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{{#Wiki_filter:OCT 89'92 18:81N CONTROLOTRON S16-231-3334
{{#Wiki_filter:S16-231-3334                  P.2 OCT 89 '92 18:81N   CONTROLOTRON
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'PODEX'8 LT5KT Vo'8'2'1'0'4 5 ro.i xrcoo:goals 5 ONTROLOTRON ORPQRATlON cypf 0/B0pjp p@$0$','"-~t+~~~e H<<QMUQ~'~~~~7e~(~>@>>~>BOO PDR ADOCN 05POOgO0 P PDn
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OCV e9 9Z re:evan COVVaOt.OVZOV S>e-Z=S-"="-a
                      +op
~g ANO~C Cy X n~I o+P C CAROLINA POWER&LIGHT M.o.8 921045 PDC-994P5GLS-3 TRANSDUCER
                                'L'OV 'CM'XRRA'TXOH REPORT
-991PMS-2 PIPE SIZE-3SS40 U2415 U4077 PREPARED BY: Date iG QNTROLOTRON ORPORATION 155 Phot Avenue~Heuppauge, NY 11788~(518)231-3800 18: 8ZAPl Ch KNTROLOTRON 516" 231-3334 n~4 O~r~op RTIFICATE OF FLOg CAZ,IBPATION CAROLINA POQER 6 LIGHT HARRIS PLANT AMENDMENT d3~CHASE ORDER NO.XT00000075 OUR CWORK ORDER NO.921045 DATE 10-9-92 XT XS HEREBY CERTIFIED THAT ALL HA~RING 6 TEST EQUXPHEHT USED TO XNSPECT, TEST 8 CALIBRATE OUR PRODUCXS ARE TRACEABLE TO THE NATXONAL INSTITUTE OF STANDARDS AND TECHNOLOGY (NIST)~TEST AND/OR INSPECTION REPORTS INDICATING CONFORMANCE ARE ON FILE.FLASH CALIBRATION AT CONTROLOTRON OR AT EXTERNAL FACILITIES ARE PERFORHED BY KVQ2KB CONTROLOTRON PERSONNEL'ND ALL FACXXiETX EQUXPMERiT UTILIZED ARE TRACEABLE TO NXST.THE MATERIAL IDENTIFICATION AND ACCURACY IS XN ACCORDANCE HXTH THE FLOH CALIBRATXON REPORT XNDXCATED BELOg-994P5GLS-3 991PMS-2 u2415 U4077 ATTACHMENTS FLOg CALI B.REPORT NO.9107 2 QUAL T'I SUPERVXS DATE CC2O4-B.1 C3NTRC3LOTRON ORPO RATION 155 Plant Avonvo Havnpavge.
                                'CA'KOL'X%A 'PODEX '8 LT5KT Vo'8'   2'1'0'4 5 ro. i xrcoo:goals 5 ONTROLOTRON                     ORPQRATlON cypf 0/B0pjp p@$ 0$
NY 117'9e~(51el 731-1+<>
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pl AHd gl Ch A O+p<og FLOR CALIBRATION REFERENCE~q'h DATA SHEET CAL.f 9107 2 MODEL P/N: 9 4PSG CUSTOMER: C RO LOCATION: DATE OF CERTIFICATION:
      +e af ~
10-9-92 S/N P/0 N/0 TEST E UIPMENT TEMPERATURE
-Di itec 5820 TIMER-NEWPORT Model 6130A INDICATOR-BLH Mode1 LCP10 VR2.26 S/N CCT-301.Due-2-S/N 36 ue 1-17-2 S/N CCT-380 Due 7-6-93 CALIBRATION METHOD CONTROLOTRON TEST PROCEDURE CS-2 REV 3A 6/29/92 THIS CALIBRATION.IS CERTIFIED TO BE ACCURATE WITHIN A MAXIMUM ERROR OF+-1X APPROVED BY: DATE CC-246-3 o~v'aocov'aoN OaPORATlOM 155 Plant Avenue~Hauppauge, NY 11788~t516)231.3600


UU I U0'0C lU: U~HM l UN IkULD lkON 516-231-3334 O C a a e"+~~o(CONTROLOTRON CORPORA::-OS 990:":OR CALIBRATION DIAGNOST C DATA SEE T P.s CUSTOMER: CAROLINA POUER&LIGHT FDC P/N: 994PSGLS-3 TRANSDUCER P/N: 991PMS'-'Y.O.: 921045 FDC S/5: U2415 TRANSDUCER S/N: U4077AIS SITE NAME: 3SS40CAL PIPE SIZE: 3SS40 TRACK MOUNTING (D/R): DIR TRACK SPACING INDEX: B-8 PER:" B~: DATE: 10-8-92 LIQUXD TEMP: DEGRESS P 78 KC FACTOR:+3.5 NOTE: The diagnostic data listed helena is the Uniflov set-up data at the time of calibration.
OCV e9 9Z re:evan    COVVaOt.OVZOV  S>e-Z=S-"="-a
The diagnostic data will vary somewhat due to variations in app ication conditions.
                  ~g ANO ~ C Cy X                  n~ I o+
This data is listed for information and reference purposes only.DIAGNOSTIC DATA Vs: Vale: Px N: n x Vf max: TN TL Checksum Code LTN Contour 1495 30 13 10 2119.99 91.98 55'3 02B31E78 100792-0016
P          C CAROLINA POWER      & LIGHT M.o.8 921045 PDC    994P5GLS-3                   U2415 TRANSDUCER - 991PMS-2                U4077 PIPE SIZE 3SS40 PREPARED BY:
.906 (Liquid Sonic Uelocizy)(Liquid Signal Streng")(Transmit Frequency)(Transmit Count)(Receive Count)(Receive Displacement)(Maximum Flow Velocity in Ft/Sec)(Total xmit.to rcv."ime in micro-seconds)(Computed time for sonic beam in liquid)(Software integrity check)(Controlotron Corpora-=on control code)(Transducer Spacing)(Receive Signal Quali=y)CC240 ONTROLOTRON ORPORATiQN 455>lant Avenue~HauPPauge.
Date      iG QNTROLOTRON                        ORPORATION 155 Phot Avenue ~ Heuppauge, NY 11788 ~ (518) 231-3800
NY 11788~i516 231-36M Ol vv I ag 7C ACI~cl~h<'i E Vl'I I tiVLV I EVE Dlo C~l 990 FLN CALIBRATIOH DATA SHEET (IKI6H TANK hETHOD)SHEET&#xc3;I.CUST(NER: CAROLIHA PS(ER 6 l.l6HT FDC: PH 994P56LS-3 TRANSDUCER:
PN 991PhS.2 Nl 92l045 FDC SIN U24l5 POI 1 T0000007$PIPE SIZE 3SS40 TRC ITS (0/R)DlR TRANSDUCER S/h U4077AIB TRANSDUCER CC}4030 FLON STANDARD CCT: 380 TlhER CCT: 362 TENP Ql%E CCTl 301 SITE MANE: 3SS40CAL Vs 1495 Kc FACTOR 3.5 SPACE IIGEI B.S Fx: 6 H: 30 n: 13 1: 10 Tn: 91,98 TLs$5.93 Yafcc&6 PERFORRED BT DATE 10-8-92 RN TANK HEISHT DELTA@ST HATER NTER ACTUAL IOICATEO START l.BS LBS TENP DHOITTYOL VOL T1%DE6 F Yact Yin4 START STOP STOP'ELTA Quet had DEETI 0 X ERRN TI%SEC(NDS SPll SP}l SP%.1 3l8 , 2 386 2.5 2844 2526 78 8.30698 304.0816 301.3 3N9.$2963.$78 Oo30698 356.748}353.$2 4258.$3816 79 8.30580 459.4379 455.9 4781 4232.$79 8.30580$09.$836 507.$4 0 435.31 43$,3}4f.9}2Q 4}.$2902 Wa3C39%.9}5f 0 342.99 342.99 62.40674 6}i@203 4.$647}%.90$f 0 346.25346,25 79.6}3N 79.0N72 W.Cf3N 4.770f 0 303.22 3N.22 100.&344}00.4300<.40439 4.4011


