ML20050B365
| ML20050B365 | |
| Person / Time | |
|---|---|
| Site: | Grand Gulf  |
| Issue date: | 04/01/1982 |
| From: | Dale L MISSISSIPPI POWER & LIGHT CO. |
| To: | Harold Denton Office of Nuclear Reactor Regulation |
| References | |
| RTR-NUREG-0831, RTR-NUREG-831 AECM-82-78, NUDOCS 8204050251 | |
| Download: ML20050B365 (13) | |
Text
__ -
MISSISSIPPI POWER & LIGHT COMPANY Helping Build Mississippi P. O. B OX 16 4 0. J A C K S O N. MIS SIS SIP PI 3 9" to N April 1, 1982 e
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wuctten Ps,coucTsow otPAntutNT gECs/p;g 1
U. S. Nuclear Regulatory Commission E
4PR 05 Ib82ab
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Office of Nuclear Reactor Regulation drag.h4rg Washington, D.C.
20555 Atag g
th, e
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Attention:
Mr. Harold R. Denton, Director
'D 9'tirt} $
Dear Mr. Denton:
SUBJECT:
Grand Gulf Nuclear Station Units 1 and 2 Docket Nos. 50-416 and 50-417 File 0260/0862 Safety Related Display Instrumentation and l
Post-Accident Monitoring, SER Items 1.10 (16) & (17)
As requested in Supplement No. I to the Safety Evaluation Report (SER) for Grand Gulf Nuclear Station NUREC-0831, Mississippi Power & Light (MP&L) is providing the en:losed information pertaining to concerns identified as Confirmatory Issue 1.10(17).
In support of your review of this issue MP&L has developed the following attachments in order to update information regarding the environmental and seisnic qunlification status of all post-accident monitoring equipment identi-tled in FSAR Table 7.5-1.
As delincated in Attachments 1 and 2 of this the environmental and scismic qualification covers the conplete
- report, post-accident instrumentation channel from each sensor to its respective recording device and in addition, includes associated field and control room cabling.
In addition MPSI. has committed to conply with the requirements of Regulatory Guide 1.97, Revision 2 or to provide adequate justification on a case-by-case basis (AECM-Sl/225, dated 7/21/81). This revision reflects a number of nalor changes in regard to post-accident monitoring equipment. The schedule for inplementation will be accomplished in accordance with that established by Sc: tion D of Regulatory Guide 1.97 Revision 2.
Therefore, we conclude that until we complete our evaluation of Regulatory Guide 1.97 Revision 2 and implement its requirements, the current qualification status and associated qunlification program to upgrade post-accident monitoring equipment (as discussed in Attachments 1 and 2s is adequate for interin operattous.
liased on MP&l 's above commitment s to Regulatory Guide 1.97 Revision -,
it is MPal.'s position that SER Confirmatory issue 1.10 (16), on Safety Related Display Inst rument at ton should be t reat ed as a 1.icense Condit ion and t hat the next SER supplement should so retlect this.
8204050231
{DRADOCXo 00I 6
bddle South Utilities System 3
Poa
\\
AECM-82/78 MISSISSIPPI POWER & LIGHT COMPANY age 2
\\ppropriate portions of the attached information will be incorporated into the Grand Gulf FSAR.
If you have any questions or require further information, please contact this office.
Yours, j &
- ruly, 7
l
/
f
/L. F. Dale
/
Manager of Nuclear Services JTB/JGC/JDR:ph j
Attachments:
1.
Environmental Qualification for Post-Accident Monitoring Instrumentation 2.
Seismic Qualification for Post-Accident Monitoring Instrumentation cc:
Mr. !;. l..
Stampley Mr. R. B. McGehee
!!r. T. B. Conner Mr. C. B. Taylor Mr. Richard C. DeYoung. Director Office of Inspection & Enforcement U. S. Nuclear Regulatory Commission Washington, D.
C.
20555 Mr. J. p. O'Reilly, Regional Administrator Office of Inspection and Enforcement
!!.S. Nuclear Regulatory Commission Region 11 101 Marietta St.,
N.W., Suite 3100 Atlanta, Georgia 30303 l
I
hammmesummede h Attachment I to AECM-82/78 Post-Accident Monitoring Equipment Environmental Qualification ENVIRONMENTAL SIGNAL / INSTRUMENT MAXE/MODEL LOCATION QUALIFICATION i
1.
