+02 6 OE+02- 6 OE+02 6 OE+02 7 7E+03 1SE+03 1 SE+03 5 OE+00 8 OE+00 5 OE-02 4 OE+03 17E+02 21E+ 02 21E+02 '( 3 7E+03 17E+02 17E+02 2 4E+02 2 4E+02 03:00 5OE+02 5 OE+02 5 OE+02 5OE+02 7 4E+03 1 SE+03 1 SE+03 5OE+00 8OE+00 5 AE-02 4 OE+03 3 SE+03 17E+02 17E+02 2 SE+02 2 SE+02 7 2E+03 1SE+03 [ 03:15 3 SE+02 3 SE+02 3 SE+02 3 SE+02 1 SE+03 5 OE+00 8 OE+00 5 OE-02 4 OE+03 3 SE+03 17E+02 17E+02 2 6E+02 2 6E +02 03:30 3 0E + 02 3 0E+02 3 0E+02 3 0E+02 7 CE+03 15E+03 15E+03 5 0E +C3 8 0E+00 5 0E-02 4 0E+03 3 4E+03 16E+02 16E+ 02 2 6E+02 2 6E +02 03:45 2 7E+02 2 7E+02 2 7E+02 2 7E+02 6 8E+03 1 SE+03 1 SE+03 5 OE+00 8 OE+00 5 OE-02 4 OE+03 3 3E+03 16E+02 16E+02 2 6E +02 2 6E+ 02 1 04:05 1 OE+05 1 DE+05 1OE+05 1 OE+05 61E+03 1 SE+03 1 SE+03 5 OE+01 1 OE+03 5 OE-02 4OE+03 3 OE+03 16E + 02 1 SE+02 2 5E+ 02 2 SE+02 04:15 GOE+05 6OE+05 6 OE+05 6OE+05 5 6E+ 03 1 SE+03 1 SE+03 6 3E+01 OSH 5 OE-02 4 OE+03 2 7E+03 1 SE+02 1 SE+02 2 4E+02 2 4E+02 04:30 6 OE+05 6 OE+05 6 OE+05 6 OE+05 5 4E+03 1 SE+03 1 SE+03 6 SE+01 CSH 5 OE-02 4 OE+03 2 7E+03 _ 1 SE+02 1 SE+02 2 4E+02 2 4E+02 04:45 5OE+05 5OE+05 5 OE+05 5 CE+05 5 2E+03 1SE+03 1.5E + 03 6_5E +01 OSH 5 OE-02 4 OE+03 2 6E+03 1SE+02 1SE+02 23E+02 2 3E+02 i 05:00 4 SE+05 4 SE+05 4 SE+05 4 SE+05 51E+03 1 SE+03 1 SE+03 6 SE+01 OSH 5 DE-02 4 OE+03 2 SE+03 1 SE+02 1.5E+02 2 3E+02 2 3E+02 I 05:15 4 5E+05 45E+05 4 5E+05 4 5E+05 4 9E+03 15E+03 15E+03 6 5E+01 OSH 5 0E-02 4 0E+03 2 5E+03 15E+02 15E+02 2 2E+02 2 2E+02 05:30 2 OE+03 2 OE+03 2OE+03 2 OE+03 4 SE+03
- 5E+03 1 SE+03 6 SE+01 OSH 5 OE-02 4 OE+03 2 4E+03 15E+02 1SE+02 1.9E+ 02 19E+02 05:45 5OE+02 5 OE + 02 5 OE+02 5 OE+02 4 3E+03 1 SE+03 1 SE+03 5SE+01 OSH 5 OE-02 4 OE+03 2 3E+03 '
14E+ 02 14E+02 1BE+02 18E+02 06:00 2 0E+02 2 0E+02 2 0E+02 2 0E+02 41E+03 15E +03 15E+03 5 0E+01 OSH 5 0E-02 4 0E+03 2 2E+03 14E +02 1tE+02 17E+02 17E+02 97-06 Page 1 of 1 1997 Evaluated Exercise
Message: I1 l - AREA RADIATION MONITORS Time: I 0:00 I PANElllD NO. MONITOR TREND READING ALARM IN RANGE C910/1705-60 CharcoalVault Area AOG l l 100 mR/hr R E-1 E+4 C911/ ARM-1 Cond Pump Stairway R 60 mR/hr lXl E E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E-2 E+2 C911/ ARM-4 Turbine Front Standard l l 1000 mR/hr lXl E+0 - E+4 C911/ ARM 5 Radwaste Corridor l l 10 mR/hr l l E E+3 C911/ ARM-6 Radwaste Sump Area l l 60 mR/hr l l E+0 E+4 C911/ ARM 7 Chem Waste Tank R 5 mR/hr
] E+0 - E+4 C911/ ARM-8 Rx Outside Tip Room l l 7 mR/hr lXl E E + 2 C911/ ARM-9 Radwaste Shipping Locker l l DS mR/hr l l E E+2 C911/ ARM 10 Rx Access Area (S E ) l l 12 mR/hr l l E 2 - E+2 C911/ ARM 11 New Fuel Racks l l 6 mR/hr l l E 1 - E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E-1 E+3 C911/ ARM 13 Shield Plug Area l l 4 mR/hr R E E+3 C911/ ARM 14 Spent Fuel Pool Area l l 10 mR/hr Lj E-1 E+3 ALARM SETPOINTS 1705-60. 200 mR/hr ARM-5: 15 mR/hr ARM-10: 60 mR/hr ARM 1: 55 mR/hr ARM-6: 6000 mR/hr ARM 11- 6 mR/hr ARM 2. 600 mR/hr ARM-7. 300 mR/hr ARM-12. 40 mR/hr ARM 3 1 mR/hr ARM-8 5 mR!hr ARM-13 40 mR/hr AR M-4 450 mR/hr ARM-9. 50 mR/hr ARM-14. 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale t
O V 97-06 Page 1 of 25 Evaluated Exercise
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M:ssagx 12 l-AREA RADIATION MONITORS Time: L 0:15 l PANElllD NO. MONITOR TREND READING-ALARM IN RANGE
-.C910/1705-60 CharcoalVault Area AOG U 97 mR/hr E 1 E+4 C911/ ARM 1 ' Cond. Pump Stairway - U OSH mR/hr y E 1 - E+3 -_ C911/ ARM-2 . Feedwater Heaters OSH mR/hr lXl E+0 E+4 C911/ ARM 3 C911/ ARM-4 Main Control Room OS mR/hr R E E+2 Turbine Front Standard 2900 mR/hr X E+0 - E+4 C911/ ARM 5 'Radwaste Corridor U 10 mR/hr E-1 E+3 C911/ ARM-6 Radwaste Sump Area 60 mR/hr l l E+0 E+4 C911/ ARM-7 Chem Waste Tank. -R 5 mR/hr l l E+0 E+4 C911/ ARM-8 Rx Outside Tip Room W 7 mR/hr y E-2 E+2 C911/ ARM 9 ' Radwaste Shipping Locker ]
C911/ ARM 10 DS mR/hr R E-2 E+2 Rx Access Area (S E.) 55 mR/hr E 2 - E+2 l l C911/ ARM 11 New Fuel Racks 10 mR/hr X E E+3 , C911/ ARM 12 New Fuel Vault -U DS mR/hr l l E E+ 3 C911/ ARM 13 Shield Plug Area 7 mR/hr R E 1 - E+3 C911/ ARM 14 Spent Fuel Pool Area U 14 mR/hr R E E+3 O ALARM SETPOINTS 1705-60: 200 mR/hr ARM-5: 15 mR/hr ARM-10: 60 mR/hr
' ARM-1: 55 mR/hr ARM 4: 6000 mR/hr ARM-11: 6 mR/hr ARM 2: 600 mR/hr ARM-7: 300 mR/hr ' ARM 12: 40 mR/hr ARM 3: 1 mR/hr ARM-8; 5 mR/hr ARM 13: 40 mR/hr ARM 4: 450 mR/hr ARM-9: 50 mR/hr ARM-14: 30 mR/hr OOS Out of Service OSH - Off Scale High DS - Down Scale !
O , 97-06 Page 2 of 25 Evaluated Exercise j
Me: sage:l 3 I AREA RADIATION MONITORS Time:l 0:30 _ PANEUID NO. MONITOR TREND- READING ALARM IN RANGE f
.( C910i! 705#.,0 CharcoalVault Area AOG 94 mR/hr E E + 4 l l l l C911/ ARM i Cond Pump Starway l l OSH mR/hr ' lXl . E E+3 C911/ ARM 2 Feedwater Heaters l- l OSH mR/hr lXl E+0 - E+4 C911/ ARM-3 Main Control Room l l DS mR/hr l l E 2 - E+2 C911/ ARM-4 Turbine Front Standard l l 1500 mR/hr lXl E+0 E+4 C911/ ARM 5 Redwaste Corridor - l- l 10 mR/hr I l E 1 - E+3 C911/ ARM-6 Radwaste Sump Area -l l 60 mR/hr l l E+0 - E+4 C911/ ARM 7 Chern Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM-8 Rx Outside Tip Room l l 7 mR/hr lXl E E + 2 C911/ ARM 9 Radwaste Shipping Locker l l DS mR/hr l l E 2 - E+2 C911/ ARM 10 Rx Access Area (S E ) l l 50 mR/hr l l E 2 - E+2 C911/ ARM 11 New Fuel Racks l l 10 mR/hr lXl E 1 - E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E E+3 C911/ ARM-13 Shield Plug Area R 9 mR/hr R E 1 - E+3 C911/ ARM-14 Spent Fuel Pool Area l l. 14 mR/hr U E-1 E+3 ALARM SETPOINTS 1705-60 200 mR/hr ARM 5 15 mR/hr ARM-10 60 mR/hr ARM 1- 55 mR/hr ARM #a 6000 mR/hr ARM-11 6 mR/hr ARM 2. 600 mR/hr ARM 7. 300 mR/hr ARM-12 40 mR/hr ARM 3 1 mR/hr ARM-8 5 mR/hr ARM-13 40 mR/hr ARM-4 450 mR/hr ARM-9 50 mR!hr ARM-14 30 mR!hr OOS - Out of Service OSH - Off Scale High DS - Down Scale
!O 97-06 Page 3 of 25 Evaluated Exercise
Messegxl 4 l AREA RADIATION MONITORS Time: I 0:45 PANEUID NO. MONITOR TREND- READING ALARM IN' RANGE C910/1705-60 Charcoat Vault Area AOG l l 92 mR/hr l l E-1 E+4
' C911/ ARM 1 Cond Pump Stairway l l OSH mR/hr lXl E 1 E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E E+2 C911/ ARM-4 Turbino Front Standard l l 500 mR/hr y E+0 - E+4 C911/ ARM-5 Radwaste Corridor l l 10 mR/hr l l E-1 E+3 C911rARM-6 Radwaste Sump Area l l 60 mR/hr l l E+0 - E+4 C911/ ARM-7 Chem Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM-8 Rx Outside Tip Room l l- 7 mR/hr lXl E E+2 C911/ ARM 9 Radwaste Shipping Locker l l DS mR/hr l l E E+ 2 C911/ ARM 10 Rx Access Area (S E ) l l 40 mR/hr l l E 2 - E+2 C911/ ARM 11 New Fuel Racks l l 10 mR/hr lXl E 1 E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E E+3 C911/ ARM 13 Shield Plug Area l l 9 mR/hr l l E 1 - E+3 C911/ ARM 14 Spent Fuel Pool Area l l 14 mR/hr l l E E+3 O
ALARM SETPOINTS 1705-60. 200 mRlbr ARM-5: 15 mR/hr ARM-10 60 mR/hr ARM-1: 55 mR/hr ARM-6 6000 mR/hr ARM-11. 6 mR!hr ARM-2 000 mR!hr ARM-7' 300 mR/hr ARM-12 40 mR/hr ARM-3 1 mR/hr ARM 5 mR/hr ARM-13 40 mR/hr ARM-4 : 450 mR/hr ARM-9 50 mR/hr ARM-14 30 mR!hr OOS - Out of Service OSH - Off Scale High DS - Down Scale l l 97 06 Page 4 of 25 Evaluated Exercise
. _ .- - - - . . - -. _- = _ - - - _. - - - .
M:sso o: 15l AREA RADIATION MONITORS Time: l- 1:00
. PANEUID NO. MON! TOR- TREND -RENDING - ALARM IN RANGE C910/1705-60 CharcoalVault Area AOG R 89 mR/hr l- l E E4 4 C911/ ARM-1 Cond Pump Stairway l l OSH mR/hr lXl E E + 3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E E+ 2 C911/ ARM-4 Turbine Front Standard l l 250 mR/hr l l E+0 E+4 C911/ ARM 5 Radwaste Corridor l l 10 mR/hr l l E 1 E+3 C911/ ARM 6 Radwaste Sump Area l l 60 mR/hr ]
l E+0 E+4 C911/ ARM-7 Chem. Waste Tank l l , 5 mRihr l l E+0 E+4 C911/ ARM 8 Rx Outside Tip Room l l 6 mR/hr y E-2 E+2 C911/ ARM-9 Radwaste Shipping Locker l l DS mR/hr l l E 2 E+2 C911/ ARM 10 Rx Access Area (S E ) l l 30 mR/hr l l E E+2 C911/ ARM 11 New Fuel Racks l l 10 mR/hr E E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E 1 - E+3 C911/ ARM-13 Shield Plug Area l l 8 mR/hr l l E E+3 C911/ ARM 14 Spent Fuel Pool Area l l 12 mR/hr l l E E+3 O ALARM SETPOINTS 1705 60 200 mR/hr ARM-5 15 mR/hr ARM-10 60 mR/hr ARM 1 55 mR/hr ARM 4 6000 mR/hr ARM-11. 6 mR/hr ARM 2 600 mR/hr ARM-7 300 mR/hr ARM 12 40 mR/hr ARM 3 1 mR/hr ARM-8 5 mR/hr ARM-13 40 mR/hr ARM 450 mR/hr ARM 50 mRihr ARM 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale m 97 Page 5 of 25 Evaluated Exercise o
M:ssags:l 6 l AREA RADIATION MONITORS- Time: I 1:15 i PANEUID NO. MONITOR TREND READING ALARM IN RANGE i C910/170540 CharcoalVault Area AOG I
' l 87 mR/hr l l E E +4 V C911/ ARM 1 Cond Pump Stairway l l OSH mR/hr lXl E 1 - E+3 C911/ ARM 2 Feedwater Heaters l l ,
OSH mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E-2 E+2 C911/ ARM-4 Turbine Front Standard l l 100 mR/hr l l E+0 - E+4 C911/ ARM 5 Radwaste Corridor R 10 mR/hr l l E 1 - E+3 C911/ ARM-6 Radwaste Sump Area l l 60 mR/hr l l E+0 E+4 C911/ ARM 7 Cnem Waste Tank j l 5 mR/hr U E+0 E+4 C911/ ARM-8 Rx Outside Tip Room l l 6 mR/hr lXl E-2 E+2 C911/ ARM 9 Radwaste Shpping 1.ocker l l DS mR/hr l l E E+2 C911/ ARM 10 Px Access Area (S E ) R 25 mR/hr l l E 2 - E+2 C911/ ARM 11 New Fuel Racks l l i0 mR/hr lXl E 1 E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E E+3 C911/ ARM-13 Shield Plug Area l l 8 mR/hr l l E-1 E+3 C911/ ARM-14 Spent Fuel Pool Area l l 12 mR/hr l l E 1 E+3 O ALARM SETPOINTS 1705 60 200 mR/hr ARM-5: 15 mR/hr ARM 10 60 mR/hr ARM 55 mR/hr ARM-6' 6000 mR/hr ARM 11, 6 mR/hr ARM-2. 600 mR/hr ARM-7: 300 mR/hr ARM 12 40 mR/hr ARM 3 1 mR/hr ARM-8 5 mR/hr ARM-13 40 mR/hr ARM-4' 450 mR/hr ARM-9, 50 mR/hr ARM 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale 97-06 Page 6 of 25 Evaluated Exercise
Message:[_7_J AREA RADIATION MONITORS Time: I 1:30 i PANEUID NO MONITOR TREND READING ALARM IN RANGE C910/1705 60 Charcoal Vault Area AOG l l 85 mR/hr l l E-1 E+4 C911/ ARM 1 Cond Pump Sta'rway C OSH mR/hr lXl E E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room
] DS mR/hr l l E-2 E+2 C911/ ARM 4 Turbine Front Standard ] 65 mR/hr R E+0 E+4 0911/ ARM 3 Radwaste Corndor l l 10 mR/hr l l E E+3 C911/ ARM 6 Radwaste Sump Area l l 60 mR/hr l l E+0 E+4 C911/ ARM 7 Chem Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM 8 Rx Outside T4p Room ] 6 mR/hr lXl E E+2 C911/ ARM-9 Radwaste Shipping Locker R DS mR/hr l l E 2 - E+2 C911/ ARM-10 Rx Access Area (S E ) l l 22 mR/hr l l E 2 - E+2 C911/ ARM 11 New Fuel Racks R 10 mR/hr lXl E 1 E+3 C911/ ARM-12 New Fuel Vault l l _
DS mR/hr
] E E+ 3 C9 1/ ARM-13 Shield Plug Area l l 8 mP/hr l l E E+3 C911/ ARM 14 Spent Fuel Pool Area l l 12 mR/hr l l E-1 E+3 ALARM SETPOINTS 1705 200 mR/hr ARM 5 15 mR/hr ARM-10 60 mR/hr ARM-1 55 mR/hr ARM-6 6000 mR!hr ARM-11 6 mR/hr ARM 2 600 mR/hr ARM-7 300 mR/hr ARM-12: 40 mR/hr ARM-3 1 mR/hr ARM-8~ 5 mR/hr ARM-13. 40 mR/hr ARM 4 450 mR/hr ARM 9 50 mR!hr ARM 14 30 mR/hr OOS - Out of Service- OSH - Off Scale High DS - Down Scale O ~
97-06 Page 7 of 25- Evaluated Exercise
Mess 92: 18 l- AREA RADIATION MONITORS Time: I 1:45 PANEUID NO. MONITOR TREND READING ALARM IN RANGE [*
\'
C910/1705-60 Charcoal Vault Area AOG
] 82 mR!hr l l E E+4 C911/ ARM 1 Cond Pump Stairway l l OSH mR/hr W E 1 E+3 C911/ ARM-2 Feedwater Heaters l l OSH mR/hr lXl E+0 - E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E-2 E+2 C911/ ARM-4 Turbine Front Standard ] 60 mR/hr R E+0 E+4 C911/ ARM 5 Radwaste Corridor U 10 mR/hr l l E-1 E+3 C911/ ARM-6 Radwaste Sump Area 60 mR!hr l j E+0 - E+4 C911/ ARM 7 Chem Waste Tank R 5 mR/hr l l E+0 E+4 C911/ ARM-8 Rx Outside T$ Room l l ,
6 mR/hr lXl E E+2 C911/ ARM 9 Radwaste Shipping Locker l l DS mR/hr l l E-2 E+2 C911/ ARM-10 Rx Access Area (S E ) l l 20 mR/hr l l E E+2 C911/ ARM 11 New Fuel Racks l l 10 mR/hr lXl E E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E-1 E+3 C911/ ARM 13 Shield Plug Area R 8 mR/hr l l E 1 - E+3 C911/ ARM 14 Spent Fuel Pool Area U 12 mR/hr l l E-1 E+3 O ALARM SETPOINTS 1705-60 200 mR/hr ARM 5: 15 mR!hr ARM-10. 60 mR/hr , ARM 1. 55 mR/hr ARM-6: 6000 mR/hr ARM-11 6 mR!hr ARM-2. 600 mR/hr ARM 7 300 mR/hr ARM-12 40 mRlhr ARM 3,1 mR/hr ARM 5 enR/hr ARM 40 mR/hr ARM-4 450 mR/hr ARM-9 50 mR/hr ARM-14 32 mR!ht OOS - Out of Service OSH - Of' Scale High DS - Down Scale P 97-06 Page 8 of 25 Evaluated Exorcise
Message:l 9 i AREA RADIATION MONITORS Time: I 2:00 ' PANEUID NO. MONITOR TREND READING ALARM IN RANGE C910/170540. CharcoalVault Area AOG l l 80 mR/hr l l E E + 4 C911/ ARM 1 Cond Pumo Sta rway l l OSH mR/hr Q] E E+ 3 C911/ ARM 2 Feedwater Heaters [] OSH mR/hr % E+C E+4 C911/ ARM-3 Main Control Room ], DS mR/hr l l E-2 E+2 C911/ ARM-4 Turbine Front Standard l l 58 mR/hr l l E+0 - E+4 C911/ ARM.5 Radwaste Corridor l l 10 mR/hr l l E-1 E+3 ' C911/ ARM-6 Radwaste Sump Area [-l 60 mR/hr l l E+0 E+4 C911/ ARM 7 Chem Waste Tank R 5 mR/hr l l E+0 E+4 C911/ ARM-8 Rx Outside Tip Room l l 6 mR/hr lXj E E+2 C911/ ARM 9 Radwaste Shipping Locker l l DS mR/hr l l E 2 E+2 C911/ ARM 10 Rx Access Area (S E ) l l 18 mR/hr l l E 2 - E+2 C911/ ARM-11 New Fuel Racks l l 9 mR/hr lXl E 1 E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E E+ 3 C911/ ARM 13 Shield Plug Area l l 8 mR/hr l l E 1 - E+3 C911/ ARM-14 Spent Fuel Pool Area l l 12 mR/hr l l E-1 E+3 ALARM SETPOINTS 1705-60 200 mR/hr ARM 5: 15 mR/hr ARM-10 60 mR/hr ARM 1' 55 mR/hr ARM-6. 6000 mR/hr ARM-11. 6 mR/hr ARM 2. 600 mR/hr ARM-7: 300 mR/hr ARM-12. 40 mR/hr ARM 3.1 mR/hr ARM-8: 5 mR/hr ARM 13. 40 mR/hr ARM-4 450 mR/hr ARM 9 50 mR/hr ARM 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale Y 97-06 Page 9 of 25 Evaluated Exercise
Mess:ge: 10 l AREA RADIATION MONITORS Time: I 2:15 l PANEL /ID NO. MONITOR TREND READING ALARM IN RANGE O C910/1705-60 CharcoalVault Area AOG l l 78 mR/hr l j E-1 E+4 C911/ ARM 1 Cond Pump Stairway _. l l OSH mR/hr lXl E 1 E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room DS mR/hr l l E E+2 C911/ ARM-4 Turbine Front Standard 53 mR/hr l l E+0 - E*4 C911/ ARM 5 Radwaste Corridor
] 10 mR/hr l l E 1 E+3 C911/ ARM-6 Radwaste Sump Area Q 60 mR/hr l l E+0 E+4 C911/ ARM 7 Chem Waste Tank 5 mR/hr l l E+0 E+4 C911/ ARM 8 Rx Outside Tip Room U 6 mR/hr lXl E 2 E+2 C911/ ARM-9 Radwaste Shipping Locker l l DS mR/hr l l E-2 E+2 C911/ ARM-10 Rx Access Area (S E ) l l 17 mR/hr l l E E+2 C911/ ARM 11 New Fuel Racks l l 9 mR/hr lXl E 1 E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E 1 E+3 C911/ ARM 13 Shield Plug Area l l 8 mR/hr l l E 1 E+3 C911/ ARM 14 Spent Fuel Pool Area l l 12 mR/hr l l E 1 E+3 O ALARM SETPOINTS 1705-60. 200 mR/hr ARM-5.15 mR/hr . M 10 60 mR/hr ARM-1: 55 mR/hr ARM 4 6000 mR/hr ARM-11' 6 mR/hr ARM-2 600 mR/hr ARM-7; 300 mR/hr ARM 12. 40 mR/hr ARM 3 1 mR/hr ARM 8 5 mR/hr ARM-13 40 mR/hr ARM-4: 450 mR/hr ARM-9: 50 mR/hr ARM-14 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale l
l
- l. J l
l 97-06 Page 10 of 25 Evaluated Exercise
M:ssega: I 11 l- - AREA RADIATION MONITORS Tima. I 2:30 i PANEUID NO. MONITOR TREND READING ALARM IN RANGE
~;
kJ C910/170540 CharcoalVault Area AOG R 76 mR/hr l l E 1 E+4 C911/ ARM 1 Cond Pump Stairway - l l OSH mR/hr lXl E 1 E+3 C911/ ARM 2 Feedwater Heaters i l OSH mR!hr lXl E+0 E+4 C911/ ARM-3 Main Control Room l l D9 mR/hr l l E 2 - E+2 C911/ ARM-4 Turbine Front Standara
] 50 mR/he l l E+0 E+4 C911/ ARM 5 Radwaste Corndor l l 10 mR/hr l l E 1 - E+3 C911/ ARM-6 Radwaste Sump Area R 60 mR/hr l l E+0 E+4 '
C911/ ARM 7 Chem. Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM 8 Rx Outside Tip Room W 6 mR/hr E 2 - E+2 C911/ ARM 9 Radwaste Shipping Locker R DS mR/hr R E-2 E + 2
-C911/ ARM 10 Itx Access Area (S E.) l l 16 mR/hr l l ti 2 242 C911/ ARM 11 New Fuel Racks W 9 mR/hr lXl E 1 - E+3 C911/ ARM 12 New Fuel Vault R DS mR/hr l l E 1 E+3 C911/ ARM 13 Shield Plug Area l l 7 mR/hr l l E-1 E+3 C911/ ARM 14 Spent Fuel Pool Area U 10 mR/hr l l E 1 - E+3 ALARM SETPOINTS 1705-60. 200 mR/hr ARM-5 15 mR/hr ARM-10 60 mR/hr ARM-1. 55 mR/hr ARM-6' C000 mR/hr ARM-11' 6 mR/hr ARM-2. 600 mR/hr ARM 7. 300 mR/hr ARM-12 40 mR/hr ARM 3.1 mR/hr ARM 8 5 mR/hr ARM 13 40 mR/hr ARM-4: 450 mR/hr ARM-9. 50 mR/hr ARM 14. 30 mR/hr OOS - Out of Service OSH - Off Scale High . DS - Down Scale O
V 97-06 Page 11 of 25 Evaluated Exorcise
M:sstor f 12 I AREA RADIATlON MONITORS Time: I 2:45 PANEUID NO. MONITOR TREND READING ALARM IN RANGE h) t C910/170540 -CharcoalVault Area AOG l l 74 mR/hr R E 1 E+4 C911/ ARM 1 Cond Pump Stairway l l OSH mR/hr y E 1 - E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr y E+0 E+4 C911/ ARM-3 Mac Control Room Q DS mR/hr
] E 2 E+2 C911/ ARM-4 Turbine Front Standard R 48 mR/hr l l E+0 - E+4 C911/ ARM-5 Radwaste Corndor l l 10 mR/hr l l E-1 E+3 C911/ ARM-6 Radwasto Sump Area l 1 60 mR/hr l l E+ 0.- E+ 4 .
C911/ ARM-7 Chem. Waste Tarik l l 5 mR/hr l l E+0 - E+4 C911/ ARM 8 Rx Outside Tip Room l l 6 niR/hr lXl E-2 E+2 C911/ ARM-9 Radwaste Shipping Locker l l DS mR/hr l l E-2 E+2 C911/ ARM-10 Rx Access Area (S E ) l l 15 mR/hr l l E 2 E+2 C911/ ARM 11 New Fuel Racks l l 9 mR/hr lXl E-1 E+3 C911/ ARM 12 New F;el Vaitt l l DS mR/hr l ,1 E 1 E+3 C911/ ARM 13 Shield Plug Ara l l 7 mR/hr l l E 1 E+3 C911/ ARM 14 Spent Fuel Pool Area l l 10 mR/hr l l E 1 - E+3 ALARM SETPOINTS 1705-60 200 mR/hr ARM 5: 15 mR!hr ARM 10 60 mR/hr ARM 1' 55 mR/hr ARM 4: 6000 mR/hr ARM-11: 6 mR/hr ARM 2. 600 mR/hr ARM-7. 300 mR/hr ARM 12- 40 mR/hr ARM 3- 1 mR/hr ARM-8: 5 mR/hr ARM 13. 40 mR/hr ARM 4 450 mR/hr ARM-9: 50 mR/hr ARM-14. 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale
- t x
97 0G- Page 12 of 25 Evaluated Exercise l
Massa 9x 13 1. AREA RADIATION MONITORS- Time: I 3:00 PANEUID NO. MONITOR TREND - READING ALARM IN RANGE O () C910/1705 60. .CharcoalVaun Area AOG U 72 mR/hr l l - E 1 - E+4 C911/ ARM 1 Cond Pump Stairway
] OSH mR/hr lXl E 1 E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr E+0 - E+4 C911/ ARM 3. Main Control Room l l DS mR/hr R F-2 E+2 C911/ ARM-4 . Turbene Front Standard W- 44 mR/hr l l E+0 E+4 C911/ ARM 5 Radwaste Corridor R 10 mR/hr l l E 1 E+3 C911/ ARM 6 Radwaste Sump Area R 60 mR/hr R E+0 - E+4 C911/ ARM 7 Chem Waste Tank l l 5 mR/hr l l E+0 E*4 ;
C911/ ARM-8 Rx Outside Tip Room l l 5 mR/hr l l E 2 E+2
. C911/ ARM 9 Radwaste Shipping Locker l l DS mR/hr R E-2 E + 2 C911/ ARM 10 Ra Access Area (S E.) l l 15 mR/hr l l E-2 E+2 C911/ ARM 11 New Fuel Racks l l 9 mR/hr y E-1 E+3 C911/ ARM 12 'New Fuel Vault R DS mR/hr l l E 1 - E+3 C911/ ARM 13 Shield Plug Area l l 7 mR!hr l l E 1 E+3 C911/ ARM 14 Spent Fuel Pool Area U 10 mR/hr l l E 1 E+3 ALARM SETPOINTS 1705-60. 200 mR/hr ARM-5: 15 mR/hr ARM 10. 60 mR/hr ARM-1: 55 mR/hr ARM-6: 6000 mR/hr ARM-11' 6 mR/hr ARM-2: 600 mR/hr ARM 7: 300 mR/hr ARM-12: 40 mR/hr ARM 3 1 mR/hr ARM 8. 5 mR/hr ARM 13 40 mR/hr ARM-4 450 mR/hr ARM 9 50 mR/hr ARM 14 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale l
I fN [ L) 97 Page 15 of 25 Evaluated Exercise 1
.~ . .. -
l '.tss:ga:l 14 I AREA RADIATION MONITORS Time: E3i15 PANEUID NO. MONITOR _ TREND READING ALARM IN RANGE (i ( C910/170540 Charcoal Vault At e !sOG l l 70 mRrnr l l E-1 E+4
\
C911/ ARM 1 Cond Pump Stairway O OSH mR/hr E E+ 3 C91* ? ARM 2 Feedwater Heaters l l OSH mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room U DS mR/hr l l E-2 E+2 C911/ ARM-4 Turbine Front Standart 42 mR/hr l l E+0 - E+4 , C911/ ARM-5 Radwaste Corridor l l 10 mR/hr l l E 1 - E+3 C911' ARM-6 Radwaste Sump Area l l 60 mR/hr l l E+0 - E+4 C911/ ARM / Chem Waste Tar'k f] 5 mRihr l l E+0 E+4 C911/ ARM 8 Rx OutWe Tip Room
] 5 mR/hr l l E-2 E+2 C911/ ARM-9 Rv1 waste Shipping Locker R DS mR/hr l l E E+2 C911/ ARM-10 Rx Accem Area (S E ) l l 14 mR/hr l l E 2 - E+2 C911/ ARM 11 New Fuel Racks R 9 mR/hr lXl E 1 E+3 C911/ ARM-12 New Fuel Vault l l DS mR/hr [] E 1 E+3 C911/ ARM 13 Shield Plug Area l l 7 mR/hr ] E E+3 C911/APM 14 Spent Fuel Pool Area R 10 mR/hr U E-1 E+3 O
v ALARM SETPOINTS 17(,5-60. 200 mR/hr ARM 5 15 mR/hr ARM-10 60 mR/hr ARM-1: 55 mR/hr ARM-6 6000 mR!hr ARM-11: 6 mR!hr ARM 2: 600 tr R/hr ARM 7, 300 mR/hr ARM-12 40 mRitr ARM 3 1 mRihr ARM 8 5 mR/hr ARM-13 40 mR/hr AR*u 450 nR/hr ARM-9 50 mR/hr ARM-14~ 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale O 97-06 Page 14 of 25 Evaluated Exercise
. _. . ~ _ _
M:esage: 1151: AREA RADIATION MONITORS Time: I 3:30 i PANElllD NO.- MONITOR TREND- READING ALARM IN RANGE C910/170540 ' CharcoalVault Area AOG
] 68 mR/hr
[ E-1 E+d
- C911/ ARM 1 Cond. Pump Sta rway R OSH mR/hr %. E 1 - E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr lXl Et0 - E+4 C911/ ARM-3 Main Control Room l DS mR/hr l E 2 - E+2 l l C911/ ARM-4 Turbine Front Standard R 40 mR/hr R E< 0 - E+4 C911/ ARM 5 Radwaste Corridor l l 10 mR/hr U E-1 E+3 C911/ ARM 6 Radwaste Sump Area l l 60 mR/hr l l E+0 - E+4 C911/ ARM 7 Chem Waste Tank l l 5 mR/hr l l E+0-E+4 C911/ ARM 8 Rx Outside Tip Room l l 5 mR/hr .
E 2 E+2 C911/ ARM 9 Radwaste Shipping Locker
] DS mR/hr l l E-2 E+2 C911/ ARM 10 Rx Access Area iS E ) l l 14 mP/hr U E E+2 C911/ ARM 11 New Fuel Racks l l 9 mR/hr lXj E E+3 C311/ ARM-12 New Fuel Vault l l DS mR/hr l l E E+3 C911/ ARM 13 Shield Plug Area l l 7 mR/hr E 1 - E+3 C911/ ARM 14 Spent Fuel Pool Area l l 10 mR/nr U E-1 E+3 O
ALARM SETPOINTS 1705-60 200 mR/hr ARM-5.15 mR/hr ARM 10 60 mR/hr ARM-1. 55 mR/hr ARM 6000 mR/hr ARM-11 6 mR/hr ARM-2 600 mR/hr ARM 7: 300 mR/hr ARM-12. 40 mR/hr ARM-3 1 mR/hr ARM-8 5 mR/hi ARM 13 40 mR/hr ARM-4 450 mR/hr ARM-9 50 mR/hr ARM-14: 30 mR/nr OOS - Out of Service OSH - Off Scale High DS - Down Scale l l l l l 97-06 Page 15 of 25 Evaluated Exercise
Messaga:l 161 AREA RADIATION MONITORS . Time: I 3:45 i PANEUID NO. MONITOR TREND READING ALARM IN RANGE C910/170540 CharcoalVauft Area AOG l l 66 mR/hr l l E 1 - E+4 C911/ ARM 1 Cona Pump Stairway l l OSH mR/nr [] E-1 E+3 C911/ ARM 2 Feedwater Heaters
] OSH mR/hr lXl C+0 - E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E-2 E+2 C911/ ARM 4 Turbine Front Standara l l 37 mR/hr l l E+0 - E+4 C911/ ARM 5 Radwaste Corridor l l 10 mR/hr l l E E+3 C911/ ARM 4 Radwaste Sump Area l l 60 mR/hr l l E+0 - E+4 C911/ ARM 7 Chem. Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM-8 Rx Outside Tip Room l l 5 mR/hr l l E 2 - E+2 C911/ ARM-9 Radwaste Shipping Locker l l DS mR/hr l l E 2 E+2 C9?1/ ARM-10 Rx Access Area (S E ) l l 12 mR/hr l l E 2 E+2 C911/ ARM 11 New Fuel Racks l l 9 mR/hr lXl E-1 E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E 1 E+3
, C911/ ARM 13 Shield Plug Area l l 7 mR!hr I l E-1 E+3 C911/ ARM 14 Spent Fuel Pool Area l l 10 mR/hr l l E E+3
~
O ALARM SETPOINTS 1705-60 200 mR/hr ARM-5 15 mR/hr ARM-10. 60 mR/hr ARM 1: 55 mR/hr ARM-6 6000 mR/hr ARM 6 mR/hr ARM 2: 600 mR/hr ARM-7: 300 mR/hr ARM-12. 40 mR/hr ARM-3 1 mR/hr ARM-8 5 mR/hr ARM-13 40 mR/hr ARM-4 450 mR/hr ARM-9 50 mR/hr ARM 14- 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale Q U 97-06 Page 16 of 25 Evaluated Exercise
Messag2: 1 17-l AREA RADIATION MONITORS Time: F4:05 l PANEUID NO. MONITOR TREND; READING ALARM IN RANGE C910/1705-60 Charcoal Vault Area AOG U 63 mR/hr l- l E 1 E+4
' C911/ ARM 1 Cond Pump Stairway l l- OSH mR/hr W E 1 - E+3 C911/ ARM-2 Feedwater Heaters l l OSH mR/hr lXl E+0-E+4 C911/ ARM 3 Main ContrN Room R DS mR/hr U E 2 - E+2 C911/ ARM-4 Turbine Front Standard l l 31 mR/hr l l E+0 E+4 - C911/ ARM-5 Radwaste Corridor l l 10 mR/hr E 1 E+3 C911/ ARM 6 Radwaste Sump Area ] 60 mR/hr l l E+0 - E+4 C911/ ARM 7 Chem Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM-8 Rx Outside Tip Room R 8 mR/hr lXl E 2 - E+2
- C911/ ARM 9 Radwaste Shipping Locker U DS mR/hr E 2 E+2 C911/ ARM 10 Rx Access Area (S E ) l l 10 mR/hr l l E-2 E+2 C911/ ARM 11 New Fuel Racks l l 65 mR/hr lXl E E+ 3 C9 '1/ ARM 12 - New Fuel Vault l l DS mR/hr l l E 1 E+3 C911/ ARM 13 Shield Plug Area l l 60 mR/hr lXl E E+3 C911/ ARM 14 Spent Fuel Pool Area R 65 mR/hr % E-1 E+3 NJ ALARM SETPOINTS 1705-60. 200 mR/hr ARM 5: 15 mR/hr ARM 10 60 mR/hr ARM 1: 55 mR/hr ARM-6: 6000 mR/hr ARM-11: 6 mR/hr ARM-2: 600 mR/hr ARM 7. 300 mR/hr ARM 12: 40 mR/hr ARM 3 1 mR/hr ARM-8 5 mR/hr ARM-13: 40 mR/hr NRM-4 450 mR/hr ARM 9 50 mR/hr AR M-14 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale L
.i 97-06 Page 17 of 25 Evaluated Exercise
f Message: I 18 I AREA RADIATION MONITORS Time: I 4:15 i PANEUID NO. MONITOR TREND READING ALARM IN RANGE (~ Q) C910/1705-60 Charcoal Vault Area AOG l l 59 mR/hr l l E-1 E+4 C911/ ARM 1 Cond Pump Stairway OSH mR/hr E 1 - E+3 l l lX] C911/ ARM-2 Feedwat3r Heaters l l OSH mR/hr lXl E+0 - E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E E+2 C911/ ARM-4 Turbine Front Standard R 29 mR/hr l l E+0 - E+4 C911/ ARM 5 Radwaste Corndor l l 10 mR/hr l l E E+ 3 C911/ ARM-6 Radwaste Sump Area l l 60 mR/hr l l E+0 - E+4 C911/ ARM 7 Chem Waste Tank ] l 5 mR/hr R E+0 E+4 C911/ ARM 8 Rx Outside Tip Room l l 10 mR/hr lXl E E+2 C911/ ARM-9 Radwaste Shippmg Locker l l DS mR/hr l l E 2 - E+2 C911/ ARM 10 Rx Access Area (S E ) l l OSH mR/hr lXl E-2 E+2 C911' ARM 11 'New Fuel Racks l l 65 mR/hr lXl E 1 E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr [~~' E E+3 C911/ ARM 13 Shield Plug Area l l 60 mR/hr Ql E 1 - E+3 C911/ ARM 14 Spent Fuel Pool Area l] 67 mR/hr lXl E E+3 ALARM SETPOINTS 1705-60 200 mR/hr ARM-5 15 mR/hr ARM-10. 60 mR/hr ARM-1: 55 mR/hr ARM-6 6000 mR/hr ARM-11 6 mR/hr ARM 2: 600 mR/hr ARM 7: 300 mR/hr 5 RM-12: 40 mR/hr ARM 3' 1 mR/hr ARM 4 5 mR/hr ARM-13 40 mR!nr ARM-4 450 mR/hr ARM 9 50 mR/hr ARM 14 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale O 97-06 Page 18 of 25 Evaluated Exercise
~
M:ssage:[19 l AREA RADIATION MONITORS Tima: I 4:30 1
- PANEUID NO. MONITOR TREND READING ALARM IN RANGE .(.
C910/170540 CharcoalVault Area AOG U 58 mR/hr R E 1 E+4 C911/ ARM-1 Cond. Pump Statrway
] OSH mR/hr lXl E 1 E+3 C911/ ARM 2 Feedwater Heaters l l OSH mR/hr lXl E+0 - E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E-2 E+2 C911/ ARM-4 Turbine Front Standard W 28 mR!hr l l E+0 - E+4 C911/ ARM 5 Radwaste Corndor l l 10 mR/hr l l E 1 E+3 C911/ ARM-6 Radwaste Sump Area l l 60 mR/hr l l E+0 - E+4 C911/ ARM-7 Chem Waste Tank l l 5 mR/hr E+0 - E+4 C911/ ARM-8 Rx Outside Tip Room U, 10 mR/hr Q} E-2 E+2 C911/ ARM-9 ' Radwaste Shipping Locker l l DS mR/hr l l E 2 E+2 C911/ ARM 10 Rx Access Area (S E ) l l OSH mR/hr Ql E E+2 C911/ ARM 11 New Fuel Racks l l 75 mR/hr !Xj E E+3
, C911/ ARM-12 New Fuel Vault - l l DS mR/hr l l E E+3 C911/ ARM 13 Shield Plug Area l l 75 mR/hr lXl E E+3 C911/ ARM 14 Spent Fuel Pool Area U 82 mR/hr X E 1 - E+3 ALARM SETPOINTS 1705-60. 200 mR/hr ARM 5: 15 mR/hr ARM-10: 60 mR/hr ARM 1: 55 mR/hr ARM 4: 6000 mR/hr ARM 11: 6 mR/hr ARM-2: 600 mR/hr ARM 7: 300 mR/hr ARM 12. 40 mR/hr ARM-3.1 mR/hr ARM 8 5 mR/hr ARM - 13: 40 mR/hr ARM-4 450 mR/hr ARM-9 50 mR/hr ARM-14 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale U 9746 Page 19 of 25 Evaluated Exercise
Massega:l 20 I AREA RADIATION MONITORS Time: I- 4:45 i PANEUID NO. MONITOR TREND READING ALARM IN ~ RANGE C910/1705-60 CharcoalVault Area AOG l l' 57 mR/hr
] E-1 E+4 C911/ ARM 1 Cond Pump Stairway l l ' OSH mR/hr [X]_ E 1 E+3 C911/ ARM 2 - Feeowater Heaters l l 9100 mR/hr X E+0 - E+4 C911/ ARM 3 Main Control Room l l _
DS mR/hr U E-2 E+2 C911/ ARM-4 - Turbine Front Standard R 27 mR/hr R E+0 - E+4 C911/ ARM-5 Radwaste Cortioor l l 10 mR/hr l l E E+3 C911/ ARM 6 Radwaste Sump Area [ 60 mR/hr l l E+0 E+4 C911/ ARM 7 Chem Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM-e Rx Outside Tip Room R 10 mR/hr lXl E-2 E+2 C911/ ARM-( Radwasto Shipping Locker l l DS mR/hr l l E 2 E+2 C911/ ARM 10 Rx Access Area (S E-) l l OSH mR/hr lXl E E+2 C911/ ARM 11 New Fuel Racks l l 78 mR/hr jXl E 1 - E+3 C911/ ARM-12 New Fuel Vault l I DS mR/hr l l E-1 E+3 0911/ ARM 13 Shield Plug Area
] 77 mR/hr lXl E E+3 -
C911/ ARM 14 Spent Fuel Pool Area [ __ 82 mR/hr y E E+3 ALARM SETPOINTS 1705-60: 200 mR/hr ARM-5: 15 mR/hr ARM-10: 60 mR/hr ARM-1' 55 mR/hr ARM 6: 6000 mR/hr ARM 11: 6 mR/hr ARM-2 600 mR/hr ARM 7: 300 mR/hr ARM 12: 40 mR/hr ARM 3.1 mR/hr ARM 8: 5 mR/hr ARM-13= 40 mR/hr ARM-4 450 mR/hr ARM-9 50 mR/hr ARM-14: 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale l" U). 97-06 'Page 20 of 25 Evaluated Exercise i l
Mess:ga:l 21 1 AREA RADIATlON MONITORS Time: l 5:00' PANEUID NO.- MONITOR TREND READING ALARM IN RANGE
/~N
(
,O )- C910/170540 Charco$1 Vault Area AOG l l 56 mR/hr C.,l E-1 E+4 C911/ ARM 1 Cond Pump Stairway l l OSH mRihr % E-1 E+3 C911/ ARM 2 Feedwater Heaters R 8500 mR/hr lXl E+0 - E+4 C911/ ARM 3 Main Control Room l l DS mR/hr l l E 2 E+2 C911/ ARM 4 Turbine Front Standard l l 25 mR/hr l l E+0 - E+4 C911/ ARM 5 Radwaste Corr 4cr l l 10 mR/hr l l. E E+3 -
C911/ ARM 4 Radwaste Sump Area l l 60 mR/hr l l E+0 C+4 C911/ ARM 7 Chem Waste Tank l l 5 mR/hr l l E+0 - E+4 C911/ ARM-8 Rx Octsde Tip Room l l 10 mR/hr lXl E E+2 - C911/ ARM 9 Radwaste Shipping Locker l l DS mR/hr l l E E + 2 C911/ ARM-10 Rx Access Area (S E ) l l OSH mR/hr lXl E 2 E+2 C911/ ARM 11 New Fuel Racks l l 75 mR/hr % E 1 - E+3 C911/ ARM 12 New Fuel Vault l l DS mR/hr l l E 1 - E+3 C911/ ARM 13 Shield Plug Area R 74 mR/hr lXl E E+3 C911/ ARM 14 Spent Fuel Pool Area Q 80 mR/hr lXl- E-1 E+3 ALARM SETPOINTS 1705 r3 200 mR/hr ARM 5: 15 mR/hr ARV-10 60 mR/hr ARM-1: 55 mR/hr ARM-6 6000 mR/hr ARM-11: 6 mR/hr ARM-2. 600 mR/hr ARM-7 300 mR/hr ARM-12: 40 mR/hr ARM-3' 1 mR/hr ARM 8: 5 mR/hr ARM 13 40 mR/hr ARM 450 mR/hr ARM-9 50 mR/hr AH M 14: 30 mR/hr OOS - Out of Service OSH - Off Scale High DS Down Scale s I + (~~ ! U : 06- Page 21 of 25 Evaluated Exercise
Messagr Tf AREA RADIATION MONITORS Time: 5:15 i PANEUID NO. MONITOR TREND READING ALARM IN RANGE ; C910/1705-60 CharcoalVault Area AOG C 55 mR/hr l l E 1 - E+4 U lXl E 1 E+3 _ C911/ ARM 1 Cond Pump Stairway OSH mR/hr J C911/ ARM 2 feedwater Heaters
] 8100 mR/hr W E+0 E+4 I
C911/ ARM 3 Main Control Room U DS mR/hr [- E 2 E+2 C911/ ARM 4 Turbine Front Standard U 24 mR/hr l l E40 E+4 ) C911/ ARM 5 Radwaste Corridor R 10 mR/hr l l E 1 E+3 l C911/ ARM 6 Radwaste Sump Area U 60 mR/hr l l E+0 E+4 ! C911/ ARM 7 Chem Waste Tank l l 5 mR/hr l l E+0 E+4 4 i C911/ ARM 8 Rx Outside Tip Room U_ 9 r- ,
- r X E 2 E+2 j C911/ ARM 9 Rsdwaste Shipping Loder
] DS MM/hr l l E-2 E+2
{ C910 ARM 10 Rx Access Area (S E ) ] OSH mR/hr X E 2 E+2 Cie11/ ARM ii New Fuei Rach l l 75 mRihr [X] E 1 E+3 4 C914/ ARM 12 New Fuel Vault DS mR/hr l l E 1 E+3 l C011/ ARM 13 Shield Plug Area R 72 mR/hr lXl E 1 E+3 i t C911/ ARM 14 Sperit Fuel Pool Area l l 80 mR/hr W E 1 E+3 . O l 1 Al ARM SETr "jTS 1705-60 200 mR/hr ARM 5' 15 mR/hr ARM 10 60 mR/hr ; ARM 1 55 mR/hr ARM 4 6000 mR/hr ARM 11- 6 mR/hr ! l ARM 2. 600 mR/hr ARM 7: 300 mR/hr ARM 12 40 mR/hr ARM 3 1 mR/hr -\RM 8 5 mR/hr ARM 13 40 mR/hr ARM 4 450 mR/hr ARM-9 50 mR/hr ARM 14 30 mR/hr OOS - Out of Service OSH - Off Scale High DS - Down Scale t O : 97-06 Page 22 of 25 Evaluated Exercise g : _-%_._,-,-,,_,.,_-___,._._-._.-_-,-_.,m,_
i Mess:9x 23 AREA RADIATION MONITORS Time: 5:30.j PANElllD NO. MONITOR TREND READING ALARM IN RANGE l 2 C910/1105-60 CharcoalVault Area AOG l l 54 mR/hr R E 1 E+4 C911/ ARM 1 Cond Pump Starway ] OSH mR/hr W E 1 5+3 ! C911/ ARM 2 Feedwater Heaters 6500 mR/hr lXl E+0 E+4 C911/ ARM 3 Main Control Room
] DS mR/hr U E 2 E+2 l C911/ ARM-4 Turbine Front Standard R 21 mR1.r U E+0 E+4
{ C911/ ARM 5 Rad *aste Corndor ] 10 mRihr
] E 1 E+3 !