2.00%CAROLINA P8cL,WO 92't 045,PO XT00000075 FDC U2415,XO 04077,PlPK 3SS40 1.50%0 0 2 0 F 1.00%0.50K O.QOX-0.50K-1.00K.91 5'0.905%-0.770K-0.401%n O O I O O EA g 6)(!3 I E!3 l!i t!3-1.50K-2.005 60 CPM 80 100 t',>I 18:GSN CONTROL,OTRON 516-Z31->884 0"-POLIClES AND PROCEDURE5 o P roe s<P.M Type CUSTOMER SERVICE Subject~g CALIBRATION (I4gp/96p/99p)
516" 231-3334 18: 8ZAPl KNTROLOTRON Ch n~ 4 O
Flov Curve, Density Chart;NR Calc Re uest for Flov Cal Ad~in-'-y CUST SERV Prep.By Dare 5/5/82 CS-2 Appr.By Da=e 5/>0/C2 Data Sheet CUSTOMER SERVICE.C.ENGINEERING PURPOSE OR OMZCTXVE: Yo define the details of flow calihratian and operation of the flow station.RESPONSIBXXZTY FOR AUHXHXSTM5KON 6 CX86?XZ2LHCE=
                    ~r
w QGtgf~ti Kth1lI-~h with the CL1&toIRex'exvLce MRx4Lger Compliance with specifia tasks a?a~he as designate hp the t I!g t.KI~t who have been certified by 4~Ming record to epmate the scar stand and e~pment to be calibrated.
                      ~op RTIFICATE OF FLOg CAZ,IBPATION AMENDMENT d3
Changes+ay en1y'e~e by or with the approval of Quality As:~u~ce.REVXSIOH RECORD l~l Rem.I.tr.l I Sa~e of Change f 3 Rex.bate f kppzare8 By 3 3 f l I l l l I l l 2 l I l 3 l 3A l l 3 QA Pile 3 l l l Separated 480/960/990; provided 3 l-data sheets;Min Flow=1'/s;NR{H/A,.for 990~3 l l l Expanded initial conditions; flow time&weight requirements; certifig cation.l l Para 2.8 to allow initial calih at, l any flow rate;added l.7, 2.8 l l l Para 1.6, 2.8, 2.14 added Pgen use in 480.l"'3 l 11/D/Sl l f l 9/16/88 I 3 3 3 f l 10/18/90 f 10/21/90 f 3 Re-isaac l l 1/20/90 l l.l 8/30/91 I'",!>/l I l l 6/29/~}</&/lZ I l ONTROLOTRON ORPQRATiON tg P e GCT 89"92 18:84FN CGNTRGLOTRON 516-F31-33~4 a C Cp CI a o P E+oc s<+CONTROLOTRON CORPORATION a80/960/990 FLOM CALKBRATION PROCEDURE~~~~XHXTXAL CoNDXTXoNS
                                                ~CHASE ORDER NO. XT00000075 CAROLINA POQER 6 LIGHT HARRIS PLANT                          OUR  CWORK ORDER NO.      921045 DATE      10-9-92 XT XS HEREBY CERTIFIED THAT ALL HA~RING 6 TEST EQUXPHEHT USED TO XNSPECT, TEST 8 CALIBRATE OUR PRODUCXS ARE TRACEABLE TO THE NATXONAL INSTITUTE OF STANDARDS AND TECHNOLOGY (NIST) ~ TEST AND/OR INSPECTION REPORTS INDICATING CONFORMANCE ARE ON FILE. FLASH CALIBRATION AT CONTROLOTRON OR AT EXTERNAL FACILITIES ARE PERFORHED BY KVQ2KB CONTROLOTRON PERSONNEL'ND ALL FACXXiETX EQUXPMERiT UTILIZED ARE TRACEABLE TO NXST. THE MATERIAL IDENTIFICATION AND ACCURACY IS XN ACCORDANCE HXTH THE FLOH CALIBRATXON REPORT XNDXCATED BELOg-994P5GLS-3                u2415 991PMS-2                 U4077 QUAL  T'I  SUPERVXS DATE ATTACHMENTS FLOg CALIB. REPORT NO. 9107 2 C3NTRC3LOTRON                      ORPO RATION CC2O4-B.1 155 Plant Avonvo Havnpavge. NY 117'9e ~ (51el 731-1+<>
'1-2 1o4 1.6 The stancXax6 flow calibration vi11 be done at, zero Ma+g1as 4 points up to customers maxixnzm flov, or l to lo Ct/sec 5X met, specified.
 
A f 1m'alibration vozk order shal3.be fin~eat hp Sa~cxr Customer Sexvice Rmministzatian as d'art of~BnB:iaX~xR order and sent, to the Customer Seztrice Emagex Sar 2'.customer purchase orders that contain gL cmr Nuclear Saittey statements aze to be red.eved bp'm~~~ban to perfoxuung the vezk.Prior to starting any fRov ca16mddan,+ear mme%we been intrinsica11y ca1ihrateC zmk~y teste@enik in th N 1t t I l~Customer retaxned equipment aha11 Xo33.ov caatxaam P.o.zecpBxa-ments, and/or the following:
pl  AHd gl Ch A
A.59m e~yCganent electronics and transducexs are M be checked foz pzoyoz iocctionihg w~ith t aigastizg, chcmgihg, cz repairing any function, or zemava1 of custaaer data in memory~B.Xf a malfunction is found, the customer is to be notiXiek that there is a defect and customer instruction of continued vozk (in writing}is to be obt~ed, if the P o does not, pmvide such instructions.
O
Unless othexwise specified, net equipment eh Q.l ce1y recpdxe"as cleft" data;custcnnez retazned ecpipmezrt slue zecpxixe~founcP and<<as left" data: repaired customer equipment sbz61 require"as left" unless the repair is Known not to affect the acquisition and/or processing of floe data.The calibration status of the Plow Stand and test, equipment shall be checked ta assure that they are within the def~calibration dates.The Timer, Temperature Cuage, and Floe Stand CCT numbers shall be entered on each data sheet>4r 480 systems include the frequency counter.ONTROL.OTRON RPORATlON OCT 89'92 18:GSN CONTROLOTRON 516-<31-333
                                                                                  ~
~o~I o Cl aO O oc aqs 1.7 Znitia3.flov points to establish the calibration slope azxX adjust the instrument may be made, during the"calibration phase" of the flowmeter.
q 'h
The data sheet is to izxU.cate that an adjustment was made, and a11.prior data are not to be used,.l.7.1 Xf any flov rate is found, to be outside the xecpxized, fLov rate~..tolexa~, the'slope may'be aigasted and a13.no~em Mav~" rates repeateR.2~ON PRO BURR 2-2 Review f3.ov calibration work order and Purchase Order te assare th th~Ml&eh~it I-ls8 of pohzts;max Qov, proper pipe, axe recpd;reX acaaacy)-------Hount the pipe'of the designated, size in the f3ear+ted~aaR t-~~t g~Sp fh 8I~$th Control~~Tnstal1atiau Hannah.PIcv water Xcc.a 3aast 5 minutes to stabiLixe aeeitbxi...3 Check the~kicable genexaL of oZ~ration.
                +p
after at 3.east M mba.a.2arplitade b.Have Shape c.Slew Rate Ability to Set 2'ero e.Zero Ringe Zero Stab&.9.ty g.H Position (F/A far 990 Sys)2 4 2.5 Chec3c data scatter at zero KLov by records~2D mmmm~.The average should be mmdmua of.01~sec.Set-up and fill out a stan~data sheet (CC174)for st-a&an%4 points plus zero data zan.Additional data points can be ran if contracted with the custcaner and specified an the vaxk order.P1an flov points approximately ecpxally spa~%,.including xwdmum and a~mrna points as specified by the customer.These points must~within the maciIma acRuevable flow rates for the particular pipe specified.
                    <og FLOR CALIBRATION REFERENCE DATA SHEET CAL.     f  9107 2 MODEL  P/N:      9  4PSG                                            S/N CUSTOMER:      C  RO                                                P/0 LOCATION:                                                              N/0 DATE OF CERTIFICATION:              10-9-92 TEST E UIPMENT TEMPERATURE          Di itec 5820                            S/N      CCT-301. Due          TIMER  NEWPORT Model 6130A                                  S/N            36    ue    1   2 INDICATOR  BLH Mode1 LCP10 VR2.26                            S/N      CCT-380 Due 7-6-93 CALIBRATION METHOD CONTROLOTRON        TEST PROCEDURE CS-2     REV 3A          6/29/92 THIS CALIBRATION.IS CERTIFIED TO BE ACCURATE WITHIN A MAXIMUM ERROR OF  +-  1X APPROVED BY:                                                     DATE CC-246-3 o~v'aocov'aoN                      OaPORATlOM 155 Plant Avenue ~ Hauppauge, NY 11788 ~ t516) 231.3600
2.6 Measure taxeveight of tan3c and record value.2.7 Measure water temperature and record value.2.8 Start flow run at a selected flow rate.Close weigh tan3c outlet valve and start totalizer and timer simultaneously.
 