Reactor Vessc] Pressure A.
B21-PT-N062A/B Rosemount/1152 1A311/lA313 Note 6 B.
B21-UR-R623A/B Leeds & Northrup Control Room hote 9 Speedomax/MK III C.
Cable (Field)
Samuel & Moore /IYl.IBl Sensor to Control Note 7 IY4,IBC Room D.
Cable (PCCC)
Control Room Note 8 2.
Reactor Vessel cevel n.
B21-LT-N09]A/B Rosemount/1152 1A311/1A313 Note 6 B.
B21-UR-R623A/B Leeds and Northrup Control Room Note 9 Speedomax/MK III C.
Il21-LIS-N691 A/ B Rosemount 510DU2 Control Room Note 2 D.
Cable (Field)
Samuel & Moore /IYl,IBl. St.ntor to Control Note 7 lY4,lBC Room E.
Cable (PCCC)
Control Roon Note 8 3.
Suppression Pool Level A.
E30-LT-N003C/D Rosecount/IISIDPSA 1All5/lAll6 Note 1 B.
E30-LIS-N600C/D Rosemount/510DU2 Control Room Note 2 C.
E30-1.R-R600A/B Bailey /771 Control Room Note 4 D.
Cable (Field)
Samuci & Moore /IYl,IBl Sensor to Control Note 7 Room E.
Cable (PGCC)
Control Room Note 8 a
A.
E30-LT-N004A/B Rosemount/liS3DB3 1All5/lA116 Note 1 B.
E30-1.IS-N601A/B Rosemount/510DU2 Control Room Note 2 C.
E30-LR-R600A/B Bailey /771 Control Room Note 4 D.
Cabic (Field)
Samuel & Moorc/IYl.IBl Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Roon Note 8 4
Drywell Pressure A.
M71-PDT-N001A/ll Rosemount/ll51DPbA 1A410/lA428 Note I h.
M71-PUIS-N601A/B Rosemount/510DU2 Control Room Note 2 C.
M71-PDR-R601A/B Bailey /771 Control Room Note 4 D.
Cable (Fleld)
Samuel & More/;Yl.1Bl.
Sensor to Control Note 7 IY4,IBC Roon E.
Cnble (PGCC)
Control Room Note 8 5.
Containment Pretsure A.
M 71 -PDT-N00.' A / B Rosemeunt/ll51DP5A 1 A4.'8/ l A417 Note 1 11.
M71-PDIS-N602A/B Rosemount/510DU2 Control Room Note 2 C.
M71-PDR-R601A/li Bailey /771 Control Room Note 4 D.
Cable (Fleld)
Samuel & Moorc/1YI,lBl Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 'l riphi
,e
- . y -
Att:chment 1 to AECH-82/78 w?f[
Post-Accident Monitoring Equipment
.4 Environmental Qualification I
ENVIRONMENTAL ti.
SICNAL/ INSTRUMENT HAKE /MODEL LOCATION QUALIFICATION
?d)
,~%
A.
H71-PDT-N027A/B Rosemount/1151DP6A 1A428/1A417 Note 1
" $N B.
E31-1/E-K654A/B Bailey /766 Control Room Note 4'
,, ?sf C.
H71-PDR-R601A/B Bailey /771 Control Room Note 4
';pL D.
Cable (Ficid)
Samuel & Moore /1Y1,IB1 Sensor to Control' Note 7 yp?',-
Room f \\-
E.
Cable (PCCC)
Control Room Note 8 f
6.
Drywell Temperature f-'
'.F.
A.
H71-TE-N008A/B Thermoelectric /"T" 1A112 Note 3 B.
H71-TT-N605A/B Bailey /620/740 Control Room Note 4 C.
H71-TR-R602A/B Bailey /771 Control Room Note 4 D.
Cable (Fleid)
Samuci & Hoore/TY1 TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
' Control Room Note 8 A.
H71-TE-N008C/D Thermoelectric /"T" lA112 Note 3 B.
H71-TT-N605C/D Bailey /620/740 Control Room Note 4 C.
H71-TR-R603A/B Bailey /771 Control Room Note 4 D.
Cabic (Ficid)
Samuci & Hoore/TY1.TB1 Sensor to Control Note 7 Room E.
Cabic (PCCC)
Control Room Note 8 7.
CRD Cavity Temperaturc A.
H71-TE-N013A/B Thermoelectric /"T" lA113 Note 3 B.
H71-TT-N607A/B Bailey /620/740 Control Room Note 4 C.
H71-TR-R602A/B Bailey /771 Control Room Note 4 D.
Cable (Field)
Samuel & Hoore/TY1,TB1 Sensor to Control Note 7 Room E.
Cabic (PCCC)
Control Room Note 8 i.
s A.
H71-TE-N013C/D The rmocicet ric/"T" 1A113 Note 3 B.
H71-TT-N607C/D Bailey /620/740 Control Room Note 4 C.
H71-TR-R603A/B Ba11cy/771 Control Room Note 4 D.
Cabic (Field)
Samuel & Hoore/TYl.TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 8.
Containment Temperature A.
H71-TE-N007A/B The rmoele c tric/"T" lA313/lA311 Note 3 B.
H71-TT-N627A/B Bailey /620/740 Control Room Note 4 C.
H71-TR-R602A/B Bailey /771 Control Room Note 4 D.
Cabic (Field)
Samuel & Hoore/TYl.TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Cont rol Room Note B C.1ph2
Attcch:ent 1 to AECH-82/78 Post-Accident Monitoring Equipment Environmental Qualification ENVIRONMENTAL [
SIGNAL /INSTRt'HENT HAKE /MODEL LOCATION QUALIFICATION A.
H71-TE-N007C/D The rmoelectric/"T" lA313/lA311 Note 3 B.
H71-TT-N627C/D Bailey /620/740 Control Room Note 4 C.
H71-TR-R602A/B Bailey /771 Control Room Note 4 D.
Cabic (Field)
Samuel & Hoore/TY1.TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 9.
Supprension Pool Temperature A.
H71-TE-N012A/B Thermoelectric /"T" 1A313 Note 3 B.
H71-TT-N606A/B Rochester /1326W Control Room Note 4 C.
M71-TIS-N603A/B Rosemount/510DU2 control Room Note 2 D.
M71-TR-R605A/B Bailey /771 Control Room Note 4 E.
Cable (Ficid)
Samuel & Hoore/TYl TBl. Sensor to Control Note 7 TGl.T01 Room F.
Cabic (PCCC)
Control Room Note 8 A.
M71-TE-N022A/B Thermoelectric /"T" lA313 Note 3 B.
M71-TT-N612A/B Rochester /1326W Control Room Note 4 C.
M71-TIS-N622A/B Rosemount/510DU2 control Room Note 2 D.
M71-TR-R605A/B Bailey /771 Control Room Note 4 E.
Cable (Field)
Samuel & Hoore/TY1,TBl. Sensor to Control Note 7 TG1,T01 Room F.
Cable (PCCC)
Control Room Note 8 A.
M71-TE-N023A/B Thernoclectric/"T" lA313 Note 3 E.
M71-TT-N613A/B Rochester /1326*J Control Room Note 4 C.
M71-TIS-N623A/B Rosemount/510DU2 Control Room Note 2 D.
M71-TR-R605A/B Bailey /771 Control Room Note 4 E.
Cabic (Ficid)
Samuel & Hore/TY1 TBl.
Sensor to Control Note 7 TC1.T01 Room F.
Cabic (PCCC)
Control Room Note 8 A.
H71-TE-N024A/B The rmoelect ric/"T" 1A313/1A311 Note 3 B.
M71-TT-N614A/B Rochester /1326W Control Room Note 4 C.
M71-TIS-N624A/B Rosemount/510DU2 Control Room Note 2 D.
M71-TR-R605C/D Bailey /771 Control Room Note 4 E.
Cable (Ficid)
Samuel & Hoore/TYl TB1, Sensor to Control Note 7 TCl T01 Room F.
