Forwards Info Required for NRC Review of Licensee Pump & Valve Inservice Test Programs in Response to NRC 761124 & 780116 Requests.Drawings Available in Central Files Only

ML19262C582
Person / Time
Site:	Calvert Cliffs
Issue date:	02/05/1980
From:	Lundvall A BALTIMORE GAS & ELECTRIC CO.
To:	Reid R Office of Nuclear Reactor Regulation
References
NUDOCS 8002140574
Download: ML19262C582 (35)
v • d • e

Text

.

B ALTIMORE G AS AND ELECTRIC COMPANY s

P.O. BO X 14 7 5 B A LTIM O R E. M A R Y L A N D 2120 3 ARTH U R C. LUN OVALL,.)R.

"[""J"'

February 5, 1980 Office of Nuclear Reactor Regu'ation U.S. Nuclear Regulatory commission Washington, D.C.

20555 ATTENTION:

Mr. Robert W. Reid, Chief Operating Reactors Branch #4 Division of Operating Reactors GENTLEMEN:

SUBJECT:

Calvert Cliffs Nuclear Power Plant Unit No. 1, Docket 50-317 Compliance with 10 CFR 50.55a

REFERENCES:

(a) NRC Letter Dated 11/24/76 from Ziemann to Lundvall (b)

N'<C Letter Dated 1/16/78 from Davis to Lundvall As requested by Reference (a) the following information is hereby sub-mitted. Deference (b) describes the information required for your re-view of licensee pump and valve inservice test programs. Enclosures 1 and 2 provide the requested information for Calvert Cliffs Unit No. 1.

The inservice test program described in Enclosures 1 and 2 will be utilized during the twenty-month inservice test period beginning May 8, 1980. Testing will be performed in accordance with Section XI of the ASME Boiler and Pressure Vessel Code 1974 Edition, and Addenda through sumer 1975.

Should you have further questions regarding our pump and valve inservice test program we would be pleased to discuss them with you.

Very truly yourr, L

\\k L A. E. Lundvall, Jr.

Vice President-Supply ph f) b'.

O AEL/SMD/gfc y

O ENCLOSURE (2)

Y O

eoo2>4o594

/

Page 1 of 3 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - PUMPS i

PARAMETERS MEASURED

~

DIFFER-VIBRA-LUBRI-ASME INLET ENTIAL TION CANT BEARING ASME CODE CLASS 1, 2, 3 PUMPS CLASS PRESSURE PRESSURE FLOWRATE AMPLI-LEVEL TEMPER-TUDE ATURE 11 High Pressure Safety Injection 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note 1 12 High Pressure Safety Injection 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note l 13 High Pressure Safety Injection 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note 1 11 Low Pressure Safety Injection 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note 3 12 Low Pressure Safety Injection 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note 3 11 Containment Spray 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note l 12 Containment Spray 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note 1 11 Boric Acid 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note 3 '

12 Boric Acid 2

Note 1 Note 1 Note 2 Note 1 Note 1 Note 3 11 Reactor Coolant Charging 2

Note 5 Note 4 Note 1 Note 1 Note 1 Note 3 12 Reactor Coolant Charging 2

Note 5 Note 4 Note 1 Note 1 Note 1 Note 3 13 Reactor Coolant Charging 2

Note 5 Note 4 Note 1 Note 1 Note 1 Note 3 11 Salt Water 3

Note 6 Note 1 Note 7 Note 1 Note 8 Note 1 12 Salt Water 3

Note 6 Note 1 Note 7 Note 1 Note 8 Note 1 13 Salt Water 3

Note 6 Note 1 Note 7 Note 1 Note 8 Note l 11 Service Water 3

Note 1 Note 1 Note 7 Note 1 Note 1 Note l 12 Service Water 3

Note 1 Note 1 Note 7 Note 1 Note 1 Note 1 13 Service Water 3

Note 1 Note 1 Note 7 Note 1 Note 1 Note 1 11 Component Cooling 3

Note 1 Note 1 Note 7 Note 1 Note 1 Note l 12 Component Cooling 3

Note 1 Note 1 Note 7 Note 1 Note 1 Note 1 13 Component Cooling 3

Note 1 Note 1 Note 7 Note 1 Note 1 Note l 11 Auxiliary Feedwater 2

Note 1,9 Note 1,9 Note 2,9 Note 1,9 Note 1,9 Note 1,9 12 Auxiliary Feedwater 2

Note 1,9 Note 1,9 Note 2,9 Note 1 S Note 1,9 Note 1,9 NOTES:

l.

Test parameters are measured monthly in accordance with IWP-6240 during operation.

Page 2 of 3 s

2.

The inservice test is conducted via a bypass loop (recirculation line) per Section XI Article IWP 1400.

Therefore the pump discharges into a fixed resistance system as defined by Section XI Article IWP 2118.

Table IWP 3100-1 footnote 1 requires measuring either differential pressure or flowrate but not both in fixed resistance systems. Accordingly, differential pressure and not flowrate is measured.

3.

The low pressure safety injection, boric acid, and reactor coolant charging pumps have no provision for bearing temperature measurr Mnt.

In lieu of this instrument-ation, bearing enc.csure temperature is measured with a contact pyrometer.

4.

The reactor coolant charging pumps discharge into a fixed resistance system as defined by Section XI Article 2118.

Table IWP 3100-1 footnote 1 requires measuring either differential pressure or flowrate but ~not both in fixed resistance systems. Accordingly, flowratt and not dif-ferential pressure is measured.

5.

Reactor coolant charging pump suction pressure is not measured. The reactor coolant charging pumps normally take their suctions from the outlet of the volume con-trol tank. The volume control tank is equipped with an automatic make-up system to prevent low level operation.

If volume control tank level should decrease, a low level alam is provided to alert the operator to the need for corrective action.

If volume control tank level continues to decrease, a low-low leven alarm is actuated and charging pump suction is automatiMly shifted to the refueling water tank. Should the charging pumps be starved for. flow as the result of a piping rupture or inadvertent valve closure, a decreasing flow rate would be observed and the pump would trip on low suction pressure.

It is felt that these systems provide adequate indication of and protection from a low suction pressure condition.

6.

Saltwater pump suction pressure taps do not exist. The pump suction is situated seven feet below Chesapeake Bay mean low water level. Suction pressure is therefore a function of bay water level. This level is recorded and is used to com-pute pump suction pressure. Each salt water pump takes its suction directly from the intake bay throuch two redundant suction canals. The canals, which are ten feet in length and *.hree feet across at their narrowest dimensions, service no other comoonents. The canals are unvalved, straight, and contain no restrictions. Sluice gates, located at the mouth of each canal are locked open to prevent inadvertent closure.

Trash racks and traveling screen assemblies, located upstream from the canals, ensure that debris cannot enter and obstruct the salt water pump suctions. Salt water pump suction losses are therefore considered to be negligible.

Pa'ge 3 of 3 Relief from the requirement to measure salt water pump suction pressure T(as granted in NRC letter of June 17, 1977 from. Davis to Lundvall.

7.

The inservice test is conducted with the pumps discharge valve shut thereby placing it in a fixed resistance system as defined by Section XI Article IWP 2118. Table IWP 3100-1 footnote 1 requires measu"q either differential pressure or flowrate but not both in fixed resistance systems. Accordingly, dif-ferential pressure and not flowrate is measured. Observation of the temperature rises across cooled components during nor-mal system operation verifies that adequate system flow exists and pump suction lines are not blocked.

8.

The saltwater pumps hate grease lubricated bearings. Observation of lubricant level is therefore not appropriate. The bearings are greased in accordance with the manufacturer's instructions on a regular preventative maintenance schedule.

9.

The aux.fliary feed water pumps are equipped with variable speed drives. Per the requirements of Section XI Article IWP-3100 pump speed is adjusted to a reference speed during measurement of the inservice test parameters.

S 9

~

)

SS KE CT OO LN A

1 A A

A A

A A

A A

A A

A A

A A

A A

R N

M N

N N

N N

N N

N N

N N

N N

N N

N EE TE NS I(

)

S E

9 T

2 TEO 2

SPN 1

1 1

1 1

1 1

1 1

1 1

1 1

1 2

1 2

1 f

EY e

o TTE r

E u

1 S

s

(

o e

l

)

