ML18089A437
| ML18089A437 | |
| Person / Time | |
|---|---|
| Site: | Salem  |
| Issue date: | 11/07/1983 |
| From: | Liden E Public Service Enterprise Group |
| To: | Varga S Office of Nuclear Reactor Regulation |
| References | |
| GL-83-28, NUDOCS 8311160038 | |
| Download: ML18089A437 (33) | |
Text
Public Service Electric and Gas Company P.O. Box 236 Hancocks Bridge, New Jersey 08038 Nuclear Department November 7, 1983 Director of Nuclear Reactor Regulation
- u. s. Nuclear Regulatory Commission 7920 Norfolk Avenue Bethesda, Maryland 20014 Attention:
Mr. Steven A. Varga, Chief Operating Reactors Branch 1 Division of Licensing Gentlemen:
SUPPLEMENTAL RESPONSE TO GENERIC LETTER 83-28 NO. 1 AND 2 UNITS SALEM GENERATING STATION DOCKET NOS. 50-272 AND 50-311 Public Service Electric and Gas Company's letter dated July 22, 1983 provided our response to Generic Letter 83-28, regarding actions required to address the generic implications of the Salem reactor trip breaker failures on February 22 and February 25, 1983.
Our July 22, 1983 response addressed each of the required actions.
In most cases, we referenced previous corre-spondence which had described our programs developed as part of our corrective action program implemented prior to restart of Salem Generating Station Unit Nos. 1 and 2.
Additionally, we committed to conducting a detailed review of Generic Letter 83-28 to determine if further actions may be required.
The results of this review are attached.
Pursuant to 10 CFR 50.54(f), the required affidavit will be submitted in the near future under separate cover.
8311160038 831107 PDR ADOCK 05000272 P
PDR Attachment The Energy People Sincerely, E. A. Liden Manager -
Nuclear Licensing and Regulation 95-2168 (80 M) 11-82
Director of Nuclear Reactor Regulation U.S. Nuclear Regulatory Commission CC:
Mr. Donald C. Fischer Licensing Project Manager Mr. James Linville Senior Resident Inspector 2 -
11/7 /83
ATTACHMENT SUPPLEMENTAL RESPONSE TO GENERIC LETTER 83-28 FOR SALEM GENERATING STATION 1.1 POST-TRIP REVIEW (PROGRAM DESCRIPTION AND PROCEDURE)
Our letter of July 22, 1983 provided the requested information.
1.2 POST-TRIP REVIEW (DATA & INFORMATION CAPABILITY) is provided in response to this request.
2.1 EQUIPMENT CLASSIFICATION & VENDOR INTERFACE (REACTOR TRIP SYSTEM COMPONENTS)
Our letter of July 22, 1983 identified previous submittals that addressed all points in this position with the following exceptions:
Position:
Vendors of these components should be contacted and an interface established.
Where vendors can not be identified, have gone out of business, or will not supply the information, the licensee or applicant shall assure that sufficient attention is paid to equipment maintenance, replacement, and repair, to compensate for the lack of vendor backup, to assure reactor trip system reliability.
Response
PSE&G's Vendor Document Control Procedure will be revised by December 31, 1983 to require that System Sponsor Engineers be made aware of the lack of vendor response and assign them responsibility to ensure that an adequate maintenance program exists for this equipment.
Position:
The program shall also define the interface and division of responsibilities among the licensees and the nuclear and non-nuclear divisions of their vendors that provide service on reactor trip system components to assure that requisite control of and applicable instructions for maintenance work are provided.
Response
PSE&G's Vendor Document Control Procedure will be revised by December 31, 1983 to require that the vendor confirm that correspondence has been addressed to the proper vendor division/section and that return information supplied to PSE&G is from the vendor's Nuclear Division/Section.
2 -
2.2 EQUIPMENT CLASSIFICATION & VENDOR INTERFACE (PROGRAMS FOR ALL SAFETY-RELATED COMPONENTS)
Our letter of July 22, 1983 identified previous submittals that addressed all points in this position with the following exceptions:
Position:
A description of the process by which station personnel use this information handling system to determine that an activity is safety-related and what procedures for maintenance, surveillance, parts replacement and other activities defined in the introduction to 10 CFR 50, Appendix B, apply to safety-related components.
Response
Procedures require that Station personnel utilize the MEL System List in conjunction with the Component List for determining whether an activity is safety-related and/or whether the QA Program applies to the activity.
The MEL System List and Component List are described in our letter of April 8, 1983.
Once an activity has been determined to be safety-related or applicable to the QA Program, established approved procedures are utilized in the performance of the activity.
Position:
A demonstration that appropriate design verification and qualification testing is specified for procurement of safety-related components.
The specifications shall include qualification testing for expected safety ser-vice conditions and provide support for the licensees' receipt of testing documentation to support the limits of life recommended by the supplier.
Response
Engineering procedures require procurement specif ica-tions include special testing and/or qualification testing requirements.
The PSE&G Quality Assurance Program requires QA review and approval of safety-related procurement specifications.
As part of this review, QA insures that qualification testing requirements were considered in the specifica-tion.
Position:
For vendor interface, licensees and applicants shall establish, implement and maintain a continuing program to ensure that vendor information for safety-related components is complete, current and controlled through-out the life of their plants, and appropriately refer-enced or incorporated in plant instructions and proce-dures.
Vendors of safety-related equipment should be
3 -
contacted and an interface established.
Where vendors cannot be identified, have gone out of business, or will not supply information, the licensee or applicant shall assure that sufficient attention is paid to equipment maintenance, replacement, and repair, to com-pensate for the lack of vendor backup, to assure relia-bility commensurate with its safety function (GDC-1).
The program shall be closely coupled with action 2.2.1 above (equipment qualification).
The program shall include periodic communication with vendors to assure that all applicable information has been received.
The program should use a system of positive feedback with vendors for mailings containing technical information.
This could be accomplished by licensee acknowledgement for receipt of technical mailings.
It shall also define the interface and division of responsibilities among the licensee and the nuclear and non-nuclear divisions of their vendors that provide service on safety-related equipment to assure that requisite control of and applicable instructions for maintenance work on safety-related equipment are provided.
Response
This item is addressed in our response to Item 2.1 of the generic letter.
3.1 POST-MAINTENANCE TESTING (REACTOR TRIP SYSTEM COMPONENTS)
PSE&G developed a program to assess and upgrade post-maintenance testing requirements for all safety-related equipment; i.e., there was not a separate program for RTS components.
Our July 22, 1983 letter identifies those previous letters that describe our programs addressing this issue.
3.2 POST-MAINTENANCE TESTING (ALL OTHER SAFETY-RELATED COMPONENTS)
See our response to Item 3.1.
4.1 REACTOR TRIP SYSTEM RELIABILITY (VENDOR-RELATED MODIFICATIONS)
Our letter of July 22, 1983 identifies the letters that respond to this action.
4.2 REACTOR TRIP SYSTEM RELIABILITY (PREVENTATIVE MAINTENANCE AND SURVEILLANCE PROGRAM FOR REACTOR TRIP BREAKERS)
Our letter of July 22, 1983 provided the requested information.
4 -
4.3 REACTOR TRIP SYSTEM RELIABILITY (AUTOMATIC ACTUATION OF SHUNT TRIP ATTACHMENT FOR WESTINGHOUSE AND B&W)
This item is addressed in our letter of July 15, 1983.
4.5 REACTOR TRIP SYSTEM RELIABILITY (SYSTEM FUNCTIONAL TESTING)
Our letter of July 22, 1983 provided the requested information.
ENCLOSURE l POST TRIP REVIEW (DATA AND INFORMATION CAPABILITY)
The Salem Units have an existing sequence of events program within the plant computer.
The sequence of events routine is initiated by a change in state of any of the inputs which have been designated points within the sequence of events program.
(See Enclosure 2).
Upon the receipt of an input change that has been designated a sequence of events input, the plant computer assigns 18 locations in memory where it stores the status of the change of state for any changing sequence of events points.
The time interval of the occurence from the initiating event in cycles or in 16.6 millisecond intervals is also stored.
If the number of events is less than or equal to the buffer memory size the events will be printed out 1 minute after the initiating event in chronological order.
(Refer to Enclosure 3 for sample sequence of events format).
If more events occur than can be stored in the memory buffer area the print out is generated immediately after the buffer locations are filled so that memory space is available for additional changing sequence of events inputs.
The plant computer is powered from an inverter which receives its power from a battery charger fed by the "A" 230 volt vital bus.
The "A" bus 125 volt de battery system is floating on the charger and will automatically feed the inverter in the event the battery charger fails.
A manual transfer for a direct feed from the 230 volt vital "B" bus is also available if the inverter were to fail.
A hard copy of a sequence of events printing is available from one of three printers.
If the normal printer fails the sequence will be printed on the secondary printer and if both the normal and secondary printer fail the sequence will be printed on a third printer.
The computer also stores the last sequence printing which may be recalled and printed if required.
The storage capability is only that of the last inputed 18 storage locations.
A general list of plant parameters monitored by the sequence of events routine is given below.
A detailed list of each point is also provided in Enclosure 2.
Reactor coolant loop low tavg, (each loop).
Reactor coolant loop low flow, (each loop).
Steam generator low flow, (each steam generator).
Steam generator hi flow, (each steam generator).
Steam line low pressure, (each steam line).
Steam generator low level, (each steam generator).
Steam generator low low level, (each steam generator).
Pressurizer
2 -
Pressurizer low level.
Neutron flux hi Q, (each range, ie power, intermediate, source).
Neutron flux low Q, (power range).
Turbine vacuum.
Turbine hydraulic oil low pressure.
Steam line high differential pressure, (each steam line).
Pressurizer high pressure.
Pressurizer low pressure.
Containment high pressure.
Turbine bearing oil pressure.
Turbine thrust bearing oil pressure.
Reactor coolant loop overtemp delta T, (each loop).
Reactor coolant loop overpower delta T, (each loop).
Reactor coolant pump bus undervoltage, (each pump).
Reactor coolant pump bus underfrequency, (each pump).
Turbine stop valve position, (all 4 valves).
Reactor coolant pump breaker positions, (all pumps).
Steam generator low level and low feedwater, (all steam generators).
Manual safety injection switch.
Condensate pumps trip, (all pumps).
13 Aux feedwater pump turbine stop valve position.
Steam generator feed pumps main steam stop valve position, (both pumps).
Aux feedwater pumps start & trip, (both motor driven pumps).
13 kv breaker open, (all breakers).
Power range hi Q rate.
Manual reactor trip switches.
Reactor trip breaker positions, (both breakers).
Reactor trip bypass break~r positions, (both breakers).
The Salem Units are also equipped with continous recording strip chart recorders for use in assessing time history of analog variables.
Those variables which are recorded are:
Reactor coolant hot leg and cold leg temperatures, (all loops).
Steam generator steam flow, (all steam generators).
Stearn generator feedwater flow, (all steam generators).
Stearn generator level (narrow range & wide range all steam generators).
Pressurizer level.
Pressurizer pressure.
Neutron flux, (each range ie power, intermediate source).
Turbine vacuum pressure.
Containment pressure, (wide range & narrow range).
Reactor coolant delta T, (loop selectable).
Reactor overpower.
All of the above recorders are powered from a class lE source except the Turbine Vacuum pressure recorder which is powered from a non vital source.
