ML19312E021

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Tech Spec Change Request for Tech Specs Sections 1.0-1.2,2.1 & 2.2,3.0,5.0 & 6.0-6.6 Re Definitions,Administrative Controls,Safety Limits,Limiting Safety Sys Setting & Limiting Conditions for Operation
ML19312E021
Person / Time
Site: Dresden, Quad Cities  
Issue date: 05/30/1980
From:
COMMONWEALTH EDISON CO.
To:
Shared Package
ML17192A724 List:
References
NUDOCS 8006030072
Download: ML19312E021 (42)
v  d  e


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ll ATTACHMENT 1 I

Dresden Station Unit 1 i

4 Propose'd Technical Specification Changes Revised Pages:

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DPR-2 TABLE OF CONTENTS _

Pace No._

GENERAL 1

1.0 DEFINITIONS..........................

123 5.0 DESIGN FEATURES...'.....................

124 6.0 ADMINISTRATIVE CONTROLS....................

124 05anization, Review, Investigation and Audi-131

' 6.- 1 Pla ',t Op arati ng P rocedures................

6.2 Actions to be Taken in the Event of A Reportable 138 6.3 Oc:urrence in Plant Operction.............

Action to be Taken in the Event A Safety Limit 138 6.4 Is Exceeded......................

138 6.5 Plant Operating Records.................

142 6.6 Plant Reporting Requiremnts...............

SAFETY LIMITS 7

1,1 FUEL CLADDING INTEGRITY....................

16 1.2 REACTOR COCLANT SYSTEM....................

LI.1ITING SAFETY SYSTEM SETTING 7

2.1 FUEL CLADDING ItiTEGRITY....................

16 2.2 REACTOR COOLANT SY STEM....................

LIMITING CONDITINS EUI ODERATION 19a I

LIMITI?X3 CONDITION FOR OPERATION.............................

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Operable - A system, subsystem, traia, cocponent, or device

2. At least one door in each airlock chall be operable when it is capeble of perfoming its closed and sealed.

13 specified function (c). Inplicit in this definition shall

,be the assumption that all necest.ary attendant inctumen-cation, controls, normal and est.rger.cy electrical power

3. All automatic containment sources, cooling or seal water, lubrication or other auxiliary equipment that are required for the system, laolation valves are operable to perform its or deactivated in the isolated subsystem,) train, component or devic)are also capable of perfoming their related Position.

function (s support ftmetion(s).

N.

. Or>erating - Operating means that a system, subsystem,

4. All blind flanges and manways are train, component or device is performing its intended closed.

functions in its required manner.

R.

Protective Instrumentation Definitions O.

Operating Cycle - Interval between the end of one refueling outage and

1. Instrument channel - An instrumec.t the end of the next subsequent channel means an arrangement of a refueling outage.

sensor and auxiliary equipment j

required to generate and transmit i

P.

Pe aV_i ng Factor - The ratio of the to a trip system a single trip 1

maximum fuel rod surface heat flux signal related to the plant para-in an assenbly to the average surface meter monitored by that instrument heat flux of the core.

channel.

Q.

Primary Containment Integrity -

2. Trip System - A trip system means Primary cont.ainment integrity means an arrangement of instrument that the sphere is intact and all channel trip signals and auxiliary of the following conditions are equipment required to initiate satisfied:

action to accomplish a protective trip function.

A tripsystem may

1. All manual containmenti isolation require one or more instrument valves on lines connecting to channel trip signals related to the reactor coolant system or one or more plant parameters in l

containment which are not re-order to initiate trip system action.

quired to be open during accident conditions are closed.

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DPR-2 3.0 LIMITING CONDITION FOR OPERATION e

3.0 Limiting Condition for 0peration A.

In the event a Limiting Condition for Operation cannot be satisfied because of circumstances in excess of those addressed in the specifica-tion, the unit shall be placed in at least hot shutdown within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in cold shut-down within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless corrective measures are completed that satisfy

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the Limiting Conditions for Operation. Exceptions to these requirements are stated in the individual specifications.

B.

When a system, subsystem, train, component, or device is determined to be inoperable solely because its emergency power source is inoperable, or solely because its normal power source is inoperable, it may be con-sidered operable for the purpose of satisfying the requirements of its applicable Limiting Condition for Operations, provided:

(1) its corresponding normal or emergency power source is operable; and (2) all of its re-dundant system (s), subsystem (s), train (s),

i component (s), and device (s) in the other

)

division are operable, or likewise satisfy the requirements of this specification.

Un-less both conditions (1) and (2) are satisfied, j

the unit shall be placed in at least hot shut-down within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, and in at least cold shutdown within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

C.

Specifications 3.0.A and 3.0.B are not applicable i

l in refueling or cold shutdown, 19a

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i DPR-2 Bases:

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3.0.A.

This specification delineates the action to be taken for circumstances not direct-ly provided for in the Limiting Condition for Operation statements a1d whose occur-rence would violate the'iatent of the specification.

3.0.B.

This specification delineates what addi-tional conditions must be satisfied to permit operation to continue, consistent with the Limiting Condition for Operation statements for power sources, when a normal or emergency power source is not operable. Power sources are defined as AC Auxiliary Electrical Systems as defined in Section 3.9.A.1, 3.9.A.2, and 3.9.A.3.

It specifically prohibits operation when one division is inoperable because its normal or emergency power source is inoperable and a system, subsystem, train, component or device in another division is inoperable for another reason.

The provisions of this specification per-mit the Limiting Condition for Operation statements associated with individual systems, subsystems, trains, components or devices to be consistent with the Limiting Condition for Operation state-ments of the associated electrical power source.

It allows operation to be governed by the time limits of action statements associated with the Limiting Condition for Operation for the normal or emergency power source, not the individual action statements for each system, sub-system, train, component, or device that is determined to be inoperable solely be-cause of the inoperability of its normal or emergency power source.

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DPR-2 3.8 LIMITING CONDITIONS FOR OPERATION 4.8 SURVEILLANCE REQUIREMENT estimated annual average release tate of iodine 131 and particulates with half lives greater than eight days is likely 7

to exceed 2.4 x 10 curies / second, the licensee shall:

(a) make an investigation to identify the causes of such release rates; (b) define and initiate a program of action to reduce such release rates to a level consistent with Specification 3.8.A.3; (c) report these actions to the Director, Division of Operating Reactors within 30 i

days of the end of the calendar quarter.

4.

An off-gas discharge rate averaged over any 48 hour5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> period exceeding 0.112

_7 curies /second of gross activity or 4.8 x 10 curies /second of iodine 131 and particulates with half lives gra'ter than eight days shall be reported in accordance with Section 6.6.B.1 of these Specifications.

5.

If the limits of Specification 3.8.A.2.a and 3.8.A.2.b are exceeded, an orderly load reduction of the unit (s) causing these limits to be exceeded shall be initiated immediately to r. educe the release below tha limite of Specification 3.8.A.2.a and 3.8.A.2.b.

6.

The provisions of Specification 3.0.A are not applicable, L

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3.12 LIMITING CONDITIONS FOR OPERATION 4.12 SURVEILLANCE REQUIREMENTS k

3.12 FIRE PROTECTION SYSTEMS 4.12 FIRE PROTECTION SYSTEMS Applicability:

Applicability:

Applies to the fire protection systems Applies to the periodic testing require-whenever the equipment or systems being pro-ments of the fire protection systems whenever tected are required to be operable.

the fire protection systems are required to be operable.

Obj ective:

Obj ec tive:

To ensure that adequate protection against fires is ma'intained during all modes of facility operation.

Ta verify operability of the fire protection systems.

Specification:

A.

Fire Detection Instrumentation Specification:

1.

As a ninicum, the fire detection instrenentation for each fire 1.

Each of the fire detection instru-i detectica zone shown in Table 3.12-1 shall be operable at all times when cents given by Table 3.12-1 shall equipment in that fire detection be demonstrated OPERABT.E at least every zone is required to be operable.

6 months by a channel functional test.

2.

All nonsupervised circuits shall be 2.

With the number of operable fire detection instruments less than demonstrated operable once per month.

required by Table 3.12-1; I'

a.

Perforn an inspection of the affected zone, if accessible, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

Perform

. additfoaal inspections at 1 cast once per hour, except in inaccessible areas.

b.

Restore the inoperable instrument (s) to operabic status within 14 days, or prepare and submit a report to the Commission pursuant to Spec-ification 6.6.B.2 within the next 122d 30 days outlining the cause of the malfunction and the plans for restoring the Inst rument(s) to operable status.

c.

The provisicns of Specification 3.0.A I

are not applicable.

DPR-2 4.12 SURVEILLANCE REftJIRIMENTS

2 LIMITIfr. CONDITIONS FOR OPERATION w

C.

CO System C.

CO S SIC" Y

2 2

1" The CO2 Storage Tank shall have a minimum 1.

At least once per 7 days the 00 Storage 7

Standby level of 50 percent and a minimum Tank level an<t pressure will be verified.

pressure of 250 psig.

2.

at least once per operatinq cycle. the 2.

The CO2 Systems given in Table 3.12-3 shall system valves and associated danpers will be operable.

t.e verified to actuate automatically and 3.

Speci ficat ions 3.12.C.) aqd 3.12.C.2 alove manually. A brief flow test shall 'be made apply when the equip 1cnt in the areas given to verify flow from each nozzle.

. in Table 3.12-315.r.equired to te operable.

4.

With a CO2 System inoperable, establish fire surveillance with Lackup fire suppression equipmenL in unprotected creas within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. and perform inspections in the area at least twice per shift.

5.

Restore the systen to operable status within 14 days, or prepare and sutnit a report to the Cremission pursuant to Specification 6.6.8.2 within the next 30 days outlining the cause of. inoperability, action taken and the plans and sci.edule for restoring the systen to operaole. sta tus.

6.

The provisions of Spec fication 3 0. A I

are not applicable.

D.

Fire Hose Stat.lons D.

Fire Hose Statinns 1.

At least once per 31 days, a visual inspection of each fire hose station shall be made to 1.

