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{{#Wiki_filter:U.S.NUCLEAR REGULATOR MMISSION NRC FORM 195 I2.76)NRC DISTRIBUTION FDR PART 50 DOCKET IVIATERIAL DOCKET NUMBER+0-g/Q FILE NUMBER INCIDENT REPORT Mr Keppfer E9LETTER OORIGINAL SCOPV DESCRIPTION ONOTORI2ED QUNCLASSIFIED PROP Indiana&Michigan Pwr Co Bridgamn, Mi~R W Jurgensen INPUT FORM ENCLOSURE DATE OF DOCUIlIENQ 6 DATE RECEIVED NUMBER OF COPIES RECEIVED 1 CC Ltr trans the following:
{{#Wiki_filter:U.S. NUCLEAR REGULATOR     MMISSION DOCKET NUMBER NRC FORM 195 I2.76)                                                                                     +0- g/Q FILE NUMBER NRC DISTRIBUTION FDR PART 50 DOCKET IVIATERIAL                              INCIDENT REPORT DATE OF DOCUIlIENQ Mr Keppfer                                 Indiana   & Michigan Pwr   Co                         6 Bridgamn, Mi DATE RECEIVED
Licensee Event Report (ROID 76-52)on 11-20-76 concerning excessive iodine spike......
                                                  ~
PLANT NAME''C Cook yl ACKNOWLEB GEO 80 NOT RglQOyg NOTE: IF PERSONNEL EXPOSURE IS INVOLVED SEND DIRECTLY TO KREGER/J, COLLINS BRANCH CHIEP: W 3 CYS FOR ACTION LIC~ASST+'.W CYS ACRS CYS FOR ACTION/I NFORMATION 12-14-'76 ehf GOLEM NRC PD}4 I&E (2 MIPC SCHROEDER/IPPOLITO HOUSTON NOVAK/CHECK GRIMES CASE BUTLER HANAUER TEDESCO/MACCARY EISENHUT BAER SHAO VOLLMER/BUNCH KREGER/J~COLLINS INTERNAL D ISTRI BUTION LPDR: S4 JcI c TIC'o EXTERNAL DISTRIBUTION CONTROL NUMBER vL"" 4 m<)g,II'I I"~l'v~~~~~~llll v v v v-'~~4
R W Jurgensen E9LETTER                ONOTORI2ED        PROP                    INPUT FORM           NUMBER OF COPIES RECEIVED OORIGINAL          QUNCLASSIFIED                                                      1 CC SCOPV DESCRIPTION                                                ENCLOSURE Ltr trans     the following:                             Licensee Event Report (ROID 76-52) on 11-20-76 concerning excessive iodine spike......
~" ,V OiO fhOPlcdh lactrlo yg)~INDIA NA&It/IICHIGA N PD NE8 CO I I/IPA N Y DONALD C.COOK NUCLEAR PLANT P.O.Box 458, Bridgman, Michigan 49106 December 6, 1976!Mr.J.G.Keppler, Regional Director Office of Inspection and Enforcement United States Nuclear Regulatory-Commission Region III 799 Roosevelt Road Glen Ellyn, IL 60137
ACKNOWLEBGEO 80 NOT RglQOyg PLANT NAME'             'C Cook yl NOTE:   IF PERSONNEL EXPOSURE IS INVOLVED SEND DIRECTLY TO KREGER/J, COLLINS FOR ACTION/INFORMATION            12-14-'76    ehf BRANCH CHIEP:
W 3 CYS FOR ACTION LIC ~ ASST+'.
W       CYS ACRS         CYS INTERNAL D ISTRI BUTION GOLEM NRC PD}4 I&E (2 MIPC SCHROEDER/IPPOLITO HOUSTON NOVAK/CHECK GRIMES CASE BUTLER HANAUER TEDESCO/MACCARY EISENHUT BAER SHAO VOLLMER/BUNCH KREGER/J ~ COLLINS EXTERNAL DISTRIBUTION                                        CONTROL NUMBER LPDR: S4   JcI c TIC' o


==Dear Mr.Keppler:==
vL ""            4 m<)g ,II'I  I  "~ l' v
Operating License DPR-58 Docket No.50-315 Pursuant to the requirements of Appendix A Technical Specifications and the United States Nuclear Regulatory Commission Regulatory Guide 1.16, Revision 4, Section 2.a, the following report is submitted:
      ~ ~ ~ ~ ~ ~            llll v v v
RO-50-315/76-52 During preliminary reviews, this occurrence was classified as a 30 day report and no followup report was submitted.
v -'
Subsequent reviews indicated that this should be a 14 day report.The RO III Resident Inspector was on site on the day of the occurrence.
                                                  ~
Sine ly, r.Jur s Plant Ma ge RWJ/mj cc: R.S.Hunter J.E.Dolan G.E.Lien R.Kilburn R.J.Vollen BPI R.C.Callen MPSC K.R.Baker RO: III P.W.Steketee, Esq.'.Walsh, Esq.G.Charnoff, Esq.G.Olson J.M.Hennigan R.S.Keith PNSRC Dir., IE (40 copies)Dir., MIPC (4 copies)OEC 91976
4
                                                  ~


