ML17150A168
ML17150A168 | |
Person / Time | |
---|---|
Site: | Waterford |
Issue date: | 06/15/1982 |
From: | Arnold L LOUISIANA POWER & LIGHT CO. |
To: | Wermiel J NRC |
Shared Package | |
ML17150A169 | List: |
References | |
NUDOCS 8206220528 | |
Download: ML17150A168 (234) | |
Text
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FAR 1'IJP Ti~TEGRATFD TEST SIT-TP-250 IJL VI I'<ATF. FIe,AT SXIIK TEST Table of Contents 1.0 OeVECTXVLS
- 2. 0 REt'ERE:ACES 3 ' ACCEPTA"<ICE CRXTERIA
- 4. 0 TES I',bl!XP~<E;< I'
~ 0 PIIECAUTXOMS A,"ID NOTES I.o pR".REnvxsrrES 7.0 PROCEDURE 7.1 Zniti.al Conditions 7.2 Tests 7.2.1 Simulated LOCA Test (Side A) 7.2.2 Simulated LOCA Test (Side 6) 7.2.3 Simulated Rormal Shutdown Test (Side A) 7.2.4 Simulated <Iormal Shutdown Test (Side 8) 7.2.5 S'mulated Shutdown 24 IIours After Reactor Trip Test (Side A) 7.2.6 Simulated Shutdown 24 Hours After Reactor Trip Test (Side 8) 7.3 Restoration 8.0 ATTACHNEHTS 8.1 Xnstruction Tables/Graphs 8.2 Data Tables 8.3 Calculation Sheets
- 8. 4 II 1 see 1 1aneous Attachments
Page s - ill Pit L~e';>>, ents:
( <'f oaaes)
Gtartup ln~enrated Test SIT-TP-250 Unit 'waterford 3 I Uate 6-11-82 Ultimate Heat Sink Test. Pevision Oraft 2 1 .0 LlaLlz('.zzz~s (AVOCA) 1.1 To assess the perfor nance level of the ultimate heat sink under simulated loss of coolant accident conditions.
1.2 To assess the performance level of. the ultimate heat sink under simulated normal snutdoiIn conditions.
1.3 To assess the performance level of the ultimate heat sink under simulated shutdown 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after reactor trip (tornado missile analysis) conditions.
1.4 To conduct a oerformance guarantee evaluation of the wet to'uers.
. r<r) jet crate J Tes", S 1'1'P 25O Unit 'claterford 3 Date 6-11"82 (mat& '}ea t 5inri T+", ". Revision Draft 2 1 } 1 Co~pi.-~ '~, ~ection 9.2.2, Amendment 22 Coolinq System for Reactor Auxiliar.ies 2.1.1.2 char:ter 9, section 9.2.5, Amendment 22, Ultimate 1leat sink 2.1.1.3 Chanter 9, Tahle 9.2-8, Amendment 22, Principal Cooling Tower Components Chanter }4 P r cope ra t ional Section "1'es 14 t ing 12 16, Amendment 22, 2.1.1 5 ( h.s;.ter 16, Section 3/4 7.5, Amend>>ent 16, Ultimate Heat Sink 2.1.2 Other Commitment Documents 2.1.2.1 AS<E P}'C-23, Power 1'est Code for Atmospheric Water Cooling Equipment, January 1958
- 2. .2.2 1 AS'!E P'1'C 30 p Power Test Code f or Air-Cooled Heat Exchangers (undat d draf t copy for information onlY) 2.1.2.3 Regulatory Guide 1.68, Rev. 2, Initial Test Proarams for hater-Cooled Nuclear Power Plants 2.1.2.4 Requlatory Guide 1.27, Rev. 2, Ultimate Heat Sink for Nuclear Power Plants 2.1.2.5 American Institute of Chemical Engineers (AIChE), Equipment
'Cesting Procedure for Air-Cooled Heat Fxchangers, Auqust 26, 1978 2
Startup Knteurated 1'est S17-TP-250 Unit Waterford 3 Date 6-11-82
~) 1 tima te neat Sin@. Vest Revision Draft 2 2.1.2.6 APT Standard 661, Air-Cooled Heat Exchangers for General
>efinery Servf,c s, Second Edition, January 197U 2.1.2.7 Coolinn Tower institute Standard ATC-105, February 1975 2.1.2.8 AS;;E Pl'C-11, Fan Testing Procedure (draft copy for informa-t i on only), December 1981 2.1.2.9 AS!~E PTC-18.1, Rev. (LATER), Pumo Turbine Testing Procedure, dated 1978 2.1.2.10 waterford SES Unit t!o. 3 Response to ilRC Questions 371.15 and 371.09 2.1.2.11 waterford SES Unit i~o. 3 Safety Evaluation Report, Section
- 2. ~. 5, llul<EG 0787 2.1.2.12 :waterford SES Unit '!o. 3 Safety Evaluation Report, Section 9.2.5, HUREG 0781 2.2 Purchase Orders 2.2.1 HY-403528, Supplement 13, 09/26/78, i4iechanical Draft Cooling Towers and Accessories 2 2.2 ."iY-403479< Supolement 0, Forced Draft Dry Cooling Towers 2.3 Design Documents 2.3.1 Flow Diagrams 2.3.1.1 LOU-1564-G-160, Sh. 1, Rev. 12,'omponent Closed Cooling water System 2.3.1.2
~ ~ LOU-1564-G-160, Sh. 2, Rev.~ 9, Component Closed Cooling Water System
Startup Intearated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 2 ~ 3 ~ 2 Llectrical One-Line Diagrams - NA
- 2. 3. 3 Control ~ i ring Diagrams, L()(l-1564-(3-424 2.3.3.1 Sh. 7n(S, Rev. 5, Yet Tower A Fan No. 1 2.3.3.2 Sn. 762S, Rev. 4, Yet Tower A Fan No. 2 2.3.3.3 Sh. 763S, Bev. 4, '~et Tower A Fan No. 3 2 .3.3 4 Sh. 7645, Rev. 4, Net Tower A Fan No. 4 2.3.3.5
) 2.3.3.6 Sh Sh
~ 765Sg Rev. 5, '~!et Tower 7665, Rev. 4, bet Tower A
A Fan No.
Fan Vo.
5 6
2.3.3.7 Sh. 767S, Rev. 4, wet Tower A Fan No. 7 2.3.3.8 Sh. 768S, Rev. 7, riet Tower A Fan No. 8 2.3.3.9 Sh. 770S, Rev. 2, Cooling Tower A Notor Space Heaters 2.3.3.10 Sh. 777, Rev. 4, bet Tower A Fans No. 1 to No. 5 Vibration Alarms 2.3.3.11 Sh. 778, Rev. 4, '4et Tower A Fans No. 6 to No. 8 and 0 Fans
((o. 1 and No. 2 Vibration Alarms 2.3.3.12 Sh. 779, Bev. 4, Wet Tower 8 Fans No. 3 to No. 8 Vibration Alarms 2.3.3.13 Sh. 811S, Rev. 4, Met Tower 8 Fan No. 1 2.3.3.14 Sn. 812S, Rev. 4, let Tower 8 Fan No. 2 e 2.3.3.15 2.3.3.16 Sh. 813S, Rev. 4, ~!et Tower Sn. 814S, Rev. 4, ~iet Tower 8 Fan 8
No.
Fan No. 4 3
Startup Integrated Test SIT-TP-250 Unit tvater ford 3 Date 6-11-82 Ultimate Heat Sink Test Revisi.on Draft 2 2.3.3.17 Sh. 815S, Rev. 4, ~Jet To~er >3 Fan No. 5 2.3.3.18 Sh. 816S, Rev. 4, set To-.ver l3 Fan bio. 6 2.3.3.19 Sh. 817S, Rev. 4, i<et Tower 8 Fan,'>o. 7 2.3.3.20 Sh. 818S< Rev. 5, wet Tower S Fan Mo. 8 2.3.3.21 Sh. 820S, Rev. 2, Cooling Touer 8 Motor Space Heaters 2.3.3.22 Sh. 2941, Rev. 6, Transfer Switch Dev. Aux. Panel 1 2.3.3.23 Sn. 239lS, Rev. 3, Sequencer B, Sh. I 2.3.3.24 Sh. 2942, Rev. 7, Transfer Switch Dev. Aux. Panel 2 2.3.3.25 Sh. 731S, Rev. 5, Dry Tower A Fan Ho. 1 2.3.3.26 Sh. 732S, Rev. 5, Dry Tower A Fan wo. 2 2.3.3.27 Sh. 733S, Rev. 5, Dry Tower A Fan tJo. 3 2.3.3.28 Sh. 734S, Pev. 5, Dry Tower A Fan No. 4 2.3.3.29 Sh. 735S, Rev. 5, Dry Tower A Fan Ho. 5 2.3.3.30 Sh. 736S, Rev. 6, Dry Tower A Fan No. 6 2.3.3.31 Sh. 737S, Rev. 5, Dry Tower A Fan ho. 7 2.3.3.32 Sn. 738S, Rev. 5, Dry Tower A Fan Ho. 8 2.3.3.33 Sh. 739S, Rev. 5, Dry Tower A Fan No. 9 2.3.3.34 Sh. 740S, Rev. 6, Dry Tower A Fan No. 10 2 ' '.35 Sh. 741S, Rev. 5, Dry Tower A Fan No. 11.
2.3.3.36 Sh. 742S, Rev. 5, Dry Tower A Fan No. 12
Startuo Inteqrated Test SIT-TP-250 Unit Materford 3 Date 6>>11-82 Ultimate Hereat Sinl< Test Revision Draft 2 2.3.3.37 Sh. 743S, Rev. 5, Dry Tower A Fan No. 13 2.3.3.38 Sh. 7448, Rev. 5, Dry Tower A Fan Wo. 14 2.3.3.39 Sh. 745S, Rev. 5, Ory Tower A Fan b,'o. 15 2.3.3.40 Sh. 7 i8, Rev. 3, Dry Tower" A Computer Inputs 2.3.3.41 Sh. 781S, Rev. 4, Dry Tower B Fan No. 1 2.3.3.42 Sh. 782S, Rev. 5, Ory Tower 6 Fan No. 2 2.3.3.43 Sh. 783S, Rev. 4, Ory Tower 8 Fan No. 3 2.3.3.44 Sh. 784S, Rev. 5, Dry Tower B Fan t!o. 4 2.3.3.45 Sh. 7858, Rev. 4, Dry Tower B Fan No. 5-2.3.3.4o Sh. 786S, Rev. 4, Dry Tower B Fan No. 6 2.3.3.47 Sh. 787S, Rev. 4, Dry Tower B Fan No. 7 2.3.3.48 Sh. 7885, Rev. 4, Dry Tower B Fan No. 8 2.3 3.49 Sh. 789S, Rev. 4, Ory Tower 8 Fan No. 9 2.3.3;50 Sh. 790S, Rev. 4, Ory Tower B Fan No. 10 2.3.3.51 Sh. 791S, Rev. 4, Dry Tower B.Fan Ho. 21 2.3.3.52 Sh. 792S, Rev. 5, Dry Tower B Fan Ho. 12 2.3.3.53 Sh. 793S, Rev. 4, Dry Tower B Fan No. 13 2.3.3.54 Sh. 794S, Rev. 4, Dry Tower 8 Fan No. 14 2.3.3.55 Sh. 795S, Rev. 7, Ory Tower 8 Fan No. 15 2.3.3.56 Sh. 798, Rev. 2, Ory Tower B Computer Inputs
Startup Entearated 'Fest SlT-TP-250 Unit waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 2.3.3.57 Sh. 77l,, Rev ~ Dry 'Foyer A Fans I to 5 Vibration Alarms 2.3.3.58 Sh. 772, Rev ~ 5 g Dry Tower A Fans 6 to 10 Vibration Alarms 2 '.3.59 Sh. 77'3g Rev ~ 4 g Dry Foyer A Fans 11 to 15 Vibration Alarms 2.3.3.60 Sh. 774, Rev. 4, Dry Tower Ei Fans 1 to 5 Vibration Alarms 2.3.3.61 Sh. 775, Rev. 4, Dry Tower f'ans 6 to 10 Vibration Alarms 2.3.3.62 Sh 776, Rev ~ 4~ Dry Tower 8 Fans 11 to 15 Vibration Alarms 2.3.3.u3 Sh. 715S, Rev. 5, Component Cooling lI ater System Instrumentation, Sheet 2.3.3.64 Sh. /16S, Bev. 6, Comoonent Cooling Mater Systen Instrumentation, Sheet 5 2.3.3.65 Sn. 2341S, Rev. 3, Sequencer A, Sheet 1 2.3.3.66 Sh. 701S, Rev. 6, CCH Pump A ffeader Isol. Valves 2.3.4 Xnstrument Schematics and f ogic Diagrams 2.3.4.1 LOU-1564-0-434, Rev. 17, Instrument List 2.3.4.1.1 LOll-1564-8-434, Sh. (LATER), General Arrangement Cooling Towers Plan 2~3~4 ~ 1 ~ 2 LOU-1564-fi"434, Sh (LATFR), General Arrangement COOling Towers Section 2.3.5 Other Design Documents - NA 2.4 Vendor Data 2.4.1 Vendor Engineering Documents
Startup Integrated Test SI'J'-.TP-250 Unit !waterford 3 Date 6-11-82 Ultimate Jfeat Sink Test Revision Draft 2 2.4.1.1 LOU-1564-3067, Rev. 0, uet Cooling Towers Proposed Layout 2.4.1.2 LOU-1564-7933, Rev. 3, wet Cooling Touer Fan Installation 2.4.1.3 LOU-1564-7934, Rev. 1, wet Coolina Tower General Arrangement Equioment focation 2.4.1.4 LOU-1564-1417, Rev. 3, Dry Cooling '1'ower General hrrangementf Section AA 2.4.1.5 f,OU-1565-1418, ReV. 3, f>ry COOling TOwer General Arrangement, Section Bb 2.4.1.6 LOU-1564-1417, Rev. 3, Dry Cooling Tower General Arrangement, Plan 2.4. 1.7 LOU-1564-1416, Rev. 7, Dry Cooling lower General Arrangement, Sections CC and DD 2.4.1.8 LOU-1564-7935, Rev. 1, !vet Coolinq Tower Plant Layout - Plan View 2.4.1.9 LOU-1564-7936, Rev. 2, Jvet Cooling Tower Plant fayout - Sec-tion AA Elevation View 2.4.1.10 LOU-1564-8632, Rev. 1, Package Cooling Tower Frame Plan Fan Deck with Connection Details 2.4.2 Vendor Manuals 2.4.2.1 LOU-5817-3957, Rev. 0, Instruction Nanual for Zurn Cooling Towers 2.4.2.2
~ ~ l.OU-5817-4340, Rev. 0, Hudson Cooling Equipment
~ Instruction l!manual
Startup Integrated Test SIT-TP-250 Unit tAaterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 2.5 Other References 2.5.1 STP-20, Rev. 2, Ooeration of Fans and Blowers 2.5.2 SAP-09, Rev. 1, Tagging 2.5.3 SFG-36-004, Rev. 0, Met and Dry Cooling Tower Fans Performance Evaluation Prerequisite-Preservice Test 2.5.0 SFG-36-002, Rev. 0, Dry Cooling Tower Fans Initial Run-In 2.5.5 S1"G-36-003, Rev. 0, Initial Run of @et Cooling Tower Fans 2.5.6 SFL-36-001, Rev. 0, Component Closed Cooling '.cater System 2.5.7 SFL-36-002, Rev. 0, Auxiliary Component Cooling water System 2.5.8 SFL-36"003, Rev. 0, Dry Cooling Towers
integrated rest: Srr-Tp->5n Unit waterford 3 Date 6-11-82 Ultimate >eat Sink Test Revision Draft 2 Reference Paraciraoh Initials 6 Date 3.0 ilCCEFZDJCE CL~LZ:"REX 3.1 Under sf mula ted 40CA conditions, the ~et and dry tower co~>>bina t ion (bo th east ano west trains) meets the f o I lowing condition., wh lie dissipating 176 v 10 fp Pg'0/hr (as determined by Attachment 8.3.1):
(1) Discharge temperatures of the wet tower, as read bv resist. ance, temperature detector (RTD) CC-7077-78AS) is C95 degrees F; and as read by RTD CC-7077-78BS is < 92 degrees F.
(a) Side A 7 2 ' '4 (b) Side 8 7 '.2 '4 (2) Auxiliary component cooling water (ACC'8) f ].ow is 5000 gpss a104.
7 ~ 2 ~ 1 ~ 17 7 '.2 '7 (3) Component cooling water (CCiv) f low is 6500 gpm 410~ ~
10
St sr tup I' tegra ted fes t SI't'-'1'P-'.?50 Uni t ...".i s -.f pr6 3 f)at'- o"li"82 Ul tiaa te Hea t Sink les t +i'v. scion Draf t 2 P.fnrence
&'aragrauh Tniti w'I . ~ Date 7 ~ 2.1 ~ 12 7.2.?.12 (4) Discharge temperature of the Component Coolinq
~Hater System (CC'r(S) heat exchanger, as read by tne temoorary R'L'D, located on the inlet to temporary feed heater, is <li5 degrees F.
7 ~ 2 ~ 1 ~ 14 wcq E'.
7 ' ' '4 hater makeup is not necessary during testing.
3.2 Under simulated normal shutdown conditions, the wet and ary tower combination (both east and west trains) meets the following conditions while dissipating 127 x 10 b Bj U/hr (as determined oy At-V tachment 8.3.2):
(1) Discharge temperature of the wet tower, as read by RTO CC 7077 78ASI is 11
Star tup integrated Test SlT-TP-250 Unit waterford 3 Date 6-11-82 Ultimate Hea t Sink Tes t Revision Draft 2 Reference Parauraph Initials 6 Date X95 degrees F; and as read by R'lD CC-7077-7RBS F
is <95 deqrees:
(a) Side 7.2.3.14 (b) Side 8 7.2.4.14 (2) ACC'rt E I ow ' s 6500 qom
~10~.
7.2.3.17 7.2.4.17 (3) CC's flow is 6500 gpm 7-2-3 '2 7.2 '.12 (4) Discharge temperature of tne CCATS heat exchanger, as read by the temporary RTD, located on the inlet to the temporary feed neater, is 4115 degrees F.
(a) Side 7.2.3.14 (b) Side B 7.2.4.14 3.3 Under simulated shutdown 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after reactor trip (tornado missile analysis),
the wet and dry tower combination (both east and 12
lan 1 c ':>
ter f.ord 3 Date f)-ii-82 Revlsxon r~ t
~ c 1 ~ 2~ 1 i 1 a 1 s s Da e
'~est trains) ">r".- "~
following cond r '.ons dissipating 91. 5 x 10 V
(as determine1 in Att.-<chvent.
E<.2 '):
(1) Pischar i t.operator of tne we't roi'.jnr q as eapr by P'PD CC-1077-7.~~, is K')5 degrees F; an,'s read oy R Ci -CC-7 ~: '-7'...".:
~
is <<5 7.2 ' '4 7.2.6.14 (2) ACCll flow is 5000 cpm xi0~ ~
7.2.5.17 7.2.6.17 (3) CC'A f low is 6500 @pm 410't.
7.2.5.12 7.2.6.12 (4) Discharge temperature of the CCwS heat exchanger, as read by the temporary RTD located on-. the inlet to the temporary f eed 13
Startup Inte ~rated 1'est SIT-TP-250 Unit '.waterford 3 Date 6-11-82 Ultimate f/eat Sink Test Revision Draft 2 Reference Paragraph Initials 4 Date neater is <120 degrees F.
7.2.5.14 7.2.6.14 (5) The 2-hour temperature, as read by BTD TE-CC"7077-AS( is <105 degrees F.
A) O~l
~Aater makeup during testing is not necessary.
