ML20091J991
| ML20091J991 | |
| Person / Time | |
|---|---|
| Site: | Crane  |
| Issue date: | 06/01/1984 |
| From: | Blake E METROPOLITAN EDISON CO. |
| To: | |
| References | |
| SP, NUDOCS 8406060352 | |
| Download: ML20091J991 (27) | |
Text
'
o A
RELATED CO.7RESPONDENCE.
JUNE 1, 1980;ff0 2d
. ('9 g 7,,q,,
UNITED STATES OF AMERICA
~
NUCLEAR REGULATORY COMMISSION In The Matter of
)
METROPOLITAN EDISON COMPANY Docket No. 50-289 SP I
(Restart)
(Three Mile Island Nuclear Station, I Unit No. 1)
NOTICE TO THE COMMISSION, APPEAL BOARD, LICENSING BOARD AND PARTIES In the course of reviewing documents related to the O-W incident in July 1979, Licensee has discovered a W make-up training test taken in May 1979, in which the last page of W's response appears to be someone else's product.
Enclosed is the test with the response in question (Enclosure (1))
and, for response format comparison purposes, a second W test (Enclosure (2)) and a test by individual O (Enclosure (3))
in which responses to the same question appear.
Respectfully submitted, h T. M,/.
Ernest L. Blake, Cr., P.C.
Counsel for Licensee cci Attached Service List KO T)
O PDR J
's
- 7.. '
~
E.nclosure (1) l1 e
/-
TRAINING ASSIGt:Eli A0il!!!ISTPMIVE FC?ft n
2.2 41 e
7 k
t.esson/ Course:._ b*
Emp o e !!o Completion (Ta 4
8 9
1 h
I'O.
' DAY 2.
Name:
OM 3.
Classification:
S.av 8
CATALOG ?!UMSEE ~[
C6URSE
, B100E PREFIXE5 h
D N
- c y
x Makeup, MUP 3
u
^
32 35 Co m spo W nce - F=
i I.Esson 27 31 j
15
- A TTFE SUBJECT ID 26 MM@
gg 3 g
/..
sw avnA di c 1.'t M I g7' Y AV%g 4
Eve n id.I &lGo'iciIPIRVt#151M tClDialulal IA
.. 1.
4.
Reason for assignment h
_ FSR Requirusent Cycla:
f h
i t fecture itissad Type d (L Cycle completion Data: 1 MM rqb
$/Ap/.sm 4 p/'u/
l dst Not Taken Time Period:
y t C '-
l
_ < 805 on Test Type of Licensa'(Rog:
f G.
Instruc' tor Assigned:
M D. Oh Instructions:
u a,l 1 Lu,.., (
Aa/nn d,p$ $ l Le<4.$)nb{
4L Ch u
<e.n a..o
%_ = L. -
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T.'mu wa re-
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MS 4 P l
- 6. -RETUR:t TO TilAiti!:G DEPARTMENT BY:
f
.N 7.
!!c-h::! of E.caluation:
(Check at least one)
[, bh h]
a) 1:rit:en Test
(
Scor :
8 b) Oral Spot Check
~'
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c)
Other (Explain):
h l
f 8.
s.
e Oate In:*.:hr's Signature
' Da ta
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4 EMERGENCY PROCEDURES TEST n
'l SROANSUERALLQUESTION.F}l-{hj CYCLE 5 REQUAL-
,~
- g.
l4$.00.003 C O d
- i
.c
.i.
a-1.
iist '5'in'dicatrons..
.c.,..~ i..::dric rod ' fault.. 2.~
2"#'}...i 1. '.;.. Qot1
- =.=.n.:..;i W ~ G
- h. : u.
.-A
.V Ef'anasyme
..g Jo I
i.25 1.2 2.
Wha'tis your action upon discovery of a stuck control rod in Gp 77, '
-g,,
3;
\\
3.
What gises a motor fault alarm?
.g SRO Ne.
4.
After verifying a rod as being stuck what 1s follow-up action?
Aa,.,
a
/
S.
Draw the asymetric rod runback circuit.
C 6.
On the attached figure (Unit I or Unit II control room as applicable) mark the
.19_.
area that an "aperator at the controls" should not normally. leave for routine operations.
(NOTE:
X-license answer 'for both units) i.
SRO 7.