ENCLOSURE 2 rn /BF I SEQUENCE OF EVENTS POINTS
.ST ALL<A> OR CK BCCI<Bl? A (Identified by vertical bars in margin)
.i098D CONTRCiL Al\\ID SD ROD 8CCI NOT SEQ OF EVENT;ALMC1>=MOVE NOf-'M < 0) ~=NTMOl.JE
- <<)99D POSITON ROD CCI NOT SEQ OF EVENT;ALMCll~NTDROPr NOl\\'M ( 0)==Df-'OP u400D* 21 RCL LO F 1 PRT TRP BCCI SEH OF EVENT=ALM ONLY :ALM<1)=SET
, NORM<O>=RESET tJ401D
NORM<O>=RESET
- .i402D
NORM<O>=RESET
- .J403D. f'iCL LO FLOW +PB REACTOR BCCI SEil OF Et.JENT= ALM+RTN
- ALMU >=TRIP
, NORM<O>=NT TRP U404D 21 STM GEN LO F 1 PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALM(1)=SET T
NORM<O>=RESET U405D*
21 STM GEN LO F 2 PRT TRP BCCI SEG OF EVENT=ALM ONLY ;ALM<1>=SET r
NORM<O>=RESET u1~06D 21 STM LNE HI F 1 SI PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALM<1>=SET T
NORMCO)=RESET U407D* 21 STM LNE HI F 2 SI PRT TRP BCCI SE~ OF EVENT=ALM ONLY ;ALM<1>=SET T
NORMCO>=RESET
_1408D 21 RCL LO TAVG PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<1>=SET T
NORM<O>=RES~T
'.l409D* 21 STM LNE LO p PRT TRP BCCI SEG OF EVENT=ALM ONLY ;ALM(1)=SET NORM<O>=RESET
)4200 22 RCL LO F 1 PRT TRP BCCI SEG OF EVENT=ALM ONLY ;ALM<1>=SET r
NORM<O>=RESET
.14210 22 RCL LO F 2 PRT TRP BCCI SEG OF EVENT=ALM ONLY ; ALM <1) =SET 1
NORM<O>=RESET
- 9
NORM<O>=RESET J423D RCL LO FLOW +P7 REACTOR BCCI s ["[~ OF EVENT=ALM+RTN
- ALM(1)=TRIP 1
NORM(Ol=NT TRP
.i424D 22 STM GEN LO F 1 PRT TRP BCCI SEQ OF El.JENT=ALM ONLY ;ALM<1>=SET r NORM<O>=RESET
_Jl.;.250 22 STM GEN LO F 2 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET r NORMCO>=RESET
P.D /BF/
lST ALLCA) OR CK BCCICB>? A
- 1)0980 CONTROL AND SD ROD BCCI NOl SEQ OF EVENT;ALM<l>=MOVE NORMCO>~NTMOVE
~:, insso POS I TON ROD cc I NOT SEQ OF EVENT;ALM<l>=NTDROP, NORM<Ol=DROP co4000 21 RCL LO F 1 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<1>=SET F0401D 21 RCL LO F 2 PRT TRP BCCI SE~ OF EVENT=ALM ONLY ;ALM<1>=SET co4020 21 RCL LO F 3 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<1>=SET F0403D RCL LO FLOW +PS REACTOR BCCI
, NORM<O>=RESET
, NORM<O>=RESET
, NORM<O>=RESET SEQ OF EVENT=ALM+RTN
- ALM<1>=JRIP
, NORM<O>=NT TRP
, NORM<O>=RESET
, NORM<O>=RESET BCCI F04040 21 STM GEN LO F 1 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<1>=SET
~04050 21 STM GEN LO F 2 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<1>=SET F04060 21 STM LNE HI F 1 SI PRT TRP SEQ OF EVENT=ALM ONLY ;ALM<l>=SET F0407D 21 STM LNE HI F 2 SI PRT TRP SEQ OF EVENT=ALM ONLY ;ALM<1>=SET "04080 21 RCL LO TAVG PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<l>=SET
=04080 21 STM LNE LO P PRT TRP BCCI SEQ OF ~VENT=ALM ONLY :ALM<1>=SET F04200 22 RCL LO F 1 P~T TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
~04210 22 RCL LO F 2 PRT TRP BCCI SEij OF EVENT=ALM ONLY ;ALM<l>=SET
- 04220 22 RCL LO F 3 PRT TRP BCCI SEn OF EVENT=ALM ONLY ;ALM<l>=SET F04230 RCL LO FLOW +P7 REACTOR BCCI
, NORM<O>=RESET BCCI
, NORM<O>=RESET
, NORM<O>=RESET
, NORM<O>=RESET
, NORM<O>=RESET
, NORM<O>=RESET
, NORM<O>=RESET SEQ OF EVENT=ALM+RTN
- ALM< 1 >=TR IP
!"~NORM ( 0 >=NT TRP
~u4240 22 STM GEN LO F 1 PRT TRP BCCI
, NORM<O>=RESET
, NORM<O>=RESET BCCI SEij OF EVENT=ALM ONLY :ALM<l>=SET
~04250 22 STM GEN LO F 2 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALMC1>=SET FU4260 22 STM LNE HI F 1 SI PRT TRP SEQ OF EVENT=ALM ONLY ;ALM<l>=SET 04270 22 STM LNE HI F 2 SI PRT TRP SEG OF EVENT=ALM ONLY ;ALM<l>=SET F0428D 22 RCL LO TAVG PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALM<l>=SET
~04290 22 STM LNE LO P PRT TRP BCCI SEG OF FUFNT=ALM ONLY :Al MC1 >=SFT
, NORM<O>=RESET BCCI
, NORM<O>=RESET
, NORM<O>=RESET
U~40D 23 RCL LO F 1 PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALMCl>=SET F0441D 23 RCL LO F 2 PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALMC1>=SET F0442D 23 RCL LO F 3 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALMCl>=SET IC :_)1{ 43D SPARE BI STBLE BCC I NORMCO>=RESET T NORM<O>=RESET
, NORM<O>=RESET NOT SEQ OF EVENT~ALMC1>=CLOSED, NORM<O>=OPEN
, NORM<O>=RESET
, NORMCO>=RESET BCCI
-04470 23 STM LNE HI F 2 SI PRT TRP SEQ OF EVENT=ALM ONLY :ALMC1>=SET i=0448D 23 RCL LO TAVG PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALMCl>=SET
~04490 23 STM LNE LO P PRT TRP BCCI SE~ OF EVENT=ALM ONLY :ALM<l>=SET F04GOD 24 RCL LO F 1 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALMCl>=SET F0481D 24 RCL LO F 2 PRT TRP BCCI SE~ OF EVENT=ALM ONLY :ALMCl)=SET F0482D 24 RCL LO F 3 PRT TRP BCCI SE~ OF EVENT=ALM ONLY :ALMC1>=SET
~u~33D SPARE BISTBLE BCCI T
NORM<O>=RESET BCCI
, NORM<O>=RESET
, NDRM<O>=RESET
, NORMCO>=RESET
, NDRM<O>=RESET r
NORMCO>=RESET T NORM<O>=RESET NOT SEQ OF EVENT:ALMCl>=CLOSED, NORMCO)=OPEN
, NORM<O>=RESET
, NORMCO>=RESET BCCI F0464D 24 STM GEN LO F 1 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<l>=SET
=o467D 24 STM LNE HI F 2 SI PRT TRP SEQ OF EVENT=ALM ONLY :ALMCl>=SET F0468D 24 RCL LO TAVG PRT TRP BCCI
, NORM<O>=RESET BCCI SEQ OF EVENT=ALM ONLY :ALM<l>=SET FU4G8D 24 STM LNE LO P PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<t>=SET
~u490D STM LNE HI F SI TRP BLK A BCCI SFn OF EVENT=ALM+RTN
NORMCO>=RESET
, NORMCO>=RESET
, NORMCO>=RESET
, NORM<O>=RESET SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP
bl:.l~ UI" t:.Yt:.Nl=HLM UNL
_, =k't.oi::: r r
NUl~M ( 1 ) =ot:. I
-u488D PWR RNG 4 PB PRT PRM BCT' SEO OF EVENT=ALM ONLY ; ALM t *
,1 =RESET NORMC1)=SET
- o488D PWR RNG PB PRMSSl..lE bLCI SEQ OF EVENT=ALM+RTN
- ALM<1>=RESET NORM<O>=SET
- 0400D 21 STM GEN LO LVL 3 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<1>=SET r NORM<O>=RESET 04010 21 STM GEN LO LVL 4 PRT TRP BCCI SEG OF EVENT=ALM ONLY ;ALM<1>=SET r NORM<O>=RESET
_04-030 21 STM GEN LO LO L 2 PRT TRP BCCI SEG! OF EVENT=ALM ONLY :ALM<1>=SET 7
NORM<O>=RESET i_J>4040 21 STM GEN LO LO L 3 PRT TRP *seer SE"fl OF EVENT=ALM ONLY ;ALMCl>=SET 7 NORM<O>=RESET
!... 04050 21 STM GEN LO LO L 4 PRT TRP BCCI SEU OF EVENT=ALM ONLY :ALM<l>=SET r
NORMCO>=RESET U)4060 21 STM GEN LO L.O L REACTOR BCCI SEG OF EVENT=ALM+RTN i!ALM<1>=TRIP 7
NORM<O>=NT TRP
!_04200 22 STM GEN LO LVL 3 PRT TRP BCCI SE(] OF EVENT=ALM ONLY :ALM<1>=SET 7
NORM<O>=RESET L.04210 22 STM GEN LO LVL 4 PRT TRP BCCI SF.n OF EVENT=ALM ONLY :ALM<1>=SET
, NORMCO>=RESET i_0423D 22 STM GEN LO LO L 1 PRT TRP BCCI SFQ OF EVENT=ALM ONLY :ALM<1>=SET r NORM<O>=RESET L04240 22 STM GEN LO LO L 3 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<1>=SET 7 NORM<O>=REBET L0425D 22 STM GEN LO LO L 4 PRT TRP BCCI SEG OF EVENT=ALM ONLY ;ALMC1>=SET
, NORM<O>=RESET L0426D 22 STM GEN LO LO L REACTOR BCCI BEG OF EVENT=ALM+RTN
- ALMC1)=TRIP r NORM<O>=NT TRP L 04400 23 STM GEN LO LVL 3 PRT TRP BCCI SEG OF EVENT=ALM ONLY
- ALMC1>=SET r
NORM<O>=RESET L.04410 23 STM GEN LO LVL 4 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM(l)=SET 7
NORM< 0 >=RES.ET
,_0443D 23 STM GEN LO LO L 1 PRT TRP BCCI e
SEQ OF EVENT=ALM ONLY :ALM<1>=SET r NORM<O>=RESET U)4440 23 STM GEN LO LO L 3 PRT TRP BCCI SEQ OF E1.JENT=ALM ONLY ; ALM< 1> =SET 7
NORM<O>=RESET L0445D 23 STM GEN LO LO L 4 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<1>=SET 7
NORM<O>=RESET L0448D 23 STM GEN LO LO L REACT Of-?
BCCI SEQ OF EVENT=ALM+RTN
- ALM<U=TRIP 7
NORMCO>=NT TRP L0460D 24 STM GEN LO LIJL 3 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<1>=SET
, NORM<O>=RESET
,_04610 24 STM GEN LO L\\.IL 4 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM(l)=SET
, NORM<O>=RESET 1_04830 24 STM GEN LO LO L 2 PRT TRP BCCI SE(~ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET
,.NORM<O>=RESET UJ4G50 24 STM rr***
I 4 PRT TRP BCCI SEO IJF r:*' *.
'M< 1 >=RFT.
. Nl'lRM l 0) =Rl="qf:"T
t1£1.GGD 24 STt1 GEN LO LO L REACTOR BCC I SE~ OF EVENT=ALM+RTN
- ALMC1>=TRIP NORMCO>=NT TRP
.. n480D PRESSZR HI LVL 1 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<l>=SET
, NORM<O>=RESET
_04810 PRESSZR HI LVL 2 PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALM<l>=SET
, NORMCO>=RESET 04820 PRESSZR HI LVL 3 PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALMC1>=SET
, NORM<O>=RESET
_0483D PRESSZR HI LVL REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<1>=TRIP
, NORM<O>=NT TRP 04840 PRESSZR LO LVL 1 SI PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALMCl)=SET
, NORM<O>=RESET
_04860 PRESSZR LO LVL 3 SI PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<1>=SET
, NORM<O>=RESET
- oooo s PARE cc I cc I NOT SEQ OF EVENT;ALM<l>=CLOSED, NORM<O>=OPEN I ?0010 OIL RESVOIR HI LVL AND TRIP CCI NOT SEQ OF EVENT;ALM<l>=OFF
, NORM<O>=ON
. 70020 OIL RESVOIR LO LVL AND TRIP CCI NOT SEQ OF EVENT;ALM<l>=OFF
, NORMCO)=ON 70100 SPARE CCI CCI NOT SEQ OF EVENT;ALMCi)=CLOSED, NORM<O>=OPEN 70110 SPARE CCI CCI NOT SEQ OF EVENT~ALM<l>=CLOSED, NORMCO>=OPEN 72000 SEC 2A ACCIDNT LOAD CCI
~JT SEQ OF EVENT;ALMC1l=SET
, NORM<O>=RESET 22010 SEC 2A BLCKOUT LOAD CCI NOT SEQ OF EVENT;ALMC1)=SET
, NORMCOJ=RESET
/202D SEC 2A BLCKOUT ACCIDNT LOAD CCI NOT SEQ OF EVENT;ALM(l)=SET
, NORM(OJ=RESET 72030 SEC 2A ACCIDNT BUS UNDER V CCI NO: SEQ OF EVENT;ALMC1J=SET
, NORM(O)=RESET 7?04D SEC 28 ACCIDNT LOAD CCI NOT SEQ OF EVENT:ALMC1>=SET
, NORM<O>=RESET 7205D SEC 28 BLCKOUT LOAD CCI NOT SEQ OF EVENT;ALM(l>=SET
, NORMCO>=RESET 770GD SEC 28 BLCKOUT ACCIDNT LOAD CCI NC SEQ OF EVENT:ALMC1>=SET
, NORM<O>=RESET
'.<*'1)7D SEC 28 ACC I DNT BUS UNDER l)
CC I NOT SEQ OF EVENT;ALM<l>=SET
, NORMCOJ=RESET 7208D SEC 2C ACCIDNT LOAD CCI NO. SEQ OF EVENT:ALMC1J=SET
, NORMCO>=RESET
?~OSD SEC 2C BLCKOUT LOAD CCI NOT SEQ OF EVENT:ALMC1>=SET
, NORMCOJ=RESET
.7?100 SEC 2C BLCKOUT ACCIDNT LOAD CCI NOT SEQ OF EVENT:ALMC1)=SET
, NORMCOJ=RESET
.72110 SEC 2C ACCIDNT BUS UNDER V CCI NO" SEQ OF EVENT:ALMCl)=SET
~ NORMCO)=RESET 7212D SPARE CCI CCI
i'l'.11 bt:.L~ Ut-t:\\1t:.l\\l 1 r i-1Ll'I (LI :::l_.,l_lJ!:il::.Ll r l\\!Ul~f'! ( U,l :::1_J[J!::1'\\i
.*213D SPARE CCI CCI NOT SEQ OF EVENT;ALM(l)=CLOSED, NORM<O>=OPEN
- ~14D SPARE CCI CCI NOT SEQ OF EVENT:ALMCll=CLOSED, NORMCOl=OPEN
?215D SPARE CCI CCI NOT SEQ OF EVENT;ALM<l>=CLOSED, NORMCO>=OPEN
?21GD SPARE CCI CCI NOT SEQ OF EVENT;ALM<l>=CLOSED, NORMCO>=OPEN
. ?~1~DT SE9RBFCE~ENT~g[MC1l=CLOSED, NORM<O>=OPEN
~230D 218 CNDENSR HOTWELL HI LVL CCI NDf SEQ OF EVENT;ALMC1l=HIGH
, NORM<O>=NT HI 7231D 228 CNDENSR HOTWELL HI LVL NOT SEQ OF EVENT;ALM<l>=HIGH
~?;SOD 238 CNDENSR HOTWELL HI LVL C:C I
, NDRf'H 0) =NT HI CCI NOT SEQ OF EVENT;ALM<l>=HIGH
- NORMCOJ=NT HI 7300D SPARE CCI CCI NOT SEQ OF EVENT;ALMC1>=CLOSED, NORMCO>=OPEN
~:i:W1D SPAf,'E CCI CCI NOT SEQ OF EVENT;ALMC1>=CLOSED, NORMCOl=OPEN
.. *?:-~OZD SPARE CC I CC I NOT SEQ OF EVENT;ALM<l>=CLOSED, NORMCO>=DPEN 7303D SPARE CCI CCI NOT SEQ OF EVENT;ALM<1>=CLOSED, NORM<O>=DPEN 7304D SPARE CCI CCI NOT SEQ OF EVENT:ALM<1l=CLOSED, NORM(O)=OPEN
?:4050 SPARE CC I CC I NOT SEQ.OF EVENT;ALM<ll=CLOSED. NORM<O>=DPEN
?30GD 21 BLD STM RH COIL RTN TNK LVL CCI NOT SEQ OF EVENT;ALMCl)=LOW
, NDRM<O>=NORMAL
'.*':W7D 22 8LD STM RH COIL l'.\\:TN TN!-\\ Lt)l_
CC I NS' SEQ OF EVENT;ALM<l>=LOW
, NORM(O)=NORMAL 7320D 218 CNDENSR HOTWELL LO LVL CCI.
