ML20054N089
| ML20054N089 | |
| Person / Time | |
|---|---|
| Site: | Waterford  |
| Issue date: | 07/12/1982 |
| From: | Morgan J LOUISIANA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML20054N087 | List: |
| References | |
| SIT-TP-250, NUDOCS 8207150337 | |
| Download: ML20054N089 (173) | |
Text
{{#Wiki_filter:1 List of Effective Paces Total Paaes 173 Latest Revision 0 Page dffective Date Revision l 1 113 7-2-82 0 Attachments: 8.1 - 8.4 7-2-82 o (5H pages) i l l 1 l 8207150337 820712 PDR ADOCK 05000332 PDR l
m Startup Inte7 rated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 Ultimate flest Sink Test Revision 0 1.0 U3JECIIEES 1.1 To assess the pertormance level of the ultimate heat sing under simulated loss of coolant accident (LOCA) Conditions. 1.2 To assess the performance level of the ultimate heat sink under simulated normal snutdown conditions. 1.3 To assess the performance level of tne ultimate heat sink under simulated snutdown 21 hours after reactor trip (tornado missile analysis) conditions. 1.4 To conduct a performance evaluation of the wet towers. l l 1
v Startuo Inteqrsted Test SIT-fP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 2.0 EEEEEEUCES 2.1 Commitment Documents 2.1.1 FSAR 2.1.1.1 Chapter 9, Section 9.2.2, Amendment 22, Coolinq System for Reactor Auxiliaries 2.1.1.2 Chaoter 7, Section 4.2.5, Amendment 22, Ultimate Heat Sink 2.1.1.3 Cnanter 9, Taole 9.2-8, Amendment 22, Principal Coolino Tower Components 2.1.1.4 Chapter 14, Section 14.2.12.2.16, Amendment 22, Preoperational Testing 2.1.1.5 Chanter in, Section 3/4.7.5, Amendment 16, Ultimate Heat Sink l 2.1.2 Other Co nraitment Docu nents l l 2.1.2.1 ASME PTC-23, Power rest Code for Atmospheric dater Cooling Equipment, January 1953 2.1.2.2 Hegulatory Guide 1.63, Rev. 2, Initial Test Procrams for dater-Cooled Nuclede Power Plants 2.1.2.3 Regulatory Guide 1.27, Rev. 2, ultimate Heat Sink for Nuclear Poner plants 2.1.2.1 aaterford SES Iln i t No. 3 Response to URC Ouestions 371.15 and 371.09 2.1.2.5 aaterfora 3ES Unit No. 3 Safety Evaluation Report, Section 2.1.5, N!! REG 07d7 I 2
Startup Intearated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultinate Heat Sink Test Revision 0 2.1.2.6 4aterford SES IInit No. 3 Safety Evaluation Report, Section 9.2.5, NUPEG 07S1 2.1.2.7 saterforri SES Unit 40. 3 Response to t!RC Question 010.19 2.2 Purchase Orders 2.2.1 i4Y-40352H, Supplement 13, 09/26/78, Mechanical Draft Cooling Towers and Accessories 2.2.2 HY-403479, Supplement 0, Forced Draft Dry Cooling Towers 2.2.3 NY-4034H2, Supplement (LATER), ACCi!/ACW Pump (Soecification 600-1564-119) 2.3 Design Documents 2.3.1 Plow Diaarams 2.3.1.1 LOU-1564-G-160, Sn. 1, Rev. 12, Component Closed Cool nJ 1ater System 2.3.1.2 000-1564-G-160, Sh. 2, Rev. 9, Component Closed Cooling Water l System i 2.3.2 F.lectrical One-Line Diagrams - NA 2.3.3 Control dirino Disorais, 000-1564-8-424 2.3.3.1 Sh. 7o15, Fev. 5, det Tower A Fan No. 1 2.3.3.2 Sh. 7625, Rev. 1,
- le t To*=er A Fan No. 2 2.3.3.3 sh. 763S, Rev.
4, Wet To.er A Fan No. 3 2.3.3.4 Sh. 7n45, Pev. 4, het To*er A Fan No. 4 2.3.3.5 Sh. 165S, Rev. 5, Aet Toner A Fan No. 5 3
Startup Intearated Test Sir-TP-250 Unit daterford 3 Date 7-2-82 tiltimate Heat Sink Test Revision 0 2.3.3.6 Sh. 706S, Rev. 4, Wet Tower A Fan flo. 6 2.3.3.7 Sh. 7675, Hev. 4, aet Toaer A Fan No. 7 2.3.3.8 Sh. 7 ORS, Rev. 7, Wet Tower A Fan 140 8 2.3.3.9 Sh. 7705, Rev. 2, Coolinq rower A votor Space Heaters 2.3.3.10 Sh. 777, Rev. 4, det Tower A Fans flo. 1 to No. 5 Vibration Alarms 2.3.3.11 Sh. 778, Rev. 4, net Toner A Fans No. 6 to No. 8 and B Fans NO. 1 and No. 2 Vibration Alarms 2.3.3.12 Sh. 779, key. 4, det Toner H Fans No. 3 to No. 8 Vibration Alarms 2.3.3.13 Sh. 8115, sev. 4, Wet Tower B Fan No. 1 2.3.3.14 sh. 8125, dev. 4, net Toner 6 Fan tio. 2 2.3.3.15 Sh. 8135, Rev. 4, .v e t rover d Fan 'Jo. 3 2.3.3.16 Sh. 8145, li e v. 4, .v e t Tower B Fan No. 4 2.3.3.17 Sh. HISS, Fev. 4, det Tower 8 Fan No. S l 2.3.3.18 Sh. 8165, Rev. 4, det Tower 8 Fan No. 6 2.3.3.19 Sh. 817S, Rev. 4, iet Tower e Fan No. 7 2.3.3.20 Sh. 8185, Rev. 5, det Tower G Fan No. 8 2.3.3.21 Sh. 8205, Rev. 2, Cooling Tower d Motor Space Heaters 2.3.3.22 Sh. 2441, Rev. 6, Transfer Switch Dev. Aux. Panel 1 2.3.3.23 sh. 23915, Nev. 3, sentiencer B, Sh. 1 4
Startup Intearated Test SIT-PP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 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 No. 1 2.3.3.2b Sn. 7325, Rev. 5, Dry Tower A Fan no. 2 2.3.3.27 Sh. 7335, Rev. 5, Dry Tower A Fan No. 3 2.3.3.28 Sh. 7345, Rev. 5, Dry Tower A Fan No. 4 2.3.3.29 Sh. 7355, Rev. 5, Dry Tower A Fan No. 5 2.3.3.30 Sh. 7365, Rev. 6, Dry Tower A Fan $10 6 2.3.3.31 Sh. 7375, Rev. 5, Dry Tower A Fan No. 7 2.3.3.32 Sn. 7385, Rev. 5, Dry Tower A Fan No. 8 2.3.3.33 Sh. 7395, Rev. 5, Dry Tower A Fan No. 9 2.3.3.34 Sh. 740S, Rev. o, Dry Tower A Fan No. 10 2.3.3.35 Sh. 7415,-Hev. 5, Dry Tower A Fan No. 11 2.3.3.36 Sn. 7425, Rev. 5, Dry Tower A Fan No. 12 2.3.3.37 Sh. 7435, Rev. 5, Dry Tower A Fan ivo. 13 2.3.3.38 Sh. 7445, Rev. 5, Dry Tower A Fan No. 14 2.3.3.39 Sh. 745S, Rev. 5, Dry Tower A Fan No. 15 2.3.3.40 Sh. 748, Pev. 3, Dry loaer A Computer Inputs 2.3.3.41 Sh. 7815, Rev. 4, Dry Tower B Fan No. 1 2.3.3.42 Sh. 7825, Fev. 5, Dry Tower B Fan do. 2 2.3.3.43 Sn. 183S, Rev. 4, nry lower B Fan No. 3 5 l 1
Startup Integrated Test SIT-IP-250 Unit Waterford 3 Date 7-2-82 Ul ti:nate Heat Sink Test Revision 0 2.3.3.44 Sh. 7845, Rev. 5, Dry Tower B Fan No. 4 2.3.3.4S Sh. 785S, Rev. 4, Dry Tower B Fan No. 5 2.3.3.46 Sn. 7Ans, Rev. 4, Dry Tower 6 Fan No. b 2.3.3.47 Sh. 797S, Pev. 4, Dry Tower B Fan No. 7 2.3.3.48 Sh. 7eHS, Nev. 4, Dry Tower B Fan No. 8 2.3.3.49 Sh. 7995, Rev. 4, Dry Tower B Fan ho. 9 2.3.3.50 Sh. 7905, Rev. 4, Dry Tower R Fan No. 10 2.3.3.51 Sn. 7913, Rev. 4, Ory Tower 3 Fan ho. 11 2.3.3.52 Sn. 7925, Rev. 5, Dry Tower B ran No. 12 2.3.3.53 Sh. 7933, Rev. 4, Dry Tower 6 Fan No. 13 2.3.3.54 Sn. 794S, Rev. 4, Dry Toner B Fan No. 14 2.3.3.55 Sn. 7953, hev. 7, Dry Toder B Fan no. 15 2.3.3.56 Sh. 798, Rev. 2, Dry Tower 8 Computer Inputs 2.3.3.57 Sn. 771, Rev. 7, Dry Tower A Fans 1 to 5 Vibration Alaris 2.3.3.58 Sh. 772, Rev. 5, Dry Tower A Fans 6 to in Vibration Alarms l 2.3.3.59 Sn. 773, Rev. 4, Dry Tower A Fans 11 to 15 Vibration Alarms 2.3.3.60 Sn. 774, Rev. 4, Dry Tower 6 Fans 1 to 5 Vibration Alarms 2.3.3.61 Sh. 776, Rev. 4, Dry Tower 3 Fans 6 to 10 Vibration Alarms 2.3.3.62 Sn. 776, Rev. 6, Dry Tower R Fans 11 to 15 Vibration Alarms 2.3.3.63 Sh. 7155, Rev. 5, Co.n oo n e n t Coo 11n9 Water System Instrumentation, Sneet 4 l 6
Startup Intearated rest SIT-TP-250 Unit waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 2.3.3.61 Sh. 7165, Rev. 6, Component Coolino Water System Instrumentation, Sneet 5 2.3.3.65 Sh. 2341S, Rev. 3, Secuencer A, Sheet 1 2.3.3.66 Sn. 7015, Rev. 6, CC.t Pump A Header Isol. Valves 2.3.4 Instrument Schematics and Locic diagrans 2.3.4.1 LOU-15b4-6-434, Rev. 17, IDStrument List 2.3.4.1.1 L00-1564-B-434, Sn. (LATER), General Arrangement Cooling Tosers Plan 2.3.4.1.2 LOU-1So4-B-434, Sn. (LATER), General Arrangement Cooling Towers Section l 2.3.5 Other Design Documents - NA 2.4 Vendor Data i l 2.4.1 Vendor Engineerinq Oocuments 2.4.1.1 600-1564-30o7, Rev. G, Wet Cooling Towers Proposed Layout 1 2.4.1.2 L00-1564-7933, Rev. 3, Wet Cooling Tower Fan Installation i 2.4.1.3 L00-1564-7431, Rev. 1, det Cooling Tower General Arrangement Equipnent Location 2.4.1.4 LOU-1564-1419, Rev. 3, Dry Cooling Tower General Arrangement, Section AA 2.4.1.5 L00-1565-1419, Rev. 3, Dry Cooling Tower General Arranceaent, Section BH l 2.4.1.6 6011-1564-1417, Rev. 3, Dry Cooling Tower General Arrangement, Plan 7
I Startup I n t e 'J r a t e d Test SIT-TP-250 Unit waterford 3 Date 7-2-82 flitimate tieat Sink Test Revision 0 2.4.1.7 L00-1564-1416, Rev. 7, Dry Coolin? Tower General Arrangement, Sections CC and OD 2.4.1.4 L00-1564-7935, Rev. 1, Wet Cooling Tower Plant Layout - Plan View 2.4.1.9 L00-1564-7936, Rev. 2, Wet Cooling Tower Plant Layout - Sec-tion AA Elevation View 2.4.1.10 000-1564-H032, Rev. 1, Package Cooling Tower Frame Plan - Fan Dect with Connection Details 2.4.2 Vendor Manuals 2.4.2.1 L011-5017-1957, Rev. O, Instruction Manual for Zurn Coolinq Towers 2.4.2.2 L00-5817-4340, Rev. O, 61odson Cooling Equipment Instruction 4anual l 2.4.2.3 L00-1564-075, Rev. O, Component Cooling Water lieat Exchanger 'danual 2.4.2.4 LOV-5817-2719, Rev. (LATER), Babcock and WilcoX Canada Component Coolinq !*ater and Auxiliary Component Cooling Water Pump recnnical '4anual 2.4.2.5 Instructions for Goeration and '4aintenance of Coen 200-Series l Fyr-Compak Packaged Control Gas and Oil Burning Equipment l (Coen File No. 200-A522-1) 2.4.2.6 Trane Instruction Hook for Startuo, Operation, and Maintenance of Packaga Soiler, Rev. 3-1-68 (Holman File No. S1481-08167) i I
Startuo Intearated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 tiltimate Heat Sink Test Revision 0 2.5 Other References 2.5.1 STP-20, Rev. 2, Operation of Fans and dlowers 2.5.2 SAP-09, Rev. 1, racainq 2.5.3 SVG-36-004, Rev. O,
- et and Dry Coolino Tower Fans Performance Evaluation Prerequisite-Preservice Test 2.5.4 SFG-36-002, Rev.
O, Dry Cooling Tower Fans Initial Run-In 2.5.5 SFG-36-003, Rev. O, Initial Run of aet Coolino Tower Fens 2.5.6 SFL-36-001, Rev. O, Component Closed Cooling Water System 2.5.7 SFL-36-002, Rev. O, Auxiliary Component Cooling 'aater System 2.5.8 SFL-36-003, Rev. O, Dry Cooling Towers 2.5.4 AS1R PTC-30, Power rest Ccde for Air-Cooled Heat Exchangers (updated dratt cooy for information only) 2.5.10 American Institute of Chein i ca l Enaineers (AICnE), Equipment Testing Proceiure f or Air-Cooled tiest Exchancers, Aucust 26, 1973 2.5.11 API Standard 661, Air-Cooled : lea t Exchangers for General i Retinery Services, Second Edition, January 197H l 2.5.12 Cooling Tower institute Standard AFC-105, February 1975 2.5.13 ASME PTC-11, Fan Testino Procedure (draft copy for information only), December 1981 2.5.14 ASME PTC-18.1, Rev. (LATEP), Pumo Turbine restina Procedure, dated 197d 9 l l
Startup Intearated Test SIT-TP-250 linit Waterf ord 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Reference Paragraph Initials & Date 3.0 ACCEEIAUCE_CELIEEla 3.1 Under simulated LOCA conditions, the net and dry tower combination (noth east and west trains) meets the tollowinq conditions while dissipatina a minimun of 178.3 x 10 litu/hr (as determined ny.3.1): (1) Discharge temperatures of the net tover, as read oy resistance temoerature detectors (HTDs) CC-7077-AS and CC-7077-BS, is 195 i acrirees F. (a) Side A 7.2.1.14 l (b) Side 3 7.2.2.14 (2) Auxiliary component coolina water (ACCd) flow is 5000 qom 1500 gpm. 7.2.1.17 7.2.2.17 10 -~
i Startup InteQrated Test SIT-TP-250 Unit 'n a t e r f o rd 3 Date 7-2-82 Ulti.nate Heat Sink Test Revision 0 Reference Paracraon Initials & Date (3) Component cooling dater (CCi!) flow is 6500 gpm 1650 gpm. 7.2.1.12 7.2.2.12 (4) Discharge temperature of the Component Coolina Woter Systet (CCdS) heat exchancer, as read by the temporary RTD, located on the inlet to temnorary feed heater on the tube side, is C115 decrees F. 7.2.1.14 7.2.2.14 3.2 Under simulated n o r tia l shutdown conditions, the wet l and dry tower conbination L (both east and west trains) meets the followina conditions while dissioatina a minimum of 127 x 10 b ntu/hr (as d e t e rminert ov Attachment 8.3.2): (1) Discharae tenuerature of the wet tower, as read 11
Startup Intecrated Test GIT-rP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Reference Paragraoh Initials & Date b/ RTD CC-7977-7dAS and CC-7077-78BS, is 495 de9rees F. (a) Side A 7.2.3.14 (b) Side B 7.2.4.14 (2) ACC4 flow is 6500 apm A650 gpt. 7.2.3.17 7.2.4.17 (3) CCW flow is 6500 apm 1650 Jpm. 7.2.3.12 7.2.4.12 (4) Discharge temperature of the CCWS heat exchanaer, as read by the te'noorary HTD, located on the inlet to tne temporary feed neeter on the tube site, is 4105 degrees F. (a) Side A 7.2.3.14 (b) Side B 7.2.4.14 i 3.3 Under simulated soutdown 24 l hours after reactor trio l l (tornado missile analysis), l l 12
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Reference Paragraph Initials k Date the net and dry tower Combination (Doth east and west trains) meets the followinc conditions while dissipating a minimum o f. 91.5 6 x 10 Btu /hr (as determined in AttachT.ent 8.2.3): (1) Discharge temperature of the wet t o'v e r, a s read by RTD CC-7077-78AS and CC-7077-1HBS, is 195 deqrees F. 7.2.5.18.19.5 7.2.6.18.18.5 (2) ACC4 flow is 5000 apm A500 apm. l 7.2.5.1a.4 7.2.6.18.4 (3) C C '4 tioe is 6500 gpm A650 uom. 7.2.5.10 7.2.6.10 (4) Discharae temperature of the CCAS heat exchanqer, as read by the temocrary l RTD located on tne inlet l l to the temporary feed i l 13 L
Startup Integrated rest SIT-TP-250 Unit waterford 3 Date 7-2-82 Ultimate lleat Sink Test Revision 0 Reference Peracraph Initials & Date heater is C129 degrees V. 7.2.5.18.18.5 7.2.6.1H.18.5 (5) The 2-hour temperature, as read by RTO TE-CC-7077AS, is 1105 degrees F. 7.2.5.18.5 7.2.6.18.5 3.4 The Wet Cooling Tower is quaranteed to perform to the desian conditions specifiert below: Reference accident Paragrapn Initials & Date (1) Total water quantity cooled, opm (1101) 5000 7.2.1.18 7.2.2.18 (2) Total coolina duty, o7.5 x to atu/hr 1204 67.5 7.2.1.28 7.2.2.28 l l 14 l 1
Startup Integrated rest SIT-fP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Reference accident Paragrdph Initials & Date (3) Coolinq rance, deg F s27 7.2.1.28 7.2.2.28 (1) Tower inlet design wet-bulb te nperature, deq F (+7, -3 dea F) d4 7.2.1.15 7.2.2.15 (5) Approach to above, deo F sd 7.2.1.28 7.2.2.28 (6) Te.noerature of water enterinq tower, deq F L119 7.2.1.2H 7.2.2.28 (7) Temperature ot water leaving tower, dea F (92 7.2.1.28 7.2.2.28 15
Startuo Integrated Test SIT-rP-250 Unit 'aterford 3 w Date 7-2-82 Ultima te 'fea t Sink Test Revision 0 4.0 1ESI EQU123ESI 4.1 Test Instrumentation 4.1.1 Indicatina E q u i p.n e n t Calibration MsTE or Verification Serial Mc-Initials E Date 4.1.1.1 Gill Model 27101 propeller anemometer (4), or equivalent l l 4.1.1.2 H.u. Youno Model 12301/12101 vicroyane and cup a n e moin e t e r (3), or equivalent 1 1 4.1.1.3 Climatronic electronic weather station (1), optional l --~~------ \\ 16 1