An'" Operator at the con is" may leave the routine operations area und.briefly _.Jr._.
enter the nonroutine rations area of the contro om. List (3)threecon-
~"
.ditions which yarr an "O erator at thy con the ngry=toutine opera-
~
tions area. W j
!= - - w
= ;= -
=
.q =-+ h, w D u % ~ -
f%=?%
Briefly explain the purpose o,f CAUTION tags.7 h 1
y p E=..?
8.
_.L o, _
9.
Given the following infomation, calculate the qua'drant power tilt. Use 'the
.A0 -
attached d'ata sheet *
, hhjf Q JJJI ht[
f L
Recorder Detector Recorder Detector Point Number Reading Point Number Reading 1-1 124 1-16 124 1 5 125 1-17 117
~ e ' 1-10 i'
125 1-18 119 l
1-11 125 2-1 124 1-12 125 2-2 125 1-13 117 2-3 125 a
1-14 118 2-4 124 1-15 124 2-5 123
,p C's f l
- $ (LQ tg p. 7 ( N,._7 s _'
10.fa)
Listi the allottable tilt values for:[#
I
- l. 'Symetrical (full) incore system (7
5-2.
Minimum incore system.
/ i. u 3-y I, c)
./
3.
Power range channels.
i5 V o w b)
E,iplain the required actions if the applicable quadrant power tilt limit is hf g
,,,,tz::
.,x s, '...
... exceeded. - (assur..e that corrective ac; ions do not decrea,sg
- .Q.)
i a s.... __.. n __c,
j g
...-~
, - a ',z.
-2.
p I
11,, What is the required frequency for monitor ng:
1
...Ta')- Quadrant power tilt 4 ty 74 % :.Ml-/..A o.9. f y 7(sz,y..... =
s......
-J. '
---f if. '
7
- b) Axial power' imbalance, g g,.
,,4 Q g jn.
.S 17.
Following a loss of f to bo 5 'i, flow should be limited to
'I spm. 4 P.0 t
7.1 How do you recover from a dry steam generator 7/4#'/l.p'< >I,.
,,,,j, e A o,__.
14.
List the power supplies and location of % for main feedwa Lio u m)~es.
.s-l.6
./
~
astg sgfor unanticipated criticality.BJ 7;S-
___,y_
IG.
ea
-1G[ What are tbe indications ofk boron dilution accident in progress?
vfo ra.:
,. ~u x.-t
. 4.s -
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- ~
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1)
Fill.in the following incore valves:
g
~
~
Axial (Recorder - Detector)
Quadrant-
- Core Quadrant location Level Point tio. Readino Sums 2
(1-11) 1 J. f XY= h { '
XY CIO
/
~
XY F13 2
(1-12)
IN Quad d
- 7. -
XY
, E9 6
(2-5) 1 P'3 1
XY Gil 6
(1-1)
)>Y 2.
(1-13)
// 7 YI= @ 71 '
YZ-L13 YI' 010 2
(1-14)
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QuadranV
', YZ
. K11 6-(1-17)
//7 2
YZ M9 6
(1-18)
/ / #7
~
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2 (1-15) i 2. +
ZW= 4e/ 7
~
ZW L3 2
(1-16}
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(2-1)
/Ff 3
/
ZW K5 6-(2-2)
,'.A
.X F3 2
(1-9) 1 >' S-W WX= 4 4 WX C6 2
(1-10)
Quad ag WX G5 6
(2-3)_
1,I 4
WX E7 6
(2-4)
I>4 2)
Core Total = (WX) + (XY) + (YZ) + (ZW) =
/#/
la 3)
Quadrant Average Power (QAVE) = Core Totti + 4 =
t/ e7 /
Qus t sum 4)
Quadrant Tilt, % =
_) 7(jgg3)
Quadrant 1 XY Tilt 5+ 0. ol55
~
A Quadrant 2 YZ' Tilt = - On O {0 %
Quadrant 3 ZW Tilt = H ev/>.2 %
Quadrant 4 WX Tilt = # 4 4 /./A 5 ',
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~
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1.
Less:r./Ccurse: Ew eWA *>u'a
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imployit lio.
Com;let1cn Data
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. ;,2 DAY YR, 7
nm,.
.9 w rtA W @ [
d.f " Mar # 3 3.
