ML19318C309

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Forwards Requested Teledyne TLD Data for 3rd & 4th Quarters of 1977 & 1st,2nd & 3rd Quarters of 1978.Calibr Repts for Meteorological Tower Wind Speed Sensors for Quarterly Calibr of 791018 & Mar 1980 Also Encl
ML19318C309
Person / Time
Site: Beaver Valley
Issue date: 06/25/1980
From: Conrad R
DUQUESNE LIGHT CO.
To: Todd Jackson
NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION I)
References
BVPS-LC:REC:14, NUDOCS 8007010336
Download: ML19318C309 (70)
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'AP ~ cuquesneup =:::~ DUQUESNE LIGHT COMPANY Beaver Valley Power Station Post Office Box 4 Shippingport, PA 15d77 June 25, l980 BVPS/LC: REC:14 'i U.S. NRC Environ = ental Audit #80-15 (Ir. Todd Jackson s.. Inspector, U.S. NRC [I'< U.S. Nuclear Regulatory Commission ",. W : "jg'- t 631 Park Avenue King of Prussia, PA 19406 n

Dear Mr. Jackson:

w \\ Attached are copies of Teledyne TLD data for the 3rd and 4th quarters y of 1977 and 1st, 2nd and 3rd quarters of 1978 which you requested. Also attached are calibration reports for the meteorological tower wind speed sensors for the quarterly calibrations of October 18, 1979, and March 1980. The missing threshold test calibration report for the 35 ft. elevation wind speed sensor installed in March 1980 will be mailed to you as soon as it is received from NUS Corporation. The Duquesne Light Conpany evaluation of Teledyne TLD problems will be mailed to you as soon as the correspondence can be gathered. Sincerely youtv, P.N R. E. Conrad Environmental Coordinator j REC:krg oo? l Attachments 5 / / 8007010'3 % l

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- Mr. Todd Jackson-U.S. NRC Environmental' Audit #80-15

-Page 2,

.cc: Mr. D. A. Peckadn, -Resident Inspector U.S. Nuclear Regulatory Commission Beaver Valley Power. Station Shippingport, Pennsylvania 13077 - /U.S. ' Nuclear Regulatory Commission c/o Document Management Branch Washington, D.C. 20555 y r. I e ,Y'~ u-

PAILURE RCPORT l Site,$emM p Project E "$V9dP-C 4 DISCREPANCY: Pa, description: Date2./27[20 -{ ' Serial #__ Mag /7f-321,: which monitoring system aff t.Jco R t J.S k wi+ r ected

problem

J.5f/MM ototal failure; ocut of tolerance; deertification d;e o other Describe problem: What e may have caused the part to fall; on the basis of what evid ence ?__ ~ Was the discrepancy corrected and the system returned t REPAIR AND PARTS UTILIZED TO COREZCT SYSTEM DISCREo Part, description PANCY: (Mr%B W xm fv-

serial #_ J!l'oc9 /29 Sc Supol source (circ 19 one)
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%,&e client spares; technician spare parts kit: , er, describe); I Comments: 6 Property Controller.I have affixed a Hold Part Status Tag to the part and Preliminary evidence indicates that the failed part ( iu is not c rcle one): repairable /g/ h e** Completion of this form to this line requiTech'nician's signature [ Repair & Parts utilized, charge # Processed, Property Controlle Date -, A.cs3 _Date l hb [ _not to be repal' red;_ hold part 6 mos: . Part status (check one): _to be repaired. Hold Dart Status Tag No. PMT INSPECTION AND REPAIR (OR RECERTIFICATION External or operational damage._ Test results: Repair successful (circle 'one): Yes No Proc edure used or repair by subcontractor (descriptio ) ~ n_ Earts utill:ed _ Repair time billed __ _ hrs; charge #_ ~ Techn!cian making repairs: Inspector acceptance; remov(ed "Part Failure" tag (si signature)_. _Date_ Date: gnature):_ Processed by Property Controller (signature):__ _Date Repalc & Parts Utilized, charge e .j 9 ESD-PS-3 b

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CERTIFICATE Of TPACEABILITY 35 ~ MODEL' 011-1 ~ SERIAL NO. 3 6 (.) 7 MODEL' '014-102' SERIAL NO. ~ p 97 : The abcve-designated Anemometer Cup unit was caii' ra ted on '7.zO-7f o againsi Climet Standard Anemomet-- Cup No. + 8'. _a_ The mos't recen.t Standard Ane.mcmeter Cup calibration is 'a ted / - 76~~ NBS Test No. /~p3//4f 3. 57ANDARD TEST CUP 100 sec. total count 100 sec. total count (. 1. / D 8f 1. r 9/ 2. / O $/ 2. T /0 3. /6 9Y 3. 907 Average Count /O 90 Average Count ,9%3 Std. Winti Speed . /, M Test Wir.d Speed /, 2 0 Erro" in.H?H ~,0$ k,, _&m - QualityControlT[chnician I '7 '9/ - #7 4 Date 90' I v; /nd

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CERTIFICATE OF TFACEASILITY SERIAL NO. 366k MODEL'. 011-1 MODEL' 014-102' SERIAL NO. C97 The above-designated Anemometer Cup unit was calibrated on 7-54-7f s 8. against Climet Standard Anem0=e'ter Cup No. /< The most recen.t Standard Anamcmeter Cup calibration is dated /-7E li3S Test No.~72/c7//SS STANDARD TEST CUP 100 sec. total count 100 sec. total count 1. 46 TT 1. G 4"/Y b 2. 5567 2. 6'96 9 3. 658/ 3. 6 'Y67 Average Count 6676 Average Count 4 4/ d V Std.' Wind Speed 3 8A Test Wind Speed 3, 7f ,67 Error in MPH I /W/M-QualityControlTe$nician 07-s / - 7 7 Date C Pg"IQQf~26 we e.

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f CERTIFICATE OF TRACEASILITY MQOEt' 011-1 SERIAL NO. 8669 MODEL' 014-102 SERIAL NO. ~ @.9 7 The above-designated Anemometer Cup unit was calibrated on '7-84 -77 4 against climet Standard Anemometer Cup No. e #, The most recent Standard Anemcmeter Cup calibration is dated /-767 NSS Tes't No.~7~//#//6 6'3. STANDARD TEST' CUP 100 sec. total count 100 sec. total count 1. /3/BA 1. /J2 N6 ( / 3 0$8 2. / 9 Y6 Y 2. / 3 /D/ 3. / 3 0 /c? 3. . Average Count /846/ Average Count / p 9# 7 Std. Wind Speed [ 8/ Test Wind Speed 4 /,. 9 7 Error in MPH ~~, 8 M Ww. wexc: - Quality Control Te/chnician Y Y-8/-79 Date fg i B)' 7Q 5~a M. ~ %. l

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( CERTIFICATE OF TPACEABILITY MODEL? 011-1 SERIAL NO. 3007 MODEL 014-102' SERIAL NO.

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The above-designated Anemometer Cup unit was calibrated on 7.FO 9 7 against Climet Standard Anemcee'ter Cup No. YF The.ost recent Standard Anemcaster Cup calibration is dated /-75~ NSS Test No.7#e9//653. STANDARD TEST CUP 100 sec. total count 100 sec. total count 1. / 9 '/ W l. 2 '75 9C 2. . / 9 VVO 2. / 9 J[0 3. / $ V 73~ 3. / 9[S 6 Average Count /9 V56 Average Count /957/ Std.' Wind Speed 7, 6 / Test Wind Speed 7, d / Error in MPH I,68 Yw N Kwo Quality ontrolT[chnicia) 7-3 /- 79_ Date t ?NN 6 = M.%M

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~ C. CERTIFICATE OF TRACEABILITY MODEL-011-1 SERIAL NO. ,706 / 2 MODEL 014-102' SERIAL NO. A9-X The above-designated Anemometer Cup unit was calibrated on 7.54-77 against Climet Standard Anemome'ter Cup No. M8 The most' recen.t Standard Anamcmeter Cup calibration is dated /-75 NBS. Test No. 7#,.0//453., STANDARD TEST CUP 100 sec total count 100 sec. total count

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( ' CERTIFICATE OF TPACEABILITY MODEL' 011-1 SERIAL HO. 3009 MODEL' 014-102' SERIAL NO,' 'd.M ' The above-designated Anemometer Cup unit was calibrated on '7-30-f/9 a against Climet Standard Anem: meter Cup No. -rr-7 The most recen.t Standard Anamemeter Cup calibration is dated / '70. USS Test No.~f")].0/MS3. STANDARD TEST CUP 100 sec. total count 100 sec. total count 1. C969# 1. .@9/ W ( 290/2 2. D9302 2. 3. e9 90 S) V 3. ,Q 9 /3$' Average Count 2 9 06'C. Average Count p 4)/4, /

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/8,88 Test Wir.d Speed / /), O 3' Error in MPH +,83 M!$fMd Quality Control Te#chnician # T e3/ '77 ~ Date //MM ng 3D 0! 70 e ( 'T ' N

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tq ~ { $ 5-5 $$\\hh$$*$-fi2 '- &Ha L er ~o,v-c~n co- .~r . i s o w. c oco-Av e.. p.o.soxisi. men.~es.c 9:37s.ivi.n7 3 2733 (. CERTIFICATE OF TF.ACEABILITY MODEL' 011-1 SERIAL !!0. N#d T ~ MODEL 014-102' SERIAL NO,' 49T The above-designated Anemometer Cup unit was calibrated on '7-84 '79 -,u. against Climet Standard Anemometer Cup No.

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STA!iDARD TEST CUP - 100 sec. total count .100 sec. total count 1. ~ 6 //67;; 1. 6 //8 6 ( 2. 6 //6~^/ 2. 6 // W 6 l9 Y2 3. 6 / 2'.22 3. Average Count & / /,5 ? ' / Average Count 6//83 Std' Wind Speed 86,C2 Test Wir.d Speed CO,6 2 Error in MPH 66 E Quality Control technicia/n T-3 /-- '7 9 Date . en .Pg 9A fn o - 30nx 3

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..~. ( . ~ CERTIFICATE OF TRACEASILITY ', ~. ~ . - -- SERIAL NO. - - 3887 -P.0 DEL' 011-1 - 1100tL ' 014-102 ~~ SERIAL NO.' ' ';9 9T ~ The acove-designated Anemometer Cup unit was calibrated on 7-30-79 4 against climet Standard Anememe'ter Cup No. -$-Y The most recen.t Standard Anemometer Cup calibration is dated /-7f NSS Test No.7X/3//453 ~ STAtOARD TEST CUP 100, sec. total count 100 sec. total count 1. T7/ '75~ 1. 7'70D V 77/89 2. 77/44 2. (- 7'7/6 Y 7?D29 3. 3. Average Count '7'73/6 Average Count 77/JP Std. Wind Speed P5' 4.2. Test Wind Speed MS 40 Error in MPH '^' O ~ Quali ty' Control [nnician T-8 /- T $ Date e P p 3 gy W vs ed ...........,e-.....,.o... s T'

s PAILURC REPORT SiteM {/h ProJoct # 5.' / 9 ? - oc-/ Date z/2.7 /Pc DISCREPANCY Part41escription: t,Ud)C 4 WDXMV Serial # /.3//:Jn __; which monitoring system affected SC 4/MM '{ _ ; problem: o total failure; cout of tolerance; c/recertification due; o other Describe problem: What may have caused the part to fall; on the basis of what evidence? Was the discrepancy corrected and the system returned to working status: des no REPAIR AND PARTS UTIL12ED TO CORRECT SYSTEM DISCREPANCY: Part, description (Aldo'J (;_)) Xmh-

serial #

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onsite client spares; technician spare parts kit; Suo ly source (circle one)dw th - (describe): M O

Comments: I have affixed a Hold Part Status Tag to the part ar.d will turn in the tagged part to the Property Controller. Preliminary evidence indicates that the failed part (circle one): is not repairable gp gg pg Tec)(nicfan's signature Date

      • Completion of this form to this line required for Trip Reports ***

[- Processed, Property Controller (signature).3 A ka4 Date Si t% M ~ Repair & Parts utilized, charge # . Part statuY(check one): _not to be repal' red;mhold part 6 mos: to be repaired. Hold Part Status Tag No. PART INSPECTION AND REPAIR (OR RECERTIFICATION): External or operational damage: Test results: ~ Repair successful (circle 'one): Yes No Procedure used or repair by subcontractor (description) Parts utilized Repair time billed hrs; charge # Technician making repairs: (signature) Date Inspector acceptance; removed "Part Failure" tag (signature): Date: Processed by Property Controller (signature): Date Repa!' t Parts Utilized, charge # l N4*% ESD-TS-3 10/75 eh

-s e,.. a..m a un nu uns anu I-It}SPECT10N CHECK LIST WIND DIRECTION SEtiSOR ~ ~~ 259 ~ ( ' Transmitter S/N 1 , Vane S/N 3J6~-(e-J'M Model 012-10 l,fTf?d .. 3. ..gg-(T Date_ Tech 6:178 -- (1 )' (2) (3) (4) -(5) Error (mV) Rotation True Heading Ideal Output Sensor Output (4) - (3) (Volts) (Volts) CW 0 3.200 7.2o(. 90 4.000 4.oo/ f/ 180 1.600 ' /.s9 5 -C 270* 2.400

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+ C, 0 3.200 T.2e 4- .+ # 90 4.000 4, ee, y -f r ~ 180 1.600 i. s-s a - c, -270 -- 2.400 z.4c% & CCW 270 2.400 2 #cc, -#c. 180 1.600 /, M3 -7 90 0.800 o.793 -7 0 0.000 o.cn f er 270 2.400 2 4cG /& 180 1.600 I.m g .- 7 90 0.800

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-t / 90 0.800 . 79 7 -3 Alivnment OUTPUT WIfH MILL MARKS ALIGNED Mu/ Ideal Offset Offset Actual Voltage z.f.c.p Voltage Voltaae Dearees CW 7. N2 d-@ f R.400 -f 2 4 M V -f 3 * = = 9/ N 4 M W }6J CCW E d2 @ ~~a2.42 6 -f 2 4 m / f3' /dYZZ.Aad) 2.400 = = CHECX: W Model' 012-10 labbi attached Snap ring on hub and lubricated with silicon grease Hub (A1024) fits onto shaft with hand pressure "0" ring lubricated with illicon grease Shaft turns freely through 360*. Logic module coated with polyurethane Locating pin on top housing aligned with scribe mark on hub Transmitter seats completely in the bushing both ways e (Using bushing on test fixture). Pg d ,78 Wires to connecter enclosed in RTV. m O!

