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Category:TECHNICAL SPECIFICATIONS
MONTHYEARML20217C6321999-09-30030 September 1999
Proposed Tech Specs 3/4.17.B, Control Room Emergency Filtration Sys, Eliminating Unnecessary in-place Testing of HEPA & Activated Charcoal Filters Based on Sys Operating Time
ML20203B3191999-01-28028 January 1999
Proposed Tech Specs Page 60d,incorporating Approved Amend 103 Changes for Use by NRC in Issuing SER
ML20206P1331998-12-31031 December 1998
Proposed Tech Specs,Revising pressure-temp Limit Curves Contained in Figures 3.6.1,3.6.2,3.6.3 & 3.6.4,deleting Completed RPV Sample SRs & Requirement to Withdraw Specimen at Next Refueling Outage & Removing Redundant SR for SLCS
ML20154L9551998-10-12012 October 1998
Proposed Tech Specs Re Rev of Statement on Normal Shift Length & Other Misc Changes
ML20154L9041998-10-0909 October 1998
Proposed Tech Specs,Incorporating Proposed Changes Re Surveillance Test Interval/Aot Extension Program
ML20153F0191998-09-25025 September 1998
Proposed Tech Specs Pages Re Condensate Storage Tank Low Level Hpci/Rcic Suction Transfer
ML20236P5421998-07-0101 July 1998
Proposed Tech Specs Pages 30,50 & 53 Containing Administrative Changes Re Power Rerate Program
ML20249C5121998-06-19019 June 1998
Proposed Tech Specs Pages Re Rev 2 to 960726 LAR to License DPR-22,to Establish TS Requirements That Are Consistent W/Analysis Inputs Used for Evaluation of Radiological Consequences of MSLB Accident
ML20247K6341998-05-12012 May 1998
Proposed Reprinted Tech Specs Bases Pages,Containing Spelling & Grammatical Corrections
ML20216D0021998-03-19019 March 1998
Proposed Tech Specs,Providing Consistent Wording Throughout TS & Providing Sound Basis for Frequency of Actions Required Each Shift
ML20248L2001998-03-13013 March 1998
Proposed Tech Specs Revising SLMCPR
ML20248L4101998-03-0606 March 1998
Revised Page 39 to Proposed TS Change
ML20202H7061997-12-0404 December 1997
Proposed Tech Specs Increasing Plant Max Power Level from 1670 Mwt to 1775 Mwt
ML20203A9771997-11-25025 November 1997
Proposed Tech Specs Re Condensate Storage Tank Low Level Hpci/Rcic Suction Transfer
ML20211J9801997-09-29029 September 1997
Proposed Tech Specs Page 249b & Cleaned Typed Page 249b, Adding Footnote to Topical Rept NEDE-24011-P-A Stating That Topical Rept Is Approved for Cycle 18 Only
ML20210Q2971997-08-21021 August 1997
Proposed Tech Specs Re Safety Limit Min Critical Power Ratio
ML20141B9181997-06-19019 June 1997
Proposed Tech Specs Re Update of Design Basis Accident Containment Temp & Pressure Response
ML20137W2201997-04-11011 April 1997
Proposed Tech Specs 3.6.C Re Coolant Chemistry & TS 3/4.17B Re Control Room Emergency Filtration Sys
ML20149M7281997-01-23023 January 1997
Proposed Tech Specs 3.5/4.5.C of TS Bases Describing Min RHR & RHRSW Pump Requirements for Post Accident Containment Heat Removal & Submit Update to Design Basis Accident Containment Temp & Pressure Response
ML20132C6531996-11-25025 November 1996
Proposed Tech Specs,Sections 2.1.A Re SLMCPR & 3.11.C Re Olmcpr.Changes Revise SLMCPR Values & Deletes Sentence Re OLMCPR Limit Penalty for Single Recirculation Loop Operation
ML20117A1551996-08-15015 August 1996
Proposed Tech Specs Re Revision to TS Administrative Controls Section 6.1.F.1 Stating That Either 8 or 12 H Shifts Will Be Considered Normal & 40 H Will Be Considered Nominal
ML20116G8951996-07-26026 July 1996
Proposed Tech Specs Increasing Max Power Level by 6.3% to 1,775 from 1,670 Mwt.Summary of Plant Mods for Power Rerate Implementation & Power Rerate Environ Evaluation Encl
ML20116D8361996-07-26026 July 1996
Proposed TS Sections 3.6.C & 3/4.17.B Re Reactor Coolant Equivalent Radioiodine Concentration & CR Habitability
ML20100Q3861996-03-0101 March 1996