        '0C  lU: U~HM l UN IkULDlkON 516-231-3334                                        P.s UU I U0 O
C a                a e"
                    +~
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CONTROLOTRON CORPORA::-OS 990 :":OR CALIBRATION DIAGNOST                C  DATA SEE T CUSTOMER:        CAROLINA POUER          &  LIGHT          Y.O.:            921045 FDC  P/N:    994PSGLS-3                                    FDC  S/5:    U2415 TRANSDUCER      P/N:      991PMS'-'                          TRANSDUCER      S/N:  U4077AIS SITE NAME:        3SS40CAL                                  PER:"  B~:
PIPE SIZE:        3SS40                                    DATE:          10-8-92 TRACK MOUNTING          (D/R):          DIR                  LIQUXD TEMP: DEGRESS P          78 TRACK SPACING INDEX:                      B-8 KC FACTOR:                      +3. 5 NOTE:    The  diagnostic data listed helena is the Uniflov set-up data at the time of calibration. The diagnostic data will vary somewhat due to variations in app ication conditions.
This data is listed for information and reference purposes only.
DIAGNOSTIC DATA Vs:             1495                  (Liquid Sonic Uelocizy)
Vale:                                  (Liquid Signal Streng ")
Px                                    (Transmit Frequency)
N:                  30              (Transmit Count) n                    13                (Receive Count) x                    10                (Receive Displacement)
Vfmax:        2119.99                (Maximum Flow Velocity in Ft/Sec)
TN                91.98              (Total xmit. to rcv. "ime in micro-seconds)
TL                55  '3             (Computed time      for sonic beam in liquid)
Checksum      02B31E78 100792-0016 (Software    integrity check)
Code                                  (Controlotron Corpora-=on control code)
LTN                                    (Transducer Spacing)
Contour              .906              (Receive Signal Quali=y)
CC240 ONTROLOTRON                          ORPORATiQN 455  >lant Avenue  ~ HauPPauge. NY 11788 ~ i516 231-36M
 
Ol vv I ag    7C    ACI ~ cl~h<'i  E Vl'II tiVLVI EVE  Dlo C~l 990 FLN    CALIBRATIOH DATA SHEET      (IKI6H  TANK hETHOD)    SHEET  &#xc3;I.
CUST(NER: CAROLIHA PS(ER 6      l.l6HT            Nl 92l045                      POI 1 T0000007$
FDC: PH 994P56LS-3                               FDC SIN U24l5                  PIPE SIZE  3SS40          TRC ITS (0/R) DlR TRANSDUCER: PN  991PhS.2                        TRANSDUCER  S/h U4077AIB      TRANSDUCER CC}  4030 FLON STANDARD CCT:    380                        TlhER CCT: 362                TENP  Ql%E CCTl 301 SITE MANE: 3SS40CAL                        Vs 1495            Kc FACTOR  3.5          SPACE IIGEI B.S Fx: 6              H: 30                n: 13          1: 10              Tn: 91,98        TLs $ 5.93        Yafcc &6 PERFORRED BT                                  DATE 10-8-92 RN          TANK HEISHT DELTA @ST          HATER      NTER ACTUAL      IOICATEO START        STOP'ELTA        Quet    had      DEETI 0  X ERRN l.BS            LBS            TENP      DHOITTYOL        VOL        T1%        TI% SEC(NDS      SPll    SP}l     SP%  .
DE6 F              Yact      Yin4 START        STOP 1    3l8          2844      2526            78  8.30698 304.0816      301.3        0  435.31    43$ ,3} 4f.9}2Q 4}.$2902 Wa3C39        %.9}5f
, 2   386        3N9.$    2963.$            78  Oo30698 356.748}      353.$ 2       0  342.99    342.99 62.40674 6}i@203    4.$ 647}  %.90$ f 2.5            4258.$
4781 3816 4232.$
79 79 8.30580 459.4379 8.30580 $ 09.$ 836 455.9 507.$ 4 0
0 346.25346,25 79.6}3N 79.0N72 W.Cf3N 303.22    3N.22 100.&344 }00.4300 <.40439 4.770f 4.4011
 
CAROLINA P8cL,WO 92't 045,PO XT00000075 FDC U2415,XO 04077,PlPK 3SS40 2.00%
1.50%
n O
1.00%
O I
O 0                                                              O 0.50K EA 0                                                              6) g
(!3 2  O.QOX 0                                                                I E!3 l!i F                                                              t!3
                                                      -0.401%
  -0.50K
          .91 5'0.905%                  -0.770K
  -1.00K
  -1.50K
  -2.005 60                  80          100 CPM
 
t'
,>I
 
P.M 18:GSN    CONTROL,OTRON  516-Z31->884 0
                                    "-  POLIClES AND PROCEDURE5 o
P roe s<
Type    CUSTOMER SERVICE                              Ad~in-'-y  CUST SERV            CS-2 Subject      ~g    CALIBRATION (I4gp/96p/99p)          Prep. By                Appr.By Flov Curve, Density Chart;        NR    Dare      5/5/82        Da=e  5/>0/C2 Calc Re uest for Flov Cal Data Sheet CUSTOMER SERVICE          .C. ENGINEERING PURPOSE OR OMZCTXVE:
Yo define the details of flow calihratian                      and operation      of the flow station.
w QGtgf with the CL1&toIRex'exvLce MRx4Lger
                                          ~ti RESPONSIBXXZTY FOR AUHXHXSTM5KON 6 CX86?XZ2LHCE=
Kth1 l            I    -~h who t
have I! g t.             KI~
Compliance with specifia tasks a?a~ he as designate hp the t
been certified by 4~Ming record to epmate the scar stand and e~pment to be calibrated. Changes +ay en1y'e by or with the approval of Quality As:~u~ce.
                                                                                            ~e REVXSIOH RECORD l                                                       f            3
~
l Rem. I.tr.                        Sa~e of    Change                  Rex. bate f kppzare8 By l                                                                                                          f l
I l
3 3
                                                                                      "'33 l
I                    QA  Pile                                          3 11/D/Sl                        l l                l                                                      l            f                  l l                l  Separated 480/960/990; provided 3                      9/16/88                      I l                l  -data sheets; Min Flow = 1'/s; NR                    {            3                  3 I                    H/A,.for      990                ~
3            3 l                l                                                      l            f                  l l        2      l    Expanded        initial conditions;      flow        10/18/90  f      10/21/90 f l                    time    &  weight requirements;        certifig                3 Re-isaac          l I                   cation.                                                          l 1 /20/90        l l                l                                                      l            l          .      l 3          Para 2.8 to allow initial calih at,                    8/30/91  I        '",!>/ l I l    any flow rate; added l. 7, 2. 8                    l            l                  l l                l                                                      l             I 3A        Para 1.6, 2.8, 2.14 added Pgen use                    6/29/~}            </&/lZ l                      in 480.                                           l            l ONTROLOTRON                      ORPQRATiON
 