Classification:
CATALOG ?!U?iSER COURSE t*.00E PREFIXE5 DUPATION '
80DI
??::;x l'.akeup - MUP l5l ficuP.s Correspondence - CCS 32 3a 7
IEssett 27 31 A!TY?ISUBJICTID 26 gp
,13 yg g
kw w ao i' ^* '
BEST Cop'y l
35 ccMyerrs 91 EM K:Et(A 1P 1 0 0 1C 1 0 01/17 fEW GIOolutpl I'%
l 4
Reason fer assignment R Requirement Cycle:
f
,i ecture Missed Type Cycle Cc=pletion Date:
/M 79 B/.u/ ys, 4 9/u/ph i
M. Not Taken Time Period:
80", on Test TypeofLicense'(RO/SRO}:
f'46 /)r1(.,,
f G.
Instructor Assigned:
M D. Om Instructions:
1 %. u.a ve w w W.
Aelin 1 Nomua>lel L u m i i.e.A.,..
2 Lim 4,
<AlJ h4 hui i
%,,,, I:.
%N % w m lL*WSY adwe eAndNw J
j i
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'Em 2 (12er - A_. Ca r a t I 10,, Cf.b M I v.ve s ( sie z -93 (:taa v-/. 2,-
2.2o? /.3h loss e 4 0756. F, e3 h2.01-16/f /#)(22cz - 2,23.
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6.
RETL'R: TO TRAIllING DEPARTMEtlT BY:
MS47 7.
lieth:d of Evaluation:
(Check at least one) b-a) ':ritten Test
[
Score:
b) Crel Spot Check
/
ggg[fg [
c) O ther (Explain):
.h&
&r 7/,24/77 8.
r Innructor's Signature -
'Date Supervisor of Training
'0 ate
EliEF.GENCY PROCEGL?.E5 TEST f
4
.f-yf qj7 7 CYCLE 5 REQUAL y
SRO ANSWER ALL QUESTIONS M(.08,40 3 C 6
~.?
- 1.
- List E indic,5tfons'o'f'ari'asyme&ic Fo'd' i-5 ult.'" "
.. ' - & i. - _).
.. g o g
~
us t..:$
What is your action upon discovery of a stuck control rod in Gp 75 2.
12 _t. 0 3,
mt gives a motor fault alarm?
7d n
i SRO tke 4.
After verifying a rod as beirg stuck what is follow-up action?
Aa, j,,
a S.
Draw the asynetric rod runback circuit.
.gou M On the attached ficure (Unit I or Unit II control room as applicable) mark the
.Lo__ _,:
area that an " operator at the controls" should not normally leave for routine cperations.
y" g g (NOTE:
X-license answer for both units)
?".
An " Operator at the controls" may leave the routine operations area and briefly a.7r.._c enter the nonroutine operations area.of the control room.
List (3) three con-
.ditions which warrant an " Operator at the controls" to enter the nonroutine opera-tians area.2-^ 9a~. t~~s.
S.
Briefly explain the purpose of CAUTION tags.
~
._Z. o..
.K Given the following information, calculate the quadrant power tilt. Use'the 2 0...
attached data sheet:
Recorder Detector Recorder Detector Point Number Reading Point Number Reading 1-1 124 1-16 124 1-9 125 1-17 117 1-10 125 1-18 119 1-11 125 2-1 124 1-12 125 2-2 125 1-13 117 2-3 125 1-14 118 2-4 124 1-15 124 2-5 123 sito 1M.ar) List the allo. able tilt values for:
I l
1.
Symmetrical -(full) incore system.
2.
Minimum incore system.
3.
Power range channels.
& E.xplain the required actions if the applicable quadrant power tilt limit is AS E
exceeded.
(assume thit corrective actions do not decrease the tilt.)
t b
r m
m-=
. -. +
.r
-=ne e--
er -
c
--w-%
v---w
-g.we
+-,_
n
- e...
e
.-11., 'W6at is the required frequency for monitor a ) Occurant power tilt {t g,,
.4 4. :.. n.g.., -..
s.-.
,-. q,...
i 7
b) Axigi power imbalanceM rw
. 5" 17.
Folle..ing a loss of feed to both OTSG'i, fluw should be limited to ru gpa, 4
. p.o 5
How do you recover from a dry steam generator?,$.#.*',Ya
.g m'"i go_
13 14 List the power supplies and location of % for main feedwater block valves.
.s-
- C.
Name at least two causes for unanticipated criticalit:y.g,
___,,y w
IG.
What are tna indications of a boron dilution accident in progress?
/,b Y.,=2 A,'",-A.A.' r,na A w a u.
T w
rmi
- 3. +
x_t
, v.s -
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E P (1282 -Ska 203 -12 ;.2mos -/ 3,) c R.b 2" pat **=<.d N/
f EP C 12on..ac.4/4)(,2 242 -a, 2.) 1.,ss of oTsG Fe.*4.