3.4 The 'r.'et Cooling Tower is guaranteed to perform to the design conditions soecified below:
Reference 4crideui.. Barograph, Jaihials 8 Data (1) Total water quantity cooled, gpm (410%) 5000 (LATER)
(2) Total cooling duty, 10 BTU/hr 67.5 (LATER)
(3) Cooling range, deg F <27 (LATER)
(4) Tower inlet design
- "up tntegr=.ted lest SfT-TP-250 Unit waterford 3 Date 6-11>>82
- ~ear sink Test Revision Draft 2 Reference hccidaah Baraaxaph Initials E Apt j,'uin Dahn'(
temp..rature, ried F (LATER)
(5) Approach to above, (LATER)
(6) Temperature of '<<ater enterina tower, Jeg
<119 (LATER)
(7) Temperature of .vater leaving tower,:]en
) F <92 (LATER)
Startup Xnteqrated Test SlT-TP-250 tJnit Naterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 4.1 Test Instrumentation 4.1.1 Inaicating Equipment Calibration HRTE or Verification Serial. Ho Zairials a Oaie 4.1.1.1 <;ill ')odel 27101 propeller anemometer (4), or
(, equi.valent 4.1. 1..2 R.!<. 'Young !'odel 12301/12101 microvane and cup anemometer (3), or equivalent 4.1.1.3 Climatronic electronic weather station (1),
optional 4.1.1.4 inclined manometer (2),
airflow (optional) 16
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Calibration t<GTE or verification Sazial Ha Initials L Oaken 4.1.1.5 U-tube manometer (I),
20-inch, '~ater flow 4.1.i.6 Platinum RTO, ESC-PTS-80-A (60), or equivalent 17
Startup integrated Test SET-TP-25G Unit Waterford 3 Da te 6-11-82 Ultimate heat Sink Test Pevision Draft 2 Calibration
- h~TE or veri.fication Serial Jo Loiter.a1s ~ Oaha 18
Startup Integrated Test SIT-TP-2SO Unit Mater f oral 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Calibration METE or Yerification Serial Ua Iaifia3.s 5 Date 4.1. 1.7 SGJ psychrometer (22), or equivalent 19
Startup l'ntearated Test SIT-TP-250 Unit 'Hater f ord 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Calibration HETK or Verification Sa~ial >>a I.ail.ia3.a F Dar.e 4.1.1.8 Fluke '<odel 80228 ammeter/voltmeter (1), or equivalent 4.1.1.9 Environmental Svstems Corporation (ESC) P7S-80A Temperature Acquisition System (2) 20
Star tup integrated Test S? >-'!'P-ib<) "nit waterford 3 s) 3t.~ 6-11-82
<Jltimate '4eat Sink Test Revision [)raft 2 Calibration
!KTE o~ Verification Soria3. 2" o Zo,itia3.s 6 Daha 4.1.1.10 Infrared thermometer (1),
LAYER gor effuiva lent 4.2 Special Equipment 4.2.1 Simplex Flat: rod pitot tube (1) 4.2.2
~ ~ 150,0t)0 lb/hr package ooiler (1), 3GO psig operating pressure 4.3 Additional Test Equipment 4.3.1 (ist any additional equipment used oelow and in the Chronological loq, Attacnment 8.4.1, as it is used. Enter "NA" if serial numbers or calibrations are not applicable for a particular piece of equipment.
Calibration NOTTE or Verification Qascriohioo Saria1 L'o loifials 6, Qara 21
Startup Integrated Test SIT-TP-250 Unit "'later for". 3 Date 6"11-82 Ultimate Heat Sink Test Revision lrrat t 2 5.0 BRECc~UZIQUS hL'," ZnZ'5 5.1 Precautions 5.1.1 All personnel must be outside the wet tower before a fan assembly is put into service.
5.1.2 Check the fan blades to ensure that they are installed at or below the proper angle, in accordance <<ith the manufacturer's recommendations. All blades on a single fan assembly must be set at the same blade angle.
5.1.3 If excessive vibration is observed, the wet tower fan assembly shall be turned off immediately and the cause of the vibration shall be determined and corrected.
5.1.4 To prevent overheating, the vibration switch reset coil should not be energized for more than 3 minutes. If this condition exists, the coil must be deenergized for 10 minutes before reenergization.
5.1.5 Do not exceed tne full-load amperage rating of the wet and dry towers motors during fan operation.
(1) 'Bet Tower Fans: 39.5 amps (2) Dry Tower Fans: 48.0 amps fast speed 18.0 amps slow spec 5.1.6 As the dry tower gear reducer unit is brought up to speed, it should be monitored constantly for unusual sounds, excessive vibration, excessive heat or oil leakage. If any of these conditions develops, the unit should be shut down immediately, and the cause determined and corrected. Operating temperature 22
Startup Integrated Test SIT-TP-250 Unit t~ater f ord 3 Date 6-ii-S2 Ultimate Heat Sink Test Revision Oraft 2 of the unit at the hottest point should not exceed iSO degrees F as read by h,
infrared thermometer.
.5.1 ~ 7 All personnel must be outside the tower before a fan assembly is put into operation, ~ith the exception of the personnel necessary to monitor fan/qearbox operation and take velocity profiles. <<onitoring personnel shall be equipped with safety harnesses (belts) to prevent the possibility of coming in contact with the blades.
5 ~ 1 ~ S Operation of the two-speed fans associated with the dry towers requires a minimum of a 30-second delay when switching from full speed to half speed.
5.1.9 All oersonnel involved in electrical measurements, lead lifting, or $ u~per placement shall be familiar with all necessary safety precautions.
S.l.i0 Personnel involved in testing in high-noise areas shall be supplied with adequate ear protection.
5.1.11 Ho fewer than two individuals (one of whom will be in constant communication <<ith the Control Room) shall be allowed entry inside the wet towers during water loading.
5.1. 12 ~then using CC'a Pump A/8 instead of CCW Pump A or CC'A Pump B, the following applies:
4 Instead of CCiY Pump A, racgout CCM Pump A breaker; and manually align the 3AB3S bus to the 3A3g bus to ensure channel separation.
(2) Instead of CCN Pump 8, rack ut CCr! Pump B breaker; and manually align the 3AB3S bus to the 3B3S bus to ensure channel separation.
23
,"-.tartar inta.,rated Test SIT-TP-250 (/nit Waterford 3 Date 6-11-82
~:lcimate Beat Sink Test Revision Draft 2 5 ~ 2 iv' 't e s 5.2.1 Communicati,ons snail be established between all parties involved witn the test tn ensure coordination and consistency in testina.
5.2.2 The ~,et coolinu tobers shall be cleaned before the fans are started to prevent having foreign objects entrained in the airstream.
5.2.3 lhe dry COOling tOwerS Shall be Cleaned priOr tO Operating the kans to prevent having any foreign objects entrained in the
(, 5.2.4 airs tream.
The order of testing, as outlined in section 7.0, may oe cnanged at the discretion of tt e Startup Engineer.
5.2.5 The test oersonneL responsible for signing their initials to-certify data shall complete Attachment 8.4.2, Test Personnel ID Sheet, by printing tneir names and signing their initials.
5.2.6 All analyses snould incorporate pre- and post-test calibration data.
5.2.7 A Chronological bog, Attachment 8.4.1, shall be kept of all significant events rhat occur during the performance of. this test.
Star tup Integrate < Test S[7 I. 25</ ~,- ew ~
Date '~-11-82 Ultimate . e t >ink Test Revi,s~'-
Xnit Jel - 's Date 6.1 Data fro~ Reference 2.5.4, SFG-3o-002, Dry Cooling Tower Fans Initial Run-In, has been reviewed.
R-LPL/SFG36002<NOb!E40010/05/81 6.2 Data from Reference 2.5.5, SFG-36-003, Initial Run of Yet Cooling Tower Fans, has been reviewed.
R-LPL/SFG36003~l'(OKE+0003/04/80 6.3 Data from Reference 2.5.3, SFG-36-004, bet and Dry Cooling Tower Fans Performance Evaluation, has been reviewed.
R-LPL/SFG36004'4HQiUE<0000/00/00 6.4 Data from Reference 2.5.6, SFL"36-00ig Component Closed Cooling iiater System, has been reviewed.
R-LPL/SFL360014t)ONE>0012/03/81 6.5 Data from Reference 2.5.7, SFL-36-002, Aux-iliary Component Cooling ilater System, has been reviewed.
Startup '[ntegrated Tesr SI')'-'CP-250 Unit ".iaterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 6, Date R-LPL/SFL36002>")0'9V+0006/10/81 6.6 Data from Reference 2 5 'g SFL 36 003~ Dry Cooling 'I'owers, has been reviewed.
R-l PL/SFL36003:tel/OiVE40010/26/82 6.7 All wet tower nozzles have been replaced and properly oriented.
6.8 All doorways, hatches, and penetrations between wet and dry tower sections and the dry tower Fuel Handling Suilding are closed or in "normal" operating positions.
6.9 Check tube bundle cleanliness on dry towers before testing begins to evaluate the need for mechanical or chemical cleaning. Verify that tube bundles are clean for this test.
6.10 Ensure that the dry towers are vented to remove any entrapped air pockets. (See Reference 2.5.6, SFL-36-001, Component Closed Cooling Water System.)
26
5t ',k: ',: ~: . res t .'i 5L'" fF-250 Unit waterford DaL e 3
6-11 "82 t'es t. Revis'c'n:.""',xt 2 initials S Date R Lpiiz or ~ l-'~ ~ )n 6 ~ 11 . '.: .,- ".. -..t" ror "he ",(~r d'or. ~
ry Doii~ir v4C'I l ~ ~ . 4 f.
~ ~
4 C ~ Q ah n ': v e be e n cal lbrate '.
6.12 iluc:son an l;urn nave been notif ied 7 days nrior to testin4 so that their representatives can ~itness the testing of their equi~'.ent.
6.13 Ail activities renuired to oe handled by union personnel. should oe identified and coordinateh orior to testing.
6.14 411 F'ield Chanae Requests (1CRs) and Design Change ~.'otices (DCbs) pertaining to wet and dry to'.era have been reviewed prior to test commencement.
6.15 A pretest briefing with personnel involved with this test has been performed.
6.16 Pretest Nalkdovrn 27
Startup integrated Test SET-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate l)eat Sink Test Revision Draft 2 Initials G Date Pretest y:aLKdowns of the following systems have been conducted to veriFY that the corresponding port'ons of this procedure covering testing of these systems are ready to oe performed:
aSj'Q (1) PAet Tower t
(2) '~1et Tower b (3) Dry To~er A Dry Tower 8 (5) ACCT ( iet Tower A)
(6) ACC~ ('wet 'Lower F.)
(7) CCM System 6.17 Release to Per f orm Testing I hereby authorize the test to proceed, subject to the limitat'ions as noted.
Remarks Authorized OY: D ate I SE
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 6-11>>82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date 7.1 initial Conoitions 7.1.1 Temporary t!odi fications (For All Tests) 7.1.1.1 Perform tne folLowing temporary modifications to remove automatic actua-tion of CC'd header isolation valves:
(1) f~ift caole at 788-16 and TBB-17 in Aux. Panel 1.
(23 l i:t cable at TBR-17 and TB8-6 in Aux. Panel 1.
(3) install a Jumper between TBB-17 and TBB-6 in Aux. Panel 1.
(4) Lift cable at 788-36 and TB8-33 in Aux. Panel 2.
(5) fiift cable at 788-33 and TBB-27 in Aux. Panel 2.
(6) Install a Jumper between TBB-33 and TBB-27 in Aux. Panel 2.
(7) Lift cable, at T88>>106 and TBB-107 in Aux. Panel 2.
29
Startup Integrated Test SIT-TP-250 (jni t Ha ter ford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials F Date (8) (ift cable at TBB-107 and TBB-97 in Aux. Panel 2.
(9) Install a jumper between TBB-107 and TBB-97 in Aux. Panel 2.
(10) bi.ft cable at TRB-29 and TBB-30 in Aux. Panel 1.
(11) Gift cable at TBB-30 and TBB-23 in Aux. Panel 1.
(12) Install a jumper between TBB-30 and '1'BB-23 in Aux. Panel 1.
7.1.1.2 Verify that the installation of temporary instrumentation required for data in At-tachment 8.2.1 and 8.2.~is complete.
7.1.2 Initial Boiler Startup
- 7. 1.2. 1 The boiler must be warmed up and at pressure to begin the testing described in section 7.2.
7.1.3 'Jet 1'ower - Train A (For Side A Testing) 30
Startup Integrated Test SIT-TP-250 Uni t cia ter ford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials G Date 7.1.3.1 verify that the following are available:
(1) 480V i!CC-3A315-S 7.1.3.2 At CP<<33, verify that ~iet Tower A fan control switches CS-1/761 (for fans 1 through 4) and CS-1/765 (for fans 5 through 8) are in the OFF position.
(1) Fan 1 (2) Fan (3) Fan (4) Fan 4 (5) Fan 5 (6) Fan 6 (7) Fan 7 (8) Fan 8 7.1.3.3 At Aux. Panel 1, verify that transfer switch 43-19 is in the CONTROl ROON position.
7 1 ~ 3 4 At 480V HCC-3A315-S~ compts. 10Hg 12Hg 10H 11H that the 24 11 C
r
>$ ov. ~
12Hg e,er~cn~g$ 3Hp verify 13Hg and thermal overload devices are installed.
(1) Compt. 10H (2) Compt. 12H 31
Startup Xntearated Test SIT-TP-250 ljnit t"aterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 initials 6 Date (3) Compt'. 10'.<
(4) Compt. 118 (5) Compt. ll,'4 (6) Compt.
12'7)
Compt. 13H (8) Compt. 13>I
- 7. 1.3.5 At 480V RCC-3A3 l5-S, compts. 10H, 12ll, 10M, 11H, 11<, 12!t, 13H, and 13', close the breaKers for fans A1 through A8 and verify the following:
( 1) Green indicating lights on CP-33 are ON for Bet Tower A fans 1 through 4 and 5 through 8.
(a) Fan 1 (b) Fan 2 (c) Fan 3 (d) Fan 4 (e) Fan 5 (f) Fan 6 (a) Fan 7 (h) Fan 8 (2) Red indicating lights on CP-33 are OFF for wet Tower A fans 1 through 4 and 5 through 8.
(a) Fan 1 (b) Fan 2 (c) Fan 3 32
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 6-11"82 Ul titiiate Heat Sink Tes t Revision Draft 2 Initials R Date (d) Fan 4 (e) Fan 5 (f) Fan 6 (g) Fan 7 (h) Fan 8 7.1.4 Net Tower - Train 8 (For Side A Testing)
/.1.4.1 Verify that the following are available:
(1) 480V MCC-36315"S F
7.1.4.2 At CP-33, verify that Met Tower )3 fan control switches CS-1/811 (for fans 1 through 4) and CS-1/815 (for fans 5 through 8) are in the OFF position.
(1) Fan 1 (2) Fan 2 (3) Fan 3 (4) Fan 4 (5) Fan 5 (6) Fan 6 (7) Fan 7 (8) Fan 8 7.1.4.3 At Aux. Panel 2, verify that transfer switch 43-19 is in the CONTROL ROOM position.
33
4 Startup Integrated Test SIT-TP-250 Unit ~Aa ter f ord 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials G Date 7.1.4.4 At ',80v HCC-38315-S, compt~ 10H, 12H, 10~<, 11H, that tne ll'l, (3 ~ ~ c~~~)
12M, 13H, and A
13H, 24<thermal overload devices, are verify installed.
(1) Comot. 10H (2) Comot. 12H (3) Compt. 10H (4) Compt. 11H (5) Compt limni (6) Compt. 12:~
(7) Compt. 13H (8)'ompt. 13M 7.1.4.5 At 480V HCC-3S315-S, compts. 10Hg 12Hg 10m, 11H, 11.'4, 12H, 13H, and 13H, close the breakers for fans Bi through 88 and veri f y the f ol lowing:
(1) Green indicating lights on CP-33 are OW for Net Tower 8 fans 1 through 4 and 5 through 8.
(a) Fan 1 (b) Fan 2 (c) Fan 3 (d) Fan (e) Fan 5 (f) Fan 6 (g) Fan 7 34
Star tup integr-;t~:> 'i'. st:>I'('-Tr.'-250 ()nit <<later ford 3 Date 6-11-82 Ulti:nate ~,eat. Sink Test Revision Draft 2 initials S Date
(~) Fan 8 (2) Red indicating l.iqhts on CP-33 are OFF for '~'et Xo<<er B fans 1 through 4 and 5 through 8.
(a) Fan 1
('o) Fan 2 (c) Fan 3 (d) 0'q>>
(e) Fan (f) Fan (q) Fan 7 (h) Fan 8 7.1.5 Dry Tower - 'Crain A (For Side A Testincr) 7.1.5.1 Veri fy that tne following are available:
(1) 480V !<CC-3A315-S 7.1.5.2 At CP-33, verify that the following Dry Tower A fan control switches for fans Al through A15 are in tne OFF position:
Fan i'lo. Switch No. Initials F Date (1) Ai CS-1/731 (2) A2 CS-1/732 (3) A3 CS-1/733 (4) A4 CS"1/734 (5) AS CS-1/735 (6) A6 CS-1/736 35
Startup Integrated Test SIT-TP-250 t r8o r l! ni " ~ a e -.'
8z Ultimate Heat Sink Test Revis]on Draft f'n l90 ~ Switch <jo.
(7) A7 CS"l./73i (8) A8 CS-1/738 (9) A9 CS-I/739 (10) A10 CS"1/740
(.11) A11 CS-1/741 (12) A12 CS"1/742 (13) A13 CS"1/743 (14) A14 CS-1/744 (15) A15 CS-1/745 Initials 6, Date 7.1.5.3 At Aux. Panel 1, verify that transfer switches 43-14, 43-15, 43-16, 43-17, and 43-18 are in the COHTROI. ROON position.
(1) Switch 43-14 (2) Switch 43-15 (3) Switch 43-16 (4) Switch 43-17 (5) Switch 43-18 7.1.5.4 At 48GV ">CC-3A315-S, close the followinq breakers for Dry Tower A fans Al through A15 Fan Ho. Compt. No. Initials G Date (1) A1 1F (2) A2 1'F (3) A3 36
Start.up Integrated 1'est SIT-TP-250 Unit i(aterford 3 Date 6-11"82 Ultimate Heat Sink Test Revision Draft 2 Fan ho. Compt. bio. Initial.s & Date 2H (5) 3 tg (7)
(8)
(9) 5F (10) 5bi All (12) A12 (13) A13 8F (14) All (15) A15 9F Initials & Date 7.1.5 ' At CP-33, verify the following:
(1) Green indicating lights for fans A1 tnrouah A15 are QtJ.
Q(f) Fan Al
)
(/)
C Fan A2 (7) Fan A3
()) Fan A4
((() Fan A5
'an A6 v'7 Fan A7 Fan AB (0) Fan A9 (Al) Fan A10 t-\ ~ 0 0 ' tel 'Ir ' ~ ~ p % l 'l * ~' '
p 't
r at> sl / r -.-
"1te
.-.-) ( "-ord 6-11"82 3
~ -'"( ijea t "~ "vi".ion i)raf.t 2
~ -a ~<z$ ]y 4 nate (W) 'Qll ~
t i (
\ a
(
(M) Fan A 12 (W) Fan A13 n
(&) 0 Fan 614
( IS) Fan A'~
(2) Bed indicatinq lignt$ Qpr through A15 ar ()<F.
Q( j') Fan '1
$ ('l)
C Fan A2 vi
()() Fan A3 (t ) Fan A'1 (f) Fan A5
()I) r" an h6
()) Fan A7
(/) Fan
()() ran A9
( A') Fan A10 (M) Fan A11 (M) Fan A12 (4)n Fan A 13
(~) 0 Fan A14
(&) Fan A15 7 1 6 Ory Tower - Train 8 (For Side 8 Testing) 7 '.6.1 Verify that the following are available:
480V NCC-38315-S 38
Startup Integrated Test SIT-TP-250 Unit <<'ater f ord 3 Date 6-11-82 Ul tima te Hea h
t Sink Tes t Revision Draft 2 initials 6 Date 7.1.6.2 At CP-33, verify that the follouino Dry Touer 8 fan control s'~'itches for fans )3l through R15 are in the OFF oosition:
Fan r>o. Suitch No. Enitials 6 Date (1) B.l CS-1/781 (2) 02 CS"1/782 (3) S3 CS"1/783 (4 ) F)4 CS 1/784 (5) 85 CS"1/785 (6) 66 CS-1/786 (7) 87 CS-1/787 (8) i38 CS-1/788 (9) 99 CS-1/789 (10) 610 CS-1/790 (11) 611 CS-1/791 (12) 612 CS"1/792 (13) 813 CS-1/793 (14) S14 CS-1/794 (15) 615 CS-1/795 Initials 6 Date 7.1.6.3 At Aux. Panel 2, verify that transfer suitches 43"13, 43-14, 43-15, 43-16, and 43-17 are in the COrJTROl ROOt< position.
(1) S'ui tch 43-13 (2) Suitch 43-14
0 fl~ ~ { 4r% VQ' O'I S S tar "u: i n t."ur ~ ted k'es SIl.'- T>-250 Unit waterford 3 Date 6-11-82 Ul i fit'>i ~ "a~at 'i:" ' .
Revision Draft 2 Initials G Date
'3-15 (4) S~i ten J'.-li~
S,> I tch 43-17 lit )80V '>CC-38315-S, close the following oreakers for Dry Tower 8 fans 81 through 3l.5:
Fan ~40 ~ Conpt. No. Initials & Date (1)
( ) (2) 92 (3) 83 (4) Q4 (5) 85 3 (6) 66 (7) 87 (8) 88 IA (9) 8')
(10) Hi0 (11) 811
(.i2) 812 (13) 813 (14) 814 8 t'ai (15) 815 Initials G Date I
7.1.6.5
~ ~ At CP-33, verifv the following:
(1) Green indicating lights for fans 81 through 815 are ON.
40
Startuo Integrated Test SIT-TP-250 Unit waterford 3 Date 6-11-82 U1tiinate fieat Sink Test Revision Draft 2 Initials 6 Date (a) Fan 81 (b) Fan 82 (c) Fan 83 (d) Fan 04 (e) Fan 85 (i) Fan 66 (g) Fan 87 (h) Fan 88 (i) Fan 89
(]) Fan 81O (k) Fan Bli (1) Fan 812 (m) Fan 813 (n) Fan 814 (o) Fan 815 (2) Red indicating lights for fans 81 through 815 are OFF.