0911/ ARM-6 Radwaste Sump Area U 60 mR/hr E+0 - E+4 ! C911/ ARM 7 Chem Waste Tank U 5 mR/hr
] E+0 E+4 C911/ ARM 8 Rx Outside Tip Room ] 8 mR/hr - lXl E 2 E+2 C911/ ARM 9 Rauwaste Shipping 1.ocker ] DS mR/hr l l E 2 E+2 C911/ ARM 10 Rx Access Area (S E.) OSH mR/hr
[XJ E 2 E+2 C911/ ARM 11 New Fuel Racks 66 mR/hr fx] E 1 E+3 C911/ ARM 12 New Fuel Vault R DS mR/hr R E 1 E+3 C911/ ARM 13 Sheeld Plug Area R G3 mR/hr % E 1 E+3 C911/ ARM 14 Spent Fuel Pool Area 65 mR/hr % E 1 E+3 ALARM SETPOINTS 170540 200 mR/hr ARM 5: 15 mR/hr ARM 10 60 mR/hr ARM 1: SS mR/hr ARM 4: 6000 mR/hr ARM 11: 6 mR/hr ARM 2 600 mR/hr ARM 7: 300 mR/hr ARM 12. 40 mR/h! ARM 3 1 mR/hr ARM 8 6 mR/hr ARM 13 40 mR/hr > ARM-4 450 mR/hr ARM 9 50 mR/hr ARM 14 30 mR/hr OOS - Out of Service OSH - Off Scale High L S - Down Scale l l l 97-06 Page 23 of 25 Evaluated Exercise l.
,e-. r4 e.w.._ _ #e,.--,-. - ww.. ,+r-, , , . . , -,y.,..-,,y-., -.y-,,.,w., y,3-,,,,. , ,-w- .w % -,-+,,y-- , , - - , - _ , ,,-v ,c w r- . -,d
Messega: ~T 2 AREA RADIATION MONITORS Tims: 5 45 : PANEUID NO. MONITOR TREND READING ALARM IN RANGE - C910/1705 60 Charcoat Vault Area AOG $4 mRihr R E 1 E44 C911/ ARM 1 Cond Pump Stairway _ U OSH mR/hr [X] E 1 E*3 W C911/ ARM 2 Feedwater Heaters 6100 mR/hr lXl E+0 E*4 C911/ ARM 3 ' _ Main Control Room DS mR/hr l l E 2 E+2 C911/ ARM-4 Turbine Front Standard
] 18 mR/hr l l E+0 E+4 C911/ ARM S Radweste Corredor R 10 mR/hr l l E 1 E+3
- C911/ ARM 6 Radwaste Sump Area U 60 mR/hr
-U E+0. E+4 C911/ ARM 7 Chem Waste Tank 5 mR/hr U E+0 E+4 C911/ ARM.B - Rx Outside Tip Room R -7 mR/hr X E 2 E+2 C911/ ARM 9 Radwaste Shipping Locker - DS mR/hr U E 2 - E+2 C011/ ARM 10 Rx Access Area (S E ) R OSH mR/br [X] E-2 E+2 C911/AhM 11 New Fuel Racks U 65 mR/hr W E 1 E+3 C911/ ARM 12 New Fuel Vault DS mR/hr l l E 1 E+3 C911/ ARM 13 Shield Plug Area R 60 mR/hr [X] E 1 E+3 C911/ ARM 14 Spent Fuel Pool Area l l 65 mR/hr lXl E 1 E+3 O
! ALARM SETPOINTS 170540 200 mR/hr ARM 5: 15 mR/hr ARM-10. C0 mR!ht ARM 1: 55 mR/hr ARM 4: 6000 mR/hr ARM 11: 6 mR/hr ARM 2 600 mR/hr ARM 7: 300 mR/hr ARM 12. 40 mR/hr ARM 3.1 mR/hr ARM 8 5 mR/hr ARM 13 40 mR/hr ARM-4: 450 nR/nr ARM 9- 50 mR!hr ARM 14. 30 mR/hr OOS 'Out of Service OSH Off Scale High DS Down Scale 9 O 97 06 _ . Page 24 of 25 Evaluated Exercise
- - - . - . - - - , . - . . - . , , . - - , . . , , , - , . . . . , , - - . . , . . .- ,- ----~ . ,
Massegr 25 l AREA RADIATION MONITORS Time: L6:ool PANEUID NO. MONITOR TREND READING ALARM IN RANGE C910/1705-60 CharcoalVault Area AOG l l 52 mR/hr U E 1 E+4 C911/ ARM 1 Cond Pump Starway U OSH mR/hr E 1 E+3 ! C911/ ARM 2 Feedwater Heaters R 5100 mR/hr
, % E+0 E+4 C911/ ARM 3 Main Control Room U DS mR/hr l l E 2 E+2 C911/ ARM 4 Turbine Front Standard l l 14 mR/hr l l E+0 E+4 C911/ ARM 5 Radwaste Corndor l l 10 mR/hr l l E 1 E+3 C911/ ARM-6 Radwaste Sump Area U 60 mR/hr E+0 E+4 C911/ ARM 7 Chem Waste Tank l l ,
5 m R/hr l l E+0 E+4 Q i C911/ ARM 8 Rx Outsde Trp Room 7 mR/hr
~] X E 2 E+2 C911/ ARM 9 Radwaste Shipping Locker l } DS mR/hr ] E 2 E+2 C911/ ARM 10 Rx Access Area (S E ) R _
OSH mR/hr lXl E 2 E+2 i C911/ ARM 11 New Fuel Racks U 60 mR/hr X E 1 E+3 C911/ ARM 12 New Fuel Vault R DS mR/hr U E 1 E+3 C911/ ARM 13 Shield Plug Area
] 57 mR/hr % E 1 E+3 C911/ ARM 14 Spent Fuel Pool Area U 60 mR/hr % E 1 E+3 ALARM SETPOINTS 1705-60 200 mR/hr ARM 5 15 mR/hr .tRM-10 60 mR/hr ARM '.: 55 mR/hr ARM-6: 6000 mR/hr ARM-11: 6 mR/hr
. ARM 2: 600 mR/hr ARM 7: 300 mR/hr ARM 12 40 mR/hr ARM.3: 1 mR/hr ARM-8. 5 mR/hr ARM 13. 40 mR/hr ARM 4 4"" mR/hr ARM 9 50 mR/hr ARM-14 30 mR/hr OOS - Out of Service - OSH Off Scale High DS - Down Scale 1 O 97 06- Page 25 of 25 Evaluated Exercise
M:ssega: 1 PROCESS RADIATION MONITORS Time: I 0:00 1 PANElllD NO. MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Low U 78 9 CPS [ l E 1 - E+6 C910/100140 Main Stack High U DS R/hr [ l E 1 E+4 l C910/1705 32 Rx Budding Vent Low R 310 CPS l l E 1 E+6 { C910/100160 Rx Building Vent High
] DS mR/hr l l E 1 E+4 C910/100161 Turbine Building Vent High U DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A l l 30000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line B l l 30000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line C -U 30000 mR/hr { Hi Hi j E+0 E+6 Main Steam Line D l l 30000 mR/hr l Hi Hi l E+0 E+6 C910/1705 3 Air Ejector Off Gas 3000 mR/hr l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW 1500 CPS l l E 1 E+6 B Loop RBCCW R 1500 CPS j l E 1 E+6 Rerue; Floor Vent C910/1705 8 LJ 5 mR/hr l l E 1 E+3 C910/1705-9 SBGT Exhaust R 4 mR/hr l l E+0 E+4 ;
C910/170516 Control Rm Air intake l l 0 05 mR/hr l l E 2 E+2 i C910/1705-30 Radwaste Discharge Lj 4000 CPS l l E 1 E+6 C910/1700 's Off Gas Post Treatment R 5000 CPS l l E 1 E+6 C910/1705-60 DrywellCHRMS A U 10 R/hr l l E 1 E+7 Drywell CHRMS B l l 10 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A y DS R/hr l ] E 1 E+7 Torus CHRMS B DS R/hr l l E 1 E+7 E(pW RATES Panel C7 SBGT (CFM) ISOLATED Ma n Stack (CFM) 16000 RB Vent (CFM) 105000 TB Vent (CFM) 140000 M_ELQMn Panel MT1 Delta Temp (*F) - 1.5 Outside Temp ('F) 70 229, 160' 3J3' Stability Class Dir (From) 062 060 064 Degrees Precipitation Speed 47 42 34 MPH OOS - Out of Service OSH Off Scale High DS - Down Scale 97-06 Page 1 of 25 Evaluated Exercise
Messegr 2 PROCESS RADIATION MONITORS Time: 0:15 i PANEUID NO, MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Low U 635 CPS l , E 1 E+6 C910/100140 Main Stack High U DS R/hr l l E 1 E+4 C910/1705 32 Rx Building Vent Low R 301 CPS l l E 1 E+6 l C910/100140 Ra Buneng Vent High R DS mR/hr l l E 1 E+4 C910/100141 Turbine Building Vent High R DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A- R 87000 mR/hr l Hi Hi l E+0 E+6 Man Steam Line B l l 87000 mR/nr l Hi Hd E+0 E+6 ; Main Steam Line C l l 87000 mR/hr l Hi Hi l E+0 E+6 f Main Steam Line D R 87000 mR/hr l Hi Hi l E+0 E+6 l C910/1705-3 Air Ejector Off Gas l l 24000 mR/hr l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW ] 1500 CPS l l E 1 E+6 B Loop RBCCW Ii _ , 1500 CPS f l E 1 E+6 C910/1705-8 Refuel Floor Vent
] 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust 8 mR/hr l l E+0 E+4 C910/1705-16 Control Rm Air intake R 0 05 mR/hr l l E 2 E+2 i C910/1705 30 Radwaste Discharge R 4000 CPS l l E 1 E+6 C910/1705 5 Off Gas Post Treatment l l 7500 CPS l l E 1 E+6 C910/170540 Drywell CHRMS A R 150 R/hr l l E 1 E+7 Drywell CHRMS B R 150 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A l l 2 R/h: l l E 1 E+7 Torus CHRMS B 2 R/hr l l E 1 E+7 ELQW RATES Panet C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000
. M_Q QA,T4 Panel MT1 Delta Temp ('F) - 1,5 Outside Temp (*F) 70 220' 160' - 33' Stability Class Dir (From) 061 059 063 Degrees Precipdation Speed 47 42 34 MPH
@ OOS - Out of Service OSH - Off Scale High . DS - Down Scale [
97 06 Page 2 of 25- Evaluated Exercise
,w . ----y- y.gw, , . , - , , y,- vv y - . , . ._y- .,4%.y y-,-. . - - ,. . , , , , , - - -
M:ss:gx 3I PROCESS RADIATION MONITORS Time: 1 0:30 ! PANEUID NO, MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Low
] 1850 CPS l l E 1 E+6 C910/100140 Main Stack High ] DS R/hr l l E 1 E+4 C910/1705 32 Rx Buriding Vent Low l l 2'i0 CPS l l E 1 E+6 C910/100160 Rx Building Vent High U DS mR/hr l l E 1 E+4 C910/100141 Turbine Budding Vent High ] DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A l l 45000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line B l l 45000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line C 45000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line D l l 45000 mR/hr l Hi Hi l E+0 E+6 C910/1705 3 Air Ejector Off Gas R 20000 mR/hr l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW R 1500 CPS l -l E 1 E+6 B Loop RBCCW U 1500 CPS l l E 1 E+6 C910/1705 8 Refuel Floor Vent R 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust ] 15 mR/hr j l E+0 E+4 C910/170516 Control Rm Air intake R 0 05 mR/hr l l E 2 E+2 C910/1705 30 Radwaste Descharge l l 4000 CPS l l E 1 E+6 C910/1705 5 Off Gas Post Treatment l l 12000 CPS l l E 1 E+6 C910/170540 Drywell CHRMS A ] 180 R/hr l l E 1 E+7 Drywell CHRMS B R 180 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A U 16 R/hr l l E 1 - E+7 Torus CHRMS B R 16 R/hr l l E 1 E+7 ELOE RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp ('F) 15 Outside Temp (*F) 70 2E 160' E Stability Class Dir (From) 060 058 062 Degrees Precipitation Speed 47 42 34 MPH O OOS - Out of Service . OSH - Off Scale High DS - Down Scale 97 06 Page 3 of 25. Evaluated Exercise .
Mass:gr 4 PROCESS RADIATION MONITORS Time: I 0:45 ! i PANEUID NO. MONITOR TREND READING ALARM IN RANGE ! C910/170518 Main Stack Low l l 3200 CPS l Hi l E 1 E+6 l C910/1001-60 Main Stack High R DS R!hr l j E 1 E+4 C910/1705 32 Rx Building Vent Low
] 19 9 CPS l l E1 E+6 ,
l C910/1001-60 Rx Building Vent High l l DS mR/hr l j E 1 E+4 - - C910/100161 Turbine Building Vent High
] DS mR/hr l l E 1 E+4 i C910/1705 2 Main Steam Line A R 15000 mR/hr l Hi l E+0 E+6 l
Main Steam Line B l l 15000 mR/hr l Hi l E+0 E+6 Main steam line c l l 15000 mR/hr l Hi l E+0 E+6 Main Steam Line D
] 15000 mR/hr l Hi-l E+0 E+6 C910/1705 3 Air Ejector Off Gas 16500 mR/hr J Hi Hi l E+0 E+6 - C910/1705-4 A Loop RBCCW R 1500 CPS l l E1 E+6 E 1 E+6 B Loop RBCCW ] _
1500 CPS l l C910/1705-8 Refuel Floor Vent
] 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust R 21 mR/hr l Hi l E+0 E+4 C910/170516 Control Rm Air intake 0.05 mR/hr l l E 2 E+2 C910/1705-30 Radwaste Discharge l l 4000 CPS l l E 1 E+6 C910/1705 5 Off Gas Post Treatment l l 14000 CPS l l E 1 E+6 C910/1705-60 Drywell CHRMS A 180 R/hr l l E 1 E+7 Drywell CHRMS B R 180 R/hr l l E 1 E+7 C910/1705 60 Torus CHRMS A R 40 R/hr l l E 1 E+7 Torus CHRMS B l l 40 R!hr l j E 1 E+7 EkQyyJATFJ PanelC7 SE GT (CFM) 4000 Main Stack (CFM) 20000 R3 Vent (CFM) ISOLATED TB Vent (CFM) 140000 Lf ET DATA Panel MT1 0 elta Temp (*F) 15 O utside Temp (*F) 71 2290., - 1_6 ),, 13.,,
S ability Class Dir (From) 060 058 062 Degrees Precipitation Speed 46 41 33 MPH O OOS - Out of Service OSH - Off Scale High DS - Down Scale 97-06 Page 4 of 25 Evaluated Exercise __ .__~_ _ ... _ _ _ _ .__._ . . _ _ _ ____
1 M:ssegrl 5 l PROCESS RADIATION MONITORS Time: I too I t PANEUID NO. MONITOR TREND READING ALARM IN RANGE i C910/170518 Main Stack Low l l 1220 CPS l l E 1 E+6 C910/100140 Main Stack Hign l l DS R/hr l l E 1 E+4 ! C910/1705 32 Rx Building Vent Low U 215 CPS l l E 1 E+6 C910/100140 Rx Building Vent Hgh l l DS mR/hr l l E 1 E+4 r C910/100141 Turbine Building Vent High R DS mR/hr [ l E-1 E+4 C910/1705 2 Main Steam Line A l l 7000 mR/hr l Hi l E+0 E+6 Main Steam Line B U 7000 mR/hr l Hi l E+0 - E+6 ! Main Steam Line C l l 7000 mR/hr l Hi l E+0 E+6 ; Main Steam Line D U 7000 mR/hr l Hi l E+0 E+6 , C910/1705 3 Air Ejector Off Gas R 12800 mR/hr- l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW U 1500 CPS l ] E 1 E+6 B Loop RBCCW U 1500 CPS l l E-1 E+6 C910/1705-8 Refuel Floor Vent 5 mR/hr l J F 1 E+3 C910/1705 9 SBGT Exhaust U 20 mR/hr l l E+0 E+4 C910/170516 Control Rm Air intake l l 0 05 mR/hr l l E-2 E+2 C910/1705-30 Radwaste Discharge R 4000 CPS l l E 1 E+6 C910/1705-5 Off Gas Post Treatment R 11000 CPS l l E 1 E+6 C910/170540 Drywell CHRMS A l l 178 R/hr l l E 1 E+7 Drywell CHRMS B l l 178 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A l l 60 R/hr l l E-1 E+7 Torus CHRMS B l l 60 R/hr l l E 1 E+7 ELOW RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panet MT1 i Detta Temp ('F) 15' Outside Temp ('F) 71 220' 160' 33' Stability Class Dir (From) 059 057 061 Degrees Precipitation Speed 46 41 33 MPH OOS - Out of Service OSH - Off Scale High DS - Down Scale 97 06 Page 5 of 25 Evaluated Exercise n ww - - v-u m w v w' y -f
Mess:gxl 6 PROCESS RADIATION MONITORS Time: I 1:15 i I PANEUID NO. MONITOR TREND READING ALARM IN RANGE : C910i;70518 . Main Stack Low 360 CPS E 1 E+6 l l l l C910/100140 Main Stack High l l DS R/hr l E-1 E+4 J C910/1705-32 Rx Bustding vant Low
] 20 2 CPS l l E 1 E+6 C910/100140 Rx Building Vent High ] DS mR/hr l l E E+4 C910/100141 Turbine Building Vent High l l DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A U 3000 mR/hr l l E+0 E+6 Main Steam Line B l l 3000 mR/hr l l E+0 E+6 Main Steam Line C U 3000 mR/hr l l E+0 E+6 l Main Steam Line D U 3000 mR/hr l l E+0 E+6 C910/1705 3 Air Ejector Off Gas l l 9250 mRihr l Hi Hi l E+0 - E+6 !
C910/1705-4 A Loop RBCCW l l 1500 CPS l l E 1 E+6 B Loop RBCCW U 1500 CPS l l E 1 E+6 C910/1705-8 Refuel Floor Vent l l 5 mR/hr l l E 1 E+3 C910/1705-9 SBGT Exhaust U 14 mR/hr l l E+0 E+4 C910/170516 Control Rm Air intake 0 05 mR/hr l l E E+2 C910/1705-30 Radwaste Discharge U 4000 CPS l l E-1 E+6 C910/1705-5 Off Gas Post Treatment 6300 CPS l l E 1 E+6 , C910/170540 DrywellCHRMS A
] 178 R/hr l l E 1 - E+7 Drywell CHRMS B U 178 R/hr l l E 1 - E+7 C910/170540 Torus CHRMS A U 80 R/hr l l E 1 E+7 Torus CHRMS B R 80 R/hr l l E 1 E+7 FLOW RATES PanelC7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vert (CFM) ISOLATED TB Vent (CFM) 140000 ;
MET DATA Panel MT1 Detta Temp (*F) 1.5 Outside Temp (*F) 71 220' 160' 33' Stab &ty Class Dir (From) 058 056 060 Degrees Precipitation Speed 46 41 33 MPH OOS - Out of Service OSH - Off Scale High DS - Down Scale 97-06 Page 6 of 25 Evaluated Exercise
~ _ ._ _ _ _ _ _ . _ _ _ _ _ _ . . _ _ _ _ _
l l M::sse9xl 7 I PROCESS RADIATION MONITORS Time: I 1:30 i l PANEUID NO. MONITOR TREND READING ALARM IN RANGE O C910/170518 Main Stack Low R 69 7 CPS -l l- E 1 - E+6 b C910/100160 Marn Stack High
] DS R/hr l l E 1 E+4 C910/1705 32 Rx Building Vent Low l l 206 CPS l l E 1 E+6 C910/1001-60 Rx Building Vent High l l DS mR/hr l l E 1 E+4 C910/100141 Turbine Building Vent High ] DE mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A l l 2000 mR/hr l l E+0 E+6 Main Steam Line B R 2000 mR/hr l l E+0 E+6 Main Steam Line C l l 2000 mR/hr l l E+0 E+6 Main Steam Line D 2000 mR/hr l l E+0 E+6 C910/1705-3 Air Ejector Off Gas W 8975 mR/hr l Hi Hi l E+0 - E+6 C910/1705-4 A Loop RBCCW l l 1500 CPS l l E 1 E+6 0 Loop RBCCW l l 1500 CPS f l E 1 E+6 C910/1705-8 Refuel Floor Vent l l 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust l l 11 mR/hr l l E+0 E+4 C910/170516 Control Rm Air intake 0.05 mR/hr l l E 2 - E+2 C910/1705-30 Radwaste Discharge R 4000 CPS [ l E 1 E+6 C910/1705-5 Off Gas Post Treatment l l 4325 CPS l l E 1 - E+6 C910/170540 DrywellCHRMS A l l 176 R/hr l l E 1 - E+7 Drywell CHRMS B R 176 R/hr l l E E+7 C910/170540 Torus CHRMS A R 100 R/hr l l E 1 - E+7 Torus CHRMS B l l 100 R/hr l l E 1 E+7 FLOW RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp (*F) 15 Outsde Temp (*F) 72 220* %0' 1 3
StatAty Class Dir (From) 058 056 060 Degrees Prt:cipitaton Speed 45 40 32 MPH O OOS - Out of Service OSH - Off Scale High DS - Down Scale 06 Page 7 of 25 Evaluated Exercise w' +--+s M r e q---w---w- w *+e + = % ,
-w%F =n'e -- --
1 ww, muy -swr t Y 1r yr ww y
Mess:93: 181 PROCESS RADIATION MONITORS Time: 1:45 ! PANEUlDNO. MCNITOR TREND READING ALARM IN RANGE C910/1705-18 Main Stack Low R 711 CPS l l E 1 - E+6 C910/100140 Main Stack High l l DS R/hr l l E 1 E+4 C910/1705 32 Rx Duilding Vent Low l l 22 3 CPS l l E 1 E+6 C910/100160 Rx Bueng Vent High U DS mR/hr l l E 1 E+4 C910/100141 Turbine Budding Vent High l l DS mR/nr l l E-1 E+4 C910/1705 2 Main Steam Line A l l 1600 mR/hr l l E+0 E+6 Main Steam Line B U 1600 mR/hr l l E+0 E+6 , Main Steam Line C l l 1600 mR/hr l l E+0 E+6 , Main Steam Line D U 1600 mR/hr l l E+0 E+6 C910/1705 3 Air Ejector Off Gas y 8700 mR/hr l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW l l 1500 CPS l l E 1 E+6 B Loop RBCCW l l 1500 CPS l l E 1 - E+6 C910/1705-8 Refuel Floor Vent l l 5 mR/hr l l E 1 E+3 C910/1705-9 SBGT Exhaust 8 mR/hr l l E+0 E+4 C910/170516 Control Rm Air intake l l 0.05 mR/hr l l E 2 E+2 C910/1705-30 Radwaste Discharge l] 4000 CPS l l E 1 E+6 C910/1705 5 Off Gas Post Treatment l l 4250 CPS l l E 1 - E+6 C910/170540 Drywell CHRMS A U 175 R/hr l l E 1 E+7 Drywell CHRMS B R 175 R/hr l l E 1 - E+7 C910/170540 Torus CHRMS A l l 115 R/hr l l E 1 - E+7 Torus CHRMS B U 115 R/hr l l E 1 - E+ 7 FLOW RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000
' RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 M_JiT DATA Panel MT1 Detta Temp (*F) 1.5 Outsde Temp ('F) 73 220' 16 33' Stability Class Dir (From) 057 055 059 Degrees Precipitation Speed 46 41 33 MPH O OOS Out of Service OSH - Off Scale High DS - Down Scale l- 97_ Page 8 of 25- Evaluated Exercise L
1 _ - , - - ~ - . . - - - - _ , _ . ~ - - , - , . . , - _ .
Messegaf9 I PROCESS RADIATION MONITORS Time: I 2:00 ! PANEUID NO. MONITOR TREND READING ALARM IN RANGE C910/170518 Marn Stack Low R 705 CPS l l E 1 E+6 i C910/1001-60 Main Stack High
] DS Rthr l l E 1 - E+4 !
C910/1705 32 Rx Building Vent Low l l 212 CPS l l E-1 E+6 ; C910/1001-60 Rx Building Vent High y, OS mR/hr l l E 1 E+4 C910/100161 Turbine Building Vent High U DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A C 1200 mR/hr- l l E+0 E+6 Main Steam Lme B l l 1200 mR/hr l l E+0 E+6
- Main Steam Line C R 1200 mR/hr l l E+0 - E+6 Main Steam Line D l l 1200 mR/hr l l E+0 E*6 C010/1705 3 Air Ejector Off Gas l l 8400 mR/hr l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW l l 1500 CPS l l E 1 - E+6 B Loop RBCCW l l 1500 CPS l l E 1 E+6 C910/1705 8 Refuel Floor Vent R S mR/hr l l E 1 E+3 l
C910/1705 9 SBGT Exhaust U 8 mR/hr l l E+0 - E+4 C910/170516 Control Rm Air intake __ 0 05 mR/hr l l E 2 E+2 C910,J05 30 Radwaste Discharge l l 4000 CPS l l E 1 E+6 C910/1705-5 0:1 Gas Post Treatment l l 4125 CPS l ] E 1 - E+6 C910/1705-60 Drywell CHRMS A l l 174 R/hr l l E 1 - E+7 Drywell CHRMS B l l 174 R/hr l l E 1 - E+7 C910/1705-60 Torus CHRMS A l l 140 Rihr l l E 1 E+7 Torus CHRMS B U 140 R/hr l l E 1 E+7 EL9W RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panet MT1 Delta Temp ('F) 1.5 C%tside Temp ('F) 73 220' 160' }3' Stabdity Class Dir (From) 056 054 058 Degrees Precipitation Speed 45 40 32 MPH OOS - Out of Service OSH - Off Scale High DS Down Scale 97-06 Page 9 of 25 Evaluated Fxercise l l
r M:ssaga: 10 PROCESS RADIATION MONITORS Timm 2:10 i - PANElllD NO. MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Low R 70 6 CPS l _] E 1 E+6 C910/100140 Main Stack Hegn l l D3 R/hr l j E 1 E+4 C910/1705 32 Rx Budding Vent Low l l 18 5 CPS l l E 1 E+6 C910/100140 Rx Budding Vent High DS mR/hr l l E 1 E+4 C910/100141 Turtune Building Vent High
] DS mR/hr l l E 1 E+4 C910/1705-2 Main Steam Line A l l 1000 mR/hr l l E+0 E+6 Main Stearn Line B R 1000 mR/hr l l E+0 E+6 Main Steam Line C U 1000 mR/hr l l E+0 E+6 Main Steam Line D R 1000 mR/hr l l E+0 E+6 C910/1705-3 Air EJector Off Gas W 8150 mR/hr l Hi Hi l E+0 E+6 C910/17054 A Loop RBCCW l l 1500 CPS l l E 1 E+6 B Loop RBCCW R 1500 CPS l l E 1 E+6 C910/1705-8 Refuel Floor Vent R 5 mR/hr l l E 1 E+3 ,
C910/1705 9 SBGT Exhaust R 8 mR/hr U l E+0 E+4 C910/170516 Control Rm Air intake 0 05 mR/hr l l E 2 E+2 C910/1705-30 Radwaste Discharge 4000 CPS l l E 1 E+6 C910/1705-5 Off Gas Post Treatment U 3900 CPS l l E 1 - E+6 C910/170540 DrywellCHRMS A C 172 R/hr l l E1 E+7 Drywell CHRMS B l l 172 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A U 160 R/hr l l E 1 E+7 Torus CHRMS B R 160 R/hr l l E 1 E+7 , FLOW RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Detta Temp ('F) -1.6 Outside Temp ('F) 74 _ 220' 160' E j Stability Class Dir (From) 055 053 057 Degrees L Precipitation Speed 45 40 32 MPH l D _ V OOS - Out of Service OSH - Off Scale High DS Down Scale 1 97-06 Page 10 of 25 Evaluated Exercise
M:ss:gx fiTl PROCESS RADIATION MONITORS Time: 2:30 i PANEUID NO, MONITOR TRt. JD READING ALARM IN RANGE : C910/170518 Main Stack Low R 712 CPS l l E 1 E*6 C910/100140 Main Stack Hsgh
] DS R/hr l l E 1 E+4 C910/1705 32 Rx Building Vent Low ] 19 4 CPS f l E 1 E+6 C910/100140 Rx Building Vent High ] DS mR/hr l l E 1 E+4 I C910/1001-61 Turbine Building Vent High ] DS mR/hr l l E 1 E+4 i C91017054 Main Steam Line A
[ 800 mR/hr l l E40 E+6 Main Steam Line B R 800 mR/hr f l E+0 E+6 Main Steam Line C R 800 mR/hr l l E+0 - E+6 Main Steam t ine D l l 800 mR/hr l l E+0 E*6 C910/1705 3 Air Ejector Orf Gas l l 7900 mR/hr l Hi Hi l E+0 E+0 C910/17054 A Loop RBCCW U 1500 CPS l l E 1 - E+6 8 Loop RBCCW l l 1500 CPS l l E 1 E+6 C910/1705-8 Refuel Floor Vent l l 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust l l 8, mR/hr l l E+0 E+4 ! C910/170516 Control Rm Air intake 0.05 mR/hr l l E 2 E+2 C910/1705 30 Radwaste Discharge R 4000 CPS l l E 1 E+6 C910/1705-5 Off Gas Post Treatment l l 3775 CPS l l E 1 E+6 C910/170540 Drywell CHRMS A 170 R/hr l l E 1 E+7 Drywell CHRMS B R 170 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A l l 210 R/hr l l E-1 E+7 Torus CHRMS B l l 210 R/hr l l E 1 E+7 EkOW RATES Pasi C7
, SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp ('F) 16 Outsde Temp ('F) 74 g.
Stabihty Class Dir (From) 054 052 056 Degrees Precipitation Speed 44 39 31 MPH O OOS - Out of Service OSH - Off Scale High DS Down Scale 97 06 Page 11 of 25 Evaluated Exercise
Mess:gz 12 PROCESS RADIATION MONITORS Timm l 2:45 ) PANEUID NO. MONITOR TREND READING ALARM IN RANGE , C910/170518 Main Stack Low l l 70 2 CPS l l E 1 - E+6 ! C910/100140 Main Stack High R DS R/hr l l E 1 E+4 C910/1705 32 Rx Building Vent low l l 212 CPS l l E 1 E+6 C910/100140 Rx Building Vent High l l DS mR/hr l l E E+4 C910/100161 Turbine Building Vent High R DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A U 600 mR/hr l l E+0 E+6 Main Steam Line B U 600 mR/hr l l E+0 E+6 Main Steam Line C l l 600 mR/hr l l E+0 - E+6 Main Steam Line D l l 600 mR/hr l l E+0 E+6 - C910/1705 3 Air Ejector Off Gas l l 7650 mR/hr l Hi Hi l E+0 E+6 C910/17054 .* Loop RBCCW l l 1500 CPS l l E 1 - E+6 B Loop RBCCW l l 1500 CPS l l E 1 E+6 C910/1705-8 Refuel Floor Vent U 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust l l 8 mR/hr l l E+0 E+4 C910/170516 Control Rm Air intake 0.05 mR/hr l l E 2 - E+2 C910/1705 30 Radwaste Discharge R 4000 CPS l l E 1 E+6 C910/1705 5 Off Gas Post Treatment l l 3675 CPS l l I1 E+6 C910/1705-60 Drywell CHRMS A l l 170 R/hr l l E 1 E+7 Drywell CHRMS B l l 170 R/hr l l E 1 E+7 C910/1705-60 Torus CHRMS A 240 R/hr l l E 1 E+7 Torus CHRMS B l l 240 R/hr l l E 1 E+7 FLOW RATES PanelC7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) - 140000 _ MET DATA Panel MT1 Delta Temp ('F) 16 Outside Temp (*F) 75 220' 160' E Stability Cbss Dir (From) 054 052 056 Degrees Precipitv..on Speed 43 38 30 MPH O OOS Out of Service OSH Off Scale High DS - Down Scale 97-06 Page 12 of 25 Evaluated Exercise
-,,, , - - - , - ~ , ,,.-. ---,, ee---~---r,-,.-..-..-,-v,~.- ,n. -e+-..--,rc-w----. -,,---,,m e,.m ,-,+---e--- -,---v,r -?-,.- n - , , --
Mess:ge: 13 i PROCESS RADIATION MONITORS Tima: 3:00 l PANEUID NO. MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Low l l 70 2 CPS l } E 1 E+6 U
~
C910/1001-60 Main Stack High DS R/nr- l j E 1 E+4 C910/170542 Rx Building Vent Low U 20 3 CPS l l E 1 E+6 C910/100160 Rx Buildrng Vent High
] DS mR/hr l j E 1 E+4 C910/100161 Turbine Budding Vent High l l DS mR/hr l l E 1 E+4 ,
C910/1705 2 Main Steam Line A l l 500 mRehr l l E+0 E+6 Main Steam Line B l l 500 mR/hr l l E+0 E+6 Main Steam Line C l l 500 mR/hr l ] E+0 E+6 Main Steam Line D U 500 mR/hr l l E+0 E+6 ; C910/1705 3 Air Ejector Off Gas R 7400 mR/hr l Hi Hi l E+0 E+6 , C910/1705-4 A Loop RBCCW R 1500 CPS l l E 1 - E+6 B Loop RBCCW l l 1500 CPS l l E 1 E+6 C910/1705-8 Refuel Floor Vent U S mR/hr l l E 1 E+3 i C910/1705-9 SBGT Exhaust U 8 mR/hr l l E+0 E+4 ; C910/170516 Control Rm Air intake 0 05 mR/hr l l E 2 - E+2 C910/1705 30 Radwaste Discharge
] 4000 CPS l l E1 E+6 C910/1705-5 Off Gas Post Treatment R 3550 CPS E l E 1 E+6 C910/1705-60 Drywell CHRMS A l l 168 R/hr l l E 1 E+7 Drywell CHRMS B U 168 R/hr l l E 1 E+7 C910/1705-60 Torus CHRMS A l l 250 R/hr l l E E+7 [
Torus CHRMS B l l 250 R/hr l l E1 E+7 ELOW RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLAT ED TB Vent (CFM) 140000 MET DATA Parel MT1 Detta Temp (*F) 16 Outsde Temp ('F) 75 229' 160' 33' Stability Class Dir (From) 053 051 055 Degrees e Precipitation Speed 44 39 31 MPH q U OOS Out of Service OSH - Off Scale High. DS - Down Scale 97-06 Page 13 of 25 Evaluated Exercise ,
l l Message: 14 I PROCESS RADIATION MONITORS Tims: I 3:15 j l PAhEUID NO. MONITOR TREND READING ALARM IN RANGE i C910/170518 Main Stack Low R 69 9 CPS l l E1 E+6 C910/100140 Main Stack High DS R/hr l l E 1 E+4 l C910/1705 32 Rx Buildtog Vent Low R_ 204 CPS l l E 1 E+6 C910/100140 Rr Building Vent High -[ DS mR/hr l l E 1 E+4 C910/iOO141 Turbine Building Vent High
] DS mR/hr l l E 1 E+4 C910/1705 2 Ma'n Steam Line A R 350 mR/hr l l E+0 E+6 - I Main Steam Line B 350 mR/hr 'l l E+0 E+6 Main Steam Line C 350 mR/hr l l E+0 E+6 Main Steam Line D 350 mR/hr l l E+0 E+6 C910/1705 3 Air Ejector Off Gas 7200 mR/hr l Hi Hi l E+0 E+6 ;
C910/1705-4 A Loop RBCCW 1500 CPS l l E 1 E+6 B Loop RBCCW 1500 CPS l l- E 1 E+6 C910/1705 8 Refuel Floor Vent [ 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust U_ 8 mR/hr l l E+0 E+4 C910/170516 Control Rm Air intake 0 05 mR/hr l l E 2 E+2 C910/1705 30 Radwaste Discharge 4000 CPS l l E 1 E+6 C910/1705 5 Off Gas Post Treatment U 3450 CPS l l E 1 E+6 C910/170540 DrywellCHRMS A R 166 R/hr l l E 1 E+7 Drywell CHRMS B R 166 R/hr l l E-1 E+7 C910/170540 Torus CHRMS A 260 R/hr l l E 1 E+7 Torus CHRMS B R 260 R/hr l l E 1 E+7 FLOW RATES PanelC7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp ('F) 16 Outside Temp (*F) 76 220' 160' 13' Stab &ty Class Der (From) 051 049 053 Degrees Precipitation Speed 43 38 30 MPH l l OOS Out of Service OSH Off Scale High DS Down Scale L L 97-06 Page 14 of 25_ Evaluated Exercise L l. 1
.- ~. .- -
i Messegr 13 I PROCESS RADIATION MONITORS Time: 3:30_] PANEUID NO. MONITOR TREND READING ALARM IN RANGE ' C910/170518 Main Stack Low R 711 CPS l l E 1 E+6 C910/100140 Main Stack High [~-] DS R/hr l l E 1 E+4 ! C910/1705 32 Rx Building Vent Low l l 213 CPS l l E 1 E+6 ! C910/100140 Rr Building Vent High l l DS mR/hr l l E 1 E+4 C910/100141 Turbine Building Vent Hsgh- U DS mR/hr l l ' E 1 E+4 C910/1705 2 Main Steam Line A U 300 mR/hr l l E+0 E+6 Main Steam Line B l l 300 mR/hr l l E+0 E+6 Main Steam Line C l l 300 mR/hr l l E+0 E+6 Main Steam Line D 300 mR/hr E+0 E+6 ! l l l l C910/1705 3 Air Ejector Off Gas y 6950 mR/' l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW if00 CkS l l E 1 E+6 B Loop RBCCW [ 1500 CPS l l E 1 E+6 ; C910/1705 8 Refuel Floor Vent l l 5 mR/hr l l E 1 E+3 - C910/1705 9 SBGT Exhaust 8 mR/hr l l E+0 E+4 4 i
- C910/170516 Control Rm Air intake 0 05 mR/hr l l E-2 E+2
C910/1705 30 Radwaste Discharge U 4000 CPS l l E-1 E+6 C910/1705 5 Off Gas Post Treatment U 3350 CPS l l E 1 E+6 , C910/170540 Drywell CHRMS A U 164 R/hr l l E 1 E+7 Drywell CHRMS B l l 164 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A l l 260 R/hr l l E 1 E+7 . Torus CHRMS B U 260 R/hr l l E 1 - E+7 EL_QW RAIES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 ISOLATED 140000 RB Vent (CFM) TB Vent (CFM) MET DATA Panel MT1 Detta Temp (*F) 16 Outsde Temp (*F) -76 220' 160' 33' Stabikty Class Dir (From) 050 048 052 Degrees Precipitation Speed 41 36 28- MPH OOS - Out of Service OSH Off Scale High DS - Down Scale 97-06 Page 15 of 25 Evaluated Exercise l
M:ssags: 16 l PROCESS RADIATION MONITORS Time: I 3:45 i PANEUID NO. MONITOR TREND READING ALARM IN RANGE i C910/170518 Main Stack Low R 711 CPS l ) E1 E+6 C910/100140 Main Stack High l l DS R/hr l l E 1 E+4 ! C910/1705 32 Rx Building Vent Low R 221 CPS l l E 1 E+6 , C910/100140 Rx Building Vent High l l DS mR/hr l l E 1 E+4 C910/100141 Turbine Building Vent High ] DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A l l 270 mR/hr l l E+0.E+6 R
~
Main Steam Lino B 270 mR/hr l j E+0 E+6 Main Steam Line C R 270 mR/hr l -l E+0 E+6 Main Steam Line D l l 270 mR/hr l l E+0 E+6 C910/1705-3 Air Ejector Off Gas R 6750 mR/hr l Hi Hi l E+0 E+6 C910/1705 4 A Loop RBCCW U 1500 CPS [ l E-1 E*6 B Loop RBCCW R 1500 CPS [ l E 1 E+6 l C910/1705-8 Refuel Floor Vent ] 5 mR/hr l l E 1 E+3 C910/1705 9 SBGT Exhaust l l 8 mR/hr l l E+0 E+4 l C910/170516 Ccntrol Rm Air intake R 0 05 mR/hr l l E 2 E+2 C910/1705 30 Radwaste Discharge 4000 CPS E 1 E+6 [J l l C910/1705 5 Off Gas Post Treatment R 3250 CPS l l E 1 E+6 0910/17054 0 DrywellCHRMS A l l 162 R/hr l l E 1 E+7 Drywell CHRMS B l l 162 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A U 255 R/hr l l E 1 E+7 Torus CHRMS B l l 255 R/hr l l E 1 F+7 ELOW RATES PanelC7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RO Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp (*F) 16 Outside Temp (*F) 77 g, %0' E Statshty Class Dir (From)' 049 047 051 Degrees Precipitation Speed 42 37 29 MPH O OOS - Out of Service OSH - Off Scale High DS - Down Scale 1 9746 Page 16 of 25 Evaluated Exercise w--ep g.y w. wy +-.y e q.w- .'-y y9 - -teF -+Tgr **--W w '"'F' --
M0ssega:l 171 PROCESS RADIATION MONITORS Time: E4.05 i PANEldlDNO MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Low R 20000 CPS l Hi Hi l E 1 E+6 C910/100160 Main Stack High U DS R/hr l ~j E 1 E+4 C910/1705 32 Rx Building Vent Low
] 215 CPS l } E-1 E+6 C910/1001-60 Rx Building Vent High l l DS mR/hr l l E 1 E+4 C910/100161 Turbine Building W High R DS mR/hr l l E 1 - E+4 C910/1705 2 Main Steam Line A l l 100000 mR/hr l Hi Hi l E+0 E+6 Main Sicam Line B 100000 mR/hr [,HiHil E+0 E+6 Main Steam Line C U 100000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line D l l 100000 mR/hr l Hi Hi l E+0 E+6 C910/1705 3 Air Ejector Off Gas R 6100 mR/hr l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW l l 1500 CPS l l E 1 E+6 8 Loop RBCCW U 1500 CPS l l E 1. E
- 6 >
C910/1705-8 Refuct Floor Vent l l 50 mR/hr l Hi Hi l E 1 E+3 C910/1705 9 SBGT Exhaust R 1000 mR/hr l Hi j E+0 - E+4 C910/170516 Control Rm Air intake l l 0 05 mR/hr l l E 2 E+2 C910/1705 30 Radwaste Discharge
] 4000 CPS l l E 1 - E+6 C910/1705-5 Off Gas Post Treatment R 2950 CPS l l E 1 E+6 C910/1705-60 Drywell CHRMS A 158 R/hr l l E 1 - E+7 Drywell CHRMS B l l 158 R/hr l l E 1 - E+7 C910/1705-60 Torus CHRMS A l l 250 R/hr l l E 1 - E+7 Torus CHRMS B R 250 R/hr l l E 1 E+7 FLOW RATES PanelC7 SBGT (CFMi 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Detta Temp ('F) -1.7 Outside Temp (*F) 78 220' 160' 3)3' Stabety Class Dir (From) 040 047 051 Degrees Precipitation Speed 41 36 28 MPH O OOS Out of Service OSH Off Scale High DS - Down Scale 97 06 Page 17 of 25 . Evaluated Exercise
Message: I 18 i PROCESS RADIATION MONITORS Time: I 4:15 i PANEUID NO. MONITOR TREND READING ALARM IN RANGE ! C910/170518 Main Stack Low [ OSH CPS l Hi Hi l E 1 E+6 C910/100140 Mam Stack High l l 110 R/hr l l E 1 E+4 C910/1705 32 Rx Building Vent Low R 20 7 CPS l l E 1 E+6 ! C910/100140 Rx Building Vent High l l DS mR/hr l l E 1 E+4 C910/100141 Turbine Building Vent High l l DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A l l 600000 mR/hr l Hi Hi l E+0 - E+6 Main Steam Line B U 600000 mR/hr l Hi Hi l E+0 - E+6 Main Steam Line C l l 600000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line D 600000 mR/hr l Hi Hi l E+0 E+6 C910/1705 3 Air Ejector Off Gas l l 5550 mR/hr l Hi d E+0 E+6 C910/1705 4 A Loop RBCCW U 1500 CPS f l E 1 E46 8 Loop RBCCW 1500 CPS ,' l E-1 E+6 C910/1705 8 Refuel Floor Vent l l 65 mR/hr l Hi Hi l E 1 E+3 C910/1705 9 SBGT Exhaust U OSH mR/hr l Hi l E+0 E+4 C910/170516 Control Rm Air intake 0 05 mR/hr l l E 2 E+2 C910/1705 30 Radwaste Discharge 4000 CPS l l E 1 E+6 C910/1705 5 Off Gas Post Treatment R 2725 CPS l l E-1 E+6 C910/170540 DrywellCHRMS A U 154 R/hr l ] E 1 E+7 Drywell CHRMS B l l 154 R/hr l l E 1 - E+7 C910/170540 Torus CHRMS A l l 240 R/hr l l E 1 - E+7 Torus CHRMS B l l 240 R/hr l l E-1 E+7 ELOW RATES PanelC7 ; SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 < Delta Temp ('_F) 17 l Outside Temp ('F) 78 2E % 0' E Stabdity Class Dir (From) 048 046 050 Degree , Precipitation Speed 40 35 27 MPH ' O OOS - Out of Service OSH Off Scale High DS Down Scale 97 06 Page 18 of 25 Evaluated Exercise
-- w y
MassagrI 191 PROCESS RADIATION MONITORS Time: 4:30 i PANEUlDNO. MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Low R OSH CPS l Hi Hi l E 1 E+6 C910/100140 Main Stack High l l 107 R/hr l l E 1 E*4 C910/1705 32 Rx Building Vent Low l l 22 3 CPS l l E 1 E+6 C910/100140 Rx Building Vent High DS mR/hr l l E-1 E+4 C910/100141 Turbine Building Vent High
] DS mR/hr l l E 1 E+4 l
C910/1705 2 Main Steam Line A l l 600000 mR/hr l Hi Hi l E+0 - E+6 Main Steam Line B l l 600000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line C U 600000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line D
] 600000 mR/hr l Hi Hi l E+0 E+6 C910/1705 3 Air Ejector Off Gas U 5375 mR/hr l Hi Hi l E+0 E+6 . C910/1705-4 A Loop RBCCW l l 1500 CPS l l E 1 E+6 B Loop RBCCW R 1500 CPS l l E 1 E+6 C910/1705-8 Refuel Floor Vent l l 65 mR/hr l Hi Hi l E 1 E+3 C910/1705-9 SBGT Exhaust U OSH mR/hr l Hi l E+0 E+4 C910/170516 Control Rm Air intake U 0 05 mR/hr l l E 2 E+2 C910/1705-30 Radwaste Discharge l l 4000 CPS l l E 1 - E+6 C910/1705 5 Off Gas Post Treatment 2650 CPS l l E-1 E+6 C910/170540 DrywellCHDMS A U 154 R/hr l l E 1 E+7 Drywell CHRMS B R 154 R/hr l l E 1 - E+7 C910/170540 Torus CHRMS A U 235 R/hr l l E 1 E+7 i Torus CHRMS B l l 235 R/hr l l E 1 E*7 El OW RATES Panel ( 7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MEIDATA Panel MT1 Detta Temp ('F) 1.7 Outside Temp (*F) 79 m' 160' R' Stabihty Class Dir (From) 048 046 050 Degrees Precipitation Speed 40 35 27 MPH OOS Out of Service OSH Off Scale High DS - Down Scale 97-06 Page 19 of 25 Evaluated Exercise
l l M:ssegz 20 1 PROCESS RADIATION MONITORS Time: I 4:45 1 PANEUID NO. MONITOR TREND READING ALARM IN RANGE J C910/170518 Main Stack Low R OSH CPS l Hi Hi l E 1 E+6 C910/1001-60 Main Stack High l l 104 R/hr l l E-1 E+4 ; C910/1705 32 R4 Budding Vent iow
] 221 CPS l l E 1 E+6 !