'I l'AILURE REPORT 9 Date 2,/[y//c b w l/ b Project # $Yf f-of' 7_1 Site DISCREPANCY: Dar9 description: Ueo 3 uS . X mW / Serial # 33M 7-2WS : which monitoring system affected /58'Jss

problem
o total failure; oout of toicrdnce; s/[ecertification d.:e; o other Describe problem:

What inay have caused the part to fall; on the basis of what evidenife? Was the discrepancy corrected and the system returned to working status:ges no REPAIR AND PARTS UTILIZED TO CORRECT SYSTEM DISCREPANCY: Part, description DJoo3 ws ye V

serial # 2.d0S //J V Suonk sounM (circle one)
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Comments: I have affixed a Hold Part Status Tag to the part and will turn in the tagged part to the Property Controller. Preliminary evidence indicates that the failed part (circle one): is not repairable g gj gg h Tecdnician's signature ' Date

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Processed, Property Controller (signature) Date Repair & Parts uttitzed, charge # . Part status (check one): _not to be rep l' red;_ hold part 6 mos-to be repaired. Hold Part Status Tag No. PART INSPECTION AND REPAIR (OR RECERTIPICATION): External or operational damage: Test results: Repair successful (circle 'one): Yes No Procedure used or repair by subcontractor (description) Parts utilized Repair time billed hrs; charge # Technician making repairs: (signature) Date Inspector acceptance; removed "Part Failure" tag (signature): Date: Processed by Property Controller (s!gnature): Date Repair 6. Parts Utilized, charge # ( ESD-PS-3 l 'T

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( . CERTIFICATE OF. CALIBRATION THRESHOLD TEST Thresh'old Determination-Starting from dead stop, 'iri5rease speed ' slowly until' test ins.truments respond and produce a steady rep. eatable output using matched cups and sensors. 3 Thr.eshold readings will be taken. MODEL 011-1 SERAIL NO.

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CCsp/ SERIAL NO. /5 V -/ 2-/b/77 MODEL 014-102 Method of test-timing of bubb1'es over a measured (2 foot) run. O' TIMER S/N //O R LAST CAL. '7 - 3' 4 - 7 7 TIMES (seconds) 1.

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(. CERTIFICATE OF TPACEABILITY,. MODEl.' 011-1 SERIAL NO. 2W4/r' MODEL * ~ 014-102 ' SERIAL NO. ' / f V : - The above-designated Anemometer Cup unit was calisiated on /b-/3-9ff against Climet Standard Anem: meter Cup No." MF The most recent Stindard Anememeter Cup calibration is dated / ' C NBS Test No. DVJ//653. ~ STANDARD TEST CUP ,, 100, sec. total count 100 sec. total count 1. 8/6' 1. 3 4'? . v.,. ( 2. 538 2. 386 3. f3/ 3. ' ~ 3 D *2 Average Count 6 08 Average Count ,T V 6 1 St'd. Wind Speed / /8 Test Wind Speed /, of i Error in MPH ~ dI . l $>AWAYS QualityControlhechniciad /2 -/ 3 - 79 Date (. pa s o ni 3

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' CERTIFICATE OF TRACEASIO TY.. ~ ~ MODEl. 011-1 SERIAL li0. ~ $ V4 8' MODEL' '014-102~~ SERIAL NO. * * * ~ ~ ~ ~ '.75 ' V: : The above-designated Ane.memeter Cup unit was cali$ rated on /p_/M -Sp* is against Climet Standard Anemometer Cup No. -N-8' The most recen.t Stindard Anememeter Cup calibration is dated /. NBS Test No. 77./.#//(,63 STANDARD TEST CUP 100,sec. total count 100 sec. total count 1 1. 6 6 '75-1. 65 ?/ ~% ( 666/ 2. G 6 VO ~ 2. ~ 3. 66'/2 3. 6 6.00 Average Count /2(d / Average Count ' 66/9 Std. Wind Speed 3.69. Test Wind Speed 3.Cd Error in MPH --. 6 2 fhJbbs / Quality Control Technician # Jp-/3 -79 Date c Prial rd33 e g,,g,

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(. CERTIFICATE OF TFACEASILITY,. M0 DEL' 011-l SERIAL li0. 92/48' MODEL' 014-102 SEP.IAL NO.*

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~~ The above-designated Anemometer Cup unit was cali$iated on /.0-/J-77 -u against Climet Standard Anememeter Cup lio. r7 8 The most recen.t Stindard Anememeter Cup calibration is dated /-ME' fiSS Test No. 7 VP//65'3. STANDARD TEST CUP 100, sec. total count 100 sec. total count 1. /306D 1. /303Y ( y :.,2 '~ 2. / 3 D 6 Co 2. /3086 3. / 3 D/S - 3. / 30 V6 , Average Count /Jo '/P Average Count ~ /8637 St'd. Wind Speed 75' O / Test Wind Speed d~4/ ErrorinMPH ,dd .,Lfp.,,;.g__ Quality Control.isechnician Y /2 -/3-W Date Udg$L [.j;'.ff.9)-l- ~ c

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( -CERTIFICATEOFTPACEASIOTY MODEL 011-1 SERIAL NO. - @ 94 d' MODEL* ~014 102~ SEP.IAL N0;'-

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~ The above-designated Anemometer Cup unit was calib' rated on/A-/3-77, against Climet Standard Ane:::eter Cup No. @8 The most recent Stindard Anenc=eter Cup calibration is dated./-7f NBS Test No. 7%/S///,6 3 STANDARD TEST CUP 100,sec. total count 100 sec. total ' ount ~ ~ c

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(- CERTIFICATE OF TF.ACEASILITY.. MOBEL' 011-1 SERIAL NO. @ #/48' MODEL 014-102 ' SERIAL NO. . / 6 M - The above-designated Anemometer Cup unit was calibrated on /S-/3-7f.. againsEClimetStandardAnemometerCupNo.

  1. 8 The most recen.t Staridard Anemometer Cup calibration is dated / - O~. -

NBS Test No. TWD/l653. STANDARD TEST CUP 100, sec. total count 100 sec. total count '. 1. D5809 1. 95~906 ( 2. D S'8 7D 2. AS~is:2 3. AS~905~ 3. Df9 YS , Average Count _ ?.5 8% / Average Count 45-c/'/3 St'd' Wind Speed 9,04 Test Wind Speed

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&A6%& i i r Quality Control Technician /2 -/ 3 - 79 Date ^O * - -fM e Drf & ~ .? n/P//- a g_

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  • P.O. B ox 151
  • RcoL4was. CA. 925 73. (714; 7 9 s.;7 s s *

(- CERTIFIChTEOfTRACEABIL'ITY.. P.0 DEL 011-1 SERIAL NO. @ t'48' MODEL' '014-102 ' ' ' SERIAL N0;" '" ~ %5 7 The above-designated Anemometer Cup unit was calib' rated on /3-/s gg against Climet Standard Anemometer Cup No. '#8 The most recen.t Stindard Anam :eter Cup calibration is dated /-75-- NBS Test No. 7A/4//AG. STANDARD . TEST CUP ~ 100,sec. total count 10D sec. total count 1. 9906~D 1. ,09p39 ( c,. 2. D9/99 2. 29599 3. D9//3 3. 99/3d? , Average, Count $909'7 Average Count ,09R00 Std. Wind Speed /0 O/ Test Wind Speed /8. 0 6~ Error in MPH Y, d 9 ~ d w A n. & Quality Control iechnici7n / Q -/3-99 Date C' PgB5 Of 33 em em a

b Wic22LE i S k ; El T E i T % % &- W :2-i=1 *

  • i e { 3 2 Q W. CQl.TO N AVC.
  • P.C. D 3x 151
  • A coLAwos. CA. 9 2373
  • 17143 7 9 3 27 D B '

r fuoTGuwchTs COMPANY c CERTIFICATE OF TFACEABIt'ITY.. MOD 5L 011-1 SERIAL NO. 8 Yo# MODEL ' ~ 014-102 ' ' ' SERIAL NO. ' ' ' ' ' ' ' 75 V ' : : ' U The above-designated Ane=ometer Cup unit was calibrated on /3-/s-7f r. against Climet Standard Anemo.:.eter C'Jp No. -N 8' The most recen.t Stindard Anemometer Cup calibration is dated /-7N NBS Test No. 7//M/&53 ~ STANDAP.D TEST CUP 100, sec. total count 100 sec. total count 1. 4'509!7 1. 4/5~d? '// ( 2. '/5068 2. y&'9f(s ~ 3. 45000 3. 4/f6/2 , Average Count e/5 052 Average Count 4/5 6 /'3 Std. Wind Speed / Y, D Test Wind Speed / 6/. 9 8' Error in MPH ,o/ ~ .I f b /,/,MJ dL 7 Quality Control 1echnician f,:7-/ 3-W Date ' E [ ** f / 6'/M P /2 j i

~ em xd. Tw - - m3 s ..s.:, A I MWG5;.-.. N87.. n i w n. s 3. Y tuerau-cars comeuur.132c w.

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  • P.O. Dcx 151. A couwos. CA. 92373. (734: 79327c3-(.

CERTIFICATE OF TRACEABILITY, MODE 1.' 01'l-1 SERIAL NO. ' @ ^/df' SERIAL NO. ***- ./ 5 >': - MODEL-014-102' The above.. designated Ane===eter Cup unit was cali5 rated on /b-/,y-Q u-against climet Standard Ane:cmater "up No. ^T The most recent Stindard Ane cme'. Cup calibration is dated / '/5 ' NBS Test No. 771/9/M,,5 3 ~ STANDARD TEST CUP 100, sec. total count 100 sec. total count 1. & // +S~~~ 1. G/38/ ( i.e 2. 6 //P3 2. S//d'/. ' ~- S ll'70 3. 6//29 3. Average Count 6//89 Average Count 4 / P/P St'd. Wind Speed $8,62 Test Wind Speed

  1. O,03 Error in MPH

-/~.6/ gwp3 ~ f Y Quality Control Technician /S-/J '79 Date 9-90ArpH e .ee 6

y '. a W p ::"...p.-TN,e,- 7.. aa * * - -v. '.ue 4-. y g.

p... 3

.'. ".k(** Sk 4 '. " '.WA * ' CT twavaumcurs COMPAMY

  • 13 2 0 W. Cc LTO N Ave.. P.D. S cx 15 3. R coLAw os. CA. 9 2 3 73

~.. ( ~ ~~ . ~ ~ _ _ ~ - ~ ~ CERTIFICATE OF TRACEABILITY. .-- r MODEL 011-1 SERIAL NO. S'/of ^~~ ~ ...MODEL " '014-102 ' ' ' ~ ~-~~ SERIAL NO. * * * * ' ' './c5 Y' : : - ~ The above-designated Anemometer Cup unit was cali$' rated on /.0-/s-W. against Climet Standard Anemometer Cup No.. 'd2. The most recen.t Standard Aneme=eter Cup calibration is dated /-75'. HBS Test No. 7/~/p//6 53. STANDARD TEST' CUP 100, sec. total count 100 sec. total coun't 1. '7'7/MS-~ 1. '7705# = '( ',fe 2. ^ '77/3'7 2. 76 998' 3. '77D53 3. '77/96 , Average, Count '7'7/ 38' Average Count 7706/ ~ Std.' Wind Speed $5'dd Test Wind Speed C % 97 Error in MPH .d3 YwfAo-M__ ~ ~s Quality Control /echnician E k Date "Pers? ef 3 3 b Q.5'pfP// ~

TAfLURE REPORT ) t 'l / SD ProJoct # b.4W-of Site M t/d M Date DISCREPANCY: Par (2escription: rJooV rdb VW Scrial # 2W ldT

which monitoring system affected

/ ra ' w'b {

problem
o total failure; oout of tolerance; o recertification due; o /o'ther Describe problem: MaA C#dT-w -

J V/ hat may have caused the part to fall; on the basis of what evidence ? da.## 4A-d_sd n M N. Vla#the disdrepancy corr $cte'd and the system returned to working status: ges no REPAIR AND PARTS UTIL12ED TO CORRECT SYSTEM DISCREPANCY: Part, description ddd 9 La b X MV

serial #_/(.// //80 Su oly source (circla one)
onsite client spares; technician spare parts kit; 7

othe-describe): wws M. U Comments: I have affixed a Hold Part Status Tag to the part and will turn in the tagged part to the Property Controller. Preliminary evidence Indicates that the failed part (circle one): d is not repairable gp g ggg Teofinician's signature ' Date

      • Completion of this form to this line required for Trip Reports ***

Date !( Processed, Property Controller (signature) Repair 6 Parts utilized, charge # . Part status (check one): _not to be repaired;__ hold part 6 mos; to be repaired. Hold Part Status Tag No. PART INSPECTION AND REPAIR (OR RECERTIFICATI N): External or operational damage: Test results: Repair successful (circle 'one): Yes No Procedure used or repair by subcontractor (description) Parts utilized Repair time billed hrs; charge # Technician making repairs: (signature) Date Inspector acceptance; removed "Part Failure" tag (signature): Date: Processed by Property Controller (signature): Date Repal.r & Parts Utilized, charge y ~ ESD-PS-3 V - __ -. A nS 10/75 %g a ul )) r ~ l

. INSPECTION CHECK LIST WINO OIRECTION SENSOR IlransmitterS/N /4 I , Vank S/h / aC ' Model 012-10 //2 /79 ['tc) Date y . _........... Tech [fv18. Rotation True Heading Ideal Output Sensor Output Error (mV) ~~ .(Volts) --(Volts) -- (4 ) - ( 3 ) CW 0 3.200

3. 2cC, 46 90 4.000 N. co-42-180 1.600

/. r-5 fr- - t_ 270 - 2.400 z.4co 0 3.200

3. z oc, fc, 90 4.000 4, oo a 4

2._. 180 1.600 - ~' /.5-9 C _, -. 270 2.400 c.378 7 CCW 270 2.400 2.5cf -8 5-C- 180 1.600 /. s-94 90 0.800 c.79 c: 0 0.000 c.cer +r 270 2.400

r,#c<r" s </

180 1.600 /, sw - c. 90 0.800 d.79c-( "' O 0.000 C. c e r +r Wino Tunnel 90 0.800 .b20 -t-M Alignment [ OUTPUT WITH MILL MARKS ALIGNED o. Ideal Offset Offset Actuai D Vol tage Voltage Degrees Vol tage,,i!" Y CW 7.3f 6 Z W -Wmr = .400 = f CCW 2,.79C, 7,.3Id7E.400 - % v' = = CHECK: Model 012-10 label attached Snap ring on hub and lubricated with silicon grease Hub (A1024) fits onto shaft with hand pressure "0" ring lubricated with silicon grease Shaft turns freely through 360* Logic module coated with polyurethane ( Locating pin on top housing aligned with scribe mark on hub Transmitter seats completely in the bushing both ways (Using bushing on test fixture). g 3 Wires to connecter enclosed in RTV. s d

  • qg.