P tg e
 
18:84FN    CGNTRGLOTRON  516-F31-33~4 GCT 89 "92 a
C Cp CI a
o P        E
                              +oc s<+
CONTROLOTRON CORPORATION a80/960/990    FLOM CALKBRATION PROCEDURE XHXTXAL CoNDXTXoNS '
~~ ~ ~
The stancXax6 flow calibration vi11 be done at, zero Ma+ g1as 4 l
points up to customers maxixnzm flov, or to lo Ct/sec 5X met, specified.
1-2        f A 1m'alibration vozk order shal3. be Customer Sexvice Rmministzatian as d'art of fin~ ~ eat hp Sa~ cxr BnB:iaX ~xR order and sent, to the Customer Seztrice Emagex Sar 2'. customer purchase orders that contain gL                          cmr Nuclear Saittey statements aze to be red.eved            bp'm~~     ~ban 1o4 to perfoxuung the vezk.
Prior to starting any fRov ca16mddan, been intrinsica11y ca1ihrateC zmk th N 1t              t I  l~
                                                            ~y teste@
                                                                  +ear enik Customer retaxned equipment aha11 Xo33.ov caatxaam P.o. zecpBxa-ments, and/or the following:
mme %we in A.                         electronics and transducexs are M be checked 59m e~yCganent foz pzoyoz iocctionihg w~ith          t aigastizg, chcmgihg, cz repairing any function, or zemava1 of custaaer data in memory ~
B. Xf a malfunction is found, the customer is to be notiXiek that there is        a defect and customer instruction of continued vozk (in writing} is to be obt~ed, does not, pmvide such instructions.
if the P o Unless othexwise specified, net equipment eh Q.l ce1y recpdxe "as cleft" data; custcnnez retazned ecpipmezrt slue zecpxixe founcP and <<as left" data: repaired customer equipment sbz61
                                                                                      ~
require "as left" unless the repair is Known not to affect the acquisition and/or processing of floe data.
1.6    The calibration status of the Plow Stand and test, equipment shall be checked ta assure that they are within the calibration dates. The Timer, Temperature Cuage, and Floe def~
Stand CCT numbers shall be entered on each data sheet >4r 480 systems        include the frequency counter.
ONTROL.OTRON                RPORATlON
 
516-<31-333 OCT  89 '92      18:GSN    CONTROLOTRON
                                    ~o
                                      ~ I o                  Cl aO O
oc aqs 1.7          Znitia3. flov points to establish                    the calibration slope azxX adjust    the  instrument        may  be  made, during the "calibration phase"    of the flowmeter.            The data sheet    is to  izxU.cate that an adjustment      was made,        and a11. prior  data are not to be used,.
l.7.1      Xf any    flov rate is          found,  to  be outside the xecpxized, fLov rate
      ~
        .. tolexa~,        the'slope may'be aigasted and              a13. no~em Mav
~
rates repeateR.
2~                                ON PRO        BURR Review f3.ov th th of pohzts;
                              ~  calibration work order Ml max Qov, proper
                                                      &eh~        and Purchase Order it      te I-ls8 assare pipe, axe recpd;reX acaaacy ) ---- ---
2-2 t-~~t Control~~ Tnstal1atiau Hannah.
g    ~
Hount the pipe'of the designated, size Sp      fh in the PIcv water 8I  ~$a+ted~
f3ear Xcc.
th 3aast 5 aaR minutes      to stabiLixe aeeitbxi.
  ..3        Check    the ~kicable genexaL                            after at  3.east M mba.
of oZ~ration.
: a. 2arplitade                          e. Zero Ringe
: b. Have Shape                                    Zero Stab&.9.ty
: c. Slew Rate                              g. H Position (F/A    far  990 Sys)
Abilityto Set 2'ero 2 4          Chec3c data scatter at zero              KLov by    records~  2D  mmmm~.      The average should be mmdmua                of  .01  ~sec.
2.5        Set-up and      fill      out a stan~ data sheet (CC174) for st-a&an%
4 points plus zero data zan.                  Additional data points can be ran if  contracted with the custcaner and specified an the vaxk order. P1an flov points approximately ecpxally spa~%,
            . including xwdmum and a~mrna points as specified by the customer. These points must flow rates for the particular pipe specified.
                                                            ~  within the maciIma acRuevable
: 2. 6        Measure taxeveight of tan3c and record value.
2.7        Measure water temperature and record value.
2.8         Start flow run at a selected flow rate. Close weigh tan3c outlet valve and start totalizer and timer simultaneously.
For 480 systems connect the frequency counter to Plea and start the counter instead of the totaliaex.
For 480 systems connect the frequency counter to Plea and start the counter instead of the totaliaex.
ONTROLOTRON ORPORATIC)N 0+p+ay.g<>2.9 Continue floving for the specified time and the minixrm'ifferential veight specified belov in order to assu e r~m 0.254 flov stand accuracy.Shut off timer and totalize simul-taneously and read the tank veight at.that moment.Record tank weight, t:otalizer count, and time M seconds.HEH3XUK TXME AND SEICEP FowTme I Di ferential Hei 60 SEC (Kin.Time)120 SEC 180 SEC 240 SEC 300 SEC (or greater)2000 LBS 1000 XBS 800 XiBS 750 XLBS 700 XaS 2-10 2 112 13 2;14'15 2 16 2-17 2.18 Suhtract staxting~Qc weight frcaa Xa11 tax'eight to get~V.Using water temperature measured Kook ap anC'xeccxecX tea md~density (9)as shown'n Tab3.e 1 Ca1cu1ate actuaa1 volume (Vact).Vast~~V/P Qact (Actual P1ow)=Vact/Time.
ONTROLOTRON                       ORPORATIC)N
Qind{P1owmeter Reading)~Tota1izerfTima.
 