CONTROL BLOCK: LICENSEE EVENT REPORT'SE PAINT ALL AEOIjlAED INFORMATION)
I/IPA
LICENSEE NAME[oa]N I 0 C C 1 0 7 89 14 15 REPORT.REPORT CATEGORY TYPE SOURCE[oa~]cows~C L 7 8 57 58 59 60 EVENT DESCRIPTION
  ~"
[oaf (SEE SUPPLEMENT) 7 8 9 LICENSE NUMBER 0-OOOOO-O DOCKET NUMBER 0 5 0-0 315 LICENSE TYPE EVENT TYPE 0 A 1 1 1 1~01 25 26 30 31 32 80 EVENT DATE'EPORT DATE 2 0 7 6 1 2 0 6 7 6 69 74 75 80 7 89 80 7 8 9 QO75 80 7 8 9 Jog (RO-50-315/76-52
,V
)~80 7 8 9 SYSTEM CAUSE CODE CODE COMPONENT CODE Ioc7I~z L~J z z z z z 7 8 9 10 11 1P CAUSE DESCRIPTION gg (SEE SUPPLEMENT)
    !
PRME COMPONENT SUPPUER COMPONENT MANUFACTURER Z Z X 9 9 9 Y 17 43 44 47 48 7 8 9 QOg 7 8 9~10 7 89 FACIUTY STATUS DG POWER 0~00 0 NA 7 8 9 10'2 13 FORM OF ACTIVITY COATENT RELEASEO OF RELEASE AMOUNT OF ACTIVITY Q~g Z Z NA 7 8 9 10 11 PERSONNEL EXPOSURES 7 8 9 11 12 13 PERSONNEL INJURIES NUMBER DESCRIPTION
fhOPlcdh lactrlo yg )~
~00'0 NA 7 89 11 12 PROBABLTE CONSE(UENCES
OiO INDIANA & It/IICHIGAN PD NE8 December 6, 1976 DONALD C. COOK NUCLEAR PLANT CO P.O. Box 458, Bridgman, Michigan 49106 NY Mr. J. G. Keppler, Regional Director Office of Inspection and Enforcement United States Nuclear Regulatory -Commission Region        III 799 Roosevelt Road Glen Ellyn, IL 60137 Operating License DPR-58 Docket No. 50-315
~s NA 7 8 9 LOSS OR OAMAGE To FACIUTY TYPE DESCRIPTION
 
~16 Z NA 7 89 10 PU8 ICITY N 7 8 9 METHOD OF DISCOVERY DISCOVERY DESCRIPTION OTHER STATUS ROUTINE SAMPLING 44 45 46 LOCATION OF RELEASE NA 44 45 80 80 80 80 80 80 80 80 80 80 AOOITIONAL FACTORS Pge NA 7 89~19 NA 7 89 NAME'.E.A.SMARRELLA 80 80 GPO IIdI~6CT INDIANA 5 MICHIGAN POWER COMPANY DONALD C.COOK NUCLEAR PLANT IODINE SPIKE FOLLOWING POWER TRANSIENT NOVEMBER 20, 1976 This report is submitted persuant to the requirements of Appendix A Technical Specifications 3.4.8 and 6.9.1.Specification 3.4.8 indicates that,"The specific activity of the primary coolant shall be limited to~1.0 pCi/gm dose equivalent I-131...." On November 20, 1976, at 0510 hours, DOSE EQUIVALENT I-131 was found to be 3.33 pCi/gm in violation of Specification 3.4.8.This spike resulted from a unit trip at 0055 hours on November 20, 1976.Attempts;to count the sample taken at 0510 on November 20, 1976, were initially unsuccessful with geometry configurations available at that time, as the total activity caused significant instrument dead time.For this reason, the sample was held for decay to be counted as, soon as instrument dead time permitted.
==Dear Mr. Keppler:==
Since the sample still could not be counted 16 hours later, the sample was diluted and counted at 2200 hours on November 20, 1976.Sample results indicated 2.77 pCi/cc I-131;however, the" technician on duty at that time felt that the four hour surveillance requirement of Table 4.4-1, Item 4a~was no longer required with the unit out of service at the time.Sampling continued at the normal eight hour frequency.
 