1

s J TAILURE REPORT !b. Project # 5 Y9PI.34 ~ _ Date A /29 /20 Site DISCREPANCY: Parthescription: LJ oo A LJ.s ymfr-Serial #_ Td((9f,

which monitoring system affected M_' 4/S

{

pr blem: o total failure; oout of tolerdnce; #lecertification due; o other Describe problem:

What:may have caused the part to fail; on the basis of what evidence ? ~ Was the discrepancy corrected and the system returned to working status: ges no REPAIR AND PARTS UTILI2ED TO CORRECT SYSTEM DISCREPANCY: Part,. description le/d d.3 y eMV

serial # J </Sg/77 297 Supal so'urce (circle one): onsite client spares; technician spare parts kit; (describe):

e Comments: I have affixed a Hold Part Status Tag to the part and will turn in the tagged part to the Property Controller. Preliminary evidence indicates that the failed part (circle one): h is not repairable fg ggg Teclhnician's signature ' Date

      • Completion of this form to this line required for Trip Reports ***

Processed, Property Controller (signature) 33 Date Di % 5?d ~ . Part states (check one): Repair & Parts utilized, charge # _not to be repal' red;__ hold part 6 mos: to be repaired. Hold Part Status Tag No. PART INSPECTION AND REPAIR (CR RECERTIFICATION): External or operational damage: Test results: Repair successful (circle 'one): Yes No Procedure used or repair by subcontractor (description) farts utilized Repair time billed hrs; charge # Technician making repairs: (signature) Date Inspector acceptance; removed "Part Failure" tag (signature): Date:_ Precessed by Property Controller (signature): Date Re, air & Parts Utilized, charge # ES D-FS-3 10/75 ' ~ ~ ^ ~ ~ p QQf]k [ [~ ~ ~ [

E'.17 f J(. '? ^**- Leuct twstnumcwTs CoppANY

  • 13 2 0 W. C c LTo w Avc.
  • P.O. Scx 151
  • R c oLAn os. C A. 92373 * (714 7 9 3 27 CO CERTIFICATE OF CALIBRATION

( THRESHOLD TEST 600 Threshold Determination-Starting from dead stop, increase speed , slowly until test instruments respond and produce a steady repeatable output using ma.tched cups a.nd sensors. 3 Threshold reatings will be taken. MODEL 011-1 SEPAIL NO. SW83 MODEL 014-102 SERIAL NO. "7 5 - p 9 7'" Method of test-timing of bubbles over a measured (2 foot) run. ' TIMER S/N " //69 LAST CAL. '7-30 '/f "*MES (seconds) 1. O, /6 ' 6.

p, 6'd 2.

9*/0 7. D,p3 ~ 3. @,J6 8. p,p0 ([ a.

2. 7s 9.

2.ps S. 3,ff 10. 2, 9j7 AVERAGE

^~

8 6 ~~ SPEED . d~8 mph Technician we:vA _ Y Date 9 - f - 9 9P I$4 Di76 t .........., c -e .en..... ~ m -+

d 2 *1 C.9 ;-.:. d 't d Y \\d Gili 2

  • 7-W M -s r

.cr tu e rn u-c re c o-e* ~r

  • i s 2 o w. c o trc ~ Ave..

P.O. {cx' 1 S {

  • RtotANDS. cA[ 9 2 3 7 3
  • O l-u " ? 3 2 7 0 5

( CERTIFICATE OF TRACEABILITY P.0 DEL' 011-1 SERIAL NO. - @ Y83 ~ MODEL 014-102' - SERIAL NO. '7f'p97 The above-designated Ane cmeter Cup unit was calibrated on '7-37-77 against Climet Standard Anemome'ter Cup No. MF. The most recent Standard Anemometer Cup calibration is dated / '75~ NSS Test No. 7~MDQ//6,53. STANDARD TEST CUP 100, sec. total count 100 sec. total count 1.

$~D 0 i.

6~'7/ 2. 6~0 3 2. d '8 'l C. 3. 6~6.~1 3. $~ 7V Average Count 5 /5-Average Count o 76 Std. Wind Speed /< /O Test Wir.d Speed /, / 2 Error in MPH ~/ 6 A W Y"- Quality Control Tecdlician 7-3/ '79 Date . b -- -- u t 7 d ' / M P /p/ ...........e-...e4....,.. ~ ' - - '

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  • . DO ~A.?-N

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  • 0 T a u== C M T S C o se P A NY 13 2 0 W. C o L7 c w Avc..

P.O. B ox I S I. A c oLaw o s. C A. 92373. t7143 7 9 3 2 7 8 8 (' CERTIFICATE OF T?.ACEABILITY MODEL 011-1 SERIAL NO. $ '/I3 MODEL~ 014-102 SERIAL NO.* y,5 d c y f The above-designated Anemometer Cup unit.was calibrated on 7-p 777 -- u. against Climet Standard Anem: meter Cup No. . v8 The most recen,t Standard Anemometer Cup calibration is dated / '75-NBS Test No. 7/V9//653.. STANDARD TEST CUP 100 sec, total count 100 sec. total count ~ 1. /1630 1. . & 9' 7/ 2. 0&32 2. & '/ '7/ 3. 6 /$ VS-3. 6#/6/ ~ Average Count 663f kverage Count 6 '/ S P Std.' Wind Speed

3. 6/

Test Wir.d Speed BI6 Error in MPH ~, C 7 6 S /f~,,pyn t i Quality Control sechnician f-3/~79 Date e ' PEb30 Di d 6 3xM u e

~ y ':.: t-: m : e.::: w~" ~. -.. .we[mm.:3. -~IN M[1;gd W :E W3 s. ]MO.313. n:

T t = C T o w w r u f s C o ** ** wv + 832o w.CoLToa Avt.
  • P.O. s o m 151 R cosauos. ca. 9 2 3 7 3. t 7 s.r.s 7 9 3. :: 7 8 3 CERTIFICATE OF TPACEABILITY t

MODEL' 011-1 SERIAL NO. p933 MODEL' '014-102 SERIAL NO. 76'--S97 The above-designated Anemometer Cup unit was calibrated on 7-37-79 .- it against Climet Standard Anemcmeter Cup No. wP. c The most recent Standard Anamcmeter Cup calibration is dated /-7E NBS Test No. 7~4/$///43.. STANDARD TEST CUP 100, sec. total count 100 sec. total count 1. /3009 1. /D 261 2. /36G7 2. / /8 92 /86Ib 3. / 9 9 Y.2 3. , Average Count /8dYY Average Count / O dP6' 7' Std. Wind Speed 6', 4 / Test Wir.d Speed 9, 96 86' Error in MPH MQ/fs& Quality Contro1 T'echnician# 7-3 /- 7 f Date 6p SwH l + g

v':1.W U2c-;.EEE LfdEd b.rd.:.2d rc Orm,f5 e.. n i... <. w - c:~ mhys~ ~ is ' /bnMDrW'25 I, .cv ~ or o~ e-v. c o-.~y. ::: o w. co u o ~ ave.. e.o. s on is i sic ot.~ os. ca. 5 : s t s 57 : 487ss27ss (- CERTIFICATE OF TRACEABILITY MODEL' 011-1 SERIAL NO. CY83 MODEL* 014-102 SERIAL. NO.'

  • v f.- p 9 '.7 The above-designated Anemometer Cup unit was calibrated on 7- $7 '77

--.,u-against Climet Standard Anememeter Cup No.

  • tr 8 The most recent Standard Anemdmeter Cup calibration is dated /-76~

NBS Test No. 7%/.0/&S~8., STANDARD TEST CUP 100, sec. total count 100 sec. total count 1. /9 6~9 9' 3. / 9 '/3 9 ( /96~69 2. /9 3*76

2. _

3. /96 03'~ 3. /938G . Average Count /96%7 Average Count / 9 4/60 ~ Std.' Wind Speed '/,d'/ Test Wir.d Speed 6_.99 Error in MPH . DJ~~ - L & n.- r i Quality Control Technician 7-3/-79 Date 6 4 .C E[ SOD 0 7MAv

  • e im e.

$d's$$ ":$b {.*:1 [RN'.* ~ fjY-: :* f -) T I- $_- 1* % 2*? scv suctm um csts C om pa ar + 132C w.COLTom Avt.:* P.C. S ox 151. Rt.o64~os.C4 9:37

  • 4714 793 2788 b

CERTIFICATE OF TPACEABILITY MODEL 011-1 SERIAL I:0. O4/33 MODEL 014-102 SERIAL NO. gg-p97 The above-designated Anemometer Cup unit was calibrated on r/-09-77 a against Climet Standard Anemometer Cup No. /, ' 8. The most recen,t Standard Anemometer Cup calibration is dated /-7f NBS Test No. / A/p//4 T3. ~ STANDARD TEST CUP 100 sec. total count 100 7c. total count ( 1. 557%f 1. $6 '/0/ 2. D6~79 Y 2. 2539? 3. D6~2'lY 3. DS~6~3(o Avetage Count Of77M Avera'ge Count &6'/4/4/ Std. k'ind Speed 8,98 Test ilir.d Speed 8 E '/ Error in MPH ,// / f&,,4 QualityContro15chnician 7 T-3/ '79 Date \\ FEE 3 nf ab s x ga,oy 1

Y h~h I5,1

  • O l.&, 5] g.M LUZdQM r.g m y ~ u,q. D L

m p .M Y25IE12'laur.-r 2 E ESSE ~ L ~3% AWMCMf 3 C OM P ANY * $22 0 W. COL 70w h C.

  • P.C. S = x 151. A couw os. CA. 92373 47143793.;73

( CERTIFICATE Of TP).CEABILITY MODEL' 011-1 SERIAL N0. $4/83 MODEL 014-102' SERIAL NO. 95 :.C97 The above-designated Anemometer Cup unit was calibrated on '/--#'/-77 against Climet Standard Anemometer Cup No. M8. The most recent Stand'ard Anemometer Cup calibration is dated /-76. HBS Test No. 7/./C//frC3. STANDARD TEST CUP 100, sec. total count 100 sec. total count 1. M/30 1. 28 770 C 2. $9077 2. 0 8 T 0 5' 3. ,fT706 / 3. @C (s ff Average Count $9687 Average Count 88'786 Std. Wind Speed /0, 0 / Test Mind Speed 9e 90 Error in MPH - // 4WAWM-QualityControikechnici7n 7-3/-79 Date (, by 4 j. g __ g f. 7 d /OMM

    • A

$oY ' Y $. k krY 'h Y l g.T-m E m p$ '._G.*?,. lN it.T Lgt: O a ct t e.cT e u u c = T s C o.e paw y 13 2 0 W. C O L7 0 m A v C. . P.O. S cx 151. R c otaw o s. C A. 92373

  • 87 3.s p 7 9 3 27 E E

( CERTIFICATE OF TRACEABILITY MODEL' 011-1 SERIAL NO. $733 MODEL 014-102 SERIAL NO.' 7f- $ 9 -7_ The above-designated Anemometer Cup unit was calibrated on 7-dp 7 '77 against Climet Standard Anemometer Cup No. 8. The most rec :n.t Standard Anemometer Cup calibration is dated /'700 NBS Test No. TMQ//fp53. ' STANDAP.0 TEST CUP 100, sec. total count 100 sec. total count 1. 4'6~D 78 1. 4/4/ 5 % C 2. 95'// 3 2. 9'/ SDL, 3. Yd 86 3. W96 Y/ Average Count A/3'd 9M Average Count .4/2/6 66 Std. Wind Speed /6' S 6 Test Wind Speed /9'$ 89 Error in MPH ,/Y ks# +>$ A r i Quality Control Technician 9-s/-79 Date L Pgs5ai v3 g/$fp// l

p.L',*.J3,1 Il l.Q., lj/g f.'f)" },(->'J2d W-I:M 1-fQ pu w r: p c, .. ~ ' .; '. z :E h u 3 0i M J E h.(! b,....,=ms 8 ** CT 8 ",s.i m u *. c w T s C o e = P a H v_

  • 13 2 0 W. C c t.T o n Av t.

P.C. Box 151'. R c osam os. C A. 92373

  • s7 :437s3 273 CERTIFICATE Of TRACEABILITY MODEL 011-1 SERIAL NO.

