Temporary Mod Request T-9000 to Rev 17 to Sys Procedure Sp 1103.05, Pressurizer Operation

ML20126K544
Person / Time
Site:	Davis Besse
Issue date:	03/27/1985
From:	Michaelis I, Oconnor W, Quennoz S TOLEDO EDISON CO.
To:
References
SP-1103.05, NUDOCS 8507300322
Download: ML20126K544 (47)
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i COPIES TO BE MODIFIED PGR IMMEDI ATE IM*LEMENTATION DAVIS BESSE NUCLEAR POWER STATION - UNIT 1 i mC0 3 c m 1, {E,r, TEMPORARY MOOlFICATION REQUEST t, 5, E D 8026 , ,, 3 .g

'i SECTION 1 PROCEDURE TITLE AND NUMBER 7 tz f 5 s u 2 2 z W OPERArred S P// o3. 05~

REASON FOR CHANGE M TPgCCOWM,pg ppc M Copp*t nr a).r77/ A3 M 3*/E CHANGE

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8507300322 850327 PDR ADOCK 05000346 P PDR IS PROCEDURE REVISION REQUIRED PREPARED 8Y / DATE AP' ROVED 8Y a p  :

DATE 3//s-/w APPROVED BY DATE s ., 8S~4]4 a /' d/ n p

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SUOMITTED 'C0 SY (Section He/ ado [% /e RECOMMENDEC SY (SRB Cnairman) '/ # # '

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QA APPROVED BY (Manager of Qua6ity Assurance) DATE U APPROVED SV (Station supertreendent) / DATE sM 44 g ,

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• SP 1103.05 Davis-Besse Nuclear Power Station m

Unit No. 1 System Procedure SP 1103.05 Pressurizer Operation ,

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. .w Record of Approval and Changes Prepared by Bill Nissen & Bob Jadgehew 7/9/75 Date -

Submitted by Larry Statler/JRL 6/24/76 Section Head Date j

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Recommended by - . Jack Evans 6/26/76

- SRB Chairman Date QA Approved NA LES/JLR Manager of Quality Assurance Date Approved by Jack Evans 6/30/76 Station Superintenc'. tnt Date Revision SRB QA S ta . S upt .

No. Recormendation Date Approved Date Approved Date y I #-/ffE WN '

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- 1 SP 1103.05'.10 i

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i 1. PURPOSE l 1 -

1.1 To provide procedures for operating the pressurizer in the following nodes:

Mode Section Pressurization (Startup) 4 .

j Noresl Power Operation 5 Depressurization (Shutdown /Cooldown) 6 l

Descriptioc.  ;

10l h pressurizer is a vertical-cylindrical vessel that is connected ,

to the reactor outlet piping by the 10" surge piping. N electrically heated pressurizer establishes and maintains RC i 10l pressure within prescribed limits and provides a steam space surge chamber and a water reserve to accommodate changes in

! reactor coolant volume during operation. h water volume is I based on the capability of the system to experience a reactor i trip and not lose level indication while maintaining the pressure ,

high enough to preclude activation of the HP injection system (1650 pois). h steam volume is based on the capability of the *

system to experience a turbine trip and not cover the level j sensors in the upper shell (327"). t i

j p Spray nozzle in the upper section and replaceable electric -

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heater bundles in the lower half maintain the stesa and water at i the saturation temperature corresponding to the desired RCS  !

! pressure. During outsurges, as the pressure in the reactor i decreases, some of the water in the pressurizer flashes to steam  ;

i to maintain pressure. Electric heaters are ac:uated to restore the normal operating pressure. During insurges, as pressure in  ;

i the reactor system increases, some of the steam condenses and a

! water spray from a reactor inlet line also condenses steam and  ;

j thus reduces pressure. Spray flow and heaters are controlled by the pressurizer's pressure controller.

. 4 Pressurizer Heater Bank Controls  ;

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h re are three bundles of electric heaters located in the lower i section of the pressuriser. h oe three bundles are divided

into six (6) heater banks. Pressurizer heater banks 1, 2, 3, and 4 are non-essential heater banks, i.e, the power for these banks comes from nonessential sources. Pressurizer Essential Heater Banks 1 and 2 are powered from essential sources and are i required to be operable in order that the unit can be shutdown j j from the Auxiliary Shutdown Panel (ASP) (C3630) and to permit j RCS pressure ca.ntrol during natural circulation upon a station i{ blackout. h following is a summary of the controls for the six heater banks. See Enclosure 2 for a summary of the power supplies to each hester bank.

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2 SP 1103.05.17 l Heater Bank 1: Hester Bank I has a SCR controller. The heat ,

Laput to the pressurizer water of this bank can be varied from 0 to 126 KW. Bank I's controller (PIC-RC2) is a Bailey Hand / Auto Station, located on the Reactor Coolant Makeup and Pressurizer Control Console (C5705) in the control room.

When the H/A Station is in AUTO, the heater bank responds to a pressure error signal of -100 psi-to 0 psi from 2155 psis RCS pressure. In hand

• the heat input to the pressurizer water is varied by the operator. The indicator on the H/A Station is scaled 0-100. With MEAS. VAR. selected, the N/A Station indicates the RCS pressure error

signal (1100 psi from 2155 psig), with 0 indicating

2055 psig 50 indicating 2155 psig. With POS selected the H/A Station indicates the demand signal being sent to the SCR (0 to 100%).

Heater Banks 2, 3 and 4: When energized, these heater banks will supply 17 l 280 KW, 280 KW and 434 KW respectively to the ,

pressurizer water. These heater banks are controlled by an ON-OFF control, i.e, when de-energized heat output is OKW, when energized heat output is at the bank's maximum KW output.

These heater banks are controlled from their respective control switches located on the Reactor Coolant Makeup and Pressurizer Control

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Console (C5705) in the control roce.

4 l Heater Bank . Control Switch i Number Control Switch Name Numbe r i Bank 2 RC PRZR BANK 2 HTR HIS-RC2-2

! Bank 3 RC PRZR BANK 3 HTR HIS-RC2-3 i

Bank 4 RC PRZR BANK 4 HTR HIS-RC2-4 i

i When the respective control switch is placed in "AUT0", the controlled heaters will respond at the pressure and level setpoints shown on Enclo-sure 7. Manual control of these heater banks is e provided by placing the control switch in either the "0N" or "0FF" position. When these heater ,

banks are being operated in manual, they will not respond to either the pressure control signals or the low level interlock.

Essential

', Heater Banks 1 and 2: These heater banks are controlled from essential 1 control circuitry and are used in shutting down the unit from the Auxiliary Shutdown Panel (ASP).

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3 SP 1103.05'.10 t? These heater banks each supply 126 KW to the

, pressurizer water when energized. These heater banks are controlled by an ON-OFF control, i.e.,

when de-energized heat output is 0 KW, when energized heat output is 126 KW each. These heater banks may be controlled from two locations, i the Reactor Coolant Makeup and Pressurize,r, , l Control Console (C5705) in the control room and the Auxiliary Shutdown Panel (ASP).

ASP Control Mode: In order to obtain control of the Essential l Hester Banks from the ASP, the operator must place the ASP " Local-Remote" switch (HIS-RC2-7 for Essential Bank 1, HIS-RC2-8 for Essential 7I Bank 2) in the " Local" position. The following indications will then exist:

1. Annunciator / computer point Q985, " UNIT AUX j SD PNL IN OPERATION" will alare.

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2. The amber light above the respective " Local-Remote" switch will be lit and

3. The Amber "SD PNL" indicating light (LI-RC2-5 O for Essential Heater Bank 1, IL-RC2-9 for (g, Essential Heater Bank 2) on C5705 will light. The operator will then have manual control of the Essential Hester Bank from the-respective control switch at the ASP (HIS-RC2-5 for Essential Heater Bank 1, HIS-RC2-9 for Essential Heater Bank 2). All 10 automatic control as well as low level interlock and control room control for the Essential Heater Banks is defeated when in the ASP control mode.