During data review.at 1115 hours on November 21, 1976, the Chemical Supervisor found the out-of-specification condition.
Pursuant to the requirements of Appendix A Technical Specifications and the United States Nuclear Regulatory Commission Regulatory Guide 1.16, Revision 4, Section 2.a, the following report is submitted:
All samples taken since the November 20, 1976, 0510 hours time period were counted immediately, with data indicating that DOSE EQUIVALENT I-131 was below 1.0 pCi/gm at the 2100 hour sample on 0 November 20, 1976.Sampling frequency at this point was kept at once/8 hours:1 as I-.131:was
RO-50-315/76-52 During preliminary reviews,                this occurrence was classified as a 30 day report and no        followup report      was    submitted. Subsequent reviews indicated that this should be a 14 day report. The RO III Resident Inspector was on site on the day of the occurrence.
<1.0 pCi/cc', however, during the period from 0510 to 2100 hours on November 20, 1976, samples were taken each 8 hours, rather than each four hours, resulting in a violation of the monitoring requirements of Table 4.4-4, Item 4a.The unit had been operating at 1005 power since November 10, 1976, with a slow decrease in power to 70/on November 19, 1976.I-131 values had increased from 2.0x10 pCi/cc at equilibrium to=4.0x10 pCi/cc following the reduction to 70&#xc3;power.This small spike was similar.to those seen during'earlier power transients, i.e.power reductions to 705 from November 5 to 12, 1976.(Figure 1)Prior to return to full power, the unit was tripped at 0055 hours on November 20, 1976, resulting in the larger I-131 spike to 2.77 pCi/cc with resultant DOSE EQUIVALENT I-131 dropping below 1.0 pCi/gm within 16 hours after the spike.DOSE E(UIVALENT I-131 values were in the"Acceptable Operation" portion of Technical Specification Figure 3.4-1 at all times during the transient.
Sine          ly, r
Data from WCAP-8637--"Iodine Behavior under Transient Conditions in the Pressurized Water Reactor", indicates that for power transients, the iodine release rate peaks at 3.5-5.25 hours following the initiating event (Table 1).As the 0510 sample was taken 4.25 hours following the unit trip, recorded values are assumed to be quite close to the actual I-131 peak value.The plot of I-131 activity prior to and following the unit trip (Figure 2)also indicates that the 0510 data is quite close to the Coolant samples are brought to ambient conditions before counting, therefore, units of pCi/cc are essentially inter changeable.
                . Jur        s Plant      Ma    ge RWJ/mj cc:        R. S. Hunter J. E. Dolan G. E. Lien R. Kilburn R. J. Vollen BPI R. C. Callen MPSC K. R. Baker RO:      III P. W. Steketee, Esq.        '.
0"l I l  peak value, taking into account peak release times and the slope of the I-131 activity decrease.This curve can also be utilized to indicate I-131 values during the four hour periods when samples were not obtained as per requirements of Table 4.4-4, Item 4a.The plot of I-133 and k)(~I-135 activities during this period (Figure 3)also validates this assumption.
Walsh, Esq.
Utilizing the above data, the specific activity of the primary coolant exceeded 1.0 pCi/gm DOSE EQUIVALENT I-131 conservatively.
G. Charnoff, Esq.
for a period of eighteen (18)hours.(Figure 4)Power transients have been identified as one of three distinct':
G. Olson J. M. Hennigan R. S. Keith PNSRC Dir.,    IE (40 copies)
causes of iodine spiking.Data from operating plants has indicated iodine spiking of similar (Haddam Neck, April 16, 1971 I-131-3.0 pCi/gm)or greater (R.E.Ginna, February 26, 1971, I-131-6.8 pCi/gm;April 14, 1971, I-131-18.3 pCi/gm)magnitude (Figures 5, 6, 7)than the one reported following reactor trip on November 20, 1976.z Primary coolant I-131 activity had been stable at 100'A power at 2.0 x 10-z pCi/cc since October 7, 1976, following an increase in I-131 during steady-state operation indicating development of a fuel clad failure.DOSE EQUIVALENT I-131 during this time period was also stable at 0.02-0.03 uCi/gm.For this reason, the iodine spike on November 20, 1976, is attributed to the normal spiking phenomena during power transients rather than additional fuel clad failures.Mon-itoring of iodine data following return:to equilibrium at 100&#xc3;power had validated this assumption as the I-131 activity has stabilized at 1.5 x 10 vCi/cc with DOSE EQUIVALENT I-131 at 0.03 pCi/gm (Figure 8 and 9).Westinghouse Electric, WCAP-8637, November, 1975.
Dir.,    MIPC (4  copies)
As mentioned'reviously, reactor power had been stable at 100%since November 10, 1976, with a scheduled slow decrease to 70K power occurring on November 19;1976.Purification flow was reasonably stable at 75 gpm through the CVCS Mixed Bed Demineralizer following start-up in September 1976, until 1130 hours on November 21, 1976, when the flow was increased to 120 gpm.(Figure 4)There were no de-gassing operations performed during this time period.Fuel burn-up by core region is indicated in Table 2.To ensure the four hour sampling requirements are met in the future, the incident has been'discussed with all chemical technicians and supervision with instructions to perform DOSE E(UIVALENT, I-131 cal-f*V culations whenever I-131 activity approaches 0.75 pCi/cc.''In'addition, new geometries have been added to the counting room Ge(Li)systems to ,enable counting of samples with higher total activities,.:as well as instructions to dilute samples if necessary to ensure that samples are counted as soon as possible following system transients.
OEC  91976
INDIANA 5 MICHIGAN POWER'.COMPANY DONALD C.COOK NUCLEAR PLANT TABLE 1  
 