Cable (PCCC)
Control Room Note 8 A.
M71-TE-N025A/B The rmoelect ric/"T" 1A311 Note 3 B.
M71-TT-N615A/B Rochester /1326W Control Room Note 4 C.
M71-TIS-N625A/B Rosemount/510DU2 control Room Note 2 1
D.
M71-TR-R605C/D Bailey /771 Control Room Note 4 E.
Cabic (Fic1d)
Samuel & Moore /TY1.TBl. Sensor to Control Note 7 TC1.T01 Room i
F.
Cable (PCCC)
Control Room Note 8 C3ph3
- - ~ ~
- ~
Attcchment 1 t3 AECH-82/78 t^}
Post-Accident Monitoring Equipment
~
Environ = ental Qualification
..y ENVIRONMENTAL
'.'J:,
SIGNA 1./ INSTRUMENT MAKE/MODEL LOCATION QUALIFICATION P '
c,.
A.
H71-TE-N026A/B Thermoelectric /"T" 1A311 Note 3
- f.
B.
H71-TT-N616A/B Rochester /1326W Control Room Hote 4 C.
H71-TIS-N626A/B Rosemount/510DU2 Control Room Note 2 3!
D.
H71-TR-R605C/D Bailey /771 Control Room Note 4 E.
Cabic (Field)
Samuel & Hoore/TY1.TB1, Sensor to Control Note 7 TG1.T01 Room F.
Cabic (PCCC)
Control Room Note 8 10.
In-Containment Area Radiation A.
D21-RE-N048 A/D Victorcen/877-1 1A112. 1A601 Note 10 B.
D21-RITS-K648 A/D Victorcen/876A-1 Control Room hote 11 C.
D21-RR-R601A/B Bailey /771 Control Room Note 4 D.
Cable (Field)
Raychem/IY8,IB8,1QY Sensor to Control Note 7 Room E.
Cabic (PCCC)
Control Room Note 8
- 11. Drywel'./Contairment Differential Pressure A.
E61-PDT-N014A/B Rosceount/1153DB6 1A110 Note 1 B.
P41-I/E-K604A/B Bailey /766 Control Room Note 4 C.
E61-PDR-R601A/B Bailey /771 Control Roon Note 4 D.
Cable (Ficid)
Samuel & Moore /1Y1,IB1 Sensor to Control Note 7 Room E.
Cabic (PCCC)
Control Room Note 8 12.
Dryvell Hydrogen Concentration A.
E61-J001A/3 Comsip-Delphi/K-III 1A420/1A417 Note 5 B.
E61-I/E-K600A/B Bailey /766 Control Room Note 4 C.
E61-AR-R602A/B Bailey /771 Control Room Note 4 D.
Cabic (Field)
Samuel & Moore.
Sensor to Control Note 7 Okonite, & Rockbeston/
Roor IY1,I B1.CYS.CY7, CY 9, CB7,BB6.BY6 E.
Cabic (PCCC)
Control Room Note 8 13.
Containment liydrogen Concentration A.
E61-J002A/B Comsip-Delphi/K-III 1A320/1A417 Note 5 B.
E61-I/E-K600A/B Bailey /766 Control Room Note 4 C.
E61-AR-R602A/B Bailey /776 Control Room Note 4 D.
Cabic (Ficid)
Samuel & More.
Sensor to Control Note 7 Okonite & Rockbestos/
Room same as 9.D E.
Cable (PCCC)
Control Room Note 8 C3ph4
, a;+ -
F Attochetnt I to AECH-82/78
?'$r" Int Post-Accident Monitoring Equipment 1dE Environmental Qualification w
. n;;
MP Notes:
's y$[b' 1.
The Rosemount 1151 pressure transmitters e.e environmentally qualified 3
for interim operation in accordance with the requirements of NUREC-0588.
Justification for interin operation was provided in AECH-81/231, dated July 1, 1981. The Rosemount 1153 pressure transmitters are environmentally qualified in accordance vitta the requirements of NUREG-0588. Qualification testing information was provided in AECH-81/231 dated July 1, 1981. All 1151 transmitters will be replaced (commitment provided in AECH-81/231) with 1153 type transmitters by June of 1982 or shortly thereafter.
2.
The Rosemount instrument trip units are environmentally qualified in accordance with the requirements of IEEE 323-74. Environmental qualification testing information is delineated in FSAR Table 3.11-7, Sheet 39 of 69.
3.
The Thermoelectric temperature elements are environmentally qualified for interim operation in accordance with the requirements of NUREG-0588.
Justification for interin operation was provided in AECH-81/231, dated July 1, 1981. Qualification testing is scheduled to be completed by February of 1983.
4.
A qualification program to ervironmentally qualify the Bailey and Rochester instruments to the criteria of IEEE 323-74 is currently in progress. Equipment qualification test results or justification for interim operation vill be provided prior to fuel load.
'~
5.
The Comsip Delphi instrument analyzer is environmer. tally qualified for interin operation in accordance with the requirements of NUREG-0588.
Justification for interim operation was provided in AECH-81/231, dated July 1, 1981. Environmental qualification testing is scheduled to be completed by February of 1983.
6.
The Rosemount 1152 pressure and level transmitters are environmentally qualified for interim operation in accordance with the requirements of NUREG-0588. Justification for interim operation was provided in letter AECM-81/502, dated December 21, 1981.
7.
Field cables routei from their respective sensors to the control room are environmentally qualified in accordance with the requirements of NUREG-0588. Qualification testing information was provided in letter AECM-81/231, dated July 1, 1981.
8.
Power Generation Control Complex (PGCC) cables and panel connector assemblics were identified and qualified in accordance with the requirements of IEEE 323-74 Qualification information was provided in AECH-81/80, dated February 20, 1981.
C4phl
' Attachment 1-to'AECH-82/78
' 'b' Post-Accident Monitoring Equipment Environmental Qualification
. e.
.Hotes (Contin'ed) u 9.
The Leeds and Northrup Speedomax recorders are (located in mild environ-ment) environmentally qualified in accordance with the requirements of i
IEEE 323-71. Qualification testing informatior. vill be incorporated into a future FSAR amendment. Qualification testing in accordance with the criteria set forth in IEEE 323-71 is adequate until mild environment criteria is established. In addition, surveillance requirements are established in Technical Specification subsection 4.3.7.5 to demonstrate equipment operability by performing channel check and calibration opera-tions at monthly frequencies.
10.
The Victorcen detector elements are environmentally qualified in accordance with the requirements of NUREG-0588. Qualification testing information was provided in letter AECH-81/231, dated July 1,1981.
- 11. The Victoreen trip units are environmentally qualified in accordance with the requirements of IEEE 323-74. Qualification testing information will be delincated in FSAR Table 3.11-7, which will be incorporated into the next available FSAR amendment.
i l
C4ph2
q--
l
'yQ y
Vf/
- to AECM-82/78
.p t Post-Accident Monitoring Equipment l'
Seismic Qualification SEISMIC SIGNAL / INSTRUMENT FJJ(E/MODEL LOCATION QUALIFICATI0g 1.
Reactor Vessel Pressure A.
B21-PT-N062A/B Rosemount/1152 1A311/1A313 Note 5 B.
B21-UR-R623A/B Leeds & Northrup Control Room Note 6 Speedoenx/MK III C.
Cable (Field)
Samuel & Moore /1Y1,IB1 Sensor to Control 1.ote 7 IY4, IBC Room D.
Cable (PCCC)
Control Room Note 8 2.
Reactor Vessel Level A.
B21-LT-N091A/B Rosemount/1152 la311/AA313 Note 5 B.
B21-UR-R623A/B Leeds and Northrup Control Room Note 6 Speedomax/MK III C.
B21-LIS-N691A/B Rosemount/510DU2 Control Room Note 2 D.
Cable (Field)
Samuel & Moore /IY1,IB1, Sensor to Control Note 7 1Y4,IBC Room E.
Cable (PCCC)
Control Room Note 8 3.
Suppression Pool Level A.
E30-LT-N003C/D Rosemount/1151DP5A 1A115/1A116 Note 1 B.
E30-LIS-N600C/D Rosemount/510DU2 Control Room Note 2 C.
E30-LR-R600A/B Bailey /771 Control Roon Note 3 D.
Cable (Field)
Samuel & Moore /1Y1,IB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 A.
E30-LT-N004A/B Rosemount/1153DB3 1A115/1A116 Note 1 B.
E30-LIS-N601A/B Rosenount/510DU2 Control Room Note 2 C.
E30-LR-R600A/B Bailey /771 Control Room Note 3 D.
Cabic (Field)
Samuel & Moore /IY1.IE1 Sensor to Control Note 7 Room E.
Cable (PGCC)
Control Rcom Note 8 4
Dryvell Pressure 1
A.
M71-PDT-N001A/B Rosemount/1151DP6A 1A420/1A428 Note 1 1
B.
M71-PDIS-N601A/B Rosecount/510DU2 Control Room Note 2 C.
M71-PDR-R601A/B Bailey /771 Control Room Note 3 D.
Cable (Ficid)
Samuel & More/1Y1,IB1, Sensor to Control Note 7 IY4,IBC Room E.
Cable (PCCC)
Control Room Note 8 5.
Containment Pressure A.
M71-PDT-N002A/B Rosemount/1151DPSA 1A428/1A417 Note 1 B.
M71-PDIS-N602A/B Rosemount/510DU2 Control Room Note 2 C.
M71-PDR-R601A/B Bailey /771 Control Room Note 3 D.
Cabic (Ficid)
Samuci & Moore /IYl.IB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Roon Note 8 Ciphl
i.y i
')~
,5 '
3 3
g to AECM-82/78 illO
- ;i,
- s Post-Accident Monitoring Equipment
- h
~
Seismic Qualification SEISMIC SIGNAL / INSTRUMENT MAKE/MODEL LOCATION QUALIFICATI0'N A.
M71-PDT-N027A/B Rosemount/1151DP6A 1A423/lA417 Note 1 B.
E31-I/E-K654A/B 3ailey/766 Control Room Note 3 i
C.
M71-PDR-R601A/B Bailey /771 Control Room Note 3 D.
Cable (Field)
Samuel & Moore /IY1,lB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 6.
Dryvell Temperature A.
M71-TE-N008A/B Thermoelectric /"T" 1A112 Note 2 B.
M71-TT-N605A/B Bailey /620/740 Control Room Note 3 C.
M71-TR-F602A/B Bailey /771 Control Room Note 3 D.
Cable (Field)
Samuel & Moore /TY1 TB1 Sensor to Control Note 7 Room E.
Cable (PGCC)
Control Room Note 8 A.
M71-TE-N008C/D Thermoelectric /"T" 1A112 Note 2 B.
M71-TT-N605C/D Bailey /620/740 Control Room Note 3 C.
M71-TR-R603A/B Bailey /771 Control Room Note 3 D.
Cabic (Field)
Samuel & Moore /TYl TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 7.
CRD Cavity Temperature A.
M71-TE-N013A/B Thermoelectric /"T" 1All3 Note 2 B.
M71-TT-N607A/B Bailey /620/740 Control Room Note 3 C.
M71-TR-R602A/B Bailey /771 Control Room Note 3 D.
Ccble (Field)
Samuel & Moore /TY1 TB1 Sensor to Control Note 7 Room E.
Cabic (PCCC)
Control Roon Note 8 A.
M71-TE-N013C/D Thermoelectric /"T" 1All3 Note 2 B.
M71-TT-N607C/D Bailey /620/740 Control Room Note 3 C.
M71-TR-R603A/B Bailey /771 Control Room Note 3 D.
Cabic (Field)
Samuel & Moore /TYl,TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 8.
,Co,ntainment Temperature A.
M71-TE-N007A/B The rmoelec tric /"T" 1A313/lA311 Note 2 B.
M71-TT-N627A/B Bailey /620/740 Control Roon Note 3 C.
M71-TR-R602A/B Bailey /771 Control Room Note 3 D.
Cabic (Fic1d)
Samuel & Moore /TY1 TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 l
I riph2
[$i.
~, to AECH-82/78 i
Post-Accident Monitoring Equipment
,5,Y Seismic Qualification SCISMIC SIGNAL / INSTRUMENT MAKE/MODEL LOCATION QUALIFICATION A.