Startup Inte7 rated Test SIT-TPm250 Unit Waterford 3 Date 7-2-82 Ulti t.a te ties t Sink Test Revision 0 Calibration i% f E o r Verification i i Serial som Initials _i-Qata 4.1.1.4 Inclined manometer (2), airflow (optional) i _meme meme e-memem_.m_m.m. mmmmmmmmme .mmm_m_.mm__mme 4.1.1.5 U-tuce manometer (1), 20-inen, water floa __m__emm__ __m_m_mm__mem_m 4.1.1.0 Platinum FTD, ESC-prs-80-A (45), or eoilivalent -Memem-M-m e-M-e-em---meme m=...mmm m ...mmm...mme.m. MMWWemWMMW mmmmemmmmmmmmme 6mm6666666 mememmmmmmmeWWW mWWememmmM ememgemmmmmmmme emMWWWWWem Memememgemememe emWmWWWWWm ememem-memmmmmW WmWWWWemem emmmmmmmmmmwemm W6mmmmmmmm W6mmmmmmmmmmmme memWeemeW6 mmWeemememmemme mem.--m--e --M.....mmmm.mm [ Mem-meme=m em =me=Mem-mem. 1 meme.----- ...mm. mmmm.mme me6mWWWWWW WWeemmmmmmmemWW W WWemm6mW mWWeemmmmmmmmme mWWMemm6mm mememmmmmmmmmmm 17
l I I l i Startup Inte3 rated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 01timate Heat Sink Test Revision 0 l Calibration M%rE or Verification SacialeMc. Initialsm&_ Data meme-meme- -mem.mmWWeme-me r I ememememme emmemememmememm emWWeemmme mememememememem WWWWWWeemm emememmWWW6mmWW mem-mm-mem .m.mme.mWWWm..e 66666666W6 WmemmmmmmmmmmmW mem-e-e-m-Mmmmmmmm..mm.m. MmmmeWeemm ememememmmmmmme mammm6MMem WWWWemmmmmmmeWe mememWMmmm emeWWWemmeWWWWW mmmmmmmmmm WWWWemmWWWmemme mmmmmmmeme mamWmmmmmmememe mememememe mmmmemWWmmW6mmW emmmmmemem ememememmWWeeme WeemmemWWW e6M6666666666m6 memmemmmme WWWemmmmmmmmeMM meemememem emmmmmmmmmeMMWW ememmmmmmM emmmmmmmmmemeWW emmmmmmmem mmmmmmmmmmmmmme mmmmmmmmme emememmmmmmmmme Mmmmmmmmme WWWWWemmmmm6MWW mememmmmme WWWemmmmmmmmmmW mem6mmmmme Mm66m6666666m66 memmeWWWMm WMmmmmmmmmmmmmW memmememme mWememememememe ememememem ememememmmmmmmm 18
Startup Intecratei Test SIT-TP-250 Unit Waterford 3 Date 7-2-02 Ultimate deat Sink Test Revision 0 Calibration 1&TE or Verification Scrial_2cm Initials.kmuate e-mmWem--e .mm.mm.mmmm-Wm. I l mm.mmmmmW. WWWWem..mm-mWWW t t .m mmmmeWM mmWMemm-Wememme i 4.1.1.7 S&J psycnrometer (22), or enttivalent mm.mmmm-W_ mmW.m_WW_memWmW mmWWWemeMe WWWemememememme mememWWemW WWWmWWemememWW6 MmmmmmmmMW mmememWWemWW6mW 1 l emmmmmmmm. m.mmmmm.....mWW mammwememm emmmmmmmmmmeWWW memWemWWmW mWemWWm6MMWmMMM WWemememem mmmmmmmmmeW6mWW WWmMWWeemm emWWWWWWWWWWmMm WemmmmmmmW meWeemeememWWWW mummmmmeWW mW6mmMWememWWWW emWmmmmmeW mammW6mmmmmmmWW mmmmmmmmmm WWWWWWWWWememme mWWemmemem Wm m m me W 6M Wm 6S amm WWWeemmemm WWWWWeeMWmW6mMM meWeememme emmmmm666mW6MmW WWeemmmmme mWWWWWWemWWWMme WememWWeme WWWWWmWmMWWWMWM mWememmeWe gememmmmmmmeWWW mememememe WeememWWWeemmme 19
i l Startup Intearated Test sir-TP-250 Unit Waterford 3 i l Date 7-2-82 l Ultimate licat Sink Test Revision 0 Calibration l M&rE or Verification Sacial_da. Initials _E Data l 4.1.1.8 Fluke Model 8022H ammeter / volt neter (1), or eailivalent 4.1.1.9 Environmental Systems Corporation (ESC) PTS-80A l remperature Acquisition System (2) 1 4.1.1.10 Infrared thermometer (1), j 1 Model (LATEH) or eunivalent 4.2 Special Foulpment 4.2.1 Simplex Plat rod ottot tune (1) 4.2.2 150,0no lb/hr oackage boiler (1), 300 osia xmaximum operating pressure i I l l 20
Startup Intearated Test SII-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat sink Test Revision 0 4.3 Additional Test Equipment 4.3.1 List any additional equipment used belod and in the ChronoloJ1 Cat I, n o, Attachment 8.4.1, as it is used. Enter "NA" if serial nismbers or Calibrations are not applicable for a Pirticular Diece of euuiDnient. Calibration M&fE or Verification Descriution SerialmEc. initiais L Data _e mammmmmmmmmmmmmmm..m.mmmmmmmm WeemmeWm__ mmmmmmmmeWWWWm_ 6mmmmmmmmmmmmmmeWWWWmmmmmmmme MmeWWWWeme WW6memememmmmme mammem6memWWeemmWWemmmmmmmmme WeemWWWemm me WW e m e memm mmesM emememmmmmmmmmmmmmmM6memmmmme Wemmmmmmme emmmmmmmmmmmWWW 21 L
Startup Integrated Test SIT-rP-250 Unit waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 5.0 EEECAUIICOS_Ahu_201ES 5.1 Precautions 5.1.1 All oersonnel wust be outside the wet tower before a fan assembly is put into service. 5.1.2 Cneck the fan blades to ensure that they are installed at or below the proper anole, in aCCordance with the manufacturer's recommendations. All blades on a single fan assembly must be set at the same blade angle. 5.1.3 It excessive vibration is observed, the wet toser or dry tower fan assethly shall he turned off im'nediately and the cause of the vibration shall be determined and corrected. 5.1.4 To prevent overheatina, the vibration switen reset coil should not be eneruized for nore than 3 minutes. If this condition exists, the coil Sust be deenergized for 10 minutes before reenergization (for Doth wet and dry towers). I l 5.1.5 Do not exceed the full-load amperaqe rating of the wet and dry towers motors durin7 fan oreration. (1) .ie t Tower Fans: 39.5 amps (2) Dry Tower Fans: 48.0 amos tast speed 18.0 amps slow speed 5.1.6 As the dry tower aear reducer unit is brought tip to speed, it should be monitored constantly for unusual sounds, excessive vibration, excessive heat, or oil leakage. If any of these conditions develous, the unit should be shut down immediately, and the Cduse deter 7ined and Corrected. Operating temperature 1 1 ( l 22
Startup Intearated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultinate Heat sink Test Hevision 0 of the unit at the hottest point should not excied 200 degrees F as read by the infrared thermoneter. S.1.7 All personnel involved in electrical measurements, lead lifting, or junper placement sna11 he familiar witn all necessary safety nrecautions. 5.1.8 Personnet involved in testing in high-noise areas shall be supplied with aleattate ear protection. 5.1.9 No fewer than two individuals (one of whom will be in constant communication alth the Control Room) shall be allowed entry inside the wet towers durino rater loadinc. 5.1.10 dhen using CC4 Pump A/B instead of CC:4 Pumo A or CCW Pump B, the following apolies: (1) Instead of CC.1 Pumo A, rack out CCn Pump A breaker; and manually align the 3AB3S bus to the 3A35 bus to ensure enannel separation. (2) Instead of CC4 Pump H, rack out CC4 Pump B oreaker; and manually align tne 3AB35 bits to the 383S ous to ensure channel separation. 5.2 Notes 5.2.1 Communications shall oe established between all parties involved eith the test to ensure coordination ano consistency in testioq. 5.2.2 the order of testina, as outlined in section 7.0, may be enanoed at the discretion of the Startup Engineer. l 23 l l
Startup Integrated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 Oltinate Heat Sink Test Revision 0 5.2.3 The test personnel resoonsiole for sioning their initials to certity data snall conplete Attacnment 8.4.2, Test Personnel ID Sheet, by printina their names and sinninq tneir initials. 5.2.4 All analyses should incorporate pre-and post-test calibration data. 5.2.5 A Chrnnoloaical Log, Attachment H.4.1, shall be kept of all si.Jnificant events that occur during the performance of this test. 5.2.6 Tests may ne receated as needed at the discretion of the Startup Engineer. l l l l { I l 1 24
Startup Inte7tated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate 61 eat Sink Test Revision 0 Initials & Date 6.0 CEEEEQUIS1IC3 6.1 Data from Reference 2.5.4, S Ft;- 3 6-0 0 2, Dry Cooling toner Fans initial Run-In, has been reviewed. R-LPL/SFG36002*NUNE*0010/05/81 6.2 Data from Reference 2.5.5, SFG-36-003, Initial Run of wet Coolinq Tower Fans, nas been reviewed. R-LPL/SFG36003*MNE*0003/01/R0 e.3 Data fron Reference 2.5.3 SFG-36-001, 'w e t and Dry Coolina roeer Fans Performance Evaluation, has oeen reviewed. H-LPL/SFG36004*tJONE+D000/00/00 6.4 Data from Reference 2.S.0, SFt.-35-001, Component Closeo Cooling viater System, has been reviewed. R-LPl./SFb36001*N09E*0012/n3/91 6.S Data trom Reference 2.5.7, SFI-36-002, Aux-111ary Component Coolino dater System, nas been reviewed. 25
5tartup Intearated Test SIT-TP-25n finit aaterford 3 Date 7-2-82 tiltimate Heat Sink Test Revision 0 initials & Date H -L PL / S F b 3 h 0 0 2
- N LblE
- 00 0 6 / I n / 81 i
I 6.6 Data from Heterence 2.S.H, SFL-36-003, Dry Coolina roaers, nas been reviewed. H-LPI./SFL36003*101E*001n/26/R2 s s 6.7 All det toder nozzles have been replaced. ........a...... s s, 6.8 All doordays, hatches, and nenetrations between met and dry toaer sections and the ~~ dry toner Fuel Handling Bi 1)< ling are closed "[ ~' ~ or in " normal" ooerating positions. 6.9 Cneck tube pundle cleanliness on dry towers before testing begiqs to evaluate the need for :nechanical or enemical cleaning. Verify that tube blindles are clean for this test. ...........:...~ 6.in Ensure that tne dry towers are vented to remove any entracoed air nockets. (See Reference 2.5.6, SFL-36-001, Component Closed Cooling dater System.) k-LPL/ SFL3 f.ou t *:40NE*on00/00/On 2h
Startup Integrated Test sir-?P-250 Unit Waterford 3 Date 7-2-82 ditimate deat Sinx Test Revision 0 Initials & Date 6.11 All instruments for the temporary boiler have been calibrated. 6.12 Hudson and Zurn have been notified 7 adys prior to testina so tnat tneir representatives can ditness the testing of their equip nent. 6.13 All Field ChanQe Requests (FCRs) and Design Chance footices (OC'Js) pertainino to wet and dry towers nave oeen revieveo prior to test commencement. i 6.14 Verify that the det an.1 dry coolino toners l have oeen cleaned before the fans are started to prevent having foreign objects entrained in.the airstream. l 6.15 A pretest criefina ditn personnel involved l altn this test has been performed. !y h.16 Pretest 'aalkdown b Pretest aalkdoans of the following systens ~ hade been' conducted to verifv that the corresponding porrions of this procedure 27
Startup Integrated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 flitimate Heat Sink Test Revision 0 Initials & Date covering testin1 ot these syste ns are ready to be performed: (1) act Tower % (2)
- et Tower 3 (3)
Dry rover A (4) Ory Toner 8 (S) ACCW (Let rover A) (6) ACCm (Wet Toner 8) (7) CCa System 6.17 delease to Perform Testino I hereby autnorize the test to proceed, subject to the limitations as noted. Demarks ___________________....___.____.___________.____...__.. ._____.____m_W- ________..W._______.__m.__M_______._______.____ Authorize 1 ey: Date...______.. LSE f 2H
Startup Intearated fest SIT-TP-250 Unit Waterford 3 Date 7-2-82 ultinate Hedt Sink Test Revision 0 s Initials & Date 7.n U20CEDUCE 7.1 Initial Conditions 7.1.1 Temporary A'odi f icat ions (For All Tests) 7.1.1.1 Perform the following temocrary moditications to renove automatic actua-tion of CCa neacer isolation valves: (1) Litt cable at TRB-16 and T P,H-17 in Aux. Panel 1. (2) Lift cable at TBH-17 and r33-6 in Aux. Penel 1. (3) Install a jumper between TBH-17 and TBB-o in Aux. Panel 1. l (4) Lift caDie at TH8-30 and TBS-33 in Aux. Panel 2. (5) Lift coble at TBB-33 and TDB-27 in Aux. Panel 2. (b) Install a jumper hetseen TRB-33 and TBB-27 in Aux. Panel 2. (7) Lift cable at T9R-106 and IBR-107 in Aux. Panel 2. 29
Startup Integrated Test SIT-fP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink rest Revision 0 Initials & Date (H) I,1 f L Cable dt filR-107 and TBS-97 in Aux. Panel 2. (9) Install a jumoer between TBB-107 and T Hil-97 in Aux. Panel 2 (10) Lift caole at fit P-2 9 and fBH-30 in Aux. Penel 1. (11) Lift cable at TL84-30 and TBB-23 in Aux. Panel 1. (12) Install a Jut.oer between 700-30 and TBB-23 in Aux. Panel 1. 7.1.1.2 Verity that the installation of the te.mporary Hfus reautred for data in At-l tachment 8.2.1 and the weather station l reuuired in Attachment H.2.10 is i j complete. 7.1.2 Initial 9 oiler Startup 7.1.2.1 The boiler must be warmed ur and at pressure to succort heat load testino (see Reference 2.4.2.5, Instructions for Operation and '4aintenance of Coen 30 I [
Startup Integrated rest SIT-TP-250 Unit waterford 3 Date 7-2-82 U l t ift.a t e 'iea t Sink Test Revision 0 Initials % Date 200-Series Fyr-Conoak nackaued Control Gas and 011 burnina Equipment, and Reference 2.1.2.6, Frane Instruction Book tor Startup, Operation, and daintenance of Packaae Poller). H-COE N/FYi<. COMP AK.OP. A ND.% A [ ?J T 4 NONE
- 0000 /00/0 0 R -H 01,M A r4 / T R A N E.. P K G. 61,rt. I 4 S T. 8 K
- ilu N E
- 0 n O 3 / 01/ 6 8 7.1.3 set roaer - Train A (For Side A lesting) 7.1.3.1 Verify tnat the folloaing are available:
(1) 490V WCC-JA315-S 7.1.3.2 At CP-33, verity that let Toner A fan control saitenes CS-1/761 (for fans 1 throuan 4) and CS-1/765 (for fans 5 throuqh 8) are in the OFF position. (1) Fan 1 (2) Fan 2 (3) Fan 3 (4) Fan 4 f (5) Fan 5 1 (6) Fan 6 (7) Fan 7 (8) Fan 8 l l 31
Startup integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 ' Initials & Date 7.1.3.3 At Aux. Panel 1, verity that transfer switen 43-19 is in the CtWTROL H00M position. 7.1.3.4 At 4 ROV dCC-34315-S, compts. 10H, 12H, 10A, 11H, 11', 12:1, 134, and 13M, verify that the 24 (3 tor eacn colopartment) thermal overload devices are installett. (1) Comot. 1 011 (2) Compt. 12:I (3) Compt. 10:4 (4) Comnt. 11U (S) Conut. 11:8 (o) Compt. 12:4 l (7) Comot. 13H (4) Comat. 13M 1 7.1.3.5 At 480V "CC-3A315-3, compts. 10.1, 1 211, l lov, 11H, liv, 12i4, 13 tl, and 13M, close the brear.ers tor fans Al through A8 and verity tne folloning: l l (1) Green indicating lights on CP-33 are ON for Wet Tower A fans 1 tnrouan 4 and 5 through d. (a) Fan 1 (b) Fan 2 (c) Fan 3 32 9 s A
Startup Integrated rest SIT-rP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date ( :1 ) Fan 4 (e) ran 5 (f) Fan 6 (1) Fan 7 (n) Fon d (2) Red innicatina lic1 hts on CP-33 are (IFF for Wet Toder A fans 1 throuch 4 and 5 throuah H. (a) Fan 1 (b) Fan 2 (c) Fan 3 (1) ran 4 (e) Fan 5 (f) Fan 6 (1) Fan 7 (n) Fan H 7.1.4 Wet Tover - Train B (For Side H Testing) 7.1.4.1 Verify that the following are available: (1) 4Hnv wCC-3B315-S 7.1.4.2 At CP-33, verify that aet Toner R fan control seitenes C5-1/311 (for fans 1 through 1) and CS-1/315 (for fans 5 throut)n 4) are in the GFF position. (1) Fan 1 (2) Fan 2 33
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate iteat Sink Test Revision 0 Initials & Date (3) Fan 3 (4) Fan 4 (5) Fan 5 (b) Fan o (7) Fan 7 (H) Fan 8 7.1.4.3 At Aux. Panel 2, verify that transfer saitch 43-19 is in the CONTROL ROOM nosition. 7.1.4.4 At 430V idCC-3A315-S, compts. 10d, 12H, 1 0 'd, 11H, 114, 129, 13H, and 13w, verify that the 24 (3 for each compartment) thermal overload devices are installed. (1) Coont. 13H (2) Compt. 12H (3) C o n. o t. 10" (4) Count. 11H (S) CoTot. 114 (b) Compt. 124 (7) Compt. 13H (8) Comot. 13's 7.1.4.5 At 480V SCC-36315-S, compts. 10H, 1 211, ION, 11H, liv, 126, 13H, and 13M, close the brea<ers for fans Bl tnrouan B3 and verify tne follo.ina: 34