Control Room Mode: In order to obtain control of the Essential Heater Banks from the control room, the operator must place the respective ASP " Local-Remote" switch in the " REMOTE" position. The following indications will then exist:

1. Annunciator / computer point Q985, " UNIT AUX SD PNL IN OPERATION" should clear.

2. The red light above the respective " Local-Remote" switch will be lit.

3. The Amber "SD PNL" indicating light (IL-RC2-5 ph#

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I 4 SP 1103.05.10 .s s

for Essential Heater Bank 1, IL-RC2-9 for Essential Heater Bank 2) on C5705 will go out.

h operator now has manual control of the Essential Hester Bank from the respective control

switch at C5705 (HIS-RC2A for Essential Heater .

Bank 1, HIS-RC2B for Essential Heater Bank 2). *

' N Essential Hester Banks can now no longer be controlled from the control switches at the ASP.

If the operator places the control room control switch for an Essential Heater Bank (HIS-RC2A for

• Essential Heater Bank 1, .HIS-RC2B for Essential Heater Bank 2) in "AUT0", that Essential Heater Bank will be controlled by the nonessential control signal for the corresponding nonessential heater bank. (Essential Heater Bank I will be controlled by the control signal for Heater l'

Bank 2; Essential Heater Bank 2 will be controlled by the control signal for Heater Bank 4.) "

With the Essential Heater Banks in Manual (either i ON or OFF) all pressure control signals and the Low-Low pressurizer level interlocks are defeated.

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O) 10 If the Essential Heater Banks control room switch' (HIS RC2A/HIS RC25) is in "AUT0" and power is lost to the essential heaters, they will not automatically operate uhen power is restored.

N operator must place. the HIS RC2A/HIS RC2B to i

"0N" and then to "AUT0" for the heaters to I

operate automatically.

PRESSURIZER HEATER /DH11 AND DH12 INTERLOCK i

h pressurizer heater interlock will prevent the pressurizer heaters from being energized when:

(1) DH11 or DH12 is opened AND

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. l (2) RCS pressure is above 301 pais, the setpoint of SFAS CH 1 & i CH 4 301 psig bistable BA113 and BA413 l

, I h pressurizer heater interlock signals are derived from (1) l SFAS ch anal 1 301 psig bistable BA113 and SFAS Channel 4 301 l psig bistable BA413 - the SFAS bistables receive their RCS pressure signal from the wide range SFAS pressure transmitters; i (2)-limit switch contacts. for DH11 and DH12 to indicate if ,

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5 SP 1103.05.'16 m

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. either DH11 or DH12 is not fully closed - The logic utilizes both the actor limit switch and stem mounted limit switch for redundant position indication.

The SFAS ch= anal 4 301 psig bistable EA413 also provides the RCS pressure auto closing signal to DH11. .DH11 will receive a close signal when RCS pressure is greater than 331 psig at the , centerline

of DH11 and DH12 (301 peig as indicated on PIRC2A6).

The heater interlock will de-energize the respective heaters regardless of whether the heater controls are in auto or manual.

(This applies to essential and non-essential heaters.)

Enclosure 8 contains a simplified drawing of the pressurizer heater /DH11 and DH12 interlock.

PRESSURIZER SPRAY VALVE CONTROLS l The Pressurizer Spray Valve, RC-2, is controlled from HIS-RC2-1 on the RCS Makeup and Pressurizer Control Panel C5705. When in

the "AUT0" position, the valve will cycle to the 40% open j position when RC pressure exceeds 2205 psig and will remain open

. until pressure returns to 2155 psig.

i i i The valve can be manually opened by placing the switch in the e "0 PEN" position. If the switch remains in the "0 PEN" position, the valve will travel to the full open position and remain open regarless of how far RC pressure falls. If the switch is  ;

temporarily moved to "0 PEN" and then returned to "AITIO" the i

, valve will stay in the position it reached before it was returned to "AUT0". The valve will stay in this throttled position if

{ the RC pressure remains between 2155 psig and 2205 psig. If RC pressure exceeds these limits, the valve will respond to the automatic controls.

If the switch is placed in the "CLOSE" position the valve will 4

close and will remain closed regardless of how high RC pressure j

> becomes, j An amber. indicating light on the control panel comes on when the valve reaches the 40% open position, but if the valve is being opened manually, .the light will go out when the valve reaches the 45% open position. If the valve is more than 45% open, it.

will not come on as the valve closes.

16 When the Pressurizer Spray Bypass Valve, RC 262, is fully open indicating light IL285 on Control Room panel C5705 will light.

I j POWER OPERATED RELIEF VALVE CONTROLS The Power Operated Relief Valve (PORV) RC2A can be controlled by HIS-RC2-6 on RCS Makeup and Pressurizer Control Panel, C-5705.

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, , 7 6 SP 1103.05.'16 The switch has an "0 PEN" position with a spring return to the .

"AUT0" position; the valve will automatically open to relieve .

pressure to the Quench Tank when RC pressure exceeds 2425 psig and will close when RC pressure drops to 2375 psig.

N valve may be manually opened by placing the switch in the 4

"0 PEN" position. If the switch is held in the "0 PEN" position i the valve will remain open. If the switch is released tlie'valie will remain open until RC pressure falls below 2375 psig.

1-N valve may be manually closed by pushing the switch "IN", but a high pressure of 2425 psig will override and open the valve.

N valve may be held open manually by placing the switch in the

" LOCK OPEN" position. h switch and valve will remain in the "0 PEN" position until closed manually. To manually close the valve, the switch is pushed in, but a high pressure of 2425 psig will override and open the valve.

- Position Indication: N blue light, ILRC2-6 on Panel C5705 signifies only that power is available to the PORY solenoid. -

Position indication for the PORY (red-green lights of RIS RC 2-6) is derived from a micro-switch actuated by the PORY solenoid /

pilot valve lever. N amber light is lit when RC2-6 is placed in the " LOCK-OPEN" position. The pilot vents the PORY piston permitting RCS pressure to open the PORV. ILRC2-6 and HISRC2-6 -3 do N_OT indicate actual valve position. For positive flow *

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indication, refer to the indicating lights and the position %

open meters on panels C5798 and C5799. Computer annunciator alam Z768 will alarm if any valve alarm modules actuate.

PRESSURIZER LEVEL CONTROL The water level in the pressurizer is controlled by the opening /

j closing of the normal makeup flow controller valve (MU32). MU32

}. receives its control signals from the PRZR LEVEL H/A Station ,

. (LIC-RC14) on the Reactor Coolant Makeup and Pressurizer Control 1

Console (C5705) in the control room. In order to automatically control pressurizer level, the operator must place LIC-RC14 in

, "AUIO" and adjust the setpoint dial to the desired value.

LIC-RC14 then compares the temperature compensated level signal to the setpoint and develops a demand signal to MU32. (NOTE: h i 16 level signal to LIC-RC14 any be from LT-RC14-1, 2 or 3 as '

selected at HS-RC14 and may be temperature compensated by TE-RC15-1 or 2 as selected at HS-RC15). Manual control for MU32 is accomplished by placing LIC-RC14 in " HAND" and adjusting the dessed signal to MU32 by means of the toggle switch. h

indicator on LIC-RC14 will furnish the operator with the following

information

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w i g; MODE OF LIC RC14 INDICATOR SWITCH INDICATOR SCALE i Auto Measured Variable Auto balance (should  :

]e indicate 50%)

i l Hand Measured Variable 0-100% demand to MU-32 i

l l Auto Position 0-100% d===ad to MU-32'  ;

1 Hand Position 0-100% demand to MU-32 l It should be noted that the temperature compensated level signal to LIC-RC14 is the same signal used for the pressurizer high/ low level alarm, the pressurizer heater low-low level interlock, the i pressurizer low-low level alarm and the pressurizer level

] indication on the PRZR LEVEL recorder (LRS-RC14) on C5705.

The vessel is protected from thermal effects by a thermal sleeve

+ in the surge line connection and by a distribution baffle on the i

surge pipe inside the vessel.

i To eliminate abnormal buildup or dilution of boric acid within l the pressurizer and to minimize cooldown of the coolant in the i j spray and surge lines, a bypass flow is provided around the [

l pressurizer spray control valve. This continuously circulates ,

p, approminately 1 GPM of reactor coolant from the discharge of RCP  !