Proposed Tech Specs Re Periodic Replacement of Containment Purge & Vent Valve Seat Seal
ML20095J4341995-12-20020 December 1995
Proposed Tech Specs Re Main Steam Isolation & App J Leak Rate Test Requirements
ML20095E7121995-12-11011 December 1995
Proposed Tech Specs,Removing TS SR 4.7.D.4 & Replaces Seat Seals for Drywell & Suppression Chamber Purge & Vent Valves Every Five Yrs
ML20094M1981995-11-14014 November 1995
Proposed Tech Specs,Incorporating Requirements of Option B, Section Iii.A for Type a Testing (Primary Containment ILRT)
ML20091K6821995-08-18018 August 1995
Proposed Tech Specs Section 3.7/4.7 SGTS
ML20087J4251995-08-15015 August 1995
Proposed Tech Specs,Revising Max Individual MSIV Leak Rate Acceptance Criteria of 11.5 Scfh to Overall Criteria That Encompasses Four Main Steam Lines Into One Limit of 46 Scfh
ML20086D8011995-07-0505 July 1995
Proposed Tech Specs Extending Surveillance Test Intervals & Allowable out-of-svc Times for Selected Instrumentation
ML20085N0991995-06-22022 June 1995
Proposed Tech Specs Supporting Implementation of BWR Thermal Hydraulic Stability Solution
ML20082N8711995-04-20020 April 1995
Proposed Tech Specs Re SBGTS & Secondary Containment
ML20069J1061994-06-0808 June 1994
Proposed TS Re SGTS & Secondary Containment
ML20065B6691994-03-28028 March 1994
Proposed Tech Specs Re Approved Analytical Methods for Developing Core Operating Limits Rept
ML20065B6991994-03-28028 March 1994
Proposed Tech Specs Re Standby Gas Treatment Sys Initiation Instumentation
ML20063C9941994-01-26026 January 1994
Proposed Tech Specs,Requiring Valves to Be Tested at Pressure Greater than or Equal to Calculated Peak Containment Internal Pressure Re Design Basis LOCA
ML20062N8731994-01-0404 January 1994
Proposed Tech Specs 3.11, Reactor Fuel Assemblies & Bases Re Methodology for MCPR
ML20059E6041994-01-0303 January 1994
Proposed Tech Specs,Revising Surveillance Requirement 4.6.E.1.a to Require Valves to Be Tested Per Section XI Inservice Testing Requirements of ASME Boiler & Pressure Vessel Code
ML1132102881993-11-30030 November 1993
Proposed Tech Specs Re Removal of Chlorine Detection Requirements & Changes to Control Room Ventilation Sys Requirements
ML20056E1081993-08-10010 August 1993
Proposed Tech Specs Providing Clarification of Sampling & Analysis Requirements,Updating Liquid Effluent Sampling & Requirements & Correcting Typographical Errors in TS Section
ML20045G6091993-07-0707 July 1993
Proposed TS 4.0.d Re Recording Unidentified & Identified Leakage Rates & 3/6/4.6 Re Analyzing Grad Samples of Primary Containment Atmosphere Once Per 12 H
ML20128M7191993-02-12012 February 1993
Proposed TS Increasing Minimum Core Spray Pump Flow to More Conservatively Account for ECCS Bypass Leakage Paths
ML20237G2081987-08-14014 August 1987
Proposed Tech Specs,Eliminating Certain Requirements for Plant Mgt & Support Staff to Hold Current Senior Reactor Operator Licenses
ML20065E2121982-09-24024 September 1982
Proposed Tech Specs Re Surveillance,Reactor Protection Monitoring Sys,Jet Pump Surveillance,Organization & Steam Line Area Temp Switch Deviation
ML1129708531982-07-0202 July 1982
Proposed Tech Spec Changes Allowing Plant to Remain at Substantial Power Level W/One Recirculation Pump in Operation & Equalizer Valve Closed
ML1129708181981-03-19019 March 1981
Proposed Revisions to Tech Specs,App A,Pages 26,89-90 & 213-14 for Reactor Protection Sys
ML20024G6491978-08-16016 August 1978
Proposed Tech Specs Raising Permissible Setpoint of Eight Safety/Relief Valves Installed at Plant to 1,108 Psig
ML20127H2171978-08-10010 August 1978
Proposed Tech Specs to Authorize Use of Partial Drilled Model of Fuel Type for Plant Future Use
ML20024G7051978-03-21021 March 1978