C910/100160 Rx Budding Vent High DS mR/hr l E 1 E+4 l C910/100161 Turbine Budding Vent High
] DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Lene A R 500000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line B l l 500000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line C l l 500000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line D U 500000 mR/hr l Hi Hi l E+0 E+6 C910/1705 3 Air Ejector Off Gas l l 5200 mR/hr l Hi Hi l E+0 E+6 ,
C910/1705-4 A Loop RBCCW l l 1500 CPS l l E 1 - E+6 B Loop HBCCW l l 1500 CPS l l E 1 E+6 , C910/1705 8 Refuel Floor Vent R 65 mR/hr l Hi Hi l E 1 E+3 C910/1705 9 SBGT Exhaust R OSH mR/hr l Hi l E+0 E+4 C910/1705-16 Control Rm Air intake R 0.05 mR/hr l l E 2 E+2 C910/1705 30 Radwaste Discharge 4000 CPS l l E1 E+6 C910/1705 5 Off Gas Post Treatment R 2600 CPS l l E-1 E+6 C910/1705-60 Drywell CHRMS A l l 150 R/hr l l E 1 - E+7 Drywell CHRMS B R 150 R/hr l l E 1 E+7 C910/1705 60 Torus CHRMS A R 230 R/hr l l E 1 E+7 Torus CHRMS B l l 230 R/hr l l E-1 E+7 FLOW RATE] PanelC7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp (*F) 17 Outsde Temp ('F) 80 220' ifO' 33' Stability Class Dir (From) 049 047 051 Degrees Precipitation Speed 40 35 27 MPH O OOS - Out of Service OSH - Off Scale High DS - Down Scale 1 97 Page 20 of 25 Evaluated Exercise l.
M:ss:ge: I 21 1 PROCESS RADIATION MONITORS Time: I 5:00 l PANEUID NO. MONITOR TREND READING ALARM IN RANGE _ C910/170518 Main Stack Low l l OSH CPS l Hi Hi l E 1 E+6 C910/1001-60 Main Stack High l l 101 R/hr l l E 1 E+4 C910/1705 32 Rx Building Vent low 221 CPS l l E 1 E+6 C910/100160 Rr Building Vent High R DS mR/hr l l E 1 E+4 C910/1001-61 Turbine Building Vent High l l D5 mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A R 450000 mR/hr LHi Hi l E+0 E+6 , Main Steam Line B U 450000 mR/hr l Hi Hi l E+0 E+6 ; Main Steam lane C
] 450000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line D l l 450000 mR/hr LHi Hi l E+0 E+6 C910/1705-3 Air Ejector Off Gas R 5050 mR/hr l Hi Hi l E+0 E+6 C910/1705-4 A Loop RBCCW ] 1500 CPS l l E 1 E+6 B Loop RBCCW ] 1500 CPS l l E1 E+6 C910/1705 8 Refuel Floor Vent U 65 mR/hr l Hi Hi l E-1 E+3 C910/1705 9 SBGT Exhaust l l OSH mR/hr l Hi l E+0 E+4 C910/170516 Control Rm Air intake R 0 05 mR/hr l l E 2 E+2 C910/1705-30 Radwaste Discharge ] 4000 CPS l l E 1 E46 C910/1705-5 Off Gas Post Treatment l l 2550 CPS l l E 1 E+6 C910/1705 60 Drywell CHRMS A 150 R/hr l l E 1 - E+7 Drywell CHRMS B U 150 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A l l 225 R/hr l l E 1 E+7 Torus CHRMS B R 225 R/hr l l E 1 E+7 f LOW RATES PanelC7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp (*F) 17 Outsde Temp (*F) 80 220' 160' 33' Stabihty Class Dir (From) 049 047 051 Degrees Precipitation Speed 40 35 27 MPH l
O OOS Out of Service OSH - Off Scale High DS - Down Scale 97-06 Page 21 of 25 Evaluated Exercise L_-.-----
M:ss:gr 22 l PROCESS RADIATION MONITORS Time: 5:15 l PANEUID NO. MONITOR TREND READING ALARM IN RANGE C910/170518 Main Stack Lcw
] OSH CPS l Hi Hil E 1 E+6 C910/100140 Main Stack High R 986 R/hr l l E 1 E*4 C910/1705 32 Rx Building Vent Low R 221 CPS l l E 1
- E+6 C910/100140 Rx Building Vent High l l DS mR/hr l l E 1 E+4 C910/100141 Turbine Building Vent High
] DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A l l 450000 mR/hr l Hi Hi l E+0 - E+6 Main Steam Line B ] 450000 mR/hr l Hi Hi l E+0 E+6 Main Steam Line C U 450000 mR/hr . l Hi Hi l E+0 E+6 Main Steam Line D U 450000 mR/hr l Hi Hi l E+0 - E*6 <
C910/1705 3 Air Ejector Off Gas l l 4850 mR/hr l Hi Hi j E+0 E+6 C910/1705-4 A Loop RBCCW R 1500 CPS l l E 1 - E+6 B Loop RBCCW l l 1500 CPS l l E 1 E+6 C910/1705 8 Refuel Floor Vent l l 65 mR/hr l Hi Hi l E 1 E+3 C910/1705 9 SBGT Exhaust R OSH mR/hr j, Hi l E+0 E+4 , C910/170516 Control Rm Air intake 0.05 mR/hr [ l E 2 E+2 C91N1705 30 Radwaste Discharge
] 4000 CPS l l E 1 E+6 C910/1705-5 Off Gas Fost Treatment l l 2500 CPS l l E 1 E+6 C910/170540 Drywell CHRMS A l l 148 R/hr l l E-1 E+7 Drywell CHRMS U l l 148 R/hr l l E 1 E+7 C910/170540 Torus CHRMS A } l 220 Ritir l l E 1 E+7 l Tonas CHRMS B U 220 R/hr l l E 1 E+7 l
FLOW RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Detta Temp (*F) 17 Outside Temp (*F) 81 220' 160' 33'
- Stabihty Class Dir (From) 048 046 050 Degrees Precip4tation Speed 40 35 27 MPH l
OOS - Out of Service OSH - Off Scale High DS - Down Scale 06 Page 22 of 25 Evaluated Exercise
- - . - . _ .r , ,_ ,, . _ _ . ~ . - - . - ,,- _ . . ~ , , ....,-,.,,,,y
M:se:92: 23 PdOCESS RADIATION MONITORS Time: I 5:30 i PANEUID NO. blONITOR TREND READING ALARM IN RANGE , C910/170518 6'.ain Stack Low R OSH CPS l Hi Hi l E-1 E+6 C910/100160 Main Stack High U 965 R/hr l l E 1 E+4 C910/1705 32 Rx Building Vent Low 22 i CPS f j E 1 E+6 C910/100140 Rx Building Vent High U DS mR/hr l l E 1 E+4 U C910/1001-61 Turbine Building Vent %gh DS mR/hr l l E 1 E+4 C910/1705 2 Main Steam Line A 2000ef'hr l l E+0 E+t> Main Steam Line 8 R 2000 mR/hr l l E+0 E+6 1 Main Steam Line C U 2000 mR/hr l l E+0 - E+6 ! Main Steam Line D R 2000 mR/hr l l E+0 E+6 C910/1705 3 Air Ejector Off Gas 4450 mR/hr l Hi Hi l E+0 - E+6 C910/1705 4 A Loop RBCCW U 1500 CPS { l E 1 E+6 8 Loop RBCCW 1500 CPS [ l E 1 E+6 C910/1705-8 Refuel Floor Vent 65 mR/hr [Hi Hi l E 1 E+3 C910/1705 9 SBGT Exhaust OSH mR/hr i Hi ,J E+0 E+4 C910/170510 Control Rm Air intake R 0 05 mR/hr l l E 2 E+2 C910/1705-30 Radwaste Discharge 4000 CPS l l E-1 E+6 C910/1705 5 Off Gas Post Treatment R 2350 CPS l l E 1 E+6 C910/1705 60 DrywellCHRMS A U 145 R/hr l l E 1 E+7 PsWell CHRMS B R 145 R!hr l l E E+7 C910/1705 60 Torus CHRMS A l l 19J R!hr l l E E+7 Torus CHRMS B l l 190 Rihr l l E 1 - E+7 FLOW RATES Panel C7 SBGT (CFM) 4000 Main Stack (CFM) 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA - Panel MT1 Detta Temp (*F) 17 Outside Temp ('F) 81 220' J
' 0' 33' Stability Class Dir (From) 048 046 .050 Degrees 1 Precipitation Speed 40 35 27 MPH
_ OOS Out of Service OSH - Off Scale High DS - Down Scale 97-06 Page 23 of 25 _ Evaluated Exercise -
- .___. - ..--_----.--.L...-----. , - _ - .
Massage 124 I PROCESS RADIATION MONITORS Time: f 5 45 l
, PANEUID NO. MONITOR TREND READING ALARM IN RANGE , C910/170518 Main Stack Low l l 390000 CPS l Hi Hi l E 1 E+6 '
C910/100140 Main Stack High 937 R!hr l l E-1 E+4 C910/1705 32 Rx Building Vent low l l 221 CPS [ ] E-) - E+ 6 C910/100140 Rr Building Vent High U DS mR/hr l ] E 1 E+4 C910/1001-61 Turbine Building Vent High DS mR/hr l l E 1 E+4 i C910/1705 2 Main Steam Line A [ 500 mR/hr l l E+0 E+6 Main Steam Line B l l 500 mR/hr l l E+0 C +6 Main Steam Line C l l 500 mR/hr f l E+0 E+6 f Main Steam Line D l l 500 mR/hr l l E+U E+6 C910/1705 3 Air Ejector Off Gas R 4300 mR/hr l Hi Hi l E+0 E+6 C910/17c6-4 A Loop RBCCW l l 1500 CPS l l E 1 E+6 B Loop RBCCW U 1500 CPS [ l E 1 E+6 C910/1705 8 Refuel Floor Vent l l 55 mR/hr l Hi Hi j E E+3 C910/1705-9 SBGT Exhaust U OSH mR/hr l Hi l E+0 E*4 C910/1705-10 Control Rm Air intake U 0 05 mR/hr l l E 2 E+2 C910/1705-30 Radwaste Discharge R 4000 CPS l l E 1 E+6 C910/1705-5 Off Gas Post Tleatment 2300 CPS l l E 1 - E+6 ; C910/1705 60 Dywell CHRMS A R 140 R/hr l l E 1 E+7 Drywell CHRMS B R 140 R/hr l l E 1 E+7 C910/1705-60 Torus CHRMS A [ l 180 R/hr l l E1 E+7 Torus CHRMS B l l 180 R/hr l l E E+7 FL_OW RATES PanelC7 SBGT (CFM) 4000 Main Stack (CFM) 20000 l RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 1 MET DATA Panel MT1 l Delta Temp (*F) 1.7 Outside Temp ('F) 82 160' 3 3_3' Stabildy Class Dir (From) 049 047 051 Degrees Precipitation Speed 40 , 35 27 MPH OOS - Out of Service OSH Off Scale High DS Down Scale 97-06 Page 24 of 25 Evaluated Exercise
o Message:fiO PROCESS RADIATION MONITORS Time:l 6:00 i-PANEUID NO. MONITOR TREND READING ALARM IN RANGE C910/170513 Main Stack Low l l 20000 CPS l Hi Hi l E 1 E+6 C910/1001-60 Main Stack High l l DS R/hr l l E E+4
- C910/1705-32 Rx Building Vent Low l l 221 CPS l l E 1 - E+6 C010/100140 Rx Building Vent High l l DS mR/hr l ] E-1 E+4 C910/100141 Turbine Building Vent High l- l _
DS mR/hr l l E 1 - E+4 C910/1705 2 Main Steam Line A U 200 mR/hr l l E+0 - E+6 Main Steam Line B l j 200 mR/hr l l E+0 - E+6 , Main Steam Line C 'R 200 mR/hr l l E+0 E+6 Main Steam Line D l l 200 mR/hr l l E+0 - E+6 C910/1705 3 Air EJector Off Gas
] ,
4100 mR/hr l Hi Hi l E+0 - E+6 C910/1705-4 A Loop RBCCW l l , 1500 CPS l l E 1 E+6 B Loop RBCCW l l 1500 CPS l l E 1 E+6 , C910/1705-8 Refuel Floor Vent R 50 mR/hr l Hi Hi l E-1 E+3 C910/1705-9 SBGT Exhaust l l OSH mR/hr l Hi l E+0 - E+4 , ' C910/170516 Control Rm Air intake l l 0 05 mR/hr l l E-2 E+2 C910/1705-30 Radwaste Discharge l l A000 CPS l l E 1 - E+6 C910/1705 5 Off Gas Post Treatment l l 2200 CPS l l E 1 - E+6 C910/170540 Drywell CHRMS A -l l 135 R/hr l l E-1 '- E+7 Drywell CHRMS B l l 135 R/hr l l E 1 - E+7 C910/170540 Torus CHRMS A l l 170 R/hr l l E-1 E+7 Torus CHRMS B l l 170 R/hr l l E E+7 FLOW RATES Panel C7 SBGT (CFM) 40C0 Main Stack (CFW 20000 RB Vent (CFM) ISOLATED TB Vent (CFM) 140000 MET DATA Panel MT1 Delta Temp (*F) 17-Outside Temp (*F) 81 220' 160' 33' Stabihty Class Dir (From) - 049 047 051 Degrees Precipitation Speer/ 40 35 27 MPH O OOS - Out of Service - OSH - Off Scale High DS - Down Scale 97-06 Page 25 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Massage:l 1 l 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l EFFL RAD
%.e NORMAL VENT- INSTR NO UNIT VENT INSTR NO UNIT STACK GAS #1 RM 170518A l 78 9 l CPS RX BLDG EXH VENT A RM 1705 32A l 31 0 l CPS STACK GAS 82 RM 1705-188 l 78 9 lLPS RX BLDG EXH VENT O RM 1705-32B l 31 0 l CPS MAIN STACK GAS RT 1001-608 l DS l R/HR RX BLOG EXH VENT RT-1001609 [, D 1 l R/HR REFUEL FLOOR VENT EXH A RM 17058A l 5 l mR/HR RADWASTE EFFLUENT RM 1705-30 f d] CPS REFUEL FLOOR VENT EXH B RM 17058B I 5 l mR/HR TURB BLOG ROOF EXH RT-1001-610 l DS l R'HR 5 4 REFUEL FLOOR VENT EXH C RM 17058C l l mR/HR SBGT DISCHARGE RM 1705-9 [ l mR/HR
- REFUEL FLOOR VENT EXH D RM 1705 80 l 5 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM"' 04 NOV 1997 0 00 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR No mR/HR PROCESS INSTR NO CPS OFFCoS LOG RAD A RM 1705-3A l 3000 l OFFGAS POST TREATMENT RM-1705-5A l 5000 l OFFGAS LOG RAD B RM 1705 3B l 3000 l OFFGAS POST TREATMENT RM 1705-5B l 5000 l CARBON BED VAULT RM-1705-60 l 100 l RBCCW A PROCESS RM 1705 4A l iS00 l RBCCW B PROCESS RM 1705-4B l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (HI RANGE) INSTR NO R/HR MAIN STEAM LINE A RM 17052A [ 30000 l DRYWELL A RIT 1001606A [ 10 l MAIN STEAM LINE B RM 1705-28 l 30000 l DRYWELL 8 RIT 10016060 l 10 l MAIN STEAM UNE C RM 1705 2C ] 30000 l TORUS A RIT 1001607A l DS l MAIN STEAM LINE D RM 170520 l 30000 l TORUSB RIT-1001607B l DS j P'LGRtM"' 04-NOV 1997 0 00 1
O V . 97-06 Page 1 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Massage:l 2 } ' 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l EFFL RAD NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS s i RM 170518A I 635 l CPS RX BLDG EXH VENT A RM-1705 32A l 30 1 l CPS STACK GAS #2 RM 170518B l 635 l CPS RX BLOG EXH VENT B RM-1705 32B l 30 1 l CPS MAIN STACK GAS RT 1001608 l DS }RHR RX BLOG EXH VENT RT 1001609 l DS lRHR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 lmRHR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS 5 REFUEL FLOOR VENT EXH B RM 1705-JB l lmRHR TURB BLOG ROOF EXH RT 1001610 [ DS l R/HR PEFUEL FLOOR VENT EXH C RM 1705-8C l 5 lmRHR SBGT DISCHARGE RM 1705 9 l 8 l mR/HR REFUEL FLOOR VENT EXH D RM 1705-BD l 5 lmRHR
. REFUEL FLOOR EXH l NORMAL l PILGRIM"* 04 NOV 1997 015 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD l.0RMAL NORMAL PROCESS INSTR NO mRHR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705-3A l 24000 OFFGAS POST TREATMENT RM-1705 5A l 7500 J l OFFGAS LOG RAD B RM 1705-3B l 24000 1 OFFGAS POST TREATMENT RM 1705-50 l 75r . l CARBON BED VAULT . RM 1705-60 l 97 l RBCCW A PROCESS RM-1705-4A l 1500 l RBCCW B PROCESS RM 1705-48 l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (HI RANGE) INSTR NO R/HR MAIN STEAM LINE A RM 1705-2A l 87000 l DRYWELL A RIT 1001606A l 150 l MAIN STEAM LINE B RM 1705-2B l 87000 l LRYWELL B RIT 10016068 l . 150 j MAIN STEAM LINE C RM 1705 2C l 87000 j TORUS A RIT-1001607A l 2 l MAIN STEAM LINE D. RM 1705 2D l 87000 l TORUSB RIT 1001607B l 2 l PILGR:M*** 04 NOV 1997 015 9746' Page 2 of 25 Evaluated Exercise r . - .. . . _ . ~ _ . .. - , . . .
. . -- - - - . . . - _ ~ _ _ _ . -. -. - - . .
SPDS 111/112 Drill Displays Message:l 3 l 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l EFFL RAD (/ NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT
- STACK GAS 81 RM 1705-18A l 18L ] CPS RX BLOG EXH VENT A RM 1705-32A l 27 6 l CPS ST ACK GAS 82 RM 170518B l 1850 l CPS RX BLOG EXH VENT B RM 1705 32Bl 27 6 _jCPS MAIN STACK GAS RT 1001-608 l DS l R/HR RX BLDG EXH VENT RT 1001609 l DS l R/HR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 l mR/HR RADWASTE EFFLUENT RM 1705 30 l 4000 l CPS REFUEL FLOOR VENT EXH B W-1705-8B l 5 l mR/HR TURB BLOG ROOF EXH. RT 1001-610 l DS l R/HR REFUEL FLOOR VENT EXH C RM 1705 8C l 5 l mR/HR SBGT DISCHARGE RM 1705 3 l 15 l mR/NR REFUEL FLOOR VENT EXH D RM 1705-80 l 5 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM"' 04 NOV 1997 0 30 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 17053A l 20000 l OFFGAS POST TRF.ATMENT RM 1705-5A l 12000 l
\ OFFGAS LOG RAD B RM 1705-38 l 20000 OFFGAS POST TREATMENT 12000 l RM 1705 58 l l CARBON BED VAULT RM 1705-60 [ 94 RBCCW A PROCESS l RM-1705-4A f 1500 l RBCCW B PROCESS RM 1705 4B l 1500 l MAIN STEAM LlhE INSTR NO mR/HR AREA (Hf RANGE) INSTR NO R/HR MAIN STEAM LINE A RM-1705-2A l 45000 l DRYWELL A 180 RIT 1001606A l l MAIN STEAM LINE B RM 1705-2B - j 45000 DRYWELL B 180 l RIT.10016068 l l MAIN STEAM LINE C RM 1705-2C l 45000 TORUS A 16 l RIT-1001607A l ) MAIN STEAM LINE D RM 1705-20 [ 45000 l TORUSB 16 RIT-10016078 l l PILGRIM'" 04 NOV 1997 0 30
%J 97 06 Page 3 of 25 Evaluated Exercise
SPDS 111/112 Dri!! Displ::ys Message: I4 l 111- l- RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l EFFL RAD NOPMAL VENT INSTR NO UNIT '/ENT INSTR NO UNIT STACK GAS #1 RM 1705-18A l 3200 l CPS RX BLDG EXH VENT A RM 1705-32A l 19 9- l CPS STACK GAS #2 RM 1705188 l 3200 l CPS RX BLOG EXH VFNT B RM 1705-328 [ __ 19 9 -l CPS MAIN STACK GAS RT 1001408 l DS lRHR RX BLOG EXH %LhT RT 1001-609 l D$ l R'HR REFUEL FLOOR VENT EXH A RM 17058A l 5 l mR/HR RADWASTE EFFLUENT RM 1705 30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-88 l 5 l mR/HR TURB BLOG ROOF EXH RT 1001410 l DS lRHR REFUEL FLOOR VENT EXH C RM 17050C l 5 l mR/HR SBGT DISCHARGE RM 1705 9 [ 21 lmRNR REFUEL FLOOR VENT EXH D RM 1708 80 l 5 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRtM*" 04-NOV 1997 0 45 112 l RPV NORMAM PROCESS RADIATION l CNTMT NORMAL l MSL HAD PROC RAD NORMAL NORMAL PROCESS INSTR NC. mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM-1705-3A l 16500 l OFFGAS POST TREATMENT RM 170$$A l 14000 l OFFGAS LOG RAD B RM-1705-3B l 16500 l OFFGAS POST TREATMENT RM-1705-5B l 14000 l CARBON BED VAULT RM 1"0540 l 92 l RBCCW A PROCESS RM 1705-4A l 1500 l RBCCW B PROCESS RM 1705-4B l 1500 l 1 MAIN STEAM LINE INSTR NO mRMR AREA (He RANGE) INSTR NO RhR MAIN STEAM LINE A RM 1705-2A l 15000 l DRYWELL A RIT 1001606A l 180 l MAIN STEAM LINE B RM 1705 28 l 15000 l DRYWELL 8 RIT 10016060 l t 80 - } MAIN STEAM LINE C RM-1705-2C l 15000 l TORUS A RIT 1001607A l 40 l MAIN STEAM LINE D RM 1705 2D l 15000 l TORUSB RIT-1001607B l 40 l PILGRIM *" 04 NOV 1997 0 45 V 97 Page 4 Of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 5 l 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l . EFFL RAD NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT
. STACK GAS #1 RM-1705-18A l 1220 l CPS- RX BLDG ExH VENT A - RM 1705 32A l 21 5 l CPS STACK GAS #2 RM-1705-189 l 1220 l CPS RX BLOG EXH VENT B RM 1705-32B l 21 5 l CPS MAIN STACK GAS RT 1001408 l DS lPHR RX BLDG ExH VENT RT 1001609 l DS lRHR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 lmRHR RADWASTE EFFLUENT RM 1705 30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705 8B l 5 lmRHR TURB BLDG ROOF EXH RT 1001410 l DS l R/HR RLFUEL FLOOR VENT EXH C RM 1705-8C l 5 l mR/HR . SBGT DISCKARGE RM-1705-9 l 20 l mR/HR REFUEL FLOOR VENT EXH D RM 1705-80 l 5 l mR,HR PEFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 100 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM-1705-3A l 12800 l OFFGAS POST TREATMENT RM-1705-5A [ 11000 j d OFFGAS LOG RAD B RM-1705 38 l 12800 l OFFGAS POST TREATMENT RM 1705-58 l 11000 l CARBON BED VAULT PM 170540 l 89 l RBCCW A PROCESS RM-1705-4 A l 1500 J
, RBCCW B PROCESS RM-1705-4B l 1500 _j MAIN STEAM LINE INSTR NO mR/HR AREA (HI RANGE) INSTR NO R;HR MAIN STEAM LINE A RM 1705-2A l 7000 l DRYWELL A RIT 1001606A l 178. i MAIN STEAM LINE B RM '705-28 l 7000 -l DRYWELL B RIT 10016068 l 178 l MAIN STEAM LINE C RM 1705-2C l 7000 l TORUS A RIT 1001607A l 60 j MAIN STEAM LINE D RM 1705-20 l 7000 l TORUS B RIT 10016078 l 60 j PILGRIM *" 04 NOV 1997 100 97-06 Page S Of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 6 l 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l
.f errtRAD NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS #1 RM 1705-18A l 360 l CPS RX BLOG EXH VENT A RM-1705-32A l 20 2 l CPS STACK GAS #2 RM.1705-188 l 360 l CPS- RX BLOG EXH VENT B RM 1705 328) 20 2 l CPS MAIN $ TACK GAS RT,1001608 l DS l R/HR RX BLDG EXH VENT RT 1001609 l DS lRHR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 l mR,HR RADWASTE EFFLUENT RM 1705 30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 17058B l 5 ] mR/HR TURB BLDG ROOF EXH RT 1001610 l DS l R/HR - REFUEL FLOOR VENT EXH C RM 1705 8C l 5 l mR/HR SBGT DISCHARGE RM 1705-9 l 14 lmRHR REFUEL FLOOR VENT EXH D RM-1705 80 l 5 lmRHR . REFUEL FLOOR EXH l NORMAL]
PILGRIM *" 04 NOV 1997 1 15 112 -l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS RM 1705-3A l 9250 l OFFGAS POST TREATMENT RM 1705-5A l 6300
. [} OFFGAS LOG RAD A l OFFGAS LOG RAD B RM "05 38 l 9250 l OFFGAS POST TREATMENT RM 1705-58 l 6300 l CARBON BED VAULT RM-170540 l 87 l RBCCW A PROCESS RM 1705-4A l 1500 l RBCCW B PROCESS RM 170548 l 1500 l MAIN STEAM LINE INSTR NO mRHR AREA (HI RANGE) INSTR NO R/HR MAIN STEAM LINE A RM-1705-2A f 3000 l DRYWELL A 178 RIT 1001606A l l MAIN 5 TEAM LINE B RM 1705-28 l 3000 DRYWELL B 178 l RIT-10016068 l l MAIN STEAM LINE C RM 1705-2C l 3000 l TORUS A 80 RIT-1001607A l l MAIN STEAM LINE D RM 1705-20 l 3000 l TORUSB 80 RIT-10016078 l l PtLGRIM*" 04-NOV 1997 1 15 97-06 Page 6 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays MSSage:l 7 ! 111 [ - RPV NORMAL l EFFLUEh a RADIATlON l CNTMT NORMAL l l EFFL RAD NORMAL VENT INSTR NO UNIT -VENT INSTR NO UNIT STACK GAS #1 RM 170518A l 69 7 l CPS 20 6 RX BLDG EXH VENT A - RM 1705 32A l l CPS 4 STACK GAS #2 RM-1705188 l 69 7 l CPS RX BLDG EXH VENT B 20 6 RM-1705-320 l l CPS MAIN STACK GAS RT 1001408 l DS lRHR RX BLOG EXH VENT DS RT 1001-609 l l R/HR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 l mR/HR RADWASTE EFFLUENT RM-1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-8B l 5 l mR/HR TURB BLCG ROOF EXH RT 1001610 l 05 lRHR REFUEL FLOOR VENT EXH C RM-1705-8C - l 5 l mR/HR SBGT DISCHARGE RM-1705-9 11 l lmRHR REFUEL FLOOR VENT EXH D RM 1705 8D l 5 lmRHR REFUEL FLOOR EXH l NOPMAL l PILGRIM *" 04 NOV 1997 130 112 [RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MGL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 17053A l 8975 l OFFGAS POST TREATMENT 4325 RM-1705 5A l l
\ OFFGAS LOG RAD B 8975 RM-170530 l l OFFGAS POST TREATMENT RM 1705-58 l 4325 l CARBON BED VAULT RM 1705-60 l 85 l RBCCW A PROCESS iS00 RM 1705-4A l l RBCCW B PROCESS RM-1705-4B , 1500 l MAIN STEAM UNE INSTR NO mR/HR A.REA (Hi RANGE) INSTR NO R,HR MAIN STEAM LINE A RM.1705-2A l 2000 l DRYWELL A 176 RIT 1001606A l l MAIN STEAM LINE B RM 1705 2B l 2000 l DRYWELL B 176 RIT 10016068 l l MAIN STEAM LINE C RM 1705 2C l 2%0 l TORUS A 100 RIT-1001607A l l MAIN STEAM LINE D RM 17052D l 2000 l TORUS B 100 RIT-10016078 l l PILGRIM *" 04-NOV 1997 130 f
( 97-06 Page 7 of 25 Evisluated Exercise
SPDS 111/112 Drill Displays Message:l 8 l 111 l RPV NORMAL' l EFFLUENT RADIATION l CNTMT NORMAL l y, ) EFFL PAD _ NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS 81 - RM 1705-18A l 71 1 l CPS RX BLOG EXH VENT A 22 3 RM-1705-32A l l CPS STACK GAS s2 RM 1705-188 l 11 1 l CPS RX BLDG EXH VENT B 22 3 RM 1705-32B l -l CPS MAIN STACK GAS RT 1001608 l DS lRHR RX BLOG EXH VENT DS RT 1001-609 l l R/HR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 l mR/HR RADWASTE FFFLUENT RM 1705-30 l 4000 l CPS lmRNR TURB BLDG ROOF EXH RT 1001610 l DS lRHR REFUEL FLOOR VENT EXH B RM 170588 L 5 REFUEL FLOOR V"NT EXH C RM 1705 8C l lmRHR SBGT DISCHARGE RM 1705-9 l 8 lmRHR REFUEL FLOOR VENT EXH D RM-1705-80 l 5 lmRHR REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV-1997 145 112j RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INST'l NO CPS ( OFFCAS LOG RAD A RM-17053A l 8700 l OFFGAS POST TREATMENT RM 1705-5A l 4250 l OFFGAS LOG RAD B RM 1705-38 l 8700 l OFFGAS POST TREATMENT 4250 RM-1705-5B l l CARBON BED VAULT RM 170540 l 82 l RBCCW A PROCESS 1500 PM-1705-4A l l RBCCW B PROCESS RM-1705-48 l 1500 l MAIN STEAM LINE INSTR NO. mRHR AREA (HI RANGE) INSTR NO R/HR MAIN STEAM LINE A RM 1705-2A l 1600 l DRYWELL A 175 j RIT-1001606A l MAIN STEAM LINE B RM 1705 28 l 1600 l DRYWELL B 175 RIT 1001606B l l MAIN STEAM LINE C RM 1705 2C l 1600 l TORUS A 115 RIT 1001607A l } MAIN STEAM LINE D RM-1705-20 l 1600 l TORUSB 115 RIT 10016078 l l PILGRIM *" 04 NOV 1997 145 e 97-06 Page 8 Of 25 Evaluated Exercise
SPDS 111/112 Drill Displaya Message:l 9 i 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l l' EF FL RAD NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS S1 RM-170518A l - 70 5 -l CPS RX BLOG EXH VENT A 21 2 RM 1705-32A l l CPS STACK GAS #2 RM-1705-188 l 70 5 RX BLDG EXH VENT B 21 2 l CPS RM 1705-32D l l CPS MAIN STACK GAS RT 1001608 l DS lRHR . RX BLOG EXH VENT DS RT 1001-609 l l R/HR 5 lmRHR RADWASTE EFFLUENT REFUEL FLOOR VENT EXH A RM 1705-8A l RM.1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-88 l 5 DS l mR/HR TURB BLOG ROOF EXH RT-1001610 l lRHR REFUEL FLOOR VENT EXH C RM 17058C l 5 l mR/HR SBGT DISCHARGE 8 RM 1705 9 l lmRHR REFUEL FLOOR VENT EXH D RM 1705-80 l 5 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM'" 04-NOV 1997 2 00 112 l RPV NORMAL j PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM-1705-3A l 8400 l OFFGAS POST TREATMENT 4125 RM 1705 5A l l
\j OFFGAS LOG RAD B RM-1705-38 l 8400 l OFFGAS POST TREATMENT 4125 RM 1705-58 l l CARBON BED VAULT RM 170540 l 80 l RBCCW A PROCESS 1500 RM-1705-4A l l RBCCW B PROCESS RM-1705-4B l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (H1 RANGE) INSTR NO RHR MAIN STEAM LINE A RM 1705-2A l 1200 l DRYWELL A 174 RIT 1001606A l l MAIN STEAM LINE B RM-1705 28 l 1200 l DRYWELL B 174 RIT-10016068 l l MAIN STEAM LINE C RM 1705-2C l 1200 l TOR'IS A 140 RIT 1001607A l l MAIN STEAM LINE D RM-1705-20 [ 1200 l TORUS B 140 RIT 10016078 l l PILGRIM"' 04 NOV 1997 2 00
( 97-06 Page 9 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 10 l 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l (~ l LFFL R>D
\ \ NORMAL VENT INSTR NO 11 NIT VENT INSTR NO UNIT STACK GAS 81 . RM-170 18A l 70 6 l CPS RX BLDG EXH VENT A 9M-1705-32A l 18 5 l CPS STACK GAS #2 RM.1705-188 l 70 6 l CPS RX BLOG EXH VENT 0 RM 1705 328 l 18 5 l CPS MAIN STACK GAS RT 1001608 [ OS l R/HR RX BLDG EXH VENT RT 1001-609 l DS lRHR 5
REFUEL FLOOR VENT EXH A RM 1705-8A l l mR/HR RADWASTE EFFLUENT RM-1705 30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-88 l 5 l mR/HR TURB BLOG ROOF EXH RT 1001610 l DS lRHR REFUEL FLOO': VENT EXH C RM-1705-8C l 5 l mR/HR SBGT DISCHARGE RM 1705-9 l 8 l mR/HR REFUEL FLOOR VENT EXH D RM-1705-80 l 5 l#/HR REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 215 112 fRPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS p OFFGAS LOG RAD A RM-1705 3A l 8150 l OFFGAS POST TREATMENT RM 1705-5A l 3900 l OFFGAS LOG RAD D RM 1705-38 l 8150 l OFFGAS POST TREATMENT RM-1705-58 l 3900 l CARBON BED VAULT RM 1705 60 l 78 l RBCCW A PROCESS 1500 RM 1705-4A l l RBCCW B PROCESS RM-1705-48 l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (HI RANGE) INSTR NO R.HR MAIN STEAM LINE A . RM 1705-2A l 1000 l DRYWELL A 172 RIT 1001606A -l l MAIN STEAM LINE B RM-1705-28 l 1000 l DRYWELL B 172 RIT-10016060 l l MAIN STEAM LINE C RM 1705-2C l 1000 l TORUS A 160 RIT 1001 bO7A l l MAIN STEAM LINE D 1000 RM-1705-2D l l TORUS B RIT 1001607B [ 160 ] !L PILGR:M"* 04 NOV 1997 215 (> 97-06' Page 10 of 25 Evaluated Exercise l
SPDS 111/112 Drill Displays Message:l 11 l 111 [ RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l EFFL RAD O\ N
, ORMAL -VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS 81 RM-170518A l 71 2 l CPS nX BLOG EXH VENT A RM 1705-32A j~ 19 4 l CPS STACK GAS #2 RM-170$-188 l 71 2 l CPS RX BLOG EXH VENT B RM 1705-32B l 19 4 ] CPS MAIN STACK GAS RTdOO1-608 l DS lRHR RX BLDG EXH VENT RT 1001-609 l DS lRHR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 lmRHR RADWASTE EFFLUENT RM-1705-30 l 4000 l CPS REFUP FLOOR VENT EXH B RM 170588 l 5 l mR/HR TURD BLDG ROOF EXH RT 1001-610 l DS lR,HR REFUEL FLOOR VENT EXH C RM-1705-8C l 5 lmRNR SBGT DISCHARGE RM 1705-9 l 8 l mR/HR REFUEL FLOOR VENT EXH D RM 1705 80 l 5 lmRHR REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 2 30 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A 7900 l OFFGAS POST TREATMEN1 RM 1705-5A l 3775 RM-17053A [ l OFFGAS LOG RAD B RM 1705-38 l 7900 l OFFGAS POST TREATMENT RM 1705 5B l 3775 l CARBON BED VAULT RM 170540 l 76 l RBCCW A PROCESS RM 1705-4A [ 1500 l.
RBCCW B PROCES3 RM-1705-4B l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (H1 RANGE) INSTR NO RHR MAIN STEAM LINE A RM-17052A l 800 DRYWELL A 170 l RIT 1001606A l l MA!N GTEAM LINE B RM.170528 l 800 i DRYWELL B RIT-10016068 l 170 l MAIN STEAM LINE C RM 17052C l 800 l TORUS A 210 RIT 1001607A l l MAIN STEAM LINE D RM-t705-2D l 800 TORUSB 210 l RIT 1001607B l l PILGR!M*" 04 NOV 1997 2 30 ( 97 06 Page 11 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 12 l 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l O EFFL RAD ( NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS #1 RM-1705-18A l 70 2 l CPS RX BLOG EXH VENT A RM 1705-32A l 21 2 l CPS STACK GAS #2 RM-1705-188 l 70 2 l CPS RX BLOG EXH VENT B RM 1705-32B l 21 2 l CPS MAIN STACK GAS RT-1001-608 l DS l R/HR RX BLDG EXH VENT RT 1001-609 l DS l *HR REFUEL FLOOR VENT EAH A RM-1705-8A l 5 lmRHR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-88 l 5 lmR-R TURB BLOG ROOF EXH RT 1001610 l 05 l R'HR REFUEL FLOOR VENT ETH C RM 1705-8C l 5 l mR,%, SBGT DISCHARGE RM 1705 9 l 8 lmRNR REFUEL FLOOR VENT EXH D RM-1705-80 l 5 l mR/HR REFUEL FLOOR EXH l NORMAL l PfLGRIM*" 04 NOV 1997 2 45 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MEL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705-3A l 7650 l OFFGAS POST TREATMENT RM-1705-SA l 3675 l OFFGAS LOG RAD B RM-1705-38 l 7650 OFFGAS POST TREATMFPT l RM-1705-58 [ 3675 l CARBON BED VAULT RM-1705-60 l 74 l RBCCW A PROCESS RM-1705-4A l 1500 l RBCCW B PROCESS RM-1705-48 l 1500 j MAIN STEAM LINE INSTR NO mR/HR AREA (HI RANGE) INSTR NO R/HR MAIN STEAM LINE A RM-1705-2A l 600 l DRYWELL A RIT 1001606A l 170 l MAIN STEAM LINE B RM-1705-28 l 600 l DRYWELL B RIT-10016068 l 170 l MAIN STEAM LINE C RM-1705 2C l 600 l TORUSA RIT-1001607A l 240 l MAIN STEAM LINE D RM 1705 2D l 600 l TORUS B RIT 10016078 l 240 } PILGRIM"* 04 NOV.1997 2 45
\_
97-06 Page 12 of 25 Evaluated Exercise
. - - . - . . . - - - . .. -- -. - - . . - . = - . -
SPDS 111/112 Drill DicplayE. Message:l 13 !