Tha fire liasc Stations given is. Table 't.12 4 assure all equipnent is available at the shall I,e operabic at all times wher. the equipnent in the area is required to be station.

operable.

2.

At least once per operating cycle, the hose will be removed for inspection and repacked, 2.

With a hose station ir. operable route an Degraded qaskets in the couplinqs will be additional equivalent capacity hose to the

replaced, unprotected area from an operable hose station within 1 bcur.

3.

At least once per 'l years, each hose station valve will be partially opened to verify 3.

When a hose station becomes incperable, restore i

to operable status within 14 days or report valve operability and no blockage.

to the Connission pursuant to specification 6.6.B.2 within the next 30 days outlining 1229 the cause of inoperability and plans for restoring the hose station to operability.

4 The provisions of Specification 3.0.A I

are not applicable.

3.12 LIMITING CONDITIONS FOR OPERATION DPR-2 4.12 SURVEILLANCE REQUIREMENTS t

I 4.

At least once per 3 years a hydrostatic test will be conducted at 50 psig above line pressure at that station.

E.

Penetration Fire Barriers E.

Penetration Fire Barriers 1.

Each of the required cenetration fire barriers 1.

All penetration fire barriers protecting shall be verified to be intact by a visual safety related Areas shall be intact, inspection:

exceoc as stated in spccification At least once per 18 months, and 3.12.E.2 below.

a.

2.

With one or more of the required penetration b.

Prior to declaring a penetration fire fire barriers not intact, establish a con-barrier intact following ' repairs or tinuous fire watch on at least one side of maintenance.

the affected penetration within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> when the area on either side of the affected F-Fire Pump Diesel Engine penetration contains equipment required to be operable.

1.

The fire pump diesel engine shall be demon-strated OPERASLE:

The provisions of Specification 3.0. A I

3.

At least once per 31 days by verifying:

are not applicabic.

a.

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1) The fuel storage day tank contains at F.

Fire Pump Diesel Engine least 45 gallons of fuel, and 1.

See 3.12.8

2) The diesel starts from ar.bient conditions and operates for at least 20 minutes.

i b.

At least once per month, a sample of diesel fuel shall be checked for quality. The pro-cedures will be consistent with existing station procedures used to check diesel fuel in the main storage tanks.

At least once per 18 months, during shutdown, c.

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4 ATTACHMENT 2 Dresden Station Unit 2 j

Proposed Technical Specification Changes Revised Pages:

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TABLE OF CONTENTS

- j Page No.

GENERAL 1.0 DEFINITIONS..........................

1 5.0 DESIGN FEATURES........................

157 6.0, ADMINISTRATIVE CONTROLS.................... 158 6.1 Organization, Review, Investigation and Audit...

158 6.2 Plant Operating Procedures................

168 l

6.3 Actions to be Taken in the Event of A Reportable l

Occurrence in Plant Operation.............

175 6.4 Action to be Taken in the Event A Safety Limit Is Exceeded.'................~.....

175 6.5 Plant Operating Records.................

175 6.6 Plant Reporting Requirements............... 177 SAFETY LIMITS 1.1 FUEL CLADDING INTEGRITY....................

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l.2 REACTOR COOLANT SYSTEM....................

19 I

LIMITING SAFETY SYSTEM SETTING 2.1 FUEL CLADDING INTEGRITY....................

5 2.2 REACTOR COOLANT SYSTEM....................

19 4

LIMITING CCA'DITICNS FOR ODERATION 3.0 LIMITING CONDITION TR OPERATION.............................

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DPR-19 p @ system, train, con nent, or device t

Qperable - A systen, ir capable of rt rrorcini; its I.

Limiting Conditions for Operation (LCO) - The O*

'chT1'1 te cperabIc rhen it 12.r.it.ag conditions for operaticn specify the specified functien(r). f A ' l ; in thic definition chall attcnW nt instunen-I minimum acceptable levels of s stem Eerform.

be the assue tien that a21 n m scary cr.d em rcei.cy electrical power ance necessary to assure safe startup and op-tation, cont als, ncr m eration of the facility. When these conditions sourecs, coolinc or so,a vv er, lubrication or outer are rec.uired for the syntes, are met, the plant can be operated safely and auxiliary equip:ent tha t to perfo:.: its rubsystem, train, cwp - 'nt or ecvic:

abnormal situations can be safely controlled.

function (s) are alto cs.mle of perforcing their related sun rt luncuen(s).

J.

1.imiting Safety System Setting (LSSS)

Ihe Operatin,; - Operating.: ens th:: a syste i, subsyt.tcu, limiting safety system settings are settings on P*

train, caponent or de.,c ce is prforrinz; its inter.ded instrumentation which initiate the automatic Aui ti ns in its requir c RannCP-protective action at a level such that the safety limits will not be exceeded. 'Ihe region Q.

Operating Cycle -Intoy val between the end between the safety limit and these settings of one refueling outag.e and the end of the represents margin with normal operation lying next subsequent refueping outage, below these settings. The margin has been Primary established so that with proper operation of the i

R.

Primary Containment 1(oteg grit instrumentation the safety limits will never be i

containment integrity r. cans that the drywell exceeded.

l and pressure supprossion chamber are intact

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and all of the following conditions are satisfied:

K.

Limiting Total Peaking Factor - The Liilting Total Peaking Factor (LTPF)

I.

All manual contunnment isolation valves on is the lowest Total Peaking Factor lines connecting 40 the reactor coolant sys-tem or containmeng which are not required which limits a fuel type to a Linear lleat Generation Rate (tjiGR) corres-to be open during; accident conditions are closed.

ponding to the operating limit at 100% power.

At least one door' in each airlock is closed 2.

and scaled.

L.

Logic System Function Test - A logic sys-tem functional test means a test of all relays 3.

All automatic conttainment isolation valves and contacts of a logic circuit from sensor are operable or dJeactivated in the isolated to activated device to insure all components are operable per design intent. Where possi-Position.

ble, action will go to campletion, i.e., pumps 4.

All blind fla q4w and manways are closed.

will be started and valves opened.

M.

Minicum Critical Power Ratio (MCPR) - The Protective Instrum ett.ation Definitions S.

minimu:a in-core critical power ratio corresponding to the most liaiting fuel Instrument Chametl - An instrument chan-1.

assembly in the core.

nel means an arrapngement of a sensor and N.

Mode - The reactor mode ts that which is auxilia#Y '9ui9me. nt required to generate es trip system a single trip established by the mode-selector-switch.

and transmit t4 a signal related tp the plant parameter 2

instrument channel.

monitored by tk.st t

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DPR-19 3.0 LIMITING CONDITION FOR OPERATION 3.0 Limiting Condition for-Operation A.

In the event a Limiting Condition for Operation cannot be satisfied because of circumstances in excess of those addressed in the specifica-tion, the unit shall be placed in at least hot shutdown within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in cold shut-down within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless corrective measures are completed that satisfy the Limiting Conditions for Operation. Exceptions to these requirements are stated in the individual specifications.

B.

When a system, subsystem, train, component, or device is determined to be inoperable solely because its emergency power source is inoperable, or solely because its normal power source is inoperable, it may be con-sidered operable for the purpose of satisfying the requirements of its applicable Limiting Condition for Operations, provided:

(1) its corresponding normal or emergency power source is operable; and (2) all of its re-dundant system (s), subsystem (s), train (s),

component (s), and device (s) in the other division are operable, or likewise satisfy the requirements of this specification. Un-less both conditions (1) and (2) are satisfied, the unit shall be placed in at least hot shut-down within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, and in at least cold shutdown within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

C.

Specifications 3.0.A and 3.0.B are not applicable in refueling or cold shutdown.

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DPR-19 Bases:

3.0.A.

This specification delineates the action to be taken for circumstances not direct-ly provided for in the Limiting Condition for Operation statements and whose occur-rence would violate the intent of the specification.

3.0.B.

This specificatioa delineates what addi-tional conditions must be satisfied to permit operation to continue, consistent with the Limiting Condition for Operation statements for power sources, when a normal or emergency power source is not operable. Power sources are defined as AC Auxiliary Electrical Systems as defined in Section 3.9.A.1, 3.9.A.2, and 3.9.A.3.

It specifically prohibits operation when one division is inoperable because its normal or emergency power source is inoparable and a system, subsystem, train, cononnent or device in another division is inoperable for another reason.

The provisions of this specification per-mit the Limiting Condition for Operation statements associated with individual systems, subsystems, trains, components or devices to be consistent with the Limiting Condition for Operation state-ments of the associated electrical r

power source.

It allows operation to be governed by the time limits of action statements associated with the Limiting Condition for Operation for the normal or emergency power source, not the individual action statements for each system, sub-system, train, component, or c'vice that is determined to be inoperable solely be-cause of the inoperability of its normal or emergency power source.

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DPR-19 3.8 !IA!! TING CONDITION FOR OPEllATION 4.8 SUltVEILLANCE llEQl;lRE31ENT

3. If the limits of 3.8.A.2.a, or 3.8.A.2.c are exceeded, an orderly load reduction of the unit (s) causing these limits to be c::cceded shall he initiated innediately to reduce the releases below the limits of 3.8.A.2.s or 3.8.A.2.c.

The provisions - of Specification 3.0. A I

are not applicabIc.

B.

>!cchanical Vacuum Pump B.

Afechanical vacuum Pump At least once during cach operating cycle verify 1.

The mechanical sacuum pump shall be automatic securing and isolation of the mechanical capabic of being isolated and secured on vacuum pump.

a signal of high radioactivity, whenever the taain steam isolation valves are open.

2.

If the limits of 3.S.D are not met following a routine surveillance check, orderly shut-l down shall be initiated.

C.

Liquid Effluents C.

Liqui 1 Einuents 1.

The radiation monitor shall be calibrated 1.

Radioactive liquid released from the facility quarterly and functionally tested monthly.

shall be continuously muitored. To The operability of the sampler shall be accomplish this either the radiation monitor verified on a daily basis.

or the discharge line on the discharge canal sampler shall be operabic.