Proposed Tech Specs Re Application of Partial Drilled Model for Analyzing Retrofit Fuel Design Scheduled to Be Installed in Plant Reactor in Fall 1978 Refueling Outage
ML20024G7031978-03-20020 March 1978
Proposed Tech Specs Clarifying Certain Sections of Interim Radioactive Effluent Tech Specs
1999-09-30
[Table view]
Category:TECHNICAL SPECIFICATIONS & TEST REPORTS
MONTHYEARML20217C6321999-09-30030 September 1999
Proposed Tech Specs 3/4.17.B, Control Room Emergency Filtration Sys, Eliminating Unnecessary in-place Testing of HEPA & Activated Charcoal Filters Based on Sys Operating Time
ML20211G0391999-02-10010 February 1999
Revised ODCM, Including Revs to Revised ODCM Index,Odcm 01.01 Page 2 Paragraph 1,ODCM 02.01 Page 2 Section 1.0,ODCM 05.01 Page 2 Sections 1.0,2.0 & 3.0 & ODCM 13.05 Page 2
ML20203B3191999-01-28028 January 1999
Proposed Tech Specs Page 60d,incorporating Approved Amend 103 Changes for Use by NRC in Issuing SER
ML20206P1331998-12-31031 December 1998
Proposed Tech Specs,Revising pressure-temp Limit Curves Contained in Figures 3.6.1,3.6.2,3.6.3 & 3.6.4,deleting Completed RPV Sample SRs & Requirement to Withdraw Specimen at Next Refueling Outage & Removing Redundant SR for SLCS
ML20154L9551998-10-12012 October 1998
Proposed Tech Specs Re Rev of Statement on Normal Shift Length & Other Misc Changes
ML20154L9041998-10-0909 October 1998
Proposed Tech Specs,Incorporating Proposed Changes Re Surveillance Test Interval/Aot Extension Program
ML20153F0191998-09-25025 September 1998
Proposed Tech Specs Pages Re Condensate Storage Tank Low Level Hpci/Rcic Suction Transfer
ML20237E9771998-08-20020 August 1998
Rev 4 to EWI-09.04.01, Inservice Testing Program
ML20236P5421998-07-0101 July 1998
Proposed Tech Specs Pages 30,50 & 53 Containing Administrative Changes Re Power Rerate Program
ML20249C5121998-06-19019 June 1998
Proposed Tech Specs Pages Re Rev 2 to 960726 LAR to License DPR-22,to Establish TS Requirements That Are Consistent W/Analysis Inputs Used for Evaluation of Radiological Consequences of MSLB Accident
ML20247K6341998-05-12012 May 1998
Proposed Reprinted Tech Specs Bases Pages,Containing Spelling & Grammatical Corrections
ML20216D0021998-03-19019 March 1998
Proposed Tech Specs,Providing Consistent Wording Throughout TS & Providing Sound Basis for Frequency of Actions Required Each Shift
ML20248L2001998-03-13013 March 1998
Proposed Tech Specs Revising SLMCPR
B210059, Rev 1 to GE-NE-B2100594-1, Radiological Analyses of Design Basis Accidents1998-03-0909 March 1998
Rev 1 to GE-NE-B2100594-1, Radiological Analyses of Design Basis Accidents
ML20248L4101998-03-0606 March 1998
Revised Page 39 to Proposed TS Change
ML20202H7061997-12-0404 December 1997
Proposed Tech Specs Increasing Plant Max Power Level from 1670 Mwt to 1775 Mwt
ML20203A9771997-11-25025 November 1997
Proposed Tech Specs Re Condensate Storage Tank Low Level Hpci/Rcic Suction Transfer
ML20199H5281997-11-0606 November 1997
Software Requirement Specification (SRS) ERDS-SRS-1-3, Process Computer Sys - Emergency Response Data Sys (ERDS) - Data Point Library
ML20211J9801997-09-29029 September 1997
Proposed Tech Specs Page 249b & Cleaned Typed Page 249b, Adding Footnote to Topical Rept NEDE-24011-P-A Stating That Topical Rept Is Approved for Cycle 18 Only
ML20210Q2971997-08-21021 August 1997
Proposed Tech Specs Re Safety Limit Min Critical Power Ratio
ML20141B9181997-06-19019 June 1997
Proposed Tech Specs Re Update of Design Basis Accident Containment Temp & Pressure Response
ML20137W2201997-04-11011 April 1997
Proposed Tech Specs 3.6.C Re Coolant Chemistry & TS 3/4.17B Re Control Room Emergency Filtration Sys
ML20137B5081997-03-12012 March 1997
Rev 2 to Inservice Insp Exam Plan
ML20149M7281997-01-23023 January 1997
Proposed Tech Specs 3.5/4.5.C of TS Bases Describing Min RHR & RHRSW Pump Requirements for Post Accident Containment Heat Removal & Submit Update to Design Basis Accident Containment Temp & Pressure Response