-111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l E FFL RAD .k NORMAL VENT INSTR NO UNIT - VENT INSTR NO UNIT STACK GAS #1 RM 1705-18A l 70 2 l CPS RX BLOG EXH VENT A RM-170032A l 20 3 ] CPS STACK GAS #2 RM 1705-188 l 70 2 l CPS RX BLOG EXH VENT B RM-1705-32B l 20 3 l CPS MAIN STACK GAS RT 1001-608 l OS l R'HR RX BLDG ExH VENT RT 1001609 l DS l R/HR REFUEL FLOOR VENT EXH A RM-1705 8A l 5 l mR/HR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-8B l 5 l mRiHR TURB BLDG ROOF EXH RT 1001610 l DS l R,HR REFUEL FLOOR VENT EXH C RM 1705-8C l 5 l mR/HR SBGT DISCHARGE RM 1705-9 l 8 lmRMR REFUEL FLOOR VENT EXH O RM 1705-8E l 5 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 3 00 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCES$ INSTR NO. mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM-1705-3A l 1400 l OFFGAS POST TREATMENT RM 170$ 5A l 3550 l OFFGAS LOG RAD B RM-1705-38 l 7400 l OFFGAS POST TREATMENT RM-1705-58 l 3550 l CARBON BED VAULT RM-1705-60 [ 72 l RBCCW A PROCESS RM 1705 4A { 1$00 l RBCCW B PROCESS RM 1705-48 l 1500 }
VAIN STEAM LINE INSTR NO mRMR AREA (HI RANGE) INSTR NO RMR MAIN STEAM LINE A RM 1705-2A l 500 l DRYWELL A RIT 1001606A l 168 l MAIN STEAM LINE B RM 1705-2B l $00 DRYWELL B 16e j l RIT-10016068 l MAIN STEAM LINE C Rh-1705-2C l 500 l TORUS A RIT 1001607A l 2$0 j MAIN STEAM LINE D RM 1705-20 l $00 l TORUSB RIT 1001607B l 2$0 l PILGRIM *" 04 NOV 1997 3 00 O l 97-06 Page 13 of 25 Evaluated Exercise
~-- __ ._- _ . - _ _ . . . _ _ __ _ -__ _ . . . ._
SPDS 111/112 Drill Displays Massage:l 14 i 11; [- RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l O EF FL RAD NORMAL - VENT INSTR NO UNIT VE NT INSTP NO UNIT STACK GAS #1 RM 170018A l 69 9 l CPS RX BLDG EXH VENT A RM-1705-32A l 20 4 l CPS STACK GAS #2 RM 170518D l 69 9 l CPS RX BLDG EXH VENT B RM 170532B l 20 4 l CPS MAtN STACK GAS RT 1001608 l OS j R'HR RX BLDG EXH VENT RT 1001609 l DS lRHR REFUEL FLOOR VENT EXH A RM 1705-8A l 5 lmRHR RADWASTE *FFLUENT RM-1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 170588 l 5 lmRHR TURB BLDG ROOF EXH RT 1001610 l DS l R/HR REFUEL FLOOR VENT EXH C RM-1705 8C l 5 lmRHR SBGT DISCHARGE RM 1705-9 l 8 lmRHR
$ lmRNR REFUEL FLOOR VENT EXH D RM-1705-80 [ ___
REFUEL FLOOR EXH [ NORMAL l PILGRIM"' 04-NOV 1997 315 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD ~ PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS p OFFGAS LOG RAD A RM 17053A l 7200 l OFFGAS POST TREATMENT RM-1705-5A l 3450 l OFFGAS LOG RAD B RM-1705 38 l 7200 l OFFGAS POST TREATMENT RM 170558 l 3450 j CARBON BED VAULT RM 170560 l 70 l RBCCW A PROCESS RM 1705-4A l 1500 l RBCCW B PROCESS RM 1705-4B l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (Vi RANGE) INSTR NO R/HR MAIN STEAM LINE A RM-17052A l 350 l DRYWttL A RIT 1001606A l 166 l MAIN STEAM LINE B RM 1705 2B [ 350 l DRYWELL B RIT 10016068 l 166 j MAIN STEAM LINE C RM 1705-2C l 350 l TORUS A RIT 1001607A l 260 i MAIN STEAM UNE D RM-1705 2D l 350 l TORUSB RIT 10016078 l 260 l PILGRAM*" 04 NOV 1997 315 O V 97-06 Page 14 of 25 Evaluated Exercise
l SPDS 111/112 Drill Displays Message:l 15 l 111 l RPV NOTMAL ] EFFLUENT RADIATION l CNTMT NORMAL l [ EF FL RAD j NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GA 3 #1 RM 170516A l 71 1 l CPS RX BLDG EXH VENT A RM 1705-32A l 21 3 l CPS STACK GAS #2 RM 1705-188 l 71 1 l CPS RX BLOG EXH VENT B RM 1705-320 l 21 3 l CPS MAIN STACK GAS RT 1001-608 l DS l R/HR Rx BLOG EXH VENT RT-1001609 l DS lRHR REFUEL FLOOR VENT EXH A RM-170S8A l 5 l mR/HR RADWASTE EFFLUENT RM 1705 30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM-1705-8B l 5 l mR/HR TURB BLDG ROOF E' N RT 1001-610 l DS l RHR REFUEL FLOOR VENT EXH C RM 1705-fC l 5 l mR/HR SBGT DISCHARGE RM-17059 l 8 l mR/HR REFUEL FLOOR VENT EXH D RM 1705-8D l 5 j mR/HR REFUtdL FLOOR EXH l NORMAL j PlLGRIM"* 04 NOV 1997 3 30 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705-3A l 6950 l OFFGAS POST TREATMENT RM-1705-5A l 3350 l ()OFFGAS LOG RAD B RM 17053B [ 6950 l OFFGAS POST TREATMENT RM 1705-58 l 3350 l CARBON BED VAULT RM 1705-60 l 68 l RBCCW A PROCESS R M-1705-4 A l 1500 l RBCCW B PROCESS RM 170548 l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (HI RANGE) INSTR NO R/HR MAIN STEAM LINE A RM 17052A l 300 l DRYWELL A RIT-1001606A [ 164 l MAIN STEAM UNE D RM 170528 l 300 l DRYWELL B RIT-10016068 l 164 i MAIN STEAM UNE C RM 17052C l 300 l TORUS A RIT 1001607A l 260 l , MAIN STEAM LINE D RM-1705-20 l 300 l TORUSB RIT 10016078 [ 260 j PILGRIM *" 04-NOV 1997 3 30 0 97-06 Page 15 of 25 Evaluated Exercise
-. - - .~ . - .. - - - . _ .- -. -- . SPDS 1111112 Drill Displays ~ Message:l 16 l 111 l RPV NORMAL - l EFFLUENT RADIATION. l CNTMT NORMAL l O EF FL RAD NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS #1 RM 170518A l 71 1 l CPS RX BLDG EXH VENT A RM 1705-32A l 22 1 l CPS STACK GAS #2 RM 1705188 l 71 1 l CPS RX BLOG ExH VENT B RM 1705-32B l 22 7 l CPS MA!N STACK GAS RT.1001608 l DS l R/HR RX BLDG EXH VENT RT 1001609 l DS l R,HR -
REFUEL FLOOR VENT ExH A RM 1705-8A l 5 lmRHR RADWASTE EFFLUENT RM 1705 30 l 4000 l CPS REFUEL FLOOR VENT EAH B RM-1705 8B l 5 l mR/HR TURB BLDG ROOF ExH RT 1001-610 l DS lRHR REFUEL FLOOR VENT EXH C RM-1705-8C l 5 l mR/HR SBGT DISCHARGE RM 1705 9 l 8 lmRNR REFUEL FLOOR VENT EXH D RM-1705-80 l 5 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 3 45 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mRHR N'OCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705 3A l 6750 l OFFl%S POST TREATMENT RM 1705-5A l 3250 l OFFGAS LOG RAD 8 RM 1705 3B l 6750 l OFF(.AS POST TREATMENT RM-1705-58 l 3250 l CARBON BED VAULT RM 1705-60 l 66 l R 3CCW A PROCESS RM 1705-4A l 1500 l RBCCW B PROCESS RM-1705-48 l 1500 l MAIN STEAM LINE INSTR NO mRh,1 AREA ett RANGE) INSTR NO R/HR MAIN STEAM LINE A RM 1705 2A l 270 l ORYWELL A RIT-1001606A l 162 l MAIN STEAM LINE B RM 1705-28 l 270 l DRYWELL B RIT-10016068 l 162 l MAIN S1EAM LINE C RM-1705-2C l 270- l TORUS A RIT 1001607A l 255 l MAIN STEAM LINE D RM-1705 2D j 270 l TORUSB RIT 1001607B l 255 I PtLGRIM"' 04 NOV-1997 3 45 O 97-06 Page 16 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 17 l 111 l RPV NORMAL - l - EFFLUENT RADIATION l CNTMT NORMAL l EFFL RAD 0.- NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS 81 RM 1705-18A l 20000 l CPS RX BLDG EXH VENT A RM~1705-32A l 21
- ICPS
- STACK CAS s2 RM-1705-188 l 20000 l CPS RX DLDG EXH VENT B RM 1705-32B l 21 5 l CPS R, MIN STACK GAS DS RX BLOG EXH VENT RT.1001409 l DS lRHR RT 1001408 l lRHR REFUEL FLOOR VENT EXH A RM 1705-8A l 50 l mR/HR RADWASTE EFFLUENT RM-1705 30 l 4000 jCPS REFUEL FLOOR VENT EXH P RM-1705 8B l 50 lmRHR TURB BLDG ROOF EXH RT 1001-610 l DS l R!HR REFUEL FLOOR VENT EXH C RM 1705-8C l 50 [ mR/HR SBGT DISCHARGE RM 1705-9 l 1000 l mR'HR REFUEL FLOOR VENT EXH D RM 1705 80 l 50 l mR/HR ' REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 4 05 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS RM-1705 3A l 6100 l OFFGAS POST TREATMENT RM-1705-5A l 2950 l O' OFFGAS LOGRMRAD OFFGAS LOG RAD E, 1705 3B l A 6100 l OFFGAS POST TREATMENT RM 1705-5B l 2950 l CARDON BED VAULT RM 170540 l 63 l RBCCW A PROCESS RM-1705-4 A l 1500 l RBOCW B PROCESS RM 1705-48 l- 1500 l MAIN STEAM LINE INSTR NO mRHR AREA (HI RANGE) INSTR NO R/HR MAIN STEAM UNE A RM 1705-2A l 100000 l DRYWELL A RIT 1001606A l 158 l MAIN STEAM LINE B RM 1705-28 [ 100000 l DRYWELL B RIT.10016068 l 158 l MAIN STEAM UNE C RM-1705-2C l TORUS A RIT 1001607A l 250 j 100000 ]
MAIN STEAM LINE D RM 1705-20 [ 100000 l TORUSB RIT-1001607B l 250 l PILGRIM'" 04 NOV-1997 4 05 m/ 97-06 Page 17 Of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 18 l t 111 ] RPV NORMAL - l EFFLUENT RADIATION l CNTMT NORMAL l - EFFL RAD
- (ja NORMAL VENT' INSTR NO UNIT VENT INSTR NO UNIT STACK GAS s1 RM 170518A l OSH l CPS RX BLOG EXH VENT A RM 1705 32A l 20 7 l CPS STACK GAS #2 RM-1705188 [ OSH l CPS RX BLDG EXH VENT B RM-1705-320 [ 20 7 l CPS MAIN STACK GAS RT.1001608 l 1 to l R/HR RX BLOG EXH VENT RT 1001-609 l DS l R,HR REFUEL FLOOR VENT EXH A RM 1705 8A l 65 l mR/HR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-8B l 65 l mR/HR TURB BLOG ROOF EXH RT 1001610 l DS l R'HR REFUEL FLOOR VENT EXH C RM 1705-8C l 65 l mR/HR SBGT DISCHARGE RM 1705-9 l OSH l mR/HR REFUEL FLOOR VENT EXH D RM 1705-80 l 65 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM"* 04 NOV 1997 415 112 PPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mRHR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM-1705-3A l 5550 l OFFGAS POST TREATMENT RM-1705-5A l 2725 l OFFGAS LOG RAD B RM-1705-30 l 5550 l OFFGAS POST TREATMENT RM-1705-50 l 2725 l CARBON BED VAULT RM 170540 l- ~ $9 l RBCCW A PROCESS RM-170L 4A l 1500 l RBCCW B PROCESS RM 1705 4B l 1500 l MAIN STEAM LINE INSTR NO mRHR AREA (H1 RANGE) INSTR NO R/HR MAIN STEAM LINE A RM 1705-2A l 600000 l DRYWELL A RIT 1001606A l 154 l-MAIN STEAM LINE B RM 1705-28 l 600000 l DRYWELL B RIT-10016068 l t54 j MAIN STEAM LINE C RM 1705 2C l 600000 l TORUS A RIT 1001607A [ 240 l MAIN STEAM LINE D RM 1705-2D l 600000 l TORUSB RIT-1001607B l 240 l PtLGRIM*" 04 NOV-1997 415 V
97 Page 18 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 19 l 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l
}' &j EF FL RAD NORMAL VENT INSTR NO UNIT -VENT INSTR NO UNIT STACK GAS #1 RM-170518A l OSH l CPS RX BLOG EXH VENT A 4M 1705 32A l 22 3 l CPS STACK GAS #2 RM 1705-168 l OSH l CPS RX BLDG EXH VENT B RM 1705-328 l 22 3 l CPS MAIN STACK GAS RT 1001608 l 1 07 l R/HR RX BLDG EXH VENT RT.1001409 l DS lRHR REFUEL FLOOR VENT EXH A RM-1705 8A l 65 l mR.HR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-8B l 65 l mR/HR TURB BLOG ROOF EXH RT.1001610 l DS l R/HR REFUEL FLOOR VENT EXH C RM 1705-8C l 65 l mR/HR SBGT DISCHARGE RM 1705 9 l OSH lmRHR REFUEL FLOOR VENT EXH D RM 1705-80 l - 65 lmRHR - REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 4 30 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l i
MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFCAS LOG RAD A RM 1705-3A l 5375 l OFFGAS POST TREATMENT RM 1705-5A l 2650 l OFFGAS LOG RAD B RM 1705 38 l 5375 l OFFGAS POST TREATMENT RM 1705-50 l 2650 l t. CARBON BED VAULT RM-170540 l 58 l RBCCW A PROCESS RM 1705-4A l 1500 l RBCCW 8 PROCESS RM 1705-48 l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (HI RANGE) INSTR NO RHR MAIN STEAM LINE A RM-1705 2A l 600000 l ORYWELL A RIT.1001606A l 154 l MAIN STEAM LINE B RM 1705-28 [ 600000 l DRYWELL B RIT 10016068 l 154 l MAIN STEAM LINE C RM 1705-2C l 600000 l TORUS A RIT-1001607A l 235 l MAIN STEAM LINE D .RM 1705-20 l 600000 l TORUSB RIT410016078 l 235 l } PILGRIM *" 04 NOV-1997 4 30 97-06 Page 19 Of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 20 l 111 IRPV NORMAL l EFFLUENT RADIATION l CNTMT NORMAL l
) EF FL RAD (j NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS 81 . RM-170518A l OSH l CPS RX BLDG EXH VENT A RM 1705-32A l 22 1 l CPS STACK GAS #2 RM-17051BB l OSH l CPS RX BLOG EXH VENT B RM 1705-328 l 22 1 l CPS MAIN STACK 5 ~ 1 RT 1001608 l 1 04 lRHR RX BLDG EXH VENT RT 1001-609 l DS lRNR REFUEL FLOOR VENT EXH A RM 1705-8A l 65 l mR/HR RADWASTE EFFLUENT RM 1705-3C l 4000 l CPS REFUEL FLOOR VENT EXH B RM "05-88 l 65 lmRHR TURB BLOG ROOF EXH RT 1001-610 l DS l RHR REFUEL FLOOR VENT EXH C RM 1705 8C l 65 l mR/HR SBGT DISCHARGE RM 17059 l OSH lmRHR REFUEL FLOOR VENT EXH D RM-1705-80 l 65 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 4 45 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO. mR/HR PROCESS INSTR NO. CPS OFFGAS LOG RAD A RM 1705 3A l 5200 l OFFGAS POST TREATMENT RM 1705-LA l 2600 l \ OFFGAS LOG RAD B 5200 OFFGAS POST TRFATMENT 2600 RM 1705-38 l l RM 1705-5B l l CARBON BED VAULT RM 1705-60 l 57 l RBCCW A PROCESS RM 1705-4A l 1500 l RBCCW B PROCESS RM 1705-4B l 1500 l 4 MAIN STEAM LINE INSTR NO mRHR AREA (HI RANGE) INSTR NO RHR MAIN STEAM LINE A RM-1705 2A l 500000 DRYWELL A 150 j l PIT 1001606A l MAIN STEAM LINE B RM 1705-28 l 500000 l DRYWELL B t50 RIT 1001606B l l MAIN STEAM LINE C RM 1705-2C l 500000 TORUS A 230 j l RIT 1001607A l MAIN STEAM LINE D RM 1705-20 l 500000 l TORUS 6 230 j RiT-1001607C l PILGRIM"* 04-NOV 1997 4 45 O
v 97-06 Page 20 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 21 l 111 l: RPV NORMAL l EFFLUENT RADIATlON @WTMT NORMAL j O (j u rL RAD NORMAL VENT INSTR NO - UNIT VENT INSTR NO UNIT STACK GAS s1 RM 1705-18A l OSH l CPS RX BLDG EXH VENT A RM 1705-32A l 22 1 l CPS STACK GAS #2 RM 170518B l OSH jCPS RX BLOG EXH VENT B RM 1705-32B l 22 1 l CPS MAIN STACK GAS RT.1001408 l 1 01 lRHR RX BLDG EXH VENT RT 1001609 l DS lRNR REFUEL FLOOR VENT EXH A RM 1705-8A l 65- lmRNR RADWASTE EFFLUENT RM-1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM-1705-88 [ 65 lmRHR TURB BLOG ROOF ExH RT 1001610 l DS l RiHR REFUEL FLOOR VENT EXH C RM 1705 8C l 65 lmRHR SBGT DISCHARGE RM-1705-9 [ OSH lmRHR REFUEL FLOOR VENT EXH D RM 1705 80 l 65 lmRHR REFUEL FLOOR EXH l NORMAL l PILGRIM *" 04,NOV 1997 $ 00 112 [ RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l' MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mRHR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705-3A l 5050 l OFFGAS POST TREATMENT RM 1705-5A l 2550 l OFFGAS LOG RAD B RM 1705 38 l 5050 l OFFGAS POST TREATMENT RM 1705-58 l_ 2550 l CARBON BED VAULT RM 170540 [ 56 l RBCCW A PROCESS RM-1705 4A l 1500 l RBCCW 8 PROCESS RM 1705-48 l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA IHi RANGE) (NSTR NO RHR MAIN STEAM LINE A l DRYWELL A RIT 1001606A l 150 j
- RM 1705 2A {450000 MAIN STEAM LINE B RM 1705-28 f 450000 l DRYWELL B RIT-10016060 l 150 j MAIN STEAM LINE C RM 1705 2C l 450000 l TORUS A RIT 1001607A l 225 ]
MAIN STEAM LINE D RM-1705 2D l 450000 l TORUSB RIT 10016078 l 225 l PILGRIM"' 04-NOV 1997 5 00 O V 97-06 Page 21 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays Message:l 22 i 111 l RPV NORMAL l EFFLUENT RADIATlON l CNTMT NORMAL l ; [ EF FL RAD ( NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS #1 RM-170518A l OSH l CPS RX BLOG EXH VENT A RM 1705 32A l 22 1 l CPS STACK GAS #2 RM 1705-1BB l- OSH l CPS RX BLOG EXH VENT B RM 1705-32B l 22 1 l CPS MAIN STACK GAS RT 1001608 l 986 l R/HR RX BLDG EXH VENT RT 1001609 l DS l R/HR REFUEL FLOOR VENT EXH A RM 1705-8A l 65 l mR/HR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-8B l 65 l mR/hR TURB BLOG ROOF EXH RT 1001610 l DS l R.HR REFUEL FLOOR VENT EXH C RM-1705 8C l 65 l mR/HR SBGT OfSCHARGE RM-1705-9 l OSH l mR/HR REFUEL FLOOR VENT EXH D RM 1705-80 l 65 l mR/HR REFUEL FLOOR EXH l NORMAL l PfLGRIM*" 04 NOV 1997 515 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL ' PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705-3A l 4850 l OFFGAS POST TREATMENT RM-1705 5A l 2500 l OFFGAS LOG RAD B RM 1705 3B l 4850 l OFFGAS POST TREATMENT RM 1705-5B l 2500 l CARBON BED VAULT RM 1705-60 l 55 l RBCCW A PROCESS RM 1705-4A l 1500 l RBCCW B PROCESS RM 1705-48 l 1500 l MAIN STEAM LINE INSTR NO mR/HR AREA (Hi RANGE) INSTR NO R/HR MAIN STEAM LINE A RM 1705-2A l 450000 l DRYWELL A RIT 1001606A [ 148 l MAIN STEAM LINE B RM 1705-28 l 450000 l DRYWEliB RIT 10016060 l 148 l MAIN STEAM LINE C RM-1705 2C l 450000 l TORUS A RIT-1001601 A [ 220 l MAIN STEAM LINE D RM 1705-2D l 450000 l TORUS B RIT 10016078 l 220 l PtLGRIM'" 04 NOV 1997 515 (D V 97-06 Page 22 of 25 Evaluated Exercise
SPDS 111/112 Drill Displays MsSSage:l 23 l 111 l RPV NORMAL } EFFLUENT RADIATION l CNIMT NORMAL l EF FL RAD d NORMAL VENT INSTR NO UNIT VENT INSTR NO UNIT STACK GAS 81 RM 170518A l OSH l CPS RX BLDG EXH VENT A RM-1705-32A l 22 1 l CPS STACK GAS s2 RM 1705-18B l OSH l CPS RX BLOG EXH VENT B RM-1705 32B l 22 1 l CPS MAIN STACK GAS- RT 1001408 l 965 l R/HR RX BLDG EXH VENT RT 1001409 l DS lRHR REFUEL FLOOR VENT EXH A RM 1705-8A l 65 lmRHR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM-170588 l 65 lmRHR TURB BLDG ROOF EXH RT 1001-610 l DS lRHR REFUEL FLOOR VENT EXH C RM 1705 8C l 65 l mR/HR SBGT OtSCHARGE RM 1705-9 l OSH lmRHR REFUEL FLOOR VENT EXH O RM 1705 80 l 65 lmRHR REFUEL FLOOR EXH l NORMAL l PILGRIM"* 04 NOV 1997 $ 30 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL HAD PROC RAD NORMAL NORMAL PROCESS INSTR NO. mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705-3A l 4450 l OFFGAS POST TREATMENT RM-1705-5A l 2350 l OFFGAS LOG RAD B RM 1705-38 l 4450 l OFFGAS POST TREATMENT RM-1705 58 235L ] CARBON BED VAULT RM 1705-60 l 54 RBCCW A PROCESS RM 17054A l 1500 l l RBCCW B PROCESS RM-170548 [ 1500 l MAIN SIEAM LINE INSTR NO mRHR AREA (HI RANGE) INSTR NO RHR MAIN STEAM LINE A 2000 l DRYWELL A RIT 1001606A l 145 RM 1705-2A [_ l MAIN STEAM LINE B RM-1705-28 l 2000 l DRYWELL B RIT-10016068 l 145 l MAIN STEAM LINE C RM 1705-2C l 2000 l TORUS A RIT 1001607A l 190 l MAIN STE AM LINE D RM-170520 l 2000 l TORUSB RIT 1001607B l 190 j PILGRIM *" 04 NOV 1997 5 30 O d 97-06 Page 23 of 25 Evaluated Exercise j
SPDS 111/112 Drill Displays Message:l 24 l 111 [RPV NORMAL l EFFLUENT RADIATION l CNTMT NCRMAL !
' E F F L RAD w NORMAL VE NT INSTR NO UNIT VENT INSTR NO UNIT STAcx GAS s1 RM 1705-18A l 390000 l CPS RX BLDG EXH VENT A RM 17C5 32A l 22 1 l CPS STACK GAS #2 RM 170518B l 390000 ] CPS RX BLDG ExH VENT B l CPS RM 1705 328 [ 22 1 MAIN STACK GAS RT 1001-608 l 937 l R/HR RX BLDG EXH VENT RT.1001-6C9 l DS lRHR REFUEL FLOOR VENT ExH A RM 1705-8A l 55 l mR/HR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EXH B RM 1705-8B l $$ l mR/HR TURB BLOG ROOF ExH RT-1001610 l DS l R.HR REFUEL FLOOR VENT EXH C RM 1705 8C l 55 lmRMR SBGT OfSCHARGE RM 1705 9 l OSH lmRHR REFUEL FLOOR VENT EXH D RM 1705-80 l 55 l mR/HR REFUEL FLOOR EXH l NORMAL l PILGRIM"* 04 NOV 1997 5 45 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM 1705-3A l 4300 l OFFGAS POST TREATMENT RM 1705-5A l 2300 l OFFGAS LOG RAD B RM 1705-30 [ 4300 l OFFGAS POST TREATMcNT RM 1705-58 l 2300 l CARBON BED VAULT RM 1705 60 l 54 l RBCCW A PROCESS RM- 1705-4 A l 1500 ]
RBCCW B PROCESS RM 1705-4B [ 1500 i MAIN STE AM LINE INSTR NO mRMR AREA (HI RANGE) INSTR NO PHR MAIN STEAM LINE A RM 1705 2A l 500 l DFtYWELL A RIT 1001606A f 140 MAIN STEAM LINE B RM 1705 28 l 500 DRYWELL B 140 l RIT-10016060 l MAIN STEAM LINE C Rni 1705 2C [ 500 } TORUS A 160 RIT 100i 607A l , MAIN STEAM (.INE D RM 1705-20 l 500 l TORUSB RIT ?0016078 l 180 P1LGRIM"* C4-NOV 1997 5 45 9 97-06 Page 24 Of 25 Evaluated Exercise
SPDS 1111112 Drill Displays Message:l 25 111 l RPV NORMAL l EFFLUENT RADIATION l CNTMT NORMA { LF FL RAD
/ NORMAL VE N1 INSTR NO UNIT VENT INSTR NO UNIT STACK GAS #1 RM 170518A l 20000 l CPS Rx BLOG EXH VENT A RM-170532A l 22 1 l CPS STACK GAS 82 RM-170518B l 20000] CPS RX BLDG EXH VENT B RM 1705 32B l 22 1 l CPS MAIN STACK GAS RT 1001608 f DS lRHR RX BLOG EXH VENT RT 1001409 l DS l R'HR REFUEL FLOOR VENT EXH A P M 1705-BA l 50 lmRHR RADWASTE EFFLUENT RM 1705-30 l 4000 l CPS REFUEL FLOOR VENT EAH E RM 1705-8B l 50 l ret iR TURB BLOG ROOF EXH RT 1001610 l DS l R/HR REFUEL FLOOR VENT EXH C RM 1705 8C l 50 jmNHR SBGT DISCHARGE RM-1705-9 l OSH l mR.HR REF UEL FLOOR VENT EXH D RM 1705 80 l 50 l mRsHR RE' FUEL F LOOR EXH l NORMAL l PILGRIM *" 04 NOV 1997 6 00 112 l RPV NORMAL l PROCESS RADIATION l CNTMT NORMAL l 3
MSL RAD PROC RAD NORMAL NORMAL PROCESS INSTR NO mR/HR PROCESS INSTR NO CPS OFFGAS LOG RAD A RM-1705-3A l 4100 l OFFGAS POST TREATMENT RM-1705-5A l 2200 l OFFGAS LOG RAD B RM 1705 30 l 4100 l OFFGAS POST iREATMENT RM 1705-58 l 2200 l CARBON BED VAULT RM-170540 l 52 i RBCCW A PROCESS RM 1705-4A l 1500 j RBCCW BPROCESS RM 1705-48 l 1500 l MAIN STEAM UNE INSTR NO mR!HR AREA (HI RANGE) INSTR NO R!HR MAIN 9 TEAM UNE A RM 1705 2A l 2N ] DRYWELL A RIT 1001606A l 135 MAIN STEAM LINE B RM 1705-28 l 200 DRYWELL B 135 l RIT 10016068 l + MAIN STEAM LINE C RM 1705-2C l 200 l TORUS A RIT 1001607A l t70 MAIN STEAM LINE D RM 1705 2D l 200 l TORUS B RIT 1001707B l 170 i PILGRIM"* L .-NOV 1997 6 00 9 97-06 Page 25 of 26 Evaluated Exercise
O O SPDS 413 Drill Display O Message:[ 1 1 413 l RPV NORMAL ll AREA RADIATION lCNTMT NORMAL] EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL AREA (Hi RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR ' DRYWELL A RIT-1001606A l 10 l NEW FUEL RACKS RE-12 1 6 l-DRYWELL B RIT-10016068 l 10 l REFUEL FLR-NEW FUEL VAULT RE-11 I DS l TORUS A RIT-1001607A l DS l REFUEL FLR-SPENT FUEL POOL RE-14 l 10 l TORUSB RIT-1001607B l DS l REFUEL FLR-SHIELD RE-13 1 4 l AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 60 l
- MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 'l RX BLDG OUTSICE TIP RM RE-3 l 7 l RADWASTE CORRIDOR RE- 5 l 10- l RX BLDG ACCESS-SE RE-10 l 12 l RADWASTE SHIPPING LOCK RE-9 [ DS l T.B. COND PMP STAIRWAY RE-1 l 60 l TURB FRONT STANDARD RE-4 l 1000 l FW HEATER STAIRWAY RE-2 l OSH l PILMIM*** 04-NOV-1997 0.00 97-06 Page 1 of 25 Evaluated Exercise
('"Y h SPDS 413 Drill Display Message. l 2 1 413 l RPV NORMAL l' AREA RADIATION' lCNTMT NORMAL l EFFL RAD MSL RAD PROC RAD NDRMAL NORMAL. NORMAL-AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYWELL A RIT-1001606A l 150 l NEW FUEL RACKS RE-12 : l- 10 l RIT-10016068 l 150 DRYWELL B l REFUEL FLR-NEW FUEL VAULT RE-11' l DS- j TORUS A RIT-1001607A l 2 l REFUEL FLR-SPENT FUEL POOL' RE-14 l 14- l TORUS B RIT-1001607B l 2 l REFUEL FLR-SHIELD RE-13 l 7 l-AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l- 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC T%NK RE-7 l 5- l-RX BLDG OUTSIDE TIP RM RE-8 l 7 l RADWASTE CORRIDOR RE-5 ' l 10 -l RX BLOG ACCESS-SE RE-10 l 55 l RADWASTE SHIPPING LOCK RE-9 l DS l T B. COND PMP STAIRWAY RE-1 l OSH l TURB FRONT STANDARD RE-4 l 2900 l FW HEATER STAIRWAY RE-2 l OSH l PILGRIM *" 04-NOV-1997 0:15 97-06 Page 2 of 25 Evaluated Exercise-
o O O SPDS 413 Drill Display Message lTl 413 l RPV NORMAL l AREA RADIATION [CNTMT NORMAll EFFL RAD MSL RAD T' ROC RAD NORMAL NORMAL NORMAL ' i AREA (HI RANGE) !NSTR NO. R' AREA INSTR NO. mR/HR DRWELL A RIT-1001606A l 180 l _ NEW FUEL RACKS 9E-12 ( 10 l DRWELL B RIT-10016068 l 180 l REFUEL FLR-NEW FUEL VAULT RE-11 ] DS l TORUS A RIT-1001607A l 16 l REFUEL FLR-SPENT FUEL POOL RE-14 l 14 l TORUSB RIT-1001607B l 16 l REFUEL FLR-SHIEl D RE-13 l 9 l t
- AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l ~ MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 1 5 l ;
RX BLDG OUTSIDE TIP RM RE-8 l 7 l RADWASTE CORRIDOR RE-5 l 10 l RX TLDG ACCESS-SE RE-10 1 50 l RADWASTE SHIPPING LOCK RE-9 [ DS l r B COND PMP STAIRWAY RE-1 l OSH l I TURB FRONT STANDARD RE-4 l 1500 l FW HEATER STAIRWAY RE-2 l OSH l PILGRIM *" 04-NOV-1997 0:30 97-06 Page 3 of 25 Evaluated Exercise
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O O O SPDS 413 Drill Display Message 1 4 1
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413 l RPV NORMALl AREA RADIATION lCNTMT NORMAL l EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL , AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO rnR/HR DRWELL A RIT-1001606A l 180 l NEW FUEL RACKS RE-12 [ 10 l DRWELL B RIT-10016068 l 180 l REFUEL FLR-NEW FUEL VAULT RE-11 1 DS l TORUS A RIT-1001607A [_ 40 l REFUEL FLR-SPENT FUEL POOL ' RE-14 l 14 l TORUS B RIT-10016078 l 40 l REFUEL FLR-SHIELD RE-13 l 9 l AREA INSTR NO. mR/HR ! MAIN CONTROL ROOM - RE-3 l DS l RADWASTE SUMP RE 6 l 60 ] MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 [ j RX BLOG OUTSIDE TIP RM RE-8 l 7 l RADWASTE CORR'90R - RE-5 s 10 l RX BLDG ACCESS-SE RE-10 l 40 l RADWASTE SHIPPING LOCK RE-9 l DS l T.B. COND PMP STAIRWAY RE-1 l OSH l I RE-4 500 ! TURB FRONT STANDARD l l FW HEATER STAIRWAY RE-2 l OSH l P!LGRIM"' 04-NOV-1997 0 45 l 97-06 Page 4 of 25 Evaluated Exercise
o O SPDS 413 Drill Display O Message 15 l J i i 413 l RPV NORMAL l AREA RADIATION [CNTMT NORMAL l } EFFL RAD MSL RAD PROC RAD i NORMAL NORMAL NORMAL > AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mRIHR DRYWELL A RIT-1001606A l 178 l NEW FUEL RACKS RE-12 l 10 l , DRYWELL B RIT-10016068 l 178 l REFUEL FLR-NEW FUEL VAULT j RE-11 l DS l ! TORUS A RIT-1001607A l SO l REFUEL FLR-SPENT FUEL POOL RE-14 1 12 l TORUS B RIT-1001607B l 60 l REFUEL FLR-SHIELD RE-13 l 8 l l AREA INSTR NO. mRMR ' MAIN CONTROL ROOM RE-3 [ DS l RADWASTE SUMP RE-6 l 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK ' RE-7 l 5 l t RX BLDG OUTSIDE TIP RM RE-8 l 6 l RADWASTE CORRIDOR RE-5 l 10 l [ RX BLDG ACCESS-SE RE-10 l 30 l RADWASTE FHIPPING LOCK ^ RE-9 l DS l T.B COND PMP STAIRWAY RE-1 l OSH l I TURB FRONT STANDARD RE-4 l 250 l ! 3 FW HEATER STAIRWAY RE-2 l OSH l PILGRIM *" 04-NOV-1997 1.00 [ t I 97-06 Page 5 of 25 ' Evaluated Exercise [
o O SPDS 413 Drill Display O Message [T] 413 l RPV NORMAL l AREA RADIATION lCNTMT NORMAL l EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL AREA (HI RANGE) .NSTR NO. R/HR AREA INSTR NO mR/HR DRWELL A RIT-1001606A l 178 l NEW FUEL RACKS RE-12 l 10 l DRWELL B RIT-10016068 l 178 l REFUEL FLR-NEW FUEL VAULT AE-11 l Ds l TORUS A RIT-1001607A l 80 l REFUEL FLR-bPENf FUEL POOL RE-14 l 12 l TORUSB RIT-10016078 l 80 l REFUEL FLR-SHIELD RE-13 l. 8 l 4 AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l ! f MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 1 6 l RADWASTE CORRIDOR RE-5 ! l 10 l RX BLDG ACCESS-SE RE-10 i 25 l RADWASTE SHIPPING LOCK RE-9 l DS l T.B. COND PMP STAIRWAY RE-1 l OSH l TURB FRONT STANDARD RE4 l 100 l ! I FW HEATER STAIRWAY RE-2 l OSH l PILGRIM"* 04-NOV-1997 1:15 i i { !'
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i i i i 97-06 Page 6 of 25 Evaluated Exercise
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i-o - O SPDS 413 Drill Display O Message [Tl ; i f i' 413 l RPV NORMAL l AREA RADIATION [CNTMT NORMAL l , EFFL RAD MSL RAD PROC RAD NORMAL NOR54AL NORMAL AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NG mR/HR DRYVELL A . . RIT-1001606A l 176 l NEW FUEL RACKS RE-12 l 10 l DRYWELL B RIT-10016068 l 176 l REFUEL FLR-NEW FUEL VAULT RE-11 1 DS l TORUS A - . RIT-1001607A l 100 l REFUEL FLR-SPENT FUEL POOL RE-14 [ 12 1-TORUS B RIT-10016078 l 100 l REFUEL FLR-SHIELD RE-13 l 8 l AREA ' INSTR NO. mR/HR MAIN CONTROL ROOM . RE-3 l DS l RADWASTE SUMP RE-6 l 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 [ 5 l ! RX BLDG OUTSIDE TIP RM RE-8 l 6 l RADWASTE CORRIDOR RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l 22 l RADWASTE SHIPPING LOCK RE-9 [ DS l T.B. COND PMP STAtRWAY RE-1 l OSH l TURB FRONT STANDARD RE-4 l 65 l FW HEATER STAIRWAY RE-2 l OSH l PILGRih .*" 04-NOV-1997 1:30 4 i t 1 97-06 Page 7 of 25 Evaluated Exercise -
r . o O SPDS 413 Drill Display Message [ El O , 413 l RPV NORMAL l AREA RADIATION lCNTMT NORfMLl EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL ' AREA (HI RANGE) . INSTR NO. R/HR AREA INSTR NO. mR/HR DRYWELL A . RIT-1001606A l 175 l NEW FUEL RACKS RE-12 l 10 l 4 DRYWELL B RIT-10016068 l 175 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l ; TORUS A RIT-1001607A l 115 l REFUEL FLR-SPENT FUEL. POOL RE-14 l 12 l TORUS B RIT-1001607B l 115 l REFUEL FLR-SHIELD RE-13 l 8 l. ; AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l MAIN CONTROL R*4 INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 6 l RADWAS FE CORRIDOR RE-5 l 10 l RX B'.DG ACCESS-SE lXRE-20 l RADWASTE SHIPPING LOCK RE-9 l DS l T.B COND PMP STAIRWAY RE-1 l OSH l l TURB FRONT STANDARD RE-4 l 60 l l FW HEATER STAIRWAY . RE-2 l OSH l
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PILGRIM"* 04-NOV-1997 1:45 i i I I l i 97-06 Page 8 of 25 Evaluated Exercise l
O O O SPDS 413 Drill Display
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, Message:[~9 ] 413 l RPV NORMAL i AREA RADIATION lCNTMT NORMAL l EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL i AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR > DRWELL A RIT-1001606A l 174 l NEW FUEL RACKS RE-12 l 9 l DRWELL d RIT-10016068 l 174 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l TORUS A RIT-1001607A l 140 l REFUEL FLR-SPENT FUEL POOL RE-14 l 12 l TORUS B RIT-10016078 l 140 l REFUEL FLR-SHIELD RE-13 l 8 l ! AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 1 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 6 l RADWASTE CORRIDOR RE-5 l 10 l r RX BLDG ACCESS-SE RE-10 l 18 l RADWASTE SHIPPING LOCK RE-9 [ DS j T.B COND PMP STA!RWAY RE-1 l OSH l j l TURB FRONT STANDARD RE-4 l 58 l , FW HEATER STAIRWAY RE-2 l OSH l PILGRIM'" 04-NOV-1997 2.00 l l I ! l 97-06 Page 9 of 25 Evaluated Exercise i
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O O O SPDS 413 Drill Display Message IT61
- 413 l RPV NORMAL l AREA RADIATION lCNTMT NOR*AAll EFFL RAD MSL RAD PROC RAD i NORMAL NORMAL NORMAL AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR .
DRYWELL A RIT-1001606A l 172 l NEW FUEL RACKS RE-12 l 9 l DRYVELL B RIT-10016068 l 172 l REFUEL FLR-NEW FUEL VAULT RE-11 [ DS l . f
. TORUS A RIT-1001607A l 160 l REFUEL FLR-SPENT FUEL POOL RE-14 l 12 l TORUS B RIT-10016078 l 160 l REFUEL FLR-SHIELD RE-13 l 8 l AREA INSTR NO. mR/HR ;
MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 6 l RADWASTE CORRIDOR RE-5 [ 10 l RX BLOG ACCESS-SE RE-10 l 17 l RADWASTE SHIPPING LOCK RE-9 l DS l 1 T.B. COND PMP STAIRWAY RE-1 l OSH l . i i TURB FRONT STANDARD RE4 l 53 l FW HEATER STAIRWAY RE-2 l OSH l PILGRIM *" 04-NOV-1997 215 l 97-06 Page 10 of 25 Evaluated Exercise i ! _ _ _ _ . -- _ _ _ _ _ . - - . - _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _J
O O O , SPDS 413 Drill Display- Message l 11 I i e
-413 l RPV NORMAL J AREA RADIATION lCt:TMT NORMAL l i
EFFL RAD MSL RAD PROC RAD i NORMAL NORMAL NORMAL AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mRIHR DRYYELL A RIT-1001606A l 170- l NEW FUEL RACKS RE-12 l 9 l : DRYWELL B RIT-10016066 l 170 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l
- TORUS A RIT-1001607A l 210 l REFUEL FLR-SPENT FUEL POOL RE-14 1 10 l [
TORUS B RIT-1001607B l 210 l REFUEL FLR-SHIELD
, RE-13 l 7 l l !
I AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l [ MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 1 5 l RX BLDG OUTSIDE TIP RM RE-8 l 6 l RADWASTE CORRIDOR RE-5 [_ 10 l ! RX BLDG ACCESS-SE RE-10 l 16 l RADWASTE SHIPPING LOCK RE-9 [ DS l 1 T.B. COND PMP STAIRWAY RE-1 l OSH l ; TURB FRONT STANDARD RE-4 l 50 l FW HEATER STAIRWAY RE-2 l OSH j PILGRIM *" 04-NOV-1997 2:30 l-l' i l 97-06 Page 11 of 25 Evaluated Exercise
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SPDS 413 Drill Display Message l 12 i 413 l RPV NORMAL l AREA RADIATION . lCNTMT NORMAL] EFFL RAD MSL RAD PROC RAD , NORMAL NORMAL NORMAL AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYWELL A RIT-1001606A l 170 l NEW FUEL RACKS RE-12 l 9 l DRYVELL 8 RIT-10016068 l 170 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l TORUS A RIT-1001607A l 240 l REFUEL FLR-SPENT FUEL POOL ! RE-14 l 10 l TORUSB RIT-1001607B l 240 l REFUEL FLR-SHIELD RE-13 l 7 l AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP ] RE-6 1 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 1 5 l RX BLDG OUTSIDE TIP RM RE-8 l 6 l RADWASTE CORRIDOR RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l 15 l RADWASTE SHIPPING LOCK RE-9 l DS l , T.B. COND PMP STAIRWAY RE-1 l OSH l TURB FRONT STANDARD RE-4 l 48 l FW HEATER STAIRWAY RE-2 l OSH l PILGRIM-" 04-NOV-1997 2 45 ,
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97-06 Page 12 of 25 Evaluated Exercise i t
i o O SPDS 413 Drill Display O MessagefiT) t ! 413 l RPV NORMAL j AREA RADIATION [CNTMT NORMAll EFFL RAD ' MSL RAD
- PROC RAD NORMAL NORMAL NORMAL AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYVELL A RIT-1001606A l 168 l NEW FUEL RACKS RE-12 l 9 l DRYWELL B RIT-10016068 l 168 l REFUEL FLR-NEW FUEL VAULT '
RE-11 l DS l TORUS A RIT-1001607A l 250 l REFUEL FLR-SPENT FUEL POOL RE-14 l 10 l i TORUSB RIT-1001607B l 250 l REFUEL FLR-SHIELD RE-13 [ 7 l . 1 AREA INSTR NO. mR/HR DS
*c10007P RE-3 RADWASTE SUMP MAIN CONTROL ROOM l l RE-6 Cio j MAIN CONTROL RM INTAKE RM-105-16 l 0 05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLOG OUTSIDE TIP RM RE-8 l 5 l RADWASTE CORRIDOR RE-5 l 10 l 'RX BLDG ACCESS-SE RE-10 l 15 l RADWASTE SHIPPING LOCK RE-9 l DS l i
T.B. COND PMP STAIRWAY RE-1 l OSH l ; TURB FRONT STANDARD RE-4 l 44 l l FW HEATER STAIRWAY RE-2 l OSH _ PILGRIM *** 04-NOV-1997 3.00 l l I 97-06 Page 13 of 25 ' Evaluated Exercise i
o O SPDS 413 Drill Display O Message [T4 ] 413.l RPV NORMAL l AREA RADIATION lCNTMT NORMAL l EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL
. AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYWELL A RIT-1001606A l 166 l NEW FUEL RACKS RE-12 l 9 -l DRYVELL B RIT-10016068 l 166 l REFUEL FLR-NEW FUEL VAULT 1
RE-11 l DS l TORUS A RIT-1001607A l 260 l REFUEL FLR-SPENT FUEL POOL RE-14 l 10 l TORUSB RIT-1001607B l 260 l REFUEL FLR-SHIELD RE-13 l 7 j AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 5 l RADWASTE CORRIDOR RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l 14 l RADWASTE SHIPPING LOCK RE-9 l DS [ OSH [ T B. COND PMP STAIRWAY RE-1 l l l TURB FRONT STANDARD RE4 l 42 l , FW HEATER STAIRWAY RE-2 l OSH l PILGRIM *" 04-NOV-1997 3.15 97-06 Page 14 of 25 Evaluated Exercise
O O SPDS 413 Drill Display Messagefiil o 413 l RPV NORMAL l AREA RADIATION lCNTMT NORMAL] l EFFL RAD MSL RAD PROC RAD , ! NORMAL NORMAL NORMAL t ! AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYWELL A RIT-1001606A l 164 l NEW FUEL RACKS RE-12 l 9 l DRYWELL B RIT-10016068 l 164 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l [ TORUS A RIT-1001607A l 260 l REFUEL FLR-SPENT FUEL POOL RE-14 l 10 l TORUSB RIT-1001607B l 260 l REFUEL FLR-SHIELD RE-13 1 7 l AREA INSTR NO. mR/HR ! MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 1 5 l RX BLDG OUTSIDE TIP RM RE-8 l 5 l RADWASTE CORRIDOR RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l 14 l RADWASTE SHIPPING LOCK RE-9 l Ds l T.B. COND PMP STAIRWAY RE-1 l OSH l TURB FRONT STANDAR'D RE-4 l 40 l l FW HEATER STAIRWAY. RE-2 l OSH l PILGRIM *" 04-NOV-1997 3:30 i i 97-06 Page 15 of 25 Evaluated Exercise ,
O O SPDS 413 Drill Display O , Message I 16 l l 413 l RPV NORMAL l AREA RADIATION lCNTMT NORMAL l 1 EFFL RAD MSL RAD PROC RAD i NORMAL NORMAL NORMAL i i '. AREA (HI 3ANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYVELL A RIT-1001606A l 162 l NEW FUEL RACKS RE-12 l 9 l l DRYWELL B RIT-10016068 l 162 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l TORUS A RIT-1001607A l 255 l REFUEL FLR-SPENT FUEL POOL RE-14 l 10 l TORUS B RIT-10016078 l 255 l REFUEL FLR-SHIELD RE-13 [ 7 l AREA INSTR NO. mR/HR l MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 ' l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 5 l RADWASTE CORRIDOR l RE-5 l 10 l l RX BLDG ACCESS-SE RE-10 l 12 l RADWASTE SHIPPING LOCK RE-9 3 l DS ] T.B COND PMP STAIRWAY RE-1 l OSH l I- TURB FRONT STANDARD RE-4 l 37 l I FW HEATER STAIRWAY RE-2 l OSH l PILGRIM"* 04-NOV-1997 3:45 i t , l ( l 97-06 Page 16 of 25 Evaluated Exercise
O O O SPDS 413 Drill Display Message: I 17 1 413 l RPV NORMAL l AREA RADIATION lCNTMT NORMAL l ] EFFL RAD MSL RAD PROC RAD i l NORMAL NORMAL NORMAL i j AREA (HI RANGE) INSTR NO. RIHR AREA INSTR NO. mR/HR l 9"YVELL A RIT-1001606A l 158 l NEW FUEL RACKS RE-12 l 65 l ORYWELL B RIT-10016068 l 158 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l TORUS A RIT-1001607A l 250 l REFUEL FLR-SPENT FUEL POOL RE-14 1 65 l TORUS B RIT-1001607B l 250 l REFUEL FLR-SHIELD RE-13 1 60 l 1-i AREA INSTR NO. mR/HR t MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 1 60 } MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 [ RX BLDG OUTSIDE TIP RM RE-8 l 8 l RADWASTE CORRIDOR RE-10 10 RE-5 L 10 1 RX BLDG ACCESS-SE l l RADWASTE SHIPPING LOCK- RE-9 1 DS l T.B. COND PMP STAIRWAY RE-1 l OSH l i TURB FRONT STANDARD RE4 l 31 l
.FW HEATER STAIRWAY RE-2 l OSH l PILGRIM *" 04-NOV-1997 4.05 i
i i 97-06 Page 17 of 25 Evaluated Exercise
0 0 SPDS 413 Drill Display O MessageJ~isl ' 413 l RPV NORMAL l AREA RADIATION lCNTMT NORMAL l ! EFFL RAD MSL RAD - PROC RAD ; NORMAL NORMAL NORMAL j AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mRIHR i DRYWELL A RIT-1001606A l 154 l NEW FUEL RACKS RE-12 l 65 l j DRYWdLL B RIT-10016068 l 154 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l TORUS A RIT-1001607A l 240 l REFUEL FLR-SPENT FUEL POOL RE-14 1 67 l TORUSB RIT-1001607B l 240 l REFUEL FLR-SHIELD I RE-13 l 60 l l i 3 AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6
- 1 60 l
- MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 10 l RAD'NASTE CORRIDOR RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l OSH l RADWASTE SHIPPING LOCK RE-9 l DS l T.B. COND PMP STAIRWAY RE-1 l OSH l j TURB FRONT STANDARD RE-4 l 29 l FW HEATER STAIRWAY RE-2 l OSH l PILGRIM *" 04-NOV-1997 4
- 15 t
97-06 Page 18 of 25 Evaluated Exercise I
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O O SPDS 413 Drill Display O Message. [ i91 413 l RPV MORMAL l- AREA RADIATION lCNTMT NORMAll - EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL l AREA (HI RANGE) INSTR NO. R1HR AREA INSTR NO. mR/HR ORYWELL A RIT-1001606A l 154 l NEW FUEL RACKS RE-12 1 75 l DRYWELL B RIT-10016068 l 154 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l TORUS A RIT-1001607A l 235 l REFUEL FLR-SPENT FUEL POOL RE-14 1 82 l TORUSB. RIT-10016078 l 235 l REFUEL FLR-SHIELD RE-13 l 75 l AREA. INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l- i RX BLDG OUTSIDE TIP RM RE-8 l 10 l RADWASTE CORRIDOR RE-5 l 10 l , RX BLDG ACCESS-SE RE-10 l OSH l RADWASTE SHIPPING LOCK RE-9 l DS l ' T.B. COND PMP STAIRWAY RE-1 l OSH j TURB FRONT STANDARD RE-4 l 28 l l FW HEATER STAIRWAY RE-2 l CSH l PILGRIM"* 04-NOV-1997 4:30 . 4 A 1 97-06 Page 19 of 25 Evaluated Exercise
-,n , -+ -. - . . , . . . , , - . - , , , _ _ _ . - - - - - - _ _ _ _ _ _ - _ _ _ _ _ _ - _ _ - _ . .
1 ' o o SPDS 413 Drill Display. O Messa9e 1201 ; 413 l RPV NORMAL l AREA RADIATION [CNTMT SORMAL] [ EFFL RAD MSL RAD PROC RAD
, NORMAL NORMAL NORMAL l AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO.
- mR/HR !
DRYWELL A RIT-1001606A l 150 l NEW FUEL. RACKS RE-12 l 78 l DRW1 ELL B RIT-1001606B l 150 l REFUEL FLR-NEW FUEL. VAULT i RE-11 l DS l p TORUS A RIT-1001607A l 230 l REFUEL FLR-SPENT FUEL POOL ' RE-14 l 82 l TORUS B RIT-1001607B l 230 l REFUEL FLR-SHIELD RE-13 l 77 l t AREA INSTR NO. mR/HR 4 MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP ' RE-6 1 60 l MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 1 5 l RX BLDG OUTSIDE TIP RM RE-8 l 10 l RADWASTE CORRIDOR I RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l OSH -l RADWASTE SHIPPING LOCK RE-9 l DS l T B. COND PMP STAIRWAY RE-1 l OSH l TURB FRONT STANDARD RE-4 l 27 l cW HEATER STAIRWAY RE-2 l 9100 l PILGRIM ~ 04-NOV-1997 4.45 l [ i e ! i ; 97-06 Page 20 of 25 Evalsated Exercise t
i o O SPDS 413 Drill Display O MessageTiil f ! 413 l RPV NORMAL l AREA RADIATION lCNTMT NORMAL l EFFL RAD MSL RAD PROC RAD NORMAL ,. NORMAL- NORMAL AREA (H1 RANGE) INSTR NO. R/HR AREA INSTR NO. 1 mRIHR DRYWELL A RIT-1001606A l 150 l NEW FUEL RACKS RE-12 1 75 ] l ! DRYVELL B RIT-10016068 l 150 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l
. TORUS A RIT-1001607A l 225 l REFUEL FLR-SPENT FUEL POOL RE-14 1 80 l !
TORUSB RIT-1001607B l 225 l REFUEL FLR-SHIELD RE-13 [ 74 l t l ' i AREA INSTR NO. mR/HR ' f MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l~ 60 l . MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 1 5 l RX BLDG OUTSIDE TIP RM RE-8 l 10 l RADWASTE CORRIDOR RE-5 10 [ l ; j RX BLDG ACCESS-SE RE-10 l OS. . l RADWASTE SHIPPING LOCK RE-9 l DS l 2
'T.B. COND PMP STAIRWAY. RE-1 l OSH' l l TURB FRONT STANDARD RE-4 l 25 l ,
FW HEATER STAIRWAY RE-2 l 8500 l f PILGRIM *" 04-NOV-1997 5:00 i i 97-06 Page 21 of 25 Evaluated Exercise ! i
- o o SPDS 413 Drill Display Message [ 221 O
i 413 I RPV NORMAL l AREA RADIATION lCNTMT NORMAL l EFFL RAD MSL RAD PROC RAD NORMAL NORMAL NORMAL ' AREA (HI RANGE) INSTR NO. R/HR ~ AREA INSTR NO. mR/HR DRYWELL A RIT-1001606A l 148 l NEW FUEL RACKS RE-12 l 75 l DRYWELL B RIT-10016068 l 148 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS j'
. TORUS A RIT-1001607A l 220 l REFUEL FLR-SPENT FUEL POOL RE-14 l 80 l .