(a) Fan 81.
(b) Fan 82 (c) Fan 83 (d) Fan 84 (e) Fan 85 (f) Fan 86 (g) Fan 87 (h) Fan 88 (i) Fan 89 (g) Fan 810 (k) Fan 811
Startup Integrated Test SIT.-TP-250 Unit llaterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials & Date (I) Fan 812 (m) Fan 813 (n) Fan 014 (o) Fan 815 NOTE: If CC'A Pump A/8 is lined up as Pump A, manually open valve 3CC-F1238. If CCW Pump A/8 is lined up as Pump 8, manually open valve 3CC-F122A with valve 3C-F1238 closed.
7.2 Tests 7.2.1 Simulated LOCA Test (Side A) 7.2.1.1 Verify the initial conditions set forth in steos 7.1.1, 7.1.2, 7.1.3, and 7.1.5; 044+
and verify manometers or equivalent~ for h
measuring orifice flows> are ready for service.
7.2.1.2 Verify the valve lineup of Attachment 8.4.3, Valve Lineup Table, To~er A.
NOTE: The oil level indicators provided with the CC'I< and ACCT Pumps indicate OPERATING oil level. The oil level should read HIGH when the pump is shut down and AEDIUN when the pump is operating.
Startup Integrated Test SIT-TP-250 Uni t:~ater f ord 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date CAUTION 1: I'<i".KDIATEI7 STOP THK ACC'8 PU>~P IlY A8,~
OF TH FOLf 0<<l.'0 CONDIT PONS OBSEPVED:
(1) UNUSUAL NOISE OR VIBRATION (2) PUHP BEARING TE'"PERATURK, AS BEAD FROH INSTALLED TKNPERATURK INDICATOR, EXCEEDS 180 DEGREES F (3) PU".P '40TOR 'BLINDING THERNOCQUPLY READING EXCEEDS 230 OF( KKS F (4) RATED CAPACITY OF 40 ~ 2 ALPS IS EXCEEDED CAUTION 2: DO iNOT KXCKED ACC~'/ PUMP RUNOUT CAPACITY OF 6650 GP9.
CAUTION 3: DO NOT RUN ACCT PUMPS AGAINST DEAD HEAD EXCEPT BRIEFLY TO VERIFY SHUTOFF HEAD (1 5 51 If(UTES MAXIHUN)~
7.2.1.3 Check ACCT Pump A for proper oil level.
7.2.1.4 Start ACCT'ump A by placing handswitch CS-1/752 on CP-8 to START.
7.2.1.5 Check CCH Pumo A/B for proper oil level.
Startup Integrated Test SIT-TP-250 Unit 'waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials G Date CAUTION 1: I~iMEDIATELY STOP THE CCK/ACC'8 PUHP IF ANY OF THE FOLLO',~ING CONDITIONS ~
RRs OBSJ RVED'1) fJNUSUAf !JOI SE OR VIBRATION (2) PUPiP BEARING TEMPERATURE, AS READ FROM INSTAf LEO TEMPERATURE INDICATOR, EXCEEDS 180 DEGREES F (3) PUMP MOTOR BIJ<OING THERMOCOUPI E RFADING EXCEi:DS 230 DEGREES F (4) RATED CAPACITY OF 40 ~ 2 AHPS IS EXCEEOEO CAUTION 2: DO NOT EXCEED CC8 PUJtfP RUNOUT CAPACITY OF 7500 GPH ~
CAUTION 3: THF CC'<<PU.".PS DO NOT HAVE AN INSTAf f ED RECIRCULATIOi'J LINE A>>D ARE LIMITED TO 3 MIJJUTKS '!AXIMU~f RUNNING AGAXiJST A DEAD HEAD.
7.2. 1.6 Start CCH Pump A/8 by positioning handswitcn CS-1/707 on CP-8 to START.
7.2.1.7 Slowly open CCfil Pump A/B discharge valve (3CC" 8119A8) .
Startup tntegrateJ Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials & Date CAUTION 1: I~MEDIATELY STOP (!<<'C:~ PU:-P IF ANY FOLLOWING CO~DITIOSS XS OBSERVED:
(1) UNUSUAL NOISE OR VIBRATION (2) PUl".P HEARING TEMPERATURE, AS READ FROM INSTALLED TEHPERATURE INDICATOR, EXCEEDS 180 DEGREES F (3) PU"IP '40TOR "INDING THERMOCOUPLE READING EXCEEDS 230 DEGREES F (4) RATED CAPACITY OF 40 ' ALPS 1S EXCEEDEO CAUTION 2: DO NOT EXCEED CCA PUMP RUNOUT CAPACITY OF 7500 GPYi.
CAUTION 3: THE CCH PUMPS DO NOT HAVE AN INSTALLED RECIRCULATION LINE AND ARE LIMITED TO 3 MINUTES MAXIMUM RUNNING AGAINST A DEAD 'HEAD ~
7.2.1.8 At CP-33, place the following control switches for fans Ai through A15 in the FAST position:
Fan No. Switch No Initials & Date (1) A1 CS-1/731 (2) A2 CS-1/732 45
Startup Integrated '1'est SIT-TP-250 Uni t 4ater.ord 3 Date 6-11-82 Ultimate Heat Sink Test. Revision Drait 2 Fan No. S'~itch No. Initials 6 Date (3) h3 CS-i/733 (4) A4 CS" 1/734 (5) A5 CS"1/735 (6) A6 CS-1/735 (7) A7 CS-1/737 (8) AS CS-1/738 (9) A9 CS-l/739 (10) A10 CS"1/740 (11) Aii CS-I/741 (12) A12 CS"1/742 (13) A13 CS-1/743 (14) A14 CS-1/744 (15) A15 CS-1/745 Initials ~ Date CAUTION: 'WHEN A FAN IS IN FAST SPEED i THERE -11SZ BK A 30-SECOND 'iiAIT PERIOD BEFORE THE FAN CAN BE SHIFTED To STOA SPEED. IF THIS iRODLFICATION HAS NOT BEEN AC-CO)hPf ISHED BX THE TIME THIS PROCEDURE IS PERFORMED'fiHAYS OPKN THF. SPECIFIC BREAKER I.ISTKD IN STEP 7.1.5.4 c>HENKVKR THE FAN IS IiV FAST SPEED AFTER A RAZT PERIOD, TuRd 1HE FAN SMITCH
'"VaE OFF POSITION AND RECLOSE BREAKER THEN
~
To TN6'0-SECOND x
X THE A X
SHIFT FAN Sl4ITCH TO Sli08 SPEED.
X
Startup Integrated Test SIT-TP-250 Unit waterford 3 Da te 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials F Da te 7.2.1.9 At CP-33, place Aet Tower A fan control switches CS" 1/761 and CS-1/765 in the ON position.
7.2.1.10 Ensure that the boiler has been started and is warmed up and at operating pressure and temperature.
7.2.1.11
~ ~ ~ Cut in steam to temporary heat exchanger by slowly opening the 12-inch stop-check valve located atop the temporary boiler.
7.'2.1.12 let the CCic and ACCN Systems reach thermal equilibrium. I Thi s can be determined by monitoring TE-CC-7077AS.
As this temperature reaches an asymptotic va.lue (wnen two consecutive numbers record the same reading x5 degrees F), then thermal equilibrium can be assumed.) Record these readings every 5 minutes on Attachment 8.1.4.
CAUTION: DO NOT EXCEED A CCN TEi'4PERATURE OF 160 DEGREES F AS READ BY THE RTD ON THE TEMPORARY PIPING TO THE SUCTION OF CCM PUiXP A/B
5"artup Ir~teqrat"9 Test SIT-CP-250 Unit '.waterford 3 Date 6-11-82 Ultimate !.eat Sink Test Revision Draft 2 Initials 6, Date 7.2.1.13 Using a Sin:olex p'tot tube, maKe a 10-point traverse of. the component cooling (CC'r) rvater pioe on two mutually perpendir ular di "neters. (Pitot traverse taps are located approximately 1? diarrreters downstream of orifice I ATER.) rerecord this data on Attachment 8.2. , Pitot Tube Traverse Data Table.
7.2.1.14 >onitor and record flowrate, as read from orifice plate (LATLR), on At-3 tach~nent 8.2.$ , Flow Orifice Readings.
<<on!.tor this flowrate throughout the test (recording every 5 minutes) to ensure tnat the water flowrate does not change.
7.2.1.15 Continuously monitor the temperatures stated in Attachment 8.2.1, RTD Data Ta-ble, on the PTS-80A Temperature Data System.
7.2.1.16 A platinum RTD will be located on the hand railing at the inlet to the top dry cooling to~er fans on the two end and middle columns. These RTDs will be monitored continuously and the readings
gM 14 a. va a *~ ~
Date hit~ rate ';feat Sink Test RTD Readings, every 5 minutes.
7.2.1.17 IJsing a hand-held wattmeter, measure the input power to each wet tower fan in the tower being used. Record tnis data in 5
AttaChment 8.2.$ , Fan Input pOwer Data Table, once for each test on all eight fans being used.
7.2.1.18 Using a Simplex oitot tube, make a 10-point traverse of the auxiliary component cooling water (ACCw) permanent piping on two mutually perpendicular diameters. The pitot taps are installed approximately six pipe diameters upstream of installed flow orifice FT-CC-7078AS. (The pipe traverse wilL be made once for each test, and the installed orifice plate will be monitored throughout the test to ensure that the water flowrate does not change.) Record data on Attachment 8 2 7.2.1.19
~ ~ Ensure that the following test limitations are met before continuing:
Startup Integrated 7est SIT-IP-250 Unit ',iaterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft.2 Initials & Date (1) Ambient wet-bulb temperature is between 74 6earees F and 94 degrees F, as recorded in At-tacnment 8.2. ~8 (2) Am'ent dry-bulb temperature is oetween 92 degrees F and 112 degrees F, as recorded in At-tachment 8.2. M 3
(3) Ambient wind speed is equal to or less than 10 mph, as recorded in 8.
Attachment H.2.i-d.
(4) CCW flow is between 5850 and 7150 (5) ACCw flow is between 4500 and 5500 7.2.1.20 Equally space a two-by-two matrix of wet-bulb psychrometers over the vertical inlet to each wet tower cell and record on Attachment
~~ p~~ 8.2.g, Net>~
Vo~e~
Data Table.
50
t sate? ford Vn~ 3 P-.r~ 6"11-82
"~ iS l ilk" T+8 t i,eve s ~,i" I.ra f t Initials 6 Date 7
~ 'L ~
i'~ ' 4 .<<" tr i << ~ ~ "<<~r in eacii
~no record on 7.i.'.a.22 P:.~'ce one dry- ulb psychrometer on the cat'.!alk rai.~ing at a position between
- t. ~u '~et. to~er vertical inlet faces rancor". data on Attachment 8.2.$ .
/.2.1.2'3 Pl=.c~ on~ (:ill propeller anemometer in e~c,>> . i~ ".'ow to t+e vet towers to monitor tne air velocity through the winoows durinq the test. !conitor these velocities continuously and record data 7
every 5 minutes on Attachment 8.2.g, Rc~
Anemometer Data Table.
A 7.2.1.24 >measure tne level of the wet tower cold water basin both before and after the test, to determine water losses, by (LATER).
7.2.1.25 Using pf P.<<. Young microvane and cup anemometer, or equivalent, continuously moni.tor the ambient wind speed and direction and record on Attachment
Startup integrated 1eest SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date 8.2.1~, A'.blent Conditions Data Table, every 5 minutes.
7.2.1.26 Use Attachment 8.1.3 to calculate temperature needed to satisfy the test.
7.2.1.27 Complete Attachment 8.3.1, i OCA Calculation Sheet.
7.2.1.28 Complete the valve lineup on Attachment rim 8.4 7.2.2 simuletee Loce 1eet (~Bsi< e) 7.2.2.1 Verify the initial conditions set forth in steps 7.1.1, 7.1.2, 7.1.4, and 7.1.6; and verify that manometers or equivalent~
for measuring orifice flows are ready for
~
service.
7.2.2.2 Verify the valve lineup of Attachment 8.4.4, Valve bineup Table, Tower B.
NOTE: The oil level indicators orovided with the CCb and ACCN Pumps indicate OPERATING oil level. The oil level should read HIGH when 52
Startup lnteqrated Test SIT-TP-250 Unit Materford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials & Date the pump is shut down and !<EDIUi~> when the pump is operating.
CAUTION 1: IVIED IATELY. STOP THE ACCT PUhlP IF ANY OF THE FOLLOWING CONDITIONS KS AR~
OBSERVED:
( 1) UNUSUAL NOISE OR VIBRATION (2) PUh>P f3EARING TEMPERATURE AS READ FROR INSTALLED TEMPERATURE
(!~iDICATOR~ EXCEEDS 180 DFGREES F (3) PU'iP l1UTOR Al tJDIthG THERMOCOUPLE READIllG EXCEEDS 230 DEGEES F (4) RATED CAPACITY OF 40 2 AMPS IS EXCFEDED CAUTIOa 2: DC WOT EXCFED ACCW PU!;P RUNOUT CAPACITY OF 6650 GPN ~
CA UTI OiV 3 00 NOT RU!9 A CC i! PUi~1PS AGAI!lST DEAD HEAD EXCEPT BRIEFLY TO VERIFY SHUTOFF HEAD ( 1 5 'MINUTES HAXIHU!4) ~
7.2.2.3 Check ACCT Pump 0 for proper oil level.
7.2.2.4 Start ACCu Pump 8 by placing handswitch CS-1/752 on Cp-8 to START.
53
Startup Integrated Test SXT-TP-250 Unit 4'aterford 3 Date 6-11-82 Ul tima te f!ea t Sink Test Revision Draft 2 Initials & Date 7.2.2.5 Check CC'~ Pu.-.o A/6 for prooer oil level.
CAUTION 1: 1'!lHEDI ATEf Y STOP THE CCÃ/ACCT PUMP IF At~Y OF THE Fnr,f OHXNG CONDITIONS r8-'AR~
OBSKRVKl):
(1) UNUSUAL NOISE OR VIBRATION (2) PUl':P BEARING TEHPKRATURE, AS REAl)
FROt'i INSTALLED TEMPERATURE INDXCATORi EXCEEDS 180 DEGREES F (3) PUPP MOTOR i".INDING THKRHOCOUPLE READItG EXCEEDS 230 DEGREES F (4) RATED CAPACITY OF 40.2 ANPS IS EXCEEDED CAUTION 2: DO NOT KXCKED CCÃ PUHP RUNOUT CAPACITY OF 7500 GPSS CAUTION 3: THE CCN PUMPS DO NOT HAVE AN INSTALLED RECIRCULATION LINE AND ARE f,Ih1ITED TO 3 N I N U T KS b'i AX I MUM R U N ti I tt G AG A I tk S T A DEAD f~EAn.
7.2.2.6 Start CC;< Pump A/8 by positioning handswitch CS-1/707 on CP-8 to START.
7.2.2.7
~ ~ Sl.owly open CCN Pump A/8 discharge valve (3CC-B119AB).
Startup Integrated Test SIT-TP-250 Unit Waterford 3 I Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials L Date CAUTION 1: INkEDIATFLY STOP THK CCW PUNP IF ANY OF r>>E FOLLOWING CONDITIONS r6 RAG OBSERVED:
(1) UNUSUAL NOISE OR VIBRATlON (2) PUMP BEARING TEMPERATURE q AS READ FROM I,"ISTALLED TEMPERATURE
() (3)
INDICATOR, EXCKFDS 180 DEGREFS F PUMP MOTOR WINDING THKRHOCOUPLE READING EXCEEDS 230 DEGREES F (4) RATED CAPACITY OF 40 2 AHPS IS KXCKEDKD CAUTlON 2: DO NOT EXCEED CCW PUMP RUNOUT CAPACITY OF 7500 GPN.
CAUTION 3 THE CCW PUNPS DO NOT HAVE AiN INSTALLED RECIRCULATION LINE AND ARE I IillTED TO 3 'MINUTES RAXIHU'I RUNNING AGAINST A DEAD HEAD ~
7.2.2.8 At CP-33, place the following control s~itches for fans Bl through B15 in the FAST position:
Fan No. Switch No. Initials & Date (1) Bi CS-1/781 55
Startup Intearated Test SET-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Pevision Draft 2 Fan No. Sw.iten No. Initials & Date (2) B2 CS-1/792 (3) &3 CS-1/783 (4) B@ CS"1/784 (5) 85 CS-1/785 (6) 66 CS-1/786 (7) 87 CS-1/787 (8) 88 CS-1/788 (9) B9 CS-1/789 (10) 810 CS-1/790
([]) 811 CS-1/791 (12) B12 CS-1/792 (13) BJ3 CS-1/793 (14) 614 CS-1/794 (15) 815 CS-1/795 Initials & Date CAUTION WHEN A FAN IS IN FAST SPEED, THERE MIISZ BE A 30 SECOND WAIT PERIOD BEFORE THE FAN CAN BE SHIFTED TO SLOW SPEED ~ IF THIS MODIFICATION HAS NOT BEEN AC-COMPLISHED BY THE TIME THIS PROCEDURE IS PERFORMED, ALWAYS OPEN THE SPECIFIC BREAKER LLSTED IN STEP 7 1 6 ' WHENEVER THE FAN IS lN FAST SPEED ~ AFTER A 30-SECOND WAIT PERIOD, TURN THF. FAN SWITCH TO THE OFF POSITIONS~ AND RECLOSE BREAKER~THEN SHIFT THE FAN SWITCH TO SLOW SPEED ~
56
Startup Integrated Test SIT-TP-250 Unit waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 initials E Date 7.2.2.9 At CP-33, place 'let Tower 8 fan control switcnes CS>>1/811 and CS-1/815 in the O.'i position.
7.2.2.10 Ensure that the ooiler has been started and is warmed up and at operating pressure and temperature.
7.2.2.11
~ Cut in steam to the temporary heat ex-changer by slowly opening the 12"inch stop-check valve/ located atop the temporary boiler. Regulate temperature per Attachment 8. 1.3.
7.2.2.12 let the CCW and ACCT Systems reach thermal equilibrium. (This can be determined by monitoring TE-CC-7077BS.
As this temperature reaches an asymptotic value (when two consecutive numbers record the same reading k5 degrees F), then thermal equilibrium can be assumed.] Record these readings every 5 minutes on Attachment 8. 1.4.
CAUTION: DG NOT EXCEED A CC'8 TEhtPF'.RATURE OF'60 DEGREES F AS READ BY THE RTD OH THE 57
Startup integrated Test SIT-TP-250 Unit Haterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials G Date TL'4PORA R Y P I PI>lG TO THE SUCTION OF CC'4 PV'"P A/8.
- 7. 2. 2. 13 Using a Simp 1 ex pi to t tube, make a 10-point traverse of the component coolinq water pipe on two mutually perpendicular diameters. (Pitot traverse taps are located approximately 12 diameters downstream of orifice AC'ATER.)/Record this data on Attachment 8.2.2.
7.2.2.14 t4onitor and record flowrate, as read from orifice plate (LATER), on At-tachment 8.2.3. Monitor this flowrate throughout the test (recording every 5 minutes) to ensure that the water flowrate does not change.
7.2.2.15 Set up (if not already setup), and continuously monitor the temperatures stated in Attachment 8.2.1 on the PTS-80A Temperature Data System.
7.2.2.16 A platinum RTD will be located on the hand railing at the inlet to the top dry cooling tower fan on the two end and middle columns. These RTDs will be 58
Startup Intea.- ic.eo I'est S 7-Ti-'-250 Uni t water f ord 3 Date i"11"S2 ULti bate i!eat; Sink rest ~cevision Draft 2 Initials F Date monitored cont. inuous y and the readings 1
recorded on Attacnment 8.2.1 every 5 minutes.
7.2.2.17 Using a hand-held wattmeter, measure the input power to each wet tower fan in the tower being used. Record this data in i~ttachment 8.2.5 once for each test on all eignt fans ne1nq used.
7.2.2.l8 Using a Simplex pi tot tube, maice a 10-point traverse of the ACCT permanent piping on two mutually perpendicular diameters. The oitot taps are installed approximately six pipe diameters upstream of installed flow orifice FT-CC-70780S. (The oipe traverse will be made once for each test, and the installed orifice olate will be monitoreo througnout the test to ensure that the water flowrate does not change.) Record data on Attachment 8 '.2 ~
7.2.2.19 Ensure that tne following test limitations are met before continuing:
59
Startuo Integrated Test SIT-TP-250 Unit '.iaterford 3 Dd f.H Ultimate Heat Sink Test Revisios Or~f t 2
'nit lais ~ date (1):~moient wet-bu],o temperat-ure is between 7~1 degrees F and 94 degrees F, as recorded on At-tachment 8..2 '.
(2) Ambient dry-bulb temperature is between 92 degrees F and 112 degrees F, as recorded on At-tachment 8.2.8.
