ML20035B861
| ML20035B861 | |
| Person / Time | |
|---|---|
| Site: | Claiborne |
| Issue date: | 03/24/1993 |
| From: | LOUISIANA ENERGY SERVICES |
| To: | |
| Shared Package | |
| ML20035B743 | List: |
| References | |
| DC-SE-0008-SD, DC-SE-0008-SD-R00, DC-SE-8-SD, DC-SE-8-SD-R, NUDOCS 9304050210 | |
| Download: ML20035B861 (30) | |
Text
.
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4 FLUOR DANIEL, INC.
F CALCULATION TITLE PAGE
~
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FLUOR DANIEL date: 3-24-93 Louisiana Energy Services By: RMD Chk'd: ERH rP o
Sheet 2@ 5 Claiborne Enrichment Center Seismic Qualification - Autoclave Control Panels Calculation No. DC-SE-0008-SD e
g, dr TABLE OF CONTENTS Pace Title Page 1
1.0 Objective of Calculation 3
2.0 Quality Assurance Level 3
3.0 Codes and Standards 3
4.0 References 4
4 5.0 Assumptions 4
6.0 Equipment Review 5
7.0 Analysis of Equipment 17 8.0 Conclusion 30 i
w l
FLUOR DANIEL date: 344-93 Louisiana Energy Services By: RMD Chk'd: ERH 4y Claiborne Enrichment Center Sheet 3 o Seismic Oualification - Autoclave Control Panels Calculation No. DC-SE-0008-SM M yh 1.0 Objective of Calculation The objective of this calculation is to show that the System class I equipment which controls the heating loop of the autoclaves is qualified to perform its required function i
during and after a Design Basis Earthquake.
The Safety Class I items are listed in SAR Section 4.6, Table 4.6-1.
A diagram and description of the System Class I components is given in the Instrumentation and Controls document, Reference 6.
2.0 Quality Assurance Level Quality Assurance Level I applies to these calculations, since the failure of the system involved could possibly result in offsite exposure levels of hazardous materials exceeding limits for public health and safety.
3.0 Cod 3s and Standards 1.
American Institute of Steel Construction,
" Manual of Steel Construction, Allowable Stress Design, 9th Edition, j
1989.
FLUOR DANIEL date: 3-24-93 Louisiana Energy Services By: RMD Chk'd: ERH Claiborne Enrichment Center Sheet 4 d M Seismic Qualification - Autoclave Control Panels Calculation No. DC-SE-0008-SD %
i i
4.0 References 1.
Fluor Daniel, Inc., " Structural Discipline Design Basis for the Claiborne Enrichment Center", Issued September 20, 1990, Revision 0.
(Also given in SAR Section 4.2) l 2.
Senior Seismic Review and Advisory Panel (SSRAP), "Use of Seismic Experience and Test Data To Show Ruggedness of Equipment In Nuclear Power Plants",
Revision 4.0, February 28, 1991.
3.
Nuclear Regulatory Commission (NRC), " Supplement No. I to the Generic Letter (GL) 87-02",
Dated May 22, 1992.
(Transmits SSER No. 2) 4.
NRC, " Verification of Seismic Adequacy of Equipment in Older Operating Nuclear Plants",
Supplemental Safety i
Evaluation Report No.
2 (SSER No.
2) on Seismic Qualification Utility Group's Generic Implementation Procedure for Implementation of GL 87-02 (USI A-46),
Revision 2, Corrected February 14, 1992 S.
Louisiana Energy Services, Claiborne Enrichment Center Safety Analysis Report (SAR) 6.
Fluor
- Daniel, System Class I
instrumentation and i
Controls, Description and Criteria, CEC document dated January 31, 1991, 5 pages plus attached sketch.
5 5.0 Assumptions i
Assumptions are stated as they are used in the body of the calculations.