LICENSEE EVENT REPORT
                                                                                                    'SE CONTROL BLOCK:                                                                        PAINT ALL AEOIjlAED INFORMATION)
LICENSEE                                                                            LICENSE              EVENT NAME                                  LICENSE NUMBER                                TYPE                TYPE
[oa]    N     I    0    C C      1        0  0    OOOOO O                        0        A    1    1    1  1      ~01 89
                ~
7                                     14    15                                          25    26                  30    31    32
[oa~]cows CATEGORY REPORT.
TYPE C
REPORT SOURCE L        0    5 DOCKET NUMBER 0  0      315                    EVENT DATE 2    0
                                                                                                              'EPORT 7  6     1   2    0 DATE 6    7      6 7    8         57      58        59      60                                            69                      74    75                        80 EVENT DESCRIPTION
[oaf        (SEE SUPPLEMENT) 7    8 9                                                                                                                                            80 7    89                                                                                                                                              80 7    8 9                                                                                                                                            80 QO75 7    8 9 (RO-50-315/76-52            )
Jog 7    8 9                                                              PRME
                                                                                                                                                  ~
80 SYSTEM        CAUSE                                      COMPONENT            COMPONENT Ioc7I 7 8 9 10
        ~z CODE        CODE L~J 11        1P z
COMPONENT CODE z    z  z  z  Z 17 SUPPUER Z
43          44 X
MANUFACTURER 9    9  9 47 Y
48 CAUSE DESCRIPTION (SEE SUPPLEMENT) gg 7 8    9                                                                                                                                            80 QOg 7 8 9                                                                                                                                                80
~10 7    89    FACIUTY                                                          METHOD OF 80 STATUS              DG POWER              OTHER STATUS          DISCOVERY                      DISCOVERY DESCRIPTION 7    8      9 0
FORM OF ACTIVITY 10'2
                              ~00 COATENT 0
13 NA 44      45      46 ROUTINE SAMPLING 80 RELEASEO      OF RELEASE            AMOUNT OF ACTIVITY                                          LOCATION OF RELEASE Q~g          Z                Z          NA                                                NA 7    8      9                10      11                                44      45                                                                80 PERSONNEL EXPOSURES 7    8 9              11      12      13                                                                                                            80 PERSONNEL INJURIES NUMBER            DESCRIPTION
        ~00        '0              NA 7    89                11    12                                                                                                                      80 PROBABLTE CONSE(UENCES
~s        NA 80 7    8 9 LOSS OR OAMAGE To FACIUTY TYPE      DESCRIPTION
~16      Z              NA 7    89          10                                                                                                                                  80 PU8 ICITY N
7    8 9                                                                                                                                            80 AOOITIONAL FACTORS Pge        NA 7 89                                                                                                                                                80
~19        NA 7 89                                                                                                                                                80 NAME'. E.A.SMARRELLA GPO IIdI ~ 6CT
 
INDIANA 5 MICHIGAN POWER COMPANY DONALD C. COOK NUCLEAR PLANT IODINE SPIKE FOLLOWING    POWER  TRANSIENT NOVEMBER  20, 1976 This report is submitted persuant to the requirements of Appendix  A Technical Specifications 3.4.8 and 6.9. 1.      Specification 3.4.8 indicates that, "The specific      activity of  the primary coolant shall  be limited to ~1.0 pCi/gm    dose  equivalent I-131...."    On  November 20, 1976,  at 0510 hours,  DOSE EQUIVALENT  I-131  was found  to  be 3.33  pCi/gm in violation of Specification 3.4.8.     This spike resulted from    a  unit trip at 0055 hours on November 20, 1976.
Attempts;to count the sample taken at       0510 on November 20, 1976, were  initially unsuccessful  with geometry configurations available at that time,  as the total  activity  caused  significant instrument    dead  time. For this reason, the   sample was held  for  decay to be counted as, soon as instrument dead time  permitted. Since the sample  still  could not be counted  16  hours later, the sample was  diluted  and counted  at  2200 hours on November 20, 1976.
Sample  results indicated 2.77 pCi/cc I-131; however,      the" technician  on  duty at that time  felt that  the four hour surveillance requirement of Table 4.4-1, Item 4a~  was no  longer required with the unit out of service at the time.
Sampling continued  at the normal eight hour frequency.        During data review.
at  1115 hours on November  21, 1976, the Chemical Supervisor found the out-of-specification condition.      All samples  taken since the November 20, 1976, 0510 hours time  period were counted immediately, with data indicating that DOSE EQUIVALENT  I-131 was below  1.0 pCi/gm at the 2100 hour sample on
 
0 November    20, 1976.     Sampling frequency    at this point    was  kept at once/8 hours
:1 as I-.131:was <1.0     pCi/cc', however, during the period from 0510 to 2100 hours on November 20, 1976, samples        were taken each 8 hours,        rather than  each four hours, resulting in      a  violation of the monitoring requirements of Table 4.4-4, Item 4a.
The  unit  had been    operating at    1005 power    since November 10, 1976, with  a  slow decrease      in power to 70/    on November    19, 1976. I-131 values had increased from 2.0x10          pCi/cc at equilibrium to =4.0x10            pCi/cc following the reduction to      70&#xc3; power. This small spike      was  similar.to those    seen during  'earlier  power    transients, i.e. power  reductions to 705 from November      5 to 12, 1976.      (Figure 1)
Prior to return to full power, the unit            was  tripped at  0055 hours on November    20, 1976, resulting in the larger I-131 spike to 2.77 pCi/cc with resultant    DOSE EQUIVALENT      I-131 dropping below 1.0 pCi/gm within          16 hours  after the spike.        DOSE E(UIVALENT    I-131 values were in the "Acceptable Operation" portion of Technical Specification Figure 3.4-1 at                  all times during the transient.
Data from WCAP-8637      --  "Iodine Behavior under Transient Conditions in the Pressurized Water Reactor", indicates that for power transients, the iodine release rate peaks at 3.5 - 5.25 hours following the                  initiating event (Table 1).      As  the 0510 sample    was  taken 4.25 hours following the unit trip, recorded values are          assumed  to  be  quite close to the actual I-131 peak value.      The plot of I-131 activity prior to          and  following the unit trip  (Figure 2) also indicates that the 0510 data is quite close to the Coolant samples are brought to ambient conditions before counting, therefore, units of pCi/cc are essentially inter changeable.
 
