Rev 0 to VEGP Units 1 & 2 Second 10-Yr Interval Pump IST Program

ML20148E648
Person / Time
Site:	Vogtle
Issue date:	05/15/1997
From:	SOUTHERN NUCLEAR OPERATING CO.
To:
Shared Package
ML20148E642	List: ML20148E636 ML20148E648 ML20148E661
References
PROC-970515, NUDOCS 9706030209
Download: ML20148E648 (180)
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{{#Wiki_filter:, o<r N' VOGTLE ELECTRIC GENERATING PLANT UNITS 1 & 2 SECOND 10 -YEAR INTERVAL PUMP INSERVICE TEST PROGRAM R ITS ITS ITS VNMS E DATE DESCRIPTION PREP'D REV'D APPV'D APPV'D V BY BY BY BY 0 12/06/96 INITIAL ISSUE TO VEGP FOR REVIEW & APPROVAL. VEGP IST APPROVAL IST Eng J -- 'I 6/co/e-l Engr. Supv: / 104tre 97-97 Mgr. Engr: [ 4%d .5 'M/ 2 ANQ: 'd pf{w JhGX phA ZfErg, _ J 9 7 PRB: Mtg. No: Mb9 30 JA Date: ,5lsMg j' [ / I' / Gen. Mgr: C,, O [$ 7 t l / 9706030209 970529 PDR ADOCK 05000424 P PDR Vogtle Electric Generating Plant Route 2, Box 299-A Waynesboro, GA 30830

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DISTRIBUTION LIST l IIOLDER MANUAL NUMBER K. G. Lowery (SCS) 1 1 T. M. Hickox 2 J. J. Churchwell 3 SNC Site Document Control Supervisor 4 SNC Site Perfbrmance Supervisor 5 i K. L. Glandon 6 J. C. McWimrter 7 ITS Department Shelf Copy 8 O l Rev.O

TABLE OF CONTENTS (See Active Page List for Current Revision) O SECTION PAGES PROGRAM INTRODUCTION 1-1 thm 1-2 ABBREVIATIONS LIST 2-1 thm 2-2 PUMP INTRODUCTION 3-1 thm 3-9 VEGP 1 PUMP TABLES 4-1 thm 4-8 ] NSCW PUMPS 5-1 thm 5-10 NSCW PUMP TEST DIAGRAMS 8 pages l CCW PUMPS 6-1 thm 6-7 CCW PUMP TEST DIAGRAMS A pages S1 PUMPS 7-1 thm 7-3 S1 PUMP TEST DIAGRAMS 2 pages RHR PUMPS 8-1 thm 8-3 RHR PUMP TEST DIAGRAMS 2 pages CS PUMPS 9-1 thm 9-3 CS PUMP TEST DIAGRAMS 2 pages CVCS PUMPS 10-1 thm 10-3 CVCS PUMP TEST DIAGRAMS 2 pages BAT PUMPS 11-1 thm 11-3 BAT PUMP TEST DI AGRAMS 2 pages AFW PUMPS 12-1 thru 12-6 AFW PUMP TEST DIAGRAMS 3 pages ESF PUMPS 13-1 thru 13-3 ESF PUMP TEST DIAGRAMS 2 pages VEGP-2 PUMP TABLES 14-1 thru 14-8 NSCW PUMPS 15-1 thm 15-10 NSCW PUMP TEST DIAGRAMS 8 pages CCW PUMPS 16-1 thru 16-7 CCW PUMP TEST DIAGRAMS 6 pages Page1of2

Table of Contents (cont.) S1 PUMPS 17-1 thru 17-3 SI PUMP TEST DIAGRAMS 2 pages RHR PUMPS 18-1 thm 18-3 RHR PUMP TEST DIAGRAMS 2 pages 1 CS PUMPS 19-1 thru 19-3 CS PUMP TEST DIAGRAMS 2 pages CVCS PUMPS 20-1 thru 20-3 CVCS PUMP TEST DIAGRAMS 2 pages BAT PUMPS 21-1 thru 21-3 BAT PUMP TEST DIAGRAMS 2 pages AFW PUMPS 22-1 thm 22-6 AFW PUMP TEST DIAGRAMS 3 pages ESF PUMPS 23-1 thru 23-3 i ESF PUMP TEST DIAGRAMS 2 pages RELIEF REQUESTS 24-1 thru 24-5 Ob l O L) Page 2 of 2

1 ACTIVF PAGE LIST Pane No. Rev. No. Page No. Rev. No. ('( )s 1-1 0 6-6 0 l-2 0 6-7 0 2-1 0 ISI-D-209 2 2-2 0 ISI-D-210 2 3-1 0 ISI-D-211 2 3-2 0 ISI-D-212 2 3-3 0 ISI-D-213 2 3-4 0 ISI-D-214 2 3-5 0 7-1 0 3-6 0 7-2 0 3-7 0 7-3 0 3-8 0 ISI-D-215 3 3-9 0 ISI-D-216 3 4-1 0 8-1 0 4-2 0 8-2 0 4-3 0 8-3 0 4-4 0 ISI-D-217 6 4-5 0 ISI-D-218 6 4-6 0 9-1 0 4-7 0 9-2 0 4-8 0 9-3 0 (j 5-1 0 ISI-D-219 3 5't 0 ISI-D-220 3 5-3 0 10 - 1 0 5-4 0 10 - 2 0 5-5 0 10 -3 0 5-6 0 ISI-D-221 5 5 0 ISI-D-222 5 5-8 0 11-1 0 5-9 0 11 - 2 0 5 - 10 0 11 - 3 0 ISI-D-201 2 ISI-D-228 3 ISI-D-202 2 ISI-D-229 3 ISI-D-203 2 12-1 0 ISI-D-204 2 12-2 0 ISI-D-205 2 12-3 0 ISI-D-206 2 12-4 0 ISI-D-207 3 12-5 0 ISI-D-208 3 12-6 0 6-1 0 ISI-D-223 2 6-2 0 ISI-D-224 2 6-3 0 ISI-D-225 2 (]s 6-4 0 13 - 1 0 6-5 0 13 - 2 0 Page 1 of 2 Updated 04/28/97

....___..._..____.-.__....__.__._.____._.._m t - Pane No.- Rev No. Page No. Rev.No. P 13 - 3 0 17-4 0 ISI-D-226 3 ISI-D-264 2 i ISI-D-227 3 ISI-D-265 2 i 14 - 1 0 18 - 1 0 14'- 2 0 18 - 2 0 14 - 3 0 18 - 3 0 l . 14-4 0 18 -4 0 2 14 0 ISI-D-266 3-14 - 6 0 ISI-D-267 3 4 14 - 7 0. 19 - 1 0 0 ' 14-8 0 19 - 2 0 i 15 - 1 0 19 -3 0 j-15 - 2 0 ISI-D-268 4 ] 15 - 3 0 ISI-D-269 4 15 - 4 0 20 - 1 0 15 - f 0 20 - 2 0 2 1 i 15 - 6 0 20 -3 0 15 - 7 0 ISI-D-270 5 15 - 9. O ISI-D-271 2 15 - 8 0 21 - 1 0 i 15 - 10 0 21 - 2 0 l ISI-D-250 5 21 - 3 0 ISI-D-251 ' 2 ISI-D-277 2 I ISI-D-252 2 ISI-D-278 2 ISI-D-253 2 22 - 1 0 ISI-D-254 2 22 - 2 0 ISI-D-255 2 22 - 3 0 ISI-D-256 2 22 - 4 0 ISI-D-257 3 22 - 5 0 16.1 0 22 - 6 0 16 - 2 0 ISI-D-272 2 l 16 - 3 0 ISI-D-273 2 16 - 4 0 ISI-D-274 2 16 - 5 0 23 - 1 0 16 - 6 0 23 - 2 0 16 - 7 0 23 -3 0 ISI-D-258 2 ISI-D-275 3 ISI-D-259 2 ISI-D-276 3 ISI-D-260 2 24 - 1 0 ISI-D-261 2 24 - 2 0 ISI-D-262 2 24 - 3 0 ISI-D-263 2 24 - 4 0 17-1 0 24 - 5 0 17 - 2 0 17 - 3 0 Page 2 of 2 Updated 04/28/97

1.0 PUMP IST PROGRAM INTRODUCTION 1.1 GENERAL

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'( / This document describes the Pump Inservice Testing (IST) Program for the Vogtle Electric v j Generating Plant (VEGP), Units 1 and 2. Provided below are important dates relative to the IST l Program. VEGP-1 VEGP-2 4 Construction Permit: 06-28-74 06-28-74 j Commercial Operation: 05-31-87 05-20-89 1st 10-Year Interval: 05-31-87 to 05-20-89 to 05-30-97 05-30-97* i 2nd 10-Year Interval: 05-31-97 to 05-31-97* to 05-30-2007 05-30-2007 VEGP-2 was updated at the same time as VEGP-1 for the 2nd 10-Year Interval in order to t utilize the same Code edition for both units (See Relief Request RR-G-2 which is included in the Valve IST Program document). 4 O' The edition of 10 CFR 50.55a current on May 31,1996, was used to determine the applicable Code (s) of record for this program update. 10 CFR 50.55a identified the ASME Section XI Code, 1989 Edition, as the applicable Code. The 1989 edition of ASME XI references OM Part 6 (IWP) as being applicable for pump testing. 10 CFR 50.55a(b)(2)(viii) references the OMa-1988 Addenda to the OM-1987 Edition of ANSI /ASME part 6 for pump testing. ASME issued the OM Code-1990 Edition which included requirements for pump, valve, relief valve and dynamic restraint inservice testing, and subsequently issued the OMb-1992 Addenda, the OMc-1994 Addenda, the OM-1995 Edition and the OMa-1996 Addenda. Therefore, the below listed Code version is being utilized for pump IST at VEGP as described in Relief Request RR-G-

1. (RR-G-1 is included in the Valve IST Program document.) The NRC approved the use of the 1

ASME OM Code-1990 Edition for pump testing at Plant Vogtle in a letter dated November 27, i 1996. ASME OM Code -1990 Edition Subsections ISTA and ISTB This program document includes IST requirements for safety.related ASME Code Class 1,2 and 3 pumps. NRC Generic Letter 89-04 and Supplement 1 (NRC NUREG-1482) were used, to the extent practical, for guidance in the development of this program. 1.2 EFFECTIVE DATE The Pump IST Program, for the 2nd 10-Year Interval, will become effective on May 31,1997 and will be utilized through May 30,2007 unless federal regulations are revised otherwise. 1-1 Rev.0

~ 1.3 SCOPE This document is a description of the Pump IST Program to be implemented for Units 1 and 2 at i VEGP. This document describes only the IST surveillance testing applicable to safety-related ASME Code Class 1,2 and 3 punips included in the program. w A 1.4 SUBSEQUENT PROGRAM REVISIONS It is anticipated that this document will be reviewed again near the end of the 120 month interval and compared to a later NRC approved version of the ASME Code applicable for IST. At that time, the program will be modified, if required, to comply to the extent practical with the later 3 Code edition. Any additional relief requests for impractical requirements will be submitted in accordance with the applicable regulations. 4 1.5 RESPONSIBILITY { Southern Nuclear Operating Company, being license holder and agent for Georgia Power Company (Owner), bears the overall responsibility for the implementation of the inservice testing activities j contained in this program per the ASME OM Code - 1990 Edition, Subsection ISTA 1.4. l l 1.6 RECORDS i Records and documentation of information and testing results, which provide the basis for evaluation and which facilitate comparison with results from previous and subsequent tests, will be ~ maintained and available for the active life of the component or system in accordance with the ASME OM Code - 1990 Edition, Subsection ISTA 3. 1.7 METHODS OF TESTING t The method of testing applicable to each pump is listed adjacent to the component identification in the Pump IST Program Tables. The ASME OM Code does not stipulate any specific training / certification requirements for personnel involved in pump testing. At Plant Vogtle, all pump testing is performed by operations, maintenance or engineering personnel who have been l trained to perform specific testing tasks. 1 1.8 STANDARDS FOR TESTING EVALUATION The acceptance criteria applicable for each pump to be tested have been developed in accordance with the ASME OM Code requirements as modified by any applicable relief requests. Acceptance criteria are not provided in the IST Program document, but are provided in the applicable surveillance testing procedures which are available for review at the plant site. O l-2 Rev.0

ABBREVIATIONS LIST Abbreviation Definition Acc Accuracy AFW Auxiliary Feedwater ' Amp. Amplitude ASME American Society of Mechanical Engineers atm. Atmospheric Aux Auxiliary Bldg Building CC ASME Code Class CCW Component Cooling Water Coord. Coordinate CS Containment Spray CVCS Chemical Volume & Control System AP Pump DifferentialPressure APr Reference DifferentialPressure Differ. Differential ECCS Eme gency Code Cooling System ESF Eagmeered Safety Feature F Fahrenheit FI FlowrateIndicator ft Feet Freq. Frequency GPC Georgia Power Company gpm Gallons Per Minute Hz Hertz I.D. Identification in/s Inches Per Second IST Inservice Testing kW Kilowatt LOCA Loss OfCoolant Accident LI LevelIndicator NA Not Applicable N Speed No. Number NPSH Net Positive Suction Head NSCW Nuclear Service Cooling Water OM ASME OM Code PC Vogtle Plant Project Class P&ID Piping & Instrumentation Diagram Pi Pump Inlet Pressure PI Pressure Indicator Po Pump Outlet Pressure psig Pounds Per Square Inch 21 Rev.O i

__.._....._.. _.._ _ _ _ _ ~ _........ _. _.. _ _ _. _ _. _.-. _ _ _ _..__ _ __ _. _._ _._... _.. 4 1 Abbreviations (cont.) i a Abbreviation Definition Q - Pump Flowrate Qtr. Quarterly Qr Reference Flowrate RCS Reactor Coolant System l Ref. Reference Req.~ Required RHR ResidualHeat Removal j rpm Revolutions PerMinute RR i ReliefRequest i SI SafetyInjection j-SI Speed Indicator SNC Southern Nuclear Operating Company V Vibration i VEGP Vogtle Electric Generating.'lant i Vib. Vibration Vr Reference Vibration Amplitude I t i I liO l 4 i 1 i O 2-2 Rev.0

INTRODUCTIGN A. Regulatory Position rN U This document defines the testing requirements for the pumps incicded for inservice testing ~ (IST) at Southern Nuclear Operating Company's (SNC) Vogtle Electric Generating Plant (VEGP) Unit I and 2. This Pump IST Program was developed to comply with the i provisions of 10 CFR 50.55a. The Code of record applicable for this program is the ASME OM Code - 1990 Edition. NRC Generic Letter 89-04 and its Supplement 1 (NUREG-1482) were used for guidance, to the extent practical, in the development of this program document. B. Ssage In accordance with 10 CFR 50.55a and NRC Regulatory Guide 1.26 (water, steam and radioactive waste containing systems), ASME Code Class 1,2 and 3 safety-related pumps which perform a function required in; 1) shutting the reactor down to the cold shutdown condition,2) maintaining the cold shutdown condition,3) or mitigating the consequences of an accident, and are provided with an emergency power source, are included in this program document for inservice testing. It was recognized that 10 CFR 50, Appendix A, General Design Criteria 1, and Appendix B, Criterion XI, intended that all pumps necessary for safe operation of the plant be tested to demonstrate that they will perform satisfactorily in service. The subject testing is to be [] performed to a level commensurate with the safety significance of the pump. For those non-L ASME Code Class 1,2 and 3 pumps, this testing is performed in accordance with the plant technical specifications and/or other plant testing programs and is not included in this program document. The determination as to whether a pump should be included in this testing program was performed by review and evaluation of the Updated Final Safety Analysis Reports (UFSAR) and other design and licensing documents. These documents were reviewed to determine 1 which pumps are required to respond to the design basis accident scenarios and provide a function required to shutdown the reactor, maintain the shutdown condition, or mitigate the consequences of the accident. C. Testine Reauirements A description of the ASME OM Code testing requirements applicable to pumps is provided in each section. The ASME OM Code-1990 Edition should be used in conjunction with this description to ensure a complete identification of the testing requirements. Subsection ISTB l of the ASME OM Code is applicable for pump inservice testing and the applicable ISTB paragraph is listed in parenthesis for cross reference. 1. Definitions (ISTB 1.3) l {v The below listed definitions are provided for easy reference as they are applicable to VEGP and are used in subsequent sections of this introduction. 0 3-1 Rev.0

inservice rest - a test to determine the operational readmess of a pump 3 i instrument accuracy - the allowable inaccuracy of an instrument loop based on the l square root of the sum of the square of the inaccuracies of each instrument or [ component in the loop-instrument loop - two or more instruments or components working together to provide i a single output (e.g., a vibration probe and its associated signal conditioning and readout devices) operationalreadiness - the ability of a pump to perform its intended function preservice testperiod - the period of time after completion of construction activities j related to the pump and before first electrical generation by nuclear heat, in which component and system testing take place 1 j pump - a mechanical device used to move liquid J reference values - one or more values of test parameters measured or determined when the equipment is know to be operating acceptably i routine servicing - the performance of planned, preventative maintenance (e.g., replacing or adjusting valves in reciprocating pumps, changing oil, flushing the cooling i system, adjusting packing, adding p*Wg rings or mechanical seal maintenance or replacement) l system resistance - the hydraulic resistance to flow in a system 2. Reference Information (ISTB 2) The hydraulic and mechanical condition of a pump relative to a previous condition can be determined by attempting to duplicate by test a set of reference values. Deviations detected are symptoms of changes and, depending upon the degree of deviation, indicate need for further tests or corrective action. 3. Owner's Responsibility (ISTB 3.1) Each pump to be tested in accordance with this program shall be identified by the Owner and listed in the plant records. 4. Testing Requirements (ISTB 4) 1 A. Preservice Testine (ISTB 4.1) j Each pump shall be tested during the preservice test period. These tests shall be conducted under conditions as near as practical to those expected during subsequent O inservice testing. Only one preservice test is required for each pump, except when a j pump is repaired or replaced (see C.4.D). I 3-2 Rev.O

B. Inservice Testina (ISTB 4.2) Inservice testing shall commence when the pump is required to be operable (see C.5.C). l3 t V C. Reference Values (ISTB 4.3) Initial reference values shall be determined from the results of the preservice test or from the results of the first inservice test. Reference values shall be established at points of operation readily duplicated during subsequent testing. All subsequent test results shall be compared to these initial reference values or to new reference values as appropriate (see C.4.E). Reference values shall only be established when the pump is known to be operating acceptably. If the particular parameter being measured or determined can be significantly influenced by other related conditions, then these conditions shall be analyzed. D. Effect of Pump Reolacement. Reoair. and Maintenance on Reference Values (ISTB 4.4) When a reference value or set of reference values may have been affected by repair, ],s replacement, or routine servicing of a pump, a new reference value or set of reference values shall be established in accordance with C.4.C above (ISTB 4.3), or the previous value(s) reconfirmed by an inservice test run before declaring the pump operable. Deviations between the previouc and new reference value(s) shall be evaluated, and verification that the new reference value(s) represent acceptable pump operation shall be placed in the record of tests. E. Establishment of Additional Set of Reference Values (ISTB a 5) If necessary or desirable, for some reason other than stated in C.4.D above, to establish an additional set of reference values, an inservice test shall be run at the conditions of an existing set ofieference values and the results analyzed. If operation is acceptable per C.5.B (ISTB 6.2), then a second test run at new reference conditions shall follow as soon as practical. The results of this test shall establish the additional set of reference I values. Whenever new reference values are established, the reason for doing so shall be l documented in the record of tests. fh 0 l I 3-3 Rev.O

.. - -. -. -- - -. -. ~ f' F. Instrumentation (ISTB 4.6) Instrument accuracy shall be within the limits of the below table (Table ISTB 4.6.1-1). Station instruments meeting these requirements are acceptable. j ACCEPTABLE INSTRUMENT ACCURACY (Table ISTB 4.6.1-1) l j Percent Quantity [ Note (1)] Pressure i2% l Flow Rate ' i2% ~ 1 Speed i2% i j Vibration iS% DifferentialPressure i2% i NOTE: Y (1) Percent of full scale for individual analog instruments, percent of total loop accuracy for a combination ofinstruments, or over the calibrated range for digital j instruments. i { The full-scale range of analog instruments shall not be greater than three times the i reference value. Digital instruments shall be selected such that the reference value does not exceed 70% of the calibrated range of the instrument. j Vibration instruments are excluded from the range requirements stated above. The i frequency response range of vibration measuring transducers and their readout system 1 shall be from one-third minimum pump operating speed to at least 1000 Hz. i The Owner shall be responsible for establishing the location of instruments used for { } inservice testing. The location shall be appropriate for the parameter being measured and the same location shall be used for subsequent tests. Instruments that are position-i { sensitive shall be either permanently mounted, or provisions shall be made to duplicate their position during each test. 1 j Instruments and instrument loops shall be cahbrated in accordance with the Owner's i quality assurance program New or repaired instruments shall be calibrated before test l use. 1 [ G. Pressure Memenrements (ISTB 4.6.2) l' i Differential pressure across a pump may be determined using a differential pressure gage i or a differential pressure transmitter that provides direct measurement of pressure difference, or the difference between pump discharge pressure and pump inlet pressure j shall be used. 1 1 3-4 Rev.0 1 i s , ~ - -m m-

4 H. Rotational Speed Man =nremente GSTB 4.6.3) a i Rotational speed measurements of variable speed pumps shall be measured by a method I that meets the instrument accuracy requirements of the above instrument accuracy table (C.4.F). c ) I. Vibration Man = e...=a GSTB 4.6.4) j p On centrifugal pumps, vibration measurements shall be taken in a plane approximately perpendicular to the rotatmg shaft in two orthogonal directions on each accessible D i j pump-bearing housing. Measurement shall also be taken in the axial direction on each accessible pump thrust bearing housing. t l On vertical line shaft pumps, measurements shall be taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction. If portable vibration instruments are used, the ' measurement points shall be clearly identified on the pump to permit repeatability in both location and plane. J. Flow Rate Ma==nremanta GSTB 4.6.5) Flow rate shall be measured using a rate or quantity meter installed in the pump test l circuit. If the meter does not indicate flow rate directly, the record of tests shall include the method used to reduce the data. j 5. Testing Methods (ISTB 5) A. Frequency ofInservice Tests GSTB 5.1) An inservice test shall be performed on each pump nominally every 3 months except for. pumps that are declared inoperable or are not required to be operable. B. Test Procabre GSTB 5.2) An inservice tests shall be conducted with the pump operating at specified test reference conditions. The test parameters listed in the below tables shall be determined and recorded. t i O 3-5 Rev.0

4 INSERVICE TEST PARAMETERS (Tchle ISTB 5.2-1) i Quantity Remarks Speed, N Ifvariable speed pump ~ i DifferentialPressure, AP ' Centrifugal pumps, including vertical line shaft I Pumps i l Discharge Pressure, P Positive displacement pumps Flow Rate, Q All pumps i i Vibration i Displacement, Vd Peak-to-Peak Velocity, VV Peak The pump shall be operated at nominal motor speed for a constant speed driver or at a speed adjusted to the reference point for variable speed drivers. The resistance of the system shall be adjusted until the flow rate equals the reference value. The differential pressure shall then be determined and compared to the reference value. Alternately, the flow rate shall be varied until the differential pressure equals the O reference value and the flow rate determined and compared to the reference flow rate value. If system resistance cannot be varied, flow rate and pressure shall be determined and compared to their respective reference values. Pressure, flow rate, and sihration shall be determined and compared with the corresponding reference values. All deviations from the reference values shall be compared with the acceptance criteria listed below and corrective action shall be taken as specified in Section C.6. Vibration measurements shall be broad band (unfiltered). Velocity measurements shall be peak and displacement amplitudes shall be peak-to-peak respectfully. O 3-6 Rev.0

VIBRATION ACCEPTANCE CRITERIA (Table ISTB 5.2-2a) Pump Pump Test Acceptable Alert Required /Q Type Speed Parameter Range Range Action Range V Centrifugal & <600 rpm Vd or VV 52.5Vr >2.5Vr to 6Vr or >6Vr or Venical Line >10.5 to 22 mils >22 mils i Shaft (Note 2) 4 Centrifugal & 2 600 rpm Vvor Vd s2.5Vr >2.5Vr to 6Vr or >6Vr or I VerticalLinc >0.325 to 0.7 in/sec >0.7 in/sec l Shaft (Note 2) Reciprocating Vd or Vr s2.5Vr >2.5Vr to 6Vr >6Vr NOTES: (1) Vr is reference vibration value in selected units. (2) Refer to OM Code Figure ISTB 5.2 1 to establish di=!=~nt limits for pumps with speeds 2 600 rpm or velocity limits for pumps with speeds s 600 rpm. l HYDRAULIC ACCEPTANCE CRITERIA (Table ISTB 5.2-2b) Acceptable Required Action Range Test Parameter Range Aled Range Low High I a I ('T P (Positive Displacement Pumps) 0.93 to 1.10Pr 0.90 to <0.93Pr <0.90Pr >1.10Pr U AP (VerticalLine Shaft Pumps) 0.95 to 1.10APr 0.93 to <0.95APr <0.93APr >l.10APr Q(Positive Displacement and 0.95 to 1.10Qr 0.93 to <0.95Qr <0.93Qr >1.10Qr VerticalLine Shaft Pumps) AP (Centrifugal Pumps) 0.90 to 1.10APr none <0.90APr >1.10APr Q (Centrifugal Pumps) 0.90 to 1.10Qr none <0.90Qr >1.10Qr C. Pumos In Systems Out of Service GSTB 5.4) For a pump in a system declared inoperable or not required to be operable, the test schedule need not be followed. However, within 3 months before the system is placed in an operable status, the pump shall be tested. Pumps that can only be tested during plant operation shall be tested within I week following startup. i ( D. Duration ofTests GSTB 5.6) After pump conditions are as stable as the system permits, each pump shall be run for at least 1 2 minutes prior to measuring any ofthe required test parameters. !O 3-7 Rev.O t

..~- -. - - _ -. .... ~.. -.. 6. A::alysis czd Ev:.1=ti:2 (ISTB 6) A.- Acceptance Criteria GSTB 6.1) 4 b Ji U If the measured test parameter values fall within the alert range of the applicable table (see - [ C.S.above), the frequency of testing shall be doubled until the cause of the deviation is determined and the condition is corrected. If the measured test parameter values fall within the required action range of the applicable j table (see C.5 above), the pump shall be declared inoperable until either the cause of the deviation has been determined and the condition corrected. (See ReliefRequest RR-P-2) 2 ) When a test shows measured parameter values that fall outside the acceptable rarges that have resulted from an identified system error (e.g. improper system lineup, inaccurate instruments) the test shall be rerun after correcting the error. B. Time Allowed for Analysis ofTests GSTB 6.2) ? l All test data shall be analyzed within 96 hours after completion of test. i - 7. Records and Reports (ISTB 7) a j A. Pumo Records GSTB 7.1) fj The Owner shall maintain a record, for each pump included in the program, that includes the j' followinginformation: ) 1 { I (a) the manufacturer and the manufacturer's model and serial number or other identification i

number, j

(b) a copy or summary of the manufacturer's acceptance test report if available; and (c) a copy of the pump manufacturer's operating limits. B. Inservice Test Plans GSTB 7.2) i The Owner shall maintain a record of test plans and procedures that shall include the following: i (a) the hydraulic circuit to be used; (b) the location and type of measurements for the required test parameters; (c) the reference values; and 1 (d) the method of determining test parameter values that are not directly measured by instrumentation. This Pump IST Program document in conjunction with the pump surveillance test procedures satisfy the above requirement. O 3-8 Rev.0

C. Record ofTests USTB 7.3) The Owner shall maintain a record of each test that shall include the following: . (s) pump identification;. ~ (b) date of test; . (c) reason for test (e.g. post-maintenance, routine inservice test, or establishing new reference values);

(d) values ofmeasured parameters; (e) identification ofinstruments used; (f) comparisons with allowable ranges of test values and analysis of deviations; (g) requirements for corrective action; (h) evaluation andjustification for changes to reference values; and (I) signature of the person (s) responsible for conducting and analyzing the test data.