$ Q.3 MODEL 014-102 SERIAL NO. 76-@97 ~ The above-designated Anemometer Cup unit was calibrated on 7-p'7 '/7 ~ againsi. Climet Standard Anemcmeter Cup No.' -6' The most recent Standard Anemcmeter Cup calibration is dated /-75-~ -NBS Test No. TA/B///s.T3

  • ~

STANDARD TEST CUP 100,sec. total count 100 sec. total' count i 1. 6 / 0 cT 6 1. 6 /) 3 8 /' ( 2. .- G / cD 3 2 2. & D 9'86 3. 0 ll N 3. 6039j ___, Average Count ___ $//d>V Average Count & C */D Q Std. Wind Speed 98,8/ Test Wir.d Speed / 9. '/8 Error in MPH .23 Ort / hMA-Quality Control Tec^nnician 7 Date (t pp ppg

MG' S teL f y :- m:r E>5E3 @MTd@z-fw@h. rr rp py:a- 'f-6z. g.i.w.4 ,,(...-,.eo-.... 2 2 2 o. e o m. -c. r.o. = = = is i a c om~... c..,2 2 22 - 2,2.= = .~. CERTIFICATE O TkACNBILITY ~ ~ MODEL 011-1 SERIAL NO. JP #/ 3 3 MODEL* '014-102'*** -* ~ SERIAL NO.,'- gg- :p9 7 l The above-designated Anemometer Cup uni.t was cali* rated on ~7-67 '79 o .againsE. Climet Standard Anemometer Cup No. rr- #. ~The most recen[S'tandard An*embmeter Cup calibration is dr.ted /~73~ NBS Test No. 7#0//Afg. STANDAP.D TEST CUP 100.sec total count (. 100 sec. total count 1. 7? day 3. 7C Ys 7 2. 77.:73 0 2. 7&S 7:2 3. '77D a'20 3. ~ 7 & '/ f.Y' Average Count 7784 Y Average Count 7450( ~ S'td. Wind Speed AS~ 62 Test Wind Speed ,.Q W. 8-0 Error in MPH D-Q&o,&x e, ' l. E ' QualitycontrolTechdician E-- '7-3/- 7 9 a un 2 r A g 6' d Date 5 v . D6~%/'N e

TAII.URE REPORT j t [19 [80 ~ 9 h lla_/Ita Project # '2 49 If'-e K-Date Site Dart d shiption: moo 4 W b Jcm.Y . DISCREPANCY: h9 7 _; which - nitoring system affected _ _ 5 Do w b Serial #_,09 X due; (~

problem:

total failure; oout of tolerance; o recortification c' other_ Describe problem: M M_ O. " i O kt h h 6 IM. V Q d What may have caused the part to fall; on the basis of what evidence ? Was the discrepancy corrected and the system returned to working status: # no REPAIR AND PARTS UTIL12ED TO CORRECT SYSTEM DISCREPANCY: Part, description r_,3 m o g r_ A K ygy-

serial #

4/ 4 T (,?9 Supply sourc (circle one): orsite client spares; technician spare parts kit; @escribe): h #w N Comments: I have affixed a Hold Part Status Tag to the part and will turn in the tagged part to the Property Controller. Preliminary evidence indicates that the failed part (circle one): is not repatrable j g o Tecfinician's signature ' Ddte

      • Completion of this form to this line required for Trip Reports ***

{ Processed, Froperty Controller (signature) 3.3.WA Date i T h 8.). Repair & Parts utilized, charge # . Part status (check one): _not to be repatred;__ hold part 6 mos: to be repaired. Hold Part Status Tag No. PART INSPECTION AND REPAIR (CR RECERTIFICATION): External er operational damage: Test results: Repair successful (circle 'one): Yes No Procedure used cr repair by subcontractor (description) Parts utilized Repair time billed hrs; charge # Date Technician making repairs: (signature) Inspector acceptance; removed "Part Failure" tag (signature): Date: Processed by Property Controller (signature): Date Repair 6. Parts Utilized, charge # k. ESD-TS-3 10/75 Pg 4 cf x w * .ee"'""" . _. ~ ~ ~ ~

  • ~

INSFECTIONCHECXLISi i M WIND DIRECTION SENSOR Transmitter S/N - ) , Vane S/N 394 (30 Model 012-10 V Oate. <zinIn Tech (1) (2) (3) (4) (S) RotatioA True Hea' ding Ideal Output Sensor Output Errnr (mV) (Volts) (Volts) (4) - (3) CW 0 3.200 'T 2o5-- 90 4.000 4.co6 o 180 1.600 /,.s 9 7 31 270 2.400 z M7 -3 0 3.200 s. T e c, ,4 4 - 90 4.000

3. 3 9 Y t_.-

180 1.600 t. irs 7 -r 270 2.400 2.dec o CCW 270' 2.400 'z, aco o 180 1.600 /, c.ac3 o. 90 0.800 m9a - C. _ 0 0.000 on4

  • (_.

270 2.400 ze o 180 1.600 g/, (:.n / -f r 90 0.800 67c a - 0 0.000

m. m 2 f7

(, ind Tunnel 90 0.800 .Sw -9 Alignment OUTPUT WITH MILL MARKS ALIGNED Actual' ideal Offset Offset Voltage f-'#. Vol tage Voltage Degrees Jfffff-O CW '2. SC C, A37.1 U72.400 4* ~34w = = CCW 4, 377 2 377 7,yer_2.400 --2 I = E = CHECK: Model 012-10 label attached Snip ring on hub and lubricated with silicon grease Hub (A1024) fits onto shaft with hand pressure "0" ring lubricated with silicon grease Shaft turns freely through 360* Logic module coated with polyurethane Locating pin on top housing aligned with scribe mark on hub ( Transmitter seats completely in the bushing both ways - (Using bushing on test fixture). Wires to connecter enclosed in RTV. P j

.,._s.._.--- ~ ~ yJQueE TTELEDYNE ISOTOPES E*lVIRONMEr:TAL TLD EXPOSURE REPCRT so vau suatw avtwue 07/08/78 - 10/07/78 westwoco. wrw scastv orcr5 F.J. BISSERT 12cil ***roro tetex imr4 DUQUESh*E LIGh*T C0llPAh't 2446 SIINER OAKS FLACE PITISCURCll, Pa. 15220 0U99 THE RESUL TS INDICATED BEL 0tt HAVE REEPl 08TAINED USING THE TELE 0vh5 ISOTOPES ftEADOUT SYSTEM A*10 00SIMETEo.S. THE CRIGINAL DATA ARE RETAI.NEO 'JN FILE. NET EXPOSURES IN MR IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STD. DEV. STA-1001 15.7 13.8 14.2 15.2 14.7 0.9 STA-1002 15.2 14.7 15.2 15.3 15.1 0.3 STA-1301 16.9 17.0 17.5 16.6 17.0 G.4 STA-1302 18.6 14.9 12.5 16.4 17.1 1.8 ( STA-1402 STA-1401 15.1 15.4 16.8 15.2 15.6 0.8 13.5 13.9 14.4 14.5 14.1 0.5 STA-1501 10.1 10.5 1C.3 10.6 10.4 0.2 STA-1502 9.0 10.4 8.9 9.8 9.5 0.7 STA-2701 16.4 15.4 15.0 14.8 15.4 0.7 STA-2702 16.5 14.5 14.9 14.9 15.2 0.9 STA-2801 16.7 16.7 17.6 17.3 17.1 0.4 STA-2802 15.9 15.5 16.9 16.0 16.1 0.6 STA-2901 20.4 19.5 19.2 18.5 19.4 0.8 .STA-2902 18.6 19.7 18.0 18.3 18.6 0.7 STA-3201 16.0 16.6 16.5 16.3 16.4 0.2 STA-3202 16.7 16.4 16.7 16.3 16.5 0.2 STA-3301 16.9 16.6 18.1 16.4 17.0 0.8 STA-3302 17.2 16.8 16 1 16.1 16.5 0.5 STA-3401 13.8 14.6 13.9 14c? 14.1 0.4 STA-3402 13.6 13.9 14.1 13.5 13.8 0.2 STA-3501 17.6 16.5 16.5 15.6 16.6 0.8 STA-3502 14.7 15.6 15.7 15.2 15.3 0.5 STA-3601 13.8 13.9 13.2 14.8 13.9 0.7 STA-3602 16.3 13.4 14.9 14.4 14.7 1.2 STA-3701 15.2 14.6 14.5 14.9 14.8 0.3 ( Cor4TINUED NEXT PAGE

s TTELEDYNE e P Ar.E 2 ISOTOPES 0099 SO VAN OUREN AVENUE ) WESTWCCO, NEW JERSEY 0766 (201) 864 7070 TELEX 134474 ID5NT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STO. DEV. STA-3702 15.6 13.9 14.3 14.1 14.5 0.8 STA-3801 15.5 14.0 16.8 16.6 15.7 1.3 STA-3302 15.5 16.1 17.4 15.1 16.0 1.0 STA-3901 16.2 15.7 14.9 16.1 15.7 0.6 STA-3902 14.9 15.8 15.5 16.2 15.6 0.5 STA-4001 15.1 15.2 15.4 15.4 15.3 0.1 STA-4002 15.3 15.5 14.4 14.9 15.0 0.5 STA-4101 14.9 16 3 17.0 16.0 16.0 0.9 STA-4102 16.2 16.5 17.2 16.1 16.5 0.5 STA-4301 13.0 13.0 13.1 13.1 13.0 0.1 S'l4-4302 13.4 13.4 12.8 12.8 13.1 0.3 STA-4401 12 0 12.6 12.3 11.9 12.2 0. 3' STA-4402 12.9 12.3 11.8 12.1 12.3 0.5 STA-4501 16.9 17.5 17.9 17.4 17.4 0.4 STA-4502 16.9 15.7 16.6 16.1 16.3 0.5 STA-4601 13.1 13.1 16.1 13.2 13.9 1.5 STA-4602 12.7 12.1 14.0 13.5 13.1 0.8 ( STA-4701 17.7 17.7 17.8 17.4 17.6 0.2 STA-4702 17.9 17.1 17.7 17.9 17.6 0.4 STA-4801 14.5 13.9 14.8 14.5 14.4 0.4 STA-4802 14.5 14.5 15.1 14.7 14.7 0.3 STA-Slot 16.0 16.0 15.6 16.0 15.9 0.2 STA-5102 16.5 16.2 16.1 15.8 16.2 0.3 THESE NET EXPOSURE VALUES RESULTED AFTER SUBTRACTING AN AVERAGE CONTROL READING OF 3.9 MR, OERIVED FROM THE FOLLOWING CONTROL 00SIv5TERS CONTROL 01 4.6 4. '. 4.3 4.4 4.4 0.1 CONTROL C2 4.1 4.2 3.8 3.9 4.0 0.2 CONTRCL C3 4.0 3.9 3.6 3.9 39 0.2 CONTPOL 04 3.8 4.0 3.9 4.2 4.3 0.1 CONTROL 05 3.6 3.4 3.4 3.5 3.5 0.1 C APPROVED DATE

._d Y M-~ WTELEDYNE ISOTOPES ENVIRONMENTAL TLD EXPOSURE REPORT 50 VAN BURfN AVENUE O4/08/79 - 07/08/78 ,,,,,,,,,,,,J,,,,, ,7,,, Duquesne Light Company non es4.rcro retex is4474 Beaver Valley Power Station P.O. Box 4 Shippingport, PA 15077 DU99 THE RESULTS INDICATED BELOW HAVE REEN OBTAINED USING THE TELEDYNE ISOTapES READCUT SYSTEM AND 00SluPTERS. THE CRIGINAL DATA ARE RETAINEC ON FILE. NET EXPCSUD.ES IN MR IDENT. AREA 1 AREA 2 AREA 3 APEA 4 AVERAGE STD. DEV. STA-1001 24.4 24.9 25.5 24.8 24.9 0.4 STA-1002 24.5 26.1 24.8 25.1 25.1 0.7 STA-1301 25.6 25.7 26.2 25.6 25.8 0.3 STA-1302 27.3 29.0 28.7 27.6 28.2 C.9 STA-1401 23.8 25.5 23.8 24.9 24.5 C.9 STA-1402 22.5 22.0 23.1 24.6 23.0 1.1 l ( STA-2701 24.6 24.3 25.5 24.5 24.7 C.5 STA-27C2 24.7 25.1 25.6 25.3 25.2 0.3 STA-2801 23.8 25.6 24.2 25.2 24.7 0.8 STA-28Q2 26.7 26.7 29.1 27.7 27.3 0.7 STA-2901 31.5 33.5 33.2 32.6 32.7 0.9 STA-2902 34.8 32.3 32.4 33.1 33.1 1.1 STA-3201 27.5 26.1 28.0 28.1 27.4 0.9 STA-3202 26.6 28.6 28.6 28.6 28.1 1.0 ST4-1301 24.8 22.8 25.1 25.2 24.5 1.1 STA-3302 26.2 24.1 26.1 25.5 25.5 1.0 STA-3401 23.8 20.5 21.5 21.9 21.9 1.4 STA-3402 21.7 22.6 21.9 22.1 22.1 0.4 STA-3501 25.7 26.0 25.7 26.1 25.9 0.2 STA-3502 27.9 27.4 26.9 25.7 26.9 C.9 STA-3601 26.4 23.9 25.0 25.4 25.2 1.0 STA-3602 24.0 24.5 25.0 25.3 24.7 0.5 STA-3701 23.0 25.1 25.6 25.1 24.7 1.2 STA-3702 25.4 25.7 27.8 25.5 26.1 1.1 STA-3901 24.6 25.9 26.8 28.4 26.4 1.6 i l CONTINUED NEXT PAGE