Startup Inte3 rated rest Sif-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate tient Sink Test Revision 0 [ Initials & Date l l (1) Green indicating lichts on CP-33 a r e 'J N for det Tower t3 fans 1 tnrouyn 1 and 5 throuah 8. (a) Fan 1 (D) Fan 2 (c) Fan 3 (1) Fan 4 (e) Fan 5 (f) Fan o (g) Fan 7 (h) Fan 9 l (2) Red indicating 11ohts on CP-33 are CFF fnr net Toner b fans 1 throuqh I 4 and 5 througq 8. I (a) ran 1 Co) Fan 2 (c) Fan 3 (1) Fan 4 (e) Fan 5 l (f) Fan o (a) Fan 7 l (n) Fan 8 l 7.1.5 Dry Toder - Train A (For Side A Testino) 7.1.5.1 verify tnat tne following are available: (1) 180V MCC-3A315-S 35
I Startup Inte4 rated rest SIT-rP-250 finit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 l Initials & Date l 7.1.5.2 At C9-33, verify tnat the folloaing Dry tower a tan control switches for fans Al througn A15 are in tne OFF position: Fan No. Switch TJ o. Initials & Date (1) Al CS-1/731 (2) A2 CS-1/732 (3) A3 CS-1/733 (4) 44 CS-1/734 (5) AS CS-1/735 (o) A6 CS-1/736 (7) %7 CS-1/737 (d) A8 CS-1/734 (9) A9 CS-1/739 i (10) A10 CS-1/710 l (11) All CS-1/741 (12) A12 CS-1/742 l l (13) A13 CS-1/743 l ( t :) Ait CS-1/744 l (15) A15 CS-1/745 I Initials % Date 7.1.5.3 At Aux. Panel 1, verify that transfer switenes 43-14, 13-15, 13-16, 43-17, and 43-18 are in the CTirROL ROOD position. (1) Switch 13-14 (2) Saitch 43-15 (3) Ssitch 43-16 36
Startup I n t e a r a t e:1 Test SIT-IP-250 Unit waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date (4) Sviten 13-17 (5) Switch 13-18 7.1.5.4 At 480V 9CC-3A315-S, close the following breakers for Dry foier A fans Al through A15: Fan No. Compt. No. Initials & Date (1) A1 if (2) A2 l '4 (3) A3 2F (4) A1 2M (5) A5 3F (6) A6 3 'd (7) A7 4F (H) Au 44 (9) A9 SF (10) atn 5:1 (11) All 7F (12) A12 74 (13) A13 dF (14) A14 89 (15) A15 9F Initials & Date 7.1.5.5 At CP-33, verifv the followinq: (1) Green 1911catina lionts for fans At tnrough A15 are 0.4 37
Startup Integrate 1 Test Str-TP-250 Unit daterford 3 Date 7-2-82 U l t i'na t e lie s t Sink rest Revision 0 Initials & Date (a) Fan A1 (b) Fan A2 (c) Fan A3 (d) Fan A4 (e) Fan AS (t) Fan As (a) Fan A1 (n) Fan AA (1) Fan A') (j) Fan A10 (<) Fan All (1) Fan A12 t (n) Fan A13 l (n) Fan A14 l (o) Fan Alb 1 (2) Red indicating lights for fans Al tnrough 415 are OFF. (a) Fan A1 (b) Fan A2 (c) Fan A3 (1) Fan A4 l (e) Fan A5 (f) Fan Ah (4) Fan A7 (h) Fan A8 (1) Fan A9 (1) Fan AIS (s) Fan All 38
Startup Inte1 rated Test SIT-IP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date (1) Fan A12 (m) Fan A13 (n) Fan A14 (o) Fan A15 7.1.6 Dry Tower - Train B (For Side B Testino) 7.1.6.1 Verity tnat tqe following are available: (1) 480V '4CC-36315-5 7.1.6.2 At CP-33, verify that the followino Dry roaer 8 fan control switches for fans B1 through 315 are in the DFF position: Fan tio. Switch fl o. Initials & Date (1) B1 CS-1/781 (2) B2 CS-1/782 (3) P3 CS-1/793 l (4) H4 CS-1/784 (S) 65 CS-1/785 t I (6) B6 CS-1/7Ho (7) B7 CS-1/7a7 (3) 88 CS-1/788 (9) b9 CS-1/799 (10) H10 CS-1/790 (11) 311 CS-1/791 (12) 912 CS-1/792 (13) H13 CS-1/793 (14) 414 CS-1/794 39 l a l
Startup Integrated fest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate heat Sink Test Revision 0 Fan flo. Switch No. Initials & Date (15) HIS CS-1/795 initials & Date 7.1.6.3 At Aux. Panel 2, verify that transfer switches 43-13, 43-14, 43-15, 43-16, and 43-17 are in the CON 1ROL H004 position. (1) Switch 13-13 (2) Switen 13-14 (3) Seiten 43-15 (4) 541tch 43-16 (5) Switen 13-17 7.1.6.4 At 4HOV dCC-3i4 315-5, close tne following breakers for Dry Tower E fans 01 through 815: Fan f.o. Compt. No. Initials & Date (1) bl 1F (2) B2 1M (3) a3 2F (4) B4 2v (5) H5 3F (6) b5 3" (7) 67 4F (4) sa 48 (9) e9 SF (10) B10 Su (11) B11 7F 40
f Startup inte3 rated Test SIT-TP-250 Unit aaterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Fan No. Compt. No. Initials & Date (12) 012 7* (13) R13 dF (14) 614 84 (15) B15 9F Initials & Date 7.1.o.5 At CP-33, verify the following: (1) Green indicating lights for fans b1 through 015 are Oii. (a) Fan B1 l (b) Fan B2 l (c) Fan 93 l (d) Fon 94 (e) Fan HS (f) Fan b6 (a) Fan a7 (h) Fan 68 (i) Fan 80 l (1) Fan Hin (k) Fan All (1) Fan d12 l (i) Fan B13 1 l (n) Fan bli 1 i Co) Fan B1S (2) ked indicating lights f or f ans 141 throuah 615 are OFF. 1 i (a) Fan til 41 l
Startup Integrated Test SIT-rP-250 Unit Waterford 3 Date 7-2-82 ultimate rieat sink Test Revision 0 Initials & Date (n) Fan 62 (c) Fan H3 (d) Fan 91 (e) Fan B5 (f) Fan bb (q) Fan 87 (h) Fan 93 (i) Fan B9 (j) Fan h10 (c) Fan d11 (1) Fan B12 (m) Fan B13 (n) Fan B14 (o) Fan 315 N3TE: If CC's Pumo A/B is lined up as Pump A, manually open valve 3CC-F173h. If CCW Pump A/B is lined up as Pump b, manually open valve 3CC-F122A with valve 3C-F1230 closed. 7.2 Tests 7.2.1 Simulated LUCA Test (Side A) 7.2.1.1 Verify the initial conditions set forth in steps 7.1.1, 7.1.2, 7.1.3, and 7.1.5; and verity tnat manometers or the equivalent, used for measurina orifice flows, are ready for service. 42
Startup Inte7 rated Test SIT-rP-250 Unit Waterford 3 Date 7-2-82 Ultimate ile st Sink Test Revision 0 Initials & Date 7.2.1.2 /erity tne valve lineun of Attachtent 8.4.3, Valve Lineup raole, Tower A. N3TE: The oil level indicators provided dith the CCA and ACCW Pumps in ficate OPERATIhG oil level. The oil level snould read HIGH anen tne pump is shut down anr1 N Er:I U 4 when the ptito is operating. CAUTION 1: I M MEDI A TEI,Y STOP THE ACCW P 'J.k P IF ANY OF THE FOLI.0WIvG CO?lDITIchs ARE OlSERVED: .(1) 'J N d S U A L :JOISE OF VIHkATION (2) ottuP B F A R I.'J 3 T D' P E R A1 H R E, AS READ FROM ItiSTALLFD TE'tPERATURE I.'J 01 C A T O R, EXCEEDS 200 DEGREES F (3) FUW '4 0 T O R WINDING THERMOCOUPLE REAblNG EXCEEDS 270 DEGREES F (1) RATED CAPACITY OF 40.2 AuPS IS O.CEEDED CAUTION 2: DO "0T EXCEED ACC4 PUuP RUN007 CAPACITY 7F 6650 GPv. CAurInN 3: DO 10T RUN ACCd PU%PS AGAINST DEAD DEAD EXCE.P r b41 NFL Y TO VERIFY SduTOFF HEAD (1.5 '8 I 'J H T E S 'd A X I 'd fM ). PU4PS cat 1 43
Startup Integritei rest SIT-TP-250 Unit daterford 3 Date 7-2-92 Ultimate Meat Sink Test Revision 0 Initials & Date OPERATE CONTINUGUSLY USItfG EXIS CIP G 3 - 1 *J C H RECIRCULAT10A LINE. 7.2.1.3 Check ACCn Puno A for proper oil level. 7.2.1.4 Start ACCw Pumo A by placing nandswiten CS-1/752 on CP-8 to START. 7.2.1.5 Check CC's Pump A/B for oroper oil level. CSUTI0r4 1: 00 Nor EXCEED CCa PUt*P RUNDUT CAPACITY OF 75n0 G P at. C%UTION 2: THE CCa PU*PS 00 NOT li AVE AN I1 STALLED RECIRCULATIO*i LINE AMD ARE LINITED TO 3 911UTES uAXI*dua RUNN11G AGAINST A DEAD HEAD. 7.2.1.6 Start CC4 Puvo A/B by positioninq nandswitch CS-1/707 on CP-8 to START. l 7.2.1.7 Slowly open CC4 Dumo A/B disenarge valve (3CC-B119AB). l CAUTION 1: IMMEDIATELY STOP THE CCW P U '4 P IF ANY OF The For,i,0aING C0riDITIO:JS ARE USSERVED: 44
Startup Intearated Test SJr-TP-250 Unit daterford 3 Date 7-2-82 Ultimate tiest Sink Test Revision 0 Initials e Date (l) 'JNUSil AL N01SE OR VIHRATIO9 (2) POVP dEARING TEMPERATURE, AS READ FROM L N S T A LL EI) TEMPERATURE INDICATOR, EXCEEDS 200 DEGREES F (3) Pil*!P MOTOR dINDI:4G TiiERM0 COUPLE HEA0ldG EXCEEDS 270 DEGREES F (4) RATED CAPACITY OF 40.2 AMPS IS EXCEEDED CAUTION 2: DO NOT EXCEED CCd PUMP RUN00T CAPACITY OF 7590 GPu. CAUTION 3: THE CCW PUMPS DO NUT HAVE AN INSTALLED HECIPCULATION LI9E AND ARE LI?4ITED TO 1 MIieUTES WAXIMU4 RUNNING AGAINST A DEAD HEAD. 7.2.1.H At CP-33, place the following control switenes for fans Al through A15 in the j 1 FAST position: Fan No. Switch do. Initials & Date I (1) At CS-1/731 (2) A2 CS-1/732 (3) A3 CS-1/733 (4) A4 CS-1/731 l (5) AS CS-1/735 (6) At CS-1/736 45
Startuo Intearated Test SII-TP-250 Unit Waterford 3 Date 7-2-02 Ultimate Heat Sink Test Revision 0 Fan No. Switen flo. Initials & Date (7) 47 CS-1/737 (9) AP CS-1/738 (4) A9 CS-1/739 (10) A10 CS-1/740 (11) All CS-1/741 (12) A12 CS-1/742 (13) A13 Cb-1/743 (14) All CS-1/741 (15) A15 CS-1/745 Initials & Date 7.2.1.9 At CP-33, place .v e t tower A fan control saitches CS-1/761 and CS-1/7h5 in the Of. position. 7.2.1.10 Ensure that the Doller has been started and is warme.1 up and at onerating pressure and temperature (see References 2.4.2.5 and 2.4.2.6). H-COErl/FY R. COMP AK.0P. AND.M AI N T *NotlE*0000/00/00 R-H OLM A ri / TR AN E. PK G.PLH. I!.SI. 3K
- MO.'lE
- 000 3 /01/6 8 N3TE:
Durino initial heatuo of the dry cooling tower tube bundles, ensure that the bundles are " Stretched out" uniformly. 46
Startup Intearated Test SII-rP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.1.11 Let the CCa and ACCW Systems reach thermal eouilibrium. Monitor TE-CC-7077AS, and record the results on Attachment H.7.6, remperature Equaliza-tion Graoh of ACCW Colo k'a ter Temperature vs. fine. 7.2.1.11.1 Perform the follo*inc steps: 7.2.1.11.1.1 Adjust temnerature control valve 7CC-Tv001 until the dry tower inlet tencerature is 171 derrees F as indicate.1 on TA-CC-7910AS. 7.2.1.11.1.2 Allow time for the temperature to stabilize and plot the temperature on Attacnaent H.2.6. 7.2.1.11.1.3 Pecord on Attachment d.2.1, RTD Data l table - A Toders, the temperature indications from the followinu instruments: l l l (1) TX-CC-7910AS (2) TX-CC-7920AS (3) TE-CC-7079AS (1) TE-CC-7077AS 47 l l l
Startup Integrated Test S[T-TP-250 Unit daterford 3 Date 7-2-82 Ultinate Meat Sink Test Revision 0 l Initials & Date I C A llT I O N : 00 HOT EXCEED A CC4 TEMFERATURE OF 175 DEGREES F A5 HEAD BY Tlih RTi> ON THE TEMPORARY PIPIl4G TO THE SUCTION OF CCW PUFP A/6. 7.2.1.12 Using a Sinolex pitot tube, make a 10-point traverse of the temporary CCW pipe on two mutually perpendicular l diameters. (Pitot traverse taps are located approximately 12 diameters downstream of the temporary CCW orifice.) Record this data on Attachment H.2.3, Pitot Tube Traverse Data Table, at least once every 4 hours or at the beninnino and end of each test. l 7.2.1.13 Monitor and recora flowrate, as read l l f r om the tenoorary CCW orifice plate, on l Attachment 9.2.4, Side A Flow Orifice Readings. Monitor this flovrate throughout the test (recordina every 5 minutes) and curing pitot tube traverses i to ensure tnat the aater flo'erate does l not enange. 7.2.1.11 Continuously monitor the temoeratures stated in Attacnment 8.2.1, RTD Data Ta-4H l L
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate tieat Sink Test Revision 0 Initials & Date ble - A Towers, on the PTS-A0A Temperature Data System. 7.2.1.15 A platinua RfD will be located on the hand railing at the inlet to the top dry cooling tower fans on the two end and middle columns. Inese RTDs will be monitored continuously. 7.2.1.16 Measure the inout poaer to each det tower fan in the tower being used. Record tnis data in.ittachment H.2.7, Wet Toner Fan Inout Power Data Table, once for each test on all eight fans being used. 7.2.1.17 Usino a Simolex pitot tube, make a 10-point traverse of the ACCd permanent l piping on two mutually peroendicular diameters. The Ditot taas are installed approximatelv six oipe diameters ( upstream of installed flow orifice FT-CC-7n7SAS. (fhe pipe traverse will he made Once for each test, and the installed orifice plate will be monitored throuonout the test to ensure tnat the dater flowrate does not 49
Startup Integrated fest SIT-TP-250 Unit Waterford 3 Date 7-2-82 diti nate ileat Sink Test Revision 0 Initials & Date change.) Record data on Attacnment H.2.3. 1 7.2.1.18 usinQ an R.M. Young microyane and cup anemometer, or equivalent, continuously monitor the amolent eind soee<1 and airection and record on Attachment 8.2.10, Ambient Conditions Data fable, every 5 minutes. 7.2.1.19 Ensure that the following test limitations are met before continuing: (1) Ambient net-oulb temperature is between 77 dearees F and 87 delrees F, as recorded in At-tachment H.2.10 (2) Ambient dry-bulb temDer3ture is between ?? delrees F and 112 negrees F, as recorded in At-l tachment d.2.10 (3) Average amolent wind speed is l l equal to or less than 10 moh, with no 1-minute gust ot more than 15 mph, as recorded in Attachment l 8.2.10 50 l
Startup Intearated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date (1) CCe flow is oetween 5850 and 7150 gpm (see step 7.2.1.12). (5) ACC4 flow is betneen 4500 and 5500 gow (see steo 7.2.1.17). 7.2.1.20 Equally snace a t.o-by-two matrix of wet-buln psychrometers over the vertical inlet to eacn det tower cell and record on Attachnent d.2.A, het rower Temperature Data Table. 7.2.1.21 Place one wet-bulb psycnrometer in each windos to the det towers and record on l.2.8 l i 7.2.1.22 Place one dry-bulb psycnro. meter on the catwalk railina at a position between l the tdo wet tower Vertical inlet faces l l and record Jata on Attachment 8.2.8 7.2.1.23 Place one Gill propeller aneiometer in each eincow to the wet towers to monitor the air velocity throunh the vindovs during the test. Monitor these velocities continuously and record oata 51
Startup Intearated rest SIT-TP-250 Unit daterford 3 Date 7-2-82 Ultimate 11 eat Sink Test Revision 0 Initials & Date every 5 minutes on Attachn ent H.2.9, Anemometer Readinus Data Table. 7.2.1.24 Peasure the level of the wet tower cold water basin both before and after tne test, to determine aater losses; and complete an Attachment 8.3.5, dater Loss Calculation Sheet. 7.2.1.25 Comolete Attachment 8.3.1, LOCA Calculation Sheet, by takinq six readinas at exactly 1-bour intervals. 7.2.1.26 Complete Attach. vent a.3.4, het Tower i I Performance Calculation Sheet. 7.2.1.27 Complete the restoration valve lineup on Attacnment A.4.6 after six readings have oeen taken at 1-nour intervals. 7.2.2 Sinulated LOCA rest (Sine n) 7.2.2.1 Verify the initial conditions set forth l in steps 7.1.1, 7.1.2, 7.1.4, and 7.1.6; and verify that manometers or equivalent, used for measurina orifice floes are i ready for service. I 52
Startup Intearated rest SIT-rP-250 Unit daterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.2.2 Verify the valv'e lineup of Attacnment 8.4.4, Valve Lineuo rable, Tower B. 1 NOTE: The oil level indicators provided with the CCW and ACCW Pumps indicate OPERATING oil level. The 011'le' vel should read H I Gil shen the pump is shut dann and-MEDIUM when the pump is operatino. CAUTION 1: 14AEDIATELY STOP THE.ACCs PifVP IF ANY OF THE FOLI.ORING CONDITIONS ARE OBSERVED: (1) Uh0SUAL NOISE OR VIBRATION (2) PUvP BEARIrlG TEMPERATUME, AS READ FRUM IHSTALLEO TEMPERATUPS INDICAT3R, EXCEEDS 200 DEGREES F (3) FU:4P #0 TOR WINDIT4G rilERM0 COUPLE READING EXCEEDS 270 DEGREES F (4) DATED CAPACIrY OF 40.2 AMPS IS EXCEEDED CAUTION 2: 00 NOT EXCEED ACCW PUMP, RllN00T CAPACITY 3F 6650 GP?f. CAUTION 3: 60 NOT R U '? ACCa PUwPS AGAINST DEAD HEAD EXCEPT oPIEFLY TO VERIFY SHUT 0FF 53 9
e .g 1 \\ ,.4 i Startup integrated rest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials G Date etEAD (1.S "I4t!TES
- A VIvtlu ).