This Pump IST Program document in conjunction with the pump surveillance test procedures satisfy the above requirement. D. Record ofCorrective Action GSTB 7.4) The Owner shall maintain records of corrective action that shall include a summary of the corrections made, the subsequent inservice tests and confirmation of operational adequacy, and the signature of the individual (s) responsible for corrective action and verification of results. O O 3-9 Rev.0

. -. _. ~ -... - -... - -. O O VEGP-1 PUMP TEST TABLE Nuclear Service Cooling Water - System 1202 Measured Parmarters & Frm i LD. Number CC/PC PalD-Sheet No. _CM Description h E R Y E NW Gulal (a:D isa!al theerl smal I l-1202-P4-001 3D13 IX4D1133-1 C-8 NSCW Pump QTR QTR QTR QTR NA RR-P-2 1-1202-P4-002 3813 IX4DB133-2 C-5 NSCW Pump QIR QTR QTR QIR NA RR-P-2 + i 1-1202-P4-003 3813 IX4DB133-1 C-5 NSCW Pump QTR QTR QTR QIR NA RR-P-2 1-1202-P4-004 3/313 IX4DB133-2 C-5 NSCW Pump QIR QTR' QTR QTR NA RR-P-2 1-1202-P4-005 3D13 IX4DB133-1 C-7 NSCW Pump QTR QTR QIR QTR NA RR-P-2 1-1202-P4-006 3D13 IX4DB133-2 C-7 NSCW Pump QIR QTR QTR QIR NA RR-P-2 1-1202-P4-007 3D13 IX4DB133-1 C4 NSCW Transfer Pump QTR QTR QTR QTR NA RR-P-2 1-1202-P4-008 3D13 IX4DB133-2 C-6 NSCWTransfer Pump QIR QIR QTR QIR NA RR-P-2 i Test Frequency: QIR = Quarterly Pump Test I i 4-1 Rev.O I r - - = - - - - - - - - - - - - - ' ^ ' ^ ' " - - ~ - - - ' ^ ^ ^

___m.._ m.._._ O O O VEGP-1 PUMP TEST TABLE Compoecat Cooling Water - System 1203 Measured Pas ___;a.e & Fm LD. Number QC/PQ P&ID-Sheet No.

Coord, Descristion fe R

Q V H RR/ Remarks fagl 1 fa!D (snel (heus) (en) 1-1203-P4-001 3/313 IX4 dbl 36 H-4 CCW Pump Q1R QTR QTR QTR NA RR-P-2 1-1203-P4-002 3/313 IX4DB136 D-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 i 1-120'i-P4-003 3/313 IX4DB136 G-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 1-1203-P4-004 3/313 IX4DB136 C-4 CCW Pump QTR QTR Q1R QTR NA RR-P-2 1-1203-P4-005 3/313 IX4DB136 F-4 CCW Pump QTR Q1R QTR QIR NA RR-P-2 1-1203-P4-006 3/313 IX4DB136 B-4 CCW Pump QTR QTR Q1R QTR NA RR-P-2 I Test Farquency: QTR = Quarterly Pump Test L r i i t 4-2 Rev.O I

..... ~. _..... _ _.. . - - ~ . ~ - - VEGP-1 PUMP TEST TABLE t Safety lajection - System 1204 Measured Parameten & Freescacy LD. Number CC/PC P&ID-Sheet No. Coord. Description h AE 9. Y M RR/ Remarks (a!!al fa!!1 Onual h) Daisl 1-1204-P6-003 2/212 IX4DB121 E-2 SIPump QTR QTR QTR QTR-NA RR-P-2 1-1204-P6-004 2/212 IX4DB121 C-2 SIPump QTR QTR QTR QTR NA RR-P-2 Test Frequency: QTR = Quarterly Pump Test t b i f r v 'i i 4-3 Rev.0 L I

.. - = _ ~ _ ~... . ~... O O O VEGP-1 PUMP TEST TABLE I Residual Heat Removal-System 1205 i Measured Paranneters & Freauency 1 LD. Number CC/PC P&ID-Sheet No. Coord. Description P2 R .Q y M RR/ Remarks (Mal (eG (smal &=ci fouel 1-1205-P6 @ l 2/212 IX4DB122 F-4 RHR Pump 'QTR QTR Q1R QIR NA RR-P-2 1-1205-P6-002 2/212 IX4DB122 G-4 RIIR Pump QTR QTR QTR QTR' NA RR-P-2 i Test Frepency: QTR = Quarterly Pump Test i i f I 4-4 Rev.0 m

(, t i VEGP-1 FIIMP TEST TABLE r Contahment Spray - System 1206 i I Measured Parameters & Fr*==-=ar LD. N mber QC/PC P&ID-Sheet No. Coord. Descristlos Po AE _Q Y H RR/ Remarks fadal fa:D Gmed fw=c) trued l-1206-P6-001 2/212 IX4DB131 G-4 CS Pump QTR QTR QTR QTR NA RR-P-2 l-1206-P6-002 2/212 IX4DB13i C-4 CS Pump QTR QTR QTR QTR NA RR-P-2 i Test Frequency: QTR = Quarterly Pump Test 1 I D 4-5 Rev.O I

.n. VEGP-1 PUMP TEST TABLE Chemical & Volume Control - System 1208 Measured Parameters & Freauency I.D. N mber CC/PC P&lD-Sheet No. Coord. Description P_o _AP_ Q V N RR/ Remarks Ot!!rl (a!!1 framl da/wd Ltned 1-1208-P6-002 2/212 IX4DB116-2 G-4 CVCS - Centrifugal QTR QTR QTR QTR NA RR-P Charging Pump t 1-1208-P6-003 2/212 IX4DBil6-2 C-4 CVCS - Centrifugal QTR QTR QTR QTR NA RR r.y. Charging Pump D-4 CVCS-Boric Acid QTR QTR QTR QTR NA RR-F-1, RR-P-2 1-1208-P6-006 3/313 IX4DB118 Transfer Pump 1-1208-P6-007 3/313 IX4DB118 B-4 CVCS - Boric Acid QTR QTR QTR QTR NA RR-P-1, RR-P-2 Transfer Pump Test Frequency: QTR = Quarterly Pump Test 4-6 Rev.0

O O O VEGP-1 PUMP TEST TABLE i Auxili;ry Feedwater - System 1302 I Measured Parameters & Preemency LD. Number CC/PC P&ID-Sheet No. Coord. Description Po AP Q V N RR/ Remarks Gulal fadl famed Gn w fraud i 1-1302-P4-001 3/313 IX4DB161-2 F-6 AFW Pump QTR QTR QTR Q1R NA RR-P-2 'Ihrbine Driven 1-1302-P4-002 3/313 IX4DB161-2 D4 AFW Pump Q1R Q1R Q1R Q1R NA' RR-P-2 Motor Driven 1-1302-P4@3 3/313 IX4DB161-2 B4 AFW Pump QTR QfIR QTR QTR NA RR-P-2 Motor Driven Test Frequency: QTR = Quarterly Pump Test s v b b i F I 1 L 4-7 Rev.0 [

- _ = - - - _ - - - - - _ - - _ _ - _ _ - - - _ - _ _ - - - - - - _ - - - _ - - - - _ _ - - - - -._ - - __ - -- - --_-__----- - O O O VEGP-1 PUMP TEST TABLE Safety Related (ESF) Chillers - System 1592 i Measured Parameters & Freaucacy i LD. Number, CC/PC P&ID-Sheet No. Coord. Description P AE .Q V N! RR/Researks _3 fa:Isl &!Il fanal (Mt!s) frauni 1 1-1592-P7-001 3813 IX4DB221 F-5 ESF Chilled Water Q1R QTR QTR QTR NA RR-P-2 Pump 1-1592-P7-002 3B13 IX4DB221 C-5 ESF Chilled Water Q1R QTR Q1R' Q1R' NA RR-P-2 f Pump Test Frespency: QIR = Quarterly Pump Test l i 4-8 Rev.0 u a +-

..~..._ _ _ _ _ _. _ __ NSCWPumps (1-1202-P4-001, 002, 003, 004, 005, & 006) l l System Function l Provide cooling water for the containment coolers, control building essential chiller condensers, various engineered safety feature pump motor and lube oil coolers, and the component cooling water and auxiliary component cooling I water diesel generator jacket water heat exchangers and transfers the heat removed to the ultimate heat sink. Quantity 6 l Type Vertical Line Shaft, 2 stage, selflubricated Manufacturer /Model Bingham-Willamette/18x27B VCM i Rated Capacity 8600 gpm(each) Rated TotalDynamic Head 230 feet Driver i Type Electric Motor l l Horsepower 700 Speed 1180 rpm Power Supply. 4160V,60 Hz,3 phase Code Class 3 i Project Class ~ 313 Outline Drawing IX4AF02-32 l i Instruction Book 1x4AF02-93 1 Physical Location NSCW Pump House l P&ID 1X4DB133-1, -2 Surveillance Procedure 14802-1 Pump Test Loop Diagrams ISI-D-201 through ISI-D-206 i Test Parameter Sheets Page 5-3 through 5-8 l~ ) e !O 5-1 Rev.0 I

.__m ? NSCW Transfer Pumps (1-1202-P4-007, 008) System Function 1 Provides capability to transfer water between cooling tower basins. Quantity 2 i Type Vertical Line Shaft,2 stage, selflubricated i 1 Manufacturer /Model Bingham-Willamette/18x12A VCM i Rated Capacity 600 gpm (each) i 4' Rated TotalDynamic Head 110 feet Driver Type Electric Motor Horsepower 30 Speed 1765 rpm Power Supply 480V,60 Ih,3 phase Code Class 3 Project Class 313 O Outline Drawing IX4AF02-3 Instruction Book IX4AF02-95 PhysicalLocation NSCW Pump House P&ID 1X4DB133-1, -2 Surveillance Procedure 14801-1 Pump Test Loop Diagrams ISI-D-207 and ISI-D-208 Test Parameter Sheet Page 5-9 and 5-10 O 5-2 Rev.0

.m O~ v + l Test Parameter Table - Pump 1-1202-P4-001 (Figure ISI-D-201) j Instrumentation Utilized Ref. Acceptable Alert Action Earameter Test Freq. I.D. No.f4) Bange Req. Acc. Value Range Bange Bange Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr LI-1606 NA (1) NA NA ~ NA NA Measure basin level j (Pi) Outlet Pressure Qtr PI-2148 0-200 12% NA NA NA NA NA (Po) psig Differ Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA i (AP) l Flowrate Qtr FI-l 1760 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm j Vib. Amp. Qtr (3) NA 15% Vr 5; 2.5Vr >2.5Vr - 6Vr >6Vr or 1,A (V)(5) or >.325 in/s >.70 in/s ? N:tes: t

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

t

3. Portable vibration instmments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

j,

5. Measurements are taken on the upper motor-bearing housing in three onhogonal directions, one of which is the axial direction.

i L 5-3 Rev.0 { -rw

( Test ParameterTable - Pump 1-1202-P4-002 (Figure ISI-D-202) Instrumentation Utilized Ref. Acceptable Alert Action P_aramritt Test Freq. LD. No.(4) Range Req. Acc. Yalut Bangt Range Range Comments i Speed l (N) NA NA NA MA NA NA NA NA Constant speed driver l Inlet i Pressure Qtr LI-1607 NA (1) NA NA NA NA Measure basin level (Pi) Outlet Piessure Qtr PI-2149 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr (2) NA 12% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-l1763 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA i5% Vi s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s j Notes:

1. Basin level indicator is utilized to determine icvel in feet.

[

2. DifTerential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

t 5-4 Rev.0 I i u mm m t---

O O Test Parameter T$ble - Pump 1-1202-N-003 (Figure ISI-D-203) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freg, LD. No.(4) Range Req. Acc. Yalue Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver i U Inlet Pressure Qtr L1-1606 NA (1) NA NA NA NA Measure basin level (Pi) Outlet f Pressure Qtr PI-2152 0-200 12% NA NA NA NA NA i (Po) psig DitTer. Pressure Qtr (2) NA 12% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA i f (AP) Flowrate Qtr FI-I 1762 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. { A m p. Qtr (3) NA i5% Vr s 2.5Vr >2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s i f i t Notes: 1 +

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

[

3. Portable vibration instruments are utilized.

[ L

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

t 1 i 5-5 Rev.0 [ [ b .u-- e w o-w<w w w =-'i

O O O Test ParameterTable - Pump 1-1202-P4-004 (Figure ISI-D-204) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Iest Freg. I.D. No.f 4) Range ~ Req. Acc. Value Rangt Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr L1-1607 NA (1) NA NA NA NA Measure basin level (Pi) i Outlet Pressure Qtr PI-2153 0-200 12% NA NA NA NA NA i (Po) psig DitTer. 4 Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr F1-11765 0-15000 12% Qr NA NA NA Flowrate is set at reference value l (Q) gpm Vib. I A m p. Qtr (3) NA 15% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s I Notes: i

1. Basin level indicator is utilized to determine level in feet.

2. IMfferential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discrenon of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

5-6 Rev.0 t i

O O O Test Parameter Table - Pump 1-1202-P4-005 (Figure ISI-D-205) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. LD. No.(4) Range Req. Ace. Yalue Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr LI-1606 NA (1) NA NA NA NA Measure basin level (Pi) Outlet Pressure Qtr PI-2150 0-200 12% NA NA NA NA NA i l (Po) psig Differ. Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 <.95APr <.93 or >1.10APr NA (AP) Flowrate Qtr FI-l 1761 0-15000 t2% Qr NA NA NA Flowrate is set at reference value l (Q) gpm r Vib. Amp. Qtr (3) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA l (V)(5) or >.325 in/s >.70 in/s i ( f Notes:

1. Basin level indicator is utilized to determine level in feet.

f

2. DifTerential pressure is calculated using basin level (to vetermine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

[

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of w hich is the axial direction.

L i 5-7 Rev.0 [

O O O Test Parameter Table - Pump 1-1202-P4-006 (Figure ISI-D-206) Instrumentation Utilized Ref. Acceptable Alert Action P_arameter Test Freq. I.D. Nol4) Range Rea. Ace. Yalue Range Range Range Comments r Speed (N) NA NA-NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr LI-1607 NA (1) NA NA. NA NA Measure basin level (Pi) l Outlet Pressure Qtr PI-2151 0-200 12% NA NA NA NA NA e (Po) psig i Differ. Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-I1764 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm i Vib. Amp. Qtr (3) NA i5% Vr s 2.5Vr > 2.5Vr - (Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s Notes:

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

5-8 Rev.0 i

T bv Test ParameterTable - Pump 1-1202-P4-007 (Figure ISI-D-207) Instrumentation Utilized Ref. Acceptable Alert Action Paramtier Test Freo. I.D. No.(4) Bange Rea. Acc. Value Range Range Range Comtatnis Speed (N) NA NA NA NA NA NA NA NA Constant speed driver [ Inlet Pressure Qtr LI-1606 NA (1) NA NA NA NA Measure basin level i (Pi) Outlet i Pressure Qtr PI-8895 0-60 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr (2) NA 12% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-2156 0-1000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vrer NA (V)(5) or >.325 in/s > 70 in/s Notes: t

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

[ i

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

I

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

5-9 Rev.0

O O Test ParameterTable - Pump 1-1202-P4-008 - (Figure ISI-D-208) InstEnmentation Utilized Ref. Acceptable Alert Action { Parameter Test Freq. 1.D. No.f4) Range Reg. Acc. Value Range Range Range Comments i Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet t Pressure Qtr LI-1607 NA (1) NA NA NA NA Measure basin Icvel j (Pi) l Outlet Pressure Qtr PI-8894 0-60 12% NA NA NA NA NA j i (Po) psig DitTer. Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 - <.95APr < 93 or >l.10APr NA (AP) Flowrate Qtr F1-2157 0-1000 12% Qr NA NA NA Flowrate is set at reference value l (Q) gpm l i Vib. .t Amp. Qtr (3) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or .NA (V)(5) or >.325 in/s >.70 in/s Notes: } 1

l. Basin level indicator is utilized to determine level in feet.

+ I

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

l

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

I i 5 - 10 Rev.0 I i

- _. _ _.. _... ~ _ _, _.. O O O NOTE: THIS IA A SIMPLIFIED DIAGRAM CV USED TO DEPICT A TEST CIRCUIT. 9446 'MC><]}---{MpCID ADDITION O REFER TO THE P8.ID FOR DETAILS, g (ggiD f6T4) BLIND FLANGE D TO 2' y ;

g TE FC BLOVDOVN Q23)

(172) M I, (4 3 plSPERSANT ADDITION - 1642 (0Z6) G V 0 S 3' (048) C e4-20 g 16* 18' S 4 0MCB 4 0MCB QMCB 1602A 1608A 1634 [ 18' 18' i g y l 11760 l 11761 l j 11762 NSCVS _~.v ~ b . COMPONENTS 24 PDI PI PDI PI PDI PI I 11726 2148 11727 2150 (11729 2152 I O 1668" L SrC QMCB -lbr" ' ll -lbrl ' ll gh 1606 HV HV HV 1160 1160 l i 11600 18' ,TO TGVER TO BASIN t me G m.AA: s /N /\\ /\\ 1-1202-P4-001 1-1202-P4-005 1-1202-P4-003 NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 1-1202-V4-001 COOLING VATER PUMP COOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TOVER r c.

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-m.___._ ._._m.._. m. .. _._ - __,~..-....__. O O O i NOTE: THIS IA A SIMPLIFIED DIAGRAM CV i USED TO DEPICT A TEST CIRCUIT. 9447 M[>qj l'/pCID ADDITION (049) REFER TO THE PS.ID FOR DETAILS. (077) j-BLIND FLANGE b TU " l>4; l'AHf TE FC BLOVDOVN g g - 1643 I if X 'yISPERSANT ADDITION Q68) Cd797 (076) >{ 68 3' C050) O 24' 20' l6* 18' M QMCB g QHCB g QMCB 1603A 1609A 1635 18' W 1 g g 1 l 11763 l 11764 l 11765 1 le 1-i \\ -~* 669 NSCVS l 24-COMPONENTS t - ~. v W PDI PI PDI PI PDI PI ll l ~ 11730 2149 11731 2151 11733 2153 l i l O Il Il h 1669B -dist: 'F g Hist: ' ll -Hell ' l' 1607 HV HV HV 11612 11613 11607 18' , TO TOVER TO BASIN NAhMNLA /g j \\ E /~\\ /~\\ 1-1202-P4-002 1-1202-P4-006 1-1202-P4-004 NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 1-1202-V4-002 COOLING VATER PUMP COOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TOVER L my ante pr two sEs:kPruse appea arre2 arme.3 arva e areas moeurs s-e.-e. sas vs ism,rm n, n 3 7-f46 Cs3 CVS LFhhTE TD KV 10 F SK430123-2 JK Southern Company Services, Inc.roR Southern Nuclear Operating Company V0GTLE ELECTRIC GENERATING PLANT -> "

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c"' vs UNIT 1 PUMP INSERVICE TESTING LOOP FOR ~ ui a ,,n, p .C NUCLEAR SERVICE COOLING VATER PUMP 1-1202-P4-002 N/A N/A ISI-D-202 1 DF 1 2

\\ t V v NOTE: THIS IA A SIMPLIFIED DIAGRAM CV USED TO DEPICT A TEST CIRCUIT. 9446 'M[><3l "/F-ACID ADDITION N REFER TO THE P8.ID FOR DETAILS. (155) (040) (074) BLIND FLANGE FC OVDOVN - 1642 I / X syISPERSANT ADDITION I' (156) (076) (075) S 3' ,048) ( 0 24' 20* OMCB QMCB QMCB [6' 18' H 1602A 1608A 1634 18' 18' 1 g l 11760 l 11761 l 11762 1 l a {a 1668 g NSCVS ~ ~ " 24. COMPONENTS -.v - ~. " PDI PI PDI PI PDI PI ,li 11726 2148 11727 2150 11729 2152 h O h i l b 1668B -il;rll DMCB -ll>rll ' ll -U>rl' H GIT 1606 HV HV HV 1160 11606)

== 11600 18' , TO TOVER TO BASIN N,_AhhNL V /~\\ /~\\ /~\\ 1-1202-P4-001 1-1202-P4-005 1-1202-P4-003 NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 1-1202-V4 -001 COOLING VATER PUMP COOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TDVER .,t o., wa.,v o. -u -u ms

=== s ve.- .as vs i:=>r= m n R ?-24-M Cs3 CVW L*3 ATE TO MV 96 EF INGDR173-0 JK e

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== =c "m' vs UNIT 1 PUMP INSERVICE TESTING LOOP FOR 5."S b"." me, ~ muta .cy. NUCLEAR SERVICE COOLING VATER PUMP 1-1202-P4-003 N/A N/A ISI-D-203 10F 1 2

O O O NOTD THIS IA A SIMPLIFIED DIAGRAM CV M[><]l lM}--- ACID ADDITION USED TO DEPICT A TEST CIRCUIT. 9447 N (041) (677) BLIND FLANGE REFER TO THE PtID FOR DETAILS. @ 2'; g D TO TE FC BLOVDOVN g - 1643 I M X yISPERSANT ADDITION s I' W M l S 3' (050) O 24' 20' QMC5 QMCB QMCB 16' 18' H 3 3 1603A 1609A 1635 t IO' I I 1 t j 11765 j 11764 l l 11763 l 1 1-I \\ {n 1669 g NSCVS 24' COMPONENTS .v PDI PI PDI PI PDI PI .I l E 11730 2149 11731 2151 11733 2153 7 O l 1669B -U;rij ' l}- O B --g;rll Hsrll t ' 'V 1607 HV HV H 11612 11613 11607 18' , TO TOVER TO BASIN MAM LMMG m i /~\\ /~\\ /~\\ 1-1202-P4-002 1-1202-P4-006 1-1202-P4-004 NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE l-1202-V4-002 COOLING VATER PUMP CODLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE CDOLING (SPARE) VATER TOVER [ 6w ears se o=, uscuerase

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O O O NOTE: THIS IA A SIMPLIFIED DIAGRAM CV M C)<% MCID ADDITION USED TO DEPICT A TEST CIRCUIT. 9446 2'g (fy-) REFER TO THE PLID FOR DETAILS. Mt g BLIND FLANGE D TO

g W TE FC BLOVDOVN g

g 1642 I f X yISPERSANT ADDITION s i >S (075) 3' (048) 24' 20-l6* 18* M QMCB 4 0MCB g DMCB 1602A 1608A 1634 18' W 1 g g j 11760 l 11761 l 11762 1 1-la 1668 NSCVS ~ ~. " ~T" 'd 24. COMPONENTS . s PDI PI PDI PI PDI P7 I, i 11726 2148 11727 2150 11729 2152 g gy g h 1668B -iwi y -Hwl: -iwl: HV HV l1606 ) 1160 HV j 1160 11600 18' , TO TGVER TO BASIN MJM A GMM / \\ / \\ / \\ 1-1202-P4-001 1-1202-P4-005 1-1202-P4-003 NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 1-1202-V4-001 COOLING VATER PUMP COOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TOVER 7 av.