'WTELEDYNE gg 2 ISOTOPES So van gyAEN AvtNUE WESTWCCO. NEW JERSEY 0F675 (201) 864 F0F0 TELEX 1344F4 IDENT. AR9A 1 AREA 2 AREA 3 ASEA 4 AVEDAGE STO. OEY. STA-3902 26.8 29.3 27.1 27.8 26.9 1.0 STA-4001 26.3 26.5 25.4 26.3 26.1 0.5 STA-4002 24.6 25.6 26.3 26.4 25.7 C.8 STA-4101 26.7 25.5 27.4 27.3, 26.9 0.9 STA-4102 27.3 28.1 27.7 27.7 27.7 0.3 ST4-4201 27.8 25.6 26.3 26.9 26.6 1.0 STA-4202 26.5 28.6 28.6 27.1 27.7 1.1 STA-4301 21.1 20.1 19.7 21.4 2C.6 0.8 STA-4302 20.1 19.2 19.7 22.2 2C.3 13 STA-4401 19.5 18.0 17.1 18.0 18.1 1.0 STA-4402 20.3 21.0 19.6 20.9 20.5 0.6 STA-4501 25.8 26.8 26.5 27.0 26.5 C.5 STA-4502 27.8 29.8 28.8 28.9 28.8 0.a-STA-4601 22.2 21.4 22.1-21.7 21.9 C.3 STA-4602 19.8 21.5 12.1 22.3 21.4 1.1 STA-4701 26.8 27.0 25.9 26.5 26.6 0.5 STA-4702 25.9 27.4 28.3 28.9 27.6 1.3 STA-48Q1 21.5 21.5 21.7 22.2 21.6 0.5 ( STA-4902 24.0 23.' 23.3 23.2 23.6 0.4 i STA-5101 24.7 75.s 24.0 24.8 24.6 0.5 STA-5102 21.5 23.5 25.C 27.0 24.3 2.3 THESE NET EXPOSUR9 VALUES RESULTED AFT:P SURTRACTING AN AVER AGE CONTROL READING OF 4.4 MR, DERIVED FROM THE FOLLOWING CONTROL OCSIMETERS CONTROL 01 4.4 4.6 4.1 4.1 4.3 0.2 CONTROL 02 4.7 5.1 4.8 4.5 4.8 0.2 CONTRCL 03 3.9 4.3 4.0 4.2 4.1 02 CONTRCL 04 3.9 ':. 6 4.3 4.5 4.3 0.3 CONTROL 05 4.2 3.6 5.2 3.9 4.3 0.7 ---%bd-o^r"

i -.. ',. TTELEDYNE ISOTOPES ENVIRONMENTAL TLD EXPOSURE REPOPT SO VAN SUREN AVENUE 04/0R/79 - 07/OR/TS C WESTWOOO. NEW JERSEf CFS (20s) 664 70F0 TELEX 1344F4 0099 THE RESULTS INDICATED BELOW HAVE .EN OBTAINED USING THE TELEDYME ISOTOPES READOUT SYSTEM AND 00SIMETERS. THE ORIGINAL DATA ARE RETAINED ON FILE. NET EXPCSURES IN MR IDENT. AREA 1 AREA 2 AREA 3 APEA 4 AVERAGE STD. DEV. STA-1001 24.4 24.9 25.5 24.8 24.9 0.4 STA-1002 24.5 26.1 24.8 25.1 25.1 0.7 STA-1301 25.6 25.7 26.2 25.6 25.8 0.3 S TA-13 02 27.3 29.0 28.7 27.6 28.2 0.9 STA-1401 23.8 25.5 23.8 24.9 24.5

0. 8-g STA-1402 22.5 22.0 23.1 24.6 23.0 1.1 i

( STA-2701 24.6 24.3 25.5 24.5 24.7 0.5 STA-2702 24.7 25.1 25.6 25.3 25.2 0.3 STA-2801 23.8 25.6 24.2 25 2 24.7 C.9 STA-2002 26.7 26.7 28.1 27.7 27.3 0.7 j STA-2901 31.5 33.5 33.2 32.6 32.7 0.9 STA-2902 34.8 32.3 32.4 33.1 33.1 1.1 STA-3201 27.5 26.1 28.0 28.1 27.4 0.9 STA-3202 26.6 20.6 28.6 28.6 28.1 1.0 STA-3301 24.8 22.8 25.1 25.2 24.5 1.1 STA-3302 26.2 24.1 26.1 25.5 25.5 1.0 STA-3401 23.8 20.5 21.5 21.9 21.9 1.4 STA-3402 21.7 22.6 21.9 22.1 22.1 0.4 STA-3501 25.7 26.0 25.7 26.1 25.9 0.2 STA-3502 27.8 27.4 26.8 25.7 26.9 0.9 STA-3601 26.4 23.9 25.0 25.4 25.2 1.0 STA-3602 24.0 24.5 25.0 25.3 24.7 0.5 STA-3701 23 0 25.1 25.6 25.1 24.7 1.2 STA-3702 25.4 25.7 27.8 25.5 26.1 1.1 S T A-3901 24.6 25.9 26.8 28.4 26.4 1.6 i CONTINUED ( NEXT PAGE i

WTELEDYNE ... [d 2 ISOTOPES $0 VAN SVREN AVENUE WESfwCCD. NEW JERSEY 076 h (20t) 844 7070 TELEX 134474 IDENT. AkEA 1 AREA 2 ARFA 3 ASEA 4 AVE" AGE STO. DEV. STA-3902 26.8 25.3 27.1 27.8 26.9 1.0 STA-4001 26.3 26.5 25.4 26.3 76.1 0.5 STA-4002 24.6 25.6 26 0 76.4 25.7 0.8 STA-4101 26.7 25.5 27.4 27.3 26.9 0.9 STA-4102 27.3 28.1 27.7 77.7 27.7 0.3 STA-4201 27.8 25.6 26.0 26.9 26.6 1.0 ', STA-4202 26.5 28.6 28.6 27.1 27.7 1.1 STA-4301 21.1 20.1 19.7 21.4 2C.6-0.8 'STA-4302 20.1 19.2 19.7 22.2 2C.3 1.3 STA-4401 19.5 18.0 17.1 18.0 18.1 1.0 STA-4402 20.3 21.0 19.6 20.9 20.5 06 STA-4501 25.8 26.8 26.5 ?7.0 26.5 C.5 STA-4502 27.8 29.8 78.8 28.9 2E.8 0.8 STA-4601 22.2 21.4 22.1 21.7 21.9 0.3 STA-4602 19.A 21.5 22.1 22.3 Pl.4 1.1 STA-4701 26.8 '7.0 25.9 76.5 26.6 0.5 STA-4702 25.9 27.4 28.3 28.9 27.6 1.3 STA-4801 21.5 21.1 21.7 72.2 21.6 0.5 ( I STA-4302 24.0 23.7 23.3 23.2 23.6 0.4 STA-5101 24.7 75.0 24.0 24.8 24.6 0.5 STA-5102 21.5 23.5 25.0 27.0 24.3 2.3 .THESE NET EXPOSURE VALUES RESULTED AFT ~R SURTRACTING AN AVERAGE CONTROL READING OF 4.4 MR, OERIVED FDOM THE FOLLOWING CONTROL DCS! PETERS CONTROL 01 4.4 4.6 4.1 4.1 4.3 0.2 00NTROL 02 4.7 5.1 4.8 4.5 4.8 0.2 CONTRCL 03 3.9 4.3 4.0 4.2 4.1 0.2 CONTROL 04 3.9 4.6 4.3 4.5 4.3 0.3 CONTRCL 05 4.7 3.6 5.2 3.9 4.3 0.7 I f d k lya uQ ^" ~ n ^'5 - j$'t

-~..s

  • TTELEDYNE ISOTOPES TLD Results for First Quarter of 1978 (mR/ day)

{' Offsite 5 Controls 3 Controls ~ Station (-8.9 mR) (-4.2 mR) 10-1 0.171 0.223 10-2 0.891 0.943 10-3 0.100 0.152 10-4 0.100 0.152 13-1 0.164 0.216 13-2 0.673 0.725 14-1 0.582 0.634 14-2 0.198 0.250 15-1 0.333 0.385 15-2 0.589 0.641 27-1 0.129 0.181 27-2 0.121 0.173 27-3 0.103 0.155 28-1 0.229 0.281 28-2 0.221 0.273 29-1 0.537 0.589 29-2 0.440 0.492 32-1 0.486 0.538 32-2 0.481 0.533 45-1 (' 45-2 46-1 0.110 0.162 46-2 0.124 0.176 47-1 0.301 0.353 47-2 0.274 0.326 48-1 0.316 0.368 48-2 0.271 0.323 51-1 0.138 0.190 51-2 0.277 0.329 51-3 0.114 0.166 TLDs were stolen from Station 45 during the quarter. (

' WTELEDYNE ISOTOPES TLD Results for First Quarter of 1978 (mR/ day) ( Onsite 5 Controls 3 Controls Station (-8.9 mR) (-4.2 mR) 33-1 0.298 0.350 33-2 0.135 0.187 33-3 0.0967 0.148 34-1 0.360 0.412 34-2 0.416 0.468 35-1 0.373 0.425 35-2 0.121 0.173 36-1 36-2 37-1 0.235 0.287 37-2 0.323 0.375 38-1 0.182 0.234 38-2 0.369 0.421 39-1 0.162 0.214 39-2 0.565 0.617 39-3 0.121 0.173 39-4 0.115 0.167 40-1 0.430 0.482 $0-2 0.369 0.421 41-1 0.496 0.548 ( 41-2 0.265 0.317 42-1 0.526 0.578 42-3 0.132 0.184 43-1 0.290 0.342 43-2 0.111 0.163 44-1 0.290 0.342 44-2 0.454 0.506 TLDs were stolen from Station 36 during the quarter. 9 i ( r.

s. e W TELEDYNE ISOTOPES ENVIRONMENTAL TLD EXPOSURE REPORT so van evaam avenus 01/07/78 - 04/08/78 westwooo new anso ciers Duquesne Light Company m i, u..roro retexis4474 Beaver Valley Power Station P.O. Box 4 Shipping Port, Pa, 15077 0U99 THE RESULTS INDICATED BELOW HAVE BEEN ORTAINEO USING_THE TELECYNE ISOTOPES READOUT SYSTEM AND 00SIMETERS. THE ORIGIN A L D ATA ARE~9ETAINEO ON FILE. NET EXPOSURES IN "R IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STO. OEV. STA-1001 15.2 15 6 15.6 15.8 15.6 0.3 STA-1002 82.0 80.6 81.7 80.2 81.1 0.8 STA-1301 15.5 14.3 13.9 15.9 14.9 1.0 STA-1302 60.6 60.4 62.9 60.8 61.2 1.2 STA-1401 53.2 52 9 52.3 53.7 53.0 0.6 STA-1402 17.5 19.5 17.6 17.5 15.0 1.0 ( STA-1501 30.2 29.5 30.5 31.1 30.3 0.7. i STA-1502 53.3 53 9 53.5 53.9 53.6 0.3 1 STA-2701 12.0 12.1 11.5 11.2 11.7 0.4 STA-2702 11.1 10.8 11.3 10.7 11.0 03 STA-2801 21.3 22.0 19.8 20.1 20.8 1.0 STA-2802 19.3 20.6 18.5 22.0 20.1 15 l STA-2901 47.5 48.3 50.1 49.5 48.9 1.2 STA-2902 40.9 38.9 40.9 39.1 40.0 1.1. STA-3201 43.7 44.1 44.7 44.4 44.2 0.4 STA-3202 44.1 44.1 44.0 42.9 43.8 0.6 STA-3301 27.5 26.5 28.1 26.4 27.1 0.8 STA-3302 11.6 12.0 12.7 12.9 12.3 0.6 STA-3401 33.8 32.2 32 9 32.5 32.8 0.7 STA-3402 38.4 36.5 38.1 38.8 37.9 1.0 STA-3501 34.1 33.3 33.8 34.5 33.9 0.5 STA-3502 10 4 11.0 11.3 11.2 11.0 0.4 STA-3701 21.9 21.3 20.5 21.9 21.4 0.7 STA-3702 29.8 27.9 29.9 30.1 29.4 1.0 STA-3801 16.2 16.7 16.7 17.0 16.6 0.3 CON T I'l!JE 0 N?XT p.v,5

TTELEDYNE E2 ISOTOPES O $0 VAN SuREN avENut wtSTWC00 NEW sen5EY 07675 6201s 664 TC70 f tLtz 134474 IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STD. DEV. STA-3802 32.5 33.5 33.3 35.0 33.6 1.0 STA-3901 14.8 15.0 14.2 14.8 14.7 0.3 STA-3902 51.0 51.9 51.3 50 5 51.4 0.7 STA-4001 38.5 39.8 39.5 38.6 39.1 0.6 STA-4002 34.8 33.5 32.8 33.4 33.6 0.8 STA-4101 44.0 45.9 44.6 45.9 45.1 1.0 STA-4102 25.2 24.1 23.4 23.5 24.1 0.8 STA-4201 47.8 48.2 47.9 47.6 47.9 0.2 STA-4202 10.9 12.5 11.8 12.8 12.0 0.9 STA-4301 25.6 27.0 25.6 27.3 26.4 0.9 STA-4302 10.1 9.8 10.3 10.0 10.1 0.2 STA-4401 26.4 25.4 26.4 27.5 26.4 0.8 STA-4402 40.9 40.5 40.9 42.6 41.3 0.9 STA-4601 10.2 9.8 c.7 10.2 10.0 0.2 STA-4602 10.8 11.5 11.7 11.3 11.3 0.4 STA-4701 28.1 27.7 26.5 27.4 27.4 0.7 STA-4702 24.7 26.0 24.9 24.2 24.9 0.8 STA-4801 29.5 28.1 29.5 28.0 28.8 0.8~ ( STA-4802 24.9 24.2 25.6 24.1 24.7 0.7 STA-5101 13.5 13.1 11.8 12.0 12.6 0.8 STA-1003 9.0 8.8 8.9 9.6 9.1 0.4 STA-1004 9.1 8.8 9.1 9.4 9.1 0.2 STA-2703 9.5 9.6 9.3 9.3 9.4 U.2 STA-3303 9.2 9.4 8.4 8.2 8.8 0.6 STA-3903 9.9 11.0 12.0 10.9 11.0 0.8 STA-3904 10.4 9.7 10.9 11.0 10.5 0.6 STA-5103 10.7 10.1 10.3 10.6 10.4 0.3 STA-5102 25.8 23.7 26.3 24.9 25.2 1.2 THESE NET EXPOSURE VALUES RESULTED AFTER SU8TRACTING AN AVER AGE CONTROL READING OF 8.9 HR, DERIVED FROM THE FOLLOWING CONTROL DOSI.*ETERS CONTROL 01 5.2 4.1 4.4 4.4 4.6 0.5 CONTROL 02 16 8 16.3 16.7 16.3 16.5 0.2 CONTROL 03 15.7 15.1 15.3 15.2 15.3 0.3 CONTROL 04 4.6 3.5 3.6 3.9 3.9 0.5 CONTROL 05 4.3 4.0 3.9 4.2 4.1 0.2 APPROVED 4 C.A O _u s_y_ w % DATE _ _b CE______

