Latest revision as of 06:01, 16 January 2025

Text

Written Exam Reference Material
	ML033570032
Person / Time
Site:	Hope Creek
Issue date:	04/01/2003
From:	Alan Blamey; NRC/RGN-I/DRS/OSB
To:	Conte R; NRC/RGN-I/DRS/OSB
	Conte R
References
	50-354/03-301
	Download: ML033570032 (163)
	v • d • e

ECG Section ii Pg 1 of5 AAAG AC ADS ALARA APRM A RI ARM ASAP ASM AS ATWS BKGD BKR BNE CACS CAS CCPM CEDE CDE CFR CIS CNTMT CP CPM CR CREF CRIDS CRD css DC DAPA CDE DEI DEMA DEP HOPE CREEK EVENT CLASSIFICATION GUIDE Glossary of Acronyms & Abbreviations Section ii Accident Assessment Advisory Group (Delaware)

Alternating Current Automatic Depressurization System As Low As Reasonably Achievable Average Power Range Monitor Alternate Rod Insertion Area Radiation Monitor As Soon As Possible Administrative Support Manager Administrative Supervisor Anticipated Transient Without Scram

Background

Breaker (electrical circuit)

Bureau of Nuclear Engineering (NJDEPE)

Containment Atmosphere Control System Central Alarm Station Corrected Counts per Minute Committed Effective Dose Equivalent Committed Dose Equivalent 4

Code of Federal Regulations Containment Isolation System r-I -

~

Containment (Bamer)

U I

Control Point Counts Per Minute I

> I e

Control Room Control Rmm Emergency Filter System Control Room Integrated Display System Control Rod Drive Core Spray System

. a -

I Direct Current Drywell Atmosphere Post Accident (Radiation monitor)

Deep Dose Equivalent Dose Equivalent Iodine Delaware Emergency Management Agency Department of Environmental Protection (NJ)

HCGS Rev. 00

DID DLD DOE DOT DPCC/DCR DPM DRCF EACS EAL EAS EC ECCS ECG EDG ED0 EMRAD ENC ENS EOC EOF EOP PA EPA EPC EPIP EPZ EQPT ERDS ERM ERO ESF ESSX FC FFD FRVS FTS GE HCLL HCGS ECG Section ii P g 2 o f 5 Direct Inward Dial (phone system)

Drywell Leak Detection Department of Energy Department of Transportation Discharge Prevention, Containment, & Countermeasures/

Discharge Cleanup & Removal Plan Disintegrations per Minute Dose Rate Conversion Factor ESF Equipment Area Cooling System Emergency Action Level Emergency Alert System (Broadcast)

Emergency Coordinator Emergency Core Cooling Systems Emergency Classification Guide Emergency Diesel Generator Emergency Duty Officer Emergency Radio (NJ)

Emergency News Center Emergency Notification System (NRC)

Emergency Operations Center (NJ & DE)

Emergency Operations Facility Emergency Operating Procedure Emergency Preparedness Advisor Environmental Protection Agency Emergency Preparedness Coordinator Emergency Plan Implementing Procedure Emergency Planning Zone Equipment Emergency Response Data System Emergency Response Manager Emergency Response Organization Engineered Safety Feature Electronic Switch System Exchange (Centrex)

Fuel Clad (Barrier)

Fitness For Duty Filtration, Recirculation, and Ventilation System Federal Telecommunications System (NRC)

General Emergency Heat Capacity Level Limit Hope Creek Generating Station HCGS Rev. 00

HCTL HEPA HPCI HTV HVAC HWCI HX IAW IC ICMF IDLH IRM I/S KI KV LAC LCO LDE LEL LLD LOCA LOP LPCI LPZ MCR MDA MEA MEES MET M.O.U.

MRO MSIV MSIVSS MSL NAWAS NCO NDAB NE0 NETS Heat Capacity Temperature Limit High Efficiency Particulate Absorbers High Pressure Coolant Injection Hardened Torus Vent Heating, Ventilation & Air Conditioning Hydrogen Water Chemical Injection Heat Exchanger In Accordance With Initiating Condition Initial Contact Message Form Immediately Dangerous to Life and Health Intermediate Range Monitor In Service Potassium Iodide Kilovolt Lower Alloways Creek Limiting Condition for Operation Lens Dose Equivalent Lower Explosive Limit Lowest Level Detectable Loss of Coolant Accident Loss of Offsite Power Low Pressure Coolant Injection Low Population Zone Main Control Room Minimum Detectable Amount Minimum Exclusion Area Major Equipment & Electrical Status (Form)

Meteorological Memorandum of Understanding Medical Review Officer Main Steam Isolation Valve Main Steam Isolation Valve Sealing System Main Steam Line National Attack Warning Alert System Nuclear Control Operator Nuclear Department Administration Building (TB2)

Nuclear Equipment Operator Nuclear Emergency Telecommunications System ECG Section ii P g j of5 HCGS Rev. 00

NFE NFPB NJSP NOAA NPV NRC NS S NSSSS NSTA NUMARC N W S OBE OCA ODCM OEM OHA OPCON OSB osc PAG PAR PASS PC PCIG PCIS PS IG RAD RAL RC RCA RCAM RCIC RCS RHR RM RMO RMS RPS RPV RRCS RPS ECG Section ii P g 4 o f 5 Nuclear Fuels Engineer Normal Full Power Background New Jersey State Police National Oceanographic and Atmospheric Administration North Plant Vent Nuclear Regulatory Commission Nuclear Shift Supervisor Nuclear Steam Supply Shutoff System Nuclear Shift Technical Advisor Nuclear Management and Resources Council National Weather Service Operating Basis Earthquake Owner Controlled Area Offsite Dose Calculation Manual Office of Emergency Management (NJ)

Overhead Annunciator Operating Condition Operational Status Board (Form)

Operations Support Center Protective Action Guideline Protective Action Recommendation Post Accident Sample System Primary Contain men t (Barrier)

Primary containment Instrument Gas System Primary Containment Isolation System Pounds Square Inch Gauge Radiation Reportable Action Level Reactor Coolant Radiologically Controlled Area Repair and Corrective Action Mission Reactor Core Isolation Cooling Reactor Coolant System (Bamer)

Residual Heat Removal (Containment Heat Removal)

Recovery Manager Recovery Management Organization Radiation Monitoring System Radiation Protection Supervisor Reactor Protection System Reactor Pressure Vessel Redundant Reactivity Control System HCGS Rev. 00

RS M RWCU SACS SAE SAM SAS SBO SCBA SCP SDE SDM SLC SJAE SNM SNSS sos SPDS SPV SRM SRPT SRV SSCL SSE ssws SSNM TAF TDR TEDE TIP TLV T/S TSC TSS TSTL TSTM UE UFSAR UHS USCG VDC WB Radiological Support Manager Reactor Water Cleanup (System)

Safety Auxiliaries Cooling System Site Area Emergency Severe Accident Management Secondary Alarm Station (Security)

Station Blackout Self Contained Breathing Apparatus Security Contingency Procedure Shallow Dose Equivalent Shutdown Margin Standby Liquid Control Steam Jet Air Ejector Special Nuclear Material Senior Nuclear Shift Supervisor Systems Operations Supervisor (Security)

Safety Parameter Display System South Plant Vent Source Range Monitor Shift Radiation Protection Technician Safety Relief Valve Station Status Checklist Safe Shutdown Earthquake Station Service Water System Strategic Special Nuclear Material Top of Active Fuel Technical Document Room Total Effective Dose Equivalent Traversing Incore Probe Threshold Limit Value Technical Specifications Technical Support Center Technical Support Supervisor Technical Support Team Leader Technical Support Team Member Unusual Event Updated Final Safety.4nalysis Report Ultimate Heat Sink United States Coast Guard Volts Direct Current Whole Body ECG Section ii Pg5of5 HCGS Rev. 00

pl, 3

ANY SRV is determined to be Stuck Open Initiating Condition OPCON EAL #

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_ _ I Action Required 1.l.l

.a IF Reactor Coolant Sample Activity

> 4 pCi/gm Dose Equivalent 1-131 I

r..

F) 1.0 Fuel Clad Challenge 1.1 RCS Activity Fuel Clad Degradation

~

Valid Offgas Pretreatment Radiation Monitor (9RX62 1 / 9RX622)

High Alarm Condition

( 2 2.2E+04 mRem/hr)

L

. I----

(

1,2,3,4 )

I

.l.l

.c IF Valid Main Steam Line Radiation Monitor High High Alarm Condition

( 2 3 times Normal Full Power Background)

Refer to Attachment 1 UNUSUAL EVENT..

AND

/r NOTE:

Refer to Section 3.0, Fission Product Barrier Table prior to Event Classification

~

+

IiCCiS liCG R W no I or I 1,2,3 1

1.1.2 I

Refer to Attachment 2 ALERT

m x s ECO Rev. 00 Pagc I of I 2.0 RCS Challenge 2.1 RCS Leakage RCS Leakage Initiating Condition

( --Tz-)

2.1 -1.b IF Reactor Coolant System Unidentified Leakage

> 10 gpm (Using 10 minute average)

('

1, 2, 3 1

(

1,2, 3

)

2.1.l

.a IF Reactor Coolant System Pressure Boundary Leakage

> 10 gpm (Using IO minute average)

I OPCON 2.1.1.d IF Successful Isolation of a Reactor Recirc Pump Dual Seal Failure within 10 minutes of recognition I

2.1.l

.c IF EAL ##

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-.I Reactor Coolant System Identified Leakage

> 25 gpm averaged over any 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months period I

1.-

THEN NOTE:

Refer to Section 3.0, Fission Product Barrier Table prior to Event Classification

_ _ _ _ -~

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i Action Required Refer to Attachment I UNUSUAL EVENT

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.-I Ini tiat ing Condition OPCON EAI, #

Action Req u ired Otlicr Coiiditions Exist

~

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Wliicli In the Judgiiient ol'tlie Ihicrgcncy Coordinator Warrant I )cciiiriitioii ol'ilii IJn\\lstial Evcnt. '

i.

All 4.1.1 -

IF I

Events are in progress or

, have occurred which, in the judgment of the Emergency I

Coordinator, indicate a i

I'otcnthl Degradation of I'lii~lt Safety THEN 1

Refer to Attachment 1 1

UNUSUAL EVENT 4.0 E C Discretion 4.1 Emergency Coordinator Discretion

-- - - _ _ ~

r Other Conditions Exist Which hi the Judgment oftlie llmcrgeiicy Coordinator Warrant Dtclaratioti ol' an Alert -

i All 4.1.2 IF I

I I

Events are in progress or have occurred which, in the judgment of the Emergency Coordinator, indicate EITt iER one of the following:

Plant safety systems (more than one) are or may be degraded ANY Plant Vital Structure is degraded or potential I y degraded I

AND Increased monitoring of Safety Functions is warranted i THEN I __

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

Refer to Attachment 2 ALERT

,' Othcr Conditions Exist Which '\\

hi the Jtidgment of the Emergency Coordinator Warrant Declaration a Site Area Eiiicrgency 1'

i All

')

4.1.3 IF I

1 I Events are in progress or have occurred which, in the judgment of the Emergency Coordinator, indicate an Actual or likely major failure of plant functions needed for protection of the public THEN Rcfer to Altachincnt 3 SITE AREA EMERGENCY

..I

,'<7

\\

4 HCGS ECG Kcv. 00 Pagc I of 1

,,-- Other Conditions Exist Wlirch hi the Judgment of the Emergency a General Emergency Warrant Dcxlaration of

\\- __

(---Am 4.1.4 IF Events are in progress or have occurred which, in the judgment of the Emergency Coordinator, indicate an Actual or imminent substantial core degradation with the potential for loss of containment THEN Refer to Attachment 4 GENERAL EMERGENCY'

IICGS ECG Rev. 00 Page 1 of 1 5.0 Failure to Scram 5.1 ATWS Failure of the Reactor Protection System (E?).\\,

Failure of tlic Reactor Protection Systcm (RPS) to Successliilly Complete a Reactor Scrim (Automatic or Manual)

/ Failure of the Reactor Protection --

System (RPS) to Successfully Complrte a Reactor Scram (Automatic and Manual) and Rcactor Power is above 4%

~

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to Successliilly Complete a Reactor Scram (Automatic and Manual) and there is indication o l an

\\. Estreme Challenee to the Ability to Cool thc Core i

Initiating Condition I

Action Required i

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.=.-.--....

('

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5.1.2.b IF OPCON EAL #

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I IF An Automatic Reactor Scram Condition exists 1 AND ANY Manually Initiated Reactor Scram (RPS) from the Control Room IS NOT successful An Automatic Reactor Scram (RPS) IS NOT successful r

1 ALL Reactor Scram attempts

..... 1 from the Control Room (RPS and ARI) DID NOT AND 1 L

r--

REDUCE and MArNTAIN Reactor Power to 5 4%

EITHER one of the following:

Reactor Water Level CANNOT BE MAINTAINED > -190" The combination of Suppression Pool Temperature and RPV Pressure CANNOTBE MAINTAINED belowthe HCTL Curve I

THEN AND

. I 1 THEN

~......

Refer to Attachment 4 GENERAL EMERGENCY

~-

Refer to Attachment 3 SITE AREA EMERGENCY Refer to Attachment 2 ALERT

6.0 Radiological Releases/Occurrences 6.1 Gaseous Effluent Release

~-

_ _ ~

~

Any Unplanned Release of Gaseous Radioactivity to Initiating Condition Any Unplanned Rclcase of Gaseous Radioactivity to Environncnt hat the hdiological Technical Specifications for 60

- tiiinutcs or longer i

the Environment that Esceeds 2 limes the IOCFR20. Appcndis B limits for 60 minutes or longer

~

OPCON EAL ##

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. I Act io 11 Required 6.1.l

.a 6.1.1.b Field Dose IF Measured IF

,ssessment Dosc Assessment ilidiciilcs EITHER one of the following

I( tlic MEA or beyond

IS c;ilcul;ilcd on IllC SSCL

TEDE -I-D;iy DOSC

> 2.OE-01 mUem Thyroid-CDE Dose

> 6.NE-Ut mRem based on Plant Vent cfllucnt SiaIiiPlC analysis and NOT on a default Noble Gas IO lodine Riitio 05% !%!!e_.

Dosc Rate measured at lire Prolccrcd Area Bound;rry or beyond EXCEEDS

.OS mRem/hr above nornial biickground 6.1.1.c Sample IF

!%&s Gaseous effluent release saniplc analysis for ANY onc of the follo\\ving indicates it concentration o t FUVS:

> 1.13E-03 pCi/cc Total Noble Cas

> 2.71E-07 pCi/cc 1-131 NPV:

> 2.43E-04 pCilcc Total Nuhle Cas

> 5.81E-08 pCi/cc 1-131 SPV:

> 2.27E-05 pCi/cc Total Noble Cas

> 5.44 E-09 pCilcc I-13 I

(

,411 6.1.1.d Alarm IF ndtcatms Valid High Alarm received from ANY onc of tlic following Plant Effluent RMS Chiinncls FUVS Noble Cas (Grid 1/3, 9RX6XO)

NPV Nohle Cas (Grid 1/3; 9RX590)

NPV Iodine (Grid 3, 9RX601)

SPV Noble Gas (Grid 1/3; 9RXSXO)

SPV Iodine (Grid 3; 9RX605)

HTV Nohle Gas (Grid 3,9RX5 16)

[ AND Tolal Plant Vent release rate EXCEEDS EITHER ollc or tile roiiowlllg illlllls 4.80Ei-03 @/see Total Noble Cas 1.15EHO pCilscc I-I31(NPV L SIVONJJ) - -

I - - -

.T-........................

AND 1-Dose Assessment results NOT available I

-r-----

_ _ ~ _

J 1 AND rRelease is ongoing for 2 60

.- minutes]

. __ piGI 1

Refer to Attachment I UNUSUAL EVENT

.J

6.0 Radiological ReIeasedOccurrences 6.1 Gaseous Effluent Release Valid High AIarni rcccived froin ANY oiic of tlic following Plant ElTluent RMS Chaniwls:

FRVS Noble Cas (Grid 1/3; YRXG80)

NPV Noble Cas (Grid 1/3; YRX590)

NPV Iodine (Grid 3; YRX601) liCGS ECti Rev. 00 Page 2 of 4 I

Any Unplanned Release of Gaseous Radioactivity to the Environtnent that Evcecds 200 tinies the IOCFRZO, Appendix B limits for 30 minutes or longer Any Unplanned Release of Gaseous Radioactivity

( Eiiviroriiiient that Exceeds 200 Times the Radiological Tccliiiical Spcctficatrons for 15 intiiutcs or longer, Initiating Condition OPCON EAL #

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6.1.2.a Dose IF lgsessrnent Dosc Asscssiiient OIIC of tlic Tollowing at rlic MEA or bcyond iis c;ilcul;ilcd on IllC SSCL:

iiidiciilcs EITHER TEDE +Day Dosc

> Z.OE+OI niRem Thyroid-CDE Dosc 2 6.8E+01 mRem b;iscd on Pl;itit Vcnt cflluciit sample analysis and m T o n a dcEiull Noblc Giis IO Iodine Rirtio I

(

All )

6.1.2.b 6.1.2.c Field Measured IF Sample IF lEe_Rak-Dose Rate measured at the Protected Area Boundary or beyond EXCEEDS 5 mRem/hr nalysis Gaseous emucnt rclcase samplc analysis for ANY one of the rollowiiig indicates a concentration of FRVS:

2 l.13E-01 pCi/cc Total Noble Cas

> 2.71E-OS pCi/cc 1-131 NPV:

> 2.13E-02 pCi/cc Total Noble Cas 2'5.81E-06 pCi/cc 1-131 SPV:

> 2.27E-03 pCi/cc Total Noble Cas

> 5.11E-07 pCi/cc 1-131 I

I AND

[ Dose Asscssment results NOT available

... _- _. 7 AND _-

Release is ongoing for 2 30 minutes 1 Act ion Required Refer to Attachment 2 ALERT

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Initiating Condition OPCON EAL ##

6.0 Radiological Releases/Occurrences 6.1 Gaseous Effluent Release ttccis ECG Hcv. 00 Page 3 of4 Boundary Dose Rcsulting from an Actual or Imminent Release of Gaseous Radioactivity Exceeds 100 mrcm Total Effcctivc Dose Equivalent (TEDE) or 500 mRcm Thyroid CDE Dose for the actual or projected duration of the release

.~

(

AN

)

6.1.3.a Dose IF

,ssessrnen_t Dosc Assessment indicatcs EITHER onc of tlic following ai ilic MEA or bcyond iis calculated on thc SSCL TEDE -+-Day DOSC

> I,(IE+O2 mRcm Thyroid-CDE Dose L S.OEi-02 mRcm briscd on Plant Vcnt effluciit siilliplc analysis arid NOT 011 a dchult Noblc Gas to lodlllc Rilllo

(-'-Gi-- -)

6.1.3.b Field Measured IF PSB R&-

Dosc Ratc nicasured at thc Protectcd Arca Boundary or bcyond EXCEEDS 100 mRein/hr L A N D Release is espccted to continuc for 1 15 minutes I.... -

('---AT>

- -_ -a 6.1.3.c Field Survey IF 7alYgls_

Analysis of ficld survcy samples at the Protcctcd Arca Boundery indicatcs EITHER onc of the following.

> J.36E+02 CCPM

> 3.85E-07 pCi/cc 1-131

.- I THEN I

(

All

')

6.1.3.d

. -./

Alarm IF dications Valid High Alarni rcccivcd from ANY one of [tic following Plant Eflucnt RMS Channcls:

FRVS Noble Cas (Grid 1/3; 9RX6XO)

NPV Noble Cas (Grid I/B; 9RXS90)

SPV Noble Cas (Grid 113; 9RX580)

HTV Noble Gas (Grid 3; 9RX.5 16)

]

Total Plant Vciit rclcasc ralc EXCEEDS 7.6E+07 pCi/sec Total Noble Cas 1

Dose Asscssnicnt results availablc AND

~

.~

AND I AND Release is ongoing for 2 15 minutes I 1

J Action Required Refer to Attachment 3 SITE AREA EMERGENCY

6.0 Radiological ReleasedOccurrences 6.1 Gaseous Effluent Release IICOS ECG Rev. 00 Page 4 of 4 Boundary Dose Resulting from an Actual or Imminent Release of Gaseous Radioactivity Exceeds 1000 mrem Total Effective Dose Equivalent (TEDE) or 5000 mRem Thyroid CDE Dose for the actual or projected duration of the release

.-._____I.__..._._

Initiating Condition OPCON EAL ##

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- 1 Action Required

(

All

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6.1.4.a Dose IF issessrnent Dosc Asscssincnl iirdicatcs EITHER oiie of the following iil tlrc MEA or bcyond

IS ciIlctilittCd 011 the SSCL:

TEDE l-Da\\ DOSC 2 t.OE+03 mRem Thyroid-CDE Dosc 2 S.OE+03 mRem based on Plant Vent effluent s;iarplc ;iiialysis and 011 lodiirc Ralio

I dcfili1lI Noble Gi\\s IO 6.1.4.b Field Measured IF me Rate Dose Rate measured at the Protected Area Boundary or beyond EXCEEDS 1000 mRem/hr

] AND Release is espcctcd to continue for L IS minutes I

r j

L _ - -

6.1.4.c Field Survey IF nak?!??

Analysis of field survey SilIIIples at the Protected Area Boundaiy indicates EITHER one of tltc following.

>1.36E+03 CCPM

> 3.8SE-06 pCi/cc 1-131

(-Ai;

-)

6.1.4.d Alarm IF idications Valid High Alarm received from ANY otic of tltc following Plmt Effluent RMS Channels:

FRVS Noble Gas (Grid 1/3; YRX6XO)

NPV Noble Gas (Grid 1/3; 9RX590)

SPV Noble Cas (Grid 1/3; YRXSXO)

HTV Noble Gas (Grid 3; Y R X S 16) 1 AND

.-.I..

7.6Ei-08 pCi/sec Total Noble Cas

[ Dose Assessment results available.

.... - L A N D I Release is ongoing for 2 15 minutes I

.-I

...J L

Refer to Attachment 4 GENERAL EMERGENCY THEN

- _. _ _ _ ~ -

II -

6.0 Radiological ReleasedOccurrences 6.2 Liquid Effluent Release

-~

Valid Cooling Tower Blowdown Effluent Radiation Monitor High Alarm Condition Initiating Condition OPCON EAI, #

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Action Required Any Unplanned Release of Liquid Radioactivity to the lhviroiuneiit that Esceeds 2 Tiiiies the Radiological TLxhiical Specifications for 60 minutes or longer

(,411

)

T--

Any Unplanned Release of Liquid Radioactivity to the Eiiviroiunent that exceeds 200 'limes Radiological

(

'I'wluiical Spcciiicatioiis for 15 minutes or longer

\\

6.2.1 6.2.2 AND - - _-

Sample analysis of liquid effluent indicates concentration in excess of 2 times Tec ti 11 ical Spec ilica tion lini i ts 1 AND

..I

. I.. ______

-1 Release continues for 2 60 minutes after the alarm occurs J

1 THEN

........J

. t.

Refer to Attachment 1 IJNUSUAL EVENT AND I

j Sample analysis of liquid emuent indicates I

I i

Technical Specification liniits concentration in excess of 200 times I I 1

-]:."D I

1 Release continues for 2 15 minutes after the alarm occurs 1 THEN J

I - - - - -

L Refer to Attachment 2 ALERT

Initiating Condition OPCON EAL #

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.-I Action Required 6.0 Radiological Releases/Occu rrences 6.3 In-Plant Radiation Occurrences HCGS F.CG Rev. 00 Page 1 of 1 7%

(

Unplanned Increase in Plant Radiation 6.3.1 IF Unplanned rise in radiation levels inside the Protected Area

> 1000 times normal as indicated by EITHER one of the following:

' Permanent or portable Area Radiation Monitors

' General Area Radiological Survey THEN r -- --

Refer to Attachment 1 I

UNUSUAL EVENT Release of Radioactive Material or increases in Radiationlevels within the facility that impedes operation of systems required to maintain

__ safe operations or to establish or maintain ____

Cold Shutdown

('A117 6.3.2.a IF Unplanned Dose Rates

> 2000 mRem/hr in ANY area of the plant which requires ACCESS to maintain plant safety functions (EXCLUDTNG the Main Control Room and CAS) as indicated by EITHER one of the following:

1 Permanent or portable Area 0 General Area Radiological Survey Radiation Monitors 6.3.2.b IF Unplanned Dose Rates

> 15 mRem/hr in EITHER one of the following Main Control Room Security Central Alarm Station (CAS)

-- i-"

J I

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Refer to Attachment 2 ALERT

Initiating Condition OPCON EAL #

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Act ion Required 6.0 Radiological Releases/Occu r rences 6.4 Irradiated Fuel Event Unplanned Increase in Plant Radiation

(

5.j 6.4.1.a IF Uncontrolled water level drop in the Reactor Cavity as indicated by EITHER one of the following:

' Visual Observation

' Reactor Water Level Shutdown Range Level Indicator 1 BBLI-R605 i

6.4.1.b IF I

Uncontrolled water level drop in the Spent Fuel Pool as indicated by Valid Fuel Pool Low Level Alarm Condition I

I AND

. I 1.

Visual Obsenation I

1 I

THEN liC0S ECG Rev. 00 Page I of2 I

Refer to Attachment I UNUSUAL EVENT

HCGS ECG Rev. 00 Page 2 of 2 Initiating Condition

-~

Major Damage to

(

Irradiated Fuel OPCON EAL ##

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I Action Required 6.4.2.a IF Major Damage to Irradiated Fuel has occurred A AND Valid High Alarm received from ANY one of the following RMS channels: -

' Refbel Floor Exhaust Channel A (9RX627)

' Refbel Floor Exhaust Channel B (9RX628)

' Refhel Floor Exhaust Channel C (9RX629)

I-----

6.0 Radiologic,. Releases/Occurrences 6.4 Irradiated Fuel Event Events that have or may result in uncovering Irradiated Fuel outside the Reactor Vessel

( All 6.4.2.b IF Unplanned rise on ANy one of the following Area Rad Monitors or by general area rad survey indicates

> 2000 mRem/hr:

' Spent Fuel Storage Pool Area (9RX707)

' New Fuel Criticality Storage Channel A (9RX6 12)

' New Fuel Criticality Storage Channel B (9RX6 13) 6.4.2.c IF Visual observation of Irradiated Fuel uncovered I

THEN Refer to Attachment 2

---I

IICGS ECG Kcv. 00 Page I Of2 7.0 Electrical Power 7.1 Loss of AC Power Capabilities

~.

1.0~s olAll Offsitc Power AC power capability to Vital Buses reduced to a Single Power' Shutdown or Refueling for greater

_ _ than

~ IS niiriute5

_ _ ~ _ _ _

Loss of All OlTsite Power and All Onsite AC

(

tu vital 13uses for greater ) ( Source for greater than 15 minutes such that any additional single) ( Power to 4. I6 KV Vital Buses during either in Cold )

fiailurc would result in a complete loss of all 4.16 KV Vital Buses

..A '

Initiating Condition tlian 15 minutes OPCON

(

All 1

EAI, #

7.1.1 1

IF I

Unplanned Loss of I

I Service Transformers I

I 1AXS01AND1BX501 to I

i 4.16 KV Vital Buses E

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1 Power from Station R

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I V

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r S

I 0 1 I

I 1

-. J Action Required 1

> 15 minutes have elapsed 1 THEN 1

-1 Refer to Attachment 1 UNUSUAL EVENT

(

1, 2, 3 )

7.1 -2.a IF Loss of 4.16 KV Vital Bus Power Sources (Offsite and Onsite) which results in the rvailability of ONLY one 4.16 KV Vital Bus Power Source (Offsite or Onsite)

( 4, 5, Defueled )

7.1.2.b IF 4.16 KV Vital Buses are deenergized L.