Nr** SEQ OF EVENT;ALM11l=LOW
, NORMCO>=NT LON
. 7500D 21A CNDENSR HOTWELL HI LVL CCI N0T SEQ OF EVENT;ALMC1>=HIGH
, NORMCO>=NT HI
~so10 22A CNDENSR HOTWELL HI LVL CCI N~T SEQ OF EVENT;ALMCll=HIGH
, NORMCO)=NT HI
?502D 23A CNDENSR HOTWELL HI LVL CCI NC - SEQ OF EVENT:ALM<l>=HIGH NORM(Ol=NT HI
.75030 21A CNDENSR HOTWELL LO LVL CCI NOT SEQ OF EVENT:ALMC1l=LOW
, NORMCOl=NT LOW
_ ::*:i04D 22A CNDENt:;~* HOHIELL LO Lt.JL CC I NOT SEQ OF EVENT:ALM<l>=LOW NORMCO>=NT LOW
. 7305D 23A CNDENSR HOTWELL LO LVL CCI NOT SEQ OF EVENT;ALMCll=LOW NORMCO>=NT LOW L?~lOD 22B CNDENSR HOTWELL LO LVL CCI NCT SEQ OF EVENT;ALMCl>=LOW
, NORMCO>=NT LOW
, NORMCO>=NT LOW
' 77000 SPARE CCI CCI
l\\IU I
'7b1D
!\\If_ T
., 720D
~~U U~ ~V~NI rHLMl!/=LLUb~Ur SPARE CCI CCI SEQ OF EVENT;ALMC1)=CLOSED,
~3Pi~RE CC I CC I f\\I Uh' i"i ( U ! ::: U !JI:: N f\\J or~ M ( 0 ) ::: 0 PEN NOT SEQ OF EVENT;ALM<l>=CLOSED, NORMCOl=OPEN NOT SEQ OF EVENT;ALM<l>=CLOSED, NDRMCOl=OPEN
,8G2D SPARE CCI CCI NOT SEQ CF EVENT:ALMC1)=CLOSED, NORMCOl~OPEN
/\\JUT S C:Q OF Et.JD/ T; ALM C 1. i,-, CLOS ED, i\\l(Jl'-\\1!"1 ( 0 /== IJF'EJ,J
.'8G7D SPARE CCI CCI NOT SEQ OF EVENT:ALMCl>=CLOSED, NORMCO>=OPEN
'.'BGBD SPAf~E CC I CC I NOT SEQ OF EVENT;ALMCl>=NORMAL, NORM(Q)=LOW
'.'8G8D SPA!~E CC.I CC I NOT SEQ OF EVENT;ALM(l)=CLOSED, NORM<OJ=OPEN
/870D SPARE CCI CCI NOT SEQ OF EVENT:ALMC1>=CLOSED, NORM<O>=OPEN
!8710 SPARE CCI CCI NOT SEQ OF EVENT;ALMCl)=CLOSED, NORM<O>=OPEN
~8720 SPARE CCI CCI NOT
- 3730 NOT
.~'874D SEQ OF EVENT;ALMCl)=CLOSED, SPARE CC I CC I SEQ OF EVENT;ALM<l>=CLOSED, Sl3 ARE CCI CCI NO~*M ( 0)==OPEN NORM< 0)==OPEN NOT SEQ OF EVENT;ALMCl)=CLOSED, NORM<O>=OPEN
!8750 SPARE CCI CCI NOT SEQ OF EVENT;ALM<l>=CLOSED, NORM<O>=OPEN
~00010 PWR RNG CHAN 1 HI Q PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORMCO)=RESET
~00020 PWR RNG CHAN 2 HI Q PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET
~00030 PWR RNG CHAN 3 HI Q PRT TRP BCCI SEn OF EVE~T=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET J00040 PWR RNG CHAN 4 HI Q PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<l>=SET NORM<O>=RESET J00050 PWR RNG CHAN HI Q REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM(1)=TRIP
, NORM<O>=NT TRP
~00080 PWR RNG CHAN 1 LO Q PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET
~00070 PWR RNG CHAN 2 LO Q PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORMCO>=RESET
~00080 PWR RNG CHAN 3 LO Q PRT TRP BCCI Sf.I~ OF El.JENT=ALM ONLY ; ALM ( 1) =SET
, i*JORM < 0 >=RESET
~00090 PWR RNG CHAN 4 LO Q PRT TRP BCCI SE~ OF EVENT=ALM'ONLY ;ALM<l>=SET
, NORM<O>=RESET
~00100 PWR RNG CHAN LO Q REACTOR BCCI SEij OF EVENT=ALM+RTN
- ALMCl)=TRIP
, NORMCO>=NT TRP
~00110 PWR RNG 1 P10 PRT PRM BCCI S~Q OF EVENT=ALM ONLY ;ALM(O)=RESET, NORMCl)=SET
i'.IV.1£.U l"'IA!l't' l't'l\\IL1
£.
l"'!V l"'l't' I l"'l't'f'I t::ILLl S~Q OF EVENT=ALM ONLY ;ALM<O>=RESET NORMC1>=SET 1iOO 130 Pl...fR RNG 3 P 10 PRT PRM BCC I SEU OF EVENT=ALM ONLY :ALMCO>=RESET, NORM<l>=SET
~00140 PWR RNG 4 P10 PRT PRM BCCI SEQ OF EVENT=ALM ONLY ;ALM<O>=RESET, NORM<l>=SET
- ALM<1>=SET
, NORM<O>=RESET
~00160 PWR RNG LO Cil 2 TRP BLK BCCI SlQ OF EVENT=ALM+RTN
- ALMC1)=SET T NORMCO>=RESET
>>i*-H) 1 7D SPARE CC I CC I NOT SEQ OF EVENT:ALM<l>=CLOSED, NORM(O)=OPEN
~00200 INTERM RNGE 1 HI Q REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP
~0021D INTERM RNGE 2 HI Q REACTOR BCCI S~Q OF EVENT=ALM+RTN
- ALM<l>=TRIP
- NDRM<O>=NT TRP
~00220 INTERM RNGE HI Q 1 TRP BLK BCCI
. SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORMCO>=RESET
.00230 INTERM RNGE HI Q 2 TRP BLK BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORMCO)=RESET N00240 INTERM RNGE HI Q REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP N0030D SOURCE RNGE 1 HI Q REACTOR BCCI S~Q OF EVENT=ALM+RTN
- ALMC1>=TRIP
, NORMCO>=NT TRP
- J0031 D SOURCE RNGE 2 HI Cil REACTOR BCC I SEQ OF EVENT=ALM+RTN
- ALMC1)=TRIP
, NORMCO>=NT TRP
.~00320 PG TRP BLK PRT PRM 1 BCCI SEQ OF EVENT=ALM ONLY ;ALMCO>=RESET, NORM<1>=SET
~00330 PG TRP BLK PRT PRM 2 BCCI SEn OF EVENT=ALM ONLY ;ALMCO>=RESET, NORM<1>=SET
~00340 SOURCE RNGE HI Q 1 TRP BLK BCCI SEQ OF EVENT=ALM+RTN
- ALM<O>=RESET, NORM<1>=SET
~00350 SOURCE RNGE HI Q 2 TRP BLK BCCI SEQ OF EVENT=ALM+RTN
- ALMCO>=RESET, NORMC1>=SET
.!00360 SOURCE RNGE HI Q REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
- NORMCO>=NT TRP
,i)040D NO:
,!041D NOT
.;_0420
!\\JOT
.*J0430 NOT 1\\:00440 NOT
\\\\l(J450 NDT
!\\lr:";{)46D NOT
\\'.i_-i()4 7D IN SEQ IN SEQ IN SEQ IN SEQ IN SEQ IN SEQ IN SEQ IN CDl~E OF CORE OF CORE OF CORE OF CORE OF CCJRE OF CORE OF CO~'E MQ!.1 THM I~ 1 H15 Et.IEl\\IT; ALM C 1) :::SEL MOt.1 THM A,, K02 El.'ENT; ALM< 1.) =SEL MOt.J THM A 'J L10 Et.JENT; ALM< 1 ) =SEL MOI) THM A 4 P04*
Et.IENT; ALM C 1.) =SEL MDV THM A 5 HOG EtJENT; ALM< 1) =SEL MOt.J THM A G D12 Et.JENT; ALM< 1)==SEL MOt.J THM A 7 BOG El.IENT;ALM(1)=SEL M!J!..i THM A 8 E09 CCI NDl~'M < 0) =NT C! 1*-* 1 r
,:J t:.:._
CCI NClf-\\'M < 0) =NT c1--1 7
- .:ll:.L CCI r
Nmm<O>=NT SEL CCI 7
Nmm ( (l) :::NT SEL
- CCI 7
NORMCO)=NT SEL CCI 7
NORM<O>=NT SEL CCI
' N(Jr*m ( 0) =!\\IT BEL CCI
i\\: :_; ;*
Sl::.U ur-c.1.1 t:. i\\I I ; Al_M l l i==~l::.L-.
r l'-i U !T: M ( 0 i :::: f\\I I SU.
4BD IN cor-<E: MOl.J THM 1'.::)
9 HO:J CCI NCT SEQ m--
EJ.,lE:\\IT; nU"I ( l) :0 SEL.
7
- \\JORi"! ( 0) ::o:l,iT f:)EL_
_0480 IN CORE !vlQl) THM
(:'.\\
10 L.0::5 CCI l\\l c:
SEQ OF Et.JE/\\IT; AU*1 ( 1.) :<::EL.
' NClfi'M(O)=NT SEL
'.;*:*osoo IN CORE MOl.J THM 8 1 D10 CCI NC'.
SEQ OF 1;:*,IENT; fil.M ( 1) :=SEL.
7
/\\IOf<'M < 0) ::::l\\IT s t::L.
.**us10 IN CORE MOl,J THM e. 2
{-.)11 CCI NDT SEll OF El.JENT; ALJvl ( 1) =SEL t-JO"'!"l \\ 0) :::l\\/T
- J r.
- :i_
,;;:*052D IN CORE MOl.: THM B
- ~ KOG CCI
,)
NCT SEQ OF El,IEi\\JT; ALM< 1) =SEL 7
NORM ( 0) =NT SEL
.:,:1n53D IN CORE MDI.I THM B 4 F01 CCI NUT SEQ OF Et.JENT;ALM(il=SEL r
NDr-?M ( 0) :::NT SEL
.'.i</)54D IN CORE 1"101,!