"tPTELEDYNE ISOTOPES ~- ENVIRONMENTAL TLD EXPOSURE REPORT 01/07/73 - 04/08/78 ,cs,wceo.ng,;cnsgy or.73 ( Duquesne Light Company non es4 raro vetex is4.r4 Deaver Valley Power Station P,0, llox 4 Shipping Port, Pa, 15077 DU99 THE RESULTS INDICATED RELOW HAVE P,EEN ORTAINED USING THE TELECYNE ISOTOPES READOUT SYSTEM AND 00SIMETERS. THE OP.IGINAL DATA ARE RETAINED 04 FILE. NET EXPOSURES IN MR IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STD. DEV. STA-1001 15.2 15 6 15.6 15.8 15.6 0.3 STA-1002 82.0 80.6 81.7 80.2 81.1 0.8 STA-1301 15.5 14.3 13.9 15.9 14.9 10 STA-1302 60.6 60.4 62.9 60.8 61.2 1.2 STA-1401 53.2 52 9 52.3 53.7 53.0 0.6 STA-1402 17.5 19.5 17.6 17.5 18.0 1.0 STA-1501 30.2 29.5 30.5 31.1 30.3 0.7 ( I STA-1502 53.3 53 9 53.5 53.9 53.6 0.3 STA-2701 12.0 12.1 11.5 11.2 11.7 0.4 STA-2702 .11.1 10.8 11.3 10.7 11.0 0.3 STA-2001 21.3 22.0 19.8 20.1 20.8 1.0 STA-2802 19.3 20.6 18.5 22.0 20.1 1.5 STA-2901 47.5 48.3 50.1 49.5 48.9 1.2 STA-2902 40.9 38.9 40.9 39.1 40.0 1.1 STA-3201 43.7 44.1 44 7 44.4 44.2 0.4 STA-3202 44.1 44.1 44.0 42.9 43.8 0.6 STA-3301 27.5 26.5 28.1 26.4 27.1 0.8 STA-3302 11.6 12.0 12.7 12.9 12.3 0.6 STA-3401 33.8 32.2 32.9 32.5 32.8 0.7 STA-3402 38.4 36.5 38.1 38.8 37.9 1.0 STA-3501 34.1 33.3 33.8 34 5 33.9 ' O.5 STA-3502 10 4 11.0 11.3 11.2 11.0 0.4 STA-3701 21.9 21.3 20.5 21.9 21.4 0.7 STA-3702 29.8 27.9 29.9 30.1 29.4 1.0 STA-3801 16.2 16.7 16.7 17.0 16.6 0.3 CON 11-:tr.O ( NFXT P A';E

TTEl.EDYME c2 isorwEs SO VAN BurtEt4 AVENUE WESfw000. PIEW JCRSEY 07675 120t) 6C41070 TELEX 134474 IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STO. DEV. STA-3802 32.5 33.5 33.3 35.0 33.6 1.0 STA-3901 14.8 15.0 14.2 14.8 14.7 0.3 STA-3902 52.0 51.9 51.3 50.5 51.4 0.7 STA-40C1 38.6 39.8 39.5 38.6 39.1 0.6 STA-4002 34.8 33.5 32.8 33.4 33.6 0.8 STA-4101 44.0 45.9 44.6 45.9 45.1 1.0 STA-4102 25.2 24.1 23.4 23.5 24.1 0.8 STA-4201 47.8 48.2 47.9 47.6 47.9 02 STA-4202 10.9 12.5 11.8 12.8 12.0 0.9 STA-4301 25.6 27.0 25.6 27.3 26.4 0.9 STA-4302 10.1 9.8 10.3 10.0 10.1 0.2 STA-4401 26.4 25.4 26.4 27.5 26.4 0.8 STA-4402 40.9 40.5 40.9 42.6 41.3 0.9 STA-4601 10 2 9.8 9.7 10.2 10.0 0.2 STA-4602 10.8 11.5 11.7 11.3 11.3 0.4 STA-4701 28.1 27.7 26.5 27.4 27.4 0.7 STA-4702 24.7 26.0 24.9 24.2 24.9 0.8 STA-4801 29.5 28.1 29.5 28.0 28.8 0.8 f STA-4802 24.9 24.2 25.6 24.1 24.7 0.7 \\ STA-5101 13.5 13.1 11.8 12.0 12.6 0.8 STA-1003 9.0 8.8 8.9 9.6 9.1 0.4 STA-1004 9.1 8.8 9.1 9.4 9.1 0.2 STA-2703 9.5 9.6 9.3 9.3 9.4 0.2 STA-3303 9.2 9.4 8.4 8.2 8.8 0.6 STA-3903 9.9 11.0 12.0 10.9 11.0 0.8 STA-39Q4 10.4 9.7 10.9 11.0 10.5 0.6 STA-5103 10.7 10.1 10.3 10.6 10.4 0.3 STA-5102 25.8 23.7 26.3 24.9 25.2 1.2 THESE NET EXPOSURE VALUES RESULTED AFTER SUBTRACTING AN AVERAGE CONTROL READING OF 8.9 ftR, OERIVED FROM THE FOLLOWING CONTROL DOSI5*ETERS CONTROL 01 5.2 4.1 4.4 4.4 4.6 0.5 CONTROL 02 16.8 16.3 16.7 16.3 16.5 0.2 CONTROL 03 15.7 15.1 15.3 15.2 15.3 0.3 CONTROL 04 4.6 3.5 3.6 3.9 3.9 ~0.5 CONTROL 05 4.3 4.0 3.9 4.2 4.1 0.2 ( APPROVED 'l 'C1 O idlil'7.u:_?~ASL2 1 . 55 2E______

rH -) ' CALI!!!:ATIOI! 'R EPORT /0l3/Elgo UIND SPEED SENSOR io/aoh? Hanufacturer Clinec' D ltodel 011-1 S/N Transmit ter # 3013, Cup S/N 852 Date 9/25/79 (1) (2) (3) (4) True Speed Sensor Output Sensor output Error (?!P H) (Hz) '(MPH) (3) - (1)

1. 00 ',

28.2 ~ 1.40 +.40 9.36 D 275.3 9.16 .20 17.52 530.0 17.15 .37 25.65 783.2 25.09 .56 ' 41.08 ) 1268.3 40.32 .76 51.53 1584.5 50.24 -1.29 ). Calibrated liith S/N 2530; S/N 2641; S/N 305i COI 102895;CCN 104SSS;CCN 200650 ) 9 Threshold, True Wind Speed Run 1 Run 2 NSTL Cal. Ref : NJhDCY ) nun 3 Avg. Procedure'Used: in.x.c_ m Calibrated.By: 1 ./ O -) Approved By: / NSTL Bay St. Louis, IIississippi. Dif )i fif 6/6[ *. 3 A 66 4 4 t S ,.N@f

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s CALIBRATIO : ~ REPORT / ' wit! D SPEED S EllSOR I 011-1 ttodel Hanu f a cturer - Clinet-S/N Transmi:ter. # 2641,Cuo S/N 77-240 Date __ 9/25/79 (4) (1)' (2) (3) Error-Sensor Output True Speed Sensor Output (1) (!!PH) (3) Gi?H) (Hz) i I 1.00 25.7 1.33 +.33 2.96-82.2 3,10

  1. ,14 I

147,7 5.15 +.0' 5.lg 7.23 204 8 6.95 - 30 .'01 9.36 281.3 9.35 336.8 11.09 - 37 .'25 11.46 13 24 397.3 12.99 15.53 453.2 14,74 .*79 17,11 , 47 17.52 528.8 19.31 579.0 18.69 67 .'60 21.46 648.2 20.86 .'71 3.42 707.2 22.71 .'53 35.6a 784.0 25.12 .'80 $9*3' '925.0 29.54 1103.5 35,15 , 82 ~ 'p 9,0 / 1267.8 40'30' 46.33 1427.7 45 2 .$,'O 1 51.34 1592.3 50.48 s..- 03 -/y i::.:. bl A t Threshold, True Wind Speed i NJe m. l Run 1 to NSTL Cal. Ref :- Run 2 - :q Run 3-ts Proce6.ure 13 sed: ISL-MC-116 3

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n'. .' v. :l ~ j 7 ___CALIBPdTION REPORT liIND DIRECTION SENSOR 0-Manufacturer Climet Model 012-1: Transmitter S/N loi , Vane S/N e.rpn Date o f,- f o O (1) (2) (3) (4) (5) Rotation True Heading Ideal Output Sensor Output Erro (Volts) (Volte) (4) .( Cif 0 3.200 3.197 -0.003 0 90 4.000 3.999 -0.001 180 1.600 1.588 < 0.012 270 2.400 2.400 0.000 0 3.200 3.195 -0.005-90 4.000 3.999 -0.001 g' 180 1.600 1.600 0.000 270 2.400 2.395 -0.005 CC11 270 2.400 2.399 -0.001 180 1.600 1.600 0.000 90 0.'800 0.789 -0.011 0.001 +0.001 0 0.000 O 270 2.400 2.402 +0.002 180 1.600. 1.592 -0.00S 90 0.800 0.789 -0.011 I 0 0.000 0.001 +0.001 liind Tunne1 90 0.800 0.800 0.000 Alignment OUTPUT IfITH MILL MARKS ALIGNED Actual Ideal Offset Offset Voltage Voltage Voltage Degrees O Of 2.360 J.Jro 2.400 -0.040 = -4.53 COV 2.369 p.J 94 2.40'0 -0.031 -3.5; = = O NSTL Cal. Ref: NJ W Y Procedure Us'ed: ISL-MC-117 CalibratedBy:[f j[ y Approved By: [ s[L NSrt 3' .h 'Q Bay St. Louis, Mississippi e n

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t-f., /$ D _ C ALI!: RATION. REPORT WIUD SPEED SENSOR I clanufacturer Clinet }todel 011-1 O S/N Transmitter i 2530,Cuo S/N 76-078 Date o/7c/vo (1) (2) (3) (4) True Speed Sensor Output Sensor Output-Error O (:!P H) (Hz) (MPH) (3) (1) 1.00 27.5. 1.38 +.38 2.95 74.2 2.85 ,10 5.12. 144.3 5:05 .07 /.25 213.3-7.21 0 4 7 0 9.36 278.3 9.25 11 11.47 342.8 11,28 _'19 13.25 403.0 13.17 ' 15.55 470.7 15.29 _ 26 17.55 529.7 17,14 - 41 19.03 595.2 ~ 19.20 O 21.50 665.0 21.39- ~ 23.46 721.7 23.17 _'29 25.70 788.0 25 25 30.30 927.3 29."62 _'68 ~ 35.9a 1121.2 .a5.70 .23 41.07 1272.a, 40.44 0 46.36 1432.7 45 47' 51.51 1598.8 50.'69 _[,8 - m ~ O O Threshold, True Wind Speed Run 1 47 Run 2 .47 NSTL Cal. Ref : NJhDCY Run 3 .45 0 Avg. 46 . Procedure.'fJsed : ISL-MC-116 Celibrated By:N1d I Approved By: M O NSTL Bay St. Louis, !!is sis sip p i f0 LO,nfL,/' ' 6s o I 7. y,,,. s _ _ .. ~.. - _. - - = _ - _ _ _ _ _

CALICnATI0tl REl'U n .UIllD SPEED S5?!50R 2nufacturer Clir.e t !!odel 011-1 0 Transmitter #3013,Cuo S/N 852' Date 9/25/70 S/II _ 3) (4) ( (1) (2) . Error True Speed Sensor Output Sensor Output G. (:!P H) (H::) (MPH) (3) - (1) .1.00 28.2 1.40 +.40 9.36 275.3 9.16 .20 O 17.52 530.0 17.15 .37 25.65 783.2 25.09 .56 4 41.08 1268.3 40.32 .76 'O. 51.53 1584.5 50.24 -1.29 Calibrated with S/N 2530; S/N 2641; S/N 3'051 O( CCN 102395;CCN 104958;CCN 200650 G O Threshold, True Wind Speed Run 1 NSTL Cal. Ref : unm Run 2 ISL-MC-116 Procedure 'lised:- O Avg. 2 k , Calibrated By: .h 4 M M<__ Approved By:_ 1:STL O Bay St. Louis, Mississippi ~ PgA/ of v-e

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O- [ CALIBkATION' REPORT ,\\ WIND DIRECTION SENSOR -( 0 .\\lanufa c tu rer Climet Model 012- -Transmitter S/N 156 , Vane S/N 156-9 'Date 9/25/7! O (1) (2) (3) (4) (5 Rotation True Heading Ideal Output-Sensor Output Erre (Volts) (Volts) _(4) - Cf1 0 3.200 3.201 +0.001 O 90 4.000 4.002 +0.002 180 1.600 1.593 -0.007 a 270 2.400 2.400 0.000 0 3.200 3.200 0.000 90 4.000 4.001 +0.001 180 1.600 1.594 -0.006 0 270 2.400 2.401 +0.001 CCW 270 2.400 2.402 +0.002 180 1.600 1.610 +0.010 90 0.800 O.799 -0.001 0 0.000 0.001 +0.001 i 0, 270 2.400 2.403 +0.003 180 1.600 1.614 +0.014 90 0.800 0.800 0.000 0' O.000 0.001 +0.001 Wind Tunnei 90 Alignment 0.800 0.798 -0.002 O OUTPUT WITH MILL MARKS ALIGNED Actual Ideal Offset-Offset Voltage Voltage Voltage Degrees o CN 2.432,2.7// 2.400 +0.032 = +3.57 = CCf 2.448.?,9//' 2.400 +0.048 = +5.37 = O ~~ NSTL Cal. Ref: NJiGCY Procedure Used: ISL-MC-117 Calibrated'By:Med.j[,'[~, 'O Approved By:a W M On J g.43 n.f 4, _ /___ xsn Bay St. Lou.ls, c.,lssissippi i 0 ,4 -7 ' ~~' ~%

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CALIP, RATION REPO.T 1 >gO g' j., ~ UIt!D SPEED S Et!SO R 011-1 Model 0 "*""' e cstr e r Citete t 9/25/79 S /!! I ransmitter i 324S, cup S/N 77-471 nate _ (4) (3) 1 (2)- Error Sensor output o True (3) - (1) S Sensor Output (.W peed (Hz) (MPH) i)l ~ 14,I 25,3 1.31 +.31 87.0 3,25 +.32 2.!;,

5. (,,1 149.2 5.20

+.11 0 7,, 211.2 7.15 .02

9. f.