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29 3.12 LIMITING CONDITIONS FOR OPERATION DPR-19 4.12 SURVEILLANCE REQUIREMENTS 4

t

,.s 3.12 FIRC PROTECTION SYSTEMS 4.12 FIRE FROTECTION SYSTEMS Applicability:

1 Applicability:

6 6

Applies to the fire protection systems Applies to the periodic testing require-I whenever the equipment or systems being pro-ments of the fire protection systems whenever tected are required to be operable.

the fire protection systems are required to I

obj ective:

Objective:

To ensure that adequate protection against fires is maintained during all modes of facility operation.

To verify operability of the fire protection systems.

Specification:

A.

Fire Detection Instrumentation P'#I I#'*I'"8 A.

Fire Detection Instrumentation 1.

As a minimum, the fire detection instrumentation for each fire 1.

Each of the fire detectica instru-detection zone shown in Table 3.12-1 shall be operable at all times when menta given by Table 3.12-1 rnall equipecnt in that fire detection be demonstrated OPERABLE at least every zone is required to be operable.

6 months by a channel functional test.

2.

All nonsupervised circuits shall be 2.

With the number of operable fire detection instruments less than demonstrated operable once per month.

required by Table 3.12-1; a.

Perform an inspection of the affected zone, if accessible, within I hour. Perform additional inspections at least once per hour, except in inaccessible areas.

b.

Restore the inoperable instrument (s) l to operable status within 14 days,

)

or prepare and submit a report to the Conmission pursuant to Spec-

)

ification 6.6.B.2 within the next 156d 30 days outlining the cause of the malfunction and the plans for restoring the instrument (s) to operabic status.

c.

The provisions of Specification 3.0.A I

are not applicabic.

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n-p DPR-19 3.12 f.IMITING CONDITIONS FOR OPERATION 4.12 SURVEILLANCE REQUIREMENTS C.

Sprinkler Systems C.

Sprinkler Systems 1.

At least once per operzting cycle:

1.

The sprinkler systens given in Table 3.12-2 shall be operable at all times when equipment in the area that is sprinkler protected is a.

A system functional test shall be required to be operable.

performed which includes simulated automatic actuation of the system and 2.

With a sprinkler system inoperable, establish verifying that the automatic valves fire surveillance with backup fire suppression in the flow path actuate to their correct positions.

equipment within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

a.

The sprinkler headers sb311 be inspec-In the Unit 2/3 turbine mezzanine 538' a.

elevation area or Unit 2 hydrogen seal oil ted to verify their inteqrity.

area, continuous surveillance is to be b.

Each nozzle shall be inspected to perforTced.

verify no blockage, b.

In the Unit 2 emergency diesel oil day tank 2.

At least every other operating cycle, area, Unit 2/3 emergency diesel oil day tank a flow test will he performed to verify area, Unit 2 reactor feed pump area, perform that each open head sprinkler nozzle is surveillance twice per shif t.

unobstructed.

3.

Restore the system to operable status within D.

C0 System 7

14 days, or prepare and submit a repcrt to the Comission pursuant to Specification 6.6.8.2 1.

At least once per 7 days the CD Storaqe 2

within the next 30 days outlining the cause Tank level and pressure will be verified-of inoperability, action taken and the plans for restoring the system to operable status.

2.

At least once per operating cycle, the 4.

The provini'>ns of Specificaticn 3 0. A system valves and associated damoers will are not applicabic, be verified to actuate automatically and D.

CO2 System manually. A brief flow test shall he made I" #if# #I " I' " Ch * **I'-

1.

The CO Storage Tank shall have a minimum 2

standby level of 50 percent and a minimum pressure of 250 psig.

1 System:given in Table 3.12-3 shall

)

2.

The CO2 be operable.

3.

Specifications 3.12.D.1 and 3.12.D.2 above apply when the equipment in the areas given 1569 in Table 3.12-3 is required to be operable.

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DPR-19 4.12 SURVEILLANCE REqulRFMFNTS IM 3.12 LIMITINr. CONDITIONS F0:1 OPERATION Systen incperable, establish 4.

With a CO2 fire surveillance with backup fire suppression equip:nent in unprotected areas within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />, and perfonn surveillance at least twice per shif t.

5.

Restore the system to operable status within E.

Fire Hose Stations 14 days, or prepa're and subnit a report to At least once per 31 days, a visual inspection c

the Cor. mission pursuant to Specification 6.6.n.2 1.

of each fire hose station. shall be made to vailable at the within the next 30 days outlining the cause assure all equipnent is a of inoperability, action taken and the plans i

and schedule for restoring the systen to station.

2.

At least once per operat cycley,he t

S operable status.

ep 6.

The provisions of Specification 3.0. A I ' "

V

[nt couplin95 wW M

~

c are not applicable.

E.

Fire Hose Stations replaced.

At least once per 3 year #5+ each hose station 1.

The Fire llose Staticns given in Tahle 3.12-4 3.

valve will be partially. opened to verify shall be operable at all times when the o blockage, eqilicent in the area is required to be valve operability and no operable.

At least once per 3 yea,rs a hydrostatic 4.

on each hose at 2.

With a hose station f r. operable route an test will be conducted r additional equivalent capacity hose to the a pressure at le: cst 50. psfg above line unprotected area frcn an operable hose pressure at that' statican.

station within 1 in r.

3.

When a hose station tecc::es incperable, F.

Fenetration Fire Barriers restore to operable status within 14 days or netration fire barriers report to the Comr::ission pursuant to specifi-1.

.ach f the reaun. red p g

cation 6.6.8.2 within the next 30 days shall be verifieed to t outlining the cause of inoperability and inspection:

plans for restoring the hose station to At least onca per 1:18 months, and operability.

a.

Prior to ddaring 1 a penetration fire 4.

The provisions of Specification 3 0.A b.

are not applicable.

barrier intmt foglowing repairs or maintenancet.

156h r-

DPR-19 m

3.12

.AITING CONDITIONS FOR OPERATION 4.12 SURVEILLANCE REQUIREMENTS p.,

4 G.

Fire Pump Diesel Engine F.

Penetration Fire Barriers 1.

The fire pump diesel engine shall be -

l.

All penetration fire barriers protecting demonstrated OPERABLE:

safety related areas shall be intact, except as stated in specification a.

At least once per 31 days by verifying:

3.12.F.2 below, 2.

With one or trore of the required penetration

1) The fuel storage day tank contains at least 150 gallons of Tuel, and fire barriers not intact, establish a con.

tinuous fire watch on at least one side of the af fected pene'tration within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> when

2) The diesel starts from ambient con-ditions and operates for at least 20 i

t the area on either sida of the'affected minutes.

pene'. ration contains equipment required to be operable.

b.

4t least once per month, a sample of diesel

3. The provisicr.s of Specification 3.0. A fuel shall be checked for quality. The I

are not applicable.

procedure used shall be consistent with I

existing station procedures used to check diesel fuel in the main storage tanks.

G.

See 3.12.8 c.

At least once per 18 months, during shutdown, by:

1) Subjecting the diesel to an inspec-tion in accordance with procedures prepared in conjunction with its manufacturer's recommendations for the class of service, and
2) Verifying the diesel starts from ambient conditions on the auto-start signal and operates for

> 20 minutes while loaded with the Tire pump.

1561 q

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ATTACHMENT 3 Oresden Station Unit 3 Proposed Technical Specification Changes Revised Pages:

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j 135 156d i

156g 156h 1561 New Pages:

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.A DPR-25 TABLE OF CONTENTS Page No.

GENERAL 1.0 DEFINITIONS..........................

1 5.0 DESIGN FEATURES........................ 157 6.0. ADMINISTRATIVE CONTROLS.................... 158 6.1 Organization, Review, Envestigation and Audit...... 158 6.2 Plant Operatir.g Procedures................

168 6.3 Actions to be Taken in the Event of A Reportable Occurrence in Plant Operation............. 175 6.4 Action to be Taken in the Event A Safety Limit Is Exceeded.................'..... 175 6.5 Plant Operating Records................. 175 6.6 Plant Reporting Requirements............... 177 SAFETY LIMITS 1.1 FUEL CLADDING INTEGRITY....................

5 1.2 REACTOR CCOLANT SYSTEM,.............,......

19 LIMITING SAFETY SYSTEM SETTING 2.1 FUEL CLADDING INTEGRITY....................

5 2.2 REACTOR COOLANT SYSTEM....................

19 LIMITim FEDI"'ICMS FDR OFCRATICN

  • 3.0 LIMITING CONDITICU NR OPEDATIN.............................

21a i

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esik DPR-25 I.

Limiting Conditions for Operation (LCO) - The o, pptr_nble - A syste:i, subsyste=, train, cc 1,onent, or device lamiLag conditions for operation specify the shsil tc cperabic rhen it ic capable of perfer:ing its specified function (.).

Inplicit in this definitica chn11 minimum acceptable levels of system perform-

" " #"*7 * '" " '" #"-

ance necessa U to assure safe startuP and oP-tation, controls, nonnai and e.:rcer.cy electrical power eration of de facility. When these condit2ons sources, coolinc or seal vater, lubrication or o;her are met, the plant can be operated safely and auxiliary couiprent that are recuired for the system, to perfo:.2 its rubsyst< m,) train, cwponent or devic:nre cho capabic of perforcing their re abnormal situations can be safely controlled.

function (:t cupport lunction(e).

J.

Limiting Safety System Setting (LSSS) - ne limiting safety system settings arc settings on P.

EPeInthy; - Operating means that a syste i, sub::ysteu, train, cuenent er device is perforcing its intended instrumentation which initiate the automatic 11 unctions in its required canner.

protective action at a Icvel such that the safety limits will not be exceeded. H e region Q.

Operating Cycle -Interval between the end between the safety limit and these settings of one refueling outage and the end of the represents margin with normal operation lying j

next subsequent refooling outage, below these settings. The margin has been established so that with proper operation of the f

R.