I AND

> 15 minutes have elapsed I

THEN Refer to Attachment 2 ALERT

Initiating Condition OPCON EAL #

I M

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I Action Required 7.0 Electrical Power 7.1 Loss of AC Power Capabilities Loss of All Offsitc Powcr and All Onsite AC Pow& to All Vital AC Buscs during either Power Operation, )

Startup or Hot Shutdown for grcatcr than 15 niinutcs I

(

i 1,2,3

)

7.1.3 IF ALL 4.16 KV Vital Buses are deenergized I

I I

1

> 15 minutes have elapsed THEN I ICOS ISCG Rev. 00 Page 2 Of 2

'1, 2, 3 7.1.4.a

)

Prolonged Loss of All Offsitc and Onsitc AC Powcr to All Vital AC Buscs AND t

1,2, 3 1

7.1.4.b AND I

I I

Restoration of Power to at least one 4.16 KV Vital Bus within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months is NOT likely 1

THEN I

Loss of any 2 Fission Product Barriers has occurred or is Imminent I

I THEN 4

Refer to Attachment 3 I

I SITE AREA EMERGENCY I

Refer to Attachment 4

~

GENERAL EMERGENCY

Initiating Condition OPCON AND EAL #

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I 7.0 Electrical Power 7.2 Loss of DC Power Capabilities

)

Unplanned Loss of All Vital 125 VDC Power during either

( Cold Shutdown or Reheling Mode for greater than 15 minutes

( 4, 5, Deheled )

7.2.1 IF I

i I

Unplanned degraded voltage condition for such that voltage is < 108 VDC Vital 125 VDC Buses,

> 15 niinutes have elapsed I

1 THEN Action Required Refer to Attachment 1 UNUSUAL EVENT I

)

Unplanned Loss of All Vital 125 VDC Power during either Power

, Operation, Startup or Hot Shutdown for greater than 15 Minutes i

(---,

3

)

7.2.3 IF I

I Unplanned degraded voltage condition for such that voltage is < 108 VDC Vital 125 VDC Buses, 1...

I 1

I 1 AND

> 15 minutes have elapsed I

Initiating Condition OPCON EAL #

E

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N c Y

A C

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0 N

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L S

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1 I

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1 Action Required 8,O System Malfunctions 8.1 Loss of Heat Removal Capabililty Inability to Maintain the Plant in Cold Shutdown

- ~ _ _ - - __.

(I 4, 5

')

7 8.1.2 IF Unplanned, Complete Loss of systems available to provide Decay Heat Removal functions Technical Specification required I

AND RCS Temperature has risen to

> 200°F (Excluding a <I5 minutes rise

>200°F with a heat removal function restored) -

I............

I.

-1 AND An UNCONTROLLED temperature rise is RAPIDLY approaching 200°F (with NO heat removal function res tored)

I THEN 1

.... ~-

Refer to Attachment 2 ALERT

' Loss of Reactor Water Level -'

that has or will Uncover Fuel in the Reactor Vessel

(

4,s 1

8.1.3.a IF Reactor Water Level (Top of Active Fuel)

REACHES -161" tiCtiS ECti Rev. 00 Page I of I Complete I.oss of Functions Needed to Achieve Cold Shutdown Conditions

.~

1,2,3 8.1.3.b IF Loss of Main Condenser capabilities, as evidenced by an inability to remove Decay Heat from the Reactor Loss of Torus capabilities as evidenced by EITHER one of the following:

Entry into an Unsafe region of ANY one of the following curves:

Heat Capacity Temperature Limit (HCTL) Curve

Heat Capacity Level Limit (HCLL) Curve

Pressure Suppression Pressure (PSP) Curve

SRV Tailpipe Level Limit Curve Insufficient SRV capacity to reduce RPV pressure Refer to Attachment 3 SITE AREA EMERGENCY

8.0 System Malfunctions 8.2 Loss of Overhead Annunciators 1

of Main Control Room Overhead Annunciators Initiating Condition OPCON EAL #

E M

E R c E

N Y

A C

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0 N

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V E

L

s. - 1 1

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1 I

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Action Required THEN

.... I.. -

Refer to Attachment I UNUSIJAL EVENT linplanned Ims of Most or All Control Room Annunciators and a Significant Tramlent is in Progrcls or Compensatory IndiLators are UnaVdlldbk 8.2.2.a A significant t ransieii t*

is in progress I t I

(

I, 2,3 j

_L_--*

8.2.2. b AND BOT! I of the following.

CRIDS SPDS are NOT AVAILABLE I

1 AND 15 minutes have elapsed since the loss of OHAs 1 THEN

_ _..- - f._._

Refer to Attachment 2 ALERT Inability to Monitor a Sigiiilicant 'lruisiait in Progress

. ~..

0.2.3 IF Loss of > 75% of Main Control Room Overhead Annunciators 1 AND A significant transient** is in progress 1 1 AND 13OTH of the following CRIDS SPDS are NOT AVAILABLE r AND I

Main Control Room indications arc NOT ii\\ailiiblc to nioiiitor ANY onc of ttic roiiowing RCS Status Rcaclivity Control ECCS Containment Parameters HEN

.1 I

Refer to Attachment 3 SITE AREA EMERGENCY I

- NOTE: A Significant Transient is based on EC judgment, but includes ias a minimum ANY of the following:

RX SCRAM, LOAD REJECTION >25% POWER, ECCS INJECTION, THERMAL POWER OSCILLATION > I O %.

Initiating Condition OPCON EAI, ##

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Action Required 1

8.0 System Malfunctions 8.3 Loss of Communications Capabililty llnplanned Loss of All Onsitr or Offsite Communications Capabilities

('

All

)

8.3.1.a IF Unplanned loss of ALL ONSITE communications as evidenced by the loss of of the following systems:

Direct Inward Dial System (DID)

' Station Page Systcni (Gaitronics)

' Station Radio System 8.3.1.b IF Unplanned loss of ALL OFFSITE conimunicatio ns as evidenced by the loss of

&of the following syslcnls:

Direct Inward Dial Systcni Nuclear Enicrgency Esss System (Centres)

(DID)

Telephone System (NETS) phone 1 THEN t

Refer to Attachment I UNUSUAL EVENT

8.0 System Malfunctions 8.4 Control Room Evacuation HCGS ECG Rev. 01 Page I of 1 Initiating Condition Mah Control Room Evacuation has been Initiated OPCON -

EAL #

l I

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I s

0 0.4.2 IF Main Control Room Evacuation has been Initiated and Plant Control cannot be established

(

All

)