T46 ACCd i PUNF CAN UPER ATE USING THE EXISTI.JG 3-INCH RECIRCULATION LINE. 7.2.2.3 Check ACCW Pump B for proper oil level. 7.2.2.4 Start ACCW Pump B by placina handSwitch CS-1/752 on CP-8 to START. w 7.2.2.5 Check CC4 Puno A/B for proper oil level._ s ~= CAUTION 1: 00 Or EXCEED CCd PUNP PUNOUT CAPACITY w of 7500 GPe. s, CAUTION 2: TiiE CCW PIJ APS DO NOT H AVE AN INSTALLED RECIRCULATION LINE AND ARE LIMITED TO'- ' ~- l l 1 MINUTES V A X I '4 U M HUNNING AGAli4ST A I DEAD HEAD. l ~. 7.2.2.0 start CCW Puno A/B oy positioning handsritch CS-1/707 on CP-H to START. s. 4 6 7.2.2.7 Stonly open CCW P u.n o A/R discharce Velve (3CC-B119AB). O 4 CAurION 1: IMMEDIATELY STOP THE CC'n PUMP _ IF ANf OF THE FOLL0aING CONDITIONS ARE l OBSERVED: S4 1
- s w s Starti P Integrated Test SIT-TP-250 linit Waterf ord 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date l (1) Ula bS d A L N0ISE OR VIBRATION (2) PLP'P BEAPING TEMPERATilPE, AS READ i FROM INSTALLED TEMPERATURE IIIDIC A TOP, EXCEEDS 200 OEGREES F l l (3) Pil% P MOTOR AINDING THERN0 COUPLE READING EXCEEDS 270 OEGREES F (4) RATED CAPACITY OF 40.2 A*8PS IS EXCEEDED -CAUTION 2: OD HOT EXCEED CCW Pilu P RUtiOUT CAPACITY OF 7500 GPM. C A U T I O:J 3: TliE CCn PU4PS DO ' JOT HAVE An INSTALLED P EC I R CIAI. A T I O rl L I.s! E A f= D ARE LIMITEC TO 3 MINilTES M A X I vl1% RllNNI+1G AGAINST A DEAD HEAD. l ~ 7.2.2.8 At CP-33, niace tne following control switches for fans lit through 615 in the FAST position: s Fan No. Switch No. Initials & Date (1) 81 CS-1/781 (2) B2 CS-1/782 (3) 63 CS-1/783 (4) b4 CS-1/784 (S) P5 CS-1/785 (o) a t> CS-1/786 55
Startup Inte3 rated rest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate lieat Sink Test Revision 0 Fan sao. Switen 40 Initials & Date (7) B7 CS-1/707 (R) R8 CS-1/78H (9) 14 9 CS-1/789 (10) 610 CS-1/790 (11) 011 CS-1/791 (12) A12 CS-1/792 (13) 813 CS-1/793 (14) 541 4 CS-1/794 (15) B15 CS-1/795 Initials & Date 7.2.2.9 At CP-33, place det rower H fan control switches CS-1/dll and CS-1/81S in the ON position. 7.2.2.10 Ensure that the boiler has been started and is # armed up and at operatin7 pressure and tencerature (see References 2.4.2.5 and 2.4.2.6). R -CO L'4 / F Y 3. Cn % P A 8.0 P. U4 D. '4 A I N T
- f4 0:lE
- 0 0 0 0 / 0 0 / 0 0 R-elOLM Ate /TR A rv E. P6 G.BIA. J SS r. M
- N ON E
- 0 0 0 3 /01/ 6 8 NOTE:
During initial neatup of the dry coolina toaer ttice bund l es, ensure that tne niindles are " S t r e t c h e'1 Out" U n i f o r fo l V. 56
Startup Integrated rest SIT-fP-250 Unit Waterford 3 Date 7-2-82 !!1timate Heat Sink Test Revision 0 Initials & Date 7.2.2.11 Let the CC4 and A CC.1 Systems reach thermal equilibriun. .ionitor TE-CC-7077HS, and record the results on Attachment 8.2.6, Temnerature Equaliza-tion Grapn of ACC) Cold water Temperature vs. Tine. 7.2.2.11.1 Perform tne followino steps: 7.2.2.11.1.1 Adjust temperature control valve 7CC-TV091 until the dry tower inlet tercerature is 171 degrees F as indicated on TX-CC-7910BS. 7.2.2.11.1.2 Allow time for the temperature to i stabilize an1 Plot the teinperature on Attacntent H.2.5 7.2.2.11.1.3 Record on Attachment 6.2.2, RTD Data fante - 6 fosers, the temperature indications froat the following instruments: (1) TX-CC-791065 (2) TX-CC-7920as (3) TE-CC-707915 f (4) TE-CC-70776S 57
1 Startup Intecrated Test SIT-TP=250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date CAUTION: 00.10r EXCEED A CCd TFMcERATURE OF 175 DEGREES F AS REA9 SY THE RTO ON THE TEMPORARY PIPING T3 THE SIICTID:3 0F CCd PUdP A/B. 7.2.2.12 IIsing a Simolex pitot tube, make a 10-point traverse of the CC.i pipe on two mutually cerpendicular oiameters. (Pitot traverse tans are located approx-imately 12 dia neters downstream of tne temporary CC4 orifice.) Record this data on Attachaient d.2.3 at least once every 4 nours or at the beginnina and end ot each test. 7.2.2.13 Ponitor and record flowrate, as read from the te noorary CCW orifice plate, on Attacnment 8.2.5, Side B Flow Orifice ReadinQs. v,onitor this flowrate tnroughout the test (recording every 5 minutes) and durina pitot tube traverses to ensure tnat the water tlodrate does not chance. 7.2.2.14 Set up (if not already set up), and continuously monitor the temperatures stated in Attacnment 8.2.2 on the PTS-80A Temoerature Data System. t 58
Startup Integrated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.2.15 A platinu9 RTD sill be located on the hand railin7 at tne inlet to the too dry coolina tower fan on the two end and middle columns. These RTDs dill be inonitored continuously. 7.2.2.16 Seasure the inout power to each wet tower fan in the toner being used. Record this data in Attachment 9.2.7 once for each test on aLL eight fans beino used. 7.2.2.17 Using a Simplex oitot tube, make a 10-point traverse of the ACCW permanent pipina on two T.utually perpendictllar diameters. The oitot taps are installed approximately six pipe diameters upstream of installed tiow orifice FT-CC-7J73HS. (The nipe traverse will be made once for each test, and tne installed orifice plate will he monitored throuonout the test to ensure that the adter flowrate does not change.) Hecord data on Att ach nent H.2.3. 59 l l
Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.2.18 U s i n a e ri R. 9 1:ung microvane and cud anemometer, er eauivalent, continuously monitor tne ambient wind speed and direction and record on Attacnment H.2.10 every 5 minutes. 7.2.2.19 Ensure that the followinq test ilmitations are met betore continuing: (1) Ambient wet-bulb temperature is netween 71 decrees F and 87 degrees F, as recorded on At-tachment H.2.10 (2) Ambient cry-bulb temoerature is between 92 dearees F and 112 degrees F, as recorded on At-tachment d.2.10 l (3) Average ambient wind speed is equal to or less than 10 moh, with no 1-minute gust of more than 15 mph, as recorded on Attacnment 8.2.10 (4) CCN flow is between S850 and 7150 [ com (see step 7.2.2.12). l t oO
I 1 Startup Intearated rest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Dc :e (5) ACC'a flo'v is between 4500 and 5500 gn9 (see step 7.2.2.17). 7.2.2.20 Equally space a two-by-tno matrix of act-bulb osychrometers over the Vertical inlet to each wet tower cell and record on Attaennent 8.2.9. 7.2.2.21 Place one wet-ouin psychrometer in each windom to the wet toders and record on Attacnment 8.2.3. 7.2.2.27 Place one dry-oulb osychrometer on the catwal< railing at a position tretween the t*o wet toner vertical inlet faces and record data on Attacnment 8.2.8. i l [ l 7.2.2.23 Place one Gill proceller anemometer in eacn nindow to the det towers to monitor the air velocity throunh the nindows during the test. Monitor these velocities continuously and record data every 5 minutes on Attachment 8.2.9 I 61
I Startuo Integrated rest SIT-IP-250 Unit waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.2.24 Measure the level ot the et toaer cold water basin both betore and after tne test, to determine water losses; and complete an Attaenment 8.3.5. 7.2.2.25 Comolete Attachment d.3.1, LOCA Calculation Sheet, by takinq six readings at exactly 1-hour intervals. 7.2.2.26 Complete Attachiaent H.3.1, 'let Tower Performance Calculation Sheet. 7.2.2.27 Comniete the restoration valve lineup on.4.7 after six readings have been taten at 1-hour intervals. 7.2.3 Simulatei Normal Snutdown Test (Side A) 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.anoneeters or tne equivalent, used for measuring orifice flons, are ready for service. 7.2.3.2 /erify tne valve lineup of Attachment d.4.3. 62
Startuo Intearated Test SIT-TP-250 Unit Waterford 3 Date 7-2-92 Ultimate 'faat Sink Test Revision 0 Initials & Date N3fE: The oil level indicators provided with the CCe and ACCW Ptimps indicate OPERATING oil level. The oil level should read HIGH when the ptimp is shut down and MEDIUM when the pumo is operatina. CAtlTION 1: IMMEDLATELY STOP TliS ACCW PU4P IF ANY OF THE rufLOWING CONDITIONS ARE OBSERVED: (1) U?luSUAL MOISE OR VIBRATION (2) PU'tP BEARING TEMPE9ATURE, AS READ FHON INSTALLED TEMPERATURE I f4 D I C A TU R, EXCEEDS 200 DEGPEES F (3) PUMP 10 TOR v irJDING ItlERM0 COUPLE READING EXCEEDS 270 DEGREES F (4) RATED C%PACITY OF 40.2 AuPS IS EXCEEDED CAUTION 2: DO JOT EXCEED ACCd PUvP RUNOUT CAPACITY OF 5650 GP:4 CAUTION 3: DO NOT RUM ACCW PUMPS AGAINST DEAD HEAD EXCEPT BRIEFLY TO VERIFY SHUTOFF WAD (1.5 :41:Jil rE S N A X I MilM ). THE ACCW PUMP CAN 3PER.iTE USING THE EXTSTING 3 - I N Cli RECIRCULArIO*4 L I 'l E. 63
Startup Integrated rest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.3.3 Check ACCU Pump A for proper oil level. 7.2.3.4 Start ACCW Punp A by placing handsditch CS-1/752 on CP-8 to SrART. 7.2.3.5 Check CCd Ptins A/B for proper oil level. CAUTION 1: DO 'J O T EXCEED CCW PUSP RU100T CAPACITY OF 7500 GPM. CAUTION 2: THE CCW POSPS 00 1DT HAVE AN INSTALLED RECIRCULATION LI'4E AND ARE. LIMITED TO 3 MINUTES M A X I M 'J'i RUNNING AGAINST A DEAD HEAD. 7.2.3.6 Start CC4 Pu'no A/B by positionino l nandswiten CS-1/707 on CP-d to START. 7.2.3.7 Slowly ooen CC# Pump A/B discharge valve (3CC-6119AB). CAUTION 1: IMMEDIATELY STOP THE CCN P U t4 P IF A4Y UF THE FOLL0 ding C0;401TIONS ARE OllS ER VED : i (1) U*4tISU AL NOISE OH VIBRACION l l l 64 L
1 l Startup Integrated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date (2) PUMP BEARI;4G TEftPERATURE, AS READ FROM INSTALLED TEMPERATURE INDICATUR, EXCEEDS 200 DEGREES F (3) PtivP MOTOR WINDING THERMOCOUPLE READ 1hG E?.CEEDS 270 DEGREES F ( 1) RATED CAP % CITY OF 40.2 A '4 P S IS EXCEEDED CAUTION 2: 00 PJ OT EXCEED CCa PUMP RUNOUT CAPACITY UF 7500 G P '4 CAUTION 3: THE CCW PUdPS DO 40T HAVE Aid INSTALLED RECIRCULATION LIJE AND ARE LIMITED TO 3 M [ MITES AAXISUM RUNf3IaG AGAIMST A DEAD HEAD. 7.2.3.8 At CP-33, place tne tollowing control switches fcr fans At through A15 in the FAST position: Fan tin. Switch No. Initials & Date (1) Al CS-1/731 (2) A2 CS-1/732 (3) A3 CS-1/733 (4) A4 CS-1/734 (5) AS CS-1/735 (6) An CS-1/736 (7) A7 CS-1/737 o5
Startup Integrated rest SIT-TP-250 Unit 'aterford 3 w Date 7-2-82 Ultin.a te Heat Sink Test Revision 0 Fan No. Switch No. Initials & Date (b) A9 CS-1/738 (9) A9 CS-1/739 (10) A10 CS-1/740 (11) All CS-1/741 (12) A12 CS-1/742 (13) A13 CS-1/743 (la) A14 CS-l/744 (15) A15 CS-1/745 initials & Date 7.2.3.9 At CP-33, place Wet Tower A fan control switches CS-1/761 and CS-1/765 in the ON nosition. 7.2.3.10 Ensure that the boiler has been started and is warmed up and at operatina pressure and temperature (see References 2.4.2.5 and 2.1.2.6). R-COEP/FYR.COMPAh.0P.440.MAINT*MUNE*0000/00/00 R-HOLMA*i/TRANE.DAG.hbR.It!ST 3K*NDaF*0003/01/68 N3TE: During initial heatup of the dry coolin0 tower tube bundles, ensure that the bundles are " stretched out" uniformly. 7.2.3.11 Let tne CCv and ACCA Systems reach thermal eqitilibriuT. Monitor i 66 i w-
1 i Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Oltimate Heat Sink Test Revision 0 Initials & Date TE-CC-7077AS, and record the results on.2.6, TeiDerature Qualification Grapn of ACCW Cold Water Ternrerature vs. Time. 7.2.3.11.1 Perform the following steps: 7.2.3.11.1.1 Adjust temperature Controi valve 7CC-TV001 until the dry toder inlet temperature is 145 degrees F as indicated on TX-CC-7910AS. 7.2.3.11.1.2 Allom tire for the temperature to stabilize and clot the temperature on AttaCntent 8.7.6 l 7.2.3.11.1.3 Record on Attachment 8.2.1, RTD Data Table - A loders, the temperature Indications from the following l Instruments: i (1) TX-CC-7910AS (2) TX-CC-7920AS r (3) TE-CC-7079AS (1) TE-CC-7077AS CAUTION: 11 0 rJ O T EXCEED A CCa TEMPERATURE OF 175 DEGREES F AS READ BY THE RTO On THE 1 l 67 l l
Startup Intearated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink rest Revision 0 Initials & Date TEMPORARY PIPING T1 THE SUCTION OF CCW PUMP A/R. 7.2.3.12 using a Simplex pitot tuoe, 'n a K e a 10-point traverse of tne CCW oipe on two mutually cerpendicular diameters. (Pitot traverse taps are located aporox-ircately 12 diameters doenstrearn of the temporary CCa orifice.) kecord this data on Attachment 8.2.3 at least once every 4 hours or at the beginning and end of eacn test. 7.2.3.13
- 1onitor and record flodrate, as read from the te9porary CC'3 orifice plate, on Attachment d.2.4 Monitor this flodrate throughout the test (recordinq every 5 n:in u t e s ) and during pitot tuce traverses to ensure tnat the water flodrate does not change.
7.2.3.14 Set up and continuously monitor the temperatures stated in Attachment 8.2.1 on the Pr5-anA Temperature Data System. 7.2.3.15 A platinum RfD will be located on the hand railing at the inlet to the top dry l cooling tower fan on the two end and 6R l
Startup Integrated rest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date middle columns. Inese RTDs will be monitored continuously. 7.2.3.16 Heasure the input power to each wet tower fan in the tower being used. Record this data in Attacntent 8.2.7 once for each test on all eight fans being used. 7.2.3.17 Usina a Simolex oitot tube, make a 10-point traverse of the ACCW permanent piping on tvo mutually perpendicular diameters. rhe pitot taos are installed approxjnately six pipe diameters upstream of installed tiow ortftce FT-CC-707HAS. (The pipe traverse will be made once for each test, and the installed orifice plate will be monitored tnrouqhout the test to ensure tnat the dater flowrate does not chance.) Record data on Attachment 8.2.3. 7.2.3.18 Using an R.S. Youna microvane and cup anemometer, or equivalent, continuously monitor the ambient wind speed and 69
Startup Intearated Test SIT-fP-250 Unit Waterford 3 Date 7-2-82 Illtima t e liea t Sink Test Revision 0 Initials & Date direction and record on Attachment 6.2.10 every 5 minutes. 7.2.3.19 Ensure that the followino test limitations are met before continuing: (1) Amoient *et-bulb temperature is netween 77 degrees F and 87 segrees F, as recorded on At-tachment 8.2.10 (2) Ambient dry-bulb temperature is netween 92 degrees F and 112 1earees F, as recorded on At-t achrie n t 8.2.10 (3) \\verage ambient eind speed is equal to or less tnan 10 mpn, with no 1-minute gust of more than 15 mph, as recorded on Attachment 8.2.10. (4) CCW tiow is between 5H50 and 7150 ypm, as recorded on Attachment 8.2.3 (see steo 7.2.3.12). (S) ACCa flow is oetmeen 5850 and 7150 qui, as recorded on Attacnment 8.2.3 (see step 7.2.3.17). 70
Startup Inte1 rated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 LIltimate lieat Sink Test Revision 0 Initials & Date 7.2.3.2n Equally space a two-cy-two matrix of det-bulb osychrometers over the vertical inlet to each aet tower cell and record on AttaCnment 9.2.8. 7.2.3.21 Place one wet-bulb psycnrometer in each windn* to the aet towers and record on Attachment 9.2.8. 7.2.3.22 Place one dry-oulb osychrometer on the catsalk railina at a position hetaeen the two wet tower vertical inlet faces and record lata on Attachment 8.2.8 7.2.3.23 Place one Gill proceller anemometer in each aindow to the wet towers to monitor the air velocity throuah the vindows curing the test. '4onitor these velocities continuously and record data every 5 minutes on Attachment 8.2.9 7.2.3.21
- easure the level of the wet tower cold dater basin both before and after the test, to determine water losses; and complete an Attachment 9.3.5.
71
Startup Integrated Test SIT-rP-250 Unit Waterford 3 Date 7-2-82 Ultinate Heat Sink Test Revision 0 Initials & Date 7.2.3.25 Complete Attachment 8.3.2, Normal Snutcown Calculation Sheet, by takino six readinqs at exactly 1-hour jntervals. 7.2.3.26 Complete restoration valve lineuo on At-tacnment H.4.7 after six readings have been taken at 1-nour intervals. 7.2.4 Simulated Normal Shutdown Test (Side B) 7.2.4.1 Verify tne initial conditions set fortn in steps 7.1.1, 7.1.2, 7.1.4, and 7.1.6; and verify that manometers or the l equivalent, used for measuring orifice tiows, are ready for service. 7.2.4.2 Verify the valve lineup of Attacnment H.1.4. ___________.7__ NOTE: The oil level indicators provided with the CCn a n.1 A C C '.i Fumps indicate OPERATING oil level. Ine oil level snould read ifIGH dhen tne numo is shut toen and MEDIUM when the pumo is operating. l 72 l l i
Startup Integrated Test SIT-TP-250 Unit 'aaterford 3 Date 7-2-82 Ultinata Heat Sink Test Revision 0 Initials & Date CAUTIUa 1: IMMEDIATELY STOP T81E ACC4 PUMP IF ANY OF THE Foi,L0nING C0r.DITIONS ARE OPSERVED: (1) UNUSUAf. UDISE OR VIBRATION (2) PU 4P BEARING TEAPERATilRE, AS READ FROM INSTALLED TEMPERATURE INDICATOR, EXCEEDS 200 DEGREES F (3) PUdP MOTOR WINDING THERMOCullPLE READING EXCEEDS 270 OEGREES F (4) FATED CADACITY OF 40.2 A'4PS IS EXCEEDED CAllT1on 2: DO NOT EXCEED ACCm PU M P R di10llT CAPACITY OF 6650 GPt, A CAurION 3: DO NOT RUN ACCd PUMPS AGAINST DEAD HEAD EXCEPT BPTEFLY TO VERIFY SHUTOFF HEAD (1.5 4INUTES MAXIMUM). THE ACCW PilMP CAN OPERATE USING THE EXISTING 3-INCil HECIRCllLATION LINE. 7.2.4.3 Check ACCW P u.w p B for proper oil level. 7.2.4.4 Start ACCW Pumo O by placing handswitch CS-1/752 on 09-9 to START. l 7.2.4.5 Chect CCd Puro S/B for proper oil level. 73 t
Startup Integrated rest SIT-TP-25n Unit haterford 3 Date 7-2-82 Ulti.nate Heat Sink Test Revision 0 Initials & Date CAllTION 1: 00 :-10 T EXCEED CC4 PflMP RU J0tJT CAPACITY OF 7500 GPM. CAllTION 2: THE CCd P u tips DO N07 HAVE Af4 INSTALLED RECIRCULATION LI'4E Af40 APE LIMITED TO 3 NIrl0TES MAXI 4UM Ruf4NI.'JG AGAINST A DEAD HEAD. 7.2.4.6 Start CC4 Pump A/d by positioninq handSWitCn C5-1/707 On CP-8 to START. 7.2.4.7 Slowly open CC.1 Pump A/B discharge valve (3CC-8119A6). C AllTIO N 1: 19:4ED I ATELY STOP IHE CCW PlJ M P IF AtlY t GF THE FOLLO4IrJG CONDITIOiJS ARE OBSERVED: (1) llNilSil AL f40ISE OR VIBRATION (2) PUMP HEARIfJG TEMPEt<ATURS, AS REAU FPD4 it!STALLEn TEv.PF.R ATURE INDICATOP, EXCEEDS 200 DEGREES F (3) PUMP '40 r O R W I JD Ii4G THERMOCOUPI,E READING 8XCEKf)S 270 DEGRFES F (4) PATED CAPACITY OF 40.2 AMPS IS l EXCEEDED 74
Startup Intearated Test SIT-rP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date C A U T Itita 2: Du riar EXCEED CC= Phyp RUMOUT CAPACITY OF 7500 gps. CAUTIGN 3: THE CCW Pil4PS 00 ?;0T HAVE AN INSTALLED uPCIRCllLATION
- t. I N E A TJ D AHE LI:4ITED TO 3 14tNUTES NAAIMUM RUNfill!G AG AI'4ST A PEAD ilEAD.