0 "l
I l
 
peak  value, taking into account peak release times and the slope of the I-131  activity  decrease.      This curve can also    be  utilized to indicate I-131 values during the four hour periods when samples were not obtained as per requirements      of Table 4.4-4, Item 4a.      The  plot of I-133    and k          )(~
I-135  activities during this period (Figure 3) also validates this assumption. Utilizing the above data, the specific activity of the primary coolant exceeded        1.0 pCi/gm  DOSE EQUIVALENT    I-131 conservatively.
for  a  period of eighteen (18) hours.          (Figure  4 )
Power  transients    have been  identified  as one    of three distinct':
causes  of iodine spiking.        Data from operating    plants    has indicated iodine spiking of similar      (Haddam Neck,    April  16, 1971 I-131      - 3.0 pCi/gm) or greater (R. E. Ginna, February 26, 1971, I-131 - 6.8 pCi/gm; April 14, 1971, I-131   - 18.3 pCi/gm) magnitude (Figures 5, 6,         7) than the one reported following reactor      trip  on November 20, 1976.z    Primary coolant I-131     activity had been  stable at    100'A  power at 2.0  x 10-z pCi/cc since October 7, 1976, following    an increase    in I-131 during steady-state operation indicating development    of  a  fuel clad failure. DOSE EQUIVALENT I-131 during this time period  was  also stable at 0.02 - 0.03 uCi/gm. For this reason, the iodine spike on November 20, 1976, is attributed to the normal spiking phenomena during power transients rather than additional fuel clad failures.                 Mon-itoring of iodine      data following    return:to equilibrium at       100&#xc3; power had validated this assumption as the I-131 activity            has stabilized at 1.5    x 10 vCi/cc with    DOSE EQUIVALENT      I-131 at 0.03 pCi/gm (Figure 8 and 9).
Westinghouse    Electric,    WCAP-8637, November,     1975.
 
As mentioned'reviously, reactor        power had been    stable at  100%
since November 10, 1976, with      a  scheduled slow decrease    to  70K power occurring on November 19; 1976.       Purification flow was reasonably stable at 75 gpm  through the   CVCS  Mixed Bed Demineralizer    following start-up in September  1976, until  1130 hours on November 21, 1976, when the          flow  was increased to 120    gpm.    (Figure 4)  There were no de-gassing      operations performed during    this time period. Fuel burn-up by core region        is indicated in Table 2.
To ensure the four hour sampling requirements        are met in the future, the incident    has been 'discussed   with all chemical technicians and supervision with instructions to perform       DOSE E(UIVALENT, I-131   cal-f*
V culations whenever I-131 activity approaches 0.75 pCi/cc.'' In 'addition, new geometries   have been added   to the counting   room Ge(Li) systems     to
,enable counting of samples with higher       total activities,.:as well     as instructions to dilute     samples   if necessary   to ensure that samples are counted as soon as possible following system         transients.
 
INDIANA 5 MICHIGAN POWER'.COMPANY DONALD C. COOK NUCLEAR PLANT TABLE 1


==SUMMARY==
==SUMMARY==
OF RELEASE'RATES DURING POWER TRANSIENT CONDITIONS 0.5 1.0" 3.5 5.0 5.25 7.5 10.0 14.0 TIME 0.5 hr 1.0 hr 3.5 hr 5.0 hr 5.25 hr 7.5 hr 10 hr 14 hr R/Ro 13 19 40.5 56 65 39 25 14 0.0  
OF RELEASE'RATES DURING POWER TRANSIENT CONDITIONS TIME                R/Ro 0.5 hr            13 0.5      1.0 hr            19 1.0  "
3.5 hr            40.5 3.5       5.0 hr            56 5.0       5.25 hr           65 5.25     7.5 hr           39 7.5       10 hr             25 10.0      14 hr             14 14.0                        0.0


==Reference:==
==Reference:==
Westinghouse Electric Corp., WCAP-8637, "Iodine Behavior Under Transient Conditions In The Pressurized Water Reactor",
November, 1975.
Il 't.
      'I II