g c

a YS n

P CE E

NT TEO SUN 7

7 7

7 7

7 7

7 7

7 7

7 7

8 7

8 7

8 EQ 1

1 1

1 1

1 1

1 1

1 1

1 1

1 1

1 1

i TEERE FS S

(

EV I

L X

A Y

V NR OO IG C

C C

C C

C C

C C

C C

C C

C C

C C

C TE M

CT A

EA R

SC G

O S

R ES P

1A 2

2 1

2 2

1 2

2 1

2 2

1 2

1 2

1 2

1 t

SL T

AC S

I E

D T

R 0

4 4

2 4

4 2

4 4

3 4

4 3

2 1

2 1

2 1

E C

0 C

C C

D 0

0 E

F F

F G

G B

B b

D E

E I

C VR E

S D

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 4

N I

7 7

7 7

7 7

7 7

7 7

7 7

7 7

7 7

7 7

I P

M M

M M

M M

M M

M M

M M

M H

M M

M M

1 ON T

I N

U S

K K

F C

C F

K K

E K

K E

K K

I C

C l

C C

l C

C i

i L

N E

E C

E l

H C

O H

H l

E C

E E

H i

C i

I C

C C

C C

T T

R R

K C

K K

R P

N N

D N

N D

N N

E I

O O

H O

O H

O O

K E

C C

K V

R I

I I

I I

I i

C li K

H K

E K

L C

T T

N T

T N

T T

C i

E E

C t

l A

S A

A O

A A

O A

A C

C C

C l

C i

C E

L L

I L

L I

L L

E E

C E

D O

O T

O O

T O

O K

O O

K T

H T

H i

l S

S C

S S

C S

S C

S S

C E

C E

C T

C I

I E

I I

E I

I E

I I

E L

L E

J J

H l

T T

T T

L T

i C

C U

E U

E T

E N

N R

R I

R R

I R

R R

R O

L O

l O

N L

U L

D D

N D

D I

H Y

H R

I l

D D

D D

f I

I I

i R

H H

Y I

I I

I T

T D

D K

K K

I I

E I

I E

I I

H I

I l

T P

T P

T P

l S

S F

S S

F S

S S

S O

O O

I P

A P

P A

P P

I P

P I

I O

I O

I O

P I

L S

H L

S H

L S

H L

S S

L S

L S

L A

A A

B B

B A

A A

8 B

B A

A B

B A

A 1

1 1

1 1

1 2

2 2

2 2

2 1

1 1_

1 2

2 1

1 1

1 1

1 1

1 1

1 1

1 1

1 1

1 1

1 N

O I

T 3

4 8

3 4

8 3

4 8

3 4

8 5

7 5

7 5

7 EA 1

1 1

2 2

2 3

3 3

4 4

4 1

1 2

2 3

3 VN 1

1 1

1 1

1 1

1 1

1 1

1 2

2 2

2

?

2 LG I

I I

I I

I I

I I

I I

I I

I I

I I

I AI VS S

S S

S S

S S

S S

S S

S S

S S

S S

S E

D

~

)

SS KE CT OO LN R

A A

A A

A A

A A

A A

A A

A A

A A

A A

EE N

N N

N N

N N

N N

N N

N N

N N

N N

N TE NS I(

2

)

S e

E r

T 9

u TEO 2

3 6

3 6

6 7

s SPN EY 2

1 4

4 4

4 4

4 7

4 7

4 o

f l

TTE o

1 5

1 5

5 1

c E

n S

2 E

(

e

)

g YS a

CE P

NT TEO SUN 7

8 7

A A

9 A

A 7

9 A

A 0

9 A

0 A

1 EQ 1

1 1

N N

1 N

N 1

1 N

N 2

1 N

2 N

2 TEERE FS S

(

E V

I L

X A

Y V

NR OO C

C C

IG C

C C

E E

A E

E C

A E

E C

A E

C E

C TE M

CT A

EA R

SC G

O S

R ES P

MA 2

1 2

2 2

2 2

2 2

2 2

2 2

2 2

2 2

2 SL T

AC SE D

T R

0 1

0 1

0 0

2 1

9 9

6 6

7 1

9 5

9 7

1 5

1 1

4 1

E C

O G

G C

C B

B C

G G

H G

F B

H G

G F

F I

C VR E

S D

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 4

N I

7 7

7 7

7 7

7 7

7 7

7 7

7 7

7 7

7 7

I P

M M

M M

M M

M M

M M

M M

H M

M M

M M

1 R

R P

P S

S ON T

T M

M K

K T

T T

C K

C I

N N

E C

E N

C C

H E

H U

C H

C O

O C

S T

T N

O N

F O

K K

R E

S R

F S

T C

C T

U D

I U

I K

I E

E E

E T

I T

L N

H L

N H

H L

E S

W E

C O

C L

T O

C C

T R

O R

C I

A K

U I

U L

R T

T O

W F

W I

U C

O T

R P

K H

H N

E C

H O

H O

T O

C E

I C

C C

A H

X U

C S

C X

L N

L E

K V

R E

S S

M C

H S

S I

S H

F C

N F

R C

L C

H K

I I

I I

I E

A S

C C

D D

G P

D D

G M

X H

C E

E R

R N

M R

N N

R N

H C

D T

H P

P D

D I

U P

D P

I I

D P

I E

C P

P H

H L

P P

H P

L M

H P

M G

L O

O N

T T

T Y

Y Y

Y O

Y Y

Y Y

O Y

Y Y

Y I

C U

E A

A A

A C

A A

A A

C A

A A

A L

U G

L R

R R

R R

R R

R R

R R

R O

S N

P P

P P

N P

P P

P N

P P

P P

O I

S S

S S

W S

S S

S W

S S

S S

C P

K O

O P

T P

T T

T T

D T

T T

T D

T T

T T

N O

M M

H M

T M

M M

M T

M M

M M

W I

I O

T T

T T

U T

T T

T H

T T

T T

O S

S L

N N

N N

H N

N N

N H

N N

N N

D P

B 8

l H

C C

C C

S C

C C

C S

C C

C C

T 2

2 1

1 1

1 1

2 2

2 2

2 1

2 2

2 iH 3

1 1

1 1

1 1

1 1

1 1

1 1

1 1

1 1

S 1

N O

I T

5 7

3 4

5 6

9 1

3 6

4 9

4 0

3 4

0 1

EA 4

4 1

1 1

1 1

2 2

2 2

2 3

4 4

4 0

0 VN 2

2 3

3 3

3 3

3 3

3 3

3 3

3 3

3 4

4 LG AI I

I I

I I

I I

I I

I I

I I

I I

I I

I VS S

S S

S S

S S

S S

S S

S S

S S

S S

S E

D

~

)

SS KE CT OO LN R

A A

A A

A A

A A

A A

A A

A A

A A

A A

EE N

N N

N N

N N

N N

N N

N N

N N

N N

N TE NS 2

I(

e

)

r S

u E

s T

9 o

TEO l

2 SPN 7

c f

EY 1

1 7

7 7

1 1

4 4

4 1

7 4

4 4

4 4

n o

TTE E

E 1

3 S

(

e

)

g YS a

P CE NT TEO SUN EQ 7

0 7

0 0

0 7

7 A

A A

7 0

A A

A A

A 1

2 1

2 2

2 1

1 N

N N

1 2

N N

N N

N TEERE FS S

(

EV I

L X

A Y

V NR OO IG TE C

C C

C C

C C

C E

E E

C C

E E

E E

E M

CT A

EA R

SC GO S

R ES 1

P A

2 2

2 2

2 2

2 2

2 2

2 2

2 2

2 2

2 2

fSL T

AC S

E D

T R

0 0

0 0

1 1

1 O

9 1

9 1

1 1

9 9

1 7

1 9

1 8

8 8

9 9

E C

O F

E E

E D

F D

H B

H B

B B

D F

F A

A I

C VR E

4 S

D 7

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 N

I 7

7 7

7 7

7 7

7 7

7 7

7 7

7 7

7 7

M I

P M

M M

M M

M M

M M

M M

M M

M M

M l

0 5

1 1

O S

T O

I W

N R

P T

0 F

O I

5 S

O T

N O

1 S

U K

K K

S K

I I

A I

N K

C C

C I

C S

S R

S C

E E

P P

S T

U F

E l

E E

G H

L L

C W

T F

l i

H H

L I

i C

C C

T C

O C

V R

E C

C S

O O

C R

L N

N N

N i

W R

O T

T 1

N I

N T

T O

O C_

R R

R K

S I

R U

U U

H O

N U

T T

T E

T T

D T

T T

C D

O T

E E

F L

R P

K H

K E

E E

K G

T I

K E

L L

Y F

T E

I C

C R

R R

C E

L l

T C

R T

T L

0 U

l l

l V

R E

E E

G C

i C

E U

P K

O l

l l

l L

C H

T i

0 O

O C

A N

S C

O U

E X

l l

U W

l R

S i

l U

O O

P A

t A

S C

li C

C C

E L

L L

l O

T L

F H

H l

l W

O L

X X

S L

l D

S l

F F

F C

H i

H S

D A

H G

N G

C P

C C

I T

M C

G G

N O

N S

P S

N N

N S

D G

R S

N L

L I

I I

l I

I I

I I

I iH L

O I

I C

C L

T L

D I

D M

M M

D P

S C

N D

M O

C O

S H

N N

O E

O P

I P

P P

P P

l P

P P

P P

W W

C 1

C P

P I

P P

P P

P P

P F

P P

P O

O N

S D

D l

I 2

I I

I I

I I

I I

I I

T T

Wi I

NH S

1 S

S S

S S

S S

S S

S 1H i

T E

T 1

J P

P P

P P

P P

P P

P P.

l O

Y 0

t D

T D

H A

H I

H I

H L

L S

i L

1 S

S I

I C

U F

i l

3 1

2 2

1 3

1 2

1 V

1 1

1 1

2 H

A H

1 1

1 1

1 1

1 1

1 C

1 1

1 1

1 S

S 5

l f

0 I

T 5

0 4

2 4

6 7

4 1

2 4

6 8

6 7

8 9

0 EA 0

1 1

2 2

2 2

3 4

4 4

4 4

5 5

5 5

6 VN 4

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 4

4 LG AI I

I I

I I

I I

I I

I I

I I

I I

I I

I VS S

S S

S S

S S

S S

S S

S S

S S

S S

S E

D

Page 4 of 29 CALVERT CLIFFS UNIT N0.1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVi ASt!E SECTION XI FREQUENCY TYPE INTERLOCKS DESIGilATION DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SI-463 SI LEAK 0FF TO RWT 150.

M-74 A-5 1

E NA 4

NA SI-352 SittlTDOWil COOLING llX RECIRC M-74 C-6 2

E NA 4

NA SI-325 12 CflTMT SPRAY HEADER MANUAL ISO.