(, (3) Ambient wind speed is equal to or less than 10 mph, as recorded on Attachment 8.2.8.
(4) CCw flow is between 5850 and 7150 gpm ~
(5) ACCT flow is between 4500 and 5500 qpm.
7.2.2.20 Equally space a two-by-two matrix of wet-bulb psychrometers over the vertical inlet to each wet tower cell and record on Attachment 8.2.6.
7 ' '.21 Place one wet-bulb psychrometer in each window to the wet towers and record on Attachment 8.2.6.
60
0 Startup Intearated Test SIT-I'P-250 Unit waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date 7.?.2.22 PlaCe One dry-bulb pSyCnrnmeter On the catwal~ railina at a position between the t'>>o wet touer vertical inlet faces and record data on Attachroent 8.2.6.
7.2.2.23 Place one Gill prooeller anemometer in each window to the wet towers to monitor the air velocity throuah the windows during the test. ,<tonitor these velocities continuously and record data every 5 minutes on Attachment 8.2.7.
7.2.2.24 Measure the level of the wet tower cold water basin both before and after the test, to determine water losses, by (LATER) ~
7.2 '.25 Using p R.N. Young microvane and cup anemometer, or equivalent, continuously monitor the ambient wind speed and direction and record on Attachroent 0.2.8 every 5 minutes.
61
'.. 1,ma te He~'; D.~ te
"- t e r f. o r d Revision Draft 2
'als 6-11-82 c
3 7.2.2.20 '."!.;r>>ment 8.'..., r ~
temperature needed "r ."-"". >-. - -.'. t Sbf+ ~ h S.
7.2.2.27 Comole! ~ Attachme>>...3.1, i;.'CA Calculat ion Sheet.
/.2.2.28 Complete the valve l'>>eup cn Attachment
- 8. a.7.
7.2. 3 Simulated Normsa 1 Snu tdo ~ n Tn.= t .'1 ~e '. )
7.2.3.1 Verify the initial conditions set forth in steps 7.1.1, 7.1.2, 7.1.3 and 7.1.5; and verify that nanometers or the equivalent, used for measurinq orifice flows, are ready for service.
7.2.3.2 Verify the valve lineup of. Attachment 8 4.3.
F NOTE: The oil level indicators provided with the CCW and ACC>>'umps indicate OPERATING oil level. The oil level should read HIGH when the pumo is shut down andHEDIUN when the pump is operating.
62
Startiip [ntegrated Test STT-TP-250 Unit ~~ater f ora 3 Date 6-11"82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date CAUTION 1: IllblEDlA!'ELY STOP ZH": ACC'< PU" P IF A'! Y ARs OF THE FOLLO~I"!G COt! DITIONS OBSFRVED:
( 1) U>IUSUAL HOISE OR V I BRATIO'!
(2) PV~~!P BEARING TEMPERATURE, AS READ FROM !INSTALLED TEMPERATURE I!'!DICTATOR EXCEEDS 180 DEGPEES F (3) PU~!P '<ODOR 'AINDItiG THERROCOUPLE READ Il'G KXCEFDS 230 DEGEES F (4) RA'!'KD CAPACITY OF 40 ~ 2 ALPS IS EXCEEOFD CAUTION 2: DQ "!OT EXCEED ACC'8 PUMP RU'!OUT CAPACITY OF 6650 GP'i CAUTION 3: DO NOT RUt! ACCT PUMPS AGAINST DEAD HEAD EXCEPT BRIEFLY TO YFRIFY SHUTOFF HEAD (1.5 4IIHUTES HAXIHUH).
7.2.2.3 Check ACCT Pump A for proper oil level.
7.2.3.4 Start ACC'I Pump A by placing handsviitch CS-1/752 on CP-8 to START.
7.2.3.5
~ ~ Check CC! Pump A/B for proper oil level.
St=.roun Znt grated T~st S1T-t'P-250 Unit waterford 3 Date 6-11-82
[j i ~ i - <<g ij~ ~: f i'l'pr pate Revision Draft 2 Initials 6 Date
,' ~ ~ .'.; FL Y STOP THE CC",(/ACCT PU'tP IF
> "I ".ia>i."", FO( LO "ii,'ii" COPDITIONS
( 1 ) UNUSUAL NOISE OR V I BRAT IOlJ (2) PU IP BEARI<G TEMPERATURE~ AS READ FROM I~JSTALLED TEMPERATURE INDICATOR, EXCEEDS 180 DEGREES F (3) PUHP 'l67OR wIi401' T:fERHOCOUPLF READI 1G EXCFi DS 230 DEGREES F (4 ) RA~ED ( APACITY OF '$0 ~ 2 AHPS IS
< XCEEDED CAUTION 2: DO NOT EXCEFD CCd PU" P RUi'JOUT CAPSiCITY Oi: 7 500 GP,'<.
CAUTIO I 3. TH 'ClJ PUMPS 00 NOT MAVK AN INSTALLED RECIRCULATION LI!JE AAD fiRE LIMITED TO 3 RIHUTES <lAXI"!U."i RUHNII'lG AGAINST A DEAD HEAD 7.2.3.6 Start CCii Pump A/9 by positioning hanciswitch CS-1/707 on CP-8 to START.
7.2.3.7 Slowly open CC;J Pump A/8 discharge valve (3CC"B119AB).
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date '-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date CAUTIO.'t l: T,"'lFD (ATELY STOP THE CCH PUMP It ANY GF THF; FOLLOWING CONDITIONS IS OBSERVED:
(1) UNUSUAL tlOISE OR VIBRATION (2) PUtlP BEARIttG TEMPFRATUREq AS READ FROM INSTAf LED TEt! PERATURE LNDICATOR, EXCEEDS 180 DEGREES F (3) PUMP 'lOTUR i INDING THERMOCOUPLE READING EXCEED'30 DEGREES F (4) RAlED CAPACITY OF 40.2 ALPS IS EXCEEDED CAUTION 2: DO NOT EXCEED CCw PUtlP RUNOUT CAPACITY OF 7500 GPM ~
CAUT'EON 3: TllE CCÃ PUtlPS DO NOT HAVE AN INSTALLED RECIRCULATION LI')E AND ARE LItlITED TO 3 i~< INUTES MAX'IHU.l RUWNItJG AGAINST A DEAD HEAD.
7-2 3.8 At CP"33, place the followinq control switches for fans hl through A15 in the FAST position:
Fan No. Switch tlo, Initials 6 Date (1) A1 CS"1/731 (2) A2 CS-1/732 e5
Startup Intearated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test5'~flitch Revision Draft 2 Fan No. No. Initials & Date (3) A3 CS-1/733 (4) A4 CS-1/734 (5) A5 CS-1/735 (6) A6 CS-1/736 (7) A7 CS"1/737 (8) AB CS-1/738 (9) A9 CS-1/739 (10) Ain CS-1/740 (11) Ail CS-1/741 (12) A12 CS-1/742 (13) A13 CS-1/743 (14) 414 CS"1/744 (15) A15 CS-1/745 Initials E Date CAUTION: WHEN A FAN IS IN FAST SPEEDp THERE RLJSX BE A 30-SKCOND WAIT PERIOD BEFORE THE FAil CAN BE SHIFTED TO SLOW SPEED ~ IF THIS MODIFICATION HAS l'lOT BEEN AC-COMPLISHED BY THE TIME T11IS PROCEDURE IS PERFORl1ED, AL1'IAYS OPEN THE SPECIFIC BREAKER LISTKD IN STFP 7.1.5 ' WHENKYER THE FAN IS IN FAST SPKFD ~ AFTER A 30-SECOND WAIT PERIOD, TURN THE FAN SWITCH TO THE OFF POSITION AND RECLOSK BREAKERS THEN SHIFT THE FAN SWITCH TO SLOW SPEED.
66
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 6"11-82 Ultimate Heat Sink Test Revision Draft 2 Initials & Date 7.2.3.9 At CP-33, place "et Tower A fan control switches CS"1/761 and CS<<1/765 in the 06 position.
7.2.3.10 Ensure that the boiler has been started and is warmed up and at operating pressure and temperature.
7 '.3.11 Cut in steam to tne temporary heat ex-changer by slowly opening%2-inch stop-check valve f located atop the temporary boiler.
7.2.3.12 l.et the CCH and ACCN Systems reach thermal equilibrium. rThis can be determine by monitoringh TE-CC-7077AS.
As this temperature reaches an asymptotic value (when two consecutibe numbers record the same reading a5 degrees F), then tnermal equilibrium can be assumed.Q Record these readings A
every 5 minutes on Attachment 8.1.4.
CAUTION: DO NOT EXCEED A CC'0 TEi! PERATURK OF 160 DEGREES F AS READ 8Y THE BTD OiV THE TEMPORARY PIPING TO THE SUCTION OF CC'4 PUHP A/8 67
Startup Integrated Test SIT-TP-250 Unit waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date 7.2.3.13 Usina a Simplex pitot tube make a 10-point traverse of the component cooling water pipe on two mutually perpendicular diameters. (Pitot traverse taps are located approximately 12-diameters downstream of orifice (ATER.) Record this data on Attachment 8 2 tachmentt Pi'rom orifice plate (I ATER), on At-8.2. 3. Ronitor t his f lowr ate throughout the test (recording every 5 minutes) to ensure that the water flowrate does not change.
a <
7.2.3.15 Set up continuously monitor the temperatures stated in Attachment 8.2.1 on tne PTS>>SOA Temperature Data System.
7.2.3.16 A platinum RTD will be located on the hand railing at the inlet to the top dry cooling tower fan on the two end and middle columns. These RTDs will be monitored continuously and the readings recorded on Attachment 8.2.1 every 5 minutes.
Startup Integrated Te. t SIT-TP-250 Unit tt'aterford 3 Date 6-11-82 Ulti rate Heat Sink Test Revision Draft 2 Initials 6 Date 7.2.3.17 Using a hand-held wattmeter, measure the input power to each wet tower fan in the tower being used. Record this data in Attachment 8.2.5 once for each test on all eight fans being used.
7.2.3.18 Usino Simolex pitot tube,
() a 10-point traverse of the ACCT permanent piping on two mutually make a perpendicular diameters. The pitot taps are installed approximately six pipe diameters u'ostream of installed flow orifice FT-CC-7078AS. (The pipe traverse wi.ll be made once for each test, and the installed orifice plate will be monitored throughout the test to ensure that the water flowrate does not change.) Pecord data on Attachment 8 2.2.
7.2.3.19 Ensure that the following test limitations are met before continuing:
(1) Ambient wet-bulb temperature is between 74 degrees F and 94 degrees F, as recorded on At-tachment 8.2.8.
Startup Integrated Test SIT-TP-250 Unit ;waterford 3 Oate 6-11 "82 Ultimate Heat Si.n< T'es t Revision Draft 2 Initials < tlate (2) Ambient dry-bulb temperature is between 92 degrees F and 112 degrees F', as recorded on At-tachment 8.2.8.
(3) Ambient wind speed is equal to or less than 10 mph, as recorded on Attach;nent 8.2.8.
(4) CC'ii flow is between 5850 and 7150 gpm, as recorded on Attachment 8.2.8.
(5) ACC'4 flow is between 5850 and 7150 gpm ~
7.2.3.20 Equally space a two-by-two matrix of wet-bulb psychrometers over the vertical'nlet to each wet tower cell and record on Attachment 8.2.6.
7.2.3.21 Place one wet-bulb psychrometer in each window to the wet towers and record on A,ttachment 8.2.6.
70
Startup Integrated Test SIT-TP-250 Unit waterfc rd 3 Date 6-11 "82 Ultimate Heat Sink Test Revision Dra t 2 Initials & Da te 7.2.3.22 Place one dry-bulb psychrometer on the catwalk railino at a position between tne two wet tower vertical inlet faces and record data on Attachment 8.2.6.
7.2.3.23 Place one Gill propeller anemometer in each window to the wet towers to monitor tne air velocity through the windows
(, during the test. l<onitor these velocities continuously and record data every 5 minutes on Attachment 8.2.7.
7.2.3.24 Heasure the level of the wet tower cold water basin both before and after the test, to determine water losses, by (LATER).
CW) 7.2.3.25 Using g R.H. Young microvane and cup anemometer, or equivalent, continuously monitor the ambient wind speed and direction and record on Attachment 8.2.8 every 5 minutes.
7.2.3.26 Use Attachment 8.1.3 to calculate temperature needed to satisfy the test 71
Startup inc.euratei. 'L'est SI1'-TP-250 Unit Waterford 3 Date 6-11-82 Ukr 1;~at. heat Sink Tes t Revision Draft 2 Initials F Date
- 7. 2.3. 27 Compl e te At tachnen t 8. 3. 2, <'orma1 Shutdown Calculation Sheet.
7.2-3.28 Comolete valve lineup on Attachment 8.4.7.
7.2.4 Simulated Normal Shutdown Test (Side B) 7.2.4.1~ Verify e the initial conditions set forth .
in steps 7.i.1, 7.1.2, 7.1.4, and 7.1.6l and verify that manometers or the equivalent, used for measuring orifice flo~s, are ready. for service.
7.2.4.2 Verify the valve lineup of Attachment 8 4' F
The oil level inoicators
'OTE:
provided with the CCH and ACCT Pumps indicate OPEPATING oil level. 1'he oil level should read HIGH when the oump is shut down and REDIUN when the I
pump is operating.
CAUTION 1: If~NEOLATELY STOP THE ACCW PuilP IF ANY
/Re OF THE FOLLOWING COHDITXOi'(S OBSERVED:
/
ir> [nteiirat'or( 'i'est fT Ulti ate seat Sink Test
<1) uft(!Sifh[j fO[SE OP Yl=f A'! ("..
(>) PUi~'-P BEARI ifG TE>>PEf<ATUHE ~ AS READ FRAf". IfJSTALLED TEftPERATURE If4DICATORi EXCEEDS 180 DEGREES F (3) PUitP 'lOTOR "JIViDIiVG THEBHOCOUPLE l<EADIHG EXCFEDS 230 DEGFES F (4) RATED CAPACITY OF l0.2 A.<<4PS IS EXCEEDED CAUTION 2: DO fJOT FXCEED ACC':J PUf4P RUNOUT CAPACITY OF 6650 GPH CAUTION 3 DO iVOT RUiN ACCT PUi'tPS AGAliVST DEAD HEAD EXCEP'l'RIEFLY TO YFBIFY SllUTOFF fit AD (1.5 f'IWflTES HAXIliUH)~
7.2.4.3 Check ACCN Pufi:p 8 for proper oil level.
7.2.4.4 Start ACC'J Pump 8 by placing handswitch CS-1/752 on CP-8 to START.
7.2.4.5 Check CC'u Puritp A/9 for proper oil level.
CAUTION 1: IHHEDIATELY STOP THE CCN/ACCT PUNP IF ANY OF THE FOLLOf'JING COf'JD ACTIONS 44 PRC OGSERYED:
Star J up Integrated '1'est SIT-TP-250 Unit Hater ford 3 Date 6-11-82 Ultimate heat SinJc Test Revision Draft 2 Initials J'ate
{1) UNUSUAL h:)ISE OB VIBRATION (2) PUJJP BFARlJJG TEi'JPERATURK, AS READ FRQl< I.'JS'J'ULLED TFMPKRATJJRE IHDICATQR, EXCEEDS 180 DEGREES F (3) PU.'iP F01'UR w INDIl'G THKRHQCOUPl K REAJ)ING KXCKKDS 230 DEGREES F (4) RATED CAPACITY OF 40 ~ 2 AiJPS IS EXCEEDED c CAUTIQll 2: DQ,"JQT EXCKED CCl4 PUMP RIJ;JOUT CAPACITY OF'500 GPJJ.
CAUTIOJJ 3: THE CCi4 PUMPS DO,"lQT HAVE At< INSTALLED RKCIRCULA'J.'10il LINE AND ARE LIMITED TO 3 HlilUTKS ÃAXIHU~1 Rt)NNING AGAlflST A DEAD HEAD 7.2.4.6 Start CCi4 Pump A/8 by positioning nandswitch CS>>i/707 on CP-8 to START.
7.2.4.7 Slowly open CCW Pump A/9 discharge valve (3CC-9119AB).
CAUTIQiV 1: IHMEDIATELY STOP THE CC 4 PUbJP IF ANY QF'HE FQLLOi41 JJG CONDITIONS 08SFRVED:
(1) UNJJSUAL ."JOISE OR VIBRATIOJ4
1'r i.t >ater ford 3 Da te 6-11-82 tea t SinN Yes t 1'.: 1 on i)raf t 2 Tnitials G Date Vu.c " T.> c;,Xr~DXNr; TH~R~lOCOUPLE
!?" AD I:"6 YXCe.EDS 230 l)EfiAr.ES F (4) -"cA7E"; CAPACITY OF 40 ~ 2 A!<PS IS
.";Xfe,'FAFD
(, O'TIC)h 2: ')O ')0 f OF 759c) GP:".
r'XCr'.".0 CC>> PU'>P BUHOUT CAPACITY CAUT IO,': ".C, PU;!1 ." Q!) JOT ]1 A Vl'N INSThi.~ El)
.'C J HCJLl'. J O"! Ll;lE AND 'E l IclI'Fli) TO 3 !":IWUTL'S 'lAXlliU11 RUNi~'IHG AGAINST A OEAl) Hi'l) ~
7.2.4.8 At CP-33, place the Eollowin'g control switches for fans 01 through 1315 in the r AST pos! t ion:
Fan No. Switch iso Initials & Date
()) Bl CS-1/781 (2) 82 CS-1/782 (3) 83 CS-1/783 (4) 84 CS-1/784 (5) B5 CS-1/785 (6) B6 CS-1/786 (7) 87 CS-1/787 75
Startup Tnteqrateci Test SIT-TP-250 Unit waterford 3 Date 6-11<<82 Ultimate I!eat Sink Test Revision Draft 2 Fan iso ~ Switch xo initials t Date (8) i~8 CS-1/788 CS-1/789 (10) B10 CS-1/790 (11) 811 CS"1./791 (12) 812 CS"1/792 (13) 013 CS-1/793 (14) B14 CS-1/794 (15) 815 CS 1/795
(, CAUTION: ':J."iEM A FA."! IS IN FAST SPEFD, THERE RUSZ Initials 6 Date BE A 30-SECOND WAIT PERIOD BEFORE THE FAiN CAN BE SHIFTED TO SI O'A SPEED IF THIS 'AOD I F ICATION HAS NCi T BEEi'l AC-COt<PLISttED BY THE TI.'4E THlS PROCEDURE IS PER FOR'iiED, ALilA YS OPENiTHE SPECIFIC BREAKER LISI'ED IN STEP 7 ~ 1.6.4 NHEtJEVFR THE FAil IS IN FAST SPEED ~ AFTER A 30-SECOND 'tAIT PERIOD, TURfl THE FAil S'~ITCH TO rHE OFF POSITION, AND RECLOSE TtlE BREAKER,'HEN SHIFT THE FAN SWITCH TO SLO'it SPEED 7.2.4.9 At CP-33, place a<et Tower B fan control switches CS-1/811 and CS-1/815 in the ON position.
76
Startuo Integrated Test SIT<<TP-250 Unit waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials S Date 7.2.4. l0 Ensure that the ooiler has been started and is warmed up and at operating pressure and temperature.
7.2.4.11 Cut in stean to the temporary heat ex-changer by slowly opening the 12>>inch stop-cherk valve/ located atop the temporary boiler.
7.2.4.12 Let the CC'~ and ACCw Systems reach thermal equilibrium. [This can be determined by monitoring TE-CC-7077BS.
As this temperature reaches an asymptotic value (wnen two consecutive numbers record the same reading k5 degrees F), then thermal equilibrium can be assumed.3 Record these readings every 5 minutes on Attachment 8.1.4.
7.2.4.13 Using a Simplex LATER' pitot tube, make a 10-point traverse of the component cooling water oipe on two mutually perpendirular diameters. (Pitot traverse taps are located approximately 12 diameters downstream of orifice
)
77
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Pevision Draft 2 Initials 6 Date Record this data on Attachment 8.2.$ .
7.2.4.14 Flonitor and record flowrate, as read from orifice Plate (lATER), on At-tachment 8.2. 3. ',~oni tor this flowra te throuqhout the test (recordinq every 5 minutes) to ensure that the water
(, flowrate does not change.
7.2.4.15 Set uo and continuously monitor the temperatures stated in Attachment 8.2.1 on the PTS-80A Temperature Data System.
7.2.4.16 A platinum RTD will be mounted on the hand railing at the inlet to the top fan on the two end and middle columns.
These RTDs will be monitored continuously and tne readings recorded on Attachment 8.2. 1 every 5 minutes.
7.2.4.17 Using a hand-held wattmeter, measure the input power to each wet tower fan in the tower being used. Record this data in Attachment 8.2.5 once for each test on all eight fans being used.
Startup Integrated Test SIT-TP-250 Unit (iaterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draf t. 2 Initials 6 Date 7.2.4.18 Using Simolex pitot tube, a
10-point traverse of the ACC!A permanent piping on two mutually
~
make a perpendicular diameters. The pitot taps are installed approximately six pipe diameters upstream of installed flow orifice FT-CC-7078BS. (The pipe
(, traverse test, will will be made once for each and the installed orifice plate be monitored throughout the test to ensure that the water flowrate does not chance.) Record data on Attachment 8.2.f.