TORUS B RIT-1001607B l 220 l REFUEL FLR-SHIELD RE-13 L 72 i AREA INSTR NO. mR/HR MAIN CONTROL ROOM . . RE-3 l DS l RADWASTE SUMP RE-6 l 60 l i MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 9 l RADWASTE CORRIDOR RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l OSH l RADWASTE SHIPPING LOCK RE-9 l DS l T.B. COND PMP STAIRWAY RE-1 l OSH l ; TURB FRONT STANDARD RE4 l 24 l FW HEATER STAIRWAY RE-2 l 8100 l PILGRIM *" 04-NOV-1997 5:15 i 97-06 Page 22 of 25 Evaluated Exercise
i , o O SPDS 413 Drill Display O - Message [Y37 1 413 l RPV NORMAL l AREA RADIATION lCNTMT NORMAL l i EFFL RAD MSL RAD PROC RAD ! NORMAL NORMAL NORMAL l AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYVELL A RIT-1001606A l 145 l NEW FUEL RACKS RE-12 1 65 l , DRYWELL B RIT-10016068 l 145 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS ] TORUS A RIT-1001607A i 190 l REFUEL FLR-SPENT FUEL POOL l RE-14 l 65 l l TORUS B RIT-10016078 l 190 l REFUEL FLR-SHIELD RE-13 l 63 l l, j AREA INSTR NO. mR/HR 1 MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 [ 60 l i MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 i 5 I RX BLDG OUTSIDE TIP RM RE-8 l 8 l RADWASTE CORRIDOR RE-5 l 10 l I' RX BLDG ACCECO 3E RE-10 OSH l l RADWGTE SHIPPING LOCK RE-9 l DS l
- T.B. COND PMP STAIRWAY RE-1 l OSH l TURB FRONT STANDARD RE-4 l 21 l FW HEATER STAIRWAY RE-2 l 6500 l PILGRIM'" 04-NOV-1997 5
- 30 t
- 97-06 Page 23 of 25 Evaluated Exercise t
i o o SPDS 413 Drill Display o Message [f4 l
~
j i 413 [ RPV NORMAL l AREA RADIATION lCNTMT NORMAL} - l EFFL RAD MSL RAD .l PROC RAD NORMAL NORMAL NORMAL !
'[
} : AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mR/HR DRYWELL A F : T-1001606A l 140 l NEW FUEL RACKS RE-12 l 65 l DRYWELL B RIT-10016068 l 140 l REFUEL FLR-NEW FUEL VAULT f RE-11 1 DS l TORUS A RIT-1001607A l 180 l REFUEL FLR-SPENT FUEL POOL - i- RE-14 l 65 l TORUS B RIT-1001607B l 180 l REFUEL FLR-SHIELD 1 RE-13 l 60 l i 4 AREA INSTR NO. mR/HR l MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l ! 1 MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 [ 5 l RX BLDG OUTSIDE TIP RM RE-8 l 7 l RADWASTE CORRIDOR RE-5 l 10 l i RX BLDG ACCESS-SE RE-10 l OSH l RADWASTE SHIPPING LOCK l RE-9 l DS l i T.B. COND PMP STAIRWAY RE-1 l OSH l i TURB FRONT STANDARD RE4 l 18 l i i FW HEATER STAIRWAY RE-2 l 6100 l PILGRIM"* 04-NOV-1997 5.45 i i ? i l 97-06 Page ?4 of 75 Evaluated Exercise I 4 i
o O SPDS 413 Drill Display O Message [ 25 l 't 413 mI RPV NORMAL l' AREA RADIATION lCNTkT NCRMALI EFFL RAD MSL RAD j PROC RAD NORMAL NORMAL P(ORMAL 2 AREA (HI RANGE) INSTR NO. R/HR AREA INSTR NO. mRIHR DRYWELL A RIT-1001606A l 135 l NEW FUEL RACKS RE-12 l 60 l DRYWELL B RIT-10016068 l 135 l REFUEL FLR-NEW FUEL VAULT RE-11 l DS l TORUS A RIT-1001607A l 170 l REFUEL FLR-SPENT FUEL POOL RE-14 l 60 l , TORUSB RIT-1001607B l 170 l REFUEL FLR-SHIELD RE-13 l 57 l AREA INSTR NO. mR/HR MAIN CONTROL ROOM RE-3 l DS l RADWASTE SUMP RE-6 l 60 l
)
MAIN CONTROL RM INTAKE RM-105-16 l 0.05 l RADWASTE CHEM WST REC TANK RE-7 l 5 l RX BLDG OUTSIDE TIP RM RE-8 l 7 l RADWASTE CORRIDOR RE-5 l 10 l RX BLDG ACCESS-SE RE-10 l OSH l RADWASTE SHIPPING LOCK RE-9 l DS l T.B. COND PMP STAIRWAY RE-1 l OSH l TURB FRONT STANDARD RE-4 l 14 l FW HEATER STAIRWAY RE-2 l 5100 l PILGRIM-** 04-NOV-1997 6.00 F l c i j 97-06 Page 25 of 25 Evaluated Exercise .i .
.. -, -- - , .m - - _.
=
Protective Action Recommenoations O Time: 1519 Date 10/2/97 Subareas to be Evacuated Assessment Method- 10 l Monitored Release I l Conditions' 9 ; 4
-1) Summer 3) All Day _ \
- 2) Midweek 4) Good B \\
Stabiktv Class
- C 8 \
7 Wind Direction (from)- -048 Wind Speed (mph): 40. 3- 1 Release Duration: - 5 55- 6 2 Generalizad_Guldansm__ 11 : Evacuate / Shelter :
- 1) 1 to 5 Rem Whole Body 5
- 2) 5 to 25 Rem Thyroid _
i Evacuate
- 1) >5 Rem Whole Dody
- 2) >25 Rem Thyroid -
Evac / Shelter of: 1 2 3 4 5 6 7 8 9 10 11 12 Evacuation of: 1 2 3 4 5 6 7 8 9 10 11 12 4 Group Release Rates (Cilsec) Noble Gases: 1.55E+01 Halogens: 5.03E-02 Particulates- 8.76E-03
' Affected Subarea Dose Tables Affected Subareas (Oose in Rem) Whole Body Thyroid No Protection: 2.18E-01 137E+00 Ring i i Sheltered: 189E-01 1.14E+00 (0 2 mdes)
No Protection 4-93E-02 3.10E-01 Ring 2 2, 3 Sheltered 4 29E-02 2.57E-01 (2-S mdes; 5,6,111 No Protection: 142E-02 8 89E-02 Ring 3-- Sheltered 123E-02 7 39E-02 (51o maes; i
. - . . _ . . . , . . . . .._,.,_--..-_.-.-_,----..,.____.___--.m,
Dose Assessment .
Methcd: Monitored Release Time.15 20 Date- 10/2/97 [
Release Path: <RCS>
~
1.5 1.13E +01 3.93E-02 2.15E-02 9 03E-03 6 99E-02 4 39E 01 2.0 7.94E +00 2.77E-02 1.52E-02 6 37E-03 4.93E-02 3.10E-01 , 2.5 5_96E+00 2.08E-02 1.14E-02 4.78E-03 3.70E-02 2.32E-01 , 3.0 4.6r2+00 1.63E 02 8 94E-03 3.75E-03 2.90E 02 1.82E 01 ,
~
r3 3.5 3.79E+00 1.32E-02 7.24E 03 3.04 E-03 2.35E-02 1.48E 01- i V 4.0 3.15E+00 1.10E-02 6 01E-03~ 2.52E-03 1.95E-02 1.23E 01 4.5 2.66E+00 9 29E-03 5.08E-03 2.13E-03 1.65E-02 1.04E 01 5.0 2,28E+00 7.97E 03 4.36E-03 1.83E-03 142E-02 8.89E-02 5.5 1.98E+00 6 91 E-03 3 78E-03 1.59E-03 123E-02 7.71 E-02 6.0 1.73E +00 6.04E-03 3.31 E-03 1.39E-03 1.07E-02 6.75E-02 6.5 1.53E +00 5.33E-03 2.92E 03 122E-03 9 47E-03 5.95E-02 7.0 1.35E +00 4 73E-03 2.59E-03 1.09E 03 8.4EE-03 5.28E-02 7.5 1.21 E+00 4.23E-03 2 31E-03 9.70E-04 7.51E 03 4 72E 02
~
80 1.09E+00 3.80E-03 2.08E-03 8 72E-04 6 75E-03 4 24E-02 8.5 9.83E 01 3 43E-03 188E-03 7.89E-04 610E-03 3 83E-02 9.0 8 95E-01 3.13E-03 1.71 E-03 7.18E-04 5 55E-03 3 49E-02 95 8.20E-01 2.86E-03 1.57 E-03 6.57 E-04 5.09E-03 3 20E-02 i
-10.0 7.56E-01 2.64E-03 1.45E 03 6.06E-04 4 69E-03 2.95E-02 Whole Body PAGs Thyroid PAGs O .
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4 (v) Ch mistry ph Bascs V Etapsed Time 02 45 03 00 03 15 03 30 03 45 04 00 04 15 04 30 04 45 0500 05 15 Decay Hours 2 58 2 83 3 08 3 33 35% 3 83 4 08 4 33 4 53 4 83 5 08 Damage Type G G G G G G G G G G G Amount 25% 25% 25% 25% 25% 25% 25% 25% 25 % 25% 25e, Source Distribution (Gases) RCS 95 23% 94 90 % 94 57 % 94 23 % 93 90% 96 57% 92 24 % 90 90 % 89 57'- Torus Liquid 043% 0 46% 049% 0 52 % 055% 0 58 % 061% 0 64 % 0 37 Drywell Atmosphef e 0 04 % 0 04 % 0 04 % 0 05% 0 05 % 0 05% 0 05% 0 06 % 0 06 - Torus Atmosphere 4 30 % 4 60 % 4 90 % 5 20 % 5 50 % 580% 6 10 % 6 40' 0 00% 0 00 % 0 00 % 6 70'$ Releasm) 0 00 % 0 00 % 0 00 % 1 00% 2 00+ Tota! 100 00 % 100 00 % 100 00% 100 00% 100 00% 103 00% 100 00% 100 00 100 100 1000 Source Distnbution (Halogen and Particulate) RCS 96 84 % 96 55% 96 26 % 95 95% 95 65% 95 35% 94 02% 92 91 % 91 813 a - Torus Liquid 1 79 % 195% 2 12% 2 30 % 2 47% 2 64 % 2 83 % 2 89 % 90 75l* 2 94 % 7 ga Dryweri Aimosphere 003% 0 03% 0 03% 0 03% 0 03% 0 04 % 0 04 % 0 04 % 0 04+ Torus Atmosphere 1 34 % 1 46 % 1 59 % 1 72% 1.85% 1 97% 2 12 % 2 16 % 2 20 ' Released 0 00% 0 00 % 0 00% 0 00 % 0 00% 0 00 % 1 00 % ' 00* Total 100 00 % 100 00M 100 00% 100 00% 100 00 % 100 00 % 10i,00 % 100 00 100 k 100 00 1000 System Volumes c 2 05E+08 2 05E+08 2 05E+0S 2 05E+0S 2 05E+03 2 05E+03 2 05E+0S 2 05E+03 2 0$E+08 2 05E+0S 2 05E+0S t, qui t! Drywell Atmos 2 38E+09 2 3SE+09 2 38E+09 2 38E+09 2.3SE+09 2 38E+09 2 38E+09 2 38E+09 2 38E+09 2 38E+09 2 3SE Torus Atmos 416E+09 416E+09 416E+09 416E+09 416E+09 416E+09 416E+09 416E+09 416E+09 416E+09 416E+09 318E+09 318E+09 318E+09 318E+09 318E+09 318E+09 318E+09 318E+09 318E+09 318E+09 318E+09 97-06 Page 2 of 3 Evaluated Exercise
[j Chemistr mple B"ses Etapsed Teme 05 30 05'45 06 00 06 15 06 30 06 45 Decay Hours 5 33 5 58 5 83 6 08 6 33 6 58 Damage Type G G G G G g Amount 25% 25% 25% 25% 25% 25% Source Distribution (Gases) RCS 85 57 % 84 24 % C3 91% B3 53% 83 25% 82 92% Torus Lequd 0 76 % 079% 0 82 % 085% 088% 0 91 % Dryw'll Atmosphere 0 07 % 0 07% 0 07 % 0 07 % 0 07% 0 07 % Torus Atmosphere 7 60 % 7.90 % 820% 8.50% 8 80% 9 10% Released 6 00 % 7 00 % 7 00 % 7 00 % 7OG% 7 00% Total 100 00% 100 00% 100 00 % 100 00% 100 00% 100 00 % Source Distribution (Halogen and Particulate) RCS 88 59% 87 53 % 87 53% 87 55% 87 54 % 87.52% Torus Liqual 3 07 % 3 10 % 3 10 % 3 09 % 3 09% 3 11 % Dry.vell Atmosphere 0 04 % 0 04 % 0 04 % 0 04 % 0 04 % 0 04 % Torus Atmosphere 2 30 % 2 32 % 2 32 % 2 31 % 2 32 % 2 33% Released 6 00% 7 00% 7 00% 7 00 % 7 00% 7 00 % Total 100 00% 100 00% 100 00 % 100 00% 100 00% 100 00 % System Volumes RCS 2 05E+08 2 05E-08 2 05E+08 2 05E+0S 2 05E+08 2 05E+08 Torus Lagmd 2 38E+09 2 38E+09 2 38E+09 2 38E+09 2.38E+09 2 35tE+09 Drywell Atmos 416E+09 416E+09 416E+09 4.16E+09 4.16E+09 s itiE+09 Torus Atmos 318E+09 318E+09 318E+09 318E+09 318E+09 318E+09 97-06 Page 3 of 3 Evaluated E> erase
g Reactor Cknt (pCi/ml) 00:15 00:30 00:45 M:00 01:15 01:30 01:45 02 00 02:15 02:30 02:45 OC 00 2 01E+01 37E+02 2 81E+02 4 49E+02,4 31E+0g 413E+02,3 %E+02,3 80E+02,3 64E+02,3 49E+02 3 35E+02 3 21E+02 Kr85m Kr-f : 8 99E-01 6 20E+00 [ 132E+01, 2 20E+01,2.19E+01 ; 2.18E+ 01 ; 2.18E+01,217E+01, 216E+01 215E+ 01 215E+01 214E+ 01 Kr_. 3 85E+01 2 54E+02 4 73E+02 6 85E+02,5 96E+02l 5.18E+02; 4.50E+02 3 92E+02 3 40E+02,2 96E+02 2 57E+02 2 24E+02
- y. y 5 46E+01 3 69E+02 7.41E+02,1.16E+03 ; 1.09E+03I 1.02E+03 ; 9 55E+02 8 95E+02 8 39E+02 7 87E+02 7 3SE+02 6 92E+02
^
1 CSE+02 114E+03 2 43E.03 4 03E+03,4 01E+03.{ 3 99E+03 3 97E+03 : 3 95E+03,3 93E+03 3 91E*03 3 89E+03 3 87E+03 xe-133 ~ f Xe- 135 213E+01 ' 146E+02 3 06E+u2 4 99E+02 ' 4 88E+02 i 4 77E+02 4 67E+02 4 56E+02 4 46E+02 4 36E+02 4 27E+02 417E+02 Total Noble Gas 3 00E+02 2 05E+03 4 24E+03 6 84E+03 6 63E+03 : 6.44E+03 6 26E+03 6 09E+03 5 94E+03 5 80E+03 5 67E+03 5 55E+03 i131 4 44E+01 3 09E+02 6 60E+02 1 10E+ 03,109E+03} 1 NE+03,109E+03,108E+03,108E+03 1.07E+03 107E+03 107E+03 1132 6 48E+01 ' 4 40E+02 8 72E+02 134E+03,124E+03[1.15E+03,106E+03 9 85E+02 911E+02 8 43E+02,7.79E+02 7 20E+02 133 9 31E+01 ' 6 46E+02 137E+03 2 26E+03 ' 2 23E+0312.21E+03,219E+03 216E+03 214E+03 211E+03 2.09E+03 2 07E+03 1-134 10;E+02 6 67E+02 1.17E' +03 1.60E+03 ! 131E[03 { i 07E+03 ; 8 76E+02,7.17E+02 5 87E+02 4 80E+02 3 93E +02 3 22E+02 1135 8 75E+01 6 04E+02 126E+03 2 04E+03 i 198E+03 : 1.92E+03 ' 187E+03 1 81 E+ 03 176E+03 17 IE+03 ' 166E+02 ' 162E+03 Total Halog in 3 92E+02 2 67E+03 5 33E+03 8 33E+03 7 86E+03 7.44E+03 7 03E+03 6 76E+03 6 48E+03 6 22E+03 6 00E+03 5 79E+03 i Cs-134 2 67E+01_186E+02 3 97E+02 6 60E+02[ 6 59E+02[ 6 57E+02,6.55E+02 6.53E+02,6 52E+02 6 50E+02 6 48E+02 6 46E+02 l Cs 137 165E+01 115E+02 2 45E+02 4 08E+02 4 07E+02; 4 06E+02,4 04E+02 4 03E+02,4 02E+02 4 01E+C2 4 00E+02 3 99E+02 Cs 138 2 42t +02,151E+03 2 35E+03' 2 82E+03. 2 04E+03 ; 147E+03 106E+33, 7 69E+02 ; 5 56E+02 4 01E+02 2 90E+02 2 09E+02 Te 132 3 76E-01 2 61E+00 5 57E+00 9 25E+00 [ 9 21E+00i 9.16E+00; 912E+00,9 07E+00,9 03E+00 8 98E+00 ' 8 94E+00 8 89E+00 Sr-91 313E-03 217E-02 155E-02 7.42E-02 7.27E-02 { 7.12E-02 , E 98E-02 , 6 83E-02 , 6 69E-02 6.55E-02 ' 6 41E-G2 6 28E-02 Sr 92 3 35E-03 2 28E-02 4 58E-02 7 14E-02 6 68E-02 l 6 2SE-02 5 85E-02 5 47E-02 512E-02 4 79E-02 ' 4 48E-02 4 19E-02 Ba 140 4 71E-03 ~ 28E-02 7 00E-02 1.16t. 91,1.16E-01,1.16E-01,1.15501 1.15E-01 1 15E-01 1.14E 01 1 14E-01 1 13E-01 i 99 0 00E+00 0 00E+00 0 00E+00 0 00E+00,0 00E+00; 0.00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00' O 00E+00 0 00E+00 l Ru-103 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 ; O 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00 ' O 00E+00 0 00E+00
- y. 9, 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 ! 0 00E*00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 La-140 0 00E+00 0 00E+00 0 00E+00 0 00E+00 ' O 00E*00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 30E+00 0 00E+00 C e- 141 0 00E+00 0 00E+00 0 00E+00 0 00E+00,0 00E+00,0 00E+00 0 00E+00,0 00E+00 0 00E+00 0 00E+00 ' O 00E+00 n 00E+00 Ce- 144 0 00E+00 ' 0 00E+00 0 00E+00 0 00E+00 0 00E+00l 0 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00 ' O 00E+00 0 00E+00 Zr-95 0 00E+00 0 00E+00 0 00E+00 0 00E+00,0 OCE+00; O 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00 ' 0 00E+00 0 00E+00 Z-97 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0.00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 Total Particulate 2 86E+02 18?E+03 2 99E+03 3 90E+03 311E+03 2.55E+03 213E+03 1 84E + 03 162E+03 146E+03 135E+03 1 26E + 03
{ 1 l 97-06 Page 1 of 3 Evaluated Exercise l l f o
fy g Reactor Chant NCUm0 U 03:15 63:30 03:45 04:00 04:15 04 10 04:45 05:00 05:15 05:30 05:45 03:00 Mr-85rn 3 08E+02 2 95E+02 2 83E+02 2 71E+02,2 68E+02; 2 46E+02,2 34E+02 2 21E+02,210E+02 199E+02 188E+02 178E+02 Kr-85 213E + 01 2 12E + 01_ 212E+ 01 211E+01,217E+01 [ 2 07E+01 ; 2 04E+01 ; 2 01E+01 ,19SE+01 ,195E+01 192E +01 1 89E + 01 Kr-87 195E+02 169E+02 147E+ 02 128E+02 1 15E+02 { 9 56E+01,8 22E+01 7 07E+01 6 07E+01 , 5 22E+01 4 48E+01 385E+01
, I Kr 88 6 49E+02 6 08E+02 ' 5 70E+02 5 34E+02 517E+02! 4 65E+02,4 31E+02,3 99E4 02 3 70E+02 3 43E+02 31SE+02 2 94E+02 Xe-133 3 85E+03 3 84E+03 3 82E+03 3 80E+03; 3 90E+03 j 3 72E+03 ; 3 66E+03 3 60E+03 - 3 54E+03 3 49E+03 ' 3 '3E+03 3 37E+03 xe 135 4 08E+02 3 99E+02 3 90E+02 3 81E+02 3 85E+02: 3 60E+02 3 48E+02 3 37E+02 3 26E+02 315E+02 ' 3 04E+02 2 94E+02 I Total Noble Gas 5 43E+03 5 33E+03 5 23E+03 513E+03 5 21E+03 ; 4 91E+03 4 78E+03 4 65E+03 4 53E+03 4 42E+03 4 30E+03 419E+03 1-131 106E+ 03 1 06E +03 105E+03 105E+03 } 104E+03] 1.03E+03 1.02E+03 100E+03 9 91E+02 9 78E+02 9 66E+02 9 53E+02 1-132 6 66E+02 616E+02 5 69E+02 5 26E+02,4 87E+02 j 4.45E+02,4 08E+02 3 74E+02 3 43E+02 314E+02 ' 2 88E+02 2 64E+02 1-133 2 04E+03 2 02E+03 2 00E+03 1.97E+03,195E+03 } 191E+03,187E+03,133E+03 180E+03 1.76E+ 03 ' 1.73E+ 03 169E+03 1134 2 63E+02 215E+02 176E+02,1.44E+02,1 18E+02; 9.55E+01 ; 7.74E+01 . 6 28E+01,5 09E+01 4 13E+01 ~ 3 35E+01 2 72E+01 g.135 1. 57E + 03 152E+03 148E+03 144E+03 - 140E+03 ! 1.34E+01, 129E+03 124E+03 120E+03 1 15E+03 ' 1 11E+03 107E+03 I Total Halogen 560E+03 5 43E+03 5 28E+03 513E+03 5 00E+03 i 4 532E+03 4 66E+03 4 52E+03 4 38E+0s 4 25E+03 412E+03 4 00E+03 Cs-134 6 44E+02 6 42E+02 6 40E+02,6 38E+02,6 36E+02 ; 6 27E+02,6 20E+02 612E+02 6 05E+02 5 98E+02 5 91E+02 5 84E+02 C s- 137 3 98E+02 3 96E+02 3 95E+02,3 94E+02,3 93E+02; 3 87E+02 3 83E+02,3 78E+02 3 74E+02 3 69E+02 3 65E+ 02 3 61E+02 Cs-138 151E+02,109E+02 7 88E+01,5 69E+01,4.10E+01 j 2 93E+01,210E+01,1.50E+01 107E+01,7 69E+00 ' 5 50E+00 3 94E+00 Te 132 8 85E+00 8 80E+00 8 75E+00,8 71E+00; 8 66E+00j 8.52E+00; 8 40E+00,8 28E+00,817E+00 8 05E+00 7 94E+00 7 83E+00 c r.91 615E-02 6 02E-02 5 89E-02 , 5 77E-02 , 5 64E-02 ! 5 46E-02 , 5 30E-02 , 5.15E-02 , 4 99E-02 , 4 85E-02 , 4 70E-02 4 56E-02 Z r-92 3 92E-02 3 66E-02 3 43E-02 ^ 20E-02 3 00E-02 : 2.77E-02 2 57E-02 2 38E-02 2 21E-02 2 05E-02 190E-02 1 76E-02 Ba 140 1 13E-01 1 13E-01 1 12E-01 1.12E-01 1 11E-01 { 1.10E-01,108E 01 107E-01 106E-01 1 04E-01 103E-01 102E-01 Mo.99 0 00E+00 0 00E+00 0 WE+00 ; O 00E+00 0 00E+00 ! 0 00E+00 ; O 00E+00 : 0.00E+00,0 00E+00 0 00E+00. 0 00E+00 0 00E+00 Pu-103 0 00E+00 0 00E+00 ' O 00E+00,0 00E+00,0 00E+00 } O 00E+00 l 0 00E+00,0 00E+00,0 00E+00 0 00E+00 ' O 00E+00 0 00E+00 Y-92 0 00E+00 ' O 00E+00 0 00E+00 ' O 00E+00l 0 00E+00; O 00E+00 ; O 00E+00,0 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E*00 La 140 0 00E+00 0 00E+00 0 00E+00 0 00E +00. J 00E+00 j 0 00E+00,0 00E+00,0 00E+00,0 00E+00 0 n0E+00 ' O 00E+00 0 00E+00 Ce-141 0 00E+C0 ' O 00E+00 0 00E+00 ; O 00E+00,0 00E+00 j 0.00E+00 0 00E+00 0 00E+00 0.00E+00 0 00E+00 0 00E+00 0 00E+00 ^
C e- 144 0 00E+00 0 00E+00 0 00E+00,0 00E+00,0 00E+00 j 0 00E+00,0 00E+00,0 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00 Zr-95 0 00E+00 0 00E+00 ' 0 00E+00 0.00E+00,0 00E+00; O 00E+00,0 00E+00 0 00E+00,0 00E+00 0 00E+00I 0 00E+00 0 00E+00 Zr-9 7 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 : 0.00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 ' O 00E+00 Total Particulate 120E+o3 1 16E +03 1.12E + 03 1 10E+ 03 1.08E+03 ' 105E+03 103E+03 101E+03 9 98E+02 9 83E+02 9 69E+02 9 56E+02 97-06 Page 2 of 3 Evaluated Exercise
- =- -
U(y (9.) Reactor ~nt (pCi/ml) 06:00 06:15 06:30 06:45 Kr85m 1.71 E+ 02 164E+02.1.57E+02 - 150E+02 - Kr-85 1.89E+01 ' 188E+01 I I.87E+0171.86E+01 I 3.35E+01 i 20E+01 i I 2 91E+01 ' 2 53E+01,2 Kr-87 Kr-88 2.76E+02 ' 2 58E+02 l 2 42E+02 i 2.27E+02 I Xe-133 3 35E+03' 3.33E+03' 3 32E+03! 3 30E+03 !
~
Xe-135 ,2 87E+02 I2 80E+02 2.74E+02 I 2.68E+02 ' ( ' Total Noble Gas j 4.14E+03 i 4 09E+03. 4 03E+03 ; 3 99E+03 : 1-131 9.52E+02 9.52E+02 9 51E+02i 9 50E+02 l 1-132 2 45E+02 ) 2 27E+02 [ 2.10E+02 l 195E+02 l l-133 168E+03 166E+03 165E+03 j 163E+03 l I-134 2.23E+01 ; 183E+01,1.50E+01 ! 1.23E+01 j 1-135 1.04E+03 101E+03 - 9 86E+02 i 9 60E+02 J Total Halogen 3.93E+03 3 87E+03 3 81E+03 3.75E+03 i Cs-134 5 84E+02 5 84E+02 - 5 84E+02 i 5 84E+02 : Cs-137 3 61E+02I 3 61E+02 I 3 61E+02 I 3 60E+02 i Cs-138 2.85E+00 [ 2.07E+00 [ 1.50E+00 { 1.08E+00 { Te-132 7.81E+00, 7.79E+00 ; 7.78E+00 l 7.76E+00 j Sr-91 4.48E-02 4 40E-02 4.32E-02 : 4 24E-02 i St-92 1.65E-02 l 155E-02 ' 1.45E-02 ' 1?' 32 l Ba-140 1.02E-01,1.02E-01,1.02E-01,1 De01 ! Mo-99 0 00E+00 0 00E+00 0.00E+00 ' O.00E+00 I Ru-103 0 00E+00 l 0 00E+00 j 0.00E+00[ 0 00E+00 f Y-92 0.00E+00 0 00E+00 ' O 00E+0010 00E+00 ! I La-140 0 00E+00 0 00E+00 O 00E+00! 0 00E+00 I Ce t41 0 00E+ 00 I O 00E+00 [ 0 00E+00 ! 0.00E+00 ! I Ce-144 0 00E+00i 0 00E+00 ' O 00E+00 O 00E+00I
~
Zr 05 0 00E+00 0 00E+00 ' O 00E+00 ' O 00E+00 ! Zr-97 0.00E+00 ' O 00E+00 ' O 00E+00 I O 00E+00 i Total Particulate 9 55E+02 9 55E+02 ' 9 54E+02. 9 53E+02 i 97-06 Page 3 of 3 Evaluated Exerose
~
B
l
$ Torus Li9d (pCi/ mil U 00:15 00:30 00:45 01:00 01:15 01:30 01:45 02 00 02:15 02:30 02 45 00:00 Fr-85m 000E+00 156E-02 , 3 95E-02, 7 51E-02 ; 8 37E-021915E-02 ; 9 86E-02 ,1.05E-01,1.11E-01 . 1 16E-01 121E-01 125E-01 Kr-85 0 00E+00; 7 04E-04 ,186E-03, 3 68E-03 ; 4 26E-03 i 4.84E-03 5 42E-03 6 00E-03 6 58E-03 7 16E-03 , 7.74E-03 8 32E-03 4
6 63E-02 1.15E-01,1.16E-01 [ 1.15E-01 1.12E-01 108E-01 1 0-lE-01 0 84E-02 9 2SE-02 8 70E-02 Kr-87 . 0 00E+00. 0 00E+00 I 2 88E-02 ~ 104E-01,194E-01 ; 211E-01 (2 26E-01,2 38E-01 ; 2.48E-01 , 2 55E-01 , 2 62E-01 2 66E-01 2 69 419E-02 Kr-88 Xe-133 0 00E+00) 129E 01, 3 41E-01,6 73E-01 ; 7.78E-01 LB 83E-01, 9 88E-01 109E+00 120E 200 130E+00 ' 140E+00 1 51E+ 00 Xe-135 0 00E+00 : 1 662-02 4 30E-02 8 35E-02 i 9 48E-02 i 106E-01 1.16E-01 1.26E-01 136E-01 1 45E-01 1 54E-01 162E-01 Total Noble Gas 0 00E+00 ; 2 33E-01 5 95E-01 ' 1.14E+00 ! 129E+00 i 1.43E+00 : 1.56E+00.169E+00 - 1 E1E+00 1 ')3E+00 2 04E+00 216E+ 00 0 00E+00 8 90E-02 . 2 65E-01 ; 5 70E-01 ; t 99_E-l01J8l34E-01 j 9 72E-01 1.11 E+ 00 ,1 25E+ 00 139E+00 154E+00 1 70E+00 1-131 1-132 0 00E+00 ' 127E 01 3 50E-01,6 99E-01 } 7.96E-01 j 8 80E-01 ! 9.53E-01 ,101E+00 ; 106E+00 109E+00 1.12E+00 ' 1 15E+00 1-133 0 00E+00I 186E-01 5 50E-01 1 17E+ 00 : 1.43E+00j 169E+00; 196E+00 2 21E+00 ; 2 48E+00,2 74E+00' 3 01E+00 3 29E+00 1-134 0 00E+00) 192E-01 4 70E-01 8 29E-01 ; 8.36E _01 [8.18E-01 l 7 84E-01 7 33E-01, 6 81E-01 6 24E-01 5 66E-01 512E-01
~
1-135 0 00E+00 1 74 E-01 5 05E-01 106E+00 127E+0011.47E+00 ! 167E+00 186E+00 2 05E+00 2 22E+00 2 40E+00 ' 2 57E+00 Total Halogen 0 00E+00 7 67E-01 214E+00 4 33E+00 : 5 02E+00 ! 5 69E+00 : 6 34E+00 6 91E+00 7 52E+00 8 08E+00 8 64E+00 9 23E+00 Cs-134 1 0 00E+00 Cs 137 0 00E+00~ 5 35E-02 3 30E-02 9 84E-02,159E-01,
; 2.12E-01, 2360E-01 43E-01, 4 21E3 62E-01 j 3.10E-01, 01 j 5 402E-01, 5 86E-01 13E-01 4 67E-01 6 68E-01 5 21E-01 5 76E-0176 57E-01 35E-01 8 44E-01 9 Cs-138 0 00E+00 ' 4 36E-01 9 42E-01 1 47E+ 00 ,1.30E+00 ; 1 13E+00, 9.53E-01 7 87E-01 . 6 45E-01 5 21E-01 4 17E-01 3 33E-01 Te-132 0 00E+00 ' 7 52E-04 2.24E-03 , 4 80E-03 . 5.89E-03 l 7 01E-03 ; 816E-03 9 28E-03 . 1 05E-02 1 17E-02 l 129E-02 142E-02 cf.
0 00E+00 ' 6 24E-06 ' 183E-05 3 86E-05 , 4 65E-05 j 5 45E-05 , 6 24E-05 , 6 99E-05 , 7 77E-05 8 50E-05 9 24E-05 100E-04 hr9291 0 00E+00 6 57E-06 184E-05 , 3 71E-05 ; 4 27E-05 j 4 78E-05 ; 5.23E-05 , 5 60E-05 , 5 94E-05 6 22E-05 6 45E-05 6 67E 05 Ba- 140 0 00E+00 ' 9 44E 06 2 81E-05 , 6 05E-05 7.42E-05 ! 8 85E-05,103E 04 1.18E-04 133E-04 148E-04 164E-04 181E-04 Mo-99 0 00E+00 ' O 00E+00 0 00E+00 0 00E+00 ; O 00E+00 j 0 00E+00,0 00E+C0 0 00E+CO O 00E+00 0 00E+00 0 00E+00 0 00E+00 Ru-103 0 00E+00 0 00E+00 0 00E+00,0 00E+00,0 00E+00 j 0.00E+00,0 00E+00,0 00E+00,0 00E+00 0 00E+00 ' O 00E+00 0 00E+00 y.92 0 00E+00 ' O 00E+00 l 0 00E+00 0 00E+00,0 00E+00 ! 0 00E+00 ; O 00E+00,0 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00 La-140 0 00E+00 I O 00E+00 0 00E+00 ; O 00E+00 ; O 00E+00 ! 0 00E+00,0 00E+00,0 00E+00,0 00E+00,0 00E+00 ' O 00E+00 0 00E+00 C e- 141 0 00E+00 0 00E+00 0 00E+00,0 00E+00 ; O 00E+00 j 0 00E+00 ; O 00E+00,0 00E+00,0 00E+00 0 00E+00 ' O 00E+00 ' O 00E+00 Ce-144 0 00E+00 ' O 00E+00 0 00E+00,0 00E+00 ; O 00E+00 j 0 00E+C0 0 00E+00 ; O 00E+00,0 00E+00 0 00E+00 ' O 00E+00 ' O 00E+00 Zr95 0 00E+00,0 00E+0L 0 00E+00 0 00E+00 ; O 00E+00 j 0 00E+00 ; O 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 Zr-97 0 00E+00 0 00E+00 0 00E+ 00 0 GCE+00 0 00E+00 4 0 00E+CD 0 00E+00 0 00E+00 0 00E+00 0 00E+00' O 00E+00 0 00E+00 Total Puticulate 0 00E+00. 5 23E-01 120E+00 2 033+00 199E+00,195E+00 191E+00 18SE+00 188E+00 1 90E+ 00 194E+00 2 01E+00 Page 1 of 3 Evaluated E= erase 97-06
o g Torus Lih (pCi/mi) U 03:15 03:30 03:45 04:00 04:15 04:30 04:45 05:00 05:15 05:30 05:45 03:00 Kr-85m 128E-01 132E-01 134E-01 137E-01,139E-01 { 140E-01,142E-01 1 43E-01, 1. 43E-01 144E-01 144E-01 1 44E-01 Kr-85 8 90E-03 : 9 48E-03 101E-02 ; 106E-02 ! 1.12E 02 j 118E-02 l 124E-02 l 130E-02 ; 135E-02,141E-02 1.47E-02 1 53E-02 Kr-87 812E-02 7 55E-02 ' 6 99E-02 ] 6 45E-02 ; 5 93E-02 j 5 44E-02 ! 4 98E-02 4 55E-02 ; 4.15E-02 , 3.78E-02 3 43E-02 311E-02
^
Kr-88
- 2. 71 E-01 2 71E-01 2 71E-01, 2.70E-01, 2 67E-01 j 2 65E-01 ! 2 61E-01 ; 2.57E-01 ; 2.53E-01, 2 48E-01 2 43E-01 ~ 2 3SE-01 Xe-133 161E+ 00 1_71E+00 181E+00 ; 1.92E+00 ; 2 02E+00[ 212E+00l 2.22E+00 ; 2.32E+00 : 2 42E+00 2 52E+00 2 62E+ 00 ' 2 72E+00 >
Xe-135 170E-01 1. 78E-01 1 85E-01 1 92E-01 199E-01 12 05E-01 ! 211E-01 217E-01 2 23E-01 2 28E-01 2 33E-01 ~ 2 37E-01 Total Noble Gas 2 27E+00 2 38E+00 2 48E+00 ' 2 59E+00 : 2 69E+00 ! 2 80E+00 ! 2.90E+00 ; 3 00E+00 310E+00 319E+00 3 29E+00 3 39E+00 1-131 185E+00 [ 2 01E+00 : 217E+00 [ 2 33E+00[ 2 49E[0%2 67E+00} 2.72E+00 { 2.77E+00l 2 80E+00 2 84E+00 2 88E+00 2 91E I-132 1.16E+00 : 1 17E+00 1 17E+00 1.17E+00 ; 1.16E+00 J 1 15E+00 ! 1.09E+00,103E+00 : 9 70E-01 913E-01 8 59E-01 8 04E-01
~
1-133 3 56E+00 3 84E+00 I 412E+00 4 39E+00 ; 4 66E+00 j 4p5E+00I 5 01E+00 { 5 06E+00 5 09E+00 ' S 12E+00 515E+00 516E+00 1-134 4 59E-01, 4 09E-01, 3 63E-01, 3 20E-01 ; 2 81E -01 j 2.47E-01 ! 2 07E-01,1.73E-01 , 1 44E-01 , 1.20E-01 1 00E-01 8 29E-02 1-135 2 73E+00 2 89E+00 3.05E+00 319E+00. 3 33E+00 ! 3 47E+00 ! 3 46E+00 ; 3 43E+00 219E+00 3 34E+00 ' 3 31E+00 ' 3 25E 00 Total Halogen 9 76E+00 ' 103E+01 = 109E+01 ' 1.14E+01 i 1,19E+01 i 1.25E+01 l 125E+01 ' 1.25E+01 124E+01 123E+01 123E + 01 s22E+01 Cs- 134 '112E+00 1 22E + 00 1.32E+00 1.42E+00 [ 1.52E+00 { 1.63E+00 { 166E+00.169E+00,1.71E+00 174E+00,176E+00 178E+00 Cs- 137 c 33E-01 7 53E-01 a 14E-01 8 75E-01, 9 37E-01 ; 1.00E+00l 1.03E+00 ; 104E+00,106E+00 . 1.07E + 00 ,1. 09E + 00 1 10E+ 00 Cs-138 2 63E-01 ' 2 07E-01 162E-01 126E-01 l 9 79E-02 l 7 60E-02 ! 5 62E-02 ; 414E-02 , 3 04E-02 , 2 23E-02 164E-02 ' 120E-02 Te-132 1.54E-02 ' 167E-02 ' 180E-02 1.93E-02 j 2 07E-02 j 2.21E-02 l 2 25E-02, 2 29E-02 ; 2 31E-02 , 2 34E-02 ' 2 37E-02 2 39E-02 3,.91 1 07E-04 1 14 E-04 1 21 E-04 1.28E-04 ,135E-04 ; 1.42E-04 ,142E-04 ,142E-04 141 E-04 ,141E-04 ,140EC
- 39E-04 Sr 92 6 83E-05 6 95E-05 7 06E-05 712E-05 ; 7.15E-05 l 7.18E-05 l 6 88E-05 6 57E-05 ; 6 25E-05 , 5 95E-05 , 5 66E-05 5 36E-05 Ba-140 1.97E-04 ~ 2.14E-04 2 31E-04 , 2 48E-04 ; 2 66E-04 { 2 84E-04 ; 2.90E-04 , 2 95E-04 , 2 99E-04 , 3 03E-04 , 3 08E-04 3 11 E-04 yo 99 0 00E+00 ' O 00E+00 [ 0 00E+00 ; O 00E+00,0 00E+00[0 00E+00,0 00E+00,0 00E+00 ; O 00E+00 0 00E+00 0 00E+00 0 00E+00 Ru 103 0 00E+00 0 00E+00 0 00E+00,0 00E+00 0 00E+00 i 0 00E+00; O 00E+00 ; O 00E+00; O 00E+00,0 00E+00 ' O 00E+00 0 00E+00
~
Y 92 0 00E+00 0 00E+00 0 00E+00,0 00E+00 0 00E+00 { 0 00E+00 ; O 00E+00 ; O 00E+00,0 00E+00,0 00E+00 0 00E+00 0 00E+00 La 140 0 00E+00 0 00E+00 0 00E+00 ; O 00E+00 ; O 00E+00! 0 00E+00,0 00E+00,0 00E+00,0 00E+00. 0 00E+00 ) O 00E+00 ' O 00E+00 Ce 141 0 00E+00 0 00E+00 0 00E+00,0 00E+00 ; O 00E+00 ! 0 00E+00 ; O 00E+00,0 00E+00 ; O 00E+00 0 00E+00 0 00E+00 0 00E+00 Ce-144 0 00E+00 0 00E+00 0 00E+00. 0 00E+00; O 00E+00 ! 0 00E+00 0.00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 ' O 00E+00 Zr 95 0 00E+00 0 00E+00 ; J 00E+00,0 00E+00; O 00E+00I O 00E+00l 0 00E+00l 0 00E+00 [ 0.00E+00 0 00E+00. 0 00E+00 0 00E+00
~
I I zr.97 0 00E+00 0 00E+00 0 00E+00 0 00E+00 i 0 00E+00I O 00E+00 : 0 00E+00 0 00E+00. 0 00E+00 O 00E+00 O 00E+00 0 00E+00 Total Particulate 2 09E+00 2 20E+00 2 31E+00 2 44E+00 2.57E+00 : 2.73E+00 2 77E+00 2 80E+00. 2 83E+00 2 86E+00 2 89E+00 2 92E+00 - 97-06 Page 2 of 3 l Evaluated Exerc se
h Torus Li d (p_Ci/ml) 0 06:00 06:15 06:30 06:45 Kr85m 144E-01 1.44E-01 1.43E-01 s 1.42E-01 Kr-83 159602 l 1.64E-02 i 170E-02 i 1.76E-02 i Kr-87 2.82E-02 I 2 55E-02 I
! 2 30E-02 ! 2.08$-02 !
Kr-88 2.32E-01 I 2.26E-01 2 21E-01 I 2.15E-01 ! i 2 82E+00] 2 92E+00 ! 3.02E+00,312E+00] Xe-133 Xe-135 2 42E-01 ; 2 46E-01 i 2 50E-01 i 2.53E-01, Total Noble Gas 3.48E+00( 3.58E+00 ! 3 67E+00 ! 3.77E+00 ! 1-131 2.91E+00 I 2.89E+00 l 2.90E+00 i 2.91E+00 i 1-132 7.47E-01 I 6 90E-01 ! 6 41E-01 { 5.97E-01 I l-133 512E+00 ] 5 06E+00 l 5 02E+00 } 5 00E+00 l l-134 6 81E-02 5 56E 02 i 4 57E-02 ; 3.77E-02 r I 1-135 3.17E+00I 3 08E+00 3 00E+00I 2.94E+00! Total Halogen 1.20E+01 1.1BE+01 ' 1.16E+01 ! 1.15E+01 i Cs-134 1.78E+00 [ 1.78E+00 ; 1.78E +00 l 1.79E+00 ! Cs-137 1.10E+00 ! 1.10E4 00 ! 1.10E+00 I 1.10E+00 l Cs-138 8 71E-03 i 6 28E-03 I 4 56E-03 f 3.31E-03 i Te-132 2.39E-02 l 2.37E-02 } 2 37E-02 [ 2.37E-02 ! Sr-91 1.37E 1.34E-04 131E-04 ! 1.30E-04 [ St-92 5 04E-05 l 4.70E-05 4.42E-05 I 4.16E-05 i Ba-140 3.11E-04 ' 3.09E-04 I 3.10E-04 [ 3.11E-04 '. i Mo-99 0.00E+00 ! 0 00E+00 0.00E+00 ! 0 00E+00 Ru-103 0.00E+00,0! 00E+00 } O 00E+00 f 0 00E+00l Y-92 0 00E+00 j 0 00E+00; O 00E+0010 00E+00 j ta- 140 0 00E+00,0.00E+00 ; O 00E+00, 000E+00j Ce-141 0.00E4 00. 0.00E+00 ! 0 00E+00 0 00E+00 - Ce-144 0 00E+00 ' 0 00E+00I O 00E+00 0.00E+00 l I Zr-95 0.00E+00 ! 0.00E+00 O 00E+00 ' O00E+00l I ? Zr-97 0 00E+00 l 0 00E+00 O 00E+00 O 00E+00 [ Total Particulate 2 92E+00. 2 90E+00 2.90E+00 l 2.92E+00 i 97-06 Page 3 of 3 Ev1uated Exercise
t O Torus ^t= & =ra <aci'cc) O 1 00:00 '00:15 00:30 00:45 01:00 01:15 01:30 01:45 02:00 02:15 02:30 02 45 . Kr-85m J 00E+00 1.16E-01,2 95E-01 5 62E-01j 6 26E-01 6;85E-01 7.3SE-01, 7 a6E-01. j 8 29E-01, 8 68E-01 9 03E-01 9 34E-01 ; Kr85 0.00E+00 I 5 27E-03 : 1.39E-02 i 2.75E-02 Kr-87 0 00E+00I 2.16E-01 ' 4.96E-01 l 8.57E-01 8319E-02J 66E-01, . 8 58E-01 ! 8 39E-01 ! 810E 01I j6 794E-01
- 75EI 601 ; 7^ 36E 0 51E-01 Kr-88 0 00E+00 i 3.14E-01 l 7.78E-01 ! 145E+00 1 58E+00, 1;69E+00 i 1.78E+00 { 1 85E+ 001 1.91 E+00 l 1 96:i+ 00 5 1 99E+ 00 ' 2.01 E+00 Xe-133 0.00E+00) 9 68E-01 2 55E+00 ; 5 04E+00 5 82E+00 6 61E+00} 7.39E+00 ; 817E+00 j 8 95E+00 ! 9.73E+00 5105E+01 ' 1.13E+01 ~ ~ /e-135 0 00E+00 I 1.24E-01 3 22E-01 6 25E-01 i 7.10E-Oi I7.95E-01 ! 8 69E-01
- 9 44E-01 ; 1.02E+00 i 109E+00 ' 1 15E+00 ' 121 '
Total Noble Gas 0 00E+00 ' 1.74E+00 : 4 45E+00 8.56E+00, 9 64E+00 [ 1.07E+01 ! 1.17E+01 ! 1.26E+01 1.35E+01 ! 1.44E+014 1.53E+ 01 .1 62E+01
.[ .t bl3I 000E+00 4 97E-02 .1.49501 ! 3 20E-01 } 3 94Eh01I4 67E-01 I 5.45E-01 16.22E-01 [ 7 01E-01, 7.81E-01 8 64E-01 9.50E-01 " I 0.00E+00I7.07E 02 1.97E-01 j 3.92E-01 ; 4 48E-01 4.93E-01 5 34E-01 } 5 66E-01 j 5 92E-01, 6.1?E 01 [ 6 29E-01 6 42E-01,;
I 0.00E+00 104 E-01 3 09E-01 : 6 58E-01j 8 04E:01 ,9 46E-01 { ,1.10E+00 j 1.24E+00 [ 139E+00 1.