M-74 11 - 6 2

E NA 4

NA SI-432 12 LPSI PP SUCT ISO.

M-74 H-11 2

E NA 4

NA SI-491 11A SI.TK. NITROGEN INLET CilK.

M-74 B-3 2

C 22 3

flA SI-440 12 LPSI PP SUCT FROM SDC llDR.

M-74 11-11 2

E NA 4

NA SI-450 12 LPSI PP MIfl FLOW RECIRC CllK.

M-74 11-11 2

C 20 7

NA SI-492 11B SI TK. NITROGEN INLET CilK.

M-74 C-3 2

C 22 3

NA SI-452 11 SilVTD0tlfi COOLING llX INI.ET XCONN M-74 C-9 2

E NA 4

NA SI-453 12 SilVTD0llN COOLING llX INLET XCONN M-74 G-9 2

E NA 4

NA SI-455 SI LEAK 0FF RETURN llDR. lACKUP 150.

M-74 A-5 2

A NA 4, 6 NA SI-493 12A SI TK. NITROGEN INLET CitK.

M-74 E-3 2

C 22 3

NA SI-494 128 SI TK. filTROGEN INLET Cl1K.

M-74 F-3 2

L 22 3

NA SI-4146 RilT GUTLET CilK.

M-74 B-11 2

C 17 1

NA SI-4147 RilT GUTLET CilK.

M-74 C-11 2

C 17 1

NA SI-4148 CflTNT SilMP OUTLET CilK.

M-74 J-7 2

C 23 8

NA SI-4149 CilTMT SUMP OUT_ET CilK.

ft-74 J-7 2

C 23 8

NA SI-4153 RWT RECIRC. PP DISCll. CilK.

M-74 D-13 2

C 22 9

NA

)

SS KE CT OO LN R

A A

A A

A A

A A

A A

A 7

7 7

9 A

A A

EE N

N N

N N

N N

N N

N N

2 2

2 2

N N

N 2

TE NS e

I(

ru

)

s S

o E

l T

c 9

TEO SPN 6

0 0

0 0

0 0

b 0

0 0

n 2

EY 5

5 5

5 5

5 4

1 1

1 1

1 1

l 1

1 1

E f

TTE o

E 5

S 5

(

e

)

g YS a

CE P

NT TEO SUN EQ 9

4 4

4 4

4 4

A 2

2 5

2 2

2 2

2 2

6 1

2 2

2 2

2 2

N 2

2 2

2 2

2 2

2 2

2 TEERE FS S

(

E V

I L

X A

Y V

NR OO IG TE A

C C

C C

C C

E B

B B

8 B

B B

B 8

B M

CT A

EA R

SC G

O S

R ES P

MA 2

2 2

2 2

2 2

2 2

2 2

2 2

2 1

2 2

2 SL T

AC S

E D

T R

0 5

5 2

8 6

3 9

7 2

3 2

5 4

5 2

2 3

2 E

C O

B B

B B

C C

C E

B A

B B

B C

B C

C C

I C

VR E

S D

4 2

2 2

2 2

2 4

4 4

4 4

4 4

4 4

4 4

N I

7 5

5 5

5 5

5 7

7 7

7 7

7 7

7 7

7 7

I P

M M

M M

M M

M M

M M

M M

H M

M M

M M

1 O

N T

I N

K U

H C

S F

E K

F DOC O.

O

.O

.O

.O L

I I

TE TK TK TKTKTK O

L N

S H

H H

H H

H R

C O

YC YC YCYCYCYC T

I TL L

L L

L L

N T

T MPT PT PTPTPTPT O

R P

TPE PE PEPEPEPE C

E I

NUL UL UL ULULUL 0

V R

CSN SN SNSNSNSN 5

E L

C I

I I

I I

I Y

1 G

Y A

S L

A L

C E

RRR RRRRRRRRRR P

P K

P D

DDE DEDEDEDEDE L

P 0

0 O

A P

HHT HTHTHTHTHT O

U 5

5 O

E U

L L

L L

L L

R L

S T

1 1

L L

L S

T YYIYI YI YI YI YI T

L N

L N

AAFAFAFAFAFAF N

I 2

E P

P I

I 2

E RR R

R R

R R

O F

N V

O O

S V

F N

V PPI.PLPLPLPLPL C

O O

P L

SSASASASASASA 4

0 0

0 0

0 0

W K

K K

V L

L K

K K

TTCTCTCTCTCTC O

T T

T I

I T

T T

MMRMRMRMRMRMR L

S S

X K

TTATATATATATA F

I I

I P

P l

C S

S S

H I

I I

NNHNHNHNHNHNH S

S S

L H

A CCCCCCCCCCCCC I

S A

A A

A A

A A

B 8

B 1

111213212223 P

1 1

1 1

1 1

1 1

1 1

111 1111 111111 L

1 1

1 1

1 1

1 1

1 1

N O

3 4

5 6

7 8

I 0

4 4

4 4

4 4

6 1

2 3

5 6

7 8

1 2

3 T

3 9

9 9

9 9

9 0

1 1

1 1

1 1

1 2

2 2

EA 3

4 4

4 4

4 4

3 6

6 6

6 6

6 6

6 6

6 VN LG I

I I

I I

I I

I I

I I

I I

I I

I I

I AI S

S S

S S

S S

S S

S S

S S

S S

S S

S VS E

D

~

Page 6 of 29 CALVERT CLIFFS UNIT NO.1 - INSERVICE TEST PROGRtM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SI-625 11B LPSI LOOP ISO.

H-74 D-4 2

B 22 10 27 SI-626 11B HPSI LOOP ISO.

M-74 D-5 2

B 22 10 27 SI-627 11B AUX. HPSI LOOP ISO.

M-74 E-5 2

B 22 10 27 SI-628 11B CHK. VLV. IFAKAGF CONTR0!

M-74 D-2 1

B 22 10 29 SI-631 12A SI TK. FILL M-74 E-2 2

B 22 10 NA SI-632 12A SI TK. N2 SUPPL _Y M-74 E-3 2

B 22 10 NA SI-633 12A SI TK. VENT M-74 D-2 2

B 26 10 NA SI-635 12A LPSI LOOP 150.

M-74 F-5 2

B 22 10 27 SI-636 12A HPSI LOOP 150.

M-74 E-5 2

lB 22 10 27 SI-637 12A AUXILIARY HPSI LOOP ISO.

M-74 E-4 2

B 22 10 27 SI-638 12A CHK. VLV. LEAKAGE CONTROL M-74 E-2 1

B 22 10 29 SI-641 12B SI TK. FILL M-74 F-2 2

B 22 10 NA SI-642 128 SI TK. N2 SilPPLY M-74 F-3 2

B 22 10 NA SI-643 12B SI TK. VENT M-74 F-2 2

8 26 10 NA SI-645 128 LPSI LOOP ISO.

M-74 G-5 2

B 22 10 27 SI-646 12B llPSI LOOP ISO.

M-74 G-5 2

8 22 10 27 SI-647 12B AUX. IIPSI LOOP 150.

M-74 F-5 2

8 22 10 27 SI-648 12B CHK. VLV. LEAKAGE CONTROL M-74 G-2 1

B 22 10 29

~

Page 7 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY YPE INTERLOCKS DESIGNATI0fl DESCRIPTION P&ID CO-ORD CLASS CATEGORY (SEE NOTES) (t.c NOTES)

(SEE NOTES)

SI-651 SHilTDOWN COOLING RETilRf1 150 M-74 H-3 1

E, A NA 4, 6 30 SI-652 SHilTD0 tift CLG. RETilRfl ISOLATION M-74 H-2 1

E, A NA 4, 6 30 SI-653 HPSI HDR. X CONN.

M-74 E-9 2

E NA 4

NA SI-654 IIPSI HDR. ISOLATION M-74 F-7 2

E NA 4

NA SI-655 HPSI HDR. X CONN.

M-74 D-9 2

E NA 4

NA SI-656 AllX. HPSI HDR. ISO.

M-74 D-8 2

F 22 4

27 SI-657 SHIJTDOWN COOLING TEMP / FLOW CONTROL M-74 E-7 2

E NA 4

NA SI-658 LPSI SUPPLY TO SilllTDOWil COOLING M-74 E-8 2

E NA 4

NA SI-659 MINIMUM FL0tl RETURN TO RWT M-74 A-11 2

B 22 10 31 SI-660 MINIMUM FL0tl RETilRN TO RWT M-74 A-11 2

n 22 10 31 SI-661 SI LEAK 0FF RETilRN TO RCDT M-74 A-4 2

8 22 10 29 SI-662 SHilTDOWN CLG RECIRC. TO 13 HPSI PP M-74 F-10 2

B 22 10 NA SI-663 SHUTDOWN CLG RECIRC. TO 11 HPSI PP M-74 C-10 2

8 22 10 NA SI-4142 RWT GUTLET M-74 B-11 2

B 22 10 NA SI-4143 RWT GUTLET M-74 C-12 2

B 22 10 NA SI-4144 CNTMT SUMP OllTLET 150.

M-74 J-4 2

8 22 10 32 SI-4145 CNTMT StlMP OtJTLET ISO.

M-74 J-4 2

B 22 10 32 SI-4150 11 CNTMT SPRAY llDR. 150.