Westinghouse Electric Corp., WCAP-8637,"Iodine Behavior Under Transient Conditions In The Pressurized Water Reactor", November, 1975.
INDIANA 5 MICHIGAN   POWER COMPANY DONALD C. COOK NUCLEAR PLANT TABLE   2 FUEL BURNUP BY CORE REGION REGION NO. BURNUP FOR     CUMULATIVE      ENERGY FOR  CUMULATIVE PERIOD         BURNUP           PERIOD     ENERGY MWD MTU         MWD/MTU           BTU         BTU
Il't.'I II INDIANA 5 MICHIGAN POWER COMPANY DONALD C.COOK NUCLEAR PLANT TABLE 2 FUEL BURNUP BY CORE REGION REGION NO.BURNUP FOR CUMULATIVE PERIOD BURNUP ENERGY FOR PERIOD CUMULATIVE ENERGY MWD MTU MWD/MTU BTU BTU 2.3.0.4661E+13 0.4993E+13 0.1797E+05 0.2094E+04 0.1520E+04 0.1264E+05 0.3606E+13 0.1934E+04 0.1785E+05 0.4303E+14 0.4285E+14 0.2998E+14 Core Total 0.1850E+04 0.1617E+05 0.1326E+14 Period: October 1, 1976-November 20, 1976 0.2998E415 I
: 0. 1934E+04      0. 1785E+05      0. 4661E+13 0.4303E+14
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Revision as of 19:51, 20 October 2019

LER 1976-052-00 Re Iodine Spike Following Power Transient
ML18219C276
Person / Time
Site: Cook  American Electric Power icon.png
Issue date: 12/06/1976
From: Jurgensen R
Indiana Michigan Power Co
To: James Keppler
NRC/RGN-III
References
LER 1976-052-00
Download: ML18219C276 (30)
v  d  e


Text

U.S. NUCLEAR REGULATOR MMISSION DOCKET NUMBER NRC FORM 195 I2.76) +0- g/Q FILE NUMBER NRC DISTRIBUTION FDR PART 50 DOCKET IVIATERIAL INCIDENT REPORT DATE OF DOCUIlIENQ Mr Keppfer Indiana & Michigan Pwr Co 6 Bridgamn, Mi DATE RECEIVED

~

R W Jurgensen E9LETTER ONOTORI2ED PROP INPUT FORM NUMBER OF COPIES RECEIVED OORIGINAL QUNCLASSIFIED 1 CC SCOPV DESCRIPTION ENCLOSURE Ltr trans the following: Licensee Event Report (ROID 76-52) on 11-20-76 concerning excessive iodine spike......

ACKNOWLEBGEO 80 NOT RglQOyg PLANT NAME' 'C Cook yl NOTE: IF PERSONNEL EXPOSURE IS INVOLVED SEND DIRECTLY TO KREGER/J, COLLINS FOR ACTION/INFORMATION 12-14-'76 ehf BRANCH CHIEP:

W 3 CYS FOR ACTION LIC ~ ASST+'.

W CYS ACRS CYS INTERNAL D ISTRI BUTION GOLEM NRC PD}4 I&E (2 MIPC SCHROEDER/IPPOLITO HOUSTON NOVAK/CHECK GRIMES CASE BUTLER HANAUER TEDESCO/MACCARY EISENHUT BAER SHAO VOLLMER/BUNCH KREGER/J ~ COLLINS EXTERNAL DISTRIBUTION CONTROL NUMBER LPDR: S4 JcI c TIC' o

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OiO INDIANA & It/IICHIGAN PD NE8 December 6, 1976 DONALD C. COOK NUCLEAR PLANT CO P.O. Box 458, Bridgman, Michigan 49106 NY Mr. J. G. Keppler, Regional Director Office of Inspection and Enforcement United States Nuclear Regulatory -Commission Region III 799 Roosevelt Road Glen Ellyn, IL 60137 Operating License DPR-58 Docket No. 50-315

Dear Mr. Keppler:

Pursuant to the requirements of Appendix A Technical Specifications and the United States Nuclear Regulatory Commission Regulatory Guide 1.16, Revision 4, Section 2.a, the following report is submitted:

RO-50-315/76-52 During preliminary reviews, this occurrence was classified as a 30 day report and no followup report was submitted. Subsequent reviews indicated that this should be a 14 day report. The RO III Resident Inspector was on site on the day of the occurrence.

Sine ly, r

. Jur s Plant Ma ge RWJ/mj cc: R. S. Hunter J. E. Dolan G. E. Lien R. Kilburn R. J. Vollen BPI R. C. Callen MPSC K. R. Baker RO: III P. W. Steketee, Esq. '.

Walsh, Esq.

G. Charnoff, Esq.

G. Olson J. M. Hennigan R. S. Keith PNSRC Dir., IE (40 copies)

Dir., MIPC (4 copies)

OEC 91976

LICENSEE EVENT REPORT

'SE CONTROL BLOCK: PAINT ALL AEOIjlAED INFORMATION)

LICENSEE LICENSE EVENT NAME LICENSE NUMBER TYPE TYPE

[oa] N I 0 C C 1 0 0 OOOOO O 0 A 1 1 1 1 ~01 89

~

7 14 15 25 26 30 31 32

[oa~]cows CATEGORY REPORT.