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! A sampling c'onnection to the liquid volume of the pressurizer is ,

i provided for determining the boric acid concentration. A stean '

i space sampling line provides a capability for sampling and/or

} venting accumulated gases.

l Each code safety relief valve discharges to containment atmosphere.

! The code safety relief valves are set at 2500 psig with setpoint  :

j tolerance of 125 psig. Each code safety relief valve has two l' 16l rupture discs with a setpoint of 110 psig. Code relief valve leakage is routed to the quench tank via a 3/4" drain line

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between the relief valve and rupture disc. This drain line is connected to the quench tank eight inch inlet. Quench tank  ;

, 16 pressure aust be osintained less than 90 pois to prevent blowing  ;

i pressure relief valve RC207. Design pressure for the Quench l Tank is 100 pois. -

I j During cooldown, after the Decay Heat Removal System is placed

in service, the Pressurizer can be cooled by circulating water through a connection from the discharge of a decay heat removal j cooler to the pressurizer spray line. When the reactor coolant I j system pressure has been decreased sufficiently (~30 pois, 250*),

j the pressurizer steam bubble is replaced with a nitrogen bubble.

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1 8 SP 1103.05.16 ,

Desian Conditions Material CS with SS cladding Pressure 2500 psis Temperature 670*F Volume of Tank 1502 cu ft (11236 sal)

Volume per inch of Tank Height 24 Gallons ,, ,

Level indication at top of heater bundles 24 inches Spray Flow 190 spa Beight 45 feet Diameter 97 inches Thickness 6.2 inches Normal Operatina Conditions i

Pressure 2155 psis (

) Temperature 647'T l Level 200 inches 7 Bypass Spray Flow 1.0 gym Liquid Volume 889 cu feet

Gas Volume 702 cu feet -

i Electric Heater capacity 163S KW

2. PRECAUTIONS AND LIMITATIONS 1 '

2.2 In conjunction with the PORY is RC-11, the Pressurizer Power i- 16 Operated Relief Isolation Valva (or POR7 Block Valve). The

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l PORV Block Valve can be controlled by HIS-RC11 on RCS Makeup (

and Pressurizer Control Panel C-5705. During normal operation

! the PORY Block Valve should be open and the PORY should be in automatic. If required (cuch as PORY leaking, PORY controls 16l inoperable, valve or NNI maintenance is in progress) the PORV l

Block Valve can be shut by the direction of the Shift Supervisor j per AD 1839.00, " Station Operations". Extended power operation with the PORV Block Valve shut must be done only under the approval of the Statica Superintendent. The PORY is utilized '

in various emergency and abnormal plant procedures for depres-i surization of the RCS, and under such circumstances, if possible the PORY Block Valve should be open to facilitate the procedure.

No credit is taken, however, in Chapter 15 of the USAR for the l 16 l PORV.

2.3 The pressurizer bestup and cooldown rates shall not exceed l ll 100*F/hr as measured by temperature indicator TI RC 15 located in control room or by computer points T776 or T777.

i 2.4 Maximum pressurizer level at any time the reactor is critical is 290 in.

! 2.5 Minimum water level while reactor power is greater than 15% is l 160 inches.

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( NOTE: This water level is the minimum pressurizer water level at which the system can accommodate a reactor ,

trip without causing the pressurizer heaters to be de-energized by the pressurizer lo-lo level interlock (40").

2.6 Ninimum pressurizer water level at any time the reactor i,s, ,

16l critical is shown on Figure 16. (Enclosure 4)

NOTE: This water level is the minimum pressurizer water level at which the systes can accommodate a reactor trip without losing level indication.

2.7 The pressurizer must not be filled with water above 320 inches

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at any time.

2.8 Maximum pressurizer operating temperature is 670'F.

2.9 When the Reactor Coolant temperature is greater than 200'F, a mini- bypass spray flow of 0.75 GPM must be .wintained.

2.10 Nitrogen injected into the pressurizer must not decrease the injection nozzle temperature more than 100'F.

2.11 Nitrogen injected into the pressurizer must not decrease the ,

injection nozzle tempearture below 100*F (NDTT + 60'F) if the RC *

.,, pressure is above 550 peig.

2.12 The pressurizer spray shall not be used if the temperature difference between the pressurizer and the spray fluid is greater than 410'F. (Difference between computer points T774 and 7776 or T777.)

(TS 2.13 Decay Heat Removal system relief valve DH-4949 shall be operable 3.4.2) with a lift setting of $330 PSIG* and isolation valves DH-11 and DH-12 open and control power to their valve operators removed. ,

(Modes 4 and 5) l (TS 2.14 Both pressurizer code safety valves shall be operable with a 16 3.4.3) lift setting of $2525 psig. When not isolated, the pressurizer '

electroostic relief valve shall have a trip setpoint of >2390.

(Modes 1, 2, & 3)

(TS 2.15 The pressurizer sball be operable with a steam bubble and a 3.4.4) water level between 45 inches and 305 inches. (Modes 1 & 2) 16 (TS 2.16 The pressuriser temperature shall be limited to: (Applicability 3.4.9.2) - At all times)

a. A maximum heatup and cooldown rate of 100*F in any one hour ,

period, and  ;

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10 SP 1103.05.16 3

16l b. A maximum spray water temperature differential of 410*F.

c. A minimum temperature of 120*F when the pressure is >625 16l psig.

(TS 2.17 Reactor Coolant System leakage shall be limited to:

3.4.6.2) ** *

a. 1 GPM unidentified leakage (Modes 1, 2, 3 & 4).

b. 10 GPM identified leakage from the RCS (Modes 1, 2, 3, & 4).

2.18 Pressurizer level indication is dependent on containment temperature.

Because an elevated reference leg temperature causes the indicated level to be higher than the actual level, calibration curves must be used to correctly determine presturizer inventory.

These curves are given in Attachments 1-5 for compensated level and Attachments 6-10 for uncompensated level _for reference les temperatures of 68,120,150, 200, and 250*F as measured by indicators TI1356, TI1357, TI1358 or computer points T298, T302, or T306.

These corrections need be considered only under accident conditions which cause high containment temperature. Also note that steam generator and core flood tank level indications will be similarly affected by elevated containment temperature.

3. REIT.RENCES (TS) 3.1 Technical Specificacicas, Sections 3.4.2, 3.4.3, 3.4.4 and 3.4.9.2, 3.4.6.2 3.2 NSSS Limits and Precautions - PP 1101.01 3.3 Plant Shutdown and Cooldown, PP 1102.10 3.4 Plant Startup, PP 1102.02 3.5 Filling and Venting Reactor Coolant System, SP 1103.02 3.6 Draining and Nitrogen Blanketing Reactor Coolant System, SP ,

1103.11 3.7 Operational Chemical Control Limits, PP 1101.04 3.8 Gaseous Radioactive Waste System Operating Procedure, SP 1104.27 3.9 Hydrogen Addition and Degasification Procedure, SP 1102.12 3.10 Nitrogen Purge and Blanketing Procedure, SP 1104.26 16l 3.11 Pressurizer Systems Failures, AB 1203.19

11 SP 1103.05.17

(; 3.12 Boron Concentration Control Procedure, SP 1103.04 3.13 Remote Shutdown Instrument Channel Calibration (Przr Lvl),

ST 5036.02

3.14 Quench Tank Operating Procedure, SP 1103.17 3.15 Nuclear Areas Sampling Procedure, SP 1104.10-3.16 Reactor Coolant System Piping and Instrument Diagram M-030 A/B 3.17 Reactor Coolant System Details P&ID N040A 17l 3.18 Elementary Wiring Diagrams RCS, Drawing No. ES2B, TED File No.

1949

4. PRESSURIZER OPERATION (STARTUP) 4.1 Prerequisites 4

~i 4.1.1 The Reactor Coolant System is filled, vented and ,

pressurizer level is 80 inches or greater, as read on LRS RC 14 in control room, as per SP 1103.02, Filling l and Venting the Reactor Coolant System, Section 5.

i 4.1.2 All combinations of the pressurizer temperature b'

compensated levels read within 18 inches of each other-or work requests have been submitted to initiate i

17 corrective action and open RC146*, Pzr Vent Line to j Quench Tk. RC146 is locked valve, controlled per

AD 1839.02.

i 4.1.3 Power is available to pressurizer instrumentation and controls and pressurizer heater bank circuit breakers, or work requests have been submitted to correct deficient items. (See Enclosures 1 and 2)

NOTE: Power must be available to all essential l heaters.