M-74 B-5 2

B 22 10 27

)

SS KE CT O0 l

Lf R

7 A

A A

A A

A A

A A

A A

A A

A A

A A

EE 2

N N

N N

N N

N N

N N

N N

N N

N N

N TE NS I(

2

)

S E

e T

r 9

u TEO 2

SPN 0

0 0

0 0

0 0

0 0

0 1

1 1

9 3

3 s

1 1

1 1

1 1

1 1

1 5

1 1

1 9

9 o

EY f

l TTE o

6 1

1 c

E S

n 8

E

(

e

)

g YS a

CE P

NT TEO SUN EQ 2

2 2

6 6

6 6

6 6

9 2

2 2

6 4

7 7

7 2

2 2

2 2

2 2

2 2

4 2

2 2

2 3

2 1

1 TEERE FS S

(

E V

I L

X A

Y V

R l

t0O C

IG TE 8

8 B

B B

B B

8 B

C C

C C

C C

C M

CT A

EA A

R SC GO S

R ES P

1 A 2

2 2

2 2

2 2

2 2

2 2

2 2

2 2

2 2

2 iSL T

AC S

E D

T R

0 O

4 2

9 6

6 3

3 9

9 4

2 2

2 2

3 3

8 1

E C

O H

F F

R C

B C

B C

G G

H J

F E

F H

J I

C VR E

S D

4 2

2 2

2 2

2 2

2 3

3 3

3 3

3 3

3 3

r4 I

7 5

5 5

5 5

5 5

5 7

7 7

7 7

7 7

7 7

I P

M M

M M

M M

H M

M M

M M

M M

M M

M M

1 0

t O

0 t

S 5

T I

1 I

E N

G G

V U

N N

L A

V V

I I

S S

S E

E V

L L

F U

J V

V E

E V

V F

O 0'

L V

L K

V V

I D

D 0

O 0

0 O

0 A

L A

C L

L L

N 5

S 5

5 S

5 V

V V

E A

A K

K C

O R

R 1

I 1

1 I

1 H

V V

H H

I E

E K

K K

C C

C T

T T

T T

T T

T T

T C

C C

K K

R P

0 L

L E

E E

E E

E E

E E

T C

C E

I 5

I I

OL OLOLOLOLOL E

H H

H E

E E

H H

V R

1 F

FTfl Tll TNTNTtiTN V

C C

C L

H H

C C

L C

I I

I I

I L

N C

C S

S

.I A

S A

I I

I C

E R

R RRR RRRRRRRRRR V

H H

H E

E D

D D

D D

DDE DEDEDEDEDE C

C C

1 l

t t

H H

HHT HTHTHTHTHT K

S S

S G

I I

P P

L L

L L

L L

C I

I I

H L

L P

P Y

Y YYI YIYI YI YI YI E

D D

D C

D D

A A

AAF AFAFAFAFAF H

R R

RR R

R R

R R

C P

P P

X G

G I

I P

P PPL PLPLPLPLPL M

M M

H H

H C

C S

S SSA SASASASASA T

U U

U C

C A

A 0

0 0

0 0

O E

P P

P T

T TTC TCTCTCTCIC L

l B

A C

C r

M M

MMR MRMRMRMRMR T

E 2

1 I

I T

Tl TTA TATATATAT A U

G G

G G

1 1

R R

N NNH NHNHNHNHiH G

H H

H E

O O

t f

C C

CCC CCCCCCLCLC C

C C

R P

P B

B T

O O

2 1

211 2112221323 C

1 2

3 1

O O

1 2

1 1

111 111111 1111 V

1 1

1 1

L L

1 1

l t

0 1

9 0

2 3

4 5

6 7

2 5

1 7

4 6

7 7

2 I

5 5

6 5

5 5

5 5

5 6

6 7

7 8

8 8

1 2

T 1

1 1

9 9

9 9

9 9

1 1

1 1

1 1

1 2

2 EA 4

4 4

4 4

4 4

4 4

Vt C

C C

C C

C C

C C

4 LG I

I I

I I

I I

I I

V V

V V

V V

V V

V AI S

S S

S S

S S

S S

C C

C C

C C

C C

C VS E

D

Page 9 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID C0-ORD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

CVC-728 CONC. R.A. TK. GRAVITY FEED CHECK VLV.

M-73 J-5 2

C 35 1

NA CVC-235 B. A_ t_ ' _ RECT FEED CHK. VLV.

M-73 G-6 2

C 35 1

NA CVC-435 LOOP.

..ARGE STOP BYPASS CHECK M-73 F-3 2

C 24 1, 2 NA CVC-501-MOV VCT GUTLET ISOLATION M-73 E-4 2

B 24 10 19 CVC-508-MOV 12 CONC. BA TNK. GRAVITY FEED STOP M-73 J-11 2

B 22 10 27 CVC-509-MOV 11 CONC. BA TANK GRAVITY FEED STOP M-73 H-8 2

B 22 10 27 CVC-510-C'1 11 BA PP RECIRC. STOP M-73 G-8 2

B 22 10 29 CVC-511-CV 12 BA PP RECIRC. STOP M-73 G-11 2

B 22 10 29 CVC-512-CV MAKE-UP STOP M-73 n-5 2

B 22 10 29 CVC-514-MOV BPD ACID DIRECT FEED STOP M-73 G-6 2

B 22 10 27 CVC-515-CV LETOOWN STOP M-73 F-1 1

A 26 6, 10 29, 36 CVC-516-CV LETDOWN STOP M-73 F-2 1

A 26 6, 10 29, 36 CVC-517 -CV AUX. SPRAY LINE STOP M-73 D-3 l'

A, E NA 4, 6 NA CVC-518-CV LOOP 128 CHG. LINE STOP M-73 E-3 1

A 22 6, 10 NA CVC-519-CV LOOP 11A CHG. LINE STOP M-73 F-3 1

A 22 6, 10 NA CVC-505 RCP SEAL LEAK 0FF 150.

M-73 0-4 2

A 26 6, 10 37 CVC-506 RCP SEAL LEAK 0FF ISO.

M-73 0-3 2

A 26 6, 10

'37 RC-100E-CV PZR SPRAY VALVE M-72 C-8 1

B 26 10 38

)

SS KE CT OO LN R

8 A

A A

A A

A A

A 7

7 7

7 A

A A

A A

EE 3

N N

N N

N N

N N

3 3

3 3

N N

N N

N TE NS I(

)

2 S

E e

9 r

T 2

TEO 0

0 0

0 0

u f

SPN 0

0 0

2 1

1 1

1 1

s EY 1

4 4

1 1

3 1

4 9

4 9

4 4

o o

l TTE E

6 6

6 6

6 c

0 n

S 1

E

(

e

)

g YS a

P CE NT TEO SUN EQ 6

A A

1 1

4 2

2 A

2 2

2 2

2 A

2 A

A TEE 2

N N

5 5

3 2

2 N

P 2

2 2

2 N

2 N

N RE FS S

(

E V

I L

X A

Y V

NR OO IG TE B

E E

B B

C C

A E

A A

A A

C E

C E

E M

CT A

EA R

SC GO S

R ES P

1 A f

1 1

1 3

3 3

3 3

3 1

1 1

1 3

8 3

3 3

SL T

AC S

E D

1 T

R 2

1 1

1 2

1 0

9 9

9 1D/

1 1

1 1

2 2

2 3

4 5

4 5

5 E

- /0 C

D D

D E

AC1 A

A A

A A

8 B

B G

G 1

H F

1 I

C V

R E

S D

2 2

2 2

2 2

2 2

2 6

6 6

6 8

8 8

8 8

N I

7 7

7 7

7 7

7 7

7 6

6 6

6 5

5 5

5 5

I P

M M

M M

M M

M M

M M

M M

M M

M M

M M

1 ON T

I N

U S

F F

V V

I L

L L

N E

V V

C O

K K

V I

H H

V L

T T

C C

C A

K K

R P

E E

V C

C E

I E

V T

T T

T E

V E

S V

R V

L E

E E

E V

L E

i E

E E

E P

I L

L L

L A

L

'L i.

G G

G P

L C

L A

A S

A V

N N

N N

A V

P A

R R

R R

C E

S S

V I

I I

I V

M V

A A

ll C

S i

l A

A P

D S

S N

E A

l i

C l

F l

A A

T I

2 W

W 2

E L

S F

C C

E P

P N

A N

D D

N L

P F

S S

S S

V Y

Y E

R P

M D

0 I

I I

I M

A I

T D

D D

D N

L B

B V

D A

K K

K K

A S

U U

N V

E E

K K

T T

T T

S Q

C P

P P

P O

V V

N N

D I

M M

M M

C Y

L L

A A

i H

H i

R I

L E

U U

U U

l l

T A

A T

T C

C C

C O

U L

P P

P P

X R

V V

N N

N N

P Q

G P

P l

H E

E E

E A

I E

M P

P P

P i

l S

Y Y

C C

U U

U U

V L

L A

F F

F F

i A

A N

N Q

Q Q

Q S

S S

S S

C R

R R

E E

R R

T S

Z P

P U

U 1

1 1

1 Z

Z 0

C 1

1 2

2 I

P S

S O

Q 1

1 1

1 P

P 1

R 1

1 1

1 D

1 N

V V

V V

V O

C V

V C

C C

C I

C C

T F

0 5

6 7

4 2

3 6

7 9

EA 0

9 0

0 1

7 1

6 6

6 6

6 6

0 0

0 0

0 VN 0

1 2

0 0

4 5

4 4

4 4

4 1

1 1

1 1

LG 1

2 2

4 4

2 2

5 2

5 6'

5 5

AI P

P P

P P

VS C

C C

C C

2 W

W 2

S S

S S

F F

F F

F E

R R

R R

R N

D D

N P

P P

P S

S S

S S

D

Page 11 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTI0tl P&ID CO-ORD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SFP-115 11 SFP C00LFR OUTLET M-58 C-6 3

E NA 4

NA SFP-120 12 SFP COOLER OllTLET M-58 E-6 3

E NA 4

NA SFP-124 SFD COOLER OllTLET X CONN.