THM B 5 F07 CCI NC: r SEQ OF E\\'ENT; ALM ( 1;. =SEL.
7 Nmm ( 0) =t\\IT SEL
\\i*:")55D I /\\I CORE MOl.1 THM 8 6 ROG CCI Ne* SEQ OF Et.JENT; ALM { 1) =!3EL 7
NORM<Ol=NT SEL I'! r:"~ '3 GD IN CORE MOl.J THM B 7 N14 CCI NC1,* SEQ OF El.JENT; ALM< 1 l =SEL 7
i\\IUfm ( 0 l =NT SEL
":(*057D IN CORE MOt.J THM 8 8 N02 CCI NC SEQ OF Et.JENT; ALM< 1 ) := SEL 7
NORM<Ol=NT SEL NC*OSBD IN CORE MO\\' THM B 9 H13 CCI NCl' SEQ OF El.JENT; ALM ( 1) =SEL 7
NORM(O)=/\\IT SEL i\\i*:;<i58D IN CORE MO\\! THM B :t (i E11 CCI NOT SEQ OF E 1..JENT; ALM< 1) =SEL r
NClRM ( 0 l =NT SEL
- <<-::iOGOD IN CORE M0 1.J THM c 1 GOB CC I NOT SEQ OF El.JENT; Ai_~ r 1) =SEL NORM ( 0 i =:NT SEL N*: 1JG1 D IN CORE MOl,l THM c f-;:08 CCI L
NOT SEQ OF Et)ENT; {~U1 ( 1 ) :=:~3EL_
r l\\JCJRM ( 0 I =:NT SEt_
.l*>OGZD I l\\J CORE MOl,J THM c,,
C05 CCI NCIT SEQ OF El.lEi\\!T; ALM< 1 ) <3EL.
1**JORM ( 0 l =:f\\IT !3EL
- <<_*OG3D I l\\I CD~'E MOl.J THM c 4 B13 CCI NC f SEQ o;:.-
El/ENT;ALM(1)=SEL r
NORM<O)=NT SEL
- .; :OG4D IN CORE MOl.J THM c 5 H11 CCI
/\\JCT SEQ OF El.JENT; ALl"I < 1.) =SEL r
i\\!ORM ( 0) =NT SEI_
-'<'!)650 Ii'*I CDRE MOl) THM c G J14 r*r*,.
- ..J\\..I J.
l\\ICi r SEC~ OF El.JEl'H; ALM ( 1) =SEL.
y NClf-?M ( 0) :.::fl!T SEL
>:*OGGD I /\\I CORE i"/Ol.J THM c 7 JO 1.
CCI Ni_'T SE-~G CJF ninn; ALM ( 1) =SEL i'IORM ( 0) :::NT SEL.
- . -067D I l\\I C1Jf-?E
~'ID l.J THI*!
j~' 8 LOE!
c*-***
'~
L.t
- ,; ::: :.. SEG OF Et.JEi\\IT; (-1LM < 1) =SEL.
NOl~M ( 0) =f\\IT SEL 7
.G8D I 1\\1 CORE MOI) THM c El F03 CC.I NC':
SEQ OF El.JENT; ALM ( 1) =SEL NOf~*M ( 0 i :.-::l\\!T SEL
[\\ii:0-)G8D IN CORE MOl.' THM c 10 E05 CCI NC f SEQ OF EVENT;ALM<ll=SEL r
NORM ( 0 i =NT SEL
~!(\\i)70D IN CORE MQl.J THM D 1.!07 CCI l'WT SEQ OF El.JENT; ALM ( 1) :=Sl~L
' NOR/"!(O)=NT SEL.
,,;,: 071D l!\\I cor~E MOl.J THM D.*,
r~* 11 CCI l\\ICT SEQ OF Et,IENT; ALM ( 1) =SEL r
NORM ( 0;. :::J\\IT SE:i__
>.:r::*072D IN CORE: MO'.! THM D 3 808 CCI f\\!CJ :. SEQ OF E!JENT; 1C\\LM ( 1) =SEL.
r ii/Di~'/"! ( 0) =:/\\IT SEI_
. *_" J I :.3 LJ
!N LUl-.:C.
MLJl,1 IHM u
-ll-Ll:.3 LLl NG r SEQ OF El,IENT; ALM ( 1) :::SEL r
NORM< 0) =NT SEL
\\; i:.07 40 IN CORE MDI.I THM D 5 N04 CCI NC: SEO OF Et.JENT; ALM ( 1)==SEL r
Nmm<O) :::!\\IT Si~~-
.:._:* t) 7 ~5.D IN CORE
["!QI) THM'D G D14 CCI NO:" SEQ OF El,IENT; ALM ( 1) :::SEL T
NOR'M { 0 1 =NT !3EL..
i',;1)07GD IN CiJG;*E MOl.J THM D -,
.I G05 CCI NO 1* SEQ OF Ef.IENT; ALM ( 1) =SEL 1
NORM ( 0) :=NT SEL NC077D IN CORE MDV THM D 8 D03 CCI NOT SEQ OF El,IENT; ALM ( 1 ) =SEL
' NOR'M ( 0) =NT SEL NC078D IN CORE MOl,I THM D 8 SP~i!~E CCI NOT SEQ OF Et.JENT; ALM ( 1)==SEL.
- ' NIJRM<Ol=NT SEL N0079D IN CORE MOl..1 THM D 10 L11 CCI NOT SEQ OF El,IENT; ALM< 1)==SEL r
NORM<O):::NT SEL i\\i0080D IN CORE MDI.I THM E 1 K12 CCI NOT SEQ OF Et,JENT;ALM<1l=SEL 7
NORM<Ol=NT SEL
/\\iUOB 1 D IN CORE MQl,I THM E 2 F14 CCI NOT SEQ OF El.IENT;ALM(i)=SEL
' NORM<Ol=NT SEL f\\!00820 IN CORE MOl..1 THM E,,
w H04 CCI NOT SEQ OF El,IENT;ALMC1l=SEL
' Nmm (I)) =NT SEL l\\!0083D IN CORE MDV THM E 4 M07 CCI NOT SEQ *OF Et.JENT; ALM ( 1) =SEL
' NOR'M < 0) =NT SEL i\\11)1)840 IN CORE MQl.J THM E 5 N13 CCI NOT SEQ OF El..1ENT; ALM ( 1) =:SEL
' NOR'M < 0 >=NT SEL N0085D IN CORE MOt.J THM E 6 JOB CCI NO f SEQ OF El.IENT:ALM<1>=SEL
' NORM<O>=NT SEL NGOBGD IN CORE MDV THM E 7 C07 CCI NC!T SEQ OF E!..IENT:ALM=SEL
' NOR'M ( 0) =NT SEL
/\\i 1:*,os70 IN CORE MOt.J THM E 8 FOB CCI NC' 1 SEQ OF Et.JENT:ALMC1)=SEL
' NORM(O)=f\\IT SEL i\\00880 IN CORE MOt.J THM E 8 COB CCI NO: SEQ OF E!..IENT~ALM<l>=SEL r NORM(O)=NT SEL l\\IC*)89D IN CORE MOt.J THM E 10 SPARE CCI NOT SEQ OF E!..IENT:ALM<1>=SEL
' NORM(O):::!\\JT SEL
[\\!00800 IN CORE MDI.I THM F 1 DOB CCI NC' SEQ OF Et.JENT; ALM< 1 > =SEL
' NORM<O>=NT SEL NC091D IN CORE MOl.J THM F 2 H02 CCI NOT SEQ OF Et.JENT: ALM ( 1) =SEL
' NOR'M ( 0) =NT SEL.
/\\Jr:* 1)92D IN CORE MOl.1 THM F 3 B03 CCI NOT SEQ OF El.JENT; ALM< 1) =SEL T
NORM<O>=NT SEL
\\iC093D Il\\l CORE MDI.I THM F 4 L15 CCI NOT SEQ OF Et,JEf\\IT: ALM ( 1) =SE:L 7
NORM<O>=NT SEI_
i.,iUOS4D - IN cor-.:E MQl.1 THM r~
c-
~' f\\106 CCI NC: T SEQ OF Et.JEi\\IT; ALM< 1) =SEL r NORM(O)=NT SEL
'~*=*'*950 IN CORE MOt.J THM F G G12 CCI NO-i SEQ OF Et.JENT: ALM ( 1) = SEL 1
NORM ( 0) :=NT SEI_
1'11009GD IN CORE MOl,I THM F 7 A08 CCI No* SEQ OF Et,IENT: ALM< 1 ) =SEL
' NORMCO)=NT SEL N0087D I f\\l CORE MOt.J THM F 8 P09 CCI NOT SEQ OF Et.JENT:ALM(l)=SEL r
NORMCO):::NT SEL j\\!;)1)980 IN CORE MOl.J THM.-
g N*os CCI r*
l\\1\\..'
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1->:
Ui t._*.,.*L.. 1'1 1
1 \\-IL-l I\\..LI **-._.. ;1._;._M i'I t.J ("'t;: I \\ '... 1 I
- -* 1 'I I
.__, L.. L...
.OSSD IN CORE MDV THM F 10 SPARE CCI NC SEQ OF EVENT;ALM<ll=SEL
, NORMCOl=NT SEL
~03010 TURBINE VACUUM TRIP RELAY BCCI SEO OF EVENT=ALM ONLY ;ALM(l)=CLOSED, NORMCOl=OPEN
'U302D SPARE BISTBLE BCCI NOT SEQ OF EVENT;ALMC1l=CLOSED, NORMCOl=OPEN
- ,_;,;!)JD TLJr-<B I NE AUTO STD P F'ESET f~'ELAY CC I NOr SEQ OF EVENT;ALM(l)=TRIP
, NORMCOl=NT TRP
039GD TURBINE HYD 0 IL LO P 1 PRT TRP BCC I S~G OF EVENT=ALM+RTN
- ALM<ll=SET
, NORM<Ol=RESET
'UJ87D TURBINE HYD OIL LO P 2 PRT TRP BCCI SEU OF EVENT=ALM+RTN
- ALM(1)=SET
, NORM<O>=RESET l'U388D TURBINE HYD OIL LO P 3 PRT TRP BCCI SEG OF EVENT=ALM+RTN
- ALM<l>=SET
, NORM<O>=RESET i'0404D 21 STM LNE HI DP 1 SI PRT TRP BCC I SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET
~U405D 21 STM LNE HI DP 2 SI PRT TRP BCCI S~Q OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<Ol=RESET PU406D 21 STM LNE HI DP 4 SI PRT TRP BCCI SEG OF EVENT=ALM ONLY ;ALM<1>=SET
, NORM<O>=RESET PU407D 21 STM LNE HI DP SI REACTOR BCCI SE~ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP Pu424D 22 STM LNE HI DP 1 SI PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORMCOl=RESET Pu425D 22 STM LNE HI DP 2 SI PRT TRP BCCI SE~ OF EVENT=ALM ONLY
~ALM<l>=SET
, NORM<OJ=RESET
~U42GD 22 STM LNE HI DP 3 SI PRT TRP BCCI Sl::.U OF EVENT=ALM ONLY ; ALM< 1 J =SET
, NORM< 0) =RESET
'U427D 22 STM LNE HI DP SI REACTOR BCCI S~Q OF EVENT=ALM+RTN
- ALM<1J=TRIP
, NORM<O>=NT TRP
'0444D 23 STM LNE HI DP 2 SI PRT TRP BCCI S~Q OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET
~U445D 23 STM LNE HI DP 3 SI PRT TRP BCCI SlQ OF EVENT=ALM ONLY ;ALMC1J=SET
, NORMCOJ=RESET
-*u44GD 23 STM LNE HI DP 1 SI PRT TRP BCC I SU~ OF EVENT=ALM ONLY ; ALM< 1 J =SET
, NORM< 0) =RESET
~o447D 23 STM LNE HI DP SI REACTOR BCCI SEij OF EVENT=ALM+RTN
- ALM<ll=TRIP
, NORM<O>=NT TRP
, NORMCO>=RESET F'U465D Z4 STM LNE HI DP 2 SI PRT TRP BCC I s~u OF EVENT=ALM ONLY ;ALM<l>=SET 7
NORM<O>=RESET P04GGD 24 STM LNE HI DP 1 SI PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALMC1J=SET
, NORM<Ol=RESET P0467D 24 STM LNE HI DP SI REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP
?04800 PRESSZR HIGH P 1 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET P0481D PRESSZR HIGH P 2 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
- NORM<O>=RESET
- -*"+t:ILU rl"l'c.::i::iL.1"\\'
n u.. 1n r
.;i rr"I' 1 1 I"\\' r t:JLL.l SEU OF EVENT=ALM ONLY :ALM<l>=SET
, NORM<O>=RESET 0483D PRESSZR HI PRESS REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP
, NDRM<O>=RESET P0485D PRESSZR LO P 2 PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALMCl>=SET
, NORM<O>=RESET
~04870 PRESSZR LO P 4 PRT TRP BCCI SEG OF EVENT=ALM ONLY :ALM(l)=SET
, NORM<O>=RESET P0488D PRESSZR LO PRESS REACTOR BCCI SEG OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP P04890 PRESSZR LO P 1 SI PRT TRP BCCI SE~ OF EVENT=ALM ONLY :ALM<l>=SET
, NORM<O>=RESET PU480D PRESSZR LO P 2 SI PRT TRP BCCI SEU OF EVENT=ALM ONLY :ALMCl>=SET
, NORMCO>=RESET P0481D PRESSZR LO P 3 SI PRT TRP BCCI SEU OF EVENT=ALM ONLY :ALM<l>=SET
, NORM<O>=RESET P0482D PRESSZR LO P 1 SI TRP PRT BLK BCCI BEG OF EVENT=ALM ONLY :ALM<l>=RESET, NORM<O>=SET
?04930 PRESS~R LO P 2 SI TRP PRT BLK BCCI SEQ OF EVENT=ALM ONLY :ALM<l>=RESET, NORM<O>=SET P04940 PRESSZR LO P 3 SI TRP PRT BLK BCCI SEQ OF EVENT=ALM ONLY :ALM<l>=RESET, NORMCO>=SET P0495D PRESSZR LO P SI 1 TRP BLK BCCI SEQ OF EVENT=ALM ONLY :ALMC1J=SET
, NORM<O>=RESET
~04960 PRESSZR LO P SI 2 TRP BLK BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=SET
, NORM<O>=RESET P0497D PRESSZR HIGH P 4 PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET r
NORM<O>=RESET PlOOOO CONTAIN HIGH P 2 SI PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALMC1)=SET
, NORM<O>=RESET P1001D CONTAIN HIGH P 3 SI PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET NORMCO>=RESET
?10020 CONTAIN HIGH P 4 SI PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET NORM<O>=~ESET P1003D CONTAIN HI PRESS SI REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALMC1>=TRIP
, NORMCO>=NT TRP
~*>:oooD NCT P2002D SEQ PZ0030 SEQ GLAND SEAL STEAM HDR PRESS CCI SEQ OF EVENT;ALM<l>=NORMAL, NORMCO>=LOW TURBINE BRG OIL PRESS BCCI OF EVENT=ALM ONLY :ALM<l>=TRIP
, NORM<O>=NT TURBINE THRUST BRG OIL PRESS BCCI OF EVENT=ALM ONLY ;ALM<l>=TRIP
, NORM<O>=NT P2004D HP TURB CYLIND GOV HTG STM PRESS CCI NOT SEQ OF EVENT;ALMC1>=LOW
, NORMCOl=NORMAL e:._* u07D TURN [lR DI SENGD cc I NOT SEQ OF EVENT;ALMC1>=NT DK
- NORMCOl=OK F;~'OOBD TUR/\\!