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R;JTD CLAVE (CoUTDO L f~hiWfA i
2 Bill of Materials
+
Iten Otv Description Weicht (Ea) 5 e
1 4
Circuit Breaker 0.5 7
2 24 Fuse Block O.25 e
3 4
Terp Transmitters 3
io 4
12 Relay,4PDT,24 VDC 2
I ii 5
8 Pushbutton, Mor.entary 0.25 is 6
4 Selector Switch, 2 Pos 0.25 i
'8 i
i
+
is 7
12 Indicator Light, Red 0.25 l
s 8
4 Indicator Light, White 0.25 i
'6 i
l 9
4 Terminal Strip, 50 Pt 4
se 10 16 Contactor, 120 VAC 3
11 4
Power Supply 10 20 12 8
Isolators 3
22 13 8
Switches 3
i
~
14 1
Enclosure 360 2.
Total Weight 613 Feiuubs 3
26 27 l
29 29 3D 31 4
l "J n a
.w b
35 1
l l
i 2
2
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u n 2 u u n u 2.
DATE M d3 CONT.140.753 Hot._
i pe#"
CHK'D POTTER & BRUMFIELD l SHEET NO-ao n -.
v-o
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WW
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, m. _
KUP series enclosea mew gr c-c's mo relays offer a variety of 4 A-re;
^-a e4 6
6 contact ratings, mounting l'
-u sass m
,r.
120 2250 options and other features.
6 32.1 KUP SERIES relays are UL recognized under Fde E22575 and t KUP-sD1b 12 123 12W SPOT 10's CSAcertif.ed under File LR15734. An exceptiUnally wide variety 24 472 "O
N mounting. termination contact ratings and other options make the K U P-S A5 s-120 2250 PvA 0e KUP series relays idea!!y suited for many diverse applications. In Kup-soss 24 472 12W iO e addition to the options avai!ab5 in the KUP series the KUMP t wFn A M-120 22W EVA s's f
series offers 15 amp contact ratings KUEP series ofrers DC emnon-24 472 12W 5*.
switching to 10 amps at 150 VDC. KU and KUM series are open 0
j versicns of this relay with additional mounting options 3
OPTIONS:
1KUP 11 A15-24 B5 2VA 10*e 120 2250 KUP-11 A15120 50/60 H2 Coit 240 9 110 s
21 KUP-11 D15-24 DC Coit 1KUP-11015-12 120 12W 10**
KUP-11 A15-120 Socket mountable y
30 3 ]
KUP-11 A25-120 Socket mountable with push-to4est but-tKuP-11 A25 120 2250 12W DPOT 10'e ton for manua!!y actuating contacts 24 es
'KUP-11 A3F 2VA 10 KUP 11 A35120 Socket mountable with highly visible 120 2 250**
neon lamp which indicates the presence 12 120 of Coil power
,KUP-12o25 24 472 i2W 20 110 10.000 KUP 11 A45120 Socket rnountable with neon indicator 24 es and push-to test button KUP-11 Ask 120 2250 l
KUP-11 A55120 Side-flange mount case j
J21 l
KUP-11 A15120 Top flange mount case. Snaps into plas.
KUP-11055-24 472 12W 10*
- tic rnounting track. (See Accessories as 1.8M t
l section of this catalog )
"9 N
E UP-11 AT5-120 2250 2VA 10*
- i KUP-11 A11-120 Fine silver. 5 amp contacts with.187*
,73 3,
(4.8mm) by.020' (0.5mm) quick con-KUP-11075-1.2W 10'e 77 l
Dect/ Solder termina!s
,,o
,,33
,,3y, 3e l
KUP-11 A15120 Silver cadmium oxide,10 amp contacts
.K UP-14011-24 c2 12W s**
with.187* (4 Smm) by.020' (0.5mm) e 4.2 quick connecusoider terminals 12 is
'*'d"*
2mA tre KUP 17A19120 Silver-cad-nium oxide,10 amp contacts is gy$
with.110' (2.6mm) by 020' (0 Smm) 2,o yfoo quick connect / solder terminals (for socke!