,1 i 0 00E+00.5 1.07E-01 2 64E-01 { 4 65E-01 i 4 71E-01 i 4._58E-01 j 4.39E-01, 4.12E-01 ! 3 82E-01 ; 3 49E-01_ 317E-01 2 67E-01 O COE+00 ' 9 70E-02 2 84E-01 : 5.94E-01 l 7.12E-01 l
al Halogen 8 23E-01 19 37E-01 1.04E+001 1 15E+00 1.25E+00 : 1.34E+00 ' 144E+00 ! 0 00E+00 4 28E-01 1.20E+00 j 2.43E+00; 2.83E+00 i 3.19E+00 i 3.55E+00 3 89E+00 i 4.21E+00 ' 4 53E+00: 4.84E+00 516E+00 , Cs-134 0 00E+00 2 99E-02 8 97E-02j 1.92E-01 l 2.37E-O'1[ 2.81E-01 { 3.29E-01, 3.76E-01 ( 4.24E-01 ! 4.73E-01 5 23E-01 ' 5 75E-01 Cs-137 0.00E+00! 184E-02 5 54E-02 } 1.19E-01 j 1.46E-01 1.74E-01 : 2.03E-01 ; 2.32E-01 j 2 62E-01 2.92E-01 3 23E 01 3 55E-01 Cs-138 0 00E+00 I 2 43E-01, 5.30E-01 ; 8 23E-01 7.35E-01 ' 6 31E-01 I 5 34E-01 ; 4.42E-01 ' 3 61E 01 [ 2.92E-01 Te-132 0 00E+00 ! 4.20E-04 l 126E-03 ; 2.70E 3 31E-03 3.92E-03 l 4.57E-03 , 5.22E-03 2.34E-01 186E-01 5 87E-03 , 6.53E-03 ' 7.22E-03 7 92E-03 ' Sr-91 0 00E+00 ' 3 48E-06,103E-05 : 2.16E-05 2.62E-05 3.0fE-05 j 3.50E-05 3 93E-05 . Sr-92 0 00E+00 j 3 67E-06 l 103E-05 ; 2 08E-05 j 2 40E-05 2.68E-05 j 2.93E-05 [ 314E-05 { 34.35E-05 l 4.76E-05 ^ 5.18E-05 ' 5 59E-05 33E-05, 3.48E-05 L 3 62E-05 3 73E-05 > Ba-140 0.00E+00 < 5 27E-06 ; 1.58E-05 ! 3 39E-05 ! 4.18E-05 { 4 95E-05 j 5.7EE-05 ; 6.61E-05 l 7 45E-05, 8 30E-05 " 919E-05 1 01E-04 Mo-99 0 00E+00 } 0 00E+00 l 0 00E+00 } 0.00E+00 { 0.00E+00 0.00E+00! 0.00E+00 ; 0.00E+00 ! 0 00E+23 0.00E+00l 0 00E+00 ' O 00E+00 ' ' Ru-103 0 00E+00 ! 0 00E+00 ; 0.00E+00 i 0 00E+00 { 0.00E+00, 0.00E+00 l 0 00E+00] O 00E+00 l 0 00E+00,0 00E+00' 0 00E+00 ' O 00E+00 t i Y-92 0 00E+00; O 00E+00; O 00E+00 j 0 00E+00 i 0 00E+00 0 00E+00 : 0.00E+ 00 0 00E4 00l 0 00E+00 0 00E+00,0 00E+00 ' O 00E+00 s i u 140 0 00E+00 0 00E+00 ' 0 00E+00,0 00E+00 j 0 00E+0010.00E+00 0.00E+00 i 0 00E+00 [ 0 00E*00 j 0 00E+00 ! 0 00E+00 0 00E+00 ' O 00E+00 Ce-141 O.00E+00 i 0 00E+00 l 0 00E+00 { 0.00E+00 0 00E+00; O 00E+00 ; O 00E+00 ; O 00E+00 ' O 00E+00 0 00E+00. 0 00E+ 00 ' t Ce-144 0 06E+00 } 0 00E+00 } 0.00E+00 } O 00E+00 j 0.00E+00, 0.00E+00 j 0 00E+00 j 0 00E+00 : 0 00E+00 I O 00E+00I O COE+00 7 0 00E+00 i Zr-95 0 00E+00,0 00E+00 j 0 00E+00 ; O 00E+00! 0 00E+0010 00E+00 I
; O 00E+00 ; 0.00E+00 { 0 00E+00 ? O 00E+00 ; O 00E+00' O 00E !
Zr-97 0.00E+00 0 00E+00 ; O 00E+00 0 00E+0010.00E+00 } O 00E+00 O 00E+00 0 00E+0010 00E+00' 0 00E+00' i O 0 Total Particulate , 0 00E+00. 2.92E-01 6 76E-01 1.14E+00 i 1.12E+00 ! 1.09E+00 1 Git- +00.1.05E+00 105E+00 1.06E+001 1 ' I i ! 97-06 Page 1 of 3 Evaluated Exercise ;
h Torus Atm ere (pCi/cc) 03:30 G3:45 04:00 04-15 04:30 04:45 05:00 05:15 05:30 05:45 03:00 03:15 9 85E-01 101E+00 102E+00 ; 1.04E+00 105E+00 ; 106E+00 1.07E+00 ; 107E+00,108E+00 1 OBE+00 108E+00 4 85m 9 61E-01 ~ 7 10E-02 7 53E-02 ; 7.97E-02 j 8 40E-02 8 83E-02 l 9 27E-02 ; 9.70E-02 ; 101E-01 106E-01 1 10E-01 1 14E-01 l Kr-85 6 66E-02 311 E-01 , 2 83E-01 2 57E-01 2 33E-01 6 08E-01 5 65E-01, 5 23E-01, 4 83E-01 4 44E-01,i 4.08E-01 ; 3 73E-01, 3 41E-01 3 Kr-87 1.98E+00,196E+00 j 193E+00! 189E+00 ; 1.86tE4 00 182E+00 ' 178E+00 Kr-88 2 03E+00 I 2.03E+00 ' 2 03E+00 ! 2.02E+00! 2 00E+00
- 1. 20E + 01 ! 1 28E+ 01,1 36E+ 01 ! 1 43E+01 ! 1 51E+01,1 59E+ 01 ; 1.66E+01 i 1 74E+ 01 ; 1 81 E+01 ; 1.89E+01 1 96E+01 2 04E401 Xe-133 Xe-135 127E+00' 133E+00 139E+00 1.44E+00 t 149E+00 ! 1.54E+00 158E+00 162E+00 167E+00 : 170E+00' 174E+00 ' 1. 78E+00 170E+01 : 1.78E+01.186E+01.194E+01 : 2 02E+01 j 2.09E+01 ! 2.17E+01 2 24E+01 ' 2 32E+01. 2 39E+01 2 46E+01 2 54E+01 Total Noble Gas 1
1-131 104E+ 00 ' 1 12E+00 ; 122E+00 ; 131E+00 ; 139E+00] 1.49E+00 ; 1.52E+00 155E+00 1.57E+00 ' 159E+00 ,1 61 E+ 00 163E+ 00 6 52E-01 6 54E-01 6.58E-01, 6 56E-01 ; 6.50E-01 16.46E-01 i 6.11E-01 5.79E-01. 5 43E-01 511 E-01 4 81E-01 4 52E-01 i-132 ~ 2 00E+00' 215E+00 : 2 31E+00 ; 2 46E+00 2 60E+00I 2 77E+00,i2 80E+00 { 2 84E+00l 2 85E+00 [ 2 86E+00 ' 2 89E+00 2 89E+00 1-133 2 57E-01 2 29E-01 ' 2 03E-01 1.80E-01 i 1.57E-01 1.39E-01 I i 1.16E-01, 9.72E-02 ; 8 06E-02 l 6 72E-02 [ 5 60E-02 4 65E-02 1-134 153E+00 : 162E+00 171E+00 4 1.79E+00 ! 1.86E+00i 1.95E+00 i 193E+ 00 51.92E+00 I t89E+00 1,87E+00 1.85E+00 183E+00 1-135 Total Halogen 5 48E+00 : 5 77E+00 6 09E+00 6 40E+00 : 6 67E+00! 7.00E+00 ! 6 99E+00 6 99E+00 6 93E+00 i 6 91E+00 6 89E+00 6 85E+00 Cs-134 6 30E 01 6 82E-01, 7 39E-01 7 95E-01 ~ 8 49E-01 [ 9.10E-01 9 28E-01 9 48E-01, 9 58E-01, 9 73E-01 9 88E-01 100E+00 Cs 137 3 89E-01 4 21E-01 4 56E-01, 4 91E-01 5 24E-01, 5 62E-01, 5.73E-01 5 85E-01, 5.9?E-01 , 6 01E-01 ; 610E-01 617E-01 Cs 138 1 48E-01, 1.16E-01 9 09E-02, 7 09E-02 ; 5 48E-02 ; 4.26E-02 j 3.14E-02 ; 2 32E-02 ; 1.70E-02 ,1.2SE-02, 9 21E-03 6 74E-03 Te-132 8 65E-03 , 9.34E-03 101E-02 ; 108E-02 ; 1.16E-02 j 1.24E-02 l 126E-02 ; 1.28E-02 ; 129E-02 ; 131E-02,133E-02 1 34E-02 St-91 6 01E-05 , 6 39E-05 6 8PE-05 ; 7.19E-05 ; 7.53E-05 ; 7.93E-05 i 7.94E-05 7 97E-05 7.91E-05 , 7 88E-05 7 86E-05 7.81 E-05 s,-92 3 83E-05 3 89E-05 3 96E-05 3 99E-05 ! 4.00E-05 { 4 02E-05 ; 3.85E-05 3 69E-05 3 50E-05 : 3 33E-05 317E-05 3 01E-05 Ba-140 1 11 E-04 1 20E-04 1.30E-04 ,139E-04 ,1.49E-04 ; 1.59E-04 ; 1.62E-04 ,166E-04 ,167E-04 1.70E-04 , 1 72E-04 1 74E-04 Mo.99 0 00E+00,0 00E+00 ; O 00E+00 - 0 00E+00 l 0 00E+00 f 0 00E+00 j 0 00E+00 0 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00
~
Ru- 103 0 00E+00,0 00E+00 0 00E+00,0 00E+00 0 00E+00 ! 0 00E+00,0 00E+00,0 00E+00 ; O 00E+09,0 00E+00 0 00E+00 0 00E+00 y.92 0 00E+00,0 00E+00 0 00E+00; 0.00E+00; J 00E+00! 0 00E+00; O 00E+00; O 00E+00,0 00E+00 0 00E+00 0 00E+00 0 00E+00 u.140 0 00E+00 0 00E+00 0 00E+00; O 00E+00 ; O 00E+00 j 0.00E+00. 0 00E+00 ; O 00E+00 : 0 00E+00 ; O 00E+00 0 00E+00 0 00E+00 Ce-141 0 00E+00_0 00E+00 0 00E+00 ; O 00E+00 ; O 00E+00 ; 0.0CE4 00 ; O 00E+00 ; O 00E+00,0 00E+00 l 0 00E+00 ' O 00E+00 0 00E+00 C e- 144 0 00E+00 ; O 00E+00 ; O 00E+00 ; O 00E+00 0 00E+00 J 0 00E+00 j 0 00E+00,0.00E+00,0 00E+00 ; o 00E+00 ' 0 00E+00 ' O 00E+00 Zr-95 0 00E+00 0 00E+00 0 00E+00; O 00E+00! 0 00E+00l 0.00E+00l 0 00E+00 ; O 00E+00,0 00E+00,0 00E+00 ' O 00E+00 0 00E+03 z,.97 0 00E+00 0 00E+00 0 00E+00 ' O 00E+00 0 00E+00 i 0 00E+00. 0 00E+00 : 0 00E+00 0 00E+00 0 00E+00 ' 0 00E+00 ' O 00E+C0 T otal Particulate 1.18 E + 00 123E+00 1.30E+00 137E+00 144E+00 1.53E+00 ' tSSE+00 1.57E+00 158E+00 160E+00 1.62E+00 164E+00 Page 2 of 3 Evaluamd Exercise 97-06
-~
h Torus Atmkhere (uCi/cc) b v i 65:00 06:15 06:30 06:45 Kr-85m 108E+00 107E+00 107E+00 - 106E+00 : Kr-85 1.19E-01 ^ 1.23E-01 127E-01 ' 1.32E-01 i Kr-87 211 E-01 191E-01 172E-01 4 1.55E-01 i Kr-88 1.74E+00 ' 1.69E+00 I i 165E+00 l 1.61E+00 ! Xe-133 2.11 E+01 i 2.19E+01 2 26E+01 i 2.33E+G1 ! Xe-135 181E+00i 1.84E+ 00 I 1.87E+00 ' 1.90E+00 i Total Noble Gas 2 61E+0 t : 2.68E+01 + 2.75E+01. 2 82E*01 ; l-131 1.63E+00 i 162E+00 l 1.62E+00 i 163E+00 l l-132 419E-01 l 3 86E-01, 3.59E-01 { 3.34E-01 l 1-133 2.87E+00 j 2 83E+00,2 82E+00 ; 2 80E+00 ; l-134 - 3 82E-02 l 311E-02 l 2.56E-02 l 2.11E-02 l l-135 1.78E+00 ' 1.72E+00 ; 1.68E+00 ; 165E+00 ' Total Halogen 6 73E+00 ' 6 59E+00 : 6 51E+00 : 8 43E+00 Cs-134 9 99E-01 9.94E-01, 9 97E-01 1.00E+00 i Cs-137 617E-01 ' 614E-01 I 616E 01 i 6.18E-01 ' j Cs-138 4 88E-03 l 3 52E-03 [ 2.56E-03 l 1.86E-03 [ Te-132 1.34E-02 133E-02 ' 1.33E-02 133E-02 i St-91 7 66E-05 ' 7 48E-05 ' 7.37E-05 ' 7.26E-05 l Sr-92 2.82E-05 ~ 2 63E-05 ' 2.48E-05 ' 2.33E-05 ! Ba-140 1.74E-04 l 1.73E-04 174E-04 i 1.74E-04 I Mo-99 0.00E+00 ' O 00E+00 ] O 00E+00 { 0 00E+00 l Ru- 103 0 00E+00,0 00E+00 ; O 00E+00 ; O 00E+00 ' Y 92 0 00E+00 0 00E+00 0 00E+00 ~ 0 00E+00 ta-140 0 00E+00 0 00E+00 0 00E+00 ' O 00E+00i Ce-141 0 00E+00I 0.00E+00' 0 00E+00 ' O.00E+00 ! i Ce-144 J 00E+00 ' 0 00E+00 i 0 00E+00 ' 0 00E+00 Zr-95 0 00E+00 I, O 00E+00 l 0 00E+00[ 0.00E+00 ] Zr-97 0 00E+00 0 00E+00 0 00E+00. 0 00E+00 Total Particulate 164E+00
- 162E+00 = 163E+00 ' 163E+00 '
l 97-06 Page 3 of 3 Evaluated Exerose {
. J
i O orv-aii ^tAon=<o <uciicci O ] 1 00:00- 00:15 00:30 00:45 01:00 01:15 01:30 01:45 02:00 02:15 02:30 02:45 ' Ka-85m 0.00E+00 211E 04 ,1.41E-03 t 2 26E-0312.18E-03j 4.19E-03 ; 4.03E-03 3.88E-03 ! 5 59E-03 ; 5 38E-03 ; 5.18E-03 ; 6 64E-03 Kr 85 0.00E+00, 9 55E-06 ; 6 64E-05 { 1.11E-04j 1.11E ,04 ! 2.21E-04 ; 2.21E-04 ; 2.21E-04 { 3.32E-04 ; 3 32E-04 ; 3 432E-04 43E-04 : l Kr-87 0.00E+00l 3 91E-04 L 2 37E-03 ; 3 45E-03 j 3 01E-03 ; 5.25E-03 ! 4.58E-03 : 4.00E-03 ; 5 23E-03 ; 4 56E-03 ; 3.98E-03 { 4 63E-03 k Kr-88 0 00E+00 5 68E-04 3.72E-03 { 5 83E-03 j 5 49E-03 1.03E-02 9.71E-03 [ 9.14E-03,129E-02 ! 1.21E-02 e 1.14E-02 ^ 143E-02 '
~
Xe-133 0 00E+00 : 1.75E-03 ; 1.22E-02 j 2.03E-0212 02E-02 4 04E-02 { 4.04E-02 ! 4 03E-02 l 6 04E-02,6 02-02 ' 6 02E-02 ! 802E-0? i Xe-135 0 00E+0012 25E-04 1.54E-03 f 2.51E-03 I 2 47E-03 4.84E-0314 75E-03 I 4.66E-03 i S 85E-03 ' 6 /3E-03 ' 6 60E 8 63 . Total Noble Gas 0.00E+00) 316E-03 2.13E-02 , 3 44E-02 ! 3.35E-02 l 6 52E-02 ; 6.37E-02 : 6.22E-02 ; 913E-02 8 94E-C2 8.77E-02 1.15E-01 .; l-131 0 00E+00 3.72E-04,1.58E-03 { 3 96E-03 I 5 32E-0316 75E:03} 8 04E-03 l 9 35E-03 i 1ME-02 1 18E-02 : 1.30E-02 142E-02 1132' O 00E+0015 30E-04 l 2.09E-03 l 4 85E-03 j 6 05.E_-03_7.13E-03 j 7.88E-03 j 8.51E-03 ! 8.96E-03 I I 9.27E-03 ' 9 46E-03 9 62E-03 ' I-133 0.00E+00) 7.78E-04 ; 3 28E-03 ; 8155-03 ; 1.09E-02 _1:37E-02 ! 162E-02 ! 1.87E-02 l 2.10E-02 ! 2.33E-02 2.54E-02 ' 2 76E
+
I l-134 0.00E+00] 8.03E-04 2 80E-03 l 5 76E-03 ! 6 35E-03 I l-135 0 00E+00 7 27E-04 3.01E-03 7 35E-03 i 9 62E-03 6.62E-03 6 48E-03 i 6.20E-03 ! 5 77E 5 28E-03 I 4.77E-03 ' 4 3 i Tetal Halogen 1.19E-02 ! 1.38E-02 i 1.57E-02 i 173E-02 : 188E-02 ' 2 02E-02 216E-0 : 0 00E+00: 3 21E-03 1.28E-02 i 3 01E-02 ! 3 82E-0214 61E-02 5 24E-02 5 84E-02 : 6 37E-02 6,85E 7.28E-02 7 73E-02 Cs-134 I O 00E+00 2 24E-04, 9 51E-04, 2.38E-03 { 3.20E-03 j 4 07E-03 { 4 85E-03 [ 5.65E-03] 6 41E-03 7.tSE-O'3 ; 7 87E-0 Cs- 137 ! 0 00E+00 l 1.38E-04 5.87E-04 l 1.47E-03 j 1.98E-03 . 2.51E-03 Cs 138 IO00E+00 182E-03 I 5 62E-03 l 102E-02 j 9.92E-03_ , 9.13E-03 ; 2.99E-03 l 3 49E-03 { 3 96E-03 4 41E-03 4 86E-03 5 33E-03 7.88E-03, 6 65E-03 j 5 46E-03 , 4.41E-03 3 52E-03 2 79E-03 Te-132 3,,9 i 0 00E+00)
- 000E+00 315E-06 {l 2133E-05 I 2 61E-08,109E-07 68E-07 { 3 51E-07! 3.34E-05 : 4.48E-05 } 5 67E-05 l 6.75E-05 [ 7.84E-05 i 4.41E-07 ! 5.16E-07 ; 5 91E-07 l 6 58E-07 7 21E-07 7.79E-07 8 39E-07-'
8 88E-! Sr-92 I 0.00E+0012.75E-08 ; 1.10E-07 < 2.58E-07 i 3.25E-07 , 3 87E-07 i 4.33E-07 ; 4.73E-07 j 5 03E-07 , 5 27E-07 , 5 44E-07 5 59E-07 . Ba-140 0 00E+00[ 3 95E-08 ; 1.68E-07 { 4 20E-07 { 5 64E-07 [ 7.16E-07 { 8.53E-07 ; 9.94E-07 1.13E-06 ; 1.26E-06 [ 1.i m-gg ' O 00E+00 - 0 00E+00 j 0 00E+ 00 ; O 00E+00 ; 0.00E+00 0.00E+00 j 0 00E+00 ; 0.00E+00 { 0 0E+00 ; 0.00E+00; 0.00E+00 0 00E+00 Ru-103 i 0 00E+00i 0 00E+00 0 00E+00 0 00E+00 : 0 00E+00 0.00E+0010.00E+00; O 00E+00 { 0 00E+00 ; O 00E+00 0 00E+00 0 00E+00 ^ Y-92 i 0 00E+00 I O 00E+00 I 0.00E+00 } O 00E+00 } O 00E+00 0.00E+00 } O 00E+00 i 0 00E+00 ; O 00E+00 : 0 00E+00 ' O 00E+00 ' O 00E+0i La-140
' O.00E+00 ! 0 00E+00 0.00E+00 i 0 00E+00 l 0.00E+00 Ce-141 ! 0 00E+0010 00E+00 l 0 00E+00 ! 0 00E+00 ; 0.00E+00 0.00E+00 { 0 00E+00 { 0 00E+00 [ 0 00E+00 { 0.00E+00 ' O.0 0 00E+00 l 0 00E+00 ; 0.00E+00 { 0 00E+00 ; O 00E+00 } 0.00E+00 { 0 00E +
Ce-144 0 00E+00 0 00E+00 } 0 00E+00 I O 00E+00; 0.00E+00 } O 00E+00 j 0 00E+00 ; 0 00E+00 l 0 00E+00 ; O 00E+00' Zr-95 i 0 00E+00 l 0 00E+00 ) 0 00E+00 } 0.00E+00 ! 0 00E+00 0.00E 4 00 l 0 00E+00; 0.00E+00 ; O 00E+00 ! 0 00E+00 0.00E+00 " 0 00E+00 ' Zr-97 . 0 00E+00 0 00E+00 0 00E+00 : 0 00E+00 0.00E+00 Total Particulate 0 00E+00 : 0 00E+00 0.00E+00 : 0 00E+00 ' O 00E+00 ' 0 00E+00 0 0 4 0 00E+00 2.19E-03 . 717E-03 : 1.41E-02 : 1.51E-02 l 1.58E-02 ' 1.58E-02 1.59E-02 . 1 59E-02 1.61E 1.6 q l 4 97-06 Page 1 of 3 Evaluated Exercise i t i
g Drywnli At hara (pCi/cc) 03:15 03:30 03:45 04:00 G4:15 04:30 04:45 05:00 05:15 05:30 05:45 03:00 ; Kr-85m 6 39E-03 615503 7 39E-03 7.11E-03 , 6 84E-03 [6 58E-03 ;7 60E-03 ; 7 31E-03 7 03E-03, 6 77E-03 7 60E-03 7 31E-03 l Kr85 4 4?E-04 4 43E-04 , 5 54E-04 5 54E-04 : 5 54E-04 i 5 54E-04 ; 6 64E-04 , 6 64E-04 ; 6 64E-04 , 6 64E-04 , 7 75E-04 7 75E-04 Kr-87 4 04E-03 _ 3 53E-03 , 3 84E-03 3 35E-03 i 2 93E-03 l 2.55E-03 l 2 67E-03 ; 2.33E-03 , 2 04E-03 ; 1.78E-03 181E-03 ' 1 SSE-03 Kr-88 1 35E-02 , 1 27E-02 , 1 49E-02 140E-02 { 1.32E-02]1.24E-02 140E-02 l 132E-02 ~ 1 24E-02 1 17E-02 ' 128E-02 1 21 E-02 y e.133 8 01E-02 8 00E-02 , 9 98E-02 , 9 97E-02 ; 9; 95E-02 j 9.94E-02 l 1.19E-01,1.19E-01 1.19E-01 1.19E-01 1 38E-01 1 38E-01
~
Xe-135 8 47E-03 8 31E-03 102E-02 100E-02 ' 9 81E-0319 63E-03 ~ 1 13E-02 : 1.11E-02 ' 109E-02 ~ 107E-02 123E-02 120E-02 Total Noble Gas 1.13E-01 1 11 E-01 1 37E-01 135E-01 ' 133E-01 ' 1.31E-01 1.55E-01 1 54 E-01 1 52E-01 1 50E-01 173E-01 1 72E-01 l-131 1 53E-02 164 E-02 1 74E-02 185E-02 ~ 193E-02 T 2 24E-02 2 30E-02 2 34E-02 9 27E-03 [ 9 OiE 03 [}2 02E-02 [2.09E-02
; 7.59E-03 ;7 2.15E-02, 219E-02 1
l l-132 9 61E-03 ~ 9 54E-03 9 41E-03 8 74E-03 ; 8 39E-03 ; 8 00E-03 20E-03 [ 6 85E-03 ' 6 47E-03 1-133 2.95E-02 ' 313E-02 } 3 30E-Oi , 3 48E-02 , 3 61E-02 g 75E-02 l 3 85E-02 ; 3 92E-02, 3 98E-02, 4 04E-02 4 11 E-02 415E-02 i-134 3 80E-03 3.34E-03 . 2 91E-03 2 54E-03 j 2.18E-03 j 1.87E-031 159E-03 1 34 E-03 1.13E-03 9 47E-04 7 98E-04 6 67E-04 1135 2.26E-02 2 36E-02 2 45E-02 2 53E-02 2.58E-02 i 2 63E-02 2 65E-02 ' 2 66E-02 2 65E-02 2 64E-02 2 64E-02 2 62E-02 Total Halogen 8 08E-02 8 42E-02 8 72E-02 9 04E-02 , 9 25E-02 9 46E-02 i 9 59E-02 ' 9 67E-02 9 69E-02 9 73E-02 9 81E-02 9 82E-02 Cs-134 9 29E-03 9 95E-03 ,106E-02 1 12E-02 { 1 18E-02 } 123E-Om , 127E-02 131E-02 ,134E-02 ! 1.37E-02 141E-02 Cs- 137 5 73E-03 614E-03 6 53E-03, 6 94E-03 ; 7.27E-03 l 7 60E-03, / 87E-03 8 09E-03 8 2SE-03 8 47E-03 8' 85E-03 8 69E-03 ~ 143E-02 Cs- 138 218E-03 169E-03 130E-03 ; 1.00E-03 ; 7 60E-04 j 5.75E-04 ; 4 31E-04 3 21E-04 2 3SE-04 176E-04 ' 131E-04 9 67E-05 Te-132 1.28E-04 136E-04 145E-04 ,1.53E-04 ,1 60E-04 1.67E-04 l 1.73E-04 , 1.77E-04 , 1.81 E-04 ; 185E-04 ' 189E-04 ' 192E-04 Sr-91 8 87E-07 9 32E-07 , 9 ~74E-07 102E-06 ; 104E-06 1.07E-06 ; 1.09E-06 l 1.10E-06 l 1.11E-06 ; 1.11E-06 ' 1 12E-06 ' 1 12E-06 Sr-92 5 65E-07 5 68E-07 5 66E-07 5 64E-07 5.54E-07 5 44E-07 ! 5 28E-07 ; 510E-07 , 4 89E-07 , 4 69E-07 ' 4 52E-07 ' 4 32E-07 Ba-140 163E-06 1.74E-06 ; 185E-06 ; 197E-06 [ 2.06E-06 { 2.15E-06 i 2 23E-06 ; 2 29E-G6 ; 2 34E-06 ; 2 39E-06 I 2 46E-06 2 50E-06 Mo-99 I O 00E+00 0 00E+00 : 0 00E+00 ; 0.00E+00 ; O 00E+00] 0.00E+00 ; 0.00E+00 0 00E+00 ; O 00E+00,0 00E+00 ' 0 00E+00 0 00E+00 Ru-103 ' O 00E+00 0 00E+00 0 00E+00,0 00E+00 ! 0 00E+00[0 00E+00; O 00E+00 l 0 00E+00 0 00E+00 0 00E+00 I O 00E+00 ' O 00E+00 y.92 0 00E+00,0 00E+00 ; O 00E+00,0 00E+00 0 00E+00 t 0 00E+00 : 0.00E+00 0 00E+00 : 0 00E+00,0 00E+00 0 00E+00 0 00E+00 La-140 0 00E+00 0 00E+00 0 00E+00 l 0 00E+00 [ 0.00E+00 0i 00E+00 f 0.00E+00,0 00E+00 ; O 00E+00 t 0 00E+00 ' O 00E+00 0 00E+00 Ce- 141 : 0 00E+00_0 00E+00 0 00E+00 l 0 00E+00; O 00E+00 { 0 00E+00 l 0 00E+00,0 00E+00 0 00E+00 [ 0 00E+00 ' 0 00E+00 0 00E+00 C e- 14 4 0 00E+00 0 00E+00 0 00E+00 ! 0 00E+00; O 00E+00! 0 00E+00 ; O 00E+00 0 00E+00 ; O 00E+00,0 00E+00 ' 0 00E+00 ' 0 00E+00 l Zr-95 I O 00E+00 0 00E+00 0 00E+00 : 0 00E+00 0 00E+0010.00E+00 ' O 00E+00 ' O.00E+00 0 00E+00 0 00E+00 ; O 00E+00 ' O 00E+00 l Zr-97 0 00E+00 0 00E+00 0 00E+00 0 00E+00 0 00E+00 ! 0 00E+00 ; O 00E+00 ~ 0 00E+00 ' O 00E+00 0 00E+00 0 00E+00 0 00E+00 Total Particulate 173E-02 179E-02 186E-02 193E-02 . 2.00E-02 j 2 07E-02 ! 212E-02 2.17E-02 . 2 21E-02 2 25E-02 2 31E-02 2 35E-02 97-06 Page 2 of 3 Evaluated Exercise
h Drywell Atdhere fuCi/cc) O i 06:00 06:15 06:30 06:45 Kr05m 7 03E-03 : 6.76E-03 ' 6 51E-03 e 6 26E-03 : Kr-85 7.75E-04 ! 7.75E-04 i 7.75E-04 i 7.75E-04 j Kr-87 138E-03 I 120E-03 1.05E-03 ! 9.14E-04 i Kr-88 1.13E-02 I 1.07E-02 ' 1.00E-02 ! 9 44E-03 i Xe-133 1.38E-01,I 138E-01,137E-01 { 1.37E-01 j ( Xe-135 1.18E-02 i 1 16E-02 : 1.14E-02 ' 1.11E-02 i Total Noble Gas 170E-01 169E-01 1.67E-01 : 1.66E-01 1-131 2.34E-02 2.33E-02 I 2.33E-02 ! 2.34E-02 i 1-132 6 02E-03,I 5 55E-03 [ 516E-03 [ 4 80E-03 l l-133 4.13E-02 ' 4 06E-02 : 4 04E-02 i 4.02E-02 : 1134 5 49E-04 ' 4 47E-04 ' 3.68E-04 I 3.03E-04 l-135 2.56E-02 2.47E-02 2.42E-02 i 2.36E-02 i l Total Halogen 9 68E-02 9 46E-02 ' 9.34E-02 : 9.24E-02 i Cs-134 144E-02,143E-02,143E-02 j 1.44E-02 ; ; l Cs-137 8 87E-03 l 8 81E-03 l 8 83E-03 i 8.87E-03 ; Cs-138 7.02E-05 , 5 05E-05 , 3 67E-05 l 2.67E-05 l Te-132 1.92E-04 ,1.90E-04 ,1.91E-04 ! 1.91E-04 ; Sr.91 1 10E-06 ,107E-06 ,1.06E-06 ! 1.04E-06 ; Sr-92 4 06E-07 3.78E-07 3 56E-07 j 3.35E-07 l Ba-140 2.50E-06 2.49E-06 2 I 49E-06 ' 2.50E-06 ! Mo.99 ' O 00E+00 0 00E+00 0.00E+00 ' O.00E+00 i I Ru-103 0 00E+00 0 00F+00 ' O 00E+0C O 00E+00 ' Y-92 ' O 00E+00 0 00E 00' O.00E+00 0 00E+00 I La-140 0 00E+00 ' O 00E+00 ' O 00E+00 ' 0 00E+00 ! i Ce-141 ' O 00E+00 [ 0 00E+00 ' O 00E+00 0.00E+00 i Ce 144 ' O 00E+00 I O 00E+00 ' 0 00E+00 I I 0.00E+00 ' Zr-95 I 0.00E+00 ' 0 00E+ 00 l 0.00E+00 O 00E+00 2
' Zr-97 : 0 00E+00 ' O 00E+00 0.00E+00 i 0.00E+00 Total Particulate 2.35E-02 2 33E-02 2.34E-02 : 2.35E-02 ,
97-06 Page 3 of 3 Evaluated Exercise
$ o _0 0 7i e , PASS Radiati eadings (mR/hr)
E E E El$
$pEUUE y _o s n. 00:00 00:15 00:30 00:45 01:00 01:15 01:30 01:45 02:00 02:15 Reactor Cociant 10 0 1 0 2 75E+03 182E+04; 3.38E+04: 4 97E+04i 4 46E+04 4 06E+04: 3 74E+04, 3 49E+04; 3.29E+04, 312E+ 04 12 0 191E+01' 126E+02; 2.35E+02; 3 45E+02j 3 09E+02; 2.82E+02l 2 60E+02; 2.42E+02 2 2SE+02 217E+02 1' 2 2 75E+02' 182E+03 3 38E+03; 4 97E+03j 4.46E+03! 4 06E+03j 3.74E+03 3 49E+03 3 29E+03 312E+03 2 191E+00,1.26E+01[ 2 35E+01[ 3 45E+01l 3 09E+01; 2 82E+01l 2 60E+01,2.42E+01l 2 28E+01 217E+ 01 12:*
1 4 2.75E+01.1.82E+02 3 38E+02; 4.97E+02; 4 46E+02; 4 06E+02; 3.74E+02, 3 49E+02, 3 29E+02 312E+02 12' 4 1 91 E-01 1.26E+00 2 35E+00: 3 45E+00 3 09E+00' 2 82E+00 2 60E+00 2 42E+00 2 28E+00 217E+00 1 Gas From Rx Coolant l 14 0 1 0 2 39E+03 1.63E+04; 3 38E+04! 5 44E+04' 5 28E+04! 5.12E+04; 4 98E+04, 4 85E+04, 4 73E+04 4 62E+04 166E+01! 113E+02; 2.34E+02; 3.78E+02; 3 66E+02;3 56E+02. 3 46E+02; 3 37E402 3 28E+02 3 21E+02 12' O II 2 2 39E+02 163E+03; 3 38E+03j 5 44Ef 03, 5 28E+03; 512E+03, 4 98E+03,4 85E+03' 4 73E+03' 4 62E+03 12' 2 166E+00' 1.13E+01 2 34E+01' 3 78E4 01; 3 66E+01 3 56E+014 3 46E+01' 3 37E+01; 3 28E+01 3 21E+01 1' 4 2 39E+01 1.63E+02[ 3 38E+02} ST44Ei02{ 5 28E+02[ 5.12E+02[ 4 98E+02' 4 85E+02 4 73E+02 4 62E+02
~
12' 4 166E-01.1 13E+00 2.34E +00 3.78E+00 3 66E+00' 3 56E+00 3 46E+00 3 37E+00 3 28E+00' 3 21E+00 0 1 0 0 00E+00, 5.24E+00,136E+01! 2.58E+01, 2 85E+01; 310E+01! 3 35E+01, 3 57E+01; 3 82E+01 4 05E+01 12 0 0 00E+00 3 64E-02; 9 42E-02,1.79E-01; 1.98E-01l 215E-01 j 2.32E-01 2 48E-01; 2 65E-01 2 81E-01 1' 2 0 00E+00 5 24E-01; 1.?9.+00; 2 58E+00, 2.85E+00j 3.10E+00, 3 35E+00 3 57E+00 3.82E+00 4 05E+00 12' 2 0 00E+00 3 64E-03 9 42E-03l IL79E 02, t 98E-02; 215E-02i 2 32E-02 2 48E-02^ 2 65E-02' 2 81E-02 1' 4 0 00E+00' 5 24E-02 1.36E-01, 2.58E-01; 2 85E-01; 310E-01; 3 35E-01, 3 57E-01 3 82E-01 4 05E-01 12 4 0 00E+00~ 3 64E-04 9 42E 1.79E-03 : 198E-03 2.15E-03. 2.32E-03 2 48E-03' 2 65E-03 2 81E-03 4o 1 0 0 00E+00 139E+01, 3 55E+01; 6 81E+01, 7 67E+01; 8 49E+01l 9 28E+01,100E+02,108E+02 1 15E+02 12 0 0 00E+00[ 9 63E-02, 2.46E-01; 4.73E-01] 5 33E-01; 5 90E-01! 6 44E-01 6 97E-01 7.48 E-01 ' 7 98E-01 1' 2 0 Or2+00,139E+00, 3 55E+00 6; 81E+00j 7.67E+00; 8 49E+00; 9.28E+00 1.00E + 01 108E+01 1 15E + 01 12' 2 0 00E+00, 9 63E-03 2.46E-02; 4.73E-02; 5 33E-02l 5 90E-02; 6 44E-02' 6.97E-02 7.48E-02' 7 98E-02 1 4 0 00E+00 139E-01, 3 55E-01. 6 81E-01! 7.67E-01j 8 49E-01, 9 28E-01 1.00E+00' 108E+00 1.15E+00 12' 4 0 00E+00 9 63E-04 2.46E-03 4.73E-03: 5 33E-03 5 90E-03' 6 44E-03 6 97E-03~ 7.48E-03' 7.98E-03 i Containment Atmosphere 14 0 1 0 0 00E+00; 2 51E-02 169E-01, 2 74E-01, 2 67E-01; 519E-01; 5 07E-01, 4.95E-01 7 27E-01 712E-01 12' 0 0 00E+00 175E-04 1 18E-03j 190E-03; 1.85E-03, 3 61E-03; 3 52E-03, 3 44E-03 5 05E-03 4 94E-03 1' 2 0 00E+00' 2.51E-03 169E-02; 2.74E-02; 2 67E-02; 519E-02; 5 07E-02, 4 95E-02 7 27E-02' 7.12E-02 12' 2 0 00E+00' 1. 75E-05, 1.18E-04, 1.90E-04, 1.85E-04, 3 61 E-04, 3 52E-04 3 44E-04l 5 05E-04' 4 94E-04 1' 4 0 00E+00 2 51E-04. 1.69E-03, 2.74E-03; 2 67E-03 519E-03 5 07E-03 4 95E-03 7.27E-03' 712E-03 12' 4 0 00E+00' 1 75E-06 1.18E-05 1.90E-05 185E-05. 3 61E-05 3 52E-05 3 44E-05 5 05E-05' 4 94E-05 97-06 Page 1 of 3 Evaluated Exuase \
l l
$ ._3 8 m ,,, , PASS Radiati adinas (mR/hr)
Es lEI!I$7$[ E 02:30 02:45 03:00 03:15 03:30 03:45 04:00 04:15 04:30 04:45 l Reactor Coolant 10 0 1 0 2 9BE+04. 2.86E+04 2.76E704j 2.6BE+04; 2 60E+04[ 2.53E+04! 2 47E+04, 2 38E+04, 2 31E+04, 2 25E+04 12' O 2 07E+02I 199E+02 192E+02; t 86E+02] 180E+02j 176E+02l 1.71E+02,166E+02: 1.61 E + 02. 1 56E+ 02 l 1 2 2.98E+03; 2 56E+03[ 2.76E+03} 2 68E+03j 2 60E+03l 2 53E+03; 2 47E+03; 2.38E+03[ 2 31E+03' 2 25E+03 I 12' ~ 2 2 07E+01,199E+01; 192E+01j 1.86E+01[ 180E+01l 1.76E+01l 1.71E+01: 166E+ 01 161E+01 156E+01 1 4 2 98E+02, 2 86E+02, 2.76E+02; 2 68E +02; 2 60E+02; 2 53E+02, 2 47E+02; 2.38E+02l 2.31E+02' 2 25E+02 i 12 4 2 07E+00 199E+00 1.92E+00' 186E+00' 1.80E+00! 176E+00 171E+00 166E+00 161E+00' 156E+00 Gas From Rx Coolant . 14 0 1- 0 4 51E+04. 4 42E+04, 4 33E+04; 4 24E+04j 4.16E+04; 4 09E+04; A.14E+04 3 91E+04: 3 80E+04, 3 70E+04 0 313E+02l 3 07E+02, 3 00E+02! 2.94E+02 i 2 89E+02: 2.84E+02: 2 88E+02, 2.71E+02, 2.64E+02 2.57E+02 12' 1' 2 4 51E+03 4 42E+03 4 33E+03! 4 24E+03} 416E+03{ 4.09E+03] 4.14E+03, 3 91E+03; 3 80E+03_ 3 70E+03 I 12' 2 313E+ 01 3 07E+01 3 00E+01I 2.94E+01j 2.89E+01l 2 84E+01; 2.88E+01; 2.71E+01; 2 64E+01 2. 57E + 01 , 1 4 4 51E+02 4 42E+02; 4 33E+02[ 4 2_4E+02j 4.16E+02; 4 09E+02l 414E+02, 3 91E+02, 3 80E+02 3 70E+02 h 12 4 313E+00' 3 07E+00 3 00E+00' 2.94E+00' 2.89E+00 2 84E+00' 2 88E+00' 2 71E+00 2 64E+00' 2 57E+00 0 1 0 4 29E+01 , 4 56E+01; 4 82E+01! 5.08E+01; 5 36E+01, 5 62E+01 5 89E+01; 6.18E + 01 020E+01 6 20E+01 12' 0 2 93E-01 3.17E-01, 3 34E-01 j 3.53E-011 3 72E-01; 3 90E-01{ 4 09E-01 4 29E 4 30E-01 4 30E-01 1l 2 4 29E+00 4 56E+00; 4 82E+00! 5 08E+00I 5 36E+00; 5 62E+00; 5 89E+00,618E+00 6 20E+00 6 20E+00 12 2 2 98E-02 317E-02; 3 34E-02'; 3 53E-02[ 3 72E-02j 3 90E-02, 4 09E-02; 4 29E-02, 4 30E-02l 4 30E-02 1' 4 4 29E-01l 4.56E-01, 4 82E-01, 5.08E-01j 5 36E-01i 5 62E-01; 5 89E-01; 618E-01. 6 20E-01 6 20E-01 12' 4 2 98E-03 317E-03 3 34E-03 3.53E-03: 3 72E-03: 3 90E-03' 4 09E-03 4 29E-03' 4 30E-03' 4 30E-03 Torus Atmosphere 14 0 1 0 122E+02 129E+02,135E+02; 1.42E+02l 1.48E+02j 1.54E+02; 1.60E+02 167E+02 1.73E+02 1.79E*02 . 12' 0 8 46E-01; 8 93E 01 9 39E-01l 9.84E-01l 103E+00; 1.07E+00 1.11 E + 00, 1.16E + 00 1 20E + 00 1.24 E + 00 1 2 122E + 01 129E+01,135E+01! 1.42E+01! 1.48E+01; 1.54E+01' 160E+01 167E+01 1 73E+ 01 1 79E+ 01 12 2 8 46E-02' 8 936-02 9 39E-02{ 9.84E-02] 103E-01 107E-01; 1.11 E-01, 1 16E-01 1.20E-01 ' 1 24E-01 1 4 1 22 E + 00, 1.29E+ 00, 1 35E + 00 ; 1.42E+ 00; 1.48E + 00, 1 54 E + 00. 1 60E+ 00 167E+00 1.73E+ 00 179E+00 12' 4 8 46E-03 8 93E-03: 9 39E-03' 9 84E-03: 103E-02 1 07E-02, 1.11 E-02 1.16E-02 1.20E-02' 124E-02 Containment Atmosphere , 14 0 1 0 6 98E-01, 914E-01; 8 98E-01, 8 84E-01j 1.09E+041.07E+00,106E+00,104E+00 124E+00 122E+00 12 0 4 85E-03 6 35E-03 1' 2 6 98E-02' 914E-02; 6 24E-03; 8 98E-02; 8 84E614E-03! 02; 109E-01, 7.56E-03' 1 07E-01! l45E-03, 1.06E-017.34E-03 104E-01 1 7.25E-03, 8 59E-03' 8 49E-03 24E-01 122E-01 12' 2 4 85E-04l 6 35E-04, 6 24E-04; 6.14E-04; 7. 56E-04 7 45E-04, 7 34E-04 7.2SE-04 8 59E-04' 8 49E-04 1 4 6 98E-03l 9.14E-03; 8 98E-03,= 8 84E-03; 109E-02, 1.07E-02, 106E-02 104E-02' 124E-02' 122E-02 12 4 4 85E-05' 6 35E-05' 6 24E-05 614E-05 7 56E-05 7 45E-05' 7.34E-05. 7 25E 05 8 59E-05' 8 49E-05 97-06 Page 2 of 3 Evaluated Exerc se
O" . PASS R-di~ti 7dinna (mR/hr) V t%
. _3 a m, E
jsSalaj E L if Os 00 0s:1s Os:30 ' Os:4s Os:00- Os:is 'Os:30 - Os:4s Reactor Coolant 10.0 1. 0 2.18E+04; 2.12E+04 2.07Et04 2.01E+04{ 1.99E+04! 1.%E+04j 1.93E+04; 191E+04 : 12i 0 1.52E+02! 1.47E+02 1.4dE+02, 1.40E+031.38E+02} 1.36E+02l 1.34E+02l 1.33E+02 1l 2 218E+03j 2.12E+03 2.07E+03 2 01E+03! 1.99E+03j 196E+03 1.93E+03,1.91E+03 12I 2 1.52E+01{ 147E+01} 144E+011.40E+01! 1.38E+011.36E+01; 1.34E+ 01[1.33E+01 ti 4 2,18E+02i 2.12E+02 I2.07Et02, 2.01E+ 02[ ,199E+0_2 1,96E+02[ 193E+02; 1.91E+02 12! 4 1.52E+00 1.47E+0C .1.44E+00! 1.40E+005 1.38E+00,1.36E+00 t 1.34E+00.1.33E+00 Gas From Rx Coolant . 14.0 .1! t O 3 61E+04; 3.51E+04j 3.42E+04j 3.34E 04} 3 29E+04} 3 25E+04! 3.21E+G4: 3.17E+04 12! 0 2.50E+02; 2.44E+02j 2.3SE+02! 2.32E+02! 2.29E+d2 li 2 3 61E+03; 3.51E+038 3.42E+03' 3.34E+03l 3.29E+03;l 3 25E+03j 3.21E+03! 2.26E+02I 2.23E+02{ 2 20E+ 3.17E+03 - 12 I 2 2.50E+01'l 2.44E+012.3'8E+01[ i32$T6112.29E+01[ 2.26E+01! 2 23E+01l 2 20E+01 1! 4 3.61E+02; 3 51E+02l 3 42Et02, 3.34E+02[ 3.29E+02{ 3.25E402' 3 21E+02; 3.17E+02 12' 4 2.50E+00 2 44E+0012.38E+00: 2.32E+00! 2.29E+00! 2.26E+00. 2 23E+00: 2.20E+00 Torus Liquid 10 0 1 0 618E+01; 6.17E+01' 6.17E+01' 6.14E+01 6 07E+01j 5.96E+01] 5.89E+01; 5 85E+01 12i 0 4 29E-01; 4 28E-01 4.28E-01 4.26E-01 4 21E-01l 4.14E-01 ! 4 09E-01; 4 06E-01 1! 2 6.18E+00; 6.17E+00j 6.17E+00 6.14E+00{ 6:07E+00j 5 96E+00l 5.89E+00! 5.85E+00 I 12 2 4.29E-02 4.28E-02; 4.28E-02 4.26E-0_2} 4.21E-02i 4.14E-02{ 4.09E-02; 4 06E-02 i t 4 6.18E-01; 6.17E-01; 6.17E-01; 6.14E-01{ 6.07E-01] 5.96E-01! 5 89E-01, 5.85E-01 12' 4 4 29E-03' 4.28E 4 28E-03! 4.26E-03! 4 21E-03i 414E-031 4 09E-03 4 06E-03 Torus Atmosphere 14 0 1; O 184E+02; 1.90E+02l 1.96E+02j 2.02E+02j 2.08E+02l 2.13E+02l 2.19E+02 2.24E+02 12 0 128E+00 1.32E+0061.36E+00! 1.40E+00j 1.44E+00I 1.48E+00i 1.52E+00' 156E+00 ! 1 1 2 184E+01' 1.90E401I 1.96E+01 2.02E+01! 2 08E+01l 2.13E+01I 2.19E+01 I 2.24E+01 12! 2 1.28E-01] 1.32E-01} 1.36E-01,1.40E-Oij 1.44E-01{ 1,48E-01! 152E-01[ 1.56E-01 1' 4 1.84E+00.1.90E+00 1.96E+00: 2.02E+00, 2.08E+00 2.13E+00 2.19E+00 2 24E+00 121 4 1.28E-02' 1.32E-021 1.36E-02I 140E-02i 1.44E-02$ 1.48E-021 1.52E-027 1.56E-02 Containment Atmosphere 14 0 1 0 121E+00,1.20E+00! 138E+00) 1.37E+00' 1.35E+00j 134E+00; 1.33E+00,1.32E+00 12' 0 8.39E-03l 8.30E-03; 9.59E-03! 9.49E-03, 9 40E-03! 9.32E-03; 9 24E-03, 9.16E-03 II 2 121E-01; 1.20E-01! 1.38E-01; 1.37E-01 1.35E-01 i 1.34 E-01 l 1.33E-01 1.32E-01 12' 2 8 39E-04} 8.30E-04 9.59E-04! 9.49E-04; 9.40E-04[ 9.32E-04) 9.24E-04' 9.16E-04 1 4 , 1.21E-02' 1.20E-02 1.38E-02.! 1.37E-02l 1.35E-02: 1.34E-02 133E-02 1.32E-02 12: 4 8 39E-05' 8 30E-05" 9 59E-05' 9.49E-05I 9,40E-05I 9.32E-05' 9 24E-05' 916E-05 97-06 Page 3 of 3
-Evaluated Exercise
Reactor Building Air Activity (pCi/cc) [] I Scenario Time isotope ) Elevation 00:00 .17' 04:30 05:00 05:30 1 6:00 6:30
'Kr 85ti L 3.30E 12 4.77E-04 5.4 8 E-N 5.14E-04 4.33E@ 3.50E-G4 Kr 85m 4 4.60E-12 1.28E-03 1.55E-03 1.54E-03 1.37E 03 1.16E-03 Kr 85 1.10E-12 4.86E 04 6.14E-04 6.32E 04 5.85E@ 5.16E-G4 Kr 87 4.68E-12 4.00E44 4.41 E-04 3.97E-04 3.19E44 2.47E.04 Kr 88 9.89E 12 2.10E-03 2.50,E;03 2.42E-03 2.09E-03 1.75E-03 Xe 131m 7.08E 13 3.10E-N 3.92E-04,, g ,;,03E 4 44 3.73E-04 3.29E-04 Xe 133m 2.32E 12 9.85E@ 1.24E-03 1.27E-03,, _ 1.17E 03 1.03E-03 Xe 133 2.19E 10 9.5 t E 02 1.20E 01 1.23E-01 1.14 E-01 1.01E-01 Xe 135m 8.40E 12 1.07E-06 6.83E-07 3.55E-07 1.67E 07 7.49E-08 Xed35 1.99E 10 6.99E-02 8.67E-02 8.74E 02 7.94 E-02 6.89E-02 Xe 138 2.06E-10 1.32E-05 7.98E-06 3.92E-06 2.74E-06 7.38E-07 TOTAL ,
6.59E 10 1.71E-01 2.14E 01 2.18E-01 2.00E-01 1.75E-01 1-131 1.06E 12 1.58E-03 1.95E-03 1.95E 03 1.75E-03 1.50E-03 1132 4.02E-14 1.49E44 1.98E44 2.13E-04 2.06E-04 1.91 E-04 I 133 6.42E 13 1.05E 03 1.31E 03 1.31E-03 1.19E-03 1.03E-03 1134 6.98E-15 1.l lE44 1.67E-04 2.04E& 2.23E44 2.33E-04 1135 2.56E 13 5.18E-04 6.59E-04 6.74 E-04 6.18F-G4 5.46E 04
'lOTAL 2.01 E-12 3.41E-03 4.28E-03 4.33E-03 3.99E 03 3.50S-03 O Elevation 23'
() Isotope 00:00 04:30 05:00 05:30 6:00 6:30 Kr-83m 3.30E-12 5.41E44 6.33E45 5.93E-04 5.18E-G4 4.19E-04 Kr 85m 4.60E 12 1.45E-03 1.79E-03 1.78E-03 1.64 E-03 1.39E-03 Kr 85 1.10E-12 5.51 E 4 4 7.09E44 7.29E-04 7.00E44 6.18E44 Kr 87 4.68E-12 4.54 E-04 5.09E-04 4.58E-04 3.82E44 2.%E44 Kr 88 9.89E 12 2.38E 03 2.89E-03 2.79E-03 2.50E-03 2.10E-03 Xe-131m 7.08E-13 3.52E44 4.52E@ 4.65E-04 4.46E 04 3.94E-04 Xe 133m i 2.32E 12 1.12E-03 1.43E-03 1.47E-03 1.40E-03 1.23E 03 Xe-133 2.19E 10 1.08E-01 1.39E-01 1.42E-01 1.36E-01 1.21E-01 Xe 135m 8.40E-12 1.21E-06 7.88E 07 4.10E-07 2.00E 07 8.97E-08 Xe135 1.99E-10 7.93E-02 1.00E-01 1.01 E-01 9.50E-02 8.25E 02 Xe-138 2.06E-10 1.50E-05 9.21E 06 4.52E-06 2.08E-06 8.84 E-07 TOTAL l 6.59E 10 1,,.94E.01 2.47E-01 2.51 E-01 2.39E-01 2.10E-01 1 131 1.06E 12 1.80E.03 2.24 E-03 2.25E-03 2.10E-03 1.80E-03 1132 4.01 E-14 1.70E44 2.28E44 2.46E44 2.47E-04 2.29E-04 1133 6.40E 13 1.20E-03 1.51E-03 1.51E-03 1.43E-03 1.24E-03 1134 6.96E 15 1.27E 04 1.92E-04 2.35E45 2.67E44 2.80E44 1135 2.55E 13 5.91E45 7.58E-N 7.78E44 7.41 E 4 4 6.55E45 TOTAL l 2.00E-12 3.89E-03 4.93E-03 5.02E-03 4.78E-03 4.20E-03 O. (O
I n U ._ Reactor Building Air Activity (pCi/cc) Elevation $1' Scenario Time isotope 00:00 00:05 01:00 01:30 l 02:30 i 03:30 Kr 83m 3.30E 12 1.36E-05 7.69E 06 2.27E-06 1.40E 07 8.63E-09 Kr85m 4.60E 12 2.ll E-05 1.33E-05 4.39E-06 3.97E-07 3.59E-08 Kr-85 1.10E 12 5.45E 06 3.72E-06 1.32E-06 1.57E-07 1.87E-08 Kr-87 4.68E 12 1.77E-05 9.16E 06 2.48E-06 1.13E-07 5.15E-09 Kr 88 9.89E 12 4.34E-05 2.62E 05 8.25E-06 6.41 E-07 4.98E-08 Xe-131 m 7.08E-13 3.50E 06 2.40E 06 8.50E-07 1.00E-07 1.18E-08
.Xe-133m 2.32E 12 1.14E 05 7.76E-06 2.74E 06 3.18E 07 3.69E-08 Xe 133 2.19E.10 1.08E 03 7.36E 04 2.61 E-04 3.07E-05 3.61 E-06 Xe-135m 8.40E 12 1.07E-05 1.88E-06 1.72E-07 1.75E 10 1.78E-13 Xe 135 1.99E 10 9.50E-04 6.25E44 2.14 E-04 2.22E-05 2.30E-06 Xe 138 2.06E 10 2=23E-04 3.66E 05 2.99E-06 2.04E 09 1.39E 12 TOTAL I 6.59E.10 2.38E-03 1.47E-03 5.00E44 5.48E-05 6.08E 06 1 131 1.06E 12 2.50E-05 ~1.50E 05 5.00E-06 5.02E-07 5.04E 08 1132 4.01 E-14 1.llE-06 7.73E 07 2.998-07 5.08E-08 8.63 E-09 l 133 6.40E 13 1.54 E-05 9.38E-06 3.18E-06 3.36E-07 3.55E-08 il134 6.96E 15 2.45E-07 2.18E-07 1.08E 07 4.30E-08 1.71 E-08 1135 2.55E 13 6.36F-06 4.03E-06 1.41E46 1.69E 07 2.03E-08 TOTAL i 2.00E.12 4.81E 05 2.94 E-05 1.00E-05 1.10E-06 1.32E-07 /~T
(_,,) Elevation 51' Scenario Time hotope 00:00 04:30 05:00 05:30 6:00 6:30 Kr-83m 3.30E-12 4.91E& 5.69E41 5.36E 04 4.42 E-04 3.49E& Kr 85m 4.60E 12 1.32E-03 1.61 E-03 1.61 E-03 1.40E-03 1.16E-03 Kr-85 1.10E 12 5.00E41 6.37E-OL 6.59Eol 5.97 E-04 5.15E44 Kr 87 4.68E 12 4.12E 04 4.57E41 4.14E41 3.26E-Ot 2.47E41 Kr.88 9.89E 12 2.16E-03 2.59E 03 2.52E-03 2.13E 03 1.75E-03 Xe-131m l 7.0SE-13 3.19E41 4.07E-C4 4.20E-04 3.81 E 4 4 3.28E-04 Xe-133m 2.32E 12 1.01 E-03 6.2 G 03 1.32E 03 1.19E 03 1.03E-03 Xe 133 2.19E 10 9.79E 02 1.24E 01 1.28E 01 1.16E-01 1.01E-01 Xe-135m ' 8.40E 12 1.10E-06 7.09E 07 3.70E-07 1.71E-07 7.48E-08 Xe 135 1.99 E-10 7.19E-02 8.99E-02 9.12E-02 8. l l E-02 6.88E-02 Xe 138 2.06E 10 1.36E-05 8.28E 06 4.09E 06 1.78E 06 7.37E 07 TOTAL 6.59E 10 1.76E 01 2.22E-01 2.27 E-01 2.04E-01 l 1.75E 01 1131 l 1.06E 12 1.64E-03 2.02E-03 2.04E-03 1.79E 03 1.50E 03 1132 4.0l E-14 1.54E44 2.05E 04 2.23E-03 2.llE48 1.91E41 1 133 6.40E 13 1.09E-03 1.36E-03 1.37E 03 1.22E-03 1.03E-03 1134 6.96E-15 1.15E 04 1.73E41 2.13E41 2.28E-04 2.33E41 1135 2.55E-13 5.37E44 6.83E42 7.0$E44 6.32E44 5.46E-04 l TOTAL __ 2.00E-12 3.53E 03 4.44E 03 4.55E-03 4.0SE-03 3.50E-03 9
OQ Reactor Building Air Activity (pCi/cc)
- i.