ML20132C6531996-11-25025 November 1996
Proposed Tech Specs,Sections 2.1.A Re SLMCPR & 3.11.C Re Olmcpr.Changes Revise SLMCPR Values & Deletes Sentence Re OLMCPR Limit Penalty for Single Recirculation Loop Operation
ML20117A1551996-08-15015 August 1996
Proposed Tech Specs Re Revision to TS Administrative Controls Section 6.1.F.1 Stating That Either 8 or 12 H Shifts Will Be Considered Normal & 40 H Will Be Considered Nominal
ML20116G8951996-07-26026 July 1996
Proposed Tech Specs Increasing Max Power Level by 6.3% to 1,775 from 1,670 Mwt.Summary of Plant Mods for Power Rerate Implementation & Power Rerate Environ Evaluation Encl
ML20116D8361996-07-26026 July 1996
Proposed TS Sections 3.6.C & 3/4.17.B Re Reactor Coolant Equivalent Radioiodine Concentration & CR Habitability
ML20115D8621996-06-28028 June 1996
Rev 3 to Engineering Work Instruction (Ewi) EWI-09.04.01, Inservice Testing Program
ML20100Q3861996-03-0101 March 1996
Proposed Tech Specs Re Periodic Replacement of Containment Purge & Vent Valve Seat Seal
ML20095J4341995-12-20020 December 1995
Proposed Tech Specs Re Main Steam Isolation & App J Leak Rate Test Requirements
ML20095E7121995-12-11011 December 1995
Proposed Tech Specs,Removing TS SR 4.7.D.4 & Replaces Seat Seals for Drywell & Suppression Chamber Purge & Vent Valves Every Five Yrs
ML20094M1981995-11-14014 November 1995
Proposed Tech Specs,Incorporating Requirements of Option B, Section Iii.A for Type a Testing (Primary Containment ILRT)
ML20100M4821995-08-29029 August 1995
Revised Sections to Odcm,Including Rev 1 to ODCM-03.01,Rev 1 to ODCM-12.05 & Rev 1 to ODCM-13.05.5
ML20091K6821995-08-18018 August 1995
Proposed Tech Specs Section 3.7/4.7 SGTS
ML20087J4251995-08-15015 August 1995
Proposed Tech Specs,Revising Max Individual MSIV Leak Rate Acceptance Criteria of 11.5 Scfh to Overall Criteria That Encompasses Four Main Steam Lines Into One Limit of 46 Scfh
ML20086D8011995-07-0505 July 1995
Proposed Tech Specs Extending Surveillance Test Intervals & Allowable out-of-svc Times for Selected Instrumentation
ML20085N0991995-06-22022 June 1995
Proposed Tech Specs Supporting Implementation of BWR Thermal Hydraulic Stability Solution
ML20083Q8411995-05-18018 May 1995
Rewrite of Rev 2 to Engineering Work Instruction (Ewi) EWI-09.04.01, Inservice Testing Program
ML20082N8711995-04-20020 April 1995
Proposed Tech Specs Re SBGTS & Secondary Containment
ML20077S4551995-01-0909 January 1995
Startup Physics Testing Rept,Cycle 17
ML20069J1061994-06-0808 June 1994
Proposed TS Re SGTS & Secondary Containment
ML20072P8011994-05-17017 May 1994
Rev 8 to Process Control Program, Installed Atcor Solidification Sys
ML20065B6691994-03-28028 March 1994
Proposed Tech Specs Re Approved Analytical Methods for Developing Core Operating Limits Rept
ML20065B6991994-03-28028 March 1994
Proposed Tech Specs Re Standby Gas Treatment Sys Initiation Instumentation
ML20072P8101994-02-22022 February 1994
Offsite Dose Calculation Manual, Rev 0
ML20063C9941994-01-26026 January 1994
Proposed Tech Specs,Requiring Valves to Be Tested at Pressure Greater than or Equal to Calculated Peak Containment Internal Pressure Re Design Basis LOCA
ML20062N8731994-01-0404 January 1994
Proposed Tech Specs 3.11, Reactor Fuel Assemblies & Bases Re Methodology for MCPR
ML20059E6041994-01-0303 January 1994
Proposed Tech Specs,Revising Surveillance Requirement 4.6.E.1.a to Require Valves to Be Tested Per Section XI Inservice Testing Requirements of ASME Boiler & Pressure Vessel Code
ML1132102881993-11-30030 November 1993
Proposed Tech Specs Re Removal of Chlorine Detection Requirements & Changes to Control Room Ventilation Sys Requirements
1999-09-30
[Table view] |
Text
. . _ _ ,
a.- &
, a 5.