4.1.4 RC System valves associated with pressurizer operation are positioned in accordance with Valve Verification List A of this procedure.

4.1.5 Containment Equipment Vent Header, Reactor Coolant Drain Tank, Gaseous Radioactive Waste System and Sampling System are operational to allow venting of the pressurizer steam space.

i 4.1.6 Baron concentration has been equalized between the pressurizer and the Reactor Coolant System by using

, , , - --m - - m e-

12 SP 1103.05.17 Pressurizer Spray Valve RC 2 or the normally throttled "

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Bypass Valve, set at I to 3 GPM. ,

NOTE 1: When Reactor Coolant Pumps are not operating, the Decay Heat System will be used to provide pressurizer spray by opening valves 17 DH 2735* and DH 2736*, from DE Pump Discharge to pressurizer spray line. DH 2735 ana ,

DH 2736 are locked valves, controlled per AD 1839.02.

NOTE 2: Limits on boron concentration between the pressurizer and RCS should be (50 ppmB.

Reference PP 1101.01, Section 1.3.3.11. -

4.1.7 The RCS pressure is at 30 to 50 psig with a nitrogen blanket.

4.1.8 Quench Tank operable as per Quench Tank Operating Procedure, SP 1103.17.

4.1.9 Ensure the N System to PRZR Vent Isolation Valve, NN64 is closed.

4.2 Procedure

.3 NOTE: Use in conjunction with Startup Procedure, PP 1102.02. - -p 4.2.1 Establish a vent path from the pressurizer vapor space 17 to the pressurizer quench tank by performing Valve Lineup List F, PRZR Vent Path for Steam Bubble Formation, per PP 1102.02, Plant Startup Procedure.

4.2.2 Unlock RC147* and station an Operator in Containment at RC147*, pressurizer vent throttle valve, with c-mications established to the Control Room.

17l RC147 is a clocked valve, controlled per AD 1839.02.

4.2.3 From the Control Room, on the RCS Makeup and Pressurizer Control Panel, C5705, turn on the pressurizer heaters to begin increasing pressurizer temperature for forming a steam bubble. Monitor pressurizer temperature on TI RC15 and RC pressure on RCS wide range recorder RC 2A1 or RCS low range pressure PI-RC2A6. Pressurizer heater controls and heater bank sizes are listed below. Manipulate heaters to naintain a pressurizer I heatup rate of 100*F/hr.

1 (See Enclosure 3, Pressure and Temperature Limitations for Heatup)

13 SP 1103.05:17 Group Controller Size SCR PIC RC 2 126 KW 17l 2 HIS RC 2-2 280 KW 2A (Essential 1)* HIS RC 2-A 126 KW 17' 3 HIS RC 2-3 280 KW 4 HIS RC 2-4 434 KW 2B (Essential 2)* HIS RC 2-B 126 KW * *

• Essential Heater Banks 1 or 2 are also referred to as Heater Banks 2A or 2B respectively.

NOTE: Heat input from the SCR group can be controlled between minimum and maximum with PIC RC2.

The remaining groups.will be either full on full off.

CAUTION: Refer to PP 1101.04, Operational Chemical Control Limits, Section 4.4.1, Dissolved Oxygen, do not exceed 250*F unless Chen Lab has verified by sample the CL~ and F are _

0.1 ppe from pressurizer liquid space sample. This is to allow 60 hours6.944444e-4 days <br />0.0167 hours <br />9.920635e-5 weeks <br />2.283e-5 months <br /> to get dissolved oxygen in spec.

,g ,4.2.4 When pressurizer pressure exceeds 50 psig, begin y venting nitrogen to the quench tank by throttling 2'17l RC147*. Operate pressurizer heaters as necessary to maintain RCS pressure between 50 and 100 psig.

Venting can be stopped by closing RC 200 from Control 17l Room. RC147 is a locked valve, controlled per AD 1839.02.

NOTE: Early in the venting process most of the gas vented to the quench tank will be nitrogen.

Manual operation (from Control Room) of RC 222 Quench Tank Vent to Containment vent header will be required to keep quench tank pressure below 50 psig. As the venting process continues, level and temperature control of the quench tank will be required to handle the condensed steam.

17 4.2.5 Throttle RC147* or close RC 200 as necessary to keep quench tank pressure below 50 psig. RC147 is a locked valve, controlled per AD 1839.02.

4.2.6 Cycle the pressurizer heaters to maintain RCS pressure between 50 and 100 psig. The SCR controlled heaters can be used for fine pressure control.

4.2.7 Open RC240A and RC240B, Pressurizer Sample Line

.) e

4 14 SP 1103.05.17

's Cont &inment Isolation Valves from the Control Room on . ,

SFAS Panel C5717, use switches HIS 240A and HIS 240B

• to Reactor Sample System Panel C1705. C&HP will periodically sample the pressurizer liquid space to determine if venting is complete. RC 239A must be closed and RC 239B must be opened to allow sampling the pressurizer liquid space.

4 NOTE: The purpose of venting is to remove tros n from the vapor space and to reduce dissolved 4 oxygen in the liquid. Dissolved oxygen must be <100 ppb within 60 hours6.944444e-4 days <br />0.0167 hours <br />9.920635e-5 weeks <br />2.283e-5 months <br /> after exceeding 250*F or the pressurizer must be cold at the end of this 60 hour6.944444e-4 days <br />0.0167 hours <br />9.920635e-5 weeks <br />2.283e-5 months <br /> period.

4.2.8 When venting is complete, perform the following:

17l 1. Complete Valve Lineup List G Returning PRZR Vent Lineup to Normal per PP 1102.02, Plant Startup Procedure.

2. Close RC 240A and RC 240B, Pressurizer Sample Line ,

Containment Isolation Valves, from the Control Room when C&HP determines that sampling is no longer required.

4.2.9 Continue reactor coolant pressurization in accordance with PP 1102.02, Plant Startup Procedure. ~

'.J NOTE: At about 500 PISG the pressurizer heat tracing to the Power Operated Relief Valve l will be energized. This is done by closing breakers 9 and 11 in panel DP 4502 and breaker for circuit IP in panel DP 4602.

4.2.10 Place the pressurizer level indicator controller

+ (LIC-RC14) in automatic mode and adjust the setpoint for 75 inches.

NOTE: Setpoint will be increased as necessary as per PP 1102.02, Plant Startup Procedure.

4.2.11 When the Reactor Coolant System reaches approximately 1900 PSIG, place the pressurizer heaters and spray valve in automatic mode.

1. For heaters: Place switches HIS-RC 2-2, 2-3 and 2-4 l

in "AUT0" for heater banks 2, 3, and 4, respectively; and HIS-RC2A & B in "AUT0" for heater banks 2A & 2B' I (See 5.2.1 Note) and place PIC-RC2 in AUTO for SCR j heaters.

I 2. For pressurizer spray place switch HIS-RC2-1 in AUTO position.

i i

l

, ,,--,.-------.,..n,m-- , ,. .-.,,.n , - . , m , , . - e .. , - . , ,.,,. .s . -v, , -

15 SP 1103.05.15 m

For pressurizer power rt .ief place switch HIS-RC2-6 in

{'^

^

3.

AUTO position.

NOTE: All switches above located in Control Room

, on Panel C5705, left console.

4.2.12 Observe that the heater ;anks shutoff when they reach their respective setpoit ts: (This.will be indichted' by the "0N" or "0FF" lights on their respective i switches.) See Enclosure 7 for setpoints.

Section 4 Completed by Date  ;

I

5. NORMAL OPERATION Signoffs are not required for this section.

5.1 Prerequisites 5.1.1 Quench Tank in operation in accordance with SP 1103.17, Quench Tank Operating Procedure. ,

5.2 Procedure 1 5.2.1 Observe that the pressurizer heater bank automatic control operates at the setpoints listed on Enclosure 7 i

g) of this procedure.