Por 450 System: find~Pgea Couut/KC.~Q-P1omreter reading-2ketua1 F1'ging-pact.4 error=~Q/@an't x 100 Repeat, the abave procedure at: a11 designated flow rates, recording starting tank weight.Xf any flow measuxement does not meet xecpuzed acamcy make slope ad)ustment and xepeat all floe runs.FLOW CAL BROOM'CORVES 3.2~Review calibration work oxder to see if any curves vere specified.
0
If thexe are no special requirements,'he standard plot.vi11 be percent deviation Us actual flow.ONTROi'a TRON ORPORATION Vt i 6N NC~d<am"l cvNIrcULV I i.ON>16-231-3334 g AXO 0 C7 C O H 3-3 The plot'.sha3.1 include the error''''-'ts, as given in t"-3c 3.4 A1'dM MplL~1h th k.M~l~h pt,1 I St 6 TXON 4.1 A11 f1'allbzatians s Si.CtX s gn hy a xepxeseatative of the m>X9.~ans sha13.&clara a Cezt~lcate oX caXi ONTROLOTRON ClRPQ RAT)GN O(i d9'd 18: 86I=N CON TPOLOTRON 516-231-3334 NOg a C7 Z't/O+>Cgc f, CS2 DENSITY OF RATER IN AIR TABLE l (Sht l of 2)P.14 NSXTY (lhs/gal)4**+%**4*%4***%*
                  +p
TEMP.P DE%%*****4*%*****+4*%+*
                    +ay. g<>
32'33.0 34.0 35.0 36.0 37 0 38.0 39'40'41-0 42.0 43 0 44.0 45'46.0 47.0 48 0 49.0 50.0 51 0 52.0 53.0 54.0 55.0 56.0 57.0 58'59.0 60 0 61.0 62 0 63.0 64.0 65.0 66.0 67.0 68-0 69.0 70.0 71.0 72 0 8.33061 8 33088 8.33115 8 33141 8.33151 8.33160 8 33169 8-33179 8 33188 8'3177 8.33164 8 33153 8.33140 8 33129 8 33101, 8 33070 8.33042 8.33012 8.32984 8 32935 8 32889 8.32842 8.32795 8-32747 8 32684 8-32620 8 32557 8 32497 8 32430 8 32351 8 32275 8 32196 8.32120 8 32041 8.31949 8.3l857 8.31764 8.31672 8.31580 8-31474 8.31369 QNTROLOTRON ORPORATlGN ice ni~~
2.9     Continue floving       for the specified time and the veight specified belov in order to assu e r ~m minixrm'ifferential 0.254   flov stand accuracy. Shut off timer and totalize simul-taneously and read the tank veight at. that moment.                           Record tank weight, t:otalizer count, and time M seconds.
HEH3XUK TXME AND SEICEP I
FowTme                                   Di ferential                   Hei 60 SEC (Kin. Time)                           2000  LBS 120 SEC                                       1000  XBS 180 SEC                                       800  XiBS 240 SEC                                       750  XLBS 300 SEC (or greater)                           700 XaS 2- 10   Suhtract staxting ~Qc weight frcaa Xa11 tax'eight to get                               ~ V.
2  11 Using water temperature measured Kook ap anC 'xeccxecX tea md~
density (9) as shown'n Tab3.e 1 Ca1cu1ate actuaa1 volume (Vact) .     Vast ~ ~V/P 2 13    Qact (Actual P1ow) = Vact/Time.
2; 14' Qind {P1owmeter Reading)~ ~ Tota1izerfTima.
Por 450 System: find Pgea Couut/KC.
15  ~Q - P1omreter reading - 2ketua1       F1'     ging pact.
2 16    4 error = ~Q/@an't x 100 2- 17    Repeat, the abave procedure at: a11 designated flow rates, recording starting tank weight.
: 2. 18    Xf any flow measuxement does not meet xecpuzed acamcy                               make slope ad)ustment and xepeat all floe runs.
FLOW CAL BROOM'CORVES Review   calibration work oxder to specified.
see if any curves                     vere 3.2 ~  If thexe are no special requirements,'he standard plot. vi11 be percent deviation Us actual flow.
ONTROi'a TRON           ORPORATION
 
                                      >16-231-3334 Vt i 6N NC   ~d <am"l cvNIrcULVI i.ON g AXO 0
C7 C             O H
3-3   The plot'. sha3.1     include the error         ''''-'ts, as given in t"   - 3c 3.4   A1     'dM                   MplL~1h M ~
th pt,1               k.
I     St     6 l~      h TXON 4.1   A11   f1'allbzatians       ans  s sha13. &clara a Cezt~lcate    oX caXi s gn CtX Si.        hy a xepxeseatative           of the m>X9.~
ONTROLOTRON                       ClRPQ RAT)GN
 
O( i d9 'd 18: 86I=N CON TPOLOTRON     516-231-3334                     P. 14 NOg a
C7 Z'
t/
O
                  +>
Cgc   f, CS2 DENSITY OF RATER IN AIR TABLE   l   (Sht   l of 2)
TEMP. P               DE NSXTY (lhs/gal)
                        %%*****4*%*****+4*%+*           4**+%**4*%4***%*
32 '
33.0                         8.33061 8 33088 34.0                         8.33115 35.0                         8 33141 36.0                         8.33151 37 0 38.0                         8.33160 8 33169 39 '
40 '                         8-33179 8 33188 41-0                         8 '3177 42.0                         8.33164 43 0                         8 33153 44.0                         8.33140 45 '                         8 33129 46.0                         8 33101, 47.0                         8 33070 48 0 49.0                         8.33042 50.0                         8.33012 51 0                         8.32984 8 32935 52.0                         8 32889 53.0                         8.32842 54.0                         8.32795 55.0                         8-32747 56.0                           8 32684 57.0                         8-32620 58   '                       8 32557 59.0                         8 32497 60 0                         8 32430 61.0                         8 32351 62 0 8 32275
: 63. 0                         8 32196
: 64. 0                       8.32120
: 65. 0                         8 32041
: 66. 0                         8.31949
: 67. 0                         8.3l857 68-0                           8.31764 69.0                           8.31672 70.0                           8.31580 71.0                           8-31474 72 0 8.31369 QNTROLOTRON                          ORPORATlGN ice ni    ~  ~
 
1U:8aHPl UVNiROLOtRON 516-231-3334 ui i VS  'Sc.
                            >g Ajly Cg 4              0 C                  ss O
C7 p
                          ~47c. s<S                        CS2 Jl TABXZ 2      (Sht  1  of 2)
RZYNOLD '    NUMBER  G7~lATEOH NR      7740
                          ~ dv Maeve NR            calcu1ated Reynold's              4 d    =  inside dia in inches
                        ~ flow velocity in feet/sec
                        = dynamic viscosity in csntistctss Rote:      Xf absolute viscosity                  ~)    in ceutipo9ae is given instmacL of the dymu6c viscosity, then comrert to mgmRRxc            ~
viscosity s        ~
                                / {S-6      )      8.6. = specific grav9.ty of liquid d ~ inside dia              in inches flow rate in GPK constant, dependent, on flow rate units {see table) flow velocity in (ft/sec)
For Rater N    (water) = 3162            d.
aNvaal ax+ON                        eRPaRAT!ON
 
uc> dy ac xe dalai'i <vNlevLUIKUN >a6-c~a-~r~~4 g4 ANb~
Cp O
C)
C7 CS2 DENSITY OF WATER IH AIR TABLE 1  (Sht 2  o  2)
TEMP. F              DENSITY (1hrs/gal) 4*****4k*******+*+****+**+*%4k*%****4 73 '                       8.31263 74.0                      8.31158 75 0                      8.31052
: 76. 0                      8 30933 77 0                      8 30815 78.0                      8 30698 79.0                      8.30580 80.0                      8.30461 81 0                      8 30330 82.0                      &  30202 83.0                      8 30071 84 0                      8.29942 85.0                      8.29811 86.0                      8.29670 87.0                      8 29527 88 ~ 0                    & ~ 29386 89 0                      &.29243 90 0                      8.29102 91.0                      8.28949 92.0                      8.28797 93.0                      8.28644 94.0                      8.28492 95.0                      8.28340 96.0                      8.28176 97.0                      8.28013 98.0                      8.27853 99  '                    8.27690 100.0                      8.27527 QNTROI OTRON                      ORPORATION
 
ENCLOSURE 4 CPELL POSITION ON TECHNICAL SPECIFICATION REQUIREMENT
 
CP&L POSITION ON TECHNICAL SPECIFICATION REQUIREMENT FOR ALTERNATE MINIFLOW ISOLATION VALVES The  operability of the motor-operated valves associated with the alternate miniflow system is required for Charging and Safety Injection Pump (CSIP) operability. If an alternate miniflow valve becomes inoperable, a 72 hour Limiting Condition for Operation would exist for the associated CSIP under the existing Technical Specifications, The safety injection portion of the alternate miniflow isolation valve logic signal is already tested in accordance with Technical Specifications. The pressure signal to the motor-operated valve logic is a portion of the safety injection required actions; therefore, similar to the Auxiliary Feedwater System, verification of actual actuation will be performed every eighteen months. Calibration of the pressure transmitters is already included in Technical Specifications (as part of the Reactor Vessel Level Instrumentation System) and is performed on a refueling interval. Based on the above, CP&L has determined that no changes to Technical Specifications are required.