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== "c 5 UNIT 1 PUMP INSERVICE TESkING LOOP FOR ",,,an a $am mr erv. NUCLEAR SERVICE COOLING VATER PUMP l-1202-P4-005 N/A N/A ISl-D-205 1 Ir 1 2 f -s w a -t

O O O t NOTE: THIS IA A SIMPLIFIED DIAGRAM CV MC><]HyCID ADDITION ' USED TO DEPICT A TEST CIRCUIT. 9447 (049F 04L) (077) BLIND FLANGE REFER TO THE P8,ID FOR DETAILS. Q6J7) 2'(gW 0 g TO TV FC BLOVDOVN g - 1643 I / X / nISPERSANT ADDITION 8 V ci6Tn cum L0z8) 3* S g c e4 go. l6* 18* M OMCB g DMCB g GMCB 1603A 1609A 1635 18" 18' I I a = l 11763 l 11764 l 11765 =p =8 =p i 1669 Q NSCVS g ~' 24* COMPONENTS is ~ PDI PI PDI PI PDI PI ll ll [ 11730 2149 11731 2151 11733 2153 Nb j l h O i 1669B d)(0 'U -0)(C 'E -lJfC 'l ~ 1607 HV HV i HV 1 612 11613 =, 11607 18 , TO TOVER. TO BASIN M}A.) G L G / \\ /~\\ /~\\ I 1-1202-P4-002 1-1202-P4-006 1-1202-P4-004 NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 1-1202-V4-002 COOLING VATER PUMP COOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING f (SPARE) VATER TOVER t e 1: o. scane mi me =u =s

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O O O NOTE: THIS IS A SIMPLIFIED DIAGRAM USED TO DEPICT A TEST CIRCUIT. REFER TO PLID FOR DETAILS HV FI 1670 2156 pg 8895 a ls, v s g e e LO M" g GMCB FI HV 2 54 .LD ei 4 4 6-PI 6' 2155 PDI 0" O 11728 PI 1606 8894 QMC O PDI m 1173 r WMAMM JM)JM. M / /_ 3 r 1-1202-P4-007 1-1202-P4-008 TRANSFER PUMP 1-1202-V4-001 TRANFFER PUMP 1-1202-V4-002 NUCLEAR SERVICE COOLING NUCLEAR SERVICE COOLING VATER TGVER VATER TOVER

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NOTE: THIS IS A SIMPLIFIED DIAGRAM USED TO DEPICT A TEST CIRCUIT. t REFER TO PLID FOR DETAILS HV FI 1670 2156 pg 8895 ,l, n_ ii i i LO QMCB i FI HV 2166 2157 1671 167A pg 2154 LO [ Mll l l [ 6-PI PDI V QMCB 11728 PI 1606 8894 QMCB i PDI m 1173 r + WhAAA.A.A> N. A A A.A.A.A d v vNJhhh /~\\ I f / \\ y 1-1202-P4-007 1-1202-P4-008 TRANSFER PUMP 1-1202-V4-001 TRANSFER PUMP 1-1202-V4-002 l NUCLEAR SERVICE COOLING NUCLEAR SERVICE COOLING VATER TOVER VATER TOVER e .,c o, mawen. -2 nm nm -4 .-s 5-e4-e4 iss vi uma nBe n, n 3 ,-24-95 CSS tv5 tatafE TO luem Ev 14 dBG IN4BBi33-e EEV. W J.I I e s-i4-se Cte vs apK3 pg gag ggyi DeWEE9 Pt 2135 TU ef34 WLW MB Southern Company Services, Inc.FOR Southern Nuclear Operating Company 3 e-e-w

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== '"e UNIT 1 PUMP INSERVICE INSPECTION LOOP ~,. m ",'.~v,.*h*" m1, ~ .v. FOR TRANSFER PUMP .1-1202-P4-008 N/A N/A ISI-D-208 1 IF 1 3

J CCWPumps (1-1203-P4-001, 002, 003, 004, 005, & 006)

p)

System Function Remove waste heat from the spent fuel pool heat u exchangers, RHR heat exchangers and the RHR pump seal } coolers during plant operation, plant cooldown and during a postulated post-accident condition.~ This heat energy is then transferred by the component cooling water heat exchangers to the NSCWS. The CCWS functions as an intermediate system between a radioactive fluid system and 1 the non-radioactive NSCWS, which operates at a higher system pressure. This arrangement greatly reduces the i probability ofradioactive fluid leakage to the enviroment by means of the NSCWS. J 4 Quantity - 6 ) Type. Horizontal, centrifugal, single-stage, split volute with mechanical seals [ Manufacturer /Model Ingersoll-Rand /10x18 SE l Rated Capacity 5000 gpm (each) i~ Rated Total Dynamic. Head 160 feet iO I Driver Type Electric Motor, Westinghouse, LAC-LLD, 5008-S Horsepower 300 { Speed 1761 rpm j Power Supply 4160V,60 Hz,3 phase Code Class 3 1 Project Class 313 j Outline Drawing IX4AF01-67 & 1X4AF01-70 i l Instruction Book X4AF01-136 Physical Location Aux Bldg, Level A, Rooms R-A03 & R-A05 i P&ID 1X4DB136 i Surveillance Procedure 14803-1 i Pump Test Loop Diagrams ISI-D-209 through ISI-D-214 w Test Parameter Sheets Page 6-2 through 6-7 6-1 Rev.O i 1

O O O4 Test Parameter Table - Pump 1-1203-P4-001 (Figure ISI-D-209) Instrumentation Utilized ~ Ref. Accepuble Alert Action Earameler Int Freq. 1.D. No.01 Range Rea. Acc. Yalue Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver l Inlet Pressure Qtr PI-1878 0-60 12% NA NA NA NA NA i (Pi) psig Outlet Pressure Qtr PI-1858 0-200 12% NA NA NA NA NA i y (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA f (AP) j Flowrate Qtr F1-11794 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm t Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA [ (V)(4) or >.325 in/s >.70 in/s Notes: i

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, w hich meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

l 6-2 Rev.0 - -n

Test Parameter Table - Pump 1-1203-P4-002 (Figure ISI-D-210) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Irst Freq. I.D. No.f3) Range Rec.Acc. Value Range Rangt Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure _ Qtr PI-1881 0-60 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1859 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er > l.10APr NA (AP) Flowrate Qtr F1-11795 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or>.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

6-3 Rev.0 E

O O O i Test Parameter Table - Pump 1-1203-P4-003 (Figure ISI-D-211) Instrumentation Utilized Ref. Acceptable Alert Action Paramettr Test Frea. I.D. NoJ3) Range Rea. Acc. Value Range Bange Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet . Pressure Qtr PI-1879 0-60 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1860 0-200 2% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) r Flowrate Qtr F1-11796 0-10000 12% Qr NA NA. NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr 5 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s > 70 in/s b Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

i

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-beanng housing and in the axial direction on each accessibie thrust bearing housing.

i 6-4 Rev.0 l 4

p s. O V Test Parameter Table - Pump 1-1203-P4-004 (Figure ISI-D-212) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. 1.D. No.01 Range Rea. Acc. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-1882 0-60 12% NA NA NA NA NA (Pi) BC(2) psig Outlet Pressure Qtr PI-1861 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA < 90 or >l.10APr NA (AP) Flowrate Qtr F1-11797 0-10000 t2% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr <; 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s 5 Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

i

3. At the dircretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

i

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

6-5 Rev.0 m --

O O Test Parameter Table - Pump 1-1203-P4-005 (Figure ISI-D-213) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freo. I.D. NoJ3) Range Rea. Acc. Value Bange Range Bange Comments Speed (N) NA. NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-1880 0-60 2% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1862 0-200 12% NA NA NA NA NA i (Po) psig DifTer. I Pressure Qtr NA(1) NA i2% APr .90 - I.10APr NA <.90 or >I.10APr NA (AP) Flowrate Qtr FI-l 1798 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s i i t I. Notes:

1. DifTerential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

l

3. At the discretion of SNC, instrumentation other than that listed, w hich meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

6-6 Rev.0 I t-

/m em Os U U Test Parameter Table - Pump 1-1203-P4-006 (Figure ISI-D-214) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. I.D. No.(3) Range Rea. Ace. Value Range Range flanFe Comments ' Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-1883 0-60 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1863 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) FI-Il799 0-10000 12% Qr NA NA NA Flowrate is set at reference value Flowrate Qtr (Q) gpm Vib. Amp. Qtr (5) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s N ites:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

6-7 Rev.O u

_.~_._... _. _. . -... _. - - =.. O O o/ M OMCB PI gy NOTE: THIS IS A SIMPLIFIED HV PI 1852A FI DIAGRAM USED TO DEPICT 1858 11803 11800 1878 1179 A TEST CIRCUIT. REFER LD A l N '- 'I 1[ (030) 16' 1-1203-P4-001 } CMPNT. CLG. OMC VATER PUMP HV PI 54 U 1860 11 4 11801 1879 1179 10' LU LO c lN! l 'I I', th O 16' 1-1203-P4-003 CMPNT. CLG. VATER PUMP 18' OMC FI i PI HV 1179 HV PI 856 1862 11805 1180 1880 I CCVS l 18' LO l 10' e gi ha l = COMPONENTS 'I I', th \\ 16' 1-1203-P4-005 CMPNT. CLG. VATER PUMP I 20' (SPARE) 18' i! Is. i _L T LO HV 4' COMPONENT CLG. VATER 11807 'g gi HEAT EXCHANGER ? [1 03-a-001 COMPONENT CLG. VATER LO SURGE TANK HV 1-1203-T4-001 11806 L T LO 1866 -- z., EV. hfE l BY De*D K-- mPytJ mPPRA arse 2 appe.4 appa3 N 8 h ME vt IISLEB ftbr PET fl i r-e+= css cw wrte = is.eenas arv n JJC Southern Company Services, Inc.FOR Southern Nuclear Operating Company VOGTLE ELECTRIC GENERATING PLANT =8=* c UNIT 1

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m. __.. b Cf*~ i v i M QHCB PI HV NOTE: THIS IS A SIMPLIFIED HV PI 853 FI 1859 11811 DIAGRAM USED TO DEPICT r 11808 1881 II79 A TEST CIRCUIT. REFER LO TO THE P&ID FOR DETAILS. LD A, lN i 16' 1-1203-P4-002 g4, CMPNT. CLG. OMCB VATER PUMP HV PI 855 1861 11 2 11797 i 118C9 1882 10' LO LO c lN: lN: I, h O 16' 1-1203-P4-004 CMPNT. CLG. VATER PUMP 18' PI HV 1179 O HV PI 857 1863 11813 11810 1883 f CCVS LO

10, g g;

fu, l 18' = COMPONENTS O h 16' 1-1203-P4--006 CMPNT. CLG. VATER PUMP j 20' (SPARE) 18',l i _a_ i i T LO i HV 4* COMPONENT CLG. VATER 11815 gi HEAT EXCHANGER i 1-203-G-002 COMPONENT CLG. VATER LO SURGE TANK HV l-p 1-1203-T4-002 11814 T t e a) 1T 1867 ~ ~ ~ i ar. mir o, = _. _ -u -u .-2

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O O O M OMCB PI HV NOTD THIS IS A SIMPLIFIED HV PI 852Al FI 1858 11803 DIAGRAM USED TO DEPICT 11800 1878 1179 A TEST CIRCUIT. REFER to, To TME etiD roR nEraitS. , t o., t,g ,N., 1h ~ 16' 1-1203-P4-001 g4, CMPNT. CLG. QMC VATER PUMP HV PI 854 1860 11 4 I 11801 1979 1179 10' LO t LD lN: 16' 1 1-1203-P4-003 O e CMPNT. CLG. OMC g FI PI HV 1179 HV PI 56 1862 11805 I!B0 1880 f CCVS LD l 10' c .N' I' I = CU""U"ENTS N N IM (034) 16' 1-1203-P4-005 CMPNT. CLG. VATER PUMP 20' (SPARE) 18',l li 2 i i T LO HV 4' COMPONENT CLG. VATER 11807 ig l HEAT EXCHANGER 1-1203- & 001 COMPONENT CLG. VATER LD SURGE TANK HV l_ 1-1203-T4-001 11806 T t wa> 1-T ~~ 1866 r w =re e, =, =_. m. e ms vs usan rar m 1 L_ F-944 CSS CVS tPtm7ED 19 II490BM IEV B9 _ JC " ~ " " ' " Southern Company Services. Inc.rOR Southern Nuclear Operating Company VDGTLE ELECTRIC GENERATING PLANT 8t=* * " 8"' UNIT 1 "5 Sta.E espg CIgrTBEES EBe SEIT PUMP INSERVICE TEST 1HG LDDP FDR =v. COMPONENT COOLING VATER PUMP 1-1203-P4-003 N/A N/A ISI-D-211 1 (F 1 2

O O O 1 S QMCB PI HV NOTE: THIS IS A SIMPLIFIED ' HV PI 1 A FI DIAGRAM USED TO DEPICT 1859 11811 11808 1881 1179 A TEST CIRCUIT. REFER 10' - hD TO THE P8.ID FOR DETAILS. L,D i.Ni p' g ~ 16' 14' 1-1203-P4-002 O CMPNT. CLG. g4 OMC VATER PUMP HV PI 55 II 18 1 11 11809 1882 11797 10' LD LO 'Ni l i N gh 16' 1-1203-P4-004 CMPNT. CLG. DMC Fb PI HV 1179 HV PI 857 1C63 11813 11810 1883 J CCVS 10, g ,q fu, l 18' LO = COMPONENTS N 1 1-1203-P4-006 O 16* [ CMPNT. CLG. VATER PUMP 20' (SPARE) 18',I Ii _a_ i n T LO HV l 4' COMPONENT CLG. VATER 11815 L HEAT EXCHANGER [ COMPONENT CLG. VATER LO SURGE TANK HV- -I-i 1-1203-T4-002 11814 T e a> A T --GD 3867 =v.

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l i MCB PI HV NOTES THIS IS A SIMPLIFIEld t HV PI FI DIAGRAM USED TO DEPICT 1858 11803 11800 1878 1179 A TEST CIRCUIT. REFER LD TO THE P&ID FOR DETAILS. i LO ' 10., ,q N IM 16' 1-1203-P4-001 g4, i CMPNT. CLG. OMC VATER PUMP HV PI 854 U 1860 11 4 1179 11801 1879 10' LO LD 'N i i N N 16' 032) 1 1-1203-P4-003 CMPNT. CLG. VATER PUMP 18' QMC O HV PI 856 1862 11 5 1180 1880 1179 CCVS 1 LO M N' COMPONENTS 18' 1h (034) 16' 1-1203-P4-005 CMPNT. CLG. VATER PUMP 20' (SPARE) 18' el li _a_ i i T LO HV 4' COMPONENT CLG. VATER 11807 ge HEAT EXCHANGER 1-1203-a-001 COMPONENT CLG. VATER LO

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SURGE TANK HV f 1-1203-T4-001 11806 GlfL9) 1T 1866 - -- e s-e.-e.

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== ews wmnets is is.suas sity s, JJC "~"~ Southern Company Services. Inc.FOR Southern Nuclear Operating Company VDGTLE ELECTRIC GENERATING PLANT sosien n an .mc UNIT 1

=== vs PUMP INSERVICE TESTING LOOP FOR "EC' m, COMPONENT COOLING VATER PUMP 1-1203-P4-005 N/A N/A ISI-D-213 i (F 1 2

t S QMCB PI HV NOTE: THIS IS A SIMPLIFIED HV PI 1853 FI 1859 11811 DIAGRAM USED TD DEPICT 11808 ! Gal 1179 A TEST CIRCUIT. REFER LD TO THE PLID FOR DETAILS. 10, e g LO i I', h 16* 1-1203-P4-002 CMPNT. CLG. g4, QMCB VATER PUMP HS l pg HV HV PI FI 1861 11812 11797 11809 1882 10' LD LO c lN: l l N 16' 1 1-1203-P4-004 (057) CMPNT. CLG. VATER PUMP 18' QMC F1 PI HV 1179-HV PI 857 1863 11813 I I 11810 1883 18 CCVS l C MP NENTS LD A .N. 16' 1 1-1203-P4-006 (059) l CMPNT. CLG. VATER PUMP 20' (SPARE) 18' iI I. _a_ n T LO HV 4' jp COMPONENT CLG. VATER 11815 i gi HEAT EXCHANGER COMPONENT CLG. VATER LO 1-1 03-M02 SURGE TANK HV l-1-1203-T4-002 11814 T w a) 1-T L 1867 ~ e s++ nu vs amanrm m ti a ve-as os cws wantra su smessas av is JJC I ~ ~ " ~ " " " Southern Company Services. Inc.FOR Southern Nuclear Operating Company j VDGTLE ELECTRIC GENERATING PLANT E8=<= = =c UNIT 1

=== vs PUMP INSERVICE TESTING LOOP FDR " E h " .ex, men. o COMPDNENT COOLING VATER PUMP 1-1203-P4-006 N/A N/A ISI-D-214 I (F 1 2 I

. = -.. - I I l l SIPumps (1-1204-P6-003, & 004) G System Function The SI system provides emergency core cooling and serves k.) no other purpose. The primary function of the ECCS is to remove the stored and fission product decay heat from the reactor core following an accident in order to prevent fuel rod damage. Quantity 2 Type Horizontal, centrifugal,11-stage i 4 Manufacturer /Model Pacific Model 3-i t., JHF I Rated Capacity 440 gpm Rated Head 2680 ft. Driver Type Electric Motor, Westinghouse, Frame 5809 H Horsepower 450 Speed 3600 rpm l Power Supply 4160V,60 Hz,3 phase Code Class 2 Project Class 212 l Outline Drawing IX6AG02-10,13 & 15 Instruction Book IX6AG02-016 Physical Location Aux Bldg, Level B, Rooms R-BIS & R-B19 P&ID 1X4DB121 l Surveillance Procedure 14804-1 Pump Test Loop Diagrams ISI-D-215 & ISI-D-216 Test Parameter Sheets Page 7-2 & 7-3 4 4 O 7-1 Rev.O I { l

\\ t Test Parameter Table - Pump 1-1204-P6-003 (Figure ISI-D-215) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. No.(3) Range Rea. Ace. Yalum Range Range-Range Comments Speed 1 (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qr PI-0977 0-100 2% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr Test NA 12% NA NA NA NA NA i t (Po) Gage j Differ. Pressure Qtr NA(1) NA i ~. A APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr FI-0968 0-100 12% Qr NA NA NA Flowrate is set at reference value [ (Q) gpm i Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

[

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

i

4. Measurements are taken in a plane approximately perpendicular to the routing shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

[ i 7-2 Rev.O l I t

O O O Test Parameter Table - Pump 1-1204-P4-004 (Figure ISI-D-216) Instrumentation Utilized Ref. Acceptable Alert Action EaramticI Test Freq. I.D. NoJ3) Range Req. Acc. Value Range Range Range comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-0978 0-100 12% NA NA NA NA NA 9 (Pi) psig l Outlet Pressure Qtr Test NA 12% NA NA NA NA NA I (Po) Gage Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr FI-0968 0-100 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA 15% Vr 5 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s t Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instmmentation other than that listed, which meets the requirements of the OM Code, may'be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessi'i pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

7-3 Rev.0 ~+

/3 f3 d V V NOTE: THIS IS A SIMPLIFIED DIAGRAM USED TD DEPICT M MCB FI HV 0968 A TEST CIRCUIT. REFER 8964 8964 TO THE P8.ID FOR DETAILS. MMCB 3/4" REFUELING VATER G88 j l PCP HV STORAGE TANK th0 ~ 8813 M 8813 HV HV 807 l HV q FC QMCB 1 1/2, 8814 802 HV g GMCD 8888 MCB 7 3' M 8814l CVCS CHARGING 802 k k 3/4, j QM B 807B ! PUMP 6, QMCB 4' SUCTION HEADER 093) 23 HV HV HS 807B m 821A HV M QMCB 0998 923 ,l 24" pg 00 (098) 0977 r' EI 207 LO 1-1204-P6-003 ~~ 6' SIS COLD 4* SAFETY INJECTION L HV LEG LDUP H PUMP 8806 82 B MCB QMCB 090 M 094) QMCB 8920 4 MCB 821B M PI HV QM B QMCB HV 101 802 11/2* 0978 4, g HS Dw r LO 1-1204-P6-004 6, (163) 802 k L SAFETY INJECTION M RHRS DISCHARGE QMCB 4' l DM TRAIN *B' 8 RHR HEAT EXCHANGER 3 9-ee-se ggig VS_ IISKs FtR PST I 7-e*-es em ev. waarts = ines.m arv. , JC rE $ E ."

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~~ VDGTLE ELECTR ENERATING PLANT =5" c PUMP INSERVICE TESTING LDDP n. ". ~ 2 = FOR SAFETY INJECTION PUMP 1-1204-P6-003 N/A N/A ISI-D-215 1 [F 1 3

(~ p /} O j NOTE: THIS IS A SIMPLIFIED I DIAGRAM USED TO DEPICT HS HV 68 A TEST CIRCUIT. REFER 8964 8964 TO THE P&lD FDR DETAILS. MCB 3/I G i l REFUELING VATLR 888 HV OM B PCP STORAGE TANK 8813 H TIS 1-204-T4 -001 807 10980 8813 M HV , r HV E 807 [ MCB 1 1/2, 8814 M 802 8888 ' QMCB P 3* M 8814 CVCS CHARGING 802 L 3/4' QM B 807B H PUMP 6' QM B 4' 093 92 HS 80 B 82 A HV M QMCB 0998 H Q.00 ' (098) pg A 923 I e4-w 0977 UM I, 821A M z i LO 1-1204-P6-003 0-D SIS COLD 4' 6' LEG LOOP g SAFETY INJECTION jl L HV H e PUMP 8806 HV 0919 8920 _ LD QMCB QMCB M HV 8806 821B - HV Q OMCB HV b0 101 ) 802 1 1/2' 0978 4, H HS r LO 1-1204-P6-004 0: D 802 k 6, L SAFETY INJECTION QMCB 4 PUMP RHRS DISCHARGE / l FROM TRAIN *B' 8 RHR HEAT EXCHANGER WV. 9ME BT M's K-.m appq3 appg3 appeJ appte a, pts Myuuurt e we= ma vi nuns run m tI a 7-e*

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PUMP INSERVICE TESTING LOOP FOR SAFETY INJECTION PUMP 1-1204-P6-004 N/A N/A ISI-D-216 1 [F 1 3

RHR Pumps j (1-1205-P6-001, & 002) O System Function U The primary function is to remove heat energy from the i ~ reactor core and reactor coolant system during plant - cooldown and ra4*hg operations. As a secondary j function, RHR is used to transfer refueling water between the refueling water storage tank and the refueling cavity at the beginning and end of refueling operations. Portions of the RHR system also serve as part of the ECCS during the injection and recirculation phsses of a LOCA. Quantity 2 i Type Vertical, centrifugal, single stage Manufacturer / Mode! Ingersoll-Dresser,8X20WDF Rated Capacity 3000 gpm (- Rated Head 375 ft. Driver I Type Westinghouse LLD squirrel-cage induction motor O Horsepower 400 Speed 1780 rpm i Power Supply 4160V,60 Hz,3 phase Code Class 2 Project Class 212 } Outline Drawing AX6AF02-20007 l Instruction Book AX6AF02-20030 RHR Pumps (cont) Physical Location Aux Bldg, Level D, Rooms R-D48 & R-D49 P&ID 1X4DB122 ( Surveillance Procedure 14805-1 & 14812-1 l. Pump Test Loop Diagrams ISI-D-215 & ISI-D-216 Test Parameter Sheets Page 8-2 & 8-3 l l 81 Rev.0 I

_ _.. ~... - C O O f Test ParameterTable - Pump 1-1205-P6-001 (Figure ISI-D-217) Instrumentation Utilized Ref. Acceptable Alert Action Paramtitt Test Frea. LDJio4) Range Rtg. Acc. Value B.ange Range Range Comments t Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-8884 0-100 12% NA NA NA NA NA I (Pi) psig Outlet Pressure Qtr PI-8886 0-400 12% NA NA NA NA NA ( (Po) psig Differ. Pressure Qtr NA(1) NA 2% APr .90 - 1.10. ipr NA <.90 or >1.10APr NA (AP) i-i Flowrate Qtr FI-0618A 0-5000 12% Qr NA NA NA Flowrate is set at reference value I (Q) gpm l Vib. Amp. Qtr (2) NA 15% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s i Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

L

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial

{ direction on each accessible thmst bearing housing. i t 8-2 Rev.0 j [ m

J O O Test ParameterTable - Pump 1-1205-P6-002 l (Figure ISI-D-216) Instrumentation Utilized Ref. Acceptable Alert Action Earamtitr Test Freq. I.D. No.(3) Range Reg. Acc. Yalut Range Rangt Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr PlfS885 0-100 12% NA NA NA NA NA j (Pi) psig Outlet Pressure Qtr PI-8887 0-400 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr NA(1) NA 12% ' APr .90 - 1.10APr NA <.90 or > t.10APr NA (AP) t Flowrate Qtr FI-0619A 0-5000 i2% Qr NA NA NA Flowrate is set at reference value (Q) gpm x l Vib. A m p.- Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes: I

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

[

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

f 8-3 Rev.0 i i. i

p Q U) f V (> NOTE: THIS IS A SlHPLIFIED FI FIC FROM CONTAINMENT DIAGRAM USED TO DEPICT 618 0618 FV 3, EMERGENi SUMP O dR ILS. OMC 00 M PI OMCE 061 8886 M HV REFUELING VATER 0618 HV ^ HV FT 0606 0620 8811 STORAGE TANK 809 M 0618 l (019 0612 PI l-1204-T4-001 SIS 8' - ll ll N---{-Q COLD LEG <l r0 1-1205-E6-001 LOOP 8' 2,, @l) J i 14 HV FIS M T PI QMCB 804 L FY 0610 5016 8884 H (12 2 ) g, g g CVCS CHARGING = 7 4 . 0618 CVCS LETDOVN 1-1205-P6-001 812y PUMP SUCTION - HEAT EXCHANGER RESIDUAL HEAT 1 r HV HEADER Ml 15 se REMOVAL PUMP J L M 812 - HV HV 8' LC, LC 840 716 ,m, RCh0W1 m, i r, - 9 12' 24' RHT(027) (226) FV 3 RCS 0611 OMCBM PI QMCB HOT LEG HV 0615 8887 M ~~ LOOP 716 m HV HV M (0621,1 0607 809 M r (020 0613 Y 06 2 02 QM llhl '3 M { SIS s' 12-L RCS HOT LEG COLD LEG l-1205-E6-002 LOOP 4 LOOP FT 2' (010 ) o Q 8' QMcB 0619 FIS M PI 7' QMCB b 7 0619 0611 5015 5017 8885 HV H HV 0619 Iv 34' 88llB 804 LOO 812 0619 0619 CVCS LETDOVN l-1205-P6-00 HEAT EXCHANGER 1 F (00p' HV ^ RESIDUAL HEAT j c-1M) 8812 SIS SAFETY a M INJECTION !I I REMOVAL PUMP FRDi CONTAINMENT 619 s, PUMP SUCTION FC EMERGENCY SUMP, j MCB 12' V i SEv. Om Tt DT Oer1 stSt EPTEM apres asww2 mPPR.3 araw. erwetS apuers v, 1 JC i v-e.-es as cve winer to imour scv i, -k[ Southern Company Services, Inc.FOR Southern Nuclear Operating Company ',~. l c5 Cl 'l *[ s ^ )' MB VDGTLE ELECTR ENERATING PLANT 'r= ' " '"c ,"v" sr t s os w-r -=. m en aw= m acam Av5 ,mc -.,,,,,u, PUMP INSERVICE TESTING LOOP ,.ui.m se t. no .s v. FOR RESIDUAL HEAT REMOVAL PUMP l-1205-P6-001 N/A N/A ISI-D-217 1 OF 1 6