_F Main Control Room Evacuation has been initiated THEN Action Rea ra ired Refer to Attachment 2 ALERT

~~~~

Refer to Attachment 3 SITE AREA EMFRCFNPY

Initiating Condition OPCON E A L #

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I s

f Action Required 8.0 System Malfunctions 8.5 Technical Specifications

~

Inability to Reach Required Operational Condition within Technical Specification Limits __/.

(

('

1, 2, 3

-j 8.5.1 IF Plant is NOT brought to the REQUIRED Operational Condition within the Technical Specification required time limit 7

-~

~

1 THEN Refer to Attachment 1 UNUSUAL EVENT I

IICciS ECCi Rev. 00 Page I of I

9.0 Hazards - InternaVExternal I

9.1 Security Threats

---I___-__

Security Event in a Plant Vital Area Security Event in a Plant Protected Area Confinned Security Event Which Indicates a Potential Degradation in the Level of Safetv of the Plant Initiating Condition OI'CON EAL #

1 E

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9.1.I IF Con finned security threat directed toward the station as evidenced by ANY -

one of the following:

Credible threat of malicious acts or

~....

destructive device within the Protected Area resulting in SCP-5 implementation Credible intrusion or assault threat to the Protected Area resulting in SCP-5 implementat ion Attempted intrusion or assault to the Protected Area resulting in SCP-7 or SCP-1 I implementation Malicious acts attempted or discovered within the Protected Area resulting in SCP-10 implementation normal plant operations resulting in SCP-8 implementation Protected Area resulting in SCP-IO implementation Hostage/Extortion situation that threatens Destructive Device discovered within the

. ~.....

<- All )

k.

9.1.2 IF Confirmed hostile intrusion or inalicious acts as evidenced by -

ANY one of the following:

Discovery of an intruder(s), armed and violent, within the Protected Area resulting in SCP-6 implementation Hostage held on-site in a non-vital area resulting in SCP-8 implementation Malicious acts attempted or discovered within a Vital Area (which is in the Protected Area) resulting in SCP-IO implementation that does not meet criteria of 9.1.3 9.1.3 IF -

_I__

Confirmed hostile intrusion or malicious acts in Plant Vital Areas that involve actual or likely major failures of dant functions needed for the protection of the public as evidenced by any one of the following:

Discovery of an intruder(s), armed and violent, within the Vital Area resulting in SCP-6 implementation Destructive device discovered in a Vital Area resulting in SCP-IO implementation HCGS ECG Rev. 01 Page I of I Security Event Resulting in Loss of Ability to Reach and Maintain Cold Security event resulting in the actual loss of physical control of EI'I'I4ER one of the following:

Control Room Remote Shutdown Panel Malicious act(s) attempted or discovered in a Vital Area resulting in SCP-10 implementation AND the malicious act(s) is of a magnitude that it SPECIFICALLY results in Damage to ANY one of the following:

TWO OR MORE Trains of a Safety System MORE THAN ONE Safety System Any Plant Vital Structure which renders the structure AND incapable of performing its Design Function Damaged Safety System(s) or Plant Vital Structure is required for the present Operational Condition THEN I I...-..

I THEN

9.0 Hazards - InternaVExternal Initiating Condition OPCON EAI, #

E M

E R

G E

N c Y

A c I

I 0

N L

E V

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S Actioii Required I

I I

1 I

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Fire within the Protected Area Boundary Not Estinguished within 15 minutcs of Dctection i

I All 9.2.1 IF -

(

All 1

9.2.1 IF 9.2 Valid Fire Alami is rcccived iii tlic Main Control Room Rcport of a fire from personnel at the scciic l i

- ~ - - - - I 1-1 AND 1

Fire is \\tithin ANY onc of tlic following Plant Stnicturcs potclitial to aflect Safct? S?stems or Prolectcd Arca Pcrliiiinelit Plant Struclurcs)

(EXCLUDING sni;ill fires Ihiit haw RciicIor Building j

lurbinc Building Control/Aus Building Scnicc Waler Iiit;ikc Stnslirrc Scn icc/R;id Wastc Building Low Lcvcl Radwastc lntcrini Storage Facility I

i 1

I

]-AND i

Fire is NOT estinguished within 15 minutes of I I

I.

i I EITHER one of the following.

i I

Receipt of a Valid Fire Alariii Rcport of a lire from tlic scciir:

f i

THEN t

Refer to Attachment 1 1

1 IJNUSUALEVENT 1

Page I of I Fire Fire Affecting the Operability of Pl;int Safety Systems Required to Establish or Maintain Safe Shutdown

(

All

)

9.2.2 IF Fire within ANY oiic of tlic followiiig Phiit VitA Slructurcs:

Reactor Building Control/Aus Building Scrim W;itcr Intake Structurc Scn icc/Riid W;istc Building 1 AND The Fire is of a niiignitudc tlial I I

SPECIFICALLY rcsiilts iii Ilamage to ANY oiic of llic following.

TWO OR MORE siibsystciiis of a Safety Sjsteni MORE THAN ONE Safety Systeni Any Plant Vila1 Structure which renders thc structiirc incapablc c performing its Design Function I AND Daiiiagcd Safcty Syslcin(s) or Pl;iiiI Vital Stnicture is rcquircd for tlic prcscrit 0pcr;irional Coiidition 1

THEN Refer to Attachment 2 ALERT

Initiating Condition The Explosion is of a niagnitudc that it SPECIFICALLY rcsults i n Damage lo ANY oiic of tlic following I

I OPCON TWO OR MORE subsystcnis of a Safet! Sjstem MORE THAN ONE Saftty Sjstem Any Plant Vital Structurc which renders the structurc incapable of performing its Design Function EAI, #

I I

M I

E l

I I

)

i I

t I.

1 R

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G I

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t s

t Ac tiori Required 9.0 Hazards - InternaVExternal 9.3 Explosion Natural and Destructive Phenomena Atrecling the Protected Arca All

(

9.3.1 IF -

I Confirmed Explosion

\\\\ it hi n thc Protcctcd Arca 1 AND I

Rcpon of visiblc daniagc to Plant equipnicnt or Protected Area Pcrniancnt Plant Structurcs I THEN I

?

Refer to Attachment I UNlJSUAL EVENT i

Explosion Affecting the Operability of Plant Safcty Systenis Required to Establish or Maintain Safe Shutdown 9.3.2 IF Confirmed Explosion within ANY onc of h c foilo\\ving Plant Vital Structures:

I tKx;s EC(;

Rev 00 Page I of I

I ni t ;at ing Condition OPCON Action Required 9.0 Hazards - InternaVExternal 9.4 Toxic/Flammable Gases I

Release of Toxic or Flammable Gases Deemed Detrimental to Safe Operation of the Plant

('

All

\\

9.4.1.a IF I

1 Notification by Local, County, or I State Ofticials for the potential need I

i I

I I

I

~

I 1

to EVACUATE non-essential personnel due to an Offsite Toxic Gas release I I AND SNSS deems evacuation of non-essential personnel is required i i i -

9.4.1.b IF Uncontrolled Toxic Gas release within the Protected Area in ANY area which does not normally require an atmospheric survey or Respiratoty Protection for entry I

(

All

)

9.4.1.c IF IIC'OS 1:u; Kev 00 Page I Of 2 1

llncontrolled Flammable Giis 1

release wit hi n the Protected Area that RESULTS in Flammable Gas concentrations 2SY" of the LEL 1: x c E Ii r) I K G 1

1 AND I

I Routine Plant Operations are IMPEDED based on EITHER one of the following.

Access restrictions caused by the uncontrolled release Personnel injuries have occurred as a result of the release THEN

+

Refer to Attachment 1 UNUSUAL EVENT

Initiating C g n ci i t i on OPCON EAI, #

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I Action Required 9.0 Hazards - InternaVExternal 9.4 ToxidFlammable Cases Release of Toxic or Flammable Gases Within a Facility Structure Which Jeopardizes Operation of Systems Required to Maintain Safe Operations or to Establish or Maintain Cold Shutdown Conditions I

9.4.2.a IF Uncontrolled Toxic Cas release within ANY one of the following Plant Structures Reactor Building Turbine Building (ontrol/Aux Building Service Water Intahe Structure ServicdRad Waste Building

[ AND Toxic Gas concentrations result in ANY one of the following.

An IDLt1 atmosphere Plant personnel report severe adverse health reactions, 1

The Threshold Limit Value (TLV) being EXCEEDED including burning eyes, nose, throat, dizziness

- -I-I. -................

^___....... -.

I

~

i i

~

I I

i I

I I C W ECG Hcv 00 Page 2 o f 2

(

All

\\

9.4.2.b IF Uncontrolled Flammable Cas release within ANY one of the following Plant Structures Reactor Building Turbine Building ConrroVAux Building Service Water Intake Structure Service/Rad Waste Building

- 1 AND

~latnmable Gas concentrations EXCEED 50% of the LEL I AND I

Plant personnel are unable to perform actions necessary to complete a Safe Shutdown of the plant without appropriate personnel protection equipment 1 THEN Refer to Attachment 2 ALERT

9.0 Hazards - InternaVExternal 9.5 Seismic Event I

IlC(iS ECO K C V. 00 Pagc I of I initiating Condition OPCON EAL #

I I

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0 1 M

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Act io 11 Required Natural and Destructive Phenomena Affecting the Protected Area 9.5.1.a IF I

1 j Seismic Event felt by personnel within the I Protected Area I

('

All

)

9.5.1.b IF Valid Actuation of the Seismic Trigger (> 0.01g) has occurred as verified by the SMA-3 Event Indicator (flag) being WHITE on Panel IO-C-673 in the Upper Relay Room t

Ke1i.r to Attachnient 24 i

I UNUSUAL EVEN'I (Common Site) I 1

Natural and Destructive Phenomena Atfecting the Plant Vital Area

(

All

)

9.5.2 I

1 Valid Actuation of the Seismic Switch (> 0.lg) i has occurred as veritied by Ell1 IER one I

of the following:

AND Valid actuation of Main Control Room Overhead Annunciator C6-C4 Power Supply Drawer is lit on Panel IO-C-673 in the Upper Relay Room AMBER Alarm light on the Seismic Switch 1 THEN t

Refer to Attachment 2 ALERI I

I

9.0 Hazards - Internal/External 9.6 High Winds Initiating Condition Natural and Destructive Phenomena OPC'ON

'i

(

i Affecting the Piotected Area All

\\

(

Ail I

9.6.1.a IF Report of a Tornado

'l:OUC11ING DOWN within the I'l-otected Area I

1 N

I 9.6.1.b IF Sustained wind speeds

> 75 MPH for 15 minutes, measured at ANY elevation of the Met Tower I

b I

THEN t

Act ion Required v

Refer to Attachinent 24

' IJNUSIJAL, EVENT (Coninion Site)

Natural and Destructive Phenomena AtTecting the Plant Vital Area

(

All

')

9.6.2 The Wind Speed is of a magnitude that it SPECIFICAL1.Y results in Damage to ANY one of the following:

Rendering ANY of the following structures incapable of perforniing TWO OR MORE subsystems of a Safety Systeni MORE THAN ONE Safety Systeni its Design Function

Reactor Building

Control/Aux Building

Service Water Intake Structure

Service/Radwaste Building I

AND I

Damaged Safety System(s) or Plant Vital Structure is required for the present Operational Condition 4 THEN Refer to Attachment 2 A I.E R'I*

9.0 Hazards - InternaVExternal 9.7 Flooding i

Initiating Condition Internal Flooding in Excess of Sump Handling Capability Affecting Safety Related Areas of the Plant Internal Flooding Affecting the Operabilityof Plant Safety Systems Required to Establish or Maintain Safe Shutdown

(

OPCON EAL #

9.7.1 I

IF I

1 E

l R

1 1

I I

Normal Floor Level ( > I " ) referenced in EOP 103, G

N I

I Greater than 2" of water in ANY area that contains a I

Siifety System(s), not included above

~i I

E l

l Visual Observation of Uncontrolled Flooding that confirms ANY one of the following 1

Reactor Building Floor Levels above the Maximum Secondary Containment Control E

Receipt ofa SSWS Pump Room Flooded Alarm A

1

'I' I

C I

I

(

All

\\

9.7.2 IF Visual Observation of Flooding within ANY one I

I of the following Plant Vital Structures i

Reactor Building ControVAux Building Service Water Intake Structure ServicdRad Waste Building I

I

~

I AND The Flooding is ofa magnitude that it XCIFICALLY results in Daniage to ANY one of the following I

I I i

'TWO

-- OR MORE subsystems of a Safety System 1

1 S

I Action Required I t Refer to Attachment I U N US I1 A L EV EN'I' L

1 MORE I H A N ONE Safety System I

Any of the above listed Plant Vital Structures which renders i

the structure incapable of performing its Design Function 1 AND Damaged Safety System(s) or Plant Vital Structure is required for I

I the present Operational Condition i

I THEN t

A LE 14'1.

i Refer to Attachment 2

lnitiating Condition OPCON EAL #

I I

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1, I

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E t

E Action Required 9.0 Hazards - InternallExternal 9.8 Turbine Failure / Vehicle Crash / Missile Impact HC<IS ECG KW. no Page I of I

)

Natural and Destructive Phenomena Affecting Certain Structures Within the Protected Area Natural and Destructive Phenomena

( Affecting Certain Structures Within the Plant Vital Area j

All 1

9.8.1.a IF I

j Catastrophic damage to the i

j Main Turbine casing Main Turbine as evidenced by EITHER one of the following:

penetration 1)arnage potentially releasing Lube Oil or t iydrogen Gas Main I'urbine/Generator I

to the Turbine Building I I i

\\

I

( - - Ail

)

9.8.1.b IF Vehicle Crash /

Missile Impact with or within ANY one of the following Plant Structures' 1. -

Reactor Building Turbine Building Control/Aux Building Service Water Intake Service/Rad Waste Building Structure I THEN

. 1 Refer to Attachment I UNUSUAL EVENT

[

All

'I 9.8.2 IF I

I Vehicle Crash / Missile Impact with or within i

Control/Aux Building I I I

I ANY one of the following Plant Vital Structures Reactor Building Service Water Intake Structure ServicdRad Waste Building I

I 1 AND l h e Vehicle Crash / Missile Impact is of a magnitude I 1 that it SPECIFICALLY results in Damage to ANY one of the following

~

TWO OK MORE subsystems of' a Safety System MORE THAN ONE Safety System

~

I Any of the above Plant Vital Structures which renders the structure incapable of performing its Design Function I AND Safety System(s) or Plant Vital Structure for the present Operational Condition 4 THEN Refer to Attachment 2 ALERT

Initiating Condition OPCON EAL # -

1 I

E M

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Action Required 9.0 Hazards - InternaVExternal 9.9 River Level Natural and Destructive Phenomena

~.- - - - - -

(

AfYecting the Protected Area 9.9.1.a IF

~

(,

All

)

9.9.1.b IF River Level < 80.0' I 1

. I I

THEN Refer to Attachment 24 UNUSUAL EVENT (Common Site)

. \\

Initiating C'o nd i I i o n OPC'ON I U L, #

I I

'I I

1' I

It I

1 1

(;

I A

I T

I 0

I I'

I 0

I I

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I 1,

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Action i i c q u i i cu 11.0 Reportable Action Levels 11.1 Technical Specifications

~.

INI'I'IA'I'ION 01; ANY 1lNl'l SI l1Jl'l)OWN ItliQUIKlil) IiS '1'1 Ili l'l:Cl INICAI, Sl'liCII~ICh'l'lONS I IOCIzR5U.72(h)(2)(i) 11.1.I

.a IF Unit shutdown is INIIIATEII to comply with

'I'eclinical Speci ticat ions THEN I

Refer to Attachment 14 I

4 i iuiu iicpuii I

I I

I

/ - - -

liXCl3il)lN(j ANY 'I'liCI INICAl, Shl.lI'I'Y I.IMII

[ IOCFR50.36(c)(l),'I'S 6.7.I.aI

\\

(

1, 2,3,4,5 (as applicable in TIS)]

ll.l.l.b IF Exceeding ANY one of the following Technical Specification Safety Limits:

T/S 2.1.1,'I'lIERMAL POWER, Low Pressure or Low Flow

'us THERM THERMAL POWER, tligh Pressure and High Flow T/S 2.1.3, REACTOR COOLANT SYSTEM PRESSURE T/S 2.1.4, REACTOR VESSEL WATER LEVEL THEN I ICGS ECG Ilev. 02 Page I of 2 ANY IXVIA'I'ION I'KOM T/S OR 1,ICLINSII CONI)I'I'ION I'URSUAN'I '1'0 IOCI.X50.54(x) I IOCFR50.72(h)( I)]

c-All-3 11.I

.l.c IF Action required because no action consistent with Technical Specifications or license can provide adequate or equivalent protection in an emergency (See NC.NA-AP.ZZ-0005 (Q) for guidance on deviation from written procedures) 12 1

I THEN

11.0 Reportable Action Levels 11.1 Technical Specifications

~

. i ANY EVENT REQUIRING AN ENGINEERING EVAIAJATION BY TECI INICAL SPECIFICAIIONS OR COMMITMENT VIOLATION OF T H E REQUIREMENTS i

CONTAINED IN THE OPERATING LICENSE Initiating Co ndi t io n

\\,

[TIS 3.4.6.1, 3.4.4,3.7.5]

---e

[JICGS Operating License, Sections 2.FJ

\\

OICON

(--

-All-->

\\

.../

1 I.I

.3.a IF Violation of ANY one of the rcq uircnicnt s contni tied in Scc t ion 2.C ottlic ()pcrating I,icensc l~X(l~1l.

is otlicr\\vise proiidcd in thc Icchnical Spccitications o r Ilti~~irotitiicntal Irotcction Ihn I 1.I

.3.b 1 THEN IF Any of the T/S I.cos li)r JiCS Pros SII re/

Ienipcrature (T/S 3.4.6.1 )

arc exceeded there by requiring an Engineering Eva1 uat ion.

I

( All

)

11.I

.3.c IF The conductivity, chloride concentration or pl1 in the RCS is in excess of its specified limits per T/S 3.4.4 Action Statement C. 1 thereby requiring an Engineering Evaluation All I 1.I

.3.d IF One or more snubbers are tound to be INOIIRAI31,I and have been replaced or restored to an 0 I ERA I3 LE stilt us, an Engineering Evaluation shall be performed per T/S 4.7.54 1

J THEN 1

I ICGS ECG I k v 01 Page I of I 11.0 Reportable Action Levels 1 I.2 Degraded or Unanalyzed Condition 11.2.1 IF 11s judgcd by tlic OS/KI)O, an cvcnt or condition that rcsults in ANY unc ofthc li)llo\\ving:

I tic condition 01' tlic pliirit. iiicluding its principal salkty barricrs, being scriously dcgradcd; The plant being in an unanalyzed condition that significantly degrades plant safety.

J l

I:VEN'I'/CONI~I~I'ION TIIAI COULD IIAVE I'RISVEN'IED CI'RI'AIN SAFETY FUNCI'IONS

[ 10CI:R50.72 (b)(3)(v)]

c--

All 1 I

.2.2.b IF Any event or condition that at the time of discovery could have prevented the fulfillment of the safety function of structures or systems that are needed to pcrform ANY one of the following:

4. Shutdown the reactor and maintain it in a safe shutdown condition

3. Remove residual heat.

2. Control the release of radioactive material D. Mitigate the consequences of an accident THEN THEN 1

~

I n I I

.... n..-....

I I

d

11.0 actuation of the reactor protection system (RPS) when the reactor is critical except when the actuation results from and is part of a pre-planned sequence during testing or reactor operation.

Reportable Action Levels 1 1.3 System Actuations 111 it i at i ng C'ondi tion OI'CON RAL #

It E=

I' 0

H T

I N

(;

A C

T 1

0 N

L E

V E

L S

I I

I

( All 1

11.3.1 IF 2

Valid ECCS Actuation, Manual or Automatic, has or should have occurred I.....

I

-.- AND

~

ECCS results, or should have resulted, in discharge to the vessel 1

AND Actuation is NOT part of a pre-planned sequence during testing or reactor operation.

1 THEN L

rHEN IICGS ECG Ikv. 02 Page I of I

~~

--\\

VAI I I ) A C I ~ I A ~ I O N O ~ I I S ~ ~ I ~ S Y S I I ~ M I XCI P I I'K1 PI ANN1 I) [ 1OC.I IlW 72(b)(3)(iv)(A)I

(\\.-

(-

All -

1

')

11.3.3 IF Any event or condition that results in valid actuation of any system listed in Technical Basis 1 1.3.3 except when the actuation results from and is part of a pre-planned sequence during testing or reactor operation.

I ---

THEN I

4 tiour Kenort I

11.0 Reportable Action Levels 11.4 Personnel Safety / Overexposure

- c - A!!..)

OI'CON ItAL, ##

1 I.4.1 I

IF I

I E:

I j 1'

I I 1 I ~ I ~ I ~ S O N N ~ ~ I,

OVEREXPOSURE or potential I

I A

I c

I

'r I

N l

L I

E l

V I

L I

S I

0 1 I

I I

I E

I A rtinn I<eauired D

for oscrcsposurc as indicated by

--.- ANY one of the folloiving:

'l*Kl)K exposure > - 25 Hem I,DE exposure >

- 75 Hem SI)K exposure > - 250 Item I<elcasc of radioactive material inside or outside of a Kestricted Area so that had an individual been present for 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months the individual could have received > 5 times the occupational ALI (Annual Limit of Intake) which would usually equate to 25 Rem CEDE. This Does N O 1 apply to areas where personnel are NOT normally stationed during routine operations.

I i kiour Kepon I

-2 1

L-.. -!LJ 1 I

.4.2.a IF PERSONNEL OVEREXPOSURE or potential for

)verexposure within a 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months period, as indicated by ANY one of the following:

TEDE exposure > S Rem 1,DE exposure > 15 Rem SDE exposure > SO Item Release of radioactive material inside or outside of a Restricted Area so that had an individual been present for 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months the individual could have received > 1 times the occupational ALI (Annual Limit of Intake) which would usually equate to 5 Rem CEDE.

This Does NO'I' apply to areas where personnel are normally stationed during routine operations.

I

- - - 1 THEN 1

- Refer to Attachment 14 I

I 4 iiuu: iicpuii ONSI'IE FAIAl,l'IY OCFK50.72(b)(2)(xi)]

(-All_)

I I.4.2.b IF Any fatality has occurred within the Owner Controlled Area (OCA)

I THEN

Initiating c'o nd i t i o n O I T O N I<

K 1'

0 It

'I' I

N

(;

A c T

I 0

N L

E V

E L

S I

I I

I 1

I I

I 11.0 Reportable Action Levels 1 1.4 Personnel Safety / Overexposure 11.4.2.c IF I 'I'ransportation of a radioactively contaminated o r potentially contaminated individual t'rotii thc siic to ;in ottsitc nicdical tiicility tiw trcatriicnt 1

~

THEN 1

1 SIGNIFICANT FITNESS FOR

(

EVENTS [ IOCFR26.731 11.4.3.a IF Any event that is determined to be rcportablc by the Medical Review Ot'ticcr (MKO) or designee IAW PSEG 1 iiclear's Fitness for Duty I'rogram NC.NA-AP.ZZ-O042(Q))

AND

............ -1 The reportable details of the event are made available to the OS by the MRO or designee THEN I'I'INIISS lOK INJ'I'Y PROGRAM: FAI.SK I'OSI'I'IVE

'IO AI>MINISIIIAI'IVI.: ERROR (I3L.IND TESl' 13Y IAH)

~

~.

[ IOCI.'R26, AI'I'. A, 2.8(e)(S)]

/

I I

.4.3.b IF The occurrence of a false positive error on a blind lab performance test specimen under 1 OCFR26 as determined by the Medical Review Officer (MRO) IAW I'SEG Nuclear's Fitness for duty I'rogram (NC.NA-AP.ZZ-O042(Q)

I

__ ___ I

__ AND-rTHEN The reportable details of the event are made available to the OS by the MRO or designee T

I1 E

I 0

li I

I N

(;

A C

T I

0 N

L E

V E

L S

I I

-._I 4 rtinn Reauired 11.0 Reportable Action Levels 11.5 Environmental / State Notifications

(-

All --j 11.5.2.a IF Spillldischarge of an industrial chemical or petroleum product outside of a plant structure within the Owner Controlled Area (OCA) that results in EITHER one of the fo I lowing :

Spill / discharge that has passed through the engineered fill and into the ground water as confirmed by licensing Spill / discharge that CANNOT be cleaned up within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months and no contact with groundwater is suspected r--------

~

THEN 11 5 2. b IF EITf IER one of the following events occur:

__. ~

Observation of a spill/discharge of an industrial chemical or petroleum product from on-site into the Delaware River or into a storm drain Observation of an oil slick on the Delaware River from any source Note:

This event MAY require IMMEDIATE

( I 5 minute) notifications. DO -

NOT delay implementation of Attachment 16 1--

THEN Refer !n.Attachment 16 I

Refer tn.4tt2rhment 16 I

I SDiiiiLiiscnarae KeDoninn I

I Sniiilijiscnarrze Keuoninrz I

All 1

L.

I 1 S.2.c IF i s judged by the OSIEDO, -

ANY one of he following events has occurred:

Unusually large fish kill Protected aquatic species impinge on Circulating or Service Water intake screens (eg.; sea turtle, sturgeon) as reported by Site personnel Any occurrence of an unusual or important event that indicates or could result in significant environmental impact casually related to plant operation; such as the following:

+

Onsite plant or animal disease outbreaks Mortality or unusual occurrence o any species protected by the Endangered Species Act of 1973 Increase in nuisance organisms or conditions

+

Excessive bird impactation

+

NJPDES Permit violations Excessive Opacity (smoke)

ITHEN I

[ ---- -.

~

Refer tn,4 tt2rhmPnt I 5 I invironnienrai irotection Pian I

Initiating Condition MODE 11.0 Reportable Action Levels 1 1.6 After-the-Fact I ICGS ECG Ilev. 01 Iilge I of I EMERGENCY CONDITIONS DISCOVERED A FTE R-T t 1 E-FACT rAll--7 I I

.6.1 IF Discovery of events or conditions that had previously occurred (event was NOT ongoing at the time of discovery) which EXCEEDED an Emergency Action Level (EAL) and was NOT declared as an emergency 1

AND More than ONE HOUR has elapsed since the condition occurred I

I 1

I AND I

There are currently NO adverse consequences in progress as a result of the event THEN I

R p f ~ r tn 4 t t d - m m t 1 ?

I I

I t-iour KeDorr I

11.O Reportable Action Levels 11.7 Security / Emergency Response Capabilities IlCGS ECG Rev. 04 Page I of 1 MAJOR LOSS OF EMERGENCY ASSESSMENT CAPABILITY, OFFSITE RESPONSE CAPABILITY, OR COMMUNICATIONS CAPABILITY [ 10CFRS0.72(b)(3)(xiii)]

FEGUARDS EVENTS TI1AT ARE DET TIIENRC WITIllN ONE HOUR [IOCFR TO BE NON-EMERGENCIES, BUT ARE RE OPCON RAL #

I E

l R

f O

I T

I N

I I

P I

R I

I I

G I

I I

A I

I C

I I

I N

I I

I L

I I

V I

I T

I O

f E

l E

l S

I L

f Action Required (T) 11.7.1.a IF Any Non-Emergency safeguards event that is reportable in accordance with 10CFR73.71 as determined by Security (SCP-15)

THEN 1 Hour Report (Common Site)

( T I (7) 11.7.1.b 1 1.7.1.c IF IF OSEC determines that an event(s) (excluding a scheduled test or preplanned maintenance activity) has occurred that would impair the ability to deal with an accident or emergency as indicated by the Loss of ANY one of the following:

Nuclear Emergency Telecommunications System (NETS) for > 1 hr ENS for > 1 hr in the Control Room, TSC, and EOF More than 17 Offsite Sirens for >

1 hr Use of the EOF for > 8 hrs All Meteorological data (Hope Creek AND Salem) for one parameter for > 8 hrs Site access due to Acts of Nature (snow, flood, etc.)

(NIA if reported by the NRC).

I Refer to Attachment 25 Use of the TSC for > 8 hrs SPV, NPV, or FRVS vent radiation effluent monitors with no alternate method of monitoring for > 72 hrs SPDS OR CRlDS for > 8 hrs Concurrent multiple accident or emergency condition indicators which in the judgement of the OS significantly impairs assessment capabilities More than > 75% OHA's Refer to Technical Basis I I.7.1.c for ERD!

OI'C'ON A news release is planned S

I I

Notifications to a Local, State or Federal agency has been or will be made 11.0 Reportable Action Levels 11.8 Public Interest I ICGS ECG Rev. 01 I'age I of I

[JNIJSIJAI. CONI11 I IONS WAKRAN I IN(; A NEWS l<l~l,l.:ASl<

OR N O I IFICA I ION O f GOVI'RNMEN I' AGENCIES [ IOCLK50 72(b)(Z)(ui))

(

A n - )

I I.8.2.a IF I

I OS/III)( 1 judges that iiii cvcnt or situation has occtirrcd IIMI i \\ rcliitcd to ANI' ow of thc l'ollo\\~iiig I tic Iicalth atid sal'cty oftlic public I

'I lie health and safcty of onsitc personnel 1

Protection of the environnicnt I

-I I AND 1

1 1

AND r _........

I I

I I-_

I-I THEN 6NUSUAL-CONDITIONS DIRECTLY AFFECTING

( ALLOWAYS CREEK TOWNSf1IP (LACT) [LAC -MOU]

L-..

( All -. -2 11.8.2.b IF As judged by the OS/EI)O, events which are the responsibility of PSEG Nuclear which have or may result in EITHER one of the following:

Anticipated unusual movement of equipment or personnel which may significantly affect local traffic patterns Onsite events which involve alarms, sirens or other noise which may be heard off-site THEN

Il('(iS I. C X i llev 02 11.0 Reportable Action Levels Page I o f 2 11.9 Accidental Criticality / Special Nuclear Material / Rad Material Shipments - Releases IJNI'IANNISI) / AC'CIL)I:N'I'AI, CII I'I'ICAI,ITY

[ I OCI..R70.52(a)]

i Initiating Condition

\\.,.

OI'CON ItAL #

11.9.1.a It E

I' 0

It T

I N

G A

C T

I 0

N L

E V

E L

S I

IF I

Any unplanned or I

I accidental criticality I

I I

I 1

I I

I -

c

__ AH 11.9.1.b IF ANY one of the following events occur involving Special Nuclear Material (SNM) or Spent Fuel:

Loss, other than normal operating loss, of SNM Actual or attempted theft or unlawful diversion of SNM Shipment of SNM of low strategic significance or Spent Fuel that is lost or unaccounted for after the estimated time of arrival A lost or unaccounted for shipment of SNM of low strategic significance or Spent Fuel has been recovered or accounted for 1

THEN c-

--AT_)

-~

I I.9.1.c IF Lost, stolen or missing licensed material > 1000 times the quantity specified in 10CFR20 Appendix C in such circumstances that an exposure could result to persons in Unrestricted Areas.

THEN

I ICGS rrci I'age 2 of 2 11.0 Reportable Action Levels llev 02 11.9 Accidental Criticality / Special Nuclear Material / Rad Material Shipments - Releases 1

c....

All _ 1 I I.9.1.e IF Rcceipt survey indicates that pack agc con t ani i nat iodr ad i at io r levels equal or exceeds ANY one of the following:

2200 dpm/IOO cm2 200 mWhr on contact 10 mWhr at 3 feet THEN 11.9.2.a IF 4ccidents during the ransportation of radioactive material which are reported to PSE&G as the shipper that involve (or potentially involve) damage to the cargo

^____..-_

c2!!-1 I I.9.2.b IF Discovery of a Contaminated Area OUTSIDE of the RCA with removable activity due to licensed material

_____7____------

,-I--.--.

I AND Location of Area is Plant Structures Size of Contaminated Area is LARGE

(>I 00 FT2) 1 AND I

Location of Contaminated Area is such that a contaminated person or material may have left the Protected Area 1-

. i..

_- ~.

Initiating Condition 11.0 Reportable Action Levels 11.10 Voluntary Notifications I ICGS ECG Rev. 01 Page I of I Events/conditions warrant voluntary/courtesy NRC notification [ 1 OCFR50.72 - Voluntary Report]

i-

\\. -Ai -1 11.10.2 IF In the judgement of the OS, i

notitication to the NKC is warranted I AND

....... - L 1

i 1

NO other I3ALs or RALs appear to be applicable I

L............

THEN r

4 nt:n..

D nn..:rnrl

. ^I...,.n

UNITED STATES NLICLEAR REGULATORY COMMISSICN d

WASHINGTON. D.C. 20555-0001 b

PSEG NUCLEAR LLC DOCKET NO. 50-354 HOPE CREEK GENERATING STATION FACILITY OPERATING LICENSE

'V PSE&G I

License No. NPF-57

1. The Nuclear Regulatory Commission (the Commission or the NRC) has found that:

A.

The application for a license filed by the Public Service Electric &

Gas Company, acting on behalf of itself and Atlantic City Electric Company (the licensees), complies with the standards and requiremencs of the Atomic Energy Act of 1954, as amended (the Act), and the Ccmmission's regulations set forth in 10 CFR Chapter I, and all required notifications to other agencies or bodies have been duly made ;

E. Cons:ruction of the Hope Creek Generating Station (the facility) has Seen subszantially completed in conformity with Construction Pernit Nc. CTPR-120 and :he application, as amended, the provisions of the A=: acd the regulations of the Commission;

?e facility will operate in c3nformi:y with the application, as ariended, :he provisicns zf Eke Ac:,

and the regulations of the Cim.:sslcr, (excep: as exsrr,szed frcm ccmpliance in Section 2.0. below);

-i Z.

,..ere is reascnable asszrdzze: (i) :ha:

the ac:ivities authorized by zperating license can be czrciucted withou: endangering the health and safety 3: the public, a?d

( i i l chat such acEivities will be z=r.5zr=eS in.ccmpliance xizh the C3mmission's regulations set forth in 3 -, Y I L -.

. C CFR Chapter 1 (axcep: as exemp:ed frcm compliance in Sect;=> 2.D.

i I

?255 Ncclear LLf I s tech:zally qxalified r c engage in the activities

,,..,,,zed

- b.

C I by this licezse iz acccrdance with :ne Cmmissioz's F. Tie iicensee has sa=-sfied :he applicable provisions of 10 CFR Par:

. C reralations set fcr:h ir. - J Cti? Chapter I;

. I..

-...r, 'Financial Protec::tr.

ReqGrrements and Indemnity Agreements, " cf the Commission's regula:izns; J. The sssuance of this licezse wifl not be inimical to the common 2efense and security o r :c the health and safety of the public; L

CONTROL COPY # c,/a I

Amendment No. 35?%

13 5

2.

E. After weighing the environmental, economic, technical, and ctner benefits of the facility against environiental m d other coscs an:!