TYPE C

REPORT SOURCE L 0 5 DOCKET NUMBER 0 0 315 EVENT DATE 2 0

'EPORT 7 6 1 2 0 DATE 6 7 6 7 8 57 58 59 60 69 74 75 80 EVENT DESCRIPTION

[oaf (SEE SUPPLEMENT) 7 8 9 80 7 89 80 7 8 9 80 QO75 7 8 9 (RO-50-315/76-52 )

Jog 7 8 9 PRME

~

80 SYSTEM CAUSE COMPONENT COMPONENT Ioc7I 7 8 9 10

~z CODE CODE L~J 11 1P z

COMPONENT CODE z z z z Z 17 SUPPUER Z

43 44 X

MANUFACTURER 9 9 9 47 Y

48 CAUSE DESCRIPTION (SEE SUPPLEMENT) gg 7 8 9 80 QOg 7 8 9 80

~10 7 89 FACIUTY METHOD OF 80 STATUS DG POWER OTHER STATUS DISCOVERY DISCOVERY DESCRIPTION 7 8 9 0

FORM OF ACTIVITY 10'2

~00 COATENT 0

13 NA 44 45 46 ROUTINE SAMPLING 80 RELEASEO OF RELEASE AMOUNT OF ACTIVITY LOCATION OF RELEASE Q~g Z Z NA NA 7 8 9 10 11 44 45 80 PERSONNEL EXPOSURES 7 8 9 11 12 13 80 PERSONNEL INJURIES NUMBER DESCRIPTION

~00 '0 NA 7 89 11 12 80 PROBABLTE CONSE(UENCES

~s NA 80 7 8 9 LOSS OR OAMAGE To FACIUTY TYPE DESCRIPTION

~16 Z NA 7 89 10 80 PU8 ICITY N

7 8 9 80 AOOITIONAL FACTORS Pge NA 7 89 80

~19 NA 7 89 80 NAME'. E.A.SMARRELLA GPO IIdI ~ 6CT

INDIANA 5 MICHIGAN POWER COMPANY DONALD C. COOK NUCLEAR PLANT IODINE SPIKE FOLLOWING POWER TRANSIENT NOVEMBER 20, 1976 This report is submitted persuant to the requirements of Appendix A Technical Specifications 3.4.8 and 6.9. 1. Specification 3.4.8 indicates that, "The specific activity of the primary coolant shall be limited to ~1.0 pCi/gm dose equivalent I-131...." On November 20, 1976, at 0510 hours0.0059 days <br />0.142 hours <br />8.43254e-4 weeks <br />1.94055e-4 months <br />, DOSE EQUIVALENT I-131 was found to be 3.33 pCi/gm in violation of Specification 3.4.8. This spike resulted from a unit trip at 0055 hours6.365741e-4 days <br />0.0153 hours <br />9.093915e-5 weeks <br />2.09275e-5 months <br /> on November 20, 1976.

Attempts;to count the sample taken at 0510 on November 20, 1976, were initially unsuccessful with geometry configurations available at that time, as the total activity caused significant instrument dead time. For this reason, the sample was held for decay to be counted as, soon as instrument dead time permitted. Since the sample still could not be counted 16 hours later, the sample was diluted and counted at 2200 hours0.0255 days <br />0.611 hours <br />0.00364 weeks <br />8.371e-4 months <br /> on November 20, 1976.

Sample results indicated 2.77 pCi/cc I-131; however, the" technician on duty at that time felt that the four hour surveillance requirement of Table 4.4-1, Item 4a~ was no longer required with the unit out of service at the time.

Sampling continued at the normal eight hour frequency. During data review.

at 1115 hours0.0129 days <br />0.31 hours <br />0.00184 weeks <br />4.242575e-4 months <br /> on November 21, 1976, the Chemical Supervisor found the out-of-specification condition. All samples taken since the November 20, 1976, 0510 hours0.0059 days <br />0.142 hours <br />8.43254e-4 weeks <br />1.94055e-4 months <br /> time period were counted immediately, with data indicating that DOSE EQUIVALENT I-131 was below 1.0 pCi/gm at the 2100 hour0.0243 days <br />0.583 hours <br />0.00347 weeks <br />7.9905e-4 months <br /> sample on

0 November 20, 1976. Sampling frequency at this point was kept at once/8 hours

1 as I-.131:was <1.0 pCi/cc', however, during the period from 0510 to 2100 hours0.0243 days <br />0.583 hours <br />0.00347 weeks <br />7.9905e-4 months <br /> on November 20, 1976, samples were taken each 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />, rather than each four hours, resulting in a violation of the monitoring requirements of Table 4.4-4, Item 4a.

The unit had been operating at 1005 power since November 10, 1976, with a slow decrease in power to 70/ on November 19, 1976. I-131 values had increased from 2.0x10 pCi/cc at equilibrium to =4.0x10 pCi/cc following the reduction to 70Ã power. This small spike was similar.to those seen during 'earlier power transients, i.e. power reductions to 705 from November 5 to 12, 1976. (Figure 1)

Prior to return to full power, the unit was tripped at 0055 hours6.365741e-4 days <br />0.0153 hours <br />9.093915e-5 weeks <br />2.09275e-5 months <br /> on November 20, 1976, resulting in the larger I-131 spike to 2.77 pCi/cc with resultant DOSE EQUIVALENT I-131 dropping below 1.0 pCi/gm within 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> after the spike. DOSE E(UIVALENT I-131 values were in the "Acceptable Operation" portion of Technical Specification Figure 3.4-1 at all times during the transient.