GF? ENCiAC1ED CC I TRP TRP
~ *J";./
- Ui':Ci LJ'Lll\\iU Lii::.i'~ H-1*G S'U'I Pl~'ESS C:CI NOT SEQ OF EVENT;ALMCl>=LOW
, NORMCOl=NORMAL
-,.** ZOOD SPARE CC I CC i NOT SEQ OF EVENT;ALMC1l=CLOSED, NORMCO)=OPEN
- ,:40GD NOT r*.,*:t07D l\\iUT F-'/ '* OBD SF'AG'E CC I CC I SEQ OF EVENT;ALMC1l=CLOSED, NORMCO>=OPEN DP SCRN WASH PUMP STRNR CCI SEQ OF EVENT;ALMC1>=HIGH
, NORMCOl=NORMAL SPARE CCI CCI NOT SEQ OF EVENT;ALMC1l=CLOSED, NORMCOJ=OPEN 1')410D SPARE CCI CCI NCT SEQ OF EVENT;ALMC1l=CLOSED, NORMCOl=OPEN F'ZGOOD 21 SGFP TURBINE Ei<HAUST l/ACUUM CCI NC - SEQ OF EVENT:ALMCll=LOW
, NORMCO>=NORMAL CCI fliORM < 0)==NORMAL p~*so1D 21 SGFP TURBINE OIL FLT DP NOT SEQ OF EVENT:ALMCll=HIGH r:G02D 22 SGFP TURBINE EXHAUST l.JACUUM CC I NCiT F'<':303D SEQ OF EVENT;ALMC1l=LOW T NORM((J)::::NORMAL 22 SGFP TURBINE OIL FLT DP CCi NC. r SEQ OF EVENT;ALMC1>=HIGH T NORM<O>=NORMAL SPAF.'E CCI CCI
- .. '
- 310D NOT SEQ OF EVENT;ALM<l>=CLOSED, NORMCO>=OPEN
?~802D SPARE CCI CCI NOT SEQ OF EVENT~ALMCll=CLOSEDr NORMCO)=OPEN
- .. :903D SPARE CC I CC I NOT SEQ OF EVENT;ALMC1>=CLOSED, NORMCOl=OPEN lU400D 21 RCL OVERPWR OT PRT TRP BCCI SEn OF EVENT=ALM ONLY ;ALMC1>=SET
, NORMCO>=RESET 104030 21 RCL OVERTMP DT PRT TRP BCCI S~~ OF EVENT=ALM ONLY ;ALM<1>=SET
, NORMCO>=RESET 104200 22 RCL OVERPWR DT PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<1>=SET
, NORMCO>=RESET
!04230 22 RCL OVERTMP DT PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM(1)=SET
, NORM<O>=RESET 104400 23 RCL OVERPWR DT PRT TRP BCCI SU~ OF E1.JENT=ALM ONLY
- ALMC1l=S~T
, NORMCO>=RESET 104430 23 RCL Ql.JERTMP DT PRT TRP BCCI SEG OF EVENT=ALM ONLY ;ALM(l)=SET
, NORMCO>=RESET T04GOD 24 RCL O\\IERPWR DT PRT TRP BCCI SE.G OF EVENT=ALM ONLY ;ALM(ll=SET T NORM(O)=RESET 104630 24 RCL OVERTMP OT PRT TRP BCCI SEt~ OF EVENT=ALM ONLY ;ALMC1>=SET
, NORMCO>=RESET
I <.l"t::Jt1U Stl}
1U488D SE:. IJ
!:::'.GOOD KL~ UYt"1nr LJ( "tHLIUK'
~LL!
OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP RCL OVERPWR DT REACTOR BCCI OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM(Ol=NT TRP 21 SGFP TURBINE EXH HD TEMP CCI NG. SEQ OF EVENT;ALM(ll=HIGH NORM ( 0) :.::l\\IORMAL.
, NORMCO>=NORMAL
'.10320D 21 RCP BUS UNDER 1.,1 PRT TRP BCCI SE~ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET V0321D 22 RCP BUS UNDER V PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM(l)=SET NORM<O>=RESET V0322D 23 RCP BUS UNDER V PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALMC1>=SET
, NORM<O>=RESET V03230 24 RCP BUS UNDER V PRT TRP BCCI sEn OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET
'.103240 RCP 13US UNDER V REACTOR BCC I SEQ OF EVENT=ALM+RTN
- ALMC1)=TRIP
, NORM<O>=NT TRP V0351D SPARE BISTBLE BCCI NOT SEQ OF EVENT;ALM<l>=CLOSED, NORM<Ol=OPEN (00010 TRB PWR 1 P13 PRT PRM seer SEQ OF EVENT=ALM ONLY ;ALM<O>=RESET, NORM<1>=SET
- , 00020 TRB PWR 2 P 13 PRT PRM BCC I SEO OF EVENT=ALM ONLY ;ALM<O>=RESET, NORMC1)=SET Y0003D REACTOR TRB PWR P7 PRMSSVE seer S~G OF EVENT=ALM+RTN
~ALM<1>=RESET, NORM<O>=SET Y0004D REACTOR MANUAL TRIP 2 BCCI SEQ OF EVENT=ALM+RTN
- ALM(O)=TRIP
, NORMC1>=NT TRP i0005D REACTOR MANUAL TRIP 1 BCCI s~u OF EVENT=ALM+RTN
- ALM(Q)=TRIP
, NORM<l>=NT TRP (QOOGD REACTOR MAIN TRIP BKR A BCCI s~u OF EVENT=ALM+RTN
- ALM<O>=TRIP
, NORM<1>=NT TRP
\\'00070 REACTOR MAIN TRIP BKR 8 BCCI St:.u OF EVENT=ALM+RTN
- ALM ( 0 >=TR IP
, NORM< 1) =NT TRP IN CORE TEMP COMPUTR CCI
':'(i!)08D
!\\JC.
1'00ZGD sc.n
- *J027D S~Q SEQ OF EVENT;ALM(l)=SEL
, NORMCO)=NT SEL REACTOR TRIP AUX1 BKR A BCCI OF EVENT=ALM+RTN
- ALM<O>=TRIP
, NORM<l>=NT TRP REACTOR TRIP AUX1 BKR 8 BCCI OF EVENT=ALM+RTN
- ALM<O>=TRIP T NORM(l)=NT TRP Y0035D IN CORE MDV DET ALL ORV NOT SEQ OF EVENT;ALMCl>=SEL (003GD IN CORE MDV DET AUTO CCI CCI
, NOh'M ( 0} :::!\\IT SE~-
NOT SEQ OF EVENT;ALM<l>=SEL
, NORMCO>=NT SEL
, <iC)37D IN CORE MOl.J DET COMPUT1
CCI NCi SEQ OF EVENT;ALMCll=SEL
~-IORM<O)==l\\IT SE:L
- 'C**l38D Ii'~ CORE HOl.J DET SCAN E'°CC I NCf SEQ OF EVENT;ALMCl)=SEL.
NORM<O>=NT SEL Y0038D IN CORE MDV DET RECORD BCCI NS SEQ OF EVENT;ALMC1)=SEL
, NORM<Ol=NT S~L
!'ili!40D T/\\J
(~CmE i"l!]I) Der P1 f]i\\i cc:;:
N;_;'
tit.d u1-t:. '.' t:. l\\I I r HL.t'I \\.l i "'bi::.L r
_I'~ U I'( l'I \\ U i :::. l\\I I
- i c
- I_
1)041 D IN CORE MDV DET I~ CLBR?HE
- ccr NC i-SEQ OF Et..JENT; AU'! ( 1) :::SEL NORM(O)::::NT SEL
- 0042D IN CORE MOt.J DET
- ~ Fort*
[J i.J CCI NC.. SEQ OF Et.JENT; ALM ( l) ::::~3E.L r
Norm ( 0) "NT SEL
'/0043D IN CORE MOt.1 DET I~ r-mGE CCI J.
NC' SEO OF El.JENT; 1-:'.iL.f'~ ( 1) :::SEL r
NGr-(M ( 0) ::::f\\iT SE-:L Y0044D IN CORE MOl.J Dr"T C. I 1:1 RNGE 2 CCI NC r SEQ OF EVENT;ALMC1>=SEL r
NOf-(M < 0 i =NT SEL
- '0045D IN CORE MOt.J OET A Fi'NGE,,
,.:)
NOT SEQ Or EVENT;ALM<1>=SEL r
NOl~M ( 0) :::NT SEL
/00460 IN CORE MDV DET A RNGE 4 CCI NO r SEQ OF EVENT;ALM<l>=SEL r NORM(O)=NT SEI_
-.'00470 IN CORE MOt) DET A RNGE 5 CCI NOT SEQ OF Et.JENT; ALM< 1) =SEL 7
NORM<O>=NT SEL
"/00480 IN CORE MOt.J OET A DRIVE:-:
CCI NOT SEQ OF EVENT;ALM(1)=SEL r NORM(O)=NT SEL
/00480 IN CORE MOl.J DET A COM Gfi'P CCI f\\I CJ T SEQ OF EVENT;ALMC1)=SEL r
NORM< 0) ::::NT SEL YOOSOD IN CORE MOt.,1 DET B ON CCI f\\10 T SEG OF Et.JENT; ALM ( 1) =SEL r
NORM(O)=NT SEL
'/0051D IN CIJRE MOt.,I DET*B CLBRATE CCI f\\10' SEQ OF El.JENT~ ALM< 1 >== SEL 7
NORM(O)=NT SEL t'OOS2D IN CORE Mot..J DET B FOR c CCI NCI: SEQ OF Et.JENT; ALM< 1) =SEL r
Nmm ( 0) ::NT SEL
'{00530 IN CORE MOt.J DET 8 RNGE
- L CCI NC: : SEQ OF Et.JENT;ALMC1)=SEL r
NORM ( 0 i =-~NT Si:'.:L Y0054D IN CORE MOl.J DET B Fm GE 2 CCI NCT SEQ OF Et.JENT; ALM< 1) =SEL r
NORM ( 0 l *"'t'IT SEL Y0055D IN CORE MDV DET r\\ RNGE 3 CCI c:*
NC' SEQ OF E1,JENT; ALM ( :l) =SEL.
r NOf\\'M(O)::::NT SEL t'0056D IN CORE MO!.J DET B RNGE 4 CCI i\\!C.
SEQ OF El.JENT; ALM< 1 l ='SEL r
NORM ( 0 > :::!\\JT SEL
- '00570 IN CORE MOt.J DET r\\
C* RNGE 5
,_, r"'"'
L..L.. J.