O O O NOTE: THIS IS A SIMPLIFIED [M M FROM CONTAINMENT DIAGRAM USED TO DEPICT 0618Al 0618 FV 3, EMERGENCY SUMP A TEST CIRCUIT. REFER QMC 0610 TO THE PLID FOR DETAILS. 00 DMCB M pt OMCB 0618 HV 0614 8886 HS HV REFUELING VATER ^ HV FT 0606 0620 8 811 STORAGE TANK 809 M 0618 l (019 0612 0601 1-1204-T4-001 lik 0 SIS B* g{

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r i COLD LEG hl FO 1-1205-E6-001 LOOP 8, 2, (]ED H e N FI Q TI PI OMCB HV 8884 0618 34, 870 A py CVCS CHARGING = r 4 0618 CVCS LETDOVN 1-1205-P6-001 812 V 'I PUMP SUCTION 7 HEAT EXCHANGER RESIDUAL HEAT 1 T HV HEADER M 8' 4 REMOVAL PUMP J L g 812 HV HV M li g, LC, ,LC RCS h T LEG m O l 8840 i

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- g FV 3' RCS 0611 (001 ) OMCB M pg OMCB 1 HOT LEG HV 0615 8887 M LDDP 716 ^ 06 7 l PI HV 809 M r (020 0602 702 M w 12' ES " COL LEG 1-12 2 r4 o LOOP 4 LOOP FT 2' (010 ) ' 'e 8' OMCB 0619 flS FV Q ] PI OMCB HV O 9 FV 881 B 804 O j g 0619 CVCS LETDOVN k HEAT EXCHANGER 1 (,00. U HV r 0 j g SIS SAFETY u l-1205-P6-002

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~ l CS Pumps (1-1206-P6-001, & 002)' j System Function Containment spray limits the peak pressure in the containment to less than design pressure following a LOCA ~ or a main steam line break inside containment. Trisodium phosphate is mixed with recirculated spray water in the containment sump region for pH control and to enhance absorption of the airborne fission product iodine and to retain the iodine in the containment sump solution to limit calculated offsite doses to less than 10CFR100 limits. Quantity 2 i Type Horizontal, centrifugal j Manufacturer /Model Goulds Model 3415 Capacity 2600 gpm-l l Total Dynamic Head 450 ft. l ' Driver Type Westinghouse electric motor, Frame 5010S Horsepower 400 Speed 1777 rpm Power Supply 4160V,60 Hz,3 phase Code Class 2 l Project Class 212 Outline Drawing IX6AD02-11 l-Instruction Book X6AD02-18 i l l Physical Location Aux Bldg, Level D, Rooms R-D76 & R-D77 j P&ID IX4DB131 Surveillance Procedure 14806-1 Pump Test Loop Diagrams . ISI-D-219 & ISI-D-220 Test Parameter Sheets Page 9-2 & 9-3 lO 9-1 Fev. 0

Test Parameter Table - Pump 1-1206-P6-001 (Figure ISI-D-219) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freu, J.D. No.(3) Range Req. Acc. Yalue Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver i Inlet Pressure Qtr PI-0972 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-0974 0-300 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(t) NA 12% APr .90 - l.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr F1-0929 0-400 12% Qr NA NA NA Flowrate is set at reference value t (Q) gpm Vib. [ Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr-6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

t

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

9-2 Rev.0 l ~.. _ _. _ _ _ _ _ _..,.. _ _ _ _. _ _. _ _ _ _ _ _ _ _ _ _ _. -. _ _ _. _. _. m ..a. m

O O O Test Parameter Table - Pump 1-1206-P6-002 (Figure ISI-D-220) Instrumentation Utilized Ref. Acceptable Alert Action Entameter Irst Frey. I.D. No.(3) Range Req. Acc. Yalue Range Range Range Commeuts Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-0973 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-0975 0-300 i2% NA NA NA NA NA (Po) psig Differ. Pressu e Qtr NA(1) NA i2% APr .90 - 1.10APr NA < 90 or >l.10APr NA (AP) Flowrate Qtr F1-0929 0-400 2% Qr NA NA NA Flowrate is set at reference value (Q) gpr t Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr-6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shall in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

9-3 Rev.O

O O %) NOTE: THIS IS A SIMPLIFIED ,LC, p, DIAGRAM USED TO DEPICT r, A TEST CIRCUIT. REFER (006) TO THE P&ID FOR DETAILS. HV 9003 QMCB QMC'B 9001 HS 2' mr FROM CONTAINMENT HV TI PI 1094 9001A 0938 0974 PI 12' ENERGENCY SUMP FI 929 TO M 0972 CONTAINMENT - ?, I ] 12' SPRAY 8, l -n p a CONTAINMENT SPRAY J g --C PUMP S CONTAINMEN SPRAY ADDITIVE SPRAY EDUCTOR M 9017A TANK 1-1206-J6-001 g U 3* HV 3' HV 90 A. " -S 994 994 REFUELING VATER c 3 MCB MCB STORAGE TANK h 3' ] % 994 )% 9[4 2 09 1-1204-M-001 o S CONTAINMENT k 1,C, HV SPRAY EDUCTOR 10 9017B 1-1206-J6-002 15 2 MCB 9001B 3' ,QMCB M 9017B HV e h 9001B [CD 4 PI G 0 9 0973 o HV TO 8' ,5 9003P m m 7' 2' h CONTAINMENT e-SPRAY 1-1206-P6-002 l FROM CONTAINMENT PI CUNTAINMENT SPRAY m - 12-r, EMERGENCY SUMP 0975 PUMP ES 2* dT6h s., . s-e-an vs nacs em es, i e F-em

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.- - - -.=.~ -.~... - ~. - - -. ~. O J v s i NOTD THIS IS A SIMPLIFIED ,L C, p. A TEST CIRCUIT. REFER (006) DIAGRAM USED TO DEPICT r, TO THE P&ID FDR DETAILS. HV I 9003 OMCB QMCB b 9001 M FROM CONTAINMENT i HV TI PI 1094 r' 9001A 0938 0974 PI 12" EMERGENCY SUMP FI 929 TO M 0972 = i CONTAINMENT =,', } 12* i SPRAY 8, l r n 1-1206-P6-001 %'C3 n o CONTAINMENT SPRAY 8 g PUMP S 3 CONTAINMEN SPRAY ADDITIVE e SPRAY EDUCTOR 8 M 9017A TA W 1-1206-J6-001 2 S 994 994 f 3' HV 3' HV 90 A. REFUELING VATER c 3 CB MCB STORAGE TANK gh 3'] g ) M 994 2' 098 1-1204-T4-001 94 e l = CONTAINMENT h M HV i SPRAY EDUCTOR o 10 9017B (13_'2) r 1-1206-J6-002 1 MCB 9001B MCB HV M 9017 r 9001B g} s 1094 y pg C 0973 TD 8' 3 HV i 9003 m i h 2" CONTAINMENT r' SPRAY 1-1206-P6-002 l FROM CONTAINMENT PI CONTAINMENT SP' RAY 12' r' EMERGENCY SUMP 0975 PUMP I I ,L C, p. 1 dich =v-

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CVCS Pumps CENTRIFUGAL CHARGING PUMPS l (1-1208-P6-002, & 003) k-System Function The primary functions of the CVCS are to: ~ l Regulate reactor coolant chemistry for reactivity and corrosion control l Maintains the water level in the pressurizer of the RCS j Maintains seal-water injection flow to the reactor I e coolant pump ) Provide a means offilling, draining and pressure testing the RCS Provide injection flow to the RCS following actuation ofSIS Quantity 2 l Type Horizontal, centrifugal,11 itaIg i i . Manufacturer /Model Pacific, U 2-1/2 in., RL l Capacity 150 gpm Total Dynamic Head 5800 ft. Driver 1 Type Westinghouse electric motor ~ Horsepower 600 Speed 1800 rpm Power Supply 4160V,60 Hz,3 phase Code Class 2 Project Class 212 { i Outline Drawing IX6AH02-101 Instruction Book IX6AH02-85 Physical Location Aux Bldg, Level C, Rooms R-Cl15 & R-C118 P&ID IX4DB116-2 Surveillance Procedure 1480~8-1 1 Pump Test Loop Diagrams ISI-D-221& ISI-D-222 i l Test Parameter Sheets Page 10-2 & 10-3 10-1 Rev.0

3 - (%)) f~( (d Test Parameter Table - Pump 1-1208-P6-0<)2 (Figure ISI-D-221) Instrumentation Utilized Ref. Acceptsble Alert Action Paramtitt Test Freq. I.D. NoJ3 n Range Ecsl. Acc. Yalue Bange Range Range Comments - F Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr PI-8891 0-100 12% NA NA NA NA NA i (Pi) psig l Outlet Pressure Qtr PI-8472 0-4000 12% NA NA NA NA NA I i (Po) psig [ Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr F1-10120 0-80 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm i Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s i N:t:s:

1. Differential pressure is calculated as, AP = Po - Pi f

2. Portable vibration instruments are utilized.

l

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

i 10 -2 Rev.0

( ( V Test Parameter Table - Pump 1-1208-P6-003 (Figure ISI-D-222) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freo. I.D. No.(3) Range Req. Arc, Yalut Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr PI-8892 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-8473 0-4000 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-10121 0-80 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA or >.325 in/s >.70 in/s (V)(4) Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

10 -3 Rev.0

~_ O ( ( %) O 3' SEAL VATER i 3' l@ 1 -120 - U 3' i P MP RVST SEALS 3' l 8110 VOLUME O g_gTgK RHT rt 3* j g L CVCS 1-1208-P6-001 3' 4 N N g3g REGENERATIVE Da0 W H POSITIVE DISPLACEMENT ll2B HEAT Fv G3D 6 8111A CHARGING PUMP 121 MCB EXCHANGER IN FT QMC 21 HS FI MCB 112C QMCB 8 2 273 485 g p3 @4. LD 12C 018 7 y 8891 CVCS $3 D 'M l , 6' O i 13 G 4, REACTOR ggg 1-1208-P6-002 COOLANT PUMP RHT SEALS MCB 1 g F CENTRIFUGAL H 10118 CHARGING PUMP 471 J LRHT F1 QMCB HST 'V NOTE: THIS IS A HS IUI I 47I 8 SIMPLIFIED DIAGRAM 485 3' PI USED TO DEPICT A TEST HV q 8473 274 PI MCB PI 0188 CIRCUIT. REFER TO THE 485 8892 8' M P&I.D. FOR DETAILS. 4 j ll; ) 6' GH9) n 1 O 1-1208-P6-003 RHT CENTRIFUGAL H LV 012 CHARGING PUMP 4 71 112E HV HV HS 803 803 1 G 508 4 71 FROM SIS BORON J LRHT MCB REFUELING INJECTION TANK RVST r, VA TER 1-1204-V6-001 STORAGE TANK -v- .m a

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I ~ I 's ) w 3' SEAL VATER LC 3' i l 1 -120 - - 3* MP RVST VOLUME i 3, SEALS g 8110 O OggigK hg C 1LT E = RHT rr h 3' CVCS 1-1208-P6-001 3' 4 112B REGENERATIVE ) ll DE} H POSITIVE DISPLACEMENT ll2B HS HEAT Fv G3D G23) BillA CHARGING PUMP EXCHANGER g$ 121 MCB FT QMC 0121 HS FI MCB 112C QMCB 3485 g 8 72 273 pg 018 7

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CVCS O , 6' 013 REACTOR G 4, g 1-1208-P6-002 CDDLANT PUMP RHT SEALS MCB 1 G FD CENTRIFUGAL H 10118 CHARGING PUMP 471 J LRHT FI QMCB V HS NOTE: THIS IS A HS 10121 SIMPLIFIED DIAGRAM 485 3, PI g3 4 71 8-112D USED TO DEPICT A TEST HV q 8473 274 PI MCB pl CIRCUIT. REFER TO THE 485 0188 M-g I 8892 P&I.D. FOR DETAILS. q af " ili I ) 6' GH9) O ~ 1-1208-P6-003 RHT CENTRIFUGAL H LV 1012 CHARGING PUMP 4 71 112E HV HV HS gy 803 803B-508 4 71 FROM 2 J LRHT p MCB REFUELING SIS BORON INJECTION TANK RVST r, VATER 1-1204-V6-001 STORAGE TANK uv.

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l BORIC ACID TRANSFER PUMPS l (1-1208-P6-006 & 007) System Function Provides boric acid to the CVCS for use in RCS inventory control and makeup to systems requiring reactor grade ) borated water. The boric acid transfer system also provides boric acid for emergency boration of the RCS. Quantity 2 Type Canned motor Manufacturer /Model Chempump Model GVH-1K Design Flowrate 75 gpm l Design Head 235 ft. l Driver Type Electric motor kW 15.5 i Speed 3450 rpm ) Power Supply 4160V,60 Hz,3 phase Code Class 3 'O Project Class 313 Outline Drawing IX6AH02-45 j Instruction Book 2X6AA07-10 Physical Location Aux Bldg, Level D P&ID 1X4DB118 Surveillance Procedure 14811-1 Pump Test Loop Diagrams ISI-D-228& ISI-D-229 Test Parameter Sheets Page 11-2 & 11-3 O 11 - 1 Rev.0 4

Test Parameter Table - Pump 1-1208-P6-006 (Figure ISI-D-228) Instrumentation Utilized Ref. Acceptable Alert Action j Parameter Test Freq. I.D. NoJ3) Range Req. Acc. Value Range Range Range Commenh Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-10115 -15 to +15 2% NA NA NA NA Relief Request RR-P-1 (Pi) psig Outlet Pressure Qtr Pl-Oll3 0-160 12% NA NA NA NA NA i (Po) psig DilTer. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr FI-40001 0-100 t2% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA 15% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Nstes:

1. Differential pressure is calculated as, AP = Po - Pi

1. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing ho'ising and in the axial direction on each accessible thnist bearing housing.

11 - 2 Rev.0

'\\ f') p %./ Q ~ Test Parameter Table - Pump 1-1208-P6-007 (Figure ISI-D-229) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. NoJ3) Range Req. Acc. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-10l l6 -15 to +15 12% NA NA NA NA Relief Request RR-P-1 (Pi) psig Outlet Pressure Qtr PI-0114 0-160 i2% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10aPr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-40001 0-100 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration inst uments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shcft in two orthogonal directions on each accessible pump-bearing housing and in the axial s

direction on each accessible thrust bearing housing. 11 - 3 Rev.0

f D V} (V V NOTE THIS IS A V SIMPLIFIED DIAGRAM USED TO DEPICT A TEST CIRCUIT. REFER TD 3 7 PLI.D. IX4DB118 FOR (x-Ann) jg DETAILS. FROM BRS RECYCLE LD LD TO BDRIC EVAPORATOR g ACID 2' X X e @ FILTER 011 eZ ll! ir m (1 (1 i D U 1h*2 = ;;; 2' = 1 e am e i BORIC ACID 000 TRANSFER PUMP LC i BORIC ACID l-1208-P6-007 2' a BORIC ACID FILTER BYPASS 2* STORAGE TANK SEE ISI-D-229 TD BORIC ACID BLENDER 7' 1-1208-T4-003 O 3' FU,TURE DMCB NE'U 6 J L I 3' PP 113 011 LO ', C N Z LO La = 2 > (0 1, 3 X = e e Mc, e 3 m e S{ [ t 3][G l-1 8-P6g06 SAMPLE B Y ACID TRANSFER PUMPS TO UNIT 2 BORIC TRANSFER PUMP + 7 U- .c" c5i) J7c "~ ~ ~ ~ ~ vs unasrm m i av ,- -es ces vs asers ri=== WLV MB Z 2, E h".".","."., Southern Company Services. inc. FOR Southern Nuclear Operating Company VDGTLE ELECTR ENERATING PLANT "_5 = = = ""' =

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O O O NOTE THIS IS A v SIMPLIFIED DIAGRAM USED TO DEPICT A TEST CIRCUIT. REFER TD F PLI.D. IX4DBil8 FOR (X-800) Jk DETAILS. FROM BRS RECYCLE LO LO 10 BORIC EVAPORATOR b, X X F ER GL"D GB7) '011 2 1 X lll U y

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I i AFW Pumps (1-1302-P4-001,002 & 003) System Functior Supply water to the steam generators whenever the reactor v coolant temperature is above 350'F and the main feedwater system is not in operation, i.e., during startup, cooldown, or emergency conditions resulting in a loss of main feedwater. Automatically provides feedwater for the removal of reactor core decay heat following a loss of main feedwater. This prevents damage to the reactor core until the reactor coolant temperature is brought from a hot standby condition to the point at which RHR may be placed into operation. i AFW mpplies feedwater to the steam generators at a flowrate sufficient to support normal low-power transients such as startup, cooldown, and hot standby. l Turbine Driven AFW Pumo (1-1302-P4-001) l Quantity } Type Horizontal, centrifugal,5 stage, split-case Manufacturer /Model Ingersoll-Rand, Model 6HMTA Capacity 1175 gpm Total Dynamic Head 3500 ft. Driver Type Terry Turbine, Model GS-2N, non-condensing, single-stage, mechanical drive Horsepower 1603 Speed 4250 rpm Power Supply Steam Code Class 3 Project Class 313 Outline Drawing IX4AF03-83 Instruction Book IX4AF03-20033 12 - 1 Rev.O

Turbine Driven AFW Pumo (1-1302-P4-001)(conti Physical Location AFW pump house O ~ IX4DB161-2 P&ID Surveillance Procedure 14810-1 Pump Test Loop Diagrams ISI-D-223 Test Parameter Sheets Page 12-4 i l l lO l l l i l l l l i O 12 - 2 Rev.0

. -.. ~ - - Motor-Driven AFW Pumos (1-1302-P4-002 & 003) Quantity 2 9~ Type Horizontal, centrifugal, 6 stage, split-case i Manufacturer /Model Ingersoll-Rand, Model 4HMTB Design Flowrate 630 gpm Total Dynamic Head 3500 ft. Driver Type Westinghouse electric motor, LLD 5810 H l Horsepower 900 l Speed 3600 rpm Power Supply 4160V,60 Hz,3 phase l Code Class 3 Project Class 313 Outline Drawing IX4AF03-81 Instruction Book IX4AF03-20032 lO Physical Location AFW pump house P&tD IX4DB161-2 Surveillane Procedure 14807-1 1 Pump Test Loop Diagrams ISI-D-224& ISI-D-225 j l 1 Test Parameter Sheets Page 12-5 & 12-6 ) i d i i r I 12 - 3 Rev.0 l i

o o Test Parameter Table - Pump 1-1302-P4-001 (Figure ISI-D-223) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. NoJ3) Range Req. Arc. Yalue Range Range Range Comments i Speed l (N) Qtr SI-15109A 0-6000 12% Nr NA NA NA Speed is set to reference value Inlet Pressure Qtr PI-5110A 0-30 12% NA NA NA NA NA ( (Pi) psig t Outlet Pressure Qtr PI-5107A 0-2000 12% NA NA NA NA NA (Po) psi Differ. 1 Pressure Qtr NA(I) NA 2% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-15100 0-200 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr 5 2.5Vr - > 2.5Vr - 6Vr >6Vr or NA i (V)(4) or >.325 in/s >.70in/s t Notes:

1. DifTeremial pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

l 12 - 4 Rev.0

r n (s) Test Parameter Table - Pump 1-1302-P4-002 (Figure ISI-D-224) Instrumentation Utilized Ref. Acceptable Alert Action l Earamcler Test Frea. I.D. No13) Range Ben. Arc. V_ sinc Range Range Range Comments t i Speed (N) NA NA NA NA NA NA NA NA Constant speed driver i Inlet Pressure Qtr PI-5128A 0-30 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-5140A 0-2000 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-15101 0-200 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm ( Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s i Notes:

1. DifTerential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

12 - 5 Rev.O f t t t

( ) O) C)\\ N._/ L. 4* I CONDENSATE CONDENSATE TE 15 9 5106 'I STORAGE TANK STORAGE TANK 5175 FRON MAIN - I NH NU 1-1302-V4-002 1-1302-V4-001 sy g (Opg) 0 15133 QMCB M 3g g3 5' I HV 5109 106A 5107 o-- 3090 5110A MCB J GMCB ~ ' ' ' 0 l I LD E i 6' N 3[-@O GIT) 6 HV AUX FEEDVATER TURBINE DRIVEN i b HV 5093 PUM. P TURBINE 1-130g-P4-001 N rd NOTE: THIS IS A 5113 1-1302-P4-0DI-K01. TO FEEDVATER [. SIMPLIFIED DIAGRAM I dh ATMOSPHERE t' UMP FV USED TO DEPICT A TEST I 10' Y MCB 5154 CIRCUIT. REFER TO THE I M QMCB M G' P&I.D. FOR DETAILS. r D 130A 140 g, ; HYDRAZINE AMMDMA & HV ~~a HV 128 MCB v 3 [_ 5098 5094 1 6 f (, lr N y 8* 8' i LD (U5g) 1-130g4-002 g gy 5118 FE g TER 3 ~ 2' FV ET) 8 5155 2,, A' QMCB o OMC M 2~ HV 5092-- HV OMCB 131A (5141A} ( l I -_3 5095 y 5129 p j, HV 3]_ 5099 II 8' [, ltW k LD HV LD 1-1302-P4-003 GUT) i 5119 AUX @ (052) FEEDVATER 8, 8, PUMP ~

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CT ( U V (v) M II 2.5' PV HV NM CONDENSATE CONDENSATE TE 15129 5106 MIl STORAGE TANK STORAGE TANK 5175 FROM MAIN I 1-1302-V4-002 l-1302-V4-001 MM UMM I gy gg3)(ggg) D 15133 OMCB SI HS g 2'5'!! HV 5109 106A 5107 6 - 5090 5110A MCB l LO I 6' m I N s s J = 9 HV AUX FEEDVATER TURBINE DRIVEN y b 1-hoY-P NkkOf N NDE THIS IS A HV 5093 ti[ 5113 TO FEEDVATE [- X s__ SIMPLIFIED DIAGRAM If ATMOSPHERE PUMP FV USED TO DEPICT A TEST 10, MCB 5154 CIRCUIT. REFER TO THE i OMCB H 'D g l3 A ^ S] AMMONIA 8. HV S HV 128 MCB HYDRAZINE g[_5098 5094 g g l[8' 09 4, e 8' ll: N y _s_ h HV i U FE g TER 3 2' 5118 8" QMCB QMCB M 2~ HV D HV 5095 HV LO 1-02-P4-003 5119 AUX G FEEDVATER 8, 8, PUMP ,EW. EM M M1 m3cygpygge appgj sppeg appg3 apea4 APPt 3 M3taPK$ e s-a-= nas vs num run m ti i 1-e++. en wmns = imma4 =v i. Jac ~ ~~"~ Southern Company Services, Inc.FOR Southern Nuclear Operating Company V0GTLE ELECTRIC GENERATING PLANT==* " n=*

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STORAGE TANK STORAGE TANK 5175 FRDN MAIN I NAMUSEM 101 1-1302-V4-002 1-1302-V4-001 sy ggg)g l 0 15133 gg gg -DMCB 'M 2.5'!! HV 5109 106A 5107 o-- 5090 5110A MCB J GMCB /, R l 0% i 6' ru i LO a 'N am e 3[-@0 HV AUX FEEDVATER TURBINE DRIVEN b b PUMP TURBIN l-1302-P4-001 N (V NGTO THIS IS A HV 5093 1-1302-P4-001 EK01'TD FEKD ATER [- 5113 SIMPLIFIED DIAGRAM M ATMOSPHERE RUMP ry USED TO DEPICT A TEST I GMCB M 7' D OR D TAI. r p 130A 140 mj AMMONIA & HV ~~o HV 128 MCB 8 HYDRAZINE ' 5094 6 g 6 O f_ 5098 8' e' lIl N LD (05E) 1-130g4-002 g HV 5118 FEggTER e-2* N g. 5155 ? l S' 3 QMC HV QMC HS pg ,2' 5092--S 5095 HV 131A 5141A ( l U 5129 s 6 0 O_ HV LO j{ 1-02-P4-003 5119 AUX g, 8, FEEDVATER s PUMP "v-we MSCRIPTEBe O S 4 4-94 g;g 4M4 TV I6 B = Southern Company Services, Inc.roR Southern Nuclear Operating Company VDGTLE ELECTR ENERATING PLANT Q88a PUMP INSERVICE TESTING LOOP ~ .au. oui uv. FOR AuxlLLARY FEEDVATER PUMP 1-1302-P4-003 N/A N/A ISI 225 1T1 2

ESF Pumps \\ i (1-1592-P7-001, & 002) O System Function i ~ Durmg normal operation, the ESF chilled-water system is in standby mode; it is activated during emergency conditions upon receipt of a safety injection signal, containment ventilation isolation, or control room isolation signal. The ESF chilled-water system serves air handling units located in the safety-related areas of the plant to ensure the l integrity of the cooling system during plant emergency situation. l l Quantity 2 1 Type Centrifugal Manufacturer Goulds Capacity 600 gpm Total Dynamic Head 125 ft. Driver. l Type Westinghouse electric motor i Horsepower 30 iO sPeea tioo rP-Power Supply 480V,60 Hz,3 phase Code Class 3 l Project Class 313 Outline Drawing IX4AJ05-27 Instmetion Book AX4AJ05-86 Physical Location Control Bldg, EL 260 ft., Rooms R-313 & R320 i P&ID IX4DB221 Surveillance Procedure 14809-1 l Pump Test Loop Diagrams ISI-D-226 & ISI-D-227 l Test Parameter Sheets Page 13-2 & 13-3 i l 4 13 - 1 Rev.0 -nt

~ i Test Parameter Table - Pump I-1592-P7-001 (Figure ISI-D-226) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. LD. No.(3) Bange Req. Ace. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver i Inlet Pressure Qtr PI-22410 0-30 12% NA NA NA NA NA (Pi) psig r Outlet f Pressure Qtr PI-22414 0-200 12% NA NA NA NA NA i (Po) psig i Differ. Pressure Qtr NA(1) NA 2% APr .90 - 1.10APr NA <.90 or >l.10APr NA k (AP) i Flowrate Qtr FI-22425 0-750 12% Qr NA NA NA Flowrate is set at reference value i (Q) gpm I Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s l [ Notes: r 6

1. Differential pressure is calculated as, AP = Po - Pi r

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

f j 13 - 2 Rev.0 l i i I i I

s i Test Parameter Table - Pump 1-1592-P7-002 (Figure ISI-D-227) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. No.(3) Range Reg. Acc. Value Range Rance Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-22411 0-30 i2% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-22415 0-200 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-22426 0-750 i2% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr-6Vr >6Vror NA or >.325 in/s >.70 in/s (V)(4) Notes:

1. DifTerential pressu.~ is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

13 - 3 Rev.0

( J' v V NOTE

1. THIS IS A SIMPLIFIED EXPANSION DIAGRAM USED TO DEPICT TANK A TEST CIRCUIT. REFER HVC S

1-1592-T7-001 TO THE P8.ID FOR 2240 IP2412 DETAILS. C 2240 I, (

2. VALVE INTERNALS REMOVED PER DCP IA

} pO. 90-VIN 0067-0-1 f . FEED POT. 242 CHEMICAL SDA TI FI D mgamn,, t S N2 PI HV TI 243 ' 244 (U5tD GMD pI 2241 e 2244 2241 22410 3J L @ 3, 1/2" l O N LC N l EVAP. l M @ CB ESF CHILLER k 1-1592-C 7-001-000 h, I' CB ESF CHILLED 2" 6' n ATER 1P 5 VATER PUMP r LC HV odL 1-1592-P7-001-000 240 PROJ. CLASS 313 10' i t 10* 10' ~ TRAIN 'A' 6' CDOLING COILS ? =~.