7.2.4.R at CP-33, place the following control s*1tches for fans B1 through 615 in the FAST position: Fan No. Switen fio. Initials & Date (1) B1 CS-1/781 (2) H2 CS-1/782 (3) 63 CS-1/783 (4) B4 CS-1/784 (5) AS CS-1/78S (6) 86 CS-1/786 (7) E7 CS-1/767 (H) t* R CS-1/788 (4) b9 CS-1/739 (to) B10 CS-1/790 (11) 011 CS-1/791 (12) 612 CS-1/792 (13) B13 CS-1/793 (14) 914 CS-1/744 (15) H15 CS-1/795 75 t
Startup Integrated fest SLT-TP-250 Unit Waterford 3 Date 7-2-82 flitimate Heat Sink Test Revision 0 Initials & Date 7.2.4.9 At CP-33, place aet Tower a tan control switenes CS-1/811 and CS-1/815 in the UN position. 7.2.4.10 Ensure that the coiler has been started ano is e a r.n e d up and at operatina nressure and tet.perature (see References 2.4.2.5 and 2.4.2.6). R-COEN/FYk.COlPAh.9P.AND.4AINT*NOrlE*0000/00/00 R -H OLM A N / TR Alf E. PK G. H LR. I'!S T.H K T MOf.E e 0 00 3 /01/6 8
- J O T E :
Ouring initial heatup of tne dry cooling to.er tube bundles, ensure that the bundles are " Stretched out" uniformly. 7.2.4.11 Let the CCW and ACC.f Systems reach thermal eanillerlun. Monitor l TE-CC-7077hS, and record the results on f Attachment 9.2.6, remperature Qualification Graon of ACCW Cold hater i Temperature vs. Time. 7.2.4.11.1 Pertorm tne tollo.inc steps: 7.2.4.11.1.1 Adjust te%Derature control valve 7CC-TV031 until the dry tower inlet 76
Startup Intearated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date temoerature is 145 degrees F as indicated on TX-CC-791035. 7.2.4.11.1.2 A l l o'. time for the temperature to staoilise and clot the temperature on Attachment 9.2.6 7.2.4.11.1.3 Record on Attachment 8.2.2, RTD Data 1able - 9 romers, tne te nperature indications trom the following instruments: (1) TX-CC-79106S (2) TX-CC-7920RS (3) TE-CC-7079BS (4) TE-CC-707795 7.2.4.12 Using a Simplex pitot tube, make a 10-point traverse of the CCn pipe on two mutually neroendicular diameters. (Pitot traverse taos are located approx-imately 12 -Jiameters donnstream of the temporary CCi8 orifice. Record this data on Attachment d.2.3 at least once every 4 hours or at the beginning and end of eacn test. 77
Startup Integrated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.4.13 ?>onitor and record tionrate, as read f r o ve the temporary CCW orifice plate, on Attacnment 8.2.5. Monitor this flowrate throunhout the test (recording every 5 minutes) and during pitot tube traverses to ensure that the water flowrate does not chance. 7.2.4.14 Set up and continuously monitor the temocratures stated in Attacnment 8.2.2 on tne PTS-90A Temperature Data System. 7.2.4.15 A platinum 400 sill be mounten on the hand railing at the inlet to the top fan on the two end and middle columns. Tnese RTDs will be ionitorea continuously. 7.2.4.16 '!easure the input oover to each det tower fan in the tower being used. Record this data in Attachment 8.2.7 once for each test on all eight fans being used. i 7.2.4.17 Using a Simplex oitot tube, make a 10 point traverse of the ACCA permanent pipinu on two autually percendicular 75
Startup Intearated rest SIT-TP-250 Unit waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date diameters. The oitot taps are installed approximately six o1pe diameters upstream of installed floa orifice FT-CC-7078BS. (The pipe traverse will be nade once f.or each test, and the installed orifice plate will be monitored throuanout the test to ensure that tne water floerate does not change.) Record data on Attachment 3.7.3. 7.2.4.18 Using an R.1 Youna microvane and cup anemometer, or equivalent, continuously monitor the amolent wind speed and dJrection and record on Attachment H.2.10 every 5 minutes. 7.2.4.19 Ensure that tne folioving test limitations are met riefore continuino: I (1) Ambient wet-bulb temperature is between 77 degrees F and 87 decrees F, as recorded on At-tachnent 8.2.10. (2) Ambient dry-bulb temperature is netween 92 degrees F and 112 79
l 1 ^% Startup Integrated fest SLT-TP-250 Unit Waterford 3 Date 7-2-82' Ultimate Heat Sink Test Revision 0 Initials & Date Jegrees F, as recorded on At-tachment d.2.10. (3) Averaue ambient wind speed is equal to or less than 10 men, with no 1-0inute cust of anore than 15 mph, as recorded on Attachment P.2.10 (1) CC# tion is between 5850 and 7150 gom, as recorded on Attachment 8.2.3 (see steo 7.2.4.12). (5) ACCn floa is between 5850 and 7150 qpm, as recorded on Attachment P.2.3 (see step 7.2.4.17). 7.2.4.20 Equally space a two-by-two matrix of wet-bulo psychrometers over the vertical i inlet to each set tower cell and record on Attachment 9.2.3 7.2.4.21 Place one wet-bulb psychrometer in each l windon to the det towers anc record on l l Attachment b.2.8 l l 80
Startup Integrated Test SIT-TP-250 Unit 'aterford 3 n Date 7-2-82 Ultimate Ileat Sink Test Revision 0 Initials & Date 7.2.4.22 Place one dev-nulb psychrometer on the catealk railin7 at a position between the two wet toder vertical inlet faces ano record 1ata on Attachment 8.2.8. 7.2.4.23 Place one Gill propeller anemometer in each vindow to the wet towers to monitor the air velocity through the dindows durina the test. Monitor these velocities continuously and record data every 5 minutes on Attachment 8.2.9. 7.2.4.24 t'e a s u r e the level of the wet tower cold water basin both betore and after the test, to determine nater losses; and complete an Attachment H.3.5. 7.2.4.25 Complete Attachment R.3.2, Normal Snutdo n Calculation Sheet, by taking six readinos at exactly 1-hour intervals. I 7.2.4.26 Complete restoration valve lineup on At-tachment 8.4.4 after six readiness have been taken at 1-nour intervals. 81
"sp 1 Startup Integrated rest SIT-fP-250 Unit a'aterford 3 ^ Date 7-2-82 Ultimate ricat Sink Test Revision 0 Initials & Date 7.2.5 Simulated shutdown 24 Hours After Reactor x frip Test (Side A) 4 C AllTION : THIS TEST IS t10T TO BE RilN SIMbLTANEOUSLY niTH ANY OTHER PLAllT EVOLU TIO!43. 7.2.5.1 verifv the initial conditions set forth in steps 7.1.2, 7.1.3, and 7.1.5; and verity that nanometers or the equivalent, used for measurino orifice flows, are s ready for service. i s 7.2.5.2 Verity the valve lineup of Attachment 6.4.7. m' 7.2.5.3 Check CCe l'u m o A/B for proper oil level. ~ C AU TI Url 1: !!1 MEDIATELY STOP T iE CCW PilM P IF ANY OF THE FilLLO.il NG C0fsDI TIONS ARC OBSERVED: (1) Ut< USUAL NOISE OR VIHRArIDA s (2) PUSP IFARING TE.MPERATURE, AS READ. FROM INSTALLED TEbPERATURE INDICATOR, EXCEEDS 200 DEGREES F (3) PUMP 90 TOR cITIDI?1G T3ERM0 COUPLE READIUG EXCSEDS 270 DEGREES F \\ 32 s sr
4 Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date (4) P ATE 0 C AP ACI TY OF 40.2 A'4PS IS EXCECDF3 C A u rIlsil 2: 00 t;0r EXCFC0 CCd PUwP RUNOUT CAPACITY OF 7500 GP4 CAUTIOf3 3: THE CCn PUNPS 00 NOT HAVE AN INSTALLED H EC I P CilL A T 10id LINE AfJO APE LIMITED TO 3 > I fJllTES ri A X I'4tl% Hl'N:J 1t4G AG A IrJST A DE AD HE Al). m 7.2.5.4 Start CCd Puno A/3 and CCW Pump G by positioning handsvitches CS-1/707 and CS-1/709 on CP-H to STAHT. ~ 7.?.S.S Slowly open CCt P'n p A/B discharge valve (3CC-R119An) and CC'e Pump D discharae I valve (3CC-bl199). 7.2.5.6 At CP-33, place tne following control switenes for fans Al throuqh A3 in the FAST position: i Van No. Switen No. Initials & Date i (1) Al CS-1/731 (2) A2 CS-1/732 (3) A3 CS-1/733 l R3
Startup Integrated Test 51T-TP-250 Unit waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.5.7 At CP-33, ensure that met Toner A fan control switenes CS-1/761 ana CS-1/765 are in the OrF position. 7.2.5.8 Ensure that tne boiler is narmed up and at operatinQ Dressure and t eia pe r a tu re (see Peterences 2.4.2.5 and 2.4.2.6). R -COEN / V Y P..CO N P h.OP. A N D. '1 A I N T
- alGN E
- 0 0 0 0 /0 0 /00 R-Hut #AN/TPANE.PhG.bbR. INST.SK*NONE*0003/01/bH 7.2.5.9 lising RfDs on the intet and oti t ie t of the temporary heat excnencer, maintain a temperature difference of 6 decrees F.
7.2.S.10 dsino a Simplex uitot tune, make a 10-ooint traverse of the component coolin7 water pipe on two mutually perpendicular olameters. Record this data on Attach'nent W.2.3. 7.2.5.11 uonitor and record flodrate, as read from the temporary CCS orifice plate, on At-Lachment P.2.4 Vonitor this flodrate throuqhout the test (recording every 5 minutes) to ensure that the mater flowrate does not change. i H1
I Startuo Integrated Test SIT-TP-250 Unit katerford 3 Date 7-2-82 ilitimate Heat Sink Test Revision 0 Initials & Date 7.2.5.12 Set up a nti continuously monitor the temperatures stated in Attachment 8.2.2 on the PTS-90A temperature Data System. 7.2.5.13 A platinum RTO *ill oe mounted on the hand railinc 4t the inlet to the top fan on the two end and middle columns. These RfDs will be monitored continuously. 7.2.5.18 Ensure that the following test limitations are met before continuing: (1) Ambient wet-tulb temperature is bet cen 77 degrees F a n ri 87 degrees F, as recorded on At-tacnment H.2.10 (2) Ambient wind speed is equal to or less than 10 mpn, with no 1-minute i aust of tore tnan 15 mpn, as recorded on Attachment 8.2.10. (3) CCd flos is between 5R50 and 7150 ppm, as recor:ted on Attachment 8.2.3. 85
Startup Intearated Test SIT-TP-250 Unit materford 3 Date 7-2-82 Ultimate Heat Sink Test Pevision 0 Initials & Date 7.2.5.15 Measure the level of tne wet tower cold %dteT Dasin both before and after the test (step 7.2.5.19.4), to determine water losses. See Attachment 8.3.5, 'aater I.oss Calculation Sheet. 7.2.5.16 Usina an R.4. foung microvane and cup anemometer, or cauivalent, continuously monitor the amulent mind speed and direction and record on Attachment 8.2.10 every 5 minutes. 7.2.5.17 Ensure that the level in the wet cooling to'aer basin is at the low end of the operatinq hand (acoroximately 175,000 callons). N3TE: The oil level indicators provided with the l CCd ano 3CCW Pumps indicate OP6 RATING oil level. The oil level should read HIGH when the pump is shut down and AtEDIU'i when the pump is operating. CAUTION 1: THAEDIArELY STOP THE ACCU PUMP IF ANY CF THE FOLt.0 WING CONDITIONS ARE ORSEPVED: (1) UNt!SUAL MOISE OP VIBRATION 66 I l
Startup Intearated Test SIT-rp-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test
- Revistor, O
initials & Date (2) Ptl4P HE ARit G TSVPERArilRE, AS READ F F. 0 '4 INSTALLED TEMPERATURE ltdDICAT3P, EXCEEDS 200 DEGREES F (3) PU'4P YOTOR aIflDING THERMDCDUPLE READING EXCEEDS 270 DEGREES F (4) RATED CAPAC1rY OF 40.2 AAPS IS EXCEEDED CAUTION 2: 00 Nor EXCEE0 ACC.f PIIMP RUNOUT CAPACITY OF 6b50 GPM. CAUTIOff 3: 90 NOT RUN ACC4 PUMPS AGAINST DEAD HEAD EXCEPT 14kIEFf,Y TO VERIFY SHUTOFF HEAD (1.5 w i d!! T E S 4 AX I:-t U M ). THE ACC'A PUMP CA4 BE RilN USI'lG THE I'4ST ALI ED RECIRCULATION LI4d. 7.2.5.18 Initiate the tornado test by performing the followina: 7.2.5.18.1 Drain CCW Surue Tank A to the level necessary to initiate CCA pu tn p isola-tion valve ' notion by performing the follo.ing: 7.2.5.18.1.1 Close 3CC-6174A, Surce Tank A isolation. 1 7.2.5.18.1.2 Close 30C-V638A/B, till valva to Surge Tank A. 27
i Startup Intearated Test SIT-TP-250 Unit daterford 3 Date 7-2-92 ultimate heat Sink Test Revision 0 Initials & Date 7.2.S.1H.1.3 Open surge tan < drain 3CC-V603-15 until CCW pumo suction / discharge valves close, Dry Tower A inlet valve closes, and tower bypass opens; then close 3CC-Vn03-15. HDTE: Suction pressure for ooerating CC'n Pump A/B is provided bv tne te noorary furbine buil<tinq cooling water surge tank. 7.7.5.1H.2 Wnen CC, suction and discharge valves close, secure CCd Pump b. N3TE: Normally, the ACC= pump would start when tne CCet heat exchanaer exit temperature reaches 115 degrees F. However, since that part of the system is valved out, this condition afli ne simulated ov turning on i the pump. 7.2.5.18.3 Start ACCv Pump A by placina handsatten CS-1/752 on CP-8 to the START position. i 7.2.5.18.4 Using a Simplex oitot tube, make a 10-ooint traverse of the ACCW oipe on the tao mutually perpennicular P9
I l Startuo Inte1 rated fest sir-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date diameters. The pitot tads are installed approximately six ploe diaTeters uostream of itstalled f l o.1 orifice FI-CC-7073AS. (The pipe traverse *111 de tede once for each test, and the installed orifice plate will be monitored throuQhout the test to ensure tnat the eater flowrate does not chanoe.) Record data on At-tachment U.2.3. 7.2.5.18.5 For the neXt 2 nnurs, monitor and record tree TE-CC-7077 AS reading on At-tachment 8.2.1. 7.2.5.18.o Close the following valves: (1) 3CC-BSla (2) 3CC-BG2A (3) 3CC-883A (4) 3CC-B44A 7.2.S.18.7 Open surge tan < supply valve 3CC-b638A/B and till the surge tank until the low-level alarm clears. 7.2.5.16.a noen Dry Iower A surply valve 3CC-6201A by turning handswitch 84
l Startup InteQrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-62 Ultinate :leat Sink Test Revision 0 Initials & Date CS-1/749 on CP-33 to tne NOFE posi-tion, and verify the followinc:
- 7. 2. $.18. fs.1 The yreen indicating linht rioes off.
7.2.5.18.F.? The red indicatino 11gnt comes on. 7.2.5.18.d.3 Tne valve opens (verity by observing valve stem position). 7.2.5.18.9 Close Dry Toaer A bypass valve 3CC-H2bSA by turning handsvitch CS-2/749 on CP-33 to the Cl40SE posi-tion, and verity the folloding: 7.2.5.10.9.1 The red indicatino liriht goes off. 7.2.5.18.9.2 The Green indicating liant comes on. 7.2.5.19.9.3 The valve opens (verify oy observing valve sten oosition). 7.2.5.18.10 Enercize Dry Tower A fans Alu, A11, and A12 by turning handseitches C5-1/740, CS-1/741, and CS-1/742, respectively, to the FAST position on CP-33; a n.1 verify the following: 90
Startup intecrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Iteat Sink Test Revision 0 Initials & Date 7.2.5.18.10.1 The qreen indicating lignts go out. 7.2.5.18.10.2 The rei indicatino lights come on. 7.2.5.18.10.3 The fans start at Dry l'ower A. 7.2.5.1h.11 Secure ACCN Puno A hy turning nandswiten CS-1/752 on CP-33 to the STOP position, and verify the following: 7.2.5.18.11.1 The red indicatino licht goes out. 7.2.5.18.11.2 The green indicatino light comes on. 7.2.5.18.11.3 ACCN Pump A motor stops. 7.2.5.18.12 Verify that the system has reacned equilibrium by ensuring tnat the CC4 temperature at the exit of the CCW heat exchanger remains relatively constant, 12 de7rees F, for a period of 10 minutes. 91
Startup integrated Test SIT-IP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.5.18.13 vonitor and record the data points as outlined on A ttachraent 8.2.1 for a period of 2 hours. r0TE: When drainina tne det toaer basin, it is necessary to close 6CD-V6eo to prevent retilling the basin via the condensate transfer pump. 7.2.S.18.14 Drain the wet tower basin until accroximately 75,000 gallons remain in the basin. 7.2.5.10.15 Close the following =et Tower A riser valves: (1) 3CC-654A (2) 3CC-857A (3) 3CC-85hA (4) 3CC-b53A 7.2.S.18.16 Verify that eniller suction valve 3CC-F27bA is closed. __1.___________ t l 7.2.5.18.17 At CP-33, place the following control l s41tenes for fans A7 through A9 and i A13 throuan A15 in the FAST position: 92 l l
l Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Fan No. bwitch No. Initials & Date (1) A7 CS-1/737 (2) TH CS-1/730 (3) A9 CS-1/739 (4) A13 CS-1/743 (5) A14 CS-1/744 (o) A15 CS-1/745 Initials & Date 7.2.5.18.1H Perfora the following simultaneously: 7.2.5.18.18.1 Usinq RTDs on the intet and outlet of the temporary heat exchanger, maintain a dry tower inlet temperature of 149 degrees F as indicated oc rt-CC-791nAS. 7.2.S.18.18.2 Use teicerature control valve 3CC-IM290A to manually control CCW heat exchanger outlet temperature at 1105 de7 tees F. 7.2.5.19.18.3 Doen circulatiny water discnarge valve 3CC-6263A. 7.2.5.18.18.4 Cycle ACCa' Pump A by using handsaitch CS-1/752 on CP-8 to Taintain the level in the wet tower basin. 93
Startup Integrated Test SIT-rp-250 Unit Waterford 3 Date 7-2-02 Ultimate Heat Sink Test Revision 0 Initials & Date 1 7.2.5.19.14.5 tinlock and open 7CC-h1941 (C4-403A) as necessary to keep CCd heat ex-channer discharge temperature below 120 de7rees F and ACCW cold aater below 95 de.7rees F. Recora on At-tachment 8.2.1 and Tornado Case Calculation Sneet, Attachment 8.3.3. 7.2.6 Simulate 1 S h u t 1 o'a n 24 hours After Reactor trip Test (Sitte b) CAur10N: TitIS f t.5T IS 4DT TO HE Riih S I N UI. T A t:Eutist,Y WITH A r4 Y UTHER PLANT F:VOLUT10NS. 7.2.6.1 Verify the initial conditions set forth in steos 7.1.2, 7.1.3, and 7.1.6; and verity that manoreters or the equivalent, used for measurina orifice flons, are ready for service. 7.2.e.2 Verity the valve lineup of Attachment 8.4.8 7.2.6.3 Cneck CCd Pu?p A/B for proper oil level. 94
Startup Integrated Test SIT-TP-250 finit daterford 3 Date 7-2-R2 Ultin' ate Heat Sink Test Revision 0 Initials & Date CAUTION 1: IMMEDIATELY STOP THE CCW P U.v P IF ANY OF Tile FOLI,0 *IfiG C0hDIT10f'S ARC 08bEHVEO: (1) OfibSUAL NOISE OR VIHRATIO*i (2) PUMP BEAPING TEMPERATURE, AS READ FROM INSTA!,f,ED TEuPERATURE IhOICAIOR, EXCEEDS 200 DEGREES F (3) PUMP t40r0R d!NDIi4G THERM 0 COUPLE PEADING EXCEEDb 270 ORGPEES F (4) RATED CAPACITY OF 40.2 A%PS IS EXCEEDED i CAUT10f1 2: DO NOT EXCEED CCA PO4P RiluGUr CAPACITY OF 7500 GPM. CAUT10f4 3: THE CCW PU1PS 00.NOT HAVE AN INSTALLED RECIRCULATIOi4 LINE AND ARE LIttITED TO 3 MINUTES d A X I 'd V M Puf*NIf4G AGAINST A DEAD HEAD. 7.2.6.4 Start CCu pump A/B and CCW Pump A by positionina handsditches CS-1/707 and CS-1/705 on CP-8 to START. 95
Startup Integrated Test SIT-TP-250 Unit waterford 3 Date 7-2-82 tiltimate Heat Sink Test Revision 0 Initials & Date 7.2.6.5 Slowly open CC4 Pump A/B discharge valve (3CC-H119AH) and CCa Pump A discharue valve (3CC-B117A). 7.2.6.6 At CP-33, place the following control switches for fans 81 through B3 in the FAST position: Fan No. Switch No. Initials & Date (1) di CS-1/781 (2) n2 CS-1/782 (3) B3 CS-1/783 Initials & Date 7.2.6.7 At CP-33, ensure that Wet Tower R fan I enntrol switenes C5-1/811 and CS-1/815 i l are in the OFF position. 7.2.6.8 Ensure that the boiler is warmed up and at coeratino pressure and temperature (see References 2.4.2.5 ano 2.4.2.6). R-COEN /FYR.COM P Af.DP. A:4D.M AI'JT
- n0NE* 0000/n0/00 R -iiOL'4 A !/ TR A N E.PK G.dl,R. I f!S r. 0 K
- r.ONE
- 00 0 3 / 01/6 8 96
Startup Integrated test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.6.9 Using Hros on tne inlet and outlet of the temporary heat exchanger, maintain a teraperature dif f erence of 6 degrees F. 7.2.6.10 Using a Simplex pitot tube, make a 10-point traverse of the component cooling water pipe on two autually perpendicular diameters. Record this data on Attaenment 9.2.3. 7.2.6.11 '4onitor and record flowrate, as read f r o.n tne temporary CCW orifice plate, on At-tachment H.2.5. Aonitor tnis flodrate throughout the test (recording every 5 minutes) to ensure that the dater flo* rate does not enange. 7.2.6.12 Set up and continuously monitor tne temreratures stated in Attach.nent 8.2.2 on the PTS-80A temperature Data System. 7.2.6.13 A platinum RTO will be mounted on the nand railing at tne inlet to the top fan on the too end and.niddle columns. These RTDs will be T.onitoreu continuously. 97 L
Startup Integrated Test SII-TP-250 Unit 'aaterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 l Initials & Date l 7.2.6.14 Ensure that tne follo=ing test Ilmitations are met before continuing: (1) Ambient wet-bulb temperature is netween 77 dearees F and 87 degrees F, as recorded on At-tachment 6.2.10 (2) Ambient wind sDeed is equal to or less than 10 mph, with no 1-minute gust of more than 15 moh, as recorded on Attachment d.2.10 (3) C C.J tlos is between SESO and 7150 gpm, as recorded on Attachment 8.2.3. l 7.2.6.15 Measure tree level of the wet tower cold water basin ooth before and after the test (step 7.2.6.18.4), to determine l
- ater losses.