272.7 9.08 .17 338.8 11.15 .18 11.1:

13. (,,I 393.7 12.87

.22 17.1! 456.8 14.85~ .49 15.; 516.8 16.74 .58 g 574.3 18.54 .58 19 1) 643.0 20.70 .52 21 'r. 23.1f 698.3 22.43 .78 25.;y 771.2 24.72 .66 30.l; 926.7 29.60 .53 35.; 'g 40.',q 1087.8 ~34.65 -1.05 46.lq 1249.2 39.72 -1.07 51.f;g 1424.3 45.21 .89 1566.7 49.68 -1.40 O O Thrc told, True liind Speed N NJ2BS t, NSTL Cal. Ref : h 2 [4 - ISL-MC-116 O t ' Procedure 'IJsed: n _3 I a. . Calibrated By: .1/ / Approved By: g O NSTL (~ Bay St.' Louis,I!ississippi Om e k P hn(TI y ~. O O i,_. ~~' 9 =. S' ~ -- : -- - ~2

+...a...... O u t30 SPEED: SENSOR Manufacettrer Clictec Model' 011-1 9/25/79 -O S/n Transmitter # 3013,Cuo s/N 852 nate (1) (2) (3) (4) Error True Speed Sensor output Sensor output O!P H) (Hz) (MPH) (3) - (1) e e 1.00 25.3 1.31 + 31 9 21 271 8 9.05 .16 O 17.23 521.3 16.88 .35 25.25 768.5 24.63 .62 40.44 1245.3 39.59 .85 g 50.69 1570.5 49,30 .,39 Calibrated with S/N 3056; S/N 3'248 ~ g, CGV 200652;CCN 104799 0 O Threshold, True Wind Speed Run 1 NSTL Cal. Ref : NJWD3S Run 2 Run 3 Procedure TTsed: Ic,.MC-116 Avg. I Calibrated By: Approved Ey: (( ]d usTL O Bay St. Lo'u i s, Mississippi Pg M d V.I ~ l Q -l _ _. -n n ,r ., -n ~ ~ ~n. ....y ~ : - -- ..e~- -r w w w =:m~~u -

G ,D (, CALIBRATION REPORT 11INO DIRECTION SENSOR I O >!anufacturer Climet blodel 012-1 Transmitter S/N 272 , Vane S/N 538 -Date 9/25/79 0 .(1) (2) (3) (4) (5) Rotation True Heading Ideal Output Sensor Output Errc (Volts) (Volts) (4) - ( O-C11 0 3.200 3.202 +0.002 90 4.000 4.000 0.000 180 1.600 1.594 <-0.006 270 2.400 2.399 -0.001 .0 3.200 3.202 +0.002 90 4.000 3.999 -0.001 O 180 1.600 1.594 -0.006 270 2.400 2.398 -0.002 CC11 270 2.400 2.398 -0.002 180 1.'600 1.595 -0.005 90 0.S00 0.796 -0.004 0 0.000 0.002 +0.002 O' 270 2.400 2.402 +0.002 180 1.600 1.595 -0.005 90 0.800 0.798 -0.002 0 0.000 0.004 +0.004 Wind Tunnel 90 0.800 0.800 0.000 Alignment OUTPUT T1ITH >!ILL >IARKS ALIGNED Actual Ideal Offset Offset Voltage Voltage Voltage Degrees O G12.397 J. 3 f ? 2.400 -0.003 =, -0.37 = CC1 2.431 2.I94 2.400 +0.031 +3.45 = = O NSTL Cal. Ref: hUiGCY j Procedure Used: ISL-MC-117 CalibratedBy:h 8, 4 O Approved By: 7 [ ( [ y St. Louis, Mississippi g '4 "DP#_'T[ a h ,Y Y, s S O D*.I T # I[*..# "3 ' $

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\\ .i. W TELEDYNE ff77 - VCV ENVIRONFENTAL TLD EXPOSURE REPCRT wtSTwCCO. NEW JERSEY 0767S 10/08/77 - 01/07/78 m m,,,,,,,,,,,,, F. J. Bissert Duquesne Light Company 1446 Silver Oaks Place Pittsburgh, Pa. 15210 DU99 THE RFSULTS INDICATED BELCK HAVF DEEN OBTAINED USING THE TELECYNE ISCTOPES READOUT SYSTEM AND 00SIMET E05. THE CRIGIN AL D AT A ARE RETAihED CA FILE. ~ NET EXPCSCRES IN MR IDENT. AR E A 1 AREA 2 AREA 3 AREA 4 AVERAGE STC. CEV. STAIC 01 14.9 15 5 15.3 15.8 15.4 C.4 STA13 C2 15.2 15.2 15.7 15,2 15.3 C.2 15.8 16.0 16.3 16.9 16.2 0.5 (STA1301 ITA13 Q2 16.0 16.4 16.9 16.8 16.5 0.4 STA14 C1 14.6 14.9 15.3 15.8 15 2 0.5 STA14 02 14.3 15.2 15.C 16.3 15.2 C.8 STA15 Q1 9.7 8.6 1C.2 9.9 9.6 0.7 STA15 02 9.7 - 9.6 1C.4 10.1 10.0 0.4 STA27 C1 15 2 15.5 15.5 15.5 15.4 C.1 STA27 C2 14.9 15.1 15.2 16.2 15.3 0.6 STA2C C1 18.1 17.2 17.1 17.0 17.3 0.5 STA28 02 17.4 16.9 16.9 17.3 17.1 C.3 STA29 01 18.8 19.6 19.5 20.7 19.7 0.8 STA29 02 19.1 19.9 2C.1 20 7 20.0 C.6 STA32 01 16.5 16.6 17.1 17.4 16.9 C.5 STA32 02 16.9 17.1 17.3 17.3 17.1 0.2 '16. 2" 0.2 STA33 Q1 16.0 16.0 16.5 16.2 ~ 15.7 C.2 STA33 C2 15.5 15.7 15.8 16.G STA34 C1 13.9 13.5 13.7 14.0 13.7 0.2 STA34 02 13.3 14.0 14.3 14.5 14.0 0.5 STA35 01 15. '- 16.7 16.8 16.7 16.4 C.7 STA35 C2 16.4 16.1 16.4 16.8 16.4 C.2 STA36 C1 15.7 15.4 15.8 15 3 15.5 0.2 STA36 C2 15.3 15.4 15.4 16.3 15.6 C.4 STA37 C1 15.2 14.8 14.3 15.9 15.0 0.7 ( CilNTINUGC htXT PAGE

"lPTELEDYNE ISOTOPES Pad 2 0U99 m vm etmen avcNur { westwooo. New asassy Orsrs (201) 664 7070 TELEX 1344F4 IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STO. OEv. STA37 02 15.2 14.8 15.6 16.2 15.5 0.6 STA38 C1 16.0 16.3 16.3 16.9 16.4 C.4 STA39 02 18.1 17.3 18.1 18.3 17.9 C.4 C.4 STA39 C1 18.2 18.5 12.4 19.1 18.6 STA39 02 17.2 16.8 17.1 17.8 17.2 C.4 STA4C C1 16.2' 16.3 16.5 17.1 16.5 C.4 STA4C 02 15.6 16.3 16.8 17.9 16.7 0.9 STA41 C1 17.5 17.5 17.6 18.4 17.7 C.5 STA41 C2 17.9 18.0 1E.3 18.3 18.1 C.2 STA42 C1 17.4 16.7 17.1 17.2 17.1 C.3 STA42 02 17.0 17.0 17.7 18.4 17.5 C.7 ~ STA43 C1 13.8 14.5 14.8 15.0 14.5 C.5 ~ STA44 C1 13.4 13.7 13.5 14.4 13.7 C.5 STA44 C2 13.6 13.0 13.6 13.7 13.5 C.3 STA45 01 18.6 18.7 19.0 19.9 19.1 0.6 19.0 18.5 19.1 19.7 JS.l_ C.5 (STo4502 iTA46 C1 14.0 13.9 13.7 14.9 14.1 C.5 i 14.6 0.5 STA46 C2 14.4 14.3 14.5 15.3 ~ .1 C.3 18 STA47 01 18.0 18.1 17.8 18.5 STA47 Q2 17.9 19.1 18.3 13.8 18.5__ 0.5 ~ STA40 C2 15.9 15.8 15.7 16.1 1 f. 9 0.2 17.4 17.8 17.7 18.1 17 8 0.3 STA51,C1 STA51 02 17.1 17.2 17.4 17.2 17.2 0.2 THESE NET EXPOSURE VALUES RESULTED AFTER SU8TRACTING AN AVERAGE CONTRCL READING OF 2.5 MR, OERIVED FROM THE FCLLOWING CONTRCL CCSIFETERS CONTRCL 01 2.5 2.4 2.7 3.0 2.7 0.3 CONTRCL 02 2.4 2.4 2.3 2.6 2.5 C.1 CCNTRCL C3 2.5 2.3 2.3 2.7 24 C.2 CONTRCL C4 2.4 2.3 2.3 2.8 2.5 C.3 CCNTRCL 05 2.2 2.5 2.4 2.7 2.5 0.2 9 ( hdr ~ APPROVEC _itl< '_ ___~5h2~$$ ^'S

TTELEDYNE /. F ISOTOPES / 7 ~7 7 - O. W f L ENVIRONFENTAL TLD EXPOSURE REPCRT, C WESTwo00. NEW JER$EY 07675 C1/08/77 - 01/07/78 m,3,,. 3 7,,,t,,,34,, F. J Rissert Duquesne Light Company 2446 Silver Oaks Place Pittsburgh, Pa 15220 0U99 THE RESULTS INDICATED BELCW HAVE BEEN OPTAINED USING THE TELECYNE ISCTOPES READOUT SYSTEM AND 00SIMETERS. THE CRIGINAL DATA ARE RETAthED ON FILE. NET EXPCSURES IN FR IDENT. AREA 1 AREA 2 AREA 3 APEA 4 AVERAGE STD. DEV. STA1C A1 55.9 57.0 SE.4 60.9 58.0 57.16 2.1 STAIC A2 59.0 57.8 6C.4 60.9 _5_9_.1_ 1.4 STA13 A1 54.4 60.3 61.0 65.4 61.5 g t;t.. 2.7 f STA13 A2 61.2 60.7 62.5 67.3 62.9 3.0 ( STA14 A1 78.6 61.8 75.C 76.1 72.9 g,f

7. 5 STA14 A2 58.3 59.0 59.4 63.7

_6 c. L 2.4 STA15 Al 38.9 41.7 42.6 43.9 41.8 4t.n 2.1 STA15 A2 41.0 43.3 41.9 43.7 42.5 1.2 ST.A27 A1 59.1 62.2 65.6 63.7 62.7 6LO 2.8 STA27 A2 56.3 59.6 6C.4 60.9 J_1:3_ 2.1 STA28 A1 55.4 64.4 66.0 67.5 63 3 0.1f 5.4 i STA28 A2 62.4 63.8 64.1 66.6 _6.4 2_ 1.8 l STA29 A1 76.0 16.7 79.6 83.C - 72.8 77.Y 3.2 STA29 A2 68.5 75.8 77.0 82.7 .7 6. 0. 5.8 STA32 At 55.8 60.0 6C.6 65.C 6C.4 43 7i 3.8 STA32 A2 63.5 6C.7 68.6 75.7 .67.1 _ 6.6 STA33 A1 64.8 64.7 6# 2 69.5 66.8 2.4 i STA33 A2 61.0 66.8 63.1 68.2 66.3 3.7 STA34 Al 57.9 53.5 57.0 59.7 57.0 2.6 STA34 A2 60.3 ' 56.2 61.5 62.4 60.1 2.8 STA35 A1 65.4 68.8 66.3 68.C 67.1 1.6 I STA35 A2 65.1 65.2 66.7 66.7 65 9 0.9 STA36 A1 69.2 11.9 7C.5 72.5 71.0 1.5 STA36 A2 65.9 10.7 71.a 74.4 7C.7 3.6-STA37 A1 67.7 65.8 65.C 69.9 67.1 2.2 9 / 1