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2. VALVE INTERNALS 22401 l'

REMOVED PER DCP CHEMICAL j {n 90-VIN 0067-0-I g FEED PDT. pg f N CHEMICAL SDB TI FI D FEED PDT. 243 ' 242 7' s h mn. C9 1 G G PI h 22 1 P 44 d 1 22411 &L M, 1/2" LC

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O O O I t VEGP-2 PUMP TEST TABLE i Nucle:.r Service Cooling Water - System 1202 Measured Per--- :-. A Fr-v LD. Number CC/PC PalD-Sheet No. Coord. _ Der 8ation h g Q y. E RIVRemuth (asial (mull (aniel ikksi taunl 2-1202-P4-001 3D13 2X4DB113-1 C-8 NSCW Pump Q1R QTR Q1R QIR NA RR-P-2 2-1202-P4-002 3D13 2X4DB133-2 C-8 NSCW Pump QTR Q1R QTR QTR NA RR-P-2 2-1202-P4-003 3S13 2X4DB133-1 C-5 NSCW Pump QTR QTR Q1R QTR NA ~ RR-P-2 2-1202-P4-004 3 S 13 2X4DB133-2 C-5 NSCW Pump Q1R QTR QIR Q1R NA RR-P-2 2-1202-P4-005 3B13 2X4DB133-1 C-7 NSCW Pump QTR QTR QTR QTR NA RR-P-2 i 2-1202-P4 006 3813 2X4DB133-2 C-7 NSCW Pump Q1R Q1R Q1R QTR NA RR-P-2 2-1202-P4@7 3013 2X4DB133-1 C4 NSCW Transfer Pump Q1R Q1R QTR QIR NA RR-P-2 2-1202-P4-008 3B13 2X4DB133-2 C-6 NSCWTransfer Pump QTR QIR QTR QTR NA RR-P-2 4 t Test Frequency: QTR= Quarterly Pump Test t ? l i \\ r 4 14 - 1 Rev.0 u ...-m..- m.a --s __-,-=.-% S ++--wa e-

~.. O O O VEGP-2 PUMP TEST TABLE Component Cooling Water-System 1203 Measured Parameters & Freemency LD. Number CC/PC P&ID-Sheet No.

Coord, Description Bt AE Q

V N RR/ Remarks i (a!ial fa 0 faunl Gaksl framil 2-1203-P4-001 3/313 2X4DB136 G-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 2-1203-P4-002 3/313 2X4DB136 D-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 2-1203-P4-003 3/313 2X4DB136 G-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 2-1203-P4-004 3/313 2X4DB136 C-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 2-1203-P4-005 3/313 2X4DB136 F-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 2-1203-P4-006 3/313 2X4DB136 B-4 CCW Pump QTR QTR QTR QTR NA RR-P-2 Test Freepsency: QTR = Qua.terly Pump Test L I L 14 - 2 Rev.0

VEGP-2 PUMP TEST TABLE Safety Injection - System 1204 Measured Parameters & Freenesev LD. NTmber ((JPC PAID-Sbret No. Coord. Description h AP Q V _N_ RR/ Remarks (asis) (s!Q (sand hi fouel i b 2-1204-P6@3 2/212 2X4DB121 E-3 SI Pump QTR QTR QTR QTR NA RR-P-2 2-1204-P6-004 2/212 2X4DB121 C-3 SI Pump QTR QTR QTR QTR NA RR-P-2 i Test Frequency: QTR = Quarterly Pump Test l t I I i 14 - 3 Rev.0

O O O VEGP-2 PUMP TEST TABLE Residual Heat Removal-System 1205 Measured Parameters & Freemency LD. Number CC/PC P&ID-Sheet No. Coord. Description to AE Q E N. RR/ Remarks (adal fa!!! (smal Gaksi Ltund 2-1205-P6@l 2/212 2X4DB122 G-4 RHR Pump QTR QTR QTR QTR NA RR-P-2 2-1205-P6 @ 2 2/212 2X4DB122 D-4 RHR Pump QTR QTR QTR QTR NA RR-P-2 i Test Frequency: QTR = Quarterly Pump Test 14 - 4 Rev.0

O O O VEGP-2 PUMP TEST TABLE Contstment Spray - System 1206 r Measured Parnaseters & Freemency LS. N aber CQ/PC P&ID-Sheet No. Coord. Description Po R _Q V N RR/ Remarks (esial (e!!1 (and (W=c) (mal 1 2-12 % % 001 2/212 2X4DB131 G-4 CS Pump QTR QTR QTR QTR NA RR-P-2 2-12%P6-002 2/212 2X4DB131 C-4 CS Pump QTR QTR QTR QTR NA RR-P-2 l l Test Frequency: QTR = Quarterly Pump Test I t r i l i i 14 - 5 Rev.0 m

O O O VEGP-2 PUMP TEST TABLE l Chemical & Volume Control-System 1208 f Measured Parameters & Freemency I LD. Number CC/PC P&ID-Sheet No. Coord. Description Po AE Q V-E RR/ Remarks I fa!!al fasil (sanal (Wwel Qaud 2-1208-P6-002 2/212 2X4DBII6-2 G-4 CVCS Centnfugal QTR QTR QTR QTR NA RR-P-2 Charging Pump s 2-1208-P6403 2/212 2X4DBII6-2 C-4 CVCS Centrifugal QTR QTR QTR. QTR NA RR-P-2 l 1 Charging Pump 2-1208-P6-006 3/313 2X4DBil8 D-4 CVCS Boric Acid QTR QTR QTR QTR NA RR-P-1, RR-P-2 Transfer Pump 2-1208-P6407 3/313 2X4DBil8 B-4 CVCS Boric Acid QTR QTR QTR QTR NA R. P-1, RR-P-2 Transfer Pump Test Frequency: QTR = Quarterly Pump Test i I 14 - 6 Rev.O

O O O i VEGP-2 PUMP TEST TABLE i Armili;ry Feedwater -System 1302 i Measured Parameters & Freemency LD. Number CC/PC P&ID-Sheet No. Coord. Descdotion Po R Q V N RR/ Remarks fadal te!Q fand (W=) trustl 2-1302-P4-001 3/313 2X4DB161-2 F-6 AFW Pump QTR QTR QTR Q1R NA RR-P-2 I Turbine Driven t 2-1302-P4-002 3/313 2X4DB161-2 D-6 AFW Pump Q1R Q1R Q1R Q1R NA RR-P-2 ) Motor Driven 2-1302-P4-003 D 3 2X4DB161-2 B-6 AFW Pump Q1R QTR QTR Q1R NA RR-P-2 Motor Driven i i I Test Frequency: QTR = Quarterly Pump Test i f i t 14 - 7 Rev.0

[ VEGP-2 PUMP TEST TABLE Sdety Related (ESF) Chillers - Systens 1592 Measured Parameters & Frea=*=ev LD. Number CC/PQ P&ID-Sheet No. Coord. Descdotion Po AE Q V N RR/ Remarks (eds! (ann (cral h) Its!n1 2-1592-P7-001 3/313 2X4DB221 F-5 ESF Chilled Water QTR QTR QTR QTR NA RR-P-2 Pump f 2-1592-P7 002 3/313 2X4DB221 C-5 ESF Chilled Water QTR Q1R QTR QTR NA RR-P-2 { i Pump Test Frequency: QTR = Quarterly Pump Test t i l i i 14 - 8 Rev.0

j-NSCW Pumps (2-1202-P4-001, 002, 003, 004, 005, & 006) i i r System Function Provide cooling water for the containment coolers, control building essential chiller condensers, various engineered safety feature pump motor and lube oil coolers, and the component cooling water and auxiliary component cooling water diesel generator jacket water heat exchangers and transfers the heat removed to the ultimate heat sink. Quantity 6 Type Vertical Line Shaft,2 stage, selflubricated Manufacturer /Model BinghamMdlamette/18x27B VCM Rated Capacity 8600 gpm (each) Rated TotalDynamic Head 230 feet Driver Type Electric Motor Horsepower 700 Speed 1180 rpm Power Supply O 4160V,60 Hz,3 phase Code Class 3 Project Class 313 Outline Drawing 2X4AF02-33 i Instmetion Book 2X4AF02-94 Physical Location NSCW Pump House P&ID 2X4DB133-1, -2 Surveillance Procedure 14802-2 Pump Test Loop Diagrams ISI-D-250 through ISI-D-255 1 Test Parameter Sheets Page 15-3 through 15-8 O 15 - 1 Rev.O

NSCW Transfer Pumps j (2-1202-P4-007, 008) { i System Function Provides capability to transfer water between cooling tower ) basins. J Quantity 2 j Type Vertical Line Shaft,2 stage, selflubricated i Manufacturer /Model Bingham-Willamette/18x12A VCM Rated Capacity 600 gpm (each) l Rated Total Dynamic Head 110 feet Driver Type Electric Motor j Horsepower 30 j Speed 1765 rpm i Power Supply 480V,60 Hz,3 phase l Code Class 3 !{p Project Class 313 s j I Outline Drawing 2X4AF02-136 i i Instruction Book 2X4AF02-96 l Physical Location NSCW Pump House i P&ID 2X4DB133-1, -2 i Surveillance Procedure 14801-2 Pump Test Loop Diagrams ISI-D-256 and ISI-D-257 Test Parameter Sheet Page 15-9 and 15-10 0 15 - 2 Rev.0

O O 3 Test Parameter Table - Pump 2-1202-P4-001 (Figure ISI-D-250) ~ Instrumentation Utilized Ref. Acceptable Alert Action Earameter Test Frea. I.D. NoJ4) Range Req Acc. Value RanFe Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet-Pressure Qtr LI-1606 NA (1) NA NA NA NA Measure basin level (Pi) Outlet Pressure Qtr PI-2148 0-200 12% NA NA NA NA NA i (Po) psig DifTer-Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-l 1760 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA 15% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s i Notes: i

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, w hich meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

j i I 15 - 3 Rev.0 i r

O O O i Test Parameter Table - Pump 2-1202-P4-002 (Figure ISI-D-251) Instrumentation Utilized Ref. Acceptable Alert Action Parameicr Test Frea, I.D. No14) Range Reo. Acc. Value Range Range Range Cnements Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr LI-1607 NA (1) NA NA NA NA Measure basin level (Pi) } l Outlet Pressure Qtr PI-2149 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-I 1763 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA t (V)(5) or >.325 in/s >.70 in/s Notes:

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

i 15 - 4 Rev.0 i

O O O Test Parameter Table - Pump 2-1202-P4-003 (Figure ISI-D-252) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. I.D. No.(4) Range Rea. Acc. Value Ranee Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr LI-1606 NA (1) NA NA. NA NA Measure basin level h (Pi) Outlet Pressure Qtr PI-2152 0-200 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr (2) NA 2% APr .95 - 1.10APr .93 <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-I1762 0-15000 12% Qr NA NA -NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA i5% Vr 5; 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s Notes:

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

15-5 Rev.0 .I

O O O Test Parameter Table - Pump 2-1202-P4-004 (Figure ISI-D-253) Instrumentation Utilized Ref. Acceptable Alert Action Parametgr Test Freq. I.D. No14) Range Reo. Acc. Value Bange Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr LI-1607 NA (1) NA NA NA NA Measure basin level (Pi) Outlet Pressure Qtr PI-2153 0-200 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-l 1765 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s Notes:

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instmmentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

15 - 6 Rev.0

(3 G Test Parameter Table - Pump 2-1202-P4-005 (Figure ISI-D-254) Instrumentation U83H=d Ref. Acceptable Alert Action e Paramelgt Test Frea. LD. No.(4) Bange Erg. Acc. Yalue Range Ranee Bangt Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver i Inlet Pressure Qtr LI-1606 NA (1) NA NA. NA NA Measure basin level (Pi) v Outlet l Pressure Qtr PI-2150 0-200 12% NA NA NA NA NA i (Po) psig l [ Differ. Pressure Qtr (2) NA 12% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA j i (AP) L Flowrate Qtr F1-11761 0-15000 i2% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s [ t I t N:tes: c I. Basin level indicator is utilized to determine level in feet. (

2. Differentishressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portal % vibrmbn instruments are utilized.

4. At '.ne discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

15 - 7 Rev.0 j l

---

--.-- s c

w~

O Test Parameter Table - Pump 2-1202-P4-006 (Figure ISI-D-255) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. NoJ4) Range Req. Acc. Value Range Range Pange Comments 4 Speed t (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr LI-1607 NA (1) NA NA NA NA Measure basin level (Pi) i Outlet Pressure Qtr PI-2151 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr (2) NA i2% APr .95 - 1.10APr .93 - <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr FI-I1764 0-15000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA i5%. Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s Notes:

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, u hich meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one ofwhich is the axial direction.

i t 15 - 8 Rev.O \\ + , -. + n

O F O Test Parameter Table - Pump 2-1202-P4-007 (Figure ISI-D-256) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. I.D. No.f41 Bange Rea. Acc. Yalue Rasse Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr LI-1606 NA (1) NA NA M *_ NA Measure basin level (Pi) Outlet Pressure Qtr PI-2154 0-100 12% NA NA NA NA NA (Po) psig i Differ. Pressure Qtr (2) NA 2% APr .95 - 1.10APr .93 <.95APr <.93 or >l.10APr NA (AP) Flowrate Qtr F1-2156 0-1000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (3) NA 15% Vr s; 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s N:tes: i

1. Basin level indicator is utilized to determine level in feet.

2. DifTerential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

15 - 9 Rev.0 .L T

_ _ _ _ _ _ ~.. -... O O Test Parameter Table - Pump 2-1202-P4-008 (Figure ISI-D-257) Instrumentation Utilized Ref. Acceptable Alert Action i Paramet-r Test Freq. I.D. No.f 4) RanFe Req. Ash Yalu Range Ranee Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver l Inlet Pressure Qtr L1-1607 NA (1) NA NA NA NA Measure basin level (Pi) Outlet Pressure Qtr PI-2155 0-100 12% NA NA NA NA NA i (Po) psig Differ. t Pressure Qtr (2) NA i2% APr .95 - 1.10.1Pr .93 <.95APr <.93 or >l.103Pr NA l (AP) Flowrate Qtr FI-2157 0-1000 12% Qr NA NA NA Flowrate is set at reference value l (Q) gpm Vib. Amp. Qtr (3) NA 5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(5) or >.325 in/s >.70 in/s Notes:

1. Basin level indicator is utilized to determine level in feet.

2. Differential pressure is calculated using basin level (to determine suction head) and outlet pressure.

3. Portable vibration instruments are utilized.

4. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

5. Measurements are taken on the upper motor-bearing housing in three orthogonal directions, one of which is the axial direction.

15 - 10 Rev.O k L .--l

O O O NOTE THIS IA A SIMPLIFIED DIAGRAM CV USED TO DEPICT A TEST CIRCUIT. 9446 M[><]H/' ACID ADDITION REFER TO P&lD FOR DETAILS. (155) (040) N BLIND FLANGE N h 142 FC OVDOVN 7 ) I / X ylSPERSANT ADDITION s 3' '048) yy y 4' a4-h [6' 18' S g DMCB g DMCB QMCB 1602A 1608A 1634 18' 18" I g l l 11761 l 11762 l 11760 l 1668 NSCVS . COMPONENTS 24 PDI PI PDI PI PDI PI ,l l 11726 2148 11727 2150 11729 2152 g HV I I b 1668B 4;rll QKB -iluri! ' ll -ilarll N U / LIT N O N O

=

1606 HV HV HV 1160 1160-11600 18' , TO TGVER TO BASIN N Ah L /~\\ / \\ / \\ 2-1202-P4-001 2-1202-P4-005 2-1202-P4-003 TRAIN 'A' NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 2-1202-V4-001 COOLING VATER PUMP COOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER LOVER i ,c c, ust.m. -i ma -s m-s 77 me ass vi unea m s-a-se as ets ursarts in arv e. y enesm32-t 77C Southern Company Services. Inc.roR Southern Nuclear Operating Company

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8"c V0GTLE ELECTRIC GENERATING PLANT '"" " " ' v5 UNIT 2 PUMP INSERVICE TESTING LOOP FOR ",,an. $."d i., .t NUCLEAR SERVICE COOLING VATER PUMP 2-1202-P4-001 N/A N/A ISI-D-250 10F 1 2

O O O NOTE: THIS IA A SIMPLIFIED DIAGRAM CV MC)<]l l'/pCID ADDITION USED TO DEPICT A TEST CIRCUIT. 9447 REFER TO THE P8,ID FOR DETAILS. (049): @F (077) BLIND FLANGE g TO Hl lM TE FC BLOVDOVN g g - 1643 1 ISPERSANT ADDITION 7' (168) (079) (078) S 3* (050) y y y [ p h h h l OMCB QMCB QMCB I6' 3 18' H 1603A 1609A 1635 j 18' W I g g l 11763 b l 11764 l 11765 1 u g = p; -=p 1669 g g NSCVS g ~~" ~ ~ " n y, 24. COMPONENTS PDI PI PDI PI PDI PI .l 11730 2149 11731 2151 11733 2153 k b 1669B -Od: OntB -91l -- vl! ' ll N O FLIT N O N O I1607 ) HV HV HV j 11612 11613 18' 11607 , TD TOVER TO BASIN M.AMML GMM /~\\ /~\\ /\\ TRAIN *B* 2-1202-P4-002 2-1202-P4-006 2-1202-P4-004 NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 2-1202-V4-002 COOLING VATER PUMP CDOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TOVER =, ,r c,r. unwere. n iu -m e -2 .m. m.s mismas vi risw. r= est 1 .-26-gp sits eL 3 LF3nft 10 KV 19 (F 2W.9H3H JK r e-e -= ma'

=== ia aca"3 Southern Company Services. Inc.FOR Southern Nuclear Operoling Company i VOGTLE ELECTRIC GENERATING PLANT K58"' saawa =c "N" vs UNIT 2 PUMP INSERVICE TESTING LOOP FOR ",imma "E C our av. NUCLEAR SERVICE COOLING VATER l PUMP 2-1202-P4-002 N/A N/A ISI-D-251 171 2 i

O O O NOTD THIS IA A SIMPLIFIED DIAGRAM CV MD<]l lMpCID ADDITION USED TO DEPICT A TEST CIRCUIT. 9446 REFER TO THE P8.ID FOR DETAILS. O (040) (D743 BLIND FLANGE @ 2* ;g; g TO

g TE FC BLOVDOVN

- 1642 g1 y g nISPERSANT ADDITION (156) (076) QZ5) 3' L018.) U y y 24* 24* j[ j[ j 18 QMCB QMCB QMCB 16* 1602A 1608A 1634 18' 18' g j 11761 l !!762 l 11760 l 1 1r Ig 1668 NSCVS ~~" O 24 COMPONENTS ,l PDI PI PDI PI PDI PI { i 11726 214 8 11727 2150 11729 2152 g b 1668B g

gg:

-igg: -ligg: ' !l '1606 I HV HV ( j 116)0 HV 1160 = 11600 18* ,TO TOVER TO BASIN N_AhAh&NA L /~\\ / \\ / \\ 2-1202-P4-001 2-1202-P4-005 2-1202-P4-003 TRAIN *A* NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 2-1202-V4-001 COOLING VATER PUMP CDDLING VATER PUMP CDOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TOVER =v ,c em ust.ieram i e ar 3 m sio.uins w.- er.: vs issure r, en n s t 1-PSM Wss WL S LPD.TED TD KV as IF SI400t23-1 JK ~ Southern Company Services, Inc.FOR Southern Ptuelear Operating Company V0GTLE ELECTRIC GENERATING PLANT K5= * " 'aava '=c UNIT 2 "t' mu' vs 5."$ C" m, I ' ~ PUMP INSERVICE TESTING LOOP FOR ua ,cy. NUCLEAR SERVICE COOLING VATER PUMP 2-1202-P4-003 N/A N/A ISI-D-252 10F 1 2

O O O L NOTD THIS IA A SIMPLIFIED DIAGRAM CV i / 1*lNr li/pCID ADDITION i USED TO DEPICT A TEST CIRCUIT. 9447 i REFER TO THE P&ID FOR DETAILS. (049F (677) BLIND FLANGE D TO FlNl lig TE FC BLDVDOVN g - 1643 I f X ylSPERSANT ADDITION s i >{ Q6_8) (079) (6T8) 8 3' (050) ]fy 1f 24' 24' g g j OMCB QMCB l6' [ OMCB 3 H 18 1603A 1609A 1635 18" 18' g g j 11765 [ l 11763 l.j 11764 l m o V 1669 NSCVS a [ ~~* v 24 COMPONENTS n M" ~~ " PDI PI PDI PI PDI PI d 11730 214 9 11731 2151 11733 2153 g g b 1669B -il>rll ' ll OtiCB -H>rll ' ll --{>rll NO [ LIT NO N O I1607I HV HV HV (j 11612 11613 =: 11607 18' l . TO TOVER TO BASIN MJM A-GMM /~\\ /~\\ /~\\ 2-1202-P4-002 2-1202-P4-006 2-1202-P4-004 TRAIN *B' NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 2-1202-V4-002 COOLING VATER PUMP CDOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARD VATER TOVER =v.