M71-TE-N007C/D Thermoelectric /"T" 1A313/1A311 Note 2
'l' B.
M71-TT-N627C/D Bailey /620/740 Control Roora Note 3 C.
M71-TR-R602A/B Bailey /771 Control Room Note 3 D.
Cabic (Ficid)
Samuel & Moore /TY1,TB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 9.
Suppression Pool Temperature A.
M71-TE-N012A/B Thermoclectric/"T" 1A313 Note 2 B.
M71-TT-N606A/B Rochester /1326W Control Room Note 3 C.
M71-TIS-N603A/B Rosemount/510DU2 Control Room Note 2 D.
M71-TR-R605A/B Bailey /771 Control Room Note 3 E.
Cable (Field)
Samuel & Moore /TY1,TB1, Sensor to Control Note 7 TG1,T01 Room
~
F.
Cabic (PCCC)
Control Room Note 8 A.
M71-TE-N022A/B Thermoelectric /"T" 1A313 Note 2 B.
M71-TT-N612A/B Rochester /1326W Control Roor Note 3 C.
M71-TIS-N622A/B Rosemount/510DU2 Control Roon Note 2 D.
M71-TR-R605A/B Bailey /771 Control Room Note 3 E.
Cable (Ficid)
Samuel & Moore /TY1,TBl. Sensor to Control Note 7 TC1.T01 Room F.
Cabic (PCCC)
Control Room Note 8 A.
M71-TE-N023A/B Thermoelectric /"T" 1A313 Note 2 B.
M71-TT-N613A/B Rochester /1326W Control Room Note 3 C.
M71-TIS-N623A/B Rosemount/510DU2 Control Room Note 2 D.
M71-TR-R605A/L Bailey /771 Control Room Note 3 E.
Cable (Field)
Samuel & More/TY1 TBl.
Sensor to Control Note 7 TG1.T01 Room F.
Cable.(PCCC)
Control Room Note 8 A.
M71-TE-N024A/B Thermoelectric /"T" 1A313/lA311 Note 2 B.
M71-TT-N614A/B Rochester /1326W Control Room Note 3 C.
M71-TIS-N624A/B Rosemount/510DU2 Control Room Note 2 D.
M71-TR-R605C/D Bailey /771 Control Room Note 3 E.
Cable (Field)
Samuel & Moore /TYl,TB1, Sensor to Control Note 7 TG1,T01 Room F.
Cabic (PGCC)
Control Room Note 8 A.
M71-TE-N025A/B Thermoelectric /"T" 1A311 Note 2 B.
M71-TT-N615A/B Rochester /1326W Control Room Note 3 C.
M71-TIS-N625A/B Rosemount/510DU2 Control 1;oon Note 2 D.
M71-TR-R605C/D Bailey /771 Control Room Note 3 E.
Cabic (Ficid)
Samuel & h ore /TY1.TBl. Sensor to Control Note 7 TG1,T01 Room F.
Cabic (PCCC)
Control Room Note 8
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.jp to AECM-82/78 Post-Accident Monitoring Equipment 7
Seismic Qualification
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I SEISMIC SICNAL/ INSTRUMENT MAKE/MODEL LOCATION QUALIFICATION A.
M71-TE-N026A/B Thermoelectric /"T" 1A311 Note 2 B.
M71-TT-N616A/B Rochaster/1326W Control Room Note 3 C.
M71-TIS-N626A/B Rosemount/510DU2 Control Room Note 2 D.
M71-TR-R605C/D Bailey /771 Control Room Note 3 E.
Cabic (Ficid)
Samuel & Moore /TY1 TB1, Sensor to Control Note 7 TG1,T01 Room F.
Cabic (PCCO)
Control Room Note 8 10.
In-Containment Area Radiation 1
A.
D21-RE-N048 A/D Victorcen/877-1 1A112, 1A601 Note 9 B.
D21-RITS-K648 A/D Victorcen/876A-1 Control Room Note 9 C.
D21-RR-R601A/B Bailey /771 Control Room Note 3 D.
Cable (Field)
Raychem/IY8,1B8,1QY Sensor to Control Note 7 l
Room E.
Cable (PCCC)
Control Room Note 8 11.
Drywell/ Containment Differential Pressure A.
E61-PDT-N014A/B Rosemount/1153DB6 1A110 Note 1 B.
P41-1/E-K604A/B Bailey /766 Control Room Note 3-C.
E61-PDR-R601A/B Bailey /771 Control Roon Note 3 D.
Cable (Field)
Samuei & Moore /IY1,IB1 Sensor to Control Note 7 Room E.
Cable (PCCC)
Control Room Note 8 12.
Dryvell Hydrogen Concentration A.
E61-J001A/B Consip-Delphi/K-111 1A420/1A417 Note 4 B.
E61-I/E-K600A/B Bailey /766 Control Room Note 3 C.
E61-AR-R602A/B Bailey /771 Control. Room Note 3 D.
Cable (Ficid)
Samuel & Moore.
Sensor to Control Note 7 Okonite, & Reckbestos/
'..a on IY 1, IB!.. Ci s, CY7, CY 9, CB7,BB6,BY6 E.
Cabic (PCCC)
Control Room Note 8 13.
Containment Hydrogen Concentration A.
E61-J002 A/ B Comsip-Delphi/K-III 1A420/1A417 Note 4 B.
E61-1/E-K600A/B Bailey /766 Control Roon Note 3 C.
E61-AR-R602A/B Bailey /776 Control Room Note 3 D.
Cabic (Ficid)
Samuel & More, Sensor to Control Note 7 Okonite & Rockbestos/
Room same as 9.D E.
Cable (PCCC)
Cottrol Roon Note 8 i
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t Attachr'~t 2 to.AECH-82/78 Post-Accident Monitoring Equipment Seismic Qualification E.2.t e_s 1.
The Rosemount 1151 and 1153 instru=cnt transmitters were included in the SQRT program and are seismically qualified in accordance with the requirements of IEEE 344-75. Qualification testing information is delineated in FSAR Tabic 3.10-4, Sheet 21 and 22 (Amendment 54),
respectively. All Rosemount 1151 transmitters will be replaced with Rosemount 1153 transmitters by June of 1982 or shortly thereafter.
(Commitment submitted in AECM-81/231, dated 7/1/81.)
2.
The Rosemount instrument trip units and Thermoelectric tempereture elements were included in the SQRT program and are scismically qualified in accordance with the requirements of IEEE 344-75. Qualification testing information is delineated in FSAR Table 3.10-4, Sheets 23 and 37 of 280 (Amendment 54), respectively.
3.
A SQRT qualification program to seismically qualify the Bailey and Rochester instruments to the criteria of IFEE 344-75 is currently in progress. Equipment qualification test results or justification for interim operation will be provided prior to fuel load.
4.
The Comsip Delphi instrument analyzcts were included in the SQRT program and are scismically qualified in accordance with the requirements of IEEE 344-75. Qualification testing information is delineated in FSAR Table 3.10-4, Sheet 31 of 280 (Amendment 54).
5.
The Rosemount 1152 pressure and icvel transmitters were included in the SQRT program and are scismically qualified in accordance with the requirements of IEEE 344-75. Qualification testing information is delineated in FSAR Table 3.10-6 Sheets 152 and 167 of 186 (Amendment 54).
6.
The Leeds and Northrup Speedomax recorder was included in the SQRT program and qualified in accordance with the regt irements of IEEE 344-75.
7.
Field cabics routed from their respective sensors to the control room termination cabinets are seismically supported by Category I designed cabic trays and conduits. The scismic design criteria for the above supports is described in FSAR subsection 3.10.3.2.2.
8.
Power Ccncration Control Compicx (PCCC) cables and panel connector assemblies were included in the SQRT program and are qualified in accordance with the requirements of IEEE 344-75. Qualification testing information was provided in AECH-81/80, dated 2/20/81.
9.
The Victorcen detectors and trip units were included in the SQRT program and are seismically qualified in accordance with the requirements of IEEE 344-75.
Seismic qualification testing information is delineated in FSAR Table 3.'0-4, sh. 34 of 280 (Amendnent 54).
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