Primary Containnent Integrity - Primary instrumentation the safety limits will never be contain=ent integrity ccans that the drywell exceeded.

l and pressure supprossion chamber are intact and all of the following conditions are satisfied:

K.

Limiting Total Peaking Factor - The Limiting Total Peaking Factor (LTPF) 1.

All manual containment isolation valves on lines connecting to the reactor coolant sys-1 is the lowest Total Peaking Factor i

which limits a fuct type to a Linear tem or containment which are not required to be open during accident conditiens are IIcat Cencration Rate (1JIGR) corrcs-closed.

ponding to the operating limit at 100% power.

2.

At least onc door in each airlock is closed and scaled, L.

Logic Systes Function Test - A logic sys.

ten functional test means a test of all relays 3.

All automatic containment isolation valves and coatacts of a logic circuit from sensor arc operable or deactivated in the isolated to activated device to insure all co=ponents Position.

are operabic per design intent. Where possi-ble, action will go to completion, i.e., pumps 4

All blind flanges and manways are closed.

1 will be started and valves opened.

M.

Minicum Critient Power Ratio (MCPR) - ne minisuu:a in-corc critical power ratio

(

S.

Protective Instrt n.ptation Definitions corresponding to the most litiiting fuc1 1.

Instrument Char.cel - An instrument chan-means an arrangement of a sensor and assembly in the core.

N.

Mode - The reactor mode is that which is auxiliary equipment required to generate and transmit to, a trip system a single trip established by the mode-selector-switch.

signal related to the plant parameter 2

monitored by that instrument channel.

1 s

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DPR-25 1

3.0 LIMITING CONDITION FOR OPERATION t

3.0 Limiting Condition for Operation A.

In the event a Limiting Condition for Operation cannot be satisfied because of circumstances in excess of those addressed in the specifica-tion, the unit shall be placed in at least hot shutdown within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in cold st 't-down within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless

)

corrective measures are completed that satisfy the Limiting Conditions for Operation. Exceptions to these requirements are stated in the individual specifications.

B.

When a system, subsystem, train, component, or device is determined to be inoperable solely because its emergency power source is inoperable, or solely because its normal power source is inoperable, it may be con-sidered operable for the purpose of satisfying l

the requirements of its applicable Limiting Condition for Operations, provided:

(1) its corresponding normal or emergency power source is operable; and (2) all of its re-dundant system (s), subsystem (s), train (s),

component (s), and device (s) in the other division are operable, or likewise satisfy the requirements of this specification. Un-less both conditions (1) and (2) are satisfied, the unit shall be placed in at least hot shut-down within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, and in at least cold shutdown within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

C.

Specifications 3.0.A' and 3.0.B are not applicable in refueling or cold shutdown.

,o 21a L.

l DPR-25 j

Basis:

1 1

3.0.A.

This specification delineates the action to be taken for circumstances not direct-I ly provided for in the Limiting Condition for Operation statenents and whose occur-rence would violate the intent of the specification.

3.0.B.

This specification delineates what addi-tional conditions must be satisfied to permit operation to continue, consistent with the Limiting Condition for Operation statements for power sources, when a normal or emergency power source is not operable. Power sources are defined as AC Auxiliary Electrical Systems as defined in Section 3.9.A.1, 3.9.A.2, and 3.9.A.3.

It specifically prohibits operation when one division is inoperable because its normal or emergency power source is inoperable and a system, subsystem, train, component or device in another division is inoperable for another reason.

The provisions of this specification per-mit the Limiting Condition for Operation statements associated with individual systems, subsystems, trains, components or devices to be consistent with the Limiting Condition for Operation state-ments of the associated electrical power source.

It allows operation to be governed by the time limits of action statements associated with the Limiting Condition for Operation for the normal or emergency power source, not the individual action statements for each system, sub-system, train, component, or device that is determined to be inoperable solely be-cause of the inoperability of its normal or emergency power source.

21b 4.L-i

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DPR-25 O

3.M 1.1111 TING CONiilTION FOR OPERATION 4.8 SUllVEILLANCE ilEQUlHE31ENT

3. If the linits of 3.8.A.2.a. or 3,8 A.2.c arc exceeded, an orderly load reduction of the be ex(s) causing these linits unit to ceeded shall be initiated inmediately to reduce the releases below the limits of 3.8.A.2.s or 3.S.A.2.c.

The provisions of Specification 3.0.A are not applicable, l

l B.

31cchanical Vacuum Pump B.

31cchanical Vacuum Pump At Icast once during each operating cycle verify 1.

The mechanical vacuum pump shall be automatic securing and isolation of the mechanical capable of being isolated and secured on a signal of high radioactivity, whenever the vacuum pump.

main steam isolation valves are open.

2.

If the limits of 3.3.B are not met following a routine surveillance check, orderly shut-e down shall be initiated.

C.

Liquid Effluents C.

Liquid F:ffluen:s 1.

The radiation monitor sh.dl be calibrated 1.

Itadioactive liquid released from the facility quarterly and functionally tested monthly, shall be continuously monitored. To The operability of the sampler shall be accomplish this either the radiation monitor verified on a daily basis.

or the discharge line on the discharge canal sampler shall be operabic.

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f9 3.12 LIMITING CONDITIONS FOR OPERAIION DPR 25 4.12 SURVEILUNCE REQUIREMENTS t

[

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l 3.12 FIRE PR(yrECTION SYSTEMS 4.12 FIRE PROTECTION SYSTDfS Applicability:

Applicability:

Applies to the fire protection systems Applies to the periodic testing require-whenever the equipment or syste:ns being pro-ments of the fire protection systems whenever tected are required to be operable.

the fire protection systems are required to be operable.

(

Obj ective:

Obj ective:

To ensure that adequate protection against fires is naintained during all modes of facility operation.

To verify operability of the fire protection systems.

Specification:

IC'*I'"*

A.

Fire Detection Instrum:entation

" "" * *" *EI'*

1.

As a mini:num, the fire detection instrumentation for each fire 1.

Each of the fire detectica instru-detection zone shown in Table 3.12-1 shall be operable at all tirecs when cents given by Tchle 3.12-1 shall equipment in that fire detection be dcnonstrated OPERABLE at least every zone is required to be operable.

6 months by a channel functional test.

2.

All nonsupervised circuits shall be 2.

With the number of operabic fire detection instru:nents less than demonstrated operable once per month.

required by Table 3.12-1; a.

Perfom an inspection of the af fected zone, if accessible.

within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. Perform additional inspections at least once per hour, except in inaccessibic areas.

b.

Restore the inoperable instrument (s) to operable status within 14 days, or prepare and submit a report to the Cor::r.ission pursuant to Spec-ification 6.6.B.2 within the next 156d 30 days outlining the cause of the malfunction and the plans for restoring the instrument (s) to operable status.

C.

The provisions of Specification 3.0 A I

are not applicable.

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i 4.12 SURVEll. LANCE REQUIREMENTS 3.12 LIMITING CONDITIONS FOR OPERATION C.

Sprinkler Systems C.

Sprinkler Systems 1.

At least once per operating cycle:

1.

The sprinkler systems given in Table 3.12-2 shall be operable at all times when equipment in the area that is sprinkler protected is a.

A system functional test shall be performed which includes simulated required to be operable.

automatic actuation of the system and 2.

With a sprinkler system inoperable, establish verifying that the automatic valves fire surveillance with backup fire suppression in the flow path actuate to their correct positions.

equipmerrt within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

.a.

The sprinkler headers shall be inspec-In the Unit 2/3 turbine rcez'zanine 538' a.

elevation area or Unit 2 hydrogen seal oil ted to verify their integrity.

area, continuous surveillance is to be b.

Each nozzle shall be inspected to perforiced.

verify no hiockage, b.

In the Unit 2 emergency diesel oil day tank 2.

At least every other operating cycle, area, Unit 2/3 erergency diesel oil day tank a flow test will be per ormed to verify r

area, Unit 2 reactor feed purnp area, perforin that each open head sprinkler nozzle is surveillance twice per shif t.

unobstructed.

3.

Restore the system to operable status within n-C0 System I

2 14 days, or prepare and submit a report to the Cornnission pursuant to Specification 6.6.B.2 1.

At least once per 7 days the CO2 storage within the next 30 days outlining the cause Tank level and pressure will be verified.

of inoperability, action taken and the plans-for restoring the system to operable status.

2.

At 1 cast once per operating cycle, the system valves and associated dampers will 1

4.

The provinions of Specification 3.0.A are not applicabic.

be verified to actuate automatically and D,

CO2 System manually. A brief flow test shall he made to verify flow from each nozzle.

1.

The CO Storage Tank shall have a minimum 2

- standby level of 50 percent and a minimum pressure of 250 psig.

System;civen in Table 3.12.-3 shall 2.

The C02 be operable.

a 3.

Specifications 3.12.0.1 and 3.12.D.2.above apply when the equipment in the areas given 1569 in Table 3.12-3 is required to be operable.

h

m DPR-25 i

l 4.12 91RVEILLANCE RE(NIRFMENTS g

[

3.12 LIMITINr. CONDITIONS FOR OPERATION System inoperable, establish 4.

With a 00 2

fire surveillance with. backup fire suppression equip:nent in unprotected areas

)

l within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />, and perform surveillance T

at least twice per shift.

5.

Restore the systcm to operable status within E.

Fire Hose Stations 14 days, or prepa're and subnit a report to At least once per 31 days. a visual inspection i

the Ccaraission pur'suant to Specification 6.6.n.2 1.

of each fire hose station shall be made to within the next 30 days outltr.f r.g the cause assure all equipnent is available at the of inor.erability, action taken and the plans s ta tion.

/

and schedule for restoring the systeri to l

2.

At least once per operating cycle tk Mse operable status.

w remove r nspec na repac W.

6.

So provirlons of Specification 3.0.A are not applicable.

Degraded qaskets in the couplings will be replaced.

E.

Fire !!ose Stations 1.

The Fire !!ose Stations given in Tahle 3.12-4 3.

At least once per 3 years, each hose station I

valve will be partially. opened to verify shall be r.perable at all times when the valve operability and no blockage, equircent in the area is required to be operable.