ui i VS'Sc.1U:8aHPl UVNiROLOtRON 516-231-3334
ENCLOSURE 5 MOTOR-OPERATED VALVE DESIGN BASIS REVIEW SET"UP CRITERIA f
>g Ajly 4 Cg 0 C ss O C7 p~47c.s<S CS2 Jl TABXZ 2 (Sht 1 of 2)RZYNOLD'NUMBER G7~lATEOH dv NR 7740~Maeve NR calcu1ated Reynold's 4 d=inside dia in inches~flow velocity in feet/sec=dynamic viscosity in csntistctss Rote: Xf absolute viscosity~)in ceutipo9ae is given instmacL of the dymu6c viscosity, then comrert to~viscosity s mgmRRxc~~/{S-6)8.6.=specific grav9.ty of liquid d~inside dia in inches flow rate in GPK constant, dependent, on flow rate units{see table)flow velocity in (ft/sec)For Rater N (water)=3162-d.aNvaal ax+ON eRPaRAT!ON uc>dy ac xe dalai'i<vNlevLUIKUN
DIF ERENTIAL PRESSURE TEST RESULTS}}
>a6-c~a-~r~~4 g4 ANb~Cp O C)C7 CS2 DENSITY OF WATER IH AIR TABLE 1 (Sht 2 o 2)TEMP.4*****4k 73'74.0 75 0 76.0 77 0 78.0 79.0 80.0 81 0 82.0 83.0 84 0 85.0 86.0 87.0 88~0 89 0 90 0 91.0 92.0 93.0 94.0 95.0 96.0 97.0 98.0 99'100.0 F DENSITY (1hrs/gal)
*******+*+****+**+*%4k*%****4 8.31263 8.31158 8.31052 8 30933 8 30815 8 30698 8.30580 8.30461 8 30330&30202 8 30071 8.29942 8.29811 8.29670 8 29527&~29386&.29243 8.29102 8.28949 8.28797 8.28644 8.28492 8.28340 8.28176 8.28013 8.27853 8.27690 8.27527 QNTROI OTRON ORPORATION ENCLOSURE 4 CPELL POSITION ON TECHNICAL SPECIFICATION REQUIREMENT CP&L POSITION ON TECHNICAL SPECIFICATION REQUIREMENT FOR ALTERNATE MINIFLOW ISOLATION VALVES The operability of the motor-operated valves associated with the alternate miniflow system is required for Charging and Safety Injection Pump (CSIP)operability.
If an alternate miniflow valve becomes inoperable, a 72 hour Limiting Condition for Operation would exist for the associated CSIP under the existing Technical Specifications, The safety injection portion of the alternate miniflow isolation valve logic signal is already tested in accordance with Technical Specifications.
The pressure signal to the motor-operated valve logic is a portion of the safety injection required actions;therefore, similar to the Auxiliary Feedwater System, verification of actual actuation will be performed every eighteen months.Calibration of the pressure transmitters is already included in Technical Specifications (as part of the Reactor Vessel Level Instrumentation System)and is performed on a refueling interval.Based on the above, CP&L has determined that no changes to Technical Specifications are required.
ENCLOSURE 5 MOTOR-OPERATED VALVE DESIGN BASIS REVIEW SET"UP CRITERIA DIF f ERENTIAL PRESSURE TEST RESULTS}}

Latest revision as of 21:04, 3 February 2020

Flow Calibration Rept Carolina Power & Light Harris Plant.
ML18010A854
Person / Time
Site: Harris Duke Energy icon.png
Issue date: 10/09/1992
From:
CONTROLOTRON CORP.
To:
Shared Package
ML18010A852 List:
References
NUDOCS 9210280219
Download: ML18010A854 (27)
v  d  e


Text

S16-231-3334 P.2 OCT 89 '92 18:81N CONTROLOTRON

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'L'OV 'CM'XRRA'TXOH REPORT

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P C CAROLINA POWER & LIGHT M.o.8 921045 PDC 994P5GLS-3 U2415 TRANSDUCER - 991PMS-2 U4077 PIPE SIZE 3SS40 PREPARED BY:

Date iG QNTROLOTRON ORPORATION 155 Phot Avenue ~ Heuppauge, NY 11788 ~ (518) 231-3800

516" 231-3334 18: 8ZAPl KNTROLOTRON Ch n~ 4 O

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~op RTIFICATE OF FLOg CAZ,IBPATION AMENDMENT d3

~CHASE ORDER NO. XT00000075 CAROLINA POQER 6 LIGHT HARRIS PLANT OUR CWORK ORDER NO. 921045 DATE 10-9-92 XT XS HEREBY CERTIFIED THAT ALL HA~RING 6 TEST EQUXPHEHT USED TO XNSPECT, TEST 8 CALIBRATE OUR PRODUCXS ARE TRACEABLE TO THE NATXONAL INSTITUTE OF STANDARDS AND TECHNOLOGY (NIST) ~ TEST AND/OR INSPECTION REPORTS INDICATING CONFORMANCE ARE ON FILE. FLASH CALIBRATION AT CONTROLOTRON OR AT EXTERNAL FACILITIES ARE PERFORHED BY KVQ2KB CONTROLOTRON PERSONNEL'ND ALL FACXXiETX EQUXPMERiT UTILIZED ARE TRACEABLE TO NXST. THE MATERIAL IDENTIFICATION AND ACCURACY IS XN ACCORDANCE HXTH THE FLOH CALIBRATXON REPORT XNDXCATED BELOg-994P5GLS-3 u2415 991PMS-2 U4077 QUAL T'I SUPERVXS DATE ATTACHMENTS FLOg CALIB. REPORT NO. 9107 2 C3NTRC3LOTRON ORPO RATION CC2O4-B.1 155 Plant Avonvo Havnpavge. NY 117'9e ~ (51el 731-1+<>

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<og FLOR CALIBRATION REFERENCE DATA SHEET CAL. f 9107 2 MODEL P/N: 9 4PSG S/N CUSTOMER: C RO P/0 LOCATION: N/0 DATE OF CERTIFICATION: 10-9-92 TEST E UIPMENT TEMPERATURE Di itec 5820 S/N CCT-301. Due TIMER NEWPORT Model 6130A S/N 36 ue 1 2 INDICATOR BLH Mode1 LCP10 VR2.26 S/N CCT-380 Due 7-6-93 CALIBRATION METHOD CONTROLOTRON TEST PROCEDURE CS-2 REV 3A 6/29/92 THIS CALIBRATION.IS CERTIFIED TO BE ACCURATE WITHIN A MAXIMUM ERROR OF +- 1X APPROVED BY: DATE CC-246-3 o~v'aocov'aoN OaPORATlOM 155 Plant Avenue ~ Hauppauge, NY 11788 ~ t516) 231.3600

'0C lU: U~HM l UN IkULDlkON 516-231-3334 P.s UU I U0 O

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CONTROLOTRON CORPORA::-OS 990 :":OR CALIBRATION DIAGNOST C DATA SEE T CUSTOMER: CAROLINA POUER & LIGHT Y.O.: 921045 FDC P/N: 994PSGLS-3 FDC S/5: U2415 TRANSDUCER P/N: 991PMS'-' TRANSDUCER S/N: U4077AIS SITE NAME: 3SS40CAL PER:" B~:

PIPE SIZE: 3SS40 DATE: 10-8-92 TRACK MOUNTING (D/R): DIR LIQUXD TEMP: DEGRESS P 78 TRACK SPACING INDEX: B-8 KC FACTOR: +3. 5 NOTE: The diagnostic data listed helena is the Uniflov set-up data at the time of calibration. The diagnostic data will vary somewhat due to variations in app ication conditions.