7.2.4.19 Ensure that the following test limitations are met before continuinq:
(1) Ambient wet" bulb temperature is between 74 degrees F and 94 degrees F, as recorded on At-,.
tachment 8.2.8.
(2) Ambient dry-bulb temperature is between 92 degrees F and 112 degrees F, as recorded on At-tachment 8.2.8.
79
Startup Integrated Test SIT-TP-250 Unit waterford 3 Date 6-11-82 Ultimate Heat S ink Tes t Revision Draft 2 initials K Date (3) Ambient wind speed is equal to or less than 10 mph, as recorded on Attachment 8.2.8.
(4) CC'.~ f low is between 5850 and 7150 gpm, as recorded on Attachment 8.2 '
'5)
ACC'4 flow is between 5850 and 7150 Qpm ~
7.2.4.20 Egually space a two-by-two matrix of wet-bulb osychrometers over the vertical inlet to each wet touer cell and record on Attachment 8.2.6.
7.2.4.21 Place one wet-bulb psychrometer in each window to the wet towers and record on Attachment 8.2.6.
7.2.4.22 Place one dry-bulb psychrometer on the cat:valk railing at a position bet:veen the two wet tower vertical inlet faces and record data on Attachment 8.2.6.
80
Startup Integrated Test SlT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials R Oate 7.2.4.23 Place one Gill prooelLer anemometer in each window to the wet towers to monitor the air velocity through the windows during the test. :conitor these veLocities continuously and record data 7
every 5 etnutee on Attecnnent 8.2.jf.
7.2.4.24 !measure the level of the wet tower cold water basin both before and after the test, to determine water losses, by (f~ATER) ~
ON 7.2.4.25 Using p R.bt. Young microvane and cup anemometer, or equivalent, continuously monitor the ambient wind speed and direction and record on Attachment 8.2.W every 5 minutes.
7.2.4.26 Use Attachment 8.1.3 to calculate temperature needed to satisfy the test.
7.2.4.27 Complete Attachment 8.3.2, Normal Shutdown Calculation Sheet.
7.2.4.28 Complete valve lineup on Attachment 8.4.8.
Startup Int'egrated Pest SIT-TP-?50 ljnit i<a ter f ord 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 0 Date 7.2.5 Simulated Shutdown 24 Hours Af ter Reactor Tr io Tes t (Sine A) 7.2.5.1 Verify tne initial conditions set fortn in steps 7.1.1, 7.1.2, 7.1.3, and 7.1.5; and ver.ify nat manometers or the equivaLent, used for measuring orifice flo~s, are ready for. service.
7.2.5.2 Verify the valve lineup of Attachment 8.4.7.
7.2.5.3 Check CCci Pump A/B for proper oil level.
CAUTION 1: Ib<f~KDIATEfY STOP THE CC<~/ACCT'UMP IF ANY OF THE FOLLOHI ilG CONDITIONS IS OBSFRVED:
(i) UNUSUAL NOISE OR VIBRATION (2) PLJ'<P BEARING TEflPERATURE, AS READ FROM. INSTALt Eo TEMPERATURE INDICATOR, FXCEEDS 180 DEGREES F (3) PUllP MOTOR elINDING THERilOCOUPLE READING FXCEEDS 230 OKGPEES F (4) RATED CAPACITY OF 40 2 Ai4PS IS EXCKKDED 82
~tap, up 'En t pars teJ res l $ 1T Tp 250 Unit itaterford 3 Date 6-11-82
'=EnJ Test Revision Draft 2 Initials S, Date
"~-i '~ J "~ .."'.":0 CC~ Plit'P BU Il)lt I'APAC.1TY J ~00 -0'< .
r q ( ~ .ri J l)>r '1!i!"; CCh PlJMPS DO NOT HA VE Al'E "JSTALEiED RECIRCULATION LINE AND APE l,INITED TO 3 !MINUTES:SAX.E<U~< RU'JNE'VG AGAIIJST A DEAD HEAD.
7.2.5.4 Start CC;i Puwp A/9 by positioning hands'ititcn CS-1/707 on CP 8 to START 7.2.5.5 Slo"'ly open,".Cd Punp A/0 discharge valve (3CC-P.J19AB>.
CAUTION< 1: I!!~EDEATFLr S roP THE CCN PUHP IF ANY
- 0. THF FOLLOW". ING CONDITIOf'JS AHE OySERVFD'1)
Uiv'USUAL JOISE OR VIBRATION (2) PU.'~P BEARING 'I'EMPERATURE, AS READ FROPI INSTALLED TEMPERATURE INDICATOR~ EXCEEDS 180 DEGREES F (3) PUMP MOTOR 'it 1NnI;.'G THER!JOCOlJPLE READING EXCEEDS 230 DEGREES F (4) RATED CAPACITY OF 40. 2 AtlPS IS EXCEEDED 83
Startuo Integrated Test SIT-TP-250 Unit waterford 3 Date 6-11-82 Ultiriate Eleat Sink Test Revis.ion Draft 2 Initials R Date CAUTIU'E 2: DU OT EXCEED CC~ PU~P RU.")OUT CAPACITY rlr.- 7500 Gou ~
CAUTLDN 3: TElE CC "i PV'~PS DO s'40T EJAVE Ail INSTALLED RECTBCULATIO "4 LIAE AND ARE LIMITED TO 3 MINUTES MAXI:~UN RUM'!IllG AGAINST A DEAD WcnD.
7.2 5 6 At CP-33, place th following control switches for fans Al through'15 in the FAST oosition:
Fan ho. Switch Ho. Initials G Date (1) AE CS"1/731 (2) A2 CS"1/732 (3) A3 CS"1/733 (4) A4 CS"1/734 (5) A5 CS-1/735 (6) A6 CS"1/736 (7) A7 CS-1/737 (8) A8 CS-1/738 (9) A9 CS"1/739 (10) A10 CS-1/740 (11) A11 CS-1/741 (12) A12 CS-1/742 (13) A13 CS-1/743 (14) A14 CS-1/744 (15) A15 CS-1/745
Startup Integrated Test SIT-TP-250 Unit Haterford 3 Date 6<<11-82 Ultimate Heat S,ink Test Revision Draft 2 Initials i Date CAUTION: !<HEJV A FAi .IS IiV FAST SPEED, THERE HuSX BE A 30-SECOi'JD VA'IT PERIOD BEFORE T.".
FAi< CAil fiK SHIFTED TO SLOi/i SPEED ~ IF TJ(IS iRODIFZCATIOH HAS IVOT BEE:V AC-COMPLISHED BY THE TIJCE THIS PROCEDURE IS PFRFOR'<<ED, ALWAYS OPKiV THE SPECIFIC BREAKE R LISTFD IJ< STEP 7 ~ 1 ~ 5 ~ 4 NHENFVER rHE FA~ IS IN FAST. SPEED, A",D SLOJV SPEED OR OFF IS DES IRFD ~
7.2.5.7 At CP-33, ensure that Net Tower A fan control switches CS-1/761 and CS-1/765 are in the OFF position.
7.?.5.8 Ensure that the boiler is warmed up and at operating pressure and temperature.
7.2.5.9 Cut in steam to temporary heat exchanger by slowly opening stop-check valve (LATER) ~
7.2.5.10 Using RTDs TX-CC-7910AS and TX"CC"7920AS vary heat load until a heat loading of 91.7 x 10 Btu/hr is obtained on the dry tower A.~
7.2.5.11 Using a Simplex oitot tube, make a
~ ~ ~ ~
10-point traverse of the component
Startup Integrated Test SIT-TP"250 Unit 'waterford 3 Date 6'-11-82 Ultimate )teat Sinl: Te" t Revision Draf t 2 Initials R Date coolina ~ater pire on two mutually perpendicular Aiameters. Record this data On AttaCnment 8.2.2.
7.2.5.12 lsonitor and record flowrate, as read from orifice plate (LATER), on Attachment
- 8. 2. 3. '4oni tor this f low ra te th r oughou t the test (recording every 5 minutes) to ensure that the water flowrate does not change.
7.2.5.13 Set up and continuously monitor the temperatures stated in Attachment 8.2.1 on the PTS-80A Temperature Data System.
7.2.5.14 A platinum RTO will be mounted on the hand railing at the inle t to the top f an on the two end and mkddle columns. These HTDs will be, monitored continuously and the readings recorded on Attachment 8.2.1 every 5 minutes.
7 2.5.15 Ensure that the following test limitations are met before continuing:
(1) Ambient wet-bulb temperature is between 74 degrees f'nd 84 86
Startup integrated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials R Date dearees F, as recorded on At-tachment 8.2.8.
(2) Ambient wind speed is equal to or less than 10 mph, as recorded on Attachment 8.2.8.
(3) CCW flow is between 5850 and 7150 gp~, as recorded on Attachment 8.2.8.
7.2.5.16 measure the leve.l of the wet tower cold water basin both before and after the test, to determine water losses. See Attachment 8.3.5, Water t.oss Calculation Sheet.
7.2 5.17 Using p'E i~ Young microvane and cup anemometer, or equivalent, continuously monitor the ambient wind speed and direction and record on Attachment 8.2.8 every 5 minutes.
NOTE: The oil level indtcators provided with the CCA and ACCT'umps indicate OPERATING oil level. The oil level snould read HIGH when 87
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 6-11"82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date tne pump is shut down and .iFJ)IUfh when the pump is operatinq.
CAUTIOJ'J 1: IH>EDlh'I'ELY STOP THE ACC'4 PU<JP IF ANY OF THE FULLOliIi'JG CO~iJDITIOÃ5 ARE OGSFRVED:
(1) UJJJJSUAL:JOISE OR VlaRATIOW (2) PUJ<P BEARING TE!RPERATURE, AS READ FBOH liJSTAJ LED TEHPEHATJJRE IffDICiTOR, EXCEEDS 180 DFGREES F (3) PUtJP MOTOR 'AIflDIjJG THERNOCOUPLE READIYG EXCEEDS 230 DEGREES F (4) RATED CAPACITY OF 40 ~ 2 AHPS IS EXCEEDED CAUTION 2: DO f'JOT EXCEED ACCT PUP'P RUNOUT CAPACITY OF 6650 GPR.
CAUTIOJ'f 3: DO i'JOT RU<J ACC'ri PU HPS AGAIi'JST DEAD HEAD EXCEPT BRIEFLY TO VERIFY SHUTOFF HEAD (1 5 l4IJ'JU1'ES NAXINUJi) ~
7.2.5.18 Start ACCT Pump A by placing handswitch CS-1/752 on CP-8 to START.
7.2.5.19 Using a Simplex pitot tube, make a
~~ pipe
~ ~
10-point traverse of the ACC'd on two mutually perpendicular 88
Startup integrated Test SIT-TP-250 Unit i~aterford 3 Oate i"11"82 Ultimate !!eat Sii>k Test l(evision Draft 2 Initials & Date diameters. 1'ne pitot taps are installed aqproximatelv six pipe diameters upstream of install.ed slow orifice FT-CC-7078AS. (The pipe traverse will be made once for eacn test, and the installed orifice plate will be monitored throughout the test to ensure that the water flowrate cioes not change.) Pecord;iata on Attachment
() 8 '.2 ~
7.2.5.20 Initiate the tornado test by performing the following:
7.2.5.20.1 Open 3CC-R104A, inlet to component cooing heat exchanger.
7.2.5.20.2 Close 3CC-0238A bypass to CCA heat ex-changer.
7.2.5.20.3 lark all tapes and charts to signify the start of the tornado test.
7.2.5.20.4 Ensure that the level in the wet cooling tower basin is at the low end of. the operating band (approximately 175,000 gal).
Startup Integrated 1'est SIT-TP-250 llnit waterford 3 Date 6"11-82 Ultimate Heat Sink Test Revision Draft 2 Initials Ec Date 7.2.5.2l. Open 3CC-8201A (inlet to dry coolinq towers).
7.2.5.22 Open 3CC-B212A (outlet to dry cooling to'~'er s) .
7 .2.5.23 Close bypass to dry cooling towers 3CC>>B265A ~
HOTF.: llaintain the same temoerature diff erential across tne temporary feed heater as initial QT.
7.2.5.24 At CP-33, place the following control switches for fans A1 through A15 in the OFF position Fan No. Switch Po. Initials 6 Date (1) A1 CS"1/731 (2) A2 CS-1/732 (3) . A3 CS-1/733 (4) A4 CS 1/734 (5) A5 CS"1/735 (6) A6 CS-1/736 (7) A7 CS 1/737 90
St.~rtup Lntearate~! Test SIT-TP-250 Unit Water f or d 3 Date 6-11-82 Ul tie~ate ileat Sink Test Revision Draf t 2 Fan No. Switch '9o. Initials & Date (8) AB CS"f/738 (9) A9 CS-1/739 (f0) A10 CS-1/740 (11) Aii CS-1/741 (12) A12 CS-1/742 (13) A13 CS-1/743 (14) A f ci CS"1/744 (15) A15 CS-f/745
() 7.2.5.25 PerEorm the following steps af ter 2 Initials 6 Date hours.
7.2.5.25.1 After 2 hours, record the TE-CC-7077AS readinc on Attacnment iATER.
7.2.5.25.2 Measure level in wet tower according to Attachment 8.3.5.
7.2.5.25.3 Close the following valves:
(1) 3CC"08f A, Dry Tower A Inlet iieader Isolation Valve (2) 3CC"B82A, Dry Tower A Inlet Header Isolation Valve 91
~.:lti ~ale>>eat S'.-,': 't'es-. ~ I r II le (3) 3CC-a~3A, Dry 'l'o~er .'.:nlet Header Isolation Valve (4) 3CC-8844, Dry Tower A inlet Header Isolation Valv 7.2.5.25.4 At CP-33, place the followina control switches for fans A7 through A15 in fast soeed.
Fan Ho. S~itch wo. XnitJ.ais ~ Date (1) A7 CS-1/737 (2) A8 CS-1/738 (3) A9 CS"1/739 (4) A16 CS-1/740 (5) A11 CS-1/741 (6) A12 CS-1/742 (7) A1.3 CS-I/743 (8) A 1>>'9)
CS-1/744 A15 CS"1/745 Initials 6 Date 7.2.5.26 Continue monitoring all BTDs listed in Attachment 8.2.1 and orifice reading listed in Attachment 8.2.3 for the next 22 hours2.546296e-4 days <br />0.00611 hours <br />3.637566e-5 weeks <br />8.371e-6 months <br />.
92
0 Startup Inteorated Test SlT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials S Date 7.2.5.27 At tne 10-hour mark, record water level.
7.2.5.28 Record all water added to tne wet tower basin during testing.
7.2.5.29 perform tornado calculation, and record on Attachment 8.3.3.
7.2.5.30 Complete valve lineuo on Attachment 8.4.6, and continue on to the next test.
7.2.6 Simulated Shutdown'4 Hours After Reactor Trip Test (Side B) 7.2.6.1 Verify the initial conditions set forth in steps 7.1.I, 7.1.2, 7.1.3, and 7.1.6; and verify that manometers or the equivalent, used for measuring orifice flows, are ready for service.
7.2.6.2 Verify the valve lineup of Attachment 8 '.8 ~
93
~;,,~ r< f nf -~.;~ -.~ + e~ 'J'est SI Y-7~>>250 Unit '-..ater ford 3 Date 6-11-82 fiea t S t nk f>>." t '.~vision Draft 2 Initials f'ate
/: 'r '. >f er o) i level.
CAU.'IO"': f;,'"->.l. "-*'.'"r')>. CC".'/ACCH PUHP IF
- 9Lf~Ow I NG CONDITIO!JS ARE Of'SKR Vi;L:
fI) 'J."! "SU 'l!. NOISE OR V I BRAT IOi'f
( i) PU "r'5i ARE!:G TEf'PKRATURKg AS READ "R0;i lNSTALf Kl) TEMPERATURE I"!0 I'A"'OR, t'.XCKEDS 180 l)KGRKI.'.S V f 3) PU:>0 ~OTOR if i ND IHG THERNOCOf.'PLF.
HE:i~i)i":G 'XCF')S 230 f)ECiPKKS F (4) PATED CAPACITY OF 40.2 ALPS IS EXCEF.f)ED CAUTION 2: DU NOT EX "'f"D CCH PUfiP RiJf'OfJT CAPACITY OF 7500 GP;i.
CAUTION 3: THK CC<v PU'PS DO NOT fiA VK Ai'i INSTALLED RECIRCULATION fjINE ANf) ARE LI'4ITKD TO 3 .',INUTKS NAXINfJH RUNNING AGAINST A DEAD f KAD.