considering available alternatives, the issuance of Facility Operating License No. NPF-57, subject to the conditions,for protection of the environment set forth in ths Environmental Protection Plar. attached as Appendix B, is in accordance with 10 CFR Part 51 of the Commission's regulations and all applicable requirements have been sazisfied; and I. The'receipt, possession, and. use of source, byproduct and special nuclear material as authorized by this license will be in accordance with the Commission's regulations in 10 CFR Parts 30, 40 and 70.

Based on the foregoing findings and approval by the Nuclear Regulatory Commission at a meeting on July 21, 1986, the License for Fuel Loading an2 Low Power Testing, License No. NPF-50, issued on April il, 1986, is superseded by Facility Operating License NPF-57 hereby issued to PSEG Nuclear LLC (the licensee), zc read as follows:

A.

This license applies t3 the Hope Creek Generating Station, a boiling water nuclear reactcr, azZ associated equipment (the facility) owned by PSEG Nuclear LLf. The facility is located on the licensee's site cn the east bank of the "uelaware River in Lower Alloways Creek Township, Salem County, New jersey. The facility is located approximately eight rriles sou:hwest cf Salerr.. New Jersey and is described in the PSEG ar.d i n the Environmertal ?.e-,ort, as supplemented and amended.

Nc-:

-,ear LLC Final Safezj; halysis Repor:,

as supplemented u.d amended,

(:I TSZG Nl;c;zar 11:.

srs: ar.t ts Section 1 3 3 of the Act and 10 CFR

?arz 5 5, T,S p:sress.

ise and opera:o the facility at the abave desig?azed l:caz:cr.

ir. Zaiem Cou'lzy, New jersey, ir. accordance rh*

-..- u,-,e~sres m - - -

.-,,.L.,Lations s s t fcrth ir! this licezse;

: I PSEG Nuclear LLC. c - r s ~ a r. : EO the Act and 13 CFR Part 7 C, zc receive, p:ssess ar.2 -se at any time speciai nuclear material as reactor fuel, :z ac=zr2ar.ze w:th the limitations for storage and amounts reqxre:! f z r reazfof operation, as described in :he F-na:

Safety iinalysis he?:::

as Supplemented and amended; 1

I Amendment No.

135 I

L PSEG Nuclear LLC, pursuant to the Act and 10 CFR Parts 30, 40 and 70, to receive, possess, and use at any time any byproduct, source and special nuclear material as sealed neutron sources for reactor startup, sealed sources for reactor instrumentation and radiation monitoring equipment calibration, and as fission detectors in amounts as required; PSEG Nuclear LLC, pursuant to the Act and 10 CF'R Parts 30, 40 and 70, to receive, possess, and use in amounts as required any byproduct, source or special nuclear material without restriction, to chemical or physical form, for sample analysis or instrument calibration or associated with radioactive apparatus or components; and PSEG Nuclear LLC, pursuant to the Act and 10 CFR Parts 30, 40 and 70, to possess, but not separate, such byproduct and special nuclear materials as may be produced by the operation of the facility.

C.

This license shall be deemed to contain and is subject to the conditions specified in the Commission's regulations set forth in 10 CFR Chapter I and is subject to all applicable provisions of the Act and to the rules, regulations and orders of the Commission now or hereafter in effect; and is subject to the additional conditions specified or incorporated below:

(1) Maximum Power Level PSEG Nuclear LLC is aurhorized to operate the facility at reactor core power levels not in excess of 3339 megawatts thermal (100 percent rated power) ir. accordance with the conditions specified herein.

I

( 2 ) Technical Specifications and Environmental Projzection Plan I

The Technical Specifications contained in Appendix A, as revised through Amendment No.

, and the Environmental Protection Plan contained in Appendix B, are hereby incorporated into the license.

PSEG Nuclear LLC shall operate the facility in accordance with the Technical Specifications and the Environmental Protection Plan.

( 3 ) Inservice Testinq of Pumps and Valves (Section 3.9.6, SSER No. 4 ) '

This License Condition was satisfied as documented in the letter from W. R. Butler (N3.C) to C. A. McNeill, Jr. (PSE&G) dated December 7, 1987. Accordingly, this condition has been deleted.

The parenthetical notation following the title of many license conditions denotes the section of the Safety Evaluation Report and/or its supplements wherein the license condition is discussed.

Amendment No. 13 1 I

c-.

L,

( 4 ) Inservice Inspection (Section 6.6, SER; Sections 5.2.4.3 and 6.6.3, SSER No. 51

a.

PSE&G shall submit an inservice inspection program in accordance with 10 CFR 50.55a(g)(4) for staff review by October 11, 1986.

b.

Pursuant to 10 CFR 50.55a(a)(3) and for the reasons set forth in Sections 5.2.4.3 and 6.6.3 of SSER No. 5, the relief identified in the PSE&G submittal dated November 18, 1985, as revised by the submittal dated January 20, 1986, requesting relief from certain requirements of 10 CFR 50.55a(g) for the preservice inspection program, is granted.

(5) solid State Loqic Modules PSEG Nuclear LLC shall continue, for the life of the plant, a I

reliability program to monitor the performance of the Bailey 862 SSLMs installed at Hope Creek Generating Station. This program should obtain reliability data, failure characteristics, and root cause of failure of both safety-related and non-safety-related Bailey 862 SSLMs. The results of the reliability program shall be maintained on-site and made available to the NRC upon request.

( 6 ) Fuel Storage and Handlinq (Section 9.1, SSER No. 5)

a. No more than a total of three ( 3 ) fuel assemblies shall be out of approved shipping containers or fuel assembly storage racks or the reactor at any one time.

b. The above three ( 3 ) fuel assemblies as a group shall maintain a minimum edge-to-edge spacing of twelve (12) inches from the shipping container array an:! the storage rack array.

c. Fresh Fuel assemblies, when stored in their shipping con-tainers, shall be stacked no more than three ( 3 ) containers high

~

(7) Fire Protection (seccion 9.5.1.8, SSER No. 5; Section 9.5.1, SSER No. 6r I

PSEG Nuclear LLC -na?l implement and maintain in effect all provisions of the approved fire prot.ection program as described in the Final Safety Analysis Report for the facility through Amendment No. 15 and as described in its submittal dated May 13, 1986, and as approved in the SER dated October 1984 (and Supplements 1 through 6) subject to the following provision:

PSEG Nuclear LLC may make changes to the approved fire I

protection program without prior approval of the Commission only if those changes would not adversely affect the ability to achieve and maintain safe shutdown in the event of a fire.

Amendment NO. 88,129 I

Solid Waste process Control Proqram (Section 11.4.2, SER; Section 11.4, SSER No. 4 1 PSEG Nuclear shall obtain NRC approval of the Class B and C solid waste process control program prior to processing Class B and C solid wastes.

Emeruency Planninq (Section 13.3, SSER No. 5 )

I In the event that the NRC finds that the lack of progress in completion of the procedures in the Federal Emergency Management Agency's final rule, 44 CFR Part 350, is an indication that a major substantive problem exists in achieving or maintaining an adequate state of emergency preparedness, the provisions of 10 CFR Section 50.54(s) (2) will apply.

( 1 0 ) Initial Startup Test Proqram (Section 14, SSER No. 5)

Any changes to the Initial Startup Test Program described in Section 14 of the FSAR made in accordance with the provisions of 10 CFR 50.59 shall be reported in accordance with 50.59(b) within one month of such change.

(11) Partial Feedwater Heatinq (Section 15.1, SER; Section 15.1, SSER No. 5; Section 15.1, SSER No. 6)

The facility shall not be operated with reduced feedwater temperature for the purpose of extending the normal fuel cycle.

After the first operating cycle, the facility shall not be operated with a feedwater heating capacity that would result in a rated power feedwater temperature less than 400OF unless analyses supporting such operation are submitted by the licensee and approved by the staff.

(12) Detailed Control Room Desiun Review (Section 18.1, SSER No. 5 )

a. PSE&G shall submit for staff review Detailed Control Room Design Review Summary Reports I1 and I11 on a schedule consistent with, and with contents as specified in, its letter of January 9, 1986.

b. Prior to exceeding five perzent power, PSE&G shall provide temporary zone markings on safety-related instruments in the control room.

Amendment No.I29 I

(13)

\\.-

L Safety Parameter DiSDlaY System (Section i8.2, S S E ~

NO. 5)

Prior to the earlier of 9 9 days after restart frcm tne first refueling outage or July 12, 1988, PSE&G snall add the following parameters to the SPDS and have tbam operational:

a. Primary containment radiation

b. Primary containment isolation status

c. Combustible gas concentration ir, primary contaimenz

d. Source range neutron flux Additional Conditions The Additional Conditions contained in Appendix C, as revised through Amendment No. 135, are hereby incorporated into this license. PSEG Nuclear LLC shall operate the facility in accordance with the Additional Conditions.

PSE&G to PSEG Nuclear LLC License Transfer Conditions I

a.

?SEG Nuclear LLC shall take a l l necessary steps Eo ensure that the decommissioning trust is maintained in accordance with the applicarian, :he requirements of the Order Approving Transfer of License and Conforming Amendment, dated February 16, 2900, and the relatod Safety Evaluation dated February 16, 200G.

B.

The i )

2 )

3 )

deccmnissiczicg trxt agreement shall provide thac:

The u s 1 :f 8ssezs ir! bcrih thi qualified and nan-cpalifie5 f ~ r. 5 ~

shall be linited tc expenses related to deccnsr.;ssi:2:zg zf :

e uni: as define2 by the NRC in its rerdLat::zs and isscancis, and as provided in the units ::zenrs a d any arnendmencs rhereto. Sowever, cpsr, c:r.p:eti:r.

t: =ec-m.issi;~ing, as defined abcve, the a s s s t s ray be x e d f s r any purpose auzhcrized by lax.

Ip*ves-~--

_..__.._a __.

.- -i

-..e sezzr::ies 2~ ather sbligaticna sf PSELS c: aft:::azes chereof, o r their successors c r assigr.s, sr.all be SrohikLted. In additicn, except f-r invesznents ::e2

3.mrket indexes cr o:her ncn-nuclear SeC-Cr...... ~ - - a -

.-...,-.-s,

.....-I investments in any entity owning one cr mcre r.;zlear power plants shall be prohibited.

No disbursemenzs or payments from the trust shall be

,-de by z2.s ZrLsZee until the trustee has first given

he PURC 3:

days sotice of =he payment. In addition, nc disbursemants cr payments from the trust shall be made if :he zrsszee receives pricr written notice of objeccicz frcn the Director, Office of Nuclear 2eacEor Regulaticc.

, 12:.

135 I

Amendment No. < 2, : 7, I S 4 4 )

The trust agreement shall not be modified in any material respect without prior written notification to the Director, Office of Nuclear Reactor Regulation.

C.

5)

The trustee, investment advisor, or anyone else directing the investments made in the trust 'shall adhere to a "prudent investor" standard, as specified in 18 CFR 35.32(3) of the Federal Energy Regulatory.

Commission's regulations.

PSEG Nuclear LLC shall not take any action that would cause PSEG Power LLC or its parent companies to void, cancel, or diminish the commitment to fund an extended plant shutdown as represented in the application for approval of the transfer of this license from PSE&G to PSEG Nuclear LLC.

D. The facility requires exemptions from certain requirements of 10 CFR Part 50 and 10 CFR Part 70. An exemption from the criticality alarm requirements of 10 CFR 70.24 was granted in Special Nuclear Material License No. 1953, dated August 21, 1985. This exemption is described in Section 9.1 of Supplement No. 5 to the SER. This previously granted exemption is continued in this operating license. An exemption from certain requirements of Appendix A to 10 CFR Part 50, is described in Supplement No. 5 to the SER. This exemption is a schedular exemption to the requirements of General Design Criterion 64, permitting delaying functionality of the Turbine Building Circulating Water System-Radiation Monitoring System until 5 percent power for local indication, and until 120-days after fuel load for control room indication (Appendix R of SSER 5). Exemptions from certain requirements of Appendix J to 10 CFR Part 50, are described in Supplement No. 5 to the SER. These include an exemption from the requirement of Appendix J. exempcing main steam isolation valve leak-rate testing at 1.10 Pa (Section 6.2.6 of SSER 5); an exemption from Appendix J, exempting Type C testing on traversing incore probe system shear valves (Section 6.2.6 of SSER 5); an exemption from Appendix J,

exempting Type C testing for instrument lines and lines containing excess flow check valves (Section 6.2.6 of SSER 5); and an exemption from Appendix J, exempting Type C testing of thermal relief valves (Section 6.2.6 of SSER 5). These exemptions are authorized by law, will not present an undue risk to ths public health and safety, and are consistent with the common defense and security. These exemptions are hereby granted. The special circumstances regarding each exemption are identified in &he referenced section of the safety evaluation report and the supplements thereto. These exemptions are granted pursuant to 10 CFR 50.12. With these exemptions, the facility will operate, to the extent authorized herein, in conformity with the application, as amended, the provisions of the Act, and the rules and regulations of the Commission.

Amendment NO. W, 129 E. The licensee shall fully implement and maintain in effect ali provisions of the Commission-a-pprsved physical security, gcard training and qualification, and safewaras contingency plans includlkig amendments made pursuant :s provisions of :he Miscellar,ezGs Amendments and Search Requirements revisions to 10 CFR 7 3. 5 5 (51 PR 27817 and 27822) and to the authority of 10 CFR 50.90 and 10 CFR 5 0. 5 4 @ ).

The plans, which contain Safeguards Infarmation protected under 10 CFR 73.21, are entitled: "Salem-Hope Creek Nuclear Generating Station Security Plan," with revisions submitted thrmgh December 1 7, 2001; 'Salem-Hope Creek Nuclear Generating Staticn Security Training and Qualification Plan,' with revisions submitte,d through December 1 7, 2001; and "Salem-Hope Creek Nuclear Generatizg Station Security Contingency Plan," with revisions submitted thrzxgk June 2, 1998.

Changes made in accordance with 10 CFR 73.55 shall be implemented in accordance with the schedule set forth therein.

Except as otherwise przvided in the Technical Specificati-ns 3r Ecvironmental Protect:sn Plan, PSEG Nuclear LLC shall report any viclatims of the recpirements contained in Section 2.C cf this license in the follzwing manner: initial notification shall be made-w:t!?in 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months to the hTC Sperations Center via the Ehergency Kscification System w::!?

written followup within thirty days in acczrdance with the prccedures described in 10 CFR 50.73(b), (c), ard (e).

G.

Tke licensees shall kave an:! maintain financial prcteczion of such

?e and in such &T: .--.:S as ::?e Cm-missisn shall requsre LT.

aczsrdance with Set:::: :-:

zf the Azomic Energy Act z f L954. as a-nenied, to cover -.

p a - A - -

& '. - :iak:lity claims.

I PSR THE NL'CLEAR REGULATORY C2FXISSIZX

- crlginal signed by H.R: Oentcn -

Harsld R. Zenton, Director Zftice of Nuclear Reactor Regulacion

-ars :f Zssuance: July 25, 1 9 a 6 Amendment No. B. 1 3 8

3/4.1 REACTIVITY CONTROL SYSTEMS 3/4.1.1 SHUTDOWN MARGIN LIMITING CONDITION FOR OPERATION 3.1.1 The SHUTDOWN MARGIN shall be equal to or greater than:

a.

0.38% delta k/k with the highest worth rod analytically determined, or

b.

0.28% delta Wk with the highest worth rod determined by test.

APPLICABILITY:

OPERATIONAL CONDITIONS 1, 2, 3, 4 and 5.

ACTION:

With the SHUTDOWN MARGIN less than specified:

a.

In OPERATIONAL CONDITION 1 or 2, reestablish the required SHUTDOWN MARGIN within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months or be in at least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

b.

In OPERATIONAL CONDITION 3 or 4, immediately verify all insertable control rods t o be inserted and suspend all activities that could reduce the SHUTDOWN MARGIN. In OPERATIONAL CONDITION 4, establish SECONDARY CONTAINMENT INTEGRITY within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months .

c.

In OPERATIONAL CONDITION 5, suspend CORE ALTERATIONS and other activities that could reduce the SHUTDOWN MARGIN and insert all insertable control rods within 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months .

MENT INTEGRITY within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months .

Establish SECONDARY CONTAIN-SURVEILLANCE REQUIREMENTS 4.1.1 The SHUTDOWN MARGIN shall be determined to be equal to o r greater than specified at any tlme during the fuel cycle:

a.

By measurement, p r i o r to or during the first startup after each refuel i ng.

By measurement, within 500 MWD/T prior to the core average exposure at which the predicted SHUTDOWN MARGIN, including uncertainties and calculation biases, i s equal to the specified limit.

b.

c.

Within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months after detection of a withdrawn control rod that i s himovable, as a result of excessive friction or mechanical inter-ference, or i s untrippable, except that the above required SHUTDOWN MARGIN shall be verified acceptable with an increased allowance f o r the withdrawn worth of the immovable or untrippable control rod.

HOPE CREEK 314 1-1

REACTIVITY CONTROL SYSTEMS 3/4.1.2 REACTIVITY ANOMALIES LIMITING CONDITION FOR OPERATION 3.1.2 The reactivity equivalence of the difference between the actual ROD OENSITY and the predicted ROD DENSITY shall not exceed 1% delta k/k.

APPLICABILITY: OPERATIONAL CONDITIONS 1 and 2.

ACT ION:

With the reactivity equivalence difference exceeding 1% delta k/k:

a.

Within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months perform an analysis to determine and explain the cause of the reactivity difference; operation may continue i f the difference i s explained and corrected.

b.

Otherwise, be in at least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

SURVEILLANCE REQUIREMENTS 4.1.2 The reactivity equivalence of the difference between the actual ROD DENSITY and the predicted ROD DENSITY shall be verified to be less than or equal to 1% delta k/k:

a.

b.

During the first startup following CORE ALTERATIONS, and A t least once per 31 effective full power days during POWER OPERATION.

HOPE CREEK 3/4 1-2

REACTIVITY CONTROL SYSTEMS 3/4.1.3 CONTROL RODS CONTROL ROD OPERA'BILIN LIMITING CONDITION FOR OPERATION 3.1.3.1 All control rods shall be OPERABLE.

APPLICABILITY: OPERATIONAL CONDITIONS 1 and 2.

ACTION:

a.

With one control rod inoperable due to being hwvable, as a result o f excessfve friction or mechanical interference, or known to be untrfppable:

1.

Within one hour:

a)

Verify that the inoperable control rod, f f withdrawn, i s separated from all other inoperable control rods by at least two control cells in all dircctfonr.

Disarm the associated directional control valves** hydraulically by closing the drive water and exhaust water isolation valves.

b)

Othenise, be in at least HOT SHUTDMJN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Restore the inoperable control rod, i f withdrawn, to OPERABLE status within 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months or be in at least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

With one or more control rods trippable but inoperable for causes other than addressed in ACTION a, above:

1.

2.

b.

If the inoperable control rod(s) f s withdrawn, within one hour:

a)

Verify that the inoperable withdrawn control rod(s) is separated frw ill other inoprrablc withdrawn control rods by at least two control cells in all directions, and Demonstrate the insertion capability of the lnoperable withdrawn control rod(s) by insetting the control rod(s) at least one notch by drive water pressure within the noma1 operating range*

Othtnfsc, Insert the inoperable withdraw control rod(s) and disarm the associated directional control valves** tither:

a)

Electrfcally, or b)

Hydraulically by closing the drive water and exhaust water isolation valves.

b)

The inoperable control rod may then be wlthdram t o a position no further withdrawn than its posftfon when found to be inoperable.

- May be reamed Intermittently, under administratfve control, t o permit testing associated with restoring the control rod to OPERABLE status.

L HOPE CREEK 3/4 1-3

(continuad)

2.

If +h. &&ablm controx r0at.j i r within ona hour di8um tho aa8ociat.d direction81 control v8lvorn** eithorx a)

Electzfcally, or b)

Rydraulicatly by cloaing the dtlcn watar M d Warrrt wator i r o l i t i o n oalvas.

Ofhamism, k in a t laast tfcn s" w i t h i n tho next 12 burr.

3.

Tha provimionm of Spaclflcation 3.0.4.T. not 8pplicrbh.

e.

With mora thaa 8 control rod8 inoprrrble, bo in at l o u t BOT S w i t h i n 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months ..

d.

With one rerun di8clurgo roluma rout valve md/or one 8crm d i r c h u g a wlurrv drain valva inopmrablo urd opan, rostorm thm iaoporabla valvo(8) to OPE-statu8 w i t h i n 24 W m or ba in at loast BOT SHpTDoWn within th. next 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months ..

e.

with 8CX.m d b t h u g a r o l w w n t v & l ~ 8 ( # ) Bnd/or m y 8 C f m d f ~ c h u p o voluma drain valva(^) otharuira inoprrabla, tomtom tha inoperabh valve(.)

t o OP-r t a t u r within 8 bourr or k in at learnt HOT S" w i t h i n tho aoxt 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months ..

4.1.3.1.1 T b 8Ctm di8charge V O ~ W drain and t.nt V a 1 V 8 8 k

demonatratad OPERABLZ byt

a.

A t h a r t onca pmr 24 hour8 rrrifying aach valre t o b. oprn,* and

b.

A t 10&8t once p r 31 day8 C p l f B p a&& Val-through but ona cmnplata cycle of f u l l traval.

I 4.1.3.1.2 withdrawn a o n t r d rod8 not r.qutrad t o hap. +hair dirmctLona1 control valva8 d 1. M Whin above tha l o w pmr 88tpoint of t h a Rw)(, 8ll

.TheBe vrlvmm amy ba clomad intermittently for tasting undar adminimtrati-control..

t h y k raarmad fntmnnittantly, u n d u abmfnlmtrativa'contrl, to pdt te8tFng a8rocLated w i t h ramtorfag tha control rod t o OPERABLE rtatu8.

HOPE CREEK 3/4 1-4 m a d ~ ~ ~ n t IPO. 105

-.:y

SURVEILIANCE REQUIREPlENTS (Continued) electrically or hydraulically shall be demonstratrd OPERABLE by moving each control rod at lsrrt one notch:

a.

At least once per 7 a y e, rad

b.

within 24 hour8 when any control rod is inmovable ae a result of ucesriva friction or mechanical ia+crfcrcnce.

4.1.3.1.3 Surveillance Requirement8 4.1.3.2, 4.1.3.4, 4.1.3.5, 4.1.3.6 urd 4.1.3.7.

4.1.3.1.4 demonrtratiog:

All control to& shall be denmnmtr8tad OPERABLE by performance of The scram dincharge volurna shall be determined ORERABLB by

a.

The scram discharge volume drain a d vmat valve. 00-at h i n t once per 18 month., by verifying that the &ria and vtat valves:

1. Close within 30 second. after receipt of a 8ignal for control to& to scram, and 2.

Open when the scram signal io reset.

Ameadment N0.80 1

ROPE CREEK 3/4 1-5 L'

REACTIVITY CONTROL SYSTEMS CONTROL ROD MAXIMUM SCRAM INSERTION TIMES LIMITING CONDITION FOR OPERATION 3.1.3.2 The maxjmum scram insertion time o f each control rod from the fully withdrawn position t o notch position 5, based on de-energiration of the scram pilot valve solenoids as time zero, shal? not exceed 7.0 seconds.

APPLICABILITY: OPERATIONAL CONOITXONS 1 and 2.

ACTION:

a. -

With the maximum scram insertion time of one or more control rods exceeding 7.0 seconds:

1.

2.

Declare the control rod(s) with the slow insertion time inoperable, and Perform the Surveillance Requirements of Specification 4.1.3.2.c at least once per 60 days when operation I s conttnucd with three or more control rods with maximum scram insertion tSmes In excess o f 7.0 seconds.

Otheruire, be i n at least HOT SHUTDOWN within l2 hours.

The provisions o f Specffication 3.0.4 are not applicable.

b.

'v SURVEILLANCE REQUIREMENTS 4.1.3.2 The maxfmtnn scram insertion time o f the control rods shall be dernon-strated through aeasurement with reactor coolant pressure greater than or equal to 950 psiq and, durjng single control rod scram time tests, the control rod d r i v e pumps isolated from the accumulators:

a.

For a l l control rods prior to THERMAL POWER exceeding 40% of RATED THERCIAL POWER following CORE ALTERATXONS or after a reactor shutdown that 1s greater thrn 120 days.

For s p d f i c a l l y affected fndividual control rods following maintenance on or nodificatfon to the control rod or control rod drive rystcn which could affect the scram fnsertion tine of those tpecffic control rods, and For at least 10% of the control rods, on a rotating basis, at least once per 120 days of POWER OPERATION.

b.

c.

HOPE CREEK 3/1 1-6

REACTIVITY CONTROL SYSTEMS CONTROL ROD AVERAGE SCRAM INSERTION TIMES LIMITING CONDITION FOR OPERATION 3.1.3.3 The average scram insertion time of all OPERABLE control rods from the fully withdrawn position, based on de-energization o f the scram pilot.,valve solenoids as time zero, shall not exceed any of the following:

Position Inserted From Ful ly Withdrawn Average Scram Inser-tion Time (Seconds1 45 0.43 39 0.86 25 1.93 05 3.49 APPLICABILITY: OPERATIONAL CONDITIONS 1 and 2.

ACT I ON :

With the average scram insertion time exceeding any of the above limits, be in at least HOT SHUTDOWN within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

SURVEILLANCE REQUIREMENTS 4.1.3.3 All control rods shall be demonstrated OPERABLE by scram time testing from the fully withdrawn position as required by Surveillance Requirement 4.1.3.2..

HOPE CREEK 314 1-7

REACTIVITY CONTROL SYSTEMS FOUR CONTROL ROD GROUP SCRAM INSERTION TIMES LIMITING CONDITION FOR OPERATION 3.1.3.4 The average scram insertion time, from the fully withdrawn position, for the three fastest control rods in each group of four control rods arranged i n a two-by-two array, based on deenergization of the scram pilot valve solenoids as time zero, shall not exceed any o f the following:

Position Inserted From Ful ly Withdrawn Average Scram Inser-tion Time (Seconds1 45 39 25 05 APPLICABILITY:

ACTION:

OPERATIONAL CONDITIONS 1 and 2.

0.45 0.92 2.05 3.70

a.

With the average scram insertion times o f control rods exceeding the above 1 imi ts:

1.

Declare the control rods with the slower than average scram insertion times inoperable until an analysis i s performed to determine that required scram reactiviy remains f o r the slow four control rod group, and

2.

Perform the Surveillance Requirements of Specification 4.1.3.2.c at least once per 60 days when operation i s continued with an average scram insertion time(s) in excess o f the average scram insertion time l i m i t.

Otherwise, be in at least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

b.

The provisions o f Specification 3.0.4 are not applicable.

SURVEILLANCE REQUIREMENTS 4.1.3.4 from the fully withdrawn position as required by Surveillance Requirement 4.1.3.2.

All control rods shall be demonstrated OPERABLE by scram time testing HOPE CREEK 3/4 1-8

REACTIVITY CONTROL SYSTEMS CONTROL ROD SCRAM ACCUMULATORS L I M I T I N G CONDITION FOR OPERATION

/-

3.1.3.5 Each Control rod scram accumulator s h a l l be OPERABLE.

APPLICABILITY:

OPERATIONAL CONDITIONS 1, 2 and 5*.

ACT I ON :

S e p a r a t e c o n d i t i o n e n t r y i s allowed f o r each c o n t r o l rod NOTE--------------------------------

a.

I n OPERATIONAL CONDITIONS 1 o r 2 :

I

1.

With one c o n t r o l rod scram accumulator i n o p e r a b l e and r e a c t o r p r e s s u r e 2 900 p s i g, w i t h i n 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months , a )

Restore t h e inoperable accumulator t o OPERABLE s t a t u s,

OK b )

Insert t h e a s s o c i a t e d c o n t r o l rod, d e c l a r e t h e a s s o c i a t e d c o n t r o l rod i n o p e r a b l e and disarm t h e a s s o c i a t e d c o n t r o l v a l v e s e i t h e r e l e c t r i c a l l y o r h y d r a u l i c a l l y by c l o s i n g t h e d r i v e water and exhaust water i s o l a t i o n v a l v e s.

Otherwise, be i n a t l e a s t HOT SHUTDOWN with t h e next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

L.

7 W i t h two o r more c a n t r o l rod scram accumulators i n o p e r a b l e and r e a c t o r pressuze 2 900 p s i g,

a )

Within 20 r r i n u t e s of d i s c o v e r y of t h i s c o n d i t i o n concurrent with charging water p r e s s u r e < 940 p s i g, r e s t o r e charging water header p r e s s u r e t o 2 940 p s i g otherwise p l a c e t h e mode switch i n t h e shutdown p o s i t i o n * *,

and b )

W i t h i n 3r.e hocr l n s e r t t h e a s s o c i a t e d c o n t r o l rads, c e c l a r e :r.e a s s o c i a r e d c o n t r o l rods inoperable azd a ~ s a r : ~

Re a s s o c i a t e d c o n t r c l valves ei:her wa:e:

a?+= e x k a d s z water i s o l a t i o n valves.

eler-

,,,,za:lj.

r.

e : h y c r a u l i c a l l y by c l o s i n g t h e c r i v e gtherwise, be :r. a t l e a s t HOT SHUTDOWN w i t h i n :he next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

.~

i e d s t t z e accunula:cr ass3z:a:ez x i t h each withdrawn c o n t r o l d s p l i c a b l e z 3 cgncrc'l : ~ i s renoved p e r S p e c i f i c a t i o n 3. 9. 1 0. 1 o r a ~ ~ l i c a b l e i f a l l inoperable c o n t r o l rod scram

~

3.:. _ -. _.

a:::.--larsrs a r e associazed x i t h f 3 s l i y i n s e r t e d c o n t r s l rods.

3/4 1-9 Amendment h70.98 I

I

REACTIVITY CONTROL SYSTEMS L I M I T I N G CONDITION FOR OPERATION (continued)

ACTION (Continued)

3.

With one o r more c o n t r o l rod scram accumulators i n o p e r a b l e and r e a c t o r p r e s s u r e < 990 psig, a )

Immediately upon discovery of charging water header p r e s s u r e < 940 psig, v e r i f y a l l c o n t r o l rods a s s o c i a t e d with inoperable accumulators are f u l l y i n s e r t e d otherwise p l a c e t h e mode switch i n t h e shutdown position**, and b )

Within one hour insert t h e a s s o c i a t e d c o n t r o l r o d ( s ),

d e c l a r e t h e a s s o c i a t e d c o n t r o l r o d ( s ) i n o p e r a b l e and disarm t h e a s s o c i a t e d c o n t r o l valves e i t h e r e l e c t r i c a l l y o r h y d r a u l i c a l l y by c l o s i n g t h e d r i v e water and exhaust water i s o l a t i o n valves.

Otherwise, be i n a t least HOT SHUTDOWN within t h e next 1 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months .

b.

I n OPEMTIONAL CONDITION S * :

A.

1 With one o r more withdrawn c o n t r o l rods inoperable, upon d; SCOI'.: r y immediately i n i t i a t e a c t i o n t o f u l l y i n s e r t inoperable withdrawn c o n t r o l rods.

C.

-... i e provisions of S p e c i f i c a t i o n 3.0.4 are not a p p l i c a b l e.

5. 1. 3. 5 Each c o n t r o l rod scram accumulator s h a l l be determined OPERABLE:

a.

A t leas:

2nce p e r 7 days by v e r i f y i n g t h a t t h e i n d i c a t e d p r e s s u r e 1 s g r e a t e r than o r e q s a l t o 940 p s i g u n l e s s t h e c o n t r o l rod i s Lnsercec! and disarmed o r scrammed.

.e a c c a x l a r o r ass3tia:ec 1*;:t!: each withdrawn c o n t r o l

_ _.... I _ - C;;l:zab:e t o cor,tzoi TOSS rer,Dved p e r S p e c i f i c a t i o n 3.9.10.1 c z

. _ _. C.

.. _. ^__.

-,,--cable i f a l l inDpezaSle cz:r.tzzl rod scram d::-.r412:c:s a r e asscciateci w i t h f u l l y r n s e r t e d c o n t r o l rods.

3 / 4 1-10 Amendment No. 98

"v REACTIVITY CONTROL SYSTEMS CONTROL ROD D R I V E COUPLING 3.1.3.6 A l l Control rods shall be Coupled to their drive mechanisms.

APPLICABILITY: OPERATIONAL CONDITIONS 1, 2 and 5 f.