EP (12os-/4)(.a.2o2-/,2) un ad:,.;g.4 d CH4,3 ;g
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CATA SMEET 1 BES
?-
~-
QUADRN'T PO*RR TILT 2: MItilt-:LH I.': COR ft n
t M
- l 1)
Fill.in the following incere valves:
g Core Axial (f.ecorder - Detector)
Quadrant Cuadrant L5 cation Level Point No. Readine Sums XY CIO 2
(1-11)
)2i XY=V S 7 '
~
XY F13 2
(1-12) l A S' Quadragt.
XY ES 6
(2-5)
IA3 1
XY Gil 6
(1-1)
I AY YZ L13 2
(1-13)
M7 YZy7l Y2 010 2
(1-14) l/ f Quadrant
,l YZ Kll 6-(1-17)
//'7 2
YZ M9 6
(1-18)
//f
^
ZW 06 2
(1-15) li 4 ZW= 417 ZW
(
L3 2
(1-16}
/A Y Quadrant ZW M7 6
(2-1)
/AY 3
ZW K5 6
(2-2)
/ 2. [
WX F3 2
(1-9)
)W WX= I./ 9 8/
WX C6 2
(1-10)
I Quadragt e
WX G5 6
(2-3)
/ LS 4
WX E7 6
(2-4)
/2-Q 2)
Core Total = (WX) '+ (XY) + (YZ) + (ZW) =
174Y 3)
Quadrant Average Power (QAVE) = Core _ Total + 4 =
Y7/
4)
Quadrant Tilt, % =
-l %(1005):
Quadrant 1 XY Tilt =
%X l,
/(L Quadrant 2 YZ' Tilt = __
'%)(
Y /l(f.
d'f Quadrant 3 ZW Tilt =
'%/
f Quadrant 4 wx Tilt =
%/
6
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ENERGENCY PROCEDURES TEST
[
g-CYCLE 5.REQUAL F:
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Ae After verifying a rod as being stuck what is folicw-up action?
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Fr.x the asymetric rod runback circuit.
Q-
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On the attached figure (Unit I or Unit II control room as applicable) mark the
.Ao area that an " operator at the controls" should not nonnally. leave for routine
. c 1 rations.
(NOTE:
X-license answer for both units) 7.
An." Operator at the controls" may leave the routine operations area and briefly
,7.C'___
enter the nonroutine operations area of the control room.
List (3) three con-i ditions which warrant an " Operator at the controls" to enter the nonroutine opera-tions area.
Briefly explain the purpose of CAUTION tags.
J., o __
Given the following inforTnation, calculate the quadrant power tilt. Use the
.A o t
attached data sheet:
t t
Recorder Detector Recorder Detector Point !! umber Reading Point Number Reading i
1-1 124 1-16 124 1-9 125 1-17 117 1-10 125 1-18 lig i
1-11 125 2-1 124
!.h 1-12 125 2-2 125
.l 1-13 117 2-3 125
=1;i 1-14 118 2-4 124 7
!0
- 1-15 124 2-5 123
<.7 p
'N 320 f,10. a) List the allowable tilt values for:
E.- l 5
1.
Symetrical (full) incore system.
I 2.
Minirns incore system.
{
3.
Power range channels.
~
b) Explain the required actions if the applicable quadrant power tilt limit is
^# -
j exceeded.
(assume that corrective actions do not decrease the tilt.)
P e -,..
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o 11., What is the required frequency for monitoring:
W
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a)' Quadrant power tilt
{
- b) Axial power imbalance
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h17.
Following a loss of feed to both OTSG's, flow should be limited to gpm. m f
- RO How do you recover from a dry steam generator?
do 73.
.-14.
List th'a power supplies and location of % for main feedwater block valves.
.s _
IG. Name at least two causes for unanticipated criticalii:y.
my__
- 16. What are the indications of a boren dilution accident in progress?
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Fill.in the following incore valves:
Core Axia)
(Recorder - Detector)
Quadrant-Quadrant Location Level Point No. Reading Sums XY CIO 2
(1-11)
/O [
XY= g '
XY F13 2
(1-12) /J [
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~
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(2-5)
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/
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(1-1)
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WX C6 2
(1-10) /d[
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(2-3)
/1[
4 WX E7 6
(2-4)
/2Y 2)
Core Total = (WX) + (XY) + (YZ) + (ZW) =
/fd 9 s
~3)
Quadrant Average Power (QAVE) = Core,Totai e 4 = _ Vf/
V' Quadran
- l %(1005)
4)
Quadrant Tilt,1 =
E
.I Quadrant 1 XY Tilt 4 /.11. %
Quadrant 2 YZ' Tilt =4 Y._0 #)
Quadrant 3 ZW Tilt = 4 /.1L ' % !