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g . - -. -. -. ~ _..- 10 i i W TELEDYNE ISOTOPES o PAGE 2 L79 so van sUREN AVENUE WESTWCCO. NEW JEASEY C7675 (201) 664-7070 TELEX 134474 IDENT. AREA 1 AREA 2 AREA 3 AAEA 4 AVERAGE STD. DEV. STA37 A2 66.5 67.1 67.6 69.5 67.7 1.3 STA38 A1 68.6 16.4 77.4 78.9 75.3 4.6 STA38 A2 69.6 76.7 77.9 77.5 75.4 3.9 STA39 Al 94.6 92.4 81.8 S3.4 88.1 6.4 STA39 A2 65.7 13.7 76.1 76.3 72.9 5.C STA4C A1 68.3 45.0 .7C.9 73.C 69.3 3.5 STA4C A2 57.0 11.6 61.0 77.7 66.8 9.5 STA41 A1 69.9 69.9 72.4 74.0 71.7 2.3 STA41 A2 70.9 73.8 74.1 73.5 73.1 1.4 STA42 A1 72.9 15.0 75.7 81.2 76.2 3.5 STA42 A2 72.4 78.1 76.3 78.3 76.3 2.8 STA43 A1 53.6 57.6 62.2 61.9 58.8 4.1 STA43 A2 63.2 64.5 65.8 70.1 65.9 3.0 STA44 A1 55.4 60.5 64.1 61.6 6C.5 3.7 STA44 A2 60.1 61.0 64.2 65.4 62.6 2.5 g STA46 A1 63.6 63.8 59.6 71.1 64.5 cc t 4.8 It'V i STA46 A2 52.5 57.6 64.3 57.3 5 7. 9__ 4.9 STA47 A1 62.9 58.0 57.3 67.2 61.4 7 y, f s-4. 6 s y r. 3 STA47 A2 81.2 92.7 92.7 81.1 86.9 6.7 STA48 A1 57.7 59.3 58.5 65.1 6C.1 3.4 cz_ c f, g STA51 At 80.1 79.3 81.2 83.0 ~63.1 2.1 STA48 A2 62.1 61 5 66.2 62.4 80.9 1.6 t 7" / 1.1' ',,' ~ STA51 A2 66.0 67.0 67.5 68.7 67.3 THESE NET EXDOSURE VALUES RESULTED AFTER SUSTRACTING AN AVERAGE CONTRCL READING OF 7.7 MR, OERIVED F. ROM THE FGLLOWING CONTRCL CCSIFETERS CONTRCL A2 7.0 53 5.0 5.2 5.6 C.9 CONTROL A6 8.7 6.3 9.6 14.5 9.7 3.4 CONTRCL A7 11.3 8.0 7.3 8.2 8.7 1.8 CCNTRCL Ae 9.6 6.9 6.6 8.8 8.0 1.5 CONTPCL A9 7.7 4.9 5.9 7.1 6-4 1.3 u ti i 2/. I nd/j-CATE

65-h S '#?TELEDYNE ISOTOPES wtSTWCCD LA8CAA7CA:ES 50 VAN SUAE4 AVENUE WESTwoco. NEW JERSEY 07675 (20s)664 7070 TELEX 134874 3 November 1977 Mr. F. J. Bissert Duquesne Light Company Beaver Valley Power Station P.O. Box 4 Shippingport, PA 15077

Dear Mr. Bissert:

Enclosed are the TLD results for the third quarter. There are four results (for STA 41Q2, STA.42Q1, STA 48Q1, and STA 45Q2) which are highly suspect. The TLD instrument was operating properly. We suspect that there may have been a problem in the annealing of the dosimeters prior to being located at the stations. We will institute the following additional steps in order to attempt to alleviate the problem. We will: 1. Select dosimeters which have essentially the same response in each of ( the four readout areas. I 2. Type an identifying number on each dosimeter so that its performance can be recorded during its life span. The fourth quarter dosimeters do have identifying numbers on them. 3. Initiate an additional annealing cycle in our facility prior to ship-ment to the field. The present readout procedure automatically anneals dosimeters once. 4. Before the next placement of TLDs in the field (late December or early January) irradiate certain dosimeters and anneal others here, ship to the field for annealing and have them shipped back here for readout in order to test the procedures again before the fourth quarter TLDs are processed. ~ We hope these steps will be acceptable with you. Sincerely, c, M !. David Martin, Manager Environmental Analysis Department ( JDM:av Enclosure cc: H. Mulcahy

724 - h*dM'" TTELEDYNE ISOTOPES ENVIRONF ENTAL TLD EXPOSURE REPORT j 07/01/77 - 10/08/77 (c'.J.Bissert westwooo. usw asassy orst: g,y..,,,, ygte,,3 J Duquesne Light Company 2446 Silver Oaks Place Pittsburgh, Pa. 15220 0U99 THE RFSULTS IN0!CATED BELCW HAVE REEN ORTAINED USING THE TELEDYNE ISOTOPES READOUT SYSTEM AND 00SIMETERS. THE ORIG 11AL DATA ARE RETAINED ON FILE. NET EXPOSURES IN MR IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STD. DEV. STA10 01 16.9 17.0 19.4 19.3 17.9 g, g 1. 2 - STA10 02 17.2 17.0 17.s 18.0 17 4 0.5 - STA13 01 27.0 24.9 19.9 24.5 24.1 30 g,og - STA13 02 24.'- 20.5 20.1 23.0 ~22.0 2.1 STA14 01 18.7 17 7 17.8 19.7 18.5 g g.if 1.0 - STA14 02 18.0 18.9 19.0 18.3 18.6 - 0.5 13.4 13.0 12.4 14.1 13.2 ;zV(0.7 6 f ( '- S T A 15 01 STA15 02 10.6 10.4 11.3 14.6 __ll.7 1.9 - STA27 01 21.4 19.0 19.2 18.7 19.6 gg,yg 1.21.2'77 2 - STA27 02 21.5 18.9 19.6 21.1 - 2 0. 3 - 0.8 21.0 - STA29 01 20.2 21.9 21 4 20.6 19.2.g,g voy 2.1 STA28 02 16 2 19.5 20.5 20.7 STA29 01 23.4 24.4 24.7 23.5 24.0 0.6 2 4, g STA29 02 23.7 22.6 24.0 26.8 24.3 1.8 1.6 - ST A32 01 19.4 19.3 19.7 22.6 20.2 0.8 STA32 02 21.2 2 '.. O 19.8 21.7 20.9 ~ 09 STA33 01 22.7 '.0.5 21.2 21.9 21.6 STA33 02 21.9 19.7 20.0 21.5 20.8 1.1 STA34 01 15.2 17.9 17.3 19.9 17.6 2.0 STA34 02 18.7 17.5 L7.3 19.0 18.1 0.9 STA35 01 19.8 15.3 19.6 21.8 19.1 2.8 STA35 02 21 3 19.5 19.9 20.8 20.4 0.8 STA36 OL 25.0 20.3 21.9 22.7 22.5 2.0 STA36 02 23.2 20.8 21.0 20.6 21.4 1.2 STA37 01 19.4 19.3 19.4 23.7 20.5 2.2 l s C04TIMUED NEXT PAGE l

..e T TELEDYNE PSGE 2 -OtJ99 ISOTOPES o SO VAN SupEN AbENUE wtSTWOOO. NEW JER$EY 07675 (201) 844.7070 TELEI 1384F4 IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVE. RAGE STD. DEV. STA37 02 17,7 18.6 18.9 21.3 19.1 1.5 STA38 01 22.2 20.5 20.6 22.3 21.4 1.0 STA38 02 10.4 17.5 11.7 17.9 16.9 3.7 STA39 01 20.0 18.6 20.9 1A.5 19.5 1.2 STA39 02 22.6 20.5 20.9 22.0 21.5 1.0 STA40 01 20.1 18.9 19.8 21.7 20.1 1.1 STA40 02 21.5 20.6 20.7 23.4 21.5 1.3 STA41 01 20.1 22.9 21.9 20.7

  • 21.4 1.2 STA41 02 49.8 27.4 26.4 31.8 33.9 10.9 STA42 01 42.7 40.4 46.3 53.2 45.6 5.6 STA42 02 22.0 25.1 22.0 23.9 23.3 1.5 STA43 01 17.2 16.4 18.3 19.1 17.7 1.2 STA43 02 17.8 16.8 16.6 16.6 17.0 0.6 STA44 01 16.3 16.7 16.0

.17. 3 16.6 0.6 - STA46 01 18.3 17.5 17.4 18.1 -17.8 2.1 STA44 02 17.7 16.4 14.6 19.6 17.1 0.4

  1. 7'D,

- ST A46 02 18.8 17.7 17.5 16.7 -17.7 0.9 - S T A47 01 21.5 22.0 21.7 21.4 - 21.7 0.2 ~ STA47 02 21.1 20.9 19.9 20.6 - 20.6 El Ik, 0. 5 '/ * # ( - ST A48 01 152 1 l '. 2. 5 120.0 76.9 - 115.4 30.0 - ST A40 02 75.8 43.7 46.6 55.0 - 5 5 2_.f$ 3 14.51705 - STA51 01 23.9 21.4 21.7 21.6 - 22.1 1.2 - ST A51 02 22.9 21.6 21.7 18.3 ,21.1 M0 2.0 THESE NET EXPOSURE VALUES RESULTED AFTER SUBTRACTING AN AVERAGE CONTROL READING OF 2.5 MR, OERIVE0 FROM THE FOLLOWING CONTROL DOSIVETERS CONTROL 51 2.9 2.8 2.4 2.3 2.6 0.1 CONTPOL 52 2.7 2.4 2.5 2.2 2.4 0.2 STATION 45Q1 and 45Q2 were stolen on site. C i APPROVED n a4m f Eh!22-...!. i 7 l I

3 i W TELEDYNE l ISOTOPES ff7 7 - V'C&- ( ENVIR0hPENTAL TLD EXPOSURE REPCRT WESTWOCO. NEW JEPSEY 07675 10/08/77 - C1/07/78 m,...,,,,,, t e, n,, T. J. Riesert Duquesne Light Company 1446 Silver Oaks Place Pittsburgh, Pa. 15270 0U99 TPE RFSULTS INDICATED BELCW HAVF BEEN OBT AINED USING THE TELECYNE ISCTOPES READOUT SYSTE!4 AND DOSIME1505. THE CRIGINAL DATA ARE RETAIhEC CA FILE. NET EXPCSLRES IN MR IDENT. AREA 1 AREA 2 AREA 3 AREA 4 AVERAGE STC. CEV. STAIC 01 14.9 15.5 15.3 15.8 15.4 C.4 STA13 02 15.2 15.2 15.7 15.2 15.3 C.2 STA13 01 15.8 16.0 16.3 16.9 16.2 0.5 3TA13 02 16.0 16.4 16.9 16.8 16.5 0.4 (STA14C1 g 14.6 14.9 15.3 15.8 15.2 0.5 STA14 02 14.3 15.2 15.0 16.3 15.2 0.8 STA15 C1 9.7 8.6 1C.2 9.9 9.6 0.7 STA15 02 9.7 9.6 1C.4 10.1 10.0 0.4 STA27 01 15.2 15.5 15.5 15.5 15.4 C.1 STA27 C2 14.9 15.1 15.2 16.2 15.3 0.6 STA28 C1 18.1 17.2 17.1 17.0 17.3 0.5 i STA2P 02 17.4 16.9 14.9 17.3 17.1 0.3 STA29 01 18.8 19.6 19.5 20.7 19.7 0.8 STA29 C2 19.1 19.9 2C.1 20.7 20.0 C.6 t STt?2 01 16.5 16.6 17.1 17.4 16.9 C.5 S*

d 32 16.9 17.1 17.3 17.3 17.1 0.2 ATA33 01 16.0 16.0 16.5 16.2

~ 16. 2' O.2 .!A33 C2 15.5 15.7 15.8 16.0 15 7 0.2 i STA34 C1 13.9 13.5 13.7 14.0 13.7 0.2 STA34 02 13.3 14.0 14.3 14.5 14.0 0.5 STA35 01

  • C.4 16.7 16.8 16.7, 16.4 C.7 STA35 C2 16.4 16.1 16.4 16.8 16.4 C.2 STA36 C1 15.7 15.4 15.8 15.3 15.5 0.2 STA36 C2 15.3 15.4 15.4 16.3 15.6 C.4 STA37 C1 15.2 14.8 14.3 15.9 15 0 0.7

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. ~.. ' V "mTELEDYNE ISOTOPES pac 2 0U99 so van eunen avtaur westwooo. arw acasty orars ( non ee< roro ittex n*<r< IDENT. AREA 1 AREA 2 AREA-1 AREA 4 AVERAGE STC. CEv. STA37 02 15.2 14.8 15.6 16.2 15.5 0.6 STA38 C1 16.0 16.3 16.3 16.9 16.4 C.4 STA39 02 18.1 17.3 18.1 18.3 17.9 C.4 STA39 C1 18.2 18.5 12.4 19.1 18.6 C.4 STA39 02 17.2 16.8 17.1 17.8 17.2 C.4 STA4C C1 16.2' 16.3 16.5 17.1 16.5 C.4 STA4C.02 15.6 16.3 16.8 17.9 16.7 0.9 STA41 C1 17.5 17.5 17.6 18.4 17.7 C.5 STA41 C2 17.9 18.0 1E.3 18.3 18.1 C.2 STA42 C1 17.4 16.7 17.1 17.2 17.1 C.3 STA42 02 17.0 17.0 17.7 18.4 17.5 C.7 STA43 C1 13.8 14.5 14.8 15.0 14.5 C.5 STa44 01 13.4 13.7 13.5 14.4 13.7 C.5 STA44 C2 13.6 13.0 13.6 13.7 13.5 C.3 STA45 Q1 18.6 18.7 19.C 19.9 19.1 0.6 STa45 02 19.0 18.5 19.1 19.7 J9.1 C.5 3TA46 C1 14.0 13.9 13.7 14.9 14.1 C.5 (STA46C2 14.4 14.3 14.5 15.3 14.6 C.5 STA47 01 18.0 18.1 17.8 18.5 18.1 C.3 STA47 02 17.9 19.1 18.3 18.8 18.5 0.5 STA46 C2 15.9 15.8 15.7 16.1 1579-' O.2 ~ STA51 C1 17.4 17.8 17.7 la.1 17.8 0.3 STA51 02 17.1 17.2 17.4 17.2 17.2 C.2 THESE NET EXPOSURE VALUES RESL'LTED AFTER SUBTRACTING AN AVERAGE CONTRCL READING OF 2.5 MR, DERIVED FROM THE FCLLOWING CONTRCL CCSIFETERS CONTRCL-Q1 2.5 2.4 2.7 3.0 2.7 03 CONTRCL Q2 2.4 2.4 2.3 2.6 2.5 C.1 CCNTRCL C3 2.5 2.3 2.3 2.7 2.4 C.2 CONTRCL C4 2.4 2.3 2.3 2.8 2.5 C.3 CCNTRCL 05 2.2 2.5 2.4 2.7 2.5 0.2 ~ ( ,y--,d r APPROVEC .illliD&------ L .-}}

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