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i i-a-se ses at e emn in arv i, or emum a Southern Company Services, Inc.FOR Southern Nuclear Operating Company [ VDGTLE ELECTRIC GENERATING PLANT ' " * * "

== '"e ""' v5 UNIT 2 C" u PUMP INSERVICE TESTING LOOP FOR muta .y. NUCLEAR SERVICE COOLING VATER PUMP 2-1202-P4-004 N/A N/A ISI-D-253 1 [F 1 2 f

O O O NOTE: THIS IA A SIMPLIFIED DIAGRAM CV 4M[><]' g"MCID ADDITION USED TD DEPICT A TEST CIRCUIT. 9446 REFER TO THE PLID FOR DETAILS. (047} D TO 2' ;g;

,g TE h

1642 FC BLOVDOVN I '/ X '/ nISPEP.SANT ADDITION (156 ) (UT67 (075) >S 3' (048) y Jf1[ O 24' g [ g 24' 18' S 4 QMCB OMCB [6' QMCB 1602A 1608A 1634 18' W 3 g l 11760 l 11761 l j 11762 1 L la v g 668 NSCVS C 24 COMPONENTS t PDI PI PDI PI PDI PI il 11726 2148 11727 2150 11729 2152 b g y 1668 -1XC ' ll OMEB Hl>r" ' ll ---G>r" NO [L1T NO NO

h 11606} HV HV HV (f 1160 1160

=- 11600 18 ,TO TOVER , TO BASIN MJMMAA-G /\\ /\\ /\\ 2-1202-P4-001 2-1202-P4-005 2-1202-P4-003 TRAIN 'A' NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 2-1202-V4-001 CDDLING VATER PUMP COOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TOVER av mrs = ci., u se-rum. l.mu

== -u m. =u x rs

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=== wt PUMP INSERVICE TESTING LOOP FOR " [v,$ $."." ~ m NUCLEAR SERVICE CDOLING VATER PUMP 2-1202-P4-005 N/A N/A ISI-D-254 10F ! 2

O O O NOTE: THIS IA A SIMPLIFIED DIAGRAM M USED TO DEPICT A TEST CIRCUIT. 9447 MC)<:}----{MpCID ADDITION REFER TO THE P8.ID FOR DETAILS. (049) Q67_) 2' ;g;

gp_4[ BLIND FLANGE (041) (077)

D TO TE FC BLOVDOVN g - 1643 1 ISPERSANT ADDITION >S (168) (079) (078) 3' (050) y Q y a" ET' 24' h j j[ OMCB QMCB QMCB I6' 18' H 3 1603A 1609A 1635 18' W 1 g g l 11763 l 11764 l 11765 4 le Ip 1m y 1669 NSCVS ~ ~ " V 24. COMPONENTS 7" PDI PI PDI PI PDI PI ,l l i 2149 11731 2151 11733 2153 n @ 11730 b h 1669B -{;rll ' ll OtiCB ---g;rll ' ll --l;rll ' ll NO (LIT N O N O 1: l HV HV l1607 ) 11612 HV () 11613 = 11607 Ig- , TO TGVER TO BASIN MAMMA. G / \\ / \\ /\\ l 2-1202-P4-002 2-1202-P4-006 2-1202-P4-004 TRAIN *B' [ NUCLEAR SERVICE NUCLEAR SERVICE NUCLEAR SERVICE 2-1202-V4-002 COOLING VATER PUMP CDOLING VATER PUMP COOLING VATER PUMP NUCLEAR SERVICE COOLING (SPARE) VATER TOVER t uv. satt se ces scscorruse meu was me.2 maa mes sciemus me

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c UNIT 2 PUMP INSERVICE TESTING LOOP FOR ",muis $$C" m, f .y. NUCLEAR SERVICE COOLING VATER PUMP 2-1202-P4-006 N/A N/A ISI-D-255 1 [F 1 2 + 1

NOTE: THIS IS A SIMPLIFIED ' DIAGRAM USED TO DEPICT A TEST CIRCUIT. REFER TO THE PLID FOR DETAILS HV FI PI 1670 2156 8895 i O l lll ? ag 8'X6' LD 4 0MCB M FI HV PI 2166 2157 1671 167A i 2154 LD 8'X6' 3 [- 6' Ml! l l C [ I PI PDI ~ 6' 2155 4 QMCB 11728 PI 1606 8894 OMCB i I lp i PD1 1607 d! D 1173 WMAhA.AA.A> h vhJh N / \\ / \\ 3r 2-1202-P4-007 TRAIN 'A' 2-1202-P4-008 TRAIN 'B' TRANSFER PUMP 2-1202-V4-001 TRANSFER PUMP 2-1202-V4-002 NUCLEAR SERVICE COOLING NUCLEAR SERVICE C00 LING VATER TOVER VATER TOVER =v. mm o-,

==.-r .-2 m. e ++= mm vs namn rm m - n i i-=-es

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( J v s NOTE: THIS IS A SIMPLIFIED DIAGRAM USED TO DEPICT A TEST CIRCUIT. REFER TO THE P&ID FOR DETAILS HV FI pg 1670 2156 8895 e. I i i g 't k ^ 8'X6' 'LO' 4 0MCB 4 0MCB PI 166A 2157 1671 167A 2154 LO 8'X6' ll! l l 0 8' PI PDI 6* 2155 QMCB 11728 PI 1606 8894 OMCB lH hDI 1607 N E 1173 WMA N vm.) N / \\ / N + 2-1202-P4-007 TRAIN 'A' 2-1202-P4-008 TRAIN *B' TRANSFER PUMP 2-1202-V4-001 TRANSFER PUMP 2-1202-V4-002 NUCLEAR SERVICE CDOLING NUCLEAR SERVICE CDOLING VATER TOVER VATER TOVER ev.

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CCW Pumps (2-1203-P4-001, 002, 003, 004, 005, & 006) L System Function ~ Remove waste heat from the spent fuel pool heat exchangers, RHR heat exchangers and the RHR pump seal coolers during plant operation, plant cooldown and during a s postulated post-accident condition. This heat energy is then transferred by the component cooling water heat exchangers to the NSCWS. The CCWS functions as an 4 intermediate system between a radioactive fluid system and the non-radioactive NSCWS, which operates at a higher system pressure This arrangement greatly reduces the probability of radioactive fluid leakage to the enviroment by means of the NSCWS. Quantity 6 4 1 Type Horizontal, centrifugal, single-stage, split volute with mechanical seals Manufacturer /Model Ingersoll-Rand /10x18 SE Rated Capacity 5000 gpm (each) Rated Total Dynamic Head 160 feet O Driver Type Electric Motor, Westinghouse, LAC-LLD, 5008-S Horsepower 300 Speed 1761 rpm-Power Supply 4160V,60 Hz,3 phase Code Class 3 Project Class 313 Outline Drawing 2X4AF01-109 & 2X4AF01-110 Instruction Book 2X4AF01-137 Physical Location Aux Bldg, Level A, Rooms R-A96 & R-A98 P&ID 2X4DB136 Surveillance Procedure 14803-2 Pump Test Loop Diagrams ISI-D-258 through ISI-D-263 Test Parameter Sheets Page 16-3 through 16-8 16 - 1 Rev.O

O O O i Test Parameter Table - Pump 2-1203-P4-001 (Figure ISI-D-258) Instrumentation Utilized Ref. Acceptable Alert Action l .l Parameter Iest Frea. 1.D. NoJ3) Range Rea. Acc. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver L Inlet Pressure Qtr PI-1878 0-60 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1858 0-200 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr FI-I1794 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA .1 5 % Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Nctes:

1. DifTerential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

I

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

16-2 Rev.0 f i

O O O 1 Test Parameter Table - Pump 2-1203-P4-002 (Figure ISI-D-259) Instrumentation Utilized Ref. Acceptable Alert Action Oarameter Int Freq. ' I.D. No.(3) Range Rea. Acc. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Coastant speed driver inlet 6 Pressure Qtr PI-1881 0-60 12% NA NA NA NA NA i (Pi) psig l Outlet Pressure Qtr PI-1859 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-l1795 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm I Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s t Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

[ 16 -3 Rev.0 ) m m - m + w--

r r (' l J Test Parameter Table - Pump 2-1203-P4-003 (Figure ISI-D-260) Instrumentation Utilized Ref. Acceptable Alert Action Earamtitt Test Freq. I.D. NoJ3) Range Rea. Acc. Value Range Range Range Comments 1 Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr PI-1879 0-60 12% NA NA NA NA-NA (Pi) psig Outlet Pressure Qtr PI-1860 0-200 12% NA NA NA NA NA e (Po) psig 1 Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-I1796 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm I Vib. Amp. Qtr (2) NA 15% Vr 5 2.5Vr >2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s 1 I N:tes:

l. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial l

direction on each accessible thrust bearing housing. L k 16-4 Rev.0 i . m . s

N Test ParameterTable - Pump 2-1203-P4-004 (Figure ISI-D-261) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. 1.D. No.f3) Range Beg Act Yalac Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-1882 0-60 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1861 0-200 12% NA NA NA NA NA (Po) psig Differ. l Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >1.10aPr NA (AP) Flowrate Qtr F1-11797 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr 5 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

r 16 - 5 Rev.0 L .m m

O /~} U .%) i Test Parameter Table - Pump 2-1203-P4-005 (Figure ISI-D-262) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. I.D. No (3) Range Req. Acc. Yalue Range Bange Range Comments Speed [ (N) NA NA NA NA NA NA NA NA Constant speed driver [ Inlet Pressure Qtr PI-1880 0-60 2% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1862 0-200 12% NA NA NA NA NA e (Po) psig DitTer. i Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) l Flowrate Qtr FI-l 1798 0-10000 i2% Qr NA NA NA Flowrate is set at reference value i (Q) gpm j L Vib. [ Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA L (V)(4) or >.325 in/s >.70 in/s Nites:

1. Differential pressure is calculated as, AP = Po - Pi r

2. Pcatable vibration instruments are utilized.

l

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial L

direction on each accessible thmst bearing housing. i f 16 - 6 Rev.0 l i

Test Parameter Table - Pump 2-1203-P4-006 (Figure ISI-D-263) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. I.D. No.f3) Range Rea. Ace. Value Range Range Range C.cmments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet l Pressure Qtr PI-1883 0-60 2% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-1863 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >l.10APr NA l (AP) Flowrate Qtr FI-l 1799 0-10000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA 15% Vr-s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s 1 N:tes: i

1. Differential pressure is caseilated as, AP = Po - Pi

[

2. Portable vibration instr:nnents are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

{ t i ) 16-7 Rev.0 i i .. ~ ~.

.. ~ . ~.. -. - - O O O i S QMCB HV PI 1852A gy NOTE: THIS IS A SIMPLIFIED PI F1 1858 11803 DIAGRAM USED TO DEPICT 11800 1878 II79 A TEST CIRCUIT. REFER 14*X10* LO TO THE P8.ID FOR DETAILS. LO / 'N' 16' 030$ -1203-P4- 01 16'XI XI CMPNT. CLG. l4, p20'X16' VATER PUMP HS PI HV pg HV PI 954 1960 11804 11801 1879 1179 14*X10' LO LG c lNl l l 16' 16*X1 2-1203-P4-003 O XI CMPNT. CLG. VATER PUMP 18* 14' HS PI HV 1179 HV PI 1862 11805 856 0 20'X16' 1180 1880 IO' If CCVS I,_0 gl lN' f' l 8*X14' COMPONENTS 16" 16'X14" 2-1203-P4-005 (034) ~ ~ CMPNT. CLG. i ATER PUMP 2'X18, 20' (SPARE) 18' 1 li ~ b ~I' LO Hv 4" COMPONENT CLG. VATER 11807 = p' HEAT EXCHANGER i y COMPONENT CLG. VATERNLO 2-1203-E4-001 SURGE TANK ) HV l_ 2-1203-T4-001 j 11806 T W V 22'X20' 1866 -- TRAIN *A' [ 9 N Mit WS iJ.T.E3 f1R PIT I l s e-es-es as ets wup to av. se er en sam _JC ~ """~ Southern Company Services, Inc.FOR Southern Nuclear Operating Company VDGTLE ELECTRIC GENERATING PLANT==* " c UNIT 2 ".mLE " "'" v5 empt GBff8'EB E 3DEZI PUMP INSERVICE TESTING LOOP FOR m n .v. COMPONENT COOLING VATER PUMP 2-1203-P4 -001 N/A N/A ISI-D-258 i [F 1 2

O O O / TIS'\\QMCB PI HV NOTE: THIS IS A SIMPLIFIED HV PI 1853A FI 1859 11811 DIAGRAM USED TO DEPICT i 11808 1881 II79 A TEST CIRCUIT. REFER 14*X10" Lo, TO THE P8.ID FOR DETAILS a, 16' 16*X1 2-1203-P4-002 XI CMPNT. CLG. g4 1120'X16' 02 VATER PUMP QMC PI HV FI 855 1861 11812 118 9 1882 33797 14*X10' LO VD c lN' 16' 16*XI 2-1203-P4-004 E i XI CMPNT. CLG. VATER PUMP 14' t QMC H, PI HV 1179 HV PI 857 1863 11813 I ' U 20'X16* 11810 1883 18' 14 X10' LO CCVS l 18'X14' COMPONENTS LD 16' 16*X1 2-1203-P4 06 O C CMPNT. CLG. VATER PUMP 20' XI (SPARE) 18' i! Ii 6 _m._ i + h ) T LO HV 4 COMPONENT CLG. VATER 11815 i i e HEAT EXCHANGER I y COMPONENT CLG, VATER LD -1203M-002 SURGE TANK HV l-2-1203-T4-002 11814 T E0 f ~ 22'X20' 1867 ~ ~~ TRAIN 'B' e 'a iza vs usurs rar est FI i -es* ms ate wearen To av. se y as4asem JJC "~"~ Southern Company So vices, Inc.FOR Southern Nuclear Operating Company VDGTLE ELECTRIC GENERATING PLANT "[58"

• =' =

UNIT 2 "=* w$ PUMP INSERVICE TESTING LOOP FOR "E U' r, u. COMPDNENT CDOLING VATER PUMP 2-1203-P4-002 N/A N/A ISI-D-259 I [F 1 2

O O O M QMCB pl HV PI 1852A HV NOTD THIS IS A SIMPLIFIED FI 1858 11803 DIAGRAM USED TD DEPICT 11800 1878 1I79 A TEST CIRCUIT. REFER l4'Xl0' 0 TO THE P8.ID FOR DETAILS. 0 j N l I,' 16' 16*XI 2-1203-P4-001 XI CMPNT. CLG. g4 Il 20*X16' 502 VATER PUMP OHC PI HV 854 1860 11804 11801 1879 jg79 14'X10* LD LO c IN:

1 ll I,'

u 16' 16*XI 2-1203-P4-003 O i _ _ XI CMPNT. CLG. 5026 VATER PUMP 14' QMC h PI HV 11 9 ~' O HV PI 856 1862 11805 IB.I U 20*X16' 1180 1880 = CCVS H lNl [l l 18'X14' COMPONENTS LO 16' (034) 16'XI 2-1203-P4 5 C

• CMPNT. CLG.

ATER PUMP 20' (SPARE) 22'X18* 18' iI Ii ~ h _a_ n T LD 4" HV COMPONENT CLG. VATER 11807 HEAT EXCHANGER i i y COMPONENT CLG. VATER 0 2-1203-E4-001 SURGE TANK HV 3-2-1203-T4-001 11806 T W V 22'X'20' 1866 ~- TRAIN 'A' _s 9 FM EiB VE ESED f1R PST -I a e as als irsarts to av. r emessim . JC "~"~ Southern Company Services, Inc.FOR Southern Nuclear Operating Company VDGTLE ELECTRIC GENERATING PLANT "S**

=

UNIT 2

==* vi DUMP INSERVICE TESTING LOOP FOR ~ECC' ,,o, ~ COMPONENT COOLING VATER PUMP 2-1203-P4-003 N/A N/A ISI-D-260 1 (1r 1 2

O O O M OMCB pr gy NOTE: THIS IS A SIMPLIFIED HV PI 1853 FI DIAGRAM USED TO DEPICT 1859 11811 11808 1881 1179 A TEST CIRCUIT. REFER 14*X10* LD TO THE PLID FDR DETAILS. LD l c lN' l l, D-i 14' i 16, 16*X14* 2-1203-P4-002 g4, XI CMPNT. CLG. 1120'X16' 5025 VATER PUMP "h PI HV FI 855 1861 11812 11809 1882 11797 I 14*X10' LO LO c lN l l 16*X1 2-1203-P4-004 O 16' i XI CMPNT. CLG. VATER PUMP QMC PI HV 1179 HV PI 1863 11813 857 U 20'X16' 11810 1883 gg, CCVS LO H IN' fi l-18'X14' COMPONENTS N 16' 16*X1 2-1203-P4 6 -i = CMPNT. CLG. ATER PUMP 22'X18' 20' (SPARD 18'ij ge H T LD HV 4' COMPONENT CLG. VATER 11815 sp HEAT EXCHANGER i y COMPONENT CLG. VATER LD SURGE TANK HV l-2-1203-T4-002 11814 T U EO f 22'X20' L 1867 -- TRAIN *B' ) nm ei i e-es-as et ats tranrts a uv. se r exassin JJC " " " " ~ Southern Company Services. Inc.FOR Southern Nuclear Operating Company VDGTLE ELECTRIC GENERATING PLANT **e = c UNIT 2 " " vs PUMP INSERVICE TESTING LOOP FOR "EU' x, [ mus COMPONENT CDOLING VATER PUMP 2-1203-P4-004 N/A N/A ISI-D-261 1 [F 1 2 t

( lh Y Y PI HV PI Hy NOTE: THIS IS A SIMPLIFIED } 1858 11803 MGM M TD DMCT 11800 1878 gg79 A TEST CIRCUIT. REFER 14'X10 hO TO THE PLID FOR DETAILS. LO 'qi e e N 14' ~ 6* 16*X14' 2-1203-P4-001 O XI CMPNT. CLG. I4' H 20*X16' 5024' VATER PUMP PI HV ,1860 11804 11801 1879 1179 14*X10* LO 'O c lN: Ii M 14* 16'X14' 2-1203-P4-003 O 16' XI CMPNT. CLG. 5026 VATER PUMP 14 DMC FI HS P1 HV 1179 HV PI 1862 11805 If yg,1I N20*X16* 1180 1880 r CCVS 14*X10' LD l 18'X14* COMPONENTS fu, y.4l

q; e

16, '~__ 16'X14* 2-1203-P4-005 E CMPNT.CLG. ATER PUFP 22*X18' 20' (SPARE) 18'.iI la i _i_ a T LO 4' HV COMPGNENT CLG. VATER 11807 HEAT EXCHANGER j f COMPONENT CLG. VATER LD 2-1203-E4-001 SURGE TANK HV _1_ 2-1203-T4-001 11806 T 1f 22*X20' = TE LD 1866 PES e am e, a== m-_._ m. ms 9 77 % EE vt 13SE3 FIR PST fI i ,-as e et ets waarts is arv. se y emessem .1C ~~"~ Southern Company Services. Inc.FOR Southern Nuclear OperoHng Company VDGTLE ELECTRIC GENERATING PLANT - " = =c UNIT 2 g, y_, PUMP INSERVICE TESTING LOOP FDR a. o COMPONENT COOLING VATER PUMP 2-1203-P4-005 N/A N/A ISI-D-262 I [F 1 2

O O O / TIS'\\0MCB PI HV NOTE: THIS IS A SIMPLIFIED HV PI 853 FI DIAGRAM USED TO DEPICT 1859 11811 11808 1881 1179 A TEST CIRCUlT. REFER 14*X10" LO TO THE PLID FOR dei.c,ILS. LO c lN 16' O 16'X1 2-1203-P4-002 g4, XI CMPNT. CLG. 1120'X16" 5025 VATER PUMP 0" h PI Hy HV PI FI 1861 11812 gg797 gg 9 18g2 855y 14*X10' LO LO .N' ~ 16*XI 2-1203-P4-004 E 16' XI CMPNT CLG. VATER PUMP H P1 HV 1179 L, HV PI 1863 11813 gg. I I 857 O 20*X16' 11810 1883 CCVS 14*X10' LO l 18'X14' COMPONENTS O K' 16* 16*X1 2-1203-P4 06 O C O CMPNT. CLG. ATER PUMP 22*X 8' 20' (SPARE) 18',ig gi h T LD HV 4' COMPONENT CLG. VATER 11815 ig HEAT EXCHANGER i y COMPONENT CLG. VATER LO ~ ~ ~ SURGE TANK HV I-2-1203-T4-002 11814 T W10 22'X'20' L 1867 -- TRAIN 'B' e ,+= su vs nuns nsi ne ti n e-m-es ca. sta tenarts to av. a. r asesoim JJC "~"~ Southern Company Services, Inc.FOR Southern Nuclear Operating Company VDGTLE ELECTRIC GENERATING PLANT==' " UNIT 2

=== vs PUMP INSERVICE TESTING LDDP FDR ua C h"' COMPONENT CDOLING VATER PUMP 2-1203-P4-006 N/A N/A ISI-D-263 1 [F 1 2

4 SIPumps (2-1204-P6-003, & 004) ] System Function The SI system provides emergency core cooling and serves 4 no other purpose. 'l l The primary function of the ECCS is to remove the stored and fission product decay heat from the reactor core j following an accident in order to prevent fuel rod damage. i Quantity 2 Type Horizontal, centrifugal,11-stage s Manufacturer /Model Paci6c Model 3-ht., JHF 4 Rated Capacity 440 gpm Rated Head 2630 ft. Driver Type Electric Motor, Westinghouse, Frame 5809 H Horsepower 450 Speed 3600 rpm Power Supply 4160V,60 Hz,3 phase Code Class 2 Project Class 212 Outline Drawing 2X6AG02-10,13 & 15 Instruction Book 2X6AG02-016 Physical Location Aux Bldg, Level B, Rooms R-B117 & R-B119 P&ID 2X4DB121 Surveillance Procedure 14804-2 Pump Test Loop Diagrams ISI-D-264 & ISI-D-265 Test Parameter Sheets Page 17-2 & 17-3 D 17 - 1 Rev.O

o O i Test ParameterTable - Pump 2-1204-P6-003 (Figure ISI-D-264) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. No.f3) Range Rea. Acc. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver s Inlet Pressure Qtr PI-0977 0-100 i2% NA NA NA NA NA i. (Pi) psig Outlet Pressure Qtr Test NA 12% NA NA NA NA NA i i (Po) Gage Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 or >l.10APr NA l (AP) i t Flowrate Qtr FI-0968 0-100 i2% Qr NA NA NA Flowrate is set at reference value p (Q) gpm ~ Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA l (V)(4) or >.325 in/s >.70 in/s i. Notes: ^

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

i 17-2 Rev.O

~. _._..._ ____ _. _ _.m Test ParameterTable _- Pump 2-1204-P4-004 ' (Figure ISI-D-265) Instruments. lion Utilized Ref. Acceptable Alert Action Earameter Test Frea. 1.D. No.(3) Range Rea. Ace. Value Range Range Rance Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet ' Pressure Qtr PI-0978 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr Test NA 12% NA NA NA NA NA i (Po) Gage Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-0968 0-100 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

17 - 3 Rev.0

/G Og [N U V U l NOTE: THIS IS A SIMPLIFIED VPS REAC DIAGRAM USED TO DEPICT M" 2, HV 3'X3/4" CVCS BA BLENDER C CDDL DRAIN ? [ 2, A TEST CIRCUlT. REFER O CSS TEST LINE 8964 ~ k' 8964 jf 00 TANK PUMP g If @ I fIf (0.02) TO THE P&ID FOR DETAILS. SIS BORON INJECTIONj 3/4" "FC' ~ REFUELING VATER O TEST LINE HV SFPCS PCP STORAGE TANK HS MCB 8813 PURIF 3' 09 8 ~' 8888 PUMP (003) 807 1 0 813 M 3'X2' HV HV 807 i (FC H

t. --

QMCB 3'X11/2 8814 HV OMCB 8888 r M MCB 3/4-8814 CVCS CHARGING 802 k L 3/4' LOCAL 07B H N C 1 1/2* 6, b QM B 4' 093 9 HV MCB Hv HS A X11/2' M g0 B QHCB 999 g23 pg 24' H (100 ) (098) 0977 UM OI 4

• X3, D

b^ (207 LD 3'X11/2' 2-1204-P6-003 6-SIS COLD LEG LOOP _4' / PI T H PUMP XI TI s SAFETY INJECTION H L HV 8806 HV 8920 M TRAIN *A. LO 135 QMCB 821B MCB gy 8'X6' WO M QMCB 8806 821B M HV -QMCB HV PI 923 Luh136) 802 101 ) (099) h OW8 1 1/2' 4, 4'X3, H 8 r LO 2-1204-P6-004 i 6, (163) s L SAFETY INJECTION CMCB 4' TRA N *B' 8' " ' R R HEAT EXCH NGER-e. .m e, o., -.4 -u -.2 m. -s

=

we.-

== vs unrsrm m tI a e-es-es ca- .ts woms a uv. es or exesem JJC Southern Company Services, Inc.rOR Southern Nuclear Operating Company V0GTLE ELECTRIC GENERATING PLANT==* " "c UNIT e <,,,,, y,,,, PUMP INSERVICE TESTING LOOP ,.au. FOR SAFETY INJECTION PUMP 2-1204-P6-003 N/A N/A ISI-D-264 iT1 2

/ p Q,) ] NOTE: THIS IS A SIMPLIFIED VPS REAC DIAGRAM USED TO DEPICT M MCB E, ^ 2, ' ' HV 3'X3/4" CVCS BA BLENDER COOL DRAIN A TEST CIRCUIT. REFER 8964 CSS TEST LINE 7;2 k'8964 ~ Q03) TANK PUMP 0 TO THE P8.ID FOR DETAILS. y gy y y SIS BORON INJECTIONj 3/4' 'pC' REFUELING VATER N jl QM B PCP TEST LINE HV SFPCS STORAGE TANK M MCB 8813 PURIF 3' HS3 TS 2-204 -T4-001 09 8 813 M 3'X2' HV HV (FC 807 H t--- QMCB 3'X11/2 8814 HV QMCB r M M 802 k 3/4' 8814 CVCS CHARGING k 3/4 LOCAL WM 1 1/2* 6 07B H NMP ^" QMCB 4' 093) 3 H HV M MCB 821A 3' ,_M3*X11/2, HV gO B QMCB / pj 923 4, 0977 821A M 4*X, LO 3"X11/2" 2-1204-P6-003 0 ) 6' SIS COLD 4 SAFETY INJECTION h L HV LEG LOOP / PI \\ PUMP XI TI 1 8806 H 8920 M TRAIN *A. LO 135) QMCB QMCB - HV 8'X6* 090 M 8806 MCB 821B M (099) PI 923 QMCB HV LD 802 0978 1 1/2* 4, 4*X3, HV HS P LO 2-1204-P6-004 0 D 802 Ms 6, (163) L SAFETY ECTION QMCB 4* "'RhRHEATEXHNGER D yp g ,B' 8" e.