6 321 mount,4 pole relay only) 12 120 tKUP 14015-24 472 12W 10'e I
~ (3 9 1o i or
.y t KUP-14 A2h 120 1.700 2 75vA 10's
-6
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tKUP 14025-24 472 12W 10'e
+
t KUP-14 A31-120 1,700 2 7sVA
$"e g
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- KUP 14 A35-120 1.700 2 75vA 3PDT 1re 1
tKUP-14035 24 472 12W 10*
- 1K UP-14 A45 12D I JM 2 75V A 1 C's l
6 4.2 i
L i
12 18 J
~*
KUP-14A55 24 72 2.75VA 10's 120 1 700 l
2t N 240 7 200 ys U Wl (t? 5) 6 32 1 EUP 14 DES-12 120 12W 10*e KUP, SOCKET MOUNTABLE SIDE-FLANGE MOUNT KUP y
g']
B ttKUP17A19-KUP-14 ATS-2.75VA 10**
h, 12W 1 D**
KUP-14DT 5-2.75 VA 1D**
120 17 t t K UP-17019-W D
3 24 12 KUP-17 Ass-P 7 vA 1C
- 123 17M
}g 1.ew 10**
KUP 17059 TOP-FLANGE MOUNT KUP i
e Dencies UL t So-ket mountable in 27E121 & 27EB93 screw terminat socket A-AMernating Curret. e g EUP14 A l
e DenotesCSA 1t Socket mountat/e in 27EE67 screw terminal socket.
D-Direct Cu' rent.e 9 KUP140 Q Dold f ace Indicates datributor stock llems.
34 AMems a e st> Sed by Poner & Defrid 1
r - e n..
DATE 3 /NY~~
CONT. NO N#}'O AC BY W^O Cgg, != MM POTTER & BRUMFIELD RELAYS sHaspogni y m yg n
vu n - ww p<
.pu SNAP-IN SOCKETS FOR KU SERIES RELAYS THROUGH 3 POLESO
~
OUTLINE DifAENSIONS Nylon snap in sockets with.187" (4.75 mm)
Panel quick connect or solder terminals are available Cut out i
for KU Series relays, through 3 poles, with.187-g,%
+-
(4 75 mm) terminals Snap-in sockets reduce labor by ehminating time consuming screw or ggg];
g g Q
pp ny rivet mounting Preassembled wiring harnesses may also be used as the sockets are designed g
g g p2 A C
_.4 l
1M 4
back. All are rated 15 amps and UL CNo to snap into the chassis from either front or F
S f (s2)
. _ i 395 h
7 U6s T YP.
435 43)
Recognized, File ES9244.
" "I SOCKET WITH SOLDER TERMIN ALS-27E400
.__ $ 23)._
$p-secommended chaws Socket has p',erced term,nats for soidered
._ g'Q Trickriess.03t" ( 7a mm) 2 i
te ET W mm) wire connection. Terminal hole dimensions are.120"(3.0mm) by.000"(1.S mm) 27E400+
SOCKET WITH.187"(4.75 mm) OUICK CONNECT TERMINALS-27E396 Socket has male tab termina!s.1B7"(4 Smm)
AF N by.020" (0.5mm) which will accept female h(
AQ quick connect terminals.
N i 4 OP b'sh.Q' '/
iI If,5 27E396+
HOLD-DOWN SPRING saa.
Hold-down spring f or use with KUP, KUMP, KUEP, KUA, CL-41 or CU-41 relays in snap-in
{7 sockets.
20C254 SOCKETS FOR 4 POLE KU SERIES RELAYS %
OUTLtNE DtMENSIONS PC BOARD LAYOUT
- y2T
"$3f 73 NOTE: Relay with.110" (2.79 mm) quick 6 73) connect / socket mount terminals must be used f
{
with 4 Pole sockets.
2,,o
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4
{(
4PDT.187" [4.75 mm) quick-connect termina!