4.

At least once per 3 years a hydrostatic 2.

With a hose station inoperable route an test will be conducted on each hose at additional equivalent capacity hose to the a pressure at least 50 psig above line unprotected area frora an operable hose pressure at that station.

station within 1 bcur.

3.

When a hose station becc.Tes in perable.

F*

Penetration Fire Barriers restore to operable status within 14 days or report to the Commission pursuant to specifi-1.

rach of the required penetration fire barriers cation 6.o.8.2 within the next 30 days shall be verified to the intact by a visual outlining the cause of inoperability and inspection:

plans for restoring the hose station to At least once per 18 months, and a.

operability.

me provisions of Specificatio's 3.0.A

~ b.

Prior to declaring a penetration fire I

4.

are not applicable.

barrier intact following repairs or maintenance.

156h L

opq_25 m

g 3.12

..dlTING CONDITkONS FOR OPERAT10fl 4.12 SURVEILLANCE REQUIREMENTS o.*,

G.

Fire Pump Diesel. Engine F.

Penetration Fire Barriers 1.

The fire pump diesel engine shall be-1.

All penetration fire barriers protecting demonstrated OPERABLE:

safety related areas shall be intact, except as stated in specification a.

At least once per 31 days by verifying:

3.12.F.2 below.

1) The fuel storage day tank contains at 2.

With one or more of the required penetration least 150 gallons of fuel, and fire barriers not intact, establish a con-tinuous fire watch on at least one side of

2) The diesel starts from ar.bient con-the 5fiected pene'tration within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> when minutes.

ditions and operates for at least 20 the area on either sida of the affected penetration contains equipment required to be operable.

b.

At least once per month, a sample of diesel fuel shall be checked for quality. The

3. The provisions of Specification 3 0.A procedure used shall be consistent with I

are not applicable

  • existing station procedures used a check diesel fuel in the main storage tanks.

G.

See 3.12.8 At least once per 18 months, during c.

shutdown, by:

1) Subjecting the diesel to an inspec-tion in accordar.ce with procedures prepared in conjunction with its manufacturer's recorx endations for the class of service, and
2) Verifying the diesel starts from

' ambient conditions on the auto-start signal and operates for

> 20 minutes while loaded with the Tire pump.

1561

ATTACHMENT 4 Quad Cities Station Unit 1 Proposed Technical Specification Changes Revised Pages:

1 1.0/2 3.8/4.8-4 3.12/4.17.-1 3.12/4.12-3 3.12/4.12-4 3.12/4.12-5 New Pages:

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QIIAD-CITIES Di'R-29 TECilNICAl. SI'I.CIFICATIONS APPENDIX A TAllt.E Or CONTENTS Page 1.0-1 1.0 DEFINITIONS l.1/2.1 FUEL CLADDING 1.1/2.1-1 1.1 Safety Limit Bases 1.1/2.1-4 2.1 Limiting Safety Sprem Setting Bases 1.1/2.1-7 1.2/2.2 REACTOR COOI.AN T SYSTEM l.2/2.2-1 I

1.2 Safety Liinit Bases 1.2/2.2-2 2.2 Limiting Safety Sprem Setting Bases 1.2/2.2-3 3.0/4.0 LIMITING CONDITIONS 'OR OPERATICN (GENE!W,)

3.0/4.0-1 3.1/4.1 REACTOR PROTECTION SYSTEM 3.1/4.1-1 3.1 Limiting Conditions for Operation Bases 3.1/4.1-2 4.1 Surveillance Requirements Bases 3.1/4.1-5 3.2/4.2 PROTECTIVE INSTRUMLNTATION 3.2/4.2-1 A.

Primary Containment holation Functions 3.2/4.2-1 B.

Core and Containment Cooling Systems-Initiation and Control 3.2/4.2-1 C. Control Rod litock Actuation 3.2/4.2-1 D. Steam Jet Air Ejector OIT-Gas Sptem Radiation Monitors 3.2/4.2-2 E.

Reactor Building Ventilation Eshaust Duct Radiation Monitors 3.2/4.2-2 F.

Refueling Floor Radiation Monitors 3.2/4.2-3 G. Postaccident Instrumentation 3.2/4.2-3 H. Control Room Ventilation Mstem Isolation 3.2/4.2-4

}

3.2 Limiting Conditions for Operation Bases 3.2/4.2-5 j

4.2 Surveillance Requirements liases 3.2/4.2-9 a

3.3/4.3 REACTIVITY CONTROL 3.3/4.3-1 A.

Reactivity Limitations 3.3/4.3-1 B.

Control Rods 3.3/4.3-2 C.

Scram insertion Times 3.3/4.3-4 D. Control Rod Accumulators 3.3/4.3-5 E.

Reactivity Anomalies 3.3/4.3-5 F.

Economic Generation Control Sptem 3.3/4.3-5 3.3 Limiting Conditions for Operation Itases 3.3/4.3-7 l j 3.4/4.4 STANDBY LIQUID CON'IROL SYS~IEM 3.4/4.4-1

' I A.

Normal Operation 3.4/4.4-1 j

B.

Operation with Inoper.ihte Components 3.4/4.4-2 C.

Liquid Poison Tank-Raron Concemretion 3.4/4.4-2 l

3.4 Limiting Conditiom for Operation Ba es 3.4/4.4-3 l l i !

i 6

8 QUAD-CITil'S DPR-29 H. Umiting Conditions for Operation (I.CO) The limiting conditions for operation specify the minimum acceptable levels of sptem pertbrmance necewry to auure safe startup and operation of the facility.

When these conditions are met, the plant can be operated safely and abnormal situations can be safely controlled.

I.

Waiting Safety Spiem Setting (I.SSS) The limiting safety system settings are settings on instrumenta-tion which initiate the automatic protective action at a level such tha' the safety limits will not be exceeded. The region between the urety limit and thee settings represents margin, with normal operation lying below thesc settinp. The margin has been otablisher so that with proper operation of the instrumentation, the safety hmits will never be exceeded.

J.

Umiting Total Peaking Factor The limiting total peaking facth LTPF) is the lowest total peaking factor which limits a fuel type to a linear heat generation rate (LH iR) corresponding to the operating limit at 100% power.

K. legic System Functional Test A logic system functional test means a test of all relays and contacts of a logic circuit from sensor to activated desice to ensure all components are operabic per design intent.

Where possible. action will go to completion; i.e.. pumps will be started and vahes opened.

L.

Modes of Operation A reactor mode switch selects the proper interlocking for the operating or shutdown condition of the plant. l'ollowing are the modes and interlocks provided:

1. Shutdown In this position, a reactor scram is iniuated power to the control rod drives is removed, and the reactor protection trip sptems have been deenergired for 10 seconds prior to permissive for manual reset.
2. Refuel In this position. interlocks are established so that one control rod only may be withdrawn

.en flux amplifiers are set at the propt r sensitivity level and the refueling crane is not over the t

reactor. Also, the trips from the turbine control valves. turbine stop valves main steam isolation valves, and condenser vacuum are bypassed. If the refueling crane is over the reactor, all rods must be fully inserted and none can be withdrawn.

3. Startup/ Hot Standby -In this position the reactor ptotection scram trips. initiated by condenter low vacuum and main steamline isolation vahe clnsure, are bypassed, the low pressure main steamline isolation valve closure trip is hypawed and the reactor protection system is energized with IRM and APRM neutron monitoring system trips and control rod withdrawal interlocks in service.
4. Run - In this position the teactor system preuure is at or above 850 psig, and the reactor protection system is energized, with APRM protection and RMB interloc(s in service (excluding the 15% high flux scram).

M.

Opornh),e_ - A cystera, c'abeysten, train, eenponent, or device shall be operabic when it is capable of perfo:::in - itn cpecified functien(s).

Implicit in thin definition chall be the nscu.ption that rll necessary attendant instn:centation, centrole, torer.1 c'Id ecornoncy electrical pouer cources., enolin. or eeni vater, lubrien'. ion or other auxillery equipment that are recuired for tha r.ysten, cubayr., tem, train, connonent i

or device to perfor.a its Dmetion(ui nre alco ccpcble of performin; their related support functien(s).

N.

onernting - operatin~ cenns that a cyste., cubsycteri, train, couponent or device is performing its intended functionr, in its required car.ner.

O.

Operating C cle -Interval hetweer the etid of one refueling outage for a particular unit and the end of 3

the next sub*equent refueling outage for the same umt.

I P.

Primary Containment Inte<'rity Primary containment inte;rity means that the drywell and pressure suppression chamber are intact and all of the following conditions are satisfied:

f I

1. All manual containment isolation valves on lines connecting to the reactor coolant system or containment which are not required to be open during accident conditions are closed.

1.0-2 1

Quad-Cities DPR-29 3.0/4.0 Limiting Conditions for Operation (General)

Applicability:

Applies to systems, subsystems, trains, components, or devices required to be operable.

Objective:

To assure that no set of equipment outages would be allowed to persist that would result in the facility being in an unprotected condition.

LIMITING CONDITION FOR OPERATION A.

In the event a Limiting Condition for Operation cannot be satisfied because of circumstances in excess of those addressed in the specification, the unit shall be placed in at least HOT SHUTOOWN within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in COLD SHUTDOWN within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless corrective measures are completed that satisfy the Limiting Conditions for Operation.

3.0/4.0-l'

-..Y 46

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)

Quad Cities DPR-29 B.

When a system, subsystem, train, component, or device is determined to be inoperable solely because its emergency power source is inoperable, or solely because its normal power source is inoperable, it may be considered OPERABLE for the purpose of satisfying the requirements of its applicable Limiting Condition for Operation, provided:

1.

Its corresponding normal or emergency power source is OPERABLE, and 2.

All of its redundant systems, subsystems, trains, components, and devices in the other division are OPERABLE, or likewise satisfy the requirements of this specification.

Unless both conditions 1. and 2. are satisfied, the unit shall be placed in at least HOT SHUTDOWN within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in at least COLD SHUTDOWN within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

C.