NOTE: If power is lost to Banks 2A or 2B (even momentarily), while hand switches are in AUTO, these banks will not come on until the operator places the switches in the ON position to re-energize them. The purpose 4 of this interlock is to prevent this load from being powered from the Diesel Generators if not required.

i 5.2.2 Observe that the pressurizer spray valve (RC 2) automatic control operates at the setpoints of 2205 PSIG valve opens and.2155 PSIG valve closes. The "0N" and "0FF" lights on switch HIS RC2-1 will indicate

proper operation of automatic control.

NOTE: If this valve was to fail open, it would cause depressurization below 2155 PSIG.

RC 10 would have to be closed to isolate it.

Closing this valve would also stop mini-spray RC 49.

15 5.2.3 At least once a day check code safety relief valves and PORV for valve leakage by using the computer s points listed for above normal temperatures.

v' .

_ ,, . . , _ , _ . . _ _ _, . _ _ . . _ _ . _ . _ _ . . - , __r, _..

2 __. ...._._ _ . . . . __-

(

16 SP 1103.05.17 m

, T 773 PORV, RC2A '

T 010 RC 13B T 011 RC 134 5.2.4 Observe that the PORY (PC2A) control power is available (blue light on console LIT). With HIS-RC2-6 in AUTO, 4

the valve will open at 2425 PSIG and close at 2375

PSIG. The open and closed lights on the console *

• indicate the position of the pilot valve on the power relief. Positive indication of flow through RC2A will be shown by lights and % position meters on panel C5798 and C5799. Computer annunciator alara Z768 vill i alare if any valve alarm modules actuate.

NOTE: If this valve were to fail open, it would

cause depressurization of the RCS. This

! failure would be further_ indicated by increasing Quench Tank pressure and a high RC2A outlet temperature observed on T773.

In this condition, RC11 would have to be closed to isolate RC2A. .

5.2.5 Sample the pressurizer water space weekly as per ,

17l ,,___

Nuclear Areas Sampling Procedure, SP 1104.10, Section j 5.2. If C&HP has determined that the pressurizer o needs to be vented due to excessive non-condensables .

in the pressurizer steam space, vent by one of the ~j following methods.

There are two acceptable methods for venting the pressurizer. The preferred method is to vent the pressurizer to the RC Drain Tank through the Sampling l

System. The alternate method would be to vent the pressurizer to the Pressurizer Quench Tank.

Method I - Ventina Pressurizer to RC Drain Tank

1. Open sample system return isolation valve to RC Drain Tank, SS 808.

{.

t j 2. Position pressurizer sample lines /RCS Cold leg sample

line as follows.

1. Open RC 240A using HIS 240A on C5717 (STAS)

2. Open RC 240B using HIS 240B on C5717~(SFAS) 4

3. Check closed RC4632 using HIS 4632 on C5705

3. Open pressurizer vapor sample valve RC 239A from the

.; control room, panel C5705, Left console, using switch HIS 239A and vent to the letdown line by the normal sampling recire path - SP 1104.10 (Sample System Nuclear Areas Sampling Procedure).

I I

- , , . - , . . , , . - - - - , , .,,___,.,,.,4 ,,.7 _ . , . . . _ _ _ , , .., , ,e, ,

17 SP 1103.05.17 m

(*l 4. Vent continuously until C&HP has determined non-condensable gases have been removed. .

5. When venting is-completed, return all valves back to normal: Close SS 808, RC 240A, RC 240B, RC 239A.

Method II - Ventina Pressurizer to Quench Tank

1. Open RC 200, Pressurizer .ent to Conta'insent Vessel header.

17 2. Open RC 146*, Pressurizer vent to quench tank. RC 146 is a locked valve, controlled per AD ~.339.02.

3. Check closed RC 4632, using HIS 4632 on C5705, RCS coldleg sample line.

4. Close manual isolation valve RC 198 for Containment Vent Header, and pressurizer vent throttle valve 17 RC 147* and RC5007* then open RC5006. RC 5007 and RC 147 are locked valves, controlled per AD 1839.02. ,

5. Open pressurizer vapor sample valve RC 239A from Control Room on Panel C5705, left console, using switch HIS 239A.

,,117

, 6. Open slowly pressurizer vent throttle valve RC 147*.

N/ RC 147 is a locked valve, controlled per AD 1839.02.

7. Vent continuously to quench tank until C&HP has determined noncondensable gases have been removed.

Vent from quench tank to containment vent header using RC 222.

CAUTION: Do not exceed design pressure of CTMT Vent .

Header (50 psig) Monitor pressurizer quench tank for proper level, temperatures and 4

pressure control.

. 8. When renting is completed, return all valves back to nonmal.

5.2.6 Equalize the boron concentration in the pressurizer with the RC System whenever there is a difference of .

17l greater than 50 ppe boron concentration.  !

NOTE: During normal operations, the concentration of boric acid in the pressurizer water compared to RCS is not expected to be a i I

significant problem because the boric acid in the reactor coolant changes slowly with  !

time and there is a continuous flow of about I

1

SP 1103.05.17

~

18 s

1.5 GPM through the spray line allowing ,

water to recirculate slowly between the pressurizer and the main reactor coolant -

stream. The problem is expected to be more critical during startup from a cold condition (especially after refueling) when the boric

. acid in the coolant is rapidly changed.

During such periods, the spray flow should.

be increased so that the rate of recirculation

~

is increased. During cornal operations, an analysis should be made once a week. During startup periods, an analysis should be performed when the reactor is critical and once every shift thereafter for several days.

1. Open pressurizer spray valve Rc' 2_from Control Room using switch HIS RC2-1.

CAUTION: Continue to spray, as long as pressurizer heaters are able to maintain RCS pressure near normal operating pressure (2155 psig). .

2. Continue pressurizer spray until at least one volume of the pressurizer (4800 gal. at normal level of 200")

has been changed. This will take about 30 minutes to complete at a pressurizer spray flow of 160 GPH. ,

\

3. Stop pressurizer spray and allow pressurizer pressure  :?

and level to settle out and then have C&HP take another sample. If boron concentration of pressurizer 17l and RCS is not within 150 ppe, repeat Steps 1 and 2 vatil the limit is reached.

4. After pressurizer and RCS boron concentration is equalized, ensure spray valve is in "AUT0" and level and pressure of pressurizer are back to normal (200" and 2155 psig).

5.2.7 Perform a channel check each shift of all pressurizer level indication. This is done to satisfy TS 4.4.4 Surveillance Requirements which state: The pressurizer shall be demonstrated OPERABLE by verifying pressurizer level to be within 1Luits at least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

NOTE: These will be checked by Miscellaneous Instrumentation Shift Check Procedure, ST 5099.01.

5.2.8 If ISI or RCS hydro walkdowns are.to be performed, manually control the pressurizer heaters and spray valve, to increase pressure to 2195 PSIG. Maintain

>2195 PSIG during the performance of the ISI or RCS

, , _ , , . . . , _ - - . , _ . m.. . . . . . -

t 19 SP 1103.05.14 m

\ '-' hydro walkdown, then return pressure back to 2155 psig. The pressurizer heaters and spray valve can then be returned to Auto.

6. DEPRESSURIZATION (SHUTDOWN /COOLDOWN)

This section will be used in conjunction with SP 1102.10, Plant j Shutdown and Cooldown. .

j 6.1 Prerequisites 6.1.1 The reactor coolant system is in a hot standby condition as per Plant Shutdown and Cooldown Procedure, SP 1102.10, Section 4.0.

6.1.2 Pressurizer has been degassed prior to cooldown and depressurization as per Hydrogen Addition and Degasifica-tion Procedure, SP 1102.12, Section 7.0.

NOTE: Degassing may be needed during cooldown.

^

I 6.1.3 Pressurizer level indicator controller (LIC-RC14) is in Automatic and set to maintain level at 220 inches.