NC'.T SEQ OF El.JENT; i:-iL.M ( 1)==SEL r
NOk'f'i < 0;. ::::NT sr:.L
/U058D IN CDr-tE 1'101.J DET E:\\
Di~* I t.JE r"'.'""\\,..
c, L..,L Nr.
SE.(:( OF El.JENT; :qU'! ( 1 > =SEL r
NGr-m ( 0 l ~'NT SEi...
.; C<U59D IN CORE MClt.J DET B COM GFP CCI w
SEG OF Et.JENT; (-!LM ( 1) =SEL l\\!OFl'M ( 0 l ~0 NT ci::*;
._).... MI.-
- ,_
- :,OGOD I l\\i CORE iv1rl:
i11-l..
DET,. 01\\l CCI
- ~
N'=*: I SEQ OF Et.JENT; ALM ( 1) ::::SEL y
NUF<M ( 0) =NT SEL "1'(H_, 31 D IN CiJ~*E MDI.I DET c CLBRt'HE CCI Ne*:
SEQ f_JF Et.JENT; i:-iLM ( :l ) = SEL r
NClfi'M < 0 >=NT SEL
't' 00620 IN CORE MOt.J DET c FOR' D CCI NC. SEGl OF Et.JENT; ALM ( 1) =SEL r NORM(O)=NT SEL
!"°00630 IN COJ~E i"1 [!I.) DET
.*~
r-i'NEE 1 CCI L..
~**1' lL : SEQ OF EVENT;ALM<l>=SEL-
' NORM(O)=l\\IT SEL
- '00640 IN COR'E MOt.1 DET c f{'i1IGE CCI NC SEQ OF Et.JENT~ 1~LM < :l) =SEL r "NORl'1 ( 0) :::NT SEL YOOG5D I l\\I COR'E ["f(jl) DET r
11'! !\\J CJ E 3 CCI
- ~
NOT SEG IJF EVENT; 1:'.\\LM ( 1 J==SEL r
NOi~'\\1 ( 0) :::f\\IT St::L
)l.JbbLJ l l\\i LUl"<'.c.
-1 l"ILJl.,'
L't:. I L,"
i't l~l:CC:.
'-r LLl NUT SEQ OF E 1,J ENT ; ALM ( 1 )==SE L.
F l\\IORM ( 0) ::::NT SEL
/C10G7D IN CORE MQl.J DET c Fi'NGE
~~
CCI NC SEQ OF Et.JENT; ALM< 1.) =SEL 7
NORM ( 0) =!\\IT SEL
{1)0GBD IN CORE MOl.J DET c DR If.!E CCI NClT SEQ OF Et.JENT; t-lLM ( 1) =SEL i\\IOr-*M ( 0) =NT SEL
- OOGSD IN COf.'E MOl,J DET c COM GRP CCI NGT SEQ OF El.JENT; ALM< 1) =SEL r
Nor-*M < 0)==NT SEL
- 'U070D IN CORE MOI) DET D ON CCI NC:T SEQ OF Et.JENT; ALM< 1.) =SEL NORM<O)==NT SEL Y0071D IN CORE MDV DET D CLBf~ATE CCI NOT SEQ OF EVENT;ALM<l>=SEL 7
NORM<O):::NT SEL Y0072D IN CORE MOl,l DET D FOR E CCI No*:- SEQ OF EVENT;ALM<l>=SEL r
Nor~*M ( 0) =NT SEL Y0073D IN CORE MOt,i DET D RNGE 1 CCI NOT SEQ OF EVENT;ALM(i)=SEL
, NORM<O)=f\\IT SEL
'r'C*074D I f\\1 CORE MO'.l DET D RNGE 2 CCI NOT SEQ OF EVENT:ALM<l>=SEL
, NORM<O>=NT SEL Y0075D IN CORE MOt.J DET D RNGE '"'
~1 NC* SEQ OF EVENT;ALM<l>=SEL r
NORM(Oi=NT SEL
'r'007GD IN CORE MQl,J DET D RNGE 4 CCI NCT SEQ OF EVENT;AL~<l>=SEL 7
NORM(O)=NT SEL Y0077D IN CORE MDV DET D RNGE 5 CCI Nor SEQ OF EVENT;ALM(l)=SEL
, NORM C 0) =!\\IT sr-1 YOC178D IN CORE MOl.J DET D DR Il.JE CCI Nor SEQ OF EVENT:ALM(l)=SEL
, NORMCO)=NT SEL Y0079D IN CORE MDV DET D COM GRP CCI No:* SEQ OF EVENT;ALMC1)=SEL r NORM<O>=NT SEL YOOBOD IN CORE MO'.l DET E ON CCI NOT SEQ OF EVENT;ALM<1>=SEL
, NDr-m ( 0) :::NT SEL r'C-<)81 D IN CORE MOl.J DET E CLBh'ATE CCI No-: SEQ OF EVENT;ALM<l>=SEL 7
NORMCO>=NT SEL
~
Y0082D IN CORE MOl.J DET E FOR F CCI NCH SEQ OF EVENT:ALMC1>=SEL r
NOh'M ( 0) =NT SEL Y0083D IN CORE MOt.J DET E RNGE
- 1.
CCI NC' SEG OF E'.1ENT ~ALM ( 1 ) = SEL
' NORM ( 0) :::NT s::~L
'/0084D IN CORE MDI.I DET E RNGE 2 CCI NCI' SEQ OF El.JENT; ALM C 1 > =SEL r
NORM ( 0)==NT SEL Y0085D IN CORE MDI.I DET E fi'NGE 3 CCI NC. SEQ OF El.JENT; ALM ( 1) =SEL 7
NORMCO)=NT SEL
.:.OUBGD
,... r
.* Iii CORE MOl.J DET E rm GE 4 CCI NC. SEQ OF El.,JENT; ALM ( 1 ) =.SEL r
NORMCO)=NT SEL
'i'C<<)87D IN CORE MDI) DET E RNGE 5 CCI NC* SEQ OF E~,JENT; ALM ( 1) =SEL NOf~:M ( 0) =NT SEL YOOBBD I.l\\I CORE MOt.J DET E DR I t.)E CCI ND :* SEQ OF Et.JENT; t-iLM ( 1) =SEL NORM<O>=NT SEL Y0089D IN CORE MO'.' DET E COM Gf~P CCI NC1T SEQ OF EVENT;ALM<l>=SEL r
J\\!OM:'M < 0)==NT SEL
'{0090D IN CORE MOl.J DET F ON CCI NOT SEQ OF El.JENT; ALM< 1 ) = SEL
, NOFm < 0) =NT SEL YOU81D IN CORE MDI.' DET r Cl_BRATE CCI
l\\11.
- I
- ii082D Ne*
- u*)83D NC, 1'0il84D f\\JC:
'1'00850 NO
"/008GD l\\J c:.
- 'i)087D NC:
'i' 0U88D
!:Jt:.L~
UI-t:.',Jt:.i\\I 1 'HLl'"I '* J. J "'~.Jl:.L IN CORE MDV DET F FOR A SEQ OF EVENT~ALMCl>=SEL IN CORE MDV DET F RNGE 1 SEQ OF EVENT;ALMCl)=SEL IN CORE MDV DET F RNGE 2 SEQ OF EVENT;ALM(l)=SEL IN CORE MDV DET F RNGE 3 SEQ OF EVENT;ALMC1l=SEL IN CORE MDV DET F RNGE 4 SEQ OF EVENT:ALMCil=SEL IN CORE MDV DET F RNGE 5 SEQ OF EVENT;ALMC1l=SEL IN CORE MDV DET F DRIVE NOT SEQ OF EVENT;ALMCll=SEL YU089D IN CORE MDV DET F COM GRP CCI NORM ( 0) ::::NT !3EL.
CCI f\\IOFi'M ( 0) ::=NT SEL CCI l\\IOf:;:M C 0;. ='NT SEi_
cc:;:
NDFd'i ( 0)==l'H SEL CCI 1
Nmm ( 0) ::::j\\IT
~~EL.
, f\\IDr-<M ( 0) '"/\\-IT SEL CCI NOFi'M C 0) =NT SEL CCI NC:.- SEO OF El.JEi\\lT; ALM ( 1) ::::SEL NDFi'M ( 0-) :.::NT SEL
)'0100D 21 CHARGE PUMP BREAKER CCI NUT SEQ OF EVENT:ALMC1l=CLOSED, NORMCO>=OPEN Y0101D 22 CHARGE PUMP BREAKER CCI NC SEQ OF EVENT;ALM<l>=CLOSED. NORM<O>=OPEN ru~02D 23 CHARGE PUMP BREAKER CCI NC SEQ OF-EVENT;ALMC1)=CLOSED, NORM<O>=OPEN
/01030 CHARGE SUCT MAKE UP ALT VA CCI NO SEQ OF EVENT;ALMCll=NT CL, NORMCOl=CLOSED Y0104D VOLUME CONTROL TANK MAKE UP VA CCI NGI SEQ OF EVENT;ALMC1l=NT CL, NORMCOl=CLOSED i0320D 21 RCL UNDER FREQ PRT TRP BCCI Sf~ OF EVENT=ALM ONLY :ALM<l>=SET
, NORMCO>=RESET Y0321D 22 RCL UNDER FREQ PRT TRP BCCI SEn OF EVENT=ALM ONLY ;ALM<l>=SET
, NORMCO>=RESET Y0322D 23 RC~ UNDER FREQ PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALMCl>=SET
, NORMCO>=RESET Y0323D 24 RCP UNDER FREQ PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM<1>=SET
, NORMCO>=RESET Y0324D RCP BUS UNDER FREQ REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORMCO>=NT TRP Y0335D UNIT ON LINE BCCI SE~ OF EVENT=ALM ONLY ;ALMCO>=OPEN
, NORM<l>=CLOSED Y0380D REACTOR TURBINE TRIP +P7 BCCI SEt~ OF EVENT=AlM+RTN
- ALM ( 1 >=Tr-? IP
, NORM< 0 >:::NT TRP Y0381D TURBINE STOP VA 21 BCCI SEn OF EVENT=ALM+RTN
- ALM<O>=NT CL, NORM<l>=CLOSED Y0382D TURBINE STOP VA 22 BCCI SEQ OF EVENT=ALM+RTN
- ALM<O>=NT CL, NORM<1>=CLOSED Y0383D TURBINE STOP VA 23 BCCI S~Q OF EVENT=ALM+RTN
- ALM<O>=NT CL, NORMCll=CLOSED Y0384D TURBINE STOP VA 24 BCCI SEn OF EVENT=ALM+RTN
- ALM<O>=NT CL, NORM<l>=CLOSED Y0400D 21 RCP BREAKER seer S~~ OF EVENT=ALM+RTN
- ALM<O>=CLOSED, NORM<l>=OPEN
'..I 4 v l lJ
.:::. l
- , I 1*1 L1 t
- '" Lu L v L T
Lu r-IA!
ri t:. H L I u rx CH.. w 1 SEQ OF EVENT=ALM+RTN
- ALM<ll=TRIP
, NORM<O>=NT TRP Y0402D RWST LO LVL CHAN 1 BCCI SEI~ OF EVENT=ALM+RTN
- ALM< 1) =LOW
, NORM< 0) =NT LOW (04030 21 STM GEN FW IN VA CCI NO-SEQ OF EVENT~ALMC1l=CLDSED, NDRM<Ol=NT CL i0420D 22 RCP BREAKER BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP 104220 RWST LO LVL CHAN 2 BCCI SFf~ OF E'.,JENT=ALM+RTN
- ALM ( 1) =LOW r
NORM ( 0) =NT LOW
!0423D 22 STM GEN FW IN VA CCI NCI f SEQ OF El.IEl'H; ALM ( 1) =CL.OSED, NORM ( 0) =l\\IT CL Y0440D 23 RCP BREAKER BCCI SEQ OF EVENT=ALM+RTN
- ALM<1>=TRIP
, NORM<O>=NT TRP Y0442D RWST LO LVL CHAN 3 BCCI SEn OF EVENT=ALM+RTN
- ALMC1)=LOW
, NORM<O>=NT LOW
':'O<AJD 2:.'.l STi1 GEN FIAi I /\\I 1.JA CC I NCf SEQ OF EVENT:ALMCll=CLOSED, NORMCOl=NT CL Y0450D 25 VACUUM PUMP CCI Ncr SEQ OF EVENT;ALMC1l=TRIP 7
NDRM<O>=NT TRP Y04GOD 24 RCP BREAKER BCCI SEQ OF EVENT=ALM+RTN
- ALM<1>=TRIP
, NORM<O>=NT TRP Y04G2D RWST LO LVL CHAN 4 BCCI Si:.1.~ OF EVENT=ALM+RTN
- ALM< 1) =LOl...f
, NORM ( 0) =NT LOl...f 104G3D 24 STM GEN FW IN VA CCI ND~ SEQ OF EVENT:ALM<l>=CLOSED, NORMCO>=NT CL Y0480D PRESSZR LO P SI REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=TRIP
, NORM<O>=NT TRP
\\04SSD THERM BARRIER COOLING FLOW VA CCI NC - SEQ OF EVENT;ALM<l>=START NORMCOl=TRIP
.. :.C'300D 21 RHR PUMP CCI NGr SEQ OF EVENT:ALM<l>=START, NORMCO>=TRIP i0l01D 22 RHR PUMP CCI NOT SEQ OF EVENT;ALMC1>=START, NORMCO>=TRIP
- OG02D 21 COMP COOLING PUMP CCI i\\iC,-
SEQ OF' E'.,JE:NT; i-1U'i \\ 1 l :o: STmi'T NORM C 0 :*:::TR IP
- ~S03D 22 COMP COOLING PUMP CCI 1\\iC' SEO OF El.JENT;Pilii(l)=STf1RT, l\\![1f-;*Jvi(0/"TRIP ZJ COMP COOLING
?U~P
- . <.* *.; 0 4 D r.:::
SEQ OF EVENT:ALMCll=START r
f,l0Ri'1(0):::;T\\~IP
- 1..
i S d~ iJ F E 1.1 ENT ; Pi U1 ( :L ) = Hd P YOSZOD SI MANUAL TRIP 1 SEfJ OF El.!E/\\IT:::(.'.'\\[_M-1-FtTl\\J Y0921D SI MANUAL TRIP 2 E>>CC I
- fiLM< 1) =TfHP BCCI r
NClf-?M ( 0) 1=NT TPt:J
!:ii:: l:l Ur C.l.IC.N I =ALf'l+i"\\' IN
. ; (-)i_["I 1. 1):: Ii"\\' J J-'
7 l\\r:._11*1r1 \\ {j} "'Ill I I l'l'i' i0822D
.21 SAFETY INJECT PUMP CCI NC. SEQ OF EVENT;ALMCl)=START, NORM(O)=TRIP 108230 22 SAFETY INJECT PUMP CCI NOT SEQ OF EVENT;ALM(l)=START, NORMCO)=TRI?