See attachroent 8.3.5, voter Loss Calculation Sheet. 7.2.6.16 Using an R.u. Young microvane and cup anemometer, or eaulvalent, continuously monitor the amoient 41nd speed and l direction and record on Attacnment 9.2.10 every-5 minutes. I 98
^ Startup Integrated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.6.17 Ensure that the level in the set cooling tower nasin is at the low end of the operating nand (approximately 175,000 aallons). NOTE: The oil level indicators provided with tne CCd and ACCW Punps indicate OPERATING oil level. The oil level should read HIGH when l the pump is shut down and MEDIUM when the pump is operating. 4 CAUTIch 1: IMMEDIATELY STOP THE ACCW PUMP IF ANY OF THE FULL 0nING CONDITIONS ARE OBSERVED: (1) UhllSUAL !?OISE OR VIPHATION (2) Pil4P BEARIflG TEMPERATURE, AS READ FROM TNSTAbt.ED TEMPE9ATURE 1h01CATOR, EXCEEDS 200 DEGREES F (3) PUhP SOTOR NINDING THERMOCollPLE READING EXCEEDS 270 DECREES F (4) RATED CAPACITY OF 40.2 A4PS IS EXCEEDED CTUTION 2: [' O ?!OT EXCEED ACCW PUVP PU'JOUT CAPACITY 1F b650 GPM. i 99
l Startup Inteorated Test SIT-TP-250 Unit waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date CAUTI0t1 3: DO POT PU 4 ACC4 PUAPS AGAlfiSr DEAD
- iEAD EXCEPT dHIEFIY 10 VERIFY SiluTOFF HEAD (1.5 MINUTES *AKXjfAUM).
THE ACCW PUMP C A tl BE Rufi USI!JG THE INST ALLED RECIRCULAr10N L 1 'l E. 7.2.6.18 Inittste the tornado test by performing the followina: 7.2.6.18.1 Drain CC's Surce Tank R to the level necessary to ini tiate CC'a pump isola-tion valve motion by perfor. ming the following: 7.2.6.10.1.1 Close 30C-B1753, Surae Tank B isolation. 7.2.6.18.1.2 Close 3CC-V639A/B, till valve to Surge Tank U. 7.2.6.18.1.3 open surge tank drain 3CC-Vo13-11 until CCr out.p suction / discharge valves close, Dry Tower A inlet valve closes, and tower oypass opens; tnen close 3CC-V613-11. N3TE: Suction pressure for operating CC4 Pump A/B is provided by the tenporary Turnine Buildina coolina sater surqe tant. 100
Startup Intearated Test SIT-TP-250 Unit daterford 3 Date 7-2-82 !!1timate Heat Sink Test Revision 0 Initials & Date 7.2.6.18.2 when CCN suction and discharge valves close, secure CCd Pumo A. N3TE: Normally, the ACC4 nump would start ' hen the CCW neat excnanger exit temperature reacnes 115 de:Jrees F. Howe,ver, since tnat part of the system is valved out, this condition will oe si.nulated by turnina on the pump. 7.2.6.18.3 Start ACCW Pump B by placing handssitch CS-1/752 on CP-8 to the STAPT position. 7.2.6.18.4 ifsina a simplex pitot tune, make a lb-point traverse of the ACCW olpe on the ten mutually perpendicular diameters. The oitot taps are installed approximately six pipe diameters upstream of installed flod orifice FI-CC-7079BS. (The pipe traverse 4111 be made once for each test, and tne installed orifice plate will be monitored througnout the test to ensure that tne *ater flowrate does not enange.) Fecord cata on At-t a c hia e n t 4.2.3. 101 l
Startup Integrated Test SIT-fP-250 Unit daterford 3 Date 7-2-82 Ultinate Heat Sink Test Revision 0 Initials & Date 7.2.6.1H.5 For the next 2 nours, monitor and record the TE-CC-7077BS reaoina on At-tachment 8.2.2. 7.2.6.18.5 Close the follo'aina valves: (1) 3CC-H714 (2) 3CC-B728 (3) 3CC-873H (4) 3CC-6749 7.2.b.18.7 Open surce tank supply valve 3CC-V639A/B and fill tne surge tank until the lon-level alarm clears. 7.2.6.18.8 Poen Dry Tower R supply valve 3CC-H203B ny turninq handsmiten CS-1/749 on CP-33 to the NORE posi-tion, and verify the followinu: 7.2.6.18.8.1 Tne green indicating liqht aoes off. 7.2.6.18.8.2 1he red indicatina 11aht comes on. 7.2.6.19.4.3 The valve opens (verify by observinq valva stem position). lu2
Startup Integrated Test SIT-TP-250 Unit daterford 3 Date 7-2-02 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.6.18.9 Close Dry Toner 5 bypass valve 3CC-R26?B by turnino handswiten CS-2/749 on CP-33 to the CLOSE posi-tion, and verity tne following: 7.2.6.18.9.1 1he red indicatino liqht goes off. 7.2.6.18.9.2 The green indicating light comes on. 7.2.6.18.9.3 The valve ocens (verify by observing valve stem oosition). 7.2.6.18.10 e,ner71ze Dry Toner 6 fans B10, Bil, and 612 by turnina handsvitenes CS-1/740, CS-1/791, and CS-1/792, respectively, to the FAST position on CP-33; and verify the following: 7.2.6.18.10.1 The qreen indicatinq lichts uo out. 7.2.6.18.10.2 The red indicatino lights coice on. 7.2.o.18.10.3 rhe fans start at Dry fower B. 103
~- Startup Integrated Test 51T-TP-250 Unit Waterford 3 Date 7-2-82 tiltimate Heat Sink Test Revision 0 Initials & Date 7.2.6.18.11 Secure ACCA Pump B by turning nandsmiten CS-1/752 on CP-33 to the S10P position, and verify the following: 7.2.6.18.11.1 The red indicating licht coes out. 7.2.6.19.11.2 The green indicatino li1nt comes on. 7.2.6.19.11.3 ACCW Puro B motor stops. 7.2.b.18.12 Verify tnat the system has reached equilibrium by ensuring that the CCW temperature at the exjt of the CCW l heat excnancer remains relatively constant, 12 degrees F, for a period of 10 minutes. 7.2.6.19.13 Monitor and record the data points as outlined on Attachment P.2.2 for a period of 2 hotirs. l NOTE:
- hen drainin1 the wet tover hasin, it is necessary to close (LATER) to prevent retillina the basin via the condensate transfer cump.
104
Startup Intearated Test SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Initials & Date 7.2.6.1H.14 Orain the wet tower basin until anproximately 75,000 gallons remain in tne basin. 7.2.6.18.15 Close the foliovina wet Tower B riser valves: (1) 3CC-8564 (2) 3CC-8596 (3) 3CC-9609 (4) 3CC-655f: 7.2.6.18.16 Verify that chiller suction valve 3CC-F'2776 is closed. 7.2.o.18.17 At CP-33, place the folloainq control switches for fans H7 through 89 and R13 throuan B15 in tne FAST position: Fan No. Switch No. Initials & Date (1) 47 CS-1/7El (2) 39 CS-1/736 (3) 89 CS-1/789 (4) 813 CS-1/793 (5) 614 CS-1/704 (6) H15 CS-1/795 i j 7.2.6.1H.18 Perform the following simultaneously: In5
Startup Inte1 rated Test SIT-TP-250 Unit waterford 3 Date 7-2-82 UltiT. ate Heat Sink Test Revision 0 Initials & Date 7.2.6.14.lo.1 Using PfDs on the inlet and outlet of tne tenporary neat excnanger, 5.aintain a dry tower inlet tencerature of 149 decrees F as indicated on TX-CC-7910BS. 7.2.b.18.18.2 Use teVoerature control valve 3CC-Tv2918 to manually control CCW hedt exchanger outlet temperature at 1105 de'Jrees F. 7.2.6.18.16.3 open circulating eater discharge valve 3CC-6264B. i l 7.2.6.18.1H.1 Cycle ACC.* Pumo 4 cy using handswiten CS-1/752 on CP-8 to taintain the level in the wet tower casin. 7.2.b.18.18.5 Open 6CD-V333 (from condensate transfer pung) as necessary to keep the CCv heat exchancer disenarce temperature below 120 degrees F and ACCv col 1 vater celow 95 de1rees F. Record on Attachment 8.2.2 and fornado Case Calculation Sheet, At-tachment d.3.3. 106
Startup Integrated rest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate i{ eat Sink Test Revision 0 Initials & Date 7.3 kestoration 7.3.1 set Tower - Train A 7.3.1.1 At Cp-33, place (or verify placed) wet tower fan control ssitches CS-1/761 (for fans 1 thrOU7h 1) and CS-1/765 (for fans 5 through 8) in the DFF position. 7.3.1.2 At 480V MCC-3A315-S, compts. 10H and 12H, open the bre*<ers for fans At through A8 7.3.2 det To.ser - Train a 7.3.2.1 At CP-33, place (or verify placed) wet to=er fan control ssitches CS-1/R11 (for fans 1 throuan 4) and CS-1/815 (for fans 5 throuqh 8) in the OFF position. 7.3.2.2 At 480V ACC-36315-S, Comots. 1 011 and 12H, open the breakers for fans B1 through bd. 1 i 7.3.3. Ory roder - Train A i 7.3.3.1 At CP-33, olace (or verify placed) the f o 110w in:1 Dry Taaer A tan control i 107 i
Startup Integratea fest SIT-TP-250 Unit Waterford 3 Date 7-2-82 Ultimate fleat Sink Test Revision 0 Initials & Date suitenes for fans Al throuqn A15 in the OFF position: Fan No. Switch f4 0. Initials & Date (1) Al CS-1/731 (2) A2 CS-1/732 (3) A3 CS-1/733 (4) A4 CS-1/734 (5) AS CS-1/735 (6) An CS-1/736 (7) A7 CS-1/737 (H) A9 CS-1/738 (9) A9 CS-1/739 (10) A10 CS-1/740 (11) All 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 4HOV 4CC-3A315-S, open the following brea<ers for Dry Tower A fans Al throuan A15: Fan no. CoMot. No. Initials & Date (1) %1 IF (2) 42 1M (3) A3 2F 108
1 Startup Inte7tatea rest SIT-TP-250 Unit daterford 3 Date 7-2-82 'lltimate Heat Sinx Test Revision 0 Fan No. Compt. No. Initials & Date (4) A1 24 (5) AS 3F (6) A6 34 (7) A7 4F (8) A8 44 (9) A9 5F (10) A10 58 (11) All 7F (12) A12 79 (13) A13 8F e (11) A14 dM (15) A15 9F 1 Initials & Date 7.3.4 Ury Toner - Irsin a 7.3.4.1 At CP-33, place (or verified placed) tne l I followinq Dry Tower a fan control switenes tor fans 31 through HIS in the nFF position: Fan do. S '* i t c h No. Initials & Date (1) 81 CS-1/7Al (2) B2 CS-1/792 (3) t5 3 CS-1/783 (4) d4 CS-1/784 (5) US C5-1/785 ( (6) b6 CS-1/786 109
1 \\ Startup Integrate:1 Test SIT-rP-250 Unit Waterford 3 Date 7-2-82 Ultia. ate 4 eat Sink Test Revision 0 Fan No. Switch f40. Initials & Date (7) b7 CS-1/787 (0) eH CS-1/788 (9) ti 4 CS-1/7R9 (10) B10 CS-1/790 (11) H11 CS-1/791 (12) 812 CS-1/742 __c_________.._ (13) 613 CS-1/793 .__________e (14) 811 CS-1/794 (15) F15 CS-1/795 7.3.4.2 At 4HOV FCC-36315-5, open the following breakers for Dry Tower B fans B1 throuan 915: 4 Fan No. Compt. 40. Initials & Date (1) el 1F (2) b2 14 (3) 63 2F (4) h4 2M (5) H5 3F t (6) 06 34 (7) 67 4F (4) Bb 4M l s l (v) a9 SF (10) Plo SM (11) all 7F (12) 612 74 (13) 813 BF ______L___.__.. 110 l
J Startup Inte7 rated Test SIT-TP-2SO Unit Waterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 Fan ho. Compt. No. Initials & Date i l (11) a16 aP (15) b1S 9F 7.3.4.3 Ensure that valves are aligned per At= 4 tactm e n t 8.4.6 7.3.5 Ensure that all l e.i d s lifted in step 7.1.1.1 are reterminated. d 4 1 Z \\ i 1 i 111 i f I l...- ..~......
Startup Inteoratec rest SII-fP-250 Unit Waterford 3 Date 7-2-82 Ultimate heat Sink Test Revision 0 8.0 AIIacurE315 4.1 Instruction Tables /Grapns 8.1.1 Performance Curves for wet Toder 8.1.2 Performance Curves for Dry Tower 8.1.3 Instructions for Calculating lie a t Load on aet ano Dry Towers R.1.4 Flow Diagran, Cooling fowers Testing R.2 I!ata Tanies P.2.1 RTO Data Table - A Towers 6.2.2 RfD Data Table - B rosers B.2.3 Pitot rube Traverse Data table 8.2.4 Sine A Flon Dritice Readinas 8.2.5 Side B Flos Orifice Reaoings B.2.6 Temperature Equalization Graph of ACCW Cold dater Temperature vs. Tine H.2.7 '.l e t Tower Fan Inout Power Data Table 8.2.H wet Tower Tenperature Data Table 8.2.9 Anernometer Ren11nas Data Table 8.2.10 Amt>ient Conditions Data Table 8.3 Calculation Snects 8.3.1 LDCA Calculation Sheet 112
=. l Startup Integrated Test SIT-rP-250 Unit haterford 3 Date 7-2-82 Ultimate Heat Sink Test Revision 0 8.3.2 Hormal Shutdown Calculation Sheet l R.3.3 Tornado Case Cniculation Sheet d.3.4 set Tower Performance Calculation Sheet R.3.5 sater I,oss Calculation Sheet 8.4 Miscellaneous Attacnments 0.4.1 Chronoloaical I,o q 8.4.2 Test Personnel ID Sheet H.4.3 Valve Lineup Teole, Traer A H.4.4 Valve Lineup Tacle, To.ver b i ti.4.5 System Deficiency Pecord H.4.0 Restoration Valve Lineup, Towers A and B H.4.7 Tornado Valve Lineuo - Tower A 8.4.8 Tornado Valve Lineup Tower B H.4.9 vissinu Information List i l 113
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INSTRUCTIONS FOR CALCULATING HEAT LOAD ON WET AND DRY TOWERS NOTE: For tests of Side A, take data from AS instruments; for tests of Side B, take data from BS instruments. 8.1.3.1 Adjust temperature control valve 7CC-TV001 until the appropriate test temperature indicated below is shown on TX-CC-7910AS/BS: (1) For LOCA tests (sections 7 2.1 and 7.2.2), the dry tower inlet temperature should be 171 degrees F 11 degree F. (2) For normal shutdown tests (sections 7.2.3 and 7.2.4), the dry tower inlet temperature should be 145 degrees F 11 degree F. (3) For tornado tests (sections 7.2.5 and 7.2.6), the dry tower inlet temperature should be 149 degrees F. 8.1.3.2 Allow time for the temperature to stabilize. 8.1.3.3 Record on Attachment 8.2.1 the temperature indications from the following instruments: (1) TX-CC-7910AS/BS (2) TX-CC-7920AS/BS (3) TE-CC-7060AS/BS (4) TE-CC-7079AS/BS (5) TE-CC-7077AS/BS 8.1.3.4 Calculate mass flow rate using the following formula: p(lbm/ft ) Vol (gal / min) 60 (min /hr).134 (ft / gal) m= where o is based on average water temperature. j SIT-TP-250.1.3 Revision 0 1
INSTRUCTIONS FOR CALCULATING HEAT LOAD ON WET AND DRY TOWERS (CONCLUDED) 8.1.3.5 Use the calculated value for & from step 8.1.3.4 in the following equation: Q = & Cp AT where AT = Temperature from TX-CC-7910AS/BS minus Temperature from TX-CC-7920AS/BS for Dry Tower Heat Load AT = Temperature from TX-CC-7920AS/BS minus Temperature from Inlet to Temporary Heat Exchanger for Wet Tower Heat Load Cp = 1 Btu /lbm *F for water SIT-TP-250.1.3 Revision 0 2
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s m1 I e i F M i T T ( 0 5 t E c T a A A Q D N I M 4 5 4 4 4 1 N a I r E M e T C A s 0 Q D 4 I N S I e R M ti 2 E e W 5 i 2 e O 3 T T s 8 N t B E s e t w n E E e 1 N Pt A A E M U i T T n I L D ~O iuc B 0 Q p a A 3 E o t T i t e t A A t T s a S T D E A N D I T M c D c T 5 a R 2 l s N e I m M an 02 s r a N e IM 5 1 y s y s s e D i r S E 0 I n T M t N e N n w e M E o E c M F s M i 0 m v 1 e O t t C P m l N IM 5 0 = T y B O S d 2 S S S S e B D B B w P 0 0 9 7 e T 1 2 W W t i 9 9 n u v T 7 7 7 7 i o e I D R S I C C C C X X C C C C H H a D t T X X E E E E a R T T T T 1_ T D
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PITOT TUBE TRAVERSE DATA TABLE LOCA NORMAL SHUTDOWN TORNADO CASE CCW FLOW 1 SIDE A/B (Circle One) TEST DATE LOCATION OF TRAVERSE TEST ENGINEER f!EASUP.EC PIPE DIAfiETEP. (INCHES) ~ .u. n,,u. u u r,,;.a STA. X STA. X IN. MM. DIN.l D D IN. D D IN.i 0 l DIN. D l 'I !.025 l l l l l ~ 2 !.078 l l l l i ~ 3 1 134 l l l l l i e: ~$ l 4 .194 l l l l ! 5 l.258 [ y l l l l c 6 .330 1 .051l l ~$ 7 .408 2 .163 l I l 8 .500 3 .293 l I cc 9 .613l g 4 .452 l l l 10 .776 5 .684 l l l CENTERLINE NOT IN AVERAGE l [ l l l 10 1.22al 5 l 1.316l l l l l 9 1.389 4 1.5481 l l 8 l 1.500 3 '1.707) l l l i 7 l.1. 594 2 1.837l [ l 6 l 1.67Cj 1 1.949! l 5 '1.743 l l 4 1.806' l l 3 l1.88d l 2 1.922 [ 1 1.975 P! TOT TUBE USED TOTAL TOTAL TOTAL' TOTAL TUBE COEFFICIENT, C= AVG. AVG. AVG. AVG. TUSE BLOCKAGE DIA., TBO= IN. MANOMETER FLUID SPECIFIC GRAVITY OF MANOMETER FLUID, SGF= WATER TEMPERATURE DEG. F AMBEENT TEMPERATURE DEG. F FLOW GPM=c X 7.221 1f/4 (MEAS. DIA.) 1/2 (MEAS. DIA.) X TSD X/(SGF-1)x(AVG.[D ) SIT-TP-250.2.3 Revision 0 1
PITOT TUBE TRAVERSE DATA TABLE LOCA NORMAL SHUTDOWN TORNADO CASE ACCW FLOW SIDE A/B (Circle One) TEST DATE LOCATION OF TRAVERSE TEST ENGINEER lftEASUP.E0PIPEDIA;;ETE?(INCHES) Khd. l' Oib irdiCiDIN) D~ 0 IN. D D IN. D D IN. D ~ at.u. STA. X STA. X IN. PJt. l1 !.D25 l l i l l l l2 l.078 l l l l {g f3 l.134 l l l l 15Ie I.194 1 .I I I I I @l 5 1.258 l gl l l l l l l6 l.330 1 .051 l l l l l 7 l.408 2 .163 l l l l
- d. l 8 l.500
[ 3 .293 l l l l l l l9 .613 8 4 .452 l l y. E l 10 l.776 l 5 .684 l l l l i CENTERLINE NOT IN AVERAGE l l l l 10 l 1.224l l5 1 1.316l l l l l l l l9 l 1.387) 4 l 1.548 l l l l 8 1.500l 3 1.7071 l l l ] ? 7 l.1.594 2 1.837] l l l l6 l 1.67Cl 1 l 1.949l l l 5 1.74d l l l 4 '1.806 l l l 3 1.886 l 2 1.922l l1 1.975 l PITOT TUBE USED TOTAL TOTAL TOTAL TOTAL TUBE COEFFICIENT, C= AVG. AVG. AVG. AVG. TUBE BLOCKAGE DIA., TBD= IN. MANOMETER FLUID SPECIFIC GRAVITY OF MAN 0t!ETER FLUID, SGF= WATER TEMPERATURE DEG. F MBIENT TEMPERATURE DEG. F FLOW GPMC x 7.221 fr/4 (!!EAS. DIA. )* - 1/2 (MEAS. DIA.) X TBD X/(SGF-1)x(AVG.[D ) SIT-TP-250.2.3 Revision 0 2
PITOT TUBE TRAVERSE DATA TABLE l tie ST EQUIP MENT l o s ;c zn erio n I, e art e names l A c c. MidW I Jes:Mip? tom i mar war i ac:. 1 *
- in -
i 1 l c:uucurs: m CC CA i DERFCRuCD SY: DATE: CA?! CATE REVIEYJED SY: DATE PaGE OF l l SIT-TP-250.2.3 Revision 0 3 w = --w-.--.--, ,--,.,,----,,------w--yyy.-- -c,-, - - - -
1 i $dW ge o g M
- 3 g 2
w b@ Y v a= a e D < I. M tr cm 2 E w e 2 I c w w u p 2 8 4" E e w O g 7 k w O a e d a 6 w a h u O o r k 2 Q 2 f, E w 5 : w M S y -w N h
- g
= aio g j a a a E S 4 l ? t 2 g 3, w W N d k n R e 0 2 a r e E Q g I r o ..a 'J r z o w w a w a 3 w K, g 2 a y e M E E T = 2 E e o W w U a E b 1 O fB g b O
- ?