14 l 6.1.4 Pressurizer spray valve RC 2 is in automatic.

i=-

'~'

, 6.1.5 Pressurizer heaters are in "AUT0" maintaining normal -

operating pressure.

l 6.2 Procedure i NOTE: Use in conjunction with Plant Shutdown and Cooldown Procedure, PP 1102.10.

6.2.1 De-energize all pressurizer heaters by turning the following switches to "0FF", located in the control room on panel C5705, left console:

1. Place HIS-RC2-2 to 0FF for Heater Bank 2

2. Place HIS-RC2-3 to 0FF for Heater Bank 3

3. Place HIS-RC2-4 to 0FF for Heater Bank 4

4. Place HIS-RC2A to 0FF for Essential Hester Group 1

5. Place HIS-RC2B to 0FF for Essential Hester Group 2

6. Place PIC-RC2, Pressure Heater Control for SCR Heater Bank, in Manual and reduce setpoint to zero.

6.2.2 Manually control the pressurizer spray valve RC-2, to cool the pressurizer, by turning control switch HIS-RC2-1 to the "0N" position, in the control room on panel C5705, left console. Cycle the pressurizer spray to maintain a cooldown rate as per pressure vs

\,a s .

i i

-~ .--ee- -, , ~- . , ..,.,.,p.-v,,,e,- -, r- --, ,,,7- y , , e, -~ - , -- - - -e,--gm,-, . ,m. , ,.--- ,,

I __ .- . . . ._. _ -_

20 SP 1103.05'.12 S

temperature limitations for cooldown, Figure 2 of NSSS Limits and Precautions, PP 1101.01. ,

6.2.3 Monitor RCS pressure on RCS wide range recorder RC 2A1 or RCS low range pressure indicator PI-RC2A6 and l pressurizer temperature on TI RC15 located on panel C5705, left console, in the control room. Plot the data on RCS pressure vs temperature limitations *curv'e, Enclosure 5.

NOTE: Heaters may be re-energized to maintain pressure, but should not be required.

6.2.4 Maintain pressurizer level at 220 inches to ensure sufficient Reactor Coolant Volume is available for contraction during cooldown.

6.2.5 If required during cooldown to 280*F, vent the pressurizer through the sampling system line to the reactor 12 coolant drain tank. Complete Step 5.2.5 Method I of this procedure, for venting pressurizer to the reactor "

coolant drain tank.

6.2.6 When the RC system pressure is between 350 psig and 600 psig, slowly begin to decrease pressurizer to 60 inches by lowering the setpoint on pressurizer level ~s indicator controller (LIC-RC14) on panel C5705, left console. -

NOTE: This will allow for the removal of the large volume of hot reactor coolant from the pressurizer for further cooling down of RCS and pressurizer before decay heat removal is initiated.

6.2.7 Continue to decrease RCS pressure to 350 psig by spraying the pressurizer as necessary by using Spray Valve RC-2 and while maintaining pressurizer level at 60 inches.

6.'2.8 Continue to decrease the RCS pressure to less than 310 psig, by increasing spray flow if necessary to allow Decay Heat Removal System to be placed in service.

6.2.9 Place pressurizer level indicating controller (LIC-RC14) in manual on panel C5705, left console, and establish a 25 inch per hour increase in pressurizer level, as read on pressurizer level recorder LRC-RC14 on panel C5705, left console.

- :  :; ~

21 SP 1103.05:16

.3

(',' ! 6.2.10 When the Decay Heat Removal System is in operation and Reactor Coolant Pumps are shutdown, close pressurizer

• spray valve RC2, using switch HIS-RC2-1, on panel C5705, left console.

6.2.11 Open pressurizer auxiliary spray stop valve, DH 2735, using switch EIS 2735, on panel C5705, left console.

6.2.12- Slowly open the auxiliary spray throttle valve DH 2736, using switch HIS 2736 on panel C5705, left console, to the pressurizer until a temperature increase in the pressurizer surge line is detected as read on computer point T775. Adjust the auxiliary spray throttle valve (in the close direction) until the temperature returns to its. previous value.

NOTE 1: Do not exceed a cooldown rate of 100*F per hour in the pressurizer.

NOTE 2: This spray adjustment is to prevent pressurizer outsurge into the RC hot leg. The pressurizer ,

surge temperature should be monitored i closely throughout the continuation of i

! cooldown. If the surge line temperature ,

increases again adjust the auxiliary spray l

- s throttle valve (in the close direction) j

( ~j until the temperature returns to its previous- i valve. ,

J 6.2.13 When the RC System pressure is less than 125 psig, stop pressurizer level increase at 280 inches as read 16l on pressurizer level recorder LRS-RC 14 on Panel l C5705, left console. .

6.2.14 When the RC System is at 30 psig and less than 250*F, start adding nitrogen in the pressurizer while quenching the steam bubble by completing the following steps:

i

1. Place pressurizer nitrogen heaters in service per Section 8.1 of SP 1104.37, Freeze Protection and Electrical Heat Tracing Systems.

CAUTION: Nitrogen injected into the pressurizer must NOT decrease the injection nozzle temperature more than 100*F.

2. Ensure RC 240A, pressurizer sample line isolation, l 16l and RC 200, pressurizer vent to containment vent

?

header, are closed. l

3. Open NN64, N2 System to pressurizer vent isolation valve.

xs .

^ ~

C . . . . _ . . . _f. ^ T

~ " ~ ' ^ ^ ^ ~

22 SP 1103.05:16

.3

4. Throttle open RC 239A, pressurizer vapor phase sample line isolation from the Control Room on Panel C5705,  :

left console, using switch HIS 239A to maintain 25-30 ,

psig in the pressurizer.

. CAUTION: Spray valve operation with nitrogen in the pressurizer will require subsequent venting **

of the RC System. .

16 NOTE 1: To keep the hot legs filled solid with water maintain 25-30 psig nitrogen in the pressurizer.

NOTE 2: Pressurizer level may be allowed to decrease from the 280 inch level, but maintain level 16l above 85 inches.

6.2.15 Continue cooldown of RCS to <140*F by decay heat _

removal and by continuing spraying of the pressurizer.

At 140*F RC System temperature, cooldown is considered complete.

Section 6 Completed by Date

7. CALCULATION OF TEMPERATURE - COMPENSATED PRESSURIZER LEVEL 7.1 It is desirable to periodically check the pressurizer temperatures  !

16l

- compensated level indication (LRS-RC14) against the pressurizer uncompensated level indications (LI-RC14-3 and LI-RC14-4) and uncompensated level computer points (L712, L773 and L774).

Figure 1 gives the conversion between compensated and uncompensated level, assuming the pressurizer temperature is 647.4*F (saturation temperature at 2155 psig) and the reference by temperature is 68'F.

7.2 The pressurizer level transmitters are calibrated to read correct level when pressurizer water and reference leg water

- temperatures are 68*T with nitrogen pressure in the pressurizer

_ at 60 psig. Using this information, the following equation cas j be developed

I

! ,, 1 320 X (320 -X) bc* 62.13 V ref leg" V HO ' V stema 2 _

where LUNC is unc spensated pressurizer level indication in inches V ref leg is the specific volume of water in the transmitter l reference legs in ft3 /lb l

X is the actual (compensated) pressurizer level in inches, and l

l i

t I

= . ,

F 23 'SP 1103.05'.14  !

~ s  !

. k. - V H0 is spcme volm of water in the pressurizer in ft%  !