Elevation 74' 00:00 l 04:30 05:00 05:30 6:00 6:30 Isotooe_ Kr-83m l 3.305-12 3.90E41 4 64E41 4.35E41 3.71 E-N 3.13E41 l Kr-85m 4.600 12 1.0$E-03 1.31E-03 1.30E 03 1.17E 03 1.04 E-03 Kr85 1.10E 12 3.98E-Ot 5.19E-04 5.345 N 5.01 E-04 4.62E-N Ki-87 ' 4.68E-12 3.27E41 3.73E44 3.36E45 2.73E44 2.21 E 4 5 Kr48 9.89E 12 1.72E 03 2.11 E-03 _ 2.05E-03 1.79E-03 1.57E-03
'Xe 131m 7.0iE 13 2.54 E-04 3.32E-04 1 3.41E45 3.19E44 2.95E41 Xe 133m 2.32E 12 8.06E44 1.05E 03 1.07E-03 1.00E-03 9.23E-04 Xe 133 2.19E 10 7.78E-02 1.01 E-01 1.04E-01 9.76E-02 0.05E-02 Xe 135m 8.40E-12 8.76E-07 5.78E-07 3.00E-07 1.43 E-07 6.71E-08 Xe.' 13 1.99E 10 5.72E-02 7.33E-02 7.39E-02 6.80E 02 6.17E-02 Xe" 138 2.06E-10 1.08E-05 6."75E-06 3.32E-06 1.49E-06 6.61E-07 TOTAL 6.59E 10 1.40E-01 l . 81E 01 1.84 E-01 1.71E-01 1.57E-01 1 131 1.06E 12 1.30E-03 1.65E-03 165E-03 1.50E-03 1.35E-03 1132 i 4.01E 14 1.23E44 1.67E44 1.80E-04 1.77E 44 1.72E-04 1 131 1 6.40E 13 8.66E48 1.llE-03 1.l lE-03 1.02E-03 9.27E 04 I-134 6 96E 15 9.15E45 1.41 E 4 1 1.73E41 1.91E48 2.10E-04 1135 2.55E 13 4.27E41 5.57 E-04 5.70E41 5.30E-04 4.71E41 TOTAL 2.00E 12 2.81E 03 3.62E-03 3.68E-03 3.42E-03 3.15E-03 k Elevation 91' Isotope 00:00 04:30 05:00 05:30 6:00 6:30 Kr-83m 3.30E 12 3.40E41 3.94E44 3.69E 04 3.08E44 2.56E45 Kr 85m 4.60E 12 9.13E-04 1.12E-03 1.10E-03 9.74E45 8.47E-04 Kr 85 1.10E-12 3.47E41 4.42E44 4.53E-04 4.16E45 3.77E-04 Kr 87 4.68E-12 2.85E-04 3.17E44 2.85E44 2.27E41 1.80E44 Kr88 9.89E-12 1.50E 03 1.80E-03 1.74E-03 1.49E-03 1.28E-03 Xe 131m 7.08E 13 2.21E4% 2.82E41 2.89E-O! 2.65E41 2.40E45 Xe 133m 2.32E-12 7.03E 04 8.92E44 9.1 IE-04 8.32E-04 7.52E 04 Xe 133 2.19E 10 6.78E-02 8.64E-02 8.82E-02 8.10E-02 7.38E-02 Xe-135m 8.40E-12 7.63E-07 4.92E-07 2.55E 07 1.19E 07 5.47E-08 Xe-135 1.99 E-10 4.99E-02 6.24 E-02 6.27E-02 5.64E-02 5.03E-02 Xc-138 2.06E-10 9.41E 06 5.74 E-06 2.81E 06 1.24 E-06 5.39E-07 10TAL 6.59E 10 1.22E-01 1.54E-01 1.56E-01 1.42E 01 1.28E 01 , 1131 1 1.06E 12 i 1.13E-03 1.40E 03 1.40E-03 1.2SE-03 1.10E-03 1132 4.01E 14 1.07E44 1.42E4% 1.53E41 1.47E44 1.40E42 1133 ,
6.40E-13 7.52E44 9.39E4% 9.42E44 8.51E4% 7.53E45 1134 6.96E 15 7.95E 05 1.20E44 1.47E44 1.59E-04 1.70E41__. 1 135 2.55E-13 3.71E44 4.72E41 4.85E4% 4.42E-04 3.99E45 TOTAL l 2.00E 12 2.44 E-03 3.07E-03 3.13 E-03 2.85E-03 2.56E-03 d l
~h (V Reactor Building Air. Activity (pCi/cc)
Elevation 117' Isotope 00:00 04:30 05:0G 05:30 6:00 6:30 Kt 83m 3.30E 12 2.87E-04 3 35E& 3.17E-04 2.71E N 2.22E-04 Va 85m 4.60E 12 7.71 E@ 9. '9E& 9.48 E-GS 8.57E-G8 7.35E-04 Kt85 1.10E 12 2.93E& 3.'s 6E-Os 3.89E@ 3.66E& 3.27E G8 Kr 37 4.68E 12 2.41 E-04 2.0E 04 2.44 E-04 2.00E-G4 1.56E-04 Kr 88 9.89E 12 1.26E-03 1.53E-03 1.49E 03 1.31E 03 1. l l E Xe 131m- 7.08E 13 1.87E-04 2.40E-04 2.48E-04 2.33E-04 2.08E-Os Xe 133m 2.32E 12 5.93E-G8 7.59E-04 7.82E@ 7.32E-04 6.52E-04 Xe 133 2.19E 10 5.73E 02 7.35E-02 7.58E-02 7.13E-02 6.40E-02 _ Xe 135m 8.40E 12 6.44E 07 4.18E-07 2.19E-07 - 1.05E 07 4.74 E-08 Xe-135 1.99E 10 4.21E-02 5.3 ] E-02 5.38E-02 4.97E-02 4.36E-02 Xe 138 2.06E 10 7.95E-06 4.89E-06 2.41E 06 1.09E-06 4.67E-07 TOTAL 6.59E 10 1.03E 01 1.31E 01 1.34E 01 1.25E 01 1.llE-01 I131 1.06E 12 9.50E N 1.20E-03 1.20E 03 1.10E-03 9.47E-G8 1132 4.01E 14 8.95E 05 1.22E-G8 1.31E-04 1.30E-04 1.2 ] E-G8 I133 6.40E 13 6.32E-04 8.04 E-04 8.07E-04 7.49E-G4 6.50E-OS l134 6 96E 15 6.68E-05 1.03E G4 1.26E-G8 1.40E-G4 1.47E-04 1135 2.55E 13 3.12E-G4 4.05 E-OS 4.15E-04 3.89E-OS 3.45E-G1 TOTAL I 2.00E 12 2.05E-03 2.63 E-03 2.68E-03 2.51 E-03 2.21E 03 4 l l l l V
i p) v Chemistry Data (Summary) REACTOR WATER DRYWELL ATMOSPIIERE ELAPSED COND Cl Pil ! 02 112 liumidity TIME umho ppm % % % 0020 0.2 0.005 6.6 l.5 0.0 72 0000 0.2 0.005 6.6 1.5 0.0 72 0005 0.2 0.005 6.6 1.5 0.1 72 0010 0.2 0.005 6.5 1.5 0.1 72 0015 0.2 0.005 6.5 1.5 0.1 72 0030 0.2 0.005 6.5 1.7 0.2 72 0045 0.2 0.005 6.5 1.7 0.2 72 0100 0.2 0.005 6.5 ~T7 0.2 72 0115 0.2 0.005 6.5 1.7 0.2 72 1 0130 0.2 0.005 6.5 1.7 0.2 72 0145 0.2 0.005 6.5 1.7 0.2 72 0200 0.2 0.005 6.5 1.9 0.2 72 0215 0.2 0.005 6.5 1.9 0.2 72 [ s 0230 0.2 0.005 6.5 1.9 0.2 72 V 0245 0.2 0.005 6.5 1.9 0.2 72 0300 0.2 0.005 6.5 1.9 0.2 72 0315 0.2 0.005 6.5 1.9 0.2 72 0330 0.2 0.005 6.5 1.9 0.1 72 0345 0.2 0.005 6.5 2.1 0.1 70 0400 0.2 0.005 6.5 2.1 0.1 70 0415 0.2 0.005 6.5 2.1 0.1 70 0430 0.3 0.005 6.5 2.1 0.1 70 0445 0.3 0.005 6.5 2.1 0.1 70 0500 0.3 0.005 6.5 2.1 0.1 70 0515 0.3 0.005 6.5 2.1 0.1 70 0530 0.3 0.005 6.5 2.2 0.1 70 0545 0.3 0.005 6.5 2.2 0.1 70 0600 0.3 0.005 6.5 2.2 0.0 70 0615 0.3 0.005 6.5 2.2 0.0 70 0630 0.3 0.005 6.5 2.2 0.0 70 9
REACTOR BLDC. EL 17 4" samass at Tanas (Ouw) O NORTH
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Radiation Lesels (mrlhr) Contamination Scenano 2A 3A 4A 54 Surface (DPM1100cm2) Airbome (CPM) Time 1A 10 10 15 <8 All Areas 00:20 100 75 100 :00 As Found As Found
' O 00 1000 70 As Found 2000 200 250 500 1300 As Found 0 15 8000 15.000 3l.000 As Found As Found 00.30 60.000 600 15.000 30.000 6C 000 As Found As Found 01:00 120.000 1200 18.000 35.000 70 %O As Found As Found 01:3. 140.000 1400 20,000 40,000 80,'00 As Found As Found 02 00 160.000 1600 30.000 60.000 120a 00 As Found As Found 02 30 240.000 2400 35.000 70.000 130.0 TO As Found As Found 0360 250.000 2501 rw 2600 30.000 60.000 120.001 As Found As Found 03 30 260.000
(* 04 00 260.000 2600 30.000 60.000 100,000 80000 315000 2500 30.000 50.000 100.000 100000 390.000 04:30 240.000 2300 24.000 49.000 100,000 100000 390.000 05 00 230.000 20,000 40,000 80.000 100000 390.000 05:30 200.000 2000 40,000 80.000 100000 390,000 06 00 200,000 2000 20.00C
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Time 1A 2A 3A 4A 5A Surface (DPM!100cm2) Airborne (CPM 1 00 20 2 1 10 8 3 1 Ali Areas 0 00 4000 1200 100 12 2 1300 5 000 0 15 5 000 15 000 150 15 2 1300 6 000 00 30 4450 14 000 140 14 2 1300 5000 01 00 4 000 12.000 125 12 2 1300 3 000 01 30 2 000 8000 75 10 2 1300 1 000 02 00 1 000 5000 40 8 2 1300 1 000 02 30 500 2 000 20 8 2 1300 100 250 1 000 10 6 2 1300 As Found __ _ C 3 00 03 30 240 800 to 6 2 1300 As Found 04 00 230 750 10 6 1 1300 As Found G 04 30 05 00 05 30 375 370 360 960 650 830 97 110 110 96 105 105 90 100 t00 80000 100000 100000 315 000 390 000 390 000 06 00 300 750 90 85 80 100000 390 000 Note 1. Use columns 4A for areas 1 A and 2A if no teactor cootant samp6e is drawn
- 2. Contamination read.n0s are 'As Found" untd 04 30 6f no reactor sample is dra*n
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f eM Scenano Radiation Levels (mrthr) Contamination l Time 1A 2A 3A 4A SA Surface (DPM/100cm2) Airborne (CPM) 00.20 2 4 10 3 8 Alt Areas 0 00 3 18 18 14 35 As Found As Found , 0:15 10 20 20 116 40 A: Found As Found 00-30 10 20 20 15 40 As Found As Found 01:00 9 18 18 15 35 As Found As Found 01 30 9 18 18 14 35 As Found As Found 02.00 9 17 16 14 32 As Found As Found 02.30 8 17 16 14 32 As Found As Found 03.00 8 17 16 13 32 As Found As Found
/ 03.30 8 16 15 13 30 As Found As Found E 04-00 7 16 15 13 30 As Found As Found 04.30 85 95 95 92 115 65000 265.000 05 00 100 112 110 110 130 80000 330.000 05 30 95 110 105 105 120 80000 300.000 06 00 80 95 90 85 95 80000 300 000
REACTOR BLDG, EL 91' r\ (J
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! j / !!EliR ".E 1 Contamination Scenario Radiation Levels (mr/nt) Airborne (CPM) 2A 3A 4A 5A Surface (DPM/100cm2)
Time 1A 2 l All Areas 2 1 2
-00 20 2 As Found 5 7 7 As Found 0 00 7 7 9 As Found As Found 9 9 7 9 0 15 As Found As Found 9 6 9 9 00:30 9 As Found 6 8 8 As Found 01'00 l 8 8 As Found 6 8 8 As Found 01:30 8 8 8 As Found As Found 8 8 5 8 02 00 7 As Found As Found 7 5 7 02.30 7 As Found As Found 5 7 7 03 00 7 7 7 7 As Found As Found 7 7 5 03 30 As Found As Found 6 5 6 6 04 00 6 225,000 68 72 72 55000 04 30 72 72 88 88 70000 280 000
__05:00 88 88 85 87 87 70000 201000 05 30 87 87 85 70 70000 280.000 70 70 65 70 06 00
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-00.20 As Found - As Found 12 12 7 0 00 6 10 As Found 14 14 S As Found 0.15 8 12 As Found 14 14 8 As Found 00 30 8 12 As F ound 12 12 7 As Found 01 00 7 10 As Found 12 12 7 As Found 01.30 7 10 As Found 12 12 7 As Found 02 00 7 10 As Found 10 10 6 As Found ~~
02 30 0 9 As Found 10 10 6 As Found 03 00 6 9 As Found 10 10 6 As Founo 03 30 6 9 As Found 9 9 5 As Found 04 00 $ 8 190.000 j 66 66 60 47000 04 30 60 65 \ 82 75 60000 240 000 75 80 82 05 00 60000 240.000 72 75 75 70 05-30 70 240.000 62 65 60 60000 06 00 60 60 i
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f. 6 { 'p . Scenano Radiation Levels (mr/hr) Contamination Time 1A 2A 3A Surface (DPM/100cm2) Airborne (CPM) 00:20 10 10 4 All Areas 4.200 4.200 2.200 As Found As Found ! 0.00 4.200 4.000 2.200 As Found As Foend l 0:15 4.000 3.700 2.000 As Found As Found 00-30 3,700 3,600 2.000 As Found As Found j 01:00 3.600 3,600 1.900 As Found As Found 01:30 l As Found As Found 1 02:00 3.500 3.500 1.800 3.400 1.700 As Found As Found j 02.30 3.400 3.200 3.200 1.600 As Found As Found i 03:00 3.000 3,000 1.500 As Found As Found l 03:30 2.800 2,800 1.400 As Found As Found 04 00 2.700 1.300 As Found As Found 04:30 2.700 2.500 2.500 1 200 As Found As Found q 05:00 2.300 2.300 1.100 As Found As Found 05:30 1.900 1.900 900 As Found As Found 06 00
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Contamination Surface (DPM/100cm2) Airborne (CPM) _ 1A 2A 3A 4A Time Att Areas 50 40 30 30 00:20 As Found 170,000 30,000 34.000 As Found
' 0 00 340,000 As Found 30.000 34,000 As Found 0.15 340.000 170.000 As Found 27,000 33,000 As Found 00 30 300.000 150.000 As Found 120.000 ;15,000 28.000 As Found 01:00 270.000 As Found 110.000 19.000 23,000 As Found 01:30 230,000 As Found 100.000 18.000 20,000 As Found 02:00 210.000 As Found 16.000 18.000 As Found 02.30 180,000 90.000 16.000 As Found As Found 160.000 80.000 14 000 03:00.. As Found As Found 150.000 70.000 13.000 15.000 03:30 As Found As Found 60.000 12,000 14.000 04:00 130.000 As Found 52.000 11,000 13.000 As Found 04:30 110.000 As Found 45,000 9,100 9.600 As Found 05:00 98,000 As Found 40 000 8,300 d 500 As Found 05:30 85,000 6.300 1 _ 6,500 As Found As Found 06:00 64,000 29,000
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\ a e}I I1 W LL MA l Scenario Radiation Levels (mr/hr) Contamination Time 1A 2A 3A Surf ace (DPM/100cm2) Airborne (CPM) 00.20 80 1000 4) Ali Area 5 0 00 1.500 0.200 3.000 As Found As Found 0.15 1,290 5,850 2,550 As Found As Found 00 30 1,050 3.000 2,100 As Found As Found 01 00 820 450 1.600 As Found As Found 9120 590 135 1,150 As Found As Found 02 00 570 120 1,100 As Found As Found 550 100 1.050 As Found As Found l 02 30. 03 00 530 90 1 000 As Found As Found l- As Found As Found 03 30 520 80 950 " l 04 00 500 65 930 As Found As Found 04 30 485 65 825 AS Found As Found 05 00 470 62 750 As Found As Found 05 30 450 50 675 As Found As Found 06 00 400 30 600 As Found As Found i
- 1. . - -
CONDENSER 8AY EL 3T O v i
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a u k_ A Scenano Radiation Levels (mrlhr) Contamination Time 1A 2A 3A Surf ace (DPMliO0cm2) Airborne (CPM)
-0E20 40 30 80 All Areas 0 00 1,500 1,000 3 000 As Found As Found 0 15 1,290 860 2.550 As Fouted As Found 00 30 1,050 720 2.100 As Found As Found 01-00 B20 590 1.600 As Found As Found 01:30 590 460 1.150 As FOt.nd As Found 02 00 570 330 1.100 As Found As Found 02 30 550 320 1.050 As Found As Found 03-00 530 310 1.000 As Found As Found G 03 30 04 00 04 30 $20 500 485 300 295 235 950 900 B25 As Found As Found As Found AS Found As Found As FC,und 05 00 470 275_ 750 A, F ound As Found 05 30 450 265 675 As Found As FouM 06 00 350 _200 ( 00 As Found As Found
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4 ten.rto Radiation Leveis (mrlhr) Time 1A Contamination 2A 3A 4A $A 6A 00 20 Surface (DPM/100cm2) Airborne (CPM) 300 100 100 4 1 2 0 00 All Areas 2.050 700 700 6 1 S 0 15 As Found As Found 1.930 650 650 6 1 5 00 30 As Found As Found 1.000 350 350 4 1 4 01 00 As Found As Found
- 150 $0 50 4 1 4 01 30 As Found As Found
( 46 25 25 3 1 4 02 00 As Found As Found 40 18 18 2 1 4 02 30 As Found As Found 3$ 17 17 2 1 4 As Found As Found _ 03 00 30
- [g \
03 30 26 1$ 13 15 13 2 2 1 4 As Found As Found 1 4 As Found k 04 00 22 11 11 As Found 1 1 4 As Found l 04 30 20 10 As Found 10 t 99 100.000 1 05 DO As Found As Found 18 9 9 450 1 530 000 As Found As Found 05 30 17 8 8 4B0 1 $30.000 As Found As Found l 06 00 16 5 $ 450 _1 450 000 As Found As Found
i i o O Plume Phase Environmer:tal Information O Release Segment Times h l Scenario / Elapsed Time Downwmd 12:15 12:30 12:45 13:00 13:15 13:30 13:45 14:00 14:15 14:30 2-gg- gg- - 04:45 05:00 05:15 05:30
~
05:45 TEiOU~ ~66i1'S ~ 06:30 1 0.5 milas 04 15 04:30 04:45 05:00 05:15 05 30 05 45 1 10 miles 04'15 04:30 04 45 05:00 05-15 05-30 05 45 15 miles 04:15 04:30 04 45 05 00 05:15 05 30 05 45 2 0 miles 04:15 04.30 04:45 05-00 05:15 05 30 05 45 2 5 miles 04:15 04:30 04:45 05 00 05.15 05-30 05 45 30 miles 04 15 04:30 04-45 05-00 05:15 05 30 05 45
- 3 5 miles 04
- 15 04:30 04:45 05 00 05 15 05 30 4 0 miles 04:15 04-30 04:45 05.00 05 15 05 30 4 5 miles 04 15 04:30 04 45 05 00 05 15 5 0 miles 04:15 04:30 04 45 05 00 05 15 f 5 5 miles 04 15 04,30 04 45 05 00 !
6 0 miles 04:15 04 30 04 45 4 6 5 miles 05 00 04 15 04:30 04 45
- 7.0 miles 04.15 04
- 30 04 45 j 7.5 miles t 04 15 04 30 1
8 0 miles ; 04 15 0430 i 8 5 miles
- I C O miles 04 15 9.5 miles 04 15 1G 0 miles l
j l i : 1 l ! i
! j ; 97-06 Page 1 of 12 1997 Evaluated Uxercise I
O o Plume Phase Environmental information o , i l Closed tvindow EFlernal Dose Rates (mRIhr) Scenario /E!apsed Time Downwind 12:15 12:30 12:45 13:00 l 13:15 13:30 13:45 14:00 14:15 14:30 0.5 miles 480 50 468 10 455.70 443 30 430 90 421 60 409 20 l 10 miles 244 64 238 33 232 02 225 70 219 39 214 65 208 34 15 miles 163 31 159 10 154 88 150 67 146 45 143 29 139 OS 2 0 miles 109 02 106 20 103 39 100 59 97 76 95 65 92 84
? 5 miles' 88 53 86.24 83 96 81 67 79 39 77 67 75 39 !
3 0 miles 71 89 7003 68.18 66.32 64 47 63 08 61 22 ' 3 5 miles 58 38 56 87 55 36 53 86 52 35 51 22 4 0 miles 47 40 46.18 44 96 43 73 ' 42 51 41 60 i 4.5 miles 38 49 37.50 36 51 35 51 34 52 5 0 miles 31.26 30 45 29 65 28 84 28 03 ! 5 5 miles 28 00 27 27 26 55 25 83 6 0 miles 25 08 24 43 23 78 23 13 ; 6 5 miles 22 46 21 88 I 21 30 7 0 miles 20 12 19 60 19 08 7 5 mi!es 18 02 17 55 8 0 miles 16 14 15 72 , 8 5 miles 14 45 . 9 0 miles 12 95 9 5 miles 10 0 miles Notes ~-
' Survey results at 3' will be the same at 6" when inside tne plume j 97-06 Page 2 of 12 1997 Evaluated Exercise
O O Plume Phase Environmental Infonnation O Open Window External Dose Rates (mRlhr) i l Scenario / Elapsed Time Downwind 12:15 _ 12:30 _ _12:45 _ 13:00 13:15 13:30 13:45 14:00 14:15 14:30 ! Distance 04:15 04:30 04:45 05:00 05:15 05:30 05:45 06:00 06:15 ~06i36~ 0.5 miles 1105 15 1076 63 1048 11 1019.59 991 07 969 68 941.16 1.0 miles 562 68 548 16 533 63 519.11 504.59 493 70 479 18 15 miles 375 61 365.92 356.23 345.53 336 04 329 56 319 88 I 2 0 miles 250.74 244 27 237.80 231.33 224 86 220 00 213 53 i 2 5 miles 203.61 198.35 193.10 187.85 182 59 178 65 173 40 f 3 0 miles 165.34 161.07 156 81 152.54 148 27 145 08 40 81 3 5 miles 134 26 130 80 127 33 123 87 120 40 117 si ;
- 4 0 miles 109 03 106 21 103 40 100 59 97.77 95 67 I 4 5 miles 88 53 86 25 83 97 81 68 79 40 5 0 miles 71.89 70 04 68 18 66 33 64 47 5 5 miles 64 39 62 73 61 07 59 41 f 1
6 0 miles 57 67 56 19 54 70 53 21 i
- 6 5 miles 51 66 50 32 48 99 7.0 miles 46 27 45 07 43 8e '
7,5 miles 41 44 40 37 ,
- 8 0 miles 37 12 36 16
! 8 5 miles 33 24 ! 9.0 miles 29 77 l 9 5 miles 10 0 miles Notes' I Survey resuits at 3' will be the same at 6" when inside the plume. [ i l
.97-06 Page 3 of 12 1997 Evaluated Exercise
O O Plume Phase Environmental information O t E-520 General Area Plume immersion (CPM) Scenario / Elapsed Time oownwind 12:15 12:30 12:45 13:00 13:15 13:30 13:45 14:00 14:15 14:30 M30 .
~ _
Distance 04:15 M:45 05:M M:15 M:M , M MS M:15 M:30 0.5 miles 7.21 E+05 7.02E+05 6 84E+05 6.65E+05 6 46E+05 6.32E+05 6.14E+05 1.0 miles 3 67E+05 3.57E+05 3 48E+05 3 39E+05 3 29E+05 3.22E+05 313E+05 15 miles 2.45E+05 2 39E+05 2.32E+05 2 26E+05 2.20E+05 215E+05 2.09E+05 2 0 miles 1.64E+05 1.59E+05 1.55E+05 1.51 E+05 1.47E+05 143E+05 139E+05 ! 2.5 miles 1.33E+05. 1 29E+05 126E+05 123E+05 1.19E+05 1.17E+05 1 13E+05 3 0 miles 1.08E+05 1.05E+05 1.02E+05 9.95E+04 9 67E+04 9 46E+04 918E+04 3 5 mi!es 8 76E+04 8 53E+04 8 30E+04 8 08E+04 7 85E+04 7 68D04 4 0 miles 7.11E+04 6.93E+04 6.74E+04 6 56E+04 G38E+04 6 24E+04 ! 4.5 miles 5.77E+04 5 S3E+04 5 48E+04 5 33E+04 518E+04 ; 5.0 miles 4 69E+04 4.57E+04 4 45E+04 4 33E+04 4 20E+04 5.5 miles 4 20E+04 4 09E+04 3 98E+04 3 87E+04' 6 0 miles 3 76E+04 3 66E+04 3 57E+04 3 47E+04 ! 6 5 miles 3 37E+04 3 28E+04 3 20E+04 7 0 miles 3.02E+ 04 2 94E+04 2 86E+04 7 5 miles 2.70E+04 2 63E+04 8 0 miles
- 2 42E+04 2 36E+04 8 5 miles 217E+04 I 9 0 miles 194E+04
- 9 5 miles 10.0 miles Notes' y
Readings beyond the high scale are provided to allow indication of rate of change. I i i i 97-06 Page 4 of 12 1997 Evaluated Exercise
- O O Plume Phase Environmental information O
l l Thyroid Dose Rates (mRemIhr) Scenario / Elapsed Time t Downwind 12:15 12:30 12:45 13:00 13:15 13:30 13:45 14:00 14:15 14:30 Distance ~i UT' ~0i:'30~ 04:45~ 05:00 05:15 05:30 05:45~ 06:00 06:15 06:30 , 0 5 miles 3.33 3 25 3 16 3.07 2.99 2 92 2 84 ! 1.0 miles 1 02 1.00 0.97 0.94 0 92 0.90 0 87 ! 1.5 miles 0 88 0 86 0 84 0 81 0.79 0 77 0 75 2O miles 0 76 0.7e 0.72 0 70 0 68 0 67 0 65 2.5 miles 0 62 0.60 0 58 0 57 0 55 0 54 0 52 3 0 miles 0.50 0.49 0.47 0 46 0 45 0 44 ' 0 43 35 miles 0.41 0 40 0 38 0 37 0 36 0 36 ; 4 0 miles 0.33 0 32 0 31 0 30 ' 0.30 0 29 4 5 miles 0.27 0 26 0 25 0 25 0 24 5 0 miles 0 22 02.1 0 21 0 20 i 0 19 55 miles O 19 0 19 0 18 0 18 i 6 0 miles 0 17 0 17 0 16 0 16
- 6 5 miles 0 16 0 15 0 15 i 7 0 miles 0 14 0.14 0.13 7 5 miles 0 12 0 12 8 0 miles 0 11 0 11 8 5 miles ;
0 10 9 0 miles 0 09 9 5 miles i 10 0 miles r 97-06 Page 5 of 12 1997 Evaluated Exercise 1 i
i O O Plume Phase Environmental information O ( .. lodine 1-131 Concentration (pCi/cc) l Scenario / Elapsed Time i Downwind 12:15 l 12:30 12:45 13:00 13:15 13:30 13:45 14:00 14:15 14:30 Destance .04:15 04:30 04:45 05:00 05:15 05:30 05:45 05iOO~ ' d'i5-~ ~N30 ! O 5 miles 2.56E-09 2.50E-09 2.43E-09 2.37E-09 2.30E-09 2.25E-09 218E-09 10 miles 7.87E-10 7.673-10 7.46E-10 7.26E-10 7 06E-10 6.90E-10 ' 6.70E-10 15 miles 6.78E-10 6 61E-10 6 43E-10 6.26E-10 6.08E-10 5 95E-10 I 5.77E i 5.84E-10 5 69E-10 5.54E-10 5 39E-10 5 24E-10 5.13E-10 4 98E-10 t 2.5 mdes i 4.74E-10 4 62E-10 4.50E-10 4.37E-10 4 25E-10 1 416E-10 4 04E-10 j 30 mHes 3.85E-10 3.75E-10 3.65E-10 3.55E-10 3.45E-10 3 37E-10 3 28E-10 i 3 5 mdes 3.12E-10 3.04E-10 2 96E-10 2.88E-10 2 80E-10 2.74E-10 0 2.53E-10 2.47E-10 2.40E-10 2 34E-10 { 2.27E-10 2 22E-10 I 5 s 2 05E-10 2.00E-10 1.95E-10 1.90E-10 184E-10 5 0 miles 167E-10 162E-10 1.58E-10 154E-10 150E-10 f 5.5 miles 149E-10 1.45E~10 142E-10 138E-10 6 0 miles j 1.34E-10 1.30E-10 127E-10 ' 123E-10 6 5 miles 1.20E-10 1.17E-10 1.14 E-10 70 miles 107E-10 104E-10 i 102E- t0 7.5 miles 9 60E-11
; 9 35E-11 8 0 miles 8 59E-11 8 37E-11
! 8 5 miles , 7 69E-11 i 9.0 miles I 9 5 miles 6 89E-11 l 10 0 miles i 2 h 1 1 97-06 Page 6 of 12 1997 Evaluated Exercise
i t O O Plume Phase Environmental Information. O ! lodine Cartridge Readings (Net Sample CPM using SAM-II) Scenario /Elr+5ed Time Downwind 12:15 12;30_ 12:45_ 13:00 13:15 13:30 13:45 14:00 14:15 14:30 Distance 04:15 04:30 04:45 05:00 05:15_ 05:30 05:45 06:00 ~~~0651F M W~ : 0 5 miles 48 47 46 45 43 42 41 1.0 miles 15 14 14 14 13 13 13 r 15 miles 13 12 12 12 11 11 l 33 2 0 miles 11 11 10 10 10 g 10 2 5 miles 9 9 8 8 8 8 8 3 0 miles 7 7 7 7 7 6 6 l 3 5 miles 6 6 6 5 5 5 ; 4 0 miles 5 5 5 4 4 4 4 5 miles 4 4 4 4 l _ 5 0 miles 3 3 3 ! 3 5 5 miles 3 3 3 i 3 6 0 miles 3 2 2 -> 6 5 miles 2 2 7.0 miles 2 2 7 5 miles ; 2 2 j 8 0 miles 2 2 8 5 miles 1 9 0 miles i 1 9 5 miles 10.0 miles , Notes-Assume sample volume as 20 cubic feet Assume SAM-Il effeciency of 1. ;% .,1 j 97-06 Page 7 of 12 ? 1997 Evaluated Exercise ; i I
Plume Phase Environmental information Gross. Iodine Activity (Net Sample CPM using E-140-N) Scenario / Elapsed Time . Downwind 12:15 12:30 12:45 13:00 13:15 13:30 _ 13:45 14:00 14:15 14:30 Distance 04:15 ~ 04:30 04:45 05:00 05:15 05:30 05:45 06:00 ~d651f~ ~ ~06i30- i 0 5 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD i 1.0 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD 15 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD I BKGD BKGD BKGD BKGD 2 0 miles BKGD BKGD BKGD i i 2 5 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD ! 3 0 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD I l 3 5 miles BKGD BKGD BKGD BKGD BKGO ' BKGD 4 0 miles BKGD BKGD BKGD BKGD BKGD BKGD 4 5 miles BKGD BKGD BKGD BKGD BKGD 50 miles BKGD BKGD BKGD BKGD BKGD 5 5 miles BKGD BKGD BKGD BKGD 6 0 miles BKGD BKGD BKGD BKGD ! 6 5 miles BKGD BKGD BKGD ! 7.0 miles BKGD BKGD BKGD l 7 5 mi:es _ BKGD BKGD 8 0 miles BKGD BKGD , j 8 5 miles BKGD 9 0 miles BKGD 9 5 miles l 10 0 miles ! Notes-Assumes sample volume of 20 cubic feet-Assumes background count rate of 50 CPM 4 j t
- e i
i 97-06 Page 8 of 12 1997 Evaluated Exercise 1 j
l O O O t Plume Phase Environmental Information ! i ! Gross !odine Activity (Net Sample CPM using E-520) t < c- - ScenarioIElapsed Time oownwind 12:15 12:30 12:4F 13.30- 13:15 13:30 13:45 14:00 14:15 14:30 t Distance ~653i5 04:30 04:45~ 05iOE~ 05:15 05:30 05:45- 06:00 - ' ~66335 ~ "0633 6 O 5 miles 516- -502 489 476 462 453 439 ; l 10 miles -158 154 150 146 142 139 135 !
- 1. 5 miles 136 133 129 126 122 120 116 l 2.0 miles 118 115 111 108 105 103 100 4
2.5 miles 95 93 90 88 86 84 81 l 3 0 miles 77 75 73 71 69 68 66 3 5 miles 63 61 60 58 56 55 ! i 4 0 miles 51 50 48 47 46 45 v 4.5 miles 41 40 39 38 37 l 5 0 miles 34 33 32 31 1 30 i 5 5 miles 30 29 28 28 i j 6 0 miles 27 26 26 25 6 5 miles 24 23 23 i 7.0 miles 22 21 20 ! 7.5 miles is 39 ; 8 0 miles 17 17 i _ 8 5 miles 15
- l. 9 0 miles 34 l j 9.5 miles !
- 10 0 miles !
1
- i. i t
- Notes' !
Assume sample volume as 20 cubic feet. Assume E-520 contact effeciency of 16% . l' i ] j 97-06 Page 9 of 12 a-a 1997 Evaluated Exercise i
' O O Plume Phase Environmental Information O Gross Particu ate Concentration (pCilec) Scenario / Elapsed Time Downwiad 12:15 12:30 12:45 13:00 13:15 _ 13:30 13:45 l 14:00 14:15
~ 14:30 Distance 04:15 04:30 04:45 05:00 05:15 05:30 05:45._ _ 06:00 '~06i15 ~~
06:30~~~ 0 5 miles 167E-10 1.62E-10 1.58E-10 1.54E-10 1.49E-10 146E-10 1.42E-10 5 1.0 miles 512E-11 4 98E-11 4.85E-11 4.72E-11 4 59E-11 4.49E-11 4.36E-11 1.5 miles 4.41E-11 4 29E-11 4.18E-11 4.07E-11 3.95E-11 3 87E-11 3 75E-11 2.G miles 3 80E-11 3.70E-11 3 60E-11 3.50E-11 3 41E-11 3 33E-11 3 23E-11 : 2 5 miles 3.08E-11 3.00E-11 2.92E-11 2.84E-11 2 76E-11'- 2.70E-11 2 62E-11 3 0 miles 2.50E-1 e 2.44E-11 2.37E-11 ' 2.3?5-11 2 24E-11 219E-11 213E-11 3 5 miles 2.03E-11 1.98E-11 1 SLc-11 187E-11 1.82E-11 178E-11 4 0 miles 1.65E-11 1.60E-11 156E-11 1.52E-11 148E-11 144E-11 t 4 5 miles 1.34E-11 1.30E-11 127E-11 123E-11 ! 1.20E-11 5 0 miles 1.08E-11 106E-11 103E-11 100E-11 9 72E-12 5 5 miles 9 70E-12 9 45E-12 9 20E-12 8 95E-12 l 6 0 miles 8 69E-12 8 46E-12 8 24E-12 8 02E-12 i 6 5 miles 7.78E-12 7 58E-12 7.38E-12 " 7 0 miles 6.97E-12 S 79E-12 6 61E-12 7 5 miles 6 24E-12 6 08E-12 _ 8 0 miles 5 59E-12 5 44E-12 8 5 miles 5 00E-12 f 9 0 miles 4 48E-12 9 5 miles 10 0 miles 97-06 Page 10 of 12 1997 Evaluated Exercise I
4 I l O O Plume Phase Environmental information O t t ! Gross Particulate Activity (Net Sample CPM using E-140-N) Scenario / Elapsed Time ' i Downwind 12:15 12:30 12:45 13:00 13:15 13:30 13:45 14:00 14:15 14:30 oistance ~64i1f~ 04:~36~ 04:45 05:00 05:15 05:30 _ 05:45 ~7MiiiOU' ~0E:IS~ ~
'06330~ l
' 0 5 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD ! 1.3 miles BKGD BKGD BKGD BKGD BKGD BKGD EKGD 1.5 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD 2.0 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD i 2 5 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD .; 3 0 miles BKGD BKGD BKGD BKGD BKGD BKGD BKGD ! 3 5 miles- BKGD BKGD BKGD BKGD BKGD BKGD l 4 0 miles BKGD BKGD BKGD BKGD BKGO. BKGD !