- 5
,o c Et 85< E ^ -2 a y g a M
- b Q
d"j s $ "b 2 m. as S = i x e E m. w e-K U 9 4 L g6 $$g Et 3 U E s t a 3" a a e a t 1
ll lllll S LA E I T T A I D M N n I & 0 o D E no I S i U A N s I C I S M i O v L D 0 e A A 6 R A M N C R R D O D L N 1 N IM SS N s. I M 0 ( 5 t s s T N a A I D M 5 4 a g N. a. A IM 0 s 4 t E e T s A N D I 4 M SG 5 N 1 a I c D f i A E N 9 R I T M E N s C 0 t t 5 a 2 I 1 v E E FI Pi 1 T T A A 8 R D
- D O
N u I Q p t W M E e n D i e 1 t m I 5 T F 2 S c s t B E a t T t E N A s D I s I M a S 02 l s e N s I a M e 5 1 e t t a r D a N I m M 0 1 Y s Y n s N. o t o i 0 T S I
- s T
u t M e te R w 5 c t O t u F t R y s M T e O E t R C P R EA I T I TS es B re r v e e a w c r w o i t o g T f l n i g f i t r n y p e o i B B 0 W p i 5 p W i r d 2 S r C p e e D W o C w w P D_ 8 C f W o e T I T C y C T i UA i r C v e T E 7 a y e I C - g r r g r R S I C n e o n D F C i v p i a I - r a n r r t R T u r se u o a O F d t T d f D 1ll
TEMPERATURE EQUALIZ ATION GR APH OF ACCW COLD WATER TEMPE RATURE V S. T I M E ICO - I E' g 150 - p WET TOWER Aor B' s TIME: y 14 0 - LOC A OR NORMAL SHUTDOWN; p PRO C E DUR E STEP NUMBER: R 130 - o U l20-C e d 180 - o y 10 0 - m Oy 90-a N 80 - E:y 70 - 2 N ~ l I i i i i i i l i l i l I i i i l i I I I I I O 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 300 10 5 11 0 11 5 12 0 TIM E, MIN U TES DATA TAKEN BY DATE DATA HEVIEWED BY DAT E SIT-TP-250.2.6 Revision 0
WET TOWER FAN INPUT POWER DATA TABLE TOWER A OR B FAN PITCH (IN DEGREES) LOCA NORMAL SHUTDOWN TORNADO CASE WATTMETER READINGS Fan 1 Fan 5 Fan 2 Fan 6 Fan 3 Fan 7 Fan 4 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 i Fan 8 i i l SIT-TP-250.2.7 Revision 0 I 1 i 1
WET TOWER FAN INPUT POWER DATA TABLE (CONCLUDED) (fi) HP = (volts) x (amos) x EF x Reduction Gear Efficiency x 746 where EF = 0.71 4 Performed By Date Reviewed By Date b TEST EQUIPMENT a s ;c ev ett o w werz sames l A c c. i aggsp g at =mption i marz u .1.;4 4 : i act. i ".ity - l l l j COMMENTS: oc cA l penFORME3 SY: OATE: cart car t REVf EWED BY: QATE: ,3gg gg SIT-TP-250.2.7 Revision 0 2
A N E C W S e DO A t D C a 0 I I D MO n D SA o i N s s L R l i A O a v M T i e R t R D i N n I b y l r u D B wo t d s n D e iT W W R lle C ht w E r o o t d B N s n D A a i T T E W R AT s A D D T 4 R 8 ER e 2 U c 3 8 T a A F t RE t 2 ne P e m M l E n hc T I 1 a t R t EW A O e T ta T b D E y i W r b 1 D I ) b l u w B o _t d t n D e NWi T W l R ( le C ) h b t l u b o w i S o t d t s n D e a i T W E W R ( s DT 4 R ) e o c t 3 a l F u B t 2 e t l e n W y I ( 1 B 05 d 2 { e w P e T e t T-i m s v i n o e I T I N R S I, i i
ANEMOMETER READINGS - WET TOWER LOCA ___ NORMAL SHUTDOWN _ TORNADO CASE ____ North Cell South Cell East West East West Time: W1,ndow Window Windsw Mindsw Initiais_&_ Data i i Performed By: . __ ___ __ Date Reviewed By: _ __ _______ __ _____._ Date: SIT-TP-250.2.9 Revision 0 1
s ~ 7- \\ AMBIENT CONDITIONS DATA TABLE 1 s SIDE A OR B _ _ \\,, LOCA _ _, NORMAL SHUTDOWN __ TORNADO CASE __ NOTE: From Climatronic electronic weather station data. / Ilms Wind _3 sand Wind _Dicastion Dcx_aulb Wat_aulb Initiaia_&_ Data ~ _ _ _i_.__ _ s 3 e ( s,. \\ + / t k i j% , t s 4 5 1-Performed By: Date: J Reviewed By-Date. _ _ _'_ ___ ___ i SIT-TP-250.2.10 Revision 0 s ( 1 1 \\ ~
LOCA CALCULATION SHEET A OR B SIDE _____ e 'Vol fi se hi he m Q LLan Lan1LaLal IL_L'El LLk Lth'_1 In_L_*El LBLullkal LDLullkal L1kalbtl LDLulkcl =______ ____ _ _ _. _ ~ e Parformed By: Date. ______ ________ Reviewsd By: Date. ________________ cFrom Attachment 8.2.3. iCCFrom Attachment'8.2.1. l. i j -t .) i o t
- j SIT-TP-250.3.1 Revision 0
, s e 1 l
- a 1
s ( I s -r-.- + ,e
LOCA CALCULATION SHEET (CONCLUDED) Where b = heat flux in Stu/hr = 178.3 x 10' stu/hr 5 = mass flow rate of water in Ibm /hr as calculated by 5 = f(V51) f(lbm/ft ) V51 (gal / min) 60 (min /hr) 0.1337 (ft / gal) = 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 exchanger 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 p= density of water at the water temperature read by the RTD at the inlet to the boiler heat exchanger Vol = volumetric flow rate i SIT-TP-250.3.1 Revision 0 1 2 l
1 NORMAL SHUTDOWN CALCULATION SHEET A OR B SIDE _ 'Vol hi he m Q /i LLan Lzallakal IL L'El LLkalt% 1 Zs_L*_El LBLulkkal LDLullkal LLkalbrl LB%ulbrl I lPerformed By:.,____ .,______._____ _,.,_____ Date: Reviewad By. _______________________ ____ Date. ________________ cFrom Attachment 8.2.3. t ocFrom Attachment 8.2.1. l SIT-TP-250.3.2 Revision 0 1
NORMAL SHUTDOWN CALCULATION SHEET (CONCLUDED) Where h = heat flux in Btu /hr = 127 x 10' Btu /hr mass flow rate of water in Ibm /hr as calculated by m = m = f (V51)
f (1bm/f t ) Vol (gal / min) 60 (min /hr) 0.1337 (ft'/ gal) 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 exchanger 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 / density of water at the water temperature read by the RTD = at the inlet to the boiler heat exchanger Vol = volumetric flow rate SIT-TP-250.3.2 Revision 0 r 2 t
TORNADO CASE CALCULATION SHEET A OR B SIDE "Vol hi he m Q fi ILan Lzallatal XL_L El Llkalth 1 In_.CEl LDLullkal LDLullkal Llkalbtl LDLulktl Performed By Date Reviewsd By: ______ __. _ _ _______ Date: CFrom Attachment 8.2.3. OCFrom Attachment 8.2.1. SIT-TP-250.3.3 Revision 0 1
TORNADO CASE CALCULATION SHEET (CONCLUDED) Where b = heat flux in Btu /hr = 91.5 x 10' Btu /hr b mass flow rate of water in lbm/hr as calculated by = 5 = j (V51) o j (1bm/f t ) Vol (gal / min) 60 (min /hr) 0.1337 (ft / gal) o = 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 exchanger 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 i j density of water at the water temperature read by the RTD o = at the inlet to the boiler heat exchanger Vol = volumetric flow rate l SIT-TP-250.3.3 Revision 0 2
WET TOWER PERFORMANCE CALCULATION SHEET At the test wet bulb (Attachment 8.2.8), generate a new set of curves with the ordinate being cooling range and the abscissa being cold water temperature. Compare these curves with Attachment 8.1.1 (pages 1 through 6). 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 =ADggg{g{gsgpgEMx100 where ADJUSTEDTESTGPM=TESTGPM(Dgggg3{gEg2)I, Performed By ________________________ Date ________________________ Reviewed By _ _____________________ Date ________________________ l SIT-TP-250.3.4 Revision 0 l 1
WATER LOSS CALCULATION SHEET Basin A or B _____ The water loss from the ACCW System will be determined by measuring the change in volume of the wet tower water basin for the duration of the test. Makeup to the ACCW System will be secured during the test. The water level in the basin will be measured, both before and after the test, using a tape measure attached to the basin wall and a vernier caliper. Ilma Watac_Haight Initiais_A_Dats Data Reviewed By .______________________ Date _________________ SIT-TP-250.3.5 Revision 0 1
o. __.. l i OHR0"0 LOGICAL LOG Shee't 3 of NA System No. Title Ultimate Heat Sink Test Prowedure No, SIT-TP-250 iTE i.4..' COMMEWn ~ I have reviewed this procedure against the latest referenced ? documents. I ? Signature? Date? ? I have held a pretest briefine and the attendees are listed ? ? below. ? Sienature? Date? ? Attendees? ? ? ? ? ? ? ? I have notified OC erfor to reachine the first hold or witnean point (phases I and II) or prior to eerformine section 7.0 (phase I if prerelease tesoing without an aceroved prerecuisite ? l ? t e s t. orocedure). ? Signature? Date? ? ? The following eersons have nerformed eart of the test? ? Printed Name Sienature Initials ? ? l ? ? ? SIT-TP-250.4.1 Revision 0 Page 1 of 2
r i C42f 0NOLOGICAL LOG j Sheet of I N' A System No. Ultimate lleat Sink Test 7f,. 7, Procadurs No SIT-TP-250 F .II."IIVE COMMsdTS ? I f i ? ? i r ? i i l J r e + t ? ? t i l l ? l l e ? I ^ l e ? ? ? ? ? SIT-TP-250.4.1 Revision 0 Page 2 of 2 i 1 L
TEST PERSONNEL ID SHEET Name (Print) Initials SIT-TP-250.4.2 Revision 0 1
VAbiE LII.EUP TABLE TOWER A NOTE: This is the valve lineup for operation of wet Tower A with CCd Pumo A/B lined UP as Fumo A and CCil Pump B lined up to carry all CCW heat loads. PEOUIREO PERFOR*ED VERIFIED VALVE NO. DESCHIPTION POSITION (INITIALS) (INITIALS) 3CC-F109A/R CCW PUf4P DISCHARGE ISOLATI0d TAGGED OPEN VALVE 3CC-F113A/B CCW PUPP SUCTION ISCLArlors TAGGED UPEd VALVE 3CC-F110A/B CC4 PUNP DISCHARGE ISOL4rION TAGGED OPEt1 VALVE 3CC-F114A/b CCd P U;4 P SUCTION ISOLAr[ON TAGGED OPEN VALVE 3CC-010HA/B CCe Puup A/S SUCTION I SOf, A-TAGGED CLOSED TidN VALVE 3CC-111A/B CCW F U 4' DISCHARGE ISul,41 ION TAGGED CLOSED VALVE 3CC-115A/B CCW FUPP SUCrTON IS0!ATION FAGGED CLOSED VALVE 3CC-112A/B CC4 P b i4 P DISCHARGE I S D L 4 T IO;J TAGGED CLOSED VALVE 3CC-116A/B CCW PU"P SUCTION ISOLATION TAGGED CLOSED l VALVE 3CC-B1174 CCs PUuP A DISCHARGE VALVE CLOSED 3CC-R1064 CC4 PUVP 4 SUCTIDJ VAI.VE CLOSED l 3CC-6201A DRY TOWEP A 1*iLET ISOLATION OPEN VALVE 3CC-B265A DHY TOWER A BYPASS ISOLATION CLOSED VALVE l l SIT-TP-250 A t t acr'ae n t 8.4.3 Revision 0 1
V AI.V3 Lit.EllP T ABLE toner A RE0blRE0 PERFORuMD VERIFIED VALVE tsu. DFSCRIPTIarl POSITION (INITIALS) (INITIALS) 3CC-RbtA ORY TO'JER A IHLEr HEADER OPEN I SO f, A T I O'l VEVE 3CC-682A DR Y TOh E!( A l'lLE T HEADER OPEN ISOLATIO;l VALVE 3CC-B83A DRY TO'v E R A IfdLE T tlE ADER OPEN I S O L A T I D *J VALM 3CC-L04A day TuaER A I'lLET HEADER O P Ett I S0l, A TIO 4 VALVE 3CC-H85A DRY T04ER A It.LET HEADER OPEri ISOL A f 10It VALVE 3CC-b86A DRY TOSCH A INLET DEADER OPEN ISOLATION VALVE 3CC-BB7A DRY TOWER A I'!LET HEADER O P EP. I S O L A T I Ole VALVE 3CC-HH8A DMY TOE 4 A I?!LE T HE ADER OPEN I S O L A T I Oi4 VALVE 3CC-B89A DRY TU.eER A l'.LE T HE ADER OPEN ISOL4 TION VALVE 3CC-090A DRY TOLER A INIET HEADER OPEf? ISOLAFION VALVE 3CC-H01A DRY TONER A ItfLET DISCHAPCE OPEN I SDI. AT I ON VALVE 3CC-B92A DHY TOWER A I'lLET OISCli A RGE OPEN ISOLATIUN VALVE 3CC-B93A DRY TONER A IMLET DISC!iARGE OPEN I S D t, A T I J N V%VE 3CC-894A DRY ro.v E R A I%ET DISCHARGE OPE 3 I S D I.A F I U is VALVE SIT-TP-250.4.3 Revision 0 2
VALVE LINEOP TAHLE TOaER A REQUIRED PERFORMED VERIFIED VALVE (10. DESCRIPTf0f4 POSITIan (INITIALS) (INITIALS) 3CC-b95A DHY TouEP A idLET OISCHAPGE OPEN ISOLATION VALVE 3CC-H9hA ORY 101ER A INLET OISCHARGE OPEN ISOLAT10h VALVE 3CC-d97A O!<Y TovER A I:lLE r DISCH ARGF OPEN ISOLATTON VALVE 3CC-098A DRY rox6R A I rJ f.E T DISCHAPGF OPEN ISDLATION VAI.VE 3CC-R99A DPY T0*ER A IJLET DISCHARGE OPEN ISOLATION VALVE 3CC-H100A DR1 f0aER A INLEf DISCHARGE O PEl4 I SOI. A T I O'J VALVE 3CC-H104% CCW HEAT EXCHAUGER A L:4LET UPEN VALVE 3CC-H23HA CCa tie A T EXCh AP OER A E(PASS TAGGED CLOSED VAI,VE i l 3CC-B140A CCW ttE A T EXCHAGGER A TAGGED CLOSED l DISCflAPGE VALVE 7CC-V003 CC'a HEADER A I S J f, A T I 0 tJ TO TAGGED GPEN TE*4POPARY HEAT EXCli Ai4GER 7CC-V006 CCW P U i4 P A/B SOCrION FROM GPEfl TEMPORARY fiEAT EXC!!Ai4GER i 7CC-V004 CC* HEADER 8 IS3LATIJN TO CLOSED ( fEMPUHARY HEAT EXCIANGER 7CC-V005 PEMPORARY iiE A f EXCHANGER O PEi1 01SCHARGE ISOLATION VALVE i 3CC-R54A ACC.4 RISER HEADER IS3LATI0rJ OPEN VAI.VE SIT-TP-250 A t t a c h r..e n t e.4.3 Revision 0 t 3 l
i VALVE LINEUP T A Bl.E TOWER A REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTIOri POSITIOri (INITIALS) (INITIALS) 3CC-057A ACCW d! sea HEADER ISOLAt.N! OPE 1 VALVE 3CC-HSHA ACCU HISER,lE AD ER ISOLATIC1 OPEN VALVE 3CC-053A ACCA RISER ' LEADER ISOLAr!ON OPEN VALVE 3CC-6260A ACCW PU"P A SUCTIOl IS3GATION OPEN VALVE 3CC-B28AA ACC= PUMP A DISCdARGE ISOLA-OPEN T I 3 f4 VALVE 3CC-TM290A ACCW D U v. P A FLU 4 CONTROL CLOSED VALVE 3CC-B292A ACCs Pll:e P A FLud CDNTR3L OPEh VALVE OISCHAPGE IS9LATION / Al,V E 7CC-v008 rEMPORAP) HEATER ORAIN VALVE OPEN 7CC-PV002 rEMPORARY 8 0 l f.ER S TE A ?4 Auru CONTROL VALVE 7CC-TV001 TEMPOkARY HEATER TEdPERATUPE AUTO j CONTROL VALVE 7CC-V007 uAKEUP TO SURGE TA'd (LATER) 3CC-F2A54 WET TO.ER E0ll ALI LI'4G V ALV ES CLOSED 3CC-F2H4A aEt Tu.*ER EO U AI, t Z I NG VAI.VES CLOSED 3CC-3212A ORY rGWER DISCHARGE VALVE OPEN 3CC-V33-1 RECIRC blat FOR ACCa POVP A OPEN 3CC-V280A AET TO ER S U P PI, Y r3 CHIf.LERS CuGSED SIT-TP-250 Attacnment R.4.3 Revision 0 4
VALVE LINEUP TABLE r0WEP B NOTE: This is tne valve lineup for the operation of Wet Tower B with CCd Pump A/B lined up as Pumo o and CC1 Pumn A lined up to carry all CCW heat loads. DEQUIRED PERFORMED VERIFIED VALVE tO. DESCRIP1f0*J POSITION ( It< I TI ALS) (INITIALS) 3CC-F109A/B CCa' PUSP OLSCHARGE ISOLATION TAGGED CLOSED VALVE 3CC-F113A/B CCW PU 4P SUCTION ISOLATION TAGGED CLOSED VALVE 3CC-F110A/B CCW PUNP DISCHARGE IS36ATION TAGGED CLOSED VAL /E 3CC-F114A/B CCd PUMP SUCT10h ISOL A TIOfJ TAGGED CLOSED VALVE 3CC-B10HA/B CCa Pil / P A/'s SUCTIO1 ISOLA-TAGGED CLOSED TION VALVE 3CC-111A/B CCa PU 4P DISCHARGE ISOLATIO:1 TAGGED OPEtt VALVE 3CC-115A/B CC4 PUMP SUCTION I S O L A T I 0 f; TAGGED UPEN V n L V v. 3CC-112A/B CCa P U.v P DISCHAPGK ISOLATION TAGGED OPEN VALVE I 3CC-116A/B CCW PU"P SUCTION ISOLATI0r. RAGGED OPE 1 VALVE l 3CC-B118B CCn DUMP A DISCHARGE VALVF CLOSED l 3CC-B107B CCW PUaP A SUCTT Jr. V ALVE CLOSED l 3CC-B2038 ORY TOwCR 8 inlet I SO L A TI OP: GPEN VALVE l 3CC-H2629 DRY ruutR A BYP SS ISULATION CLOSFD VALVF SIT-TP-250 Attachnent d.4.4 Revision 0 l 1 l
VALVE LIlEUP FABLE TOWER 8 REQUIRED PERFORMED VERIFIED VALVE 740. D ES C R I P T I Die POSITION (INITIALS) (INITIALS) 3CC-8718 ORY r0=F9 B INLET HEADER OPEN ISOLATION VALVE 3CC-H72B DRY T0dEF B INLEF DEADER 0 PEN ISOLATION VALVE 3CC-P73B DRV TU'4 E F B I P. L E T HEADER OPEN ISOLATION VALVE 3CC-B74B DHY TGnER b I'v L E T HEADER OPEN 150 L A T 10 ?J VALVE 3CC-H75H DRY T0aER H 1.'J L E T H E A D E R O P EiJ ISOLATION VALVE 3CC-B76b DHY TOWER B I ': L E T HEADER 0 PEN I S O L A T I O *. VALVE 3CC-H77B DPY TowCR 6 IrlLCr HEADER OPEN ISOLATI7N VALVE 3CC-P78B 09Y TU ER t4 l'lL E T H F A DER OPEN I S D L A T I O 'i VALVE l 3CC-B703 DRY TOWER B INLET HEADER OPEN I SOL A r IOl4 VALVE 3 CC-% 98 C R Y TO'* E R S leiLEr HEADER OPEN ISOL A T I0'J VALVE i 3CC-6618 DHY tower H DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-862B DhY TOWER H DISCH AdGE tie ADER OPE 1 ISOLATION VALVE 3CC-B638 DPY 10hER B DISCHARGE *iEAnER O P E ri ISOLATION VAlVF 3CC-Bo4B DRY To4ER B DISCHAPGE HEADER OPEN ISOLATION VALVE SIT-TP-250.4.4 Revision u 2