M-58 D-6 3

E NA 4

NA SFP-147 SFP PURIFICATION DISCll. TO 11 SFP M-58 E-7 3

E NA 4

NA SFP-148 SFP PURIFICATION DISCH. TO 21 SFP M-58 E-8 3

E NA 4

NA SFP-150 12 SFP COOLER OllTLET THROTTLE VLV.

M-58 E-7 3

E NA 4

NA SFP-151 21 SFP DISTRIBUTION HDR. INLET M-58 E-7 3

E NA 4

NA SFP-152 IINIT 2 SHUTDOWN COOLING RETURN TO 21 SFP M-58 D-7 3

E NA 4

NA SFP-154 UNIT 1 SHllTDOWN COOLING RETURN TO 11 SFP M-58 C-7 3

E NA 4

NA SFP-155 11 SFP COOLER OUTLET TilROTTLE VLV.

M-5G C-7 3

E NA 4

NA SFP-156 11 SFP DISTRIBUTION HDR. INLET M-58 C-7 3

E NA 4

NA SFP-158 21 SFP LOW SilCTION M-58 A-6 3

E NA 4

NA SFP-159 21 SFP HIGH (NORMAL) SUCTION M-58 A-6 3

E NA 4

NA SFP-160 21 SFP HIGH (NORMAL) SUCTION M-58 A-7 3

E NA 4

NA StP-164 11 SFP LOW SilCTION M-58 A-4 3

E NA 4

NA SFP-165 11 SFP HIGH (NORMAL) SUCTION M-58 A-4 3

E NA 4

NA SFP-166 11 SFP HIGH (NORMAL) SUCTION M-58 A-4 3

E NA 4

NA SFP-187 12 SFP PP SUCT. FR0ft 21 REFUELING P0OL M-58 H-3 3

E NA 4

NA i

^

Page 12 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST l

TEST VALVE ASf1E SECTID" YI FREQUENCY ~

TYPE INTERLOCKS DESIGNATI0fl DESCRIPTION P&ID CO-0RD CLASS CATEG0h.

(SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SFP-188 12 SFP PP SilCT. FROM 21 RWT M-58 H-3 3

E NA 4

NA SFP-190 11 PP SilCT. FROM 11 SFP M-58 F-3 3

E NA 4

NA SFP-192 11 PP SilCT. FROM 11 RtlT M-58 F-2 3

E NA 4

NA SFP-193 11 PP SilCT. FR0f t 11 SFP M-58 E-3 3

E NA 4

NA SFP-194 11 PP Si1CT. FROM 11 SFP M-58 F-3 3

E NA 4

NA SFP-197 X CONN.11 AND 12 SFP PP SilCT.

M-58 F-3 3

E NA 4

NA SFP-198 12 PP SUCT. FROM 21 SFP M-59 L-4 3

E NA 4

NA SFP-199 12 PP SilCTION FROM 21 SFP M-58 F-4 3

E NA 4

NA EAD-5462-MOV UNIT 1 CNTMT SU'1P DRAIN M-76 H-3 2

A 22 6, 10 37 RCW-4260-CV 11 RCDT PP DISCH. CNTMT 150.

M-77 C-2 2

A 22 6, 10 37 WGS-2180 CNTMT WASTE GAS HFADER VENT M-78 B-2 2

A 22 6, 10 37 WGS-2181 CNTriT WASTE GAS HEADER VENT M-78 B-3 2

A 22 6, 10 37 CPA-1410 CNTf1T PilRGE DISCil.

M-65 B-11 2

A 22 25, 10 37, 39 CPA-1411 CNTitT Pl1RGE DISCH.

M-65 8-11 2

A 22 25, 10 37, 39 CPA-1412 CNTMT PURGE Sl1PPLY M-65 C-11 2

A 22 25, 10 37, 39 CPA-1413 CNTitT PilRGE SilPPLY M-65 C-11 2

A 22 25, 10 37, 39 RE-5291 PURGE A1.R SAMPLE 150.

M-98 A-9 2

A 22 6, 10 37 RE-5292 PURGE AIR SAf1PLE ISO.

M-98 A-9 2

A 22 6, 10 37

Page 13 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TE$T TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID CO-ORD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

PH-6579-MOV UNIT 1 CONTMT HEATING OUTLET ISO.

M-71 A-3 2

A 22 6, 10 37 FW-133 11 S/G FW HDR. CHK.

M-39 H-2 2

C 40 9

NA FW-130 12 S/G FW HDR. CHK.

M-39 H-5 2

C 40 9

NA FW-4516-MUV 11 S/G FW ISO.

M-39 G-2 2

B I

41 10 42 FW-4517-MOV 12 S/G FW ISO.

M-39 G-5 2

B 41 10 42 AFN-102 11 AFW PP DISCH. CHK.

M-39 E-3 2

C 43 1, 12 NA AFW-116 12 AFW PP DISCH. CHK.

M-39 F-4 2

C 43 1, 12 NA AFW-129 AFW CHK. VLV. TO 11 S/G M-39 H-2 2

C 44 1, 12 NA AFW-130 AFW CHK. VLV. TO 12 S/G M-39 H-5 2

C 44 1, 12 NA AFW-4511-CV AFW REG. VLV. TO 11 S/G M-39 H-1 2

B 22 10 NA AR4-4512-CV AFW REG. VLi. TO 12 S/G M-39 J-2 2

B 22 10 NA MS-4043-CV 11 S/G MSIV M-35 E-9 2

B 45 10 42 MS-4048-CV 12 S/G MSIV M-35 D-9 2

8 45 10 42 EAD-5463-MOV HNIT 1 CNTMT SUMP CNTMT ISO.

M-76 J-6 2

A 22 10 37 PS-6529-SV RCDT SAMPLE 150 M-463 F-3 2

A 22 10 37 PS-6531-SV PZR QUENCH TK SAMPLE 150 M-463 F-5 2

A 22 10 37 IA-175 INST. AIR TO CNTMT CHK.

M-53 D-8 2

A 24 9

NA IA-2080-MOV INST. AIR HDR CNTMT 150.

M-53 E-8 2

A 26 10 37

Page 14 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM VALVES TEST TEST VALVE ASHE SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

BD-4010-CV 11 S/G StlRF. BLOW ISO.

M-35 F-13 2

B 22 10

37. 46 BD-4011-CV 11 S/G BOTTOM BLOW 150.

M-35 C-11 2

B 22 10

37. 46 BD-4012-CV 12 S/G SURFACE Bt0W ISO.

M-35 A-12 2

B 22 10

37. 46 BD-4013-CV 12 S/G BOTTOM BLOW ISO.

M-35 C-11 2

B 22 10

37. 46 SW-103 11 SW PP DISCH. CHK.

M-49 C-5 3

C 22 9

NA SW-107 12 SW PP DISCH. CHK.

M 39 C-8 3

C 22 9

NA SW-111 13 SW PP DISCH. CHK.

M-49 C-10 3

C 22 9

NA SW-112 13 SW PP DISCH. TO 11 HDR.

M-49 C-10 3

B 22 10 NA SW-113 13 SW PP BACK-llP DISCH. TO 11 HDR.

M-49 C,-10 3

B 22 10 NA SW-114 13 SW PP DISCH. TO 12 HDR.

M-49 C-10 3

8 22 10 NA SW-115 13 SW PP BACKUP DISCH. TO 12 HDR.

M-49 C-10 3

B 22 10 NA SW-5149-CV EMERGENCY SW DISCH. TO BAY M-49 C-12 3

B 26 10 NA SW-5160-CV 11 CC HX SW INLET M-49 G-10 3

B 22 10 29, 47 SW-5206-CV 11 CC HX SW OUTLET M-49 J-9 3

B 22 10 29, 47 SW-5162-CV 12 CC HX SW INLET M-49 C-11 3

8 22 10 29, 47 SW-5208-CV 12 CC HX SW NORMAL OUTLET M-49 J-10 3

8 22 10 29, 47 SW-5163-CV 12 CC HX NORMAL BACKUP OUTLET M-49 H-10 3

B 22 10 29, 47 SW-5165-CV 12 CC HX SW AUX. OUTLET M-49 H-10 3

B 22 10 NA

Page 15 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SW-5166-CV 12 CC HX SW AtlX. BACKilP OUTLET M-49 H-11 3