V Steam is the specific volume of steam in pressurizer in ft /lb3 '

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Equipment identification No. RC 2 RC 10 RC 11 RC 239A RC 200 BC 240A RC 2408 RC 239B RC 2A Pressuri- Pressuri- Pressuri- Pressuri- Press Sam- Press Sae- Press Sam- Press Liquid FORY (Power zer Spray zer Spray ser Power zer Vapor pie Line to ple Line ple Line Phase Sample Operated ,

Equipment Name Valve Iso Valve Relief Iso Phase Samp- CTNT Vent Iso Vlv Iso Valve Iso Valve Relief Valve)

Valve le Iso Viv Ndr Viv Control Room MIS-RC2-1 NIS-RC10 MIS-RC11 NIS-RC239A NIS-RC200 MIS-RC240A NIS-RC2408 NIS-RC2398 NIS-RC 2-6 Switch /Pamel # C5705 C5705 C5705 C",735 C5705 C5717 C5717 C5705 C5705 Contrsl Room RC Frar RC Prze Przr Przr Vapor Przr Vent Przr Przr Przr Przr Auto Spray Spray Iso Electro Sample Iso To CTNT Sample Iso Sample Iso Liquid Electro '+

Switch Name Valve Valve Mag Relief Valve Vent Nde Valve Valve Sample Iso Mag Relief Iso Vlv Valve Valve

Breaker No. BF 1260 BE 1129 BE 1602 BF 1126 BF 1285 BE 1181 BF 1128 BF 1127 RC 3716

! (Powered free

& MCC F 125 E IIA E 16B F llA F 12A E 115 F llA F llA DRP30) Cir-cuit SR

, MCC Location Diesel Gee By BWST Ntr #1 Elec North End East Side of Next to Fuel North End North End Near MCC F21A$

Room 2 Penet Room of #2 Elect #2 Low Volt Naadling of #2 Elect of #2 Elect i (Room number) Penet Room Swgr Re Area Penet Room Penet Room Room 319 Room 209 Room 402 Room 427 Room 304 Room 427 Room 427 (Room 310) l Local Control NV RC 2 NV RC 10 NV RC 11 NV RC 239A NV RC 200 NV RC 240A NV RC 240B NV BC 239B Switch No. at MCC at MCC at MCC at MCC at MCC at MCC "

at MCC at MCC N/A 4 F 128 E IIA F 11A F 12A E lit F llA F 11A 3

S. A. Signals None None None None None SA 271E SA 272D None None S

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26 SP 1103.05:17

~g l PRESSURIZER HEATER POWER SUPPLIES , )

i l

PRIR HTR PANEL RFATER RANY MCC RRER NO. RRER/ SWITCH PZR HTR 17 PIC RC 2 F 62 BF 6203 BPH4-05 LB-9-1,9-2,6-2 SCR Controlled East Wall #2 Elec- BPH4-06 LB-7-1,7-2,7-3 Heater Bank trical Penetration BPH4-08 LB-8-1,8-2,5-1 126KW Room 17 RC Pressurizer E61 BE 6102 BPHS-01 UB-4-1,4-2 Bank 2 Heater East Wall #2 Elec- BPHS-02 UB-5-3 280KW trical Penetration BPHS-03 UB-6-3 Room BE 6103 BPH5-05 UB-7 17 BPH5-06 UB-8-1,8-2,3-1 BPHS-08 UB-9-1,9-2 BE 6104 BPH5-09 UB-10 17\ BPH5-10 UB-11-1,11-2 BPRS-11 UB-12 17 Pressurizer Essen E12A BE 1223 BE 1213 MB-1 Heater Bank 1 #1 Low Voltage. BE 1214 MB-2-1,2-3,4-1 126KW Switchgear Room BE 1215 MB-3 RC Pressurizer E62 BE 6202 BPH3-01 UB-13 17 Bank 3 Heater East Wall #2 Elec- BPH3-02 UB-2 280KW trical Penetration BPH3-03 MB-11 Room 17 BE 6203 BPH3-05 Spare BPK3-06 Spare BPH3-08 MB-4-2,4-3 BE 6204 BPH3-09 MB-5 BPH3-10 MB-6 BPH3-11 MB-7 17 l ENCLOSURE 2 Page 1 of 2

4 27 SP 1103.05.17 N

PRZR HTR PANEL .

HEATER RANY MCC RRER NO. RRER/ SWITCH PZR MTR RC Pressurizer F-61 BF 6103 BPH6-06 MB-12 Bank 4 East Wall #2 Elec- BPH6-08 MB-13 434KW trical Penetration 17 l Room BF 6104 BPH6-09 LB-1 BPH6-10 LB-2 17 BF 6102 BPH6-01 MB-8 BPH6-02 MB-9 BPH6-03 MB-10 F-62 BF 6202 BPH4-01 LB-3 17 East Wall #2 Elec- BPH4-02 LB-4-2,4-3 j trical Penetration BPHL-03 LB-5-2,5-3 .

BF 6204 BPH4-09 Spare BPH4-10 LB-10 i

f.

Pressurizer F-12-A BF 1217 BF-1213 LB-11 Essential Hester #2 Low Voltage BF-1214 LB-12 Bank 2 Switchgear Room BF-1215 LB-13 126KW i l

NOTE: Each pressurizer heater is physically 3 (three) heater elements with a total heat capability of 42 KW. l

l 1

l l

l ENCLOSURE 2 Page 2 of 2

'8

- SP 1103.05.0

' cuve PRESSURE and . TEMP LIMITATIONS FOR HEATUP  !

A-4-8-f lematsam prescere for heetup based en Urf L34*F I

.I numsame acs peessure ter doesy haec .y com operastem with ac pop ee htaattene se rettemos 44 ne ac pumps i J ac pump es=nteettone (o pumps-tmp 2. t pump-tmp t) (o pumpe tmp 2. 2 p=pe-Leep 1).

O pump-Leap 2. O pumpe-Leap l). (1 pes

• Lee, 2.1 pump-teep L) and Q pump-tmp 2, 2 pa pe-Leap t) .

• 8 E ac pop commtnettoms (2 pumpe Leep 2. o pumpe-Leap t) and (2 p=pe-tmp 2.1 pop-Leap t) .

angetred ac p o p sustten ter saattnettenes

• I. ac pep esmhtestions (0 pape-Leap 2.2 pumpe-Leop 1) (2 pumpe-tmap 2. 2 pumpe-taer 1) l and O y mp-teep 2. 2 p a pe-teep 1) '

3 Sc pop eenhinestems (2 pape-Leep 2. O pege-Leep 1). and (2 pumpe-teep 2. I pump-Lee,1) o-e-a ac pump esubteestees (f pumps Leep 2. L pep Leep 1). O pump tae, 2.1 pop-Leap t), '

and (1 pump-Lamp 2 J pumpe-tasy 1)

Pt staansa upst for ac pumps - ett sembteettene **

• a, gat niatum pseesuse vs. tems, to estatets fuel ta sempresetes '

• late &sns.a peesesse vs. temp.,t.e_prevens bott.les. et ,.atopwet..hos..t.a.g.

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' 20 10 0 RCS WIDE R AtlGE TEMPER ATURE (TI-RC4A2,821) s ee . .,... .e e e* , io . . e., re-asses.en ENCI.0SURE 3 Page 1;of I

. o..._.. _ . . . - - _ _

. . 29 SP 1103.05.0 s.

Miti; MUM PRCSSURIZER LEVEL vs RC 'TEMPERATURC

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ENCLOSURE 4

. Figure 16 Page 1 of 1 9

30 SP 1103.05.0 PRESSURE and TEMR LIMITATIONS FOR COOLDOWN ,

e.

6440 gammtmas peeseuse for eeeldema bened en DrT*173*F S4 .

1eamAmum als penesese for deser tema eyeeen epoemsten etch aC per esmbtenstems as felleuse -s A4 We RC Fange .

J BC pump eedteestems (0 pumpe-tae, 2,1 pump tme,1). -(0 pumps-Leep 2. 2 pumps-tam,1), . ,#

(1 pump teep 2. O peps tmap 1), (1 pump-tmep 2,1 pop-toop 1) and (1 pump-Leap 2, .

2 pumes-Emer 1)

• E , BC pop somsteettoes (2 pape-Leap 2. O pape= Leap 1) and (2 pape=tmer 2,1 pup-Leap 1) ,

pagessed ac pe r sustica for sammteettemos . g L at pep esubseestems (0 pumpe-tme, 2.2 pups Leop 1) (2 pape-Lamp 2, 2 pumpe-Leap 1) r and (1 pov-Leap 2, 2 pape= Lane 1) e aC pm, seanteesteme (2 pumpe-tae, 2. O p-pe-teep 1), and (2 p-pe-teep 2.1 per-tae,1). I.

e44 at pump eennteestems (e puse-Leap 2.1 pup-tas,1) (1 pump-teep 2,1 pump-teep 1). .

and (1 pu p-Lee ,2, e pumps-Leap t) .