Data from WCAP-8637 -- "Iodine Behavior under Transient Conditions in the Pressurized Water Reactor", indicates that for power transients, the iodine release rate peaks at 3.5 - 5.25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> following the initiating event (Table 1). As the 0510 sample was taken 4.25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> following the unit trip, recorded values are assumed to be quite close to the actual I-131 peak value. The plot of I-131 activity prior to and following the unit trip (Figure 2) also indicates that the 0510 data is quite close to the Coolant samples are brought to ambient conditions before counting, therefore, units of pCi/cc are essentially inter changeable.

0 "l

I l

peak value, taking into account peak release times and the slope of the I-131 activity decrease. This curve can also be utilized to indicate I-131 values during the four hour periods when samples were not obtained as per requirements of Table 4.4-4, Item 4a. The plot of I-133 and k )(~

I-135 activities during this period (Figure 3) also validates this assumption. Utilizing the above data, the specific activity of the primary coolant exceeded 1.0 pCi/gm DOSE EQUIVALENT I-131 conservatively.

for a period of eighteen (18) hours. (Figure 4 )

Power transients have been identified as one of three distinct':

causes of iodine spiking. Data from operating plants has indicated iodine spiking of similar (Haddam Neck, April 16, 1971 I-131 - 3.0 pCi/gm) or greater (R. E. Ginna, February 26, 1971, I-131 - 6.8 pCi/gm; April 14, 1971, I-131 - 18.3 pCi/gm) magnitude (Figures 5, 6, 7) than the one reported following reactor trip on November 20, 1976.z Primary coolant I-131 activity had been stable at 100'A power at 2.0 x 10-z pCi/cc since October 7, 1976, following an increase in I-131 during steady-state operation indicating development of a fuel clad failure. DOSE EQUIVALENT I-131 during this time period was also stable at 0.02 - 0.03 uCi/gm. For this reason, the iodine spike on November 20, 1976, is attributed to the normal spiking phenomena during power transients rather than additional fuel clad failures. Mon-itoring of iodine data following return:to equilibrium at 100Ã power had validated this assumption as the I-131 activity has stabilized at 1.5 x 10 vCi/cc with DOSE EQUIVALENT I-131 at 0.03 pCi/gm (Figure 8 and 9).

Westinghouse Electric, WCAP-8637, November, 1975.

As mentioned'reviously, reactor power had been stable at 100%

since November 10, 1976, with a scheduled slow decrease to 70K power occurring on November 19; 1976. Purification flow was reasonably stable at 75 gpm through the CVCS Mixed Bed Demineralizer following start-up in September 1976, until 1130 hours0.0131 days <br />0.314 hours <br />0.00187 weeks <br />4.29965e-4 months <br /> on November 21, 1976, when the flow was increased to 120 gpm. (Figure 4) There were no de-gassing operations performed during this time period. Fuel burn-up by core region is indicated in Table 2.

To ensure the four hour sampling requirements are met in the future, the incident has been 'discussed with all chemical technicians and supervision with instructions to perform DOSE E(UIVALENT, I-131 cal-f*

V culations whenever I-131 activity approaches 0.75 pCi/cc. In 'addition, new geometries have been added to the counting room Ge(Li) systems to

,enable counting of samples with higher total activities,.:as well as instructions to dilute samples if necessary to ensure that samples are counted as soon as possible following system transients.

INDIANA 5 MICHIGAN POWER'.COMPANY DONALD C. COOK NUCLEAR PLANT TABLE 1

SUMMARY

OF RELEASE'RATES DURING POWER TRANSIENT CONDITIONS TIME R/Ro 0.5 hr 13 0.5 1.0 hr 19 1.0 "

3.5 hr 40.5 3.5 5.0 hr 56 5.0 5.25 hr 65 5.25 7.5 hr 39 7.5 10 hr 25 10.0 14 hr 14 14.0 0.0

Reference:

Westinghouse Electric Corp., WCAP-8637, "Iodine Behavior Under Transient Conditions In The Pressurized Water Reactor",

November, 1975.

Il 't.

'I II

INDIANA 5 MICHIGAN POWER COMPANY DONALD C. COOK NUCLEAR PLANT TABLE 2 FUEL BURNUP BY CORE REGION REGION NO. BURNUP FOR CUMULATIVE ENERGY FOR CUMULATIVE PERIOD BURNUP PERIOD ENERGY MWD MTU MWD/MTU BTU BTU

0. 1934E+04 0. 1785E+05 0. 4661E+13 0.4303E+14
2. 0.2094E+04 0. 1797E+05 0. 4993E+13 0. 4285E+14
3. 0. 1520E+04 0. 1264E+05 0. 3606E+13 0. 2998E+14 Core Total 0. 1850E+04 0. 1617E+05 0. 1326E+14 0.2998E415 Period: October 1, 1976 - November 20, 1976

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