ML20237D121
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.c Commonwrith Edison
!h C 960 North Rout.a 47 1,gL O ~"' Morris, Illinois 60450
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l May 22, 1985 1
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John B. Hickman Reactor Safety Engineer United States Nuclear Regulatory Commission Washington, D.C.
20555
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S UBJ ECT: ERDS TEST AT LA SALLE NUCLEAR POWER STATION q
]
Dear John:
aj As per our agreement regarding the transmission of station computer parameter data for the ERDS Test s cheduled for aj July,1985 the attached lists identifies those computer points.
1 In
- addition, th e specifications for parameter data transmissions are as follows:
4 1)
Frequency - once per minute g
2)
Baud rate - 1200 via telephone line-7!
3)
Format
- ASCII language As ynchrous, 8-Bit,
i no parity with one stop Bit 4)
The transmission will consist of a
Leader (16
,]
characters) and all of the analog values (20 j
characters each, and the Follower (5 characters)-
a.
The 16 character Leaders consist of:
'j 1 Unique beginning character 2 Station identification cnaracters.
,j LS for La Salle Nuclear Power Station
- j 1 Reactor Number character,1 or 2 or 3
')
1 Decimal Point character
[1 6 Date character.
YEAR, MONTH, DAY (YYMMDD) 1 Decimal Point character j
4 Time characters.
24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> clock (NHMM) i
.]
Example for a 16 character leader for La Salle 2 on May 19, 1985 at 1425 (2:25 p.m. )
j; 1
/LS2 850519.1425 L.!
irj b.
All of the 20 character analog values will 4
consist of:
[
6 Sensor Data Base point identifications Alpha Numeric characters (Lef t Justified) i)
10 Analog value characters (+.1 2 3 4 E + D 0) a)
4 Status word characters in HEX format
- (
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.s 8712230058 871210 A
SHOLLYB7-737 PDR
...,y, 7,-
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.-.y...v..,.-,_..-,-1..,,
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,w-..micasan.:.x;acw.ar au%:animeensuc ua:s.a.sw.n&%uauL.uma.Q i
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- ij May 22, 1985 ERDS TEST AT LA SALLE NUCLEAR POWER STATION
- 1 Page 2 of 3
.,i
, 1 Example for 20 character analog value for 4
computer point C014 SPDS-Reactor Pressure l}
having a value of +1500 psig that is in High d
Alarm.
i 9
I 1
C01400+. 1500E+040004 I
a
'1
(
1 i
i c.
The Follower will consist of:
1 4 HEX character check sum i
j 1 Unique ending character 1a Example for a 5 character Follower:
\\A3 3FA6\\
l
- j 5)
The sof tware program uses an X-ON and X-OFF format.
6)
Plant parameter data from the PRIME, are the most H
current at th e moment of transmission, except for j
the scenario data.
.? f.)
7)
To initiate the test personnel at La Salle will j
contact the NBC Operations Center Office in Maryland and establish a telephone link.
Data transmission will be as follows:
t
.d a.
Real plant parameter data will be initially 9
transmitted for a short period of time top be j
able to assure both CECO and NRC programs are operational.
- j b.
La Salle July, 1985 GSEP Scenario par ameter j
data will then be transmited for the duration 7
of the exercise.
j, c.
Real plant parameter data will follow the Scenario data for a short period of time to 1
indicate the return to a
nor mal condit tom.
?l This will terminate the ERDS Test.
i,
,j 8)
As originally discussed, 15 minute averaged meteorological data was requested.
For real pil.ast 7]
parameters this is possible, however, the Scenario j
program can not handle 15 minute averages, ins t:end N
it has the one minute values.
Thus, the one miraute H
averages will be used in the scenario, q
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- :,:i1,kawaOGe2 LAwLGMhaLM.C3J.Meaaw:,.ELKHIE ha '
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1 May 22,'1985
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ERDS TEST AT LA SALLE NUCLEAR POWER STATION
'i t
Page 2 of 3
'I i
j If you have any problems, concerns or questions, please
'i contact me as soon as possible at Mazon EOF, Dresden extension j
753.
CECO computer personnel have started software development and if there are any changes I need to inform them so that our target data of the test is achieved.
l; Prepared By: / cLw/
A 3
' La p ? W.