B 22 10 NA SW-5170-CV 11 ECCS PUMP RM. AIR CLR SW INLET M-49 F-11 3

8 22 10 NA SW-5171-CV 11 ECCS PUMP RM. AIR CLR SW OUTLET M-49 G-13 3

B 22 10 NA SW-5173-CV 12 ECCS PUMP RM. AIR CLR SW INLET M-49 F-11 3

B 22 10 NA SW-5174-CV 12 ECCS PlHP RM. AIR CLR SW OUTLET M-49 G-12 3

B 22 10 NA SW-5175-CV 12 ECCS PUMP RM. AIR CLR BKUP OUTLET M-49 J-10 3

B 22 10 NA SW-5177-CV 12 ECCS PP RM. AIR CLR AUX. DUTLET M-49 F-12 3

B 22 10 NA SW-5178-CV 12 ECCS PP RM. AIR CLR AUX. BACKUP OUTLET M-49 F-11 3

B 22 10 NA SW-5150-CV 11 SRW HX SW INLET M-49 F-3 3

8 22 10 NA SW-5210-CV 11 SRW HX SW OUTLET M-49 G-1 3

8 22 10 27, 47 SW-5209-CV 11 SRW HX SW OUTLET THROTTLE VALVE M-49 G-2 3

B 22 10 27, 47 SW-5152-CV 12 SRW HX SW INLET M-49 F-3 3

B 22 10 (9

SW-5212-CV 12 SRW HX SW NORMAL OUTLET M-49 G-2 3

B 22 10 27, 47 SW-5153-CV 12 SRW HX SW BACKUP OUTLET M-49 H-2 3

B 22 10 27, 47 SW-5155-CV 12 SRW HX SW AUX. DUTLET M-49 G-2 3

B 22 10 NA SW-5156-CV 12 SRW HX SW AUX. BACKUP OUTLET M-49 F-3 3

8 22 10 NA SW-5214-CV 12 SRW HX SW OUTLET THROTTLE VALVE M-49 G-2 3

B 22 10 27, 47 SW-5250-M0V CW PP RM. AIR CLR IHLET M-49 C-1 3

B 22 10 29

Page 16 of 29 CALVERT CLIFFS UNIT NO-. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE AS!!E SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID C0-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SW-5251-MOV CW PP RM. AIR CLR BACKUP INLET M-49 C-1 3

B 22 10 29 CC-111 11 CC PIMP SilCT.

M-51 C-11 1

E NA 4

NA CC-112 11 CC PUMP SilCT.

M-51 C-11 3

E NA 4

NA CC-113 11 CC PilMP DISCH. TO STBY. HDR.

fi-51 C-10 3

E NA 4

NA CC-114 11 CC PUMP DISCH. TO NORMAL HDR.

M-51 C-10 3

E NA 4

NA CC-115 11 CC PUMP DISCH. CHK.

M-51 C-10 3

C 22 9

NA CC-116 12 CC PilMP SUCTION M-51 0-11 3

E NA 4

NA CC-117 12 CC PUMP SUCTION M-51 0-11 3

E NA 4

NA CC-118 12 CC PtJMP DISCH. TO NORMAL HDR.

M-51 D-10 3

E NA 4

NA CC-119 12 CC PilMP DISCil. TO STBY. HDR.

M-51 D-10 3

E NA 4

NA CC-120 12 CC PilMP DISCH. CHK. VALVE M-51 D-10 3

C 22 9

NA CC-121 13 CC PP SUCT.

M-51 E-11 3

E NA 4

NA CC-122 13 CC PUMP SUCT.

M-51 E-11 3

E NA 4

NA CC-123 13 CC PilMP DISCH. TO STBY HDP.

M-51 E-10 3

E NA 4

NA CC-124 13 CC PilMP DISCH. TO NORMAL HDR.

M-51 E-10 3

E NA 4

NA CC-125 13 CC PilMP DISCH, CHK.

M-51 E-10 3

C 22 9

NA CC-147 11 CC HX STRY. HDR. SUPPLY M-51 B-8 3

E NA 4

NA CC-148 11 CC HX NORMAL HDR. SUPPLY M-51 B-8 3

E NA 4

NA

Page 17 of 29 CALVERT CLIFFS UNIT NO-. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASi1E SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID C0-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

CC-154 12 CC HX NORMAL HDR. SUPPLY M-51 A-8 E

NA 4

NA CC-155 12 CC HX STRY. HDR. SUPPLY M-51 "8

3 E

NA 4

NA CC-161 CC HX OlHLET X CONN.

M-51 A-6 3

E NA 4

NA CC-162 CC SUPPLY HDR.

M-51 A-6 3

E NA 4

NA CC-163 CC SUPPLY HDR.

M-51 B-6 3

E NA 4

NA CC-259 SUPPLY TO 11 SD HX M-51 F-6 3

E NA 4

NA CC-260 SD COOLING HX 11 INLET X CONN.

M-51 F-7 3

E NA 4

NA CC-261 SHUTDOWN COOLING HX 11 INLET M-51 F-7 3

E NA 4

NA CC-264 SUPPLY TO SD COOLING HX 12 M-51 E-6 3

E NA 4

NA CC-265 SD COOLING HX 12 INLET X CONN.

M-51 E-7 3

E NA 4

NA CC-266 SD COOLING HX 12 INLET M-51 E-7 3

E NA 4

NA CC-3824-CV CC HX 11 OUTLET M-51 B-7 3

B 22 10 NA CC-3826-CV CC HX 12 OUTLET M-51 A-7 3

B 22 10 NA CC-3828-CV SDHX 11 OUTLET M-51 F-8 3

B 22 10 27 CC-3830-CV SDHX 12 OUTLET M-51 E-8 3

8 22 10 27 CC-3832-CV CC SUPPLY TO CONTAINMENT M-51 A-5 3

A 26 6, 10 37 CC-3833-CV CC RETURN FROM CONTAINMENT M-51 G-5 3

A 26 6, 10 S'

CC-3840-CV LIO. WASTE EVAP. ISO.

M-51 A-9 3

8 22 10 37

Page 18 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

CC-3842-CV LIO. WASTE EVAP. 150.

M-51 A-9 3

B 22 to 27 SRW-117 13 SRW PP SUCT. ON 11 SUBSYSTEM M-4 6 G-2 3

8 22 10 NA SRW-118 13 SRW PP SUCT. ON 11 SUBSYSTEM M-46 G-2 3

B 22 10 NA SRW-119 13 SRW PP SUCT. ON 12 SUBSYSTEM H-46 G-2 3

B 22 10 NA SRW-120 13 SRW PP SUCT. ON 12 SUBSYSTEM M-46 G-2 3

B 22 10 NA SRW-121 13 SRW PP DISCH. TO 11 SUBSYSTEM M-46 G-3 3

8 22 10 NA SRW-122 13 SRW PP DISCH. TO 11 SUBSYSTEM M-46 G-3 3

B 22 10 NA SRW-123 13 SRW PP DISCH. TO 12 SUBSYSTEM M-46 G-3 3

B 2'

10 NA SRW-124 13 SRW PP DISCH. TO 12 SUBSYSTEM M-46 G-3 3

B 22 10 NA SRW-136 11 CNTMT CLR MAN SUPPLY FROM 12 SUBSYSTEM M-46 G-4 3

E NA 4

NA SRW-137 11 CNTMT CLR MAN SUPPLY FROM 12 SRW SUBSYS. M-46 G-4 3

E NA 4

NA 11 LNIMI CLR DISCH. MANUAL STOP TO SRW-140 12 SRW SUBSYSTEM M-46 F-7 3

E NA 4

NA 11 CNTMT CLR DISCH. MANUAL STOP BACKUP TO SRW-141 12 SUBSYSTEM M-46 F-7 3

E NA 4

NA SRW-143 12 CNTMT CLR MAN SUPPLY FROM 12 SUBSYSTEM M-46 E-10 3

E NA 4

NA 12 SRW-144 12 CNTMT CLR MAN SUPPLY BACKUP FROM SUBSYS. M-46 E-10 3

E NA 4

NA SRW-147 12 CNTHT CLR DISCH. MAN STOP M-46 E-13 3

E NA 4

NA SRW-148 12 CNTMT CLR DISCH. MAN STOP M-46 E-13 3

E NA 4

NA SRW-150 13 CNTMT CLR MAN SUPPLY FROM 11 SUBSYSTEM M-46 J-4 3

E NA 4

NA

e Page 19 of 29 CALVERT CLIFFS UNIT NO. 1 - If1 SERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATI0fl DESCRIPTION P&ID CO-ORD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SRW-151 13 CNTMT CLR MAN SUPPLY FROM 11 SUBSYSTEM M-46 J-4 3

E NA 4

NA 13 CNTMT CLR DISCll. MAN STOP TO SRW-154 11 SRW SUBSYSTEM M-46 G-7 1

F NA 4

NA 13 CflTMT CLR DISCH. MAN STOP BACKUP TO SRW-155 11 SUBSYSTEM M-46 G-7 3

E NA 4

NA SRW-157 14 CNTMT CLR MAN SilPPLY FROM 11 SilBSYSTEM M-46 F-10 3

E NA 4

NA 14 CNTMT CLR MAN SUPPLY BACKilp FROM SRW-158 11 SUBSYSTEM M-46 F-10 3

E NA 4

NA SRW-161 14 CNTMT CLR DISCH. MAN STOP TO 11 SUBSYS.

M-46 F-13 3

E NA 4

NA 14 CNTMT CLR DISCH. MAN STOP BACKUP TO SRW-162 11 SUBSYSTEM M-46 F-13 3

E NA 4

NA DIESELS TO 12 SRW SUBSYSTEM SRW-174 DIScilARGE HDR STOP M-46 F-10 3

E NA 4

NA 12 DIESEL GEN DISCHARGE IIDR SRW-175 STOP TO 11 SRW SUBSYSTEM H-46 E-10 3

E NA 4

NA 12 IlltSLL GEN llI5 CHARGE HDR.

SRW-176 STOP TO 12 SRW SUBSYSTEM M-46 E-10 3

E NA 4

NA SRW-314 11 SRW PP DISCil. CHK.

M-46 F-2 3

C 22 9

NA SRW-315 12 SRW PP DISCH. CHK.

M-46 G-2 3

C 22 9

NA SRW-316 13 SRW PP DIScil. CilK.