V A L V E T,Ill E U P T A fil,E TUwER H REQUIRED PERFORMED VERIFIED VALVE NO. !)ESCP I P I I O N POSITIOPI (INITIALS) (INITIALS) 3CC-B658 ORY TOWER B DISCHARGE HEADER OPEri ISOLATI0'l V,,LVE 3CC-B66B DRY 10=ER B DIS Cli A R GE 'IE A DE R OPEN I S OI, A I I O N V Al,VE 3CC-967fl DRY TOWER 6 DTSCHAlGE HEADER OPEN I S 01, A T I O N V AI,V E 3CC-uuan OPY rQWER R DIS Ct! A9GE H E ADEl< GPEN ISOLATlh VALVE 3CC-Ho9B 04Y TowE:4 ts D I S Cri A RGE !!E A D ER OPEN ISOLATION VALVE 3CC-H70ft URY TOsER 6 DISCn4RGE i1EADER OPEN I S 01, A T I O N V A T,V E 3CC-H105B CCW HEAT EXCHAPJGER E-I1LET OPEN VALVE 3CC-62393 CCv HEA0 EACHANGEh 3 BYPASS TAGGED CLOSED VALVE 3CC-B141B CCv HEAT EXCHANGER - TAGGED CLOSED DISCII ARGE V ALVE 7CC-V004 CCw HEADER R IS J L A 'l I O N TO TAGGED U P Etl TEMPORARY HEAT EXCH A'JGER 7CC-V006 CC4 PU"P A h4 S U C T I 0 tJ FROM OPEN T E'4 P0H A R Y tie A T EXCifANGER 7CC-V003 CC.* HEADER A ISDI, A T I DH TO CLOSED TE '4 PO R A R Y HEAF EXCHANGER 7CC-V00S TEMPORARY HEAT EXCH A'JGER O P Fid DISCHA7CE I SOLa r l 01 V A r,V r. 3CC-H55B ACCN 6ISER DEADER ISOL ATIOf-OPEN VALVE SIT-TP-250 A t t a c h'ie n t 3.4.4 hevision 0 3 1
VALVE LINEUP TABLE 70 s. E R R HEOUIREls PEPF0hMED VERIFIED VALVE NO. D ESCf: I P T I 0ts POSITION (I'lITIALS) (INITIALS) 3CC-HS6B ACC4 HISEa *iE Al> E R ISOLATION OPEN VALVF 3CC-3596 ACCW RISER IlE A fs E R I SO L A T IOll OPEN VALVE 3CC-B600 ACCA RISER HEADEP ISOLATION O P EiJ VALVE 3CC-h2613 ACC. PilMP G SUCTTON ISOLATIO*1 OPEN VALVE 3CC-0289B ACCW Pl!4 P B DISCHARGE ISOLA-O P E!J r I O'l VALVE 3CC-T*d291H ACC3 PfifdP b FLOA C3 nth 3L CLOSED VALVE 3CC-92933 ACC., PIL* P B FLO4 C ml T R OI. OPEN VALVE DISCriARGE I S 3 L A T I 0 ti VALVE 3CC-bl19A/H CCe PUMP A/S DISCliARGE VALVE O P E 'i 3CC-213 okY TtN ER DISCHARGE VAIVE UPEN 3CC-V33-2 RECIRC L1*iB FOR ACCn PdAP b OPEW SIT TP-250 A t t a ctne n t d.4.4 Revision 0 4
s le D ll E i a a R l n A o E i L s e C lo v i D e R p \\ 5 4 N OI 8 T t P D I n R R e O C nu C S i E E c R D a t Y t C A N E I C FI E D M E T S Y S 0 5 2 P dh T epa t r c T g e I f o 0 f r S Ao 5 P 2 O o) P N N. p T E R po T R l f I U C6 S D E o C N. O f R e P g D ij
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RESTORATION VALVE LINEUP TABLE TOWERS A AND B NOTE: This is the valve lineup for normal operation of Wet Tower A with CCW Pump A/B lined up as Pump A and CCW Pump B lined up to carry all CCW heat loads. REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-F109A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-F113A/B CCW PUMP SUCTION ISOLATION OPEN VALVE 3CC-F110A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-F114A/B CCW PUMP SUCTION ISOLATION OPEN VALVE 3CC-8108A/B CCW PUMP A/B SUCTION ISOLA-OPEN TION VALVE 3CC-111A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-115A/B CCW PUMP SUCTION ISOLATION OPEN VALVE 3CC-112A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-116A/B CCW PUMP SUCTION ISOLATION OPEN VALVE 3CC-B117A CCW PUMP A DISCHARGE VALVE OPEN 3CC-B106A CCW PUMP A SUCTION VALVE OPEN 3CC-B201A DRY TOWER A INLET ISOLATION OPEN VALVE 3CC-B265A DRY TOWER A BYPASS ISOLATION CLOSED VALVE SIT-TP-250.4.6 Revision 0 1
RESTORATION VALVE LINEUP TABLE TOWERS A AND B REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-B81A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3cc-882A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3cc-883A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B84A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3cc-885A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B86A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3cc-887A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3cc-888A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3cc-889A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B90A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE l 3cc-891A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3cc-B92A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE l 3cc-B93A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B94A DRY TOWER A INLET DISCHARGE OPEN l ISOLATION VALVE SIT-TP-250.4.6 Revision 0 2
RESTORATION VALVE LINEUP TABLE TOWERS A AND B REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3Cc-B95A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-896A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B97A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-898A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B99A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B100A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B104A CCW HEAT EXCHANGER A INLET OPEN VALVE 3CC-8238A CCW HEAT EXCHANGER A BYPASS CLOSED VALVE 3cC-B140A CCW HEAT EXCHANGER A OPEN DISCHARGE VALVE 7CC-V003 CCW HEADER A ISOLATION TO CLOSED TEMPORARY HEAT EXCHANGER 7CC-V006 CCW PUMP A/B SUCTION FROM CLOSED TEMPORARY HEAT EXCHANGER 7CC-V004 CCW HEADER B ISOLATION TO CLOSED TEMPORARY HEAT EXCHANGER l 7CC-V005 TEMPORARY HEAT EXCHANGER OPEN DISCHARGE ISOLATION VALVE 3CC-BS4A ACCW RISER HEADER ISOLATION OPEN VALVE SIT-TP-250.4.6 Revision 0 3
RESTORATION VALVE LINEUP TABLE TOWERS A AND B REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-B57A ACCW RISER HEADER ISOLATION OPEN VALVE 3CC-B58A ACCW RISER HEADER ISOLATION OPEN VALVE 3cC-853A ACCW RISER HEADER ISOLATION OPEN VALVE 3CC-B260A ACCW PUMP A SUCTION ISOLATION OPEN VALVE 3CC-B288A ACCW PUMP A DISCHARGE ISOLA-OPEN TION VALVE 3CC-TM290A ACCW PUMP A FLOW CONTROL AS IS VALVE 3cC-8292A ACCW PUMP A FLOW CONTROL OPEN VALVE DISCHARGE ISOLATION VALVE 7CC-V008 TEMPORARY HEATER DRAIN VALVE OPEN 7CC-PV002 TEMPORARY BOILER STEAM AUTO CONTROL VALVE 7CC-TV001 TEMPORARY HEATER TEMPERATURE AUTO CONTROL VALVE 7CC-V007 MAKEUP TO SURGE TANK (LATER) 3CC-8212A DRY TOWER DISCHARGE VALVE OPEN i SIT-TP-250.4.6 Revision 0 4 + r P
TORNADO VALVE LINEUP TABLE TOWER A NOTE: This is the valve lineup for operation of Wet Tower A with CCW Pump A/B lined up as Pump A and CCW Pump B lined up to carry all CCW heat loads. REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-F109A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-F113A/B CCW PUMP SUCTION ISOLATION OPEN VALVE 3CC-F110A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-F114A/B CCW PUMP SUCTION ISOLATION OPEN VALVE 3CC-B108A/B CCW PUMP A/B SUCTION ISOLA-TAGGED CLOSED TION VALVE 3CC-111A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-115A/B CCW PUMP SUCTION ISOLATION OPEN VALVE i 3CC-112A/B CCW PUMP DISCHARGE ISOLATION OPEN VALVE 3CC-116A/B CCW PUMP SUCTION ISOLATION OPEN VALVE 3CC-B117A CCW PUMP A DISCHARGE VALVE CLOSED 3CC-B106A CCW PUMP A SUCTION VALVE CLOSED l 3CC-B201A DRY TOWER A INLET ISOLATION OPEN VALVE 3CC-8265A DRY TOWER A BYPASS ISOLATION CLOSED VALVE i SIT-IP-250.4.7 Revision 0 1
TORNADO VALVE LINEUP TABLE TOWER A REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-B81A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3cC-882A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B83A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-884A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-885A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-886A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B87A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B88A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE l 3CC-B89A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B90A DRY TOWER A INLET HEADER OPEN ISOLATION VALVE 3CC-B91A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-892A DRY TOWER A INLET DISCHARGE OPEN j ISOLATION VALVE l 3CC-B93A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-894A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE SIT-TP-250.4.7 Revision 0 2 i \\.,. -.L-
TORNADO VALVE LINEUP TABLE TOWER A REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-895A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-896A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-897A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B98A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B99A DRY TOWER A INLET DISCHARGE OPEN ISOLATION VALVE 3CC-B100A DRY TOWER A INLET DISCHARGE-OPEN ISOLATION VALVE 3CC-B104A CCW HEAT EXCHANGER A INLET OPEN VALVE 3CC-8238A CCW HEAT EXCHANGER A BYPASS CLOSED VALVE 3CC-B140A CCW HEAT EXCHANGER A TAGGED CLOSED DISCHARGE VALVE TCC-V003 CCW HEADER A ISOLATION TO TAGGED OPEN l TEMPORARY HEAT EXCHANGER 7CC-V006 CCW PUMP A/B SUCTION FROM OPEN l TEMPORARY HEAT EXCHANGER 7CC-V004 CCW HEADER B ISOLATION T0 CLOSED TEMPORARY HEAT EXCHANGER 7CC-V005 TEMPORARY HEAT EXCHANGER OPEN DISCHARGE ISOLATION VALVE l 3CC-B54A ACCW RISER HEADER ISOLATION OPEN VALVE SIT-TP-250.4.7 Revision 0 l 3 l
TORNADO VALVE LINEUP TABLE TOWER A REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-857A ACCW RISER HEADER ISOLATION OPEN VALVE 3CC-B58A ACCW RISER HEADER ISOLATION OPEN VALVE \\,' 3CC-853A ACCW RISER HEADER ISOLATION OPEN VALVE 3CC-B260A ACCW PUMP A SUCTION ISOLATION OPEN VALVE 3CC-8288A ACCW PUMP A DISCHARGE ISOLA- 'OPEN TION VALVE 3CC-TM290A ACCW PUMP A FLOW CONTROL AS IS VALV E 3CC-8292A ACCW PUMP A FLOW CONTROL OPEN VALVE DISCHARGE ISOLATION VALVE TCC-V008 TEMPORARY HEATER DRAIN VALVE OPEN 7CC-PV002 TEMPORARY BOILER STEAM AUTO CONTROL VALVE i (, 7CC-TV001 TEMPORARY HEATER TEMPERATURE AUTO CONTROL VALVE r 7CC-V007 MAKEUP TO SURGE TANK (LATER) '~# 3CC-F285B WET TOWER EQUALIZING P L;VS CLOSED t 3CC-F284A WET TOWER EQUALIZ3hl AL(GS CLOSED __ _ _ _ __ __ _ f 3cC-V603-15 SURGE TANK DRAIN CLOSED 3CC-V613-11 SURGE TANK DRAIN CLOSED 3CC-V638A/B MAKEUP WATER TO SURGE TANK OPEN 3CC-V639A/B MAKEUP WATER TO SURGE TANK OPEN 3CC-B174A SURGE TANK A ISOLATION VALVE OPEN ________1_ SIT-TP-250.4.7 Revision 0 4
h fr' l' J /d I TORNADO VALVE LINEUP TABLE ', ( TOWER B / i NOTE: This is the* valve lineup for the operation of Wet Tower B with CCW Pump A/B lined up as Pump B and CCW Pump A lined up to carry all CCW ,s . heat loads. j / REQUIRED PERFORMED VERIFIED l' V'A1.VE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) NCC-F109h/B CCW PUMP DISCHARGE ISOLATION TAGGED CLOSED i VALVE 3CC-F113A/B CCW PUMP SUCTION ISOLATION TAGGED CLOSED VALVE 3CC-F110A/B 'CCW PUMP DISCHARGE ISOLATION TAGGED CLOSED i'. VALVE >P' 3CC-F114 A/B tCCW PUMP SUCTION ISOLATION TAGGED CLOSED VALVE 3CC-B108A/B CCW PUMP A/B SUCTION ISOLA-TAGGED CLOSED TION VALVE 3CC-111A/B CCW PUMP DISCHARGE ISOLATION TAGGED OPEN VALVE + 3CC-115A/B CCW PUMP SUCTION ISOLATION TAGGED OPEN ' VALVE 3CC-112A/B* CCW PUMP DISCHARGE ISOLATION TAGGED OPEN iVALVE 3CC-116A/B
- CCW PUMP SUCTION ISOLATION TAGGED OPEN l
, VALVE 3CC-BI18B ' CCW PUMP A DISCHARGE VALVE CLOSED 3CC 8)o78 .CCW PUMP A SUCTION VALVE CLOSED 7 3CC-3203B DRY TOWER B INLET ISOLATION OPEN i VALVE , s s 3CC-B262S' 3RY TOWER B BYPASS ISOLATION CLOSED ' VALVE SIT-TP-250.4.8 Rev;.sion 0 1
1 TORNADO VALVE LINEUP TABLE TOWER B REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-B71B DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-B72B DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-B73B DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-8748 DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-B758 DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-B76B DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-B77B DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-878B DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-B798 DRY TOWER B INLET HEADER OPEN l l ISOLATION VALVE 3CC-880B DRY TOWER B INLET HEADER OPEN ISOLATION VALVE 3CC-B61B DRY TOWER B DISCHARGE HEADER OPEN l ISOLATION VALVE 3CC-B62B DRY TOWER S DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-863B DRY TOWER B DISCHARGE HEADER OPEN ISOLATION VALVE l 3CC-B64B DRY TOWER B DISCHARGE HEADER OPEN l ISOLATION VALVE 1 SIT-TP-250.4.8 Revision 0 2 I
TORNADO VALVE LINEUP TABLE TOWER B REQUIRED PERFORMED VERIFIED j VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-865B DRY TOWL3 B DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-8668 DRY TOWER B DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-B678 DRY TOWER B DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-868B DRY TOWER B DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-8698 DRY TOWER B DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-B70B DRY TOWER B DISCHARGE HEADER OPEN ISOLATION VALVE 3CC-8105B CCW HEAT EXCHANGER B INLET OPEN \\ l VALVE 3Cc-82398 CCW HEAT EXCHANGER B BYPASS CLOSED VALVE 3CC-B141B CCW HEAT EXCHANGER B TAGGED CLOSED DISCHARGE VALVE l 7CC-V004 CCW HEADER B ISOLATION TO TAGGED OPEN l TEMPORARY HEAT EXCHANGER 7CC-V006 CCW PUMP A/B SUCTION FROM OPEN TEMPORARY HEAT EXCHANGER 7CC-V003 CCW HEADER A ISOLATION TO CLOSED TEMPORARY HEAT EXCHANGER 7CC-V005 TEMPORARY HEAT EXCHANGER OPEN DISCHARGE ISOLATION VALVE l 3CC-BSSB ACCW RISER HEADER ISOLATION OPEN VALVE l SIT-TP-250.4.8 Revision 0 I i
TORNADO VALVE LINEUP TABLE TOWER B REQUIRED PERFORMED VERIFIED VALVE NO. DESCRIPTION POSITION (INITIALS) (INITIALS) 3CC-B56B ACCW RISER HEADER ISOLATION OPEN VALVE 3CC-B598 ACCW RISER HEADER ISOLATION OPEN VALVE 3CC-B60B ACCW RISER HEADER ISOLATION OPEN VALVE 3CC-8261B ACCW PUMP B SUCTION ISOLATION OPEN VALVE 3CC-8289B ACCW PUMP B DISCHARGE ISOLA-OPEN TION VALVE 3CC-TM291B ACCW PUMP B FLOW CONTROL CLOSED VALVE 3CC-8293B ACCW PUMP B FLOW CONTROL OPEN VALVE DISCHARGE ISOLATION VALVE 3CC-F2858 WET TOWER EQUALIZING VALVE CLOSED 3CC-F284A WET TOWER EQUALIZING VALVE CLOSED 3CC-B213B DRY TOWER B DISCHARGE VALVE OPEN l { t i l SITi-TP-250 Attachaient 8.4.8 Revision 0 4 l
LOUISI AN A POWER 8 LIGHT C O. I WATERFORD 3 EEOiS$ MISSING INFORM ATION LIST PROCEDURE NO. bII" Y ~ PROCEDURE TITLE bhNN N 5 D AFFECTE D IT E M NO. ITEM PAR AGR AP H DATE INITIAL l 94 Vision no. 2.S.14 2. S, gton A-
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