7.2.6.4 Start CC'd Pump A/8 by positioning handswitch CS-1/707 on CP-8 to START.
7.2.6.5
~ ~ Slowly ooen
~
CCM Pump A/8 discharge valve (3CC-8119AB) ~
94
star tup Lnteqrat.ed Test sI'1'-TP-250 Unit 1Jaterford 3 Date 6-11-82 Ultitriate Heat Sink Test Revision Draft 2 Initials & Date CAUTION 1: IJ1;~ED.J:AIE' STOP T..E CCW PU;iP IF ANY OF'i!E FOJ, LObltJG COJiJDITIONS ARE 01.;s RvEn:
(I ) O'JUSUAJ NOISE OR VIBRATION (2) PU<
JDICATUR ~ EXCEFDS 180 DEGREES F (3) PU~'P J10TOR WINDING TJJEFHOCOUPGE RFADIiJG EXCEEDS 230 DECREES F (4) HATED CAPACITY OF 40.2 AJ4PS IS EXCEEDED CAUTION 2: DO NOT, EXCEED CCM PUHP RU'JOUT CAPACITY OF'500 GP<<. CAUTIOJ'J 3 THE CCW PUMPS DO NOT HA VE AH I ASTALibED RECIRCUbATIOJ'J LINE AJJD ARE LIMITED TO 3 8/I'JUTES MAXIMUM RJJJJ,'JIÃG AGAINST A DEAD HFJ O. 7.2.6.6 At CP-33, place the following control switches for fans Ai through A15 in the FAST position: Fan No. Switch No.'nitials & Date (1) Bi CS-1/781 95 Startup Int grated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 U 1 tii~ate Heat Sink Test Revision Draft 2 Fan No. Switch No. Initials f'ate (2) i" 2 CS-1/782 (3) f<3 CS"1/783 (4) B4 CS"1/784 (5) 85 CS-1/785 (6,) B6 CS-1/786 (7) &7 CS-1/787 (8) B8 CS-1/788 (9) 89 CS-1/789 (10) B10 CS-1/790 (f 1) B11 CS-1/791 (12) f>12 CS-1/792 ( 13) B13 CS"1/793 (14) Bl4 CS-1/794 (15) B15 CS"1/795 Initials 6 Date CAUTION: NfiEN A FAN IS XN FAST SPEED, THERE ZlfSX BE A 30-SECOND WAIT PERXOD BEFORE THK FAN CAN BE SHXFTFD TO Sf 0'8 SPEED ~ IF THIS ifODIFXCATION HAS NOT BEEN AC-CCYiPLISHED BY THE TINE THIS PROCEDURE IS PERFORMED, ALNAYS OPEN THE SPECIFIC BREAKER LISTED IN STEP 7 ~ 1 ~ 6 4 'WHENEVER Tf!E FAN IS IN FAST SPEEDp AND SLON SPEED OR OFF IS DFSXRED 7 ~ 2 ~ 6 7 At CP-33, ensure that Net Tower A fan control switches CS-1/811 and CS-1/815 are in the OFF oosition. 96 Startup Integrated Test SIT"'1'P"250 Unit waterford 3 Date 6-11-82 Ultimate fieat Sink Test Revision Draft 2 Initials 6 Date 7.2.6.8 Ensure that the boiler is uarmed up and at operating pressure and temperature. 7.2.6.9 Cut in steam to temporary heat exchanger by slowly opening stop-check valve (LATER) ~ 7.2.6.10 Using RTDs TX>>CC-79108S and 1X-CC-7920BS, vary heat load until a heat loading of 91.7 x 10 Btu/hr'is obtained on the dry tower B. 7.2.6.11 Using a Simplex oitot tube, make a 10-point traverse of the component cooling water pipe on two mutually perpendicular diameters. Record this data on Attacnment 8.2.2. 7.2.6.12 t(onitor and record flowrate, as read from orifice plate (LACER), on Attachment 8.2.3. monitor this flowrate throughout the test (recording every 5 minutes) to ensure that the water flowrate does not change. Startup Inteqrated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date 7.2.6.13 Get up and continuously monitor the temperatures stated in Attachment 8.2.1 on the PTS-80A Temperature Data System. 7.2.6.14 A platinum RTD will be mounted on the hand railing at the inlet to the top fan on the two end and middle columns. These RTDs>>111 be monitored continuously and the readings recorded on Attachment 8.2.1 every 5 minutes. 7.2.6.15 Ensure that, the following test limitations are met before continuing: (1) Ambient wet>>oulb temperature is between 74 deqrees F and 84 degrees F, as recorded on At-tachment 8.2.8. (2) Ambient wind speed is equal to or less than 10 mph, as recorded on Attachoent 8.2.8. (3) CCw flow is between 5850 and 7150 as recorded on Attachment gpm, 8.2 '. Startup Integrated '1'est SIT-TP-250 Unit '.waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials 5 Date 7.2.6.16 Measure the level of the wet tower cold <<ater basin noth before and after tne test, to determine water losses. See A t tachmen t 8. 3. 5,:fa ter Loss Calculation Sheet. 7.2.6.17 Usinq p R.-'<. Young microvane ano cup anemometer, or equivalent, continuously moni.tor tne ambient wind speed and direction and record on Attachment 8.2.8 every 5 minutes. NOTE: The oil level indicators provided with the CCvl and ACCT Pumps indicate OPERATI'/G oil level. The oil level should read HIGH wnen the pump is shut down and MEDIUM when the pump is operating. CAUTION 1: IMMEDIATELY STOP TffE ACCT PUMP IF AhlY OF TffE FOLLOWING COifDITIONS ARE OBSERVED I (1) U."fbSUAL POISE OR VIBRATION (2) PUMP SEARING TEMPERATURE, AS READ FRUN INSTALLED TEHPERATURE INDICATOR, EXCEEDS 180 DEGREES F (3) PUMP ~'lUTOR NIÃDIifG THERMOCOUPLE READING EXCEFDS 230 DEGRFES F 99 Startun Integrated Test SLT-TP-250 Unit ~iaterfor' .3 Date b-11"82 Ultimate Heat Sink Test Revision Draft 2 Initials 6 Date (4) RATED CAPACITY OF 40.2 A~lPS IS EXCEEDED CAUTlON 2: DO HOT EXCEED ACCT PUHP RUNOUT CAPACITY OF 6650 GPN ~ CAUTION 3'O tlOT RUN ACC'A PUh>PS AGAINST DEAD HEAD EXCEP'1'PIEF4Y TG VERIFY SHUTOFF HEAD (1 ~ 5 MINUTES NAXItRUh1) ~ 7.2.6.18 Start ACCT Pump 8 bY plari.ng hands>>itch CS-1/752 on CP-8 to START. 7.2.6.19 Using a Simplex pitot tube, make a 10-point traverse of the ACCT ~~~ pipe on two mutually perpendicular diameters. The nitot taps are installed approximately six pipe diameters upstream of installed flow orifice FT-CC-7078BS. (The pipe traverse will be made once for each test, and the installed orifice plate will be monitored throughout the test to ensure that the water flowrate does not change.) Record data on Attachment 8 ~ 2 ~ 2 ~ 7.2.6.20 ~ ~ ~ Initiate the tornado test by performing the following: 100 Startup Integrated 'l'est SIT-TP-250 Unit biaterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Initials Fi Date 7.2.6.20.1 Open 3CC-81058, inlet to component cooing heat exchanger. 7.2.6.20.2 Close 3CC-82398 bypass to CCH heat ex-changer. 7.2.6.20.3 Hark all tapes and charts to signify the start of the tornado test. 7.2.6.20.4 Ensure that the level in the wet cooling tower basin is at the low end of the operating band (approximately 175,000 gal). 7.2.6.21 Open 3CC-82038 (inlet to dry cooling towers). / 7.2.6.22 Open 3CC"92138 (outlet to dry cooling towers) ~ 7.2.6.23 Close bypass to dry cooling towers 3CC-82628. 101 8tar Hip I >> ear a t e~; 'res t;: IT-'fP- 350 Unit waterford 3 Date 6"11-82 U.l ti."ate !'eat Sink 7es t Pevision Draft 2 Initials 6 Date HDTV.: ~!aintain the sa,ie te;,oerature aifferential across the temporary feed heater as initial 7.2.6.24 At CP-33, place the following control switches for fans R1 through 815 in the OFF oosition. > an ('0 ~ Switcn No. Initials & Date (1) Bl CS-1/781 (2) 82 CS"1/782 (3) B3 CS"1/783 (4) 84 CS-1/784 (5) R5 CS"1/785 ( 6.1 Rci CS"1/786 (7) 67 CS"1/787 (8) B8 CS"1/788 (9) e9 CS-1/789 (10) RLO CS-1/790 (11) B11 CS-1/791 (12) V>2 CS-1/792 (13) 813 CS-1/793 (14) 614 CS-1/794 (15) 015 CS-1/795 Initials 6 Date 7.2.6.25 Perform the following steps after 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> ~ 102 Sral tup Integrated Test SIT-TP-2'J Uni t -~""- ' Date l)-11-82 Ultimate Heat Sin@ Test Revision >>ra t 2 Initials ~ D~te 7.2.6.25.1 After ? nours, record the TE-CC-70778S reading on Attacna~ent I ATKR. 7.2.6.25.2 '4easure level in >>et tower according to Attacheent 8.3.5. 7.2.6.25.3 ~ ~ ~ Close the following valves: (1) 3CC"8718, Dry Tower 8 Inlet Header Isolation Valve (2) 3CC-8728, Dry Tower 0 Inlet Header Isolation Valve (3) 3CC-8730, Dry Tower 8 Inlet Header Isolation Valve (4) 3CC-8748, Dry Tower 8 Inlet Header Isolation Valve 7.2.6.25.4 At CP-33, place the following control switches for fans 87 through 815 in fast speed. 103 S ter tuo En t qr a ted 1'es t SIT- TP-250 Onit tlater f ord 3 Date 6-11-82 l~ltimate Heat Sink Test Revision Draft 2 Fan "~o. Switch iso. Initials & Date (1) >7 CS-1/787 (2) Rc8 CS-1/788 (3) E)9 CS-1/78 (4) 610 CS-1/7 x (5) 911 CS"1/7'S-1/7 vi (6) 912 (7) 613 CS-1/7 (8) R14 CS-1/7 (9) 815 CS-1/7: Initials 8 Date 7.2.6.26 Continue monitoring all RTDs listed in Attachment 8.2.1 and orifice reading listed in Attachment 8.2.3 for the next 22 hours2.546296e-4 days <br />0.00611 hours <br />3.637566e-5 weeks <br />8.371e-6 months <br />. 7.2.6.27 At the 10-hour mark, record water level. 7.2.6.28 Record all i.ater added to the wet tower basin during testing. 7.2.6.29 Perform tornado calculation, and record on Attachment 8.3.3. 7.2.5.30 Complete valve lineup on Attachment 8.4.6, and continue on to the next test. 104 igni t <<a ter ord 3 Date li-11-82 til t. i '.". pevision i.r~rt 2 rnitig is ca:ia I e 7.3 Restoration 7.3.1 ilet Tower - Train 7.3 1 1 h t CP-33, pl:ice (or ver1 tv placed) wet tower fan control switches CG-5/761 (for fans 1 througn <<) arid C5-1/ Io5 (for fans throuqh 8) in t.he '~:"V oosition. 7.3.1.2 At kSGV ACC-3"i3t5-,~, .- --..-';". 1.0:I and 12Hi open the brea';ebs for t.=-ns t1 through A8. 7.3.2 >>et Tower - Train 8 7.3.2.1 At CP-33, place (or verify placed) wet to'~er fan control switches CS-1/811 (for fans 1 through 1) and C -1/815 <for fans 5 throurin 8) fn t.he C'F'V position. 7.3.2.2 At 480V ÃCC-38315-S, Compts. 10H and 12H, open the breakers for fans Bl through 88. I.3.3. Dry Tower - Train A 7.3.3.1 ~ ~ ~ At CP-33, place (or verify placed) the following Dry Tower h fan control 105 Startup Integrated Test S(T-TP-250 Unit 'waterford 3 Date 6-11-82 Ultimate i/eat Sink 'Pest Revision Draft 2 Initials 6 Date switches for fans A 1 through A15 in the position: i'i'witch OFF Fan .'Jo. Initials G Date (1) Al CS-1/731 (2) A2 CS"1/732 (3) A3 CS"1/733 (4) A4 CS-1/734 (5) A5 CS-1/735 Cg (6) A6 (7) A7 CS-1/736 CS-1/737 (8) A8 CS-1/738 (9) A9 CS-1/739 (10) A10 CS"1/740 (11) A11 CS-1/741 (12) A12 CS-1/742 (13) A13 CS-1/743 (14) A14 CS-1/744 (15) A15 CS-1/745 7.3.3.2 At 480V <>CC-3A315-S, open the following breakers for Ory Tower A fans A1 through A15: Fan No. Compt. Ho. Initials & Date (1) A1 (2) Aj (3) A3 2F 106 iver > c 'up < ~~ g a ted res t sIT-Tp-250 Unit Waterford 3 Date 6-11-82 '=i', '. -"= '- Sink 'fest Revision Draft 2 c -Bn No ~ Compt. f"o. Initials & Date 2 4 3c 3v, (7) A7 (8) Aber (9) A9 (1o) A10 5N (11) 7F (12) AL2 (13) A13 (1<) A14 (15) A15 Initials 6 Date 7.3.4 Dry 't'over - Train 8 7.3.4.l. At CP-33, place (or verified placed) the folio;~ing Dry To.ver 8 fan control switcnes foz fans Bi through 815 in the OFF position: Fan No. Gw.itch f<o. Initials 6 Date (1) 61 CS-1/781 (2) 82 CS-1/782 (3) 03 CS-1/783 (4) 84 CS-1/784 (5) 85 CS"1/785 (6) B6 CS-1/786 107 Startuo Entegrated Test SIT-TP-250 Unit 'waterford 3 Date 6-11-82 U3. t 1m a t e Heat Sink Te s t Revision Draft 2 Fan No ~ Switch 4!o. Initials 6 Date (7) B7 CS"1/787 (8) 88 CS"1/788 (9) B9 CS-1/789 (10) B10 CS"1/790 (11) B11 CS"1/791 (12) 812 CS"1/792 (13) 613 CS-1/793 (14) 814 CS-1/794 (15) 815 CS-1/795 7 ~ 3 ~ 4 ~ 2 At 480'f YCC-3B315-S, open the following breakers for Dry Tower 8 fans 81 through B15: Fan t.'o. Compt. Ao. Initials & Date (1) Bi (2) 82 (3) B3 (4) 84 (5) 85 3F (6) B6 3M (7) 67 (8) 88 4N (9) 89 (10) B10 5N (11) B11 7F (12) BI2 7H (13) B13 8F 108 Startup Integrated Test SIT-'ZP-250 Unit waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 Fan No. Compt. Ho. Initials 6 Date (14) 814 (15) 615 7.3.4.3 Fnsure that valves are aligned per At-tachment 8.4.6. 109 Startup integrated Test SIT-TP-250 Unit Waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 8.0 LZZACU~KUXS
- 8. 1 Instruction 'I'abLes/Graphs 8.1.1 Performance Curves for 'Bet 'I'ower 8.1.2 Performance Curves for Dry 'I'ower 8.1.3 Instructions for Calculating IIeat Load on Net and Dry Towers 8.1.4 Temperature E~Iualization Graph 8.2 Data Tables 8.2.1 RTD Data Table 8.2.2 Pitot Tube Traverse Data Table 8.2.3 Flow Orifice Readings 8.2.4 Dry-Bulb RTD Readings - LATER 8.2.5 Fan Input Power l)ata Table - IATER 8.2.6 Net Towers Temperature Data Table 8.2.7 Anemometer Readings t)ata Table 8.2.8 Ambient Conditions Data Table 8.3 Calculation Sheets 8.3.1 IOCA Calculation Sheet 8.3.2 Normal Shutdown Calculation Sheet 8 .3.3 Tornado Case Calculation Sheet 8.3.4 Het Tower Performance Calculation Sheet 110
Startup Integrated Test SL1'-TP-250 Unit waterford 3 Date 6-11-82 Ultimate Heat Sink Test Revision Draft 2 8.3.5 eater [oss Calculation Sheet 8.4 ~miscellaneous At tachments 8.4.1 Chronological bog 8.4.2 Test Personnel IO Sheet 8.4.3 Valve l.incur Table, Tower A 8.4.4 Valve l.ineup Table, Tower 8 8.4.5 System Deficiency Record 8.4.6 Restoration valve f,ineup, Towers A and B 8.4.7 Tornado Valve Lineup - Tower Tornado Valve 4ineup - Tower A'.4.8 8 g.q.q mis>i<g Z~+r a%en Lid% 111 ! V tl I Ip 1 I lt I 'Bi::-.I I It :.' ijL jtjj ji i!'! Vl I
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30 50 70 90 10 I 30 50 70 30 50 70 90 IIO 130 150 170 ATE R TEM PE RA TUR E LEAVING ORY COOLING TOWER - F PERFORYd81CE CURVES 'FOR DRY TOMER SIT-TP-250 Attachment 8.1.2
INSTRUCTIONS FOR CALCULATING HEAT LOAD ON WET AND DRY TOWERS 8.1.3.1 Adjust temperatur e control valve 7CC-TV-001 to reflect the following:
( 1) 161.4 degrees F for the LOCA Tests (sections 7.2.1 and 7.2.2)
(2) 146.2 degrees F for the Normal Shutdown Test (sections 7.2.3 and 7.2.4)
(3) 146.2 degrees F for the Tornado Tests (sections 7.2.5 and 7.2.6) 8.1.3.2 Adjust temperature control valve 7CC-TV-001 to give the above readings as recorded by TX-CC-7910AS for dry tower A inlet and TX-CC-7910BS for dry tower B inlet.
8 .1.3 .3 Use the following formula to calculate mass flow rate:
f't Vol (60l) 60 ((0i0) . 1137 (l'); )
ia = )6(i))(6) man hr gal 8.1.3.4 Use the calculated value of m from 8.1.3.3 in the following equation.
Q=m(he-hi) wher e Q = 176 x 10 Btu/hr for LOCA ca.~Tccg (section 7.2.1 and 7,2.2)
Q = 127 x 10 Btu/hr for Normal Shutdown Tests (sections 7.2.3 and 7.2.4)
Q = 91.5 x 10 Btu/hr for the Tornado Cases (sections 7.2.5 and 7.2.6) 8 .1.3 .5 Calculate ak' from step 8, 1.3 .4 . Since he is known because temperature (and hence enthalpy) was set in step 8.1.3.1, X'he the temperature (the temperature of water entering the temporary heat exchanger) needed to satisfy the equation given in 8.1.3.4, can be calculated.
SIT-TP-250 Attachment 8.1.3 Draft 2
INSTRUCTIONS FOR CALCULATING HEAT LOAD ON llET AND DRY TOWERS 8.1.3.6 If the temperature of enter ing feed water to the temporary heat exchanger is less than or equal to this temperature, then proceed to the next step in the procedure. If the temperature is greater than that calculated in step 8.1.3.5, attempt to adjust the temperature out of the temporary heat exchanger until the equation expressed in 8.1.3.4 is satisfied.
8.1.3.7 If the equation given in step 8.1.3.4 cannot be balanced, record the available Tin and Tout of the temporary heat ex-changer on Attachment 8 .3 . for the LOCA test; on Attachment 1
8 .3.2 for the Normal Shutdown Test; and on Attachment 8 .3 .3, for the Tornado Case. Proceed to the next step in the procedure.
SIT-TP-250 Attachment 8.1.3 Draft 2
TEMPERATURE EQUALIZATION GRAPH I60 I50 WET TOWER TIME
- u. I40 0
lO I30 O
o I20 o
I LIJ
>- I IO O
IOO 70 60 0 5 IO I5 20 25
~ ~ ~ T= l20 MIN.
TIME, MINUTE Attachment 8.1.4
Time:
(Fill out one sheet per hour.)
RTD READINGS DATA SHEET TESTING A TONERS iff0:.D T=O 5 HIN. 10 HIN. 15 HIN. 20 HIN. 25 MIN. 30 MIN. 35 HIN. 40 HIN. 45 HIN. 50 MIN. 55 HIN. 60 HIlh TX ZC-7910AS TX-CC 7920AS K-C(~7079AS K-CC-7077AS K-(LATER)
TE-(LATER)
Dry Tower North End Dry Tower Mi e Dry Tower South End TESTING B KMERS RID ID T=0 5 HIN. 10 HIN. 15 HIN. 20 MIN. 25 HIN. 30 HIN. 35 HIN. 40 MIN. 45 MIN. 50 HIN. 55 HIN. 60 MIN.
TX-CC-7910BS TX-CC-7920BS K-CC-7079BS K-CC-7077BS TE-(LATER)
TE-(LATER)
Dry Tearer North End Dry Tcwer Middle Dry Tower South End Data Taken By Data Reviewed By SZf-TP-250 Attachment 8.2.1 Draft 2
PITOT TUBE TRAVERSE DATA TABLE LOCA NORAtAL SHUTDONN TORNADO CASE CCW FLOW SIDE A/B (Clxcle One)
TEST DATE LOCATION OF TRAVERSE TEST ENGINEER MEASURED P P" DIA)iETER ( INCHES) 0 ini ! t I STA. X STA. X IN. t!M. 0 IN. 0' IH. 0 IH.I D D )NJ 1 l .025 2 .078
.134
, laL 5 .258 6 .330 .051
. 408 .163
.500 .293 9 .613 .452 10 .776 .684 ENTERLINE HOT IH AVERAGE 10 1 22 1. 316 9 1. 381 l. 548I
) 8 1.500l 1. 707 7 .1. 59 l. 837 6 l. 670I 1. 949 5 1.74 1.80 3 1.88 2 1.92 1.97 PITOT TUBE USED TOTAL TOTAL TOTAL'OTAL TUBE COEFFICIENT, C= AVG. AVG. AVG. AVG.
TUBE BLOCKAGE DIA., TBD= IH.
l MANOMETER FLUID SPECIFIC GRAVITY OF MANOMETER FLUID, SGF""
'riATER TBIPERATURE DEG. F AMBIENT TEMPERATURE DEG. F FLOH GPM= 7.221 </4 (MEAS. DIA. } - 1/2 (MEAS. DIA.) X TBD X SGF - 1 ) x (AVG. JO )
SIT-TP-250 Attachment 8.2.2
PITOT TUBE TRAVERSE DATA TABLE LOCA NORNAL SHUTDOWN TORNADO CASE ACCW FLOW SIDE A/B
'(Circle One)
TEST DATE LOCATION OF TRAVERSE TEST ENGINEER t>EASURED PIPE DIAtIETE.". (INCHES) i ir,LF~ I xnIJ ~
STA. X STA. X D IN. LJ 0 IH. 0 0 IN. O rNJ i .025
.078
.134
.194
.258
.330 1 .051 )
. 408 2 .163
.500 3 .293
.613 4 .452 10 .776 5 .684 NTERLENE NOT IN AVERAGE 10 1.22
- l. 38$ 1.548I 1.50 1.?07
.l. 59 l. 837
- 1. 67 1.949 1.74
- l. 80
- l. 88
- l. 92
- 1. 97 PITOT TUBE USED TOTAL TOTAL TOTAL TOTAL TUBE COEFFICIENT, C= AYG. AYG. AVG. AVG.
TUBE BLOCKAGE DIA., TBQ= IN.
MANOMETER FLUID SPECIFIC GRAYITY OF tQHOt1ETER FLUID, SGF=
MATER TEMPERATURE DEG. F AMBIENT TEMPERATURE DEG. F H GPM= 7.221 ~/4 (t1EAS. DIA.) - 1/2 (MEAS. DIA.} X TBD X SGF - j } x (AUG. JD }
SIT-TP-250 Attachment 8.2.2
PXZOT'UBE TRAVERSE DATA TABLE TEST KQUIPMENT DC 'Clll iTICII AC C. AFCQQI DCCCIlIPTIDH %ST E AAII4X ACC.
'AT CCMMENT5'ERFORMED SY' E:
DATE DAT E EV I K'N ED BY DATE: PAGE OF
-TP-250 Attachment 8.2.2 9
LocA FLSl ORIFICE READIHGS goanhL sou'tbo~~
'f /Ills CASE QlLlM~
FT-CC-7el8AS TIHE ZQIHX ~ 3Kl6lL 35JQH 2lJGH 25JKt! ZLHQl ~IUD, ~tl ~l 5KHIH 55Jil3i fiKKK during ACCM piping traverse for Met Touer A FT-CC-VO78DS firn during ACCM piping traverse for Met Tamer D Temporary CCM orifice during CCM piping traverse for Dry Tower A Temporary CCM orifice during CCM piping traverse for Dry Tearer D floe 5n-TP->N
-EF6-3&co& Attachment 8.2.3
FL(N ORIFICE READINGS TEST EQUIPMKNT OC 'CRII'TIOII RA II 4K AC Ce RgC $L OESCRIPTIOH RAII4 X AC C.
COMMENTS PKRFORQKO 8Y'.