a. In OPERATIONAL CONDITION 1 and 2 with one control rod not coupled to its associated drive mechanism, within 2 hour2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months s:

1.

If permitted by the RWM,.insert the control rod to accomplish recoupling and verify recoupling by withdrawing the control rod, and:

I a)

Observing any indicated response of the nuclear b)

Demonstrating that the control rod will not go to the instrumentation. and overtravel position.

2.

If recoupling is not accomplished on the first attempt or, if I

not permitted by the RWM. then until permitted by the RWM, declare the control rod inoperable, insert the control rod and disarm the associated directional control valves++ either:

a)

Electrically, or b)

Hydraulically by closing the drive water and exhaust water isolation valves.

Otherwise. be in at least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

b. :n OPERATIONAL CONDITION 5, with a withdrawn control rod not coupled to its associated drive mechanism, within 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months either:

1.

Insert the control rod to accomplish recoupling and verify recoupling by withdrawing the control rod and demonstrating that the control rod will not go to the overtravel position, or 2.

If recoupling is not accomplished, insert the control rod and disarm the associated directional control valves** either:

a)

Electrically, or b)

Hydraulically by closing the drive water and exhaust water isolation valvem.

c. The prov~sions of Specification 3. 0. 4 arc not applicable.

A t least each withdrawn control rod.

Not applicable to control rods removed per Specification 3.9.10.1 or 3.9.10.2.

- May be rearmed intermittently. under administrative control, to permit testing associated with restoring the control rod to OPERABLE status.

HOPE CfZEEK 3 / 4 1-11 Amendment NO. 105

REACTIVITY CONTROL SYSTEMS SURVEILLANCE REQUIREMENTS 4.1.3.6 Each affected control rod shall be demonstrated to be coupled to its drive mechanism by observing any indicated response o f the nuclear instrumen-tation while withdrawing the control rod to the fully withdrawn position and then verifying that the control rod drive does not go to the overtravel pos it i on:

a.

Prior to reactor criticality after completing CORE ALTERATIONS t h a t could have affected the control rod drive coupling integrity,

b.

Anytime the control rod is withdrawn to the "Full out" position i n subsequent operation, and

c.

Following maintenance on or modification to the control rod or control rod drive system which could have affected the control rod drive coupting integrity.

HOPE CREEK 314 1-12

pEACTIVITY CO NTROL SYSTEMS

/- ' >

W CONTROL R OD POSITION INDICATION 3.1.3.7 The control rod poeition indication system shall be OPERABLE.

fiPPLICABILITY: OPERATIONAL CONDITIONS 1, 2 and 5 9.

A.

In OPERATIONAL CONDITION 1 or 2 with one or more control rod position indicatore inoperable, within 1 hour:

1.

2.

3.

Determine the position of the control rod by using an alternate method, or:

a) Moving the control rod, by single notch movement, to a b) Returning the control rod, by single notch movement, to its c) Verifying no control rod drift alarm at least once per 12 position with an OPERABLE position indicator, original position, and houre, or Hove the control rod to a position with an OPERABLE position indicator, or When T H E W POWER is:

a) Within the preset power level of the RW'M, declare the control rod inoperable.

b ) Greater than the preset power level. of the R W, declare the control rod inoperable, insert the control rod and disarm the aeeociated directional control valves** either:

1)

Electrically, or

2)

Hydraulically by closing the drive water and exhaust water isolation valves.

Otherwise, be in at least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

b.

In OPERATIONAL CONDITION 5. with a withdrawn control rod poeition indicator inoperable, move the control rod to a position with an OPERABLE pooition indicator or Insert the control rod.

c.

The ptovieions of Specification 3.0.4 are not applicable.

At least each withdrawn control rod. Not applicable to control rods removed per Specification 3.9.10.1 or 3.9.10.2.

- Hay be rearmed intermittently, under administrative control, to permit testing aeeociated with restoring the control rod to OPERABLE status.

HOPE CREEK 3/4 1-13 Amendment NO. 105

REACTIVITY CONTROL SYSTEMS SURVEILLANCE REQUIREMENTS 4.1. 3.7 OPERABLE by veri fying:

The control rod position indication system shall be determined

a.

At least once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months that the position o f each control rod is indicated,

b.

That the indicated control rod position changes during the movement o f the control rod drive when performing Surveillance Requirement 4.1.3.1.2, and

c.

That the control rod position indicator corresponds t o the control rod position indicated by the "Full Out" position indicator when performing Surveillance Requirement 4.1.3.6.b.

HOPE CREEK 3/4 1-14

I _.

CONTROL ROD DRIVE wuSTMC SUPPORT 3.1.3.8 The control rod drive -housing support shall be f n place.

APPLICABILITY: OPERATIONAL CONOITIONS 1, 2 8nd 3.

ACT ION:

W t h the control rod d r f v r houtjng S U Q Q O r t not i n place, be fn at least HCT SHUTDOYN within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months and i n COLD SHUTDCYN w i t h i n.;no f o l l m f n C 24 h;,t; SURVEILUNCE REQUI RfnEHTS 4.1.3.8 Tho contro1 rod dtfvo hourfng support shall be vorlfled t o be in p l a c e by a vfrurl fnspectfon erfor to S U t t u O ry ttw It has baon dfrrsr.sbltd or when u4ntrnanc8 has bran perlomod In f)w control rod dtluo housing sugDott area.

nOPf CREEK 3/4 1-15 I

REACTIVITY CONTROL SYSTEMS 2/4.1.4 CONTROL ROD PROGRAM CONTROLS ROD WORTH MINIMIZER 3.1.4.1 The Rod worth minimizer (RWM) ehall be OPERABLE.

APPLICABILITY:

OPERATIONAL CONDITIONS 1 and 2*', when THERMAL POWER is less than or equal to 1 0 1 of RATED TRERMAL POWER, m i n i m allowable low power setpoint.

I ACTION:

I

a.

With the RWM inoperable after the first 12 control roda are f u l l y withdrawn, operation may continue provided that control rod movement and compliance with the prescribed control rod pattern are verified by a second licensed operator or other technically qualified member of the unit technical staff who is present at the reactor control console.

b.

With the RWM inoperable before the first twelve (12) control rods are fully withdrawn, one startup per calendar year may be performed provided that the control rod movement and compliance with the prescribed control rod pattern are verified by a second licensed operator or other technically qualified member of the unit technical staff who is present at the reactor control console.

c.

Otherwise, control rod movement may be only by actuating the manual scram or placing the reactor mode switch in the Shutdown position.

4.1.4.1 The RWM ehall be demonstrated OPERABLE:

a.

In OPERATIONAL CONDITION 2 within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months prior to withdrawal of control rods for the purpose of making the reactor critical, and in OPKRATIOW CONDITION 1 within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months prior to RWM automatic initiation when reducing THgRMAL POWER, by verifying proper indication of the eclection error of at least one out-of-sequence control rod.

Entry into OPERATIONAL CONDITION 2 and withdrawal of selected control rods is permitted for the purpoec of determining the OPERABILITY of the RWM prior to withdrawal of control rode for the purpose of bringing the reactor to criticality.

See Special Test Exception 3.10.2.

ROPB CXZEK 3/4 1-16 Amendment No. 1CFj

REACTIVITY CONTROL SYSTEMS 314.1.4 CONTROL ROD PROGRAM CONTROLS ROD WORTH MINIMIZER

b.

In OPERATIONAL CONDITION 2 within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months prior to withdrawal of control rods for the purpose of making the reactor critical, by verifying the rod block function by demonstrating inability to withdraw an out-of-sequence control rod.

C.

In OPERATIONAL CONDITION 1 within one hour after RWM automatic initiation when reducing THERMAL POWER, by verifying the rod block function by demonstrating inability to withdraw an out-of-sequence control rod.

d.

By verifying that the control rod patterns and sequence input to the RWM computer are correctly loaded following any loading of the program into the computer.

HOPE CREEK 3 / 4 1-16a Amendment No. 105

REACTIVITY CONTROL SYSTEMS The material originally contained in Section 3 / 4. 1. 4. 2 was deleted with the issuance of Amendment No.

. However, to maintain numerical continuity betueen the succeeding sections and existing station procedural references to those Technical Specification eections, 3/4.1.4.2 has been intentionally left blank..

HOPS CREEK 314 1-17 Amendment NO. 105

R E A C T I V I T Y CONTROL SYSTEMS ROD BLOCK MONITOR L I M I T I N G CONDITION FOR OPERATION 3. 1. 4. 3 Both rod block monitor (RBM) channels s h a l l be OPERABLE.

APPLICABILITY:

equal t o 30% o f RATED THERMAL POWER.

OPERATIONAL CONDITION 1, when THERMAL POWER i s greater than o r ACTION:

a.

With one RBM channel inoperable:

1.

V e r i f y t h a t the reactor i s not operating on a LIMITING CONTROL ROD PATTERN, and

2.

Restore the inoperable RBM channel t o OPERABLE status w i t h i n 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

Otherwise, place the inoperable rod block monitor channel i n the tripped condition w i t h i n the next hour.

b.

With both REM channels inoperable, place a t least one inoperable rod block monitor channel i n the tripped condition w i t h i n one hour.

SURVEILLANCE REQUIREMENTS 4.1.4.3 by performance o f a:

Each o f the above required RBM channels shall be demonstrated OPERABLE a,

CHANNEL FUNCTIONAL TEST and CHANNEL CALIBRATION a t the frequencies and for the OPERATIONAL CONOITIONS specified i n Table 4.3.6-1.

reactor i s operating on a LIMITING CONTROL ROO PATTERN.

b.

CHANNEL FUNCTIONAL TEST p r i o r t o control rod withdrawal when the HOPE CREEK 3/4 1-18

REACTIVITY CONTROL SYSTEMS 3/4.1.S STANDBY LIQUID CONTROL SYSTEM LIMITING CONDITION FOR OPERATION 3.1.5 The standby lfquid control system consists of two redundant Subsystems and shall be OPERABLE.

APPLICABILITY: OPERATIONAL CONOITTONS 1, 2, and 5*

ACTION: -

a.

In OPERATIONAL CONDITION 1 or 2:

1.

Ufth one system subsystem inoperable, restore the subsystem to O P E W L E status within 7 days or be In at least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Yfth both system subsystems inoperable, krtorr at least one subsystea to OPERABLE status within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months or be in a t least HOT SHUTDOWN within the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

With one system subsystem inoperable, restore subsystem to OPERABLE status within 30 days or insert all insertable control rods within the next hour.

2.

b.

In OPERATIONAL CONOITION 5*:

1.

2.

With both standby liquid control system subsystems inoperable, insert a17 insartable control rods within one hour.

SURVEI LUNCE REQUIREUENTS 4.1.5 The standby lfquid control systam shall be demonstrated OPERABLE:

a.

At least once-pr). 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months by verify'fng that;

1.

2.

3.

The t q r a t u n of the s o d f u pentaborate solution in the storage tank f s greater than or equal to 70°F.

Tho avaflrble volune o f s o d i u pentaborate solution is within t h e lfmlts o f figure 3.1.5-1.

fh. heat tracing circuit 1s OPERABLE by determining the teaperature o f the p suction pipfng to be greater than or equal to 7OOF.

'*with any control rod withdrawn. Not applicable to control rods removed per Specification 3.9.10.1 or 3.9.10.2.

HOPE CREEK 3/4 1-19

REACTIVITY CONTROL SYSTEMS SURVEILLANCE REQUIREMENTS (Continued)

b.

At least once per 31 days by:

1.

Verifying the continuity of the explosive charge.

I

2.

Determining that the available weight of sodium pentaborate is greater than or equal to 5,776 lbs and the concentration of boron i n solution is within the limits of figure 3.1.5-1 by chemical analysis.

Verifying that each valve (manual, power operated or automatic) in the flow path that is not locked, sealed, or otherwise secured in position, is in its correct position.

3.

c.

Demonstrating that, when tested pursuant to Specification 4.0.5, the minimum flow requirement of 41.2 gpm, per pump, at a pressure o f greater than or equal to 1255 psig is met.

d.

At least once per 18 months during shutdown by:

1.

Initiating one of the standby liquid control system subsystem, including an explosive valve, and verifying that a flow path from the pumps to the reactor pressure vessel i s available by pumping demineralized water into the reactor vessel and verifying thabthe relief valve does not actuate.

for the explosive valve shall be from the same manufactured batch as the one fired or from another batch which has been certified by having one of that batch successfully fired.

injection subsystems shall be tested in 36 months.

The replacement charge Both

2.

- Demonstrating that all heat traced piping between the storage tank and the injection pwnps is unblocked and then draining and flushing the piping with demineralized water.

Demonstrating that the storage tank heaters are OPERABLE by verifying the expected temperature rise o f the sodium penta-

,borate solution in the storage tank after the heaters are antrgiztd.

3.

"This test shall also be performed anytime water or boron is added to the solution or when the solution temperature drops below 70°F.

been found to be inoperable and may be perfomed by any series of sequential, overlapping or total flow path steps such that the entire flow path is included.

- This test shall also be performed whenever both heat tracing circuits have HOPE CREEK 314 1-20 Amendment No. 11 I

c b

w 314 1-21 Arncndmt N0.11

3/4.3 INSTRUMENTATION 3/4,3.1 REACTOR PROTECTION SYSTEM INSTRUMENTATION LIMITING CONDITION FOR OPERATION 3.3.1 As a minimum, the reactor protection system instrumentation channels shown in Table 3.3.1-1 shall be OPERABLE.

APPLICABILITY: As shown in Table 3.3.1-1.

ACT ION :

a.

With the number of OPERABLE channels less than required by the Minimum OPERABLE Channels per Trip System requirement for one trip system, place the inoperable channel(s1 and/or that trip system in the tripped condi-tion* within twelve hours. The provisions of Specification 3.0.4 are not applicable.

b.

With the number of OPERABLE channels less than required by the Minimum OPERABLE Channels per Trip System requirement for both trip systems, place at least one trip system** in the tripped condition within one hour and take the ACTION required by Table 3.3.1-1.

SURVEILLANCE REQUIREMENTS 4.3.1.1 Each reactor protection system instrumentation channel shall be demonstrated OPERABLE by the performance of the CHANNEL CHECK, CHANNEL FUNCTIONAL TEST and CHANNEL CALIBRATION operations for the OPERATIONAL CONDITIONS and at the frequencies shown in Table 4.3.1.1-1.

4.3.1.2 LOGIC SYSTEM FUNCTIONAL TESTS and simulated automatic operation of all channels shall be performed at least once per 18 months.

4.3.1.3 The REACTOR PROTECTION SYSTEM RESPONSE TIME of each reactor trip functional unit shall be demonstrated to be within its limit at least once per 18 months. Neutron detectors are exempt from response time testing. For the Reactor Vessel Steam Dome Pressure - High Functional Unit and the Reactor Vessel Water Level - Low, Level 3 Functional Unit, the sensor is eliminated from response time testing for RPS circuits. Each test shall include at least one channel per trip system such that all channels are tested at least once every N times 18 months where N is the total number of redundant channels in a specific reactor trip system.

4.3.1.4 The provisions of Specification 4.0.4 are not applicable for entry into OPERATIONAL CONDITION 2 or 3 from OPERATIONAL CONDITION 1 for the Inter-mediate Range Monitors.

An inoperable channel need not be placed in the tripped condition where this would cause the Trip Function to occur. In these cases, the inoperable channel shall be restored to OPERABLE status within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months or the ACTION required by Table 3.3.1-1 for that Trip Function shall be taken.

- If more channels are inoperable in one trip system than in the other, place the trip system with more inoperable channels in the tripped condition, except when this would cause the Trip Function to occur.

HOPE CREEK 3/4 3-1 Amendment No. 101

TABLE 3.3.1-1 REACTOR PROTECTION SYSTEM INSTRUMENTATION APPLICABLE MINIMUM OPERATIONAL OPERABLE CHANNELS CONDITIONS PER TRIP SYSTEM (a)

ACTION FUNCTIONAL UNIT

1. Intermediate Range Monitors.

( b ).

a.

Neutron Flux - High 2

3 1 4 5 (c) 3 1

2 3

2 3, 4 5

3 1

2 3

b.

Inoperative 2 3 (d)

(e).

2. Average Power Range Monitor.

a.

Neutron Flux - Upscale, Setdown 2

3, 4 5 (c) 2 1

2 3

b.

Flow Biased Simulated Thermal Power - Upscale 1

1 2

2 4

4

c.

Fixed Neutron Flux - Upscale 2

1 2

3

d.

Inoperative

3. Reactor Vessel Steam Dome Pressure - High 1, 2 ( f )

2 1

4. Reactor Vessel Water Level - Low, Level 3 2

1 1, 2

5. Main Steam Line Isolation Valve -

Closure 4

4 3/4 3-2 Amendment NO. 39 I

HOPE CREEK

TABLE 3.3.1-1 (Continued)

FUNCTIONAL UNIT 6.

7.

8.

9.

10.

11.

12.

This item intentionally blank Drywell Pressure - High Scram Discharge Volume Water Level - High

a. Float Switch REACTOR PROTECTION SYSTEM INSTRUMENTATION

b. Level Transmitter/Trip Unit Turbine Stop Valve - Closure Turbine Control Valve Fast Closure, Valve Trip System Oil Pressure - Low Reactor Mode Switch Shutdown Position Manual Scram APPLICABLE MINIMUM OPERATIONAL OPERABLE CHANNELS CONDITIONS PER TRIP SYSTEM (a)

ACTION 1, 2 ( h )

2 2

2

( k )

2 2

1 1

3 1

3 6

6 1

7 3

1 8

9 HOPE CREEK 3/4 3-3 Amendment No. 53

ACTION 1 ACTION 2 ACTION 3 ACTION 4 ACTION 5 ACTION 6 ACTION I ACTION 8 ACTION 9 TABLE 3.3.1-1 REACTOR PROTECTION SYSTEM INSTRUMENTATION ACTION Be in at least HOT SHUTDOWN within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

Verify all insertable control rods to be inserted in the core and lock the reactor mode switch in the Shutdown position within one hour.

Suspend all operations involving CORE ALTERATIONS* and insert all insertable control rods within one hour.

Be in at least STARTUP within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

This ACTION is deleted Initiate a reduction in THERMAL POWER within 15 minutes and reduce turbine first stage pressure to less than the automatic bypass setpoint within 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months .

Verify all insertable control rods to be inserted within one hour.

Lock the reactor mode switch in the Shutdown position within one hour.

Suspend all operations involving CORE ALTERATIONS*,

and insert all insertable control rods and lock the reactor mode switch in the SHUTDOWN position within one hour.

Except replacement of LPRM strings provided SRM instrumentation is OPERABLE per Specification 3.9.2.

HOPE CREEK 3 / 4 3-4 Amendment No. 53

TABLE 3.3.1-1 (Continued)

REACTOR PROTECTION SYSTEM INSTRUMENTATION TABLE NOTATIONS A channel may be placed in an inoperable status for up to 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months for required surveillance without placing the trip system in the tripped condition provided at least one OPERABLE channel in the same trip system is monitoring that parameter.

This function shall be automatically bypassed when the reactor mode switch is in the Run position.

Unless adequate shutdown margin has been demonstrated per Specification 3.1.1, the "shorting links" shall be removed from the RPS circuitry prior to and during the time any control rod is withdrawn*.

The non-coincident NMS reactor trip function logic is such that all channels go to both trip systems. Therefore, when the "shorting links" are removed, the Minimum OPERABLE Channels Per the Trip System are 4 APRMS, 6 IRMS and 2 SRMS.

This function is not required to be OPERABLE when the reactor pressure vessel head is removed per Specification 3.10.1.

This function shall be automatically bypassed when the reactor mode switch is not in the Run position.

This function is not required to be OPERABLE when PRIMARY CONTAINMENT INTEGRITY is not required.

With any control rod withdrawn. Not applicable to control rods removed per Specification 3.9.10.1 or 3.9.10.2.

I I

This function shall be automatically bypassed when turbine first stage pressure is 5 159.7 psig equivalent to THERMAL POWER less than 30% of RATED THERMAL POWER. To allow for instrument accuracyl calibration, and drift, a setpoint of 2135.1 psig is used.

Also actuates the EOC-RPT system.

I

Not required for control rods removed per Specification 3.9.10.1 or 3.9.10.2.

L HOPE CREEK 3/4 3-5 Amendment No. 35

Q 29 ELECTRICAL POWER SYSTEMS DISTRIBUTION - SHUTDOWN LIMITING CONDITION FOR OPERATION 3.8.3.2 As a minimum, 2 of the 4 channels, one of which shall be channel A or channel.8, of the power distribution system shall be energized with:

a.

A. C. power distribution:

1.

Channel A, consisting o f :

a) 4160 volt A.C. switchgear bus b) 480 volt A.C. load centers c) 480 volt A.C. MCCs d) 208/120 volt A.C. distribution panels e) 120 volt A.C. distribution panels

2.

Channel B, consisting o f :

a) 4160 volt A.C. switchgear bus b) 480 volt A.C. load centers c) 480 volt A.C. MCCs d) 208/120 volt A.C. distribution panels e) 120 volt A.C. distribution panels

3.

Channel C, consisting o f :

a) 4160 volt A. C. switchgear bus b) 480 volt A.C. load centers c) 480 volt A.C. MCCs d) 208/120 volt A.C. distribution panels 10A401 108410 108450 108212 10B411 108451 108553 10Y40l(source:1OB411) 10Y411( source: 108451) 10Y501(source:10B553) lA3481 1YF401(source:1AJ481) 1AJ482 10A402 108420 108460 10B222 108421 iOB461 108563 10Y402(source:10B421) 10Y412(source:10B461) 10Y502( source: 108563) 185481 lYF402(source:I83481) 185482 10A403 108430 fOB470 108232 108431 108471 108573 10Y403(source:10B431) 10Y413( source: 10B471) 10Y503(source:10B573) 1 i 4

HOPE CREEK 3/4 8-21

ELECTRICAL POWER SYSTEMS i

LIMITING CONDITION FOR OPERATION (Continued)

- 4 v

e) 120 volt A.C. distribution panels 1CJ481 1YF403(source:1CJ481) 1C 5482

4.

Channel 0, consisting o f :

a) 4160 volt A.C. switchgear bus b) 480 volt A.C. load centers c) 480 volt A.C. MCCs d) 208/120 volt A.C. distribution panels e) 120 volt A.C. distribution panels

b.

D. C. power distribution:

1.

Channel A, consisting o f :

'w.

c )

125 volt D.C. distribution panel a) 125 volt D.C. switchgear b) 125 volt D.C. fuse box

2.

Channel 8, consisting o f :

a) 125 volt D.C. switchgear b) 125 volt D.C. fuse box c) 125 volt D.C. distribution panel

3.

Channel C, consisting of:

a) 125 volt D.C. switchgear b) 125 volt D.C.

fuse boxes c) 125 volt D.C. distribution panel

4.

Channel 0, consisting o f :

a) 125 volt D.C. switchgear b) 125 volt D.C. fuse box c) 125 volt D.C. distribution panel 10A404 10B440 108480 108242 10B441 106481 106583 10Y404( source: 108441) 10Y414(source:108481) 10Y504(source:10B583) 1DJA?1 1YF404(source:1DJ481) 105482 100410 1AD412 1AD417 100420 160412 1BD417 100430 100436 1CD412 1CD448 1CD417 100440 100446 100412 100448 1DD417 HOPE CREEK 3/4 8-22

ELECTRICAL POWER SYSTEMS

'..-/

LIMITING CONDITION FOR OPERATION (Continued)

APPLICABILITY: OPERATIONAL CONDITIONS 4, 5 and *.

ACTION:

a.

With less than two channels of the above required A.C. distribution system energized, suspend CORE ALTERATIONS, handling of irradiated fuel in the secondary containment and operations with a potential for draining the reactor vessel.

With less than two channels of the above required D.C. distribution system energized, suspend CORE ALTERATIONS, handling o f irradiated fuel in the secondary containment and operations with a potential for draining the reactor vessel.

The provisions of Specification 3.0.3 are not applicable.

b.

c.

SURVEILLANCE REQUIREMENTS 4.8.3.2 At least the above required power distribution system channels shall be determined energized at least once per 7 days by verifying correct breaker/switch alignment and voltage on the busses/MCCs/panels.

When handling irradiated fuel in the secondary containment.

HOPE CREEK 3/4 8-23

/-

3.9 2 A t least 2 source range monitor* (SRM) channels shall be 0PfRAB;E a.n= :nser:ed to the normal operating level with: U

a.

Annunciation and continuous visual indication i n the contro1,rogm b.

One of the required SRH detectors located in the quadrant where CORE ALTERATIONS are being p e r f o m d and the other required SRH d e t e c t s t located in an adjacent quadrant, and

c.

Unless adequate shutdown aargin has betn drmonstratra per Soeci f i c a -

tion 3.1.1, the "shorting links" r m v e d from the RPS circuitry prior to and during the time any control rod i s witndrawn.

a.

Duriog a SPIRAL UNLOAD, the count rate may drop below 3 cDs when t h e nurnbcr of assemblies remaining i n the core drops to sixteen or less.

i e.

During a SPIRAL RELOAD, uD to four fuel arsemblter nay be loaded i n the four bundle locations imedirtrly surrounding each o f the four S R r s p r i o r t o obtaining 3 cps.

lorded, the 3 cps count rate i s not required.

U n t i l these issenblies have been A P P L I C A B I L Y Y :

OPERATIONAL CONOITION 5.

1 With the rrQuirements of the above r ~ e c ~ f i c r t f o n not satisfied, lmediatrly susptna all operations involving CORE ALTERATlONS and insert all inscrtmle control roar.

SURk E! :LANCE REQuI REMEHTS 4. 9. 2 Each of the above rrquirrd SRn channels shall be demonstrated OPERABLE by:

a.

At least onto per U hours:

1.

Perfomrnce of 4 CHANNEL CHECK, m

e use of rpec?al movable detectors during CORE ALTERATIONS in place o f t h e norut SRn nuclear oeuctors i s pemissible 8s long 4s therr rpecirl oatrctors

Not requirtd f o r control roar m a v e d por Specfficrtion 3.9.10.l.rnd 3.9.10.2.,

fnrrr SRM channels rhrll be O P E W L E for crltical shutdown u r g j n dnonstra-tions. An S&I detector may br ratractad provided a channel Indlcrtion o f at least 100 cgr 4 s uintatnea.

,are connected to tho n o m 1 SRM circuits.

HOPE CREEK 3/4 9-3 h n a n t NO. 14 [

RE F UE L I NG 0 PE RAT IONS L-SURVEILLANCE REQUIREMENTS (Continued)

2.

Verifying the detectors a r e inserted t o the normal operating level, and 3.

Ouring CORE ALTERATIONS, v e r i f y i n g t h a t the detector o f an OPERABLE SRM channel i s located i n the core quadrant where CORE ALTERATIONS are being performed and another i s located i n an adjacent quadrant.

b.

Performance o f a CHANNEL FUNCTIONAL TEST:

1.

Within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months p r i o r t o the s t a r t o f CORE ALTERATIONS, and

2.

A t l e a s t once per 7 days.

I

c.

Verifying t h a t the channel count r a t e i s a t l e a s t 3 cps.

1.

P r i o r t o contr.:l to& withdrawal,

2.

P r i o r t o and a t least once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months during CORE ALTERATIONS***,

and

3.

A t l e a s t once per 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months s***.

Unless adequate shutdown vargin has been demonstrated per Specification 3.1.1, v e r i f y i n g t h a t the RPS c i r c u i t r y "shorting links" have been removed, w i t h i n 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months prior t o and a t least once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months during the time any control rod i s w i t h d r a w. *

d.

4 1

"'Not required for c o n t r o l pods removed per S o e c i f i c a t i o n 3.9.10.1 Or 3.9.1: :.

""Except as noted i n Specifications 3. 9. 2. d and 3. 9. 2. e.

HOPE CREEK 3/4 9-4 Amendment No. 3 1 I

REFUEL I NG 0 P ERAT I ONS

\\..

314.9.3 CONTROL ROD POSITION LIMITING CONDITION FOR OPERATION 3.9.3 A l l control rods shall be inserted.*

APPLICABILITY:

ACT ION:

With a l l control rods not inserted, suspend a l l other CORE ALTERATIONS, except t h a t one control rod may be withdrawn under control o f the reactor mode switch Refuel p o s i t i o n one-rod-out interlock.

OPERATIONAL CONDITION 5, during CORE ALTERATIONS. **

SURVEILLANCE REQUIREMENTS 4.9.3 A l l control rods shall be v e r i f i e d t o be inserted, except as above specified:

a.

Within 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months p r i o r t o :

1.

The s t a r t o f CORE ALTERATIONS.

2.

The withdrawal of one control rod under the control o f the reactor mode switch Refuel p o s i t i o n one-rod-out interlock.

b.

A t l e a s t once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months Except control rods removed per Speci f i c a t i o n 3.9.10.1 o r 3.9.10.2.

- See Special Test Exception 3.10.3.

HOPE CREEK 3/4 9-5

r -

- - -,-,,?:s

?s?.z.I:?is 3 / 4. 9. 5 DELETED 3 / 4 9 - 7 henciment NC,137

THIS PAGE INTENTIONALLY DELETED.

HOPE CREEK 314 9-9 Amendment No. 31

3 / 4. 9. 7 ;ELZ,E3 I

REFUELING OPERATIONS

.v 3/4.9.8 WATER LEVEL - REACTOR VESSEL LIMITING CONDITION FOR OPERATION 3.9.8 A t least 22 feet 2 inches of water shall be maintained over the top of the reactor pressure vessel flange.

APPLICABILITY: During handling of fuel assemblies or control rods within the reactor pressure vessel while in OPERATIONAL CONDITION 5 when the fuel assemblies being handled are irradiated or the fuel assemblies seated within the reactor vessel are irradiated.

ACTION:

With the requirements of the above specification not satisfied, suspend all operations involving handling o f fuel assemblies or control rods within the reactor pressure vessel after placing all fuel assemblies and control rods in a safe condition.

SURVEILLANCE REQUIREMENTS 4. 9. 8 The reactor vessel water level shall be determined to be at least its minimum required depth within 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months prior to the start of and at least once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months during handling of fuel assemblies o r control rods within the reactor pressure vessel.

HOPE CREEK 3/4 9-11

R E F U E L i N G OPERATIONS 3 / 4. 9. 9 WATER L E V E L - SPENT F U E L STORAGE POOL L I M I T I N G C O N D I T I O N FOR O P E R A T I G N L

3.9.9 A t least 23 feet of water shall be mainta fuel assemblies seated in the spent fuel storage A P P L I C A B I L I T Y :

Whenever irradiated fuel assembl pool.

A C T I O N :

With the requirements of the above specification ned over the top o f irradiated pool racks.

es are in the spent fuel storage not satisfied, suspend all movement of fuel assemblies and crane operations with loads in the spent fuel storage pool area after placing the fuel assemblies and crane load in a safe condition. The provisions of Specification 3. 0. 3 are not applicable.

S U R V E I L L A N C E REQUIREMENTS 4. 9. 9 The water level in the spent fuel storage pool shall be determined to be at least at its minimum required depth at least once per 7 days.

L W

HOPE CREEK 3/4 9-12

REFUELING OPERATIONS

/ -

3/4.9.10 CONTROL ROD REMOVAL L,

SINGLE CONTROL ROO REMOVAL LIMITING CONDITION FOR OPERATION 3.9.10.1 One control rod and/or the associated control rod drive mechanism.

may be removed from the core and/or reactor pressure vessel provided that at least the following requirements are satisfied until a control rod and associ-ated control rod drive mechanism are reinstalled and the control rod is fully inserted in the core.

a.

The reactor mode switch is OPERABLE and locked i n the Shutdown position or in the Refuel position per Table 1.2 and Specification 3.9.1.

The source range monitors (SRM) are OPERABLE per Specification 3.9.2.

b.

c.

The SHUTDOWN MARGIN requirements of Specification 3.1.1 are satisfied, except that the control rod selected to be removed;

1.

May be assumed to be the highest worth control rod required to be assumed to be fully withdrawn by the SHUTDOWN MARGIN test, and 2.