/
Quadrant 4 WX Tilt = 4/ ehl % /
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l' UNITED STATES OF AMERICA NUCLEAR REGULATOKI COMMISSION Before the Commission In the Matter of
)
)
METROPOLITAN EDISON COMPANY
)
Docket No. 50-289 SP
)
(Restart-Management (Thrae Mile Island Nuclear
)
Phase)
Station, Unit No. 1)
)
SERVICE LIST Nunzio J. Palladino, Chairman Administrative Judge, U.S. Nuclear Regulatory Commission John N. Buck i
Washington, D.C.
20555 Atomic Safety & Licensing Appeal Board Victor Gilinsky, comissioner-U.S. Nuclear Regulatory Comission U.S. Nuclear Regulatory Commission Washington, D.C.
20555 Washington, D.C.
20555 Administrative Judge Thomas M. Roberts, Commissioner Christine N. Kohl U.S. Nuclear Regulatory Commission Atomic Safety & Licensing Appeal Washington, D.C.
20555 Board U.S. Nuclear Regulatory Commission James K. Asselstine, Commissioner Washington, D.C.
20555
'U.S. Nuclear Regulatory Consission Washington, D.C.
20555 Administrative Judge Ivan W. Smith, Chairman Frederick Bernthal, Commissioner U.S. Nuclear Regulatory Commission Atomic Safety & Licensing Board U.S. Nuclear Regulatory Commission Washington, D.C.
20555 Washington, D.C.
20555 Administrative Judge u Administrative Judge Gary J. Edlee, Chairman Sheldon J. Wolfe Atomic, Safety & Licensing Appeal Atomic Safety & Licensing Board Board U.S. Nuclear Regulatory Commission U.S. ' Nuclear Regulatory Connaission Washington, D.C.
Washington, D.C.
20555
~
20555 i
l l
-s 1.
,/n
,l i
Administrativil Judge Mr. Eenry D. HM11 Gustave A. Linenberger, Jr.
Vice President Atomic. Safety & Licensing Soard GPU Nuclear Corporation U.S. Muclear Regulatory Coussission P.O. Box 480 l
Washington, D.C.
20555 Middletown, PA 17057 De koting and Service.Sestion (3)*
Mr. and Mrs. Norman Aamodt.
Office of the Secretary R.D. 5 U.S. Nuclear Regulatory Commission Coatesville, PA 19320 Washington, D.C.
20555 Ms. Louise B"adford i
Atomic Safety & Licensing Board TMI ALERT Panel 1011 Green Street Uv3. Nuclear Regulatory Commission Harrisburg,,PA 17102 Washington, D.C.
20555 Joanne Doroshow, Esquire Atomic Safety & Licensing Appeal The Christic Institute Board Panel 1324 North Capitol Street U.S. Nuclear Regulatory Commtission Washington, D.C.
20002 Washington, D.C.
20555 Ms. Gail Phelps
. Jack R. Goldberg, Esq. (4)
ANGRr/TMI PIRC s>
' Office of the Executive Legal 1037 Maclay Street Director Harrisburg, PA 17103 7.S. Nuclear Regulatory Connaission Washington, D.C.
20555 Ellyn h. Weiss, Esq.
Harmon, Weiss & Jordan 3
Maxine Woolfling, Esq.
2001 S Street, N.W.,
Suite 430 Office of Chief Counsel Washington, D.C.
20009 Department of Environmental Resources Michael F. McBride, Esq.
505 Executive House LaTeoeuf, Lamb, Leiby & MacRae
/
P.O. Box 2357 1333 New Hampshire Avenue, N.W.
Harrisburg, PA 17120 Suite 1100 Washington, D.C.
20036 John A. Iavin, Esq.
Assistant Counsel Michael W. Maupin, Esq.
' Pennsylvania Public Utility Hunton & Williams 5
\\
Connaission 707 East Main Street P.O. Box 3265 P.O. Box 1535 Harrisburg, PA 17120 Richmond, VA 23212 David E. Cole, Esq.
Smith & Smith, P.C.
2931 Front Street Harrisburg, PA 171'.0 i
4 i
-