m ng o- ~._1 Wo i 4 .
' R3 Du .
eo
, E. Reactor Building Ventilation Isolation an 1 49 .:
8$
=
Stnndby Gac Trentment System Initiation ' '
. 1 1 04i F. Recirculation P' imp Trip Initiation 49 tpa) 1 f 00 $
3.2 lhses
'oc8o fu - 6h ~I, i' 2 0*
(J h.2 Ihses 71 g r. _ i 3 3 and h.3 Control R>d Systen 75 - '
i i
A. R"netivity Limitations 75
, B. Control iiod Withdrnun1 76 I 4
C. Sern= Insertion Times ,
i 79 D. Contml Rod Accumulators i
80 [
E. Benetivity Anomslies o
81 ~
l 3 3 and h.3 Ihses -
82 J
I l 3.4 and b.h Standby Liquid Contml System 68 [
A. ;
?brm1 Operation -
88 i
B. Operation with Inoperable Components .
89 I C. Volume-Concentration Requir-ments 90 l
t l 3.h and 4.h Bates 94 i 3 5 and 4 5 Core and Containment Cooling Systems
'96 t '
- A. Core Sprny System ~ i
\
96 i B. LPCI Subsystem 98 7
i l C. TlIR Service 'Jater System 101 l
I ii REV t . .. . . - - _ _ _ _ _ _ _ _ _ - - _ _ _ _ - _ _ - _ _ - _ _ _ _ _ _ _ . . _ _ _ _
1,lST OF TA Hf 1:'i 3.1.1 Reactor Protect ion System (Scram) Instrument Re<ps i rement s 30 4.1.1 Scram Inst rument Tunctional Tests - Minimum l'unctional Test Irequencies for Sa fety Inst rument:st ion and Cont rol Ci rcui t s 34 4.1.2 Scram Instrtment Calibration - Minimsm Calibration I requencies for Reactor Protection Inst rument Channels 36 3.2.1 Instrtwentat ion that initiates Primary Containment I solat ion Fernct ions 50 3.2.2 instrumentation that Initiates Emergency Core Cooling Systems 53 3.2.3 Instrumentation that Initiates Rosi Block 57 3.2.4 Instrumentation that Initiates Reactor Bulleling Vent ilation Isolation and Standby Gas Treatment System Initiation 60 l 3.2.5 I ns t rumen ta t ion tha t Initiates a Recirculation Punp Trip 60A 3.2.6 Trip Functions and Deviations
! 69 4.2.1 Minimum Test and Calibration Frequency For Core Cooling, Rod Block and Isolation Instrumentation 61 3.6.1 Safety Related Ilydraulic Snubbers 121B 4.6.1 In-Service Inspection Requirements for Nnticello 124 3.7.1 Primary Containmerit Isolation 153 4.8.1 Sample Collection and Analysis - MPiticello Ptcler .enerating Plant - Radiation Envirorrental Monitoring Frogram 169 6.5 l Protection Factors for Respirators 206
- ix REV
1 r
i 4 3.0 LIMITING CO'!DITIONS FOR OPERATION 4.0 SURVEILLANCE REQUIREMENTS
}
l E. Reactor Building Ventilation Isolation and St andby Gas Treatment System Initiation
- 1. a. Except as specified in 3.2.E.1.b below, four radiation monitors shall be operable at all times.