-Foy g
i 4
g socket rated 10 amps accepts.110"(2.79 mm)
.22e
- T p%
,h relay terminals (tuffix "9"). Molded r*yton.has lo y d
' Ns*, #'s$
m 4
t4 2
4 oi rs, two.165" (4.19 mm) dia. mounting bofes. [34 sj M EOE 3
p u,
c3 0 r
]1 o-(55 s 4 t
Simitar in size, appearance to 27E067 (see N
h 4
i prewous page) o 27E415 gj E
343 l* ___ ce t4j g
i s
.sm 4PDT pnnted circuit terrmnal,10 amp socket j
e7s, eso
.in or m t
7:2 23, 2s (3 a
~
- - 1 cza accepts.110" (2.79 mm) relay terminals t:s sI (suffix "9"). Molded nylon; has two.165" I._ _ i se _
yp+)
27E415 uses same
- -d 34 O E11 (4.19 mm) dia. mounting holes. Similar in sire, appearance to 27E046 (see previous pagel
~ is i3> b k.-
chass s layout as w,o c luwmAts 4u u" 27E043 27E419
-*j 7 1171)
WIP C 1EnMR=ALs SCREW TERMINAL SOCKET FOR 4 POLE KU-27E867 g
--9 4PDT screw terminal socket rated 10 amps Q@
accepts.110' (2.79 mm) KU reiar terminals (sumx '9"). Has two.156* (3 96 mm) dia.
mountmg holes and reautres two CG432 in-OUTLINE DIMENSIONS sulators to track mount. Termina's wi!! accept a assastu ws maximum of two #12 AWG wires For track see
, y,3 gg3 3
.250 s cio
.iss na Fletay and Socket Track tAounting System m P 90
.I F**
- A l
Accessnies Section of this catalog.
~
i rw h-
]g l
i 27EB67*
^g SUGGESTED TRACK fAOUNTING Q
+
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[E9 h
$ [ 4. 9l 7
u
/
mm s,, eu M m w%
i i
44 D MP N tige G.
WI C, m%p.
W Q ]w aor.
Lijwe 1/
s m }m, e(*M 8 'M'1
- w.,c an 1
M-u.
C ' 0 -t
!. *5 8 3 so 1.DM { (5 64 m.7024 NC*
p* Mi \\
L ;09 s4 ro u
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usu.44 c?icac cue (Be 9 a.nz:
2 t.3 4. so 4, e q
- Denotes U/L O Bofd face hdicates distributor stock items.
g ecms are sbcLee tiy Po~er & Dwmseld.
I i
6 38
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DATE
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~-
CONT, NO. C%4-53900 i'~
i BY PJnD CHK'O l
POTTER & BRUMFIELD ACCESSORIES seeET no_ i/ nr in#MMM' 1
_~e.
kJ sl C-6
(/
//
Relay and socket track mounting system.
- 27Ee67 j
l-27E462 N.'0 '
27E461
\\
ydB m 27En6 27E4S7 l
a.:
e 1
R I
(
i i
V I
t ENGINEERlNC D ATA and 27EB93; octat type 27E122,27E123,27EB91 and 27EB92; KH i
Mount;ng severaf industriat screw terminal sockets in compact rows series 27E166,27EB94; R10 series 27E460,27E461 and 27E462; and l
is s: mph!+d by us;ng P8B's metal rnounting track and holding cl.ps.
K10 series 27E487 and 27EB95. Rapid compact assembly of these i
The track 24A110 is available in three foot (914 mm) lengths with sockets is possible by using the steel or po!ycatonate mounting 01:ps.
l mountng holes on 6 inch (152 mm) centem. Track can be cut to sheter shown below.The track will also mount the fcitowing relays: EOTZ, leng*hs for small chass:s assemblies or fu11 sections can be used end-KUB FM, PRD, SSR, SSRD. SSRO and SSRT.
to-end in larger instal:at;ons.
The chart on pages 118-120 lists the various combinations of I
l Made of 1:ghtweight, sturdy ertruded aluminum, the track accyts sockets, rnounting cbps and component hold down springs which may l
several s'yles of screw terminal sockets: KU ser.es 27E121,27E867 be used with the rnounting t:ock.
TRACK AND MOUNTING ACCESSORIES
]
I 24A110 I
Aluminum Nop hat" style rnounting track weh holes on 6 0" (162 4 4
rnm) cente.s. Fio!cs accept # 8 screwc,
~ ~ -
24A071
,1 Steet mounang cl.p with one 7/16"(11.10 mm)long. 4 6 32 screw 24A108 Steel mountng chp wnh one 9/16"(14,27 mm) tong.