Duchek j
Emergency Planning
.j Supervisor i
I
- . s Approved By: JM
\\
j 4 John C. GolMen~
j)
Supervisor
s Emergency Planning 1
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D.L. Farrar gj N.E. W&ndke y
L.D. Butterfield J.C. Golden d
B.B. Stephenson q
L. D. Thompson 3
G.J. Diederich i
C. Gains P.
Tebbe 1,
T.G. Blackmon
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4 LA SALLE BWR PARAMETERS 1
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COMPUTER POINT DESCRIPTION UNITS C014 #
SPDS-Reactor Pressure PSIG C013 /
SPDS-Reactor Level INCHES
- }
C188/
C189/
j C019<
SPDS-Reactor Power l
.i A840 Total RX FW FLOW Mt/H
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j C000 TOTAL FEEDWATER PLOW Mf/H 3
i SAFETY INJECTION SYTEMS j
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A808 LPCS PUMP DISCH Flow GPM l
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i A801 RHR PUMP 2B DISCH Flow GPM
'l A802 RHR PUMP 2C DISCH Flow GPM LI l,I CONTAINMENT SYSTEMS I i C015 /
SPDS - DW PRESS PSIG ll C016 SPDS - DW TEMP DEGF j
H k, A810 DW H2 Concentration A837 DW H2 Concentration
'i C018 /
SPDS-SUPP TEMP DEGF L;
C017/
SPDS-SUPP LVL FEET l
l RADIATION MONITORING SYSTEMS l
,i fj C102 #
SPDS-Containment Rad KR/HR l
C218 /
SPDS-OFF-GAS Radiation R/HR A827 STN VNT STACK GAS-HIGH RNG uCi/CC i
A825 /
STN VNT STACK GAS-LOW RNG uCi/CC A826 STN VNT STACK GAS-MID RNG uCi/CC A83/9/
STN VNT STACK FLOW KCFM l /,
A830 SGTS EFF GAS HIGH uCi/CC 4
A834 SGTS EFF GAS LOW uCi/CC A833 SGTS EFF GAS MID uCi/cc j
.i A831 SGTS EFF PARTICULATE KC/M Il A813 /
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LA SALLE BWR PARAMETERS
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. RADIATION MONITORING SYSTEMS (cont'd) q.
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- 1 A946 RHR SERV WTR Loop A RAD KC/SEC i
A922 RHR SERV WTR Loop B RAD KC/SEC i
4 D952 MAIN STEAM RAD DIV Al
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D953 MAIN STEAM RAD DIV A2 l.}
D992 MAIN STEAM RAD DIV B1 D993 MAIN STEAM RAD DIV B2 d
A815 Rx Bldg HCU MOD NO ARM MR/HR N
A816' Rx Bldg HCU MOD SO ARM MR/HR A817 Rx Bldg HPCS PUMP ARM MR/HR A822 /
Rx Bldg RCIC TURB ARM MR/HR A821 /
RX Bldg RHR H-XCH NW ARM MR/HR 4
A820 /
RX Bldg RHR H-XCH SE ARM MR/HR A819 Rx Bldg Standby Gas ARM MR/HR A921 Service Water Effluent RAD KC/SEC y
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?j METEOROLOGICAL SYSTEMS 1
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h P010 /
15-Min AVG 200 f t WS
-M/SEC Ti P011 15-Min AVG 33 ft WS M/SEC
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P009 15-Min AVG 375 ft WS M/SEC d
P004 /
15-Min AVG 200 ft WD DEGREES Y
P005 15-Min AVG 33 ft WD DEGREES I,j [#
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P003 15-Min AVG 375 ft WS DEGREES i
P013 v 15-Min AVG Delta Temp 33/200 DEGF/ft 4
P012 15-Min AVG Delta Temp 33/375 DEGF/ft l
C066 MIN AVG 375 FT WIND DIR -
DEG
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C067 MIN AVG 200.FT. WIND DIR DEG
- j C068 MIN AVG 33 FT WIND DIR' DEG c.)
C069 MIN AVG 375 FT WIND VEL M/sec 3
C070 MIN AVG 200 FT WIND VEL
.M/sec I
!i C071 MIN AVG 33 FT WIND. VEL M/sec 1
j A851 DIFF TEMP AT 33 FT/375 DEGF/FT l
A855 DIFF TEMP AT 33 FT/200 DEGF/FT i
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BWR PARAMETER LIST
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System
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- Drywell temperatures j
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