M-46 H-2 3

C 22 9

NA SRW-317 11 CNTMT CLR. IllLET CHK.

M-46 G-5 3

C 22 9

NA SRW-318 12 CNTitT CLR. INLET CHK.

M-46 E-11 3

C

._ ??

9 NA SRW-319 13 CNTMT CLR. INLET CilK.

M-46 J-5 3

C 22 9

NA SRW-320 14 CNTMT CLR. INLET CHK.

M-46 J-9 3

C 22 9

NA SRW-321 11 DIESEL GEN DISCl1ARGE CHECK VALVE M-46 G-9 3

C 53 52 NA

Page 20 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SRW-322 12 DIESEL GEN. DISCHARGE CHECK VALVE M-46 0-9 3

C 53 52 NA SRW-1381-CV 11 CNTMT CLR. NORMAL INLET M-46 F-5 3

8 22 10 NA SRW-1582-CV 11 CNTMT CLR. EMERG. DISCH.

M-46 E-6 3

B 22 10 48 SRW-1583-CV 11 CNTMT CLR. NORMAL DISCH.

M-4 f, 0-6 3

B 22 10 NA SRW-1584-CV 12 CNTMT CLR. NORMAL INLET M-46 E-11 3

B 22 10 NA SRW-1585-CV 12 CNTMT CLR. EMERG. DISCH.

M-46 E-12 3

B 22 10 48 SRW-1586-CV 12 CNTMT CLR. NORMAL DISCH.

M-46 D-12 3

B 22 10 NA SRW-1593-CV 14 CNTMT CLR. EMERG. DISCH.

M-46 G-12 3

B 22 10 48 SRW-1594-CV 14 CNTMT CLR. NORMAL DISCH.

M-46 F-12 3

B 22 10 NA SRW-1596-CV 11 SFP COOLER SRW DISCHARGE M-46 B-8 3

B 22 10 48 SRW-1597-CV 11 SFP COOLER SRW INLET M-46 C-10 3

8 22 10 48 SRW-1637-CV TURBINE BLDG. SRW HDR. ISO.

M-46 B-11 3

B 26 10 29 SRW-1638-CV TURBINE BLDG. SRW HDR. 150.

M-46 A-12 3

8 26 10 29 SRW-1639-CV TURBINE BLDG. SRW HDR. 150.

M-46 B-12 3

8 26 10 29 SRW-1645-CV 12 DIESEL GEN. SUPPLY FROM U-1 M-46 F-8 3

B 22 10 NA SRW-1646-CV 12 DIESEL GEN. RETURN TO U-1 M-46 J-9 3

8 22 10 NA SRW-1600-CV TURBINE BLDG. SRW HDR. 150.

M-46 A-11 3

8 26 10 29 SRW-1589-CV 13 CNTMT CLR. NORMAL IHLET M-46 J-4 3

8 22 10 NA

Page 21 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS

___DESIGNATIGH DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

SRW-1590-CV 13 CNTMT CLR. EMERG. DISCH.

M-46 H-6 3

8 22 10 48 SRW-1591-CV 13 CNTffT CLR. NORMAL DISCH.

M-46 H-6 3

B 22 10 NA SRW-1592-CV 14 CNTMT CLR. NORMAL INLET M-46 F-10 3

8 22 10 NA RC-200 PRESSURIZER SAFETY H-72 B-5 1

C 33 16 NA RC-201 PRESSUPIZER SAFETY M-72 B-5 1

C 33 16 NA RC-242 QUENCH TANK RELIEF M-72 B-10 3

C 33 16 NA RC-402 PRESSURIZER POWER OPERATED RELIEF H-72 B-4 1

C 33 14 NA RC-404 PRESSURIZER POWER OPERATED RELIEF M-72 B-6 1

C 33 14 NA MS-3992 11 STEAM GENERATOR SAFETY M-35 F-10 2

C 33 15 NA MS-3993 11 STFAM GENERA, TOR SAFETY M-35 E-11 2

C 33 15 NA MS-3994 11 STEAM GENERATOR SAFETY M-35 E-10 2

C 33 15 NA MS-3995 11 STEAM GENERATOR SAFETY M-35 E-10 2

C 33 15 NA MS-3996 11 STEAM GENERATOR SAFETY M-35 E-10 2

C 33 35 NA MS-3997 11 STEAM GENERATOR SAFETY M-35 E-10 2

C 33 15 NA MS-3998 11 STEAM GENERATOR SAFETY M-35 E-9 2

C 33 15 NA MS-3999 11 STEAM GENERATOR SAFETY M-35 E-9 2

C 33 15 NA MS-4000 12 STEAM GENERATOR SAFETY M-35 B-10 2

C 33 15 NA MS-4001 12 STEAM GENERATOR SAFETY M-35 C-10 2

C 33 15 NA

Page 22 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID CD-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

MS-4002 12 STFAM GENERATOR SAFETY M-35 C-10 2

C 33 15 NA MS-4003 12 STEAM GENERATOR SAFETY M-35 D-10 2

C 33 15 NA MS-4004 12 STEAM GENERATOR SAFETY M-35 D-10 2

C 33 15 NA MS-4005 I? STEAM GENERATOR SAFETY M-35 D-9 2

C 33 15 NA MS-4006 12 STEAM GENERATOR SAFETY M-35 D-9 2

C 33 15 NA MS-4007 12 STEAM GFNERATOR SAFETY H-35 D-9 2

C 33 15 NA SI-211 11A SAFETY INJECTION TANK RELIEF M-74 A-2 2

C 33 13 NA SI-221 118 SAFETY INJECTION TANK RELIEF M-74 C-2 2

C 33 13 NA SI-231 12A SAFETY INJECTION TANK RELIEF M-74 D-2 2

C 33 13 NA SI-241 12B SAFETY INJECTION TANK RELIEF H-74 F-2 2

C 33 13 NA SI-409 HIGH PRESSURES SAFETY IllJ. HEADER RELIEF M-74 F-6 2

C 33 13 NA SI-417 AUXILIARY HPSI HEADER RELIEF M-74 C-6 2

C 33 13 NA SI-430 SHUTDOWN COOLING RECIRC TO 13 HPSI PP RELF, M-74 E-9 2

C 33 73 NA SI-431 SHUTDOWN COOLING REC. TO 11 HPSI PP RELIEF M-74 C-9 2

C 33 13 NA SI-439 LOW PRESSURE SAFETY INJ. HEADER RELIEF M-74 F-6 2

C 33 13 NA SI-446 SAFETY INJ. LEAK 0FF HEADER RELIEF M-74 A-2 2

C 33 13 NA ST-468 SHUTOOWN COOLING RETURN HEADER RELIEF M-74 H-4 2

C 33 13 NA SI-469 S!!UTDOWN COOLING RETURN HEADER RELIEF M-74 H-2 1

C 33 13 NA

Page 23 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PROGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS LESIGNATION DESCRIPTION P&ID CO-ORD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

CVC-125 11 BORIC ACID PllMP RECIRC. RELIEF M-73 G-8 2

C 33 13 NA CVC-133 11 BORIC ACID PilMP RECIRC RELIEF M-73 H-8 2

C 33 13 NA CVC 149 12 BORIC ACID PIIMP RECIRC RELIEF M-73 G-11 2

C 33 13 NA CVC-150 12 BORIC ACID PUMP RECIRC RELIEF M-73 H-11 2

C 33 13 NA CVC-157 BORIC ACID PUMP COMf10N DISC. RELIEF M-73 G-6 2

C 33 13 NA CVC-160 BORIC ACID STRAINER INLET RELIEF M-73 G-7 2

C 33 13 NA CVC-171 BORIC ACID FLOW CONTROL VLV If!' ET RELIEF M-73 F-7 2

C 33 13 NA CVC-173 80RIC ACID Ft.0U CONTROL VLV INLET RELIEF M-73 F-6 2

C 33 13 NA CVC-199 RX COOLANT PP CONTROL BLEED-OFF REl.IEF M-73 D-1 2

C 33 13 NA CVC-311 CHARGING PIIMP SilCTION RELIEF M-73 H-4 2

C 33 13 NA CVC-315 11 CHARGif_G PilMP SllCTION RELIEF M-73 G-3 2

C 33 13 NA CVC-318 12 CHARGING PUMP SilCTION RELIEF M-73 H-3 2

C 33 13 NA CVC-321 13 CHARGING PilMP SilCTION RELIEF M-73 H-3 2

C 33 13 NA CVC-324 13 CHAGGING PilMP DISCHARGE RELIEF M-73 J-3 2

C 33 13 NA CVC-325 12 CHARGING PilMP DISCHARGE RELIEF M-73 H-3 2

C 33 13 NA CVC-326 11 CHARGING PilMP DISCHARGE RELIEF M-73 G-3 2

C 33 13 NA SFP-1997 11 SPENT FilEL P0OL HEAT EXCHANGER RELIEF M-58 D-6 3

C 33 13 NA SFP-199,R 12 SPENT FUEL POOL HEAT EXCHANGER RELIEF M-58 E-6 3

C 33 13 NA

Page 24 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICF TEST PROGRAM - VALVES TEST TEST VALVE ASilE SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATI0fl DESCRIPTION P&ID CO-0RD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

NA AFW-4501 11 STEAM GENERATOR AUX. FEED PilMP RELIEF M-31 D-2 2

C 33 13 AFW-4502 12 STEAM GENERATOR AllX. FEED PllMP RELIEF M-39 D-3

_j?