Need not be assumed t o be immovable or untrippable.

d.

A l l other control rods in a five-by-five array centered on the control rod being removed are inserted and electrically or hydraulically disarmed or the four fuel assemblies surrounding the control rod or control rod drive mechanism t o be removed from the core and/or reactor vessel are removed from the core cell.

e All other control rods are inserted.

f.

A l l fue.1 loading operations shall be suspended.

APPLICABILITY:

OPERATIONAL CONDITIONS 4 and 5.

With t h e tequirements o f the above specification not satisfied, suspend removal o f t h e control rod and/or associated control rod drive mechanism from the core a n d / o r r e a c t o r pressure vessel and initiate action to satisfy the above reQui rements.

HOPE CREEK 3/4 9-13

REFUELING OPERATIONS L-SURVEILLANCE REQUIREMENTS 4.9.10.1 Within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months prior to the start of removal o f a control rod and/or the associated control rod drive mechanism from the core and/or reactor pressure vessel and at least once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months thereafter until a control rod and associ-ated control rod drive mechanism are reinstalled and the control rod is inserted in the core, verify that:

a.

The reactor mode switch is OPERABLE per Surveillance Requirement 4.3.1.1 or 4.9.1.2, as applicable, and locked in the Shutdown position or in the Refuel Dosition with the "one rod out" Refuel position interlock OPERABLE pe'r Specification 3.9.1.

b.

The SRM channels are OPERABLE per Specif

c.

The SHUTDOWN MARGIN requirements of Spec per Specification 3.9.10.1. c.

d.

All other control rods in a five-bv-five cation 3.9.2.

fication 3.1.1 are satisfied array centered on the control rod being removed are inserted and-electrical ly or hydraul ical ly disarmed or the four fuel assemblies surrounding the control rod o r control rod drive mechanism to be removed from the core and/or reactor vessel are removed from the core cell.

e.

A l l other control rods are inserted.

f.

All fuel loading operations are suspended.

HOPE CREEK 3/4 9-14

REFUELING OPERATIONS i

\\-,

MULTIPLE CONTROL ROD REMOVAL LIMITING CONDITION FOR OPERATION 3.9.10.2 be removed from the core and/or reactor pressure vessel provided that at least the following requirements are satisfied until all control rods and control rod drive mechanisms are reinstalled and all control rods are inserted in the core.

Any number of control rods and/or control rod drive mechanisms may

a.

The reactor mode switch is OPERABLE and locked in the Shutdown position or in the Refuel position per Specification 3.9.1, except that the Refuel position "one-rod-out" interlock may be bypassed, as required, for those control rods and/or control rod drive mechanisms to be removed, after the fuel assemblies have been removed as specified below.

b.

The source range monitors SRM are OPERABLE per Specification 3.9.2 c.

The SHUTDOWN MARGIN requirements o f Specification 3.1.1 are satisfied.

d.

All other control rods are either inserted or have the surrounding four fuel assemblies removed from the core cell.

e.

The four fuel assemblies surrounding each control rod or control rod drive mechanism to be removed from the core and/or reactor vessel are removed from the core cell.

f.

All fuel loading operations shall be suspended.

APPLICABILITY: OPERATIONAL CONDITION 5.

ACTION:

With the requirements of the above specification not satisfied, suspend removal o f control rods and/or control rod drive mechanisms from the core and/or reactor pressure vessel and initiate action t o satisfy the above requirements.

HOPE CREEK 3/4 9-15

REFUELING OPERATIONS SURVEILLANCE REQUIREMENTS 4.9.10.2.1 Within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months prior to the start of removal of control rods and/or control roa drive mechanisms from the core and/or reactor pressurw vessel and at least once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months thereafter until all control rods and control rod drive mechanisms are reinstalled and all control rods are inserted in the core, verify that:

a.

The reactor mode switch is OPERABLE per Surveillance Requirement 4.3.1.1 or 4.9.1.2, as applicable, and locked in the Shutdown position or in the Refuel position per Specification 3.9.1.

b.

The SRM channels are OPERABLE per Specification 3.9.2.

c.

The SHUTDOWN MARGIN requirements o f Specification 3.1.1 are satisfied.

d.

All other control rods are either inserted or have the surrounding four fuel assemblies removed from the core cell.

e.

The four fuel assemblies surrounding each control rod and/or control rod drive mechanism to be removed from the core and/or reactor vessel are removed from the core cell.

f.

All fuel loading operations are suspended.

Ll' 4.9.10.2.2 Following replacement of all control rods and/or control rod drive mechanisms removed in accordance with this specification, perform a functional test of the "one-rod-out" Refuel position interlock, if this function had been bypassed.

HOPE CREEK 3/4 9-16

REFUELING OPERATIONS 3/4.9. il RESIDUAL FEAT REMOVAL AND COOLANT CIRCULATIGN HIGH WATER LEVEL LIKITING CONOITION FOR OPERkTI3N 3.9.11.1 (RHR) systerr! shall be OPERABLE and in operation* with:

At least one shutdown cooling mode loop of the residual heat teFova One OPERABLE RHR pump, and

a.

b.

One OPERABLE RYR heat exchanger.

APPLICABILITY:

OPERATIONAL CONDITION 5, when 1rradiat.d fuel i s in the react: I vessel and the water level is gniter than or equal to 22 feet 2 inches abgve the top of the reactor pressure vessel flange and heat losses to ambient** arc not sufficient to maintain OPERATIONAL CONDITION 5.

ACTION:

a.

Yith no RHR shutdown cooling wde loop OPERABLE, within one hour and at laart once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months themafter, demonstrate tha operability o f at least one alternatr nethod capable o f decay heat ruroval. Otherwise, suspend all operatlonr involving an increase in the reactor decay heat load and establish SECONDARY CONTAIWENT IMTEGRITY within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months .

b.

Yith no RHR shutdown cooling mode I&

in operation, rithjn one hour establish reactor coolant circulation by an alternate method and monitor reactor coolant w e r a t u r e at lerrt once per hour.

S U R V E I L W E REQUIREMENTS 4.9.11.1 At lrrrt one shutdown cooling mda loop of the nridurl heat removal sysk. or rlkmrtcl method shall be verfflrd to bo in op8rition and Circulatincl reactor coolant at least once par 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

n The shutdown coollng pupp m y be removed fm operation for up to 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months per 8-hour period.

- Ambfent losses.lJSt be such t h a t no incnase i n reactor vessel water temper-ature will occur (even though REFUELING conditions are being maintained).

HOPE CREEK 314 9-17

R EFUE L I NG 0 P ERA T I ON S i-LOU WATER LEVEL LIMITING CONEITInN FOR OPERATION 2.9.lL.Z Two shutdown coo'iing mode loops of t h e residua': heat removal (RHR) system shall be CPERABLE and a t least one loop shall be i n operation," w i t h each loop consisting o f :

a.

One OPERABLE 2HR pump, and

b.

One OPERABLE RHR heat exchanger.

APPLICABILITY:

vessel and the water level is less tnan 22 feet 2 inches above the top o f the reactor pressure vessel flange and heat losses t o ambient** are not s u f f i c i e n t t o maintain OPERATIONAL CONDITION 5.

OPERATIONAL CCNDITION 5, when i r r a d i a t e d fuel i s i n the reactor ACT I ON :

a.

With less than the above required shutdown cooling mode loops o f the RHR system OPERABLE, within one hour and a t l e a s t once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months there-a f t e r, demonstrate the OPERABILITY of a t l e a s t one alternate method CaDable of decay heat removal f o r each inoperable RHR shutdown cooling moae loop.

b.

With no RHR shutdown cooling mode loop i n operation, within one hour establish reactor coolant c i r c u l a t i o n by an alternate method and monitor reactor coolant temperature a t least once per hou'r.

I SURVEiLLANCE REQUIREMENTS 4.9.11.2 system o r alternate method shall be v e r i f i e d t o be i n operation and CirCU1ating reactor coolant a t least once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

A t l e a s t one shutdown cooling mode loop of the residual heat reinoval "The shutdown cooling pump may be removed from operation for up t o 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months per 8-nour period.

- Ambient losses must be such t h a t no increase i n reactor vessel water temper-ature will occur (even though REFUELING conditions are being maintained).

L.

HOPE CREEK 3/4 9-i8

.Amendment No. - 19

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 PSEG Internal Use Only Page 1 of 1 PSEG NUCLEAR FIRE DEPARTMENT NC.FP-AP.22-0025 (0) - Rev. 0 PRECAUTIONS AGAINST FIRE Sponsor Organization: Emergency Services REVISION

SUMMARY

Biennial Review performed Yes No -

NIA -

1.

2.

3.

4.

5.

This is a new procedure. This change is in support of revision number 6 to administrathre procedure NC.NA-APmZZ-OO25(Q),

Operational Fire Protection Program. (80035483).

NAAP-25 is being revised to focus on high level process concepts, resulting in relocation of some process description detail and the associated forms, tables, and attachments to other lower tier documents.

This revision represents a significant editorial incorporation of the NAAP-25 Hot Work Program into a new stand alone procedure. The NAAP-25 sections utilized to create this procedure were primarily:

0 5.8, Ignitable Metals 5.5, Control of Ignition Sources - Hot Work The associated NAAP-25 Hot Work forms, tables, and attachments have been relocated to this procedure.

Added term seismic joints to step 5.3.2.G to better define penetration in a fire barrier (7001 2801)

Added new section 5.1 1 Aerosol Products that deals with National Fire Protection Association (NFPA) Code 30B.

IMPLEMENTATION REQUIREMENTS:

Effective Date:

APPROVED:

Manager - Emergency Services

PRECAUTIONS AGAINST FIRE TABLE OF CONTENTS SECTION TITLE PAGE 1. 0 PURPOSE.....................................................................................................

2 2.0 SCOPE.........................................................................................................

2 3.0 RESPONSIBILITIES......................................................................................

2 4.0 PROCESS DESCRIPTION............................................................................

3 PROCEDURE.................................................................................................

4 5.0 5.I 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 5.21 Response to Fire Emergencies............................................................ 4 Fire Prevention Requirements.............................................................. 5 Fire Protection Impairment Program.................................................... 8 Control of Ignition Sources - Hot Work................................................. 8 Combustible Material Control - General /All Areas.............................. 9 Combustible Material Control - Safety Related Areas..........................

I O Transient Combustibles........................................................................ 4 1 Transient Combustible Fire Load Limits................................................ 11 Fire Department Transient Combustibles Inspections.......................... 12 Control of Flammable and Combustible Liquids and Gases................. 13 Aerosol Products.................................................................................. 15 6.0 7.0 8.0 RECORDS...................................................................................................

,.,15 DEFINITIONS................................................................................................ 16 REFERENCES..............................................................................................

17 TABLES TABLE 1 TABLE 2 Limited Transient Combustible Areas -Salem Station.................................... 20 Common Transient CombustibldEstimated Heat Content.............................. 21 FORMS FORM 1 Transient Combustible Permit........................................................................ 22 Common Page 1 of 22 Rev. 0

1.o 1.I I

.2 2.0 3.0 3.1 3.2 Common NC.FP-AP.TZ-0025 (Q)

PURPOSE This procedure is established to secure a reasonable level of safety to life and property from fire hazards incident to the occupancy and maintenance of PSEG Nuclear structures and facilities.

This procedure provides MINIMUM fire prevention measures and directs the user to procedures, which govern other fire protection processes in greater detail.

SCOPE This procedure applies to all PSEG Nuclear buildings and facilities located on the owner controlled property.

RESPONSIBILITIES All Directors and Managers Ensure their organizations implement the applicable fire prevention requirements within facilities they maintain and in which they conduct work.

Manager - Emergencv Services e

e 0

e e

0 e

e e

Coordinate and implement the Operational Fire Protection Program requirements for protecting plant, systems, components, and materials.

Ensure General Employee Training (GET) discusses required employee actions in the event of fire.

Ensure walk downs are performed to monitor control of transient combustibles.

Ensure an inspection program is implemented to verify compliance with applicable regulations.

Ensure Hot Work, Transient Combustible, and Fire Protection Impairment Permits (FPIPs) are properly prepared, authorized, and implemented.

Maintain daily communication with the Operations Superintendent andlor Control Room Supervisors on the status of Salem and Hope Creek Station FPIPs. [CD-434E].

Ensure ignition source control and monitoring for fire prevention.

Interface with fire insurance inspectors, state and local enforcement agencies Interface with offsite fire departments.

Define non-FD responsibility for required testing and inspection of fire protection equipment.

Ensure timely and effective preventive and corrective maintenance on fire protection systems and components assigned to the FD.

Page 2 of 22 Rev. 0

NC.FP-AP.ZZ-0025 (Q) 3.3 Job Supervisors - Salem and Hope Creek Stations 0

Comply with fire prevention requirements of the Fire Protection Impairment, Hot Work, and Transient Combustible Control processes Ensure work practices support control of ignition sources, flammable liquids and gases, and ignitable metals.

0 Comply with the requirements af this procedure.

0 Ensure appropriate response to fires and fire alarms for the affected area.

Ensure fire prevention requirements are observed.

3.4 All Personnel 4.0 PROCESS 4.1 This procedure identifies elements of the Operational Fire Protection Program categorized as Fire Prevention and Readiness to Detect and Suppress Fires.

This procedure is implemented in full detail by the following supplemental Fire Department administrative procedures.

SC.FP.AP.Z&0003(Q), Actions for Inoperable Fire Protection - Salem HC.FP-AP.ZZ-OOW(Q), Actions For Inoperable Fire Protection-Hope Creek NC.FP-AP.ZZ-O005(Q), Fire Protection Surveillance / Periodic Test Program 0

NC.FP-AP.ZZ-O009Q), Fire Protection Training Program 0

NCFP-AP.ZZ-001 O(Q}, Fire Protection Impairment Program NC.FP-AP.ZZ-O012(Q), Safe Hot Work Practices NC. FP-AP.P-O020(Q), Compensatory Measure Fire Watch Program Users of this procedure are advised to refer to the above departmental procedures for the full detail and administrative controls which these procedures provide.

4.2 4.3 Common Page 3 of 22 Rev. 0

5.0 5.1 5.1.1 5.1.2 5.1.3 5.1.4 5.1.5 5.1.6 NC.FP-AP.22-0025 (Q)

PROCEDURE Response to Fire Emergencies In the event a fire alarm sounds within an office facility, (e.g. Material Center, Nuclear Operations Services Facility (NOSF), PSEG Nuclear Administration Building (TB-21, Hope Creek Administration Suilding, Processing Center, or "B" Clean Facilities Building) evacuate the building in accordance with the established routes.

A. Accountability should be performed to ensure all personnel are out of the B. Evacuees should not crowd the entrances and should await further C. NEVER use the elevator to leave the building.

D. Always ensure fire boundary doors are closed.

For fire alarms within the Salem and Hope Creek Stations, listen to the instructions via the page system provided.

Upon discovering a fire, report it using the telephone via 3333, a manual pull box, or page system A. Use page line 1 for Salem U/1, line 2 for Salem U/2 B. Use page line 5 at Hope Creek When reporting an emergency, callers should provide information such as nature of the emergency, the location, and any equipment involved.

After reporting a fire, employees should fight the fire if its within their training and capabilities.

A. If not within the training and capabilities of the employes(s), to fight the fire, then the employee(s) should alert others in the area, evacuate to a safe distance and standby to direct FD personnel to the scene.

When the Control Room receives a report of a fire they should dispatch appropriate personnel in accordance with the applicable procedures.

building and at a specified gathering place.

instructions from either the control room or FD personnel.

Common Page 4 of 22 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 NC.FP-AP.77-0025 (Q) 5.2 Fire Preventlon Requirements 5.2.q General The following conditions are prohibited and should be corrected immediately IAW N.J.A.C. 570-2-10 (New Jersey State Fire Code). These provisions should be applied in all buildings and facilities:

A. Dangerous conditions which are liable to cause or contribute to the spread B. Conditions that would interfere with the use of any fire protection C. Obstruction of egress pathways such as stairwells, exit doors and D. Accumulation of dust or waste in HVAC systems or grease in kitchen or E, Accumulations of grease on kitchen cooking equipment, or oil, grease or F. Accumulation of rubbish, waste, paper, boxes, or other combustible of fire.

equipment.

corridors.

other exhaust ducts.

dirt upon, under or around any mechanical equipment.

materials (trash) or excessive storage of any mmbustible materials in an area not designed for that purpose.

installed electrical wiring, equipment or appliances.

equipment for handling or use of combustible, explosive or otherwise hazardous materials.

1.

Dangerous amounts of combustible, explosive or otherwise hazardous materials.

J. All equipment, materials, processes or operations that are in violation of the provisions and intent of this procedure, the MJ State Fire Code and any procedures for safe plant operation.

the FD (Ext. 2800/2803) for evaluation G. Hazardous conditions arising from defective or improperly used or H. Hazardous conditions arising from defective or improperly installed K. Fire Protection deficiencies observed should be immediately reported to L. Smoking is prohibited in all buildings and areas unless specifically posted.

A, AH storage areas should be maintained in a neat and orderly condition.

8. Storage of material should not affect access to or obstruct fire protection C. Thirty inches (30) of clearance, free of combustible material, shall be D. Materials should not be placed, stored or kept in any portion of an exit, 5.2.2 Storage systems or fire fighting equipment.

maintained around energized electrical panels.

elevator or at the bottom of a stairway or other means of escape.

Common Page 5 of 22 Rev. 0

5.2.3 5.2.4 5.2.5 Common NC.FP-AP.22-0025 (Q)

Fire Barriers A, Fire Doors shall be maintained closed at all times (unless provided with an B. Blocking, propping or leaving a fire door open without proper authorization approved hold-open device).

for any time period is 8 violation of our fire protection program and a serious fire safety hazard. [CD474B, CDD753X, CDm764E]

C. It is imperative that ALL PERSONNEL make sure fire doors close behind them. For doors with hold open devices, the door opening and door swing area need to be free of obstructions.

etc.) shall be maintained, repaired, restored or replaced when damaged, altered, or penetrated D. All required fire resistance rated assemblies (ceiling tiles, walls, doors, Electrlcal A. Extension cords and flexible cords shall not be a substitute for permanent wiring.

B. Extension cords and flexible cords shall be a minimum of 12/3 gauge and not be affixed to structures; extended through walls, ceilings or floors, or under doors or floor coverings; nor shall such cords be subject to environmental damage or physical impact.

C. Multi-plug adaptors, such as cube adaptors, unfused plug strips or any other device not complying with NFPA 70, shall be prohibited.

Fire Protection Systems A. Installed firefighting equipment, with the exception of portable fire extinguishers, may only be utilized for firefighting at the direction of the NFPS.

B. Use of fire protection water for non-fire protection purposes (not within the scope of a T-Mod), is prohibited without permission from the OSICRS of the affected station and the NFPS, along with issuance of a permit for tracking.

C. Actuated detection or suppression systems should not be shut off until authorized by the NFPS or affected station OSKRS. The FD should be notified immediately whenever a portable fire extinguisher is discharged.

D. Fire extinguishers mounted in the stations are for emergency use only.

E. Fire extinguisher location changes at Hope Creek are governed by the configuration control program and cannot be made until approved and documented via the design change process. In addition, use of certain type ABC dry chemical extinguishers are prohibited at Hope Creek station.

Contact the FD for specific information. [CR990312177]

Page 6 of 22 Rev. 0

NC.FP-AP.22-OOPS (Q) 5.2.6 Portable Space Heaters A. Any use of portable space heaters, whether in a safety related or non-safety related application, will require a review and approval by Fire Protection. Additionally, the following provislons also apply to the use of portable space heaters.

B. Portable space heaters use in off ice areas of trailers are prohibited.

C. Portable space heaters used to maintain operability of Safety Related structures, systems, or components (SSCs) are installed in accordance with NC.DE-AP.ZZ-O030(Q), Control of Temporary Modifications.[C10403].

D. In non-safety related areas to support personnel comfort or equipment operation, use of a portable space heaters, will require a review by fire protection with the following restrictions:

1. The department placing the heater is responsible for placing it in the plant, inspecting it to ensure the unit is in serviceable condition and all safety features are operational.

2.

The responsible department shall monitor the operation of the heater at all times, E. Portable space heaters should be electrically powered where possible.

F. A clear combustible zone of 10' around the heater should be maintained at all times.

G. Portable heaters should not be placed in high traffic areas or other areas where personnel could come in contact with them.

H. Fuel fired portable heaters should not be used in a building unless all other alternatives are exhausted.

1.

Fuel fired portable heaters may not be used without adequate ventilation J. Fuel fired portable heaters may not be used in confined spaces.

K. Fuel fired portable heaters may not be fueled while in operation L. A portable fire extinguisher must be present while a fuel fired portable heater is in operation.

Common Page 7 of 22 Rev. 0

5.3 NC.FP-AP.22-0025 (Q)

Fire Protection Impairment Prowram 5.3.1 The Fire Department is the fire protection impairment authority, responsible for implementing the Fire Protection Impairment Program in accordance with administrative procedure: N D.FP-APZ-001 O(Q), Fire Protection Impairment Program. [CD434E]

Work activities affecting the following fire protection systems, equipment and barriers shall be controlled through the Fire Protection Impairment Program 5.3.2

[CD-I74B, CD438A, CD-531 A, CD-643A, CDdb3X, CD=764E, CD-807X, CD-8214:

A. Fire water system (Le. pumps, hydrants, piping, hose stations, deluge and B. Carbon dioxide (CARDOX), Halon, and Foam systems.

C. Smoke and thermal detection systems.

D. Fire alarm and associated circuitry.

E, Manual pull box alarm stations.

F. Fire doors and fire dampers.

G. Penetrations, including seismic joints, in fire barriers. 17001 28011.

H. Marinite boards and structural steel fireproofing.

1.

Fire Wrap on cable tray, conduits, cables, and vent ducts.

J. Radiant energy shields.

K. Appendix "R" 8-hour battery powered emergency lights.

L. Transient com bustibles in non-safety related areaslrooms.

A Fire Protection Impairment Permit (FPIP) is also required when equipment taken out of service affects operability of a fire protection system (Le. tagging a breaker that powers the detection system).

sprinkler systems).

5.3.3 5.4 5.4.1 5.4.2 5.4.3 5.4.4 Control of fcrnition Sources - Hot Work The FD authorizes Hot Work Permits in accordance with procedure NC.FP-AP.ZZ-O012(Q), Safe Performance of Hot Work.

Work involving ignition sources, such as welding, cutting, burning, grinding or open flame soldering, is considered a fire watch required activity.

A Hot Work Permit (HWP) - Form I of this procedure, shall control all these processes. [CD-226C, CB3OOX, CD-317Y, CD-754X, CD-821 X]

Work involving wire wheeling! needle gun use, or hot iron soldering is NOT considered hot work and a Hot Work Permit is not required.

A. Precautions identified in this procedure for hot work activities should be applied to ensure a fire safe work area.

B. At the discretion of the NFPS, the use of certain equipment for pre-heating such as Cooper Heat (trade mark) resistance heaters, or similar devices, may be considered Hot Work.

Common Page 8 of 22 Rev. 0

5.5 5.5.1 5.5.2 5.5.3 5.5.4 5.5.5 5.5.6 5.5.7 5.5.8 5.5.9 NC.FP-AP.ZZ-0025 (Q)

Combustible Material Control - General / All Areas Commonly encountered transient corn bustibles and their estimated heat content are identified in Table 2.

Flammable or combustible liquids introduced into any arealroom within the stations shall be limited to daily usage. [CD-755a Use and storage of flammable liquids for decon within the stations shall be limited to five gallons. [CD-799X]

Items incidental to Radiation Protection such as catch-bags, step-off-pads, roping, and stanchions are acceptable in limited quantities as determined by the FD. PC and trash drums are evaluated as transient combustibles.

Accumulations of waste, debris, scrap, rags, and other combustibles resulting from work activities shatl be removed from the work area immediately following job completion or at the end of a 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months period, whichever comes first.

For work in the RCA, combustibles shall be removed given proper consideration for ALARA or contained in a sealed container until removed.

[CD-426a Com bustible structures, (including trailers, sheds, etc.) are prohibited from being placed inside of or within 30 feet of permanent buildings, unless a Fire Protection Impairment Permit (FPIP) or TCP as appropriate is issued authorizing placement.

Introduction of combustibles into Combustible Control Zones (CCZ) at Salem is prohibited without a Transient Combustible Permit (TCP), see Form 1, and appropriate compensatory measures. CCZs are used to limit the potential for exposure of sensitive equipment to fire and/or combustion products, to limit the potential for fire propagation through plant equipment hatches, and to reduce overall fire risk. Fixed combustible material may be installed in CCZs with approval from the fire protection designated design authority or the fire department. Transient combustibles are combustible materials that are not part of permanent plant equipment, components or installations. Transient combustibles are intended to pass through or reside in the plant for a brief duration usually associated with, but not limited to, a maintenance or design change work activity (e.g., combustible liquids, wood 8, plastic products, waste materials, scrap, rags, trash bags, electrical extension cords, ctothing hoop rings, or other corn bustible materials resulting from a work activity.)

Equipment or supplies (such as new fuel) shipped in untreated combustible containers can be unpacked (in preparation for immediate use} in safety-related areas if required for valid operating reasons. However, the combustible shipping materials shall be removed from the area immediately after unpacking, unless stored in metal containers with tight-fitting, self-closing metal covers or equivalent. Such material unless stored in the approved containers, shall NOT be left unattended at any time. [CD426X]

Rev. 0 Common Page 9 of 22

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 NC.FP-AP.ZZ-0025 (Q) 5.5.10 5.5.1 1 5.5.12 5.5.13 5.514 5.6 5.6.1 5.6.2 5.6.3 5.6.4 5.6.5 Common All wood used for maintenance activities, refueling or modification operations, including wood carts and foreign material exclusion (FME) covers, etc. shall be fire retardant (performance rated Exterior Type per National Fire Protection Association Standard 703).

Combustible material for decoration in any building is prohibited, unless the materials have been made flame retardant with an approved flame retardant material or process and are approved by the NFPS prior to the installation, using the planned FPlP process.

Temporary buildings, enclosures, or fixtures within or on buildings should be constructed of noncombustible material. Use of combustible materials may affect compliance with Nuclear Electric Insurance Limited (NEIL) Property Loss Prevention Standards. Permanent items are prohibited unless evaluated and approved in accordance with NC.NA-AP.ZZ-0008 (Q) Configuration Control Program.

Storing combustible or flammable material in stairwells is prohibited.

Combustible or flammable materials in use shall not be stored on or against stations' fire rated barriers, where it will come in contact with such items as:

A. Metal floor hatches, pipes, conduits, cable trays, cable, and HVAC ducts that penetrate fire barriers.

B. Penetration seals installed in barriers or embedded sleeves used to form openings in fire barriers.

Combustible Material Control - Safetv Related Areas Storage of combustibles is safety related areashooms except when approved by Engineering.

When approved, storage of combustibles in safety related areashooms is permitted only in metal containers with tight-fitting, selfclosing metal covers or equivalent.

Storage for Salem's RCA safety related areas is limited to the engineering approved locations andlor the "A" Controlled Facilities Building, while Hope Creek's RCA safety related areas is limited to the engineering approved locations and/or sprinklered areas of the Turbine Building.

Use of non-fire retardant wood (such as large dunnage, wooden carts, or FME) in any safety-related area/room, regardless of the total British Thermal Units (BTU) content, requires an evaluation by engineering.

Daily usage of combustible or flammable materials in safety related areas of Salem and Hope Creek Stations is considered transient combustibles and requires Section 5.7 of this procedure to be completed.

permitted in Salem and Hope Creek Station's iCD-31v Page 10 of 22 Rev. 0

NC.FP-AP.ZZ-0025 (Q) 5.7 5.7.q 5.7.2 5.7.3 5.7.4 5.7.5 5.8 5.8.1 5.8.2 5.8.3 5.8.4 5.8.5 Common Transient Combustibles All work activities requiring the introduction of transient combustible material into SAFETY RELATED AREAS or ROOMS shall be identified and administratively controlled. [CD1226C, CD-300X, CD463Y, CD-807X, Job Supervisors or designees, for work activities introducing combustible items into safety-related areaslroorns, are responsible for performing a calculation of the transient combustibles BTU content.