- 6 32 5 crew V
'2 24ADES g~
?4A110
/
Steel mounnny chp with two #G-40 screws Used to mount 27E123 If 7
x;/;f socket.
j eg
, j' t*"
24A072 P;astic twist-chp for 27E166. 27E122,27E123 and 27E487 sockets.
?
]
V 40G432 Twist chp nio track to hold socket in place. except when used on end of the track. Use 24A071 on ends of track to lock fest and last
[
24A005 socket in place.
s
)
M 4DG432 24AD72 4
Insu'a!ar for track or surface mounting Use wa5 27E460. 27E401 l
27E462 and 27E867 soc 6 cts.
24 A071 k 24A108 b
i l
MOUNTING TRACK OUTLINE DIMENSIONS l
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DATE 3/s199 CONT. NO. C+53966T" B Y PJet>
Q}$q't?Rn" POTTER & BRUMFIELD ACCESSORIES SHEETNQ l E CF E N!d) es--P'- u-.cm r._w...
r m:n N,
f l
>=
ira:
T
'as'
=
i i
i Fig
- 1. Relay / socket track mounting. tAounting clip assembly should be instal!ed on relay or socket, relay or socket placed on track and screw (s) tightened. As screws are tightened, clip should rotate into p! ace.
a Fag. 4. Steel mounting clip 24 A065 for use with 27E123 socket.
.187 WN
[e p
g g
T 61 9licJ y (
' @E@gis t
,i j'
ifSk socvt1 m ostej eA m eg,33,3 I
Fig 2. Clip 24A072 may be used between sockets (except Fig 5. PC board socket surf ace mounting socket 27E121) f/ounting clip assembly. (Fig 1) required to hold first end last socket in place.
)
l I
r M
A
??F K X K l
l f
I I
PC EoARo
- E ADG432 Y
Insula M p4Atig t
-h TRACK Pd USE Fig 6. DIN rail socket track mounting. The socket snaps onto
- top i
hat" syle track without tools or extra han'fware.
1 Fig 3. PC board soch et track mounting MOUNTING ACCESSORIES 2DC314 HOLD DOWN CLIP E
20C314 Steet hold-down clip fastens to the body of the 27E121
{
socket and is used to secure plain case KU family retays into the socket.Two clips are required 20C314 e
24 AD71 & 40G432 F
END CLIP 24A071 Steel mounting clip with one #6-32 screw is used with a 40G432 40G432 insulator to prevent DIN rail mount sockets from moving
{
sideways or 1,!iding off the end of the track.
24A071 i
20C317 R:
ANCHOR CLIP 20C317 steel anchor clp snaps into the body cf the socket cnd is used to fasten relay hold-down springs in position. Two clips are w
- shpped with each DIN rail mount socket.
20C317
)
1 I
hi
N M k b k N N D N A M 11
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Temeneam,i= E52mpsr3 DATC 2//D/y2 CO. 'T. tJO Om 9 09/
=
BY__ BD gngp_ rnp n SHEETho.
l' be 30 DS Pl*~ H -ccop.57, PLATINUM RTD The usual nominal resistance of platinum RTD's is 100 ohms at 0*C. Unfortunately standards are not identical woricwide This presents a problem when an RTD built to one standard is installed in an instrument designed to a different standard in addition, manufactured tolerances rnust be considered Not only do they vary with the manuf acturer and the standard, but the tolerances are affected by the manuf acturing process itself.
Gayesco of fers platinum RTD's to all standards the British and American standards being most readily avail-ab:e. Our normal tolerance is 10b of the reading The following table delineates the most common standards.