R KYI K'8 KO 3Y 'ATK: aC OATE PAGE OF QA OAT E SIT-TP-250 Attachment 8.2.3
LOCA NORMAL SHUTDOWN TORNADO CASE FAN INPUT POWER DATA TABLE Wattmeter Readings Fan 1 Fan 5 Fan 2 Fan 6 Fan 3 Fan 7 Fan Fan 8 Horsepower Calculation Ambient Avg. Avg. Temp. Horsepower Volts Amps (deg. F) (HP)
Fan 1 Fan 2 Fan 3 Fan 4 Fan 5 Fan 6 Fan 7 Fan 8 HP = ggggts3, q (qggqP q L 3P x Kg 746 where EF = 0.71 SIT-TP-250 Attachment 8.2.5 Draft 2
OOgME $ 7$ .
ac PERFORlAEO BY OAT E OAT E REYtEVtEO BY OATE:
PAGE OF SIT-TP-250 Attachment 8.2.5 Draft 2
LOCA tGRNAL 3lUTDOWN TORNADO CASE WEf TOMER TEHPERATURlfDATA TABLE South Cell North Cell East Mest Inlet Face RTDs Window Window West 1 2 3 4 RfD RTD Dry Inlet Face RTDs Window Mind<>>r Dry Xim MWU~3el ~51bl &ehJhkhl 2ulh JKQ Xf9 Rulb Per formed By: Date:
Rcvimed By: Date:
SIT-TP-250 Attadment 8.2.6 Draft 2
LOCA NORMAL SHUTDOWN TORNADO CASE A>'Ft~iQ 4r TER READINGS - WET TOWER North Cell
- South Cell East Hest East West T3.me o Uiodgu Hi Od aZ Hi adam Hi ndmt Reviewed By: Date:
Perf or med By: Date:
SIT-TP-250 Attachment 8.2.7 Draft 2
LOCA NORMAL SHUTDOllN TORNADO CASE AMBIENT CONDITIONS DATA'TABLE Drz Quash 0
Per formed By: Date:
Reviewed By: Date:
SIT-TP-250 Attachment 8.2.8 Dr aft 2
LOCA CALCULATION SHEET 8.3.1.1 Using the equations given below, calculate the available heat duty for the LOCA test.
(1) Q = m (he - hi) ll p,'> Q = heat flux in Btu/hr = 176 x 10 Btu/hr mass flow rate of water in ibm/hr as calculated in equation (2) hi enthalpy of liquid water as found in the ASt<E Steam Tables at the water temperature read by the RTD at the inlet of the boiler heat ex-changer he = enthalpy of liquid water as found in the ASHE Steam Tables at the water temperature read by the RTD at the exit of the boiler heat exchanger p
(go[') = p (Ibm(gt ) Vbl. (c~j w'm) kG Cmin/hr) 0 ~337 ()Flat) p
= density of water at the water temperature read by the RTD at the inlet to the boiler heat exchanger Vol. = volumetric flow rate determined in Attachment LATER 8.3.1.2 If equation (1) gives a heat flux less than 176 x 10 Btu/hr, X recor d the data on the table and inform the Test Director.
SIT-TP-250 Attachment 8.3.1 Draft 2
LOCA CALCULATION SHEET Vol Pi hi he m Dms kaaXCPm2. u, PB, Xzemlrc~k Xa X'ZS (aautXam) (acute>m Zzatolnra aXutVz>
Performed By: Date:
Reviewed By: Date:
SIT-TP-250 Attachment 8.3.1 Draft 2
NORMAL SHUTDOWN CALCULATION SHEET 8.3.2.1 n>t duty for the 4&6@ test.
~
Using the equations Riven below, calculate the available heat; A S ared'~
(1) 5 = m (he - hi)
I1 0 = heat flux in Btu/hr = 127 x 10 Btu/hr m = mass flow rate of water in ibm/hr as calculated in equation (2) hi = enthalpy of liquid water as found in the ASME Steam Tables at the water temperature read by the RTD at the inlet of the boiler heat ex-changer he = enthalpy of liquid water as found in the ASME Steam Tables at the water temper ature read by the RTD at the exit, of the boiler heat exchanger (2) m =
p 0/o I.) = Ie Cfsmfgl g I/e'I. (yah/sin ) coo Cion +) O. Iysy(g+/p) density of water at the water temperature read by the RTD at the inlet to the boiler heat; exchanger Yol. = volumet;ric flow rate determined in Attachment LATER 8.3.2.2 If equation (1) gives a heat n,
flux less than 127 x 10 Btu/hry record the data on the table and inform the Test Director.
SIT-TP-250 Attachment 8.3.2 Draft; 2
NORMAL SHUTDOWN CALCULATlON SHEET Vol /i hi he Ximsk.salLNE Q. 2 El R3hslff l x~ ~'z~ (a~u/i~m) Ql ul3.hm) Zlhm/hei Biu/be2 Performed By: D ate:
Reviewed By: D ate:
SlT-TP-250 Attachment 8.3.2 Dr aft 2
TORilADO CASE CALCULATION SHEET 8.3.3.1 duty for the (1)
~
Using the equations given below, calculate the available heat
'or~a test,
- hi)
X Q = ni (he CI
= hea" flux in Btu/hr = 91.5 x 10 Btu/hr m = mass flow rate of water in ibm/hr as calculated in. equation (2) hi = enthalpy of liquid water as found in the ASME Steam Tables at the water temperature read by the RTD at the inlet of the boiler heat ex-changer he = enthalpy of liquid water as found in the ASME Steam Tables at the water temperature read by the RTD at the exit of the boiler heat exchanger (2) (g( ) p (lb>> Iy ') V:I cp /.~~) ~~( ~ I>> > 6 '>>>> cg~'/p3 P
= density of water at the water temperature read by the RTD at the inlet to the boiler heat exchanger Vol. = volumetric flow rate determined in Attachment LATER 8.3.3.2 Zf equation (1) gives a heat flux less than 91.5 x 10 Btu/hr, n
record the data on the table and inform the Test. Director.
SIT-TP-250 Attachment 8.3.3 Draft 2
TORNADO CASE CALCULATION SHEET Vol hi he Ximc ksa3.LPR Xi 2 E3.
A I I~m>>
P'erformed By: D Reviewed By: D ate:
SXT-TP-250 Attachment, 8.3.3
WET TOWER PERFORMANCE CALCULATION SHEET The manufacturer has submitted figures , , and . At the test wet bulb, generate a new set 'of curves with the ordinate being cooling range and the abscissa being cold water temperature. The family of curves will be the water flow rate, For the test cooling range, generate a new curve with the ordinate being cold water temperature and the abscissa being the predicted water flow rate. At the test cold water temperature, read the predicted flow rate. The capability of the tower is Capability =
i0)P@f fPX $ 11 x 100 wher.e ADJUSTED TEST GPM = TEST GPM (QESIGQ FAg Hg)
For any capability less than 100$ , the wet tower is assumed to fail the guarantee.
SIT-TP-250 Attachment 8.3.4 Draft 2
MATER LOSS CALCULATION S:-:""""
The water loss from the ACCM Sy="em will be 'c: rmiried by measure xr.g the change in volume of th wet "ower water oasin fo; the durat'on of the test. Mal<cup to the ACCT System will be ur~~ ',: ':,
Tne water l vel in the basin wil'e measur -:, r ~r'nu af-,er the test, us'ng a tape measure a"tached to -'::".. afire a vernier caliper, SIT-TP-250 Attachment 8.3.5 Draft 2
CHRONOLOGICAL LOG Sheet of System No. NA Title Ultimate Heat Sink Test Procedure No.
DATE/TXME COMMENTS SIT-TP-250 Attachment 8.4.1
.':i e imprint) LI>l. tea 1S Attachnient 8.4.2 Draft l
VALVe.'iI"'IFUP TAk3LE I'ONER A NOTE: This is tne valve Jin up for operation of ~et Tower A with CC~iI Pump A/B lined up as Pumo A and CCw Pump 8 lined up to carry all CCM heat loads.
REOUI'RED PERFORMED VERXFXED V A L V I" II 0 . DESCR I PT 'i)i'I POSXTXON (IIIXTXALS) (XNXTXALS) 3CC-FIONA/B CCN PUÃP DISCHARGE XSOLATXON TAGGED OPEN VALVE.'C.i 3CC-F113A/B PIJI<P SI<CTION .ISOLA'l'ION TAGGED OPEN VAl VF:
3CC-F110A/B CCH PIJ~P DXSCHARCE XSOLATXON TAGGFD OPEN VALVE F '4A/l3 CCiI PUJiP SUCTION XSOt ATION TAGGED OPEN 3CC-B108A/8 CC'iI PUHP A/B SUCTXO!I ISQI A- TAGGED CLOSED TXO."3 VALVE 3CC 111A/B CC iI PUi'P DISCHARGE XSOLATXON TAGGED CLOSED VALVE 3CC-115A/8 CCl4 PUNP SUCTIOII XSOLATXON TAGGED CIOSED VALVE 3CC-112A/B CCl) PUiiP 01SCHARGE XSOLATION TAGGED CLOSED VALVE 3CC 116A/B CC'H PUNP SIJCTXON XSOLATXOPI TAGGED CLOSED VALVE 3CC-8117A CCI PU
1P A SUCTXON VALVE CLOSED 3CC-B201A DRY TOwER A XNl,ET ISOLATION OPEN VALVE DRY TONIER A BYPASS XSOLATXON CLOSFD VALVE SXT-TP-250 Attachment 8.4.3 Draft 2 VALVE LINEUP TABLE ro>>ER A REOUIREO PERFORtlKD VERIFIED VALVl NQ ~ DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC"B8'1A ORY TOAKR A INLET HCADKR OPEN l SOLA l'Ot~ VAfiVE 3CC-B82A DRY I'0 vKR A INE KT HEADER OP K."l ZSOLATJON VALVE 3CC-983A DRY 70>>ER A INLEl'EADER IS0f ATI0N VALVE 3CC B84A OR Y TO'>> KR A I'lb ET HEADER OP Ei'J ISOLATION VALVE -B85A DRY TO'HER A INLET HEADER OPEtl ISOLATION VALVE 3CC-886A DR Y TO':i FR A INLET HEAOFR OPEN ZSOf ATION VAl VE 3CC-887A DRY TOlvER A I tl LET H KAOKR OPEN ISOLATION VALVE 3CC-B88A DRY TO>>ER A INLET HEADFR OPF.N ISOlATION VALVE 3CC-889A DRY TO!VER A I "lLET HEADER OPEN ISOf ATION VAl VE 3CC-B90A DRY TOWER A ZtfLET HEADER OPEN ISOLATION V AE<V K 3CC-B91A DRY 70iiiKR A ZtJLKT DISCHARGE OP Et< ISOLATIOtl VA LVE 3CC"892A ORY TO'>>'ER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B93A DRY TOWER A INLET DISCHARGF. OPEN ZSOLATZON VALVE 89 4A DRY TOf'PER A INLET DISCHARGE OPEN ISOLATION VAf VK SIT-TP-250 Attachment 8.4.3 Draft 2 VAL'/E LINEUP TAf3LK TU".4 E fk A REQUIRED PERFORNEO VERIFIED VALVE hO ~ DESCRIPTION POSITION (INITIALS) ( INITIALS) 3CC-l395A ORX TONER A 1NlKV OISCHAfiGK OPEN ISOLATION '/Af VE 3CC-096& DRY TO<YER A ZNl KT DISCHARGE OPEN ISOLATION VAl VE 3CC-897A ORY TOHEB A INLET DISCHARGE OP" i1 1SOLA'1'ION VALVE 3CC-f398 @ ORY TO'zLKR A Ii'ibFT DISCHARGE OPEN ISOr.ArION VAr,VK 3 "",f399 A ORY TOi" KR A INLET DISCHARGE 0 Pe.N ISOLATION VALVE 3CC-f3100A ORY TO'ciKR A INLFT DISCHARGE OP FN ISOLATION VAlVE 3CC-f3104A CCw HEAT EXCHANGER A INLET VALVE 3CC-f3238A CCW HEAT EXCHANGER A BYPASS TAGGED CLOSED VALVE 3CC-l3140A CCH HEAT EXCHANGER A TAGGED CLOSED DISCHARGE VAl VF. 7CC-V003 CCW HFAOFR A ISOLATION TU TAGGED OPEi4 TKHPORARY HEAT EXCHANGER 7CC-V006 CC'~i PUMP A/9 SUCTION FROM OPEN 'TEHPORARY fiEAT EXCHANGER 7CC-V004 CCN HEADER f3 ISOLATION TO CLOSED TEMPORARY HEAT KXCHANGKR 7CC-V005 TKNPURARY HKAT EXCHANGER OPEN DISCHARGE ZSGLA1ION VALVE S4i ACCT RISEP. HKADKB ISOLATION OPEN VALVE SIT-TP"-250 Attachment 8.4.3 Draft 2 lALVK LINEUP TABLE TO'AER A REOUIRED PERFORi>>KD VERIFIED VALVK HO ~ DESCRIPTION POSITIOi'1 (XNXTIALS) (XiNITXALS) 3CC-857A ACCYi RISER HEADER ISOLATION OPEN VALVE 3CC-B58A Acct~ RISER HEADER ISOLATION VALVE 3CC-B53A ACC'ii! RISER HEADER ISOLATION OPFN VALVE 3CC-8260A Accll PUMP A SUCTION ISOLATION OPEi'1 VALVE -B288A ACCN PUMP A DISCHARGE ISOLA- OPE.!1 TION VALVE 3CC-T:4290A ACC'~ Pu>>P A FLO~f CONTROL CLOSED VALVE 3CC-t3292A ACC'A PUMP A FLO'if CONTROL OPEN VAr VE DISC!WRGK ISOLATION VALVE 7CC-V008 TKilPORARY HEATER DRAIN VALVE OPEN 7CC-PV002 'rKtiPORARY BOILER STEAN AUTO CONTRof> VA LVK 7CC-TV001 TEl<PORARY HEATKf< TEMPERATURE AUTO CONTROL VA'4VE 7CC-V007 i>>AKKUP TO SURGE TANK (f ATER) 3CC-F285B To !ER EQUALIZING VALVES 3CC-F284A WKT 'pdtOgp R@gALAZih)Q 'lfAL V ~ CLOSED CLOSED SX T.- r P-250 Attachment 8.4.3 Draft 2 VAlVE LINEUP TABLE TOWER 6 NOTE: This is the valve 1 i.neup for the operation of Net Tower 8 with CCM Pump A/8 ll.ned uo as Pumo r3 and CC~1 Pumo A lined up to carry all CCN heat loads. HEQUXHED PERFORNKD VERXFXED VAl VE NO DESCRXPT10i4 POSITION (INXTXAIS) 'INXTXAlS) 3CC-F109A/8 CCN PU'>>P 01SCHARGE XSOLATIOll TAGGED CLOSED VALVE 3CC-F113A/8 CC~4 PUNP SUCTION f SOf AXi ION TAGGED CLOSED VALV" 3CC-F110A/8 CC>>l PUHP 0 ISCi! ANGE IS()LA'l'XON TAGGED CLOSED VALVE F114A/8 CCw'Ublp SUCTXO;l ISOLATION TAGGED CLOSED VAl VE 3CC-8108A/8 CCN PUii>>P A/8 SUCTXOi~l ISOLA- TAGGED CLOSED TION VALVF,. 3CC 1 1 l A/8 CCN PU~
>l TAGGED OPEN VALVF. 3CC-116A/B CCN PU~P SUCTION ISOLATION TAGGED OPEN VALVE 3CC-01186 CCN PUNP A DISCHARGE VALVE CLOSED l 3CC-81078 CC>>l PUMP A SUCTION VAt VE CLOSED 3CC-82038 DRY TONER 8 Xl'1LET ISOLATION OPEN VALVE 82628 DHY TONER 8 BYPASS ISOLATION CLOSED VALVl', SIT-TP-250 Attachment 8.4.4 Draft 2 VALVE LI)'!E!JP TAGI)E TO'>ER 8 REQUIRED PERF ORHED VERIFIEO VALVE )>0 DESCRIPTION POSITIO)3 f.rrfIVIALS) (If!Z TIARA S) 3CC-8718 DRY TONER 8 ll'iLET HEADER OPEll f:SOLATIO"l VALVE 3CC-8728 DRY TO'))ER 8 lf'!LET ilEAOER UPE)i ISOf)ATION VALVE 3CC-8738 ORY TONER 8 INl ET HEADER OPEI! ISOLATION VALVE 3CC-8748 ORY TOl" ER 8 IF)LET l!EADER OPEN ISOLATION VALVE 3'8758 DRY TONER 9 INLET ifEADER OPEf'f ISOf,ATfON VALVE 3CC-8768 DRY TOHER 8) 1."!LET ilEAOl;R OPEbl ISOLATIOf! VALVE 3CC-877!3 ORY TQ'HER 8 Ii>f ET HEADER OP El'l ISOLATION VALVE 3CC-8788 DRY TO))fER 8 Iilf,ET HEADER OP.EN ISOLATIOff VALVE 3CC-8798 f)RY TO<lER 8 INLET HEADER OPEN ISOLATIOf'f VALVE 3CC-8808 DRX TO)HER 8 Xi(LET HEADER OPEN ISOf ATIOW VAr. VE 3CC-BbiB DR Y TO*a EP, 8 DISCHARGE HEADER OP E.l ISOLATION VALVE 3CC-8'62'8 DRY TONER 8 DISCHARGE HEADER OPEiV ISOLATION VALVE 3CC-8638 DRY TO'HER 8 DISCHARGE HEADER OPEff ISOLATX0 "/ VA L V E 6ia DRX TOWER 8 DISCHARGE F!EAOER OP El)f ISOI ATIOf! VALVE SIT-TP-250 Attachfnent 8.4.4 Draft 2 VALVE LXNEUP TABLE TONER 0 REQUIRED PERFORNED VERIFIED VALVE JJO fiESCRIPTION POSITION (XNITXALS) ( It'JITXALS) 3CC-8658 DPY TOMKR 8 DISCfiARGE HKADFR OPEN LSOLATION VALVE 3CC-8668 DRY TONIER 8 DXSCHARGE HEAD"R OPEN XSOf>ATXOi'J VALVE 3CC-8678 DRY TOiER 8 DISCHARGE HEADER OPKiJ ISOLATION VALVE 3CC-8688 Di? X TUi'JER 8 DXSCJJARGK HEADER OPEN lSOLATION VALVE '3~ -8698 ORY TO'rER 8 DISCflARGE HEADER OPEiN VALVE '3CC-8708 f)RY TO'HER 8 DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-81058 CCif HEAT EXCHANGER 8 INLET OPKN VALVE 3CC-82398 CC'>> HEAT KXCHANGKR 8 BYPASS TAGGED CLOSED +55'SOLATXONVALVE 3CC-81418 CCN HEAT EXCHANGER 8 TAGGED CLOSED DISCHARGE VALVE 7CC-V004 CCH HEADER 8 ISOLATION TO TAGGED OPEN TEMPORARY HEAT EXCHANGER 7CC.-V006 CC~A PUMP A/8 SUCTIOiif FROH OPEN TEMPORARY HEAT EXCHA."JGER 7CC-V003 CCW flKADER A XSOLATIOltJ TO CLOSED TEMPORARY HEAT KXCHANGER 7CC-V005 TE>>PORARY HEAT KXCHAiJGER OPEN DISCHARGE XSOl ATION VALVE ACCW RISER HEADER ISOLATION OPEN VALVE SIT-TP-250 Attachment 8.4.4 Draft 2 I 'I ' ~ I ~ YAL 4E IiIXi.UP TABLE'U-.,~R 8 REQUIRED PERFORMED VERIFIED YAl VK HO. DESCRIPTION POSITIO."l (II'JXTIAGS) (INITIALS) 3CC-B56B ACC'<'I SER SEA!>El; l. S() LA I ZO~> i)PEtJ VALVE 3CC-P 5 9 ACC'sl RISER Hi ADE!J XSOLAT10h OPEN VAf VE L'CC-eeOv ACC'.": R I.SF'!'IFAUER ISOIih'I' At) OPE>l VALVE 3CC-f)2618 ACC'~ PULP 6 SUCTIO fSOI AT10V OPED VALVE '82899 ACC., PI)h P I) D PSC (ARRI; IS()l A OPEtl 7IOll YA4 VE 3CC- I'H2918 ACC'6 PU!1P 0 FLO "~ C!!!ITROI CLOSI";D VALYE 3CC'-B293B ACCT PU'.)P L'f~04 COl'ITPOI OPEh YAf.YK DISCI)AH(;E ISOI,ATIQI'I VALVE SIT-TP-250 Attachment 8.4.4 Draft 2 PROCEDURE NO. SIT-TP-250 SYSTEM DEFICIENCY RECORD Page af REV. CLEARED Dct. No C.I.R.No. Affected DESCRIPTION Ilt o Porogroph Dole Inillol~ SIT-TP-250 At tacle>ent 8.4.5 RESTOP ~ TXr)'J '/Af'/E L I'.JEUP '7ABLE I'Q<4EAS A A>'JD 8 NoTE: This is tne valve lineup for normal operatio'n of wet Tower A with ccM Pun p A/8 lined up as Pump A and CC'~ Pu>>ip 8 lined up to carry all CCW neat loads. Rf'.QU f'RED PEHFORHED VERIFIED irAJ,VF. Nn. f)ESCR 1. P'J'lrG!i POS XTXOli (I'J ITIAfiS) (INITIALS) 3CC-F209h/8 CC'n'fJNP D f'SCHARGE IS04ATIOlJ VALVE 3CC-F113A/8 CC I PU"fP SUCTION l TSOf ATION V ALVF. 3CC-F110" /8 CC>J PUNP DISCHARGE ISOLATION SPEW VALVE 3 F2 l.>fh/8 CC'8 PJJb'P SUCTION ISOf>AT10>~J OPEJJ VAL'/J 3CC-82nsh/8 Ccri PU P A/8 SUCTlON rSOLA- OPEN TION VALVE 3CC-111A/8 CC>>/ PUJ
'J PUllP SUCTION ISOLATION OPEN VALVE 3CC-112A/8 CC'0 PUMP DISCHARGE ISOLATION OPENi '/A L VE 3CC 116h/8 CCk Plf'
J VALVE 3CC-8217A CCH PU'!P A DISCHARGE VALVE OPEN 3CC-8106A CCb PUi1P A SUCTION VAf VE OPEN 3CC-8201A DRY TOHER A Jiff ET ISOLATION OPEN VALVE 9265A DRY TOliER A BYPASS 1SOLATION CLOSED VALVE SIT-TP-250 Attachment 8.4.6 Draft 2
B is Y &Fi'>> p ~' F ( ) j'> v,s i') V f B I,"'s [ !i Vis j's V s a s DESCPIP' I sa I
is. i ~
~ ( I "-'. 7 I '. s iS ) ( I IT I A L S )
1'1 3CC'B8] .", iOR Y Ts 1'.