This calculation should be completed during the walk-down phase of the workweek process.

Use Form 1 Transient Combustible Permit (TCP) for performing the calculation.

The FD will issue an approved TCP for SAFETY RELATED AREAS or ROOMS and specify compensatory measures based on the following:

A. Total transient combustibles being utilized in a fire aredroom.

B. Pre-existing quantities of transient combustibles found during roving C. Valid hot work activities.

D. Sound Fire Protection Practices.

E. Presence/operability of installed detection or suppressian equipment in Transient Combustible Fire Load Limits Transient combustible fire load limits have been established for safety related areaslrooms within the Salem and Hope Creek Stations and are specified in the Fire Hazards Analysis of each station. [CD=300X, CD839F)

If it is determined the use of combustibles WILL EXCEED established limits, an engineering assessment is required to determine threshold limits and any additional controls BEFORE the combustibles are brought into the safety related areaslrooms.

Regardless of whether the transient combustibles do or do not exceed the limits, the FD will issue a TCP and specify compensatory measures.

Departments introducing the transient corn bustibles are responsible for the implementation, control and release of the fire watch compensatory measure.

Salem Station Transient Combustible Load Limit A. 400,000 BTU per fire area. t842201 B. Table I contains the areas in both Salem Stations, which have restrictions CD-8214 patrols or the current TCP logs.

aredroom, to the established limits with regards to transient combustibles.

Page 11 of 22 Rev. 0

NC. F P-AP.22-0025 (Q) 5.8.6 Hope Creek Station Transient Combustible Load Limit A. 4,480,000 BTU per room. [CD-939F]

6. Mope Creek rooms have restrictions with regards to transient combustible load limits: [CD463q 1, Room 4326 (CRD Removal and Repair Area) and Room 4333 (CRD Storage Area): Transient combustibfes are prohibited with the exception of CRD cleaning and rebuilding equipment.

2. Vestibules 5101 5201 and Electrical Raceways 521 6 and 5336:

Transient combustibles are prohibited.

3. Main Control Room and Control Complex Peripheral Rooms:

Transient combustibles are limited to Class "A" materials and small quantities of cleaning supplies incidental to Control Room Complex functions. This area shall not be used for any storage, as storage shall be limited to the peripheral rooms only. This does not include small quantities of items such as a ream of paper or stationary supplies like pens and notepads.

5.9 59.1 5.9.2 5.9.3 5.9.4 Fire Department (FD) Transient Combustibles Inspections The FD performs a survey of transient combustibles in safety-related areas/rooms as part of their daily housekeeping inspections.

The FD performs a survey of transient combustibles in non-safety-related areadrooms as part of their weekly housekeeping inspections.

Non-compliances discovered will be documented using the notification process. v8106]

For Non-Safety Related Areas Only:

A. No combustible or flammable material should be stored in any non-safety related area of either Salem or Hope Creek Stations, unless the area contains a fire suppression system, due to insurance restrictions (NEIL Property Loss Prevention Standards). Exceptions to this requirement are based on a FD evaluation with implementation of compensatory measures.

(performance rated Exterior Type per National Fire Protection Association

[NFPA] Standard 703).

C. Introduction of combustibles considered to be excessive will be tracked by a Fire Protection Impairment Permit.

B. All wood used for maintenance activities should be fire retardant wood Common Page 12 of 22 Rev. 0

4LL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 NC.FP-AP.22-0025 (a) 5.10 5.10.1 5.1 0.2 5.10.3 5.40.4 Common Control of Flammable and Cornbusti ble Liquids and Gases Storage or dispensing of flammable or combustible liquids shall be in accordance with NFPA Standard 30, the "Flammable and Combustible Liquids Code", unless an authority having jurisdiction (such as the Nuclear Regulatory Commission (NRC) or the Nuclear Electric Insurance Limited (NEIL) grants exceptions or variances. All questions regarding compliance with NFPA 30 should be directed to the FD. [CD900X, CD-755)(1 Flammable and combustible liquids shall be handled carefully using the following guidelines: [CD=755X]

A. Kept in Factory Mutual (FM) or Underwriters Laboratory (UL) approved safety cans when in use, handled and/or dispensed. The only exception is when liquids remain in their original containers to maintain purity.

B. Flammable and combustible liquids when NOT in use are stored in FM or UL approved flammable liquid storage cabinets regardless of container.

C. Proper electrical grounding and bonding are provided when dispensing.

Portable Fuel Tanks A. Portable fuel tanks, or fuel tanks used for storage, require the following measures:

1, A capacity > 660 gallons requires a permit by the State of N.J.

2. Contained within a dike capable of being drained frequently to remove accumulated rainwater or spills.

3. Located and arranged that access for fire fighting is not restricted.

4. Equipped with a lockable, automatic shutoff nozzle.

5. Portable ABC type fire extinguisher provided.

impairment perm it is required along with possible compensatory measures.

B. If any of the above fire prevention measures are not met, a fire protection Engineering is to assess and approve all permanent or temporary placements of flammable liquid storage cabinets and gas cylinders in safety-related areas of either Salem or Hope Creek. [CD-755X, CD-830A A. Requests for permanent placement of a cabinet in a SAFETY RELATED area made via NI Notification for engineering evaluation and approval.

B. Requests for temporary placement of a cabinet in a SAFElY RELATED area are made via the Transient Combustible Permit process through the Fire Department.

Page 13 of 22 Rev. 0

NCFP-AP.ZZ-0025 (Q) 5.1 0.5 5.10.6 5.10.7 5.1 0.8 5.10.9 5.1 0.1 0 Common Placement of flammable liquid cabinets in non-safety related areas is in accordance with the following:

A. No more than 3 cabinets should be located in any one fire area.

B. In large plant areas (ie Turbine Building) more than 3 cabinets may be installed provided each group of 3 cabinets is separated by at least 100.

C. If the area is fully sprinklered, up to 6 cabinets may be installed in a single area without 100' separation.

Flammable liquid cabinets should be maintained in a neat orderly condition with all latches, hardware and hinges properly functioning.

The maximum atlowable quantity of Class I, It, and IllA liquids should not exceed 120 gallons per cabinet.

NO storage of materials other than Class I, ll and MA liquid is permitted in a Flammable liquid cabinet.

Flammable Gas Cylinders A. Flammable gas cylinders in any safety-related area or room, regardless of the amount, shall NOT be left unattended for > 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months . [78111]

B. Flammable gas cylinders in any safety-related area or room, regardless of the amount requires a TCP.

1. An exception for the TCP would be when a Hot Work Permit (HW) is issued for the gas cylinders on a daily basis.

2. The requirement to monitor flammable gas cylinders left for longer than one hour in a safety related area or room of the stations remains the same. [CD-830X, TS990325186J Compressed Gas Cylinders A. Personnel working with compressed gas cylinders shall comply with the precautions as specified in desk guide: NC.PM-DG.77-0001 (Z) Storage and Handling of Compressed Gas Cylinders: [CD-;IS4X, CD-830XI B. Compressed Gas Cylinder Control Tags must be affixed to cylinder(s).

These tags should be maintained to match cylinder level (EMPTY, IN-USE, and FULL).

permit issued, are considered "in use". Those not in use will be treated as "storage" and shall safety related areas of the stations. [78111 J owners. ~SSSOSOSI SO]

manufactured holding devices, or to a cart or permanent structure by chain or double wrapped wire (minimum No. 9 gauge), to prevent them from falling or being knocked over.

C. Compressed gas cylinders used for hot work with a valid daily hot work be left unattended for longer than one hour in D. Cylinders should contain a job information tag attached for identifying the E. Cylinders should be kept in an Upright position, secured in specially Page 14 of 22 Rev. 0

5.1 1 5.1 1.1 5.1 1.2 5.11.3 5.1 1.4 5.11.5 5.11.6 6.0 6.1 6.2 NC. F P-AP.22-0025 (Q)

F. Open cylinder valves slowly and close valves when work is complete or when personnel leave the area.

G. Keep cylinders capped whenever regulator is removed, while moving a cylinder, or when cylinder is in storage.

H. Promptly return cylinders to the appropriate gas bottle storage areas upon completion of the work.

1.

All storage and issuance of compressed gas cylinders in the gas bottle storage areas should be In accordance with Compressed Gas Association Pamphlet P-1.

J. Warning signs are required in areas where the possibility of hydrogen leakage exists (Re-combiners, Waste Gas Compressors, Decay Tanks, and Turbine Generators) to prevent open flames or other sources of ignition within 35 feet of the hazard. [CD=173B]

Aerosol Products An aerosol is a product that is dlspensed from an aerosol container by a propellant.

The definition of aerosol does not apply to the storage or display of containers whose contents are composed entirely of liquid petroleum (LP) gas products.

A. Examples include MAP (methane, acetylene, propane) gas cylinders, B. Uses for these LP-gases might include small hand torches for brazing and An aerosol container is a metat can up to a maximum ske of 33.8 fluid ounces (1 000 ml) or a glass or plastic bottle up to a maximum size of 4 fluid ounces (1 18 ml).

Storage and display of aerosols shall be In accordance with NFPA standard 308, Manufacture and Storage of Aerosol Products Code.

Aerosols introduced into any safety related aredroom within the stations shall be limited to daily usage.

Daily usage of aerosols in safety related areas of Salem and Hope Creek Stations is considered transient combustibles and is required to be controlled accordingly.

propane gas cylinders, and butane gas cylinders.

soldering.

Records Transient Combustible Permits shall be retained with the work package in accordance with NC.NA-AP.22-0011 (Q), Records Management Program The FD, in accordance with NAP-1 1, shall retain transient combustible permits and logs pertaining to hot work permits and fire protection impairment permits. [CP434EJ (NAP-1 1). [CD434E]

Common Page t5 of 22 Rev. 0

7.0 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 7.10 7.1 I 7.12 7.13 7.14 7.1 5 Common NC.FP-AP.22-0025 (Q)

DEFl NITIONS Aerosol - A product that is dispensed from an aersol container by a propellant,(NFPA 30B).

Combustible Control Zone (CCZ) - An area of the plant in which transient combustible material@) is prohibited without a Temporary Combustible Permit (TCP) and appropriate compensatory measures.

Combustible Liquid - A liquid having a flash point at or above 100" F (37.8' C).

Combustible Material - Materiat, which in the form it is used and under the conditions anticipated, WILL ignite, burn, support corn bustion, or release flammable vapors when subjected to fire and heat.

Fines - very small particles in a mixture of various sizes.

Fire Barrier - Those construction elements (walls, floors, and their supports),

including beams, columns, penetration seals or closures, fire doors and dampers, that are rated by approving laboratories in hours of resistance to fire and used to prevent the spread of fire.

Fire Retardant Wood - Wood that has been treated with fire retardant chemicals and is performance rated Exterior Type per National Fire Protection Association Standard 703).

Flre Watch - An individual who has satisfactorily completed fire watch training and is designated by the FD for compensatory measure, hot work, or both fire watch type duties.

Flammable Liquid - A liquid with a flash point below 100" F and a vapor pressure not exceeding 40 pounds per square inch absolute at 100" F. (Also known as a Class I liquid.)

Hot Work - Work that involves ignition sources.

ignition Source - Heat or flame from any source capable of igniting combustible or flammable material.

Impairment - Any condition affecting the intended operation of a fire protection system or barrier or posing as a fire hazard within the stations.

Liquified Petroleum Gas (LP-Gas1 - Material having a vapor pressure not exceeding that allowed for commercial propane composed predominantly of the following hydrocarbons, either by themselves or as mixtures: propane, propylene, butane (normal butane or isobutene), butylenes (NFPA 58).

Noncornbustlble Material - Material which, in the form it is used and under the conditions anticipated, will NOT ignite, burn, support combustion, or release flammable vapors when subjected to fire and heat.

Permanent - A condition with an indefinite period of time.

Page 16 of 22 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 NC.FP-AP.22-0025 (Q) 7.1 6 7.17 7.18 7.19 7.20 7.21 7.22 7.23 0.0

8. I 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8,9 8.1 0 Safety Related Area - An area that contains systems and components required to shut down the reactor, mitigate the consequences of postulated accidents or maintain the reactor in a safe cold shutdown condition, Sealed Container -A metal container sealed by means of a tightly fitting lid or other device so neither liquid nor vapors can escape at room temperature.

Storage - The placing of items in a location and leaving them unattended until later use or disposal.

Temporary - planned time duration of no more than 60 days.

Temporary Buildinas - Any temporary structure or supported protective covering where personnel can move freely in and out of the structure.

Temporary Enclosure - Any supported protective covering where personnel cannot move in and out of the structure or where the protection is accomplished by draping the protective cover over the material and/or equipment. This definition also applies to temporary enclosures inside of permanent buildings.

Temporary Fixture - Something securely placed or attached as an appendage or as 8 structural part of a building (Le, door, portable steps, storage rack), constructed of a combustible material. This definition does not apply to furniture permanently installed in Station facilities.

Transient Combustible - Any combustible material introduced into a Safety-Related aredroom which will be used to complete an assigned task or left unattended for any period of time. It does not include items moved through areas in route to the final destination, unless the items are lef? un-monitored during transit.

REFERENCES NC. NA4P.ZZ-0025 (a), Operational Fire Protection Program N.J.A.C. 570-2 New Jersey State Fire Code Salem Updated Final Safety Analysis Report (UFSAR), Section 9.5, - Fire Protection System Salem Fire Protection Report - Fire Hazards Analysis HCGS Updated Final Safety Analysis Report, (UFSAR) Section 9.5.1, - Fire Protection Program HCGS UFSAR, Appendix QA, - Appendix R Comparison Appendix A to Branch Technical Position APCSB 9.5-1, Guidelines for Fire Protection for Nuclear Power Plants Docketed Prior to July I, 1976 Branch Technical Position CMEB 9.5-1, Guidelines for Fire Protection for Nuclear Power Plants NRC Supplemental Guidance, Nuclear Plant Fire Protection Functional Responsibilities, Administrative Controls and Quality Assurance, August 2 977 Occupational Safety and Health Standards Title 29, Chapter XVII, Part 191 0.36FR 10466 Common Page 17 of 22 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 NC.FP-AP.ZZ-0025 (Q) 8.1 1 8.12 8.13 8.14 8.15 8.16 8.17 8.18 8.18.1 8.18.2 8.18.3 8.4 8.4 8.18.5 8.18.6 8.18.7 8.18.8 8,18.9 8.18.10 8.1 8.q I 8.18.13 8.18.14 8.1 8.15 8.18.16 8.19 8.19.1 8.19.2 8.19.3 8.19.4 8.1 9.5 8.19.6 8.18.12 8.1 8.1 7 10CFR50 Appendix R, Fire Prot. Program for Nuclear Power Facilities Operating Prior to Jan. 1, 1979 NC.DE-PSZZ-0001 (Q), Fire Protection Programmatic Standard IEEE Standard 634 - 1978 Hope Creek Station Generic Letter 86-10 Submittal, dated May 13, 1986 HC.DE-PS.ZZ-0021 (F), Hope Creek Penetration Seal Program SC.DE-PS.ZZ-O035(Q), Salem Penetration Seal Program National Fire Protection Association Standard 701, Standard Methods for Fire Tests for Flame Propagation of Textiles and Films Cross References NFPA 30 - Flammable Liquids Code, National Fire Protection Association (NFPA)

NFPA 30B - Code for the Manufacturer and Storage of Aerosol Products NFPA 58 - Liquefied Petroleum Gas Code NFPA 703 - Standard for Fire Retardant Impregnated Wood and Fire Retardant Coatings for Building Materials Compressed Gas Association Pamphlet P-I, Safe Handling of Compressed Gases in Containers.

Property Loss Prevention Standards of Nuclear Generating Stations - Nuclear Services Organization (NSO).

NC.NA-AP.Z&0008(Q), Configuration Control Program NC.NA-AP.ZZ-0011 (a), Records Management Program (NAP-I 1)

MC. DE-AP.Z-O030(Q), Control of Temporary Modifications SC.FP.AP.ZZ-O003(Q), Actions for Inoperable Fire Protection - Salem HC. FP-AP.Z4004(Q), Actions For Inoperable Fire Protection-Hope Creek NC. FP-AP.ZZ-O005(Q), Fire Surveillance and Periodic Test Program NC. Ff-AP.ZZ-0009(Q), Fire Department Training Program NC. FP-AP.ZZ-OOlO(Q), Fire Protection Impairment Program NC.FP-AP.ZZ-O012(Q), Safe Performance of Hot Work NC. FP-AP.ZZ-Q020(Q), Compensatory Measure Fire Watch Program NC.PM-DG.Z-0001 (Z) Storage and Handling of Compressed Gas Cylinders Commitment Documents: - Hope Creek CD-156A (NRC El Circular 80-09) (See FPAP-12)

CD-1736 (INPO SOER 82-09)

CD-174B (SOER 82-1OR02,04,07)

CD-226C (NRC IE Bulletin 75-04A)

CD300X (FSAR 8.1.4.14.3.1)

CD317Y (FSAR Q 430.85( B))

Common Page 18 of 22 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 NC.FP-AP.22-0025 (Q) 8.1 9.7 8.19.8 8.19.9 8.1 9.10 8.19.11 8.19.12 8.19.13 8.19.14 8.19.15 8.19.16 8.19.17 8.1 9.1 8 8.1 9.1 9 8.1 9.20 8.19.21 8.19.22 8.19.23 8.20 8.20.1 8.20.2 8.21 8.21.I 8,21.2 8.21.3 CD-426X (FSAR 9.1.I

.3.2)

CD-434E (IR 86-062) (LER 86-062)

CD-438A (INPO SER 055-81)

CD-463Y (FSAR Appendix 9A.6.5)

CD-643A (INPO O&MR 64)

CD-6524 (INPO O&MR 73) {See FPAP-12)

CD482D (INPO SER 01-85) (See FPAP-12)

CD-531A (INPO SER 4682)

CD-753X (FSAR 9.5.1. I.

IO)

CD-754X {FSAR 9.5.1.1.11)

CD-755X (FSAR 9.5.1. I.I

3)

CD-764E (NHO IR 86-274)

CD-791X (FSAR 9.5.1.2.32)

CD-807X (FSAR Appendix 9A.III.K)

CD-821X (FSAR 9.5.1.5.3)

CD-830X (BTP CMEB 9.5-1,~.8.1)

CD-939F (NRC OPEN 354/88-18-F1)

Closing Documents - Salem C0403 (N RC-I N FO 89-04)

C0549 (SR 272/92-8) (See FPAP-IO)

Commitment Documents - Engineering 781 05 (Appendix A to BTP APSCB 9.5-1, Section 8.2) 781 11 (Letter from PSE&G to NRC, 07/26/78) 84220 (Memo from Vargas to PSE&G, 03/23/84)

Common Page 19 of 22

NC.FP-AP.22-0025 (Q)

Reference Drawings: 605810,6O5811,605812,605813,605815,605816, & 605817 Common Page 20 of 22 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030210 NC.FP-AP.22-0025 (4)

TABLE 2 COMMON TRANSIENT COMBUSTIBLES I ESTIMATED HEAT CONTENT Acetylene Common size acetylene cylinders found on site:

Cable insulation Cardboard Charcoal Clothlcloih pcs Combustible liquid Dry ion resins Fiberglass ladder (6')

Flammable liquid Paper Plastic Rubber Titanium Wood 20,800 BTUllh MC Size Cyiinder (4" D x 12 H) = 36 Ibs B Size Cylinder (6"Dx 19"H) =

2ibs R Size Cylinder (7"Dx 25"f-f) =

3Ibs S Size Cylinder (IO" D x 30" H) = 15 Ibs M Size Cylinder (12"Dx 36" H) = 18 ibs L Size Cylinder (12" D x 39" H) = 24 Ibs 12,000 BTUllb 6,000 BTUllb 13,000 BTUllb I

6,000 STlJll b

( I PC = ?4 LB or 8,000 STUs) 160,000 BTU/gal 12,000 BTUAb 32,000 BTU/ea

( I foot = 5,333 BTUs) 90,000 BTUlgaI 8,000 BTUllb or 453,000 BTUlcu. ft.

(7 case of copier paper = 4 I 6,000 B TUs) 20,000 BTUAb

( I sheet of herculite - 50'x 50' = 50, 000 BTUs) 10,000 BTU/lb (1 - 35 hose, 50' = 50,000 BTUs) 8,500 BTUlLB 9,000 BTUllb or 41 4,000 BTU/cu. ft.

(f plank - 2"x 6"x IO' = 277,500 BTUs)

Common Page 21 of 22 Rev. 0

NC.FP-AP.22-0025 (Q)

FORM I TRANSIENT COMBUSTIBLE PERMIT II COM BUSTISLES I ESTIMATED HEAT CONTENT I TOTAL BTU's FLAMMABLE LIQUID 90,000 BTUlGALLON 160,000 BTU/GALLON COMBUSTIBLE LIQUID or GREASE CHARCOAL 13,000 BTUPOUND FIBERGLASS LADDER 5,333 BTU/FOOT OF LADDER CABLE INSULATION 12,000 BTUFOUND CARDBOARD 6,000 BTUlPOUND I

8,000 BTU/POUND I

(453,000 BTUlCUBIC FOOT)

PAPER 16,000 BTU/POUND 1PC = % POUND CLOTH and CLOTH PCs I

20,000 BTUlPOUND 9,000 BTUlPound (414,000 BTU/Cubic Foot)

DRY ION RESlNS 12,000 BTU/Pound TITANIUM 8,500 BTWPound WOOD I

ACETYLENE 20,300 BTUlPound A

OTHER I

Contact FIRE DEPT.

I Engineering Assessment Needed 0 Yes No Approved Yes No Completed By Date TCP #

Total BTUs

[

REMOVE ALL TRANSIENT COMBUST18tES UPON JOB COMPLT!ON Common Page 22 of 22 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 PSEG Internal Use Only Pacre 1 of 1 I

PSEG NUCLEAR FIRE DEPARTMENT I

NC.FP-AP.ZZ-0012(4) - Revision 0 SAFE PERFORMANCE OF HOT WORK Sponsor Organization: Emergency Services - Fire Department I

REVISION SUM MARY:

1. This is a new procedure. This change is in support of revision number 6 to administrative procedure NC. NA-AP.ZZ-O025(Q), Operational Fire Protection Program. (80035483).

NAAP-25 is being revised to focus on high level process concepts, resulting in relocation of some process description detait and the associated forms, tables, and attachments to other lower tier documents.

2. This revision represents a significant editorial incorporation of the NAAP-25 Hot Work Program into a new stand alone procedure. The NAAP-25 sections utilized to create this procedure were primarily:

0 0

5.8, ignitable Metals 5.5, Control of Ignition Sources - Hot Work

3. The associated NAAP-25 Hot Work forms, tables, and attachments have been relocated to this procedure.

4. This revision meets the requirements of the biennial review.

IMPLEMENTING REQUIREMENTS Effective On:

I,/ 2 8 / 0 3

Manager - Emergency Services

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC.FP-AP.22-0012 (a)

I I

SAFE PERFORMANCE OF HOT WORK SECTION TITLE 1.Q Purpose 2.0 Scope 3.0 Responsibilities 4.0 Hot Work Process Overview 4.1 Hot Work 4.2 General 4.3 High Risk Hot Work 4.4 Ignitable Metals 4.5 4.6 Exceptions 5.0 Approval Process Electromagnetic I Radio Frequency Interference 6.0 Records 7.0 References Table I Table 2 Form 1 Hot Work Permit Form 2 Ignitable Metals - Salem lgnitable Metals - Hope Creek Hot Work Authorization Log PAGE 2

2 2

3 3

3 4

4 5

5 5

7 8

9 11 12 14 WCLEAR COMMON Page 1 of 14 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 1.o 2.0

2. I 2.2 2,3 2.4 3.0 3.1 3.1.I 3.1.2 3.1.3 3.1.4 3.1.5 3.2 3.2. I 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 NC.FP-AP.22-0012 (a)

PURPOSE Provide a method and instruction for preparing, authorizing, and tracking Hot Work Permits, to control and limit the introduction of potential fire hazards into plant areas. [CD-300)(3 SCOPE This procedure applies to the performance of hot work in the Salem 1 and 2 Stations, the Hope Creek Generating Station, and associated out buildings.

Implementation of this procedure provides a log of the areas where hot work has been authorized including High Risk jobs and hot work in approved fab shops.

This procedure ensures that the Emergency Services - Fire Department (FD) duty Nuclear Fire Protection Supervisor (NFPS) is aware of all hot work jobs, possible fire hazards and their effect on station safety.

This procedure also allows for the tracking of flammable compressed gas cylinders utilized for hot work.

RESPONSIBILITIES Nuclear Fire Protection Supervisor (NFPS) or designee Compile information on the hot work permit ( H W ) log prior to authorizing a permit.

Authorize Hot Work Permit.

Maintain log of authorized hot work perm its.

Recognize the extent of hot work jobs in progress during his shift.

Inspect and authorize high risk hot work jobs.

Job Supervisor Ensure their personnel are trained and qualified to perform hot work.

Prepare their jobsite in accordance with the H W.

Inspect their jobsite prior to requesting a HWP number.

Maintain their jobsite in accordance with the HWP.

Ensure precautions are taken regarding work practices that have the potential to generate electromagnetic interference and radio frequency interference Notify the OS/CRS of the affected station prior to welding in the vicinity of a Radiation Monitor System (RMS) component 0

Spiking of the RMS may result, causing unexpected alarms of the RMS.

[TS980622174].

Assign qualified fire watch to the hot work job site.

0 Additional firewatch may be assigned due to sparks or slag streams affecting adjacent fire areas or elevations.

NUCLEAR COMMON Page 2 of 14 Rev. 0

4LL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030221 NC.FP-AP.22-0012 (Q) 3.2.8 3.2.9 3.3 3.3.1 3.3.2 3.3.3 3.3.4 3.3.5 4.0

4.

A 4.1.I 4.1.2 4.1.3 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 Terminate work activities properly to ensure that flammable compressed gas cylinders are not left unattended.

Ensure fire watch remains for 30 minutes after hot work is completed.

Hot Work Fire Watchers:

Present and observant at all times of the work being performed and the surrounding area.

Ensure that the work area is maintained as described on the HWP Inspection at all times while hot work is being performed.

Notify the control room immediately of any fire occurring after ensuring the safety of their co-workers.

Extinguish fires within the capabilities of their training after the fire has been reported.

Remain at their post fur 30 minutes following the last hot work.

HOT WORK PROCESS OVERVIEW Hot Work Work involving ignition sources, such as welding, cutting, burning, grinding or open flame soldering, is considered Hot Work.

Hot work is a fire watch required activity.

A Hot Work Permit (HWP) shall control work involving ignition sources, such as welding, cutting, burning, grinding or open flame soldering. [CD*226C, General Daily Hot Work permits are valid for the one calendar day in which they are issued.

Annual hot work permits, with specific numbers, are issued individually for each approved shop facility on site for compliance with the New Jersey State Uniform Fire Code.

Fire watch are not required in shops where wetding and work involving ignition sources are routinely performed or in yard areas where no flammable or combustible materials are located within 35 feet of the hot work.

Separate Hot Work tracking logs should be established for the Hope Creek and Salem stations.

The NFPS should review the logs at the beginning of each operating shift to become familiar with hot work that has been authorized for the shift and what detection zones may be affected.

Hot work requires the fire watch to be maintained for 30 minutes after hot work is completed or suspended, to ensure the work area is safe from fire.

CD300X, CD-317Ys CD-754X, CD-SZlXJ NUCLEAR COMMON Page 3 of 34 Rev. 0

4LL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC.FP-AP.ZZ-0012 (Q) 4.2.7 4.2.8 4.3 Hiqh Risk Hot Work 4.3. I 4.3.2 4.3.3 Fire watch is responsible for monitoring the work area, including levels below floor grating and floor openings.

A portable fire extinguisher, inspected within the previous 30 days, is required for the hot work job.

Hot Work activities will be defined as H1GH RISK if certain criteria are met.

HIGH RISK hot work activities will require additional administrative controls and supervisory oversight, beyond the normal hot work controls.

The following hot work activities are considered HIGH RISK:

Work on tanks, vessels or piping that contained, or had contained combustible or flammable chemicals, solvents, gases, etc.

+ Work in areas identified as having hydrogen as part of equipment or processes.

Use of arc gouging or plasma arc welding which produce copious amounts of heat, with molten slag and sparks.

Work in cable shafts, filter housings, or ventilation ductwork Work in Hope Creek Drywell [CD-682-D].

0 Work on equipment containing combustible (ignitable) metals, which are listed in Table I and 2 of this procedure lgni t ab1 e Metals Ignitable metals utilized at Salem and Hope Creek Stations are identified in Tab!e 1 and Table 2.

The following precautions apply when working on or in proximity of equipment containing ignitable metals:

4.4 4.4.1 4.4.2 Metals are considered potentially combustible whenever exposed.

Notify the Fire Department (FD) of work activities involving ignitable metals prior to the exposure of the metal.

Class D fire extinguisher (identified by a yellow star with a D, located on the extinguisher body), is readily available.

Ignition mechanisms consists of oxy-acetylene or carbon-arc welding, band saw friction cutting, abrasive cutting wheels and grinding operations.

Heat sink effect dissipates ignition source heating when in bulk form.

The ignitable metal hazard increases significantly when shavings, chips, dust, etc., are involved.

Metal fines produced from combustible metals, increase the hazard potential because they act like kindling.

Proper cleanup and removal of accumulations of metal fines, produced in such operations as band saw cutting, are essential for fire prevention and safety.

NUCLEAR COMMON Page 4 of 14 Rev. 0

4LL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 4.5 4.5.1 4.5.2 4.5.3 4.6 4.6.1 4.6.2 5.0 5.1 5.2 NC.FP-AP.ZZ-0012 (Q)

Electromagnetic I Radio Frequency Interference Plant areas susceptible to electromagnetic interference (EMI) and radio frequency interference are listed in NC.NA-AP.ZZ-O005(Q) (NAAP3), Station Operating Practices.

Prior to commencing electric arc welding in plant areas susceptible to EM1 or RFI, the job supervisor should ensure work practice precautions and Main Control Room notifications have been addressed in accordance with NAAP-5.

Hot Work Permit (Form 'I) provides the job supervisor with the direction to inspect the work area against the precautions for EMI and RFI.

Exceptions Work involving wire wheeling, needle gun use, or hot iron soldering is N a a fire watch required activity and a HWP is not required. However precautions identified in this procedure for hot work activities should be taken to ensure a fire safe work area.

Equipment for pre-heating such as Cooper Heat (trade mark) resistance heaters, or similar devices, is not ordinarily considered Hot Work.

e At the discretion of the NFPS, formal Hot Work administrative controls may be required.

II The job supervisor is not exempt from enforcing the intent of maintaining any work area in good housekeeping condition.

At the discretion of the job supervisor, formal Hot Work administrative controls may be requested. If any uncertainty exists, regarding the nature of the work activity, the job supervisor should review the activity with the NFPS.

APPROVAL PROCESS Prior to requesting a HWP, the job supervisor should ensure that all of the inspection criteria on the HWP have been satisfied and the job site inspected.

FD personnel develop and record the following baseline information fields in the Hot Work Authorization (HWA) Log:

e Job location.

Work order number.

a Type of work (including use of flammable compressed gas cylinders).

a Responsible supervisor and telephone extension.

e Affected detection zones.

Time and date of authorization.

NUCLEAR COMMON Page 5 of 14 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC.FP-AP.ZZ-0012 (Q) 5.3 5.3.1 5.3.2 5.3.3 5.3.4 5.4 5.4.1 Evaluate For HIGH RlSK FD personnel evaluate the hot work activity request against the following HIGH RISK criteria, prior to providing the hot work authorization number:

0 Work on tanks, vessels or piping that contained, or had contained combustible or flammable chemicals, solvents, gases, etc.

0 Work in areas identified as having hydrogen as part of equipment or processes.

0 Use of arc gouging or plasma arc welding which produce copious amounts of heat, with molten slag and sparks.

0 Work in cable shafts, filter housings, or ventilation ductwork 0 Work in Hope Creek Drywell [CD-68Z-D].

0 Work on equipment containing combustible metals, which are listed in Table I and 2 of this procedure.

IF the job is HIGH RISK, THEN no authorization number will be provided until after the job site is inspected by the Fire Protection Supervisor or his designee.

The inspection will determine whether the jobsite complies with the minimum standards set forth on the HWP or whether more stringent requirements need to be implemented.

A FD field inspection is REQUIRED to be performed prior to issue of a HIGH RISK HWP.

The NFPS should notify the Operations Superintendent (OS) of High Risk work being conducted.

FD reviews the Impairment Log for any fire protection components in the work area that are inoperable and identifies additional compensatory measures as necessary.

Hot Work Authorization Hot Work may be authorized by FD after completion of the following:

FD completes baseline information fields in the HWA Log (Form 2)

FD completes a HIGH RISK activity criteria evaluation.

e FD completes a work area inspection and signs/dates the field HWP, for activities designated HIGH RISK.

NUCLEAR ~ O M M O N Page 6 of 14 Rev. 0

4LL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 5.4.2 5.4.3 5.4.4 5.5 5.5.1 5.5.2 5.5.3 5.5.4 5.5.5 6.0 6.1 6.2 6.3 NC.FP-AP.ZZ-0012 (a)

Authorization to perform hot work is indicated by an authorization number.

The authorization number is developed using the following format and associated legend:

Format:

o X-YY-MM-DD-ZZ Legend:

o X - Station where work is performed. (S=Salem, M=Hope Creek) o YY - Last 2 digits of current year o MM-Month o DD - Day that work is being performed o ZZ-Sequential number beginning with 01 each day.

FD enters the authorization number for each activity into the HWA Log.

FD initials the HWA Log and records the time the HWP was issued.

Work Area Hot Work Permit Upon issuance of a hot work authorization number, the job supervisor should complete the following fields of the HWP:

0 HWPNumber 0

Job Supervisor Name 8

Date The job supervisor should ensure the HWP is posted in the work area.

The job supervisor should ensure that the work area is maintained in accordance with the HWP Work Area Inspection criteria.

IF hot work is discontinued for longer than 8 hrs, THEN re-inspection of the area in accordance with Part 2 of the HWP (Form I) is required prior to the commencement of work.

The FD will verify HVVP criteriakonditions on a random basis after issuance of hot work permits.

RECORDS Hot work authorization logs should be maintained for a minimum of 30 days.

Hot Work Permits and Transient Combustible Permits shall be retained with the work package in accordance with NC.NA-AP.ZZ-0011 (Q), Records Management Program (NAP-1 1 ). [CD-434E]

The FD, in accordance with NAP-1 I shall retain logs pertaining to hot work permits. [CD434E]

NUCLEAR COMMON Page 7 of 14 Rev. 0

4LL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC.FP-APZ-0012 (Q) 7.0 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 7.10 7.1 I 7.12 7.1 3 7.1 4 7.15 7.16 7.16.1 7.16.2 7.16.3 7.16.4 7.16.5 7.16.6 7.16.7 7.16.8 7.

16.9 REFERENCES

NC.NA-AP.ZZ-0055 (Q) Operational Fire Protection Program New Jersey Administrative Code - NJAC 5:70-2 NJ State Fire Code NC. PM-DG.ZZ-0001 (Z) Storage and Handling of Compressed Gas Cylinders Compressed Gas Association Pamphlet P-I Property Loss Prevention Standards of Nuclear Generating Stations, -

Nuclear Electric Insurance Limited (NEIL).NFPA 30 - Flammable Liquids Code, National Fire Protection Association NC.IS-TM.22-0001 (Z) PSEG Nuclear Industrial Health and Safety Manual Salem Updated Final Safety Analysis Report (UFSAR), Section 9.5, - Fire Protection System Salem Fir8 Protection Report - Fire Hazards Analysis HCGS Updated Final Safety Analysis Report, (UFSAR) Section 9.5.1, - Fire Protection Program HCGS UFSAR, Appendix 9A, - Appendix R Comparison Appendix A to Branch Technical Position APCSB 9.5-1, Guidelines for Fire Protection for Nuclear Power Plants Docketed Prior to July 4 I 1976 Branch Technical Position CMEB 9.5-1, Guidelines for Fire Protection for Nuclear Power Plants NRC Supplemental Guidance, Nuclear Plant Fire Protection Functional Responsibilities, Administrative Controls and Quality Assurance, August 1977 Occupational Safety and Health Standards Title 29, Chapter XVII, Part 1910.36FR 10466 1 OCFRSO Appendix R, Fire Prot. Program for Nuclear Power Facilities Operating Prior to Jan. 1, 1979 Commitment Documents: - Hope Creek CD-156A (NRC El Circular 80-09)

CD-226C (NRC IE Bulletin 75-04A)

CD300X (FSAR 8.1.4.14.3.1)

CD-317Y (FSAR Q 430.85(8))

CD-434E (IR 86-062)

(LER 86462)

CD-652A (INPO O&MR 73)

CD-682D (INPO SER 01-85)

CD-754X (FSAR 9.5.1.I.I

1)

CD-821 X (FSAR 9.5.1.5.3)

NUCLEAR COMMON Page 8 of 14 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 20030221 NC.FP-AP.22-0012 (Q)

TABLE I Ignitable Metals - Salem Page 1 of 2 Location

Units I

& 2 Turbine Bldg.

El. 100'

Units 1 & 2 Auxiliary Bldg.

El. 84'

Unit 1 Auxiliary BIdg.

El. 84'

Unit I Auxiliary Bldg.

El. 100'

Unit 2 Auxiliary Bldg.

El. 100'

Units 1 8 2 Inner Piping Pen Area, El. 100'

Units 1 & 2 Service Water Intake Structure System@)

Component Turbine Auxiliary Heat Exchangers Cooling (TAC)

Nos. 11,12,21,22 Component Cooling Heat Exchangers Nos. 11,21,22 Component Cooling Heat Exchanger No. 12 Service Water Diesel Generator Lube Oil Coolers

& Jacket Water Heat Exchangers

{Nos, IA, IB, IC)

Service Water Diesel Generator Lube Oil Coolers

& Jacket Water Heat Exchangers (Nos. 2A, 2B, 2C)

Service Water Chiller Condensers Service Water Service Water Pump Upper Motor Bearing Coolers 25 & 26 NOS. I 1-1 684 21 -23, NUCLEAR COMMON Page 9 of 14 Ignitable Metal Titanium Tubes Titanium Tubes Titanium Plates Titanium Tubes & Heads Titanium Tubes & Heads Titanium Plates Nozzles & Flanges Water Box Housings Turn Around Heads Titanium Tube Coils Rev. 0

4LL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC.FP-AP.ZZ-0042 (Q)

TABLE 1 Ignitable Metafs - Salem Page 2 of 2 Location

Units 1 4 2 Turbine Bldg.

El. 100'

Units I

& 2 Auxiliary Bldg.

El. 84'

Units 1 & 2 Auxiliary Bldg.

El. 84'

Unit I Auxiliary Wdg.

El. 84'

Unit2 Auxiliary 8ldg.

El. 84' System@)

Component Ignitable Metal Turbine Auxiliary Condensate Pump Titanium Tubes Cooling (TAC)

Upper Motor Oil Finned Coil Coolers Service Water Charging Pump Titanium Tubes

& Tube Sheets Bearing Oil Coolers Nos. 11,12,21,22 Service Water Safety Injection Titanium Tubes

& Tube Sheets Pump Bearing Oil Coolers Nos. 11, 12,21,22 Service Water ChglSafety lnj.

Titanium Tubes Pump

& Tube Sheets Speed Increaser Gear Lube Oil Cooler Nos. 11 & 12 Service Water Chg/Safety Inj.

Titanium Tubes Pump 8, Tube Sheets Speed Increaser Gear Lube Oil Cooler Nos. 21 & 22

Circulating Water Circ Water lnta ke Structure Circ. Water Pump Titanium Tubes Motor Coolers NUCLEAR COMMON Page 10 of 14 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003O22 1 NC-FP-AP.ZZ-0012 (Q)

TABLE 2 Ignitable Metals - Hope Creek Equipment 1 A I E-201 1 ME-201 2 B I E-201 t B2E-201 1 A-E-21 7 1 B-E-217 1 A-E-I 08 1 B-E-I 08 1 C-E-108 Descrl ption SACS Heat Exchangers Tubing RACS Heat Exchangers Tubing Main Condensers Tubing Rx Fuel Channels Rx Fuel Spacers Rx Fuel Elements Tubing End Plugs Limitorque Actuators Motor Core Rotor NUCLEAR COMMON Imitable Metal Titanium Titanium Titanium Zirconium4 Zirconium-2 Magnesium Page I 1 of 14 Locations Reactor Bldg., El. 102' Room 4309 Room 4307 Reactor Bldg., El. 77' Room 421 1 Turb Bldg., El. 54' - 102' Rooms 1310 to 1312 Reactor Bldg El. 201' Dryweil Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC.FP-AP.ZZ-0012 (Q)

FORM I HOT WORK PERMIT Page I of 2 PART 1: GENERAL INFORMATION TYPE OF WORK:................................ W 0 C I3 B t3 G El OFS OXY-ACETYLENE RIG TO BE USED:.... YES NO LOCATION:....................................... SGS Ull 0 SGS U/2 0 HCGS 0 YARD LOCATION DESCRIPTION:

ANNUAL PERMIT:.............................. YES NO ORDER NUMBER:

JOB SUPERVISOR (PRINT):

~

PART 2: WORK AREA INSPECTION Burning, cutting, and welding equipment is in good repair.

Ignitable metals have been considered (is. titanium).

Floor has been swept clean of loose combustibles within 35 feet.

Watl, floor openings, cable trays and readily ignitable combustibles within a 35 foot radius which may be subjected to ignition sources have been covered.

Combustibles have been moved away from opposite sides of walls or ceilings.

Enclosed space/equipment has been cleaned and purged of combustibles.

[CD-682D]

Fire extinguisher is available {obtain extinguisher from Firehouse/Storeroom).

Fire Watch will be provided during and 30 minutes after work completion to ensure work area is safe from fire danger.

Precautions required for protection of filtrationladsorption ventilation systems have been taken (per NAP-9). [CD-652A]

For electric arc welding, electromagnetic interference (EMI) precautions have been taken. (per NAP-5) [CD-I56A]

Signature on page 2 indicates inspection was satisfactory and hot work actlvlty may proceed following the acquisition of the DAlLY hot work permit number, NUCLEAR COMMON Page 12 of I 4 Rev. 0

NC.FP-AP.22-0012 (Q)

FORM 3 HOT WORK PERMIT Page 2 of 2 PART 3: FINAL CHECKJOB COMPLETION Wark areas and all adjacent areas have been inspected following job completion and no evidence of fire is present. All equipment has been returned to its proper locatian.

VERIFIED BY:

Job Supervisor Date/ Ti me NUCLEAR COMMON Page 13 of 14 Rev. 0

KEY: W =Welding C = Cutting Hot Work Work Location /

Type of Order Job Supv.

Hi Det.

Number Equip Involved work Number Ext Risk Zone w, c SGY Yes B, OFS, OA X-No w,c,G, YeS B, OFS, OA X-NO w YC,G YeS B, OFS, OA X-No w IC,G, Yes 6, OFS, OA X-No w ?e,G, YeS B, OFS, OA X-NO w, c,G, Yes B, OFS, OA X-No WY c,G, YeS B, OFS, OA X-NO B, OFS, OA X-NO IC,G, Yes FORM 2 HOT WORK AUTHORIZATION LOG FD Initials/

Time B = Burning STATION:

OFS = Open Flame Soldering NUCLEAR COMMON Page 14 of 14 Rev. 0

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 PSEG lnternal Use Onlv Page 1 of 2 PSEG NUCLEAR FIRE DEPARTMENT NC.NA-AP.ZL-0025 (Q) - Rev. 6 OPERATIONAL FIR PROTECTION PROGRAM Sponsor Organization: Emergency Services REVISION

SUMMARY

Biennial Review performed Yes X

No -.

1.

2.

This is a full revision to NC.NA-AP.ZZ-0025 (Q) - Rev. 5. (80035483).

Due to the extensive nature of the revision, change bars have not been used. This revision represents a significant editorial change with regard to content, formatting, process descriptions, and section numbering.

This procedure has been revised to focus on high level process concepts, resulting in relocation of process description detail and associated forms, tables, and attachments to other lower tier administrative procedures.

These changes are editorial. There is no reduction in program content or control, as a result of this revision.

This revision relocates all Commitment Document numbers to the departmental administrative procedures implementing those commitments.

Revised titles to reflect the current organizational assignments.

Replaced Nuclear Electric Insurance Limited (NEIL) with Nuclear Services Organization (NSO) throughout the procedure.

3.

4.

5.

6.

7.

IMPLEMENTATION REQUIREMENTS:

Effective on: I /z8/03 I. Fire Protection Impairment, Hot Work, and Transient Combustible Permits processed by the Fire Department under Revision 5 as of the issue date, do not have io be changed in the field to meet Revision 6 requirements.

Nudear Outlook article and PSEG Nuclear L.L.C. lntranet website announcement describing the revision.

Provide a global electronic Power Point presentation to all PSEG Nuclear personnel.

2.

3.

APPROVED:

I A L L ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 PSEG Internal Use Only NC.NAwAP.ZZ-O025(Q), Revlsion 6 OPERATIONAL FRE PROTECTION PROGRAM Revision Summary (Continued)

Page 2 of 2

8.

Revised company name from PSE&G Nuclear Business Unit (NBU) to PSEG Nuclear.

9.

Removed detailed information on the Combustible Control Program. Aft detailed information is now found in NC. FP-AP.ZZ-O025(Q).

I O. Removed detailed information and forms for fire protection impairments. This information is now located in NC.FP-APZZ-0025 (GI) and NC FP-AP.ZZ-0010 (a).

1 I, Removed detailed infomation and forms for hot work operation and the control of ignition sources, This information is now located in NCFP-APZ-0025 (GI) and NC.FP-AP.ZZ-0O.I 2{Q).

SECTION 1. 0 2.0 3.0 4.0 5.0

~~

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC.NA-AP.22-0025( Q)

OPERATIONAL FIRE PROTECTION PROGRAM TABLE OF CONTENTS 2

6.0 7.0 8.0 Common TITLE PAGE PURPOSE................................................................................................... 2 SCOPE........................................................................................................ 2 RESPONSIBILITIES...................................................................................

2 PROCESS DESCRIPTION......................................................................... 4 PROCEDURE............................................................................................. 4 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 Response to Fire Emergencies........................................................ 4 Fire Prevention Requirements.......................................................... 5 Control of Ignition Sources - Hot Work............................................. 5 High Risk Hot Work.......................................................................... 6 Combustible Material Control........................................................... 6 Control of Flammable and Combustible Liquids and Gases............. 6 Control of Portable Space Heaters................................................... 6 Fire Protection Impairment Pragram................................................. 7 Compensatory Measure Fire Watch Program.................................. 7 Ignitable Metals................................................................................ 7 RECORDS.................................................................................................

- 7 DEFINITIONS.............................................................................................

8 REFERENCES............................................................................................ 9 8.1 General Documents.......................................................................... 9 8.2 Cross References.............................................................................

9 Page 1 of 9 Rev. 6

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC. NA-AP.ZZ-0025( Q) 1.0 2.0

2. I 3.0 3.1 3.2 3.3 3.4 3.5 3.6 PURPOSE This procedure addresses the Operational Fire Protection Program (OFPP) for PSEG Nuclear.

SCOPE This procedure applies to all organizations and personnel engaged in activities which may affect the Operational Fire Protection Program (OFPP) for PSEG Nuclear.

RESPONS16IL~l"TIES All Personnel Comply with the requirements of this procedure.

Job Supervisors - Salem and Hope Creek Stations e Comply with fire prevention requirements of the Fire Protection Impairment, Hot Wotk, and Transient Combustible Control processes Adhere to controls for ignition sources and flammable liquids and gases.

All Directors and Nlanaaers Ensure their organizations implement the applicable fire prevention requirements within facilities they maintain and in which they conduct work.

Chemistry Manaaer Ensure the performance of the Hope Creek Diesel Driven Fire Pump Fuel Oil Storage Tank sampling surveillance.

Oeeratlons Department Manaaer - Salem Ensure the performance of the Diesel Driven Fire Pump Fuel Oil Storage Tank sampling surveillance Ensure that personnel within their organization, designated as the Operation's liaison to the Fire Department (FD), are available as required, during fire fighting activities.

Operations Department Manauer - Hope Creek Ensure that personnel within their organization designated as the Operation's iiaison to the FD, are available as required, during fire fighting activities.

Common Page 2 of 9 Rev. 6

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 3.7 Radiation Protection Marlaaer Provide required radiological monitoring when their personnel respond with FD personnel to fires located within the Radiological Controlled Areas (RGAs).

3.8 Work Control Center Personnel - Salem and Hope Creek Operations Notify the FD when a fire protection systemlbarrier is being affected and when it is being returned to service.

3.9 Manaaer - Emernencv Services a

a a

e a

0 Ensure General Employee Training (GET) discusses required employee actions in the event of fire.

Ensure a qualified, trained fire department is present on-site in accordance with NC. FP-AP.IZ-O009(Q) Fire Protection Training Program.

Develop and maintain FD surveillance and test procedures.

Perform walk downs to monitor control of transient combustibles.

Authorize Hot Work, Transient Combustible, and Fire Protection Impairment Permits (FPIPs) and ensuring the aggregate impad is considered.

Maintain daily communication with the Operations Superintendent and/or Control Room Supervisors on the status of Salem and flope Creek Station FPIPs.

Ignition source control and monitoring for fire prevention.

Fire incident reports and investigations.

Interface with fire insurance inspectors, state and local enforcement agencies, and with offsite fire departments.

Define non-FD responsibility for required testing and inspection of fire protection equipment.

Performance of preventive and corrective maintenance on fire protection systems and components assigned to the FD.

Administration and control of the Fire Watch Program.

3.10 Vlce President - Enaineering 0

Establish programmatic requirements for implementing design related aspects of the Fire Protection and Fire Barrier Penetration Seal Programs.

0 Development and review of Design Change Packages for controlling configuration of both the Fire Protection and Fire Barrier Penetration Seal Programs.

Ensure a member grade Society of Fir8 Protection Engineer (SFPE) person exists within the organization. [CR96041621 I]

Common Page 3 of 9 Rev. 6

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 3.1 I 4.0

4. I 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 4.2.7 4.2.8 5.0 5.1 5.1.I NC. NA-AP.Z&002fi(Q) vice President - Operations 0 Ensure trained maintenance personnel perform preventive or corrective maintenance of Fire Protection systems in a prompt and effective manner.

Ensure performance of preventive maintenance surveillances for fire protection components at both the Salem and Hope Creek Stations, as agreed upon with the Manager - Emergency Services.

0 Ensure PSEG Nuclear facilities are maintained in compliance with the applicable state fire codes and insurance regulations.

PROCESS DESCRIPTION This procedure identifies elements of the Operational Fire Protection Program categorized as Fire Prevention and Readiness to Detect and Suppress Fires.

This procedure is implemented in full detail by the following Fire Department administrative procedures:

NC.FP.AP.2Z-O025(Q); Precautions Against Fire SC. FP.AP.ZZ-O003(Q), Actions for Inoperabte Fife Protection - Salem HC.FP-AP.ZZ-OOM(Q), Actions For Inoperable Fire Protection-Hope Creek NC.FP-AP.Z2-0005(8), Fire Protection Surveillance / Periodic Test Program NC. FP-AP.2Z-CIOOQQ), Fire Protection Training Program NC.FP-AP.22-001 O(Q), Fire Protection Impairment Program NC.FP-AP.ZZ-OOIZ(Q), Safe Hot Work Practices NC.

FP-AP.ZZ-OOZO(Q), Compensatory Measure Fire Watch Program PROCEDURE Response to Fire Emeraencies Refer to NC.FPdP.ZZ-O025(Q) (FPAP-25) for detailed instructions on response to fire emergencies, Key concepts are reviewed here.

0 In the event a fire alarm sounds within en office facility, evacuate the building in accordance with the established routes. Accountability should be performed.

NEVER use the elevator during a fire emergency building evacuation.

For fire alarms within the Salem and Hope Creek Stations, listen to the instructions via the page system provided.

Common Page 4 of 9 Rev. 6

5.1.1 (Continued) e Upon discovering a fire, your first duty is to report the fire. The Fire Department wilt respond with personnel and equipment to combat the emergency.

The communication systems vary between the Salem and Hope Creek stations. Know the differences between the plants. Refer to FPAP-25.

After reporting a fire, employees should fight the fire if its within their training and capabilities. If not, they should alert others in the area, evacuate to a safe distance and standby to direct FD personnel to the scene.

5.2 Fire Prevention Reauirements 5.2.1 5.2.2 Refer to NC.FP-AP.ZZ-O025(Q) (FPAP-25) for detailed instructions on fire prevention work practices and requirements.

Some key concepts are briefly reviewed here.

Fire Doors shall be maintained closed,. except for normal passage, unless provided with an approved permit It is imperative that ALL PERSONNEL make sure fife doors close behind them.

Fire Protection deficiencies observed should be immediately reported to the FD (Ext. 2800/2803) for evaluation.

Restrictions apply to combustible materials introduced into any safety-related aredroom.

Restrictions apply to locating combustible materials in the vicinity of permanent bu i Idings.

Restrictions apply to use of fire protection water for non-fire protection purposes.

Storage of material should not affect access to, or obstruct, fire protection systems or fire fighting equipment.

Fire extinguishers mounted in the stations are for emergency use only.

Clearance, free of combustible material, shall be maintained around energized electrical paneis.

Extension cords and flexible cords shall not be a substitute for permanent wiring.

5.3 5.3.1 5.3.2 Control of lanition Sources - Hot Work Work involving ignition sources, such as welding, cutting, burning, grinding or open flame soldering, is considered hot work.

A Hot Work Permit will be required to control these ignition sources.

Rev. 6

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 5.3.3 5.4 5.4.1 5.4.2 5.4.3 5.5 5.5.t 5.5.2 5.6 5.6.1 5.7 5.7.1 5.7.2 Plant work involving ignition sources, such as welding, cutting, burning, grinding or open flame soldering is considered a fire watch required activity.

An exception to this requirement is allowed for work performed in shop areas.

0 Hot work permits are required for all hot work activities.

Hinh Risk Hot Work High risk hot work is a PSEG Fire Department term applied to work with well defined and special hazard criteria.

This type of hot work is distinguished from non-high risk hot work.

High Risk hot work still involves ignition sources, such as welding, cutting, burning, grinding or open flame soldering.

High risk work involves:

0 Vessels and systems that contain, or had contained, combustible or flammable chemicals, solvents, or gases.

0 Work involving ignitable metals.

Work involving processes that produce copious amounts of heat with molten slag and sparks. For example, current industrial technology may employ equipment such as plasma arc cutting machines. This technology produces copious amounts of energetic slag and sparks.

Special and additional controls apply to high risk hot work These controls are covered under NC.FP-AP.Z7-0012(Q), Safe Hot Work Practices.

Combustible Material Control General Use and Controls - All areas:

0 Combustibles Material will be controlled IAW NC.FP-AP.22-0025 (Q).

for Safety Related Areas Only Storage of combustibles is NOT permitted in Salem and Hope Creek Stations safety related areas/rooms except when approved by Engineering.

Control of Flammable and Combustible Licluids and Gases Detailed guidance on the handling and control of flammable and combustible liquids and gases is provided in NC.FP-AP.ZZ-O025(Q).

Control of Portable Space Heaters The use of portable space heaters is prohibited in safety related areas except as indicated IAW NC. DE-AP.774030 Q). Contro t of Temporary Modifications.

Space heaters in non-safety related areas are controlled IAW NC.FP-AP.2Z-0025 (Q).

Common Page 6 of 9 Rev. 6

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC. NA-AP.ZZ-0026(Q) 5.8 5.8.1 5.8.2 5.8.3 5.8.4 5.8.5 5.9 5.9.1 5.4.2 5.10 5.10.1 5.10.2 5.j0.3 6.0 6.1 6.2 6.3 Fire Protection Impairment Proaram FD is the fire protection impairment authority.

lmpairments are formal controls that recognize, evaluate, and administratively approve and track either planned actions or emergent conditions that impact the operability of the fire protection system or a fire protection component.

Job supervisors prepare and submit impairment requests for work activities that will place fire protection equipment or system in an inoperable condition.

Nuclear fire protection supervisors (NFPS) evaluate impairment requests and emergent system and equipment issues to identify the full scope, or aggregate impact, of the issue.

0 NFPS identifies the appropriate compensatory measures and generates an impairment, accordingly.

Prior to issuing impairments, the NFPS notifies and reviews the impairment issue with the Operations Superintendent or Control Room Supervisor (OSICRS), of the affected station, and obtains 0SICRS.approval to issue the impairment..

Compensatorv Measure Fire Watch Proaram Adequate compensatory measures are required to be implemented to supplement inoperable fire protection systems and equipment Procedures SC.FP-AP.ZZ-O003(Q) and HC. FP-AP.ZZ-0004(Q) identify those systems and components requiring compensatory actions to be taken when a fire protection system or component is determined to be inoperable.

lanitable Metals The metals titanium, zirconium, and magnesium represent a special combustible material hazard class that warrants extra care and control.

These metals are classified as ignitable metals. These are metals that can burn readily, vigorously, and with a significant release of heat.

Controls relative to working on or in the vicinity of ignitable metals are provided in procedure NC.FP-AP.ZZ-004 2(Q), Safe Performance of Hot Work.

RECORDS Hot Work Permits and Transient Combustible Permits shall be retained with the work package in accordance with NC.NA-AP.ZZ-OOl1 (a), Records Management Program (NAP-I 1).

The FD, in accordance with NAP-I 1 shail retain transient combustible permits and logs pertaining to hot work permits and fire protection impairment permits for a minimum of six months.

FPlRs that were used to create FPlPs should be retained with work packages. The FD maintains a hard copy log of all FPlPs generated from FPIRs.

Common Page 7 of 9 Rev. 6

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 7.0 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.0 7.9 7.10 7.1 1 7.12 7.13 7.14 DEFINITIONS Combustible Liquid - Liquid having a flash point at or above 100 deg-F (37.e4 C).

Combustible Material - Material, which in the form it is used and under the conditions anticipated, WILL ignite, burn, support combustion, or release flammable vapors when subjected to fire and heat.

Fire Barrier - Those construction elements (walls, floors, and their supports),

including beams, columns, penetration seals or closures, fire doors and dampers, that are rated by approving laboratories in hours of resistance to fire and used tu prevent the spread of fire.

Flre Watch - An individual who has satisfactorily completed fire watch training and is designated by the FD for compensatory measure, hot work, or both fire watch type duties.

Flammable Liauid - A liquid with a flash point below 100 deg-F and a vapor pressure not exceeding 40 pounds per square inch absolute at 100 deg-F.

e Also known as a Class 1 liquid.

Hot Work - Work that involves ignition sources.

lnnition Source - Heat or flame from any source capable of igniting combustible or flammable material.

lmpalrment - Any condition affecting the intended operation of a fire protection system or barrier or posing as a fire hazard within the stations.

Noncombustible Material - Material which, in the form it is used and under the conditions anticipated, will NOT ignite, burn, support combustion, or release flammable vapors when subjected to fire and heat.

Permanent - A condition with an indefinite period of time.

Safetv Related Area - An area that contains systems and components required to shut down the reactor, mitigate the consequences of postulated accidents or maintain the reactor in a safe cold shutdown condition.

Storane - The placing of items in a location and leaving them unattended until later use or disposal.

Temporary - planned time duration of no more than 60 days.

Transient Combustible - Any combustible material introduced into a Safety-Related arealroom which will be used to complete an assigned task or left unattended for any period of time. It does not include items moved through areas in route to the final destination, unless the items are left un-monitored during transit.

Common Page 8 of 9 Rev. 6

ALL ACTIVE ON-THE-SPOT CHANGES MUST BE ATTACHED FOR FIELD USE 2003022 1 NC. NA-AP,ZZ-0025( Q) 8.0

8. I 8.1.1 8.1.2 8.1.3 8.1.4 8.1.5

8. I

.6

8. t.7 0.1.8 8.1.9 8.1.10 8.1.11 8.1.I2 8.1.13 8.1.14 8.1 -15 8.1.16 8.2 8.2.1 0.2.2 8.2.3 8.2.4 8-25 8.2.6 8.2.7 8.2.8 8.2.9 8.2.10 REFERENCES General Documents Salem Updated Final Safety Analysis Report (UFSAR), Section 9.5, - Fire Protection System Salem Fire Protection Report - Fire Hazards Analysis HCGS Updated Final Safety Analysis Report, (UFSAR) Section 9.5.1, - Fire Protection Program HCGS UFSAR, Appendix 9A, - Appendix R Comparison Appendix A to Branch Technical Position APCSB 9.5-1, Guidelines for Fire Protection for Nuclear Power Plants Docketed Prior to July 1, 1976 Branch Technical Position CMEB 9.5-1, Guidelines for Fire Protection for Nuclear Power Plants NRC Supplemental Guidance, Nuclear Plant Fire Protection Functional Responsibilities, Administrative Controis and Quality Assurance, August 1977 Occupational Safety and Health Standards Title 29, Chapter XVII, Part 191 O.36FR 1 0466 1 OCFR50 Appendix R, Fire Rot. Program for Nuclear Power Facilities Operating Prior to Jan. I, 1979 NC.

DE-PSZ-0001 (QII Fire Protection Programmatic Standard IEEE Standard 634 - 1978 Hope Creek Station Generic Letter 86-1 0 Submittal, dated May 13, 1986 HCDE-PS.ZZ-0021 (F), Hope Creek Penetration Seal Program SC.DE-PS.ZZ-O035(Q), Salem Penetration Seal Program HC.FP-EO.ZZ-0001 (Z), Control Room Fire Response - HCGS SC.FP-E0.Z-0001 (Z), Control Room Fire Response - Salem Cross

References:

NC.NA-AP.Zf-001 I (a),

Records Management Program NC.DE-AP.ZZ-O030(Q), Control of Temporary Modifications SC.FP.AP.ZZ-0003(Q), Actions for Inoperable Fire Protection - Salem HC. FP-AP.ZZ-O004(Q), Actions For Inoperable Fire Protection-Hope Creek NC. FP-AP.ZZ-0005(Q), Fire Surveillance and Periodic Test Program NC. FP-AP.ZZ-0009( Q), Fire Department Training Program NC.FP-APZ-001 O(Q), Fire Protection Impairment Program NC.FP-AP.ZZ-O012(Q), Safe Performance of Hot Work NC. FP-AP.U-OOZO(Q), Compensatory Measure Fire Watch Program NC.FP.AP.ZZ-O025(Q); Precautions Against Fire Common Page 9 of 9 Rev. 6

ML033570032: Difference between revisions

Latest revision as of 06:01, 16 January 2025

Contents

Text

Background

SUMMARY

16.9 REFERENCES

SUMMARY

References:

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