- 4.5 miles BKGD BKGD BKGD BKGD; BKGD !
! 5 0 miles BKGD BKGD BKGD BKGD. BKGD : 5 5 miles BKGD BKGD BKGb BKGD 6 0 miles BKGD BKGD BKGD '- BKGD 6 5 miles BKGD BKGD BKGD ! 7 0 miles BKGD BKGD BKGD ! 7.5 miles BKGD BKGD ! 8 0 miles BKGD BKGD 8 5 miles 3KGD 9 0 miles BKGD 9 5 miles ' 10.0 miles Notes' '
- Assumes sample volume of 20 cubic feet I-Assumes background count rate of 50 CPM t j
97-06 Page 11 of 12 1997 Evaluated Exercise
. _ . - . - _ . _ _ _ . _ _ __ __' s
L O O Plume Phase Environmental information O i t L l [ . Gross Particulate Activity (Net Sample CPM using E-520)
- Scena ioElepsed Time Downwind 12:15_ _ 12:30 12:45 _ 13:00 13:15 13:30 13:45 j: 04:30 04:45_ _ 14:00 { 14:15~ 14:30 Distance 04:15 05:00 '
05:15 05:30 05:45 06:00 06-15 ~06550~ j-- 3.35E+01 3.27E+01 3.18E+01 3.09E+01 3 01E+01 ' 0 5 miles 2.94E+01 2.35E+01 100E+01 j 10 miles 103E+01 9 76E+00 9 49E+00 9 23E+00 903E+00 8 ME+00 1.5 miles 8 87E+00 8.64E+00 8 41E+00 8.18E+00 7.95E+00 7.78E+C0 7.55E+00 I 2 0 miles 7 64E+00 7.44E+00 7.25E+00 7 05E+00 6 85E+00 6 70E+00 6.51 E+00 i' 2.5 miles 6.20E+00 6 04E+00 588E+00 5.72E+00 5 56E+00 { 5 44E+00 5 28E+00 1 3 0 miles 5.03E+00 4.90E+00 4:77E+00 4 64E+00 j 4 51E+00 4 41E+00 4 28E+00 3 5 miles 4.08E+00 3.98E+00 3 87E+00 3 77E+00 ' 3 66E+00 3 5BE+00 4 0 miles 3.31E+00 3 23E+00 314E+00 3 06E+00 2 97E+00 2 91E+00 i 4.5 miles 2 69E+00 2.62E+00 2.55E+00 2 48E+00 [ ! 5 0 miles 2 41E+00 i 218E+00 212E+00 2.07E+0G ! 2 01E+00 196E+00 5 5 miles 1.95E+00 1.90E+00 185E+00 6 0 miles 180E+00 1.75E+00 1.70E+00 1 CSE+00, 161E+00 ' 6.5 miles 157E+00 152E+00 148E+00 7.0 miles 1.40E+00 1]7E+00 133EiOO ! 7.5 miles 8 0 miles 123E+00 1.22E+00 1.12E+00 109E+00 ! 8 5 miles 9 0 miles _ 101E+00 BKGD l 9 5 miles 10 0 miles , ; . Notes: Assume sample volume as 20 cubic feet. Assume E-520 contact effeciency of 16% !
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_97-06 Page 12 of 12 1997 Evaluated Exercise
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BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATIOfJ j ONSITE DRILL AND EXERCISE MANUAL , f TABLE OF CONTENTS ! PAGE Emergency Response Facchties 2 Onll/ Exercise Organization 5 7 General Guidehnes l 9 Precautions and Lernitations l
- Player Guidelines _
11 . U Observer Guidehnes 13 Con' roller Guidelines 14 , Evaluation Process 15 Dnil/ Exercise Objectives 18 Abbreviatens 24 , O a i
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l BOSTON EDISON COMPANY PlLGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL
^ l EMERGENCY RESPONSE FACILITIES I
Cor, trol Room (CR) (Simulator will be used en lieu of CR) The Control Room is designated to be haostable under emergency conditions The Control room contains those controls, instruments, and communications eQu pment necessary for operation of the plant under both normal and emergency conditsens The ventilation system, shielding, and structuralintegnty are designed and built to permit continuous occupancy dunng the postulated design basis accident. The Nuclear Watch Engineer (NWE) maintains the responsibility for directing operations in the Control Room. The Control Room is located on the 3T level of the turoine building The equipment available in the Control Room provides ear 1y waming of a potential emergency situation and provides for a continuing evaluation of the emergency situation Meteorological , data is available from a meteorological tower which transmits wind speed and direction data to the Control Room. Respiratory protection equipment, anti contamination clothing, portable survey instruments, counting equipment, tools, and rescue equipment are readily available , within the Station. -
- l Technical Support Center (TSC)
The TSC is Iccated within the protected area on the first floor of tne Operatio.1s and Maintenance L'uilding. A separate office area within the TSC is available for Nuclear + Regulatory Con. mission (NRC) personnel. This office contains telephone communications equipment The *SC is of sufficient size to accommodate approximately 25 people. The TSC is equipped and stOffed to provide expert technical capability to assess plant status and make recommendations on plant operations to the Control Room The TSC is activated upon declaration of an Alert, Site Area Emergency, and/or General Emergency. A closed circuit television monitor transmqs pertinent instrument readings from the Control Room to the TSC. This monitor is controlled by TSC personnel and may be used to v:ew instrumentation throughout the Control Room. The Emergency Plant Manager responds to the TSC. Adequate sommunications with the Control Room, other emergency facilities and offsite organizations is available. The TSC has dedicated telephone lines i between the Control Room and TSC. Additionally, both the Control Room and TSC have access to the Station paging system (Gai tronics) and the Station internal telephone system to further enhance communications. The TSC has the ability to communicate with the Control Room, the EOF, and NRC Headquarters in Bethesda, Maryland, and the Regional NRC Office in King of Prussia, Pennsylvania. Operations Support Center (OSC) An Operations Support Center has been established in the Operations and Maintenance Building adjacent to the TSC. The Operations support function is to provide personnel (non. Control Room shift personnel)in support of emergency re entry / repair teams. The OSC q Supervisor is responsible to the NWE/EPOS and/or the Emergency Plant Manager. Direct Q communication with the TSC is possible. Necessary equipment is available throughout the Station and may be accessed by personnel assigned to the OSC. rue . mi e c Page 2 of 25
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BOSTON EDISON COMPANY PlLGRIM NUCLEAR POWER STATION ONSITE DRlLL AND EXERCISE MANUAL i l U l Emergency Operations Facility (EOF) l The EOF is located in the basement of the Shentf's facility on the grounds of the Plymouth County House of Correction in Plymouth approximately four (4) mdes west of Pilgnm Station The EOF is a BECo controlled and operated facility Dunng an emergency the EOF is staffed and equipped to provide the overall BECo emergency response coordination of radiological and environmental assessment, development of protective action recommenoations for the general public; and coordination of emergency response activities with Federal. Commonwealth and local agencies. Secunty personnel will be assigned to control EOF access-The EOF consists of the Operations Room, the Communications Room conference rooms and sevelal office areas. In addition to the pre-designated BECo staff the EOF has space to accommodate nine (9) NRC representatives as well as representatives from FEMA. MDPH and Massachusetts Emergency Management Agency (MEMA) and key local authonties. If necessary, the EOF may be used to accommodate outside technical support groups and elements of the Recovery Center staff. The pnmary function of the EOF is to provide management of the overall emergency response to any event at an Alert or higher classification. The EOF provides radiological and meteorological data to assess offsite radiation levels. This information is used by EOF personnel to update /,aform the NRC and Commonwealth and local emergency response p agencies about condrtions potentially affecting the public in accordance with the Emergency y/ Plan. Media Center (MC) The Media Center is located at the Boston Edison Company headquarters in the Prudential Center Boston, Massachusetts. The Media Center is a joint facility. staffed and operated by Boston Edison Company, and the Commonwealth of Massachusetts The pnmary purpose of the facility is to provide a centrallocation for the coordination ci public information pnor to its release to the news media. The communications capabilities include standard telephones. nng down telephone line to the EOF, computer link to the EOF and CIC and telecopy links to all offsite agencies The Center includes work areas for BECo. each offsite agency, and the news media, as well as a bnering area for joint news conferences Corporate information Center (CIC) The Corporate Information Center is located at the Boston Edison Company headquarters in the Prudsntial Center, Boston, Massachusetts. The pnmary purpose of the CIC is to provide emergency information to BECo employees, customers and govemmental agencies. The emergency teams responsible for rumor control are located at this f acility. They include the Public Concem Team (responsible for responding to calls from the general public) and the Media Phone Teams (responsible for responding to calls for monitonng the news media reports for rumors or misinformation). The CIC receives information about the emergency from the Media Center and reports rumors, misinformation and trends of inquines to the Media (o J i Center for resolutton. on.a....mws.mnu.i ooc Page 3 of 25
BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL G Technical Assessment Group (TAG) The TAG provides technical and engineenng suppen to the TSC staff at Pilgnm Nuclear Power Station The TAG Coordinator is responsible for coordinating activities. including reovests from the TSC. The TAG Coordinator repons directly to the TSC Supervisor The TAG is equipped wiih dedicated communications to the EOF. TSC and tne Control Room O eswewcaws=muni ooc Page 4 of 25
l l BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL DRILUEXERCISE ORGANIZATION Lead Dnll/ Exercise Controller The Lead Dn!!!bercise Controller is responsible for the ccc. duct of a successful DnlUExercise and will coordinate OnlUExercise preparations including the deveicoment of the scenano and messages. The Lead DnlUExercise Controller will ensure the safe conduct of the Dnll/ Exercise and is responsible for resolution of any scenano-related inter facihts auestions. as well as the l assurance that the conduct of the Dnll/bercise does riot adverse' impact the operation of the station The Lead Onll/ Exercise Controller will coordinate the e ration of a consohdated evaluation package and prepare an itemized hst of correctiva .uns recommenced as a result of the evaluation and entique. Controller / Evaluators The Controller / Evaluators are personnel selected to dehver Dnillbercise Messages to designated players at specific times and places dunng the Cnll/Eiercise They willinject or dehver additional messages, as may be 6equired, to ini6iate appropnate player response to keep the OnlUExercise action moving according to the scenano and to ensure the demonstration of all Onll/ Exercise objectives. The Controller / Evaluators will be anefed on the instructions contained in this DnlUbercise Manual. As Controller / Evaluators, they are assigned to observe the DntuExercise and to judge the [_\ effectiveness of selected organizations, personnel, functions, and activities in response to the simulated emergency situation. Selection of Controller / Evaluators is based upon their expertise and quahfications to evaluate an assigned activity or area. They wi!! record their observations using an evaluation form and provide recommendations on corrective actions to the Lead Onll/ Exercise Controller pnor to the scheduled cn..que. They will evaluate Dnil/ Exercise performance on the basis of standards or requirements contained in the PNPS Emergency Plan, Emergency Operations Procedures (EOPs) and the associated Implementing Procedures. They will take steps, whenever possible, to collect data on the time-and-motion aspects of the activities observed for post Exercise use in designating and implementing l , system improvements. A Lead Controller / Evaluator is assigned to each emergency response facihty. Each Lead Controller / Evaluator is responsible for all Controller, Evaluator, and Obsei ver activities within that facihty. Players The Players include BECo personnel assigned to perform eme.gency functions as cesenbed in l the Emergency Plan and Implementing Procedures Players from offsite organizations and l agencies (Cemmonwealth and local) are participants as they would be dunng an actual emergency situation. The success of the Dnli/ Exercise is largely dependent upon player reaction, and knowledge of the Emergency Plans and Implementing Procedures, and an understanding of the Dn!VExercise Objectives. Initial conditions will be provided by Cor,t,o:ler/ Evaluators as appropnate. The Dnil! Exercise Players are responsible for initiating actions dunng the O() Dntl/ Exercise in accordance with procedures, responsibihties, and tasks outlined for their meewe.weemnumi oce Page 5 of 25
BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL O particular function in the Emergency Plan and implementing Procecures Each OnluExercise Player will advise their Controller / Evaluator pnor to simulating reauired emergency actions to ensure that credit is awarded Dril/ Exercise Players should not be excessively concemed with tne mechanics of the scenano This Onll/bercise is designed to evaluate the Emergency Plan. the implementing Procedures. and the Emergency Preparedness training program, and as not concemed witn the probability. feasibility, or detailed mechanics of the simulated accident. Dnil/bercise Players should note any needed improvements that come to their attention dunng the Dntl/bercise and submit them to the appropnate Controller / Evaluator at the conclusion of the Onll/bercise l Evaluators Evaluators include members of the NRC, INPO, or FEMA evaluation teams and they will have pnor knowledge of the Dnil/bercise scenano. They will observe the Dnll/ Exercise and ; evaluate the ability to protect the health and safety of the public The NRC will present their findings at the post-erarcise entique. Observers Observers from BECo anc ather oreanizations may be authon=ed on a limited basis. to observe Onll/bercise activlty te rarsonal education. Observers will report initially to the Onsite Emergency Preparedness Division Manager for credential review and authonzed A admittance. They will be provided with Dnil/ Exercise information as required. Requests to () participate as an Observer will be made in wnting and contain the Observer's full name, home address and phone number, and organization affiliation. Requests to participate as observers will be submitted to the Onsite Emergency Preparedness Division Manager no later than two weeks pnor to the Dnll/ Exercise. O ; waa**=cawemmuW mc Page 6 of 25
BOSTON EDISON COMPANY PILGRIM NUCLEAR POWEQ STAllON ONSITE DRILL AND EXERCISE MANUAL b O GENERAL GUIDELINES To si.nCate an accident seq;ence severe enough to test the ernergency response capabihties of participating organizations,it is necessary to postulate unreakstic situations and multiple failures of redundant reactor protection functions and systems The objective of dnlis and exercises M to demonstrate the abikty of participating organizations to protect the pubhc and appropnately respond to such improbable sequences of events Emergency response actions dunng simulated emergencies incluce
- recognition and classification of emergency condittons e assessment of onsite and offsite radiological consequences
- alert, notification, and mobihzation of emergency response organizations e activation and operation of emergency response facikties and equipment
- implementation of in plant corrective actions
- preparation of reports, messages, and recoros, and
. recommendation of protective actions.
The Control Room Simulator (CRSIM) and the Emergency Operations Facihty (EOF) are the central points for distnbution of Onll/ Exercise messages Simulated plant parameters will t e provided to the control room operators using messages and plant data sheets should the simulator fail. Radiological and meteorological data is not provideo to players automatically, but is distnbuted by controllers when players demonst' ate the capabikty to obtain that (\ information from appropnate sources. At no time, unless noted specifically as an exception, will information be interjected at a point where it would not be available in a real emergency. The Lead Dn!UExercise Controller may interject other information or change a message to ensure that the OnlVExercise prc,gresses as planned. The contingency messages are to be dehvered only if the designated players do not complete a specific action or accomplish previously specified entena. The information contained in the controller notes in Section 4 0 and information in Section 5 0 are for use by Observer /Contro!Iers only and is to be disseminated to players only when the abihty to obtain the information from actual sources is demonstrated. The Onll/ Exercise Players are expected to " free play" the scenano to the extent practical. Notifications of. and contact with, supervisors, plant management. and corporate management will be made in accordance with the appropnate corporate and site implementing procedures Since it is required that the Dnll/ Exercise test offsite emergency activities, it is necessary to postulate non-credible situations. The players should accept the Onll/ Exercise Messages as wntten if corTective actions could be postulated that would terminate the emergency, they shuuld be identified by the Players to the Lead Facihty Controller so that credit can be given for postulated actions. l Notifications of, and communications with, offsite agencies, including the NRC, will be made in accordance with appropnate implementing procedurr unless otherwise directed by the Lead Facihty Controller. The Plant Emergency Alarm shall t sounded and site-wide l C(~'N announcements shall be made as appropnate to the development of the Dnll/ Exercise Scenano. If directed by these announcements, a site evacuation will be performed. on.aw..m.wa.mnumi ooc Page 7 of 25 l
BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL o The postulated accident conditions may result in a simulated radiological release which necessitates the consideration of protective actions for plant pe"onnel and the general public Meteorological conditions may be vaned throughout the Dnll/ Exercise. Participants will perform appropnate radiological monitonng and dose assessme_nt activities Onsite BECo emergency response personnel shall use reovired p*stective ciothing. if l appropnate. I Participation by BECo onsite personnel directly involved in respondin to an emergency shall be camed out to the fullest extent possible, including the deployment of radiological monitonng l teams, emergency repair teams, and other emergency workers ; Due to time and logistical constraints, it will be necessary to accelerate certain parameters. 7 data and events that pertain to fuel damage, if required by the scenano, reactor coolant and/or containment atmosphere grab" samples will be obtained and analyzed utilizing the
- Post Accident Samling System (PAS 9) (simulated). However. resulting data will be simulated ,
through the appropnate controller. Since there are several segments of the DnlVExercise that depend on proper messages between the Control Room. TSC, OSC, and EOF, notification messages between these ! contact points may be rowewed by the Controller / Evaluators pnor to their issuance. The Controller / Evaluator may interject other information or change a message to ensur3 that the , Unil/ Exercise progresses as planned. Only Lead Facility Controllers can modify Dnll/ Exercise Messages or initiate Free Play Messages. The Dnil/ Exercise will be observed by Controllers / Evaluators who have the qualifications to evaluate the activity in their assigned locations. Evaluation of the Dnfl/ Exercise will be based on the requirements contained in the Emergency Plan and implementing Procedures. Controller / Evaluators will prepare evaluation forms and provide recommendations on corrective act.ons to the Lead Onll/ Exercise Controller, i Following the Dnll/ Exercise, the Dnil/ Exercise Coordinator will conduct a Lead Controller debnefing. Negative and positive items will be identified for inclusion in the Dnil/ Exercise Report The report will be issued within 30 working days of the Dnil/ Exercise. Designated report reviewer will de . ermine whether any deficiencies and/or corrective actions are required. Approval of identified corrective actions are required. I i i l. l i i O
- - .s.. iesc' Page 8 of 25 1
BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATlDii ONSITE DhlLL AND EXERCISE MANUi L O PRECAUTIONS AND LIMlYATIONS ~ This section provides guidance for all OnlUExercise Controllers and Evaluators for the conduct of this Onll/ Exercise. Pnor to initiation of the OnluExercise a bnefing will be held to review the entire Onlybercise process with all the Dnfl/ Exercise Controllers / Evaluators identified in this manual.
^ . Should, at any time dunng the conduct of this DnlVExercise, an actual emergency situation anse, all activities and communications related to the Dn!!/ Exercise will be suspended, it will be the responsibility of any OnlUExercise Controller that becomes I
aware of an actual emergency to suspend Onll/ Exercise response in his/her immediate area and to inform the Lead Onll/ Exercise Controller of the situation. Upon notification ! of an actual emergency, the Lead OnlVExercise Controller will make the decision to suspend all or some of the Onll/ Exercise activities or to place a temporary hold on, or terminate the Dnil/ Exercise.
. Any action that would, in the opinion of the Controller / Evaluator, place either an individual or component in an unsafe condition, the Controller / Evaluator is responsible for intervening in the individual's actions and terminating the unsafe activity immediately. Upon temination of the activity, the Controller / Evaluator is responsible for contacting the Lead Dr.ll/ Exercise Controller and informing him/her of the situation. . Manipulatson of any piant operating system, valves, breakers, or controls in response to this Dnil/ Exercise are only to be simulated. There is to be no attemation of any plant O operating equipment, systems, or circuits dunng the response to this Dntl/ Exercise. . No pressurization of fire hoses, discharging of fire extinguishers, or initiation of any fire suppression systems will be allowed for the Dnll/ Exercise . All repair activities associated with the scenano will be simulated, with extreme caution -
emphasized around operating equipment.
. All telephone communications, radio transmissions, and public address announcements related to the DnlVExercise must begin and end with the statement, "This is a Drill?
Should a Controller / Evaluator witness an Dntl/ Exercise participant not observing this practice it is the Controller / Evaluator's responsibility to remind the individual of the need to follow this procedure.
. Any BECo motor vehicle response to this Onll/ Exercise. will observe all normal motor vehicle operating laws including posted speed limits, stop lights / signs, one way streets, etc. . Should any onsite secunty actions be required in response to this Dnll/ Exercise.
Onll/ Exercise participants are to cooperate s directed by the Secunty Force, and secunty representatives are to be prudent and tolerant in their actions.
. Exercise participants are to inject as much realism into the Dnil/ Exercise as is consistent with its safe performance, however, caution must be used to prevent over-reaction.
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BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL
. Care must be taken to prevent any non-participating incividuals who may observe Dnil/ Exercise activities from celiev.ng that an actual emergency exists Any Onll/ Exercise Controller / Evaluator wno is aware of an indiv. dual or group of individuals in the smmediate vicinity who rnay have become alarmed or confused about the situation, should apnroach that individual or group and explain the nature of the Onll/ Exercise and #ts intent e lf you are entenng normal nuclear station radiation and contamination areas observe all rules and procedures, no one (including Observer / Controllers)is exempt from normal station radiological practices and procedures.
NOTE:DD NOT ENTER HIGH RADIATION AREAS IN THE PLANT; FOLLOW ALARA PRINCIPLES f'N onu*ewc osemnues ooc Page 10 of 25 i
BOSTON EDlSON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL b(J PLAYER GUIDELINES The success of the DnlVExercise is largely dependent on player performance Appropnate reaction to simulated errergency conuitions z.nd demonstrated competence in the Emergency Plan and implementing Procedures are the key entena by which the players are evaluated it is imperative, therefore, that all player actions and activities are Minessed by a Controller / Evaluator. Those actions that are to be simulated must be brought to the attention of the Controller / Evaluator. Ooservation of response actions taken is mancatory for credit to be given for demonstration of an oojective. Players are requestec to observe the following guidelines'
. Maintain a senous attitude throughout the Onll/ Exercise this !s especially true late .
the Onll/ Exercise or when activity is limited.
. Be courteous and professional at all times . Identify yourself by name and function to the Controller / Evaluator . Elements of OnlVExercise play will be introduced through the use of controlled messages, and information generated by Players as a result of the particular emergency activity performed. Therefore, be responsible for initiating actions ,n accordance with instructions and your responsibilities . Communications should be concise and formal; always include "This is a Onli"
\ . Use and demonstrate knowledge of the Emergency Plans and Implementing Procedures.
. Use all resources and equipment available as you would in an actual emergency . Remember, one of the main purposes of an Dnll/ Exercise is for you, the player, to assure yourself that you are adequately prepared Areas for improvement or lessons leamed, when identified, will improve your overall emergency preparedness Marked-up procedures or action items can be sent to Jack Spangier Onsite Emergeacy Preparedness Division Manager,600 Rocky Hill Road, Pilgnm Station or call 830 8041 . CONTROLLERS serve an active role in the Dnil/ Exercise by providing messages or instructions to the participants They may also serve to initiate certain actions to assure continuity of the events desenbed in the Dnll/ Exercise scenano They also ,erve as EVALUATORS. . EVALUATORS will be noting all actions, both positive and negative. They will be the main source of input to the BECo entique. . NRC Evaluators will be entiquing the Dnll/ Exercise and the performance of the participants. . Play out all actions, as much as possible, in accordance with the Emergency Plan and
.O Procedurcs as it it were a real emergency (J i ono.nm <os.mnus ooc Page 11 of 25
BOSTON EDISON COMPANY PlLGRIM NUCLEAN POWER STATION ONSITE DRILL AND EXERCISE MANUAL O e Identify your actions to the Controller speak out load. identifying your key actions and decisions to the Controllers and Feceral Evalumors This may seem artificial but it will assist in the evaluation process and is to your benefit
. Any messages transmitted over communication hnes or rau.os shall be oreceded and followed by the statement "THIS IS A DRILI." _ . You should play as if radiation levels are actually present. in accordance with Ine inforrnation you have received Unless otherwise specified this will require normal radiological control measures including the weanng of protective c!othing . Non participants are exempt from acting on radiation levels specified for the emergency Onll/ Exercise. However, normal radiological control practices shall be followed throughout the course c! the Dnll/ Exercise . Several plant and radiological parameter; ,,ill be available upon request at any time or at predetermined times dunng the Onll/bercise These plant parameters will be available in the Control Room (simulator). . Only selected parameters and readings will be provided The selected information will be sufficient to make decisions in accordance with BECo piaris and procedures . DO NOT BECOME OVERLY CONCERNED WITH THE MECHANICS OF THE REACTOR OR THE CAUSE OF THE ACCIDENT. THIS Drill / Exercise IS DESIGNED h
d TO TEST BECo PLANS AND PROCEDURES AND IS NOT CONCERNED WITH ESTABLISHING THE PROBABILITY, FEASIBILITY OR DETAILED MECHANICS OF THE SIMULATED ACCIDENT,
. There will be one or more Controllers at each important location to provide information and cianfication. . Any participants outside the plant property who encounter members of the news media dunng the Dnil/ Exercise should avoid responding to any questions All press inquines should be directed to the Lead Onll/Exercisa Controller at the EOF. . Do not take actions that would resuit in actual alterations of valve and switch positions in response to scenano simulations. Any event or operation outside the scenano that results in an actual or potential danger to plant operation or safety will take precedence over Dntl/ Exercise activity. . Any BECo motor vehicle response to this Onll/ Exercise will observe all normal motor vehicle operating laws including posted soeed limits, stop lights / signs, one way streets, etc. .. Should any onsite secunty actions be required in response to this Onll/ Exercise, partit ints are to cooperate as directed by the Secunty Force; Secunty repr( 'atives are to be prudent and tolerant in their actions. . While unit / Exercise participants are to inject as much realism into the Dnil/ Exercise as possible, the safety of the plant and personnel shall not be jeopardized.
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BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL OBSERVER GUIDELINES
+ Cbservers should not participate in the Dnll/bercise nor intedere in the actions taken by the Dnll/bercise participants Controllers or Evaluators Questions should be directed to Controllers, not participants.
' . The event times and scenano aro confidential and should se kept so cunng the Dnli/Dercise Do not discuss these with the participants e identification badges and arm-bands are to be wom visit 9y by the Observers identification devices should be retumed at the end of the Unll/bercise or entique Identify yourself to the Onll/bercise Controllers.
- Observers should enter emergency facilities via their main entrance and check in with secunty personnel.
. Observers requi:r.g emergency facility access dunng the Dnillbercise should contact Jack Spangler, Boston Edison Onsite Emergency Preparedness Division Manager. 600 Rocky Hill Road, Pilgnm Station, or call 830-8041 two (2) weeks pnor to the Dnil/be.ase.
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BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL O V CONTROLLER GUIDELINES Each Controller / Evaluator should be familiar with the following
. The Dnfl/ Exercise objectives . Precautions and limitations . The Dnil/ Exercise scenano including assumptions. initiating events and the expected player response. . The vanous locations that will be involved and the specific items to be observed at those locations. . The evaluation process.
Controller / Evaluators will position themselves at their assigned locations 30 minutes pnor to the activation of the faality for which they have responsibility Controller Communications will be tested pnor to Onll/ Exercise commencement All watches and clocks will be synchronized weh the Lead Dnil/ Exercise Controller as part of the communications testing. All Controller / Evaluators will comply with instructions from the Lead Onll/ Exercise Controller. n Each Controller /Evaluator will have copies of the messages controlling the progress of the (V) Dr.II/ Exercise scenario. No message shall be delivered out of sequence or other than as wntien unless specifically authonzed the Lead Facility / Functional Area Controllor. Messages controlling the progress of the scenano are noted with a number and the facility designator. Contingency messages are noted with a number followed by the facility designator and the letter *X" (e.g.,1-CRX). Contingency messages are only uelivered if certcin conditions indicated on the message are not met. Each onsite Controller / Evaluator will have copies of plant data sheets Data sheets will be distnbuted only in the Control Room should the simulator f ail. Controlier/ Evaluators will not provide information to the players regarding scenano progression or resolution of problems encountered in the course of the simulated emergency. The Onll/ Exercise particinnis are expected to obtain information through their own organizations and use their own judgment in determtning response actions and reso'ving problems Some players may insist that certain parts of the scenano are unrealistic. The Lead Controller / Evaluators have the sole authonty to clanfy any questions regarding scenano content. w e .. m . w s . m aiooc Pace 14 of 25
BOSTON ED! SON COMPANY PILGRIM NUCLEAR POWER STATION l ONSITE DRILL AND EXERCISE MANUAL I t V EVALUATION PROCESS All evaluators shall maintain a Onll/ Exercise chronology. This chronology shall be of suffiaent detail to enable subsequent completion of the appropnate evaluation form it should contain a synopsis of significant Dnil/ Exercise events. actions taken (or not taken) by players questions noted. and positive as well J5 negative assessments made by the evaluator This chronological record may be used to corroborate entique items that are questioned by participants The following Objective checklists are to be used t,y the appropnate Controllers / Evaluators to evaluate the DnlVExercise. Control Room (Simulator) Technical Support Center Operations Support Center Radiation Monitonng Term Emergency Operations Focality Dose Assessment Media Center Each Lead Controller shal. debnef the evaluators for whom he/she is responsible and compile an Objective Checklist Summary Report for the facility. Each Summary shall reflect an overall assessment of the performance of that facility in five (5) specific categones Significant - weaknesses or deficiencies shall be itemized to ensure adequate follow-up attention is devoted to resolution of the problem. Positive comments shwld also be included in the Summary. The formal Post Exercise Cntique shall be conducted by the Dnll/ Exercise Coordinator. Dunng the entique, each Lead Controllerwill provide an evaluation of his/her facility. All Controller and Participant documentation (i.e., chronologicals, checklists. attendance sheets, etc ) shall be given to the Drill / Exercise Coordinator dunng this meeting. Each Controller / Evaluator will take detailed notes regarding the progress of the Onll/ Exercise and response of the Dnli/ Exercise participants at their assigned locations. Each Controller / Evaluator should carefully note the amval and departure times of participants, the time when major activities or milestones occur, and problem areas encountered. The standards below should be used by the Controller to evaluate assigned areas pertaicung to 'he emergency response A dual purpose will be served by this rating system First, the capability of each facility or response area will be evaluated and second, the system will provide a vehicle for guiding and directing improvement. The rating scale is as follows-Satisf actory - Personnel and equipment performed as required Any errors or problems were minor and easily correctable. Marcinal- Personnel and equipment generally performed as required. Any errors noted were not severe and could be corrected without undue labor or expense e one. e==.vemnumi ex Page 15 of 25 , 1
l BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL [ V Unsatisfactory . Personnel and equipmer.t generally performed below expectations and there were several significant deficiencies noted The area's ability to carry out its functions was diminished. N,A Not applicable to the situation _N_Q Not observed Controller / Evaluator comments should consider the demonstration of the following facility and team evaluation elements-Facihties Command and Control
- Accurate and timely determination of emergency actions levels
- Tiniely activation and staffing of each emergency facility.
- Familianty of personnel with appropnate emergency instructions, duties and responsibi!ities.
- Timely notificaaon of plant, local, State and Federal personnel / agencies (information updates performed).
- Adequacy of intemalinformt. lion systems (i.e., message handling, displays, status b/ boards, and maps)
- Property controlled documentation and accurate, timely record keeping.
- Utilization of correct communications procedures, protocol, and techniques.
- Capability of facility supervisor / directors to interface with personnel and coordinate f acility activities
- Adequacy of interf ace between emergency response f acilities.
- Adequacy of equipment and supplies
- Timely initiations of onsite protective / corrective actions
- Development of protective action recommendations.
- Radiological surveys and assessment of plant damage and hazardous conditions performed.
- Timely request of emergency support services.
- Coordinate, accurate, and order 1y dissemination of information to the news media.
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) BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL g I Teams
- Timely notification and activation
- Adequacy of staffing.
- Familianty with hppropnate emergency procedures duties and responsibilities
- Availability and utilization of proper equipment.
- Performance of contamination / decontamination control.
- Proper interface with emergency support personnel
- Utilization of correct communications instructions and techniques.
- Availability of reference documents to team members
- Utilization of proper radiological control practices (i.e., access control , protective clothing, shielding, stay time).
- Performance of radiological surveys.
- Timely and proper performance of damage assessment
- Property maintained survey records and maps.
- Adequacy of briefing sessions prior to dispatch.
- Direction and control by team leaders.
- Timely requests for offsite assistance.
- Coordination and interface between emergency response team members.
- Proper interf ace w:th plant supervisory personnel.
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BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL U DRILUEXERCISE OBJECTIVES Exe.*cise Planning l A.1 Conduct an exercisn of the PNPS Emergency Plan. A2 Provide an opportunit y for the Commonwealth of Massacnusetts to part cipate in an exercise. At least partial participation is required by the Commonwealtn of Massachusetts in every annual exercise conducted at the Pilgnm Station. Full participation is required at least brennially. A.3 Prepare an exercise information package to include:
- a. The objectives of the exercise and appropnate evaluation cntena
- b. The date, time penod, place and a list of participating organizations
- c. The simulated sequence of events.
- d. The time schedule of real and simulated initiating events
- e. The narrative summary.
A.4 Conduct a entique of the exercise. f] LJ A.5 Prepare an Exercise report. A.6 Identify open items. A.7 Commence a dnll/ exercise between 1800 0400 once every Q years. A.8 Conduct the exercise in vanous weather conditions (dunng different seasonF). A.9 Conduct an unannounced drill / exercise (the knowledge of the exact date of the exercise is restncted to only non-players with a need to know) once every @ years. A.10 Provide the opportunity for the Commonwealth of Massachusetts and/or tne State of Rhode Island to participate in an Ingestion Pathway exercise biennially. If the Commonwealth of Massachusetts and/or the State of Rhode Island agrees to participate, conduct an ingestion PTthway exercise. O onsa==weswoswnnus ooc Page 18 of 25
i BOSTON EDISON COMPANY GRIM NUCLEAR POWER STATION ONSITE DRILL AN' EXERCISE MANUAL p i Emergency Organizations. Support, and Resources B1 Demonstrate the prompt activation. adequacy of the staffing and set up as appropnate. of emergency response f acihties as follows Control Room (CR)
- Technical Support Center (TSC)
- Operations Support Center (OSC) . Emergency Operations Facihty (EOF) . Corporate information Center (CIC)
Media Center (MC) 8.2 Demonstrate the capabihty of the PNPS Emergency Response Organization to implement their Emergency Plan implementing Procedures. B3 Demonstrate the abihty c' the Emergency Director to provide overail direction. including
" command and control" by initiating, coordinating and implementing timely and effective decisions dunng a radiological emergency.
B.4 Demonstrate the abihty to efft:ctively tra.1sfer command and control of emergency response func' ions from the Control Room to the EOF A B.5 Demonstrate the ability to maintain continuous staffing of the emetgency facihties O B.6 Demonstrate the capability of the PNPS Emergency Response Organization to interface with the Commonwealth of Massachusetts and the towns of Carver, Duxbury, Kingston, Marshfield, Plymouth, and Bndgewater; and the City of Taunton to effect a coordinated response to a radiological emergency adequate to ensure the protect:on of the health and safety of the public. B.7 Demonstrate the abihty to control access to emergency facihties. B8 Demonstrate the abihty to provide a liaison at each participating offsite govemmental emergenc'; operations center (EOC)- B.9 Demonstrate adequacy of facihties and equipment to support emergency operations B.10 Demonstrate as appropnate, the abihty to identify the need for, notify and request assistance from Federal agencies B 11 Demonstrate the availabihty of outside organizations who may be requested to provide assistance in an emergencv B.12 Demonstrate the ability of corporate personnel to augment and supoort the plant staff. B 13 Demonstrate the ability to notify on-call emergency response personnel and document
] acceptable response t:mes.
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l BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL V Incident Assessment and Classification C1 Demonstrate the availabikty of methods. eouipment, and expertise to make rapid assessments of the conseauences of any radrological hazards. including the cispatch and coordination of Rad ation Monitonng Teams C.2 Demonstrate the ability to recognizc emergency action levels (EALs) and properly classify emergencies in accordance with the PNPS Emergency Plan implementing Procedures. Notification and Communications D.1 Demonstrate the abihty to notify offsite emergency organizations within 15 minutes of each emergency classification at PNPS. D2 Demonstrate the abikty to notify the NRC of any emergency classification within one hour of the declaration. D.3 Demonurate the abihty to notify PNPS Ernergency Response Organization personnel D4 Demonstrate the cbility to develop and send timely follow-up information messages for offsite authonties.
) D.5 Demonstrate the communications capability between the CR, TSC, OSC, EOF, CIC, and Media Center.
D.6 Demonstrate the communications capabilities between PNPS ano the towns of Carver, Duxbury, Kingston, Marshfield, Plymouth, Bndgewater, the the City of Taunton. and the Commonwealth of Massachusetts via the Digital Notification Network (DNN). Tests need only venfy operabihty of equipment. D.7 Demonstrate the availability of a back-up means of communication. D8 Demonstrate the communications capabihties between PNPS and the Radiation Monitonng Teams. D.9 Demonstrate the operabihty of comrnunication equipment between PNPS and the State of Rhode Island. Tests need only venty operabihty of equipment D.10 Demonstrate the operabihty of communication equipment between the PNPS Control Room, EOF and NRC (FTS 2000), Tests need only venfy operabihty of equipment. O onsa.un.woa.mnual oce Page 20 of 25
1-BOSTON EDISON COMPANY DILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL A i () Radio:ogical Consequence Assessment E1 Demonstrate methods and techniques for oetermining the source term of releases or potential releases of radioactive matenal E2 Demonstrate the adequacy of methods and tecnniques for determining the magnitude of the releases of radioactive matenals based on plant system parameters and effluent monitors. E3 Demonstrate the ability to estimate integrated dose from projected and actual dose rates and to compare these estimates with the Environmenta' Protection Agency (EPA) Protective Action Guides (PAGs) E4 Demonstrate tne ability to continuously monitor and control emergency worker radiation exposure, and implement exposure guidelines as appropnate E.5 Demonstrate the capabihty for radiological monitanng of personnel evacuated from the Protected Area. E.6 Demonstrate the availabihty of respiratory protection, protective clothing and potassium iodide (KI) for onsite emergency response personnel E.7 Damonstrate the availabihty of a procedural mechanism to expeditiously evaluate nsks A and authonze emergency workers to receive doses in excess of 10 CFR 20 hmits E.8 Demonstrata the capabil ty for onsite contamination control. E.9 Demonstrate the ability to decontaminate onsite personnel E.10 Demonstrate the capabihty to transport a contaminated injured person offsite E.11 Demonstrate the ability to evaluate the radiation exposure radiation uptake. and contamination levels (extemal) of an acc. dent victim. E 12 Demonstrate the capabihty for onsite and offsite radiological monitonng, to include collection, analysis, and preparation for shipment cf sample media (for example, water. , vegetation, soil, snow and air) and provisions for communications and record keeping E.13 Demonstrate the abihty to collect and analyze simulated elevated airbome or liquid samples as directed. gS
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BOSTON EDISON COMPANY j ' PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND E.XERCISE MANUAL O Radiological Consequence Assessment (Cont ) E 14 Demonstrate the abikty to use the Post-Accident Sa.npling System (PASS) to obtain fluid samples from each sample point at least once every six years Sample points are
- a. Reactor Water b Torus Water
- c. Torus Atmosphere
- d. Drywell Atmosphere
- e. Reactor Building Atmosphere
- f. Main Stack Atmosphere E.15 Demonstrate the abihty to analyze fiuid samples and provide tne isotopic and chemical results of the analysis within three hours of the time the sample was first requested Protective Action F.1 Demonstrate the abihty to recommend protective actions to appropnate offsite authontjes.
F2 Demonstrate the abihty to advise individuals onsite or in owner controlled areas of emergency conditions. F.3 Demonstrate the capability to evacuate personnel from the Protected Area. F.4 Demonstrate that provisions exist for attemate evacuation routes and relocation centers for Station personnel. F.5 Demonstrate the ability to account for allindividuals in the Protected Area within 30 minutes of the declaration of an evacuation. F6 Demonstrate the capabihty for onsite first aid, F7 Demonstrate the ability to conduct search and rescue procedures for persons identifieo as missing dunng accountabihty procedures Pubhc information G.1 Demonstrate the operations of the Media Center and the avaitabihty of space for the media. G.2 Demonstrate the ab'hty to bnef the media in a clear. accurate and timely manner. G.3 Demonstrate coordination of information pnor to its release. G4 Demonstrate the abihty to estabbsh and operate rumor control in a coordinated fashion. O l oneenacussemnuai a Page 22 of 25
BOSTON EDISON COMPANY HLGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL O Recovery Operations H.1 Demonstrate the availability of procedures to support reentry and recovery-De-escalation / termination from the emergency phase and transition to the x a. recovery phase. b Inform the Commonweaith of the opportunity to reduce the need for protective actions. H.2 Demonstrate the ability to activate the Recovery Organizat.on and continue assessment and response activities. H3 Demonstrate the availability of corporate technical support for planning and reentry / recovery operations. ,
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BOSTON EDISON CCMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRILL AND EXERCISE MANUAL [V ABBREVIATIONS AC Altemating Current A/E Arenitect Engineer EAL Emergency Action Level ALARA As. Low As Reasonably Achievable ADS Automatic Depressunction S> stem APRM Average Power Range Monitor ARM Area Radiation Monitor ATWS Anbc; pated Transient Without Scram BOC Beginning of Cycle BWR Boiling Water Reactor CAM (s) Contnuous Air Monitor (s) CFR Code of Federal Regulaticas CIC Corporate information Center CIV Combined Intermediate (Intercept) Valve CTMT Containment CST Condensate Sto. age Tank CRD Control Rod Onve CV Control Valve C/D Cooldown CS Core Spray CSC6 Core Standby Cooling Systems O CPS Counts Per Second V DOE Department of Energy DG Diesel Generator DC Direct Current DW Drywell EAL(s) Emergency Acton Level (s) EBS Emergency Broadcast System ECCS Emergency Core Cooling Sptem - ED Emergency Director ENS Emergency Notification System EOF Emergency Operations Facility EPIP Emergency Plan Implementing Procedure EPZ Emergency Planning Zone EPC Emergency Planning Coordinator EPl Emergency Public Information EOC End of Cycle EPA Environmental Protection Acency FEMA Federal Emergency Management Agency HP Health Physics HEPA High Efficiency Partculate Air (Filter) HPCI High Pressure Coolant injection HPN Health Physics Network HVAC Heating, Ventiation, Air Condibontng Insttute of Nuclear Power Operations G INPO IRAP IRM Interagency Radiation Assistance Program Intermediate Range Monitor onewaxwcaso&wmuni ooc Page 24 of 25
BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION ONSITE DRitL AND EXERCISE MANUAL () U KW Kilowatt Kl Potassiurn lodide LCO Limiting Condition of Operation LOCA Loss of Coolant Accident LPCI Low Pressure Coof ant injection LPRM Local Power Range Monitor MSIV Main Steam isolation Valve MPC Maximum Permissible Concentration M-G Motor-Generator NPSH Net Positive Suction Head NRC Nuclear Regulator Commission NSSS Nuclear Steam Supply System OSC Operations Support Center PCIS Pnmary Containment Isolation System PAG Protective Action Guide PASS Post Accident Sampling System PIO Public information Officer RDCCW Reactor Building Closed Cooling Water RMT Radiation Monitonng Team RCIC Reactor Core mation Cooling RECIRC Reactor Recirculation System RFP Reador Feed Pump RPV Reactor Pressure Vessel [h RPS Reactor Protection System V RWCU Reactor Water Cleanup RHR Residual Heat Removal RPM Revolutions Per Minute RPIS Rod Position Information System SRV Safety Relief Valve , SAS Secondary Alarm System SRO Senior Reactor Operator SDV Scram Discharge Volume SRM Source Range Monitor S/D Shutdown SBGT Standby Gas Traatment System SBLC Standby Liquid Control SJAE Steam jet Air Ejector SV Stop Vsive TSC Technical Support Center TAF Top of Active Fuel TIP Traversing incore Probe TBCCW Turtine Building Closed Cooling Water TB Turtune Building TAG Technical Assessment Group 9 munxwcwoa.mus ooc Page 25 of 25 j j
OPERATION OF THE CONTROLLER NETWORK The controller network is designeo to give the controllers the ability to communicate bet'vean facilities without interf aring with normal Drill / Exercise communications. Calls on the network can be made between the EOF and each of the otner PNPS emergency facilities. We do not have the ability to conduct conference calling. LISTING OF TELEPHONE NUMBERS LOCATION NUMBER Control Room (CR) (Simulator) 7699.7512 Control Room (CR)(NWE Simulator) 3019 7654 Control room (CR) 8460 Technical Support Center (TSC) 8738 Operations Support Center (OSC) 8726 Media Center (MC) 617-424-5619 Corporate Information Center (CIC) 4599 Prudential Center Board Room 2201 DIALING INSTRUCTIONS TO THE EOF LEAD CONTROLLER r OFFICE PORTABLE FROM TQ NUMBER NUMBER CR EOF 73+6663 73+6671 SIMULATOR EOF 73+6669 73+6671 TSC EOF 73+6664 73+6671 OSC EOF 73+6665 73+6671 MC EOF 6666 6671 CIC EOF 6667 6671 CSC EOF 6668 6671 PPC EOF 6670 6671 DIALING INSTRUCTIONS TO INDIVIDU AL FACILITIES FROM T_Q NUMBER CR TSC OSC. EOF, PRU 72-XXXX PRU CR. TSC. OSC 82-XXXX PRU EOF XXXX Exercise /ContrNet
DR!LUEXERCISE CHRONOLOGY RECORD l O DnlVExercise Contro:ler b' or Evaluator Name: Date DnlUExercise Number: Assigned Location and Function
- 1. Drill controllers and evaluators use this sheet to record important events and comments during the dnlUexercise.
- 2. The notes on this sheet should bit used when completing the Controller / Observer Evaluation Report Sheet.
Page 1 of Time Eve 99 Comments
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_ _ . .- . . - - - _ _ . . -_ - =. . - - - PILGRIM NUCLEAR POWER STATION Emergency Preparedness Function Attendance Sheet TYPE /NO 1997 Evaluated Exercise /97 06 DATE- 11/05/97 LOCATION: TIME: NAME SIGNATURE SOC SEC # PLAYER POSITION (Please Print) I ee - O- _ guus LY-
Boston Edison Company Pilgnm N'iclear Power Station p Emergency Preparedness O DEBRIEFING CHECKLIST Facility:. Facility Lead Controller: (Sim. OSC, TSC. EOF, MC. CIC. CSC) Date: Onll/ Exercise No ,
- 1. All objective were met Yes No Comments:
- 2. Players uti;ized applicable procedures Yes No Comments:
- 3. Equioment or facility denciencies Yes No
( ) Commerits:
%J
- 4. Major problems encountered Yes No Comments:
- 5. Emergency Response personnel roivated the facilities in a timely manner Yes No TSC, OSC, EOF within 1 hour Yes No MC, CIC within 2 hours Yes No Comments: ,
O 1
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I Boston Edison Cc mpany Pilgnm NL '8 ear Powar Station
- . Emergency Preparedness O 6. : Dose assessment functions accomplished in a timely manner Yes No Comments-l 7. Communications initial notifications made within 15 minutes Yes No
. Followup notifications made hourfy Yes No Comments:
- 8. Command and Control Each Facility Leader maintained command Yes No
- and control of their facility by initiating, coordinating,
_(- and implementing timely and effective actions Comments:
- 9. Other Comments:
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