This data is listed for information and reference purposes only.

DIAGNOSTIC DATA Vs: 1495 (Liquid Sonic Uelocizy)

Vale: (Liquid Signal Streng ")

Px (Transmit Frequency)

N: 30 (Transmit Count) n 13 (Receive Count) x 10 (Receive Displacement)

Vfmax: 2119.99 (Maximum Flow Velocity in Ft/Sec)

TN 91.98 (Total xmit. to rcv. "ime in micro-seconds)

TL 55 '3 (Computed time for sonic beam in liquid)

Checksum 02B31E78 100792-0016 (Software integrity check)

Code (Controlotron Corpora-=on control code)

LTN (Transducer Spacing)

Contour .906 (Receive Signal Quali=y)

CC240 ONTROLOTRON ORPORATiQN 455 >lant Avenue ~ HauPPauge. NY 11788 ~ i516 231-36M

Ol vv I ag 7C ACI ~ cl~h<'i E Vl'II tiVLVI EVE Dlo C~l 990 FLN CALIBRATIOH DATA SHEET (IKI6H TANK hETHOD) SHEET ÃI.

CUST(NER: CAROLIHA PS(ER 6 l.l6HT Nl 92l045 POI 1 T0000007$

FDC: PH 994P56LS-3 FDC SIN U24l5 PIPE SIZE 3SS40 TRC ITS (0/R) DlR TRANSDUCER: PN 991PhS.2 TRANSDUCER S/h U4077AIB TRANSDUCER CC} 4030 FLON STANDARD CCT: 380 TlhER CCT: 362 TENP Ql%E CCTl 301 SITE MANE: 3SS40CAL Vs 1495 Kc FACTOR 3.5 SPACE IIGEI B.S Fx: 6 H: 30 n: 13 1: 10 Tn: 91,98 TLs $ 5.93 Yafcc &6 PERFORRED BT DATE 10-8-92 RN TANK HEISHT DELTA @ST HATER NTER ACTUAL IOICATEO START STOP'ELTA Quet had DEETI 0 X ERRN l.BS LBS TENP DHOITTYOL VOL T1% TI% SEC(NDS SPll SP}l SP% .

DE6 F Yact Yin4 START STOP 1 3l8 2844 2526 78 8.30698 304.0816 301.3 0 435.31 43$ ,3} 4f.9}2Q 4}.$2902 Wa3C39  %.9}5f

, 2 386 3N9.$ 2963.$ 78 Oo30698 356.748} 353.$ 2 0 342.99 342.99 62.40674 6}i@203 4.$ 647}  %.90$ f 2.5 4258.$

4781 3816 4232.$

79 79 8.30580 459.4379 8.30580 $ 09.$ 836 455.9 507.$ 4 0

0 346.25346,25 79.6}3N 79.0N72 W.Cf3N 303.22 3N.22 100.&344 }00.4300 <.40439 4.770f 4.4011

CAROLINA P8cL,WO 92't 045,PO XT00000075 FDC U2415,XO 04077,PlPK 3SS40 2.00%

1.50%

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1.00%

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O 0 O 0.50K EA 0 6) g

(!3 2 O.QOX 0 I E!3 l!i F t!3

-0.401%

-0.50K

.91 5'0.905% -0.770K

-1.00K

-1.50K

-2.005 60 80 100 CPM

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P.M 18:GSN CONTROL,OTRON 516-Z31->884 0

"- POLIClES AND PROCEDURE5 o

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Type CUSTOMER SERVICE Ad~in-'-y CUST SERV CS-2 Subject ~g CALIBRATION (I4gp/96p/99p) Prep. By Appr.By Flov Curve, Density Chart; NR Dare 5/5/82 Da=e 5/>0/C2 Calc Re uest for Flov Cal Data Sheet CUSTOMER SERVICE .C. ENGINEERING PURPOSE OR OMZCTXVE:

Yo define the details of flow calihratian and operation of the flow station.

w QGtgf with the CL1&toIRex'exvLce MRx4Lger

~ti RESPONSIBXXZTY FOR AUHXHXSTM5KON 6 CX86?XZ2LHCE=

Kth1 l I -~h who t

have I! g t. KI~

Compliance with specifia tasks a?a~ he as designate hp the t

been certified by 4~Ming record to epmate the scar stand and e~pment to be calibrated. Changes +ay en1y'e by or with the approval of Quality As:~u~ce.

~e REVXSIOH RECORD l f 3

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l Rem. I.tr. Sa~e of Change Rex. bate f kppzare8 By l f l

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3 3

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I QA Pile 3 11/D/Sl l l l l f l l l Separated 480/960/990; provided 3 9/16/88 I l l -data sheets; Min Flow = 1'/s; NR { 3 3 I H/A,.for 990 ~

3 3 l l l f l l 2 l Expanded initial conditions; flow 10/18/90 f 10/21/90 f l time & weight requirements; certifig 3 Re-isaac l I cation. l 1 /20/90 l l l l l . l 3 Para 2.8 to allow initial calih at, 8/30/91 I '",!>/ l I l any flow rate; added l. 7, 2. 8 l l l l l l I 3A Para 1.6, 2.8, 2.14 added Pgen use 6/29/~} </&/lZ l in 480. l l ONTROLOTRON ORPQRATiON

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18:84FN CGNTRGLOTRON 516-F31-33~4 GCT 89 "92 a

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CONTROLOTRON CORPORATION a80/960/990 FLOM CALKBRATION PROCEDURE XHXTXAL CoNDXTXoNS '

~~ ~ ~

The stancXax6 flow calibration vi11 be done at, zero Ma+ g1as 4 l

points up to customers maxixnzm flov, or to lo Ct/sec 5X met, specified.

1-2 f A 1m'alibration vozk order shal3. be Customer Sexvice Rmministzatian as d'art of fin~ ~ eat hp Sa~ cxr BnB:iaX ~xR order and sent, to the Customer Seztrice Emagex Sar 2'. customer purchase orders that contain gL cmr Nuclear Saittey statements aze to be red.eved bp'm~~ ~ban 1o4 to perfoxuung the vezk.

Prior to starting any fRov ca16mddan, been intrinsica11y ca1ihrateC zmk th N 1t t I l~

~y teste@

+ear enik Customer retaxned equipment aha11 Xo33.ov caatxaam P.o. zecpBxa-ments, and/or the following:

mme %we in A. electronics and transducexs are M be checked 59m e~yCganent foz pzoyoz iocctionihg w~ith t aigastizg, chcmgihg, cz repairing any function, or zemava1 of custaaer data in memory ~

B. Xf a malfunction is found, the customer is to be notiXiek that there is a defect and customer instruction of continued vozk (in writing} is to be obt~ed, does not, pmvide such instructions.

if the P o Unless othexwise specified, net equipment eh Q.l ce1y recpdxe "as cleft" data; custcnnez retazned ecpipmezrt slue zecpxixe founcP and <<as left" data: repaired customer equipment sbz61

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require "as left" unless the repair is Known not to affect the acquisition and/or processing of floe data.

1.6 The calibration status of the Plow Stand and test, equipment shall be checked ta assure that they are within the calibration dates. The Timer, Temperature Cuage, and Floe def~

Stand CCT numbers shall be entered on each data sheet >4r 480 systems include the frequency counter.