ALPHA: AVERAGE NOMINAL TEMR COEFFICIENT OF RESISTANCE ORGANIZATION STANDARD RESISTANCE (C* )
AT0*C BRITISH STANDARDS B.S.1904: 1964 0.003850 100 ASSOCIATION FACHNORMENAUSSCHUSS DIN 43760 0.003850 100 ELEKTROTECHNIK IN DEUTSCHEN NORMENAUSSCHUSS U.S. DEPT. OF MIL-T-24388 0.00392 100
)
DEFENSE AMERICAN SCIENTIFIC R C21-4-1966 0.003923 98.129 APPAR ATUS M ANUFACTURERS ASSOCI ATION (SAMA) trad Wire Tranetion RTD Element i
+
=
i
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, Sheath with Active length hard packed M G O 1"
A!! G AYESCO RTD assemblies are TI G. welded to avoid possible contamination from brazing flux.
Our strict manufactunng procedures are des gned to prevent element contamination from chemicals and moisture.
J G AY E r.3 NE ERlNG t. SM E S CO INC *, 9 t'.'E r T SCE DT,iVE
- F AS ADE N A 7 E A A S 7 750.NS 3
- 713 N 1 - F 50 RTD-1
w qg:{o Flanged Tapered Thermowell
(
SERIES 260FH DATc 3/m m cwi.,w. CMG31lM
.260" BORE
- 2 y. -
DY EMP QpWONW u tn5ernon te,,p SHEET NO. /7 ee $6-
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% NPT A Dement Length APPLICATION:
SHEATHED THERMOCOUPLES, %" DIAMETER STANDARD LENGTH BIMETALLIC THERMOMETERS, %" STEM e
OTHER ELEMENTS LESS THAN.252" DI AMETER SPECIFICATIONS:
FART A
U*
O NUMBER STE M INsE RTioN SHANK 26DTH LENGTH LENGTH DIAMETER
-U2 4
2
-U4 6
4
-U7 9
7 FULL PENETRATION WELDS AVAILABLE ON REQUEST
-U10 12 10
+
-U13 15 13 j
-U16 18 16 l
-U22 24 22 I
'Other "U" dimensions are available.
l l
MATERIALS:
THERMOWELLS MAY BE CONSTRUCTED OF ANY MACHINABLE METAL AVAILABLE IN BARSTOCK.
l PRESSURE RATING DrITERMINED l
BY FLANGE SIZE.
[
I INSERTION LENGTH
- 'U" MAXIMUM VELOCITY TABLE WELL TYPE MATERIAL 2
4 7
10 13 16 22 i
(FEET PER SECOND) 260FH Monel 143 79 8 47.7 31.0 18 8 12.5 6.7 l
See page TW-3 for explanation of von Karman trail effect TO ORDER, SPECIFY:
- Process flange size, rating, f ace, rnaterial
(
- Series No 260FH
- "U" dimension (insertion length)
EXAMPLE:
if a well requires a 2" 300 lb. R F Flange 304 S S,
tapered shank, insertion length of I",.260 bore, and L'
- Material 304 SS rnaterial specify catatog No. 2" 300 lb. R.F.
- Brass or SS plug & chain 304 S S -260FH-U7-304.
(Opdonal) 2559 V.ESTSIDE DmVE o PASADEN A, 7 EX AS 77502-4823 e 713'941-850 TW-13 G AY ENGi'.E E ANG & SAL ES CO. INC e
DATE 3/80l93 b.L50cE /e/)tJSDUCEg3 COfJT. NO. 04539190.
2 BY MD
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- 13. CONTFOL PANELS ASD INSTF.tMENTAT109 CA*1prTS i?
te Control panels and instrumentation cabinets Eenerally consist cf a 19 steel frame supporting sheet netal panels on to which control and 20 instrumentation components are bolted on steel frame and sheet netal 21 cabinets into which electronic compenents are attached (of ten on slide-out drawers). These include a large variety of electrical panels but exclude instruzent racks which are described in Section 14 24 Easec on a review of the data base, which reported this class has 25 performed well, with the exception of a few broken indicator light n
filaments and occasional spurious signals, SSF.AP is of the opinion that 27 control panels and instrumentation cabirets are sufficiently rugged to 29
-(hh4 survive a seismic event generating ground notion with2n the Eeundir.r Snectrum and ressin operational thereafter provided the following
'h N 30 larEe variation in conditions exist in the riuclear facility.