,*,y12:+D 21 CONT srr-?AY PUMP cc I NC SEQ OF EVENT;ALMCll=START NORMCOl=TRIP Y0925D Nc*,-
Y0930D NC:T
'1101GD 22 CONT SPRAY PUMP CCI SEQ OF EVENT;ALMC1)=START, NORM<Ol=TRIP 23 VACUUM PUMP CCI SEQ OF EVENT;ALMC1l=TRIP
, NORM<Ol=NT TRP 21 TURBINE HYD OIL PUMP CCI SEQ OF EVENT;ALMC1>=START, NORMCO)=TRIP
{10170 21 AUX FW PUMP SUCT ALT VA CCI NC~ SEQ OF EVENT;ALMC1l=CLOSED, NORMCO>=OPEN Y1018D 22 AUX FW PUMP SUCT ALT VA CCI NO. SEQ OF EVENT;ALM<l>=CLOSED, NORM<O>=OPEN Y1018D 23 AUX FW PUMP SUCT ALT VA CCI NG SEQ OF EVENT;ALM(l)=CLOSED. NORMCOl=OPEN Y1044D 22 TURBINE HYO OIL PUMP CCI NCf SEQ OF EVENT;ALM<l>=START, NORMCO>=TRIP Y1045D SPARE CCI CCI NOT SEQ OF EVENT:ALMC1>=CLOSED, NORM<O>=OPEN
.!' 1 Cl54D NC:".
NUT Y:l057D NC*
l l 0580 NC:
Y2003D SEQ Y2004D SEQ
"{20050 SEG 21 CONTAIN VNT FAN UNIT VIB CCI SEQ OF EVENT;ALM(l)=HIGH
, NORMCOl=NT HI 22 CONTAIN VNT FAN UNIT VIS CCI SEQ OF EVENT~ALMC1>=HIGH
, NORM<O>=NT HI 23 CONTAIN VNT FAN UNIT VIB CCI SEQ OF EVENT;ALM<l~=HIGH
, NORM<O>=NT HI 24 CONTAIN VNT FAN UNIT VIB CCI SEQ OF EVENT;ALM<l>=HIGH
, NORMCO>=NT HI 25 CONTAIN VNT FAN UNIT VIB CCI SEQ OF EVENT;ALM<1>=HIGH
- NORM<O>=NT HI TURBiNE TRIP BCCI OF EVENT=ALM ONLY :ALM<1>=TRIP NORM<O>=NT TRP TURBINE TRIP CONSOLE BCCI OF EVENT=ALM ONLY :ALM<l>=TRIP
, NORM<O>=NT TRP TURBINE REMOTE EMERG TRIP BCCI OF EVENT=ALM ONLY :ALM<l>=TRIP
, NORM<O>=NT TRP Y!OOGD TURBINE LATCH CCI NO.. SEG OF EVENT;ALMC1)~0FF
!\\I~! r SEQ OF Et.JENT; (=iU1<1) =CLOSED r NOf~M ( Ol =NT CL Y?112D 21W TURBINE BYPASS VA 33 CCI NO~ SEQ OF EVENT~ALMC1>=CLOSED, NORMCO>=NT CL
NOT SEQ OF EVENT;ALMC1l=CLOSED, NORMCOl=NT CL 1"/l14D 22W TURBINE BYPASS VA 37 CCI NOT SEQ OF EVENT;ALMClJ=CLOSED, NORMCOl=NT CL
- .*
- 1SD 23W TURBINE 2.YP1~SS l)A J8 CCI NQ~ SEQ OF EVENT;ALMCll=CLOSED. NORMCO>=NT CL (Z11GD 23W TURBINE BYPASS. VA 41 CCI NC:* SEQ m: El.JENT; ALM< J. >,~CLOSED, NDR~*i < o) "'NT c:_
Y?117D 21E TLJ~*f::~HilE 2.YP1~SS l)f~ 31 CCI NO~ SEQ OF EVENT;ALMCll=CLOSEDr NDRMCO>=NT c1 Y2118D 21E TURBINE BYPASS VA 33 CCI NO. SEQ OF EVENT;ALMCl>=CLOSED, NORM<Ol=NT CL (2118D 22E TURBINE BYPASS VA 35 CCI NG: SEQ CF EVENT;ALM(l)=CLOSED, NORMCO>=NT CL Y21200 22E TURBINE BYPASS VA 37 CCI NCT SEQ OF EVENT;ALM<ll=CLOSED, NORM<O>=NT CL Y::' 121 D 23E TURBINE e.YPASS l.JA 38 CC I NO: SEQ OF EVENT;ALM<1l=CLOSEDr NORM<O>=NT CL Yi1220 23E TURBINE BYPASS VA 41 CCI NO: SEQ OF EVENT:ALMCll=CLOSED, NORM<O>=NT CL Y2123D 24 VACUUM PUMP CCI NOT SEQ OF EVENT;ALM<ll=TRIP
, NORM<O>=NT TRP Y2124D TURBINE GEN EMERG BRG OIL PUMP CCI NtT SEQ OF EVENT;ALMCl>=START, NORM<O>=TRIP Y~125D UNIT 1 PRIME TANK VA CCI NOT SEQ OF EVENT;ALMC1)=NT CL r
NORMCO>=CLOSED
~*!150D TURBINE HP SO BACKUP P~MP ND" SEQ OF EVENT:ALMC1l=START r
NORM<Ol=TRIP
- "'..-'.. :100 21 & 22 FL~ HTR E'.YP?~SS l.Jt1 CCI NGT SEQ OF EVENT:ALMCl)=CLOSED, NORMCOl=NT CL Y?211D 21A HTR FW IN.VA CCI NC: SEQ OF EVENT:ALMC1l=CLOSED, Y2214D 218 HTR FW IN VA CCI NO: SEQ OF EVENT;ALMCll=CLOSEDr Y2217D 21C HTR FW IN VA CCI NC: SEQ OF EVENT:ALM(l)=CLOSED, (22300 23-25 FW HTR BYPASS VA CCI NOT SEQ OF EVENT:ALMCll=CLDSEDr Y2231D.23A HTR FW IN VA CCI NC. SEQ OF El.JENT; AU'I ( 1) =CLOSED T Y22320 ZG FW HTR BYPASS VA CCI NGl. SEQ OF EVENT;ALMC1l=CLOSEDr Y2Z34D 238 HTR FW IN VA CCI NL "i'. SEQ OF El.JENT; ALM ( 1 >=CLOSED, Y2237D 23C HTR FW IN VA CCI NOl-'M ( 0) :::J\\IT CL i\\IOri'M < 0 l ::."tllT wl-J\\IORM ( 0;. =NT f' !
~L-NOl-~1""1(0) :::J\\~T
.~.
L., i~-
i'JOfm < 0 ;. ::::f\\IT CL NOf\\'M ( 0 >=NT CL Nmm<O>=:NT CL Ne** SEQ OF EVENT:ALMC1>=CLOSED, NORMCO>=NT CL Y2253D 21 FW HTR DRAIN PUMP CCI NOf SEQ OF EVENT;ALM<l>=START, NORM<O>=TRIP Y225GD 22 FW HTR DRAIN PUMP CCI NOT SEQ OF EVENT;ALM<l>=START, NORM(Ol=TRIP
- ,*77~qn 7~ ~w HTP DRATN PUMP CCI
NUT SEQ OF EVENT:ALMCll=START, NORM!O>=TRIP
,*;zG1D ZGA FW HTR FW IN VA CCI NC SEQ OF EVENT;ALMCll=CLOSED, NORMCOl=NT CL
~*;*zs4D 2GB FW HTR FW IN VA CCI NCT SEG OF EVENT;ALMCll=CLOSED, NORMCOl=NT CL 1'? ZG7D 2GC Fi.-1 HTR r--1,.i IN l.JA CC I ND-* SEQ OF EVENT; AU1 ( 1)==CLOSED, NDRM ( 0) =NT CL.
1'.*:'270D SPAr-*E B ISTBLE CC I NOT SEQ OF EVENT;ALMC1l=NT CL, NORMCOl=CLOSED 1?401D 21A CIRC CCI NOT SEQ OF EVENT;ALMCl>=START NORMCOl=TRIP
!?4020 218 CIRC CCI NOT SEQ OF EVENT;ALMCll=START, NORMCOl=TRIP
{/40~DT SES OfREVEN~~~LM<ll=START, NORM<Ol=TRIP Y2404D 228 CIRC
- CCI NOT SEG OF EVENT;ALMC1l=START, NORMCOl=TRIP
{/4050 23A CIRC CCI NOT SEQ OF EVENT;ALMC1l=START, NORMCOl=TRIP Y240GD 23B CIRC CCI NOT SEQ OF EVENT;ALMC1l=START r
Y2408D REACTOR HEAD VNT VLV 2RC40 NOT SEQ OF EVENT;ALMC1>=NT CL,
YZ410D REACTOR HEAD VNT VLV 2RC43 NOFi'MCOl=TRIP CC I.
NOF?M < 0 >=CLOSED CCI NOT SEQ OF EVENT;ALMC1l=NT CL, NORMCO>=CLOSED Y2411D REACTOR HEAD VNT VLV 2RC41 CCI NG SEQ OF EVENT;ALMC1>=NT CL, NORMCO)=CLOSED
"{24120 REACTOR HEAD VNT VLV 2RC42 CCI NOT SEQ OF EVENT;ALMCl>=NT CL, NORMCO>=CLOSED Y!413D SPARE CCI CCI NOT SEQ OF EVENT;ALMC1l=CLOSED, NORMCO>=OPEN "f7414D SPARE CCI CCI NOT SEQ OF EVENT;ALM<il=CLOSED, NORM<Ol=OPEN Y2451D SPARE CCI CCI NOT SEQ OF EVENT;ALMC11=CLOSED, NORMCO>=OPEN
¥25000 21 CNDENST PUMP BCCI SEQ OF EVENT=ALM ONLY ;ALM<O>=TRIP
, NORM<l>=START Y2501D 22 CNDENST PUMP BCCI S~N OF EVENT=ALM ONLY ;ALM<O>=TRIP
, NORM<l>=START YZ502D 23 CNDENST PUMP BCCI SER OF EVENT=ALM ONLY ;ALM(O)=TRIP
, NdRM<l>=START
':'~*'.503D 21 1-.IACUUI'!
e.RE<=iKEI~ VA
,-, r.. r L,I~ l.
NCf SEQ OF EVENT;ALMC1>=NT CL, NORMCO)=CLOSED Y2504D 22 VACUUM BREAKER VA NOT SEQ OF EVENT:ALMC1>=NT Y2505D 23 VACUUM BREA~ER VA CCI CL, NORMCO)=CLOSED
- CCI NOf SEQ OF EVENT;ALM<l>=NT CL, NDRM<Ol=CLOSED Y7310D SPARE CCI CCI NOT SEQ OF EVENT;ALMC1)=CLOSED, NORMCOl=OPEN Y?511D SPARE CCI CCI NGT SEQ OF EVENT;ALMC11=CLOSED, NORMCOl=OPEN Y2600D 23 AUX FW PUMP TURBINE STOP VA BCCI
~I: lll ur r:.vr:.1\\1 I -'HLl"l*T\\ I i-U~C:..JJ r l\\fU1"'1:1*1 \\.l I -a'I I
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- 'G01D E'-i_OWD!.JN FLrn,/
r:'c;::
l\\iC - SEQ OF El.JENT;:(~;
i\\ICJRl"*1<0 !==CL GS ED
- Zr302D SPARE CC I c:
NOT SEQ OF EVENT;
-LDSED, NORM<Ol=OPEN
'ZG03D 21 SGFP TURP.