ONTROL.OTRON RPORATlON

516-<31-333 OCT 89 '92 18:GSN CONTROLOTRON

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oc aqs 1.7 Znitia3. flov points to establish the calibration slope azxX adjust the instrument may be made, during the "calibration phase" of the flowmeter. The data sheet is to izxU.cate that an adjustment was made, and a11. prior data are not to be used,.

l.7.1 Xf any flov rate is found, to be outside the xecpxized, fLov rate

~

.. tolexa~, the'slope may'be aigasted and a13. no~em Mav

~

rates repeateR.

2~ ON PRO BURR Review f3.ov th th of pohzts;

~ calibration work order Ml max Qov, proper

&eh~ and Purchase Order it te I-ls8 assare pipe, axe recpd;reX acaaacy ) ---- ---

2-2 t-~~t Control~~ Tnstal1atiau Hannah.

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Hount the pipe'of the designated, size Sp fh in the PIcv water 8I ~$a+ted~

f3ear Xcc.

th 3aast 5 aaR minutes to stabiLixe aeeitbxi.

..3 Check the ~kicable genexaL after at 3.east M mba.

of oZ~ration.

a. 2arplitade e. Zero Ringe
b. Have Shape Zero Stab&.9.ty
c. Slew Rate g. H Position (F/A far 990 Sys)

Abilityto Set 2'ero 2 4 Chec3c data scatter at zero KLov by records~ 2D mmmm~. The average should be mmdmua of .01 ~sec.

2.5 Set-up and fill out a stan~ data sheet (CC174) for st-a&an%

4 points plus zero data zan. Additional data points can be ran if contracted with the custcaner and specified an the vaxk order. P1an flov points approximately ecpxally spa~%,

. including xwdmum and a~mrna points as specified by the customer. These points must flow rates for the particular pipe specified.

~ within the maciIma acRuevable

2. 6 Measure taxeveight of tan3c and record value.

2.7 Measure water temperature and record value.

2.8 Start flow run at a selected flow rate. Close weigh tan3c outlet valve and start totalizer and timer simultaneously.

For 480 systems connect the frequency counter to Plea and start the counter instead of the totaliaex.

ONTROLOTRON ORPORATIC)N

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2.9 Continue floving for the specified time and the veight specified belov in order to assu e r ~m minixrm'ifferential 0.254 flov stand accuracy. Shut off timer and totalize simul-taneously and read the tank veight at. that moment. Record tank weight, t:otalizer count, and time M seconds.

HEH3XUK TXME AND SEICEP I

FowTme Di ferential Hei 60 SEC (Kin. Time) 2000 LBS 120 SEC 1000 XBS 180 SEC 800 XiBS 240 SEC 750 XLBS 300 SEC (or greater) 700 XaS 2- 10 Suhtract staxting ~Qc weight frcaa Xa11 tax'eight to get ~ V.

2 11 Using water temperature measured Kook ap anC 'xeccxecX tea md~

density (9) as shown'n Tab3.e 1 Ca1cu1ate actuaa1 volume (Vact) . Vast ~ ~V/P 2 13 Qact (Actual P1ow) = Vact/Time.

2; 14' Qind {P1owmeter Reading)~ ~ Tota1izerfTima.

Por 450 System: find Pgea Couut/KC.

15 ~Q - P1omreter reading - 2ketua1 F1' ging pact.

2 16 4 error = ~Q/@an't x 100 2- 17 Repeat, the abave procedure at: a11 designated flow rates, recording starting tank weight.

2. 18 Xf any flow measuxement does not meet xecpuzed acamcy make slope ad)ustment and xepeat all floe runs.

FLOW CAL BROOM'CORVES Review calibration work oxder to specified.

see if any curves vere 3.2 ~ If thexe are no special requirements,'he standard plot. vi11 be percent deviation Us actual flow.

ONTROi'a TRON ORPORATION

>16-231-3334 Vt i 6N NC ~d <am"l cvNIrcULVI i.ON g AXO 0

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3-3 The plot'. sha3.1 include the error '-'ts, as given in t" - 3c 3.4 A1 'dM MplL~1h M ~

th pt,1 k.

I St 6 l~ h TXON 4.1 A11 f1'allbzatians ans s sha13. &clara a Cezt~lcate oX caXi s gn CtX Si. hy a xepxeseatative of the m>X9.~

ONTROLOTRON ClRPQ RAT)GN

O( i d9 'd 18: 86I=N CON TPOLOTRON 516-231-3334 P. 14 NOg a

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Cgc f, CS2 DENSITY OF RATER IN AIR TABLE l (Sht l of 2)

TEMP. P DE NSXTY (lhs/gal)

%%*****4*%*****+4*%+* 4**+%**4*%4***%*

32 '

33.0 8.33061 8 33088 34.0 8.33115 35.0 8 33141 36.0 8.33151 37 0 38.0 8.33160 8 33169 39 '

40 ' 8-33179 8 33188 41-0 8 '3177 42.0 8.33164 43 0 8 33153 44.0 8.33140 45 ' 8 33129 46.0 8 33101, 47.0 8 33070 48 0 49.0 8.33042 50.0 8.33012 51 0 8.32984 8 32935 52.0 8 32889 53.0 8.32842 54.0 8.32795 55.0 8-32747 56.0 8 32684 57.0 8-32620 58 ' 8 32557 59.0 8 32497 60 0 8 32430 61.0 8 32351 62 0 8 32275

63. 0 8 32196
64. 0 8.32120
65. 0 8 32041
66. 0 8.31949
67. 0 8.3l857 68-0 8.31764 69.0 8.31672 70.0 8.31580 71.0 8-31474 72 0 8.31369 QNTROLOTRON ORPORATlGN ice ni ~ ~

1U:8aHPl UVNiROLOtRON 516-231-3334 ui i VS 'Sc.

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C7 CS2 DENSITY OF WATER IH AIR TABLE 1 (Sht 2 o 2)

TEMP. F DENSITY (1hrs/gal) 4*****4k*******+*+****+**+*%4k*%****4 73 ' 8.31263 74.0 8.31158 75 0 8.31052

76. 0 8 30933 77 0 8 30815 78.0 8 30698 79.0 8.30580 80.0 8.30461 81 0 8 30330 82.0 & 30202 83.0 8 30071 84 0 8.29942 85.0 8.29811 86.0 8.29670 87.0 8 29527 88 ~ 0 & ~ 29386 89 0 &.29243 90 0 8.29102 91.0 8.28949 92.0 8.28797 93.0 8.28644 94.0 8.28492 95.0 8.28340 96.0 8.28176 97.0 8.28013 98.0 8.27853 99 ' 8.27690 100.0 8.27527 QNTROI OTRON ORPORATION

ENCLOSURE 4 CPELL POSITION ON TECHNICAL SPECIFICATION REQUIREMENT

CP&L POSITION ON TECHNICAL SPECIFICATION REQUIREMENT FOR ALTERNATE MINIFLOW ISOLATION VALVES The operability of the motor-operated valves associated with the alternate miniflow system is required for Charging and Safety Injection Pump (CSIP) operability. If an alternate miniflow valve becomes inoperable, a 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> Limiting Condition for Operation would exist for the associated CSIP under the existing Technical Specifications, The safety injection portion of the alternate miniflow isolation valve logic signal is already tested in accordance with Technical Specifications. The pressure signal to the motor-operated valve logic is a portion of the safety injection required actions; therefore, similar to the Auxiliary Feedwater System, verification of actual actuation will be performed every eighteen months. Calibration of the pressure transmitters is already included in Technical Specifications (as part of the Reactor Vessel Level Instrumentation System) and is performed on a refueling interval. Based on the above, CP&L has determined that no changes to Technical Specifications are required.

ENCLOSURE 5 MOTOR-OPERATED VALVE DESIGN BASIS REVIEW SET"UP CRITERIA f

DIF ERENTIAL PRESSURE TEST RESULTS

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