Due to a 31 construction, a valkdown by competent engineers c:us t be performed to cn6 evaluate the adequacy of this class of equipment including the following
- . 33 E
considerations.
3, 8
Computers and prograssable controllers nust be evaluat;d W n c0 76 separately.
2 3
4 5
6 7
8 9.10 11 12 13 14 15 16 17 18 19 20 21 2? 23 24 25 26 27 28 29
Advanced Technofoh[Divisior
. L.OUISIANA ENERGY SERVICES Contract 539000 -
Revision 0 i
Structural Discipline Desion Basis CATri 3729/12 f
CO*1T. HO. 04sa9Ico FIGURE A-1 et P3VLO CHK'D. F #
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Advanced Technology Division.
t LOUIStANA ENERGY SERVICES Contract 539000 '
[
Revision 0 Structural Disclotine Deslan Basis 5'9106~ ~ I C ;
FIGURE h-2
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LOUISIANA ENERGY SERVICES Advanced Technology Division Contract 539000 Revision 0 Structural Discipline Desian Basis G
0
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3/22)93 FLUOR DANIEL caTr CONT.NO. O.I-$ M /())
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%TC2L4Vt= COL 1TCOL W MELSD i
Strip chart recorders must be evaluated separately.
SSRAP is 2
concerned with long, narrow recorders which are cantilevered cff 3
the penel without additional structural support.
The unit is properly anchored. Anchorage shall be evaluated in 5
accordance with guidelines outlined in Section 7.
The steel frase and sheet zetal shall be evaluated in the valkdown for adequacy.
Adequacy vill be based on engineering 9
judgment.
io Fanels or cabinets which contain necessary relays and that are ii capable of iepacting should be bolted tcgether.
Drasers or equipment on slides shall be restrained f ro:n falling out_
Eelays fer which chatter is not acceptable shall be evaluated in
,3 accordance with the guidance E ven in Section 5.
i is There shall be sufficient slack and flexibility in connections, n
is such as electrical cable, to the control panel and i,
instru:nentation cabinet.
20 Esreesucs : UsE On Seismic E<eetreuce Ann 7her Dmn 773 Sca> Pm-scuae tr OF Ec1urpresur L Mocts^e' %ase. %rs,
& ace Smsmue Ekview ma Aaviscae PanaL CSseAP),
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(, { e FLUOR DANIEL date: 3-24-93 Louisiana Energy Services By: RMD Chk'd: ERH Claiborne Enrichment Center Sheet 30 of SA Seismic Qualification - Autoclave Control Panels Calculation No. DC-SE-0008-SDg 8.0 Conclusion The analysis indicates that the System Class I equipment which controls the heating loop of the autoclave is qualified for the required function during and after a Design Basis Earthquake (DBE). The System Class I systems, structures, and i components are designed to prevent or mitigate the [ consequences of credible accidents involving the release of UF - 6 This documentation provides the basis for the seismic I qualification of the Class I components. The seismic t qualification of these components and their supports is supported by recommendations of the Senior Seismic Review and Advisory Panel (SSRAP), contained in Reference 2, listed in Section 4.0. The use of seismic experience data has been accepted for use by the Nuclear Regulatory Commission (NRC) for use in qualifying equipment in existina power plants. (See Ref. 3 and 4) The Class I components and the project's i bounding spectra are well within the bounding descriptions of the SSRAP Report. The data supporting the SSRAP Report t provide the basis for its bounding descriptions. This same data and bounding descriptions are judged also applicable for new facilities. (It is understood that, to date, the NRC has only accepted the use of experience data as sufficient support for new facilities on a case-by-case basis.) l The Class I components documented contain several relays. The l SSRAP Report contains a general caution regarding the qualification of relays. The safety function of this system is not dependent on the continuous function of its relays, because the system is designed so that the autoclave heaters would shut off in the event of seismically-induced relay chatter. The control panel could then re-energize only with a manual reset by the operator. [ A i 5 f m .m .+ -}}