.1rrn STOP l,JA BCCI SEQ OF El.lEl'H:: AU JNL y
- ALM ( 1 ) =CLOSED 1 Nmm ( 0) =NT CL Y2604D 22 SGFP TURBINE MS STOP VA BCCI SEH OF EVENT=ALM ONLY ;ALM<l>=CLOSED, NORMCO>=NT CL (2605D 21 AUX FW PUMP BCCI SEQ OF EVENT=ALM+RTN
- ALM<O>=TRIP
, NORM<l>=START V2606D 22 AUX FW PUMP BCCI SEH OF EVENT=ALM+RTN
- ALM<O>=TRIP
, NORM<ll=START
(/6070 21 BLD STM COIL DRN TNK PU BRKR CCI NO" SEQ OF EVENT;ALMC1l=NT CL, NORM<Ol=CLOSED
- i'? 13 0 8 D 2 2 BL D S TM C 0 I L DR N TN K PU B fi* !<. R CC I NOT SEQ OF EVENT:ALMC1)=NT CL, NORM<O>=CLOSEO Y2608D 22 SGFP TURBINE HRH STOP VA BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=CLOSED, NORM<O>=NT CL Y2610D 21 SGFP TURBINE MS STOP VA BCCI SEQ OF EVENT=ALM ONLY :ALMC1)=CLOSED, NORMCOl=NT CL Y?G11D 22 SGFP TUfi'BINE INB Bf-W l.JI8 CCI NOT SEQ OF EVENT:ALM<ll=HIGH
, NORM<O>=NT HI Y2G12D 22 SGFP TURBINE OUT BRG VIB CCI NOT SEQ OF EVENT;ALMC1l=HIGH
, NORM<Ol=NT HI Y?614D 21 SGFP TURBINE INB BRG VIB CCI NCr SEQ OF EVENT:ALMC1l=HIGH
, NORM<O>=NT HI Y/6150 21 SGFP TURBINE OUT BRG VIB CCI NC - SEQ OF EVENT;ALMC1l~HIGH
, NORMCO>=NT HI
/?6200 21 SGFP TURBINE OUT BRG EXCENTY CCI NGr SEQ OF EVENT;ALM<ll=HIGH
, NORM<O>=NT HI
/!G21D 22 SGFP TURBINE OUT BRG EXCENTY CCI NC SEQ OF EVENT;ALMC1l=HIGH
, NORM<Ol=NT HI I: 7000 25 St.JC V.ITR PUMP CC I NC - SEQ rJF EVENT;ALMCll=START NORMCO)=TRIP 1'? 701 D 2G St.JC
!,~Tl~ PUMP CC I NCT SEQ OF EVENT;ALMCll=START, NORMCOl=TRIP Y?702D 23 St.JC L.JTR PUMP CCI NC:;- SEQ OF EVENT:ALMC1)=START, NORMCOl=TRIP
- ./?7<)3D
n St.JC
,,:;_~
WTt-' PUMP CC I
/\\!CT.SEG OF EVENT:ALM=START, NDRMCOl=TR!P Y ;, 704D
':'i
.....i. St.JC L*lTI,' PUMP CC: I NC: SEQ OF EVENT;ALMC1)=START, NORMCOl=TRIP Y:? 105D LL 51,1c WTR PUMP CCI NCJT SEQ OF EVENT;ALMCl)=START, NORM<O>=TRIP Y?BOOD 2E 4Kl,J GROUP BUS 21ESD BREAKER CCI NUT. SEQ OF EVENT:ALMC1)=CLDSED, NORMCO>=OPEN
"/?802D 3 UNIT 13KV BREAKER CCI NGT SEQ OF EVENT;ALMC1l=CLOSED, NORM<O>=OPEN Y:?803D 2 STA
~~-
- ~~
CCI NCJ"i SEG qTART, NrJRMCOl=TRIP
1 *. :. I:)(}'+ LJ L.
b i t-l
~i l I~ CU I'll-' I~ t:. ::J HU I U
'~ '~ l NCT SEQ OF EVENT;ALM<l>=OFF
, NORM<O>=DN
(~8u:~
- ZC EMERG DIESEL CCI NOT SEQ OF EVENT;ALMCl>=START NORMCO)=TRIP
{28080 BUS SEC 2-3 13KV BREAKER CCI NOT SEO OF EVENT;ALMCl>=CLOSED, NORM<O>=OPEN
"(28080 SPARE CCI CCI NOT SEQ OF EVENT;ALMCl)=ON
, NORM<Ol=OFF
(!8080 EXCITER FIELD BREAKER CCI NOf SEQ OF EVENT;ALM=CLOSEO, NORM<O>=OPEN 128100 BS 3-4 13KV BREAKER BCCI SEQ OF EVENT=ALM ONLY ;ALM<O>=OPEN
, NORM<1>=CLOSED (28110 BS 4-5 13KV BREAKER BCCI SEG OF EVENT~ALM ONLY ;ALMCO>=OPEN
, NORMC1>=CLOSED Y281ZD BS 5-6 13KV BREAKER BCCI SEG OF EVENT=ALM ONLY ;ALM<O>=OPEN
, NORM<l>=CLOSED Y2813D. BS 6-1 13KV BREAKER BCCI SEU OF EVENT=ALM ONLY ;ALM<O>=OPEN
, NORMC1>=CLDSED 128140 SPARE BISTBLE BCCI NOT SEQ OF EVENT;ALM<l>=CLOSED, NORMCO>=OPEN (28150 SPARE BISTBLE BCCI SL~ OF EVENT=ALM ONLY :ALM<O>=OPEN
, NORM<ll=CLOSEO Y2816D GEN EXCTATN TRIP CCI NOT SEG OF EVENT;ALM<1>=TRIP
, NORM<Ol=NT TRP Y2818D 2A VITAL BUS 21ASD BREAKER CCI NCiT Y~:BZOD I\\![!\\"
- '?821D SEQ OF EVENT;ALM(1)=CLOSED, NORM<O>=DPEN ZA VITAL BUS 22ASD BREAKER CCI SEQ OF EVENT;ALM<1>=CLOSED, NORM<O>=OPEN 28 VITAL BUS 21BSD BREAKER CCI NG. SEU OF EVENT;ALMC1>=C~OSED, NORMCO>=OPEN l.!822D 28 VITAL BUS 22BSD BREAKER CCI
',.:'.82:JD i\\i'::
. 824D NC 1.*.:*.825D NC!T
'(?82GD ND r 2C VITAL BUS 21CSD BREAKER SEQ OF EVENT;ALMC1)=CL03~D.
2C VITAL BUS 22CSD BREAKER SEQ OF EVENT;ALMCll=CLDSED.
2A EMERG DIESEL CCI SEQ OF EVENT;ALMCl)=START T
28 EMERG DIESEL CCI SEQ OF EVENT;ALM<l>=START,
CC: I
[..,.,.,.
_,L., J.
- \\IDRM ( 0 i =-"IJPEi\\i NOf<i"i(O):.::TRI:':l NOF.'M ( 0) =Ti IP
- ,.3270 2F
.q.1._;1.1 Cil-WUP BUS 28FGD i::i!;*[{~KER CCI NC SEQ OF EVENT;ALM(1J=CLOSED, NORMCO!=O~EN
{28280 2F 4KV GROUP BUS Z2FSD BREAKER CCI
- '°?r328D l\\ICT
- ,*/830D Ne: r Y~:.'832D l\\lCif Y2833D SEG OF EVENT;ALM(i)=CLOSED, NORM(Ol=OPEN ZG 4KV GROUP BUS 2BGGD BREAKER CCI SEQ OF EVENT;ALMCll=CLOSED, NORM<O>=OPEN ZG 4KV GROUP BUS 22GSD BREAKER CCI SEQ OF EVENT;ALM<l>=CLOSED, NORM<O>=OPE~
2H 4KV GROUP SUS 2AHGD BREAKER CCI SEQ OF EVENT;ALMC1l=CLOSED, NORM<O>=OPEN 2H 4KV OROUP SUS 21HSD BREAKER CCI
I "I '-.! I
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,_, I I_.** L-I,
I 7 i-1 '-' l '..L I
. -...... J._ w....., L~. J..f 7 L '1 \\...I I \\ I ' *, *-* (
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(.:8340 2E 4KV GROUP BUS 2AEGD BREAKER CCI NG,* SEQ OF EVENT;ALMCll=CLOSED, NORM<O>=OPEN
, /835D ZA4D 460/230 TFi'NSFt'lf~ BREAK Er-*
CC I NGf SEQ OF EVENT;ALM(l)=CLOSED, NORMCOl=OPEN Y283GD 2B4D 480/230 TRNSFMR BREAKER CCI NOT SEQ OF EVENT;ALM(l)=CLOSED, NORMCO)=OPEN 1*~837D 2C4D 460/230 TRNSFMR BREAKER CCI Nor SEQ OF EVENT;ALMCl>=CLOSEDr NORM(O)=OPEN (2800D SPARE CCI CCI NOT SEQ OF EVENT;ALM<1l=CLOSED, NORM<Ol=OPEN Y2901D SPARE CCI CCI NOT SEQ OF EVENT:ALM<l>=CLOSED, NORM<O>=OPEN Y/9020 UNIT 2 PRIME TANK VA CCI NOf SEQ OF EVENT;ALM<l>=NT CL, NORM<O>=CLOSED Y 29030 UN IT 1 CNDENST t.JA CC I NCr SEQ OF EVENT;ALMCl)=CLOSED, NORM<O>=NT CL
'i':2804D SPARE CC I CC I NOT SEQ OF EVENT;ALM<l>=CLOSED. NORMCOl=OPEN Y2905D SPARE CCI CCI NOT SEQ OF EVENT;ALM<1>=CLOSED. NORMCOl=OPEN Yl810D 2 EMERG CONTROL AIR CMP CCI NCT SEQ OF EVENT;ALMC1)~START, NORMCO>=TRIP Y2812D 2 EMERG CONTROL AIR CMP AUTO CCI NCT SEQ OF EVENT;ALM<l>=DFF
, NORM<Ol=ON Y3000D ANNUNC LOSS OF AC CCI No** SEQ OF EVENT;ALM(1)=TRBL
, NORMCOl=NOTRBL Y3001D ANNUNC LOSS OF DC CCI NOT SEQ OF EVENT;ALM<ll=TRBL
, NORMCO>=NOTRBL Y3002D ANNUNC SYStEM GRND CCI NGT SEQ OF EVENT;ALMC1>=TRBL
, NORM<O>=NOTRBL Y8000D OPERTOR CONSOLE KEY SWITCH CCI NOT SEQ OF EVENT;ALMCl>=ON
, NORMCO>=OFF Y9031D PWR RNG CHAN HI Q RATE REACTOR BCCI SEQ OF EVENT=ALM+RTN
- ALMCl>=TRIP
, NORM<O>=NT TRP Y9032D PWR RNG CHAN 1 HI Q RATE PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM<l>=SET
, NORM<O>=RESET Y8033D PWR RNG CHAN 2 HI Q RATE PRT TRP BCCI SEQ OF EVENT=ALM ONLY ;ALM(l)=SET T NORM<O>=RESET Y9034D PWR RNG CHAN 3 HI Q RATE PRT TRP BCCI SEQ OF EVENT=ALM ONLY :ALM(l)=SET
, NORMCOJ=RESET Y9035D PWR RNG CHAN 4 HI Q RATE PRT TRP BCCI SEij OF EVENT=ALM ONLY :ALM<l>=SET
, NORM<O>=RESET YS036D SPARE BISTBLE BCCI NOT SEQ OF EVENT;ALMCl>=CLOSED, NORM<O>=OPEN Y8037D RWST SI INTRLCK BCCI SEQ OF EVENT=ALM+RTN
- ALM<l>=SET
, NORMCO>=RESET f8038D RWST SWOVER SEQ TRIP BCCI SEQ OF EVENT=ALM+RTN
- ALM<1>=SET NORM<O>=RESET Y8039D SPARE BISTBLE BCCI NOT SEG OF EVENT;ALMC1>=CLOSED, NDRMCOl=OPEN
ENCLOSURE 3 SAMPLE SEQUENCE OF EVENTS PRINTOUT S~Q OF EVEMrs AT 10SJ6rJa cYcLEs --.uooo* f-'U4aJD*1 f'kE:SS2R Hl f'RE:ss REACTOR HUP.,_ ___ ~,? 1a.i1\\ 1 ~~D UUOU* P04aU0*1 PRSSSZ~ HL~H p 1 PRr TRP ser UOOU* P04810*1 ~~lssi~ HlGH ~ 2 f'kT 1~P S~1 UUU7t YZtlUJO*l TURSIN~ fRIP rRIP CYCLES--.ut1!J7* YUCJ06D*O. fl:E:AC1 OR. J1AIN lJUP SKR A Tlll.P._ ___ S\\<.R A. o9&"1'i:'
ai::HC Pll4aJU*ll PReSSZR HI' PRSS$ REACTO~ ~ r ru