4 1
- b. One of the two monitors in the venti-lation plenum and one of the two radia- !
tion monitors on the refueling floor may be inoperable for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. If the
' inoperable monitors are not restored to service in this time, the reactor build-ing ventilation system shall be iso-lated and the standby gas treatment system operated until repairs are complete. ;
- 2. The radiation monitors shall be set to trip as follows:
(a) ventilation plenum i 3 cm/hr (b) refueling floor 6100 mr/hr '
- 3. When irradiated fuel is in the reactor vessel and0 the reactor water temperature is above 212 F, the limiting conditions for operation for the instrumentation listed in Table 3.2.4 shall be met.
F. Reci rculation Pump Trip Inttiation
- 1. Ebenever the reactor is in the RlU Mode, the 2
limiting conditions for operation for the i n s t ricen ta t ion listed in Tr'le 3.2.5 sh.111 he not.
3.2./4.2 '
. 49
i Table 4.2.1 - Continued
?tinimum Test and Calibration Frequency for Core Cooling.
Fod 511ock and Isolation Insttwntation I n st rument Channel Test (3) Calibration (3) SeS52r Check O)
. 3. Steam Line lov Pressare No t t. 1 Once/3 mnths Ibne i 4 Ste m Line I!igh Radiation Once/veek (5) Note 6 Once/ shift ljPCI ISOIATION
- 1. Steam Line fligh Flow Note 1 Once/3 mnths No e
- 2. Steam Line Hir.h Temperature Note 1 Onec/3 runths None RCIC IS01ATION 1.
Stea:n Line fligh riov Note 1 Once /3 months None l
- 2. Stea:n Line !!!gh Temperature Note 1 Once/3 months None f RFACTOR BUILDING VENTI 1ATION
! 1. Radiation Monitors (Pltnum) Once/3 months 2.
Note 1 Once/shif: i Radiation Monitorn (Refueling Floor) Note 1 Once/3 months (4)
O_FF-CAS ISOIATION
- 1. Radiation Monitors (Air Ejectors) Notes (1,5) Note 6 Once/ shift RT:CT RCU1ATION PCi? TRIP
- 1. Reactor Iligh Pressure Note 1 Once/ Operating Cycle- Once/ Day Transmitte r f'nce/3 Months- Trip Unit
- 2. Reactor lev Uater Level Note 1 Once/ Operating Cyc le - Once/ Day '
T ransmit te r !
Once/3 Months- Trip Unit roTCS:
L (t) Initially once per month until cw m w rr (M a s defined ~igures 4.1.1) is 2.0 x 10 5, thereaf ter accordirg t i Figure 4.1.? vith an L t:
- nei not g o ette r ? D - no mn the .
3.2/4.~ 62 i
Bases Continued-L2 For effective emergency cote cooling for the small pipe breik the HPCI or Automtic Pressure Felief system must function since for these breaks, raactor pressure does not decrease rapidly enough to allow either iore spray or LPCI to operate in time. The arranr.*-ent of the t ripping r ntacts is such as to p r ovi t'e this function when necessary and minimize spurious operation. The trip settings given in tha specification a.e adequate to assure the above critaria is met. Feference Section 6.2.4 and
- 6. 2. 6 IMR. The specif ication preserves the ef fectiveness of the system during periods of main-tenance, t es t in g, or calibration and also minimites the rink of inadvertent operation: 1.e., only one instrument <henet out of service.
i Two air ejec tor of f gas monitorr. are provided and when their trip point is reached, cause an isola tion
~
of t ha air ejector off-gas line. Isolation is initiated when both instruments reach their high trip point or one has an upscale trip and the other a downscale trip or two drunstale. There is a 30-minute delay before recoeiner
- rain Inlet valve closure when the recombiners are in use and a 15-minute delay before off gis isolation valve closure when the recorhiners are bypassed in which the reactor operator may take corrective action. Both instruvnts are required for trip. The trip settings of tha in atronent s are set so that the maximum stick releas* rate limit is not exceeded.
Four radiatit:n moniters are provided which init iate isolation of the reactor building and operation of the standby gas t r ea t tnen t system. The monitors are located in the reactor building ventilation plenum and on the refueling floor. Any one upscale trip will cause the desired action. Trip settings of 'l mR/hr for the monitors in the ventilation duct are based upon initiating normal ventilation iso-lation and St andby Gas Treatrw nt System operation so as not to exceed the maximum release rate limit for the reactor building vent. Trip settings of 100 mR/hr for the monitors on the refueling floor tre based upon initiating normal ventilation isolation and standby gas treatment system operation so that none of the activity released during the refueling accident leaves the reactor building via the normal ventilation stack but that all the activity is processed by the standby gas treatment system.