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== temen in uv. ee y ensam JJC '~*~ Southern Company Services. Inc.FOR Southern Nuclear Operoling Company V0GTLE ELECTRI EgERATING PLANT =_5=' _= = ~ PUMP INSERVICE TESTING LUDP ua u a FOR SAFETY INJECTION PUMP 2-1204-P6-004 N/A N/A ISI-D-265 1 [F 1 2

l i RHR Pumps j (2-1205-P6-001, & 002) i O' System Function ~ The primary function is to remove heat energy from the reactor core and reactor coolant system during plant cooldown and refueling operadons. As a secondary function, RHR is used to transfer refueling water between the refueling water storage tank and the refualing cavity at the begin. ing and end of refueling operations. i Portions of the RHR system also serve as part of the ECCS during the injection and recirculation phases of a LOCA. Quantity 2 Type Vertical, centrifugal, single stage Manufacturer /Model Ingersoll-Dresser,8X20WDF Rated Capacity 3000 gpm Rated Head 375 ft. Driver I g Type Westinghouse LLD squirrel-cage induction motor i Horsepower 400 ( Speed 1780 rpm Power Supply 4160V,60 Hz,3 phase Code Class 2 Project Class 212 Outline Drawing AX6AF02-20007 Instruction Book AX6AF02-20030 PhysicalLocation Aux Bldg, Level D, Rooms R-D21 & R-D22 P&ID 2X4DB122 Surveillance Procedure 14805-2 & 14812-2 ) Pump Test Loop Diagrams ISI-D-266 & ISI-D-267 Test Parameter Sheets Page 18-2 & 18-3 O 18 - 1 Rev.0 1

s J a Test Parameter Table - Pump 2-1205-P6-001 (Figure ISI-D-266) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. No.(31 Range Req. Acc. Value Range Range Range comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr PI-8884 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-8886 0-400 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-0618A 0-5000 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or>.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

18 -2 Rev.0

O O O Test Parameter Table - Pump 2-1205-P6-002 (Figure ISI-D-216) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freg, I.D. No.0) Range Reedcc. Value Bange Range Range Comments i Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-8885 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-8887 0-400 12% NA NA NA NA NA i (Po) psig DitTer. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-0619A 0-5000 12% Qr NA NA NA Flowrate is set at reference value i (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instnr

' tion other than that listed, which meets the requirements of the Oh! Code, may be utilized for measuring test parameters.

4. Measurements are taken in a,

.e pproximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible th.a bearing housmg. i i 18 - 3 Rev.0 j

f h Test Parameter Table - Pump 2-1205-P6-002 { (Figure ISI-D-216) Instrunnentation Utilized Ref. Acceptable Alert Acties Parasmeter Test Free. LD. No.f3) Ranee Ree. Acc. Value Ramme Ranee Range Connasents Speed (N) NA NA NA NA NA NA NA NA Constant speed dnver Inlet Pressure Qtr PI-8885 0-100 12% NA NA NA NA NA (Pi) psig i f Outlet Pressure Qtr PI-8887 0-400 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr F1-0619A 0-5000 12% Qr NA NA NA Flowrateis set at reference value ( (Q) gpm t Vib. Amp. Qtr (2) NA 15% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA [ (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differental pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of GPC, instrumentation other than that listed, which meets the reqmrements of the OM Code, may be utilized for measuring test parameters.

l

4. Measurements are taken in a plane approximately r.r..dkwlar tc the rotating shan in two orthogonal directions on each accessible

. Wing housing and in the axial e direction on each accesnNe thrust bearing housing. 18 -3 Rev.O

Ag / h NOTD THIS IS A SIMPLIFIED hN" FROM CONTAINMENT DIAGRAM USED TO DEPICT 618A 0618 FV = EMERGENCY SUMP A TEST CIRCUIT. REFER 0610 2-1205-E6-001 MCB MCB TO THE P8.ID FOR DETAILS. 00 pg pr QMCB 0618 HV 614/ 8886 HS HV REFUELING VATER HV FT 606 0606 T 0620 881I M 0618 (ogg 0612 PI STORAGE TANK 809 2-1204-T4-001 0601 P SIS 8' y y d li: ] v COLD LEG U LOOP 8* Jl FO '~ g-M *xe-For @D

14.,

l N XI TI PI HV 804 M l' 06 8 FV M' 70 A CVCS CHARGING - f 0618 CVCS LETDOVN 2-1205-P6-001 PUMP SUCTION r HEAT EXCHANGER RESIDUAL HEAT 1 HV rg HEADER REMOVAL PUMP J 812 N ,C 8 t g HV c' 8' ,L C, ,L C, RC 76 LO 1 M U RHTkO27) (226) 12' 24-I FV RCS FDT 0611 U HOT LEG ' " ' 12 X8' HV QMCB M PI QMCB 1 ' HIC LOOP 716 o 0615 8887 HV HV 607 M 0621 809 y z 0607 MCB 4*X8' (020 0613 y 0602 02 M ll ll -hG li; ( ] I* I SIS B g. 12* 12 -RCS HOT LEG COLD LEG T -- r, LOOP FT 2" 2-1205-E6-002 LOOP 4 ^ e-QMCB 0619 RHR HEAT EXCH k QMCB p; b HV 0619 ' 0619 (022) 5015 5017 8885 HV b FY D le 8811B 812 [g9 804 0619 CVCS LETDOVN 2-1205-P6-002 f l HEAT EXCHANGER RESIDUAL HEAT 1 F (002 ) HV SIS SAFETY _J REMOVAL PUMP J L M 812 INJECTION 0 FROM CONTAINMENT 0619 s. PUMP SUCTION FC EMERGENCY SUMP, MCB L-=-- FDT 3 12' MV. 94'E SY Dar g tKEERIPYED0 8PMt 3 APP 97 APf4.3 AP99 4 AP543 GEpulfRE 9 T*S-9 98iB v5 332UF9 FER Pf? I a -e+-se ca sts urwts to Mvir or enassize - JC

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C't%,,,,'s,',7t Southern Company Services. Inc. FOR Southern Nuclear Operofing Company 3 in-a-= = = =vi. .c..o M5 UNIT 2 " * ' v5 PUMP INSERVICE TESTING LOOP ~,,,an [.~m$,7t ,,n, FOR RESIDUAL HEAT REMOVAL PUMP 2-1205-P6-001 N/A N/A ISI-D-266 10F 1 3

(% ~\\ 0 V (V V THIS IS A SIMPLIFIED nil"CM" FROM CONTAINMENT NOTE: DIAGRAM USED TO DEPICT I 618 0618 FV EMERGENCY SUMP A TEST CIRCUIT REFER 0610 2-1205-E6-001 MCB MCB TO THE P&ID FOR DETAILS. 00 pg pr QMCB 0618 HV 0614 8886 H HV REFUELING VATER HV FT 606 0606 TE 0620 8 811 STORAGE TANK 809 M 0618 \\ gg9 0612 0601 1 r g SIS 8" l4 d ) h 'i' '[ ll G y COLD LEG d ro U LOOP 8' 2' I 8 FDT N g4 06 804 't FY r' 8884 H (1223 g, CVCS CHARGING - 0618 CVCS LETDOVN 2-1205-P6-001 PUMP SUCTION Y r HEAT EXCHANGER RESIDUAL HEAT 9 r HV HEADER N C 8, p REMOVAL PUMP J L 812 M HV U / 8' j C, LC, RCbu F i " HV c 76 RHT 2 @ (h6) Y 12' U w 24' FV 12*X8, 0611 QMCB M PI QMCB HD LEG HV m 0615 8887 M LOOP 8716 7 HV HV TE 0621 p309 M r 0607 4*X84 (020 06 2 02 I 8* I M[ SIS 4 l ll G

i:

RCS HOT LEG 12-o y COLD LEU T-I i i LOOP 4 LOOP FT 2* 2-1205-E6-002 (010 ) ' i^ e-QMCB 0619 R[iR HEAT EXCH { OMCB p /flC'\\ 5015 8885 HV TI (12) HV 0619. FV gr 8811B 804 LOO 0619 CVCS LETDOVN 0619 f 2-1205-P6-002 HEAT EXCHANGER 1 F (002 ) HV ^ RESIDUAL HEAT WM 812 SIS SAFETY 2 j g g INJECTION H l> ll REMOVAL PUMP FRO 4 CONTAINMENT 619 8 g PUMP SUCTION F: EMERGENCY SUMP, j MCB W FDT 12' Ev. Mit 9T Csa ? MsCar,pe APre s aP992 APPR3 APPR 4 arpt3 Espets 9 9-S44 mis WT TEStK9 STR *TY I i

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trwrts to arvn or es. esser -JC ","",t"L"a',71 ~ Southern Company Services, Inc.FOR Southern Nuclear Operating Company ~ ~~" EgERATING PLANT _g'a y E=8 o VOGTLE ELECTRI PUMP INSERVICE TESTING LOOP ~,coua SAE .u r .tv FOR RESIDUAL HEAT REMOVAL PUMP 2-1205-P6-002 N/A N/A ISI-D-267 10F 1 3

CS Pumps (2-1206-P6 001, & 002) f'~ System Function Containment spray limits the peak pressure in the containment to less than design pressure following a LOCA or a main steam line break inside containment. Trisodium phosphate is mixed with recirculated spray water in the containment sump region for pH control and to enhance absorption of the airborne fission product iodine and to retain the iodine in the containment sump solution to limit calculated offsite doses to less than 10CFR100 limits. Quantity 2 Type Horizontal, centrifugal Manufacturer /Model Goulds Model 3415 Capacity 2600 gpm Total Dynamic Head 450 ft. Driver Type Westinghouse electric motor, Frame 5010S Horsepower 400 g Speed 1777 rpm Power Supply 4160V,60 Hz,3 phase Code Class 2 j Project Class 212 Outline Drawing 2X6AD02-10 Instruction Book 2X6AD02-18 Physical Location Aux Bldg, Level D, Rooms R-D04 & R-DOS P&ID 2X4DB131 Smveillance Procedure 14806-2 Pump Test Loop Diagrams ISI-D-268 & ISI-D-269 Test Parameter Sheets Page 19-2 & 19-3 19 - 1 Rev.0

o o D i Test Parameter Table - Pump 2-1206-P6-001 (Figure ISI-D-268) instrumentation Utilized Ref. Aeceptable Alert Action l Parameter Test Frea. I.D. No.(3) Range Rea. Acc. Value Range Range Range Comments r Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-0972 0-100 12% NA NA NA NA NA i (Pi) psig l ( Outlet i ( Pressure Qtr PI-0974 0-300 i2% NA NA NA NA NA (Po) psig i Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) r Flowrate Qtr F1-0929 0-400 12% Qr NA NA NA Flowrate is set at reference value j (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or - NA (V)(4) or >.325 in/s >.70 in/s { s Notes: ( l

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instmments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

I i 19 - 2 Rev.0 . ~ n

O O l Test Parameter Table - Pump 2-1206-P6-002 (Figure ISI-D-269) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. 1.D. No.(3) Range Req. Acc. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-0973 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-0975 0-300 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - l.10APr NA <.90 er >l.10APr NA (AP) Flowrate Qtr F1-0929 0-400 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. l A m p. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA I (V)(4) or >.325 in/s >.70 in/s l t Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial i

direction on each accessible thrust bearing housing. 8 k 19-3 Rev.0 t i m

p ,/- N Q -] 0 NOTE: THIS IS A SIMPLIFIED ,L C, p, DIAGRAM USED TO DEPICT r, A TEST CIRCUIT. REFER M TO THE P8.ID FOR DETAILS. HV 003 d 9003 QMCB QMCB QMCB ("> 9001 M FROM CONTAINMENT HV TI PI 1094 1 9001A 0938 0974 PI 12' EMERGENCY SUMP FI 929 QM 0972 12,X10, TD Cny T^.!NMENT - yq I 12*X10* U 12' SPRAY 8, F-c n o-- a e 5010 2-1206-P6-001 d C _y ~ _a CONTAINMENT SPRAY g OMCB CONTAINMEN 5012 TRAIN 'A' SPRAY EDUCTOR s M 9017A 2-1206-J6-001 _ C o P 1093 10' 90 A_ 8, 3 REFUELING VATER = 3' PCP STORAGE TANK oprG 2-1204-T4-001 8JL C E, v CONTAINMENT -k M HV QMCB SPRAY EDUCTOR c> r, 10 9017B 2-1206-J6-002 U.52) MCB 9001B MCB HV H M 9017B n 9001B TI a s 1094 M 0939 J n g 09 3 HV ,r-- 9003 TD 8' S 9003 m i CONTAINMENT 7' g XI O SPRAY 2-1206-P6-002 l PI 5011 FROM CONTAINMENT M CONTAINMENT SPRAY 2 12' 7' EMERGENCY SUMP 0975 D-PUMP - TRAIN 'B' M e- @rh G W B08 v1 ISSE rtR PST I L__i-as-es c4 ats urnarts in arvas y eneessa - JC l iC y", C Z'((w'.'"m,,,..,,, bk Southern Company Services, Inc.FOR Southern Nuclear Operating Company c= sri n.= ro to== r-e-ev. ac aci .c a w V0GTLE ELECTRI EgERATING PLANT 8[8 = * " 8 "'c SCALE em CIDffpaKB (Be SM.ET PUMP INSERVICE TESTING LOOP ua 1, a FOR CDNTAINMENT SPRAY PUMP l 2-1206-P6-001 N/A N/A ISI-D-268 10F 1 4

NOTE: THIS IS A SIMPLIFIED ,LC 2" DIAGRAM USED TO DEPICT 2 r, A TEST CIRCUIT. REFER (006) QMCB TO JHE P8.ID FOR DETAILS. j; 4 9003A QMCB QMCB U 9001A M F GM CONTAINMENT HV TI PI 1094 7' ~ m 9001A 0938 0974 PI 12' EMERGENCY SUMP FI __ 0929 TO 0972 12*X10' CONTAINMENT - "'- 1 12*X10* 12' SPRAY 8' }--C o 5010 2-1206-P6-001 0 W__g ~ _s CONTAINMENT SPRAY y QMCB CONTAINMEN 5012 TRAIN *A* SPRAY EDUCTOR s M 9017A 2-1206-J6-001,/, O u 1093 10' 90 A. S 3' 3,

• REFUELING VATER QPCP STORAGE TANK PE T

uL a 2' O98 2-1204 -T4-001 v Z CONTAINMENT ~[CD M HV QMCB SPRAY EDUCTOR o 2-1206-J6-002 152 go. 9017B MCB 9001B 3 QMCB HV M 9017B r 9001B Tl a ~ 1094 M 0939 2 m g HV r-- 9003 09 3 TD 8' S 9003 I I, g CONTAINMENT 7' Q 0 SPRAY ~~ h011M , CONTAINMENT SPRAY 12' r' ' FROM CONTAINMENT PI EMERGENCY SUMP 0975 -8 PUMP - TRAIN 'B' V5013 M a' I = dI5h aE v. 3.rt av oerg m3casPYuss meeJ mppea appeJ arets appas ajanlas mas vs nsx rm m I t-ES-GB CA. I,LB tr3.TED TU EvJS IF 22493t3 ._)2 = e-w itv su arvrucs v=ves - essest a em -LMs Southern Company Services, Inc.FOR Southern Nuclear Operating Company JJ n-u m vs

== miovra spear ansmvt = a v=vts er,. o c n.,m Ye ro -m ir,. ,v. m .c .c 3 og5 VOGTLE ELECTRI EgERATINGPLANT nsreca n .c scaz a=rous a. s=ri PUMP INSERVICE TESTING LOOP ,.aa. a .tr e erv. 1 FOR CONTAINMENT SPRAY PUMP 2-1206-P6-002 N/A N/A ISI-D-269 1Wl 4

.-.. _ _ ~_. _ _ .. _ _ _ _ _ _ ~. _. _ _. _.. i CVCS Pumps CENTRIFUGAL CHARGINGPUMPS 3 (2-1208-P6-002, & 003) { System Function The primary functions of the CVCS are to: I Regulate reactor coolant chemistry for reactivity and corrosion control I Maintains the water level in the pressurizer of the RCS Maintains seal-water injection flow to the reactor coolant pump Provide a means offilling, draining and pressure testing the RCS 4 Provide injection flow to the RCS following actuation j ofSIS i Quantity 2 Type. Horizontal, centrifugal,11 stage ) Manufacturer /Model Pacific, U 2-1/2 in., RL i j Capacity 150 gpm TotalDynamic Head 5800 ft. C\\ (/ Driver Type Westinghouse electric motor 4 Horsepower 600 3 Speed 1800 rpm j Power Supply 4160V,60 Hz,3 phase J J. Code Class 2 1 Project Class 212 l Outline Drawing 2X6AH02-100 Instruction Book 2X6AH02-85 Physical Location Aux Bldg, Level C, Rooms R-C16 & R-C17 P&ID 2X4DB116-2 Surveillance Procedure 14808-2 Pump Test Loop Diagrams ISI-D-270 & ISI-D-271 O Test Parameter Sheets Page 20-2 & 20-3 20-1 Rev.O

w 3 s ) Test Parameter Table - Pump 2-1208-P6-002 (Figure ISI-D-270) InstInnentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. No.0) Range Req. Ace. Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-8891 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-8472 0-4000 12% NA NA NA NA NA i (Po) psig i Differ. Pressure Qtr NA(1) NA 12% APr % - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-10120 0-80 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. A m p. Qtr (2) NA 15% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than sat listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

20-2 Rev.0 [

) s Test Parameter Table - Pump 2-1208-P6-003 (Figure ISI-D-271) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. I.D. NoJ3) Range Rea. Acc. Yalue Range Range Range Comments j Speed (N) NA NA NA NA NA NA NA NA Constant speed driver i Inlet Pressure Qtr PI-8892 0-100 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-8473 0-4000 12% NA NA NA NA NA i t j (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 er > l.10APr NA t (AP) Flowrate Qtr F1-10121 0-80 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm i Vib. Amp. Qtr (2) NA 15% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s L l i Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instnamentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

F

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

-[ [ 20-3 Rev.0 1 [ . - - - - - _ - _. - - _ _ - _ _. _ _ _. _ - - - _ _ _ _ _ _ _ _ _ _ - - _ _ _ _ _ _ - _ _ - _ _, - _ _ - _ - - _ _ _ _ - _ _. _ _ _ -l

.O O)- i b V 4 X3* SEAL VATER LC e 3' 329B N3* ][i l 120 _ 3* 3-RVST 2' h 3* GU l 8110 l 3, VOLUME REACTOR U 3*X2' l . ONgQAg OMCB 2-1208-P6-001 l' COOLANT RHT' /IiSN POSITIVE DISPLACEMENT L L j CHARGING PUMP RHT 4-M SEALS D ll M FD g3 CVCS FV G3D GED 10120 -3*X2-PS 12C 112B REGENERATIVE gN II MCB FT QMC FI 508 if RHT i EXCHANGER /TiSh0MCB 8 2 273 M pg g E 0187 g aMr 8891 = CVCS LUU ? /' i' O' 4 E h , 6* REACTOR O ggi '2-1208-P6-002 ' 013 CDOLANT PUMP RHT g X CENTRIFUGAL H SEALS MCB F 5018 CHARGING PUMP 471 10th! 3*X2 QMCB TRAIN *A* a LRHT QMCB NOTE: THIS IS A H HS 12D SIMPLIFIED DIAGRAM 4g 3* PI b USED TO DEPICT A TEST HV 8473 74 PI MCB RH pg CIRCUIT. REFER TO THE 485 q 018 8 8 *' 8892 A PLI.D. FOR DETAILS. A if E I 6-8'X6* GED S '2-1208-P6-003 k ( ) '48) RHT e508 xI H V Ugp 47l l 2E HV HV TRAIN *B* HSN ( 801A 801B 508 4 71 FROM J LRHT MCB REFUELING TD RCS COLD LEGS RVST VATER STORAGE TANK 8E'A MTE BY Der *B KSCAFTEss arrGJ srPW2 apptJ APPE4 aPPt.S EgaMut3 P N ESS VS IISUE FtEt PST ' I s-es-se ca.

== tenarts u irva y ev4emm-e - JC Ie E ~E"t>YE caers i asern es oma a, Ei Southern Company Services, Inc.FOR Southern Nuclear Operating Company vs n C E My ir w, " '" cams, " " " " " " " " " N VDGTLE ELECTRIC GENERATING PLANT 8t=8 s ,"*,'88"*" y*** UNIT 2 PUMP INSERVICE TESTING LOOP ana m.v .o, av ^ ^ 2 08-P -002 N/A N/A ISI-D-270 1 IF 1 5

Q) %) J 4 X3' SEAL VATER LC 32 B h,1 [i L 12 3 3' ) = 3' H RVST 2' H 3' (IDE)d n 8110 l 3 1 VOLUME 7' v i CVCS 6' 3'X2' l -1 r fyt%^ #T REACTOR MCB 2-1208-P6-001 c e s CDOLANT RHT rr POSITIVE DISPLACEMENT t PUMP 0121 111 CHARGING PUMP ggg RHT 4-Il2B SEALS D ll g FO 112C ll2B CVCS FV (I3D (IEH) 10 20 . -3'X2' PS REGE TIVE gg 121 QMC 508 I RHT_g HS FI MCB EXCHANGER /Tih H OMC y 0MCB h485 8 2 273 PI pg 8891 ggp a 0187 CVCS LOD p / Ie 8'X 4' - M, = 6, (Ig2) p SEALS QMCB ' 6RHT 5018 C G P NOTE: THIS IS A H " OMCB b LV QMCB 101 1 3'X2 g3 5 8-112D SIMPLIFIED DIAGRAM 4 PI 4 73 BS USED TO DEPICT A TEST HV 8473 274 PI MCB RHT pg CIRCUIT. REFER TO THE 485 h I 8892 018 8 P8,I.D. FOR DETAILS. a i 4'l 1 6 8'X6' M O O /P 2-1208-P6-003 g g RHT 508 [XI CENTRIFUGAL H LV i P 1 L J 5019 CHARGING PUMP 4 71 112E HV HV HS 801A 801B 1 @ 508 471 FROM 2 LRHT MCB REFUELING TO RCS COLD LEGS RVST VATER STORAGE TANK av.

== o=, .nc.m -u -2 -as =: 9 WW Elit V5 IISLEB FGt PTT

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sto irmus in arv.ns a r:4eam-e -._C iN v~s.S =ur."r>7 ~- anet asus Ps esem a e 55. Southern Company Services, Inc.FOR Southern Nuclear Operating Company ~ EE E E .Yr""c*"*""""**"""" N V0GTLE ELECTRIC GENERATING PLANT K58'*** "e 3 UNIT 2 Z, ym, PUMP INSERVICE TESTING LOOP aua ww. ^ "^ 2 08-P -O03 N/A N/A ISI-D-271 1 (T 1 5

_ _ = _. _ _ _.... _. _ _ _.. _ _ _. _...... BORIC ACID TRANSFER PUMPS 4 (2-1208-P6-006 & 007)

/'

System Function Provides boric acid to the CVCS for use in RCS inventory control and makeup to systems requiring reactor grade borated water. The boric acid transfer system also provides boric acid for emergency boration of the RCS, Quantity 2 l Type Canned motor j Manufacturer /Model Chempump Model GVH-1K i 4 Design Flowrate 75 gpm Design Head 235 ft. ) Driver Type Electric motor kW 15.5 Speed 3450 rpm Power Supply 4160V,60 Hz,3 phase i Code Class 3 .O Project Class 313 Outline Drawing 2X6AH02-45 & 2X6aH02-92 Instruction Book 2X6AA07-10 Physical Location Aux Bldg, Level D, Rooms R-D106 & R-D123 P&lD 2X4DB118 Surveillance Procedure 14811-2 Pump Test Loop Diagrams ISI-D-277 & ISI-D-278 Test Parameter Sheets Page 21-2 & 21-3 0 21 - 1 Rev.O

(4 0(./ V0 Test Parameter Table - Pump 2-1208-P6-006 l (Figure ISI-D-277) [ Instrumentaten Utilized Ref. Acceptable Alert Action Parameter Test Frea. I.D. NoJ3) RanFe Rea. Acc. Value Range Range Range Comments t Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-10115 -15 to +15 12% NA NA NA NA Relief Request RR-P-l l (Pi) psig t Outlet Pressure Qtr PI-0113 0-160 12% NA NA NA NA NA i i (Po) _ psig i Differ. [ Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-40001 0-100 2% Qr NA NA NA Flowrate is set at reference value ( (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr 5 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes: [

1. Differential pressure is calculated as, AP = Po - Pi l

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

j

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial j

direction on each accessible thrust bearing housing. 21-2 Rev.0 l l t

O O O Test Parameter Table - Pump 2-1208-P6-007 (Figure ISI-D-278) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea, LD. NoJ3) RanFe Rea. Acc-Yalue Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-10116 -15 to +15 i2% NA NA NA NA Relief Request RR-P-1 (Pi) psig Outlet Pressure Qtr PI-Oll4 0-160 12% NA NA NA NA NA i (Po) psig l i Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr FI-40001 0-100 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA i (V)(4) or >.325 in/s >.70 in/s Notes:

1. DilTerential pressure is calculated as, AP = Po - Pi i

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

i

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial I

direction on each accessible thrust bearing housing. i l 1 t 21 - 3 Rev.0 i

Q) p] L \\J NOTE THIS IS A V SIMPLIFIED DIAGRAM USED TO DEPICT A TEST CIRCUIT. REFER TO THE (x-800) I P&I.D. FOR DETAILS. TD BORIC FROM BRS RECYCLE LO LD EVAPORATOR b, Z Z 2' ER N Olle N Nl X lll 0 1l 2ma m L1 (1 1 2, D LO LO 1N, K: = lI: M =X 1 e am m I BORIC ACID 000 TRANSFER PUMP LC BORIC ACID FILTER BYPASS 2' BORIC ACID 2-1208-P6-006 2* n 7' TO BORIC ACID BLENDER STORAGE TANK SEE ISI-D-277 N 2-1208-T4-003 3* FUTURE OMCB c28mM'o J L I 114 3' PP 011 , tg ', C N X = 3,>. (O LO L 1, 3 - X e e Mc. e 3-, casa) ce m x x SAMPLE O U 2-1 -P6- 07 B Y ACID TRANSFER PUMPS TO UNIT 1 BORIC TRANSFER PUMP -v. mn e, o.c.