C 33 13 NA DCW-4802 11 DIESEL JACKET COOLANT llEADER RELIEF M-69 D-4 3

C 33 13 NA DCW-4806 12 DIESEL JACKET COOLANT llEADER RELIEF M-69 D-7 3

C 33 13 NA DFO-4818 11 DIESEL ENGIf:E DRIVENFUEL OIL PP RELIEF M-69 A-2 3

C 33 13 NA DF0-4823 12 DIESEL ENGINE DRIVEN FUEL OIL PP RELIEF M-69 A-5 3

C 3I 13 NA DSA-4830 11 DIESEL AIR RECEIVER RELIEF M-69 B-4 3

C 33 16 NA DSA-4831 11 DIESEL AIR RECEIVER RELIEF H-69 B-3 3

C 33 16 NA DSA-4834 12 DIESEL AIR RECEIVER RELIEF M-69 B-7 1

C 33 16 NA DS A-433's 12 DIESEL AIR RECEIVER RELIEF M-69 B-8 3

C 33 16 NA CC-3829 12 SHtlTDOWN llEAT EXCHANGER RELIEF M-51 E-8 3

C 33 13 NA CC-3831 LETDOWN HEAT EXCHAfiGER RELIEF M-51 A-4 3

C 33 13 NA DF0-4828 21 DIESEL ENGINE DRIVEri FilEL OIL PP RELIEF M-69 A-9 3

C 33 13 NA DLO-4775 11 DIESEL TilRBO-CHARGER LilBE OIL RELIEF M-69 H-4 3

C 33 13 NA DLO-4776 12 DIESEL TijRBO-CllARGER LUBE GIL RELIEF M-69 H-7 3

C 33 13 NA DLO-4777 21 DIESEL TilRBO-CHARGER LUBE OIL RELIEF M-69 F-12 3

C 33 13 NA DCH-4810 71 DIESEL.1ACKET C00LANT HEADER RELIEF M-69 D-11 3

C 33 13 NA DCW-4811 11 DIESEL TilRBO-CilARGER COOLING H2O RELIEF M-69 D-4 3

C 33 13 NA

2 Page 25 of 29 CALVERT CLIFFS UNIT NO. 1 - INSERVICE TEST PRGGRAM - VALVES TEST TEST VALVE ASME SECTION XI FREQUENCY TYPE INTERLOCKS DESIGNATION DESCRIPTION P&ID C0-ORD CLASS CATEGORY (SEE NOTES)

(SEE NOTES)

(SEE NOTES)

DCW-4812 12 DIESEL TilRBO CilARGER C001ING H O RELIEF M-69 D-7 3

C 33 13 NA 2

DCW-4813 21 DIESEL TilRB0 CilARGER COOLING 1120 RELIEF M-69 D-12 3

C 33 13 NA DSA-4838 21 DIESEL AIR RECEIVER RELIEF M-69 B-11 3

C 33 13 NA DSA-4839 21 DIESEL AIR RECEIVER RELIEF M-69 B-10 3

C 33 13 NA

e Page 26 of 29 Notes:

~

1.

Valve is normally closed during plant operation. Test is conducted by initiating flow through the valve arj verifying that the valve opens by observing installed flow indication.

2.

Valve is normally closed during plant operation. Test is conducted by initiating flow through the valve and verifying that the valve opens by observing a decreasing upstream tank level.

3.

Valve is normally closed during plant operation.

Test is conducted by initiating flow through the valve and verifying that the valve opens by observing build-up of downstream pressure.

4.

Yalve is normally locked.Section XI Article IWV-3700 requires no regular testing for such valves. Valve position before and after operation is logged.

5.

Valve is normally closed during plant operation. Test is conducted by initiating flow through the valve and verifying that the valve opens by observing flow from an open drain downstream the valve.

6.

Category A valves wiil be leak tested at the same frequency as scheduled refueling outages but not less than once every two years. Valve will be tested by the flow test method.

7.

Valve is nomally closed during plant operation.

Flow is initiated through the valve while conducting the inservice test of its asso-ciated pump. Valve is verified open by observation of normal pump differential pressure.

8.

Valve is normally closed during plant operation. Test is conducted by initiating flow through the valve and verifying that the valve opens by observation of decreasing level in the containment sump suction header.

9.

Valve is nomally open during plant operation. Test is conducted by applying pressure downstream the valve and verifying that the valve shuts by observing that upstream pressure does not increase.

10. Valve is full stroke tested.

11. Valve is nomally coen during plant operation. Test is conducted by applying pressure dcunstrean the valve and verifying that the valve shuts by observing no flow fron an upstrean drain.

12. Valve is normally closed during olant operation. Test is conducted by initiating ficw through the valve and verifying that the valve opens by observing an increasing downstream tank level.

13. Opening presture setroint is tested with liquid, atmospheric back pressure is present before discharging.

14 PT opening pressure setncint is checked electrically for this power coerated relief valve.

Page 27 of 29

15. Opening pressure setpoint is tested with steam and hydraulic assist.

Atmospheric back pressure is present before discharging.

16. Opening pressure setpoint is tested with gas. Atmospheric back pressure is present before discharging.

17.'

Valve is part stroke exercised in made 1 at 3 month intervals and full stroked in mode 5 at 9 month intervals as allowed by Section XI Article IWV 3520.

18. Valve cannot be stroked during operation as this would require de-pressurizing the reactor coolant system. Therefore the valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article IWV-3520.

19. Valve cannot be stroked during operation without spraying contaminated water into the containment. Valve is therefore part stroke exercised in mode 5 at 3 month intervals as allowed by Section XI Article IWV-3520.

Relief from the requirement to full stroke exercise the valve has been sought in BG&E letter dated 11/2/77 from Lundvall to Davis.

20. Valve is full stroke tested each month in mode 1.

21. Valve is part stroke exercised in mode 1 each month and full stroke.

exercised in mode 5 at 9 month intervals as allowed by Section XI Article IWV-3520.

22. Valve is full stroke exercised in mode 1 at 3 month intervals.

23. Valve cannot be stroked during operation without flooding the con-tainment floor. Therefore the valve is part stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article IWV 3520.

Relief from the requirement to full stroke exercise the valve has been sought by BG&E letter dated 11/2/77 from Lundvall to Boyd.

24. Valve cannot be stroked during operation without hazarding plant equipments. Valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article INV-3520.

25. Category A valves will be leak tested at the same frequency as scheduled refueling outages but not less than once every two years. Valves will be tested by the pressure decay method.

26. Valve cannot be stoked during operation without hazarding plant equipment.

Valve is full stroke exercised in mode 5 at 3 month intervals as allowed by Section XI Article 3410.

27. Valve opens on a Safety Injection Actuation Signal.

28.

Deleted.

29. Valve shuts on a Safety Injection Actuation Signal.

30. Valve shuts when reactor coolant system pressure exceeds 300 psia.

Page 28 of 29 31.

Valve shuts on a Recirculation Actuation Signal.

32. Valve opens on a Recirculation Actuation Signal.

33. Valve is tested at 60 month intervals.

34. Exercising this valve requires personnel access to high radiation areas within the containment which are not accessible durir.g plant operation. Therefore the valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article IWV 3520.

35.

Exercising this valve requires injecting concentrated boric acid directly into the reactor coolant system. The resulting rapid power decrease would unnecessarily hazard plant reliability.

Therefore the valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article IWV. 3520.

36. Valve shuts on a chemical and volume control system isolation signal.

37. Valve shuts on a containment isolation -ignal.

38. Valve opens when pressurizer pressure exceeds pressure setpoint by 50 psia.

39. Valve shuts on a containment radiation signal.

40.

Exercising this nomally open valve would require a cessation of feedwater flow to the steam generator. Therefore the valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article IWV 3520.

41. A full stroke test of this normally open valve would require a cessation of feedwater flow to the steam generator.

Therefore the valve is full stroke tested in made 5 at 3 month intervals as allowed by Section XI Article IWV 3410.

42. Valve shuts on a steam generator isolation signal.

43.

Full stroke exercising of this valve during plant ooeration would require feeding hot steam generators with cold feedwater thereby themally shocking the auxiliary feedwater ring within the steam generator. Therefore the valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article ItN 3520.

44.

Exercisino this valve during plant operation would recuire feeding hot steam generators with cold feedwater thereby themally shocking the auxiliary feedwater ring within the steam generator. Therefore the valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Sec; ion XI Article IUV-3520,

45. Valve cannot be fu.1 stroke tested durinq plant operation.

Therefore the valve is partiai stroke tested in rede 1 at 3 ronth intervals and full stroke tested in made 5 as allowed by Section XI Article INV 3410.

,s Page 29 of 29

46. Valve shuts when steam generator blowdown radiation monitor alarms.

47. Valve returns to auto on a recirculation actuation signal.

48. Valve ore?,s on a containment spray actuation signal.

49. Valve cannot be stroked during operation without shutting all charging pump suction valves this would place excessive cycles on starting and stopping charging and letdown. Therefore valve is full stroke exercised in mode 5 at 9 month intervals as allowed by Section XI Article IWV-3520.

50. Valve is normally open during plsnt operation test is conducted by applying pressure downstream of the valve and verifying that downstream pressure rer dns higher' than upstream pressure.

51. Exercising this valve requires personnel access to high radiation areas within the containnent during plant operation. Therefore valve is full stroke exercised in mode 5 at 3 month intervals as allowed by Section XI Article IWV-3510.

52. Valve is normally closed during plant operation. Flow is initiated while conducting inservice test of associated equipment. Valve is verified open by observation if normal equipment operation.

53. Valve is full stroke tested on a weekly basis.

.