Specifications 3.0.A and 3.0.8 are not applicable in refueling or cold shutdown.

I 3.0/4.0-2

1, m

Quad-Cities DPR-29 3.0/4.0 BASES 3.0 A This specification delineates the action to be taken for circumstances not directly provided for in the Limiting Condition for Operation statements and whose occurrence would violate the intent of the specification.

3.0.8 This specification delineates what additional conditions must be satisfied to permit operation to continue, consistent with the Limiting Condition for Operation statements for power sources, when a normal or emergency power source is not OPERABLE.

It specifically prohibits operation when one division is inoperable because its normal or emergency power source is inoperable and a system, subsystem, train, component, or device in another division is inoperable for another reason.

Power sources are defined as AC Auxiliary Electrical Systems as noted in Section 3.9.A.1, 3.9.A.2, and 3.9.A.3.

The provisions of this specification permit the Limiting Condition for Operation statements asscciated with individual systems, subsystems, trains, components, or devices to be consistent with the 4

Limiting Condition for Operation statements of the associated electrical power source.

It allows operation to be governed by the time limits of the action statements associated with the Limiting Condition for Operation for the normal or emergency power source, not the individual action statements for each system, subsystem, train, component, or device that is determined to be inoperable solely because of the inoperability of its normal or emergency power source.

3.0/4.0-3

f l

QUAD-CITil:S i

DPil-29 b.1) The average release rate per site of all radioiodines and radio-halflives greater than 8 days released active rnaterials in particulate weekly. An analysis shall also be per-4 form with half 4!ves greater than y formed of a sampic at least quarterly for the radionuclides 1-133 and days during any calendar quarter 1-135.

shall be such that:

13 {7.3 x 10 Qy + 2.6 x 10 Q ! <I 5

5 C

particulatJ form, a sample shall be

2) The amo nt of lodine 131 drawn continuously through a particu-released durr.g any calendar late filter. Measurements shall be made quarter shall not exceed Ci/

on these filters to determine the quan-tit es of nuclides in particulate form i

reactor.

c.1) The averaec release rate per site of with half lives greater than 8 days all radioihdinas and radioactive that are released to the environment.

materials in particuta:e form w th The particulate tilten shall be changed half-lives greater than 8 days dus-and analyied at le.ist weekly for gross ing any period of 12 cons:cutne t, eta particulate radioactivity with half months shall be such that:

I ves greater than 8 days. Monthly. a 25{ 7.3 x 10 Qy + 2.6 x 10' Q f ~. The licenve shall recort tNu with half lives greater than 8 days l

actions to the NRC withia 30 days that are released to the environment.

t from the en.t of t'.e oca:ter durine The particulate itten shall be chanced r

which the releues occused. The and analyred at least weekly for gr'o'u provisions of Specification j

3.0.A arrt not applicable, 3.h / 4.8-4 g

i a

QUAD. CITIES t.c.

DPR-29 3.12/4.12 FIRE PROTECTION SYSTDIS LIMITING CONDITIONS FOR OPERATIONS SURVEII. LANCE REQ (ilitD!ENTS Applicability:

Applieshi'ity:

Applies to the fire protection systems whenever the Applies to the periodic testing requirements of the fire equipment or systems being protected are required to protection systems w henever the fire protection be operab!c.

sysicms are required to be operable.

Objective:

Objective:

s To ensure that adequate protection afsinst fires is To verify ope: ability of the fire protection systems.

rmintained during all modes of facihty operation.

SPECIFICATIONS A. Fire Detection Instrumentation A. Fire Detection Instmmentation 1.

As a minimum, the fire detection instru-1.

Each of the fire detection instruments mentation for each fire detection zone given by Table 3.121 shall be demon-shown in Table 3.12-1 shall)e operable strated operable at least once per 6 i

at all times when equipment in that fire months by a channel functional test.

detection zone is required to be operable.

1 All m spid cimits skll k 2.

With the number of operable fire detec-demonstrated operable once per month, tion instruments less than required by Table 3.121;

s. Perform an inspection of affected zone, within I hour. Peiform addi-tional inspections at least once per hout except in inaccessible areas.
b. Restore the inopewble instrument (s) to operable status within 14 days.or prepare and submit a report to the Commission pursuant to Specification 6.6.B.2 within the next 30 days out-lining the cauw of the malfunction, the action taken; and the plans for restoring the instrument (s) to oper.

able status.

3. 'Ite provisions of Sfecification 3.0.A are not applicable.

- 3.12/4.12-1

4,&

QUAD CITIES DPR-29 simulated automatic actuation of the system throughout its opera-ting.scquence and verifying that each automatic valve in the flow path actuates to its correct Position.

(2) By verifying that each pump develops at least 2000 gpm at a syste'm head of 123 psig.

(3) Cycling each valve in the flow path that is not testable during plint operation through at least one complete cycle of full travel, and

f. At least once per 3 years by perform.

ing flow tests of the system in accor-dance with Chapter 5, Section 11.

NI7PA Fire Protection llandbook.

C. Sprinkler Systems C. Sprinkler Systems 1.

The sprinkler systems given in Table 1.

At least once per ye.ir by cycling each 3.12 2 shall be operable at all times when testable valve in the flow path through at equipment in the areas spray / sprinkler least one complete cycle of full travel.

{

protected is required to be operable.

7 gg 2.

With a sprinkler system inoperable,

a. A system functional test shall be per-formed which includes simulated auto.

establish back up fire suppression equip.

matic actuation of the system and ment and inspect the area twice per shift.

ng tlist the automatk valm in ver 3.

Restore the system to operable status tlic Dow patti actuaw to tlst con withm 14 days, or prepare and submit a

''I"*""

report to the Commission pursuant to Specification 6.6.B.2 within the next

b. The sprinkler headers shall be in-30 days outlining the c.iuse of inoper-spected to verify their integrity.

o acl sa Fcted to fo rest r ng i e sys e i to pc h e

7,

status.

3.

At least once per 3 years by performing

4. *1hc provisions of' Specification an air flow test through each open head 3.0.A are not applicable.

spray / sprinkler header and verifying each '

open head spray / sprinkler noule is un-obstructed.

3.12/4.123 hdj 3

t

,,2 m

QUAD CITIES

!>l'R-29

-t...

2 Systems D. CO D. CO 2 Systems

1. The coy Storage Tank shall have a mini-1.

At least once per 7 days the CO; Storage mum stand by level of 50 percent and a Tank level and pressure wdl be verified.

minimura pressure of 250 psig.

7 3

g

2. The CO Systems gisen in Tab lc 3.12 3 system valves and asweiated dampers ws!!

2 shall be operable.

be verified to actuare automatically and manuaHy. A r w test sham man

3. Specifications 3.12.D.] and 3.12.D.2 to verify flow from each nonte.

above apply when toe equipment in the areas given in Table 3.12.3 is required to be operabic.

With a CO System inoperable, establish 4.

2 backup fire suppression equipment for the unprotected ares (s) within I hour and inspect the area twice per shift.

5. Restore the system to operable status within 14 days, or prepare and submit a report to the Commission pursuant to Specification 6.6.11.2 within the next 30 days outlining the cause of inoper.

ability, the action taken, and the plans and schedute for restorini;the system to operable status.

I-6.

If actuated, the storage tank will be restored to greater than the minimum levelwithin 48 houis.

7. 'the provisions of specification 3.0.A are not applicable.

E. Fire Hose Stations E. Fire llose Stations

1. The Fire llose Stations given in Table 1.

At least once per 31 days,a visualinspec.

3.12-4 shall be operable at all times tion of each fire hose station shall be when the equipment in the areas pro-made to assure all equipment is available tected by the fire hose is required to be at the station.

PeraMe.

2.

At least once per operating cyc!c, the

2. With a hose station inoperable, route an hose will be removed for inspection and additional equivalent capacity hose to the reracked. Degraded gaskets in the coup-unprotected area frem an operable hose lings will be replaced.

station within I hour.

3.

At least once per 3 years, each hose sta-

3. 'the peovisions of snecification tion valve will be partially opened to 3.0.A are not applicahic.

Verify valve operability and nu blockage.

4.

At least once per 3 years a hydrostatic test will be conducted on each hose at a pressure at least 50 p4g gicarer than the maximum pressure available at the hose

station, i

F Penetration Fire Barriers F. Penetration Fire Itatriers 1.

All penetration fire barriers protectmg 1.

Each of the penetration fire barrier shall safety related areas s%!I be intact except be verified to b: mtset by visual in-as stated in Specification 3.12.F.2.

spection; 3.12/4.12-4

+

i

QUAD CrilES Di'it-29

2. With one or more penetration fire barriers
a. A418tst once Per operating cycle,and not intact, establi): a con!innous nre
b. rdee es declarmy a penetration fire watch on at least cne side of the r.ffected kriar functional fol;owing repair; or penetration within I hoor if the area on mauttenance.

either side of t!2e affe:ted penetration contains equipment requbed to be operab!c.

3.

the provisions or.q<cirication 3.0.A are not applicable.

G. Fire Pump Diem! Enyne G. Fhe Pump D;cw! Lat ne i

1. The fire l' amp Dinel Engine sha'l be 1.

The fue pump diew! starting 24 volt operable as specifie ' in 3.12.U.! a an.d battery bank and charter sinllbe demon-3.12.B. I.b.

strared OPl:ltAULE:

a. At least once per 7 days by verifying that:

(1) The electrolyte level of each bat-tery is above the plates, and (2) The overall battery voltage is

>24 volts.

b. At least once per 92 days by verifying that the specifie gravity is appropriate for continued service of battery.
c. At least once per 18 months by verify.

{

ing that:

(1) The batteries, cell plates and bat-tery racks show no sisualindica-tion of physical damage or abnormal deterioration, and (2) The battery to-battery and ter-minal connections are clean, tight, free of corrosion and coated with antimorrosior.

material.

2. The fire pump diesel engine shall be demonstrated OPERABLE:

i i

a. At least once per 31 days by verifying; i

(1) The fuel storage day tank con.

tains at ! cast 250 gallons of fuel, and (2) The diesel stcrts from ambient

' conditions and operates for at t

!;i least 20 minutes.

1 i

3.12/4.12-5 i

hd

-. =

ATTACHMENT 5 Quad Cities Station Unit 2 Proposed Technical Specification Change i

Revised Pages:

1 1.0-2 3.8/4.8-4 3.12/4.12-1 3.12/4.12-3 3.12/4.12-4 3.12/4.12-5 New Pages:

3.0/4.0-1 3.0/4.0-2 3.0/4.0-3 i

1 I

4 l

l 1.

~

('

QtfAD-CITil'S Iwn 30 l

l I

TECllNICAL SI'ECIFICATIONS i

APPENDIX A

+7 TAHl.E Ol' CONT ENTS Page 1.0-1 1.0 DEFINITION 3 1.1/2.1 FUEL CLADDING 1.1/2.1-1 1.1 Safety Limit Bases 1.1/2.1-4 2.1 Limiting Safety Spiem Setting Bases 1.1/2.1-7 l.2/2.2-I 1.2/2.2 REACTOR COOI.AN T SYSTEM l.2 Safety Limit Bases 1.2/2.2-2 2.2 Limiting Safety Sprem Setting Bases 1.2/2.2-3 l 3.0/4.0 LIMITmG CONDITIONS NR OPERATION (GENERAL) 3.0/4.0-1 3.1/4.1 REACTOR PROTECTION SYSTEM 3.1/4.1-1,

-l 3.1 Limiting Conditions for Operation Bases 3.1/4.1 2' 4.1 Surveillance Requirements Bases 3.1/4.1-5' 3.2/4.2 PROTECTIVE INSTRUMENTATION 3.2/4.2-1 A.

Prim.iry Containment Iwlation Functions 3.2/4.2-1 B.

Core and Containmer1 Cooling Sprems initiation and Control 3.2/4.2-1 C.

Control Rod Block Actuation 3.2/4.2-1 D. Steam Jet Air Ejestor Otr-Gas Sy tem Radiation Monitors 3.2/4.2-2 E.

Reactor Building Ventilation Eshaust flect Radiation Moni: ors 3.2/4.2-2 F.

Refueling Floor Radiation Monitors 3.2/4.2-3 G. Postaccident Instrumentation 3.2/4.2-3

)

H. Control Room Ventilation System isolation 3.2/4.2-4 3.2 Limiting Conditions for Operation Bases 3.2/4.2-5 4.2 Surveillance Requirements Bases 3.2/4.2-9 3.3/4.3 REACTIVITY CONTROL 3.3/4.3-1 A.

Reactivity Limitations 3.3/4.3-1 B.

Control Rods 3.3/4.3-2 C.

Scram insertion Times 3.3/4.3-4 D. Control Rod Accumulators 3.3/4.3-3 E.

Reactivity Anomalies 3.3/4.3-5 F.

Economic Generation Control Sptem 3.3/4.3-5 3.3 Limiting Conditions for Operation Bases 3.3/4.3 1 3.4/4.4 STANDDY LIQUID CON'IROL SYSIEM 3.4/4.4 1 li A.

Normal Operation 3.4/4.4-1 B.

Operation with Inoperable Components 3.4/4.4-2

'(

C.

Liquid Poison Tant-Boren C. neentration 3.4/4.4-2 3.4 Limiting Conditio'n for Op ration Hases 3.4/4.4-3 i

i Jh

QUAD 4111rS DPR-30 H. Limiting Conditions for Operation fl.CO) The limiting conditions for operation specify the minimum acceptable leveh of system persbrmance necewry to auure safe startup and operation of the facility.

When these conditions are met. the plant e.in be operated safely and abnormal situations can be safely I

contro!!cd.

I.

Umiting Safety Sprem Scisin:t (LSSS) The limiting safety syu/m settings are settings on instrumenta-tion which initiate the automatie protective action at a level such that the safety limits will not be exceeded. The region between the safety limit and these settings represents margin, with normal operation lying below these settings. The margin has been established so that with proper operation of the instrum ntation. the safety limits will never be exceeded.

J.

Umiting Total Peakin:: Factor Tbc limiting total peaking facto'r (LTPF) is the lowest total peaking factor which limits a fuel type to a linear heat generation rate (LHGR) corresponding to the operating limit at 100% power.

K. tegic System Functional Test - A logic system functional test means a test of all relays and contacts of a logic circuit from sensor to activated desice to ensure all components are operable per design intent.

Where possible, action will go to completion: i.e., pumps will be started and valves opened.

I L Modes of Operation - A reactor mode switch selects the proper interlocking for the operating or shutdown condition of the plant. Following are the modes and interlocks provided:

l. Shutdown - In this position, a reactor scram is initiated, power to the control rod drives is removed, and the reactor protection trip systems have been deenergized for 10 seconds prior to permissive for manual reses.
2. Refuel - In this position, interlocks are established so that one control rod only may be withdrawn when flux amplifers are set at the proper sensitivity level and the refueling crane is not over the reactor. Also, the trips from the totbine control valves. tarbine stop valves, main steam isolation valves, and condemer vacuum are bypawed. If the refueling crane is over the reactor, all rods must be fully inserted and none can be withdrawn.
3. Startup/Ilot Standby -In this position.the reacter protection scram trips initiated by condenter low vacuum and main steamline isolation vahe clnsure, are bypaned, the low pressure main steamline isolation valve closure trip is hypawed, and the reactor protection system is energized, with IRM and APRM neutron monitoring system trips and contro! rod withdrawal interlocks in service.

4.

Run - In this position the reactor system pressure is at or above 850 psig, and the reactor protection system is energized, with APRN1 protection and RNIB interloc(s in service (eveluding the 15% high flux scram).

M.

Operabl_e, - A system, subeysten, train, cemenent, or device shall be operable when it is capable of perfomint; its.pecified function (s).

Implicit in thin definition chall b the oncu?.ption th9t rll necessary attendant inatmec:1tation, centro 10, norr:'.1 c*r1 crorcency electrical power sourect., coolin er real vo cr, lubriention or other nuxiliary equipment that are required for tha r.y. ten, nukys tem, train, component or device to perfora its functien(s twe alto cepcble of perfoming their related support functicn(c).

N.

operatt.m - Operating uenne that a cyctca, rubsycten, train, cosmonent or device is performing its intended functionr. in its required manner.

Operating C ele Interval between the end of one refuelingoutage for a particular unit and the end of O.

3 the next subsequent refuelin; oistage for the same umt.

P.

Primary Containment Intearity Primary containment inte;rity means that the drywell and pressure suppression chamber are intact and all of the foi!owing conditions are satisfied:

l'

l. All manual containment isolation valves on lines connecting to the reactor coolant system or

' containment which are not required to be open during anident conditions are c!csed.

I l

i 1.0-2 m

Quad-Cities OPR-30 3.0/4.0 Limiting Conditions for Operation (General)

Applicability:

Applies to systems, subsystems, trains, components, or devices required to be operable.

Objective:

To assure that no set of equipment outages would be allowed to persist that would result in the facility being in an unprotected condition.

LIMITING CONDITION FOR OPERATION A.

In the event a Limiting Condition for Operation cannot be satisfied because of circumstances in excess of those addressed in the specification, the unit shall be placed in at least HOT SHUTDOWN within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in COLD SHUTDOWN within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless corrective measures are completed that satisfy the Limiting Conditions for Operation.

3.0/4.0-1

= _)

L

l Quad Cities OPR-30 B.

When a system, subsystem, train, component, or device is determined to be inoperable solely because its emergency power source is inoperable, or solely because its normal power source is inoperable, it may be considered OPERABLE for the purpose of satisfying the requirements of its applicable Limiting Condition for Operation, provided:

1.

Its corresponding normal or emergency power source is OPERABLE, and 2.

All of its redundant systems, subsystems, trains, components, and devices in the other division are OPERABLE, or likewise satisfy the requirements of this specification.

Unless both conditions 1. and 2. are satisfied, the unit shall be placed in at least HOT SHUTDOWN within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in at least COLD SHUTDOWN within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

C.

Specifications 3.0.A and 3.0.B are not applicable in refueling or cold shutdown.

3.0/4.0-2 l

Quad-Cities DPR-30 3.0/4.0 BASES 3.0.A This specification delineates the action to be taken for circumstances not directly provided for in the Limiting Condition for Operation statements and whose occurrence would violate the intent of the specification.

3.0.8 This specification delineates what additional conditions must be satisfied to permit operation to continue, consistent with the Limiting Condition for Operation statements for power sources, when a normal or emergency power source is not OPERABLE.

It specifically prohibits operation when one division is inoperable because its normal or emergency power source is inoperable and a system, subsystem, train, component, or device in another division is inoperable for another reason.

Power sources are defined as AC Auxiliary Electrical Systems as noted in Section 3.9.A.1, 3.9.A.2, and 3.9.A.3.

The provisions of this specification permit the Limiting Condition for Operation statements associated with individual systems, subsystems, trains, components, or devices to be consistent with the Limiting Condition for Operation statements of the associated electrical power source.

It allows operation to be governed by the time limits of the action statements associated with the Limiting Condition for Operation for the normal or emergency power source, not the individual action statements for each system, subsystem, train, component, or device that is determined to be inoperable solely because of the inoperability of its normal or emergency power source.

3.0/4.0-3 1

QUAD-CITils Deli 30 b.1) The aserage release rate per site halflives greater than 8 days released I

of all radiciodines and raiha.

I active mated.ds in particulate weekly. An analysis shall also be per.

formed of a sample at least quarterly form with half 4ives irreater than 8 for the radionuclides 1 133 and days during any calendu quarter l 135.

shallbe such that:

For release of radiaaetive material in Q } <l 13 {7.3 x 10' Oy + 2.6 x IO S

C particulatJ form. a sample shall be

2) The amount of loJinel.11 drawn continuously ihrough a particu.

releesed dunng any calendar late Glter, hicasurements shall be made quarter shall not esteed 2 Ci/

on thew Alters to determme the quan-

'# I

tities of nuclides in particulate form c.1) The nerage release rate per site of with half lives greater than 8 dap that are released to the environment.

all radioiodin:s and radioactive materials in particulate form w th The pasticulate fliers shall be changed half.hves greater than 8 days dur.

and analyred at least weekly for gross tr.g any period of 12 consecutive beta. particulate radioactivity with half months shall be such that:

lives greater than 8 days. hlonthly, a 25{ 7.3 x IO Qy + 2.6 x 10' Q f ~<~I S

"E C

the month shall be prepated. This

2) The amount of lodine.131 composite shall be analyz.ed for the i

released during any period of 12 principal gamma.cmitting nuclides, consecutive months shall nat cx.

ceed 4 Ci/ reactor.

Analpis for Sr-89 and Sr 90 shall b:

made quarterly. Grow alpha radioac-d 'the provisions of specification tivity shall be determined quarterly.

3.0,A are not applicablo.

3. 't he ventilation stack tilters and car-3.

a.

The design objectives stipulate that tridges shall be counted weekly when the annual total quantity of all the measured release rate of the sum of radioiodines and radioactive material iodine.131 and par ticulates i> less than in particulate forms with halflises 25% of the release rate riven in Speci-greater than 8 days, above back-fication 3.8.B.2.s; otherwise the venti-ground, from all reactors at a site lation stack filters and eartridees shal:

should not resu't in an annual dose be rernoved and counted daily'.

M any organ of an individualin an unrestricted area from all pathways A determination shall be made of the of exposure in excess of 15 mrem total I.131 and particulates with half I

and that the anmut totalquantity of lives greater than 8 days released i

lodine.lJ1 discharged from each re.

weekly. An analpis sample shall be i

actorat a site should not exceed 1 Ci.

taken at least quarterly for the radio-

b. Should any of the conditions or 3.8.D.3.c(1) or (2) lia:d Ifelow For release of radioactive material in i

exist, the licensee shall make an in.

particulate form. a sample shall he vestigation to identify the causes of drawn continuously through a partico-the release rates, define and initiate a late filter. hicasurement< shall be made program of action to reduce the re.

on these lihers to dete:mine the quan-lease rates to the design obieetive tities of nuclides in particulate form level >. 'lhe licenve shall report ibose with half lives greater than 8 days i

actions to the NRC wahin 30 days that are released to the environment.

l from the end of t'.e qtxter during-i The particulate dters shall be changed l

r which the reieuesoccured. The 3

and an@ at lean wuuy for grou provisions of Specification 3.0.A are not applicable.

3.lu 4.8 4 A

.~

QUAD-CITIES t...

DPR-30 3.12/4.12 FIRE PROTECTION SYSTDIS LIMITING CONDITIONS FOR OPERATIONS SURVEILLANCE REQtllt!DIENTS Applicability:

Applicability:

Applies to the fire protection systems whenever the Applies to the periodic testing requirements of the fire equipment or systems being protected are required to protection sy. stems whenever the fire protection be operable, systems are rei;uired to be operah!e.

Objective:

Objective:

s To ensure that adequate protection arainst fires is To verify operability of the fire protection systems.

maintained during all modes of facihty operation.

SPECIFICATIONS A. Fire DetectionInstrumentation A. Fire Detection Instrumentation 1.

As a minimum, the fire detection instru-1.

Each of the fue detection instruments mentation for each fine detection zone given by Table 3.121 shall be demon.

shown in Table 3.121 shallye operable strated operable at least once per 6 at all times when equipment in that fire months by a channel functional test.

detection zone is required to be operable.

1 Mi i -d cimin sM1 W 2.

With the number of operah!c fire detec-demonstrated operabl once per month.

tion instruments lew than required by Tabic 3.121;

a. Perform an inspection of affected zone, within I hour. Pc form addi.

tional inspections at least once per hour except in inaccessible areas.

b. Restore the inoperable instrument (si to operable status within 14 days. or prepare and submit a report to the Commission pursuant to Specification 6.6.B.2 within the next 30 days out.

lining the cauw of the malfunction, 4

the action taken, and the plans for restoring the instrument (s) to oper.

able status.

3. we peovisions of spocification 3.0.A ace not applicable.

3.12/4.12-1

,,y

a QUADCITIES DPR-30 simulated automatic actuation of the system throughout its opera-ting sequence and venifying that each automatic valve in the flow path actuates to its correct position.

(2) By verifying that each pump dev. clops at least 2000 gpm at a system head of 123 psig.

(3) Cycling each valve in the flow path that is not testable during plant operation through at least one complete cycle of full travel, and

f. At least once per 3 years by perform-ing flow tests of the system in secor.

dance with Chapter 5, Section 11, NFPA Fire Protection llandbook.

C.

Sprinkler Systems C. Sprinkler Systems

1. The sprinkler systems given in Table 1.

At ! cast once per year by cycling each 3.12 2 shall be operable at all times when testable valve in the flow path through at equipment in the areas spray / sprinkler least once comp!cte cyc!c of full travel.

protected is required to be operabic.

2. At least once per operating cycle:

2.

With the cable tunnel sprinkler systent

a. A system functional test shalll'c per-Inoperable, establish a continuous fire formed which includes simulated auto-l watch with back up fire suppression tr,atic actuation of the system and equipment for the unprotected area verifying that the automatic valves in within I hour.

the flow path actuate to their cor-3.

With any other sprinkler system in.

rect positions.

operable, establish back up fire sup-

b. The sprinkler headers shall be in-pression within I hour and inspect the spected to verify their integrity.

area twice per shift.

c-c n ule s aH e spect to 4.

Restore the system to operable status Y"

within 14 days, or preparc and submit a report to the Commission purrgnt 3.

At least once per 3 years by performing to Specification 6.6.B.2 within the an air flow test through each open head next 30 days outlining the cause of spray / sprinkler header and verifying each inoperability, the action taken, and open head spray / sprinkler nonic is un-the plans for restoring the system to obstructed, operable status.

I

5. 'the provisions of Specifiestien

)

3.0.A are not applicable.

(

3.12/4.12-3

.l t

-=

- l

QUAD-CITIES

.3,,,,

DPR 30 2 Systems D. CO Systems

- D. CO 2

The CO Storage Tank shall have a mini-1.

At least once per 7 days the CO Storage 1.

2 3

mum stand by level of 50 percent and a Tank level.and pressure will be verifled.

mininwra pressure of 250 psig.

7 g,

g

2. The CO Systems given in Table 3.12 3 system valves and associated dampers will 2

shall be operable.

be verific'd to actuate automatically and I

manually. A brief flow test shallbe made 3.

Specifications 3.12.D.1 and 3.12.D.2 to verify flow from each nozzle.

above apply when the equipment in the areas given in Table 3.12.3 is required to be operable.

With a CO System in perable, establish 4.

2 backup fire suppression equipment for the unprotected arca(s) within I hour

~.

and inspect the area twice per shift.

5.

Restore the system to operable status I

within 14 days, or prepare and submit a report to the Commission pursuant to Specification 6.6.B.2 within the next 30 days outlining the cause of inoper-ability, the action taken, and the plans and schedule for restoring the system to operable status.

6.

If actuated, the storage tank will be I-restored to greater than the minimum level within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />.

L 'the provisions of Specification 3.0.A are not applicable.

~

E.

Fire Hose Stations E.

Fire llose Stations 1.

The Fire llose Stations given in Table 1.

At least once per 31 days,a visualinspec.

3.12-4 shall be operable at all times tion of each fire hose station shall be when the equipment in the areas pro-made to assure all equipment is available tected by the fire hose is required to be at the station.'

PeraMe.

2.

At least once per operating cycle, the 2.

With a hose station inoperable, toute an hose will be removed for inspection and additional equivalent capacity hose to the reracked. Degraded gaskets in the coup-unprotected area frem an operable hose lings will be replaced.

station within I hour.

3, g;

3 gg

3. 'the provisions of specification tion valve will be partially opened to 3.0.A are not applicable, verify valve operability and no blockage.

4.

At least once per 3 years a hydrostatic test will be conducted on each hose at a pressure at least 50 pig greater than the maxhnum pressure available at the hose station.

F Penetration Fire Barriers F. Penetration Fire Itatriers 1.

All penetration fire barriers protecting 1.

Each of the penetration fire barrier shall safety related areas shall be intset except be verified to be intact by visual in-as stated in Specification 3.12.F.2.

spection; 3.12/4.12-4

.j r

QUAD CITIES

't, DPR 30 o.

MMst once per operating cycle,and 2.

With one or more penetration fire barriers a.

not intact, establish a continuous iira

b. Prior b declaring a penetration fire watch on at least ene side of the affected i r functional following repairs or penetration within I hour if the area on either side of the affected penetration contains equipment requhed to be operable.

3.

'Ite provisions of Spccification 3.0.A are not applicable.

G. Fire Pump Diem! Engine G. Fiie Pmap D;ce! Engine 1.

The l' ire Pump Diesci En;;ine shall b*

1.

The fi:e pump diesel starting 24. volt operable as specified in 3.12.D.I.a as.d battery bank and charger slull be demon-3.12.B. I.b.

strated OPi.RABLE:

a. At least once per 7 days by verifying that:

(1) The electrolyte level of each bat-tery is above the plates, and (2) The overall battery voltage is 224 volts.

b. At least once per 92 days by verifying that the specifie gravity is appropriate for continued service of battery.
c. At least once per 18 months by verify-(

ing that:

(1) The batteries, cell plates and bat-tery racks show no visual indica-tion of physical damage or abnormal deterioration, and (2) The battery to-battery and ter-minal connections are clean, tight, free of corrosion and coated with anti-corrosion material.

2.

The fire pump diesel engine shall be demonstrated OPERABLE:

a. At least once per 31 days by verifying; (1) The fuel storage day tank con-i tains at least 250 gallons of fuel,

)

and I

(2) The diesel starts frc;n ambient t

conditions and operates for at least 20 minutes.

l l

sswtu

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