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==1 carmas a sun PUMP INSERVICE TESTING LOOP FOR esaum a. mu, BORIC ACID TRANSFER PUMP r 2-1208-P6-007 N/A N/A ISI-D-278 1 IT 1 2 L

N/ ,/ NOTE THIS IS A SIMPLIFIED DIAGRAM V USED TO DEPICT A TEST CIRCUIT. REFER TO THE I Pt. L D. FOR DETAILS. (x-90rD FROM BRS RECYCLE Lu LD TO BORIC, EVAPORATOR X X _2 CHRD GU7) 011 [', i X li; o hJ LD 3 r JL i ,m El LA i 1 h >C '; ;,; 2' 2 r 1 e am e I BORIC ACID 000 TRANSFER PUMP LC BORIC ACID 2-1208-P6-007 2' n BORIC ACID FILTER BYPASS 2* STORAGE TANK SEE ISI-D-278 7' TO BORIC ACID BLENDER 2-1208-T4-003 N 3' FUTURE QMC (282)} LO d ' 'I 3' PP 11 3 011 LO LD L =3'> (O 0 N X 1,3,= x e e M c=, e 3' e83) e W s (@ 2-SAMPLE B I Ab Y ACID TRANSFER PUMPS TO UNIT 1 BORIC TRANSFER PUMP =v. mars =v on = = - -. _ -u e n-as-as ct. as tsmas ran en i en JJC was-e+ uv = wvrus un rtow em JJC ~ ~ " ~ ' Southern Company Services, Inc.rOR Southern Nuclear Operating Company V0GTLE ELECTRIC GENERATING PLANT = = = < * ^~: naa= ca-UNIT 2 a=* me PUMP INSERVICE TESTING LOOP FOR SEU' wr ~ =ana av. BORIC ACID TRANSFER PUMP 2-1208-P6-006 N/A N/A ISI-D-277 1 (T 1 2

s. 4 AFW Pumps t (2-1302-P4-001,002 & 003) 1/ System Function Supply water to the steam generatore whenever the reactor i coolant temperature is above 350'F and the main feedwater system is not in operation, i.e., during startup, cooldown, or emergency conditions resulting in a loss of main feedwater. c Automatically provides feedwater for the removal of reactor core decay heat following a loss of main feedwater. This prevents damage to the reactor core until the reactor coolant temperature is brought from a Hot Standby condition to the point at which RHR may be placed ir.to j operation. l AFW supplies feedwater to the steam generators at a j flowrate sufficient to support normal low-power transients i such as stanup, cooldown, and hot standby. 4 Turbine Driven AFW Pumo (2-1302-P4-001) j Quantity 1 i a 4 Type Horizontal, centrifugal,5 stage, split-case b i i y Manufacturer /Model Ingersoll-Rand, Model 6HMTA i Capacity 1175 gpm l Total Dynamic Head 3500 ft. 1 Driver 4 i Type Terry Turbine, Model GS-2N, non-condensing, single-i stage, mechanical drive Horsepower 1603 j Speed 4250 rpm Power Supply Steam ) Code Class 3 i + ( Project Class 313 4 i Outline Drawing 2X4AF03-88 Instruction Book 2X4AF03-20031 !O i 22 - 1 Rev.O I

. ~...... Turbine Driven AFW Pumn (2-1302-P4-001) (cond i A lO Physical Location AFW pump house

i V P&ID

~ 2X4DB161-2 I a j Surveillance Procedure 14810-2 Pump Test Loop Diagrams ISI-D-272 t i Test Parameter Sheets Page 22-4 4 1 I l i l i 22 - 2 Rev.0

Motor-Driven AFW Pumos (2-1302-P4-002 & 003) j Quantity 2 1 !h Type Horizontal, centrifugal, 6 stage, split-case v f { Manufacturer /Model Ingersoll-Rand, Model 4HMTB Design Flowrate 630 gpm Total Dynamic Head 3500 ft. Driver Type Westinghouse electric motor, LLD 5810 H Horsepower 900 i Speed 3600 rpm Power Supply 4160V,60 Hz,3 phase Code Class 3 Project Class 313 Outline Drawing 2X4AF03-87 Instruction Book 2X4AF03-20030 0 Physical Location AFW pump house P&ID 2X4DB161-2 Surveillance Procedure 14807-2 Pump Test Loop Diagrams ISI-D-273 & ISI-D-274 Test Parameter Sheets Page 22-5 & 22-6 22 - 3 Rev.O

O O O Test Parameter Table - Pump 2-1302-P4-001 (Figure ISI-D-272) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. LD. No.(3) Range Rea. Acc. Value Range Range Range Comme::ts Speed (N) Qtr SI-15109A 0-6000 12 % Nr NA NA NA Speed is set to reference value Inlet Pressure Qtr PI-5110A 0-30 i2% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-5107A 0-2000 i2% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-15100 0-200 i2% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA 15% Vr 5; 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

22 -4 Rev.0

... _ _ _ _ _. _.... _ _ _ _. _... _. _ _ ~ Test Parameter Table - Pump 2-1302-P4-002 (Figure ISI-D-273) i Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Freq. I.D. No.(3) Rance Req. Acc. Value Ranee Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver [ Inlet Pressure Qtr PI-5128A 0-30 12% NA NA NA NA NA i (Pi) psig i i Outlet Pressure Qtr PI-5140A 0-2000 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) 1 Flowrate Qtr FI-15101 0-200 12% Qr NA NA NA Flowrate is set at reference value I (Q) gpm Vib. Amp. Qtr (2) NA 15% Vr 5 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s r Notes: l 1

1. Differential pressure is calculated as, AP = Po - Pi l

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearmg housing and in the axial i

direction on each accessible thrust bearing housing. k 22-5 Rev.0

o o o Test ParameterTable - Pump 2-1302-P4-003 (Figure ISI-D-274) Instrumentation Utili=1 Ref. Acceptable Alert Action Parameter Test Frea. LD.No.01 Range Reg. Acc. Value Raare Range Rance Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver i inlet i Pressure Qtr PI-5129A +10 12% NA NA NA NA NA (Pi) pug Outlet Pressure Qtr PI-5141 A 0-2000 12% NA NA NA NA NA i (Po) psig j Differ. [ Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-15102 0-200 12% Qr NA NA NA Flowrate is set at reference value I (Q) gpm Vib. Amp. Qtr (2) NA i5% Vr 52.5Vr > 2.5Vr - 6Vr >6Vr or NA i (V)(4) or >.325 in/s >.70 in/s f r Notu: l

1. Di Terential pressure is calculated as, AP = Po - Pi

2. Po: table vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

L 22 - 6 Rev.0 i m

(S (g g N N LD 2.5" CONDENSATE CONDENSATE TE 15 9 510 LD 3*X2 1/2" 2.5" FROM MAIN STORAGE TANK STORAGE TANK 5175 i

1. 1. MEM 0

2-1302-V4-002 _ 2-1302-V4-001 sy 15133 sg g OMCB 'c3 p 7, 5 3 5110A MCB 5 0 -o _J QMCB 0 I g i 6* cu I \\, i Sf . t j i -@0 0 j \\ T TURBINE DRIVEN COTT) E 2-1302-P4-001 HS AUX FEEDVATER e AUX 0 W PUMP TURBINE 10' / XI T FEEDVATER cu cu NOTE THIS'IS A HV 5113 2-1302-P4-001-K01 PUMP 8[_- SIMPLIFIED DIAGRAM 3[ 5113 TD USED TO DEPICT A TEST T (U5T) ATMOSPHERE FV CIRCUIT. REFER TO THE 10' 5154 M ] [FROM CHEM. ^ 'N ' QMCB H 5140 2 1/2*X2' g' ' INJECTION HV HV 128 MCB 5094 (UDD g (UM) Sj[_5098 4, j lll 8' 8' 8 g LD m 2-1302-P4-002 HV X FV 8 2' 5118 FEED ATER PUMP 5035 5155 y 1 [ g, = 3 OMC HV HS Q 2 1/2*X2* ,2 ' QMCB 131A 5141A ( 5092-- HV I9 y[ HV 5095 g 8* 8'X6' 3 4' U O 'i A' 5099 E 3-- HV LD 2-1302-P4-003 5119 AUX XI 8' g FE g TER 8' _s

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== "c UNIT 2 [', Z, y_ PUMP INSERVICE TESTING LUDP ui. ,,,1, c. FOR AUXILLARY FEEDVATER PUMP 2-1302-P4 -001 N/A N/A ISI-D-272 10F 1 2 s

S %J %./ L] PV w l -l 4* 3*X21/2 @ 2.5* CONDENSATE CONDENSATE TE 15129 5106 LD FRON MAIN STORAGE TANK STORAGE TANK 5175

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_ 2-1302-V 4 -001 3 sy { a HV 5093 5110A MCB 5 0 --a l J OMCB / f N D _) '\\ h_jh f4k0 " 0 HS AUX FEEDVATER AUX r n PUMP TURBINE 10' XI FEEDVATER n; ni NOTEi THIS ilS A n[_ HV 5113 -1302-P4-001-K01 PUMP SIMPLIFIED DIAGRAM

Sjd, 5113 TO S

USED TO DEPICT A TEST l ATMOSPHERE FV CIRCUIT. REFER TO THE 10' 5154 'N QMCB H p1 ] ['FROM CHEM. 1/2'X2' e' INJFCTION HV HV 128 2MCB GED A 5094 3[5098 4, q 7 O~h j N 8' 8' 6

4 LO G159)h 2-1302-P4-002 HV

\\ I FV S 2' 5118 FEED ATER 1! PUMP 5155 m 1 [ 8, OMCB W QMC M 2 1/2*X2' 2~ i HV p MCB ' I 131 5141A 5092--o 5129 HV HV -_J 5095 g N 8' 8'X6' I 4, DA' e p 5099 W B 'O (DUT) l LO 7 0 L 2-1302-P4-003 HV -h_ 5119 AUX XI FEgpTER 8' 8' .v . s__ __s e

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l i T y SE n 2 5 5 EH a 1 2 2 TT p M m .a, F0 AAO' o R T C gtp I ) ) GT A 9 0 AACR g 7'r O ' DDR 4 6 7 IIE in c 7 / 7 S DPF t " $2 ( ( EE a I r = SE e 7 I D p IIO. O = HF TT I TI I S I L U

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3 e I 2 C 0 h A / T ( 3 X 0 C 2' o u t I / = ( 3' M F o ( N 2 O J S = X R N. 3' FI p R T P F ' O N P M [- 1 ' - i ' I ' r A O U U D ] 2'I ' - c L 1 d O P )L O) hU@h I P ) n ) L 4g3g N 2 G R 5 5 0 0 s N G E 0 0 ( N T 0 I e ( ( ( T I ) c A T A3 'O iv R SV0 6 hm 2' 2' r 0 B 8 E ED X X e ( C S gTE-D 0i l hm 2' E 4 2 EP / / y EF-1 1 n C 2 a I Y 0 r 2 N 2 p R VR3 I '0 m T RA1 hPJmM o C EL-5 N C E SL2 2 E 4 y L NI N V R V5 n E IX Am B E F1 r U I R T 5 e E PA I 5 h L M M C D AP B V5 t T UR M M XVM C, u G M 4 F1 4 PO p(. RN O N E DU o 0 5 F O B N A S V EP C I F M B E B A I R F U M p4 1 P C g g/i I I V6 1 T O 5 H0 1 5 d X E 0 OH f h3 A R 1 E 1 g TP 1 g S 2 3 10 O 6 0 R 0 R 0" R M X 0 0 E E 9 3 E 1T g1 T T V2 y3 Ti 9 8 4 8 8 4 AP P A C 1 P1 g1 Al0 2 P - iJ 5 5 B M I VR0 t J 1 1 2 DU 2 B DU B 0 h 0 C ET+ C P 3 E 3 E t M E M F 1 1 F O FP-Q 2 2 M0 2 8 XU3 8 UP1 A - l 2 I 5 i ) } 8 r E7 3 ) 5 8 T1 ; 1 5 5 0 s e ( 0 5 0 ) ) w ( 6@ 1 s 4 b s. J 3 V9 S1 r 0 e K1 0 5 'N H0 ; 0 H1 ( N 5 5 y E A-V9 i ~ o T T 4 8' H0 v A 0 NE-V3 '0 j 5 n e V S e 1 8 m o " G 2 5 H1 V1 n t E A 5 1 ~ s 0 H1 D R , n 3 5 a a N O1 m o " OT - B O t CS2 ~ i r " s V9 N 2 s s t ~ v a K 2 9 / N 0 H0 0 H0 5 EA 5 8 8' - = e." T T t V9 [3 A 4 T H0 V S E-5 9 e N G V9 e e EA2 [ H0 , s e t " D R 0 5 . s-N O 3 _3 O 1 T - C S2 e i 'l l

-. - = - -. -. -..... ESF Pumps (2-1592-P7-001, & 002) System Function During nonnal operation, the ESF chilled-water system is in ~ standby mode; it is activated during emergency conditions upon receipt of a safety injection signal, containment ventilation isolation, or control room isolation signal. The . ESF chilled-water system serves air handling units located in the safety-related areas of the plant to ensure the integrity of the cooling system during plant emergency situation. Quantity 2 Type Centrifugal Manufacturer Goulds Capacity 600 gpm TotalDynamic Head 125 ft. Driver Type Westinghouse electric motor Horsepower 30 O Speed 1800 rpm j Power Supply 480V,60 Hz,3 phase Code Class 3 - Project Class 313 Outline Drawing 2X4AJ05-28 Instruction Book AX4AJ05-86 Physical Location Control Bldg, EL 260 ft., Rooms R-310 & R-308 P&ID 2X4DB221 Surveillance Procedure 14809-2 Pump Test Loop Diagrams ISI-D-275 & ISI-D-276 Test Parameter Sheets Page 23-2 & 23-3 O 23 - 1 Rev.0

I O O O Test Parameter Table - Pump 2-1592-P7-001 (Figure ISI-D-275) Instrumentation Utilized Ref. Acceptable Alert Action Parameter Test Frea. 1.D. NoJ3) Range Rea. Acc. Yalut Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver inlet Pressure Qtr PI-22410 0-30 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-22414 0-200 12% NA NA NA NA NA i (Po) psig Differ. Pressure Qtr NA(1) NA 12% APr .90 - 1.10APr NA <.90 or >l.10APr NA (AP) Flowrate Qtr F1-22425 0-750 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm Vib. Amp. Qtr (2) NA iS% Vr 5 2.5Vr > 2.5Vr - 6Vr >6Vr or NA (V)(4) or >.325 in/s >.70 in/s Notes:

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial direction on each accessible thrust bearing housing.

23 - 2 Rev.O

O O O Test Parameter Table.- Pump 2-1592-P7-002 (Figure ISI-D-276) Instrumentatian Utili=d Ref. Acceptable Alert Action Parameter Iest Frea. I.D. No.f3) Range Req. As Value Range Range Range Comments Speed (N) NA NA NA NA NA NA NA NA Constant speed driver Inlet Pressure Qtr PI-22411 0-30 12% NA NA NA NA NA (Pi) psig Outlet Pressure Qtr PI-22415 0-200 12% NA NA NA NA NA (Po) psig Differ. Pressure Qtr NA(1) NA i2% APr .90 - 1.10APr NA <.90 or >l.10APr -' NA (AP) Flowrate Qtr FI-22426 0-750 12% Qr NA NA NA Flowrate is set at reference value (Q) gpm ' Vib. I Amp. Qtr (2) NA i5%' Vr s 2.5Vr > 2.5Vr - 6Vr >6Vr or NA or >.325 in/s >.70 in/s (V)(4) i Notes: [

1. Differential pressure is calculated as, AP = Po - Pi

2. Portable vibration instruments are utilized.

3. At the discretion of SNC, instrumentation other than that listed, which meets the requirements of the OM Code, may be utilized for measuring test parameters.

4. Measurements are taken in a plane approximately perpendicular to the rotating shaft in two orthogonal directions on each accessible pump-bearing housing and in the axial

' direction on each accessible thrust bearing housing. l i } 23 - 3 Rev.0 [ t

O O O NOTE: 1. THIS IS A SIMPLIFIED EXPANSION DIAGRAM USED TO DEPICT TANK A TEST CIRCUIT. REFER HVC S 2-1592-T7-001 TO THE Pt.ID FOR 2240 P2412 DETAILS. C 2240 1, (

2. VALVE INTERNALS REMOVED PER DCP IhA 90-V2N0068-0-1 D

f CHEMICAL SDA TI FI FEED PDT. 242 D m p,. t 9 02 PI TI 22 1 1 P 44 2241 22410 5032 9 L N, 1/2' C fl N 6*X4' N 'sm dEVAP.l E @CB ESF CHILLER EMERGENCY I/2' MAKEUP VATER g* 2-1592-C 7-001-000 I 2' 6' Ci r 5030 m, EC' HV Sd k fl 240 CB ESF CHILLED 242 10' VATER PUMP I f (10* 10'% Y 2-1592-P7-001-000 D PROJ. CLASS 313 E' TRAIN 'A' 6' ~ COOLING COILS =v. mm e, o., =_. m. m. 9 WS-te M vs 133E3 FtB PIT

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O O O NOTE

1. THIS IS A SIMPLIFIED EXPANSION DIAGRAM USED TO DEPICT TANK A TEST CIRCUIT. REFER C

S 2-1592-T7-00E TO THE P&lD FOR 2240 2413 DETAILS. C

2. VALVE INTERNALS 22401 I,

REMOVED PER DCP IA j 90-V2N0068-0-1 pD CHEMICAL SDB TI FI D FEED POT. 243 4 7' shmn,. t 9 De PI HV TI 243 ' 2441 (U57) g pg g 22411 b $d L @ 3, 1/2" 6' lpp_{)g} _ d EVAP. l N O CB ESF CHILLER O' -002-000 K ATER l 2' 6' c 5 1 mir LC' [HV $d k CB ESF CHILLED 242 fl 2240 VATER PUMP 10' I I 2-1592-P7-002-000 10' 10' PROJ. CLASS 313 b' TRAIN 'B' 6' ~ CDOLING COILS i av. an r, o.c, er _..,,. u 2 9 W BE WS 1EstKB f1R PtY I a s-as-ee et us trairra in svm er asesora - JC 'Ae-M "w2 "'E ~ ' Southern Company Services, Inc. FOR Southern Nuclear Operating Company s VDGTLE ELECTRIC GENERATING PLANT 8m"* UNIT 2 ""*v5 PUMP INSERVICE TESTING LOOP ",,aa. 527 x, FOR CB ESF CHILLED VATER PUMP TRAIN 'B' 2-1592-P7-002-000 N/A N/A ISI-D-276 1 [F 1 3

PUMP RELIEF REQUEST LOG Relief Reauest Number Status RR-P-1 Submitted for NRC Review. RR-P-2. Submitted for NRC Review. RR-G-1 Submitted for NRC Review. RR-G-2 Submitted for NRC Review. i t O O 24-1 Rev.0 =

PUMP RELIEF REQUEST RR-P-1 2 SYSTEM: Chemical Volume and Control System (CVCS) PUMPS: Boric Acid Transfer i 1-1208-P6-006 and -007 and 2-1208-P6-006 and -007 s l CLASS: 3 ) i TEST REQUIREMENT. j ISTB 4.7.1(b)(1) requires the full scale range of analog instmments to be not greater than three times the reference value. i j BASIS FOR RELIEF: Suction pressure gages PI-10115 and PI-10116 have a full scale range o i [ 30 inches of mercury to 15 psig, or -15 psig to 15 psig with an accuracy ofi0.15 psig. Since pressure readings when the pump is running will i i l always be positive, the range ofinterest for IST is 0 - 15 psig.The j actual suction pressure experienced during surveillance testing is approximately 2 psig which results in a maximum allowable range of 0 - l; 6 psig to satisfy the Code requirements. The Code allowable tolerance l j would be 10.12 psig (0.02 x 6). Since the only purpose for measuring j i suction pressure is to use in determining differmtial pressure, for comparison to the test reference value, a total difference of 0.03 (0.15 - t 0.12) psig in the measurement of differential pressure will have no impact on the repeatability or adequacy of the pump test. Therefore, the { existing suction pressure gages provide adequate means for measuring the pump suction pressure and do not jeopardize the adequacy of the j testing being performed. 1 ALTERNATE i ) TESTING: None. The existing suction pressure gages will be utilized for IST of the referenced pumps. l l O i 24-2 Rev.O 1 1

~ PUMP RELIEF REQUEST RR-P-2 SYSTEM-Allincluded in scope ofIST Program PUMPS: j Allincluded in scope ofIST Program CLASS: 2 and 3 I TEST REQUIREMENT: ISTB 6.1 - If deviations fall within the required action range of Table l ISTB 5.2-1, the pump shall be declared inoperable until the cause of the deviation has been determined and the condition corrected 2 BASIS FOR RELIEF: The ASME Section XI Code,1989 Edition, subsection IWP-3230(c) states that; " Corrective action shall be either replacement or repair per IWP-3111, or shall be an analysis to demonstrate that the condition does not impair i i pump operability and that the pump will still fulfill its function. A new set of reference values shall be established after such analysis." 4 l The OMc-1994 Addenda (ISTB 6.2.2) and the OM 1995 ed 6.2.2) both state that; i{( "If the measured test parameter values fall within the required action I_ range of Table 5.2.1-1, Table 5.2.1-2, Table 5.2.2-1, or Table 5.2.3-1, as applicable, the pump shall be declared inoperable until either the cause of i the deviation has been determined and the condition corrected, or an l analysis of the pump is performed and new reference values are established in accordance with ISTB 4.6." l 1 l The Code applicable for the first intervalIST Program (1983 ASME XI), i and the latest issued Code both provide for analysis of pump test data in lieu of repair or replacement of the pump if the test parameters fall within 4 the required action range. The OM Code-1990 Edition did not include such provisions. Communications with members of the OM Code Committee indicate that this was an oversight and that it was never intended to delete the ability to analyze the test data and determine if the i pump is still capable of performing its intended safety function. ALTERNATE 4 TESTING: Should pump test parameters fall within the required action range of Table ISTB 5.2-2 (OM Code 1990 Edition), then the OM Code 1995 Edition, subsection ISTB 6.2.2 will be utilized. Since subsection ISTB 4.6 in the 1995 Code Edition references ISTB 6.2.2, subsection ISTB 4 4.6 from the OM Code 1995 Edition will also be applied. L 24-3 Rev.O

GENERAL RELIEF REQUEST py RR-G-1 SYSTEMS: Allin Scope ofIST Program VALVES: Allin Scope ofIST Program I PUMPS: Allin Scope 7 FIST Program CLASS: 1,2 and 3 TEST REQUIREMENT: The version of 10CFR50 in effect on May 31,1996, paragraph 50.55a(b)(2) ) specifies the applicable Code to be the ASME XI,1988 Addenda through 1989 ) Edition. The 1989 Edition of ASME XI references OM part 6 and 10 for ~ inservice pump and valve testing respectfully. Paragraph 50.55a(b)(2)(viii) of the CFR specifies the Code applicable to inservice pump and valve testing to be the ASME/ ANSI part 6 and ASME/ ANSI part 10 of the OMa-1988 Addenda to the OM-1987 Edition. BASIS FOR 4 RELIEF: The ASME/ ANSI OM document was issued as a Code with the ASME OM Code-1990 Edition. This edition was amended with the OMa Code-1991 Addenda, the OMb Code-1992 Addenda, and the OMc Code-1994 Addenda. The ASME OM Code-1995 Edition was issued in early 1995. With each addenda and edition of the ASME OM Code, the ASME OM Code Committee pg has included updated inservice testing requirements based on improved V knowledge, operating history and experience and changes in testing technology. Beginning with the ASME OM Code-1990 Edition, the format of the document was also changed to read like a Code instead of a standard as it was initially drafted. Therefore, application oflater versions of the ASME OM Code, than specified in 10CFR50, should enhance the quality of the IST Program. i ALTERNATE TESTING: The ASME OM Codes utilized for update of the Vogtle Inservice Testing Program shall be: IST of Valves (except safety / relief valves)- ASME OM Code-1990 Edition IST of Pumps - ASME OM Code-1990 Edition IST of Safety / Relief Valves - ASME OM Code 1995 Edition (ASME OM Code-1995 Edition, Appendix I, augments the rules of Stabsection ISTC 4.4.) The NRC previously approved use of the above referenced Codes in a letter dated November 27,1996. This relief request is identical to RR-G-1 included in the IST Valve Program. Q y F 24-4 Rev. O

l GENERAL RELIEF REQUEST RR-G-2 l SYSTEMS: Allin Scope of Unit 2 IST Program VALVES: Allin Scope of Unit 2 IST Program PUMPS: Allin Scope of Unit 2 IST Program CLASS: 1,2 and 3 TEST 1 REQUIREMENT: The version of 10CFR50 in effect on May 31,1996, paragraph 50.55a(f)(4)(ii), specifies that inservice testing to verify operational readiness of pumps and valves required for. safety, conducted during successive 120-month intervals must comply with the requirements of the latest edition and addenda of the Code incorporated by reference in paragraph 10CFR50.55a(b) 12 months prior to the start of the 120-month interval. BASIS FOR RELIEF: The commercial operation date for Vogtle Unit I was May 31,1987. The commercial operation date for Vogtle Unit 2 was May 20,1989. Maintaining both units on the same interval schedule allows both IST programs to be developed utilizing the same edition of the applicable Codes, will make it easier for involved personnel to become familiar with the Code requirements, will O-ensure a greater degree of consistency for IST between the units, and will reduce the cost associated with surveillance arocedure revisions for the program update and for maintenance of the program c ocuments. ALTERNATE. TESTING: Update the Vogtle Nuclear Plant Unit 2 IST Program concurrent with the Unit I second 10-year interval IST Program update due on May 31,1997. The Unit 2 IST Program will be updated concurrent with the Unit 1 IST Program in accordance with the applicable regulations for the remainder of the plant life. The NRC previously approved use of the above referenced Codes in a letter dated November 27,1996. This relief request is identical to RR-G-1 included in the IST Valve Program. i 4 i O 4 24-5 Rev. O i 1}}