ISOLAT f >
3CC"B82A DRY TOrl":s~ V ISULAT [ON Vkb'ssr.
3CC"883A DBY TO" r "" s' ',i:."",~s.APEP OPE;:
ISOLATIur. vA: Vt.
3CC-884k ORX FO'."..: I'1L=: ( ) es ir I ~
ISOLATX.'. 5 l,i1 e
'. 85A DR Y TG'o" ' ~ I Is ~ a>> ~ (jPEiv 3 SOLATIO1FB 4 I':LET 1iEADKR UPEi'1 ISOLATIOs1 VALVE 3CC-689A DR Y TG(E'ER A INLET:.1 1'.@De. R OPEN XSOLATIiisv VAfsVE 3CC-B90A DR Y TO "(E~ A I 'isLE F s<"'A!) ER XSOLATIO'~ VALVE 3CC-69iA DRY TOPER 4 INLET DISCHARGE OPEN ISOLATION VALVr.
3CC"892A DBY TO'".EB A I~LET DISCHARGE ISOLATION VALVE 3CC-B93A DBY TOWER A IHLE'F DISCHARGE OPEN ISOLATION VALVE
RES I'vt',AT IO(l VALVl. lil'.4EUP TABLE TONER S 4 A4 f) f3 f(l'.{CUIRf;I) PEHFORi4(ED VERIFIED VALVE NO. t)ESCRIPTIO~! POSITIOi~l (INITIALS) (IN ZTIAf S) 3CC-f3956 DRY TO<<KR A I'iLET DlSCHABGf' OPFi'prN TSOLATI(.'".; VAf VE 3CC-f396A DRY TOiif'R A 14LKT 0 f SCtlAiRGE ISOfiATION VALUE 3CC-f397 A DRY. TOE(.:fk A I "LK f'. DISCHARGE i)PKi'l ZS04ATI'Oti VALVE 3CC-f398A D!.Y 70"!ER A D(LET DISCHARGE OPEN ISOLAT10N VALVE B99A 9RY TONER A LNLt'T DISCHAf<Gf', oprN ISOLATION VALVe.
3CC-f3100A Df<Y TO'~EH A ki'iLET DISCHARGE Opr.,l ISOLAT [04 VAr VF 3CC-f3104A CC'~> HF.AT KXCffAi'fGER A I h< LET OPEN VALVE 3CC-f3238A CCiif flEA'f'XCHANGER A (3YPASS Cr,OSED VALVF 3CC-8140 A CC'<<HFAT EXC)lht'GER A OPEN DISCfiARGE VALVE 7CC-V003 CC'A HEADER A ISOf ATION TO CLOSED TE'fPORARY HEAT EXCHANGER 7CC-V006 CCtv PUiap A/8 SUCTION FRO4f CLOSED TE(3PORARY He.AT EXCHANGER 7CC-V004 CGA'EADER f3 ISOLATION TO CLOSED TEHPOHARY HEAT EXCHANGER 7CC-V005 TEiNPORARY HEAT EXCHANGER OPEN DISCHARGE ISOLATION VALVE 354A ACCT RISER Hf'.ADl'.R ISOLATION VALVE S'IT-TP"250 Attachment 8.4.6 Draft 2
8'.51 JRATIO"'ALV'. L\."!KUP TABLE TOWERS A AND 9 UF'i(""XP rIEQUIRED POSITION PKRFORnlED VERIFIED (INITIALS) (INITIALS)
~ C< v' SF'. 'JK EDKR XsiJLATXON OPEtl VALVF, 3CC"BS<!A ACCv, Rrsl;R !'i;.'l KR lSOt >1IO~J V1LVK 3CC-B53A ACC v RISER HEADKl? XS:3LATIOni OPKJJ VALvE 3CC-b2605 ACC i PUiRP A SJJCTIOH ISOLATION OPKJ4 VALVE 3 3288A Accl< PURt' D ISCllARGK ISOLA- APE'J TIOtl VAl V" 3CC-TH290A ACCH Pl<.lP A t 40>" Ci).'JTROL AS XS VALVE 3CC-R2924 ACCN PU'iJP A FJO" CONTROL OPEN VAl VE DISC>>Z<<aK ISOLATION VALVE 7CC-VOOJJ TKl'IPORAHY llKATKR Df',AInl VALVE OPEN 7CC-PV002 'J'EHVGRABY HQILER STKAnl AUTO <<~~% ~
COi'lTROL V ALVK 7CC-Tvooi TEJlPORARY HEATFR TE'".PKJeATURE AUTO CONTROL VAliVE 7CC-V007 MAKEUP TO SURGE TAthle; (LATER)
SXT TP-250 Attachment 8.4.6 Draft 2
0 TORNADO VALVE LINEUP TA8LE TONER A VOTE: This is the valve lineup for operation of Het Tower A with CC~ Pump A/8 lined up as Pump A and CCvt Puttp 8 lined up to carry all CC;t heat loads.
REQUIRED PERFOR!5ED VERIFIED VAl VF NO ~ Dc SCRIPTION POSITION (INITIALS) ( IttITXAf,S) 3CC-F109A/8 CCW PUNP DISCHARGE ISOf ATION TAGGED OPEN V A I>VE
.3CC-F113A/8 CC'A'UMP SUCTION ISOLATION TAGGED OPEN VALVE 3Ct" F110A/8 CCrt PU!P t)ISCHARGE ISOLATIOt.'ALVE TAGGED OPEN F114A/8 CC>1 PUt
PUttP DISCtfAPGE ISOf ATIO "i TAGGED CLOSED VALVE 3CC-115A/f3 Cch Pvt.P SUCTION ISOLATION TAGGED CLOSED VALVE 3CC-112A/8 CCb PUMP l>ISCHARGE ISOLATION TAGGED CLOSED VALVE 3CC'1 1 6 A/8 CC'A PU t'I P SUCTION't ISOLATION TAGGFD CLOSED VALVE 3CC-8117A CCM PUMP A DISCHARGE VALVE CLOSED 3CC-8106A CCL< PUh<P A SUCT I ON VAf VE CLOSED 3CC-8201A DRY TONER A INLET ISOLATION OPEN VALVE 265A DRY TOiPER A f3YPASS ISOLATION CLOSED VALVE SXT-TP-250 Attachtoent 8.4.7 Draft 2 TOR'J'f)O VALVE LIJJEVP TABLE 'f'0'l":E P. A REQUIRED PERFORMED VERIFIED VALVE NO DESCRIPTION POSITION (INITIALS) (INITIAtS) 3CC" 881A DRY TOHER A I.'JLET;JF.Af)ER OVEN lSOLATXON VALVE 3CC-B82A DRY TO!HER A IfJ LET HEADER OPEi'J ISOLATION VAliVE 3CC-883A J)FY TG':JER A INLET HEADER OPEN ISOLATIOJ'f VALVE 3CC-884A DRY TO'AKR A INLET HFADER OPEN ISOLATION VALVE ORY Tf)'~KB A INLET HEADER OPEN ISOLATIOtJ VALVE 3CC-B86A DRY TOAER A XNLET HEADER OPEN ISOfjATI04 VALVF. 3CC-887A DfiY TOf'E'ER A I'l ET HEAI)KR OPEN ISOLATION VALVF 3CC-888A D})Y TONER A INLET HEADER OPEN ISOLATION VALVE 3CC.-B89A DRY TONER A XNl)K'J'EADER OP Efl ISOLATION VALVE 3CC-890A DRY TO'rlER A INLET HEADER OPEN ISOLAT lON VALVE 3CC-J391A DRY TOi<ER A INLET DISCHARGE OPEJJ ISOLATION VALVE 3CC-B92A DRY TOMKJf A:lNLET DISCHARGE OPKrf ISOLATION VALVE 3CC-B93A DRY TONER A INLET DISCHARGE OP Kf'J ISOLATXON VALVE 394A f)RY rO~ER A I;JLKT DISCHARGE OPEtJ ISOLATION VALVE S:I.T TP-250 Attachment 8.4.7 Draft 2 0 TORl'r'A00 VALVE LINEUP TABLE fr>E'ER -A REQUIRED PERFOR'lED VERIFIED VAl,VE ~O. DESCRIPTION POSITXQrl (I NITTALS) (INITIALS) 3CC-09%A DP Y TO E'ER A IL"LET 0 1SCtiARGE OP XSOLATXCiVE 3CC-U96A DRY TO!'E'ER A J "1 ET DZSCH URGE OPEN ISOLATIOll VALVE 3CC-897A DRY TOwER A I'~! IiET DXSCH ARGK OPEN ISOLATZOif VALVF 3CC-B98A DRY TO"ER A I~LET DISCHARGE OPEN ISOLA 1'ION V AljVK 99A DRY TO~ER A (NLET DXSCiiARGK OPEN ISOLATION V Al Vf'RY 3CC"B1,00A TOVii:P A INLET DISCHARGE OPK( ISOLATION~ VALVE 3CC-B104A CCkr HEA'I'XCHAUG ER A I N l i: T CLOSED VALVE 3CC-6238A CC'ri HEAT. FXCii ANGER A BYPASS OPEN VALVE 3CC 8140A CCH !iFAT EXCfihblGER A TAGGED CLOSED DISCHARGE VALVE 7CC-V003 CC<v'EADER A ISOLATION TO TAGGED OPEN TEhfPORAf<Y ?1KAT EXCHANGER 7CC V006 CCA PUr
O ~ DESCRIPTION POSITION (INI;TIALS) ( INITIAfiS) 3CC-B57h ACCT PISER HEADER ISOLATION OPEN VALVF.. 3CC-858A ACCN RISER HEADER ISOLATION OPEN VAL'lE 3CC-853A ACC'4 RISER HEADER ISOLATION OPEN VALVE 3CC-B2SOA ACC'A PU:fP A SUCTION ISOLATION OPE'8 VAf VE -')288 A ACCN PU'~P A DISCHARGE ISO! A- OPEN TI 0!'.i V A f. Y E 3CC- TM290A ACCT'i PUXP A FLOW COi!TROf AS IS VALVE 3CC-6292A ACC'ji PUMP A Ff OX CONTROL OPEN VALVK Dl'SCHARGE ISOLATION VALVE 7CC-V008 TE'IPORARY HEATER DRAIN VALVE OPEN TCC-PV002 TKifPOf<ARY BOILER STKAlf AUTO CO i'i T B 0 L V A I 'l E 7CC-TV001 TEHPORARY HEATER TEMPERATURE CONTROL VGLYK 7'CC-V007 HAKKUP TO SURGE TANK (LATFR) 3CC-F2859 NET TONIER KQUALIZI'.4G VhliVKS CLOSED 3CC-f 284A NKT T04'KR EQUALIZIt/G VAI VES CLOSED SIT-TP 250 Attachment 8.4.7 Draft 2 TOP!!ADO VAfiVK LDIKUP TABf K TONER 8 TIO VOTE: This is tne valve lineup for the operation of Met Tower B with CCiA Pump A/8 linen up as Pump l3 and CCw Pump A lined up to carry all 'CCil heat loads. REQUIRED PFRFOR>)ED VERIFIED VALVE HO. DESCRIPTIOH POSITIO!i! (INITIALS) (1'HITIALS) 3CC-F109A/B Ccr'ul
',! 'KUP TAHOE TO'+ .'R 8 REOiJIBI:.D PERFORMED VERIFIED VALVE IO ~ DESCBII IIfI,! POSTTIOh (lrIITIALS) (IIITIALS) 3CC-8718 DRY TO 'I B 8 1'll FT 'I4'ADER ISOLA>vnr.' Ai,VE 3CC-8728 DRY TO'viKB 8 I'ii E"l'IEAI'ER OP Eri ISOLATION". VAI. VE 3CC"8738 DRY TO(" EB 8 I "ALE I.'IEADEB OPEN ISOl,ATION VALVE 3CC-8748 DRY TO'PEP 8 I "ILET HEADER OPECJ ISOLATION VAI>VE 3 8758 DRY T(INER 8 I.')LET iiEADER OPED ISOLATION VALVE 3CC-8768 DBY TO'ri r R I I",if>ET HEAOKB ISOIiATIQN VALVE 3CC-8778 DRY TO; ER R Ilif,r'.T IIEADKR OPEu ISOLATTOII VALVE 3CC-8788 DRY TO'(ER 8 1 ILET HEADEP, 0 PE ri ISOLATION VALVE 3CC-8798 DBY TONER 8 IWI KT HEADER OPEH ISOIiATION VALVE 3CC'8'08 DBX TO'dEB 8 I'MI FT, HEADER ISOLATIOrl VALVE 3CC-n'616 DRY TO>NEB 8 IDISCHARGE HEADER OPE,'I ISOI AT ION VAI VK 3CC-8628 DRY TONER 8 DISCHARGE HEADER OPEYt ISOLATION VALVE 3CC-8638 DRY TUI~'KB 8 DISCHARGE HFADER OPEN ISOLATIOi> VALVF. r4O DRY TO'RER 8 DISCHARGE HEADER OPEi4 ISOLATIOI'I VALVE SIT-TP-250 Attachment 8.4.8 Draft 2 TQR'lADf3 VALVE LINKUP TABLE TO<FP 8 REOUi'RED PERFOR'lf;:D VERIFIED VALVE NO ~ DESCRIPTION POSITIO'l ( I".IT f Af 8 3 ( (N ITlAfiS ) 3CC-8658 Of? Y T04!ER b D ISCHARGE i>EADEi? 0 Pi".i4 ISOLATIflN VALVE 3CC-8658 DRY TOi>/ER 8 DISCHARGF. HFADER OPEN ISOLATIO,"'ALVE 3CC-8678 DRY TONI'. 8 DISCHARGF HEADER OPED ISOLATION VALVE 3CC-8688 DRY TO'rtER 8 DISCHARGE HEADER OPEN ISOLATION VALVE 698 DRY TOILER 8 DISCHARGE HEADFR OPEN ISOLATION VALVE 3CC-8708 DRY TO!'E'ER 8 DISCHARGE HEADER OPEN ISOfzATIOh VALVE 3CC-81058 CCN HEAT FXCHANGKR 8 INf KT CLOSED VALVE 3CC-82398 CCM HEAT EXCHANiGER 8 BYPASS OPEN VALVE 3CC-81418 CCkf HEAT EXCHANGER 8 TAGGED CLOSED DISCHARGE VALVE 7CC-V004 CClii HEADER 8 ISOi ATION TO TAGGED OPEN TEMPORARY HEAT EXCHAiVGKR 7CC-V006 CCii PUNP A/8 SUCTION FROM TEt'PORARY HEAT EXC!iANGER 7CC-V003 CCW HEADER A ISOf ATIOt< TO CLOSED TEMPORARY HEAT EXCHANGER 7CC-V005 TEMPORARY HEAT EXCHANGER OPEN DISCHARGE ISOLA1'ION VALVE +SSB ACC'tl RISER HEADER ISOLATION OPEN VALVE SIT. TP-250 Attachment 8.4.8 Draft 2 f'OR'<ADO VALVE LI!lEUP TABl E TO~ EB 6 REQUIRED PEBFORHFD Vl'.RIFIED VALVE 'le DFSCR IP'f ION POS ITI(lN ( INITIAf<S) ( I!EXTIALS), 3 CC- f35 68 >~CC.v RISI.P '-lEADEB ISOLA'l'IOk OPEN VAf;VE 3CC-R598 ACCT( RI SFR !iEADEB ISOLATION OPEil AT VPE 3CC-8608 ACCT'l RISER HF.ADEE< ISOLATION OPEN VALVE 3CC <<3261 s3 ACC!". PUffP 0 SUCTION ISO( ATION OPEbl YA LVE 3 2898 ACCtil PU.'1P 9 f)ISCHARGE ISOLA- OPENi TION VALVE 3CC-r~29iB ACCT Pfft)P b FLO'A COf<THOL CLOSED VAf VE 3CC-02938 ACC'4 PUHP 8 F404 CONTROL OPEN VALVE DTSCHARGE ISOLATION VALVE 3CC-i 285l3 E~F.X TO:~ER F.OfjAr.irZIVG VAE,VE CLOSED 3CC-F284A MET TO<a'EB F;QUALIZING VALVE CLOSED SIT-TP-250 Attachment 8.4.8 Draft 2 LOUIS)AflA POWER 8 LIGHT CO. 'A'ATERFORD "- MIDDLE SOUTH I'T4JAcS SYSTEM IRIS SIi~G INFORMATION L IS! PROCEDURE NO S I T-T. o4 o fI ROCEDURK 7'. CLEARED ITEM NP, ITEM 4 PARAGRAPH INITIAL oc 7 ~.V.V. I. I p~. > '/ CAu.) 0 I i.
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s.~.a, r'0.Z ALL MISSING INFORMATION ON THIS LIST HAS BEEN CLEARED STARTUP ENGINEER/ASS IGNED AUTHOR SIT-TP-250 Attachment 8.4.9 1
,F418 78 03 SU
LOUI SIAN A POWE R 8I LI GHT CO.
WATERFORO 3 itlOQLE SQUTH MYiuT3cS STSTcM MI S SING I NFORMAT ION LIST PROCEDURE NO. PROCEDURE Tl T LE CLEARED AFFECT E D ITEM NO. IT EM PARAGRAPH DATE I NIT IAL 7K now. kg.s P,l ALI. MISSING INFORMATION ON THIS LIST HAS BEEN CLEARED STARTUP ENGINEER/ASSIGNED AUTHOR Attachment 8.4.9 2'IT-TP-250
.F418 78 03 SU
RZVIZri CHP:CZLIBT Nu-.-'.. er SIT-TP-250 RP/D1 Document Title Ultimate Heat Sin!c Test 3gqw ~ gem t n e b. Ev;w> e~ qo. 2'74 Da e R.via-.: Star ted ' Date Completed Document scope (or test obgectiv s section) Yes 'o n/a is adequate:
Reference sc=t'on (Section 2.0) is complete. Yes No n/a (If no, indicate deficienoies/omissions on Document Review Comments sheet.)
- 3. Stated commitments meet regulator y Yes No n/a requirements. (If no, indicate deficiencies/omissions on Document Reviev Comments sheet.)
Commitment catalog LIsts all known Yes No n/a commitments. (If no, ind'cate deficienc'es/omissions on Document Reviev Comments sheet.)
- 5. Document meets all requirements of Yes No n/a regulatory source documents.
(If no, indicate deficiencies/omissions on Document Review Comments sheet.)
- 6. Document is consistent with other Yes No n/a ref ez'enced documents. (If no, indicate discr e pancies on Document Review Comments sheet.)
Document content is consistent with es No n/a stated scope or test objectives.
(If no~ indicate discrepancies on Document Review Comments sheet.)
SAP 11 Attachment 5.3 Rev. 0
,.1
- 8. Zf document being reviewed is a revision Yes No a of an approved document, are the revised portions consistent with the rest of the document2 (Zf no ~ n/a, explain on Dooument Review Comments sheet.)
MOTE: Questions 9-11 are to be completed following the author' incorporation of comments.
9 List of RECOHMEMDED comments is Yes Mo n/a complete.
tO. List of REQUZRED comments is Yes Mo n/a complete.
Document is recommended for Yes Ho n/a approval and distribution (with ohanges or corrections as noted) .
&ri 8z Designated Reviewer Date SAP 11 Attachment 5.3 Rev. 0
OOCUMKNT RKY lKW COMMKNTS OOCUMEtiT HO. 521 -TP" 0 S a REV.1DRarr T1Tl.E (Elf'~ 4~/ 5 <MAL VwgQ CC5lM Etl T RESOUJT1ON ck~<
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