M / miaamm uses for aC p-po . att eeshnessame ,. .

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, RCS WIDE RANGE TEMPERATURE (TI r'tC4A2,82 *1')

i.e . se se*, e.e ew n-esees es ENCLOSURE 5 Page 1 of 1

i

• 31 SP 1103.05.17

~x Sheet No. 1 of 3 VALVE VERIFICATION LIST A Enclosure 6 Pressurizer (Normal Operation) j Verification List Only - Consult Shift Supervisor Prior to Repositioning Valve M-030 17 P&ID No. VALVE VALVE VERIFY IND. VER.

l VALVE DESCRIPTION Coord. NUMBER POSITION BY BY i

Purse Line Drain Isolation D-5 RC 55 Closed Purge Line Drain Stop Valve D-5 RC 56 Closed Pressurizer Spray Header Inlet Manual Iso C-11 RC 48 Open Pressurizer Spray Valve C-10 RC 2 Closed Normally Pressurizer Mini Flow C-10 RC 49 Throttled Pressurizer Spray Motor Isolation C-9 RC 10 Open Pressurizer Spray Edr Outlet Manual Iso C-9 RC 50 Open m Pressurizer Spray Valve Bypass C-10 RC 2621 Closed

( . . Open/ Closed l Pressurizer Electromaanetic Relief Iso B-4 RC 11 per Shift Supervisor Pressurizer Electromagnetic Relief A-3 RC 2A Closed Pressurizer Vapor Phase Sample Line Iso B-3 RC 239A Closed Pressurizer Liquid Phase Sample Line Isolation D-3 RC 239B Closed Pressurizer Sample Line Vent Valve B-3 RC 52 Closed Pressurizer Sample Line Isolation B-2 RC 240A Closed Pressurizer Sample Line Stop Valve B-1 RC 240B Closed Pressurizer Sample Line Drain C-2 RC 53 Closed Pressurizer Sample Line Drain C-1 RC 54 Closed Closed l Pressurizer Vent Isolation Valve B-3 RC 200 M-040A Surae Line Drain to RC Drain Tk Hdr B-10 RC 87 Closed Pressurizer Vent to Ctat Vent Hdr M-040A, Outlet Iso J-3 RC 82 Open 1 Indicating light IL285 will light when RC 262 is fully open. l l

. _ . _ - _ . _ _ _ _ _ _ _ _ . . . _ . . . ~ . _ _ _ . . . . _ _ _ _ .. ._. . _ . . _ . . . . . 's 32 SP 1103.05.17 Sheet No. 2 of 3 VALVE VERIFICATION LIST A 7) l i- Enclosure 6 j Pressurizer (Normal Operation) 1 il Verification List Only - Consult Shift Supervisor Prior to Repositioning Valve M-030 L 17 P&ID No. VALVE VALVE VERIFY IND. VER.

! VALVE DESCRIFFION Coord. NUMBER POSITION BY BY i

i Pressurizer Level Instrumentation Source D-5 RC 14A Open l.

Pressurizer Level Instrumentation Source D-5 RC 14B Open l

j In Pressurizer Level Transmitter LT-RC14-2 D-5 Service l Pressurizer Level Instrumentation Source C-5 RC 14C Open Pressurizer Level Instrumentation Source C-5 RC 14D Open

! In L Pressurizer Level Transmitter LT-RC14-3 C-5 Service l

I, Pressurizer Level Instrumentation Source C-5 RC 14E Open Pressurizer Level Instrumentation Source C-5 RC 14F Open ,

La j L Pressurizer Level Transmitter LT-RC14-1 C-5 Service Press Vapor Space Pressure Transmitter In PT-412 C-5 Service N, Supply to PRZR Vent Iso Valve C-3 NN 64 Closed PZR Vent Line Drain Viv to CTMT Vent Hdr A-3 RC 148 Closed Locked 17l A-3 RC 146* Open PZR Vent Line to Quench Tank Isolation PZR Vent Line Vent Viv to CTNT Vent Hde A-3 RC 145 Closed 17 Locked PZR Vent Line Throttle Viv A-3 RC 147* Open PZR Vent Line to CTNT Vent Rdr Inlet Isolation A-3 RC 198 Closed Locked PZR Sample Line Manual Isolation Valve B-3 RC 170* Open Locked PZR Sample Line Manual Isolation Valve B-3 RC 170A* Open RCS Cold Les Sample Inlet Isolation Valve D-3 RC 260 Open 17 RCS Cold Les 2-1 Drain Isolation G-3 RC 32 Open

• Controlled per AD 1839.02.

L

33 SP 1103.05.17 m Sheet No. 3 of 3 VALVE VERIFICATION LIST A Enclosure 6 Pressurizer (Normal Operation)

Verification List only - Consult Shift Supervisor Prior to Repositioning Valve M-030 .

17 P&ID No. VALVE VALVE VERIFY IND. VER.

l VALVE DESCRIPTION Coord. NLHBER POSITION BY BY RCS Cold Les Sample Valve C-3 RC 4632 Closed Locked PRZR vent line inlet to R04614 A-3 ,

RC 5007* Open PRZR vent line bypass to R04614 A-3 RC 5006 Closed

• Controlled per AD 1839.02 Reviewed by Date (Shift Supervisor or Assistant Shift Supervisor) , j

$ h s

f &

C _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ . _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . . _ _ _ . _ . _ _ . _ _ _ _ _ _ . _ . _ . _ _ _ . . _

l -

34 ST 1103.05'.15 '

ENCLOSURE 7 PRESSURIZER SETPOINT DIAGRAM ,

PRESSURE SETPOINTS LEVEL SETPOINTS AS READ ON PRS RC2A1 AS READ ON LRS RC14 (PSIG) (INCHES) ,, ,

327 Upper Connection for Level Transmitter 2500 Pressurizer Safety Valves Open 320 Maximum Level Indication 2450 Pressurizer Safety Valves Rescat 15 2425 Electromatic Relief Valves Open 275 High-High Level Alarm 2375 Electromatic Relief Valves Closed 220 High Level Alarm 2205 Spray Valve Opens 2155 Spray Valve Closes, Normal Operating 200 Normal Operating Level Pressure, Hester Bank 2 (2A) goes off 2140 Heater Bank 3 goes off 180 Low level alarm 2135 Heater Bank 2 (2A) goes on 2125 Heater Bank 4 (23) goes off 40 Low-Low Level Alarm Pressurizer heater interlock

",, / j 2120 Hester Bank 3 goes on (

26 Start to uncover o heaters.

2105 Heater Bank 4 (2B) goes on 2055 -r RCS Low Pressure Alars

_. ,s

( ," . ,) .

~

PRESSURIZER HEATER /DH11 AND DH12 INTERLOCK f i

SFAS CMANNEL 1 SFAS CHANNEL 4 i_

n 0 {

d 6 d i

~

} _ NV DH 12 _ MV DMil

-[PSH7528A [PSH7531A '

RC 4604 1 - (BA 113) RC 4605 1 -

! ~ ~

120 VAC ~ ZS DN11A 120 VAC ZS DN12A (from Y1) i (from Y2) 7 i, i

i PSM 7528X PSM 7528Y PSH 7531X PSH 7531Y *

, r 1 r U

I,i .

{J l

OUTPUT RELAY PRESSLEIZER MEATERS OtrTPUT RELAY PRESSURIZER MEATERS =

PSE 7528X it!S RC2A (essential) PSH 7531X HIS RC2B (essential)

PSM 7528Y HIS RC2-2 PSH 7531Y HIS RC2-4 MIS RC2-3 PIC RC-2 -

] 2E  %

II O NOTE: (1) Wen PSM 75281, PSM 7528Y, PSH 7531X, PSM 7531Y are energized, the respective heaters are permitted to-

-l be energized, y l, (2) MVDHil, MVDN12, ZSDN11A and ZSDR12A are all shown with DHil closed and DH12 closed.

[N ,

S. ,

l (3) PSM7528A, PSN7531A are shown with RCS pressure less than 301 psig. - .

I. 6 I.________ -. ._ _ _-. __ ,-

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