The recirculation pump trip description and performance analysis is discussed in Topical Report NEDO-25016, September 1976, " Evaluation of Anticipated Transients Without Scram for the Menticello Nuclea r Generatine, Plant". (See September 15, 1976 letter from Mr 1. O Mayer, NSP, to Mr D L Ziemann, USNRC.) The pump trip is provided to minini=e reactor pressure in the highly unlikely event of a plant transient coincident with the failure of all control rods to scram. The rapid flew reduction 1
3.2 r.ASU 68 REV
r Bases Contirned:
increases trip in the core eventvoiding, a negat.ive of an isolation reactivity feedback. Iligh pressure sensors initiate the pump transient. Iow level sensors initiate the trip on loss of feed-water (and the resulting MSIV closure). The recirculation pump trip is only required at high reactor power levels, where the safety / relief valves have insufficient capacity to relieve the stenta which continues to be generated after reactor isolation in this unlikely postulated event, requiring the trip to be operable only when in the PN mode is therefore conservative.
- Although the operator will sat the set points within tha 3.2.3. 3.2.4, and 3.2.5, the .sctual values of the various settrJppoints settings car.specified in Tables 3. 2.1. 3.2. 2, value the operator is attempting to set. The dif fer appreciably f rors the cperator setting error, drift of the set point,deviatiens could be etc. Therefore, caused by inherent instrument error, for in the variotis transient analyses and the actual trip **ttings easy vary by the follthese deviations have been a owing amounts.
\
e 1
i i
\
i l
3.2 MSES 68A REV I
l Ta bi c 1.2.6 Trip Functions im4 D>vintions Trip i^ unction Deviation Reactor Ibilding Ventilation Isolation and Ventilstion Plenun 40.2 Mr/Hr '
Standby Gao Trentrent System Initiation P.ndintion Monitorn Opecification 3 2 E.3 and Tnbla 3. P.1+
Perueling Floor PMlation Monitern +5 Mr/Hr l Icv Icactor Water Icvel 6 inches High Pryvell FWanure + 1 poi Prinnry Contairnent Inointion Functions Icv inv Water IcVel -3 inches Table 3 2.1 Iligh Flov in Mnin Steam Line +2 %
Hir,h Temp. in Mnin Steam +2 F Line Tunnel Icv Pressure in Main Steam -10 psi Line Ilir.h IYyvell Pressure +1 poi Irv Feneter Wei,er '-vel -6 inches IG'CI Hirh Steam Flow +7,500 lb/hr IU'CI Steam Line Area High +2 F M.
PCIC High Steam Flev +2250 lb/hr PCIC Steam Line Aren High M +2 F 69 32 VFES ggy i
j , -
i i
! l l Tabic 3.2.6 - Centinued Trip Function and Deviations l
j Trip Function Deviation i Instrumentation That Initiates I:nergency Lew-Lev Reactor Water Level -3 Inches i
Core Cooling Systems Table 3.2.2 Reacter Low Pressure (Pump -10 psi i
" tart) Pe rmissive !
- r l High Drywell Prensure +1 psi !
Low Reactor Pressure (Valve -10 psi ,
! Pe rnissive t l
Instrumentation that initiates IRM Dewnscale -2/125 of Scale I Red Bloc 1t IRM Upscale +2/125 of scale j Tab le 3.2. 3 i 1
APRM Downscale -2/125 ef Scale
- APR:1 Unscale See Basis 2.3 - Page 24 ,
I RBM Downscale -2/125 of Scale [
R3M Upscale Same as APRii Upscale i 4
I Instrumentation That Initiates High Reactor Pressure + 12 psi I Recirculation Pump Trip Low Reactor Etter Level - 3 Inches A violation of this specification is assumed to occur only when a device is knewingly set outside of the 10miting trip settings, or, when a sufficient. number of devices have been affected by any means such that the automatic function is incapable of operating within the allowable deviation while in a reactor mode in which the specified function must be operable or when actions specified are not initiated as specified. ,
6 b l i 40 REV 3,2 P>tS ES
_ . _ . . . ._ _ ____ ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ .
