ML19323D085: Difference between revisions
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.SECTION I PUMP TECT PROGRAM TABLE OF CONTENTS Page A. PROGRAM | |||
.SECTION I PUMP TECT PROGRAM | |||
TABLE OF CONTENTS Page A. PROGRAM | |||
==SUMMARY== | ==SUMMARY== | ||
. . . . . . . . . . . . . I-l B. PUMP TEST PROGRAM TABLE FORMAT. . . . . . I-l C PUMP PROGRAM TABLE . . . . . . . . .- . . I-3 Pump Test Program . . . . . . . . . . . . I-4 D. CODE EXCEPTIONS . . . . . . . . . . . . . I-6 Pump Past Performance Data. . . . . . . . I-10 Pump Past Performance Statistical Analysis I-24 | . . . . . . . . . . . . . I-l B. PUMP TEST PROGRAM TABLE FORMAT. . . . . . I-l C PUMP PROGRAM TABLE . . . . . . . . .- . . I-3 Pump Test Program . . . . . . . . . . . . I-4 D. CODE EXCEPTIONS . . . . . . . . . . . . . I-6 Pump Past Performance Data. . . . . . . . I-10 Pump Past Performance Statistical Analysis I-24 4 | ||
4 | |||
. - + - 6 e | . - + - 6 e | ||
,F_ , . w -- | ,F_ , . w -- | ||
I. PUMP TEST PROGRAM A. PROGRAM | |||
I. PUMP TEST PROGRAM | |||
A. PROGRAM | |||
==SUMMARY== | ==SUMMARY== | ||
Line 56: | Line 40: | ||
: 3. Pump Numbe_r_. Unique number assigned to each pump. | : 3. Pump Numbe_r_. Unique number assigned to each pump. | ||
: 4. Speed ;. These parameters are andressed with one of the following entries, which indicate test interval or appli-cability. | : 4. Speed ;. These parameters are andressed with one of the following entries, which indicate test interval or appli-cability. | ||
e NR - not required e NA - not available e M - monthly test e Q - quarterly test I-l a | e NR - not required e NA - not available e M - monthly test e Q - quarterly test I-l a | ||
: 5. Inlet Pressure Pi . Same as Number 4. | : 5. Inlet Pressure Pi . Same as Number 4. | ||
o | o | ||
: 6. Differential Pressure op. Same as Number 4. | : 6. Differential Pressure op. Same as Number 4. | ||
Line 70: | Line 49: | ||
: 10. Lubrication Level or Pressure. Same as Number 4. | : 10. Lubrication Level or Pressure. Same as Number 4. | ||
: 11. Code Exception. If the pump is being tested in ac-cordance with Section XI requirements, this column will be blank. However, for pumps which the Section XI requirements have been found tc be impractical, a 4 | : 11. Code Exception. If the pump is being tested in ac-cordance with Section XI requirements, this column will be blank. However, for pumps which the Section XI requirements have been found tc be impractical, a 4 | ||
reference number is entered in the column. The reference number is addressed in Section 'D' with a complete explana-tion of the specific exception and justification for that | reference number is entered in the column. The reference number is addressed in Section 'D' with a complete explana-tion of the specific exception and justification for that ex'ception. | ||
ex'ception. | |||
m I-2 | m I-2 | ||
____: =- .-;-.---.-. . . - - - w | ____: =- .-;-.---.-. . . - - - w | ||
C. PUMP PROGRAM TABLE | C. PUMP PROGRAM TABLE | ||
~ | ~ | ||
, This section provides a tabulation of all safety related pumps both those pumps that are tested in accordance with the require-ments of Subsection IWP of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those pumps for which the code requirements have been found to be impractical. The Table is arranged sequentially by ISID number. | , This section provides a tabulation of all safety related pumps both those pumps that are tested in accordance with the require-ments of Subsection IWP of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those pumps for which the code requirements have been found to be impractical. The Table is arranged sequentially by ISID number. | ||
; | ; | ||
ee d | ee d | ||
0 e | 0 e | ||
4 I-3 | 4 I-3 | ||
-v,er,yy- y y- - e rw** me-g- - -% | -v,er,yy- y y- - e rw** me-g- - -% | ||
9 DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP TEST PROGRAM Page 1 of 2 SYSTEM TEST PARAMETER MEASURED | |||
9 | |||
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP TEST PROGRAM Page 1 of 2 SYSTEM TEST PARAMETER MEASURED | |||
& y INLET DRAWING DIFFERENTIAL FLOW VIBRATION BEARING | & y INLET DRAWING DIFFERENTIAL FLOW VIBRATION BEARING | ||
$ PUMP SPEED PRESSURE LUBRICANT NUMBER g$ | $ PUMP SPEED PRESSURE LUBRICANT NUMBER g$ | ||
U NO. n* P PRESSURE Op RATE AMPLITUDE TEMPERATURE LEVEL OR CODE i Q V Tb PRESSURE EXCEPTION AUXILIARY J-8 P14-1 NR Q Q Q Q NR FEEDWATER NR 1,2,3 006B K-9 P14-2 NR Q Q Q Q NR NR 1,2,3 HIGH E-9 P58-1 NR Q Q Q Q NR PRESSURE NR 1,2,3 INJECTION C-9 P58-2 NR y 033 Q Q Q Q NR NR 1,2,3 | U NO. n* P PRESSURE Op RATE AMPLITUDE TEMPERATURE LEVEL OR CODE i Q V Tb PRESSURE EXCEPTION AUXILIARY J-8 P14-1 NR Q Q Q Q NR FEEDWATER NR 1,2,3 006B K-9 P14-2 NR Q Q Q Q NR NR 1,2,3 HIGH E-9 P58-1 NR Q Q Q Q NR PRESSURE NR 1,2,3 INJECTION C-9 P58-2 NR y 033 Q Q Q Q NR NR 1,2,3 LOW H-7 P42-1 NR Q Q Q Q PRESSURE NR NR 1,2,3 INJECTION G-10 P42-2 NR- Q Q Q 033 ' | ||
Q NR NR 1,2,3 CONTAINMENT D-9 P56-1 NR Q SPRAY Q Q Q NR NR 1,2,3 034 C-9 P56-2 NE Q Q Q Q NR NR 1,2,3 COMPONENT H-2 P43-1 NR Q Q Q COOLING , Q - | |||
LOW H-7 P42-1 NR Q Q Q Q PRESSURE NR NR 1,2,3 INJECTION G-10 P42-2 NR- Q Q Q 033 ' | |||
Q NR NR 1,2,3 | |||
CONTAINMENT D-9 P56-1 NR Q SPRAY Q Q Q NR NR 1,2,3 034 C-9 P56-2 NE Q Q Q Q NR NR 1,2,3 COMPONENT H-2 P43-1 NR Q Q Q COOLING , Q - | |||
NR NR 1,2,3,4 036 J-2 P43-2 NR Q Q Q Q NR NR 1,2,3,4 K-2 P43-3 NR Q Q Q Q NR NR 1,2,3,4 l | NR NR 1,2,3,4 036 J-2 P43-2 NR Q Q Q Q NR NR 1,2,3,4 K-2 P43-3 NR Q Q Q Q NR NR 1,2,3,4 l | ||
* SYNCHRONOUS OR INDUCTION MOTORS DO NOT REQUIRE SPEED CHECK (IWP-4400) , | * SYNCHRONOUS OR INDUCTION MOTORS DO NOT REQUIRE SPEED CHECK (IWP-4400) , | ||
w- = . . . - . | w- = . . . - . | ||
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP TEST PROGRAM' Page 2 of 2 SYSTEM TEST PARAMETER MEASURED | DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP TEST PROGRAM' Page 2 of 2 SYSTEM TEST PARAMETER MEASURED | ||
& y INLET DIFFERENTIAL DRAWING FLOW VIBRATION BEARING | & y INLET DIFFERENTIAL DRAWING FLOW VIBRATION BEARING | ||
Line 115: | Line 77: | ||
a t | a t | ||
t | t | ||
' SYNCHRONOUS OR INDUCTION MOTORS DO NOT REQUIRE SPEED CllECK (IWP-4400) . | ' SYNCHRONOUS OR INDUCTION MOTORS DO NOT REQUIRE SPEED CllECK (IWP-4400) . | ||
- - i | - - i | ||
,, j k + # O g377, [;% /g j? | ,, j k + # O g377, [;% /g j? | ||
$s/ NV' IMAGE EVALUATION TEST TARGET (MT-3) | $s/ NV' IMAGE EVALUATION TEST TARGET (MT-3) | ||
Line 126: | Line 86: | ||
' l.0 " [,,* W | ' l.0 " [,,* W | ||
;; a I.l [ ' RB l* | ;; a I.l [ ' RB l* | ||
l.25 IA 1.6 | l.25 IA 1.6 | ||
* 6" > | * 6" > | ||
Line 135: | Line 94: | ||
4:, | 4:, | ||
.e 3 4 k~ / | .e 3 4 k~ / | ||
7 | 7 4h,4(k%$ | ||
4h,4(k%$ | |||
3 | 3 | ||
//f v 9, o | //f v 9, o | ||
l | l | ||
.. M . | .. M . | ||
3 e%lv gz | 3 e%lv gz sp:, 3, : - . | ||
sp:, 3, : - . | |||
~ | ~ | ||
> $ ~,> :i t - = - -.. .-- -- t . , | > $ ~,> :i t - = - -.. .-- -- t . , | ||
D. CODE EXCEPTIONS This section provides justification for the exceptions taken to Code test requirements as provided for in 10 CFR 50.55a(g) (5)-(iii) . | D. CODE EXCEPTIONS This section provides justification for the exceptions taken to Code test requirements as provided for in 10 CFR 50.55a(g) (5)-(iii) . | ||
Each Code exception is identified by a unique number and identifies the pump (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. | Each Code exception is identified by a unique number and identifies the pump (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. | ||
Line 166: | Line 109: | ||
: 1. Code Exceptions | : 1. Code Exceptions | ||
: a. Code Exception Number 1 | : a. Code Exception Number 1 | ||
* Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 | * Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps PS6-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Coolwg Safety Related Equipment Cooling e Class: 2 and 3 e Test Requirement: Monthly Inservice Test e Basis for Exception: Monthly Section XI operability testing has been a Technical Specification requirement for these pumps since April 22, 1977. An analysis of the results of these tests and comparable data from other operating plants has shown no significant changes in performance. Based on this analysis, the continuation of Section XI monthly testing would not significantly increase plant safety. The Auxiliary Feedwater, High Pressure Injection, Low Pressure Injection and Contain-ment Spray Pumps are standby pumps whose continuous operation is not required. The Service Water and Component Cooling Water ptnps are continuously running and any significant degradation will be detected during normal operation. | ||
,s Monthly pump testing requires a total of at least 270 hours per year of pump operation; at least 714 man-hours per year for data acquisition; at least 60 man-hours I-6 | |||
Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps PS6-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Coolwg Safety Related Equipment Cooling e Class: 2 and 3 e Test Requirement: Monthly Inservice Test e Basis for Exception: Monthly Section XI operability testing has been a Technical Specification requirement for these pumps since April 22, 1977. An analysis of the results of these tests and comparable data from other operating plants has shown no significant changes in performance. Based on this analysis, the continuation of Section XI monthly testing would not significantly increase plant safety. The Auxiliary Feedwater, High Pressure Injection, Low Pressure Injection and Contain-ment Spray Pumps are standby pumps whose continuous operation is not required. The Service Water and Component Cooling Water ptnps are continuously running and any significant degradation will be detected during normal operation. | |||
,s Monthly pump testing requires a total of at least 270 hours per year of pump operation; at least 714 man-hours per year for data acquisition; at least 60 man-hours | |||
I-6 | |||
per year for data reduction, analysis, and record keeping. This amounts to a total of 774 man-hoers 12r year. At a conservative total cost of $20 per man-hour, this amounts to $15,480 per year. | per year for data reduction, analysis, and record keeping. This amounts to a total of 774 man-hoers 12r year. At a conservative total cost of $20 per man-hour, this amounts to $15,480 per year. | ||
Based upon the average exposure rates in the areas of the Auxiliary Feedwater, High Pressure' Injection, Low Pressure Injection and Containment Spray Pumps, the total man rems exposure per year for pump testing is approximately 2.0 man rems. At the present conser-vatively estimated cost of $10,000 per man rem to plant personnel, this exposure costs an additional | Based upon the average exposure rates in the areas of the Auxiliary Feedwater, High Pressure' Injection, Low Pressure Injection and Containment Spray Pumps, the total man rems exposure per year for pump testing is approximately 2.0 man rems. At the present conser-vatively estimated cost of $10,000 per man rem to plant personnel, this exposure costs an additional | ||
Line 181: | Line 118: | ||
The revision to change pump testing to a three-month _ | The revision to change pump testing to a three-month _ | ||
interval in IWP-3400 has been approved and will be | interval in IWP-3400 has been approved and will be | ||
~~1-included in future Addenda. See minutes of the November 28, 1979 meeting of the Operating and Main-tenance Working Group - Testing of Pumps and Valves, | ~~1-included in future Addenda. See minutes of the November 28, 1979 meeting of the Operating and Main-tenance Working Group - Testing of Pumps and Valves, in San Jose, California, dated January 9, 1980. | ||
in San Jose, California, dated January 9, 1980. | |||
: b. Code Exception Number 2 e Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps P56-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Cooling Safety Related Equipment Cooling e Class: 2 and 3 o | : b. Code Exception Number 2 e Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps P56-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Cooling Safety Related Equipment Cooling e Class: 2 and 3 o | ||
e Test Requirements: Measure pump bearing temperature yearly. | e Test Requirements: Measure pump bearing temperature yearly. | ||
e Basis for Exception: The referenced Editon of the Code requires bearing temperature to be recorded annually. | e Basis for Exception: The referenced Editon of the Code requires bearing temperature to be recorded annually. | ||
It has been demonstrated by experience that bearing temperature rise occurs only minutes prior to bearing failure. Therefore, the detection of possible bearing failure by a yearly temperature measurement l | It has been demonstrated by experience that bearing temperature rise occurs only minutes prior to bearing failure. Therefore, the detection of possible bearing failure by a yearly temperature measurement l | ||
I-7 | I-7 | ||
_ -a | _ -a | ||
is extremely unlikely. It requires at least an hour of pump operation to achieve stable bearing tempera-tures. The small probability of detecting bearing | is extremely unlikely. It requires at least an hour of pump operation to achieve stable bearing tempera-tures. The small probability of detecting bearing | ||
; | ; | ||
failure .by temperature measurement does not justify the additional pump operat ng time required to obtain the measurements. | failure .by temperature measurement does not justify the additional pump operat ng time required to obtain the measurements. | ||
> e Alternate Testing: NONE.- This is in agreement with present changes that are being implemented in Sub- | > e Alternate Testing: NONE.- This is in agreement with present changes that are being implemented in Sub- | ||
, section IWP of the Code. The revision to delete 3 | |||
, section IWP of the Code. The revision to delete | yearly bearing temperature measurement. Deletion of bearing temperature has been approved and will be included in future Addenda. See minutes of the November 28, 1979 meeting of,the Operating and | ||
November 28, 1979 meeting of,the Operating and | |||
. Maintenance Working Group Testing of Pumps and ' | . Maintenance Working Group Testing of Pumps and ' | ||
Valves in San Jose, California, dated January 9, 1980. | Valves in San Jose, California, dated January 9, 1980. | ||
: c. Code Exception Number 3 e Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps P56-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Cooling Safety Related Equipment Cooling e Class: 2 and 3 e Test Requirements: Observation of proper lubrication level or pressure. | : c. Code Exception Number 3 e Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps P56-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Cooling Safety Related Equipment Cooling e Class: 2 and 3 e Test Requirements: Observation of proper lubrication level or pressure. | ||
e Basis for Exception: The observation of lubrication level or pressure is a maintenance function not an operability test function. Pump lubrication require-ments are determined by the pump manufe:turer and plant operation. | e Basis for Exception: The observation of lubrication level or pressure is a maintenance function not an operability test function. Pump lubrication require-ments are determined by the pump manufe:turer and plant operation. | ||
e Alternate Testing: Pump lubrication requirements are part of the plant maintenance procedures rather than Section XI operability test requirements. This is in | e Alternate Testing: Pump lubrication requirements are part of the plant maintenance procedures rather than Section XI operability test requirements. This is in agreement with present changes that are being imple-mented in Subsection IWP of the Code. The revision to eliminate observation of lubrication level or pressure from the Code has been approved and will be included in future Addenda. See minutes of the November 28, 1979 meeting of the Operating and Main-tenance Working Group - Testing of Pumps and Valves, in San Jose, California, dated January 9, 1980. | ||
l i | |||
agreement with present changes that are being imple-mented in Subsection IWP of the Code. The revision to eliminate observation of lubrication level or pressure from the Code has been approved and will be included in future Addenda. See minutes of the November 28, 1979 meeting of the Operating and Main-tenance Working Group - Testing of Pumps and Valves, in San Jose, California, dated January 9, 1980. | I-8 ! | ||
l | |||
.; | .; | ||
: d. Code Exception Number 4 e Components: Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Safety Related Equipment Cooling e Class: 3 | : d. Code Exception Number 4 e Components: Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Safety Related Equipment Cooling e Class: 3 | ||
* e Test Requirements: Operability testing of installed spare pumps, o Basis for Exception: Any one of the three componeat cooling or three service water pumps is an installed spare.6 One pump is nonnally running, the second is aligned as an automatic backup to the operating pump and the third pump is electrically disconnected and manually valved out of the system. In the event of failure of the operating pump, the second automatically starts and the installed spare is electrically connected ^ | * e Test Requirements: Operability testing of installed spare pumps, o Basis for Exception: Any one of the three componeat cooling or three service water pumps is an installed spare.6 One pump is nonnally running, the second is aligned as an automatic backup to the operating pump and the third pump is electrically disconnected and manually valved out of the system. In the event of failure of the operating pump, the second automatically starts and the installed spare is electrically connected ^ | ||
Line 229: | Line 149: | ||
a ,- n ,,_.,.,,__m.__,.,,x,___._x | a ,- n ,,_.,.,,__m.__,.,,x,___._x | ||
DAVIS-BESSE NUCLEAR POWER STATION PUMP T RFORMANCE-PUMP NO. 1-1 DATA A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY ...AUG. SEPT. OCT. NOV. DEC. | |||
DAVIS-BESSE NUCLEAR POWER STATION | |||
PUMP T RFORMANCE-PUMP NO. 1-1 DATA A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY ...AUG. SEPT. OCT. NOV. DEC. | |||
PUMP V .11 .14 .14 .11 .14 .076 .15 .12 .09 .045 1NaOAno 2: (MILS) .17 | PUMP V .11 .14 .14 .11 .14 .076 .15 .12 .09 .045 1NaOAno 2: (MILS) .17 | ||
.20 .14 .14 .15 .17 .16 .23 .16 .062 0 ^ | .20 .14 .14 .15 .17 .16 .23 .16 .062 0 ^ | ||
Line 245: | Line 161: | ||
V .11 ^ | V .11 ^ | ||
PUMP .11 .11 .12 13 .13 .14 .20 .13 g . .16 .13 .14 .17 .15 .16 .15 .17 s16 - | PUMP .11 .11 .12 13 .13 .14 .20 .13 g . .16 .13 .14 .17 .15 .16 .15 .17 s16 - | ||
A g --- | A g --- | ||
.42 .32 .45 .34 .28 .38 --- | .42 .32 .45 .34 .28 .38 --- | ||
Line 253: | Line 168: | ||
.34 .32 .34 . 26' .23 .34 .36 .60 .38 6 rLOW (GPM) 1300 1275 1325 1318 1280 1314 1310 1305 1290 o | .34 .32 .34 . 26' .23 .34 .36 .60 .38 6 rLOW (GPM) 1300 1275 1325 1318 1280 1314 1310 1305 1290 o | ||
S TDH g (PSID) 175 175 204 204 173 173 A69 175 173 | S TDH g (PSID) 175 175 204 204 173 173 A69 175 173 | ||
j . | j . | ||
DAVIS-BESSE NUCLEAR POWER STATION l PUMP CONTAINMENT SPRAY UNIT NO. 1 PUMP PAST* PERFORMANCE. | DAVIS-BESSE NUCLEAR POWER STATION l PUMP CONTAINMENT SPRAY UNIT NO. 1 PUMP PAST* PERFORMANCE. | ||
~V = VERTICAL PUMP NO. 1-2 , DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE i | ~V = VERTICAL PUMP NO. 1-2 , DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE i | ||
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
PUMP V .20 .15 .20 .34 .42 .24 .52 .18 1.9 .49 .46 INBOARD H | PUMP V .20 .15 .20 .34 .42 .24 .52 .18 1.9 .49 .46 INBOARD H | ||
(MILS) 1.5 .23 .34 .62 .30 .40 .36 .23 .22 .60 .80 g@ | (MILS) 1.5 .23 .34 .62 .30 .40 .36 .23 .22 .60 .80 g@ | ||
Line 269: | Line 178: | ||
.45 .62 2.40 1.20 2.35 .68 .40 a.40 3.50 18 y ag PUMP .60 .18 .17 1.40 .37 .38 .52 .23 .38 .82 .70 M .50 .25 .15 1.30 .28 .80 .24 .24 .28 .46 .18 A | .45 .62 2.40 1.20 2.35 .68 .40 a.40 3.50 18 y ag PUMP .60 .18 .17 1.40 .37 .38 .52 .23 .38 .82 .70 M .50 .25 .15 1.30 .28 .80 .24 .24 .28 .46 .18 A | ||
3.60 .48 .30 3.80 2.G0 1.40 2.75 .84 2.60 3.70 3.80 1300 1300 1300 1326 1250 1275 1300 1300 1300 1307.5 BI | 3.60 .48 .30 3.80 2.G0 1.40 2.75 .84 2.60 3.70 3.80 1300 1300 1300 1326 1250 1275 1300 1300 1300 1307.5 BI | ||
) 1325 | ) 1325 AhM TDH 174 170 m (PSID) 172 177 171 170 163 175 172 175.40 173.30 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
AhM TDH 174 170 m (PSID) 172 177 171 170 163 175 172 175.40 173.30 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
Y .50 PUMP .53 .43 .19 .72 .32 .18 .32 | Y .50 PUMP .53 .43 .19 .72 .32 .18 .32 | ||
:r, INBOARD H .32 .38 .35 .34 .39 .38 .28 .32 o@ '(MILS) A | :r, INBOARD H .32 .38 .35 .34 .39 .38 .28 .32 o@ '(MILS) A g 2.20 2.30 2.00 .62 3.20 .56 .52 .54 mN V PUMP .60 .74 .52 .30 .64 .28 .18 .24 O N OARD H | ||
g 2.20 2.30 2.00 .62 3.20 .56 .52 .54 mN V PUMP .60 .74 .52 .30 .64 .28 .18 .24 O N OARD H | |||
.40 .30 .27 .29 .24 .35' .32 .24 (MILS) | .40 .30 .27 .29 .24 .35' .32 .24 (MILS) | ||
^ 2.30 2.50 2.00 1.10 2.80 .78 .64 1.20 U FLOW , | ^ 2.30 2.50 2.00 1.10 2.80 .78 .64 1.20 U FLOW , | ||
(GPM) 1275 1300 1300 1320 1320 1320 1300 1290 b | (GPM) 1275 1300 1300 1320 1320 1320 1300 1290 b | ||
AhW TDH 175 175.70 175.40 176.30 175 175 m (PSID) 168 166 | AhW TDH 175 175.70 175.40 176.30 175 175 m (PSID) 168 166 | ||
~ ~ " " | ~ ~ " " | ||
DAVIS-BESSE NUCLEAR POWER STATION PUMP HIGH PRESSURE INJECTION UNIT NO. 1 p , yg PUMP PAST*PERFOR N CE' PUMP NO. 1-1 DATA H = HOMON | DAVIS-BESSE NUCLEAR POWER STATION PUMP HIGH PRESSURE INJECTION UNIT NO. 1 p , yg PUMP PAST*PERFOR N CE' PUMP NO. 1-1 DATA H = HOMON A = AXIAL . | ||
A = AXIAL . | |||
NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
PUMP V .06 .06 .062 .12 .17 .13 .12 .12 | PUMP V .06 .06 .062 .12 .17 .13 .12 .12 | ||
Line 300: | Line 199: | ||
;y (GPM) 280 290 286 290 288 290 290 304.3 290 290 288 290 mhN TDHs . | ;y (GPM) 280 290 286 290 288 290 290 304.3 290 290 288 290 mhN TDHs . | ||
(PSID) 1569 1569 1553 1566 1566 1568 1570 1560 1563 1569 1554 1562 m | (PSID) 1569 1569 1553 1566 1566 1568 1570 1560 1563 1569 1554 1562 m | ||
, DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | , DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
pg V .19 .12 .80 .069 .054 .065 .072 .058 .054 | pg V .19 .12 .80 .069 .054 .065 .072 .058 .054 | ||
' INBOARD H 2 .84 .99 1.60 .66 .68 .62 .56 .52 .52 - | ' INBOARD H 2 .84 .99 1.60 .66 .68 .62 .56 .52 .52 - | ||
O@ '(MILS) gg .24 .305 .34 .11 .13 .10 .12 .12 .084 mN PUMP .11 .12 .08 .08 .084 4078 .086 .064 .086 OUTBOARD H 1.30 .130 1.60 .20 .21 .20 .20 .28 .19 (MILS) | O@ '(MILS) gg .24 .305 .34 .11 .13 .10 .12 .12 .084 mN PUMP .11 .12 .08 .08 .084 4078 .086 .064 .086 OUTBOARD H 1.30 .130 1.60 .20 .21 .20 .20 .28 .19 (MILS) | ||
A .13 .21 .19 .10' .12 .12 .13 .20 .11 U FLOW | A .13 .21 .19 .10' .12 .12 .13 .20 .11 U FLOW h (GPM) 290 285 290 285 290 290 288 280 290 IR DO hg TDH N (PSID) 68.50 1548.50 1578 1568. M 1568 1572 1579 1568 m | ||
h (GPM) 290 285 290 285 290 290 288 280 290 IR DO hg TDH N (PSID) 68.50 1548.50 1578 1568. M 1568 1572 1579 1568 m | |||
DAVIS-BESSE NUCLEAR POWER STATION . | DAVIS-BESSE NUCLEAR POWER STATION . | ||
PUMP HIGH PRESSURE INJECTION V= | PUMP HIGH PRESSURE INJECTION V= | ||
p , | p , | ||
PUMP NO. 1-2 DATA A = AXIAL | PUMP NO. 1-2 DATA A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
! PUMP V | ! PUMP V | ||
.11 .14 .15 .14 .11 .17 .095 .18 .12 .11 .11 .14 INBOARD g (MILS) .74 .76 80 .74 .70 .84 .99 1.00 .92 .84 .86 .80 50 .11 .88 .13 .12 211 .16 .070 .11 .08 .18 .19 .28 88 PUMP y | .11 .14 .15 .14 .11 .17 .095 .18 .12 .11 .11 .14 INBOARD g (MILS) .74 .76 80 .74 .70 .84 .99 1.00 .92 .84 .86 .80 50 .11 .88 .13 .12 211 .16 .070 .11 .08 .18 .19 .28 88 PUMP y | ||
Line 327: | Line 215: | ||
U Imh TDH W (PSID) 1569 1569 1563 1561 1567 1578 1559 1569 1600 1571 1566.20 1570.20 m | U Imh TDH W (PSID) 1569 1569 1563 1561 1567 1578 1559 1569 1600 1571 1566.20 1570.20 m | ||
DATE 1979 JAN. FEB. MAR. APR.' MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | DATE 1979 JAN. FEB. MAR. APR.' MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
V .26 .085 .42 .10 .13 .11 .12 .092 .11 PUMP INBOARD H g . (MIM) .90 .82 .78 .95 .84 .27 , .88 .90 .80 | V .26 .085 .42 .10 .13 .11 .12 .092 .11 PUMP INBOARD H g . (MIM) .90 .82 .78 .95 .84 .27 , .88 .90 .80 A | ||
5g .24 .10 .18 .11 .15 .15 .088 .086 .26 V | |||
$ PUMP .2R .11 .11 l11 | $ PUMP .2R .11 .11 l11 | ||
.08 .11 .105 .10 .11 OUTBOARD H (MIM) .24 .59 .22 .18 .24 .27 .19 .18 .28 | .08 .11 .105 .10 .11 OUTBOARD H (MIM) .24 .59 .22 .18 .24 .27 .19 .18 .28 | ||
.14 .13 .14 .11' .13 .10 .11 .12 .14 U FLOW (gpg) 286 290 290 285 290 290 290 289.40 286.30 m | .14 .13 .14 .11' .13 .10 .11 .12 .14 U FLOW (gpg) 286 290 290 285 290 290 290 289.40 286.30 m | ||
m TDH g (PSID ) 1567 1567 1567 1580.70 1576.5 1566.5 1561 1559.3 1564.6 | m TDH g (PSID ) 1567 1567 1567 1580.70 1576.5 1566.5 1561 1559.3 1564.6 | ||
,l1 ,ll l | ,l1 ,ll l | ||
8 | 8 1 . | ||
1 . | |||
. 0 C 6 2 0 0 C | . 0 C 6 2 0 0 C | ||
_ E 3 2 1 2 2 E | _ E 3 2 1 2 2 E E D 9 8 D L | ||
E D 9 8 D L | |||
- B A | - B A | ||
E L 0 8 . | E L 0 8 . | ||
Line 357: | Line 234: | ||
3 2 3 7 | 3 2 3 7 | ||
1 4 | 1 4 | ||
T | T T C | ||
T C | |||
, = = = C 3 2 1 0 3 | , = = = C 3 2 1 0 3 | ||
. O 9 8 O yHAA . | . O 9 8 O yHAA . | ||
. N . . | . N . . | ||
T 0 3 T . | T 0 3 T . | ||
P 8 1 2 5 8 P E 2 2 1 7 E S 8 - S | P 8 1 2 5 8 P E 2 2 1 7 E S 8 - S G 3 G 0 2 2 2 0 U 2 2 9 0 4 U A 1 8 A 3 2 1 5 A 7 3 8 3 8 N 8 Y 0 Y 8 6 0 L 4 7 1 0 L 4 1 1 8 A U 1 1 1 2 6 U 8 N 8 8 J J 0 N 9 O | ||
G 3 G 0 2 2 2 0 U 2 2 9 0 4 U A 1 8 A 3 2 1 5 A 7 3 8 3 | |||
8 N 8 Y 0 Y 8 6 0 L 4 7 1 0 L 4 1 1 8 A U 1 1 1 2 6 U 8 N 8 8 J J 0 N 9 O | |||
I T 0 E 0 2 . | I T 0 E 0 2 . | ||
A E 8 1 0 8 1 0 5 T E- N 6 0 N S C U 1 2 1 5 A U 4 1 1 ' | A E 8 1 0 8 1 0 5 T E- N 6 0 N S C U 1 2 1 5 A U 4 1 1 ' | ||
Line 376: | Line 245: | ||
9 N J 9 N J 7 R A E M W R 0 4 O1O 0 0 2 0 8 Y 6 7 P F Y 6 8 9 3 8 1 0 8 | 9 N J 9 N J 7 R A E M W R 0 4 O1O 0 0 2 0 8 Y 6 7 P F Y 6 8 9 3 8 1 0 8 | ||
.R A 4 A | .R A 4 A | ||
.n ROE ANP TA | .n ROE ANP TA M 8 M 7 0 7 | ||
M 8 M 7 0 7 | |||
8 3 | 8 3 | ||
8 E | 8 E | ||
L CIST'T D- A- 3 | L CIST'T D- A- 3 UNA . | ||
UNA . | |||
0 4 R NUP R 5 1 7 0 8 1 4 6 4 9 P 6 3 1 0 P 3 7 1 2 E P A 9 A 1 3 S M 9 8 S U E P B . . 6 | 0 4 R NUP R 5 1 7 0 8 1 4 6 4 9 P 6 3 1 0 P 3 7 1 2 E P A 9 A 1 3 S M 9 8 S U E P B . . 6 | ||
- 6 8 6 9 C R R 6 2 1 6 1 I A | - 6 8 6 9 C R R 6 2 1 6 1 I A A 1 V M , | ||
A 1 V M , | |||
M 0 3 A 9 8 D . ' | M 0 3 A 9 8 D . ' | ||
. 0 1 B B 4 8 4 1 E E 7 2 1 7 3 F F 8 8 | |||
. 0 1 | . . 8 N N 8 2 A A 0 2 0 1 J J 7 6 7 2 3 9 8 V A V H V H 3 V H A R | ||
B B 4 8 4 1 E E 7 2 1 7 3 F F 8 8 | |||
. . 8 N N 8 2 A A 0 2 0 1 J J 7 6 7 2 3 | |||
9 8 | |||
V A V H V H 3 V H A R | |||
E T | E T | ||
A 1 D | A 1 D | ||
W 1 | W 1 D D R E D R R) A) ) | ||
C 8 R) A) ) 9 AS OS ) D I 7 AS OS ) D 7 POL PBL wM I OP HS c V R | |||
D D R E D R R) A) ) | E S O 9 | ||
C 8 R) A) ) 9 AS OS ) D I 7 AS OS ) D 7 POL PBL wM I | 1 E | ||
POL MBI UNM PI( | |||
OP HS c V R | |||
E S O | |||
PBL MTI UUM PO( | PBL MTI UUM PO( | ||
WM O@ | WM O@ | ||
Line 430: | Line 276: | ||
% 1 | % 1 | ||
. . _ _ ~ | . . _ _ ~ | ||
(: | (: | ||
DAVIS-BESSE NUCLEAR POWER STATION PUMP SERVICE WATER | DAVIS-BESSE NUCLEAR POWER STATION PUMP SERVICE WATER | ||
* V = VERTICAL PUMP HO. 1-2 ' | * V = VERTICAL PUMP HO. 1-2 ' | ||
H = HORIZONTAL A = AXIAL r-NA = NOT AVAILABLE | H = HORIZONTAL A = AXIAL r-NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE. JULY AUG. SEPT. OCT. NOV. DEC. | ||
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE. JULY AUG. SEPT. OCT. NOV. DEC. | |||
PUMP V .29 .23 NA .36 .3 .24 .34 .16 .31 .40 INBOARD g (MILS) .17 .12 NA .27 .13 .038 .12 .32 .12 .13 EO A | PUMP V .29 .23 NA .36 .3 .24 .34 .16 .31 .40 INBOARD g (MILS) .17 .12 NA .27 .13 .038 .12 .32 .12 .13 EO A | ||
.032 .065 .NA 115 .084 .11 .07 .12 .055 .10 28 v gg PUMP | .032 .065 .NA 115 .084 .11 .07 .12 .055 .10 28 v gg PUMP | ||
Line 445: | Line 286: | ||
U FIDW Y (GPM) 9343 9150 NA 9121 9100 9400 9200 9000 9000 9000 b | U FIDW Y (GPM) 9343 9150 NA 9121 9100 9400 9200 9000 9000 9000 b | ||
osNh TDH ' | osNh TDH ' | ||
: p. (PSID) 79.5 79.5 NA 79.5- 79.6 79.5 79.5 79 ~79 79.03 | : p. (PSID) 79.5 79.5 NA 79.5- 79.6 79.5 79.5 79 ~79 79.03 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
pg V .26 .28 .21 .38 .29 | pg V .26 .28 .21 .38 .29 | ||
.29 .22 z INBOARD H | .29 .22 z INBOARD H | ||
.12 .12 .41 .11 .13 .11 .34 - | .12 .12 .41 .11 .13 .11 .34 - | ||
o@ -(MILS) | o@ -(MILS) | ||
"g A | "g A | ||
.09 .10 .14 .068 .09 .07 .13 | .09 .10 .14 .068 .09 .07 .13 | ||
Line 459: | Line 297: | ||
D FLOW (CPM) 9000 9029 9100 8400 9086 8871 9040 o | D FLOW (CPM) 9000 9029 9100 8400 9086 8871 9040 o | ||
A TDH M * * *O | A TDH M * * *O | ||
: o. (PSID) * * * | : o. (PSID) * * * | ||
* e | |||
e | |||
_ _ N DAVIS-BESSE NUCLEAR POWER STATION | _ _ N DAVIS-BESSE NUCLEAR POWER STATION | ||
Line 467: | Line 304: | ||
PUMP PAST' PERFORMANCE-PUMP NO' l-3 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE i | PUMP PAST' PERFORMANCE-PUMP NO' l-3 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE i | ||
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
PUMP V INBOARD | PUMP V INBOARD | ||
.16 .13 .17 .18 .22 .24 .10 .13 .17 H .22 .17 .20 2 (MILS) .26 .20 19 .17 .19 .24 0 ^ | .16 .13 .17 .18 .22 .24 .10 .13 .17 H .22 .17 .20 2 (MILS) .26 .20 19 .17 .19 .24 0 ^ | ||
Line 473: | Line 309: | ||
.12 .11 .44 .12 .07 .08 .11 N | .12 .11 .44 .12 .07 .08 .11 N | ||
PUMP v | PUMP v | ||
> OUTBOARD H (MILS) | |||
> OUTBOARD H | U FLOW (GPM) 9000 8800 8600 8625 9000 8800 0000 9100 9071 b | ||
hh TDH ' | |||
(MILS) | g (PSID) 85.5 86 86 86 86 86 86 86 85.2 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
U FLOW (GPM) 9000 8800 8600 8625 9000 8800 0000 9100 9071 | |||
g (PSID) 85.5 86 86 86 86 86 86 86 85.2 | |||
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
V .15 .16 .19 .20 PUMP .22 .15 .17 2 BO M H | V .15 .16 .19 .20 PUMP .22 .15 .17 2 BO M H | ||
.26 .17 .15 .22 .19 .085 .15 Sg | .26 .17 .15 .22 .19 .085 .15 Sg | ||
~(MILS) | ~(MILS) | ||
A | A gg .16 .076 .092 .12 .074 .072 .076 | ||
gg .16 .076 .092 .12 .074 .072 .076 | |||
: mN PUMP | : mN PUMP | ||
* 5 OUTBOARD H < | * 5 OUTBOARD H < | ||
l (MILS) ' | l (MILS) ' | ||
d FLOW (GPM) 9150 9000 9071 8900 8500 9085 8608 h TDH g (PSID) 85.6 85.3 85.3 85.5 86.01 83.8 86 | d FLOW (GPM) 9150 9000 9071 8900 8500 9085 8608 h TDH g (PSID) 85.6 85.3 85.3 85.5 86.01 83.8 86 | ||
O ^ | O ^ | ||
< ) - | < ) - | ||
i DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP AUXILIARY FEED PUMP , | |||
i DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 | |||
PUMP PAST* PERFORMANCE- . | PUMP PAST* PERFORMANCE- . | ||
PUMP NO. 1-1 DATA H = HORIZONTAL | PUMP NO. 1-1 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAIT ABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
A = AXIAL NA = NOT AVAIT ABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
PUMP V .074 .07 .11 .082 75 .06 .11 .16 INBOARD - | PUMP V .074 .07 .11 .082 75 .06 .11 .16 INBOARD - | ||
g (MILS) .120 .18 .26 .160 .15 .13 .18 .215 EO ^ | g (MILS) .120 .18 .26 .160 .15 .13 .18 .215 EO ^ | ||
Line 512: | Line 332: | ||
.220 .26 .26 .190 .23 .23 .19 .21 g .130 .16 .21 .140 .15 .14 .19 .22 A | .220 .26 .26 .190 .23 .23 .19 .21 g .130 .16 .21 .140 .15 .14 .19 .22 A | ||
.11 .40 .26 .084 .11 .12 .14 .14 d FIDW H (GPM) 817 821 813 825 820 818 815 820 il S! | .11 .40 .26 .084 .11 .12 .14 .14 d FIDW H (GPM) 817 821 813 825 820 818 815 820 il S! | ||
Sh TDH g (PSID) 1105 1099 1172 1199 1194 1223 1185 1111 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | Sh TDH g (PSID) 1105 1099 1172 1199 1194 1223 1185 1111 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
pg V .13 .088 .022 .C68 .22 | pg V .13 .088 .022 .C68 .22 | ||
.20 ~~.14 | .20 ~~.14 | ||
. INBOARD H 2 .16 .18 .15 .34 .25 .22 .17 - | . INBOARD H 2 .16 .18 .15 .34 .25 .22 .17 - | ||
Line 522: | Line 340: | ||
A | A | ||
.078 | .078 | ||
.06 .064 .050 .08 .13 .10 - | .06 .064 .050 .08 .13 .10 - | ||
g N I | g N I | ||
Line 531: | Line 348: | ||
A TDH | A TDH | ||
,. g (PSID) :118 1120 1122.5 1100 1128 NA 1197.3 | ,. g (PSID) :118 1120 1122.5 1100 1128 NA 1197.3 | ||
DAVIS-BESSE NUCLEAR POWER STATION PUMP T'P RMANCE-PUMP NO. 1-2 DATA | DAVIS-BESSE NUCLEAR POWER STATION PUMP T'P RMANCE-PUMP NO. 1-2 DATA | ||
, A = AXIAL | , A = AXIAL | ||
, NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APP. MAY JUNE . JULY AUG. SEPT. OCT. NOV. DEC. | , NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APP. MAY JUNE . JULY AUG. SEPT. OCT. NOV. DEC. | ||
PUMP V | PUMP V | ||
.21 .084 .10 | .21 .084 .10 | ||
.13 .99 .18 .10. .17 INBOARD H | .13 .99 .18 .10. .17 INBOARD H | ||
g (MILS) .19 .24 .12 .19 .11 .20 .15 .26 EO ^ | g (MILS) .19 .24 .12 .19 .11 .20 .15 .26 EO ^ | ||
.11 .D95 .08 .09 .092 .10 .071 58 y | .11 .D95 .08 .09 .092 .10 .071 58 y gg PUMP .54 .33 .56 .34 . 57 .3 . 50 .54 | ||
gg PUMP .54 .33 .56 .34 . 57 .3 . 50 .54 | |||
.19 .21 .15 .40 .14 .18 .22 .22 (MILS) | .19 .21 .15 .40 .14 .18 .22 .22 (MILS) | ||
.29 .31 .24 .13 .17 .11 .45 .21 U FIDW H (GPM) 820 820 806 820 820 825' 813 813 b b mh TDH g (PSID) 1255 1258 1210 1250 125G 1257 1280 1267 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY A'JG . SEPT. OCT. NOV. DEC. | .29 .31 .24 .13 .17 .11 .45 .21 U FIDW H (GPM) 820 820 806 820 820 825' 813 813 b b mh TDH g (PSID) 1255 1258 1210 1250 125G 1257 1280 1267 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY A'JG . SEPT. OCT. NOV. DEC. | ||
Line 558: | Line 364: | ||
.20 .15 .17 .21 .19 (MILS) | .20 .15 .17 .21 .19 (MILS) | ||
A | A | ||
.22 .22 .17 .15 .14 U FLOW (GPM) 820 820 820 812 810 _- - | .22 .22 .17 .15 .14 U FLOW (GPM) 820 820 820 812 810 _- - | ||
TDH 1266 1270.9 1256.7 1215.3 1238 g (PSID ) | TDH 1266 1270.9 1256.7 1215.3 1238 g (PSID ) | ||
y_ __ _-_ | y_ __ _-_ | ||
DAVIS-BESSE NUCLEAR POWER STATION PUMP DECAY HEAT UNIT NO. 1 PUMP PAST' PERFORMANCE- V = VE m N PUMP NO. 11 ' DATA H = HORIZOMTAL | DAVIS-BESSE NUCLEAR POWER STATION PUMP DECAY HEAT UNIT NO. 1 PUMP PAST' PERFORMANCE- V = VE m N PUMP NO. 11 ' DATA H = HORIZOMTAL A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. .OCT. NOV. DEC. . | ||
A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. .OCT. NOV. DEC. . | |||
PUMP V .20 .39 .62 .74 .60 .11 .72 | PUMP V .20 .39 .62 .74 .60 .11 .72 | ||
.92 .82 .82 .75 .50 INBOARD j g (MILS) .21 .31 .05 .29 .36 .58 .56 .62 .46 .46 .38 .40 5O A | .92 .82 .82 .75 .50 INBOARD j g (MILS) .21 .31 .05 .29 .36 .58 .56 .62 .46 .46 .38 .40 5O A | ||
Line 575: | Line 376: | ||
>g PUMP 1.0 .40 1.2 .8 .46 .70 .265 1.1 OUTBOARD H .26 .41 1.1 .74 .86 .60 .86 .75 1.0 .86 .86 1.0 (MILS) | >g PUMP 1.0 .40 1.2 .8 .46 .70 .265 1.1 OUTBOARD H .26 .41 1.1 .74 .86 .60 .86 .75 1.0 .86 .86 1.0 (MILS) | ||
A | A | ||
.14 .29 .70 .59 .53 .54 .78 .62 .52 .34 .34 .44 U FIDW y (GPM) 2928 3000 3010 3058 3050 2979 2987 3000 3000 3038 3000 3027 A b | .14 .29 .70 .59 .53 .54 .78 .62 .52 .34 .34 .44 U FIDW y (GPM) 2928 3000 3010 3058 3050 2979 2987 3000 3000 3038 3000 3027 A b mh TDH (PSID) 159 158 159 159 159 157 156 152 NA 156 157 157 N. | ||
a DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
a | |||
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
V .70 .60 .64 .56 .52 .80 .79 | V .70 .60 .64 .56 .52 .80 .79 | ||
; PUMP .86 , | ; PUMP .86 , | ||
Line 590: | Line 388: | ||
IR o | IR o | ||
"p TDH E 156 158 146 150 158 156 157 156 g (PSID) | "p TDH E 156 158 146 150 158 156 157 156 g (PSID) | ||
i . | i . | ||
Line 597: | Line 393: | ||
* PUMP DECAY HEAT UNIT NO. 1 PUMP PAST*1ERFORMANCE V = VE m N PUMP NO. 1-2 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE I | * PUMP DECAY HEAT UNIT NO. 1 PUMP PAST*1ERFORMANCE V = VE m N PUMP NO. 1-2 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE I | ||
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
PUMP V .39 .50 .59 .52 | PUMP V .39 .50 .59 .52 | ||
.80 .012 .62 .40 .46 .43 .45 .49 j INBOARD c g* (MILS) .72 .70 .67 .80 -015 .84 .56 .84 .61 .60 .61 .66 | .80 .012 .62 .40 .46 .43 .45 .49 j INBOARD c g* (MILS) .72 .70 .67 .80 -015 .84 .56 .84 .61 .60 .61 .66 EE A .22 .50 .41 .36 .015' .36 .32 .36 .36 .28 .31 .38 58 v q gg PUMP .21 .30 .26 .80 .029 .68 .48 .42 .31 .30 .32 .37 j > NW H .68 .70 .68 .80 .027 .89 .73 .90 .60 .62 .62 .63 (MILS) | ||
EE A .22 .50 .41 .36 .015' .36 .32 .36 .36 .28 .31 .38 58 v q gg PUMP .21 .30 .26 .80 .029 .68 .48 .42 .31 .30 .32 .37 j > NW H .68 .70 .68 .80 .027 .89 .73 .90 .60 .62 .62 .63 (MILS) | |||
.29 .38 .34 .40 .017 .38 .29 .32 .31 .26 .26 .30 U FIDW jy (GPM) 2990 3049 3026 3022 3000 3000 3060 3025 3040 2972 3042 3054 | .29 .38 .34 .40 .017 .38 .29 .32 .31 .26 .26 .30 U FIDW jy (GPM) 2990 3049 3026 3022 3000 3000 3060 3025 3040 2972 3042 3054 | ||
!0 i | !0 i | ||
mhM TDH (PSID) 157 152 151 151 152 150 157 159 157 157 157 158 m | mhM TDH (PSID) 157 152 151 151 152 150 157 159 157 157 157 158 m | ||
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
ph V .47 .40 .44 .36 .40 .25 .32 .32 .38 m H | ph V .47 .40 .44 .36 .40 .25 .32 .32 .38 m H | ||
.76 .41 .62 .62 .55 .71 .58 .55 .48 | .76 .41 .62 .62 .55 .71 .58 .55 .48 | ||
'(MILS) | '(MILS) | ||
SQ g 8 .33 .26 .25 .24 .32 .25 .36 .27 .29 V | SQ g 8 .33 .26 .25 .24 .32 .25 .36 .27 .29 V | ||
$N PUMP .60 .24 .62 .52 .62 262 .38 .30 .26 ONE H | $N PUMP .60 .24 .62 .52 .62 262 .38 .30 .26 ONE H | ||
Line 618: | Line 408: | ||
.36 .25 .10 .28 .31 .31 . 3 8' .26 .32 | .36 .25 .10 .28 .31 .31 . 3 8' .26 .32 | ||
, d FLOW | , d FLOW | ||
, (CPM) 3579 2900.7 2982 3047 3000 3051 3017 3029 3009 e | , (CPM) 3579 2900.7 2982 3047 3000 3051 3017 3029 3009 e | ||
m TDH M | m TDH M | ||
m (PSID) 155.9 159 159 156 157 156 158 157.7 156 | m (PSID) 155.9 159 159 156 157 156 158 157.7 156 e | ||
e | |||
-~ | -~ | ||
~, | ~, | ||
DAVIS-BESSE NUCLEAR POWER STATION | DAVIS-BESSE NUCLEAR POWER STATION | ||
* PUMP OOMPONENT COOLING T NO. 1 PUMP PAST' PERFORMANCE- V = VERTICAL PUMP NO. 1 H = HORIZONTAL DATA A = AXIAL NA = NOT AVAILABLE i | * PUMP OOMPONENT COOLING T NO. 1 PUMP PAST' PERFORMANCE- V = VERTICAL PUMP NO. 1 H = HORIZONTAL DATA A = AXIAL NA = NOT AVAILABLE i | ||
Line 637: | Line 420: | ||
(MILS) .34 .26 .40 .34 .32 .30 .22 .23 .26 .26 EO A 1.2 2.4 . 24 .7; .22 1.7 .48 .70 .75 .50 28 v gg PUMP .26 .52 1.7 .24 .34 .21 .14 .15 .15 .25 | (MILS) .34 .26 .40 .34 .32 .30 .22 .23 .26 .26 EO A 1.2 2.4 . 24 .7; .22 1.7 .48 .70 .75 .50 28 v gg PUMP .26 .52 1.7 .24 .34 .21 .14 .15 .15 .25 | ||
.61 .30 .54 .44 .44 .50 .34 .34 .45 .30 1.4 .20 1.80 .70 2.' 30 .19 .56 1.10 1.10 .60 U FIDW Y (GPM) 4700 7300 7400 4800' 7500 4800 7400 7200 7500 7300 0 b mh TDH te (PSID) 81 84 66 81 75 97 82 84 66 ---- | .61 .30 .54 .44 .44 .50 .34 .34 .45 .30 1.4 .20 1.80 .70 2.' 30 .19 .56 1.10 1.10 .60 U FIDW Y (GPM) 4700 7300 7400 4800' 7500 4800 7400 7200 7500 7300 0 b mh TDH te (PSID) 81 84 66 81 75 97 82 84 66 ---- | ||
m | m DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
Y .016 PUMP 1.2 .36 .12 .19 .14 .12 .16 .17 2 .024 .42 .34 .36 | Y .016 PUMP 1.2 .36 .12 .19 .14 .12 .16 .17 2 .024 .42 .34 .36 | ||
'(MILS) | '(MILS) | ||
Line 646: | Line 427: | ||
.024 .52 .54 .44 .36 .62 .16 .29 .46 (MILS) | .024 .52 .54 .44 .36 .62 .16 .29 .46 (MILS) | ||
A | A | ||
.016 1.5 1.1 .86 .58 1.4 .80 .78 .76 U FLOW | .016 1.5 1.1 .86 .58 1.4 .80 .78 .76 U FLOW (GPM) 7400 g 4600 4600 4593 7300 7200 4792 7500 4755 oo Ag .TDH J g (PSID) 82 79 79.5 81.3 68 67 79.7 65 80.5 | ||
(GPM) 7400 g 4600 4600 4593 7300 7200 4792 7500 4755 oo Ag .TDH J g (PSID) 82 79 79.5 81.3 68 67 79.7 65 80.5 | |||
+ | + | ||
t_ _a__ _ _ _ _ _ _ _ . _ _ _ _ _ . _ _ _ __ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ . _ . _ _ | t_ _a__ _ _ _ _ _ _ _ . _ _ _ _ _ . _ _ _ __ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ . _ . _ _ | ||
DAVIS-BESSE NUCLEAR POWER STATION . | DAVIS-BESSE NUCLEAR POWER STATION . | ||
PUMP ccMponpnT coorTNG WATER pg .PE MG V = VERI PUMP NO. 1-2 DATA - | PUMP ccMponpnT coorTNG WATER pg .PE MG V = VERI PUMP NO. 1-2 DATA - | ||
A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
PUMP V | PUMP V | ||
.17 .28 .14 .76 .22 .13 .20 .16 .16 INBOARD z H (MILS) .36 .29 .26 .23 .24 .21 .36 .23 .30 EO A 1.40 . 13 1.20 1.30 1.40 1.1 1.00 1.40 1.30 | .17 .28 .14 .76 .22 .13 .20 .16 .16 INBOARD z H (MILS) .36 .29 .26 .23 .24 .21 .36 .23 .30 EO A 1.40 . 13 1.20 1.30 1.40 1.1 1.00 1.40 1.30 | ||
%8 v gg PUMP .19 .38 .18 .25 .32 .22 .26 .34 .20 ONE H | %8 v gg PUMP .19 .38 .18 .25 .32 .22 .26 .34 .20 ONE H | ||
.03 .50 .38 .42 .43 .40 .40 .46 .50 (MILS) ^ 1.90 1.50 .12 1.50 1.50 1.00 1.80 1.50 1.60 U FIDW 7 (GPM) 4700 7414 7550 7500 7600 7500 4600 7500 7493 0 b Ah TDH g (PSID) 80.00 68- 67 67 66 66 99 67 66.1 | .03 .50 .38 .42 .43 .40 .40 .46 .50 (MILS) ^ 1.90 1.50 .12 1.50 1.50 1.00 1.80 1.50 1.60 U FIDW 7 (GPM) 4700 7414 7550 7500 7600 7500 4600 7500 7493 0 b Ah TDH g (PSID) 80.00 68- 67 67 66 66 99 67 66.1 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
ph V .16 .20 .15 .18 .24 .26 .16 | ph V .16 .20 .15 .18 .24 .26 .16 | ||
. INBOARD H 2 .19 .75 .22 .19 .40 .22 .20 gg | . INBOARD H 2 .19 .75 .22 .19 .40 .22 .20 gg | ||
'(MILS) A gg 1.10 1.30 1.20 1.40 1.90 1.80 1.70 | '(MILS) A gg 1.10 1.30 1.20 1.40 1.90 1.80 1.70 | ||
: mN PUMP .31 .25 .19 .45 .48 .18 .31 ONE H | : mN PUMP .31 .25 .19 .45 .48 .18 .31 ONE H | ||
.36 .45 .42 .48 .46 .46 .45 (MILS) | .36 .45 .42 .48 .46 .46 .45 (MILS) | ||
A 1.20 1.60 1.30 1.50 2.20 .17 1.95 8 rLOw . | A 1.20 1.60 1.30 1.50 2.20 .17 1.95 8 rLOw . | ||
(GPM) 7464.3 7400 7450 7507 4550 7514 7600 DO A g' TDH g (PSID) 65.33 65 65.28 65.28 79.5 63.70 64 P | (GPM) 7464.3 7400 7450 7507 4550 7514 7600 DO A g' TDH g (PSID) 65.33 65 65.28 65.28 79.5 63.70 64 P | ||
o | o | ||
_m __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ __ ____________ __ _______ __ __ _ _ _ _ _ _ _ _ _ _ _ | _m __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ __ ____________ __ _______ __ __ _ _ _ _ _ _ _ _ _ _ _ | ||
Q ' ~ | Q ' ~ | ||
^ | ^ | ||
DAVIS-BESSE NUCLEAR POWER STATION PUMP COMPONENT COOLING WATER 5= | DAVIS-BESSE NUCLEAR POWER STATION PUMP COMPONENT COOLING WATER 5= | ||
p . | p . | ||
PUMP NO. 1-3 DATA - A = AXIAL NA = NOT AVAILABLE | PUMP NO. 1-3 DATA - A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | |||
PUMP V | PUMP V | ||
.56 .28 .42 .20 1.6 .68 .34 .34 .27 .44 .34 INBOARD g (MILS) .90 .40 .50 .19 .57 .54 .55 .64 .90 .72 .57 5O 1.30 .27 .70 1.9 .74 1.1 .90 2.50 1.50 .90 .66 IO V | .56 .28 .42 .20 1.6 .68 .34 .34 .27 .44 .34 INBOARD g (MILS) .90 .40 .50 .19 .57 .54 .55 .64 .90 .72 .57 5O 1.30 .27 .70 1.9 .74 1.1 .90 2.50 1.50 .90 .66 IO V | ||
.70 | .70 mg PUMP .15 .50 .32 1.70 .70 .31 .40 .22 .26 .57 M | ||
1.00 .25 .54 .44 .47 .70 .40 .68 ' .72~ .44 .71 1.50 .28 .70 1.00 .73 1.3 1.00 2.50 2.20 .78 .11 U FLOW y (GPM) 4700 NA 7203 7250 7300 4650 7400 4600 4500 7250 7250 | |||
mg PUMP .15 .50 .32 1.70 .70 .31 .40 .22 .26 .57 M | |||
1.00 .25 .54 .44 .47 .70 .40 .68 ' .72~ .44 .71 1.50 .28 .70 1.00 .73 1.3 1.00 2.50 2.20 .78 .11 U FLOW | |||
y (GPM) 4700 NA 7203 7250 7300 4650 7400 4600 4500 7250 7250 | |||
.: U mhN TDH 80 NA 69 69 69 82 83 82 97 NA 67 | .: U mhN TDH 80 NA 69 69 69 82 83 82 97 NA 67 | ||
: a. (PSID) | : a. (PSID) | ||
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. | ||
p V .18 .25 .37 .25 .38 .32 .34 .44 | p V .18 .25 .37 .25 .38 .32 .34 .44 | ||
Line 709: | Line 465: | ||
, .71 2.00 1.60 1.80 1.30 1.50 1.60 1.10 7192 4810 4700 4600 4728 4500 4750 4800 | , .71 2.00 1.60 1.80 1.30 1.50 1.60 1.10 7192 4810 4700 4600 4728 4500 4750 4800 | ||
) , | ) , | ||
~ | ~ | ||
lla ',%, 66 81.48 81.0 81.50 81.6c 82.06 81.80 80.e0 | lla ',%, 66 81.48 81.0 81.50 81.6c 82.06 81.80 80.e0 | ||
DAVIS-BESSE NUCLEAR POWER STATION I UNIT NO. 1 PUMP PAST PERFORMANCE STATI'STICAL ANALYSIS! - | DAVIS-BESSE NUCLEAR POWER STATION I UNIT NO. 1 PUMP PAST PERFORMANCE STATI'STICAL ANALYSIS! - | ||
V = VERTICAL | V = VERTICAL | ||
. PUV2 DECAY HEAT H = HORIZONTAL 1-2 A " MN PUMP NO. | . PUV2 DECAY HEAT H = HORIZONTAL 1-2 A " MN PUMP NO. | ||
NA = NOT AVAILIBLE | NA = NOT AVAILIBLE DATE 1978 ,1979 MEAN STANDARD DEVIATION .VARIs CE, V 0.429 0.152 0.C22 p | ||
DATE 1978 ,1979 MEAN STANDARD DEVIATION .VARIs CE, V 0.429 0.152 0.C22 p | |||
~ | ~ | ||
INBOARD H 0.615 0.176 0.030 A 0.307 0.0% 0.008 VIBRATION pg V 0.411 0.191 0.035 | INBOARD H 0.615 0.176 0.030 A 0.307 0.0% 0.008 VIBRATION pg V 0.411 0.191 0.035 OUTBOARD H 0.656 0.201 0.038 , | ||
OUTBOARD H 0.656 0.201 0.038 , | |||
1 A 0.291 0.090 0.008 C PUMP FIm (GPM) 3042.6 128.1 15632.3 | 1 A 0.291 0.090 0.008 C PUMP FIm (GPM) 3042.6 128.1 15632.3 | ||
] | ] | ||
TDH (PSID) 155.8 2.84 7.68 | TDH (PSID) 155.8 2.84 7.68 PUMP COMPONENT COOLING PUMP NO. 1 ) | ||
PUMP COMPONENT COOLING PUMP NO. 1 ) | |||
l l | l l | ||
DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE I pg V 0.219 0.255 0.062 ) | DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE I pg V 0.219 0.255 0.062 ) | ||
INBOARD H 0.319 0.122 0.012 A- O.827 0.549 0.286 l VIBRATION l V 0.306 0.352 0.118 PUM OUTBOARD H 0.404 0.150 0.021 (MILS) A 0.934 0.572 0.310 i | INBOARD H 0.319 0.122 0.012 A- O.827 0.549 0.286 l VIBRATION l V 0.306 0.352 0.118 PUM OUTBOARD H 0.404 0.150 0.021 (MILS) A 0.934 0.572 0.310 i | ||
FIM (GPM) 6244.2 1352.5 1732936.9 PUMP PERFORMANCE TDH (PSID 77.66 8.37 66.18 l l | FIM (GPM) 6244.2 1352.5 1732936.9 PUMP PERFORMANCE TDH (PSID 77.66 8.37 66.18 l l | ||
l | l | ||
DAVIS-BESSE NUCLEAR POWER STATION I IINIT NO. 1 PUMP P.AST PERFORMANCE STATISTICAL ANALYSIS V = VERTICAL | |||
DAVIS-BESSE NUCLEAR POWER STATION I IINIT NO. 1 PUMP P.AST PERFORMANCE | |||
STATISTICAL ANALYSIS V = VERTICAL | |||
. PUMP COMPONENT COOLING WATER H = HORIZONTAL | . PUMP COMPONENT COOLING WATER H = HORIZONTAL | ||
^ ' | ^ ' | ||
PUMP NO* l-2 NA = NOT AVAILABLE | PUMP NO* l-2 NA = NOT AVAILABLE DATE 1978 - 1979 _ | ||
DATE 1978 - 1979 _ | |||
. MEAN -STANDARD DEVIATION , VARIANCE puMe v .223 0.150 0.021 INBOARD H' O.291 0.139 - | . MEAN -STANDARD DEVIATION , VARIANCE puMe v .223 0.150 0.021 INBOARD H' O.291 0.139 - | ||
0.018 | 0.018 | ||
. t | . t I 1.29 0.397 0.148 A | ||
B M ON Pue v 0.282 0.095 0.008 OUTBOARD H- O.4125 O.110 0.01'l A 1.396 0.568 0.303 | |||
I 1.29 0.397 0.148 A | .C PUMP FIDW (GPM) 6958.9 1163.7 1269483.1 TDH (PSID) 69.64 9.22 79.65 PUMP COMPONENT COOLING WATER PUMP NO. 1-3 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.421 0.310 0.091 pg INBOARD H 0.643 0.201 0.038 A. 1.136 0.577 0.316 VIBRATION V 0.502 0.327 0.101 pgg | ||
B M ON Pue v 0.282 0.095 0.008 | ^ OUTBOARD H 0.628 0.176 0.029 A 1.248 0.632 0.378 FIDW (GPM) 5676.8 1305.8 1610266.5 PUMP PERFORMANCE TDH,(PSID 78.47 7.95 59.4 I-25 | ||
.C PUMP FIDW (GPM) 6958.9 1163.7 1269483.1 TDH (PSID) 69.64 9.22 79.65 | |||
PUMP COMPONENT COOLING WATER PUMP NO. 1-3 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.421 0.310 0.091 pg | |||
INBOARD H 0.643 0.201 0.038 A. 1.136 0.577 0.316 VIBRATION V 0.502 0.327 0.101 pgg | |||
^ OUTBOARD H 0.628 0.176 0.029 A 1.248 0.632 0.378 FIDW (GPM) 5676.8 1305.8 1610266.5 PUMP PERFORMANCE TDH,(PSID 78.47 7.95 59.4 | |||
I-25 | |||
DAVIS-BESSE NUCLEAR POWER STATION . | DAVIS-BESSE NUCLEAR POWER STATION . | ||
I UNIT NO. 1 PUMP PAST PERFOILMANCE ~' | I UNIT NO. 1 PUMP PAST PERFOILMANCE ~' | ||
Line 773: | Line 499: | ||
. PUMP CONTAIt: MENT SPRAY H = HORIZONTAL A" ^' | . PUMP CONTAIt: MENT SPRAY H = HORIZONTAL A" ^' | ||
PUMP NO. 1-1 . | PUMP NO. 1-1 . | ||
NA = NOT AVAIIABLE | NA = NOT AVAIIABLE DATE 1978 - 1979 , MEAN STANDARD DEVIATION VARIANCE 9 | ||
DATE 1978 - 1979 , MEAN STANDARD DEVIATION VARIANCE 9 | |||
V 0.121 0.032 0.001 PUMP INBOARD H' O.156 ' | V 0.121 0.032 0.001 PUMP INBOARD H' O.156 ' | ||
0.032 , 0.001 , | 0.032 , 0.001 , | ||
, i . | , i . | ||
A 0.382 0.123 0.014 VIBRATION v 0.135 0.07F 0.005 Pup | A 0.382 0.123 0.014 VIBRATION v 0.135 0.07F 0.005 Pup | ||
~ | ~ | ||
OUTBOARD H C.225 O.J45 0.002 A 0.357 0.149 0.021 C PUMP FIDW (GPM) 1289.6 22.9 497.7 TDH (PSID) 177.5 9.56 86.6 PUMP CONTAINMENT SPRAY PUMP NO. 1-2 < | OUTBOARD H C.225 O.J45 0.002 A 0.357 0.149 0.021 C PUMP FIDW (GPM) 1289.6 22.9 497.7 TDH (PSID) 177.5 9.56 86.6 PUMP CONTAINMENT SPRAY PUMP NO. 1-2 < | ||
l l | l l | ||
DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE | DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.436 0.388 0.142 p | ||
V 0.436 0.388 0.142 p | |||
INBOARD H 0.44 0.295 0.083 I@MI A. 1.728 1.158 1.271 VIBRATION y 0.487 0.301 0.086 OUTBOARD H 0.373 0.267 0.067 1 | INBOARD H 0.44 0.295 0.083 I@MI A. 1.728 1.158 1.271 VIBRATION y 0.487 0.301 0.086 OUTBOARD H 0.373 0.267 0.067 1 | ||
i IEM) A 2.063 1.197 1.359 l b | i IEM) A 2.063 1.197 1.359 l b | ||
Line 795: | Line 513: | ||
t w | t w | ||
DAVIS-BESSE NUCLEAR POWER STATION I UNIT NO. 1 | DAVIS-BESSE NUCLEAR POWER STATION I UNIT NO. 1 | ||
. PUMP PAST PERFORMANCE STATISTICAL ANALYSIS- , | . PUMP PAST PERFORMANCE STATISTICAL ANALYSIS- , | ||
Line 804: | Line 519: | ||
^~ | ^~ | ||
PUMP NO. 1-1 - | PUMP NO. 1-1 - | ||
NA = NOT AVAILIBLE | NA = NOT AVAILIBLE DATE 1978'- 1979 MEAN STANDARD DEVIATION VARIANCE V 0.160 0.190 0.034 p | ||
DATE 1978'- 1979 MEAN STANDARD DEVIATION VARIANCE V 0.160 0.190 0.034 p | |||
INBOARD H' -0.712 i, 0.405 0.156 : | INBOARD H' -0.712 i, 0.405 0.156 : | ||
9 VIBRATION | 9 VIBRATION | ||
Line 812: | Line 525: | ||
* V 0.170 0.169 0.027 p | * V 0.170 0.169 0.027 p | ||
OUTBOARD H- 0.740 0.501 0.239 | OUTBOARD H- 0.740 0.501 0.239 | ||
(" A 0.329 0.549 0.287 C PUMP FIDW (GPM) 288.8 4.75 21.48 TDH (PSID) 1566.1 7.42 52.4 PUMP liIG{ PRESSURE INJECTION PUMP NO. 1-2 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE p V 0.143 0.074 0.005 l | (" A 0.329 0.549 0.287 C PUMP FIDW (GPM) 288.8 4.75 21.48 TDH (PSID) 1566.1 7.42 52.4 PUMP liIG{ PRESSURE INJECTION PUMP NO. 1-2 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE p V 0.143 0.074 0.005 l IlmOARD H 0.816 0.149 0.021 j IM A. 0.180 0.171 0.028 VIBRATION i V 0.127 0.059 0.003 l PUMP 1 OUTBOARD H 0.264 0.130 0.016 (MILS) A 0.124 0.017 0.0003 L FIDW (GPM) 288.6 2.24 4.77 PUMP PERFORMANCE TDH,(PSID 1569.1 9.08 78.46 | ||
IlmOARD H 0.816 0.149 0.021 j IM A. 0.180 0.171 0.028 VIBRATION i V 0.127 0.059 0.003 l PUMP 1 OUTBOARD H 0.264 0.130 0.016 (MILS) A 0.124 0.017 0.0003 L FIDW (GPM) 288.6 2.24 4.77 PUMP PERFORMANCE TDH,(PSID 1569.1 9.08 78.46 | |||
DAVIS-BESSE NUCLEAR POWER STATION | DAVIS-BESSE NUCLEAR POWER STATION | ||
( UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL ANALYSIS | ( UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL ANALYSIS V = VERTICAL | ||
, PUMP SERVICE WATER H = HORIZONTAL A = AXIAL PUMP NO. 1-1 g , g ggg DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.444 0.192 0.035 e INBOARD H' i 0.355 0.225' 4-0.048 - | |||
V = VERTICAL | VIBRATION A 0.185 0.152 0.022 PUMP OUTBOARD H (MILS C~ PUMP FLOW.(GPM) 8945.9 247.2 57516.6 j EMO N G 83.25 1.386 1.785 TDH (PSID) | ||
, PUMP SERVICE WATER H = HORIZONTAL A = AXIAL PUMP NO. 1-1 g , g ggg | PUMP SERVICE WATER PUMP NO. 1-2 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE p V 0.279 0.060 0.003 INBOARD H 0.172 0.104 0.010 I 0.092 0.032 0.001 A. | ||
VIBRATION PUMP OUTBOARD H (MILS) , A 1 | |||
DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.444 0.192 0.035 e INBOARD H' i 0.355 0.225' 4-0.048 - | PUMP FIDW (GPM) 9052.5 218.7 44823.0 l PERFORMANCE TDH,(PSID 79.30 0.269 0.068 l | ||
VIBRATION A 0.185 0.152 0.022 PUMP | |||
OUTBOARD H | |||
(MILS C~ PUMP FLOW.(GPM) 8945.9 247.2 57516.6 j EMO N G 83.25 1.386 1.785 TDH (PSID) | |||
PUMP SERVICE WATER PUMP NO. 1-2 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE p V 0.279 0.060 0.003 | |||
INBOARD H 0.172 0.104 0.010 I 0.092 0.032 0.001 A. | |||
VIBRATION PUMP OUTBOARD H (MILS) , A | |||
DAVIS-BESSE NUCLEAR POWER STATION | DAVIS-BESSE NUCLEAR POWER STATION | ||
( UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL ANALYSIS' _ | ( UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL ANALYSIS' _ | ||
Line 844: | Line 540: | ||
. PUMP SERVICE WATER H = HORIZONTAL A" | . PUMP SERVICE WATER H = HORIZONTAL A" | ||
PUMP NO. 1-3 NA = NOT' AVAIIIBLE 4 | PUMP NO. 1-3 NA = NOT' AVAIIIBLE 4 | ||
DATE 1978 - 1979 i MEAN STANDARD DEVIATION VARIANCE V 0.171 0.037 0.001 pg INBOARD H' O.192 0.044 0.002 , | DATE 1978 - 1979 i MEAN STANDARD DEVIATION VARIANCE V 0.171 0.037 0.001 pg INBOARD H' O.192 0.044 0.002 , | ||
VIBRATION A 0.119 'O.089 0.007 PUMP OUTBOARD H I | VIBRATION A 0.119 'O.089 0.007 PUMP OUTBOARD H I l | ||
(MILS ' | |||
C PUMP FIDW (GPM) 8894.4 210.6 41599.4 l EMONG TDH (PSID) 85.64 0.579 0.314 PUMP AUXILIARY FEED PUMP PUMP NO. 1-1 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE l | C PUMP FIDW (GPM) 8894.4 210.6 41599.4 l EMONG TDH (PSID) 85.64 0.579 0.314 PUMP AUXILIARY FEED PUMP PUMP NO. 1-1 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE l | ||
l pg V 0.107 0.054 0.003 | l pg V 0.107 0.054 0.003 | ||
. INBOARD H 0.191 0.058 0.003 | . INBOARD H 0.191 0.058 0.003 | ||
'(MILS) A-l 0.079 0.025 0.001 l VIBRATION PUM V 0.194 0.042 , | '(MILS) A-l 0.079 0.025 0.001 l VIBRATION PUM V 0.194 0.042 , | ||
0.002 OUTBOARD H 0.176 0.043 0.002 I" | 0.002 OUTBOARD H 0.176 0.043 0.002 I" | ||
A 0.152 0.080 0.006 L 795.2 77.7 5574.6 pggp FIDW (GPM) | A 0.152 0.080 0.006 L 795.2 77.7 5574.6 pggp FIDW (GPM) | ||
PERFORMANCE TDH,(PSID 1148.6 43.8 1783.9 w 4 | PERFORMANCE TDH,(PSID 1148.6 43.8 1783.9 w 4 | ||
DAVIS-BESSE NUCLEAR POWER STATION | DAVIS-BESSE NUCLEAR POWER STATION | ||
{ UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL MIALYSIS V = VERTICAL | { UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL MIALYSIS V = VERTICAL | ||
, PUMP AUXILIARY FEED PUMP H = HORIZONTAL A = AXIAL PUMP NO. 1-2 g , g gyg g g | , PUMP AUXILIARY FEED PUMP H = HORIZONTAL A = AXIAL PUMP NO. 1-2 g , g gyg g g DATE 1978 - 1979 - MEAN STANDARD DEVIATION , | ||
DATE 1978 - 1979 - MEAN STANDARD DEVIATION , | |||
VARIANCE V O.137 0.067 0.004 PUMP | VARIANCE V O.137 0.067 0.004 PUMP | ||
. INBOARD H' , 0.162 , 0.050 0.002 A 0.087 0.026 0.0006 VIBRATION PUMP V 0.437 0.100 0.009 OUTBOARD H 0.202 0.065 0.004 ) | . INBOARD H' , 0.162 , 0.050 0.002 A 0.087 0.026 0.0006 VIBRATION PUMP V 0.437 0.100 0.009 OUTBOARD H 0.202 0.065 0.004 ) | ||
(MILS A 0.216 0.093 0.008 PUMP FLOW (GPM) 816.8 5.43 27.2 TDH (PSID) 1252.3 20.37 383.1 ; | (MILS A 0.216 0.093 0.008 PUMP FLOW (GPM) 816.8 5.43 27.2 TDH (PSID) 1252.3 20.37 383.1 ; | ||
PUMP DECAY HEAT PUMP NO. 1-1 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE I | PUMP DECAY HEAT PUMP NO. 1-1 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE I | ||
V 0.633 0.212 0.043 PUMP | V 0.633 0.212 0.043 PUMP INBOARD H 0.417 0.157 0.023 A 0.626 0.322 0.098 .. | ||
INBOARD H 0.417 0.157 0.023 A 0.626 0.322 0.098 .. | |||
VIBRATION p V 0.680 0.345 0.113 4* | VIBRATION p V 0.680 0.345 0.113 4* | ||
OUTBOARD H 0.764 0.205 0.040 I I A 0.707 0.839 0.699 PUMP F M (GPM) 2999.0 50.8 2450.6 PERFORMANCE TDH (PSID 156.1 3.36 10.73 I a | OUTBOARD H 0.764 0.205 0.040 I I A 0.707 0.839 0.699 PUMP F M (GPM) 2999.0 50.8 2450.6 PERFORMANCE TDH (PSID 156.1 3.36 10.73 I a | ||
4 . | 4 . | ||
SECTION II VALVE TEST PROGRAM | SECTION II VALVE TEST PROGRAM t | ||
4 d | |||
t | |||
4 | |||
d | |||
; | ; | ||
TABLE OF CONTENTS | TABLE OF CONTENTS Page | ||
Page | |||
! A. PROGRAM | ! A. PROGRAM | ||
==SUMMARY== | ==SUMMARY== | ||
. . . . . . . . . . . . . . II-l | . . . . . . . . . . . . . . II-l B. VALVE TEST PROGRAM TABLE FORMAT . . . , . . . II-l C. VALVE PROGRAM TABLES . . . . . . . . . . . II-5 Valve Test Program . . . . . . . . . . . . II-6 D. CODE EXCEPTIONS . . . . . . . . . . . . . . II-57 VALVE TEST PROGRAM CODES . . . . . . . . . II-71 e | ||
p ,a. -. | |||
B. VALVE TEST PROGRAM TABLE FORMAT . . . , . . . II-l C. VALVE PROGRAM TABLES . . . . . . . . . . . II-5 Valve Test Program . . . . . . . . . . . . II-6 D. CODE EXCEPTIONS . . . . . . . . . . . . . . II-57 VALVE TEST PROGRAM CODES . . . . . . . . . II-71 | |||
. - . , ,, , w -- | . - . , ,, , w -- | ||
II. VALVE TEST PROGRAM A. PROGRAM | II. VALVE TEST PROGRAM A. PROGRAM | ||
==SUMMARY== | ==SUMMARY== | ||
The Valve Test Program identifies test requirements for all safety related valves both those valves tested in accordance with the re-quirements of Subsection IWV of the ASME Boiler aad Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those valves for which the Code requirements have been found to be impractical. The Valve Test Program will be applicable for the re-mainder of the 120-month interval, which started on June 27, 1977 . | The Valve Test Program identifies test requirements for all safety related valves both those valves tested in accordance with the re-quirements of Subsection IWV of the ASME Boiler aad Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those valves for which the Code requirements have been found to be impractical. The Valve Test Program will be applicable for the re-mainder of the 120-month interval, which started on June 27, 1977 . | ||
8 after which the Program will be reviewed and updated, as appro- ] | 8 after which the Program will be reviewed and updated, as appro- ] | ||
priate, wi{h that Edition of the Code and Addenda in effect not l' more than 12 months prior to the start of the next 120-month , | priate, wi{h that Edition of the Code and Addenda in effect not l' more than 12 months prior to the start of the next 120-month , | ||
interval.- | interval.- | ||
s | s Individual valve test requirements are presented in Section 'C' by coded valve Test Program Tables. The codes used for these Tables are defined in Section 'B' and summarized in Figure 1. The Valve Test Program Tables of Section 'C' are arranged in numerical se- | ||
Individual valve test requirements are presented in Section 'C' by coded valve Test Program Tables. The codes used for these Tables are defined in Section 'B' and summarized in Figure 1. The Valve Test Program Tables of Section 'C' are arranged in numerical se- | |||
~ | ~ | ||
quence by Inservice Inspection Instrument Drawing -(ISID) number. | quence by Inservice Inspection Instrument Drawing -(ISID) number. | ||
Line 925: | Line 592: | ||
: 4. Valve Category. Valve Category as defined in Subsection IWV-2200. | : 4. Valve Category. Valve Category as defined in Subsection IWV-2200. | ||
: 5. Passive. An 'X' in this column indicates that a valve is passive as defined in Subsection IWV-2100. All other valves are active valves as described. Those valves mechanically I constrained to prevent changing positions are designated l as 'L' in the Test Requirement Column. Those valves whose position is controlled by plant administrative procedures only are designated as 'P' in the Test Requirement Column. | : 5. Passive. An 'X' in this column indicates that a valve is passive as defined in Subsection IWV-2100. All other valves are active valves as described. Those valves mechanically I constrained to prevent changing positions are designated l as 'L' in the Test Requirement Column. Those valves whose position is controlled by plant administrative procedures only are designated as 'P' in the Test Requirement Column. | ||
i | i 1 | ||
II-l | |||
: 6. Size. Nominal diameter of valve. | : 6. Size. Nominal diameter of valve. | ||
: 7. Valve Type. The following is a list of the type of valve with the code used in the Valve Test Pro-gram Tables'to reflect the valve type. | : 7. Valve Type. The following is a list of the type of valve with the code used in the Valve Test Pro-gram Tables'to reflect the valve type. | ||
o AN - Angle Valve e PG - Plug e BF - Butterfly e RD - Rupture' Disk. | o AN - Angle Valve e PG - Plug e BF - Butterfly e RD - Rupture' Disk. | ||
e BL - Ball e RG - Regulating | e BL - Ball e RG - Regulating e CK - Check e RL - Relief e DA - Diaphragm e SC - Stop Check , | ||
e GA. ' Gat'e[ 'e SK - Spring Check j e GL - Globe o TW - Threa Wayi 8 e ND - Needle | |||
e GA. ' Gat'e[ 'e SK - Spring Check j e GL - Globe o TW - Threa Wayi 8 | |||
e ND - Needle | |||
* 8. Actuator Type. The following is a list of the type , | * 8. Actuator Type. The following is a list of the type , | ||
of operator used to change the valve position with the code used in the Valve Test Program Tables to reflect the operator type. | of operator used to change the valve position with the code used in the Valve Test Program Tables to reflect the operator type. | ||
Line 947: | Line 605: | ||
~'- | ~'- | ||
o MO - Motor Operator e SA - Self Actuated e SO - Solenoid Operator e HO - Hydraulic Operator | o MO - Motor Operator e SA - Self Actuated e SO - Solenoid Operator e HO - Hydraulic Operator | ||
: 9. Normal Position. The following is a list of valve | : 9. Normal Position. The following is a list of valve positions during normal operation and the code used in the Valve Test Program Tables to reflect that position. | ||
positions during normal operation and the code used in the Valve Test Program Tables to reflect that position. | |||
o OP - Open e CL - Closed e ID - Locked Open e LC - Locked Closed e LT - Locked Throttled e TH - Throttled e -- - Valve position determined by other system para-meters as in the case of check valves. | o OP - Open e CL - Closed e ID - Locked Open e LC - Locked Closed e LT - Locked Throttled e TH - Throttled e -- - Valve position determined by other system para-meters as in the case of check valves. | ||
: 10. Test Requirement. This column indicates the Code test l requirements which apply to the valve. The following | : 10. Test Requirement. This column indicates the Code test l requirements which apply to the valve. The following | ||
,is a list of the codes used in the Valve Test Program Tables with the definition of what the code reflects. | ,is a list of the codes used in the Valve Test Program Tables with the definition of what the code reflects. | ||
e i | e i | ||
II-2 | II-2 | ||
e S - Valve shall be exercised to the position required to fulfill its function. | e S - Valve shall be exercised to the position required to fulfill its function. | ||
Category C check valves will be verified for forward flow, reverse flow, or both forward and reverse flow depending on the safety related function of the valve. | Category C check valves will be verified for forward flow, reverse flow, or both forward and reverse flow depending on the safety related function of the valve. | ||
Line 978: | Line 629: | ||
e | e | ||
: 13. Test Frequency. The codes used in this column indicate the plant operational status that' must be achieved before a particular valve can be safely terted. For simplicity only the three codes are used. | : 13. Test Frequency. The codes used in this column indicate the plant operational status that' must be achieved before a particular valve can be safely terted. For simplicity only the three codes are used. | ||
e Q - Quarterly Valves in this category can be tested quarterly during normal operation. (Technical Specification Modes 1 | e Q - Quarterly Valves in this category can be tested quarterly during normal operation. (Technical Specification Modes 1 through 4). i | ||
, , . 9 4 e C - Cold Shutdown Testing of valves in this category must be deferred until cold shutdown in order to avoid possible adverse opera- ' | |||
through 4). i | |||
, , . 9 4 | |||
e C - Cold Shutdown Testing of valves in this category must be deferred until | |||
cold shutdown in order to avoid possible adverse opera- ' | |||
tional or safety situations. (Technical Specification Mode 5). | tional or safety situations. (Technical Specification Mode 5). | ||
Inservice valve testing is defined as: Valve testing | Inservice valve testing is defined as: Valve testing | ||
Line 1,000: | Line 641: | ||
II-4 | II-4 | ||
C. VALVE PROGRAM TABLES This section provides a tabulation of all safety related valves, both those valves that are tested in accordance with the require-ments of Subsection IWV of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those valves for which the Code requirements have been found to be impractical. A set of Valve Program Tables is provided for each IEID. These sets are arranged sequentially by ISID number. | |||
C. VALVE PROGRAM TABLES This section provides a tabulation of all safety related valves, both those valves that are tested in accordance with the require-ments of Subsection IWV of the ASME Boiler and Pressure Vessel | |||
Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those valves for which the Code requirements have been found to be impractical. A set of Valve Program Tables is provided for each IEID. These sets are arranged sequentially by ISID number | |||
4+ | 4+ | ||
0 | 0 | ||
'II 5 | 'II 5 | ||
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO, 1 Page 1 of 2 VALVE TEST PROGRAM System MAIN STEAM Drawing No. 003 Rev. 29 | DAVIS-BESSE NUCLEAR POWER STATION UNIT NO, 1 Page 1 of 2 VALVE TEST PROGRAM System MAIN STEAM Drawing No. 003 Rev. 29 s | ||
E | |||
$ $^ | $ $^ | ||
Valve | Valve | ||
_ u e 8 @ s & 88 EC Cat. 8 3 .S S O yE 8 gS i il 1 si != !8. H v1 at si si a Valve Number C $ A B C D $ $ t*,, $h M d' S2 sM O$ Q$ $$ y Remarks MS106 2 F-2 X 6 GA MO CL S Q T Q 60 MS726 3 F-2 X 6 CK SA -- | |||
S Q FORWARD FLOW TEST WITH AUXILIARY PUMP TURBINE TEST. | S Q FORWARD FLOW TEST WITH AUXILIARY PUMP TURBINE TEST. | ||
MS734 3 G-2 X 6 CK SA -- | MS734 3 G-2 X 6 CK SA -- | ||
Line 1,031: | Line 660: | ||
MS728 3 E-12 X X 6 GA MA LC L R I | MS728 3 E-12 X X 6 GA MA LC L R I | ||
B | B | ||
9 2 | 9 2 | ||
2 | 2 v - | ||
v - | |||
f e o R 6 | f e o R 6 | ||
2 2 s 7 k T S r S M a E 3 m T R 9 e O C R W F p O L K F R A | 2 2 s 7 k T S r S M a E 3 m T R 9 e O C R W F p O L K F R A | ||
Line 1,054: | Line 678: | ||
L L L L PE ~ j - C - C O C C C C T | L L L L PE ~ j - C - C O C C C C T | ||
R AE | R AE | ||
* A O A O O O O O O EV uS j S M S M A A A A A LL CA | * A O A O O O O O O EV uS j S M S M A A A A A LL CA UV 'h K A K A K K L A L L N C G C G C C G G G G E f f S | ||
UV 'h K A K A K K L A L L N C G C G C C G G G G | |||
E f f S | |||
S | S | ||
_@ OD 6 6 5 5 7 7 E N$ 6 6 6 6 3 3 1 1 0 0 B _ | _@ OD 6 6 5 5 7 7 E N$ 6 6 6 6 3 3 1 1 0 0 B _ | ||
S * $ | S * $ | ||
I X X X X _ | I X X X X _ | ||
V A D D _ | V A D D _ | ||
e . C X X X 'X - | e . C X X X 'X - | ||
vt l a X X X X X X - | vt l a X X X X X X - | ||
aC B _ | aC B _ | ||
V A - | V A - | ||
D%C 2 2 2 2 1 4 1 1 1 1 1 1 1 9 1 1 1 9 M | D%C 2 2 2 2 1 4 1 1 1 1 1 1 1 9 1 1 1 9 M | ||
E $ D | E $ D D | ||
D D | |||
D | |||
D | |||
D | |||
B | B | ||
'B B | |||
'B | A B | ||
B A | |||
B | E T d 2 2 2 2 2 S 3 2 3 2 2 N _ | ||
A | |||
B | |||
B | |||
T d 2 2 2 2 2 S 3 2 3 2 2 | |||
N | |||
_ | |||
I r _ | I r _ | ||
A e M b m A A A u 5 7 7 7 0 1 5 4 0 1 3 0 2 0 0 0 7 9 0 0 m N 7 1 7 1 1 1 3 3 1 1 e e S S S S S S S S S S t v M M M M M M M M M M s l , _ | A e M b m A A A u 5 7 7 7 0 1 5 4 0 1 3 0 2 0 0 0 7 9 0 0 m N 7 1 7 1 1 1 3 3 1 1 e e S S S S S S S S S S t v M M M M M M M M M M s l , _ | ||
y a _ | y a _ | ||
S V _ | S V _ | ||
4 _ | 4 _ | ||
)l IlIll' | )l IlIll' Y Y Y Y Y R R R R R A A A A A I I I I I 2 L L L L L 3 I I I I I X X X X X 3 . U U U U | ||
Y Y Y Y Y R R R R R A A A A A I I I I I 2 L L L L L 3 I I I I I X X X X X 3 . U U U U | |||
* U v A A A A' A f e H H H H H o R T T I | * U v A A A A' A f e H H H H H o R T T I | ||
T I | T I | ||
Line 1,130: | Line 718: | ||
$8d | $8d | ||
* 6 O . | * 6 O . | ||
N o N D8 U R R QQ Q QQ Q Q Q R Q T Ny | N o N D8 U R R QQ Q QQ Q Q Q R Q T Ny I g N n U i E y w S,8 Q N a O r I | ||
I g N n U i E y w S,8 Q N a O r I | |||
IM D 8t y TL1 2 2 AR 88 | IM D 8t y TL1 2 2 AR 88 | ||
), | ), | ||
TG SO E2* & ST S ST S S S L S R S L S L R | TG SO E2* & ST S ST S S S L S R S L S L R | ||
Line 1,140: | Line 725: | ||
- D - O P O | - D - O P O | ||
- P O | - P O | ||
O L | O L | ||
P E s - I - L - - - - | P E s - I - L - - - - | ||
R T AE *h A A A A O A O A A A A A EV u3 M S M S M M S M S S S M S LL CA *h UV N K A K A A K A K K K A K | R T AE *h A A A A O A O A A A A A EV u3 M S M S M M S M S S S M S LL CA *h UV N K A K A A K A K K K A K | ||
Line 1,149: | Line 731: | ||
S _8 $ | S _8 $ | ||
S 6 6 6 6 8 8 8 8 1 6 2 2 E 0$ | S 6 6 6 6 8 8 8 8 1 6 2 2 E 0$ | ||
B | B S * $ X I X X V | ||
S * $ X I X X V | |||
A D D | A D D | ||
C X X X X X X X e . | C X X X X X X X e . | ||
vt l a X X X X X aC B v | vt l a X X X X X aC B v | ||
M A E | M A E | ||
T S E%3 9, 8 Y 6, 7 7 7 7 7 6 7 7 9 | T S E%3 9, 8 Y 6, 7 7 7 7 7 6 7 7 9 S E $ K J | ||
K K | |||
S E $ K | K K | ||
J J | |||
J | J J | ||
K | |||
K | |||
K | |||
K | |||
J | |||
J | |||
J | |||
J | |||
J J R | J J R | ||
E T C 3 3 3 3 3 3 3 A 3 3 3 3 3 W | E T C 3 3 3 3 3 3 3 A 3 3 3 3 3 W | ||
Line 1,185: | Line 748: | ||
F b _ | F b _ | ||
m _ | m _ | ||
u 0 6 m N 9 8 3 9 S _ | |||
u 0 6 | |||
m N 9 8 3 9 S _ | |||
e e 3 5 4 6 7 2 7 1 6 1 9 F | e e 3 5 4 6 7 2 7 1 6 1 9 F | ||
I F _ | I F _ | ||
Line 1,195: | Line 754: | ||
F A | F A | ||
F A A A s l S S S S F' A F _ | F A A A s l S S S S F' A F _ | ||
y a _ | y a _ | ||
S V _ | S V _ | ||
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Pago 2 of 3 VALVE TEST PROGRAM Syg, tem FEEDWATER SYSTEM Drawing No. 006B Rev. 32 E E $^ | DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Pago 2 of 3 VALVE TEST PROGRAM Syg, tem FEEDWATER SYSTEM Drawing No. 006B Rev. 32 E E $^ | ||
Line 1,211: | Line 761: | ||
_ u e g 8 3 D 88 E.5 Cat. 8 3 s.S 8 % y@ $ dS | _ u e g 8 3 D 88 E.5 Cat. 8 3 s.S 8 % y@ $ dS | ||
~ | ~ | ||
E E, b $ $ 3 $ 4E V.21ve Number O $h A B C D $ $ t1 $ g' yh j2 y$ 8y Q$ $$ $$ Remarks AF17 3 J-9, X X 2 GL MA LO L R AF11 3 J-8 X 1.5 CK SA -- | |||
S Q FORWARD FLOW TEST WITH AUXILIARY FEED PUMP TEST. . | S Q FORWARD FLOW TEST WITH AUXILIARY FEED PUMP TEST. . | ||
't AF13 3 J-8 X X 1.5 GA MA LO L R SW9 3 J-8 X X 1.5 GA MA LC L R H 'AF68 3 K-9 X 1 CK SA -- | 't AF13 3 J-8 X X 1.5 GA MA LO L R SW9 3 J-8 X X 1.5 GA MA LC L R H 'AF68 3 K-9 X 1 CK SA -- | ||
Line 1,235: | Line 785: | ||
DU RP A | DU RP A | ||
B WD 6 RE 0 OE 0 FF 1 | B WD 6 RE 0 OE 0 FF 1 | ||
^ 8$ Ey 0 | ^ 8$ Ey 0 O . | ||
$8$' 6 N o &@$y N QQ R Q R R R R R R T $y I g N n U i E N$ | |||
O . | |||
$8$' 6 N o &@$y N QQ R Q R R R R R R T $y I g | |||
N n U i E N$ | |||
w 3gBQ N a O r ' | w 3gBQ N a O r ' | ||
i | i IM D ot$y TA AR E8 TG SO $8* b$ | ||
IM D ot$y TA AR E8 TG SO $8* b$ | |||
R RP $$ ST L S L L L L L L E | R RP $$ ST L S L L L L L L E | ||
WT e S. Y $ | WT e S. Y $ | ||
Line 1,254: | Line 798: | ||
5 7 | 5 7 | ||
E 8$ 6 1 6 1 1 6 6 B | E 8$ 6 1 6 1 1 6 6 B | ||
S * $ | S * $ | ||
I X X X X X X X V | I X X X X X X X V | ||
Line 1,260: | Line 803: | ||
e . C X vt l a X X X X X X X aC B X V | e . C X vt l a X X X X X X X aC B X V | ||
M A E | M A E | ||
T S l l l l 0 Y $#C . l . 7 l 8 8 l l 8 1 S E $ J | T S l l l l 0 Y $#C . l . 7 l 8 8 l l 8 1 S E $ J J | ||
K- J J | |||
J | J K- J K | ||
K- J | |||
J | |||
J | |||
K- J | |||
K | |||
R E | R E | ||
T 0y 3 3 3 3 3 3 3 3 3 A | T 0y 3 3 3 3 3 3 3 3 3 A | ||
W D - | W D - | ||
E r E e F b m | E r E e F b m | ||
u 0 6 0 4 1 2 5 6 m N 3 3 2 6 7 2 2 6 6 e e F F F F F F F F F t A A A A A A A A | u 0 6 0 4 1 2 5 6 m N 3 3 2 6 7 2 2 6 6 e e F F F F F F F F F t A A A A A A A A s v l ' | ||
s v l ' | |||
A y a S V 0 | A y a S V 0 | ||
9 2 | 9 2 | ||
3 . | 3 . | ||
v f e o R | v f e o R 1 s | ||
1 s | |||
- k r | - k r | ||
e a g m a | e a g m a | ||
Line 1,299: | Line 826: | ||
$8d - | $8d - | ||
N o N &@iU CC R R R QQ QQ R R QQ QQ R R R T s$ | N o N &@iU CC R R R QQ QQ R R QQ QQ R R R T s$ | ||
I g N n U i w | I g N n U i w | ||
E!@ ST S S S S S S N. a 3@!Q O | E!@ ST S S S S S S N. a 3@!Q O | ||
Line 1,309: | Line 835: | ||
2 P O | 2 P O | ||
L C | L C | ||
L C | L C | ||
L C | L C | ||
L C | L C | ||
L C | L C | ||
L C | L C | ||
R T AE h O A A A O O A A O O A A A EV u3!M M M S S M M S S M M S S M LL CA =h UV N | R T AE h O A A A O O A A O O A A A EV u3!M M M S S M M S S M M S S M LL CA =h UV N | ||
Line 1,338: | Line 852: | ||
R O A T | R O A T | ||
A 0 0 0 l R | A 0 0 0 l R | ||
E E%5. 2 2, | E E%5. 2 2, 3 | ||
3 4 | |||
3 | 4 5 | ||
5 8 | |||
3 | 9 1 | ||
1 1 | |||
4 | l N | ||
E E1$ F F F F E E E E E E F F F G | |||
4 | |||
5 | |||
5 | |||
8 | |||
9 | |||
1 | |||
1 | |||
1 | |||
l | |||
E1$ F F F F E E E E E E F F F G | |||
M id 2 3 3 3 3 3 3 3 3 3 3 3 3 A | M id 2 3 3 3 3 3 3 3 3 3 3 3 3 A | ||
E T r S | E T r S | ||
Line 1,373: | Line 867: | ||
9 2 | 9 2 | ||
3 | 3 v | ||
f e o R 2 s k | |||
2 s k | |||
r o a g m e | r o a g m e | ||
a R P | a R P | ||
7 0 | 7 0 | ||
0 1 78S $y 5 0 1 3 | 0 1 78S $y 5 0 1 3 | ||
$8d* | $8d* | ||
O . | O . | ||
Line 1,390: | Line 880: | ||
RP N$ | RP N$ | ||
E WT eS. d P L L P - - - - - - - - - | E WT eS. d P L L P - - - - - - - - - | ||
OS O C C O | OS O C C O PE s @ | ||
PE s @ | |||
T R *h A A A AE O O O O A A A A A A A A S S S S S S S S S S S EV u3 M M M M M LL CA . | T R *h A A A AE O O O O A A A A A A A A S S S S S S S S S S S EV u3 M M M M M LL CA . | ||
Ey UV A A L A L L L R | Ey UV A A L A L L L R | ||
Line 1,409: | Line 894: | ||
S _@ U 8 6 | S _@ U 8 6 | ||
S M 1 4 1 6 6 6 6 6 6 6 6 6 6 6 E E 0$ | S M 1 4 1 6 6 6 6 6 6 6 6 6 6 6 E E 0$ | ||
B T | B T S | ||
Y $ $ | |||
S S X X I | S S X X I | ||
V Y R | V Y R | ||
Line 1,419: | Line 903: | ||
R A O | R A O | ||
T A l 2 2 l 0 R EyS. l 1 1 l 1 9 9 9 9 9 8 8 8 4 4 E - - - - - - - - - | T A l 2 2 l 0 R EyS. l 1 1 l 1 9 9 9 9 9 8 8 8 4 4 E - - - - - - - - - | ||
N E $ H | N E $ H G | ||
G F | |||
G | A A | ||
G | |||
F | |||
A | |||
A | |||
A A A A A A A A A E | A A A A A A A A A E | ||
G M C 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 A | G M C 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 A | ||
E _ | E _ | ||
T r S e b A 1 2 3 4 5 6 7 8 9 l 2 _ | |||
T r | A m 2 1 1 8 B B B B B B B B B A . | ||
u 1 1 1 0 7 7 7 7 7 7 7 7 7 7 7 m N 6 6 6 6 l l l l l l l l l l l _ | |||
S e | |||
b A 1 2 3 4 5 6 7 8 9 l 2 _ | |||
A | |||
m 2 1 1 8 B B B B B B B B B A . | |||
u 1 1 1 0 7 7 7 7 7 7 7 7 7 7 7 | |||
m N 6 6 6 6 l l l l l l l l l l l _ | |||
e e W S S F P P P P S | e e W S S F P P P P S | ||
P S | P S | ||
Line 1,461: | Line 920: | ||
P S | P S | ||
P S | P S | ||
t v F M M A S S S s l ' | t v F M M A S S S s l ' | ||
y a S V Y4u ) > | y a S V Y4u ) > | ||
<lt | <lt 9 | ||
2 3 | |||
3 | |||
v f e o R 3 s k | v f e o R 3 s k | ||
r o | r o | ||
Line 1,479: | Line 932: | ||
7 0 | 7 0 | ||
0 1 | 0 1 | ||
^ 85 Ey 5 | ^ 85 Ey 5 N8g q{ 1 O . | ||
N8g q{ 1 O . | |||
N o &5 N $ R R R R R R R CC R R T $$ | N o &5 N $ R R R R R R R CC R R T $$ | ||
I g N n U i E $$ ST w 3@ Q N a O r IM D 8t 5 5 TA AR $8 TG SO N8$ M R R R R R R R R ST P P RP E | I g N n U i E $$ ST w 3@ Q N a O r IM D 8t 5 5 TA AR $8 TG SO N8$ M R R R R R R R R ST P P RP E | ||
Line 1,499: | Line 950: | ||
G M O 2 2 2 2 2 2 2 2 2 2 A | G M O 2 2 2 2 2 2 2 2 2 2 A | ||
E T r S e b 3 4 S 6 7 8 9 A m A A A A A A A 1 3 3 u 7 7 7 7 7 7 7 0 0 0 m N l l 1 l 1 l l 6 6 6 e e P P P P P P P W S S t v S S S S S S S F M M s l . | E T r S e b 3 4 S 6 7 8 9 A m A A A A A A A 1 3 3 u 7 7 7 7 7 7 7 0 0 0 m N l l 1 l 1 l l 6 6 6 e e P P P P P P P W S S t v S S S S S S S F M M s l . | ||
y a S V | y a S V | ||
* e 1 | |||
e 1 | |||
;! )1 l | ;! )1 l 2 | ||
2 1 . | |||
v f e o R 1 s k | |||
1 . | |||
v f e o R | |||
1 s k | |||
r a a g m e | r a a g m e | ||
e p | e p | ||
Line 1,515: | Line 961: | ||
0 1 | 0 1 | ||
0 1 ^ g5 8y 0 0 | 0 1 ^ g5 8y 0 0 | ||
. $8g 4$ 1 1 | . $8g 4$ 1 1 O o N N B' g h $ QQQ QQQ T g M$ | ||
O o N N B' g h $ QQQ QQQ T g M$ | |||
I N n U i E M$ | I N n U i E M$ | ||
w 35 a$ | w 35 a$ | ||
N a O M D r I gg y TA $0 A R | N a O M D r I gg y TA $0 A R TG S O R | ||
TG S O R | |||
$gS $ SFT SFT RP $$ | $gS $ SFT SFT RP $$ | ||
E WT eS j P P OS O O PE T | E WT eS j P P OS O O PE T | ||
~bj R *h O O AE A A | ~bj R *h O O AE A A EV u3 M LL CA | ||
* UV A A N y G G E | |||
EV u3 M LL CA | S _E EU - | ||
* UV A A N y G G | |||
S 4 4 E 0$ | S 4 4 E 0$ | ||
B M | B M | ||
Line 1,539: | Line 976: | ||
A D D T N e . C E | A D D T N e . C E | ||
M vt _ | M vt _ | ||
T l a A ac B X X | T l a A ac B X X E v R A T | ||
E v R A T | |||
R E E#d u 2 2 T E - | R E E#d u 2 2 T E - | ||
A $ J K- _ | A $ J K- _ | ||
Line 1,550: | Line 983: | ||
K A r M e b A B 1 | K A r M e b A B 1 | ||
1 m 3 3 u 8 8 m N 6 6 e e W W t v D D s l ' | 1 m 3 3 u 8 8 m N 6 6 e e W W t v D D s l ' | ||
y a S v | y a S v 0b _ | ||
0b _ | |||
e 0 | e 0 | ||
2 1 | 2 1 | ||
v f e o R 1 s k T T r S S a E E a | |||
v f e o R | |||
1 s k T T | |||
r S S a E E a | |||
g m T T e W W a R O O P L L F F E E S S R R E E V V 5 E E 1 R R 0 | g m T T e W W a R O O P L L F F E E S S R R E E V V 5 E E 1 R R 0 | ||
1 ~ 8S sy 0 0 | 1 ~ 8S sy 0 0 | ||
. B8g - 1 1 O . | . B8g - 1 1 O . | ||
N o &8iU N RRR R C QQQ T ty I g I N n U i w | N o &8iU N RRR R C QQQ T ty I g I N n U i w | ||
Ei$ SFT | Ei$ SFT S S a 3ysQ N | ||
O r IM D 8 t'ty 7 7 6 TA a8 AR TG SO %#812 SFT SFT R S S RP ey E | |||
S S a 3ysQ N | |||
O r IM D 8 t'ty 7 7 6 TA a8 AR | |||
TG SO %#812 SFT SFT R S S RP ey E | |||
WT 2 OS PE eS.Hj s | WT 2 OS PE eS.Hj s | ||
P O | P O | ||
P O | P O | ||
T R h AE O A A O EV uS!j A S S A LL CA UV h A K K A N !j G C C G E | T R h AE O A A O EV uS!j A S S A LL CA UV h A K K A N !j G C C G E | ||
S S | S S | ||
-@1U 5 5 1 1 1 1 E $ _ | -@1U 5 5 1 1 1 1 E $ _ | ||
B | B S y1$ _ | ||
S y1$ | |||
_ | |||
I _ | I _ | ||
R V I A A D D T N e . C X X E vt M a U | R V I A A D D T N e . C X X E vt M a U | ||
Line 1,597: | Line 1,012: | ||
y ~ a S V | y ~ a S V | ||
6 2 | 6 2 | ||
2 | 2 v | ||
f e o R 1 s T T T k S S S r E E E o a T T T g m e W W W c R O A O P L I L - | |||
F F F e E E E S S S R R R E E E . | F F F e E E E S S S R R R E E E . | ||
V V V E E E 7 R R R 1 | V V V E E E 7 R R R 1 | ||
Line 1,618: | Line 1,031: | ||
E WT eS. $ O C O O O O O O O O f - - | E WT eS. $ O C O O O O O O O O f - - | ||
OS L L L L L L L | OS L L L L L L L | ||
- L L L I - - | - L L L I - - | ||
PE s $ | PE s $ | ||
T R 8j | T R 8j AE A A A A A A A A A A A A A A A M M M S S EV u3 M M M M M M M S S M M LL CA | ||
AE A A A A A A A A A A A A A A A M M M S S EV u3 M M M M M M M S S M M LL CA | |||
* UV A G | * UV A G | ||
A G | A G | ||
Line 1,637: | Line 1,045: | ||
N $ | N $ | ||
E 5 5 5 5 S _@ U 5 5 5 5 5 7 7 5 5 7 7 S | E 5 5 5 5 S _@ U 5 5 5 5 5 7 7 5 5 7 7 S | ||
E 0$ 1 1 1 1 1 1 1 O 0 1 1 1 1 0 0 B S | E 0$ 1 1 1 1 1 1 1 O 0 1 1 1 1 0 0 B S R | ||
O y $$ | |||
S T X X X X X X X X X X X I A V R A E D D N E | S T X X X X X X X X X X X I A V R A E D D N E | ||
G X e . C X X X L vt E l a S aC B X X X X X X X X X X X E V I | G X e . C X X X L vt E l a S aC B X X X X X X X X X X X E V I | ||
D A D 2 N $% S. 8 9 9 9 9 1 9 2 2 | D A D 2 N $% S. 8 9 9 9 9 1 9 2 2 3 | ||
6 6 | |||
3 | 8 2 | ||
2 A E $ - - - - - - - - | |||
6 | |||
6 | |||
8 | |||
2 | |||
2 | |||
A E $ - - - - - - - - | |||
H G H G G F J H G G F F F J J L | H G H G G F J H G G F F F J J L | ||
I O + + +3 +3 + + + + + + + + + +3 + | I O + + +3 +3 + + + + + + + + + +3 + | ||
Line 1,669: | Line 1,065: | ||
t v D D D D D D D D s l y a S V | t v D D D D D D D D s l y a S V | ||
6 2 | 6 2 | ||
2 . | 2 . | ||
v f e o R | v f e o R 2 s k T r S a E n | ||
2 s k T r S a E n | |||
g m T e W c R O P L F | g m T e W c R O P L F | ||
E S | E S | ||
Line 1,681: | Line 1,074: | ||
1 | 1 | ||
^ 85 $y O | ^ 85 $y O | ||
$R$ $@ | $R$ $@ | ||
N o &8 $ | N o &8 $ | ||
Line 1,698: | Line 1,089: | ||
* I T $ X X X X X X X A . | * I T $ X X X X X X X A . | ||
V R _ | V R _ | ||
A' E D | A' E D D N . | ||
D N . | |||
E _ | E _ | ||
G e . C | G e . C vt X X 'X X - | ||
L l a E B S aC X X X X X X X E v . | |||
vt X X 'X X - | |||
L l a E B S aC X X X X X X X | |||
E v . | |||
I D A _ | I D A _ | ||
D _ | D _ | ||
N E#" h 2 2 3 2 2 3 2 2 3 2 3 _ | N E#" h 2 2 3 2 2 3 2 2 3 2 3 _ | ||
Line 1,723: | Line 1,100: | ||
I O + + + + + + + + + + + | I O + + + + + + + + + + + | ||
C 3 3 3 3 3 3 3 3 3 3 3 _ | C 3 3 3 3 3 3 3 3 3 3 3 _ | ||
L _ | L _ | ||
E U r F e b 4 8 1 m 4 3 4 u l 5 1 8 l 4 l 3 5 9 0 m N l 4 3 3 l 4 l 8 7 7 7 e e A A A A A A A A A A A t v D D D D D D D D D D D s l . | E U r F e b 4 8 1 m 4 3 4 u l 5 1 8 l 4 l 3 5 9 0 m N l 4 3 3 l 4 l 8 7 7 7 e e A A A A A A A A A A A t v D D D D D D D D D D D s l . | ||
y a _ | y a _ | ||
S V _ | S V _ | ||
y&w _ | y&w _ | ||
ill 3 | ill 3 | ||
2 1 . | 2 1 . | ||
v f e o R | v f e o R 1 s T k S r E o a T g m e W a R O P I F | ||
1 s T k S r E o a T g m e W a R O P I F | |||
E S | E S | ||
R E | R E | ||
V 9 E 1 R 0 | V 9 E 1 R 0 | ||
1 . | 1 . | ||
78s eay 0 | 78s eay 0 32g sy 1 O . | ||
32g sy 1 O . | |||
N o N &g?eU Q QQg T amy I g N n U i gDe@ | N o N &g?eU Q QQg T amy I g N n U i gDe@ | ||
w 3gUa$ | w 3gUa$ | ||
N a O r It I | N a O r It I | ||
IM D 8atvy TA ev8 S | IM D 8atvy TA ev8 S | ||
AR ,' | AR ,' | ||
Line 1,759: | Line 1,128: | ||
S _ gf cd S | S _ gf cd S | ||
E on$ 1 1 B | E on$ 1 1 B | ||
S g%m$ | S g%m$ | ||
I V | I V | ||
Line 1,767: | Line 1,135: | ||
P ) | P ) | ||
U S | U S | ||
:%s2o( 3 | :%s2o( 3 4 | ||
4 | |||
N i1n$ B B E | N i1n$ B B E | ||
G O aaO 2 2 R | G O aaO 2 2 R | ||
Line 1,782: | Line 1,147: | ||
m DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Pcgo L of 3 VALVE TEST PROGRAM Syctem CONTAINMENT AND PENETRATION ROOMS Drawing No. 029A Rev. 24 E | m DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Pcgo L of 3 VALVE TEST PROGRAM Syctem CONTAINMENT AND PENETRATION ROOMS Drawing No. 029A Rev. 24 E | ||
Valve N $7 | Valve N $7 | ||
_ u e @ @ $ D 28 E.S Cat. 3 J.S t dS E | |||
S | |||
{E @ | {E @ | ||
0 E* $ $ ON $ AU V21ve Number C $ A B C D $ $U $ Mh $8 $$ 85 Q$ $$ $$ Remarks CV5037 2 H-4 X 4 BF MO CL S Q T Q 60 CV5038 2 H-5 X 4 BF MO CL S Q T Q 60 CV5007 2 G-5 X 48 BF AO CL S Q F Q T Q 10 | 0 E* $ $ ON $ AU V21ve Number C $ A B C D $ $U $ Mh $8 $$ 85 Q$ $$ $$ Remarks CV5037 2 H-4 X 4 BF MO CL S Q T Q 60 CV5038 2 H-5 X 4 BF MO CL S Q T Q 60 CV5007 2 G-5 X 48 BF AO CL S Q F Q T Q 10 | ||
Line 1,797: | Line 1,161: | ||
_____x-_-_.-____---_____-__-_-_ - - - - - | _____x-_-_.-____---_____-__-_-_ - - - - - | ||
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Pega 2 of 3 VALVE TEST PROGRAM System CONTAINMENT AND PENETRATION ROOMS Drawing No. 029A Rev. 24 0 $ $^ | |||
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Pega 2 of 3 VALVE TEST PROGRAM System CONTAINMENT AND PENETRATION ROOMS Drawing No. 029A Rev. 24 | |||
% Valve C | % Valve C | ||
_ u s @ @ 3 E 88 E.5 Cat. @ 3 sS 8 'd E @ $$ | _ u s @ @ 3 E 88 E.5 Cat. @ 3 sS 8 'd E @ $$ | ||
Line 1,815: | Line 1,177: | ||
S 8 S Q FORWARD FLOW TEST WITH HYDROGEN DILUTION BLOWER TEST. | S 8 S Q FORWARD FLOW TEST WITH HYDROGEN DILUTION BLOWER TEST. | ||
II | II | ||
1 ll, 4 | 1 ll, 4 | ||
2 3 | 2 3 | ||
v f e o R 3 | |||
v f e o R | s k | ||
r o a g m e | |||
o a g m e | |||
c R P | c R P | ||
A 9 | A 9 | ||
2 0 | 2 0 | ||
Line 1,832: | Line 1,189: | ||
^ 8$ E$ | ^ 8$ E$ | ||
4 5 4 2 | 4 5 4 2 | ||
$8$* | $8$* | ||
O . | O . | ||
Line 1,842: | Line 1,198: | ||
E WT eS. Y2 L L L L C OS C C C C L PE sbj T | E WT eS. Y2 L L L L C OS C C C C L PE sbj T | ||
R *h AE O O O O A | R *h AE O O O O A | ||
A EV u3 M A A A M LL CA | A EV u3 M A A A M LL CA UV *h F F F F A N B B B B G b$ | ||
UV *h F F F F A | |||
N B B B B G b$ | |||
E _ | E _ | ||
S S _E 1 t 8 8 8 8 _ | S S _E 1 t 8 8 8 8 _ | ||
S M 4 4 4 4 2 E O 0$ _ | S M 4 4 4 4 2 E O 0$ _ | ||
B O _ | B O _ | ||
R S y $ | R S y $ | ||
N X I O V I T | N X I O V I T | ||
Line 1,864: | Line 1,213: | ||
A $ 3 3 3 3 3 T | A $ 3 3 3 3 3 T | ||
N O r C e . | N O r C e . | ||
b 9 1 4 6 m 0 2 0 1 1 u | |||
b 9 1 4 6 | |||
m 0 2 | |||
0 0 0 0 5 _ | 0 0 0 0 5 _ | ||
m N 5 5 5 5 1 _ | m N 5 5 5 5 1 _ | ||
e e V v V v V C | e e V v V v V C | ||
t v C C C C s l . | t v C C C C s l . | ||
Line 1,881: | Line 1,221: | ||
, wYU 4 | , wYU 4 | ||
i 1Il i) | i 1Il i) 4 2 | ||
4 2 | |||
3 . | 3 . | ||
v f e o R 1 s k | v f e o R 1 s k | ||
Line 1,891: | Line 1,229: | ||
2 0 | 2 0 | ||
1 785 Ey 5 5 5 5 5 5 5 5 5 5 1 1 1 1 1 1 1 1 1 1 | 1 785 Ey 5 5 5 5 5 5 5 5 5 5 1 1 1 1 1 1 1 1 1 1 | ||
$8d' O o N &E$U | $8d' O o N &E$U | ||
~ | ~ | ||
Line 1,913: | Line 1,249: | ||
V T A A D D R T e . C X E vt N l a E aC B X X X X P X X X X X X v _ | V T A A D D R T e . C X E vt N l a E aC B X X X X P X X X X X X v _ | ||
D A N | D A N | ||
A T 5%jyU 5 | A T 5%jyU 5 5 5 5 5 5 5 5 5 5 5 N E $ - - - - | ||
B B B B B B B E B B B B M | |||
5 5 5 5 5 5 5 5 5 5 | |||
N E $ - - - - | |||
B | |||
B B B B B B E B B B B M | |||
N I | N I | ||
A 0E 2 2 2 2 2 2 2 2 2 2 2 T | A 0E 2 2 2 2 2 2 2 2 2 2 2 T | ||
Line 1,926: | Line 1,256: | ||
. e C C C C C C C C C c C t | . e C C C C C C C C C c C t | ||
s l v ' | s l v ' | ||
y a S V | y a S V e | ||
e | |||
4 2 | 4 2 | ||
3 | 3 v | ||
f e o R 2 | |||
s k | |||
r e a g m e | |||
e a g m e | |||
a R P | a R P | ||
B 9 | B 9 | ||
2 0 | 2 0 | ||
1 78S $y 5 5 5 5 1 1 1 1 | 1 78S $y 5 5 5 5 1 1 1 1 | ||
. $8d* | . $8d* | ||
O o | O o N N B' 5 Eg C C C C C C C C C R QQ QQ QQ QQ T g $$ | ||
N N B' 5 Eg C C C C C C C C C R QQ QQ QQ QQ T g $$ | |||
I - | I - | ||
N n U i E $ S S S S S S S S S w 38 Q N a O M Dr i | N n U i E $ S S S S S S S S S w 38 Q N a O M Dr i | ||
I 8t $ 9 9 9 9 9 9 9 9 9 TA S$ | I 8t $ 9 9 9 9 9 9 9 9 9 TA S$ | ||
AR | AR TG SO R $88 $ S S S S S S S S S L ST ST ST ST RP $$ | ||
TG SO R $88 $ S S S S S S S S S L ST ST ST ST RP $$ | |||
E WT eS. S C P P P P OS - | E WT eS. S C P P P P OS - | ||
L O O O O PE T sb$ - - - | L O O O O PE T sb$ - - - | ||
R *h AE A A A A A A A A A A O O O O EV u3bM S S S S S S S S S M M M M M L L CA . | R *h AE A A A A A A A A A A O O O O EV u3bM S S S S S S S S S M M M M M L L CA . | ||
Line 1,994: | Line 1,301: | ||
O C r e A A B C b 1 2 3 4 5 6 7 8 9 0 l l 0 m 8 8 8 8 8 8 8 8 8 3 1 l l 1 u 0 0 0 0 0 0 0 0 0 4 0 0 0 0 _ | O C r e A A B C b 1 2 3 4 5 6 7 8 9 0 l l 0 m 8 8 8 8 8 8 8 8 8 3 1 l l 1 u 0 0 0 0 0 0 0 0 0 4 0 0 0 0 _ | ||
m N 5 5 5 5 5 5 5 5 5 3 5 5 5 5 _ | m N 5 5 5 5 5 5 5 5 5 3 5 5 5 5 _ | ||
e | e e V V V V V V V V C | ||
e V V V V V V V V C | |||
v V V V V V C | v V V V V V C | ||
t v C C C C C C C C C C C C _ | t v C C C C C C C C C C C C _ | ||
s l - | s l - | ||
y a S V _ | |||
y a | |||
S V _ | |||
x Eh | x Eh | ||
1 I1 G G N N . | 1 I1 G G N N . | ||
I I L L 4 P P 2 M M A A 3 S S | I I L L 4 P P 2 M M A A 3 S S v G N | ||
v G N | |||
G N | G N | ||
f e I o R I R R U U | f e I o R I R R U U D D - | ||
D D - | |||
s T 3 k T r S S a E E g m T T e W W c R O O P L L F F D D R R A A | s T 3 k T r S S a E E g m T T e W W c R O O P L L F F D D R R A A | ||
~ B W W 9 R R | ~ B W W 9 R R 2 O O F F 1 ^ 8$ o 5 5 5 5 5 1 1 1 1 1 S8$ . | ||
2 O O F F 1 ^ 8$ o 5 5 5 5 5 1 1 1 1 1 | |||
S8$ . | |||
O . | O . | ||
N; o D@$ | N; o D@$ | ||
Line 2,035: | Line 1,324: | ||
E 5 S S M | E 5 S S M | ||
_86 | _86 | ||
* 1 1 1 1 1 1 1 S O o E O B R | * 1 1 1 1 1 1 1 S O o E O B R S N *Y I O I | ||
S N *Y I O I | |||
V T A A D D N n e . C X X h vt E l a P aC B X X X X X D | V T A A D D N n e . C X X h vt E l a P aC B X X X X X D | ||
v N A A l 2 l 0 0 2 0 T E%S. 3 1 l 1 1 1 l 1 N - - - - - - - | v N A A l 2 l 0 0 2 0 T E%S. 3 1 l 1 1 1 l 1 N - - - - - - - | ||
Line 2,053: | Line 1,340: | ||
t e C C C C s v l . | t e C C C C s v l . | ||
y a S V n | y a S V n | ||
{. | {. | ||
7 . E 2 B 1 | 7 . E 2 B 1 | ||
. L L | . L L | ||
v I f e W _ | v I f e W _ | ||
o R E | o R E | ||
V _ | V _ | ||
L 4 1 s A _ | L 4 1 s A _ | ||
Line 2,083: | Line 1,364: | ||
E WT eS. f,, | E WT eS. f,, | ||
L L P L P O S C C | L L P L P O S C C | ||
- O C O P E s S T | - O C O P E s S T | ||
R A E $ d' O O A A O O O E V @, M M S S M S M L L u3 C A U V A A L L A A A N $ G G R R G G G E 5 5 5 1 | R A E $ d' O O A A O O O E V @, M M S S M S M L L u3 C A U V A A L L A A A N $ G G R R G G G E 5 5 5 1 | ||
Line 2,091: | Line 1,369: | ||
_E t 1 4 4 2 2 2 1 | _E t 1 4 4 2 2 2 1 | ||
E 0$ _ | E 0$ _ | ||
B | B S * $ | ||
S * $ | |||
I V | I V | ||
A D | A D | ||
Line 2,107: | Line 1,383: | ||
GYM _ | GYM _ | ||
1 3 | |||
2 . | 2 . | ||
v f e o R | v f e o R 1 s k | ||
1 s k | |||
r 3 a g m a | r 3 a g m a | ||
O F P | O F P | ||
1 3 | 1 3 | ||
0 1 | 0 1 | ||
Line 2,121: | Line 1,393: | ||
. 1 1 1 1 1 O . | . 1 1 1 1 1 O . | ||
$S$* | $S$* | ||
N o _ | N o _ | ||
N @@ U RRR RR RRR RR RRR RR RRR RR RRR - | N @@ U RRR RR RRR RR RRR RR RRR RR RRR - | ||
T Ny I g N n U i E y SFT S SFT S SFT S SFT S SFT w _ | T Ny I g N n U i E y SFT S SFT S SFT S SFT S SFT w _ | ||
N a 3@ Q _ | N a 3@ Q _ | ||
O r | O r 1 | ||
I M D @ j' y 3 4 5 4 5 4 5 4 5 T A $O 1 1 1 1 1 1 1 1 1 A R T G S O Ng$ & SFT SFT R SFT SL SFT SL SFT SL SL R P Ny E | |||
4 5 4 5 4 5 4 5 T A $O 1 1 1 1 1 1 1 1 1 A R T G S O Ng$ & SFT SFT R SFT SL SFT SL SFT SL SL R P Ny E | |||
WT eS. j _ | WT eS. j _ | ||
O S P O P O P O P O P -_ | O S P O P O P O P O P -_ | ||
P E s j O L O L O L O L O _ | P E s j O L O L O L O L O _ | ||
T _ | T _ | ||
R $g A E O A O A O A O A O E V y3 j A S A S A S A S A L L _ | R $g A E O A O A O A O A O E V y3 j A S A S A S A S A L L _ | ||
C A | C A | ||
*h | *h U V A C L C L C L C L N G S G S G S G S G _ | ||
U V A C L C L C L C L | |||
N G S G S G S G S G _ | |||
E 5 5 5 5 5 5 5 _ | E 5 5 5 5 5 5 5 _ | ||
S 5 5 S | S 5 5 S | ||
Line 2,153: | Line 1,412: | ||
E 0$ _ | E 0$ _ | ||
B _ | B _ | ||
S $ $ X X X I X _ | S $ $ X X X I X _ | ||
V _ | V _ | ||
A N D | A N D D O _ | ||
D O | |||
_ | |||
I _ | I _ | ||
T e . C _ | T e . C _ | ||
A X X X X _ | A X X X X _ | ||
C vt _ | C vt _ | ||
I l a X X X X X _ | I l a X X X X X _ | ||
F aC B _ | F aC B _ | ||
I V _ | I V _ | ||
R A U | R A U | ||
P D E%5 5 | P D E%5 5 2 3 2 3 2 3 2 3 N E - - - - - - - - | ||
2 3 2 3 2 3 2 3 N E - - - - - - - - | |||
A $ F K- K J J H H H H P | A $ F K- K J J H H H H P | ||
U E C 2 2 2 2 2 2 2 2 2 K | U E C 2 2 2 2 2 2 2 2 2 K | ||
A M r e _ | A M r e _ | ||
b _ | b _ | ||
m 2 A 3 B 4 C 5 D _ | m 2 A 3 B 4 C 5 D _ | ||
u 3 4 6 4 6 4 6 4 6 m N 3 2 6 2 6 2 6 2 6 _ | u 3 4 6 4 6 4 6 4 6 m N 3 2 6 2 6 2 6 2 6 _ | ||
e | e U U U U U U U U U _ | ||
U U U U U U U U U _ | |||
t e M M H M M M M M M _ | t e M M H M M M M M M _ | ||
s v _ | s v _ | ||
l ' | l ' | ||
y a | y a S V _ | ||
S V | |||
_ | |||
t i. | t i. | ||
Ub* - | Ub* - | ||
1 3 | 1 3 | ||
2 . | 2 . | ||
v f e o R | v f e o R 2 s k | ||
2 s k | |||
r a a g m e | r a a g m e | ||
a R P | a R P | ||
- 1 3 | - 1 3 | ||
- 0 . | - 0 . | ||
1 C8S 8y 0 0 0 0 2 0 5 3 3 3 3 1 1 1 O | 1 C8S 8y 0 0 0 0 2 0 5 3 3 3 3 1 1 1 O | ||
S8$ - | S8$ - | ||
N o T | N o T | ||
I N | I N | ||
g | g | ||
&@dy y RR RR RR RR RRR QQQ RR N- n E?y U i ST ST ST ST SFT w 3{sQ N a O r I M D @$?y 5 5 5 5 5 T A a8 1 1 1 1 1 A R T G S O R.R E- | &@dy y RR RR RR RR RRR QQQ RR N- n E?y U i ST ST ST ST SFT w 3{sQ N a O r I M D @$?y 5 5 5 5 5 T A a8 1 1 1 1 1 A R T G S O R.R E-P $8$a$M ST ST ST ST SFT SFT ST WT 2 O S P E eS.Hjs P | ||
P $8$a$M ST ST ST ST SFT SFT ST WT 2 O S P E eS.Hjs P | |||
O P | O P | ||
O P | O P | ||
Line 2,229: | Line 1,458: | ||
O P | O P | ||
O RT A E ay O O O O O O O E V M M M M A A M u3iM L L C A ty U V L L L L L A A N G G G G G G G s$ | O RT A E ay O O O O O O O E V M M M M A A M u3iM L L C A ty U V L L L L L A A N G G G G G G G s$ | ||
E ,, 5 5 S , E1U | E ,, 5 5 S , E1U S 1 1 1 1 1 2 2 E. a$ | ||
B S y1$ | |||
S 1 1 1 1 1 2 2 E. a$ | |||
B | |||
S y1$ | |||
I V | I V | ||
A. N D D O I | A. N D D O I | ||
T e . C A vt C l a I | T e . C A vt C l a I | ||
D aC B X X X X X X X I V R A U | D aC B X X X X X X X I V R A U | ||
P D E%5. 2 2 2 2 2 5 5 | P D E%5. 2 2 2 2 2 5 5 4 | ||
4 | |||
N - - - - - | N - - - - - | ||
A E1$ F F E D E C C P | A E1$ F F E D E C C P | ||
Line 2,251: | Line 1,473: | ||
U M | U M | ||
t v M M M M s l ' | t v M M M M s l ' | ||
y a S V | y a S V H4< a | ||
H4< a | |||
T T | T T A A E E H H 4 | ||
A A E E H H 4 | |||
3 Y Y a A A | 3 Y Y a A A | ||
. C C E E v D D f e o R H T | . C C E E v D D f e o R H T | ||
Line 2,272: | Line 1,488: | ||
Ei$ ST ST _ | Ei$ ST ST _ | ||
N a 3gSQ _ | N a 3gSQ _ | ||
O r I IM D TA 8O$5 6 1 | O r I IM D TA 8O$5 6 1 | ||
6 1 | 6 1 | ||
AR e0 TG SO t8S3$ L L L L P P R ST ST S P S P R | AR e0 TG SO t8S3$ L L L L P P R ST ST S P S P R | ||
RP E | RP E | ||
WT e S. 5 $ C C O O OS L L L L L | WT e S. 5 $ C C O O OS L L L L L | ||
C L | C L | ||
C | C L | ||
C L | |||
C P | |||
L | O | ||
- L C | - L C | ||
PE s$@ - | PE s$@ - | ||
Line 2,300: | Line 1,509: | ||
E I S L 5 5 S | E I S L 5 5 S | ||
O O | O O | ||
_ El0 7, 7 2 2 4 4 4 8 4 2 E C a$ 8 8 0 0 1 1 4 1 1 1 1 1 1 B E | _ El0 7, 7 2 2 4 4 4 8 4 2 E C a$ 8 8 0 0 1 1 4 1 1 1 1 1 1 B E S R I | ||
S R I | |||
O E3$ X X X X X X X X C _ | O E3$ X X X X X X X X C _ | ||
V _ | V _ | ||
A Y C D | A Y C D D N E | ||
G e . C X X X _ | |||
D N | |||
_ | |||
P vt . | P vt . | ||
E l a M aC B X X X X X X ~X X X X E v D A _ | |||
E l a M aC B X X X X X X ~X X X X | |||
E v D A | |||
_ | |||
N _ | N _ | ||
A l O _ | A l O _ | ||
T 8%" .I 3, | T 8%" .I 3, 2 | ||
2 2 | |||
2 | 3 2 | ||
4 5 5 l 6 l | |||
2 | 5 A | ||
E E'!$ | |||
2 | |||
3 | |||
2 | |||
4 | |||
5 5 | |||
l 6 | |||
l | |||
5 | |||
E'!$ | |||
l H H H H H H H K- J K- J J H . | l H H H H H H H K- J K- J J H . | ||
H | H Y 0y 1 1 1 1 1 1 2 2 2 2 2 2 2 A | ||
Y 0y 1 1 1 1 1 1 2 2 2 2 2 2 2 A | |||
C E | C E | ||
D r e | |||
D r | |||
e | |||
b 9 3 7 m 4 | b 9 3 7 m 4 | ||
* 3 1 u 3 1 O 4 l 2 8 A B 2 7 1 5 m N 2 2 2 2 i 1 4 9 9 8 2 8 1 e e H | * 3 1 u 3 1 O 4 l 2 8 A B 2 7 1 5 m N 2 2 2 2 i 1 4 9 9 8 2 8 1 e e H | ||
Line 2,377: | Line 1,542: | ||
D H | D H | ||
D H | D H | ||
D | D t v _ | ||
t v | |||
_ | |||
s l ' _ | s l ' _ | ||
y a _ | y a _ | ||
S V - | S V - | ||
gY$ _ | gY$ _ | ||
4 3 | 4 3 | ||
e P M | e P M | ||
. U v P f e H o R T I | . U v P f e H o R T I | ||
W 2 s 1 k S r E a a T g m e W a R O P L F | W 2 s 1 k S r E a a T g m e W a R O P L F | ||
D R | D R | ||
A . | A . | ||
WT RS 3 OE 3 FT 0 | WT RS 3 OE 3 FT 0 | ||
1 7@$ fg | 1 7@$ fg O . | ||
O . | |||
$8$' | $8$' | ||
N o @E U | N o @E U N R R R R R R R R R Q R R R R R T Ny I g N n U. i E N$ | ||
N R R R R R R R R R Q R R R R R T Ny I g N n U. i E N$ | |||
w N a 3{3Q O r I I M D oO 5 T A O8 AR TG SO Ng* $ L L L L L S L L P P L R P L L L R | w N a 3{3Q O r I I M D oO 5 T A O8 AR TG SO Ng* $ L L L L L S L L P P L R P L L L R | ||
E P N$ | E P N$ | ||
Line 2,436: | Line 1,582: | ||
A G | A G | ||
L $ | L $ | ||
E O S O .E | E O S O .E t | ||
t | |||
S C 5 5 5 5 2 0 0 0 0 E E 0$ 1 2 2 1 1 2 2 1 1 1 1 2 8 8 2 B R | S C 5 5 5 5 2 0 0 0 0 E E 0$ 1 2 2 1 1 2 2 1 1 1 1 2 8 8 2 B R | ||
- O S C y $ | - O S C y $ | ||
Line 2,447: | Line 1,590: | ||
_ aC B l D V N A A | _ aC B l D V N A A | ||
T 0 0 A 0%C 5 5 5 6 6 6 6 6 6 8 8 7 1 9 1 E - - - - - - - - - | T 0 0 A 0%C 5 5 5 6 6 6 6 6 6 8 8 7 1 9 1 E - - - - - - - - - | ||
H E $ H | H E $ H H | ||
H_ H H | |||
H | H H M H G G G F F G Y | ||
H_ H | |||
H | |||
H | |||
H M H G G G F F G Y | |||
A O .2 2 [ 2 2 2 2 2 2 2 C 2 2 2 2 2 E | A O .2 2 [ 2 2 2 2 2 2 2 C 2 2 2 2 2 E | ||
D r | D r | ||
Line 2,474: | Line 1,609: | ||
M4. | M4. | ||
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PagD 3 of 8 VALVE TEST PROGRAM Syatem- DECAY HEAT AND EMERGENCY CORE COOLING Drawing No. 033 Rev. 34 E | DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PagD 3 of 8 VALVE TEST PROGRAM Syatem- DECAY HEAT AND EMERGENCY CORE COOLING Drawing No. 033 Rev. 34 E | ||
SC | SC N | ||
% Valve _ u e E $ 3 D 88 EC Cat. y 3 s.3 d @E E | |||
N | o0 $o $c 8 @ $$ - | ||
% Valve _ u e E $ 3 D 88 EC Cat. y 3 s.3 d @E | |||
E f$ a5 o$ o$ a $' | E f$ a5 o$ o$ a $' | ||
.o V21ve Number A B C D y 8 Remarks DH44 2 H-ll X X 10 GA MA LO L , R DH42 2 H-ll X 10 CK SA -- | .o V21ve Number A B C D y 8 Remarks DH44 2 H-ll X X 10 GA MA LO L , R DH42 2 H-ll X 10 CK SA -- | ||
S Q FORWARD FLOW TF.ST WITH PUMP TEST. | S Q FORWARD FLOW TF.ST WITH PUMP TEST. | ||
Line 2,497: | Line 1,626: | ||
S 17 S R CF30 1 B-3 X X 14 CK SA -- | S 17 S R CF30 1 B-3 X X 14 CK SA -- | ||
S 18 S C DH76 1 B-4 X X X 10 SC SA LO S 18 S C L , R | S 18 S C DH76 1 B-4 X X X 10 SC SA LO S 18 S C L , R | ||
_ - - I | _ - - I | ||
L N 4 A A P 3 M M P 8 R R M M | L N 4 A A P 3 M M P 8 R R M M | ||
. O O U U N N P P v | . O O U U N N P P v | ||
Line 2,510: | Line 1,637: | ||
W W , | W W , | ||
4 s T T T T . T T k S S S S S S - | 4 s T T T T . T T k S S S S S S - | ||
~ r a E E E E E E w a m T T T T T T g e W W W a R W W O W O O O O O P L L L I L L F F F F F F | ~ r a E E E E E E w a m T T T T T T g e W W W a R W W O W O O O O O P L L L I L L F F F F F F D . D . D D D D RP RP R R R R AU AU A A A . A . | ||
D . D . D D D D RP RP R R R R AU AU A A A . A . | |||
WE WE W W WT WT RK RK R R RS RS 3 OA OA O O OE OE 3 FM FM F F FT FT 0 | WE WE W W WT WT RK RK R R RS RS 3 OA OA O O OE OE 3 FM FM F F FT FT 0 | ||
1 | 1 | ||
Line 2,522: | Line 1,647: | ||
r ' | r ' | ||
T A M D @t$y 9 9 9 9 1 1 1 1 AR e8 TG SO 8S3$ | T A M D @t$y 9 9 9 9 1 1 1 1 AR e8 TG SO 8S3$ | ||
S SL SL ST ST L P P P L S S R R P #$ S E | S SL SL ST ST L P P P L S S R R P #$ S E | ||
WT O e S. $ 2 O - O L L C P L L O - - | WT O e S. $ 2 O - O L L C P L L O - - | ||
P S E .$@ | P S E .$@ | ||
- L - L C C L O C C L - - | - L - L C C L O C C L - - | ||
RT A E *h A A A A O O A | RT A E *h A A A A O O A | ||
Line 2,544: | Line 1,666: | ||
E C 0 _ | E C 0 _ | ||
B 3$ 2 2 2 2 2 2 4 1 1 1 4 4 2 - | B 3$ 2 2 2 2 2 2 4 1 1 1 4 4 2 - | ||
E _ | E _ | ||
- R S O _ | - R S O _ | ||
Line 2,552: | Line 1,673: | ||
E G e . C X R X X X X X E vt M l a X X X X X X X E aC B V | E G e . C X R X X X X X E vt M l a X X X X X X X E aC B V | ||
D A N | D A N | ||
A T :#S. I 4 4 4 4 5 5 7 6 5 4 8 8 8 | A T :#S. I 4 4 4 4 5 5 7 6 5 4 8 8 8 A S'!$ - - | ||
C B | |||
A S'!$ - - | E l C C C C C C B B B C C H | ||
C | |||
Y _ | Y _ | ||
A 0U 1 1 1 1 2 2 2 2 2 1 2 2 2 C | A 0U 1 1 1 1 2 2 2 2 2 1 2 2 2 C | ||
E D r e | E D r e | ||
b 6 5 m 3 3 u 9 7 8 6 A B 7 A 7 7 5 3 1 m N 5 5 5 5 2 2 2 l 2 2 2 2 3 . | b 6 5 m 3 3 u 9 7 8 6 A B 7 A 7 7 5 3 1 m N 5 5 5 5 2 2 2 l 2 2 2 2 3 . | ||
e e P P P H | e e P P P H | ||
P H | P H | ||
Line 2,574: | Line 1,691: | ||
P i | P i | ||
P H | P H | ||
H H | H H t v l . | ||
t v l . | |||
s l . . | s l . . | ||
y a S V _ | |||
y a | |||
S V _ | |||
UdM , | UdM , | ||
l I | l I 4 E 3 B P 8 M | ||
. L U L P v I f e W H o R E | . L U L P v I f e W H o R E | ||
T I | T I | ||
Line 2,604: | Line 1,709: | ||
32d-N' o D@$U N R R R QQ R R QQ QQ Q QQ QQ R R T #$ | 32d-N' o D@$U N R R R QQ R R QQ QQ Q QQ QQ R R T #$ | ||
I g N n U i E3$ | I g N n U i E3$ | ||
w 3 @5 Q N a O | w 3 @5 Q N a O | ||
l r | l r | ||
Line 2,618: | Line 1,722: | ||
P O | P O | ||
P O | P O | ||
L C | L C | ||
L C O C | L C O C | ||
I P E wEj - | I P E wEj - | ||
R T A E *h A A A O A A O O A O O O A E V M M S M M M M M S M M M M L L u3$M C A U V NGI | R T A E *h A A A O A A O O A O O O A E V M M S M M M M M S M M M M L L u3$M C A U V NGI 8f A A L A A A A A K L L A A N G G R G G G G G C G G G G L $$ | ||
8f A A L A A A A A K L L A A N G G R G G G G G C G G G G L $$ | |||
E O S O S C _ @lU 5 4 4 4 5 5 0 | E O S O S C _ @lU 5 4 4 4 5 5 0 | ||
E E n$ 6 8 1 4 8 2 1 1 6 2 2 1 4 B R | E E n$ 6 8 1 4 8 2 1 1 6 2 2 1 4 B R | ||
- O S C y3$ X X | - O S C y3$ X X I X X X X Y | ||
I X X X X Y | |||
V C A N D D E G | V C A N D D E G | ||
R e . C E X X M vt E l a X X X X X X X X X X X aC B D v N A A | R e . C E X X M vt E l a X X X X X X X X X X X aC B D v N A A | ||
T 0 0 l 3 2 2 2 1 A %S. ?h 1 9 1 l 1 1 1 1 1 5 5 | T 0 0 l 3 2 2 2 1 A %S. ?h 1 9 1 l 1 1 1 1 1 5 5 5 7 E E!$ - - - - - - - - - - - | ||
5 7 | |||
E E!$ - - - - - - - - - - - | |||
D H l C B B C B B C C D D E E Y | D H l C B B C B B C C D D E E Y | ||
A C !C 2 2 2 2 2 2 2 2 2 2 2 2 2 E | A C !C 2 2 2 2 2 2 2 2 2 2 2 2 2 E | ||
Line 2,658: | Line 1,752: | ||
S | S | ||
= m | = m | ||
)j 4 | )j 4 | ||
Line 2,664: | Line 1,757: | ||
. U L U P L P v I f e H W H o R T I E T | . U L U P L P v I f e H W H o R T I E T | ||
I W V W s L 6 T A T . | I W V W s L 6 T A T . | ||
k S V S r E . E e a T SR T g m I E e W HT W a R O TA O P L L L F N F OD | k S V S r E . E e a T SR T g m I E e W HT W a R O TA O P L L L F N F OD D E D R . GI R A NL A . | ||
D E D R . GI R A NL A . | |||
WT I P WT RS MP RS 3 OE I U OE 3 FT TS FT 0 | WT I P WT RS MP RS 3 OE I U OE 3 FT TS FT 0 | ||
1 C@5 8y | 1 C@5 8y O . | ||
O . | |||
$8d - | $8d - | ||
N c N D@Pd R R R Q R QQ R R R Q R R R R T :$ | N c N D@Pd R R R Q R QQ R R R Q R R R R T :$ | ||
Line 2,681: | Line 1,770: | ||
W T 8 O O C O S P E eS.Hj, s | W T 8 O O C O S P E eS.Hj, s | ||
C L | C L | ||
O L | O L | ||
C L | C L | ||
L C | L C | ||
O L | O L | ||
C L | C L | ||
- L L L T | - L L L T | ||
R =h A E A A A A A O A A A A A A A A E V M S M S M M M S M S S M M M u3!M L L C A G h U A A N V N A L A K L A A L L K L A I !j G R G C G G G R G C R G G G L | R =h A E A A A A A O A A A A A A A A E V M S M S M M M S M S S M M M u3!M L L C A G h U A A N V N A L A K L A A L L K L A I !j G R G C G G G R G C R G G G L | ||
Line 2,704: | Line 1,784: | ||
T 1 l 2 A 7 7 7 7 9 9 9 9' 1 l 9 1 4 9 E | T 1 l 2 A 7 7 7 7 9 9 9 9' 1 l 9 1 4 9 E | ||
H $#S.F$ | H $#S.F$ | ||
E E | E E E | ||
E E | |||
E | E E | ||
E D | |||
E | E E | ||
C G | |||
E | A F | ||
E | |||
E | |||
E | |||
D | |||
E | |||
E | |||
C | |||
G | |||
A | |||
F | |||
Y A iy 2 2 2 2 2 2 2 2 2 2 1 2 C 2 2 E | Y A iy 2 2 2 2 2 2 2 2 2 2 1 2 C 2 2 E | ||
D r | D r | ||
Line 2,745: | Line 1,804: | ||
k S S r E E 3 a T T g m e W W 3 R O O p L L F F D D R R A . A WT W R | k S S r E E 3 a T T g m e W W 3 R O O p L L F F D D R R A . A WT W R | ||
3 RS 3 OE O 0 FT F 1 | 3 RS 3 OE O 0 FT F 1 | ||
^ 8S fp | ^ 8S fp O . | ||
O . | |||
$8d ' - | $8d ' - | ||
N o N &@$U R Q R R R R R R Q R R R R R R T $@ | N o N &@$U R Q R R R R R R Q R R R R R R T $@ | ||
I g N n U i @ $$ | I g N n U i @ $$ | ||
w $@Y Q N a O | w $@Y Q N a O | ||
r I M D @$ y T A SO A R T G S O cg$b@ L S L L L L L L S L L L L L L R | r I M D @$ y T A SO A R T G S O cg$b@ L S L L L L L L S L L L L L L R | ||
R E | R E | ||
Line 2,780: | Line 1,836: | ||
A l | A l | ||
T E%S. o l 7 4 4 8 9 8 8 9 8 8 7 7 8 8 A - - - - - - - - - - - | T E%S. o l 7 4 4 8 9 8 8 9 8 8 7 7 8 8 A - - - - - - - - - - - | ||
E E $ E | E E $ E B | ||
H H | |||
B | |||
H | |||
H | |||
A A H H A H H J J J J H | A A H H A H H J J J J H | ||
Y + + + + + + + + | Y + + + + + + + + | ||
Line 2,810: | Line 1,860: | ||
l l , l llll 4 | l l , l llll 4 | ||
8 3 | 8 3 v | ||
f e o R 8 s T T 'T T k S S S S r E E E E o a T T T T g m e W W W W a R O O O O P L L L L | |||
8 s T T 'T T | |||
k S S S S r E E E E o a T T T T g m e W W W W a R O O O O P L L L L | |||
. F F F F D D D D R R R R A A A A W W W R | . F F F F D D D D R R R R A A A A W W W R | ||
W R R R | W R R R O O O O 3 F F F F 3 | ||
O O O O 3 F F F F 3 | |||
0 | 0 | ||
^ 8S Ey | ^ 8S Ey | ||
#8g' | #8g' o | ||
N D8I$ | |||
R R R R R R Q Q Q Q g #@ | R R R R R R Q Q Q Q g #@ | ||
n i | n i | ||
Line 2,836: | Line 1,877: | ||
T eS. 52 S O O O P P - ' | T eS. 52 S O O O P P - ' | ||
E $j D I L L L O O - | E $j D I L L L O O - | ||
T E h A A A A O O A A A A V M M M M A A S S S S L uS$M A | T E h A A A A O O A A A A V M M M M A A S S S S L uS$M A | ||
V *h A A A A F F K K K K G $.$ G G G G B B C C C C N | V *h A A A A F F K K K K G $.$ G G G G B B C C C C N | ||
Line 2,856: | Line 1,891: | ||
D _ | D _ | ||
N l _ | N l _ | ||
A #S. E 8 | A #S. E 8 8 | ||
8 8, | |||
8 | l 8 | ||
8 8 | |||
8 | 8 8 | ||
8, | |||
l | |||
8 | |||
8 | |||
8 | |||
8 | |||
8 | |||
T E!$ | T E!$ | ||
l J J J J F F J J J J A | l J J J J F F J J J J A | ||
Line 2,884: | Line 1,903: | ||
m u _ | m u _ | ||
m N e 1 1 4 4 A B 2 2 5 5 t e 0 0 0 0 4 4 0 0 0 0 s v 1 2 1 2 l 1 1 2 1 2 l P P P P H H P P P P y a H H H H D D H H H H S V i | m N e 1 1 4 4 A B 2 2 5 5 t e 0 0 0 0 4 4 0 0 0 0 s v 1 2 1 2 l 1 1 2 1 2 l P P P P H H P P P P y a H H H H D D H H H H S V i | ||
ndv | ndv | ||
i 0 | i 0 | ||
2 Y Y 3 L L L L | 2 Y Y 3 L L L L A A v C C f e I R | ||
A A v C C f e I R | |||
I R | I R | ||
o R T T C C E E . . | o R T T C C E E . . | ||
1 s L L T 2 | 1 s L L T 2 T | ||
k E E S S r E E o a D D T T g m E . E . | |||
e TD TD W W c R AE AE O O L | e TD TD W W c R AE AE O O L | ||
P RT RT L EC EC F F PE PE ON ON E E N N S S RO RO R R OC OC E E IS T TS V < V C I OI E E 4 MD MD R R 3 | P RT RT L EC EC F F PE PE ON ON E E N N S S RO RO R R OC OC E E IS T TS V < V C I OI E E 4 MD MD R R 3 | ||
0 1 ^ 8S 8y 0 1 | 0 1 ^ 8S 8y 0 1 | ||
. $Sg - - | . $Sg - - | ||
O o N N &@iM R R R R R R R R R R R R QQQ T g s$ | O o N N &@iM R R R R R R R R R R R R QQQ T g s$ | ||
I n N i E?$ | I n N i E?$ | ||
U w S S a 3@!Q N r 1 O | U w S S a 3@!Q N r 1 O | ||
I M D gt?y 0 0 A 2 2 TR a8 AG TO $8S1@ | I M D gt?y 0 0 A 2 2 TR a8 AG TO $8S1@ | ||
SR P P P P L S R P P R L S SFT R P $ | SR P P P P L S R P P R L S SFT R P $ | ||
E W ST eS. f,M P L L P O - - L L - O - L OE ~ij O C C O L - - C C - L - C PT R E h AV O O O O A A A O O A A A O u3!M M M M M M S S M M S M S A EL LA p C | E W ST eS. f,M P L L P O - - L L - O - L OE ~ij O C C O L - - C C - L - C PT R E h AV O O O O A A A O O A A A O u3!M M M M M M S S M M S M S A EL LA p C | ||
Line 2,911: | Line 1,924: | ||
- L S F *1$ X X X X X X X X I E V R A O D D G' C ND e . C X X X X IN vt LA l a X | - L S F *1$ X X X X X X X X I E V R A O D D G' C ND e . C X X X X IN vt LA l a X | ||
O aC B X X X X X X X X OY CA v | O aC B X X X X X X X X OY CA v | ||
R A EP RS O E#S.iu CT 3 5 6 7 3 3 3 4 7 7 7 8 9 YE N El$ J | R A EP RS O E#S.iu CT 3 5 6 7 3 3 3 4 7 7 7 8 9 YE N El$ J H | ||
H J | |||
H | G G | ||
G G | |||
H | G G | ||
G G | |||
J | G CM NN EI iC 2 2 2 2 2 2 2 2 2 2 2 2 2 GA RT EN . | ||
MO r EC e b | |||
G | |||
G | |||
G | |||
G | |||
G | |||
G | |||
G | |||
G | |||
G | |||
CM NN EI iC 2 2 2 2 2 2 2 2 2 2 2 2 2 GA RT EN . | |||
MO r EC e b | |||
m u | m u | ||
m N 4 e e O 3 4 t v A A B B O 5 A A B B 0 6 5 s l l 2 2 l .l 1 7 5 5 7 1 1 1 y a F F F F F F F F F F F F F S V C C C C C C C C C C C C C 0 | m N 4 e e O 3 4 t v A A B B O 5 A A B B 0 6 5 s l l 2 2 l .l 1 7 5 5 7 1 1 1 y a F F F F F F F F F F F F F S V C C C C C C C C C C C C C 0 | ||
b | b | ||
T | T | ||
. S E | . S E | ||
. T | . T | ||
^ P 2 M 3 U | ^ P 2 M 3 U | ||
. P v H f e T o R I | . P v H f e T o R I W | ||
2 s T | |||
.k S r E a a T g m W e | .k S r E a a T g m W e | ||
a R O L | a R O L | ||
Line 2,961: | Line 1,950: | ||
0 1 ^ 85 Ey 0 0 0 5 3 | 0 1 ^ 85 Ey 0 0 0 5 3 | ||
1 1 1 | 1 1 1 | ||
$Sg* | $Sg* | ||
O 'o N N &@ y QQQ QQQ QQQ R QQ R Q R R R R' T g $y I | O 'o N N &@ y QQQ QQQ QQQ R QQ R Q R R R R' T g $y I | ||
N n E $y U i w 3@ Q N a O M D r - | N n E $y U i w 3@ Q N a O M D r - | ||
I 82 y TA $8 A R | I 82 y TA $8 A R TG S O R N8* M SFT ST L L L L SFT SFT L L S Ny RP E | ||
TG S O R N8* M SFT ST L L L L SFT SFT L L S Ny RP E | |||
WT eO. j OS E s j L C | WT eO. j OS E s j L C | ||
L C | L C | ||
L C | L C | ||
O L C L O L | O L C L O L | ||
D C L | D C L | ||
C L | C L | ||
Line 2,981: | Line 1,964: | ||
A G | A G | ||
L G | L G | ||
N G G G G G G C G E D | N G G G G G G C G E D S O | ||
_@ t 0 S O 8$ 1 1 1 8 8 8 8 1 2 8 8 E L B F S E 8 $ | |||
S O | |||
_@ t 0 S O 8$ 1 1 1 8 8 8 8 1 2 8 8 E L B F | |||
S E 8 $ | |||
R X X X X X X I O V ,C A G D D ND IN LA e . C X O vt OY l a X X CA aC B X X X X X X X X R V EP RS A O | R X X X X X X I O V ,C A G D D ND IN LA e . C X O vt OY l a X X CA aC B X X X X X X X X R V EP RS A O | ||
CT 3 9 9 0 | CT 3 9 9 0 | ||
Line 2,993: | Line 1,972: | ||
e b | e b | ||
m u | m u | ||
m N 5 1 2 0 e e 4 4 4 3 2 t | m N 5 1 2 0 e e 4 4 4 3 2 t | ||
s v l | s v l | ||
Line 3,006: | Line 1,984: | ||
1 7 | 1 7 | ||
1 y a F F F S S S S S A S S S V C C C C C C C C S C C 9 | 1 y a F F F S S S S S A S S S V C C C C C C C C S C C 9 | ||
< i | < i | ||
T S | T S | ||
E T | E T | ||
Line 3,021: | Line 1,997: | ||
W R | W R | ||
4 3 O 0 F 1 ^ 8$ $y 5 | 4 3 O 0 F 1 ^ 8$ $y 5 | ||
$8$ $@ 3 O o N N U8 U R QQ R Q R R R R R R T g Ny I n N i E My U w a $8 Q N r 1 | $8$ $@ 3 O o N N U8 U R QQ R Q R R R R R R T g Ny I n N i E My U w a $8 Q N r 1 | ||
OM I D @ y' y A | OM I D @ y' y A | ||
TR $0 AG T O $@B $ | TR $0 AG T O $@B $ | ||
Line 3,031: | Line 2,004: | ||
L L | L L | ||
C O | C O | ||
L | L D | ||
I O | |||
L O | |||
L D I | |||
O | |||
O L | O L | ||
C L | C L | ||
Line 3,046: | Line 2,017: | ||
D ,O C G e . C X ND vt IN l a LA aC B X X X X X X X X X O V OY CA A R | D ,O C G e . C X ND vt IN l a LA aC B X X X X X X X X X O V OY CA A R | ||
EP RS E# $. U 0 O 6 6 9 9 1 4 6 4 7 6 CT E $ - - - - - - - | EP RS E# $. U 0 O 6 6 9 9 1 4 6 4 7 6 CT E $ - - - - - - - | ||
G | G G | ||
D N D D D D D H H YE CM NN EI U 2 2 2 2 2 2 2 2 2 2 GA RT EN r MO e EC b m | |||
G | |||
D | |||
N D D D D D H H YE CM NN EI U 2 2 2 2 2 2 2 2 2 2 GA RT EN r MO e EC b m | |||
u N | u N | ||
* 1 e 3 3 1 4 8 | * 1 e 3 3 1 4 8 | ||
Line 3,064: | Line 2,030: | ||
Y a A S S S S F F F F S V S C C C C C C C C C 9 | Y a A S S S S F F F F S V S C C C C C C C C C 9 | ||
2 - | 2 - | ||
2 | 2 1 | ||
v t e o R s | |||
1 k r | |||
t e o R | |||
a a g m e | a a g m e | ||
a R P | a R P | ||
5 3 | 5 3 | ||
0 1 7@5 sy | 0 1 7@5 sy | ||
. 3Sg O o N N @8l$ R R R R R T g $ | |||
. 3Sg | |||
O o N N @8l$ R R R R R T g $ | |||
I n N i E'?$ | I n N i E'?$ | ||
U w a 3@!Q N r I | U w a 3@!Q N r I | ||
OMD @%ty I A TR a0 AG TO ty$1$ | OMD @%ty I A TR a0 AG TO ty$1$ | ||
SR P P P L L RP $ | SR P P P L L RP $ | ||
ET WS eS.Hj$ L L L O D OE s C C C L I PT RE = | ET WS eS.Hj$ L L L O D OE s C C C L I PT RE = | ||
A A A A A AV u3!M M M M M M EL LA - | A A A A A AV u3!M M M M M M EL LA - | ||
C U V A A A A A N !$ G G G G G E _ $1t1 S 0 9 9 0 0 S s$ 1 2 2 1 1 E | C U V A A A A A N !$ G G G G G E _ $1t1 S 0 9 9 0 0 S s$ 1 2 2 1 1 E | ||
B | B S | ||
S | |||
* 1$ X X X X X I | * 1$ X X X X X I | ||
V D A | V D A | ||
Line 3,099: | Line 2,052: | ||
'v t l a aC B X X X X X G V N | 'v t l a aC B X X X X X G V N | ||
I A L | I A L | ||
O O %S. 2 l C 5 6 6 5 l L E'1$ D | O O %S. 2 l C 5 6 6 5 l L E'1$ D D | ||
C D | |||
D | D E | ||
U F iC 3 2 2 3 3 T | |||
C | |||
D | |||
D | |||
F iC 3 2 2 3 3 T | |||
N E r P e S b m | N E r P e S b m | ||
u m N e e 5 W | u m N e e 5 W | ||
Line 3,116: | Line 2,061: | ||
y a F F F F F S V S S S S S r Y$ x | y a F F F F F S V S S S S S r Y$ x | ||
I 1I | I 1I T T T S S S E E E 8 T T T N 2 O P P P IE 6 M M M TB | ||
T T T S S S E E E 8 T T T N 2 O P P P IE 6 M M M TB | |||
. U U U A v P P P RL f e H H H EL o R T T T PI OW I I I W W W . | . U U U A v P P P RL f e H H H EL o R T T T PI OW I I I W W W . | ||
LE s AV 1 k T T T ML r S S S RA o a E E E OV g m T T T N e D a R W O | LE s AV 1 k T T T ML r S S S RA o a E E E OV g m T T T N e D a R W O | ||
Line 3,128: | Line 2,071: | ||
I 6 O O O V . | I 6 O O O V . | ||
3 F F F RD 0 EE ST 1 ^ 8$ Ey 5 5 5 S 0 5 NE | 3 F F F RD 0 EE ST 1 ^ 8$ Ey 5 5 5 S 0 5 NE | ||
. $8$ ' 6 1 1 1 1 I T | . $8$ ' 6 1 1 1 1 I T O o EE N N &@ $ RR RR R R R RB Q Q Q QQQ RR RR A T g $$ L I SL N n E PI U i $ ST MW w ST ST ST U a 3@ Q PS N P O M Dr OM I | ||
O o EE N N &@ $ RR RR R R R RB Q Q Q QQQ RR RR A T g $$ L I SL N n E PI U i $ ST MW w ST ST ST U a 3@ Q PS N P O M Dr OM I | |||
A | A | ||
@7 d 1 2 | @7 d 1 2 | ||
Line 3,141: | Line 2,082: | ||
E 1 RHE S _@ 1 4 4 4 6 2 2 2 2 3 3 5 TTC CII S 1 1 1 1 EWV E | E 1 RHE S _@ 1 4 4 4 6 2 2 2 2 3 3 5 TTC CII S 1 1 1 1 EWV E | ||
0$ 1 1 1 1 1 | 0$ 1 1 1 1 1 | ||
L R B EDE | L R B EDE ES S | ||
ES S | |||
j $ X DT I | j $ X DT I | ||
NAN AII V R D C | NAN AII V R D C | ||
A EOD D E RSE T X X ASC A e . C X X X PAA W vt S L l a X X X X : SP G aC B X : | A EOD D E RSE T X X ASC A e . C X X X PAA W vt S L l a X X X X : SP G aC B X : | ||
DE N | DE N | ||
I v RVS T LI A r A | I v RVS T LI A r A L | ||
O AVP O T M C 0%5 5 3 6 6 3 3 9 SKU 3 3 3 6 NCP T E $ - - - - | |||
G G | |||
G | C B | ||
A A | |||
G | C I E N K J H H HE E NCH N 2 2 2 2 3 3 3 A T O $C 3 3 3 3 E P SHN M ITE O H C r PYW e ML UND b | ||
C | |||
B | |||
A | |||
A | |||
C | |||
I E N K J H H HE E NCH N 2 2 2 2 3 3 3 A T O $C 3 3 3 3 E P SHN M ITE O H C r PYW e ML UND b | |||
m POE u B A A B T m N 1 1 7 7 3 2 EDS e 5 0 9 NNE e +9 +7 9 1 1 0 0 4 6 5 0AT t | m POE u B A A B T m N 1 1 7 7 3 2 EDS e 5 0 9 NNE e +9 +7 9 1 1 0 0 4 6 5 0AT t | ||
s v l 1 8 | s v l 1 8 | ||
Line 3,179: | Line 2,106: | ||
8 2 | 8 2 | ||
6 . | 6 . | ||
D v E f e T o R S E | D v E f e T o R S E | ||
T 2 s . . T T T E | T 2 s . . T T T E | ||
_ k r | _ k r | ||
Line 3,189: | Line 2,113: | ||
V W W R R 6 R R O O O E 3 O O F F F T 0 F F A N | V W W R R 6 R R O O O E 3 O O F F F T 0 F F A N | ||
R 1 ^ 8$ o E T | R 1 ^ 8$ o E T | ||
$8M. L O A N o D@$' | $8M. L O A N o D@$' | ||
N , | N , | ||
R R R QR R QR R QR R QR R QR R D T g a E I n S N U U i w | R R R QR R QR R QR R QR R QR R D T g a E I n S N U U i w | ||
E$ S a C @$ I N | E$ S a C @$ I N | ||
O M Dr | O M Dr T | ||
I A | |||
A | |||
@$@ N o E TR A | @$@ N o E TR A | ||
M G N TO SR $g$5 G I | M G N TO SR $g$5 G I | ||
L L L SL L SL L SL L SL L SL L L R P v A ET W eS. N-E T | L L L SL L SL L SL L SL L SL L L R P v A ET W eS. N-E T | ||
Line 3,207: | Line 2,125: | ||
RE E oh T A A A A A A A A A A A A A A E V L | RE E oh T A A A A A A A A A A A A A A E V L | ||
u3$ M M M S S S S S S S S S S A L L A C V F U | u3$ M M M S S S S S S S S S S A L L A C V F U | ||
eh I A A A C C C C C C C C C C N $ G G G S S S S S S S S S S | eh I A A A C C C C C C C C C C N $ G G G S S S S S S S S S S E T S _8E 5 5 5 7 | ||
E T S _8E 5 5 5 7 | |||
5 5 5 5 5 5 5 5 5 | 5 5 5 5 5 5 5 5 5 | ||
7 5 | 7 5 | ||
Line 3,217: | Line 2,133: | ||
E e . C X Y T vt S A l a W aC B X X X X X X X L G | E e . C X Y T vt S A l a W aC B X X X X X X X L G | ||
v A M | v A M | ||
N A R I O L N O E # S. 3 0 0 0 0 l l 0 0 0 0 O 9 9 9 1 1 1 1 l l 1 1 1 1 S C E$ C | N A R I O L N O E # S. 3 0 0 0 0 l l 0 0 0 0 O 9 9 9 1 1 1 1 l l 1 1 1 1 S C E$ C C | ||
C E | |||
C | E E | ||
E E | |||
C | F F | ||
F H | |||
E | |||
E | |||
E | |||
E | |||
E | |||
F | |||
F | |||
F | |||
H | |||
H | H | ||
- T C | - T C | ||
Line 3,259: | Line 2,157: | ||
3 1 | 3 1 | ||
3 T | 3 T | ||
t v 6 6 6 1 1 1 1 1 1 1 1 l l s l C C C C C C C C C C C C C y a C C C C C C C C C C C C C S V . | |||
O m | |||
O | |||
m | |||
8 2 | 8 2 | ||
6 . | 6 . | ||
v D | v D f e E o R T S | ||
. . . E 3 s T T T T k S S S E r E E E B o a T T T g m L e W W W L e R O O O I P L L L W F F F D S D D E R R R V A A A L W W W A R R R V O O O 6 F F F E 3 T 0 A 1 ^8S gg N R | |||
f e E o R T S | |||
. . . E 3 s T T T T k S S S E r E E E B o a T T T g m L e W W W L e R O O O I P L L L W F F F D S D D E R R R V A A A L W W W A R R R V O O O 6 F F F E 3 T 0 A 1 ^8S gg N | |||
R | |||
$2M - E | $2M - E | ||
. T O o L N &SsU A N R QR R QR R R R R R R R R R e$ QR , | . T O o L N &SsU A N R QR R QR R R R R R R R R R e$ QR , | ||
T g D I n E N i Es$ S U U w 3@sQ N a S O r i I I M D 8 j-ty T T A a0 N A R E T G M O $ N SR R P $2Sn$ SL L SL L SL L L L L L L L L L G I | T g D I n E N i Es$ S U U w 3@sQ N a S O r i I I M D 8 j-ty T T A a0 N A R E T G M O $ N SR R P $2Sn$ SL L SL L SL L L L L L L L L L G I | ||
Line 3,301: | Line 2,190: | ||
B N | B N | ||
- G S *1$ X X X X X X X X X X X X X X I I L V A A D M D R E e . C T E S T vt Y A l a X X X X N X S W aC B X X X X X V L G A N A M I R L 1 l 1 l 2 2 2 2 O O E#$. 2 l 1 0 0 0 N O l 1 9 1 1 1 1 l 1 l 1 1 1 1 | - G S *1$ X X X X X X X X X X X X X X I I L V A A D M D R E e . C T E S T vt Y A l a X X X X N X S W aC B X X X X X V L G A N A M I R L 1 l 1 l 2 2 2 2 O O E#$. 2 l 1 0 0 0 N O l 1 9 1 1 1 1 l 1 l 1 1 1 1 | ||
_ C E1$ H | _ C E1$ H H | ||
G G | |||
H | G G | ||
E E | |||
G | E E | ||
E E | |||
G | E E | ||
G | |||
G | |||
E | |||
E | |||
E | |||
E | |||
E | |||
E | |||
E | |||
E | |||
S T | S T | ||
. T C N 3 3 3 3 3 3 3 3 3 E | |||
. T C | |||
N 3 3 3 3 3 3 3 3 3 E | |||
_ E iU 3 3 3 3 3 L | _ E iU 3 3 3 3 3 L | ||
_ N F O E | |||
_ N F | . P R M r | ||
_ O e G C b N m I u | |||
O E | |||
. P R | |||
M r | |||
_ O e G | |||
C b N | |||
m I u | |||
* T m N * * * * | * T m N * * * * | ||
* S 5 7 8 4 2 1 3 9 7 8 0 e e 3 | * S 5 7 8 4 2 1 3 9 7 8 0 e e 3 | ||
Line 3,356: | Line 2,210: | ||
t v 1 l l 1 l 1 2 2 2 2 2 2 2 2 | t v 1 l l 1 l 1 2 2 2 2 2 2 2 2 | ||
* s l C C C C C C C C C C C C C C y a C C C C C C C C C C C C C C S V O | * s l C C C C C C C C C C C C C C y a C C C C C C C C C C C C C C S V O | ||
6 8 2 | 6 8 2 | ||
v f e c R s | v f e c R s | ||
4_ k r | 4_ k r | ||
Line 3,370: | Line 2,217: | ||
a R P | a R P | ||
6 3 | 6 3 | ||
0 1 ^ 8$ Ey 0 0 0 6 6 6 | 0 1 ^ 8$ Ey 0 0 0 6 6 6 N8$ | ||
N8$ | |||
* O o N N D@ $ | * O o N N D@ $ | ||
R R QQQ R R R QQQ R R QQQ R R R T g M$ | R R QQQ R R R QQQ R R QQQ R R R T g M$ | ||
Line 3,400: | Line 2,244: | ||
S _E ",. | S _E ",. | ||
S 0$ 6 6 6 6 6 6 6 6 8 8 8 8 8 E 1 1 1 1 1 B | S 0$ 6 6 6 6 6 6 6 6 8 8 8 8 8 E 1 1 1 1 1 B | ||
S $ X X X X X X X X X X I | |||
V A D D R E e . C T vt A l a W aC B X X X X X X X X X X X X X G | V A D D R E e . C T vt A l a W aC B X X X X X X X X X X X X X G | ||
V N A I | V N A I | ||
L O E#C 1 0 0 O 1 0 0 0 0 0 2 2 O 1 1 1 1 l 1 1 1 1 1 1 1 1 C E $ D | L O E#C 1 0 0 O 1 0 0 0 0 0 2 2 O 1 1 1 1 l 1 1 1 1 1 1 1 1 C E $ D D D D C C C C A A A B B T | ||
D D D C C C C A A A B B T | |||
N E y 3 3 3 3 3 3 3 3 3 3 3 3 3 N , | N E y 3 3 3 3 3 3 3 3 3 3 3 3 3 N , | ||
O P | O P | ||
Line 3,418: | Line 2,259: | ||
5 7 | 5 7 | ||
4 6 7 4 7 6 6 t v 1 1 1 1 1 1 1 1 1 l 1 1 1 s l C C C C C C C C C C C C C y a C C C C C C C C C C C C C S V O | 4 6 7 4 7 6 6 t v 1 1 1 1 1 1 1 1 1 l 1 1 1 s l C C C C C C C C C C C C C y a C C C C C C C C C C C C C S V O | ||
"H 6 | "H 6 | ||
8 2 | 8 2 | ||
6 . | 6 . | ||
v f e o R ' | v f e o R ' | ||
s 5 k r | s 5 k r | ||
e a g m e | e a g m e | ||
Line 3,434: | Line 2,269: | ||
6 3 | 6 3 | ||
0 1 78S e 6 0 5 | 0 1 78S e 6 0 5 | ||
$Sd. 3 6 1 O o N N U@Sh R R R R R R R R R QQQ R R RR CCC T g ah I | $Sd. 3 6 1 O o N N U@Sh R R R R R R R R R QQQ R R RR CCC T g ah I | ||
N n U i w | N n U i w | ||
TE SFT ST a Sgeh N | TE SFT ST a Sgeh N | ||
O M Dr I | O M Dr I | ||
I @ 2 S* 3 TA R e 2 | I @ 2 S* 3 TA R e 2 | ||
2 2 | 2 2 | ||
A TG O S R $8* 1k SFT L L L L L L L L L SFT L L ST RP ah E | A TG O S R $8* 1k SFT L L L L L L L L L SFT L L ST RP ah E | ||
WT OS eS. d. P C O O C O O O O C L O O P P E ~{j O L L L L L L L L L C L L O T | WT OS eS. d. P C O O C O O O O C L O O P P E ~{j O L L L L L L L L L C L L O T | ||
R eh AE O A A A A A A A A A O A A O EV u33 A M M M M M M M M M A M M M LL CA V eh U L | R eh AE O A A A A A A A A A O A A O EV u33 A M M M M M M M M M A M M M LL CA V eh U L A A A A A L L A A F F F A N $h G G G G G G G G G G B B B G E | ||
A A A A A L L A A F F F A N $h G G G G G G G G G G B B B G E | |||
S _86b' 5 5 5 5 5 5 7 | S _86b' 5 5 5 5 5 5 7 | ||
5 7 | 5 7 | ||
5 7 | 5 7 | ||
5 7 6 8 8 8 3 S eh 1 1 1 1 1 1 1 1 1 E | 5 7 6 8 8 8 3 S eh 1 1 1 1 1 1 1 1 1 E | ||
B | B S *Y X X X X X X X X X X X I | ||
S *Y X X X X X X X X X X X I | |||
V A R D | V A R D | ||
D E | D E T e . C A vt - | ||
T e . C A vt - | |||
W l a - | W l a - | ||
aC B X X X X X X X X X X X X X X G v N | aC B X X X X X X X X X X X X X X G v N | ||
Line 3,464: | Line 2,290: | ||
L - | L - | ||
O - | O - | ||
O $#S. 3 l l 2 2 l 0 1 0 0 0 0 C 7 l l 1 1 l 1 1 1 6 1 1 1 4 - | O $#S. 3 l l 2 2 l 0 1 0 0 0 0 C 7 l l 1 1 l 1 1 1 6 1 1 1 4 - | ||
T ET K | T ET K J | ||
J J | |||
J | J H | ||
G G | |||
J | H H | ||
A A | |||
J | A D | ||
N E | |||
J | |||
H | |||
G | |||
G | |||
H | |||
H | |||
A | |||
A | |||
A | |||
D | |||
N E | |||
N E 3 3 3 3 3 3 3 3 3 3 3 3 3 2 O | N E 3 3 3 3 3 3 3 3 3 3 3 3 3 2 O | ||
P M | P M | ||
Line 3,516: | Line 2,319: | ||
a | a | ||
8 S 2 P 6 M v U P | |||
8 S 2 P 6 M | |||
v U P | |||
f e o R E C | f e o R E C | ||
I 6 | I 6 | ||
s V R | s V R | ||
_ k E r S e a N g m I e | _ k E r S e a N g m I e | ||
Line 3,552: | Line 2,351: | ||
5 4 3 2 2 4 | 5 4 3 2 2 4 | ||
2 2 OW t v 1 3 3 3 2 3 l 9 1 l s l C C C C C C C C C C y a C C C C C C C C C C S V 9 | 2 2 OW t v 1 3 3 3 2 3 l 9 1 l s l C C C C C C C C C C y a C C C C C C C C C C S V 9 | ||
n U1u | n U1u | ||
Line 3,558: | Line 2,356: | ||
6 2 | 6 2 | ||
2 . | 2 . | ||
v f e o R | v f e o R 1 s T k S r E a a T g m e W a R O P L F | ||
1 s T k S r E a a T g m e W a R O P L F | |||
E S | E S | ||
R E | R E | ||
V A E 0 R 4 | V A E 0 R 4 | ||
1 0 | 1 0 78$ Ey 0 0 0 0 0 0 0 1 1 1 1 1 3 3 O . | ||
78$ Ey 0 0 0 0 0 0 0 1 1 1 1 1 3 3 O . | |||
$8d | $8d | ||
* N o N D5 y T QQQ QQQ Q9Q QQQ R QQQ QQQ QQQ I g Ny N n U i E $ | * N o N D5 y T QQQ QQQ Q9Q QQQ R QQQ QQQ QQQ I g Ny N n U i E $ | ||
Line 3,575: | Line 2,369: | ||
O T eS. j P P P P - P L L PS E . | O T eS. j P P P P - P L L PS E . | ||
.. j O O O O - O C C RT A | .. j O O O O - O C C RT A | ||
Ey O O O O A O O O EE A A A A S A A A LV u3 M CL UV A Ey A A L L K A L L N D D G G C G G G y | Ey O O O O A O O O EE A A A A S A A A LV u3 M CL UV A Ey A A L L K A L L N D D G G C G G G y | ||
E S | E S | ||
S _8 E J. | S _8 E J. | ||
E O$ 3 3 3 3 2 2 1 1 B | E O$ 3 3 3 3 2 2 1 1 B | ||
S S 8 | S S 8 | ||
I L $ | I L $ | ||
Line 3,611: | Line 2,403: | ||
y a R R R R R R S S S V i | y a R R R R R R S S S V i | ||
i Hy$ 1 | i Hy$ 1 | ||
6 2 | 6 2 | ||
2 | 2 v | ||
f e o R s | |||
v | 2_ k r | ||
f e o R | |||
a a g m e | a a g m e | ||
a R P | a R P | ||
A 0 | |||
4 0 | 4 0 | ||
^ @5 eey 0 0 1 1 | ^ @5 eey 0 0 1 1 | ||
$8d s@ | $8d s@ | ||
o &@$ay N QQQ QQQ g amy n | o &@$ay N QQQ QQQ g amy n | ||
Line 3,633: | Line 2,418: | ||
M D @O@oy A | M D @O@oy A | ||
. R cn8 , | . R cn8 , | ||
_ G | _ G O $8* Te@ | ||
O $8* Te@ | |||
R umy SFT SFT P | R umy SFT SFT P | ||
T eS.dmj S P P E s*Ej O O T | T eS.dmj S P P E s*Ej O O T | ||
E omp O O V u35ay A A L | E omp O O V u35ay A A L | ||
A oay | A oay V A A s~y D D | ||
V A A s~y D D | |||
_8f a5 ony 3 3 S | _8f a5 ony 3 3 S | ||
L I | L I | ||
Line 3,650: | Line 2,430: | ||
E T e . C S vt Y l a S aC B X X T | E T e . C S vt Y l a S aC B X X T | ||
v N A A | v N A A | ||
L O $%S. 3gd 0 0 O 1 1 C ETn$ D | L O $%S. 3gd 0 0 O 1 1 C ETn$ D D | ||
D | |||
R. | R. | ||
O T | O T | ||
Line 3,663: | Line 2,440: | ||
O yI N | O yI N | ||
6 2 | 6 2 | ||
8 . | 8 . | ||
v f e o R | v f e o R s | ||
1~ k r | |||
e a g m e | e a g m e | ||
a R P | a R P | ||
1 4 | 1 4 | ||
0 1' ^ 8$ sy 0 3 | 0 1' ^ 8$ sy 0 3 | ||
$8g - | $8g - | ||
O o N N @5l$ R R R R QQ R R R Q R R Q R Q Q Q T~ g $ | O o N N @5l$ R R R R QQ R R R Q R R Q R Q Q Q T~ g $ | ||
I~ n N | I~ n N | ||
Line 3,685: | Line 2,458: | ||
WS OE PT eSH$ | WS OE PT eSH$ | ||
~ | ~ | ||
O O L L | O O L L O | ||
L O | |||
L O | |||
O L | L O | ||
L O | |||
L L | |||
O | C O | ||
L O | |||
L D | |||
I l | |||
RE h A A A A A A A A A A A O A A A A AV uf,!M MM S M S M S N S M M M M M M S - | |||
EL LA h CV U A L K A K A K A K A A A A A L K N 2$ G G C G C G C G C G G G G G G C E _ E1t1 S 3 3 S 8$ 3 3 3 3 3 3 1 1 1 1 1 1 1 3 E | |||
O | |||
L | |||
O | |||
l | |||
RE h A A A A A A A A A A A O A A A A | |||
AV uf,!M MM S M S M S N S M M M M M M S - | |||
EL | |||
LA h CV U A L K A K A K A K A A A A A L K N 2$ G G C G C G C G C G G G G G G C E _ E1t1 S 3 3 S 8$ 3 3 3 3 3 3 1 1 1 1 1 1 1 3 E | |||
B S | B S | ||
- 1$ X X X X X X X X X X I | - 1$ X X X X X X X X X X I | ||
Line 3,724: | Line 2,478: | ||
3 T 2 2 3 3 3 3 4 4 4 4 4 4 5 2 2 A | 3 T 2 2 3 3 3 3 4 4 4 4 4 4 5 2 2 A | ||
W E1$ - | W E1$ - | ||
K K K | |||
K K- K K | |||
K K | K K | ||
K- K K | |||
K J | |||
J J | |||
K | |||
K | |||
K | |||
J | |||
J | |||
J | |||
E 3 C iC 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 I - | E 3 C iC 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 I - | ||
V R | V R | ||
Line 3,761: | Line 2,495: | ||
1 1 6 | 1 1 6 | ||
6 2 | 6 2 | ||
8 - v | 8 - v f e o R s | ||
2 k r | |||
f e o R | |||
a a g m e | a a g m e | ||
c R P | c R P | ||
Line 3,782: | Line 2,512: | ||
OT e S. 2 PS D - O O O - O - O O O - O - O O O E sbj I - L L L - L - L L L - L - L L L RT A *h EE A A A A A A A A A A A A A A A A A LV y3 M M S M M M S M S M M M S M S M M M CL UA NV *h A K A A L K A K A A L K A K A A L E y G C G G G C G C G G G C G C G G G S | OT e S. 2 PS D - O O O - O - O O O - O - O O O E sbj I - L L L - L - L L L - L - L L L RT A *h EE A A A A A A A A A A A A A A A A A LV y3 M M S M M M S M S M M M S M S M M M CL UA NV *h A K A A L K A K A A L K A K A A L E y G C G G G C G C G G G C G C G G G S | ||
S E | S E | ||
_E U B 8$ 3 3 3 3 3 3 3 3 3 2 2 2 2 2 2 3 3 | _E U B 8$ 3 3 3 3 3 3 3 3 3 2 2 2 2 2 2 3 3 S | ||
I y $ | |||
V X X X X X X x X X X X X A | V X X X X X X x X X X X X A | ||
D D e . C X X X X X vt l a aC B X X X X X X X X X X X X V | D D e . C X X X X X vt l a aC B X X X X X X X X X X X X V | ||
Line 3,795: | Line 2,524: | ||
R E r S e b | R E r S e b | ||
m u | m u | ||
m N 8 S | m N 8 S e e 0 9 | ||
e e 0 9 | |||
0 0 | 0 0 | ||
1 O 3 | 1 O 3 | ||
Line 3,806: | Line 2,533: | ||
6 E E 2 B B 8 | 6 E E 2 B B 8 | ||
L L | L L L L v I I f e W W o R E E V V L L 3 s A A k V V r . . | ||
L L v I I f e W W o R E E | |||
V V L L 3 s A A k V V r . . | |||
o SR SR g | o SR SR g | ||
a F | a F | ||
Line 3,830: | Line 2,553: | ||
E _ | E _ | ||
B X X X X | B X X X X | ||
*1$ X X X X - | *1$ X X X X - | ||
S I | S I | ||
Line 3,841: | Line 2,562: | ||
aC B X X X V | aC B X X X V | ||
A - | A - | ||
3 3 3 3 1 3 3 5 5 3 4 4 4 4 7 3 - | 3 3 3 3 1 3 3 5 5 3 4 4 4 4 7 3 - | ||
R E | R E | ||
T S#S.P$E G | T S#S.P$E G G | ||
G G | |||
G | G F | ||
F F | |||
G | F E | ||
E E | |||
G | E E | ||
G | |||
F | |||
F | |||
F | |||
F | |||
E | |||
E | |||
E | |||
E | |||
E | |||
E E l | E E l | ||
A - | A - | ||
W 3 3 3 3 3 iC 3 3 3 3 3 3 3 3 3 3 3 E | W 3 3 3 3 3 iC 3 3 3 3 3 3 3 3 3 3 3 E | ||
C I | C I | ||
Line 3,892: | Line 2,585: | ||
6 2 | 6 2 | ||
8 v | 8 v | ||
f e o R s | f e o R s | ||
Line 3,899: | Line 2,591: | ||
a R P | a R P | ||
1 1 4 | 1 1 4 | ||
0 O ^ 85 Ey N $8g ' | 0 O ^ 85 Ey N $8g ' | ||
0 6 | 0 6 | ||
0 6 | 0 6 | ||
0 6 | 0 6 | ||
T o I N D@ $ R R R R N QQ QQ QQ R R R R R R R R U g $$ | T o I N D@ $ R R R R N QQ QQ QQ R R R R R R R R U g $$ | ||
N n O | N n O | ||
Line 3,911: | Line 2,601: | ||
T a r | T a r | ||
AM D | AM D | ||
@0 5 TA SR $0 RG O Eg$ | @0 5 TA SR $0 RG O Eg$ | ||
ER $ L L L L L L L L ST ST ST L L L L W M$ | ER $ L L L L L L L L ST ST ST L L L L W M$ | ||
Line 3,934: | Line 2,623: | ||
., @ U B | ., @ U B | ||
- 0$ 8 8 8 6 6 6 6 6 6 6 6 6 6 6 6 S . | - 0$ 8 8 8 6 6 6 6 6 6 6 6 6 6 6 6 S . | ||
I V y $ | I V y $ | ||
A X X X X X X X X X X X X D | A X X X X X X X X X X X X D | ||
D - | D - | ||
e . C _ | e . C _ | ||
vt | vt | ||
. l a aC B X X X X X X X X X X X X X X X - | . l a aC B X X X X X X X X X X X X X X X - | ||
v _ | v _ | ||
A . | A . | ||
R - | R - | ||
E E#S. 0 3 1 1 3 4 3 4 5 6 5 6 T 3 5 7 3 . | E E#S. 0 3 1 1 3 4 3 4 5 6 5 6 T 3 5 7 3 . | ||
A E $ - - - - - - | A E $ - - - - - - | ||
D | D D | ||
D C | |||
D | C D | ||
D C | |||
D | D W E E E D C C - | ||
E 3 3 3 3 3 3 3 C | |||
C | I C 2 2 2 3 3 3 3 3 _ | ||
C | |||
D | |||
D | |||
C | |||
D | |||
W E E E D C C - | |||
E 3 3 3 3 3 3 3 | |||
C 2 2 2 3 3 3 3 3 _ | |||
V | V | ||
'R E r S e b | 'R E r S e b | ||
Line 3,986: | Line 2,648: | ||
3 6 | 3 6 | ||
3 6 | 3 6 | ||
3 4 5 7 6 0 8 1 9 4 2 5 3 | 3 4 5 7 6 0 8 1 9 4 2 5 3 t v 1 1 1 6 6 6 6 7 6 7 6 7 7 7 7 _ | ||
t v 1 1 1 6 6 6 6 7 6 7 6 7 7 7 7 | |||
_ | |||
s l W W W W. W W W W W W W W W W S | s l W W W W. W W W W W W W W W W S | ||
W S | W S | ||
y a S S S S S S S S S S S S S _ | y a S S S S S S S S S S S S S _ | ||
S V s | S V s | ||
6 2 | 6 2 | ||
a . | a . | ||
v f e o R | v f e o R s T T T ~T T T s k S S S S S S r E E E E E E o a T T T T T T g m e W W W W W W e R O O L | ||
s T T T ~T T T s k S S S S S S r E E E E E E o a T T T T T T g m e W W W W W W e R O O L | |||
O L | O L | ||
O L | O L | ||
Line 4,018: | Line 2,670: | ||
I IM D TA | I IM D TA | ||
@ti5 4 AR e0 2 : | @ti5 4 AR e0 2 : | ||
TG SO $$i$ | TG SO $$i$ | ||
R SFT P S P S S S S S S S P P P RP s$ | R SFT P S P S S S S S S S P P P RP s$ | ||
Line 4,033: | Line 2,684: | ||
0 2 | 0 2 | ||
0 2 | 0 2 | ||
B | B S 1$ | ||
S 1$ | |||
I X X X X X V | I X X X X X V | ||
A - | A - | ||
D D | D D | ||
e . C X X X X X X X X - | e . C X X X X X X X X - | ||
vt - | vt - | ||
l a aC B X X X X X X _ | l a aC B X X X X X X _ | ||
v _ | v _ | ||
A _ | A _ | ||
R - | R - | ||
E E#S. 2 T 1 1 3 5 6 7 7 7 7 9 8 7 8 9 A | E E#S. 2 T 1 1 3 5 6 7 7 7 7 9 8 7 8 9 A | ||
W E1$ B | W E1$ B B | ||
B B | |||
B | B B | ||
B B | |||
B | B A | ||
B B | |||
B | B B | ||
E C iC 2 3 3 3 3 3 3 3 3 3 3 3 3 3 I | |||
B | |||
B | |||
B | |||
B | |||
B | |||
A | |||
B | |||
B | |||
B | |||
B | |||
E C iC 2 3 3 3 3 3 3 3 3 3 3 3 3 3 I | |||
V R | V R | ||
E r S e b | E r S e b | ||
Line 4,098: | Line 2,722: | ||
S S 5 | S S 5 | ||
f S S S S S S S S S S S V K | f S S S S S S S S S S S V K | ||
s w | s w | ||
6 8 2 | 6 8 2 v | ||
f e o R s | |||
6 k r | |||
o a g m e | o a g m e | ||
a R P | a R P | ||
Line 4,112: | Line 2,732: | ||
1 0 | 1 0 | ||
^ 85 jg 0 | ^ 85 jg 0 | ||
. 0 0 0 6 O $8g - 3 3 3 N o | . 0 0 0 6 O $8g - 3 3 3 N o T N B'5i$ QQQ QQQ R R R R R QQ R R R QQQ I g t$ | ||
T N B'5i$ QQQ QQQ R R R R R QQ R R R QQQ I g t$ | |||
N n U i E O | N n U i E O | ||
N w a | N w a | ||
Line 4,121: | Line 2,739: | ||
AA a0 TR ! | AA a0 TR ! | ||
SG O | SG O | ||
$gw1$ L L RR SFT SFT SFT P P L L L ST L EP v$ | $gw1$ L L RR SFT SFT SFT P P L L L ST L EP v$ | ||
W OT S PS E eSHj | W OT S PS E eSHj | ||
Line 4,138: | Line 2,755: | ||
O L | O L | ||
RT A h EE O O O A A A A A O A A A LV u33M A A A M M M M M M M M M CL _ | RT A h EE O O O A A A A A O A A A LV u33M A A A M M M M M M M M M CL _ | ||
UA NV h F F F F F A A L F L A A 3y B B B B B G G G B G G G _ | |||
UA | |||
NV h F F F | |||
F F A A L F L A A | |||
3y B B B B B G G G B G G G _ | |||
E S , | E S , | ||
S _01t ! | S _01t ! | ||
6 6 6 0 0 5 5 5 0 | 6 6 6 0 0 5 5 5 0 | ||
5 5 5 . | 5 5 5 . | ||
E $ 1 1 1 2 2 1 1 1 2 1 1 1 B | E $ 1 1 1 2 2 1 1 1 2 1 1 1 B | ||
S I 1$ X X X X X X X X V | S I 1$ X X X X X X X X V | ||
A D D _ | A D D _ | ||
e . C vt l a X B X X X X X X X X X X X aC v _ | e . C vt l a X B X X X X X X X X X X X aC v _ | ||
A E#d2h , | A E#d2h , | ||
l 0 R 7 8 9 7 9 9 8 8 l 9 8 1 E | l 0 R 7 8 9 7 9 9 8 8 l 9 8 1 E | ||
T E1$ C | T E1$ C C | ||
C E | |||
C | F F | ||
F F | |||
C | F G | ||
G A | |||
W 3 3 3 3 3 3 3 3 3 3 3 3 E | |||
E | |||
F | |||
F | |||
F | |||
F | |||
F | |||
G | |||
G | |||
i$ | i$ | ||
C I | C I | ||
V r _ | V r _ | ||
R e _ | R e _ | ||
E b _ | E b _ | ||
S m _ | S m _ | ||
u 4 5 m N 4 2 | |||
u 4 5 | 9 2 3 1 5 5 9 2 7 3 e e 4 4 4 4 5 3 3 3 3 3 3 3 t v 1 1 1 3 3 1 1 1 1 1 1 1 s l W W W* W W W W W W W W W _ | ||
m N 4 2 | |||
9 2 3 1 5 5 9 2 7 3 | |||
e e 4 4 4 4 5 3 3 3 3 3 3 3 | |||
t v 1 1 1 3 3 1 1 1 1 1 1 1 s l W W W* W W W W W W W W W _ | |||
y a S S S S S S S S S S S S _. | y a S S S S S S S S S S S S _. | ||
S V - | S V - | ||
n _ | n _ | ||
Hbw | Hbw | ||
~ ' ~ ~ DAVIS-BESSE NUCLEAR POWER STATION UN.IT_ NO._ ,1 PCga 7 of 8 VALVE TEST PROGRAM System SERVICE WATER Drawing No. 041 Rev. 26 a # 3^ | ~ ' ~ ~ DAVIS-BESSE NUCLEAR POWER STATION UN.IT_ NO._ ,1 PCga 7 of 8 VALVE TEST PROGRAM System SERVICE WATER Drawing No. 041 Rev. 26 a # 3^ | ||
Line 4,226: | Line 2,793: | ||
R R SW3963 3 G-9 X 6 RL SA -- | R R SW3963 3 G-9 X 6 RL SA -- | ||
R R SW20 3 H-6 X X 20 BF MA OP P R H | R R SW20 3 H-6 X X 20 BF MA OP P R H | ||
y SW21 3 H-ll X X 20 BF MA OP P R en | y SW21 3 H-ll X X 20 BF MA OP P R en SW17* 3 J-5 X 20 CK SA -- | ||
S Q SW19* 3 J-G X 20 CK SA -- | S Q SW19* 3 J-G X 20 CK SA -- | ||
S Q SW18* 3 J-11 X 20 CK SA -- | S Q SW18* 3 J-11 X 20 CK SA -- | ||
S Q SW1357 2 B-5 X 8 BL AO OP S Q F Q T Q 120 | S Q SW1357 2 B-5 X 8 BL AO OP S Q F Q T Q 120 SW1358 2 B-3 X 8' BL AO OP S Q F Q | ||
SW1358 2 B-3 X 8' BL AO OP S Q | |||
F Q | |||
; T Q 120 | ; T Q 120 | ||
;"ONE PUMP IS AN INSTALLED SPARE AND NOT TESTED QUARTERLY. | ;"ONE PUMP IS AN INSTALLED SPARE AND NOT TESTED QUARTERLY. | ||
Line 4,240: | Line 2,802: | ||
TWO PUMPS ARE IN SERVICE DURING NOR!!AL OPERATION AND ONLY THE CHECK VALVE ASSOCIATED WITl! Ti!E OPERATING PUMPS.WILL BE TESTED. | TWO PUMPS ARE IN SERVICE DURING NOR!!AL OPERATION AND ONLY THE CHECK VALVE ASSOCIATED WITl! Ti!E OPERATING PUMPS.WILL BE TESTED. | ||
a - | a - | ||
I oc m Dt O N w w n | |||
I | |||
oc | |||
m Dt O N w w n | |||
> g | > g | ||
? | ? | ||
Line 4,258: | Line 2,813: | ||
6 y ycneuqerF h # tseT C - gnitseT O y etanretlA H N ~ | 6 y ycneuqerF h # tseT C - gnitseT O y etanretlA H N ~ | ||
J* O noitpecxE j edoC _ | J* O noitpecxE j edoC _ | ||
MO | MO O tnemeriuqeR WN M M MN m | ||
tseT M | |||
noitisoP g g N 3> | |||
O tnemeriuqeR WN M M MN m | |||
tseT | |||
lamroN | lamroN | ||
$M epyT g g h< rotautcA y epyT evlaV g o M | $M epyT g g h< rotautcA y epyT evlaV g o M | ||
m m )sehcnI( nt, su, | m m )sehcnI( nt, su, | ||
@ eziS P P i | @ eziS P P i | ||
3v evissaP * | 3v evissaP * | ||
* D D n | |||
D D n | gp" ot x x N setanidrooC * | ||
gp" ot x x | |||
N setanidrooC * | |||
* gniwarD i i ssalC w w O | * gniwarD i i ssalC w w O | ||
H a - | H a - | ||
Line 4,283: | Line 2,828: | ||
B * | B * | ||
"m & n"n b | "m & n"n b | ||
$ k - | $ k - | ||
m k | m k | ||
D. CODE EXCEPTIONS | D. CODE EXCEPTIONS | ||
_ This section provides justification for the exceptions taken to code test requirements as provided for in 10 CFR 50.55a(g) (5) (iii) . | _ This section provides justification for the exceptions taken to code test requirements as provided for in 10 CFR 50.55a(g) (5) (iii) . | ||
Line 4,300: | Line 2,843: | ||
e Basis for Exception: For valves *ith stroke times less than 10 seconds - this would require measuring stroke times to within a fraction of a second. | e Basis for Exception: For valves *ith stroke times less than 10 seconds - this would require measuring stroke times to within a fraction of a second. | ||
l Velve timing is performed using a stop watch either ' | l Velve timing is performed using a stop watch either ' | ||
by directly observing valve movement or by observing remote position indicators. Neither method can be relied upon to yield results with accuracy of less | by directly observing valve movement or by observing remote position indicators. Neither method can be relied upon to yield results with accuracy of less than a second. l l | ||
e Alternate Testing: The stroke tina of all power-operated valves shall be measured to the nearest second. | e Alternate Testing: The stroke tina of all power-operated valves shall be measured to the nearest second. | ||
l l | l l | ||
l II-57 4 | l II-57 4 | ||
: b. Code Exception Number G-2 o Components: All safety related power operated valves. | |||
: b. Code Exception Number G-2 | |||
o Components: All safety related power operated valves. | |||
e Function: Power operated valve timing requirements. | e Function: Power operated valve timing requirements. | ||
e Class: All e . Test Requirements: Section XI, IWV-3413 (c) | e Class: All e . Test Requirements: Section XI, IWV-3413 (c) | ||
"If an increase in stroke time of 25% or more from the previous test for valves with stroke time greater than 10 seconds, or 50% or more for valves. with stroke times less than or equal to 10 seconds, is observed, test frequency shall be increased to once each month until corrective action is taken, at which time the original test frequency shall be resumed." | "If an increase in stroke time of 25% or more from the previous test for valves with stroke time greater than 10 seconds, or 50% or more for valves. with stroke times less than or equal to 10 seconds, is observed, test frequency shall be increased to once each month until corrective action is taken, at which time the original test frequency shall be resumed." | ||
___ e Basis for Exception: Operating experience has indicated that individual valve timing is influenced by many factors such as changes 3' temperature, humidity, fluxuation in power source, limit switch adjustment, etc. Because of these outside factors timing data can exhibit scatter which exceeds the Code criteria but which is still less,than the maximum full stroke time. Lacking in the Code requirements is any provision for verifying test results prior to placing the valve on an accelerated test frequency. | ___ e Basis for Exception: Operating experience has indicated that individual valve timing is influenced by many factors such as changes 3' temperature, humidity, fluxuation in power source, limit switch adjustment, etc. Because of these outside factors timing data can exhibit scatter which exceeds the Code criteria but which is still less,than the maximum full stroke time. Lacking in the Code requirements is any provision for verifying test results prior to placing the valve on an accelerated test frequency. | ||
The present Code does not require any action for valves whose stroke time suddenly decreases a signi-ficant amount. Any marked decrease outside the nor-mal band of stroke times could indicate a major mechanical problem, such as the power operator being disconnected from the valve. Any significant decrease in stroke time should be investigated to determine if the valve and power actuator are capable of performing their function. | The present Code does not require any action for valves whose stroke time suddenly decreases a signi-ficant amount. Any marked decrease outside the nor-mal band of stroke times could indicate a major mechanical problem, such as the power operator being disconnected from the valve. Any significant decrease in stroke time should be investigated to determine if the valve and power actuator are capable of performing their function. | ||
e Alternate Testing: Maximum full stroke times shall be established for each valve based upon required valve response time to assure adequate system re-sponse for safety related functions. Valve test | e Alternate Testing: Maximum full stroke times shall be established for each valve based upon required valve response time to assure adequate system re-sponse for safety related functions. Valve test | ||
, times will be acceptable if less than the maximum allowed. If test time exceeds the maximum allowed, the valve will be immediately retested and corrective action taken as appropriate. Any significant de-crease in valve test time will immediately be inves-tigated and appropriate corrective action taken. | , times will be acceptable if less than the maximum allowed. If test time exceeds the maximum allowed, the valve will be immediately retested and corrective action taken as appropriate. Any significant de-crease in valve test time will immediately be inves-tigated and appropriate corrective action taken. | ||
II-58 | II-58 | ||
: 2. Specific Code Exceptions | : 2. Specific Code Exceptions | ||
: a. Code Exception Number 1 , | : a. Code Exception Number 1 , | ||
o Components: MS100, MS101, o Function: Main Steam Isolation Valve, o Class: 2 e Test Requirements: Quarterly stroking. | o Components: MS100, MS101, o Function: Main Steam Isolation Valve, o Class: 2 e Test Requirements: Quarterly stroking. | ||
Line 4,336: | Line 2,862: | ||
e Alternate Testing: Valve will be full stroke tested during cold shutdown. Partial stroking during normal operation is not possible because | e Alternate Testing: Valve will be full stroke tested during cold shutdown. Partial stroking during normal operation is not possible because | ||
- partial stroking can only be performed locally at _ | - partial stroking can only be performed locally at _ | ||
the valve. If valve was to inadvertently fail close during test,.the main steam reliefs would | the valve. If valve was to inadvertently fail close during test,.the main steam reliefs would lift. The local test station is located in the | ||
. area which fills with steam from the main steam reliefs. Entry into area is strictly controlled during operation. No remote partial stroke capability is available, | . area which fills with steam from the main steam reliefs. Entry into area is strictly controlled during operation. No remote partial stroke capability is available, | ||
: b. Code Exception Number 2 e Components: SW3, SW4 e Function: Service water check valve to auxiliary , | : b. Code Exception Number 2 e Components: SW3, SW4 e Function: Service water check valve to auxiliary , | ||
feedwater pump suction. | feedwater pump suction. | ||
e Class: 3 e Test Requirements: Forward Flow Stroking. | e Class: 3 e Test Requirements: Forward Flow Stroking. | ||
Line 4,347: | Line 2,871: | ||
l II-59 e | l II-59 e | ||
e. | e. | ||
: c. Code Exception Number 3 e Components: AF5'99, AF608. | : c. Code Exception Number 3 e Components: AF5'99, AF608. | ||
e Function: Auxiliary feedwater isolation valve to the steam generator. | e Function: Auxiliary feedwater isolation valve to the steam generator. | ||
Line 4,356: | Line 2,878: | ||
e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial - | e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial - | ||
stroke testing during normal operation. | stroke testing during normal operation. | ||
: d. Code Exception Number 4 e Components: AF39, AF43, AF72, AF73, AF74, AF75 e Function: Auxiliary feedwater check valves to the steam generators e Class: 3 e Test Requirements: Quarterly forward flow stroking. | : d. Code Exception Number 4 e Components: AF39, AF43, AF72, AF73, AF74, AF75 e Function: Auxiliary feedwater check valves to the steam generators e Class: 3 e Test Requirements: Quarterly forward flow stroking. | ||
e Basis for Exception: Cycling valve would require injection of auxiliary feedwater into the steam generator, which would thermal shock the auxiliary feedwater nozzles. | e Basis for Exception: Cycling valve would require injection of auxiliary feedwater into the steam generator, which would thermal shock the auxiliary feedwater nozzles. | ||
Line 4,364: | Line 2,885: | ||
II-60 g | II-60 g | ||
4 | 4 e Class: 2 e Test Requirements: Quarterly stroking. | ||
e Class: 2 | |||
e Test Requirements: Quarterly stroking. | |||
\ | \ | ||
e Basis for Exception: Cycling valve during normal operation would cause loss of main feedwater to steam generator, which would cause reactor trip. | e Basis for Exception: Cycling valve during normal operation would cause loss of main feedwater to steam generator, which would cause reactor trip. | ||
e Alternate Testing: Valve will be full stroke | e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial stroke testing during normal operation. | ||
tested at cold shutdown. Valve design precludes partial stroke testing during normal operation. | |||
: f. Code Exception Number 6 e Components: IA501 e Function: Instrument air to containment isolation check valve. | : f. Code Exception Number 6 e Components: IA501 e Function: Instrument air to containment isolation check valve. | ||
e Class: 2 | e Class: 2 e Test Requirements: Quarterly reverse flow stroking, o Basis for Exception: To verify reverse flow closure requires entry into the containment. Entry into the containment during power operation is generally precluded by plant operating procedure. Entry during power operation is strictly controlled and i limited to entry only when absolutely necessary. | ||
e Test Requirements: Quarterly reverse flow stroking, o Basis for Exception: To verify reverse flow closure requires entry into the containment. Entry into the containment during power operation is generally precluded by plant operating procedure. Entry | |||
during power operation is strictly controlled and i limited to entry only when absolutely necessary. | |||
(As per Special Order Number 84-4, Revision 4, dated January 8, 1979.) | (As per Special Order Number 84-4, Revision 4, dated January 8, 1979.) | ||
e Alternate Testing: Valve will be full stroke tested at cold shutdown. System operation precludes partial stroke testing during normal operation. | e Alternate Testing: Valve will be full stroke tested at cold shutdown. System operation precludes partial stroke testing during normal operation. | ||
Line 4,388: | Line 2,899: | ||
II-61 c | II-61 c | ||
4 e Alternate Testing: Valve will be full stroke tested at refueling when the system can be iso-lated without endangering plant personnel. . | 4 e Alternate Testing: Valve will be full stroke tested at refueling when the system can be iso-lated without endangering plant personnel. . | ||
Valve design (SA2010) and system operation (SA502) preclude partial stroking during normal operation. | Valve design (SA2010) and system operation (SA502) preclude partial stroking during normal operation. | ||
Line 4,396: | Line 2,905: | ||
CV210 e Function: Hydrogen dilution air to containment check valves. | CV210 e Function: Hydrogen dilution air to containment check valves. | ||
I e Class: 2 and 3 e Test Requirements: Quarterly forward flow stroking. | I e Class: 2 and 3 e Test Requirements: Quarterly forward flow stroking. | ||
e Basis for Exception: Cycling can only be performed by injecting air from the hydrogen dilution blowers into the containment. This air must be purged from the containment to the environment. '.s air must be purged from the containment to the environment. | |||
e Basis for Exception: Cycling can only be performed by injecting air from the hydrogen dilution blowers into the containment. This air must be purged from | |||
the containment to the environment. '.s air must be purged from the containment to the environment. | |||
Purge time is limited to 90 hours per year during normal operation. Testing could cause excecsive purging with resulting increase in releases to the environment. | Purge time is limited to 90 hours per year during normal operation. Testing could cause excecsive purging with resulting increase in releases to the environment. | ||
e Alternate Testing: Valve will be cycled at cold shutdown. No partial stroking is possible during normal operation without injecting air into the containment. | e Alternate Testing: Valve will be cycled at cold shutdown. No partial stroking is possible during normal operation without injecting air into the containment. | ||
Line 4,409: | Line 2,915: | ||
(As per Special Order No. 84-4, Ret'sion 4, dated January 8, 1979). | (As per Special Order No. 84-4, Ret'sion 4, dated January 8, 1979). | ||
II-62 y | II-62 y | ||
e Alternate Testing: Valve will be verified for | e Alternate Testing: Valve will be verified for freedom of valve movement at cold shutdown. Valve design precludes partial stroking during normal operation.. | ||
freedom of valve movement at cold shutdown. Valve design precludes partial stroking during normal operation.. | |||
: j. Code Exception Number 10 e Components: CV124, CV125 o Function: Containment gas analyzer isolation check valve, e Class: 2 e Test Requirements: Quarterly reverse flow stroking. | : j. Code Exception Number 10 e Components: CV124, CV125 o Function: Containment gas analyzer isolation check valve, e Class: 2 e Test Requirements: Quarterly reverse flow stroking. | ||
e Basis for Exception: To verify reverse flow closure requires entry into the containment. Entry into the containment during norn'l operation is generally pre-cluded by plant operating procedure. Entry during power operation is strictly controlled and limited to entry only when absolutely necessary. (As per Special Order Number 84-4, Revision 4, dated January 8,1979) . | |||
e Basis for Exception: To verify reverse flow closure requires entry into the containment. Entry into the containment during norn'l operation is generally pre-cluded by plant operating procedure. Entry during power operation is strictly controlled and limited to | |||
entry only when absolutely necessary. (As per Special Order Number 84-4, Revision 4, dated January 8,1979) . | |||
e Alternate Testing: Valve will be full stroke tested at cold shutdown. System operation precludes partial stroke testing during normal operation. | e Alternate Testing: Valve will be full stroke tested at cold shutdown. System operation precludes partial stroke testing during normal operation. | ||
: k. Code Exception Number 11 - | : k. Code Exception Number 11 - | ||
Line 4,424: | Line 2,924: | ||
e Class: 1 e Basis for Exception: Failure of valve in the closed position would result in loss of reactor coolant system pressure control, which is required during normal operation. | e Class: 1 e Basis for Exception: Failure of valve in the closed position would result in loss of reactor coolant system pressure control, which is required during normal operation. | ||
e Alternate Testing: Valve will be full stroke tested during cold shutuown. Valve design precludes partial stroke testing during normal operation. | e Alternate Testing: Valve will be full stroke tested during cold shutuown. Valve design precludes partial stroke testing during normal operation. | ||
II-63 | II-63 | ||
: 1. Code Exception Niunber 12 o Components: RC2A , | : 1. Code Exception Niunber 12 o Components: RC2A , | ||
e Function: Pressurizer pressure control valve e Class: 1 e Test Requirements: Quarterly stroking and timing. | e Function: Pressurizer pressure control valve e Class: 1 e Test Requirements: Quarterly stroking and timing. | ||
Line 4,443: | Line 2,938: | ||
1 when makeup water is not required. Valve design pre- ! | 1 when makeup water is not required. Valve design pre- ! | ||
cludes partial stroking during normal operation. , | cludes partial stroking during normal operation. , | ||
l | l II-64 e | ||
II-64 e | |||
: n. Code Exception Number 14 o Components: MU242," MU243, MU244, MU245 o Function: Reactor coolant pump seal water check valve. | : n. Code Exception Number 14 o Components: MU242," MU243, MU244, MU245 o Function: Reactor coolant pump seal water check valve. | ||
e Class: 2 | e Class: 2 o Test Requirements: Quarterly reverse flow stroking e Basis for Exception: Reverse flow cycling during normal operation or cold shutdown would require stopping reactor coolant pump seal cooling water flow. This would damage reactor coolant pump _ , | ||
o Test Requirements: Quarterly reverse flow stroking e Basis for Exception: Reverse flow cycling during normal operation or cold shutdown would require stopping reactor coolant pump seal cooling water flow. This would damage reactor coolant pump _ , | |||
seals and is not permitted by plant proced rc. | seals and is not permitted by plant proced rc. | ||
e Alternate Testing: Reverse flow stroking will be cycled at refueling. System operation precludes partial stroke testing during normal operation. | e Alternate Testing: Reverse flow stroking will be cycled at refueling. System operation precludes partial stroke testing during normal operation. | ||
~ | ~ | ||
: o. Code Exception'!Iumber 15 e Components: MU66A, MU66B, MU66C, MU66D, MU59A, MU59D, MU38 e Function: Reactor coolant pump seal water isola-tion valve e Class: 2 | : o. Code Exception'!Iumber 15 e Components: MU66A, MU66B, MU66C, MU66D, MU59A, MU59D, MU38 e Function: Reactor coolant pump seal water isola-tion valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation would stop reactor coolant pump seal cooling water flow. This would damage reactor coolant pump seals and is not permitted by plant operating procedure. | ||
e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation would stop reactor coolant pump seal cooling water flow. This would damage reactor coolant pump seals and is not permitted by plant operating procedure. | |||
e Alternate Testing: Valve will be cycled at re-fueling. Valve design precludes partial stroke testing during normal operation. | e Alternate Testing: Valve will be cycled at re-fueling. Valve design precludes partial stroke testing during normal operation. | ||
f s | f s | ||
Line 4,465: | Line 2,950: | ||
4 | 4 | ||
: p. Code Exception Number 16 e Components: DH9A, DH9B e Function: Containment emergency sump isolation valve. | : p. Code Exception Number 16 e Components: DH9A, DH9B e Function: Containment emergency sump isolation valve. | ||
i e Class: 2 e Test Requirements: Quarterly stroking , | i e Class: 2 e Test Requirements: Quarterly stroking , | ||
Line 4,471: | Line 2,955: | ||
, is interlocked with DH7A (DH7B) and can only be tested when the borated water storage tank can be isolated. | , is interlocked with DH7A (DH7B) and can only be tested when the borated water storage tank can be isolated. | ||
e Alternate Testing: Valve will be cycled at refueling when the borated water storage tank can be isolated. | e Alternate Testing: Valve will be cycled at refueling when the borated water storage tank can be isolated. | ||
valve can not be partial stroke tested during normal operation without injecting borated water into the containment emergency sump. | valve can not be partial stroke tested during normal operation without injecting borated water into the containment emergency sump. | ||
: q. Code Exception Number 17 e Components: CF28, CF29 | : q. Code Exception Number 17 e Components: CF28, CF29 e Function: Core flood tank isolation check valve e Class: 1 e Test Requirements: Quarterly forward flow stroking e Basis for Exception: Forward flow cycling can not be performed during normal operation or cold shutdown when the reactor coolant system is filled and pres-surized to pressure greater than that of the core flood tank. | ||
e Function: Core flood tank isolation check valve e Class: 1 e Test Requirements: Quarterly forward flow stroking e Basis for Exception: Forward flow cycling can not be performed during normal operation or cold shutdown when the reactor coolant system is filled and pres-surized to pressure greater than that of the core flood tank. | |||
e Alternate Testing: Valve will be tested at refueling when the contents of the core flood tank can be partially dumped into the reactor coolant system while monitoring core flood tank level. | e Alternate Testing: Valve will be tested at refueling when the contents of the core flood tank can be partially dumped into the reactor coolant system while monitoring core flood tank level. | ||
II-66 9 | II-66 9 | ||
l | l l | ||
: r. Code Exception Number 18 e Components: CF30, CF31, DII76, DH77 e Function: Low pressure injection check valve e class: 1 e Test Requirements: Quarterly forward stroking | |||
> e Basis for Exception: Forward flow cycling can only be performed by injecting water from the decay heat system into the reactor coolant system. This can only be done at cold shutdown when reactor coolant system pressure is low enough to permit e injection. | |||
l | |||
: r. Code Exception Number 18 e Components: CF30, CF31, DII76, DH77 | |||
> e Basis for Exception: Forward flow cycling can only be performed by injecting water from the decay | |||
heat system into the reactor coolant system. This can only be done at cold shutdown when reactor coolant system pressure is low enough to permit e injection. | |||
e Alternate Testing: Valve will be forward flow cycled at cold shutdown. System operation pra-cludes partial stroke testing during normal | e Alternate Testing: Valve will be forward flow cycled at cold shutdown. System operation pra-cludes partial stroke testing during normal | ||
_ operation when reactor coolant system pressure ~ | _ operation when reactor coolant system pressure ~ | ||
Line 4,495: | Line 2,969: | ||
e Class: 1 e Test Requirements: Quarterly forward flaw stroking e Basis for Exception: Valve can only be cycled by high pressure injection flow. High pressure injec-tion during normal operation or cold shutdown could introduce cold water into the significantly hotter reactor coolant system. This would thermal shock the high pressure injection nozzle. Additionally high pressure injection during cold shutdown could subject the reactor coolant system to pressures higher than allowed in the cold shutdown mode, e Alternate Testing: Valve will be forward flow cycled at refueling. System operation precludes partial stroke testing during normal operation. | e Class: 1 e Test Requirements: Quarterly forward flaw stroking e Basis for Exception: Valve can only be cycled by high pressure injection flow. High pressure injec-tion during normal operation or cold shutdown could introduce cold water into the significantly hotter reactor coolant system. This would thermal shock the high pressure injection nozzle. Additionally high pressure injection during cold shutdown could subject the reactor coolant system to pressures higher than allowed in the cold shutdown mode, e Alternate Testing: Valve will be forward flow cycled at refueling. System operation precludes partial stroke testing during normal operation. | ||
II-67 c | II-67 c | ||
: t. Code Exception Number 20 e Co,mponents: C.F15, CF16, RC113 e Function: Nitrogen supply to core flood tank isolation check valve e Class: 2 e Test Requirements: Quarterly reverse flow stroking e Basis for Exception: Verification of reverse flow ] | |||
: t. Code Exception Number 20 e Co,mponents: C.F15, CF16, RC113 e Function: Nitrogen supply to core flood tank isolation check valve | |||
e Class: 2 e Test Requirements: Quarterly reverse flow stroking e Basis for Exception: Verification of reverse flow ] | |||
stroking venting line downstream of valve. Venting line has the potential for release of airborne , | stroking venting line downstream of valve. Venting line has the potential for release of airborne , | ||
radionuclides, which could cause local inhalation dose problems. | radionuclides, which could cause local inhalation dose problems. | ||
* Alternate Testing: Valve will be reverse flow cycled at refueling. System operation precludes . | * Alternate Testing: Valve will be reverse flow cycled at refueling. System operation precludes . | ||
stroke testing during normal operation. | stroke testing during normal operation. | ||
: u. Code Exception Number 21 e Components: CCl411A, CCl411B, CCl407A, CC1407B e Function: Components cooling water isolation valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation or cold shutdown requires shutting off cooling water to the reactor coolant pumps, which would cause extensive damage to the pumps. | : u. Code Exception Number 21 e Components: CCl411A, CCl411B, CCl407A, CC1407B e Function: Components cooling water isolation valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation or cold shutdown requires shutting off cooling water to the reactor coolant pumps, which would cause extensive damage to the pumps. | ||
Cooling water to the reactor coolant pumps is re-quired except at refueling. | Cooling water to the reactor coolant pumps is re-quired except at refueling. | ||
e Alternate Testing: Valve will be full stroke tested at refueling. Valve design precludes partial stroke testing during normal operation. | e Alternate Testing: Valve will be full stroke tested at refueling. Valve design precludes partial stroke testing during normal operation. | ||
II-68 | II-68 | ||
: v. Code Exception Number 22 - | : v. Code Exception Number 22 - | ||
e Components: CC1460 - | |||
o Function: Component cooling water isolation valve e Class: 3 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation or cold shutdown requires shutting off cooling water to the makeup pump coolers which | o Function: Component cooling water isolation valve e Class: 3 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation or cold shutdown requires shutting off cooling water to the makeup pump coolers which could cause damage to the pumps. -Cooling water to the pumps can only be shut off during cold shutdown. | ||
could cause damage to the pumps. -Cooling water to the pumps can only be shut off during cold | |||
shutdown. | |||
e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial | e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial | ||
~ | ~ | ||
stroke testing' during normal operation. | stroke testing' during normal operation. | ||
: w. Code Exception Number 23 e Components: CC1567A, CC1567B e Function: Component cooling water isolation valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve would require shutting off cooling water to the control rod drives which can only be done when electrical power is re-moved from the control rod drives at refueling, e Alternate Testing: Valve will be full stroke tested at refueling. Valve design precludes partial stroke testing during normal operation. | : w. Code Exception Number 23 e Components: CC1567A, CC1567B e Function: Component cooling water isolation valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve would require shutting off cooling water to the control rod drives which can only be done when electrical power is re-moved from the control rod drives at refueling, e Alternate Testing: Valve will be full stroke tested at refueling. Valve design precludes partial stroke testing during normal operation. | ||
II-69 | II-69 | ||
_ .= | _ .= | ||
: x. Code Exception Number 24 . | : x. Code Exception Number 24 . | ||
e Components: SW57 e Function: Service water isolation check valve | e Components: SW57 e Function: Service water isolation check valve | ||
? | ? | ||
e Class: 3 , | e Class: 3 , | ||
e Test Requirements: Quarterly. reverse flow stroking e Basis for Exception: Reverse flow cycling requires stopping cooling water flow through the turbine plant cooling water heat exchangers which could result in extensive equipment damage. | |||
e Alternate Testing: Valve will be reverse flow cycled at refueling when cooling water is not required. System operation precludes partial | e Alternate Testing: Valve will be reverse flow cycled at refueling when cooling water is not required. System operation precludes partial stroke testing during normal operation. | ||
h II-70 | |||
stroke testing during normal operation | |||
h | |||
II-70 | |||
[ | [ | ||
VALVE TYPE ACTUATOR TYPE TEST FREQUENCY Code D,efinition Code Definition Code Definition AN Angle Valve AO Air Operator Q Quarterly BF Butterfly MA Manual Operator C Cold Shutdown BL Ball MO Motor Operator R Refueling , | VALVE TYPE ACTUATOR TYPE TEST FREQUENCY Code D,efinition Code Definition Code Definition AN Angle Valve AO Air Operator Q Quarterly BF Butterfly MA Manual Operator C Cold Shutdown BL Ball MO Motor Operator R Refueling , | ||
CK Check SA Self Actuated DA Diaphragm SO Solenoid Operator GA Gate HO Hydraulic Operator | CK Check SA Self Actuated DA Diaphragm SO Solenoid Operator GA Gate HO Hydraulic Operator | ||
' GL Globe , | ' GL Globe , | ||
Line 4,562: | Line 3,007: | ||
; | ; | ||
upon loss of actuator power. | upon loss of actuator power. | ||
~ ' | ~ ' | ||
T Valve stroke time to be measured. | T Valve stroke time to be measured. | ||
Line 4,571: | Line 3,015: | ||
Figure 1. Valve Test Program Codes t ra-m | Figure 1. Valve Test Program Codes t ra-m | ||
SECTION III WELD, SUPPORT, COMPONENT AND BOLTING INSPECTION PROGRAMS TABLE OF CONTENTS Page A. PROGRAM | |||
SECTION III WELD, SUPPORT, COMPONENT AND BOLTING INSPECTION PROGRAMS | |||
TABLE OF CONTENTS Page A. PROGRAM | |||
==SUMMARY== | ==SUMMARY== | ||
. . . . . . . . . . . . . . . . III-l B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES FORMAT . . . . . . . III-2 | . . . . . . . . . . . . . . . . III-l B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES FORMAT . . . . . . . III-2 C. WELD, SUPPORT AND BOLTING - | ||
INSPECTION PROGRAM TABLES . . . . . . . . . . . III-6 l | INSPECTION PROGRAM TABLES . . . . . . . . . . . III-6 l | ||
: 1. Weld and Support Inspection Program Tables. III-7 | : 1. Weld and Support Inspection Program Tables. III-7 | ||
Line 4,588: | Line 3,026: | ||
1 I | 1 I | ||
I | I | ||
III. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM A. PROGRAM | |||
III. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM | |||
A. PROGRAM | |||
==SUMMARY== | ==SUMMARY== | ||
The Weld, Support and Bolting Inspection Program identifies the nondestructive examination (tmE) requirements for all piping and component welds, supports and bolting within the boundaries of safety related systems, both thcae welds, supports and bolting examined in accordance with the requirements of Subsection IWE, IWC, or IWD, as appropriate, of the ASME Boiler and Pressure vessel Code, 1977 Edition and Addenda through Summer 1978 Addenda and those welds, supports and bolting for which the Code require-ments have been found to be impractical. The Weld, Support and 1olting Inspection Program will be applicable for the remainder of the 120-month interval, which started on June 27, 1977 after which the Program will be reviewed and updated, as appropriate, with the Edition of the Code and Addenda in effect not more than 12 months prior to the start of the next 120-month interval. All examinations shall be conducted in accordance with Inspection | The Weld, Support and Bolting Inspection Program identifies the nondestructive examination (tmE) requirements for all piping and component welds, supports and bolting within the boundaries of safety related systems, both thcae welds, supports and bolting examined in accordance with the requirements of Subsection IWE, IWC, or IWD, as appropriate, of the ASME Boiler and Pressure vessel Code, 1977 Edition and Addenda through Summer 1978 Addenda and those welds, supports and bolting for which the Code require-ments have been found to be impractical. The Weld, Support and 1olting Inspection Program will be applicable for the remainder of the 120-month interval, which started on June 27, 1977 after which the Program will be reviewed and updated, as appropriate, with the Edition of the Code and Addenda in effect not more than 12 months prior to the start of the next 120-month interval. All examinations shall be conducted in accordance with Inspection Program B of Section XI. | ||
Program B of Section XI. | |||
The Weld, Support and Bolting NDE requirements are presented in Section 'C' by coded Weld and Suppo? t Inspection Program Tables, Component Nondestructive Examinatior. Tables and Bolting Nonde-structive Examination Tables. The codes used for these Tables are defined in Section 'B' . The Weld and Support Inspection Program Tables of Section 'C' are arranged by system. Component Nondestructive Examination Tables and Bolting Nondestructive Examination Tables are arranged by Class and System. Section 'D' provides justificat'.u.' for exceptions take.3 to Code examination requirements as prtvF A for in 10 CFR 50.55a(g) (iii) . | The Weld, Support and Bolting NDE requirements are presented in Section 'C' by coded Weld and Suppo? t Inspection Program Tables, Component Nondestructive Examinatior. Tables and Bolting Nonde-structive Examination Tables. The codes used for these Tables are defined in Section 'B' . The Weld and Support Inspection Program Tables of Section 'C' are arranged by system. Component Nondestructive Examination Tables and Bolting Nondestructive Examination Tables are arranged by Class and System. Section 'D' provides justificat'.u.' for exceptions take.3 to Code examination requirements as prtvF A for in 10 CFR 50.55a(g) (iii) . | ||
All Class 3 welds and a vports will be inspected to the require-ments of Table IWD-2500-1 of the Code. The examination will be conducted to the extent practicable within the limitations of the component, or system portion, design and geometry. | All Class 3 welds and a vports will be inspected to the require-ments of Table IWD-2500-1 of the Code. The examination will be conducted to the extent practicable within the limitations of the component, or system portion, design and geometry. | ||
l III-l d | l III-l d | ||
t | t | ||
4 B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS - | 4 B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS - | ||
: 1. The Weld and Support Inspection Tables are coded as follows: | : 1. The Weld and Support Inspection Tables are coded as follows: | ||
Line 4,617: | Line 3,046: | ||
e R - carbon steel radwaste o S - stainless steel radwaste | e R - carbon steel radwaste o S - stainless steel radwaste | ||
: d. ISID. The Inservice Inspection Drawing on which the line segment is located, | : d. ISID. The Inservice Inspection Drawing on which the line segment is located, | ||
: c. Coordinates. The location on the ISID where one end of the | : c. Coordinates. The location on the ISID where one end of the line segment is found. | ||
: f. Normal Operating Pressure. The normal operating pressure in psig, | : f. Normal Operating Pressure. The normal operating pressure in psig, | ||
: g. Normal Operating Temperature. The normal operating temperature in "F. | : g. Normal Operating Temperature. The normal operating temperature in "F. | ||
: h. Material in <4 Inches. A 'CS' indicates that the line segment is exempted from NDE per IWC-1220(c), <4 inches nominal pipe | : h. Material in <4 Inches. A 'CS' indicates that the line segment is exempted from NDE per IWC-1220(c), <4 inches nominal pipe size. This exemption is used for ferritic material only. | ||
size. This exemption is used for ferritic material only. | |||
Austenitic naterial is exempted based upon <2-1/2 inches nominal pipo size. This exemption is applied to class 2 piping only. Other Code Exemption used in developing the Program were: | Austenitic naterial is exempted based upon <2-1/2 inches nominal pipo size. This exemption is applied to class 2 piping only. Other Code Exemption used in developing the Program were: | ||
e IWB-1223 (b) - Class 1 piping <1 inch nominal pipe size , | e IWB-1223 (b) - Class 1 piping <1 inch nominal pipe size , | ||
e IWC-1220 (a) - Class 2 piping maintained under static co adi-tions of at least 80 percent normal operating pressure. | e IWC-1220 (a) - Class 2 piping maintained under static co adi-tions of at least 80 percent normal operating pressure. | ||
I III-2 | I III-2 | ||
B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued) | B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued) | ||
: 1. Thickness. The nominal pipe wall thickness in inches. | : 1. Thickness. The nominal pipe wall thickness in inches. | ||
: j. Weld Inspection. The numbers in each column indicate the number of welds in the line segment which will be inspected by that method. | : j. Weld Inspection. The numbers in each column indicate the number of welds in the line segment which will be inspected by that method. | ||
Line 4,645: | Line 3,066: | ||
only used when no other weld examination is applied. | only used when no other weld examination is applied. | ||
: k. Support Inspection. The numbers in each column indicate the number of supports which will be inspected by that method. | : k. Support Inspection. The numbers in each column indicate the number of supports which will be inspected by that method. | ||
e SUR & VT The integral attachment weld will receive a surface examination and the complete support will receive a VT-3 visual examination. | e SUR & VT The integral attachment weld will receive a surface examination and the complete support will receive a VT-3 visual examination. | ||
e SUR & VT The integral attachment weld will receive ! | e SUR & VT The integral attachment weld will receive ! | ||
Line 4,654: | Line 3,074: | ||
: m. Remarks. This column is provided for pertinent information as appropriate. | : m. Remarks. This column is provided for pertinent information as appropriate. | ||
ITI-3 I | ITI-3 I | ||
B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued) | B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued) | ||
: 2. The Component Nondestructive Examination Tables are coded as follows: | : 2. The Component Nondestructive Examination Tables are coded as follows: | ||
: a. Component Information. Consists oft e Name - The name of the component e Number - The unique number assigned to the component e Drawing Coord. - The location on the ISID where the component is located e Design Operating F essure - The design maximum operating pressure in psig. | : a. Component Information. Consists oft e Name - The name of the component e Number - The unique number assigned to the component e Drawing Coord. - The location on the ISID where the component is located e Design Operating F essure - The design maximum operating pressure in psig. | ||
e DesignOperatingTemperature-Thedesignmaximumoperating temperature in F. | e DesignOperatingTemperature-Thedesignmaximumoperating temperature in F. | ||
: b. W/S. A 'W' indicates that the line refers to a teld. An 'S' indicates that the line refers to a support. | : b. W/S. A 'W' indicates that the line refers to a teld. An 'S' indicates that the line refers to a support. | ||
: c. No,. Indicates the number of identical items referred to. | : c. No,. Indicates the number of identical items referred to. | ||
Line 4,675: | Line 3,090: | ||
e VT VT-2 visual examination | e VT VT-2 visual examination | ||
: 1. Note No. The number of any applicable note. Notes art- shown at the bottom of the page. | : 1. Note No. The number of any applicable note. Notes art- shown at the bottom of the page. | ||
III-4 l | III-4 l | ||
B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued) | B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued) | ||
: 3. The Bolting Nondestructive Examination Tables are coded as follows: | : 3. The Bolting Nondestructive Examination Tables are coded as follows: | ||
: a. Description. A brief description of the item. | : a. Description. A brief description of the item. | ||
Line 4,687: | Line 3,098: | ||
: c. Size. The nominal bolt size in inches. | : c. Size. The nominal bolt size in inches. | ||
: d. No. The number of identical items referred to. | : d. No. The number of identical items referred to. | ||
: e. Component Drawing Number. The number of the drawing of the overall component. | : e. Component Drawing Number. The number of the drawing of the overall component. | ||
l f. Inspection. The inspection applied to the item. | l f. Inspection. The inspection applied to the item. | ||
e VOL - volumetric examination | e VOL - volumetric examination | ||
' ~~ | ' ~~ | ||
e SUR - surface examination e VT VT-1 visual examination | e SUR - surface examination e VT VT-1 visual examination | ||
: g. Note Number. The number of any applicable note. Notes are shown at the bottom of the page. | : g. Note Number. The number of any applicable note. Notes are shown at the bottom of the page. | ||
III-5 | III-5 | ||
. - . ,- . . . . - ~ - . - .-.- -. .. . - _ _ .. .. . -_ __ | . - . ,- . . . . - ~ - . - .-.- -. .. . - _ _ .. .. . -_ __ | ||
; | ; | ||
C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES i a j 1, weld and Support Inspection Program Tables. | C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES i a j 1, weld and Support Inspection Program Tables. | ||
, F | , F This section provides a summary of all piping welds and supports within the boundaries 'of the safety related systems, examined i in accordance with subsection IWB or IWC, as appropriate, of the l ASME Boiler and Pressure vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda. The Tables are arranged by System. | ||
1 III-6 | |||
This section provides a summary of all piping welds and supports within the boundaries 'of the safety related systems, examined i in accordance with subsection IWB or IWC, as appropriate, of the l ASME Boiler and Pressure vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda. The Tables are arranged by System. | |||
1 | |||
III-6 | |||
WELD AtlD SUPP0E SYSTEll: AUXILIARY FEEDWATER SYSTEM | WELD AtlD SUPP0E SYSTEll: AUXILIARY FEEDWATER SYSTEM | ||
$ e | $ e FIRST SEISMIC SUPPORT PAST H C 2) | ||
FIRST SEISMIC SUPPORT PAST H C 2) | |||
. BOUNDARY IS I!;CLUDED IN COUNT. N U UN | . BOUNDARY IS I!;CLUDED IN COUNT. N U UN | ||
, s des ge$ | , s des ge$ | ||
ITEM LIflE E 5$$ e$S I SUBSYSTEM /DESCRIPT10fl flUMBER flUMBER ISID 8 8S$ 8SU FROM VALVE AF599 TilRU PEN. 35 TO 35-0 6" EBB-4 007 F-2 990 90 STEAM GENEPATOR 1-2 FROM VALVE AF608 TIIRU PEN. 36 TO 36-0 6" EBB-4 007 F-12 990 90 STEAM GENERATOF. 1-1 e | ITEM LIflE E 5$$ e$S I SUBSYSTEM /DESCRIPT10fl flUMBER flUMBER ISID 8 8S$ 8SU FROM VALVE AF599 TilRU PEN. 35 TO 35-0 6" EBB-4 007 F-2 990 90 STEAM GENEPATOR 1-2 FROM VALVE AF608 TIIRU PEN. 36 TO 36-0 6" EBB-4 007 F-12 990 90 STEAM GENERATOF. 1-1 e | ||
I | I | ||
]- . | ]- . | ||
k l | |||
k | |||
l | |||
[ | [ | ||
l | l | ||
\ l | \ l | ||
\ | \ | ||
1 l | 1 l | ||
1 l | 1 l | ||
f | f | ||
s i . | |||
s | |||
i . | |||
T lllSPECT!0fl PROGRN1 W | T lllSPECT!0fl PROGRN1 W | ||
CLASS 2 PAGE i 0F 1 WELD IflSPECTI0ff SUPPORT iflSPECTI0fl A | CLASS 2 PAGE i 0F 1 WELD IflSPECTI0ff SUPPORT iflSPECTI0fl A | ||
:: x | :: x usto _s 2!$ U$ .c O .o e d- ME A m - s s u? mT ? Y M iC Oa R 0 D 2 as 8s s s | ||
usto _s | |||
2!$ U$ .c O .o e d- ME A m - s s u? mT ? Y M iC Oa R 0 D 2 as 8s s s | |||
~ | ~ | ||
REMARKS | REMARKS 0.280 - | ||
0.280 - | |||
5 - - - | 5 - - - | ||
1 1 - - | 1 1 - - | ||
0.280 - | 0.280 - | ||
1 - - - | 1 - - - | ||
2 - - - | 2 - - - | ||
6 - - - | 6 - - - | ||
3, 1 - - | 3, 1 - - | ||
'I!;SPECT MIllIMUM OF 10% OF WELDS AND 25% OF SUPPORTS PER CODE. | 'I!;SPECT MIllIMUM OF 10% OF WELDS AND 25% OF SUPPORTS PER CODE. | ||
,+ | ,+ | ||
e d | e d | ||
/ | / | ||
III-7 | III-7 | ||
9 f | 9 f | ||
I a | I a | ||
WELD Af!D SUPPORT SYSTEll: CoxPor!EliT COOLI!1G SYSTE!! | WELD Af!D SUPPORT SYSTEll: CoxPor!EliT COOLI!1G SYSTE!! | ||
O Y FIRST SEISMIC SUPPORT PAST Tile g g gg | O Y FIRST SEISMIC SUPPORT PAST Tile g g gg DOUllDARY IS It!CLUDED Ill THE COUtiT. z pg pg < | ||
ITEM LIf1E e | ITEM LIf1E e | ||
O | O eww ME" m w :c E | ||
eww ME" m w :c E | |||
F SUBSYSTEM /DESCRIPTIOft fiUMBER flUMBER ISID 8 8SE ESI E 3-0 12"IIBB-1 036 F-2 60 95 - | F SUBSYSTEM /DESCRIPTIOft fiUMBER flUMBER ISID 8 8SE ESI E 3-0 12"IIBB-1 036 F-2 60 95 - | ||
FROM VALVE CC1411B TilRU PEtt 3 s VALVE CCl411A 95 | FROM VALVE CC1411B TilRU PEtt 3 s VALVE CCl411A 95 | ||
Line 4,803: | Line 3,162: | ||
VALVE CC1407B 4-1 10"lIBB-12 036 C-9 30 175 - | VALVE CC1407B 4-1 10"lIBB-12 036 C-9 30 175 - | ||
4-2 12"11BB-12 036 C-9 30 175 - | 4-2 12"11BB-12 036 C-9 30 175 - | ||
J. . | J. . | ||
l | l h | ||
e l | |||
4 | |||
1 4 | 1 4 | ||
1 i | 1 i | ||
Line 4,833: | Line 3,184: | ||
ALL - - - - - - PER CODE. | ALL - - - - - - PER CODE. | ||
2 1 - 1 INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. | 2 1 - 1 INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. | ||
-e m | -e m | ||
O 9 | O 9 | ||
8 | 8 | ||
\. | \. | ||
III-8 | III-8 | ||
i , | i , | ||
i | i i WELD AtlD SUPPORT SYSTEM: cnMPOurnT cooLI:iG SYSTEM C E G ew SE - | ||
5 apsm apf 5 a sew a ITEM LItiE E s& <$ $ &$S $ | |||
i WELD AtlD SUPPORT SYSTEM: cnMPOurnT cooLI:iG SYSTEM C E G ew SE - | SUBSYSTEH/DESCRIPTIOrl fiUMBER fiUMBER ISID 8 @SE 8SE' E E' ROM MICilOR 403 TilRU PENETRATION 12-0 3"IICB-40 036 D-4 115 95 S 12 TO MICilOR 355 I | ||
i 4- . | |||
5 apsm apf 5 | 1 1 | ||
9 1 l l l l | |||
a sew a ITEM LItiE E s& <$ $ &$S $ | |||
SUBSYSTEH/DESCRIPTIOrl fiUMBER fiUMBER ISID 8 @SE 8SE' E | |||
E' ROM MICilOR 403 TilRU PENETRATION 12-0 3"IICB-40 036 D-4 115 95 S 12 TO MICilOR 355 | |||
4- . | |||
9 1 l l l | |||
l | |||
l 1 lI \ | l 1 lI \ | ||
~ | ~ | ||
= | = | ||
GmEd@ ,g g-nr3e | GmEd@ ,g g-nr3e | ||
" 3a o em uIl tPo =m,EeM@ | " 3a o em uIl tPo =m,EeM@ | ||
- wg,S"CaAO | - wg,S"CaAO | ||
* S S) | * S S) | ||
ES L NE O KH &V | ES L NE O KH &V CC / 3 4 3 4 . | ||
CC / 3 4 3 4 . | |||
I I LR R T T T R - R - - - | I I LR R T T T R - R - - - | ||
HI OU U R / / UT UT T T ,h=s ' | HI OU U R / / UT UT T T ,h=s ' | ||
T( VS S P F A SV SV V V i w .Co i m i ' ' | T( VS S P F A SV SV V V i w .Co i m i ' ' | ||
- i ' ' sm M4 x 5ao ue OM i* | - i ' ' sm M4 x 5ao ue OM i* | ||
at ee $3o@ Mw 8O | at ee $3o@ Mw 8O I | ||
p sui | |||
* I' I | |||
l WELD AtlD SUPPOR1 SYSTEM: CONTAINMENT AND PENETRATION ROOMS O E E Ew EE - | |||
5 aps sDI e MMM eww E5M e w :c 0 | |||
I | |||
p | |||
sui | |||
* | |||
I' I | |||
l WELD AtlD SUPPOR1 | |||
SYSTEM: CONTAINMENT AND PENETRATION ROOMS | |||
O E E Ew EE - | |||
5 aps sDI | |||
e MMM eww E5M e w :c 0 | |||
e ITEM LINE 1 o | e ITEM LINE 1 o | ||
SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 ESE ES" $ | SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 ESE ES" $ | ||
8A-0 8"HBB-19 029B B-6 ATM 120 FROM NRV(1) TilRU PENETRATION 8 | 8A-0 8"HBB-19 029B B-6 ATM 120 FROM NRV(1) TilRU PENETRATION 8 | ||
. (8A-8J) TO CONTAINMD3T VESSEL 8B-0 8"IIBB-19 029B B-6 ATM 120 8C-O 8"IIBB-19 029B B-6 ATM 120 BD-0 8"ItBB-19 029B B-6 ATM 120 8E-0 8"!!BB-19 029B B-6 ATM 120 8F-0 8"IIBB-19 029B B-6 ATM 120 8G-0 8"IIBB-19 029B B-6 ATM 120 8 11 - 0 8"IIBB-19 029B B-6 ATM 120 8I-O 8"IIBB-*19 029B B-6 ATM 120 | . (8A-8J) TO CONTAINMD3T VESSEL 8B-0 8"IIBB-19 029B B-6 ATM 120 8C-O 8"IIBB-19 029B B-6 ATM 120 BD-0 8"ItBB-19 029B B-6 ATM 120 8E-0 8"!!BB-19 029B B-6 ATM 120 8F-0 8"IIBB-19 029B B-6 ATM 120 8G-0 8"IIBB-19 029B B-6 ATM 120 8 11 - 0 8"IIBB-19 029B B-6 ATM 120 8I-O 8"IIBB-*19 029B B-6 ATM 120 | ||
) | ) | ||
120 j 8J-0 8"IIBB-19 029B B-6 ATM i | 120 j 8J-0 8"IIBB-19 029B B-6 ATM i | ||
I | I FROM BLIND FLANGE Tl!RU VALVE 17-0 8"IICB-44 029B G-5 ATM 120 CV343 MID PENETRATION 17 TO 8"HCB-49 029B G-5 ATM 120 DLIND FLANGE 8"IIBB-20 029B G-5 ATM 120 l | ||
FROM REDUCER DOWNSTREAM OF AND 51-0 4"IIBB-16 029A 11 - 5 18 150 TIIRU PENETRATION 51 TO SUPPOIU 29-IIBB-16-II5 . | |||
FROM BLIND FLANGE Tl!RU VALVE 17-0 8"IICB-44 029B G-5 ATM 120 CV343 MID PENETRATION 17 TO 8"HCB-49 029B G-5 ATM 120 DLIND FLANGE 8"IIBB-20 029B G-5 ATM 120 | |||
STEAM GENERATOR CIIEMICAL CLEANING 59-0 8"IICD-43 007 E-13 ATM .AMB 4 | STEAM GENERATOR CIIEMICAL CLEANING 59-0 8"IICD-43 007 E-13 ATM .AMB 4 | ||
LINE - PENETRATION 59 1 | LINE - PENETRATION 59 1 l | ||
l | |||
'. FROM SUPPORT 29-IIBC-73-II10 Ti!RU PENETRATION 69 TO SUPPORT 69-0 4"HBB-15 029A 11-11 18 150 f | '. FROM SUPPORT 29-IIBC-73-II10 Ti!RU PENETRATION 69 TO SUPPORT 69-0 4"HBB-15 029A 11-11 18 150 f | ||
29-IIBB-15-Il2 | |||
; | ; | ||
1 I | 1 I | ||
1 I l | 1 I l | ||
\ | \ | ||
l | l | ||
IfiSPECTI0fl PROGRAF 1 l . | IfiSPECTI0fl PROGRAF 1 l . | ||
CLASS 2 PAGE 1 0F 2-WELD IflSPECTI0ff SUPPORT IflSPECTI0fl lx 0 N wm | CLASS 2 PAGE 1 0F 2-WELD IflSPECTI0ff SUPPORT IflSPECTI0fl lx 0 N wm a | ||
IN EN .e? .c oo ~ | |||
t~ MM as m - r r u? mi ? T | |||
;% EiC WM a !E D 2 BC SC C C REMARKS 0.322 - | |||
;% EiC WM a !E D 2 BC SC C C REMARKS | |||
0.322 - | |||
1 - - - - | 1 - - - - | ||
0.322 - | 0.322 - | ||
l' - | l' - | ||
0.322 - | 0.322 - | ||
1 - - | 1 - - | ||
0.322 - | 0.322 - | ||
1 - - - - - - | 1 - - - - - - | ||
0.322 - | 0.322 - | ||
1 - - | 1 - - | ||
L 0.322 - | L 0.322 - | ||
1 - - - - - - | 1 - - - - - - | ||
0.322 - | 0.322 - | ||
1 - - | 1 - - | ||
0.322 - | 0.322 - | ||
1 - - | 1 - - | ||
0.322 - 1 0.322 - 1 - - - - - - | |||
0.322 - 1 | |||
0.322 - 1 - - - - - | |||
10 - - - - - - - ItiSPECT MIt3IMUM OF 25% OF WELDS PER CODE. NO SEISMIC SUPPORTS ON TIIESE LINES. | 10 - - - - - - - ItiSPECT MIt3IMUM OF 25% OF WELDS PER CODE. NO SEISMIC SUPPORTS ON TIIESE LINES. | ||
0.148 - 1 - - - | 0.148 - 1 - - - | ||
1 | 1 0.148 - | ||
0.148 - | |||
1 - - - - - | 1 - - - - - | ||
1 - | 1 - | ||
0.322 - | 0.322 - | ||
2 - - - | 2 - - - | ||
4 - - - - - | 4 - - - - - | ||
1 - INSPECT MI!3IMUM OF 25% OF WELDS AND SUPPORTS PER CODE , | 1 - INSPECT MI!3IMUM OF 25% OF WELDS AND SUPPORTS PER CODE , | ||
Line 5,059: | Line 3,266: | ||
1 - - - WELDS EXEMPT PER IWC-1220(c . | 1 - - - WELDS EXEMPT PER IWC-1220(c . | ||
INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. | INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. | ||
0.148 - 2 - - - - - 1 - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE 1 1 - WELDS EXEMPT PER IWC-1220(c:. | 0.148 - 2 - - - - - 1 - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE 1 1 - WELDS EXEMPT PER IWC-1220(c:. | ||
CS 0.237 - - - - - - | CS 0.237 - - - - - - | ||
INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. | INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. | ||
N | N | ||
; | ; | ||
III-10 | III-10 | ||
( | ( | ||
WELD Afl0 SUPPORT SYSTEM: CONTAINMENT AND PENETRATI.ON IOOMS 0 Y E Ew WE a | WELD Afl0 SUPPORT SYSTEM: CONTAINMENT AND PENETRATI.ON IOOMS 0 Y E Ew WE a 5 aps ap5 5 a | ||
5 aps ap5 5 a | |||
e 25$ M5E 5 ITEM LINE o www ews r SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE E$" I 33-0 48"IIBB-17 029A F-11 6 "W.G. 120 - | e 25$ M5E 5 ITEM LINE o www ews r SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE E$" I 33-0 48"IIBB-17 029A F-11 6 "W.G. 120 - | ||
'IOM FIRST SFISMIC SUPPOIT UP-STREAM FROM VALVE CV5005 TIIRU | 'IOM FIRST SFISMIC SUPPOIT UP-STREAM FROM VALVE CV5005 TIIRU | ||
. PDIETEATION 33 TO FIRST SEISMIC SUPPORT DOWNSTREAM FROM FIRST SEISMIC SUPPOIa UP- 34-0 48"IIBB-1B 029A G-5 8"W.G. 120 - | . PDIETEATION 33 TO FIRST SEISMIC SUPPORT DOWNSTREAM FROM FIRST SEISMIC SUPPOIa UP- 34-0 48"IIBB-1B 029A G-5 8"W.G. 120 - | ||
STREAM FROM VALVE CV5007 Ti!RU FDIETRATION 34 TO FIRST SEISMIC SUPPORT DOWNSTREAM OF VALVE CV5008 | STREAM FROM VALVE CV5007 Ti!RU FDIETRATION 34 TO FIRST SEISMIC SUPPORT DOWNSTREAM OF VALVE CV5008 FROM SUPPORT 29-IIBC-73-II6 Ti!RU 67-0 4"IIBB-15 029A 11 - 1 1 18 150 CS | ||
.M PDIETFATION 67 TO SUPPORT 29-IIBB-15-II10 4 | |||
FROM SUPPORT 29-IIBC-73-II6 Ti!RU 67-0 4"IIBB-15 029A 11 - 1 1 18 150 CS | Y | ||
.M PDIETFATION 67 TO SUPPORT 29-IIBB-15-II10 | |||
.i 1 | .i 1 | ||
O I | O I | ||
4 | 4 I | ||
I | |||
i | i | ||
) | ) | ||
Line 5,104: | Line 3,291: | ||
8 e e i | 8 e e i | ||
S a5 m H H H m7 NY 7 T | S a5 m H H H m7 NY 7 T | ||
~ | ~ | ||
%___EC 98 8 E D 2 8% S$ $ REMARKS | %___EC 98 8 E D 2 8% S$ $ REMARKS ALL - - - - - - INSPECT ALL WELDS AND SEISMIC SUPPORTS UPSTREAM i AND DOWNSTREAM OF PIPE DURING PRESSURE TEST. | ||
ALL - - - - - - INSPECT ALL WELDS AND SEISMIC SUPPORTS UPSTREAM i AND DOWNSTREAM OF PIPE DURING PRESSURE TEST. | |||
{ | { | ||
~' | ~' | ||
Line 5,116: | Line 3,300: | ||
\ | \ | ||
0.237 - 4 - - - 1 - | 0.237 - 4 - - - 1 - | ||
1 ~! INSPECT MINIMUM OF 25% OF | 1 ~! INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER l CODE. | ||
WELDS AND SUPPORTS PER l CODE. | |||
I l | I l | ||
1 i I | 1 i I | ||
. ; | . ; | ||
I | I i | ||
i | |||
I i i | I i i | ||
III-ll f L. | III-ll f L. | ||
i 1 | |||
l . | |||
i | |||
WELD AtlD SUPP01 SYSTEM: | WELD AtlD SUPP01 SYSTEM: | ||
CONTAINMENT EMERCDICY SUMP | CONTAINMENT EMERCDICY SUMP 10 W | ||
$ Ew ER 5 aps ops ; | |||
10 W | |||
$ Ew ER | |||
5 aps ops ; | |||
ITEM LIfiE e O | ITEM LIfiE e O | ||
258 eww EMM uwz f | 258 eww EMM uwz f | ||
e SUBSYSTEli/DESCRIPTI0ft fiUMBER fiUtiBER ISID 8 88E @@W- % | e SUBSYSTEli/DESCRIPTI0ft fiUMBER fiUtiBER ISID 8 88E @@W- % | ||
FROM PEN. 30 TIIRU VALVE Dl!9A & 30-0 18"IICB-1 033 K-4 - - | FROM PEN. 30 TIIRU VALVE Dl!9A & 30-0 18"IICB-1 033 K-4 - - | ||
REDUCERS TO TEE INCLUDING FW6 30-1 14"HCD-1 033 K-5 ATM 120 30-2 18"IICB-1 033 K-5 ATM 120 FROM PEN. 31 T11RU VALVE D119B & 31-0 18"HCB-1 033 J-4 - - | REDUCERS TO TEE INCLUDING FW6 30-1 14"HCD-1 033 K-5 ATM 120 30-2 18"IICB-1 033 K-5 ATM 120 FROM PEN. 31 T11RU VALVE D119B & 31-0 18"HCB-1 033 J-4 - - | ||
l REDUCERS TO TEE INCLUDING WELD D ] | l REDUCERS TO TEE INCLUDING WELD D ] | ||
i 31-1 14"IICD-1 033 J-5 ATM 120 d l | i 31-1 14"IICD-1 033 J-5 ATM 120 d l | ||
31-2 18"IICB-1 033 J-5 ATM 120 i | 31-2 18"IICB-1 033 J-5 ATM 120 i | ||
3-i i | 3-i i | ||
I l | I l | ||
l | l l I s | ||
1 e | |||
\r l | |||
l I s | |||
1 | 1 | ||
.j | .j | ||
Line 5,173: | Line 3,335: | ||
1 S | 1 S | ||
0 P | 0 P | ||
.O 0 0 E 3 1 | .O 0 0 E 3 1 3 | ||
3 | |||
_ ~x 3a=wmm C 7 | _ ~x 3a=wmm C 7 | ||
1 T 8 7 8 ~ 8xwmm 1 5 8 5 8 0t i | 1 T 8 7 8 ~ 8xwmm 1 5 8 5 8 0t i | ||
P | P | ||
- - - R | - - - R | ||
_ - - _ >om e O mmmwc,_ G | _ - - _ >om e O mmmwc,_ G R | ||
A f | |||
f | |||
* W f 8 2 1 1 E 3 1 _ mam L D | * W f 8 2 1 1 E 3 1 _ mam L D | ||
I f | I f | ||
1 | 1 S | ||
S | |||
- - _ - - _ .am- P E | - - _ - - _ .am- P E | ||
C T | C T | ||
I | I | ||
. 0 | . 0 | ||
.us- t i | .us- t i | ||
<s-mam m C | |||
<s- | |||
mam m C | |||
_ S L | _ S L | ||
>s? U P | >s? U P | ||
Line 5,208: | Line 3,360: | ||
_ _ - - . P | _ _ - - . P | ||
>s? E C | >s? E C | ||
T | T | ||
. I | . I 0 | ||
0 | |||
- _ t | - _ t | ||
>rY t CWI OEN . | >rY t CWI OEN . | ||
Line 5,226: | Line 3,375: | ||
e | e | ||
\ | \ | ||
'; ' | '; ' | ||
1 9 | 1 9 | ||
i | i 4 | ||
I I | |||
n WELD AND SUPPORT SYSTEM: CarrAIN:ENT SPRAY SYSTEM Y Y | |||
WELD AND SUPPORT SYSTEM: CarrAIN:ENT SPRAY SYSTEM Y Y | |||
. Q Ew ER a | . Q Ew ER a | ||
, 5 ACE ACE h e EEN EMU $ | , 5 ACE ACE h e EEN EMU $ | ||
Line 5,240: | Line 3,386: | ||
SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 eSE ESK 3 FROM 18"IICB-1 LINE TO CONTAINMENT 30-4 10"IICB-3 033/ K-9 25 120 -- | SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 eSE ESK 3 FROM 18"IICB-1 LINE TO CONTAINMENT 30-4 10"IICB-3 033/ K-9 25 120 -- | ||
SPRAY PUMP P56-2 SUCTION 034 30-5 8"IICB-3 034 D-10 25 120 -- | SPRAY PUMP P56-2 SUCTION 034 30-5 8"IICB-3 034 D-10 25 120 -- | ||
FROM CONTAINMENT SPRAY PUMP 25-0 6"GCD-5 034 D-9 220 120 - | FROM CONTAINMENT SPRAY PUMP 25-0 6"GCD-5 034 D-9 220 120 - | ||
P56-2 DISCIIARGE TO UPPER 25-1 8"GCB-5 034 D-9 220 120 -- | P56-2 DISCIIARGE TO UPPER 25-1 8"GCB-5 034 D-9 220 120 -- | ||
Line 5,247: | Line 3,392: | ||
25-4 8"IICB-8 034 C-3 60 120 -- | 25-4 8"IICB-8 034 C-3 60 120 -- | ||
TEST RETURN LINE FROM 8"GCB-5 LINE 25-1A 8"IICC-38 034 D-6 5 120 -- | TEST RETURN LINE FROM 8"GCB-5 LINE 25-1A 8"IICC-38 034 D-6 5 120 -- | ||
L TIIRU VALVE CS33 M | L TIIRU VALVE CS33 M | ||
7 31-4 10"IICD-3 25 120 FROM 18"l!CB-1 LINE TIIRU VALVE 033/ J-10 -- | 7 31-4 10"IICD-3 25 120 FROM 18"l!CB-1 LINE TIIRU VALVE 033/ J-10 -- | ||
CS2 TO CONTAINMENT SPRAY PUMP 034 | CS2 TO CONTAINMENT SPRAY PUMP 034 P56-1 SUCTION 31-5 8"IICD-3 034 D-10 25 120 -- | ||
P56-1 SUCTION 31-5 8"IICD-3 034 D-10 25 120 -- | |||
6 FROM CONTAINMENT SPRAY PUMP 26-0 6"GCB-5 034 D-9 220 120 -- | 6 FROM CONTAINMENT SPRAY PUMP 26-0 6"GCB-5 034 D-9 220 120 -- | ||
P56-1 DISCIIARGE TIIRU CONTAINMENT 034 D-9 220 120 26-1 8"GCB-5 -- | P56-1 DISCIIARGE TIIRU CONTAINMENT 034 D-9 220 120 26-1 8"GCB-5 -- | ||
Line 5,260: | Line 3,401: | ||
26-4 8"IICB-8 034 D-3 60 120 -- | 26-4 8"IICB-8 034 D-3 60 120 -- | ||
TEST RETURN LINE FROM 8"GCB-5 26-1A 8"GCB-5 034 D-6 220 120 -- | TEST RETURN LINE FROM 8"GCB-5 26-1A 8"GCB-5 034 D-6 220 120 -- | ||
LINE TIIRU VALVE CS36 TO SUPPORP 34-IICC-38-II27 INCLUDING WELD FWl6B | LINE TIIRU VALVE CS36 TO SUPPORP 34-IICC-38-II27 INCLUDING WELD FWl6B l | ||
l | |||
I t I | I t I | ||
Line 5,272: | Line 3,410: | ||
2 1 1 1 2 1 1 1 1 1 12 2 1 1 1 L 5 444 5 3 4 6 4 445 5 3 4 6 ~=uIJMeL I 0 | 2 1 1 1 2 1 1 1 1 1 12 2 1 1 1 L 5 444 5 3 4 6 4 445 5 3 4 6 ~=uIJMeL I 0 | ||
0 888 0 4 8 5 8 880 0 4 8 5 f l | 0 888 0 4 8 5 8 880 0 4 8 5 f l | ||
P | P | ||
- - - - - - - - - - - - - - - - B ,_ de R O | - - - - - - - - - - - - - - - - B ,_ de R O | ||
Line 5,278: | Line 3,415: | ||
f W 1 E | f W 1 E | ||
- - - 2 - - - - | - - - 2 - - - - | ||
- - - - - - - 8u L D | - - - - - - - 8u L D | ||
I l | I l | ||
Line 5,295: | Line 3,431: | ||
- - - - - - - - - - - - - - - - Sm 5e S C | - - - - - - - - - - - - - - - - Sm 5e S C | ||
L | L | ||
$m U P | $m U P | ||
A S | A S | ||
Line 5,311: | Line 3,446: | ||
.T UL SA UL . UL . UL UL UL E M P PL PL PL PL PL PL PL PL A A P P P P P P P P R G OW OW OW OW OW OW OW OW K E RE RE RE RE RE RE RE RE S TL TL TL TL 'TL TL TL SD TL SD 1 SD SD SD SD SD SD O S S S S S S S S D D D D D D D D UA UA UM UA UA UM UM UA RN RN RI RN RN RI RI RN 0 I D I D I D I D I D I D I D I D F N N N N N N N N | .T UL SA UL . UL . UL UL UL E M P PL PL PL PL PL PL PL PL A A P P P P P P P P R G OW OW OW OW OW OW OW OW K E RE RE RE RE RE RE RE RE S TL TL TL TL 'TL TL TL SD TL SD 1 SD SD SD SD SD SD O S S S S S S S S D D D D D D D D UA UA UM UA UA UM UM UA RN RN RI RN RN RI RI RN 0 I D I D I D I D I D I D I D I D F N N N N N N N N | ||
. G G G G G G G G D | . G G G G G G G G D | ||
L N | |||
l I | l I | ||
i i WELD AtlD SUPPORi SYSTEM: CORE FLOODING SYSTEM C E! | |||
i | |||
i WELD AtlD SUPPORi SYSTEM: CORE FLOODING SYSTEM C E! | |||
e ew EE _ | e ew EE _ | ||
= sps apf 5 ITEM LIllE e EMM eww M&M ewr E | = sps apf 5 ITEM LIllE e EMM eww M&M ewr E | ||
F o | F o | ||
SUBSYSTEM /DESCRIPTI0t1 tiUMBER fiUMBER ISID 8 8SE ES& E FROM CORE FIDODING TANK T9-2 THRU 27-5 14"FCD-2 034 J-3 - - - | SUBSYSTEM /DESCRIPTI0t1 tiUMBER fiUMBER ISID 8 8SE ES& E FROM CORE FIDODING TANK T9-2 THRU 27-5 14"FCD-2 034 J-3 - - - | ||
VALVE CF28 INCLUDING FW27 | VALVE CF28 INCLUDING FW27 27-6 14"CCB-5 3 J-3 - - - | ||
27-6 14"CCB-5 3 J-3 - - - | |||
27-7 14"CCA-6 033 B-3 2155 280 - | 27-7 14"CCA-6 033 B-3 2155 280 - | ||
FROM COPE FLOODING TANK T9-1 THRU 28-5 14"FCB-2 034 J-7 - - - | FROM COPE FLOODING TANK T9-1 THRU 28-5 14"FCB-2 034 J-7 - - - | ||
VALVE CF29 INCLUDING FW12 | VALVE CF29 INCLUDING FW12 28-6 14"CCB-5 J-7 - - - | ||
28-6 14"CCB-5 J-7 - - - | |||
3 | 3 | ||
) | ) | ||
28-7 14"CCA-6 033 B-2 2155 280 - | 28-7 14"CCA-6 033 B-2 2155 280 - | ||
1 NOTE 10. SYSTEM EXEMPTED FROM MDE DUE TO SiSTEM BEING 80% STATIC - | 1 NOTE 10. SYSTEM EXEMPTED FROM MDE DUE TO SiSTEM BEING 80% STATIC - | ||
i | i e | ||
\ | \ | ||
f | f | ||
l l i | l l i gA3g= yg- o P3m ~ | ||
gA3g= yg- o P3m ~ | |||
* M T M g O!I | * M T M g O!I | ||
; | ; | ||
Line 5,361: | Line 3,475: | ||
R KH &V & | R KH &V & | ||
* I CC / 3 4 3 4 I | * I CC / 3 4 3 4 I | ||
l LR R T T T . L - | l LR R T T T . L - | ||
R - - - | R - - - | ||
4 1 | 4 1 | ||
Line 5,383: | Line 3,495: | ||
~ ME P 3O 5.b ON !8 | ~ ME P 3O 5.b ON !8 | ||
, i i i i i ' | , i i i i i ' | ||
m ,"o e O | m ,"o e O H "M ^ | ||
H "M ^ | |||
, , i i , i i i i ha MN b $- | , , i i , i i i i ha MN b $- | ||
=kM a * | =kM a * | ||
Line 5,393: | Line 3,502: | ||
-.3Q , i i i i i i i i | -.3Q , i i i i i i i i | ||
" - %h OM !a mNyo s O HM M ^ | " - %h OM !a mNyo s O HM M ^ | ||
H0i% | H0i% | ||
1 I | |||
1 | 1 I WELD AND SUPPORT SYSTEM: DECAY HEAT REMOVAL SYSTEM 1 | ||
I WELD AND SUPPORT SYSTEM: DECAY HEAT REMOVAL SYSTEM 1 | |||
C U t~ Sw SS a | C U t~ Sw SS a | ||
= _, p s __, p g 3 e $$$ f5E 6 ITEM LINE o eww e w :c SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 ESE ES" d I | |||
= _, p s __, p g 3 | |||
e $$$ f5E 6 | |||
ITEM LINE o eww e w :c SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 ESE ES" d I | |||
ST-0A 8"HCB-2 033 B-12 25 120 -- | ST-0A 8"HCB-2 033 B-12 25 120 -- | ||
FROM 24"11CD-2 LINE THRU VALVE BW7 TO FIRST SEISMIC SUPPOPT 27-2 10"CCB-6 033 B-6 ATM 200 -- | FROM 24"11CD-2 LINE THRU VALVE BW7 TO FIRST SEISMIC SUPPOPT 27-2 10"CCB-6 033 B-6 ATM 200 -- | ||
Line 5,425: | Line 3,520: | ||
FROM BWST TO CAP ST-0 24"l!CB-2 033 B-12 25 120 -- | FROM BWST TO CAP ST-0 24"l!CB-2 033 B-12 25 120 -- | ||
1 FROM 24"HCB-2 LINE THRU VALVES DII7A ST-1 14"IICB-2 033 C-12 25 120 -- | 1 FROM 24"HCB-2 LINE THRU VALVES DII7A ST-1 14"IICB-2 033 C-12 25 120 -- | ||
AND DI!82 TO REDUCER INCLUDING WELD EMl FROM 24"HCB-2 LINE THRU VALVES ST-2 14"IICD-2 033 C-12 25 120 -- | AND DI!82 TO REDUCER INCLUDING WELD EMl FROM 24"HCB-2 LINE THRU VALVES ST-2 14"IICD-2 033 C-12 25 120 -- | ||
l DlI78 AND Dil81 TO REDUCER FROM REDUCER UPSTREAM OF VALVE 30-3 18"HCB-1 033 K-9 ATM 120 -- | l DlI78 AND Dil81 TO REDUCER FROM REDUCER UPSTREAM OF VALVE 30-3 18"HCB-1 033 K-9 ATM 120 -- | ||
Dl!82 TO' TEE FROM 18"IICB-1 TEE THRU VALVE 30-6 18"HCB-1 033 K-9 ATM 120 -- | Dl!82 TO' TEE FROM 18"IICB-1 TEE THRU VALVE 30-6 18"HCB-1 033 K-9 ATM 120 -- | ||
DH2734 TO DECAY llEAT PUMP P42-2 30-7 18"HCB-8 033 | DH2734 TO DECAY llEAT PUMP P42-2 30-7 18"HCB-8 033 K-9 45 260 -- | ||
30-8 12"GCD-8 .033 G-9 45 260 -- | 30-8 12"GCD-8 .033 G-9 45 260 -- | ||
FROM DECAY !! EAT PUMP P42-2 DIS- 27-0 10"GCB-1 033 G-10 410 280 -- | FROM DECAY !! EAT PUMP P42-2 DIS- 27-0 10"GCB-1 033 G-10 410 280 -- | ||
OIARGE TIIRU PENETRATION 27 TO 27-1 10"GCB-10 033 G-ll 410 280 -- | OIARGE TIIRU PENETRATION 27 TO 27-1 10"GCB-10 033 G-ll 410 280 -- | ||
REACI'OR VESSEL HEAT EXCIIANGER BYPASS 27-0A 6"GCB-10 033 G-ll 410 200 -- | REACI'OR VESSEL HEAT EXCIIANGER BYPASS 27-0A 6"GCB-10 033 G-ll 410 200 -- | ||
6"GCB 033 G-11 410 280 -- | |||
) . | ) . | ||
\ | \ | ||
f | f | ||
t 1 | t 1 | ||
IllSPECTI0ft PROGRN1 CLASS 1s2 PAGE 1 0F 1 WELD IflSPECTI0tl SUPPORT INSPECTION m m e m -~ | IllSPECTI0ft PROGRN1 CLASS 1s2 PAGE 1 0F 1 WELD IflSPECTI0tl SUPPORT INSPECTION m m e m -~ | ||
Line 5,468: | Line 3,559: | ||
0.375 - - - | 0.375 - - - | ||
ALL - - - - - | ALL - - - - - | ||
0.375 - - - | 0.375 - - - | ||
ALL - - - - - | ALL - - - - - | ||
Line 5,481: | Line 3,571: | ||
0.134 - - - | 0.134 - - - | ||
ALL - - - - | ALL - - - - | ||
.r- | .r-0.134 - - - | ||
ALL - - - - - | ALL - - - - - | ||
ALL - - - - - | ALL - - - - - | ||
INSPECT ALL WELDS AND SEIS-MIC SUPPORTS DURING FLOW TEST. i | INSPECT ALL WELDS AND SEIS-MIC SUPPORTS DURING FLOW TEST. i III-15 | ||
III-15 | |||
\ | \ | ||
l WELD AND SUPPORT SYSTEM: DECAY IIEAT REMOVAL SYSTEM (CONTINUED) | l WELD AND SUPPORT SYSTEM: DECAY IIEAT REMOVAL SYSTEM (CONTINUED) | ||
.' C U e Ew ER a | .' C U e Ew ER a 5 aps apf 5 | ||
5 aps apf 5 | |||
'l e $ $ $? 25W $ | 'l e $ $ $? 25W $ | ||
ITEM CINE eww mwr H SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ES" $ | ITEM CINE eww mwr H SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ES" $ | ||
Line 5,507: | Line 3,589: | ||
d ' | d ' | ||
FROM 10"GCB-1O LINE TO VALVE DII66 28-lE 8"GCD-10 033 E-7 410 200 - | FROM 10"GCB-1O LINE TO VALVE DII66 28-lE 8"GCD-10 033 E-7 410 200 - | ||
1 | 1 FROM REDUCER UPSTREAM OF VALVE 31-3 18"IICB-1 033 J-6 ATM 120 -= | ||
FROM REDUCER UPSTREAM OF VALVE 31-3 18"IICB-1 033 J-6 ATM 120 -= | |||
DH81 'IO TEE FROM 18"!!CB-1 TEE THRU VALVE 31-6 18"HCB-1 033 J-6 ATM 120 -c DI!2733 TO DECAY IIEAT :? UMP P42-1 033 45 260 31-7 18"GCB-8 J-6 - | DH81 'IO TEE FROM 18"!!CB-1 TEE THRU VALVE 31-6 18"HCB-1 033 J-6 ATM 120 -c DI!2733 TO DECAY IIEAT :? UMP P42-1 033 45 260 31-7 18"GCB-8 J-6 - | ||
31-8 12"GCB-8 033 H-6 45 260 -' | 31-8 12"GCB-8 033 H-6 45 260 -' | ||
FROM DECAY IIEAT PUMP P42-1 DIS- 28-0 10"GCB-1 033 11 - 8 410 280 -c Cl!ARGE TIIRU PENETRATION 28 TO 033 G-8 410 280 28-1 10"GCB-10 -c t | FROM DECAY IIEAT PUMP P42-1 DIS- 28-0 10"GCB-1 033 11 - 8 410 280 -c Cl!ARGE TIIRU PENETRATION 28 TO 033 G-8 410 280 28-1 10"GCB-10 -c t | ||
REACTOR VESSEL | REACTOR VESSEL | ||
) | ) | ||
3, , | 3, , | ||
t | t ItiSPECTI0fl PROGRAll CLASS 1 & 2 PAGE 2 0F 2 WELD INSPECTI0t1 SUPPORT ItiSPECTION m m w m-I wM J v mw a =e s u xx .o > oo m e m e | ||
ItiSPECTI0fl PROGRAll CLASS 1 & 2 PAGE 2 0F 2 | |||
WELD INSPECTI0t1 SUPPORT ItiSPECTION m m w m-I wM J v mw a =e | |||
s u xx .o > oo m e m e | |||
*-. u: s 6-- mi m e | *-. u: s 6-- mi m e | ||
_a m e t-m. | _a m e t-m. | ||
Line 5,546: | Line 3,616: | ||
1 - - - | 1 - - - | ||
1 - - - | 1 - - - | ||
0.250 - | 0.250 - | ||
2 - - - | 2 - - - | ||
Line 5,565: | Line 3,634: | ||
0.250 - - - | 0.250 - - - | ||
ALL - - - - - | ALL - - - - - | ||
ALL - - - - - INSPECT ALL WELDS AND SEIS-MIC SUPPORTS DURING FLOW TEST. | ALL - - - - - INSPECT ALL WELDS AND SEIS-MIC SUPPORTS DURING FLOW TEST. | ||
k III-16 | |||
k | |||
III-16 | |||
t | t | ||
\ | \ | ||
WELD AND SUPP0F SYSTEM: HIGH PRESSURE INJECTION SYSTEM | WELD AND SUPP0F SYSTEM: HIGH PRESSURE INJECTION SYSTEM 0 Y G Sw ER 5 aps op@ | ||
0 Y G Sw ER | |||
5 aps op@ | |||
ITEM LINE @ @ @ !2 eww M@E o ewr SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID & ESE ESI FROM IIIGII PRESSURE INJECTION PUMP 22-0 4"CCB-2 033 E-8 ATM AMD P58-1 DISCHARGE TifRU PENETRATION 22 TO REACTOR VESSEL 22-1 h"CCD-2 033 E-5 2250 120 | ITEM LINE @ @ @ !2 eww M@E o ewr SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID & ESE ESI FROM IIIGII PRESSURE INJECTION PUMP 22-0 4"CCB-2 033 E-8 ATM AMD P58-1 DISCHARGE TifRU PENETRATION 22 TO REACTOR VESSEL 22-1 h"CCD-2 033 E-5 2250 120 | ||
. 22-2 2 "CCA-2 033/ E-5 2155 582 : | . 22-2 2 "CCA-2 033/ E-5 2155 582 : | ||
, 030 FROM 4"CCB-2 LINE TEE TIIRU PENETRA- 50-0 2 "CCB-2 033 E-5 2250 120 E TION 50 TO REACTOR VESSEL 50-1 2 "CCA-2 033/ E-5 2155 582 E | , 030 FROM 4"CCB-2 LINE TEE TIIRU PENETRA- 50-0 2 "CCB-2 033 E-5 2250 120 E TION 50 TO REACTOR VESSEL 50-1 2 "CCA-2 033/ E-5 2155 582 E 030 FROM IIIGII PRESSURE INJECTION PUMP 19-0 4"CCB-2 033 C-8 ATM AMB S P58-2 DISCIIARGE TIIRU PENETRATION 19 TO REACTOR VESSEL 19-1 "CCB-2 033 C-6 2250 120 S L | ||
M 19-2 2 "CCA-2 033/ C-3 2155 582 5 030 - | |||
030 FROM IIIGII PRESSURE INJECTION PUMP 19-0 4"CCB-2 033 C-8 ATM AMB S P58-2 DISCIIARGE TIIRU PENETRATION 19 TO REACTOR VESSEL 19-1 "CCB-2 033 C-6 2250 120 S L | |||
M 19-2 2 "CCA-2 033/ C-3 2155 582 5 | |||
030 - | |||
FROM 4"CCB-2 LINE TEE TIIRU PENETRA- 20-0 2 "CCD-2 033 C-3 2250 120 S TION 20 TO REACTOR VESSEL 20-1 2 "CCA-2 033/ C-3 2155 582 S 030 PROM 14"IICB-2 LINE TIIRU VALVES ST-3 6"IICB-2 033 J-ll 25 120 . -- | FROM 4"CCB-2 LINE TEE TIIRU PENETRA- 20-0 2 "CCD-2 033 C-3 2250 120 S TION 20 TO REACTOR VESSEL 20-1 2 "CCA-2 033/ C-3 2155 582 S 030 PROM 14"IICB-2 LINE TIIRU VALVES ST-3 6"IICB-2 033 J-ll 25 120 . -- | ||
IIP 10 AND IIP 12 'IO IIIGII PRESSURE ST-4 6"GCB-4 033 E-11 410 180 -- | IIP 10 AND IIP 12 'IO IIIGII PRESSURE ST-4 6"GCB-4 033 E-11 410 180 -- | ||
INJECTION PUMP P58-1 SUCTION INCLUDING WELD IW32 | INJECTION PUMP P58-1 SUCTION INCLUDING WELD IW32 FROM 14"IICD-2 LINE TIIRU VALVES IIPll ST-5 6"liCB-2 033 K-ll 25 120 -- | ||
FROM 14"IICD-2 LINE TIIRU VALVES IIPll ST-5 6"liCB-2 033 K-ll 25 120 -- | |||
AND IIP 13 TO IIIGI! PRESSURE INJECTION ST-6 6"GCD-4 033 D-11 410 180 PUMP P58-2 INCLUDING WELD FW27 -- | AND IIP 13 TO IIIGI! PRESSURE INJECTION ST-6 6"GCD-4 033 D-11 410 180 PUMP P58-2 INCLUDING WELD FW27 -- | ||
FROM 4"CCB-2 LINE TIIRU VALVE IIP 26 TC 22-0B 4"CCB-18 033 D-7 ATM AMB St FIRST SEISMIC SUPPORT 33C-CCD-19-H2 FROM 4"CCB-2 LINE TIIRU VALVE IIP 27 IS-0B 4"CCB-18 033 C-7 ATM AMB SE TO FIRST SEISMIC SUPPORT 33C-CCD-19-ill2 Q | |||
FROM 4"CCB-2 LINE TIIRU VALVE IIP 26 TC 22-0B 4"CCB-18 033 D-7 ATM AMB St FIRST SEISMIC SUPPORT 33C-CCD-19-H2 | |||
FROM 4"CCB-2 LINE TIIRU VALVE IIP 27 IS-0B 4"CCB-18 033 C-7 ATM AMB SE TO FIRST SEISMIC SUPPORT 33C-CCD-19-ill2 Q | |||
J | J | ||
\< | \< | ||
i | i | ||
9 T IflSPECTI0tl PROGRAF 1 CLASS 1 & 2' PAGE 1 0F _1 WELD IflSPECTI0t1 SUPPORT If1SPECTI0tl m m sw mm xx wm 2 | 9 T IflSPECTI0tl PROGRAF 1 CLASS 1 & 2' PAGE 1 0F _1 WELD IflSPECTI0t1 SUPPORT If1SPECTI0tl m m sw mm xx wm 2 | ||
*O Zw o 8 t: c-z. | *O Zw o 8 t: c-z. | ||
o xx vv .a :::. | o xx vv .a :::. | ||
.c .o s m e m e | .c .o s m e m e | ||
- :.: _2 m m H H H ma mi e ' | - :.: _2 m m H H H ma mi e ' | ||
f 57: IO !?a S E D E 8$ 8$ b b REMARKS S 0.437 5 - - - - | f 57: IO !?a S E D E 8$ 8$ b b REMARKS S 0.437 5 - - - - | ||
Line 5,626: | Line 3,669: | ||
0.375 - | 0.375 - | ||
4 - - - - | 4 - - - - | ||
CLASS 1 0.438 4 - - - - | CLASS 1 0.438 4 - - - - | ||
1 - - - | 1 - - - | ||
0.375 - | 0.375 - | ||
6 - - - | 6 - - - | ||
Line 5,645: | Line 3,686: | ||
0.134 - - - | 0.134 - - - | ||
ALL - - - - | ALL - - - - | ||
INSPECT ALL WELDS AND SEIS- | INSPECT ALL WELDS AND SEIS-0.134 MIC SUPPORTS DURING FIOW ALL - _ _ _ _ | ||
0.134 MIC SUPPORTS DURING FIOW | |||
ALL - _ _ _ _ | |||
TEST. l 0.134 - - - | TEST. l 0.134 - - - | ||
ALL - - - - - | ALL - - - - - | ||
Line 5,657: | Line 3,693: | ||
MIC SUPPORTS DURING FLOW TEST. | MIC SUPPORTS DURING FLOW TEST. | ||
0.438 - - - - - - - - | 0.438 - - - - - - - - | ||
EXEMPT PER IWC-1220(c) . | EXEMPT PER IWC-1220(c) . | ||
0.438 - - - - - - - - - | 0.438 - - - - - - - - - | ||
EXEMPT PER IWC-1220 (c) . | EXEMPT PER IWC-1220 (c) . | ||
t 4 | t 4 | ||
i III-17 | |||
i | |||
III-17 | |||
l l' WELD Afl0 SUPPOR~ | l l' WELD Afl0 SUPPOR~ | ||
1 l SYSTEM: LIQUID RADWASTE SYSTEM . | 1 l SYSTEM: LIQUID RADWASTE SYSTEM . | ||
l le , I t0 W l | l le , I t0 W l | ||
Q Ew ER - | Q Ew ER - | ||
5 aps apf : | 5 aps apf : | ||
i ITEM LIfiE e o | i ITEM LIfiE e o | ||
150 eww E&" | 150 eww E&" | ||
ewr l | ewr l | ||
t SUBSYSTEM /DESCRIPT10ft fiUMBER fiUMBER ISID 8 ESE ESW 5 | t SUBSYSTEM /DESCRIPT10ft fiUMBER fiUMBER ISID 8 ESE ESW 5 FROM SUPPORT 46-HBB-2-l!4 TIIRU 13-0 4"IIBB-2 046 C-10 25 180 C 1 | ||
FROM SUPPORT 46-HBB-2-l!4 TIIRU 13-0 4"IIBB-2 046 C-10 25 180 C 1 | |||
l | l | ||
. PENETRATION 13 TO SUPPORT l | . PENETRATION 13 TO SUPPORT l | ||
Line 5,692: | Line 3,713: | ||
) ' | ) ' | ||
,] | ,] | ||
h l | h l | ||
l l | l l | ||
1 l | 1 l | ||
l | l I | ||
l j l | |||
t | t | ||
I' T_ | I' T_ | ||
M | M | ||
~. | ~. | ||
=Die EdS og E-n5ww m sa" ~q 5 S S cPe 2$mn2@ | |||
=Die EdS og E-n5ww m sa" ~q 5 | |||
S S cPe 2$mn2@ | |||
E ooS* - AO | E ooS* - AO | ||
* S) | * S) | ||
Line 5,722: | Line 3,730: | ||
.C | .C | ||
.W KH &V O | .W KH &V O | ||
mK CC / 3 4 3 4 I !l LR R T T T R - R - - - | |||
mK CC / 3 4 3 4 | |||
I !l LR R T T T R - R - - - | |||
4 HI OU U R / / UT UT T T 1 T( VS S P F A SV SV V V AE=G | 4 HI OU U R / / UT UT T T 1 T( VS S P F A SV SV V V AE=G | ||
- .d" , | - .d" , | ||
" i i i , i i se'O mod Ez59 a N O inOC a a C o83wg ax 3 | " i i i , i i se'O mod Ez59 a N O inOC a a C o83wg ax 3 | ||
8oM = | 8oM = | ||
~ | ~ | ||
0s * | 0s * | ||
; | ; | ||
i' | i' | ||
i 1 | i 1 | ||
\ | \ | ||
l WELD AflD SUPPORT SYSTEM: ww PRFsSURE IrOECTION SYSTEM / DECAY !! EAT REMOVAL SYSTEM J $ E G Sw ER - | l WELD AflD SUPPORT SYSTEM: ww PRFsSURE IrOECTION SYSTEM / DECAY !! EAT REMOVAL SYSTEM J $ E G Sw ER - | ||
5 aps opf : | |||
ITEM LINE e | ITEM LINE e | ||
o 25$ | o 25$ | ||
eww H5E ewz e E | eww H5E ewz e E | ||
SUBSYSTEM /DESCRIPTI0t1 NUMBER NUMBER ISID 8 8SE 85& E FROM 10"GCB-10 LINE THRU 28-lD 4"GCB-2 033 E-8 410 200 Sf VALVE Dil64 TO 6"GCB-4 LINE | SUBSYSTEM /DESCRIPTI0t1 NUMBER NUMBER ISID 8 8SE 85& E FROM 10"GCB-10 LINE THRU 28-lD 4"GCB-2 033 E-8 410 200 Sf VALVE Dil64 TO 6"GCB-4 LINE FROM 14"!!CB-2 LINE THRU VALVES ST-1A 4"HCB-2 033 K-ll 25 120 Sf DH132 AND Dlil31 FROM 14"HCB-2 LINE T!!RU VALVES ST-2A 4"IICD-2 033 J-11 25 120 SE 1 | ||
. Dill 29 AND Dlil30 FROM 10"GCB-10 LINE TIIRU VALVE 27-lE 4"GCB-2 033 C-11 410 200 S3 DII63 TO 6"GCB-4 LINE i | |||
FROM 14"!!CB-2 LINE THRU VALVES ST-1A 4"HCB-2 033 K-ll 25 120 Sf DH132 AND Dlil31 FROM 14"HCB-2 LINE T!!RU VALVES ST-2A 4"IICD-2 033 J-11 25 120 SE 1 | |||
. Dill 29 AND Dlil30 FROM 10"GCB-10 LINE TIIRU VALVE 27-lE 4"GCB-2 033 C-11 410 200 S3 | |||
J . | J . | ||
l. | l. | ||
Line 5,775: | Line 3,754: | ||
1 | 1 | ||
. l i | . l i | ||
1 l | 1 l | ||
l l | l l | ||
I | I | ||
.L | .L | ||
Line 5,792: | Line 3,769: | ||
0.120 - - - - - - - - - | 0.120 - - - - - - - - - | ||
EXEMPT PER IWC-1220(c) . | EXEMPT PER IWC-1220(c) . | ||
0.120 - - - - - - - - - | 0.120 - - - - - - - - - | ||
EXEMPT PER IWC-1220 (c) . | EXEMPT PER IWC-1220 (c) . | ||
0.120 - - - - - - - - - | 0.120 - - - - - - - - - | ||
EXEMPT PER IWC-1220 (c) . | EXEMPT PER IWC-1220 (c) . | ||
L f | L f | ||
III-19 | III-19 | ||
i | i I | ||
t l WELD Afl0 SUPP0R SYSTEM: MAIN FEEDWATER SYSTEM v> w FIRST SEISMIC SUPPORT PAST w g gg | |||
I | |||
' BOUNDARY IS INCLUDED IN COUNT. <5 5y 2: H y i | ' BOUNDARY IS INCLUDED IN COUNT. <5 5y 2: H y i | ||
O asa as@ - | O asa as@ - | ||
ITEM L-INE | ITEM L-INE O | ||
O | |||
eww | eww | ||
@$E e w ::c d | @$E e w ::c d | ||
H SUBSYSTEM / DESCRIPTION ~ NUMBER NUMBER ISID 8 8SE ES" 5 FROM VALVE PW601 THRU PENETRATION 37-0 18" EBB-3 007 H-2 990 461 | H SUBSYSTEM / DESCRIPTION ~ NUMBER NUMBER ISID 8 8SE ES" 5 FROM VALVE PW601 THRU PENETRATION 37-0 18" EBB-3 007 H-2 990 461 | ||
. 37 TO STEAM GENERATOR l-2 37-1 14" EBB-3 007 C-2 990 461 37-2 14" EBB-3 007 C-3 990 461 FROM VALVE FW612 THRU PENETRnTION 38-0 18" EBB-3 007 H-ll 990 461 38 TO STEAM GENERATOR l-1 ' | . 37 TO STEAM GENERATOR l-2 37-1 14" EBB-3 007 C-2 990 461 37-2 14" EBB-3 007 C-3 990 461 FROM VALVE FW612 THRU PENETRnTION 38-0 18" EBB-3 007 H-ll 990 461 38 TO STEAM GENERATOR l-1 ' | ||
38-1 14" EBB-3 007 C-12 990 461 1 | 38-1 14" EBB-3 007 C-12 990 461 1 | ||
* 38-2 14" EBB-3 007 C-12 990 461 i - | * 38-2 14" EBB-3 007 C-12 990 461 i - | ||
I i | I i | ||
.f' . | .f' . | ||
i | i | ||
.I i | .I i | ||
O | O | ||
* e I | * e I | ||
\ | \ | ||
t | t | ||
? ! | ? ! | ||
ItiSPECTI0tt PROGRN1 CLASS 2 PAGE 1 0F 1 WELD IflSPECTI0t{ SUPPORT IllSPECTI0tl 0 | ItiSPECTI0tt PROGRN1 CLASS 2 PAGE 1 0F 1 WELD IflSPECTI0t{ SUPPORT IllSPECTI0tl 0 | ||
Line 5,843: | Line 3,804: | ||
- 0.937 4 2 - - - | - 0.937 4 2 - - - | ||
1 1 - - | 1 1 - - | ||
0.750 6 3 - - - | 0.750 6 3 - - - | ||
1 1 - - | 1 1 - - | ||
0.750 7 3 - - - | 0.750 7 3 - - - | ||
2 - - - | 2 - - - | ||
0.937 6 1 - - - - | 0.937 6 1 - - - - | ||
1 - - | 1 - - | ||
0.750 5 2 - - - | 0.750 5 2 - - - | ||
2 1 - - | 2 1 - - | ||
0.750 4 1 - - - | 0.750 4 1 - - - | ||
1 - - | 1 - - | ||
32 12 - - - | 32 12 - - - | ||
6 5 - - | 6 5 - - | ||
. INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. , | . INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. , | ||
I 4 | |||
I l a 1 | |||
I | |||
l a 1 | |||
f III-20 | f III-20 | ||
;a | ;a I | ||
WELD AtlD S PPORT SYSTEM: MAIN STEAM SYSTEM - SECONDARY CIDE m w g | |||
e es ]c | |||
. - arm 5e ors 5~ #g ITEM LIf1E e | |||
SYSTEM: MAIN STEAM SYSTEM - SECONDARY CIDE m w | |||
. - arm 5e ors 5~ #g | |||
ITEM LIf1E e | |||
o Efs mww EEE ewr dd r | o Efs mww EEE ewr dd r | ||
SUBSYSTEM /DESCRIPTI0li fiUMBER fiUMBER 'ISID 8 8SE ESW f_* | SUBSYSTEM /DESCRIPTI0li fiUMBER fiUMBER 'ISID 8 8SE ESW f_* | ||
FROM STEAM GENERATOR l-2 THRU 39-0 26" EBB-1 007 B-2 910 594 - | FROM STEAM GENERATOR l-2 THRU 39-0 26" EBB-1 007 B-2 910 594 - | ||
PENETRATION 39 AND VALVE MS100 007 910 594 39-1 26" EBB-1 B-2 - | PENETRATION 39 AND VALVE MS100 007 910 594 39-1 26" EBB-1 B-2 - | ||
TO SUPPORT C-283 | TO SUPPORT C-283 39-2 36" EBB-1 007/ B-3 910 594 - | ||
39-2 36" EBB-1 007/ B-3 910 594 - | |||
003 FROM 36" EBB-1 LINE TO VALVE 39-2A 8" EBB-1 007 B-5 1155 600 - | 003 FROM 36" EBB-1 LINE TO VALVE 39-2A 8" EBB-1 007 B-5 1155 600 - | ||
ICSilA FROM 36" EBB-1 LINE TO 12" CAP 39-2B 12" EBB-1 003 B-14 --- --- - | ICSilA FROM 36" EBB-1 LINE TO 12" CAP 39-2B 12" EBB-1 003 B-14 --- --- - | ||
Line 5,900: | Line 3,838: | ||
FROM 36" EBB-1 LINE M VALVE 40-2A 8" EBB-1 007 B-8 910 594 - | FROM 36" EBB-1 LINE M VALVE 40-2A 8" EBB-1 007 B-8 910 594 - | ||
ICSilB FROM 36" EBB-1 LINE TO 12" CAP 40-2B 12" EBB-1 003 A-11 --- --- | ICSilB FROM 36" EBB-1 LINE TO 12" CAP 40-2B 12" EBB-1 003 A-11 --- --- | ||
l O 4 t | |||
e I | |||
l | |||
O 4 t | |||
e | |||
I | |||
a (flSPECTI0ff PROGRN1 CLASS 2 PAGE 1 0F 2 WELD If1SPECTI0fl. SUPPORT IfiSPECTI0fi | |||
a | |||
(flSPECTI0ff PROGRN1 CLASS 2 PAGE 1 0F 2 WELD If1SPECTI0fl. SUPPORT IfiSPECTI0fi | |||
, m | , m | ||
,s m^ , | ,s m^ , | ||
LAJ m J ' | LAJ m J ' | ||
l | l M 4 M 4 * | ||
- uu s m n n e MD -.J W W H H H MC 0 9 e e 3* W OD D E N N DH DH H H - | - uu s m n n e MD -.J W W H H H MC 0 9 e e 3* W OD D E N N DH DH H H - | ||
rl r Hv >m m o. u. < m> m> > > REMARKS 0.798* 6 - - - - | rl r Hv >m m o. u. < m> m> > > REMARKS 0.798* 6 - - - - | ||
1 1 - - | 1 1 - - | ||
* MIN. WALL O.798* 2 - | * MIN. WALL O.798* 2 - | ||
1 - | 1 - | ||
2 '* MIN. WALL 1.055/ 6 1 - - - | 2 '* MIN. WALL 1.055/ 6 1 - - - | ||
Line 5,930: | Line 3,855: | ||
2.375 l | 2.375 l | ||
0.406 1 - - - - - - - - | 0.406 1 - - - - - - - - | ||
0.798* 7 - - - - | 0.798* 7 - - - - | ||
1 2 - | 1 2 - | ||
Line 5,939: | Line 3,861: | ||
* MIN. WALL 1.055/ 8 3 - - - - - | * MIN. WALL 1.055/ 8 3 - - - - - | ||
1 - | 1 - | ||
2.375 | 2.375 0.406 1 - - - - - - - | ||
0.406 1 - - - - - - - | |||
1 l 1 | 1 l 1 | ||
I | I 36 4 - - - | ||
36 4 - - - | |||
3 4 1 4 INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODI: . | 3 4 1 4 INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODI: . | ||
l | l i | ||
i | |||
~ | ~ | ||
e t | e t | ||
l l | l l | ||
III-21 | III-21 | ||
l", . | l", . | ||
4 | 4 | ||
\ | \ | ||
/ | / | ||
6 WELD AtlD SUPPORT SYSTEM: MAIN STEAM SYSTEM - SECOrDARY SIDE a u | 6 WELD AtlD SUPPORT SYSTEM: MAIN STEAM SYSTEM - SECOrDARY SIDE a u Q Ew ER - | ||
5 aps apf e EnN 25E d eww ewx P ITEM LIllE o SUBSYSTEM /DESCRIPTI0ft fiUMBER fiUMBER ISID 8 8$E ES" E 39-3 6" EBB-2 007/ B-3 910 594 - | |||
Q Ew ER - | FROM 36" EBB-1 LINE TO VALVE MS107 003 39-3A 6" EBB-2 003 C-12 910 594 - | ||
e EnN 25E d eww ewx P ITEM LIllE o SUBSYSTEM /DESCRIPTI0ft fiUMBER fiUMBER ISID 8 8$E ES" E 39-3 6" EBB-2 007/ B-3 910 594 - | |||
FROM 36" EBB-1 LINE TO VALVE MS107 | |||
003 39-3A 6" EBB-2 003 C-12 910 594 - | |||
FROM 6" EBB-2 LINE TO VALVE MS106A 40-3 6" EBB-2 007/ B-10 910 594 -- | FROM 6" EBB-2 LINE TO VALVE MS106A 40-3 6" EBB-2 007/ B-10 910 594 -- | ||
FROM 36" EBB-1 LINE TO VALVE MS106 003 | FROM 36" EBB-1 LINE TO VALVE MS106 003 | ||
Line 5,982: | Line 3,885: | ||
FROM 6" EBB-2 LINE TO VALVE MS107A 57-0 4" EBB-5 007 E-2 930 536 | FROM 6" EBB-2 LINE TO VALVE MS107A 57-0 4" EBB-5 007 E-2 930 536 | ||
.{ FROM STEAM GENERATOR l-2 THRU j' PENETRATION 57 57-1 4" EBB-5 007 E-2 930 536 I | .{ FROM STEAM GENERATOR l-2 THRU j' PENETRATION 57 57-1 4" EBB-5 007 E-2 930 536 I | ||
930 536 e FROM STEAM GDIERATOR l-1 THRU 58-0 4" EBB-5 007 E-ll | 930 536 e FROM STEAM GDIERATOR l-1 THRU 58-0 4" EBB-5 007 E-ll | ||
' PCIETRATION 58 58-1 4" EBB-5 007 E-ll 930 536 c i | ' PCIETRATION 58 58-1 4" EBB-5 007 E-ll 930 536 c i | ||
4 I | |||
r | |||
4 | |||
I IftSPECTI0ft PROGRAff e CLASS 2 PAGE 2 0F _2 WELD IflSPECTION SUPPORT IftSPECTI0ft M w ILd Me c La w _s | |||
I | |||
IftSPECTI0ft PROGRAff e CLASS 2 PAGE 2 0F _2 WELD IflSPECTION SUPPORT IftSPECTI0ft M w ILd Me c La w _s | |||
>E l .~. | >E l .~. | ||
U$ | U$ | ||
Line 6,000: | Line 3,896: | ||
e m | e m | ||
e M i e m e I | e M i e m e I | ||
>-* C & F- F- F- M I I | >-* C & F- F- F- M I I | ||
_J m S$ M5 f | _J m S$ M5 f | ||
[ VI 50 25 a E D E $ $ REMARKS 5 - - - | [ VI 50 25 a E D E $ $ REMARKS 5 - - - | ||
3 - - | 3 - - | ||
1 | 1 0.280 - | ||
0.280 - | |||
0.280 - 2 - - - - - | 0.280 - 2 - - - - - | ||
2 1 | 2 1 0.280 - G - - - | ||
0.280 - G - - - | |||
3, - - | 3, - - | ||
1 | 1 o.280 - 2 - - - | ||
o.280 - 2 - - - | |||
- EXEMPT PER IWC-1220(c) 0.237 - - - - | - EXEMPT PER IWC-1220(c) 0.237 - - - - | ||
3 l | 3 l | ||
- - - - - - EXEMPT PER IWC-1220(c) 5 9.237 - - - | - - - - - - EXEMPT PER IWC-1220(c) 5 9.237 - - - | ||
Line 6,025: | Line 3,912: | ||
- 15 - - - | - 15 - - - | ||
6 - 2 3 INSPECT MINIMUM OF 10% OF WELDS AND 25% OF SUPPORTS PER CODE. | 6 - 2 3 INSPECT MINIMUM OF 10% OF WELDS AND 25% OF SUPPORTS PER CODE. | ||
6 | 6 | ||
- i | - i | ||
: l l | : l l | ||
e | e | ||
( | ( | ||
? | ? | ||
i t | i t | ||
III-22 | III-22 | ||
d 9 | d 9 | ||
'i | 'i | ||
'l I WELD AtlD SUPPORT ] | 'l I WELD AtlD SUPPORT ] | ||
SYSTEM: MAYZUP WATER TREATMENT SYSTEM | SYSTEM: MAYZUP WATER TREATMENT SYSTEM 10 W Q Ew ER S c | ||
10 W Q Ew ER S c | |||
' 5 aps ap5 $2 e @$$ 2fE $3 | ' 5 aps ap5 $2 e @$$ 2fE $3 | ||
, ITEM -LINE O eww mwr r SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ESd' $5 FIOM ANCllOR 183 TifRU PENETRATION 21-0 4"l!CB-23 010B K-2 35 85 SS 21 TO ANCilOR 121 | , ITEM -LINE O eww mwr r SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ESd' $5 FIOM ANCllOR 183 TifRU PENETRATION 21-0 4"l!CB-23 010B K-2 35 85 SS 21 TO ANCilOR 121 h | ||
i- . | |||
t i | |||
, $ i e | |||
l dt | |||
t | |||
i | |||
, $ i | |||
dt | |||
oRdS o "h2- : | |||
oRdS | |||
o "h2- : | |||
n5M u so h tPo =5E 5 | n5M u so h tPo =5E 5 | ||
: $4S* . .- U2 AO5= | : $4S* . .- U2 AO5= | ||
Line 6,081: | Line 3,947: | ||
iGU E | iGU E | ||
) | ) | ||
Ds mSMONt Mw | Ds mSMONt Mw 8s | ||
* wOi W | |||
8s | |||
wOi W | |||
; | ; | ||
\ | \ | ||
{ WELD ATID SUPPORT SYSTE!!: MAKEUP & PURIFICATION SYSTEM | { WELD ATID SUPPORT SYSTE!!: MAKEUP & PURIFICATION SYSTEM | ||
-' W W E ew spg HE a 5 | -' W W E ew spg HE a 5 | ||
5 sps | 5 sps | ||
,l @ $$$ f$E $ | ,l @ $$$ f$E $ | ||
ITEM LINE o eww ewz H SUBSYSTEM /DESCRIPTI0t{ fiUMBER flUMBER ISID 8 8SE ES" I 2185 580 g LD-0 2 "CCA-18 031 C-2 FROM TIIE REACTOR COOLANT LOOP TO VALVES MUlA & MUlB 2185 580 S | ITEM LINE o eww ewz H SUBSYSTEM /DESCRIPTI0t{ fiUMBER flUMBER ISID 8 8SE ES" I 2185 580 g LD-0 2 "CCA-18 031 C-2 FROM TIIE REACTOR COOLANT LOOP TO VALVES MUlA & MUlB 2185 580 S LD-1 2 "CCA-18 031 C-3 031 C-3 2185 580 S LD-2 2\"CCA-18 1 | ||
LD-1 2 "CCA-18 031 C-3 031 C-3 2185 580 S LD-2 2\"CCA-18 1 | |||
14-0 2 "CCB-21 031 C-4 2185 120 S FROM VALVE MU2A TIIRU PEN. 14 & | 14-0 2 "CCB-21 031 C-4 2185 120 S FROM VALVE MU2A TIIRU PEN. 14 & | ||
VALVE MU3 | VALVE MU3 | ||
.4' I- . | .4' I- . | ||
I | I | ||
,I | ,I | ||
\ | \ | ||
l | l P | ||
P | |||
\ | \ | ||
f | f | ||
Line 6,122: | Line 3,969: | ||
s If1SPECTI0ft PROGRAll CLASS 1& 2 PAGE 1 0F 1_ | s If1SPECTI0ft PROGRAll CLASS 1& 2 PAGE 1 0F 1_ | ||
WELD IfiSPECTI0f4 SUPPORT IflSPECTI0tl | WELD IfiSPECTI0f4 SUPPORT IflSPECTI0tl | ||
$ $G a i EE eg e e ' | $ $G a i EE eg e e ' | ||
~ | ~ | ||
MM A u - .- - m? mi ? ? | MM A u - .- - m? mi ? ? | ||
'Ji 50 RS S E D 2 S$ S$ $ $ REMARKS | 'Ji 50 RS S E D 2 S$ S$ $ $ REMARKS s 0.375 - 3 - - - 1 - - - CU6S 1 3 - - - - - - - | ||
s 0.375 - 3 - - - 1 - - - CU6S 1 | |||
3 - - - - - - - | |||
CLASS 1 3 0.375 1 - - - Cues I 3 0.375 - 3 - - - | CLASS 1 3 0.375 1 - - - Cues I 3 0.375 - 3 - - - | ||
1' 1 - - FIRST SEISMIC SUPPORT li 0.375 - 3 - | 1' 1 - - FIRST SEISMIC SUPPORT li 0.375 - 3 - | ||
PAST TiiE BOUNDARY IS INCLUDED IN COUNT | PAST TiiE BOUNDARY IS INCLUDED IN COUNT 3 1 - - INSPECT MINIMUM OF 25% OF 12 - - | ||
3 1 - - INSPECT MINIMUM OF 25% OF | |||
12 - - | |||
WELDS AND SUPPORTS PER CODE. | WELDS AND SUPPORTS PER CODE. | ||
l | l W | ||
W | |||
6 l | 6 l | ||
l . | l . | ||
III-24 | III-24 | ||
; i | ; i | ||
\ | \ | ||
,l WELD N!D SUPPORT SYSTEM: NOPSI, COOLDOWN SYSTEM C U e Ew ER - | ,l WELD N!D SUPPORT SYSTEM: NOPSI, COOLDOWN SYSTEM C U e Ew ER - | ||
, 5 aps aps # | , 5 aps aps # | ||
e 158 cr: w w 25W a: w =c h ITEM LItiE o SUBSYSTEM / DESCRIPTION t1 UMBER NUMBER ISID 8 88E ESW $ | e 158 cr: w w 25W a: w =c h ITEM LItiE o SUBSYSTEM / DESCRIPTION t1 UMBER NUMBER ISID 8 88E ESW $ | ||
29-0 12"CCA-4 030/ D-7 2155 350 - | 29-0 12"CCA-4 030/ D-7 2155 350 - | ||
FROM REACTOR COOLANT LOOP 2( A) TO 18"GCB-8 LINE INCLUDING WELDS 'D' 033 D 'B' 29-1 12"GCB-7 033 11 - 3 220 280 l FROM 12"CCA-4 LINE TO VALVE DH23 29-0A 8"CCA-4 033 11 - 2 2155 350 - | FROM REACTOR COOLANT LOOP 2( A) TO 18"GCB-8 LINE INCLUDING WELDS 'D' 033 D 'B' 29-1 12"GCB-7 033 11 - 3 220 280 l FROM 12"CCA-4 LINE TO VALVE DH23 29-0A 8"CCA-4 033 11 - 2 2155 350 - | ||
8"GCB-7 033 H-3 220 280 -e | 8"GCB-7 033 H-3 220 280 -e | ||
.FROM VALVE Dil23 TO 12"GCB-7 LINE , | .FROM VALVE Dil23 TO 12"GCB-7 LINE , | ||
29-1A FROM 12"GCB-7 LINE TO VALVE DH4849 29-1B 4"GCB-7 033 H-3 220 280 S2 | 29-1A FROM 12"GCB-7 LINE TO VALVE DH4849 29-1B 4"GCB-7 033 H-3 220 280 S2 1 | ||
4 FROM 12"GCB-7 LINE TO VALVE DI!31 29-2B 10"GCB-7 033 G-5 220 280 - | |||
1 | 1 | ||
.i FROM 12"CCB-7 LINE TO VALVE DH30 , | .i FROM 12"CCB-7 LINE TO VALVE DH30 , | ||
29-3B 10"GCB-7 033 H-5 --- --- -- | 29-3B 10"GCB-7 033 H-5 --- --- -- | ||
1 FROM REACTOR COOLANT LOOP 2(A) TO 29-2 12"GCB-7 033 G-5 220 280 -- | 1 FROM REACTOR COOLANT LOOP 2(A) TO 29-2 12"GCB-7 033 G-5 220 280 -- | ||
18"GCD-8 LINE INCLUDING WELDS 'D' 29-3 12"GCB-7 033 II-5 220 280 -- | 18"GCD-8 LINE INCLUDING WELDS 'D' 29-3 12"GCB-7 033 II-5 220 280 -- | ||
AND B | AND B BYPASS AROUND VALVE Dill 518 29-lD 2 "GCD-7 033 !!-4 220 280 S: | ||
BYPASS AROUND VALVE Dill 518 29-lD 2 "GCD-7 033 !!-4 220 280 S: | |||
1 FROM 12"GCB-7 LINE TO VALVE Dl!33 29-2C 2\"GCB-7 033 H-6 220 280 S1 | 1 FROM 12"GCB-7 LINE TO VALVE Dl!33 29-2C 2\"GCB-7 033 H-6 220 280 S1 | ||
. BYPASS AROUND VALVE Dill 517 29-lC 2 "GCB-7 033- H-4 220 280 SS FROM 12"GCB-7 LINE TO VALVE DH29 29-2A 2 "GCB-7 033 H-5 220 280" SE FROM 12"GCD-7 LINE TO VALVE DH28 29-3A 2 "GCB-7 033 11 - 5 --- --- S5 | . BYPASS AROUND VALVE Dill 517 29-lC 2 "GCB-7 033- H-4 220 280 SS FROM 12"GCB-7 LINE TO VALVE DH29 29-2A 2 "GCB-7 033 H-5 220 280" SE FROM 12"GCD-7 LINE TO VALVE DH28 29-3A 2 "GCB-7 033 11 - 5 --- --- S5 | ||
Line 6,182: | Line 4,004: | ||
FROM 12"GCB-7 LINE TO VALVE DH32 29-3D 2 "GCB-7 033 H-6 --- - SI E | FROM 12"GCB-7 LINE TO VALVE DH32 29-3D 2 "GCB-7 033 H-6 --- - SI E | ||
I IflSPECT10fl PROGRAll CLASS 1& 2 PAGE 1 0F _1_ | I IflSPECT10fl PROGRAll CLASS 1& 2 PAGE 1 0F _1_ | ||
WELD IflSPECT10ft SUPPORT IfiSPECT10f1 , | WELD IflSPECT10ft SUPPORT IfiSPECT10f1 , | ||
Line 6,188: | Line 4,009: | ||
x wm _s | x wm _s | ||
'N. | 'N. | ||
. c-NN uu ms s | . c-NN uu ms s a | ||
m a | |||
a | |||
-r m e i | -r m e i | ||
u | u | ||
*-* C _j m N H H >-= M e M 3 8 8 l | *-* C _j m N H H >-= M e M 3 8 8 l | ||
M s s 2 6- 2 6-- 6-- | M s s 2 6- 2 6-- 6-- | ||
Line 6,205: | Line 4,023: | ||
0.250 - | 0.250 - | ||
8 - - - - - - - | 8 - - - - - - - | ||
0.812 1 - - - - - 1 - - CLASS 1 | 0.812 1 - - - - - 1 - - CLASS 1 0.250 - | ||
0.250 - | |||
1 - - - - - | 1 - - - - - | ||
r 0.120 - '- - - - - - - - | r 0.120 - '- - - - - - - - | ||
0.250 - | 0.250 - | ||
1 - - - - - - - | 1 - - - - - - - | ||
1 - - - - - - - | 1 - - - - - - - | ||
5 11 - - - | 5 11 - - - | ||
Line 6,222: | Line 4,036: | ||
0.250 - - - | 0.250 - - - | ||
ALL - - - - - | ALL - - - - - | ||
0.203 - - - - - - - | |||
1 - | 1 - | ||
ALL - - - | ALL - - - | ||
1 - Ii!SPECT ALL WELDS AND SEIS-MIC ddPPORTS DURING FLOW TEST. ) | 1 - Ii!SPECT ALL WELDS AND SEIS-MIC ddPPORTS DURING FLOW TEST. ) | ||
Line 6,236: | Line 4,049: | ||
----- - - - - - - - - EXEMPT PER IWC-1220(c) . l | ----- - - - - - - - - EXEMPT PER IWC-1220(c) . l | ||
----- - - - - - - - - - EXEMPT PER IWC-1220(c) . d. l l | ----- - - - - - - - - - EXEMPT PER IWC-1220(c) . d. l l | ||
l III-25 | l III-25 | ||
a | a | ||
\ | \ | ||
t WELD Afl0 SUPPOR1 SYSTEM: now.AL MAKEUP m w w ce | t WELD Afl0 SUPPOR1 SYSTEM: now.AL MAKEUP m w w ce | ||
$ Ew ER _ | $ Ew ER _ | ||
aDE apM ' | aDE apM ' | ||
O ITEM Lif1E O EOm NEE b SUBSYSTEM /DESCRIPTI0ft f. UMBER fiUMBER ISID E v bE | |||
O | |||
ITEM Lif1E O EOm NEE b SUBSYSTEM /DESCRIPTI0ft f. UMBER fiUMBER ISID E v bE | |||
- o n. | - o n. | ||
EEU- | EEU- | ||
. cos U | . cos U | ||
x FEoM VALVE Mu33 To 2 "CCB-2 LINE 19-1A 2 "CCB-3 031/ C-6 2250 120 t 033 | x FEoM VALVE Mu33 To 2 "CCB-2 LINE 19-1A 2 "CCB-3 031/ C-6 2250 120 t 033 O | ||
f | |||
* L. | * L. | ||
l 8 | l 8 | ||
9 | 9 | ||
; | ; | ||
1 I | 1 I | ||
O | O | ||
\ | \ | ||
r Ll | r Ll | ||
IflSPECTI0fl PROGRAff CLASS 2 PAGE 1 0F l__ | IflSPECTI0fl PROGRAff CLASS 2 PAGE 1 0F l__ | ||
WELD If1SPECTI0ft SUPPORT If4SPECTI0fl | WELD If1SPECTI0ft SUPPORT If4SPECTI0fl | ||
Line 6,283: | Line 4,082: | ||
4 - - -- 1 - - - | 4 - - -- 1 - - - | ||
INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. | INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. | ||
0 9 | |||
0 | 4 j | ||
t , | |||
III-26 | III-26 | ||
o_ _. | o_ _. | ||
d I | |||
d | |||
I | |||
\ | \ | ||
v WELD Afl0 SUPPORT SYSTEM: PEACTOR COOLMIT DRAIN NiD GASEOUS EADWASTE SYSTEM AUXILIARY BUILDING | v WELD Afl0 SUPPORT SYSTEM: PEACTOR COOLMIT DRAIN NiD GASEOUS EADWASTE SYSTEM AUXILIARY BUILDING | ||
$ E e ew Wi2 a | $ E e ew Wi2 a 5 aps apf 5 e 558 EME 5 e | ||
ITEM LIflE o 22 w w ewz SUBSYSTEM /DESCRIPT!0rt fiUMBER fiUM9ER ISID 8 8SE ESU' I 16-0 3"11CD-33 040A J-7 15 120 SS FIOM VALVE RC1719A M3D SUI' PORT IICB-12-I!3 TIIRU PENETRATION 16 MID VALVE RC1719B I | |||
5 aps apf 5 | |||
e 558 EME 5 e | |||
ITEM LIflE o 22 w w ewz SUBSYSTEM /DESCRIPT!0rt fiUMBER fiUM9ER ISID 8 8SE ESU' I 16-0 3"11CD-33 040A J-7 15 120 SS FIOM VALVE RC1719A M3D SUI' PORT IICB-12-I!3 TIIRU PENETRATION 16 MID VALVE RC1719B | |||
I | |||
? | ? | ||
6 | 6 | ||
: i l 1 l | : i l 1 l | ||
f I | f I | ||
[ | [ | ||
C | C WmmQ5= | ||
o x8g-o P3w u ,Em s g c$ 2mgnd3 | |||
WmmQ5= | |||
o x8g-o P3w u ,Em s g | |||
c$ 2mgnd3 | |||
= | = | ||
. @ nog _5 AO5* | . @ nog _5 AO5* | ||
Line 6,341: | Line 4,115: | ||
" i HZ(A9 mod aEEc3 OM w OM o M= | " i HZ(A9 mod aEEc3 OM w OM o M= | ||
*5 d t"0In DG mGmOkC OOOt.1: | *5 d t"0In DG mGmOkC OOOt.1: | ||
i | i | ||
*m p | |||
*m | |||
p | |||
0TS : | 0TS : | ||
I, a | I, a | ||
1 h | 1 h | ||
a | a WELD AflD SUPP0R SYSTEM: REACER COOLNiT SYSTEM | ||
WELD AflD SUPP0R SYSTEM: REACER COOLNiT SYSTEM | |||
'i 0 Y | 'i 0 Y | ||
- e Ew ER | - e Ew ER | ||
Line 6,379: | Line 4,139: | ||
I i, | I i, | ||
I FROM 28" COLD LEG % REAC% R RCA-lA 2h"CCA-18 030 G-3 2185 580 SE COOLANT PUMP P36-3 TO VALVE RC33 FROM 28" COLD LEG % REACE R RCA-3A 2 "CCA-18 030 J-2 2185 580 ss COOLANT PUMP P36-4 TO VALVE RC35 FROM 28" COLD LEG W REACM R RCB-1A 2h"CCA-18 030 F-13 2185 580 ss COOLANT PUMP P36-1 TO VALVE RC34 FROM 28" COLD LEG TO REACE R RCB-3A 2 "CCA-18 030 J-12 2185 580 S@ | I FROM 28" COLD LEG % REAC% R RCA-lA 2h"CCA-18 030 G-3 2185 580 SE COOLANT PUMP P36-3 TO VALVE RC33 FROM 28" COLD LEG % REACE R RCA-3A 2 "CCA-18 030 J-2 2185 580 ss COOLANT PUMP P36-4 TO VALVE RC35 FROM 28" COLD LEG W REACM R RCB-1A 2h"CCA-18 030 F-13 2185 580 ss COOLANT PUMP P36-1 TO VALVE RC34 FROM 28" COLD LEG TO REACE R RCB-3A 2 "CCA-18 030 J-12 2185 580 S@ | ||
COOLANT PUMP P36-2 % RC41 | COOLANT PUMP P36-2 % RC41 O | ||
f 1 | |||
1 | |||
I1 1 l l [ | I1 1 l l [ | ||
Line 6,391: | Line 4,149: | ||
7 3 | 7 3 | ||
7 3 | 7 3 | ||
7 | 7 2 2 2 2 0 2 2 2 | ||
2 2 0 3 | |||
2 2 2 2 0 | |||
2 2 | |||
2 0 3 | |||
5~UiUG i J C T | 5~UiUG i J C T | ||
V 5 5 5 5 5 5 5 5 0 0 0 0 0 0 5 5 5 0 0 0 0 0 5 0 0=UWin I O | V 5 5 5 5 5 5 5 5 0 0 0 0 0 0 5 5 5 0 0 0 0 0 5 0 0=UWin I O | ||
Line 6,407: | Line 4,159: | ||
N 8 W 1 1 3 2 2 3 1 - - -'- - - - - 2 am E L | N 8 W 1 1 3 2 2 3 1 - - -'- - - - - 2 am E L | ||
D I | D I | ||
- - - - - - N | - - - - - - N | ||
- - - - S E- P E | - - - - S E- P E | ||
C | C T | ||
T | |||
- - - - - I | - - - - - I | ||
- - - - - - - O D- N 2-2 1 - - 1 - - - - - - | |||
- - - - - - - O D- N | |||
2-2 1 - - 1 - - - - - | |||
- - - - am S C | - - - - am S C | ||
L | L | ||
.M U A P S | .M U A P S | ||
- - P S | - - P S | ||
- - - - O | - - - - O I | ||
I | |||
- - - - - - - - am a. R 1 I T | - - - - - - - - am a. R 1 I T | ||
- t.V I 2 | - t.V I 2 | ||
Line 6,434: | Line 4,177: | ||
- - - - - - - - P s.M E C | - - - - - - - - P s.M E C | ||
T I | T I | ||
O | O | ||
- N b.e AI OWI NN NEN DS LS P TDP | - N b.e AI OWI NN NEN DS LS P TDP SE HSE UC I C PT SPT P E OM SRM RI Y I TN R SI SCN E M TOI M P PU EDM A A EM M.E U R G R | ||
M K E O O S CF NF O O 1 D2 2 E5 S5 U% 0 P | |||
SE HSE UC I C PT SPT P E OM SRM RI Y I TN R SI SCN E M TOI M P PU EDM A A EM M.E U R G R | W E PO F L OF D R E T | ||
M K E O O S | |||
CF NF O O 1 D2 2 E5 S5 | |||
U% 0 P | |||
W E PO F | |||
L OF D R E T | |||
_4 | _4 | ||
. I t | |||
. I | |||
t | |||
] | ] | ||
1 ! | 1 ! | ||
t WELDAflDSUPPO - | t WELDAflDSUPPO - | ||
SYSTEM: REACTOR cooumT SYSTEM _ | SYSTEM: REACTOR cooumT SYSTEM _ | ||
0 U | 0 U e Sw HR J | ||
e Sw HR J | |||
= _, p 3 _, p 3 - 5 <9 | = _, p 3 _, p 3 - 5 <9 | ||
,' e M$N E5W $5 ITEM LINE g ggg gg5 | ,' e M$N E5W $5 ITEM LINE g ggg gg5 | ||
=os q, | =os q, | ||
SUBSYSTEM / DESCRIPTION NUMBER NUMBER 'ISID u = o n- 2-2 PZ-0 10" DIA. 030 D-5 2250 670 - | SUBSYSTEM / DESCRIPTION NUMBER NUMBER 'ISID u = o n- 2-2 PZ-0 10" DIA. 030 D-5 2250 670 - | ||
PRESSURIZER SURGE LINE | PRESSURIZER SURGE LINE PZ-1 3"CCA-8 030 B-4 2155 648 SS FROM PRESSURIZER TIIRU VALVE RCll TO VALVE RC2A PZ-2 2 "CCA-8 030 B-3 2155 648 SS FROM PRESSURIZER TO VALVE PZ-3 6"CCA-8 030 B-5 2155 648 - | ||
PZ-1 3"CCA-8 030 B-4 2155 648 SS FROM PRESSURIZER TIIRU VALVE RCll TO VALVE RC2A PZ-2 2 "CCA-8 030 B-3 2155 648 SS FROM PRESSURIZER TO VALVE PZ-3 6"CCA-8 030 B-5 2155 648 - | |||
RC13B PZ-4 4"CCA-8 030 B-5 2155 648 SS FROM PRESSURIZER TO VALVE PZ-5 6"CCA-8 ' | RC13B PZ-4 4"CCA-8 030 B-5 2155 648 SS FROM PRESSURIZER TO VALVE PZ-5 6"CCA-8 ' | ||
030 B-5 2155 648 - | 030 B-5 2155 648 - | ||
! RCl3A PZ-6 4"CCA-8 030 B-6 2155 648 SS J. ' | ! RCl3A PZ-6 4"CCA-8 030 B-6 2155 648 SS J. ' | ||
i l | |||
i | l | ||
[. | [. | ||
\ | \ | ||
r | r | ||
=4 - | =4 - | ||
1 P | 1 P | ||
ll5PECTI0tl PROGRN1 CLASS 1 PAGE 2 0F 1 WELD IflSPECTI0tlr SUPPORT ItiSPECTI0ff | ll5PECTI0tl PROGRN1 CLASS 1 PAGE 2 0F 1 WELD IflSPECTI0tlr SUPPORT ItiSPECTI0ff | ||
, m | , m | ||
, m- . | , m- . | ||
LAJ m _J | LAJ m _J GW uu | ||
-e s m | |||
-e s | ff e e m e MZ F- H F-- M B B e SC at-J tr rt i EEC 28 a" E D 2 $ $ . REMARKS 1.000 4 - - - - - - - | ||
m | |||
ff e e m e | |||
MZ F- H F-- M B B e SC at-J tr rt i EEC 28 a" E D 2 $ $ . REMARKS | |||
1.000 4 - - - - - - - | |||
1 0.438 2 1 - - - | 1 0.438 2 1 - - - | ||
1 1 - - | 1 1 - - | ||
0.375 - - - - - | 0.375 - - - - - | ||
0.562 6 - - - - | 0.562 6 - - - - | ||
1 - - - - | 1 - - - - | ||
0.438 - - - - - | 0.438 - - - - - | ||
0.562 3 - - - - | 0.562 3 - - - - | ||
1 - - - | 1 - - - | ||
0.438 1 - - - - - | 0.438 1 - - - - - | ||
16 1 - - - | 16 1 - - - | ||
3 1 - | 3 1 - | ||
1 inspect 25% OF WELDS AND SUPPORTS PER CODE. | 1 inspect 25% OF WELDS AND SUPPORTS PER CODE. | ||
e l | |||
I | |||
e | : 1 III-29 | ||
: 1 | |||
1 i | 1 i | ||
WELD AtlD SUPPORT SYSTEM: REACTOR CooLA!iT SYSTEM _ | WELD AtlD SUPPORT SYSTEM: REACTOR CooLA!iT SYSTEM _ | ||
,.' y, w G GQ t | ,.' y, w G GQ t n | ||
n | |||
- arm 5e ars 5~ d! | - arm 5e ars 5~ d! | ||
e M5s Ese $f ITEM NUMBER LINE NUMBER ISID a | e M5s Ese $f ITEM NUMBER LINE NUMBER ISID a | ||
8 ct w w 8SE a: w z ESW rJ fs SUBSYSTEM / DESCRIPTION - | 8 ct w w 8SE a: w z ESW rJ fs SUBSYSTEM / DESCRIPTION - | ||
PZ-7 2 " DIA. 030 E-8 2250 - - | PZ-7 2 " DIA. 030 E-8 2250 - - | ||
PRESSURIZER SPRAY lit 4E PZ-7A 2 " DIA. 030 C-8 2250 - - | PRESSURIZER SPRAY lit 4E PZ-7A 2 " DIA. 030 C-8 2250 - - | ||
; | ; | ||
=, | =, | ||
i 74C-0 1 "CCA-10 033/ G-ll 2185 580 SS PROM 10"GCB-10 lit 1E TilRU VALVE D1127 36, PE!;ETRATIO!I 74C M4D 030 VALVE RC51 To 2 " PRESSURE SPRAY 74C-1 l\"CCA-7 033/ D-5 2155 400 SS' jf_ LIFIE If;CLUDIIIG WELD 'l' 030 | i 74C-0 1 "CCA-10 033/ G-ll 2185 580 SS PROM 10"GCB-10 lit 1E TilRU VALVE D1127 36, PE!;ETRATIO!I 74C M4D 030 VALVE RC51 To 2 " PRESSURE SPRAY 74C-1 l\"CCA-7 033/ D-5 2155 400 SS' jf_ LIFIE If;CLUDIIIG WELD 'l' 030 h | ||
h | |||
l e s . | l e s . | ||
l | l | ||
'l flSPECTI0il PROGRAft | 'l flSPECTI0il PROGRAft CLASS 1 PAGE 3 0F L i | ||
CLASS 1 PAGE 3 0F L i | |||
f WELD IflSPECTI0ti SUPPORT IflSPECTI0fl | f WELD IflSPECTI0ti SUPPORT IflSPECTI0fl | ||
$ 03 a | $ 03 a g ' MM ne .8 - | ||
g ' MM ne .8 - | |||
e e? | e e? | ||
e eT | e eT | ||
? T F om m - - - . | ? T F om m - - - . | ||
h EC 88 8 !E D 2 at at b REMARKS | h EC 88 8 !E D 2 at at b REMARKS 7 | ||
0.375 - 10 - - - - | |||
0.375 - - | 0.375 - - | ||
- 2 - - - | - 2 - - - | ||
1 | 1 12 - - - - - - | ||
12 - - - - - - | |||
7 INSPECT 25% OF WELDS AND SUPPORTS PER CODE. | 7 INSPECT 25% OF WELDS AND SUPPORTS PER CODE. | ||
O.281 - - | O.281 - - | ||
ALL - - - - | ALL - - - - | ||
Line 6,584: | Line 4,259: | ||
ALL - - - - | ALL - - - - | ||
ALL - | ALL - | ||
ALL - - - - | ALL - - - - | ||
ALL - | ALL - | ||
ALL WELDS AND SUPPORTS - | ALL WELDS AND SUPPORTS - | ||
PRESSURE TEST PERFORMED WITH PRIMARY SYSTEM HYDRO. | PRESSURE TEST PERFORMED WITH PRIMARY SYSTEM HYDRO. | ||
1 | 1 6 | ||
O 9 | |||
9 | |||
1 | 1 | ||
. 1 l | . 1 l | ||
III-30 | III-30 | ||
r, . _ - | r, . _ - | ||
1 | 1 | ||
{ | { | ||
d WELD AtlD SUPPORT | d WELD AtlD SUPPORT SYSTEM: REACTOR COOLANT SYSTEM J $ E Q Ew EE a 5 aps ap5 5 | ||
SYSTEM: REACTOR COOLANT SYSTEM J $ E Q Ew EE a | |||
'' e 250? EME $ | '' e 250? EME $ | ||
r ITEM LINE o ce w w a: w =c SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ES& I FROM SUPPORT 4Q,CCB-16-Jil 32-0 3"IICB-32 040A C-10 5 AMB SS | r ITEM LINE o ce w w a: w =c SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ES& I FROM SUPPORT 4Q,CCB-16-Jil 32-0 3"IICB-32 040A C-10 5 AMB SS | ||
- TIIRU PENETRATION 32 70 SUPPORT 40-IISC-71-lil FROM SUPPORT 40-IICB-22-II3 48-0 3"HCC-22 040A 11 - 3 25 200 SS | - TIIRU PENETRATION 32 70 SUPPORT 40-IISC-71-lil FROM SUPPORT 40-IICB-22-II3 48-0 3"HCC-22 040A 11 - 3 25 200 SS | ||
'IIIRU PENETRATION 48 AND VALVE RC229A TO SUPPORT 40-IICC-85-lil | 'IIIRU PENETRATION 48 AND VALVE RC229A TO SUPPORT 40-IICC-85-lil | ||
= | = | ||
1 tI 4 | |||
1 | Wt O | ||
I i | |||
tI | |||
4 | |||
Wt | |||
i | |||
t b | t b | ||
It1SPECTI0tl PROGRAff l | It1SPECTI0tl PROGRAff l | ||
CLASS 2 PAGE 4 0F 4 | CLASS 2 PAGE 4 0F 4 WELD ItiSPECTI0tl SUPPORT lilSPECTI0tl 0G a h EM eR - | ||
e e eY b?M ak u - .- - u? ? Y | |||
WELD ItiSPECTI0tl SUPPORT lilSPECTI0tl 0G a h EM eR - | |||
e e eY | |||
b?M ak u - .- - u? ? Y | |||
[i v == ea a = 2 = se at t : REMARKS 0.120 - | [i v == ea a = 2 = se at t : REMARKS 0.120 - | ||
3 - - - | 3 - - - | ||
1 - - - INSPECT MI!!IMUM OF 25% OF WELDS AllD SUPPORTS PER CODI' O.120 - | 1 - - - INSPECT MI!!IMUM OF 25% OF WELDS AllD SUPPORTS PER CODI' O.120 - | ||
4 - - - - - 1 - Ir;SPECT MINIMUM OF 25%.OF WELDS A!;D SUPPORTS PER CODE | 4 - - - - - 1 - Ir;SPECT MINIMUM OF 25%.OF WELDS A!;D SUPPORTS PER CODE e | ||
e | |||
\ | \ | ||
4 O | 4 O | ||
i | i | ||
: i. l III-31 | : i. l III-31 | ||
P' | P' 4 | ||
WELD AtlD SUPPORT SYSTEM: REFUELING CANAL SYSTEM | |||
'i C U z | |||
Ew | |||
-e EU a | |||
'i C U | |||
-e EU | |||
a | |||
\ | \ | ||
8 $US $U5 E i ITEM LIf1E E E$$ &5h U SUBSYSTEM /DESCRIPTI0ft fiUMBER fiUMBER ISID 8 8SE ESW' I FROM VALVE Dl!88 TIIRU PEN. 49 TO 49-0 8"!!CB-11 033 F-4 20 100 - | 8 $US $U5 E i ITEM LIf1E E E$$ &5h U SUBSYSTEM /DESCRIPTI0ft fiUMBER fiUMBER ISID 8 8SE ESW' I FROM VALVE Dl!88 TIIRU PEN. 49 TO 49-0 8"!!CB-11 033 F-4 20 100 - | ||
VALVE DlI87 INCL'JDING FW3 9 | |||
VALVE DlI87 INCL'JDING FW3 | F a | ||
l. | |||
. | |||
i l, | i l, | ||
i | i l | ||
l | |||
I I | I I | ||
\ | \ | ||
r | r | ||
l\ | l\ | ||
I, BilSPECTI0tl PROGRN1 CLASS 2 PAGE 1 0F 1_ | |||
I, BilSPECTI0tl PROGRN1 | |||
CLASS 2 PAGE 1 0F 1_ | |||
WELD INSPECTI0tl SUPPORT IrlSPECTI0tl | WELD INSPECTI0tl SUPPORT IrlSPECTI0tl | ||
'J M-5 | 'J M-5 un xx d | ||
.o ::= .a .a NN awD x H H H x? mT 9 9 Ji EC BS @ E D 2 Sb Sb b b REMARKS 0,148 - | |||
un xx d | |||
.o ::= .a .a | |||
NN awD x H H H x? mT 9 9 Ji EC BS @ E D 2 Sb Sb b b REMARKS 0,148 - | |||
3 - - - i - - - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. | 3 - - - i - - - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. | ||
I | I h | ||
O | |||
h | |||
. 1 TTT-12 | . 1 TTT-12 | ||
; | ; | ||
WELD AtlD SUPPORT | WELD AtlD SUPPORT | ||
Line 6,721: | Line 4,332: | ||
, SUBSYSTEM /DESCRIPTI0ti tiUMBER tlUMBER ISID 8 8SE OS" $ | , SUBSYSTEM /DESCRIPTI0ti tiUMBER tlUMBER ISID 8 8SE OS" $ | ||
FPOM VALVE SW1366 Tl!RU PEN. 5 5-0 8"IIBB-7 041 E-3 70 85 - | FPOM VALVE SW1366 Tl!RU PEN. 5 5-0 8"IIBB-7 041 E-3 70 85 - | ||
1 FlOM VALVE SW1368 TilRU PEN. 6 6-0 8"IIBB-7 041 E-5 70 85 - | 1 FlOM VALVE SW1368 TilRU PEN. 6 6-0 8"IIBB-7 041 E-5 70 85 - | ||
I FROM VALVE SW1367 T!!RU PEN. 7 7-0 8"IIBB-7 041 E-6 70 85 - | I FROM VALVE SW1367 T!!RU PEN. 7 7-0 8"IIBB-7 041 E-6 70 85 - | ||
5' ROM PEN. 9 TO VALVE SW1356 9-0 8"IIBB-ll 041 C-1 65 100 - | 5' ROM PEN. 9 TO VALVE SW1356 9-0 8"IIBB-ll 041 C-1 65 100 - | ||
_ FROM PEN.10 TO VALVE SW1358 10-0 8"11BB-11 041 C-3 65 100 - | _ FROM PEN.10 TO VALVE SW1358 10-0 8"11BB-11 041 C-3 65 100 - | ||
f FROM PEN. 11 TO VALVE SW1357 11-0 8"IIBB-11 041 C-5 65 100 - | f FROM PEN. 11 TO VALVE SW1357 11-0 8"IIBB-11 041 C-5 65 100 - | ||
{ | { | ||
e 6 | e 6 | ||
3 k | 3 k | ||
k | k | ||
Line 6,739: | Line 4,344: | ||
P i | P i | ||
IflSPECTI0ff PROGRAft i. | IflSPECTI0ff PROGRAft i. | ||
CLASS 2 PAGE 1 0F _1 m m WELD IflSPECTIOff SUPPORT IflSPECTI0ft La mn - | |||
CLASS 2 PAGE 1 | |||
0F _1 m m WELD IflSPECTIOff SUPPORT IflSPECTI0ft La mn - | |||
tr LAJ M J t) Z LAJ o | tr LAJ M J t) Z LAJ o | ||
;.: Mx my .c en m ut m | ;.: Mx my .c en m ut m | ||
Line 6,749: | Line 4,351: | ||
3 - - - | 3 - - - | ||
2 - - - | 2 - - - | ||
0.322 3 I | 0.322 3 I 1 - - - | ||
1 - - - | |||
0.322 - | 0.322 - | ||
2 - - - | 2 - - - | ||
Line 6,770: | Line 4,369: | ||
WELDS AND SUPPORTS PER CODE 1 | WELDS AND SUPPORTS PER CODE 1 | ||
l l | l l | ||
l | l O | ||
e Y | |||
b III-33 I | |||
III-33 I | |||
i . | i . | ||
P C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES (continued) s | |||
P | |||
C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES (continued) s | |||
+ | + | ||
l | l | ||
: 2. Component Nondestructive Examination Tables. | : 2. Component Nondestructive Examination Tables. | ||
This section provides a tabulation of all component welds and supports within the boundaries of the safety related systems, both those welds and supports that are tested in accordance | This section provides a tabulation of all component welds and supports within the boundaries of the safety related systems, both those welds and supports that are tested in accordance with the requirements of Subsection IWB or IWC, as appropriate, i of the ASME Boiler and Pressure Vessel Code,1977 Edition, and Addenda through Summer 1978 Addenda; and those welds and sup-ports for which the Code requirements have been found to be impractical. The Tables are arranged by Class and System. | ||
with the requirements of Subsection IWB or IWC, as appropriate, i of the ASME Boiler and Pressure Vessel Code,1977 Edition, and Addenda through Summer 1978 Addenda; and those welds and sup-ports for which the Code requirements have been found to be impractical. The Tables are arranged by Class and System | |||
l III-34 | l III-34 | ||
PREPARED B M h h f,, DATE V/ca]B PAGE 1 OF 3 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY DATEf/2/fD UNIT NO. 1 ISID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L d COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER ITEM THICKNESS $5 NOTE COORD NO. CAT. (INCIES) M$ NO. | PREPARED B M h h f,, DATE V/ca]B PAGE 1 OF 3 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY DATEf/2/fD UNIT NO. 1 ISID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L d COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER ITEM THICKNESS $5 NOTE COORD NO. CAT. (INCIES) M$ NO. | ||
NAMES REACTOR VESSEL W UPPER SHELL FLANGE TO UPPER SHELL 1 154616E E-8 Bl.30 B-A 12.000 MIN VOL I MK-7 to MK-169 W UPPER SHELL TO SHELL MK-169 to 1 154625E G-8 Bl.ll B-A 8.438 MIN. VOL I MK-170 ' | NAMES REACTOR VESSEL W UPPER SHELL FLANGE TO UPPER SHELL 1 154616E E-8 Bl.30 B-A 12.000 MIN VOL I MK-7 to MK-169 W UPPER SHELL TO SHELL MK-169 to 1 154625E G-8 Bl.ll B-A 8.438 MIN. VOL I MK-170 ' | ||
NUMBER:Tl W SHELL TO IDWER SHELL MK-170 to 1 154617E E-3 Bl.ll B-A 8.438 MIN VOL s MK-171 DRAWING COOE: D-8 W LOWER SHELL TO LOWER HEAD MK-171 TO 1 15'4625E G-10 Bl.ll B-A 5.375 NOM VOL f | NUMBER:Tl W SHELL TO IDWER SHELL MK-170 to 1 154617E E-3 Bl.ll B-A 8.438 MIN VOL s MK-171 DRAWING COOE: D-8 W LOWER SHELL TO LOWER HEAD MK-171 TO 1 15'4625E G-10 Bl.ll B-A 5.375 NOM VOL f | ||
$ MK-181 | $ MK-181 W IDWER HEAD WELD M-181 to MK-6 1 154623E D-7 Bl.21 B-A 5.375 NOM VOL DESIGN OPERATING (ACCESSIBLE, PRESSURE 2750 psig i W Z OUTLET NOZZLE TO SHELL MK-168 TO 1 154619E G-2 B3.90 B-D 12.175 NOM VOL (17) | ||
W IDWER HEAD WELD M-181 to MK-6 1 154623E D-7 Bl.21 B-A 5.375 NOM VOL DESIGN OPERATING (ACCESSIBLE, PRESSURE 2750 psig i W Z OUTLET NOZZLE TO SHELL MK-168 TO 1 154619E G-2 B3.90 B-D 12.175 NOM VOL (17) | |||
TEMPERATURE 608 0 F MK-169 B3.100 W X OUTLET NOZZLE TO SHELL MK-168 TO 1 154619E G-2 B3.90 B-D 12.175 NOM VOL (17) | TEMPERATURE 608 0 F MK-169 B3.100 W X OUTLET NOZZLE TO SHELL MK-168 TO 1 154619E G-2 B3.90 B-D 12.175 NOM VOL (17) | ||
MK-169 B3.100 W W/Z INLET NOZZLE TO SHELL MK-182 TO 1 154620E G-2 B3.90 B-D 12.175 NOM VOL (17) | MK-169 B3.100 W W/Z INLET NOZZLE TO SHELL MK-182 TO 1 154620E G-2 B3.90 B-D 12.175 NOM VOL (17) | ||
MK-169 B3.100 W Y/Z INLET NOZZLE TO SHELL MK-182 TO 1 154620E G-2 ,B3.90 B-D 12.175 NOM VOL (17) | MK-169 B3.100 W Y/Z INLET NOZZLE TO SHELL MK-182 TO 1 154620E G-2 ,B3.90 B-D 12.175 NOM VOL (17) | ||
MK-169 B3.100 W X/Y INLET NOZZLE TO SHELL MK-182 to 1 154620E G-2 B3.90 B-D 12.175 NOM VOL (17) | MK-169 B3.100 W X/Y INLET NOZZLE TO SHELL MK-182 to 1 154620E G-2 B3.90 B-D 12.175 NOM VOL (17) | ||
MK-169 33.100 | MK-169 33.100 EXAMINATION PERFORMED FROM VESSEL ID. - | ||
EXAMINATION PERFORMED FROM VESSEL ID. - | |||
e | e | ||
s - | s - | ||
PREPARED BYMe,s./-r / MATE g/r,j//W O.T ONENT NONDES E C M N N ION - | PREPARED BYMe,s./-r / MATE g/r,j//W O.T ONENT NONDES E C M N N ION - | ||
2 3 PAGE OF DAVIS-BESSE NUCLEAK POWER STATION REVIEWED BY p DATEf/2/fd UNIT NO. 1 ISID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : | 2 3 PAGE OF DAVIS-BESSE NUCLEAK POWER STATION REVIEWED BY p DATEf/2/fd UNIT NO. 1 ISID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : | ||
Line 6,832: | Line 4,406: | ||
W CONTROL ROD HOUSING WELD 69 154632E --- | W CONTROL ROD HOUSING WELD 69 154632E --- | ||
B14.10 B-O 0.649 SUR (O N. 7 PER-IPHERA :,) | B14.10 B-O 0.649 SUR (O N. 7 PER-IPHERA :,) | ||
S LIFTING LOG TO CLOSURE HEAD MK-34 3 154629E B-ll 38.10 B-H 3.5000 NOM SUR TO MK-24 | S LIFTING LOG TO CLOSURE HEAD MK-34 3 154629E B-ll 38.10 B-H 3.5000 NOM SUR TO MK-24 EXAMINATION PERFORMED FROM VESSEL ID. | ||
e | e | ||
._lL__ _ . . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ | ._lL__ _ . . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ | ||
Line 6,845: | Line 4,417: | ||
- i T | - i T | ||
F 2 :d0U V O | F 2 :d0U V O | ||
0 O L . | 0 O L . | ||
3 3 0 | 3 3 0 | ||
Line 6,865: | Line 4,436: | ||
O OD E E 0 P C B 9 5 M 3 2 R | O OD E E 0 P C B 9 5 M 3 2 R | ||
* U 6 ' | * U 6 ' | ||
A N 4 B E | A N 4 B E | ||
L 5 | L 5 | ||
Line 6,871: | Line 4,441: | ||
I C | I C | ||
U . E N O 4 L N N B E A S T S | U . E N O 4 L N N B E A S T S | ||
E N B I | E N B I S N I E V T V A O I D N | ||
S N I E V T V A O I D N | |||
( | ( | ||
G | G R | ||
S E T B R M N O U O P N I P T U M T P S E N I T A R L I L C E O S S R O E S O C D E / | |||
V D d O R N | V D d O R N | ||
# O R) A Md /2 T C | # O R) A Md /2 T C | ||
Line 6,887: | Line 4,454: | ||
- p Y S L X - | - p Y S L X - | ||
b | b | ||
# N F N | # N F N | ||
' O E g 0 O - | ' O E g 0 O - | ||
S f 1 I | S f 1 I | ||
T A | T A | ||
S E | S E | ||
8 | 8 i | ||
s p 8 I | |||
p 8 I | |||
T C | T C | ||
M V D G 0 E 4 R N 0 6 S 3 S O R : I 5 _ | M V D G 0 E 4 R N 0 6 S 3 S O R : I 5 _ | ||
S F O D T 7 E O A N T R A 2 R N C O R U | S F O D T 7 E O A N T R A 2 R N C O R U | ||
) Y L I A T B C E 1 O E E | ) Y L I A T B C E 1 O E E T R T C P R A D D N O U R E 4 E : G S E _ | ||
T R T C P R A D D N O U R E 4 E : G S E _ | |||
R W N R N N S P A E O : E I G E M P I P E B W I R E E V M M M A S P T _ | R W N R N N S P A E O : E I G E M P I P E B W I R E E V M M M A S P T _ | ||
- R E O A N | - R E O A N | ||
Line 6,909: | Line 4,470: | ||
R D | R D | ||
E D | E D | ||
P R C N I | |||
P R C | |||
N I | |||
i i 1 l gtI : !l i | i i 1 l gtI : !l i | ||
E . ) ) ) | E . ) ) ) | ||
TO 90 12 9 | TO 90 12 9 | ||
1 0 ON ( ( ( | 1 0 ON ( ( ( | ||
Line 6,929: | Line 4,481: | ||
0 O L , | 0 O L , | ||
S N 'T S ) | S N 'T S ) | ||
1 . | 1 . | ||
V OAES I M;E | V OAES I M;E | ||
Line 6,936: | Line 4,487: | ||
1 2 X T A 2 2 N C 1 1 O B B I - | 1 2 X T A 2 2 N C 1 1 O B B I - | ||
T C 1 2 E M . | T C 1 2 E M . | ||
S EO L L TN - - | S EO L L TN - - | ||
N I B B O - | N I B B O - | ||
Line 6,943: | Line 4,493: | ||
T NG O S EN C - | T NG O S EN C - | ||
R NI E OW T PA t | R NI E OW T PA t | ||
O MR R 1 | O MR R 1 P1 OD E C B N | ||
P1 OD E C B N | |||
R . M O AO U I EN N T L P CT E UI . C NN O 1 1 X U E "E N , | R . M O AO U I EN N T L P CT E UI . C NN O 1 1 X U E "E N , | ||
E "SSE D O | E "SSE D O | ||
B C E - | |||
B C | |||
E - | |||
"IVS S E | "IVS S E | ||
E S | E S | ||
A C , | A C , | ||
D A Y , | D A Y , | ||
F L D _ | F L D _ | ||
Line 6,975: | Line 4,518: | ||
T A | T A | ||
E E P T T O N A A M F I D D E S RM T / E A S W P X w | E E P T T O N A A M F I D D E S RM T / E A S W P X w | ||
Y S | Y S | ||
N T | N T | ||
Line 6,982: | Line 4,524: | ||
O C E | O C E | ||
O AL ' g 0 I I 7' - I LA 2 , | O AL ' g 0 I I 7' - I LA 2 , | ||
J | J i | ||
s T R A T T OC - 3 | |||
T R A T | |||
T OC - 3 | |||
- , p 8 N E 1 A OI 6 h | - , p 8 N E 1 A OI 6 h | ||
M CP G2 G 0 I M R Y 1 N 0 6 M U ne S O RT : - I 5 A L F O( DG T 7 E X O N. dY B B S | M CP G2 G 0 I M R Y 1 N 0 6 M U ne S O RT : - I 5 A L F O( DG T 7 E X O N. dY B B S | ||
A L | A L | ||
Line 6,996: | Line 4,533: | ||
T CP4 AM EUF | T CP4 AM EUF | ||
) | ) | ||
6 3 | 6 3 | ||
R O | R O | ||
O 3 C - | O 3 C - | ||
A R | A R | ||
E P | E P | ||
Line 7,013: | Line 4,548: | ||
* G S E E E E N N S P R W N I G E M A E O : | * G S E E E E N N S P R W N I G E M A E O : | ||
R E P I P E W A | R E P I P E W A | ||
I S P T E V M M R E R E O A D D | I S P T E V M M R E R E O A D D P R C N _ | ||
P R C N | |||
_ | |||
HH 1m | HH 1m | ||
8 PREPARED MM bwDATE 8//u)f3 COMPONENT NONDESTRUCTIVE EXAMINATION 1 i pA OF DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DATE[/ Mfg UNIT NO. 1 030 ISID NO. | |||
8 PREPARED MM bwDATE 8//u)f3 COMPONENT NONDESTRUCTIVE EXAMINATION 1 i | |||
pA OF DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DATE[/ Mfg UNIT NO. 1 030 ISID NO. | |||
CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : | CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : | ||
DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION ITEM THICKNESS $$ NOTE NO. NUMBER COORD NO. CAT. (INCHES) dE NO. | DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION ITEM THICKNESS $$ NOTE NO. NUMBER COORD NO. CAT. (INCHES) dE NO. | ||
Line 7,029: | Line 4,558: | ||
* E-2 W OUILET NOZZLE TO LOWER HEAD MK-65 2 151917E G-7 B3.130 B-B 8.000 NOM VOL i TO MK-7 33.140 DESIGN OPERATING I' W DRAIN TO LOWER HEAD MK-22 TO MK-7 1 151917E G-3 TA B-E 8.000 NOM VT-2 (18) | * E-2 W OUILET NOZZLE TO LOWER HEAD MK-65 2 151917E G-7 B3.130 B-B 8.000 NOM VOL i TO MK-7 33.140 DESIGN OPERATING I' W DRAIN TO LOWER HEAD MK-22 TO MK-7 1 151917E G-3 TA B-E 8.000 NOM VT-2 (18) | ||
PRESSURE 2750 psig S SUPPORT SKIRT TO LOWER HEAD MK-96 1 151917E H-10 38.30 B-H 1.750 NOM VOL (19) , | PRESSURE 2750 psig S SUPPORT SKIRT TO LOWER HEAD MK-96 1 151917E H-10 38.30 B-H 1.750 NOM VOL (19) , | ||
TEMPERATURE 608 0 F | TEMPERATURE 608 0 F I | ||
I f | |||
I | |||
f | |||
NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IBW-2500-1/IWC-2500-1. | NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IBW-2500-1/IWC-2500-1. | ||
EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | ||
s, .. | |||
PREPARED d %4_DATEf/74/po COMPONENT NONDESTRUCTIVE EXAMINATION , | PREPARED d %4_DATEf/74/po COMPONENT NONDESTRUCTIVE EXAMINATION , | ||
p DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY DATEf/p/pC UNIT NO. 1 I ID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : | p DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY DATEf/p/pC UNIT NO. 1 I ID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : | ||
Line 7,047: | Line 4,570: | ||
MK-5 - | MK-5 - | ||
W MANWAY NOZZLE TO UPPER HEAD MK-122 1 154594E D-10 B3.110 B-D 4.750 MIN ' VOL NUMBER: T2 TO MK-5 B3.120 ' | W MANWAY NOZZLE TO UPPER HEAD MK-122 1 154594E D-10 B3.110 B-D 4.750 MIN ' VOL NUMBER: T2 TO MK-5 B3.120 ' | ||
W 2 " RELIEF NOZZLE TO UPPER HEAD 1 154594E G-7 B3.110 B-D 4.750 MIN VOL i MK-31 TO MK-5 B3.120 | |||
: C-4 W SAFE END TO 2 " RELIEF NOZZLE MK-32 1 154594E C-7 B5.20 B-F .375 NOM VOL & | : C-4 W SAFE END TO 2 " RELIEF NOZZLE MK-32 1 154594E C-7 B5.20 B-F .375 NOM VOL & | ||
.j TO MK-31 SUR W 3" RELIEF NOZZLE TO UPPER HEAD 2 154594E F-F B3.110 B-D 4.750 NOM VOL DESIGN OPERATING MK-124 TO MK-5 33.120 PRESSURE 2750 psig W SAFE END TO 3" RELIEF NOZZLE 2 154608E E-7 35.20 B-F .938 NOM VOL & | .j TO MK-31 SUR W 3" RELIEF NOZZLE TO UPPER HEAD 2 154594E F-F B3.110 B-D 4.750 NOM VOL DESIGN OPERATING MK-124 TO MK-5 33.120 PRESSURE 2750 psig W SAFE END TO 3" RELIEF NOZZLE 2 154608E E-7 35.20 B-F .938 NOM VOL & | ||
MK-125 TO MK-124 SUR TEMPERATURE 608 Op W SPRAY NOZZLE TO UPPER HEAD MK-9 TO 1 154594E G-5 33.110 B-D 4.750 MIN VOL MK-5 33.120 W SAFE END TO SPRAY NOZZLE MK-45 TO 1 154601E C-7 B5.20 B-F .813 NOM VOL & j MK-9 SUR l W LIFT LOG TO UPPER HEAD MK-47 TO 2 154594E H-1 38.20 B-H 3.60,5 MIN SUR f MK-5 W UPPER HEAD TO SHELL MK-5 to MK-1 1 154592E D-10 32.10 B-B 4.750 MIN L'OL W SHELL LONGITUDINAL WELD MK-1 1 154596E F-2 32.12 B-B 6.500 NOM 10L (21) | MK-125 TO MK-124 SUR TEMPERATURE 608 Op W SPRAY NOZZLE TO UPPER HEAD MK-9 TO 1 154594E G-5 33.110 B-D 4.750 MIN VOL MK-5 33.120 W SAFE END TO SPRAY NOZZLE MK-45 TO 1 154601E C-7 B5.20 B-F .813 NOM VOL & j MK-9 SUR l W LIFT LOG TO UPPER HEAD MK-47 TO 2 154594E H-1 38.20 B-H 3.60,5 MIN SUR f MK-5 W UPPER HEAD TO SHELL MK-5 to MK-1 1 154592E D-10 32.10 B-B 4.750 MIN L'OL W SHELL LONGITUDINAL WELD MK-1 1 154596E F-2 32.12 B-B 6.500 NOM 10L (21) | ||
( | ( | ||
NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. | NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. | ||
EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD. | EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD. | ||
} | } | ||
PREPARED ua/s b DATE Vdd[fd COMPONENT NONDESTRUCTIVE EXAMINATION | PREPARED ua/s b DATE Vdd[fd COMPONENT NONDESTRUCTIVE EXAMINATION | ||
* PAGE 2 op 3 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DATE f/%/yp UNIT NO. 1 i ISID NO. 030 CLASS 1 SYSTEM REACIOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER ITEM THICKNESS $$ NOTE COORD NO. CAT. (INCHES) 3E NO. | * PAGE 2 op 3 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DATE f/%/yp UNIT NO. 1 i ISID NO. 030 CLASS 1 SYSTEM REACIOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER ITEM THICKNESS $$ NOTE COORD NO. CAT. (INCHES) 3E NO. | ||
NAME: PRESSURIZER W- LEVEL SENSING NOZZLE TO SHELL 3 154592E C-8 NA B-E NA VT-2 (18) | NAME: PRESSURIZER W- LEVEL SENSING NOZZLE TO SHELL 3 154592E C-8 NA B-E NA VT-2 (18) | ||
MK-132 'IO MK-1 W SHELL TO SHELL WELD MK-1 TO MK-2 1 154593E H-7 B2.ll B-B 6.500 NOM- VOL | MK-132 'IO MK-1 W SHELL TO SHELL WELD MK-1 TO MK-2 1 154593E H-7 B2.ll B-B 6.500 NOM- VOL W SHELL LONGITUDINAL WELD MK-2 1 154596E F-2 B2.12 B-B 6.500 NOM VOL (21) | ||
W SUPPORT TO SHELL MK-126 TO MK-3 8 154592E F-ll B8.20 B-H NA SUR DRAWING COORD: C-4 W SHELL TO SHELL WELD MK-2 TO MK-3 1 154593E H-7 B2,11 B-B 6.500 NOM VOL i W SHELL LONGITUDINAL WELD MK-3 1 154596E F-2 B2.2 B-B 6.500 NOM VOL (21) | W SUPPORT TO SHELL MK-126 TO MK-3 8 154592E F-ll B8.20 B-H NA SUR DRAWING COORD: C-4 W SHELL TO SHELL WELD MK-2 TO MK-3 1 154593E H-7 B2,11 B-B 6.500 NOM VOL i W SHELL LONGITUDINAL WELD MK-3 1 154596E F-2 B2.2 B-B 6.500 NOM VOL (21) | ||
W SHELL TO HEATER BELT MK-3 TO MK-4 1 154593E H-7 32,11 DESIGN OPERATING B-B 6,500 NOM VOL AND MK-41 PRESSURE 2750 psig W HEATER BELT FORGING TO HEATER BELT 4 154599E D-2 B2.12 B-B 7,500 NOM VOL (21) | W SHELL TO HEATER BELT MK-3 TO MK-4 1 154593E H-7 32,11 DESIGN OPERATING B-B 6,500 NOM VOL AND MK-41 PRESSURE 2750 psig W HEATER BELT FORGING TO HEATER BELT 4 154599E D-2 B2.12 B-B 7,500 NOM VOL (21) | ||
Line 7,071: | Line 4,588: | ||
M THERMOMETER WELL TO SHELL MK-29 TO 154592E 1 (I-7 NA B-E 1A LT-2 (18) | M THERMOMETER WELL TO SHELL MK-29 TO 154592E 1 (I-7 NA B-E 1A LT-2 (18) | ||
:4K-4 W LEVEL SENSING NOZZLE TO SHELL MK-132 3 154592E E-9 t B4.20 B-E NA /T-2 :18) | :4K-4 W LEVEL SENSING NOZZLE TO SHELL MK-132 3 154592E E-9 t B4.20 B-E NA /T-2 :18) | ||
TO MK-4 t | TO MK-4 t i | ||
NO SECTION XI CATEGORY AND/'OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. | |||
EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD. | EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD. | ||
) i ' }I( ;, | ) i ' }I( ;, | ||
Line 7,086: | Line 4,598: | ||
1 $E 2) | 1 $E 2) | ||
- - 5 L L LR F 2 8S3i T2 O V( V O | - - 5 L L LR F 2 8S3i T2 O V( V O | ||
V OU O VS | V OU O VS 0 O L - | ||
0 O L - | |||
3 ' S N N M 3 0 . NTS) I I O V CAES M M N | 3 ' S N N M 3 0 . NTS) I I O V CAES M M N | ||
. E I MNE 0 0 | . E I MNE 0 0 | ||
Line 7,096: | Line 4,606: | ||
I BT( A 4 4 1 S N I | I BT( A 4 4 1 S N I | ||
I . | I . | ||
X T E B DD F | X T E B DD F A B B BB B N C O | ||
A B B BB B N C O | |||
I T | I T | ||
C 0 1 00 0 E M . | C 0 1 00 0 E M . | ||
2 1 34 S EO 2, TN 4 2 33 5 N I B B BB B O | 2 1 34 S EO 2, TN 4 2 33 5 N I B B BB B O | ||
^I D T R A T O 9 | ^I D T R A T O 9 4 7 7 T NG O - - - | ||
4 7 7 T NG O - - - | |||
S C E I C C EN - | S C E I C C EN - | ||
R NI E OW W PA 9 O MR R E E E E / | R NI E OW W PA 9 O MR R E E E E / | ||
Line 7,127: | Line 4,633: | ||
E R E H | E R E H | ||
E - R HK UO AK F - | E - R HK UO AK F - | ||
T T SM ST SM | T T SM ST SM A A M " | ||
A A M " | |||
D D E S T / W W W W uY S W k | D D E S T / W W W W uY S W k | ||
- c/ | - c/ | ||
Line 7,136: | Line 4,640: | ||
I 1 T A | I 1 T A | ||
E Z | E Z | ||
4 | 4 s | ||
p 8 0 | |||
M I C G 6 h S R | M I C G 6 h S R | ||
O R | O R | ||
Line 7,144: | Line 4,647: | ||
N I | N I | ||
0 5 | 0 5 | ||
6 S F S D T 7 E A N S R A 2 R _ | 6 S F S D T 7 E A N S R A 2 R _ | ||
Y L I E O R U B C R 2 O E E T _ | Y L I E O R U B C R 2 O E E T _ | ||
. T P T C P R A _ | . T P T C P R A _ | ||
D D N O U R __ | D D N O U R __ | ||
E | E E E E : G S _ | ||
E E E : G S | |||
_ | |||
R W N R N N S P A E O : E I G E M _ | R W N R N N S P A E O : E I G E M _ | ||
P I P E B W I R E T | P I P E B W I R E T | ||
E V M M M A S P _ | E V M M M A S P _ | ||
A U R E R E O A P R C N N D D ba | |||
A U R E | |||
R E O A P R C N N D D ba | |||
: i. - | : i. - | ||
PREPARED BY pak -fz DATE'//ga/fd COMPONENT NONDESTRUCTIVE EXAMINATION , | PREPARED BY pak -fz DATE'//ga/fd COMPONENT NONDESTRUCTIVE EXAMINATION , | ||
DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWED BY -[ DATEf/2/f0 UNIT NO. 1 f ISID NO. | DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWED BY -[ DATEf/2/f0 UNIT NO. 1 f ISID NO. | ||
CLASS 1 SYSTEM VARIOUS REV. O, 2-15-80 COMPONENT SECTION XI SECTION DRAWING BASE MAT'L 8 ; | CLASS 1 SYSTEM VARIOUS REV. O, 2-15-80 COMPONENT SECTION XI SECTION DRAWING BASE MAT'L 8 ; | ||
COMPONENT INFORMATION ITEM THICKNESS Oi 5 NOTE | COMPONENT INFORMATION ITEM THICKNESS Oi 5 NOTE W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) dE NO. | ||
W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) dE NO. | |||
I NAME: CLASS 1 VALVES VALVES DH-ll, DH-12 2 =--- =- --- | I NAME: CLASS 1 VALVES VALVES DH-ll, DH-12 2 =--- =- --- | ||
B12.40 B-M-2 NA VT-1 (19) | B12.40 B-M-2 NA VT-1 (19) | ||
VALVES DH-21, DH-23 2 ' | VALVES DH-21, DH-23 2 ' | ||
B12.40 B-M-2 NA 7T-1 '(19) | B12.40 B-M-2 NA 7T-1 '(19) | ||
.SEE DESCRIPTION VALVES CF-30, CF-31, CF-28, CF-29 4 ------- --- | .SEE DESCRIPTION VALVES CF-30, CF-31, CF-28, CF-29 4 ------- --- | ||
B12.40 B-M-2 | B12.40 B-M-2 | ||
* NA VT-1 (19) | * NA VT-1 (19) | ||
DRAWING COORD: VALVES CF-1A, CF-1B 2 | DRAWING COORD: VALVES CF-1A, CF-1B 2 B12.40 B-M-2 NA VT-1 (19) | ||
B12.40 B-M-2 NA VT-1 (19) | |||
'VARIOUS d | 'VARIOUS d | ||
VALVES DH-1A, DH-1B 2 ------- --- | VALVES DH-1A, DH-1B 2 ------- --- | ||
Line 7,193: | Line 4,677: | ||
PRESSURE psi 9 VALVES RC-13A,'RC-13B ' | PRESSURE psi 9 VALVES RC-13A,'RC-13B ' | ||
'2 -- | '2 -- | ||
B12.40 B-M-2 O | B12.40 B-M-2 O | ||
NA VT-1 (19) | NA VT-1 (19) | ||
TEMPERATURE F i | TEMPERATURE F i | ||
i j | i j | ||
(19) EXAMINATION PERFORMED ON ONE COMPONENT ONLY. ' | (19) EXAMINATION PERFORMED ON ONE COMPONENT ONLY. ' | ||
9 | 9 | ||
: 1. _ - -_ __--_--__- __ _ __ _ | : 1. _ - -_ __--_--__- __ _ __ _ | ||
E . | E . | ||
TO 0 ON ( | TO 0 ON ( | ||
8 N | 8 N 5 | ||
1 5E 2 2 i8O3i T | |||
2 i8O3i T | |||
V | V | ||
~ 3 , | ~ 3 , | ||
3 O L . . | 3 O L . . | ||
0 ' S X | 0 ' S X | ||
. NTS) A V OAES M | . NTS) A V OAES M E I MNE 0 O R T KH 7 N CECC 5 ESI N p D SAHI 0 I BT( | ||
E I MNE 0 O R T KH 7 N CECC 5 ESI N p D SAHI 0 I BT( | |||
S I | S I | ||
I . | I . | ||
X T A ~ | X T A ~ | ||
Line 7,229: | Line 4,701: | ||
T C | T C | ||
E M . | E M . | ||
N S EO O TN I N I TO AI D NT R IA T O 1 | N S EO O TN I N I TO AI D NT R IA T O 1 MT NG O AS EN C 0 X NI ER OW 0 | ||
MT NG O AS EN C 0 | |||
X NI ER OW 0 | |||
5 E PA 4 2 . | 5 E PA 4 2 . | ||
EW MR R 1 - 2 9 | EW MR R 1 - 2 9 | ||
Line 7,240: | Line 4,708: | ||
L 7 0 - W 0 I SCT O 0 EUI O . 5 R DNN C O 2 E N U N - P OE E B ES R W T S O I C TE C E NB E P E - Y L S NS C B N OI N A I PV E T MA G , | L 7 0 - W 0 I SCT O 0 EUI O . 5 R DNN C O 2 E N U N - P OE E B ES R W T S O I C TE C E NB E P E - Y L S NS C B N OI N A I PV E T MA G , | ||
OD R N E C E I D M O E N C | OD R N E C E I D M O E N C | ||
* E N S V A L O D I W A I L GW V T E A R | * E N S V A L O D I W A I L GW V T E A R | ||
O P W E R M I B E E R E M P R C L S B N D T E A E A D T M T E C E C D g H E T U | O P W E R M I B E E R E M P R C L S B N D T E A E A D T M T E C E C D g H E T U | ||
Line 7,250: | Line 4,717: | ||
C dP 2 I O N E | C dP 2 I O N E | ||
[/E E D | [/E E D | ||
O N | O N | ||
/ | / | ||
Line 7,256: | Line 4,722: | ||
O C | O C | ||
T T A K A A M N D D E S Y A T / R T | T T A K A A M N D D E S Y A T / R T | ||
,o S W O | ,o S W O Y G E S E G N F T A O g 0 A R | ||
Y G E | |||
S E G | |||
N F T A O g 0 A R | |||
[*, 2 I | [*, 2 I | ||
T R | T R | ||
EK 2 | EK 2 | ||
1 | 1 i | ||
S 5 C | |||
I S O | I S O | ||
T A TN B P 2 X M G dJ S S F N | T A TN B P 2 X M G dJ S S F N | ||
R O | R O | ||
AA WT DE D R | AA WT DE D R | ||
N I | N I | ||
T A | T A | ||
Line 7,281: | Line 4,738: | ||
E R | E R | ||
N I O R I E C | N I O R I E C | ||
A EG O U T H Y L I TA l O R C P _ | A EG O U T H Y L I TA l O R C P _ | ||
R' B C AR - O E E T E S | R' B C AR - O E E T E S A | ||
- T R O T C P R S O D D N OT O U R M E E E B S : G S E O T _ | |||
A | R W N R N N S P N A A E O : E I G E M _ | ||
R P I P E B W I E _ | |||
- T R O T C P R S O | |||
D D N OT O U R M | |||
E E E B S : G S E O T _ | |||
R W N R N N S P N A | |||
A E O : E I G E M _ | |||
R | |||
P I P E B W I E | |||
_ | |||
E V M M M A S P T R E O A U R E _ | E V M M M A S P T R E O A U R E _ | ||
P R C H N D D | P R C H N D D l _ | ||
l _ | |||
ii ' | ii ' | ||
Line 7,312: | Line 4,751: | ||
ll l,I !i ll l l1ll. | ll l,I !i ll l l1ll. | ||
E . | E . | ||
TO 0 ON 8 N | TO 0 ON 8 N 1 5 1 5E F 2 iM$3 O 3 , | ||
1 5 1 5E | |||
F 2 iM$3 | |||
O 3 , | |||
3 O L 0 ' S 1 | 3 O L 0 ' S 1 | ||
. NTS) | . NTS) | ||
Line 7,331: | Line 4,763: | ||
T C | T C | ||
E M . | E M . | ||
N S EO O TN IN I TO AI D NT R IA T O MT NG O AS EN C X NI ER OW E PA EW MR R | N S EO O TN IN I TO AI D NT R IA T O MT NG O AS EN C X NI ER OW E PA EW MR R VO OD E IP1 C B T M CR . | ||
U UAO REN N TL SCT EUI . | |||
U UAO | |||
REN N TL SCT EUI . | |||
DNN O N U N OE NS S | DNN O N U N OE NS S | ||
TE NB E - | TE NB E - | ||
NS OI PV MA OD C _ | NS OI PV MA OD C _ | ||
N L O _ | N L O _ | ||
A I V T O P _ | A I V T O P _ | ||
Line 7,347: | Line 4,773: | ||
E R R C _ | E R R C _ | ||
S . | S . | ||
T E A D - | T E A D - | ||
E S _ | E S _ | ||
Line 7,353: | Line 4,778: | ||
// M | // M | ||
/, Y L | /, Y L | ||
E | E e A W C | ||
e A W C | |||
/f /[7, E | /f /[7, E | ||
/ D O | / D O | ||
Line 7,366: | Line 4,789: | ||
M) 2 J O L 2 O. | M) 2 J O L 2 O. | ||
"T A | "T A | ||
U2 | U2 F | ||
2 4 | |||
- ,0 71 1 | |||
4 | 9 | ||
- ,0 71 | |||
-; 0 M TO P GG ?. | -; 0 M TO P GG ?. | ||
8 | 8 | ||
/wr R A r , | /wr R A r , | ||
2 _ | 2 _ | ||
S O EL , : I 0 C' | S O EL , : I 0 C' | ||
f , | f , | ||
S F HA 1 D I A' | S F HA 1 D I A' | ||
1 R | 1 R | ||
A N C - R 4 U | A N C - R 4 U | ||
Y L I YI 2 O R | Y L I YI 2 O R B B C AP 4 O E E T | ||
- T CY P C P R A D D N ET O U R E E E D( : G S E R W N R N N S P A E O : E I G E M P I P E B W I R E E V M M M A S P T R E O A U R E P R C N N D D 69i* | |||
B B C AP 4 O E E T | |||
- T CY P C P R A D D N ET O U R E E E D( : G S E R W N R N N S P A E O : E I G E M P I P E B W I R E E V M M M | |||
A S P T R E O A U R E P R C N N D D 69i* | |||
} | } | ||
PREPARE ,L /w 7m' DATE <//bs/fd ONE M N M DES M M N MAT M DAVIS-BESSE NUCLEAR POWER STATION | PREPARE ,L /w 7m' DATE <//bs/fd ONE M N M DES M M N MAT M DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWED BY Jr. - DATEjI/2/fg UNIT NO. 1 ISID NO. 033 CLASS 2 SYSTEM DECAY HEAT REMOVAL REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L O ITEM THICYNESS Oi5 NOTE COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCOS) dE NO. j NAME: DEACAY HEAT W HEAD TO SHELl. '4 ELD A 1 D2552-5 NA C1.20 C-A 0.625 NOM VOL (19)ll COOLER W SHELL LONGITUL_'AL WELDS B AND H 2 D2552-6 N,. NA C-A 0.625 NOM VOL (18) | ||
PAGE 1 OF 1 REVIEWED BY Jr. - DATEjI/2/fg UNIT NO. 1 ISID NO. 033 CLASS 2 SYSTEM DECAY HEAT REMOVAL REV. O, 2-15-80 | |||
COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L O ITEM THICYNESS Oi5 NOTE COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCOS) dE NO. j NAME: DEACAY HEAT W HEAD TO SHELl. '4 ELD A 1 D2552-5 NA C1.20 C-A 0.625 NOM VOL (19)ll COOLER W SHELL LONGITUL_'AL WELDS B AND H 2 D2552-6 N,. NA C-A 0.625 NOM VOL (18) | |||
(TYPICAL OF 2) | (TYPICAL OF 2) | ||
(19)q NUMBER: E27-1, E27-2 ' | (19)q NUMBER: E27-1, E27-2 ' | ||
Line 7,416: | Line 4,825: | ||
N . | N . | ||
.I PREPARED 2 74,, JATE j//fe[3 COMPONENT NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION | .I PREPARED 2 74,, JATE j//fe[3 COMPONENT NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWED BY [ ADATE[/2-/70 UNIT NO. 1 ISID NO. 034 CLASS 2 SYSTEM DECAY HEAT REV. O, 2-15-80 I | ||
PAGE 1 OF 1 REVIEWED BY [ ADATE[/2-/70 UNIT NO. 1 ISID NO. 034 CLASS 2 SYSTEM DECAY HEAT REV. O, 2-15-80 I | |||
COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L M ITEM THICKNESS Oi 5 NOIE COMPONE%T INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) 3E NO. d NAME: CORE FLOOD TANK W MANWAY TO TANK WELD A 1 139621E G-5 C2.20 C-B 2.375 MIN VOL & | COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L M ITEM THICKNESS Oi 5 NOIE COMPONE%T INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) 3E NO. d NAME: CORE FLOOD TANK W MANWAY TO TANK WELD A 1 139621E G-5 C2.20 C-B 2.375 MIN VOL & | ||
(TYPICAL OF 2) SUR (19).l W HEAD TO SHELL (UPPER HEAD) WELD B 1 139621E NUMBER: T9-1, T9-2 I-3 C1.20 C-A 2.375 MIN - VOL (19) I | (TYPICAL OF 2) SUR (19).l W HEAD TO SHELL (UPPER HEAD) WELD B 1 139621E NUMBER: T9-1, T9-2 I-3 C1.20 C-A 2.375 MIN - VOL (19) I W HEAD TO SHELL (LOWER HEAD) WELD C 1 139621E C1.20 I-3 C-A 2.375 MIN VOL (19) | ||
W HEAD TO SHELL (LOWER HEAD) WELD C 1 139621E C1.20 I-3 C-A 2.375 MIN VOL (19) | |||
OUTLET NOZZ M M HEAD WED D l DRAWING COORD: 1 139621E G-6 C2.20 C-B 2.375 M m m& p q H-7, H-3 8 W OUTLET NOZZLE TO SAFE END WELD 1 139621E G-7 DESIGN OPERATING C5.10 C-F --------- | OUTLET NOZZ M M HEAD WED D l DRAWING COORD: 1 139621E G-6 C2.20 C-B 2.375 M m m& p q H-7, H-3 8 W OUTLET NOZZLE TO SAFE END WELD 1 139621E G-7 DESIGN OPERATING C5.10 C-F --------- | ||
SUR (19) | SUR (19) | ||
W N2LOADING NOZZLE TO UPPER HEAD WELE 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) ' | W N2LOADING NOZZLE TO UPPER HEAD WELE 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) ' | ||
PRESSURE 700 psig | PRESSURE 700 psig W MAKEUP NOZZLE TO SHELL WELD 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) | ||
W MAKEUP NOZZLE TO SHELL WELD 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) | |||
TEMPERATURE 150 0 F W SAMPLE CONNECTION NOZZLE IO SHELL WELD 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) i W LEVEL SENSING NOZZLE TO SHELL WELD 4 139621E G-2 C2.10 C-B 2.375 MIN 3UR (19) | TEMPERATURE 150 0 F W SAMPLE CONNECTION NOZZLE IO SHELL WELD 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) i W LEVEL SENSING NOZZLE TO SHELL WELD 4 139621E G-2 C2.10 C-B 2.375 MIN 3UR (19) | ||
S VESSEL SUPPORT WELDS E, F, I, J 4 139621E E-6 C3.10 C-C (19) | S VESSEL SUPPORT WELDS E, F, I, J 4 139621E E-6 C3.10 C-C (19) | ||
BUR S VESSEL SUPPORT WELDS G, H, K, L 4 139621E E-7 C3.10 C-C --- - | BUR S VESSEL SUPPORT WELDS G, H, K, L 4 139621E E-7 C3.10 C-C --- - | ||
SUR (19) | SUR (19) | ||
I EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | I EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | ||
8 | 8 | ||
; . | ; . | ||
PREPARED 4YY.&/r E;,,e @ TE_Y/$a /e COMPONENT NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION | PREPARED 4YY.&/r E;,,e @ TE_Y/$a /e COMPONENT NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWEDBY_[ DATEf/2/fd UNIT NO. 1 CLASS 2 SYSTEM DECAY HEAT REV. 0,.2-15-80 COMPONENT SEC'. . XI SECTION i DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD ITEM NO. | ||
THICKNESS $$ NOTE CAT. (INCHES) $E NO. | THICKNESS $$ NOTE CAT. (INCHES) $E NO. | ||
NAMEe IIIGH PRESSURE W PUMP CASING WELD A 1 643066 NA C6.10 COOLANT INJECTION C-G -------- | NAMEe IIIGH PRESSURE W PUMP CASING WELD A 1 643066 NA C6.10 COOLANT INJECTION C-G -------- | ||
Line 7,456: | Line 4,853: | ||
DRAWING COORD: E-9, B, D, E,. F 5 642157 NA C3.70 C-E NA SUR | DRAWING COORD: E-9, B, D, E,. F 5 642157 NA C3.70 C-E NA SUR | ||
_ C-9 (19) | _ C-9 (19) | ||
$ DESIGN OPERATING PRESSURE 1650 psig O | $ DESIGN OPERATING PRESSURE 1650 psig O | ||
TEMPERATURE 260 F | TEMPERATURE 260 F I19I NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IW8-2500-1/IWC-2500-1 EXAMINATION PERFORMED.ON ONE COMPONENT ONLY. | ||
I19I NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IW8-2500-1/IWC-2500-1 | |||
EXAMINATION PERFORMED.ON ONE COMPONENT ONLY. | |||
' , 1 :l, | ' , 1 :l, | ||
, 1l | , 1l E . | ||
I O 0 O' N 8 N 1 5 1 $E R F 2 M$$ U O B S | |||
E . | |||
I O 0 O' N 8 N | |||
1 5 1 $E R | |||
F 2 M$$ U O B S | |||
- 9 , | - 9 , | ||
2 O L . | 2 O L . | ||
Line 7,502: | Line 4,885: | ||
B U | B U | ||
5 0 | 5 0 | ||
4 | 4 AO N 1 _ | ||
AO N 1 _ | |||
E O ML SC P _ | E O ML SC P _ | ||
EUI . | EUI . | ||
DN O _ | DN O _ | ||
N N 2 _ | N N 2 _ | ||
: r. E - | : r. E - | ||
NS S | NS S | ||
TE NB | TE NB NS I | ||
NS I | |||
V | V | ||
.A D | .A D | ||
Line 7,527: | Line 4,899: | ||
C T T S R A E O E D P H P 9 | C T T S R A E O E D P H P 9 | ||
3 D U _ | 3 D U _ | ||
/ f Y S _ | / f Y S _ | ||
a /2 A C E | a /2 A C E | ||
Line 7,536: | Line 4,907: | ||
T / S | T / S | ||
, S W . | , S W . | ||
e | e 1 Y | ||
1 Y | |||
~'' S F N g 0 T' O , i I | ~'' S F N g 0 T' O , i I | ||
T B 55 s 0 2 A 9 - - p 6 | T B 55 s 0 2 A 9 - - p 6 | ||
Line 7,546: | Line 4,914: | ||
H D | H D | ||
KJ G N | KJ G N | ||
2 | 2 S O : I 5 f | ||
S O : I 5 f | |||
S F , | S F , | ||
D T 7 E N A R A R JY Y A | D T 7 E N A R A R JY Y A | ||
L I E 9 O R U 5 I. B B C V H O E E T T L D C P R A N A O U R D D V G S E E E E : | L I E 9 O R U 5 I. B B C V H O E E T T L D C P R A N A O U R D D V G S E E E E : | ||
N S P R W N R N E M A E O : E I G P E B . W I R E P I A S P T E V M M M R E O A U R E 9 P R C N N D D | N S P R W N R N E M A E O : E I G P E B . W I R E P I A S P T E V M M M R E O A U R E 9 P R C N N D D h 5- A | ||
h 5- A | |||
1L1 Ill ll | 1L1 Ill ll | ||
'lIt, l1Q11 | 'lIt, l1Q11 E . | ||
TO 0 ON 8 N 1 '5 1 $5 F 2 iM$d O | |||
E . | |||
TO 0 ON 8 N | |||
1 '5 1 $5 | |||
F 2 iM$d O | |||
4 O L . | 4 O L . | ||
3 S 1 0 V | 3 S 1 0 V | ||
Line 7,587: | Line 4,943: | ||
UI . | UI . | ||
NN O U | NN O U | ||
"ES N | "ES N S w E | ||
B S | |||
"IV A | |||
S w E | |||
B | |||
D N | D N | ||
O Y I A T R P P I S R C | O Y I A T R P P I S R C | ||
Line 7,608: | Line 4,957: | ||
C N | C N | ||
O N | O N | ||
_ T T A A M E S JD | _ T T A A M E S JD T / | ||
T / | |||
S W | S W | ||
' Y | ' Y | ||
- ~ | - ~ | ||
w , | w , | ||
Line 7,619: | Line 4,965: | ||
O Y | O Y | ||
A R g 0 F | A R g 0 F | ||
L' | L' e I P 2 | ||
e I P 2 | |||
- , i | - , i | ||
' 2 T S 6 99 s A S - - p 0 | ' 2 T S 6 99 s A S - - p 0 | ||
Line 7,627: | Line 4,971: | ||
. Y L I I 6 O R U B B C A 5 O E E T T TP P C P R A D D N NM O U R E E E OU : G S E R W N CP R N N S P A E O : E I G E M P I P E B W I R E h E V M M M A S P T R E O A U R E P R C N N D D g | . Y L I I 6 O R U B B C A 5 O E E T T TP P C P R A D D N NM O U R E E E OU : G S E R W N CP R N N S P A E O : E I G E M P I P E B W I R E h E V M M M A S P T R E O A U R E P R C N N D D g | ||
l i | |||
r PREPARED B5w/~-^ 7I,:.,,,, mDATE 9/9 48 " | |||
l | l DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OP 4 REVIEWED BY [ DATEf/2/fD T NO. 1 ISID NO. 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM _ | ||
REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L 8 COMPONENT INFORMATION ITEM THICKNESS f;j 5 NOTE W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) . 5E NO. | |||
PREPARED B5w/~-^ 7I,:.,,,, mDATE 9/9 48 " | |||
REVIEWED BY [ DATEf/2/fD T NO. 1 ISID NO. 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM _ | |||
REV. O, 2-15-80 | |||
COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L 8 COMPONENT INFORMATION ITEM THICKNESS f;j 5 NOTE W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) . 5E NO. | |||
" ^ | " ^ | ||
NAME: STEAM GENERA'IOR ~ | NAME: STEAM GENERA'IOR ~ | ||
Line 7,644: | Line 4,980: | ||
SECONDARY SIDE (TYPICAL OF 2) W TUBE 31EET TO UPPER SHELL MK-51 TO 1 151911E H-5 C1.30 C-A 6.625 NOM VOL (19) | SECONDARY SIDE (TYPICAL OF 2) W TUBE 31EET TO UPPER SHELL MK-51 TO 1 151911E H-5 C1.30 C-A 6.625 NOM VOL (19) | ||
MK-1 | MK-1 | ||
* NUMBER E24-1, E24-2 W UPPER SIELL LONGITUDINAL WELD MK-1 2 | * NUMBER E24-1, E24-2 W UPPER SIELL LONGITUDINAL WELD MK-1 2 175138E C-1 NA C-A 6.625 NOM VOL (18) | ||
175138E C-1 NA C-A 6.625 NOM VOL (18) | |||
(19) | (19) | ||
: DRAWING COORD: C-ll, (21) | : DRAWING COORD: C-ll, (21) | ||
Line 7,658: | Line 4,992: | ||
W SHELL TO SHELL MK-3 TO MK-2_ 1 151911E D-5 C-A W | W SHELL TO SHELL MK-3 TO MK-2_ 1 151911E D-5 C-A W | ||
Cl.10 4.188 NOM 10L (19) I SIELL LONGITUDINAL MK-2 1 175138E' C-5 NA C-A 4.188 NOM VOL 118) | Cl.10 4.188 NOM 10L (19) I SIELL LONGITUDINAL MK-2 1 175138E' C-5 NA C-A 4.188 NOM VOL 118) | ||
(19) i (21) | (19) i (21) | ||
NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. | NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. | ||
EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | ||
EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD. | |||
.I | .I PREPARED C C /, -07..,,_ CATE v/r,,4f> "" | ||
PREPARED C C /, -07..,,_ CATE v/r,,4f> "" | |||
* PAGE 2 OF 4 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DAC f/2/ft1 UNIT NO. 1 ISID NO. _ 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM REV. O, 2-15-80 | * PAGE 2 OF 4 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DAC f/2/ft1 UNIT NO. 1 ISID NO. _ 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM REV. O, 2-15-80 | ||
' COMPONENT SECTION XI SECTION DRAWING BASE MAT'L M ITEM THICKNESS Oi 5 NOTE COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) ME NO. | ' COMPONENT SECTION XI SECTION DRAWING BASE MAT'L M ITEM THICKNESS Oi 5 NOTE COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) ME NO. | ||
Line 7,681: | Line 5,010: | ||
SHELL TO SHELL MK-5 TO MK-6 1 151911E D-5 C1.10 C-A '.188 4 NOM VOL (19) | SHELL TO SHELL MK-5 TO MK-6 1 151911E D-5 C1.10 C-A '.188 4 NOM VOL (19) | ||
DESIGN OPERATING W SHELL LONGITUDINAL MK-6 2 175138E C-6 5 NA C-A 6.625 NOM VOL (18) | DESIGN OPERATING W SHELL LONGITUDINAL MK-6 2 175138E C-6 5 NA C-A 6.625 NOM VOL (18) | ||
PRESSURE 1155 psig (19) | PRESSURE 1155 psig (19) | ||
(21) | (21) | ||
TEMPERATURE 600 0 F | TEMPERATURE 600 0 F (18)NO SECTION XI CATEGORY AND/OR ITEM NUMBER | ||
(18)NO SECTION XI CATEGORY AND/OR ITEM NUMBER | |||
( , | ( , | ||
GIVEN ON TABLE IWB 2500 1 00-1. . | GIVEN ON TABLE IWB 2500 1 00-1. . | ||
EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | ||
Line 7,696: | Line 5,020: | ||
O | O | ||
PREPARED B47[2/, r;,, ,,, m . DATEv/co/r2, COMPONENT NONDESTRUCTIVE EXAMINATION PAGE 3 DAVIS-BESSE NUCLEAR POWER STATION OF 4 REVIEWED BY DATE f///fD UNIT NO. 1 r ISID NO. 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING. BASE MAT'L M COMPONENT INFORMATION ITEM THICKNESS Si $ NOTE W/S DESCP'.72* ION NO. NUMBER COORD NO'. CAT. (INCHES) $E NO. | |||
PREPARED B47[2/, r;,, ,,, m . DATEv/co/r2, COMPONENT NONDESTRUCTIVE EXAMINATION PAGE 3 | |||
DAVIS-BESSE NUCLEAR POWER STATION OF 4 REVIEWED BY DATE f///fD UNIT NO. 1 | |||
r ISID NO. 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING. BASE MAT'L M COMPONENT INFORMATION ITEM THICKNESS Si $ NOTE W/S DESCP'.72* ION NO. NUMBER COORD NO'. CAT. (INCHES) $E NO. | |||
W SHELL TO LO'.ER TUBE SHEET MK-6 TO 1 151911E NAME8 STEAM GENERATOR H-10 C1.30 C-A 6.625 NOM VOL (19) | W SHELL TO LO'.ER TUBE SHEET MK-6 TO 1 151911E NAME8 STEAM GENERATOR H-10 C1.30 C-A 6.625 NOM VOL (19) | ||
MK-50 SECONDARY SIDE (TYPICAL OF 2) W AUXILIARY FEEDWATER NOZZLE TO SHELL 1 151902E G-9 C2.10 C-B 6.625 NOM VOL & | MK-50 SECONDARY SIDE (TYPICAL OF 2) W AUXILIARY FEEDWATER NOZZLE TO SHELL 1 151902E G-9 C2.10 C-B 6.625 NOM VOL & | ||
NUMBERtE24-1, E24-2 ' | NUMBERtE24-1, E24-2 ' | ||
W AUXILIARY FEEDWATER NOZZLE TO SAFE 1 151902E G-9 C5.ll C-E O.432 NOM VOL END MK-300 TO MK-301 l DRAWING COORD: C-ll, W C-12 STEAM OUTLET NOZZLE TO SHELL MK-14 2 15'1902E E-5 C2.20 C-B 6.625 TO MK-3 VOL & | W AUXILIARY FEEDWATER NOZZLE TO SAFE 1 151902E G-9 C5.ll C-E O.432 NOM VOL END MK-300 TO MK-301 l DRAWING COORD: C-ll, W C-12 STEAM OUTLET NOZZLE TO SHELL MK-14 2 15'1902E E-5 C2.20 C-B 6.625 TO MK-3 VOL & | ||
SUR W li"s DRAIN CONNECTION TO SHELL MK-25 2 DESIGN OPERATING 151902E C-5 NA NA NA VT-2 TO MK-3 (18) | SUR W li"s DRAIN CONNECTION TO SHELL MK-25 2 DESIGN OPERATING 151902E C-5 NA NA NA VT-2 TO MK-3 (18) | ||
Line 7,714: | Line 5,031: | ||
SHELL MKn28 TO MK,2 W SPARE LEVEL SENSING CONNECTION 2 151902E C-7 NA NA NA VT-2 (18) | SHELL MKn28 TO MK,2 W SPARE LEVEL SENSING CONNECTION 2 151902E C-7 NA NA NA VT-2 (18) | ||
SHELL MK-18 TO MK-2 W LOW LEVEL SENSING CONNECTION TO 2 151902E C-9 NA NA NA VT-2 SHELL MK-27 TO MK-5 (18) | SHELL MK-18 TO MK-2 W LOW LEVEL SENSING CONNECTION TO 2 151902E C-9 NA NA NA VT-2 SHELL MK-27 TO MK-5 (18) | ||
W SAMPLE AND DRAIN NOZZLE 'IO SHELL 2 151902E E-10 NA NA NA VT-2 MK-18 TO MK-6 | W SAMPLE AND DRAIN NOZZLE 'IO SHELL 2 151902E E-10 NA NA NA VT-2 MK-18 TO MK-6 (18) | ||
(18) | |||
NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB- 2500-1/IWC-25bO-1. | NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB- 2500-1/IWC-25bO-1. | ||
EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | EXAMINATION PERFORMED ON ONE COMPONENT ONLY. | ||
9 | 9 | ||
' l | ' l | ||
Line 7,729: | Line 5,041: | ||
( ( ( | ( ( ( | ||
0 ON 8 N 4 - 2 5 2 2 ' | 0 ON 8 N 4 - 2 5 2 2 ' | ||
1 55 T T T 2 iMOdi V V V 7 | |||
1 55 T T T | 0 O L 0 ' S 4 . NTS) | ||
2 iMOdi V V V | |||
V OAES | V OAES | ||
. E IMNE O R T KH N CECC ESIN A A A p D SAHI N N N I BT( | . E IMNE O R T KH N CECC ESIN A A A p D SAHI N N N I BT( | ||
S I | S I | ||
I . | I . | ||
X T A A A A N C N N N | X T A A A A N C N N N | ||
Line 7,747: | Line 5,053: | ||
N S EO A O TN A A I N N N IN TO AI D l l l NT R l l l . | N S EO A O TN A A I N N N IN TO AI D l l l NT R l l l . | ||
I A T O - - - 1 MT NG O C E E . | I A T O - - - 1 MT NG O C E E . | ||
AS EN C 0 X NI 0 ER OW 5 E PA 2 - | AS EN C 0 X NI 0 ER OW 5 E PA 2 - | ||
EW MR R E - | EW MR R E - | ||
Line 7,753: | Line 5,058: | ||
UAO U 1 1 1 i | UAO U 1 1 1 i | ||
/ | / | ||
1 REN N 5 5 5 | 1 REN N 5 5 5 TL 1 1 1 0 SCT - 0 EUI . 5 DNN O 1 2 4 2 | ||
TL 1 1 1 0 SCT - 0 EUI . 5 DNN O 1 2 4 2 | |||
N U N - | N U N - | ||
OE s NS S L 1 W | OE s NS S L 1 W | ||
TE O L M T E NB E O H E E - T N I S - t NS S O | TE O L M T E NB E O H E E - T N I S - t NS S O s | ||
OI Y I N E A PV S T O B T MA Y C I U N OD E T T C R N C 1 A N E O D O N T N N C N - E O N O N v C O G6 C6 O I E N - - I G S I T I K GK T R R P SM NM C E I N I E s O R EO SO N0 T ST NT N5 M A C E O - U R S E8 S0 CK N E E R2 2 M N D U - L - N M E TK EK I O E o G AM VM AT T | |||
/p /p M R | /p /p M R | ||
EL LL D4 E R I o J | EL LL D4 E R I o J A PL L 2 a O | ||
A PL L 2 a O | |||
/r Y | /r Y | ||
E | E | ||
[/ | [/ | ||
E | E E | ||
T S | |||
S | |||
ME WE " - | ME WE " - | ||
EH OH TS LS l M K / | EH OH TS LS l M K / | ||
Line 7,782: | Line 5,078: | ||
Y E m S F T N A O R , g 0 C. I OE) 2 l2 i s | Y E m S F T N A O R , g 0 C. I OE) 2 l2 i s | ||
C T TD2 - l1 0 I | C T TD2 - l1 0 I | ||
2 A AI 4 - - p 0 | 2 A AI 4 - - p 0 M RSF 2 CC G 6 x | ||
M RSF 2 CC G 6 x | |||
/, R E O E N 5 - | /, R E O E N 5 - | ||
NY 5 N - | NY 5 N - | ||
S O ERL | S O ERL | ||
: I O | : I O | ||
F , | F , | ||
D T 1 E i_ S . | D T 1 E i_ S . | ||
GAA 1 1 R I A | GAA 1 1 R I A | ||
A N R T LY B B L | A N R T LY B B L | ||
C I DC MNI 4 AOP | C I DC MNI 4 AOP | ||
Line 7,803: | Line 5,091: | ||
R E E U | R E E U | ||
T C E | T C E | ||
T ECY E 2 C P R A S D D N O U R E TET : G S E O E E SS( N S P R W N R N u A E O : E I G E M ) | T ECY E 2 C P R A S D D N O U R E TET : G S E O E E SS( N S P R W N R N u A E O : E I G E M ) | ||
P I P E B W I R E 8 E V M M M A S P T 2 R E O A U R E ( | P I P E B W I R E 8 E V M M M A S P T 2 R E O A U R E ( | ||
Line 7,811: | Line 5,098: | ||
!i E . ) | !i E . ) | ||
TO 9 0 ON 1 8 N ( | TO 9 0 ON 1 8 N ( | ||
1 5 1 $E R F 2 :8$d U O 7 S | |||
1 5 1 $E R | |||
F 2 :8$d U O 7 S | |||
. 0 , | . 0 , | ||
0 0 L . | 0 0 L . | ||
Line 7,834: | Line 5,118: | ||
O - | O - | ||
D NTIA R O | D NTIA R O | ||
T T O - | T T O - | ||
NG C NS ER EN NI E OW W PA . | NG C NS ER EN NI E OW W PA . | ||
Line 7,842: | Line 5,123: | ||
E B | E B | ||
1 4 | 1 4 | ||
R M 3 MAO EN | R M 3 MAO EN U | ||
N 4 | |||
1 1 | |||
GL SCT i | |||
1 EUI . | 1 EUI . | ||
DNN O 3 N U N OE ' | DNN O 3 N U N OE ' | ||
Line 7,856: | Line 5,136: | ||
R C A D E . | R C A D E . | ||
N Y O , | N Y O , | ||
L C N D N | L C N D N E O _ | ||
E O _ | |||
S O , | S O , | ||
I _ | I _ | ||
T C T _ | T C T _ | ||
Line 7,893: | Line 5,168: | ||
* C P R A E D D N O U R E E E : G S E R W N R N N S P A E O E I G E M P I P B W I R E E V M M A S P T R E O U R E P R C N D D t | * C P R A E D D N O U R E E E : G S E R W N R N N S P A E O E I G E M P I P B W I R E E V M M A S P T R E O U R E P R C N D D t | ||
t C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES (continued) | |||
t | |||
C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES (continued) | |||
: 3. Bolting Nondestructive Examination Tables. | : 3. Bolting Nondestructive Examination Tables. | ||
This section provides a ' tabulation of all ' bolting within the boundariec of safety related systems, both bolting that -is tested in accordance with the requirements of Subsection IWB or IWC, as applicable, of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda; and bolting for which the Code requirements have' been found to be impractical. The Tables are arranged by Class and System. | This section provides a ' tabulation of all ' bolting within the boundariec of safety related systems, both bolting that -is tested in accordance with the requirements of Subsection IWB or IWC, as applicable, of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda; and bolting for which the Code requirements have' been found to be impractical. The Tables are arranged by Class and System. | ||
i | i e m. | ||
e m. | |||
1 4 | 1 4 | ||
4 4 | 4 4 | ||
III-56 | III-56 | ||
PREPARED BY._m api 4 ,.r- m | PREPARED BY._m api 4 ,.r- m BOLTING NONDESTRUCTIVE EXAMINATION REVIEWED BY 3 | ||
BOLTING NONDESTRUCTIVE EXAMINATION REVIEWED BY 3 | |||
- sM/- - | - sM/- - | ||
/ Mo<- | / Mo<- | ||
r DATE ,[8 | r DATE ,[8 DAVIS-BESSE NUCLEAR POWER STATION DATE f/f/M UNIT NO. 1 REV. O, 2-15-83 CLASS 1 SYSTEM REACTOR COOLANT | ||
DAVIS-BESSE NUCLEAR POWER STATION DATE f/f/M UNIT NO. 1 REV. O, 2-15-83 CLASS 1 SYSTEM REACTOR COOLANT | |||
. PAGE 1 OF 5 | . PAGE 1 OF 5 | ||
, SECTION XI g , | , SECTION XI g , | ||
Line 7,926: | Line 5,189: | ||
WHEN BOLTING IS REMOVED. | WHEN BOLTING IS REMOVED. | ||
SEE CODE EXCEPTION 2. | SEE CODE EXCEPTION 2. | ||
Nl;z 5 | Nl;z 5 | ||
$0 0 | $0 0 | ||
F 8 O $$ 1 1 1 1 u 5 1 | F 8 O $$ 1 1 1 1 u 5 1 | ||
,OOM i T | ,OOM i T | ||
T T | |||
T | T | ||
- V V V V g 2 2 E | - V V V V g 2 2 E | ||
O G T 64 64 64 64 A NG R - - - - - - - - | O G T 64 64 64 64 A NG R - - - - - - - - | ||
. P EN 65 65 65 65 O V NI E OW B 12 | . P EN 65 65 65 65 O V NI E OW B 12 12 12 12 E | ||
PA MR M 66 66 66 | |||
12 | |||
12 | |||
12 | |||
[/f R OD N U | [/f R OD N U | ||
66 00 55 | 66 00 55 00 55 00 55 00 55 C MM MM MM MM Y | ||
00 55 | |||
00 55 | |||
00 55 | |||
C MM MM MM MM Y | |||
B 8/ | B 8/ | ||
D . 4 4 4 4 E O 6 6 2 2 W N E | D . 4 4 4 4 E O 6 6 2 2 W N E | ||
Line 7,971: | Line 5,209: | ||
T - - - - | T - - - - | ||
O I A G G G G I X C - - - - | O I A G G G G I X C - - - - | ||
T B B B B NA N OT O 0 0 0 0 I S I 3 3 3 3 | T B B B B NA N OT O 0 0 0 0 I S I 3 3 3 3 T T M AR C E . | ||
7 7 | |||
T T M AR C E . | |||
7 | |||
7 | |||
7 7 NE E TO I W S IN B B B B MO AP1 GX , | 7 7 NE E TO I W S IN B B B B MO AP1 GX , | ||
NER . | NER . | ||
Line 7,985: | Line 5,218: | ||
N T O s, N A | N T O s, N A | ||
I T | I T | ||
P | P L I ) | ||
O 2 | |||
L I ) | O R C C F S O R E O D L d T A | ||
O | |||
C C F S O R E O D L d T A | |||
) | ) | ||
2 Y C A | 2 Y C A | ||
C I | C I | ||
( E L | ( E L | ||
E P S O | E P S O | ||
/,- R Y T | /,- R Y T | ||
Line 8,008: | Line 5,235: | ||
D. A l 9 A l 0 s_f e | D. A l 9 A l 0 s_f e | ||
E T O I | E T O I | ||
M l | M l 0 | ||
1 H l 1 | |||
1 S A' E K - E K Y | |||
H l | |||
S A' E K - E K Y | |||
b Y S | b Y S | ||
R E | R E | ||
Line 8,026: | Line 5,249: | ||
( | ( | ||
K M | K M | ||
S ( | S ( | ||
C / E S S D G Y D S Y D S 1 R U T R U T E M A T U A T U R A M S N M S N A S E I I P E S T R R E T A S P P R A L P D C UYE . | C / E S S D G Y D S Y D S 1 R U T R U T E M A T U A T U R A M S N M S N A S E I I P E S T R R E T A S P P R A L P D C UYE . | ||
PREPARED BY, - -f> /e ,,.,,.f-.; BOLTING DATE / 7//h,, T/J NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION DATE DM S/f/[O | PREPARED BY, - -f> /e ,,.,,.f-.; BOLTING DATE / 7//h,, T/J NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION DATE DM S/f/[O | ||
- g'A | - g'A | ||
~ | ~ | ||
Line 8,041: | Line 5,260: | ||
,E COMPONENT O $ | ,E COMPONENT O $ | ||
ITEM dE DRAWING $$ Nl DESCRIPTION NO. CAT. EU NO. NUMBER ME Oz PRESSURIZER HEATER STUDS (MK-75) B7.20 B-G-2 2 48 M-507-7-4 VT-1 U NUTS (MK-76) B7.20 B-G-2 2 48 M-507-7-4 VT-1 y - | ITEM dE DRAWING $$ Nl DESCRIPTION NO. CAT. EU NO. NUMBER ME Oz PRESSURIZER HEATER STUDS (MK-75) B7.20 B-G-2 2 48 M-507-7-4 VT-1 U NUTS (MK-76) B7.20 B-G-2 2 48 M-507-7-4 VT-1 y - | ||
E MANWAY STUDS (MK-67) B6.60 B-G-1 2.750 12 M-507-7-4 VOL (23) | E MANWAY STUDS (MK-67) B6.60 B-G-1 2.750 12 M-507-7-4 VOL (23) | ||
OR B6.70 VOL & | OR B6.70 VOL & | ||
SUR (24) | SUR (24) | ||
NUTS (MK-68) B6.60 B-G-1 2.750 12 M-507-7-4 VOL (23) | NUTS (MK-68) B6.60 B-G-1 2.750 12 M-507-7-4 VOL (23) | ||
OR B6.70 VOL & | OR B6.70 VOL & | ||
SUR (24) | SUR (24) | ||
LIGAMENTS AND THREADS IN BASE MATERIAL B6.70 B-G-1 NA 12 M-507-7-4 VOL (24) | LIGAMENTS AND THREADS IN BASE MATERIAL B6.70 B-G-1 NA 12 M-507-7-4 VOL (24) | ||
WHEN BOLTING IS IN PLACE. | WHEN BOLTING IS IN PLACE. | ||
(20 WHEN BOLTING IS REMOVED. ' | (20 WHEN BOLTING IS REMOVED. ' | ||
4 e | 4 e | ||
Line 8,060: | Line 5,274: | ||
$ l :s 3 4 3 4 3 4 4 2 2 2 2 2 2 2 5 $O ( ( ( ( ( ( ( | $ l :s 3 4 3 4 3 4 4 2 2 2 2 2 2 2 5 $O ( ( ( ( ( ( ( | ||
P & | P & | ||
0 O & & | 0 O & & | ||
8 $E | 8 $E | ||
# 5 | # 5 | ||
,O$d L OR LR OU L | ,O$d L OR LR OU L | ||
OR LR OU L | OR LR OU L | ||
Line 8,071: | Line 5,283: | ||
1 VO VS VO VS Mf 2 | 1 VO VS VO VS Mf 2 | ||
- 4 E 7, 7 7 7 | - 4 E 7, 7 7 7 | ||
'- G - - - | '- G - - - | ||
O T - | O T - | ||
1 1 l | 1 1 l | ||
,' A NG R 1 1 1 l P EN 1 | ,' A NG R 1 1 1 l P EN 1 V NI E - | ||
8 8 8 M~ E OW B 8 0 0 R PA MU 0 5 | |||
V NI E - | |||
8 8 8 M~ E OW B 8 0 0 | |||
R PA MU 0 5 | |||
0 5 5 5 | 0 5 5 5 | ||
, / MR OD N - | , / MR OD N - | ||
M | M M | ||
M f C M Y | |||
M | |||
M | |||
f C M Y | |||
B / | B / | ||
f D . 6 6 6 A E O 1 1 1 N W . N E | f D . 6 6 6 A E O 1 1 1 N W . N E | ||
I E V T E A 5 5 5 R D g$,EU 7 7 7 A | I E V T E A 5 5 5 R D g$,EU 7 7 7 A | ||
d5 4 4 4 N | d5 4 4 4 N | ||
. 1 1 1 1 | . 1 1 1 1 N . T G G G G O I A - - - | ||
N . T G | |||
G G G O I A - - - | |||
I X C - | I X C - | ||
B B B T B NA N 0 0 0 0 0 0 0 OT O 8 9 8 9 8 9 9 I S I 1 1 1 T 1 1 1 1 T M AR . C E . | B B B T B NA N 0 0 0 0 0 0 0 OT O 8 9 8 9 8 9 9 I S I 1 1 1 T 1 1 1 1 T M AR . C E . | ||
Line 8,110: | Line 5,308: | ||
T I F D N T O N o A P A I L . | T I F D N T O N o A P A I L . | ||
w L R S E | w L R S E | ||
< O C A E C D O S C f,. C I L A E E P O L V R D Y H P O O T . M T ( D N E C U I R | |||
< O C A E C D | |||
O S C f,. C I L A E E P O L V R D Y H P O O T . M T ( D N E C U I R | |||
)/ A P T S S S | )/ A P T S S S | ||
/ | / | ||
8 | 8 | ||
/ | / | ||
Line 8,134: | Line 5,328: | ||
Y, | Y, | ||
/ S O C S R S B B | / S O C S R S B B | ||
/ C | / C | ||
- B O S E T N N | - B O S E T N N | ||
_ R T D S H N E E D 1 O U T S E H H E T R T U A M WW R C E S N W A A S A V G | _ R T D S H N E E D 1 O U T S E H H E T R T U A M WW R C E S N W A A S A V G | ||
_ P E S E O I | _ P E S E O I E T A R C L | ||
_ R A L P D C | |||
E T A R C L | |||
_ R A L | |||
P D C | |||
- 57$ | - 57$ | ||
l N l :; : | l N l :; : | ||
5 $O 0 F 8 O $E 1 1 1 1 1 1 N 5 1 | 5 $O 0 F 8 O $E 1 1 1 1 1 1 N 5 1 | ||
$M T V | $M T V | ||
T V | T V | ||
T V | T V | ||
T V | T V | ||
T V | T V | ||
T V | T V | ||
- 5 2 | - 5 2 | ||
, E O G T 3 3 A NG R 0 0 , , l l | , E O G T 3 3 A NG R 0 0 , , l l | ||
. P EN 1 1 1 1 l l | . P EN 1 1 1 1 l l | ||
' V NI E - - - - - - | ' V NI E - - - - - - | ||
[O E R | [O E R | ||
OW B PA M 1 2 2 1 | OW B PA M 1 2 2 1 | ||
Line 8,178: | Line 5,353: | ||
2 1 | 2 1 | ||
2 1 | 2 1 | ||
/ MR N OD U 2 2 | |||
5 5 | |||
/ MR N OD U 2 | 2 2 | ||
2 | |||
5 | |||
5 | |||
2 | |||
2 | |||
C' f C M M M M M M | C' f C M M M M M M | ||
. Y / | . Y / | ||
Line 8,199: | Line 5,362: | ||
W E | W E | ||
N . | N . | ||
I E V T . | I E V T . | ||
E A . | E A . | ||
0 0 5 5 5 5 R D - 8U 5 7 | 0 0 5 5 5 5 R D - 8U 5 7 | ||
Line 8,209: | Line 5,370: | ||
2 6 | 2 6 | ||
2 6 | 2 6 | ||
dU 0 0 | dU 0 0 0 0 0 : 0 . | ||
0 0 0 : 0 . | |||
. 2 2 2 2 2 2 N T - - - - - - | . 2 2 2 2 2 2 N T - - - - - - | ||
O I A G G G G G G I X C - - - - - - | O I A G G G G G G I X C - - - - - - | ||
Line 8,226: | Line 5,385: | ||
e | e | ||
, T I 1 | , T I 1 | ||
, N T 4 | , N T 4 A P | ||
A P | |||
, L I , | , L I , | ||
, O R 0 O C 4 | , O R 0 O C 4 | ||
Line 8,238: | Line 5,394: | ||
# O D 3 9 E V | # O D 3 9 E V | ||
T L * | T L * | ||
)/ C , | )/ C , | ||
A A 8 V | A A 8 V | ||
- /- '8 | - /- '8 E | ||
R 3 | |||
E 4 , | |||
4 , | |||
T | T | ||
, 5 A | , 5 A | ||
, M 3 G E | , M 3 G E | ||
M ?> / | M ?> / | ||
T " | T " | ||
S 4 3 2 2} Y S | S 4 3 2 2} Y S | ||
( | ( | ||
Y 3 0 B / 3 S 0 S 5 S D 1 D S 1 D S D S E S , | |||
Y 3 0 B / 3 S 0 S 5 S | |||
D 1 D S 1 D S D S | |||
E S , | |||
U T U T , | U T U T , | ||
U T R E 2 T U , | U T R E 2 T U , | ||
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E T A A C C C R V R R R | E T A A C C C R V R R R | ||
- A L | - A L | ||
- P D C | - P D C H" $- | ||
H" $- | |||
I )l l i I | I )l l i I | ||
$lz 1 $0 0 F 8 O 55 1 1 1 1 1 1 1 1 | $lz 1 $0 0 F 8 O 55 1 1 1 1 1 1 1 1 | ||
$d T T T T T T T T M 5 1 | $d T T T T T T T T M 5 1 | ||
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V V V V V V V V O G T A NG 1 1 0 0 0 EN R 0 8 8 O" . P 2 2 1 1 1 1 3 3 ~ | |||
T V NI E - - - - - - - - | T V NI E - - - - - - - - | ||
' E OW B 2 2 2 2 2 2 2 2 | ' E OW B 2 2 2 2 2 2 2 2 | ||
Line 8,293: | Line 5,428: | ||
1 2 | 1 2 | ||
1 1 g/8 OD C | 1 1 g/8 OD C | ||
N M | N M M | ||
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M | |||
M | |||
M | |||
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N 1 1 E | N 1 1 E | ||
I E V T ~ | I E V T ~ | ||
E A 5 5 5 5 0 0 R D ~ EU 7 7 2 2 5 5 0 0 3 3 6 6 7 7 5 5 | E A 5 5 5 5 0 0 R D ~ EU 7 7 2 2 5 5 0 0 3 3 6 6 7 7 5 5 d5 1 1 0 0 0 0 1 1 m e | ||
d5 1 1 0 0 0 0 1 1 m e | |||
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. 2 2 2 2 2 2 2 2 N T - - - - - - - - | . 2 2 2 2 2 2 2 2 N T - - - - - - - - | ||
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A D | A D | ||
N O ) | N O ) | ||
I T K P C | |||
I T K | |||
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Y S C K A C C " " E E H D 2 2 C | Y S C K A C C " " E E H D 2 2 C | ||
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T " 6 8 0 S 8 5 a Y 5 1 d, A f # S | T " 6 8 0 S 8 5 a Y 5 1 d, A f # S | ||
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E G | |||
A T | |||
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. P EN 2 V NI E - | . P EN 2 V NI E - | ||
Line 8,390: | Line 5,500: | ||
R U MR 5 | R U MR 5 | ||
/ OD C | / OD C | ||
N M | N M Y | ||
B 6 | |||
D . 0 E O 2 W N E | |||
I E V T E A R D g$,EU 5 2 | I E V T E A R D g$,EU 5 2 | ||
($ U 2 N T D O I A - | |||
($ U 2 | |||
N T D O I A - | |||
I X C C T | I X C C T | ||
NA N OT O I S I 0 T T M . 3 AR C E . | NA N OT O I S I 0 T T M . 3 AR C E . | ||
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1 | 1 | ||
$ f :: | $ f :: | ||
$O fy 0 F 8 O $E 1 1 | $O fy 0 F 8 O $E 1 1 5 ,O$d T T 1 1 V V 2 | ||
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, E O G T A NG R 3 3 | , E O G T A NG R 3 3 | ||
. P EN 2 2 V NI E - - | . P EN 2 2 V NI E - - | ||
Line 8,453: | Line 5,554: | ||
/ | / | ||
R MR U OD N 1 | R MR U OD N 1 | ||
2 | 2 1 | ||
2 f C M M Y | |||
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B / A A D f . | B / A A D f . | ||
E E E O 6 6 W N 1 1 E | E E E O 6 6 W N 1 1 E | ||
I E V T E A o 5 R D gjEU 7 8 | I E V T E A o 5 R D gjEU 7 8 | ||
dU 1 | dU 1 1 | ||
1 | |||
. 2 2 N T - - | . 2 2 N T - - | ||
O I A G G I X C - - | O I A G G I X C - - | ||
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c 1 | c 1 | ||
/ c M 3 n 2f/ E T | / c M 3 n 2f/ E T | ||
/ Y S 0 3 | / Y S 0 3 | ||
S b | S b | ||
B 9 | B 9 | ||
_ 2 S D | |||
_ 2 S | 1 D S E S , | ||
U T R E 8 T U A S V 2 S N P S L - | U T R E 8 T U A S V 2 S N P S L - | ||
E A A F E T V C R A L P D C | E A A F E T V C R A L P D C | ||
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; | ; | ||
; | ; | ||
1 dO 0 F O 1 f | 1 dO 0 F O 1 f | ||
8 $E 1 | 8 $E 1 5 $d T T 1 V V i | ||
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5 $d T T 1 V V i | |||
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g 6 g | |||
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p NG EN R NI E 1 | p NG EN R NI E 1 | ||
1 V OW PA B 5 5 | |||
1 | |||
V OW PA B 5 5 | |||
/[ | /[ | ||
~ | ~ | ||
E R M 2 2 f MR U OD N 5 | E R M 2 2 f MR U OD N 5 | ||
M | M 5 | ||
5 | |||
C M Y | C M Y | ||
B [/ A E | B [/ A E | ||
Line 8,538: | Line 5,615: | ||
O I A G G I X C - - | O I A G G I X C - - | ||
T B B NA N OT O 0 0 I S I T T M 7 7 AR C E . | T B B NA N OT O 0 0 I S I T T M 7 7 AR C E . | ||
7 7 | 7 7 NE E TO B B 6 | ||
NE E TO B B 6 | |||
I W S I N MO AP1 GX WER . | I W S I N MO AP1 GX WER . | ||
I AO TEZN LVI OI CT BTUI CNN U U RE TS SS EE DB N - | I AO TEZN LVI OI CT BTUI CNN U U RE TS SS EE DB N - | ||
Line 8,548: | Line 5,623: | ||
A C | A C | ||
I F N I - | I F N I - | ||
O R _ I U T P -_ P I | |||
O | |||
R _ I U T | |||
P -_ P I | |||
D R | D R | ||
,, N C A S E | ,, N C A S E | ||
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k | k | ||
D. CODE EXCEPTIONS This section provides justification for the exceptions taken ,to Code test requirements as provided for in 10 CFR 50.55a(g) (5) (iii) . | D. CODE EXCEPTIONS This section provides justification for the exceptions taken ,to Code test requirements as provided for in 10 CFR 50.55a(g) (5) (iii) . | ||
Each Code exception is identified by a unique number and identifies the item (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. | Each Code exception is identified by a unique number and identifies the item (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. | ||
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) | ) | ||
SECTION IV SYSTEM PRESSURE TEST PROGRILM | SECTION IV SYSTEM PRESSURE TEST PROGRILM t | ||
l | |||
) | ) | ||
IV. SYSTEM PRESSURE TEST PROGRAM The System Pressure Test Program for all safety related systems will lac conducted in accordance with Table IWB-2500-1, Table ~IWC-2500-1 or Table IWD-2500-1 and will meet the requirements of Subsection IWB-5000, IWC-5000' or IWD-5000, as appropriate, of the ASME Boiler and Pressure Vessel Code,1977 Edition, and Addenda through Summer 1978 Addenda. The System Pressure Test Program will be applicable for the remainder of the 120-month interval, which started June 27, 1977 after which the Program will be reviewed and updated, as appropriate, with the Edition of the Code and Addenda in effect, not more than 12 months prior to the $ start of the next 120-nonth interval. All tests shall be conducted in accordance with the Inspection Program B of Section XI. In the event that no safety or relief valve is provided within the test boundary, for tests performed under IWC-5000 or IWD-5000, the system's normal operating pressure will be used to determine the System Pressure Test and System Hydrostatic Test pressures to ~ | |||
IV. SYSTEM PRESSURE TEST PROGRAM | |||
The System Pressure Test Program for all safety related systems will lac conducted in accordance with Table IWB-2500-1, Table ~IWC-2500-1 or Table IWD-2500-1 and will meet the requirements of Subsection IWB-5000, IWC-5000' or IWD-5000, as appropriate, of the ASME Boiler and Pressure Vessel Code,1977 Edition, and Addenda through Summer 1978 Addenda. The System Pressure Test Program will be applicable for the remainder of the 120-month interval, which started June 27, 1977 after which the Program will be reviewed and updated, as appropriate, with the Edition of the Code and Addenda in effect, not more than 12 months prior to the $ start of the next 120-nonth interval. All tests shall be conducted in accordance with the Inspection Program B of Section XI. In the event that no safety or relief valve is provided within the test boundary, for tests performed under IWC-5000 or IWD-5000, the | |||
system's normal operating pressure will be used to determine the System Pressure Test and System Hydrostatic Test pressures to ~ | |||
be used. In no case will the maximum pressure rating (with a 7 percent safety factor) of the lowest rated component be exceeded. | be used. In no case will the maximum pressure rating (with a 7 percent safety factor) of the lowest rated component be exceeded. | ||
f 0 | f 0 | ||
4 IV-1 | 4 IV-1 | ||
~_ _ | ~_ _ | ||
1 | 1 d | ||
d | |||
DOCU - | DOCU - | ||
M i | M i PAC,E PU__E ' | ||
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A O. somo-M 3 0 vers:2.e. d,rmo',ng NO. OF PAGES REASON: | A O. somo-M 3 0 vers:2.e. d,rmo',ng NO. OF PAGES REASON: | ||
O PAGE ILLEGIBLE: | O PAGE ILLEGIBLE: |
Revision as of 02:14, 1 February 2020
ML19323D085 | |
Person / Time | |
---|---|
Site: | Davis Besse |
Issue date: | 05/15/1980 |
From: | TOLEDO EDISON CO. |
To: | |
Shared Package | |
ML19323D083 | List: |
References | |
616, PROC-800515, TAC-10985, TAC-11316, NUDOCS 8005200629 | |
Download: ML19323D085 (195) | |
Text
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.SECTION I PUMP TECT PROGRAM TABLE OF CONTENTS Page A. PROGRAM
SUMMARY
. . . . . . . . . . . . . I-l B. PUMP TEST PROGRAM TABLE FORMAT. . . . . . I-l C PUMP PROGRAM TABLE . . . . . . . . .- . . I-3 Pump Test Program . . . . . . . . . . . . I-4 D. CODE EXCEPTIONS . . . . . . . . . . . . . I-6 Pump Past Performance Data. . . . . . . . I-10 Pump Past Performance Statistical Analysis I-24 4 . - + - 6 e ,F_ , . w --
I. PUMP TEST PROGRAM A. PROGRAM
SUMMARY
The Pump Test Program identifies test requirements for all safety related pumps both those pumps tested in accordance with the requirements of Subsection IWP of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those pumps for which the Code re-quirements have been found to be impractical. The Pump Test Program will be applicable for the remainder of the 120-month interval, which etarted on June 27, 1977 after which the Pro-gram will be reviewed and updated, as appropriate, with that Edition of the Code and Addenda in effect not ; ore than 12 months prior to the start of the next 120-month interval. Individual pump test requirements are presented in Section 'C' by a coded Pump Test Program Table. The codes used for this - Table are defined in Section 'B'. The Pump Test Program Table of Section 'C' is arranged in numerical sequence by Inservice Inspection Instrument Drawing (ISID) numb ~ err Section 'D' provides justifications for exceptions taken to code test requirements as provided for in 10 CFR 50.55a(g)(5)(iii). Justifications are general in nature and pertain to requirements found to be im-practical for all pumps. Code exceptions are numbered and refer - enced by number on the Pump Test Program Table. B. PUMP TEST PROGRAM TABLE FORMAT The Pump Test Program Table has been coded to provide the following information:
- 1. System and Drawing Number. System the pump is in and the ISID number.
- 2. Coordinates. Location on the ISID where the pump is found.
- 3. Pump Numbe_r_. Unique number assigned to each pump.
- 4. Speed ;. These parameters are andressed with one of the following entries, which indicate test interval or appli-cability.
e NR - not required e NA - not available e M - monthly test e Q - quarterly test I-l a
- 5. Inlet Pressure Pi . Same as Number 4.
o
- 6. Differential Pressure op. Same as Number 4.
- 7. Flow Rate Q. Same as Number 4.
- 8. Vibration Amplitude V. Same as Number 4.
- 9. Bearing Temperature Tb. Same as Number 4.
- 10. Lubrication Level or Pressure. Same as Number 4.
- 11. Code Exception. If the pump is being tested in ac-cordance with Section XI requirements, this column will be blank. However, for pumps which the Section XI requirements have been found tc be impractical, a 4
reference number is entered in the column. The reference number is addressed in Section 'D' with a complete explana-tion of the specific exception and justification for that ex'ception. m I-2 ____: =- .-;-.---.-. . . - - - w
C. PUMP PROGRAM TABLE
~
, This section provides a tabulation of all safety related pumps both those pumps that are tested in accordance with the require-ments of Subsection IWP of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those pumps for which the code requirements have been found to be impractical. The Table is arranged sequentially by ISID number.
ee d 0 e 4 I-3
-v,er,yy- y y- - e rw** me-g- - -%
9 DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP TEST PROGRAM Page 1 of 2 SYSTEM TEST PARAMETER MEASURED
& y INLET DRAWING DIFFERENTIAL FLOW VIBRATION BEARING $ PUMP SPEED PRESSURE LUBRICANT NUMBER g$
U NO. n* P PRESSURE Op RATE AMPLITUDE TEMPERATURE LEVEL OR CODE i Q V Tb PRESSURE EXCEPTION AUXILIARY J-8 P14-1 NR Q Q Q Q NR FEEDWATER NR 1,2,3 006B K-9 P14-2 NR Q Q Q Q NR NR 1,2,3 HIGH E-9 P58-1 NR Q Q Q Q NR PRESSURE NR 1,2,3 INJECTION C-9 P58-2 NR y 033 Q Q Q Q NR NR 1,2,3 LOW H-7 P42-1 NR Q Q Q Q PRESSURE NR NR 1,2,3 INJECTION G-10 P42-2 NR- Q Q Q 033 ' Q NR NR 1,2,3 CONTAINMENT D-9 P56-1 NR Q SPRAY Q Q Q NR NR 1,2,3 034 C-9 P56-2 NE Q Q Q Q NR NR 1,2,3 COMPONENT H-2 P43-1 NR Q Q Q COOLING , Q - NR NR 1,2,3,4 036 J-2 P43-2 NR Q Q Q Q NR NR 1,2,3,4 K-2 P43-3 NR Q Q Q Q NR NR 1,2,3,4 l
- SYNCHRONOUS OR INDUCTION MOTORS DO NOT REQUIRE SPEED CHECK (IWP-4400) ,
w- = . . . - .
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP TEST PROGRAM' Page 2 of 2 SYSTEM TEST PARAMETER MEASURED
& y INLET DIFFERENTIAL DRAWING FLOW VIBRATION BEARING $ PUMP SPEED PRESSURE LUBRICANT PRESSURE RATE AMPLITUDE NUMBER v$ NO. n* Pi 6p Q V TEMPERATURE Tb LEVEL OR CODE PRESSURE EXCEPTION SERVICE J-5 P3-1 NR Q Q Q Q NR WATER . NR 1'2'3'4 041 J-7 P3-2 NR Q Q Q Q NR NR 1,2,3,4 J-9 P3-3 NR Q Q Q Q NR NR 1,2,3,4.
Y w a t t
' SYNCHRONOUS OR INDUCTION MOTORS DO NOT REQUIRE SPEED CllECK (IWP-4400) . - - i
,, j k + # O g377, [;% /g j? $s/ NV' IMAGE EVALUATION TEST TARGET (MT-3) '4 %,,,N [. ,,. ' l.0 " [,,* W ;; a I.l [ ' RB l*
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MICROCOPY RESOLUTION TEST CHART Y rl +%s* /
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D. CODE EXCEPTIONS This section provides justification for the exceptions taken to Code test requirements as provided for in 10 CFR 50.55a(g) (5)-(iii) . Each Code exception is identified by a unique number and identifies the pump (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. Any testing performed. in lieu of Code requirements is specified. Code exceptions are numbered and referenced by number on the Pump Test Program Table for specific pumps. This section also precents a summary of past pump testing.
- 1. Code Exceptions
- a. Code Exception Number 1
- Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps PS6-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Coolwg Safety Related Equipment Cooling e Class: 2 and 3 e Test Requirement: Monthly Inservice Test e Basis for Exception: Monthly Section XI operability testing has been a Technical Specification requirement for these pumps since April 22, 1977. An analysis of the results of these tests and comparable data from other operating plants has shown no significant changes in performance. Based on this analysis, the continuation of Section XI monthly testing would not significantly increase plant safety. The Auxiliary Feedwater, High Pressure Injection, Low Pressure Injection and Contain-ment Spray Pumps are standby pumps whose continuous operation is not required. The Service Water and Component Cooling Water ptnps are continuously running and any significant degradation will be detected during normal operation.
,s Monthly pump testing requires a total of at least 270 hours per year of pump operation; at least 714 man-hours per year for data acquisition; at least 60 man-hours I-6
per year for data reduction, analysis, and record keeping. This amounts to a total of 774 man-hoers 12r year. At a conservative total cost of $20 per man-hour, this amounts to $15,480 per year. Based upon the average exposure rates in the areas of the Auxiliary Feedwater, High Pressure' Injection, Low Pressure Injection and Containment Spray Pumps, the total man rems exposure per year for pump testing is approximately 2.0 man rems. At the present conser-vatively estimated cost of $10,000 per man rem to plant personnel, this exposure costs an additional
$20,000 per year. Total cost to our customers is approximately $35,480 per year, for no significant increase in safety.
e Alternate Testing: Pumps will be tested in compliance with'ASME Section XI once per quarter. This is in agreement with present changes that are being imple-mented in Subsection IWP of the Code. The revision to change pump testing to a three-month _ interval in IWP-3400 has been approved and will be
~~1-included in future Addenda. See minutes of the November 28, 1979 meeting of the Operating and Main-tenance Working Group - Testing of Pumps and Valves, in San Jose, California, dated January 9, 1980.
- b. Code Exception Number 2 e Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps P56-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Cooling Safety Related Equipment Cooling e Class: 2 and 3 o
e Test Requirements: Measure pump bearing temperature yearly. e Basis for Exception: The referenced Editon of the Code requires bearing temperature to be recorded annually. It has been demonstrated by experience that bearing temperature rise occurs only minutes prior to bearing failure. Therefore, the detection of possible bearing failure by a yearly temperature measurement l I-7 _ -a
is extremely unlikely. It requires at least an hour of pump operation to achieve stable bearing tempera-tures. The small probability of detecting bearing
failure .by temperature measurement does not justify the additional pump operat ng time required to obtain the measurements.
> e Alternate Testing: NONE.- This is in agreement with present changes that are being implemented in Sub- , section IWP of the Code. The revision to delete 3
yearly bearing temperature measurement. Deletion of bearing temperature has been approved and will be included in future Addenda. See minutes of the November 28, 1979 meeting of,the Operating and
. Maintenance Working Group Testing of Pumps and '
Valves in San Jose, California, dated January 9, 1980.
- c. Code Exception Number 3 e Components: Auxiliary Feedwater Pumps P14-1, P14-2 High Pressure Injection Pumps P58-1, P58-2 Low Pressure Injection Pumps P42-1, P42-2 Containment Spray Pumps P56-1, P56-2 Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Emergency Core Cooling Safety Related Equipment Cooling e Class: 2 and 3 e Test Requirements: Observation of proper lubrication level or pressure.
e Basis for Exception: The observation of lubrication level or pressure is a maintenance function not an operability test function. Pump lubrication require-ments are determined by the pump manufe:turer and plant operation. e Alternate Testing: Pump lubrication requirements are part of the plant maintenance procedures rather than Section XI operability test requirements. This is in agreement with present changes that are being imple-mented in Subsection IWP of the Code. The revision to eliminate observation of lubrication level or pressure from the Code has been approved and will be included in future Addenda. See minutes of the November 28, 1979 meeting of the Operating and Main-tenance Working Group - Testing of Pumps and Valves, in San Jose, California, dated January 9, 1980. l i I-8 !
.;
- d. Code Exception Number 4 e Components: Component Cooling Pumps P43-1, P43-2, P43-3 Service Water Pumps P3-1, P3-2, P3-3 e Function: Safety Related Equipment Cooling e Class: 3
- e Test Requirements: Operability testing of installed spare pumps, o Basis for Exception: Any one of the three componeat cooling or three service water pumps is an installed spare.6 One pump is nonnally running, the second is aligned as an automatic backup to the operating pump and the third pump is electrically disconnected and manually valved out of the system. In the event of failure of the operating pump, the second automatically starts and the installed spare is electrically connected ^
and manually valved in as the reserve pump. e AiternateTesting: The normally operating and reserve pump will be tested. The installed spare need to be tested only when it is connected to the system.
- 2. Past Pump Performance The following information is submitted for your' review:
- a. Pump Past Performance Data
- b. Piunp Past Performance Statistical Analysis I-9 x --. - m-; :c -_= - __ ..--~ ,na, .
a ,- n ,,_.,.,,__m.__,.,,x,___._x
DAVIS-BESSE NUCLEAR POWER STATION PUMP T RFORMANCE-PUMP NO. 1-1 DATA A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY ...AUG. SEPT. OCT. NOV. DEC. PUMP V .11 .14 .14 .11 .14 .076 .15 .12 .09 .045 1NaOAno 2: (MILS) .17
.20 .14 .14 .15 .17 .16 .23 .16 .062 0 ^ .60 .55 .54 .28 28 ag PUMP y .43 .38 .38 .30 .40 .068 .09 .15 .15 .11. .11 .12 .088 .10 .13 .052 M .28 .25 .22 .22 .19 .24 .' 2 2 .24 .21 .071 A .70 .52 .52 .25 .44 .32 .28 .26 .28 .041 U FLOW s (GPM) 1250 1260 1310 1260 1290 1250 1290 1300 1275 1300 ?
lh S I4 TDH (PSID) 176 178 175 175 174 177 171 175 175 175 a. DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. V .11 ^ PUMP .11 .11 .12 13 .13 .14 .20 .13 g . .16 .13 .14 .17 .15 .16 .15 .17 s16 - A g ---
.42 .32 .45 .34 .28 .38 --- .38 g N PUMP .42 .12 .11 .11 .13 .17 .10 .20 .11 ONE H .27 .22 .22 .28 .22 .26 .20 .24 .22 (MILS)
A
.34 .32 .34 . 26' .23 .34 .36 .60 .38 6 rLOW (GPM) 1300 1275 1325 1318 1280 1314 1310 1305 1290 o
S TDH g (PSID) 175 175 204 204 173 173 A69 175 173
j . DAVIS-BESSE NUCLEAR POWER STATION l PUMP CONTAINMENT SPRAY UNIT NO. 1 PUMP PAST* PERFORMANCE.
~V = VERTICAL PUMP NO. 1-2 , DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE i
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. PUMP V .20 .15 .20 .34 .42 .24 .52 .18 1.9 .49 .46 INBOARD H (MILS) 1.5 .23 .34 .62 .30 .40 .36 .23 .22 .60 .80 g@ E ^ 3.20 2.70
.45 .62 2.40 1.20 2.35 .68 .40 a.40 3.50 18 y ag PUMP .60 .18 .17 1.40 .37 .38 .52 .23 .38 .82 .70 M .50 .25 .15 1.30 .28 .80 .24 .24 .28 .46 .18 A
3.60 .48 .30 3.80 2.G0 1.40 2.75 .84 2.60 3.70 3.80 1300 1300 1300 1326 1250 1275 1300 1300 1300 1307.5 BI
) 1325 AhM TDH 174 170 m (PSID) 172 177 171 170 163 175 172 175.40 173.30 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC.
Y .50 PUMP .53 .43 .19 .72 .32 .18 .32
- r, INBOARD H .32 .38 .35 .34 .39 .38 .28 .32 o@ '(MILS) A g 2.20 2.30 2.00 .62 3.20 .56 .52 .54 mN V PUMP .60 .74 .52 .30 .64 .28 .18 .24 O N OARD H
.40 .30 .27 .29 .24 .35' .32 .24 (MILS) ^ 2.30 2.50 2.00 1.10 2.80 .78 .64 1.20 U FLOW ,
(GPM) 1275 1300 1300 1320 1320 1320 1300 1290 b AhW TDH 175 175.70 175.40 176.30 175 175 m (PSID) 168 166
~ ~ " "
DAVIS-BESSE NUCLEAR POWER STATION PUMP HIGH PRESSURE INJECTION UNIT NO. 1 p , yg PUMP PAST*PERFOR N CE' PUMP NO. 1-1 DATA H = HOMON A = AXIAL . NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. PUMP V .06 .06 .062 .12 .17 .13 .12 .12
.13 .62 .12 .17 INBOARD z H .13 (MILS) .28 .30 .30 1.00 1.60 .92 .68 1.30 .56 .49 .41 .11 .12 IOh .38 .08 .12' 428 .15 .74 .15 .16 .40 .21 y
, mg . PUMP .14 .28 .21 .18 .23 .16 .058 .42 .80 .15 .078 .084
.30 .54 .38 .28 1.00 1.50 1.20 .68 1.40 .92 .98 .87 A .20 .13 .10 .12 .16 2.10 .09 .54 1.8 .10 .12 .14 U FIDW
- y (GPM) 280 290 286 290 288 290 290 304.3 290 290 288 290 mhN TDHs .
(PSID) 1569 1569 1553 1566 1566 1568 1570 1560 1563 1569 1554 1562 m , DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. pg V .19 .12 .80 .069 .054 .065 .072 .058 .054
' INBOARD H 2 .84 .99 1.60 .66 .68 .62 .56 .52 .52 -
O@ '(MILS) gg .24 .305 .34 .11 .13 .10 .12 .12 .084 mN PUMP .11 .12 .08 .08 .084 4078 .086 .064 .086 OUTBOARD H 1.30 .130 1.60 .20 .21 .20 .20 .28 .19 (MILS) A .13 .21 .19 .10' .12 .12 .13 .20 .11 U FLOW h (GPM) 290 285 290 285 290 290 288 280 290 IR DO hg TDH N (PSID) 68.50 1548.50 1578 1568. M 1568 1572 1579 1568 m
DAVIS-BESSE NUCLEAR POWER STATION . PUMP HIGH PRESSURE INJECTION V= p , PUMP NO. 1-2 DATA A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. ! PUMP V
.11 .14 .15 .14 .11 .17 .095 .18 .12 .11 .11 .14 INBOARD g (MILS) .74 .76 80 .74 .70 .84 .99 1.00 .92 .84 .86 .80 50 .11 .88 .13 .12 211 .16 .070 .11 .08 .18 .19 .28 88 PUMP y $g .12 .12 .20 .089 .081 .11 .11 .30 .12 .10 .11 .10 M .50 .38 .27 .45 .24 .25 .32 .28 .19 .30 .23 .30 A .10 .13 .13 .12 .12 .15 .099 .11 .11 .11 .15 .15 d FIM (GPM) 290 285 290 285 290 290, 290 290 284 290 290 290 Y
U Imh TDH W (PSID) 1569 1569 1563 1561 1567 1578 1559 1569 1600 1571 1566.20 1570.20 m DATE 1979 JAN. FEB. MAR. APR.' MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. V .26 .085 .42 .10 .13 .11 .12 .092 .11 PUMP INBOARD H g . (MIM) .90 .82 .78 .95 .84 .27 , .88 .90 .80 A 5g .24 .10 .18 .11 .15 .15 .088 .086 .26 V
$ PUMP .2R .11 .11 l11 .08 .11 .105 .10 .11 OUTBOARD H (MIM) .24 .59 .22 .18 .24 .27 .19 .18 .28 .14 .13 .14 .11' .13 .10 .11 .12 .14 U FLOW (gpg) 286 290 290 285 290 290 290 289.40 286.30 m
m TDH g (PSID ) 1567 1567 1567 1580.70 1576.5 1566.5 1561 1559.3 1564.6
,l1 ,ll l
8 1 .
. 0 C 6 2 0 0 C
_ E 3 2 1 2 2 E E D 9 8 D L
- B A
E L 0 8 . T I . V N A V 2 6 3 6 O O V O 3 2 1 0 2 8 N LA N 9 A IT XO HAN . 3 2 3 7 1 4 T T C
, = = = C 3 2 1 0 3 . O 9 8 O yHAA .
. N . . T 0 3 T . P 8 1 2 5 8 P E 2 2 1 7 E S 8 - S G 3 G 0 2 2 2 0 U 2 2 9 0 4 U A 1 8 A 3 2 1 5 A 7 3 8 3 8 N 8 Y 0 Y 8 6 0 L 4 7 1 0 L 4 1 1 8 A U 1 1 1 2 6 U 8 N 8 8 J J 0 N 9 O I T 0 E 0 2 . A E 8 1 0 8 1 0 5 T E- N 6 0 N S C U 1 2 1 5 A U 4 1 1 '
' 8 7
9 N J 9 N J 7 R A E M W R 0 4 O1O 0 0 2 0 8 Y 6 7 P F Y 6 8 9 3 8 1 0 8
.R A 4 A .n ROE ANP TA M 8 M 7 0 7
8 3 8 E L CIST'T D- A- 3 UNA . 0 4 R NUP R 5 1 7 0 8 1 4 6 4 9 P 6 3 1 0 P 3 7 1 2 E P A 9 A 1 3 S M 9 8 S U E P B . . 6
- 6 8 6 9 C R R 6 2 1 6 1 I A A 1 V M ,
M 0 3 A 9 8 D . '
. 0 1 B B 4 8 4 1 E E 7 2 1 7 3 F F 8 8 . . 8 N N 8 2 A A 0 2 0 1 J J 7 6 7 2 3 9 8 V A V H V H 3 V H A R
E T A 1 D W 1 D D R E D R R) A) ) C 8 R) A) ) 9 AS OS ) D I 7 AS OS ) D 7 POL PBL wM I OP HS c V R E S O 9 1 E POL MBI UNM PI( PBL MTI UUM PO( WM O@ L F( HS DP T( I 9 1 E T MBI UNM PI( MTI UUM PO(
- G r(
DP T( N T A A P P D OOg U hN D ggN U N* MM 2gg=5 DE U U P P GEN => A
% 1
. . _ _ ~
(: DAVIS-BESSE NUCLEAR POWER STATION PUMP SERVICE WATER
- V = VERTICAL PUMP HO. 1-2 '
H = HORIZONTAL A = AXIAL r-NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE. JULY AUG. SEPT. OCT. NOV. DEC. PUMP V .29 .23 NA .36 .3 .24 .34 .16 .31 .40 INBOARD g (MILS) .17 .12 NA .27 .13 .038 .12 .32 .12 .13 EO A
.032 .065 .NA 115 .084 .11 .07 .12 .055 .10 28 v gg PUMP > OUTBOARD H (MILS) .
U FIDW Y (GPM) 9343 9150 NA 9121 9100 9400 9200 9000 9000 9000 b osNh TDH '
- p. (PSID) 79.5 79.5 NA 79.5- 79.6 79.5 79.5 79 ~79 79.03 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC.
pg V .26 .28 .21 .38 .29
.29 .22 z INBOARD H .12 .12 .41 .11 .13 .11 .34 -
o@ -(MILS)
"g A .09 .10 .14 .068 .09 .07 .13 .N V PUMP -
1 5 OUTBOARD H (MILS) D FLOW (CPM) 9000 9029 9100 8400 9086 8871 9040 o A TDH M * * *O
- o. (PSID) * * *
- e
_ _ N DAVIS-BESSE NUCLEAR POWER STATION
- PUMP SERVICE WATER UNIT NO. 1 ,
PUMP PAST' PERFORMANCE-PUMP NO' l-3 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE i DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. PUMP V INBOARD
.16 .13 .17 .18 .22 .24 .10 .13 .17 H .22 .17 .20 2 (MILS) .26 .20 19 .17 .19 .24 0 ^ .11 .08 - .12 .11 .44 .12 .07 .08 .11 N
PUMP v
> OUTBOARD H (MILS)
U FLOW (GPM) 9000 8800 8600 8625 9000 8800 0000 9100 9071 b hh TDH ' g (PSID) 85.5 86 86 86 86 86 86 86 85.2 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. V .15 .16 .19 .20 PUMP .22 .15 .17 2 BO M H
.26 .17 .15 .22 .19 .085 .15 Sg ~(MILS)
A gg .16 .076 .092 .12 .074 .072 .076
- mN PUMP
- 5 OUTBOARD H <
l (MILS) ' d FLOW (GPM) 9150 9000 9071 8900 8500 9085 8608 h TDH g (PSID) 85.6 85.3 85.3 85.5 86.01 83.8 86
O ^
< ) -
i DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 PUMP AUXILIARY FEED PUMP , PUMP PAST* PERFORMANCE- . PUMP NO. 1-1 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAIT ABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. PUMP V .074 .07 .11 .082 75 .06 .11 .16 INBOARD - g (MILS) .120 .18 .26 .160 .15 .13 .18 .215 EO ^
.054 .07 .13 .059 .085 .06 .088 .072 18 gg PUMP y - .220 .26 .26 .190 .23 .23 .19 .21 g .130 .16 .21 .140 .15 .14 .19 .22 A .11 .40 .26 .084 .11 .12 .14 .14 d FIDW H (GPM) 817 821 813 825 820 818 815 820 il S!
Sh TDH g (PSID) 1105 1099 1172 1199 1194 1223 1185 1111 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. pg V .13 .088 .022 .C68 .22
.20 ~~.14 . INBOARD H 2 .16 .18 .15 .34 .25 .22 .17 -
o@
"g ~(MILS)
A
.078 .06 .064 .050 .08 .13 .10 -
g N I
' PUMP .165 .12 .15 .14 .16 .21 .18 > OUTBOARD H .20 .19 .16 .11 .20 .28 .16 (MILS)
A
.14 .12 .12 .090 .14 .14 .17 U FLOW (GPM) 820 810 808 537 813 NA NA o
A TDH ,. g (PSID) :118 1120 1122.5 1100 1128 NA 1197.3
DAVIS-BESSE NUCLEAR POWER STATION PUMP T'P RMANCE-PUMP NO. 1-2 DATA
, A = AXIAL , NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APP. MAY JUNE . JULY AUG. SEPT. OCT. NOV. DEC.
PUMP V
.21 .084 .10 .13 .99 .18 .10. .17 INBOARD H
g (MILS) .19 .24 .12 .19 .11 .20 .15 .26 EO ^
.11 .D95 .08 .09 .092 .10 .071 58 y gg PUMP .54 .33 .56 .34 . 57 .3 . 50 .54 .19 .21 .15 .40 .14 .18 .22 .22 (MILS) .29 .31 .24 .13 .17 .11 .45 .21 U FIDW H (GPM) 820 820 806 820 820 825' 813 813 b b mh TDH g (PSID) 1255 1258 1210 1250 125G 1257 1280 1267 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY A'JG . SEPT. OCT. NOV. DEC.
V .24 .072 .08 PUMP .26 .07 INBOARD H .15 y, .12 .11 .15 .12 og ~(MILS) A Eg .075 .05 .068 .15 .06 mN PUMP .50 .38 .34 -
.42 , .36 .20 .15 .17 .21 .19 (MILS)
A
.22 .22 .17 .15 .14 U FLOW (GPM) 820 820 820 812 810 _- -
TDH 1266 1270.9 1256.7 1215.3 1238 g (PSID )
y_ __ _-_ DAVIS-BESSE NUCLEAR POWER STATION PUMP DECAY HEAT UNIT NO. 1 PUMP PAST' PERFORMANCE- V = VE m N PUMP NO. 11 ' DATA H = HORIZOMTAL A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. .OCT. NOV. DEC. . PUMP V .20 .39 .62 .74 .60 .11 .72
.92 .82 .82 .75 .50 INBOARD j g (MILS) .21 .31 .05 .29 .36 .58 .56 .62 .46 .46 .38 .40 5O A .14 .34 1.0 .82 .86 .94 .12 1.1 .58 .28 .58 .90 18 m
y
.17 .31 .78 .67 >g PUMP 1.0 .40 1.2 .8 .46 .70 .265 1.1 OUTBOARD H .26 .41 1.1 .74 .86 .60 .86 .75 1.0 .86 .86 1.0 (MILS)
A
.14 .29 .70 .59 .53 .54 .78 .62 .52 .34 .34 .44 U FIDW y (GPM) 2928 3000 3010 3058 3050 2979 2987 3000 3000 3038 3000 3027 A b mh TDH (PSID) 159 158 159 159 159 157 156 152 NA 156 157 157 N.
a DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. V .70 .60 .64 .56 .52 .80 .79
- PUMP .86 ,
. INBOARD H z .80 .41 .40 .34 .36 .50 .38 .46 .
Og '(MILS)
"g A .36 .46 .10 .74 1.1 .67 .64 .78 mN V PUMP .68 .26 1.3 1.2 .82 .40 .62 .45 H .80 .88 .78 .44 .78 .68 .79 .82 A .36 .44 4.2 .74 .58 .60 .72 .66 2970 3031 2030 3032 3000 3015 2975.7 3050 h (GPM)
IR o
"p TDH E 156 158 146 150 158 156 157 156 g (PSID)
i . DAVIS-BESSE NUCLEAR POWER STATION
- PUMP DECAY HEAT UNIT NO. 1 PUMP PAST*1ERFORMANCE V = VE m N PUMP NO. 1-2 DATA H = HORIZONTAL A = AXIAL NA = NOT AVAILABLE I
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. PUMP V .39 .50 .59 .52
.80 .012 .62 .40 .46 .43 .45 .49 j INBOARD c g* (MILS) .72 .70 .67 .80 -015 .84 .56 .84 .61 .60 .61 .66 EE A .22 .50 .41 .36 .015' .36 .32 .36 .36 .28 .31 .38 58 v q gg PUMP .21 .30 .26 .80 .029 .68 .48 .42 .31 .30 .32 .37 j > NW H .68 .70 .68 .80 .027 .89 .73 .90 .60 .62 .62 .63 (MILS) .29 .38 .34 .40 .017 .38 .29 .32 .31 .26 .26 .30 U FIDW jy (GPM) 2990 3049 3026 3022 3000 3000 3060 3025 3040 2972 3042 3054
!0 i mhM TDH (PSID) 157 152 151 151 152 150 157 159 157 157 157 158 m DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. ph V .47 .40 .44 .36 .40 .25 .32 .32 .38 m H
.76 .41 .62 .62 .55 .71 .58 .55 .48 '(MILS)
SQ g 8 .33 .26 .25 .24 .32 .25 .36 .27 .29 V
$N PUMP .60 .24 .62 .52 .62 262 .38 .30 .26 ONE H .75 .64 .21 .72 .80 .81 .70 .67 .60 (MILS)
A
.36 .25 .10 .28 .31 .31 . 3 8' .26 .32 , d FLOW , (CPM) 3579 2900.7 2982 3047 3000 3051 3017 3029 3009 e
m TDH M m (PSID) 155.9 159 159 156 157 156 158 157.7 156 e
-~
~,
DAVIS-BESSE NUCLEAR POWER STATION
- PUMP OOMPONENT COOLING T NO. 1 PUMP PAST' PERFORMANCE- V = VERTICAL PUMP NO. 1 H = HORIZONTAL DATA A = AXIAL NA = NOT AVAILABLE i
DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. 'OCT. NOV. DEC. PUMP V .11 .11 .18 .20 .44 .18 .12 .12 .11 .12 INBOARD 2 H ' - (MILS) .34 .26 .40 .34 .32 .30 .22 .23 .26 .26 EO A 1.2 2.4 . 24 .7; .22 1.7 .48 .70 .75 .50 28 v gg PUMP .26 .52 1.7 .24 .34 .21 .14 .15 .15 .25
.61 .30 .54 .44 .44 .50 .34 .34 .45 .30 1.4 .20 1.80 .70 2.' 30 .19 .56 1.10 1.10 .60 U FIDW Y (GPM) 4700 7300 7400 4800' 7500 4800 7400 7200 7500 7300 0 b mh TDH te (PSID) 81 84 66 81 75 97 82 84 66 ----
m DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. Y .016 PUMP 1.2 .36 .12 .19 .14 .12 .16 .17 2 .024 .42 .34 .36
'(MILS) .42 .60 .28 .34 .34 - $@ g g .03 1.1 1.1 .78 .52 1.2 .65 .70 .74 mN PUMP .03 .24 .32 .24 .20 .24 .12 .20 .26 OMM H .024 .52 .54 .44 .36 .62 .16 .29 .46 (MILS)
A
.016 1.5 1.1 .86 .58 1.4 .80 .78 .76 U FLOW (GPM) 7400 g 4600 4600 4593 7300 7200 4792 7500 4755 oo Ag .TDH J g (PSID) 82 79 79.5 81.3 68 67 79.7 65 80.5 +
t_ _a__ _ _ _ _ _ _ _ . _ _ _ _ _ . _ _ _ __ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ . _ . _ _
DAVIS-BESSE NUCLEAR POWER STATION . PUMP ccMponpnT coorTNG WATER pg .PE MG V = VERI PUMP NO. 1-2 DATA - A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. PUMP V
.17 .28 .14 .76 .22 .13 .20 .16 .16 INBOARD z H (MILS) .36 .29 .26 .23 .24 .21 .36 .23 .30 EO A 1.40 . 13 1.20 1.30 1.40 1.1 1.00 1.40 1.30 %8 v gg PUMP .19 .38 .18 .25 .32 .22 .26 .34 .20 ONE H .03 .50 .38 .42 .43 .40 .40 .46 .50 (MILS) ^ 1.90 1.50 .12 1.50 1.50 1.00 1.80 1.50 1.60 U FIDW 7 (GPM) 4700 7414 7550 7500 7600 7500 4600 7500 7493 0 b Ah TDH g (PSID) 80.00 68- 67 67 66 66 99 67 66.1 DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC.
ph V .16 .20 .15 .18 .24 .26 .16
. INBOARD H 2 .19 .75 .22 .19 .40 .22 .20 gg '(MILS) A gg 1.10 1.30 1.20 1.40 1.90 1.80 1.70
- mN PUMP .31 .25 .19 .45 .48 .18 .31 ONE H
.36 .45 .42 .48 .46 .46 .45 (MILS)
A 1.20 1.60 1.30 1.50 2.20 .17 1.95 8 rLOw . (GPM) 7464.3 7400 7450 7507 4550 7514 7600 DO A g' TDH g (PSID) 65.33 65 65.28 65.28 79.5 63.70 64 P o _m __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ __ ____________ __ _______ __ __ _ _ _ _ _ _ _ _ _ _ _
Q ' ~
^
DAVIS-BESSE NUCLEAR POWER STATION PUMP COMPONENT COOLING WATER 5= p . PUMP NO. 1-3 DATA - A = AXIAL NA = NOT AVAILABLE DATE 1978 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. PUMP V
.56 .28 .42 .20 1.6 .68 .34 .34 .27 .44 .34 INBOARD g (MILS) .90 .40 .50 .19 .57 .54 .55 .64 .90 .72 .57 5O 1.30 .27 .70 1.9 .74 1.1 .90 2.50 1.50 .90 .66 IO V .70 mg PUMP .15 .50 .32 1.70 .70 .31 .40 .22 .26 .57 M
1.00 .25 .54 .44 .47 .70 .40 .68 ' .72~ .44 .71 1.50 .28 .70 1.00 .73 1.3 1.00 2.50 2.20 .78 .11 U FLOW y (GPM) 4700 NA 7203 7250 7300 4650 7400 4600 4500 7250 7250 .: U mhN TDH 80 NA 69 69 69 82 83 82 97 NA 67
- a. (PSID)
DATE 1979 JAN. FEB. MAR. APR. MAY JUNE JULY AUG. SEPT. OCT. NOV. DEC. p V .18 .25 .37 .25 .38 .32 .34 .44
. INBOARD H 2: .46 .80 1.0 .84 .65 .56 .58 .84 - "g o -(MILS) A g .72 .20 1.00 1.80 1.10 1.50 1.70 1.10 mN V .45 .5 .54 PUMP' .28 .45 .52 .54 .42 N OUTBOARD H .53 .75 .72 .84 .65 .76 .66 .68 (MILS) A
, .71 2.00 1.60 1.80 1.30 1.50 1.60 1.10 7192 4810 4700 4600 4728 4500 4750 4800
) , ~
lla ',%, 66 81.48 81.0 81.50 81.6c 82.06 81.80 80.e0
DAVIS-BESSE NUCLEAR POWER STATION I UNIT NO. 1 PUMP PAST PERFORMANCE STATI'STICAL ANALYSIS! - V = VERTICAL
. PUV2 DECAY HEAT H = HORIZONTAL 1-2 A " MN PUMP NO.
NA = NOT AVAILIBLE DATE 1978 ,1979 MEAN STANDARD DEVIATION .VARIs CE, V 0.429 0.152 0.C22 p
~
INBOARD H 0.615 0.176 0.030 A 0.307 0.0% 0.008 VIBRATION pg V 0.411 0.191 0.035 OUTBOARD H 0.656 0.201 0.038 , 1 A 0.291 0.090 0.008 C PUMP FIm (GPM) 3042.6 128.1 15632.3
]
TDH (PSID) 155.8 2.84 7.68 PUMP COMPONENT COOLING PUMP NO. 1 ) l l DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE I pg V 0.219 0.255 0.062 ) INBOARD H 0.319 0.122 0.012 A- O.827 0.549 0.286 l VIBRATION l V 0.306 0.352 0.118 PUM OUTBOARD H 0.404 0.150 0.021 (MILS) A 0.934 0.572 0.310 i FIM (GPM) 6244.2 1352.5 1732936.9 PUMP PERFORMANCE TDH (PSID 77.66 8.37 66.18 l l l
DAVIS-BESSE NUCLEAR POWER STATION I IINIT NO. 1 PUMP P.AST PERFORMANCE STATISTICAL ANALYSIS V = VERTICAL
. PUMP COMPONENT COOLING WATER H = HORIZONTAL ^ '
PUMP NO* l-2 NA = NOT AVAILABLE DATE 1978 - 1979 _
. MEAN -STANDARD DEVIATION , VARIANCE puMe v .223 0.150 0.021 INBOARD H' O.291 0.139 -
0.018
. t I 1.29 0.397 0.148 A
B M ON Pue v 0.282 0.095 0.008 OUTBOARD H- O.4125 O.110 0.01'l A 1.396 0.568 0.303 .C PUMP FIDW (GPM) 6958.9 1163.7 1269483.1 TDH (PSID) 69.64 9.22 79.65 PUMP COMPONENT COOLING WATER PUMP NO. 1-3 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.421 0.310 0.091 pg INBOARD H 0.643 0.201 0.038 A. 1.136 0.577 0.316 VIBRATION V 0.502 0.327 0.101 pgg
^ OUTBOARD H 0.628 0.176 0.029 A 1.248 0.632 0.378 FIDW (GPM) 5676.8 1305.8 1610266.5 PUMP PERFORMANCE TDH,(PSID 78.47 7.95 59.4 I-25
DAVIS-BESSE NUCLEAR POWER STATION . I UNIT NO. 1 PUMP PAST PERFOILMANCE ~' STATISTICAL ANALYSIS; V = VERTICAL
. PUMP CONTAIt: MENT SPRAY H = HORIZONTAL A" ^'
PUMP NO. 1-1 . NA = NOT AVAIIABLE DATE 1978 - 1979 , MEAN STANDARD DEVIATION VARIANCE 9 V 0.121 0.032 0.001 PUMP INBOARD H' O.156 ' 0.032 , 0.001 ,
, i .
A 0.382 0.123 0.014 VIBRATION v 0.135 0.07F 0.005 Pup
~
OUTBOARD H C.225 O.J45 0.002 A 0.357 0.149 0.021 C PUMP FIDW (GPM) 1289.6 22.9 497.7 TDH (PSID) 177.5 9.56 86.6 PUMP CONTAINMENT SPRAY PUMP NO. 1-2 < l l DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.436 0.388 0.142 p INBOARD H 0.44 0.295 0.083 I@MI A. 1.728 1.158 1.271 VIBRATION y 0.487 0.301 0.086 OUTBOARD H 0.373 0.267 0.067 1 i IEM) A 2.063 1.197 1.359 l b ! FIDW (GPM) 1300.4 18.86 337.0 pggp PERFORMANCE TDH (PSID 172.6 3.78 13.6 i t w
DAVIS-BESSE NUCLEAR POWER STATION I UNIT NO. 1
. PUMP PAST PERFORMANCE STATISTICAL ANALYSIS- ,
V = VERTICAL
. PUMP llIGH PRESSURE INJECTION H = IIORIZONTAL ^~
PUMP NO. 1-1 - NA = NOT AVAILIBLE DATE 1978'- 1979 MEAN STANDARD DEVIATION VARIANCE V 0.160 0.190 0.034 p INBOARD H' -0.712 i, 0.405 0.156 : 9 VIBRATION
^ *
- V 0.170 0.169 0.027 p
OUTBOARD H- 0.740 0.501 0.239 (" A 0.329 0.549 0.287 C PUMP FIDW (GPM) 288.8 4.75 21.48 TDH (PSID) 1566.1 7.42 52.4 PUMP liIG{ PRESSURE INJECTION PUMP NO. 1-2 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE p V 0.143 0.074 0.005 l IlmOARD H 0.816 0.149 0.021 j IM A. 0.180 0.171 0.028 VIBRATION i V 0.127 0.059 0.003 l PUMP 1 OUTBOARD H 0.264 0.130 0.016 (MILS) A 0.124 0.017 0.0003 L FIDW (GPM) 288.6 2.24 4.77 PUMP PERFORMANCE TDH,(PSID 1569.1 9.08 78.46
DAVIS-BESSE NUCLEAR POWER STATION ( UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL ANALYSIS V = VERTICAL
, PUMP SERVICE WATER H = HORIZONTAL A = AXIAL PUMP NO. 1-1 g , g ggg DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE V 0.444 0.192 0.035 e INBOARD H' i 0.355 0.225' 4-0.048 -
VIBRATION A 0.185 0.152 0.022 PUMP OUTBOARD H (MILS C~ PUMP FLOW.(GPM) 8945.9 247.2 57516.6 j EMO N G 83.25 1.386 1.785 TDH (PSID) PUMP SERVICE WATER PUMP NO. 1-2 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE p V 0.279 0.060 0.003 INBOARD H 0.172 0.104 0.010 I 0.092 0.032 0.001 A. VIBRATION PUMP OUTBOARD H (MILS) , A 1 PUMP FIDW (GPM) 9052.5 218.7 44823.0 l PERFORMANCE TDH,(PSID 79.30 0.269 0.068 l
DAVIS-BESSE NUCLEAR POWER STATION ( UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL ANALYSIS' _ V = VERTICAL
. PUMP SERVICE WATER H = HORIZONTAL A"
PUMP NO. 1-3 NA = NOT' AVAIIIBLE 4 DATE 1978 - 1979 i MEAN STANDARD DEVIATION VARIANCE V 0.171 0.037 0.001 pg INBOARD H' O.192 0.044 0.002 , VIBRATION A 0.119 'O.089 0.007 PUMP OUTBOARD H I l (MILS ' C PUMP FIDW (GPM) 8894.4 210.6 41599.4 l EMONG TDH (PSID) 85.64 0.579 0.314 PUMP AUXILIARY FEED PUMP PUMP NO. 1-1 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE l l pg V 0.107 0.054 0.003
. INBOARD H 0.191 0.058 0.003 '(MILS) A-l 0.079 0.025 0.001 l VIBRATION PUM V 0.194 0.042 ,
0.002 OUTBOARD H 0.176 0.043 0.002 I" A 0.152 0.080 0.006 L 795.2 77.7 5574.6 pggp FIDW (GPM) PERFORMANCE TDH,(PSID 1148.6 43.8 1783.9 w 4
DAVIS-BESSE NUCLEAR POWER STATION { UNIT NO. 1 PUMP PAST PERFORMANCE STATISTICAL MIALYSIS V = VERTICAL
, PUMP AUXILIARY FEED PUMP H = HORIZONTAL A = AXIAL PUMP NO. 1-2 g , g gyg g g DATE 1978 - 1979 - MEAN STANDARD DEVIATION ,
VARIANCE V O.137 0.067 0.004 PUMP
. INBOARD H' , 0.162 , 0.050 0.002 A 0.087 0.026 0.0006 VIBRATION PUMP V 0.437 0.100 0.009 OUTBOARD H 0.202 0.065 0.004 )
(MILS A 0.216 0.093 0.008 PUMP FLOW (GPM) 816.8 5.43 27.2 TDH (PSID) 1252.3 20.37 383.1 ; PUMP DECAY HEAT PUMP NO. 1-1 DATE 1978 - 1979 MEAN STANDARD DEVIATION VARIANCE I V 0.633 0.212 0.043 PUMP INBOARD H 0.417 0.157 0.023 A 0.626 0.322 0.098 .. VIBRATION p V 0.680 0.345 0.113 4* OUTBOARD H 0.764 0.205 0.040 I I A 0.707 0.839 0.699 PUMP F M (GPM) 2999.0 50.8 2450.6 PERFORMANCE TDH (PSID 156.1 3.36 10.73 I a
4 . SECTION II VALVE TEST PROGRAM t 4 d
TABLE OF CONTENTS Page ! A. PROGRAM
SUMMARY
. . . . . . . . . . . . . . II-l B. VALVE TEST PROGRAM TABLE FORMAT . . . , . . . II-l C. VALVE PROGRAM TABLES . . . . . . . . . . . II-5 Valve Test Program . . . . . . . . . . . . II-6 D. CODE EXCEPTIONS . . . . . . . . . . . . . . II-57 VALVE TEST PROGRAM CODES . . . . . . . . . II-71 e
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II. VALVE TEST PROGRAM A. PROGRAM
SUMMARY
The Valve Test Program identifies test requirements for all safety related valves both those valves tested in accordance with the re-quirements of Subsection IWV of the ASME Boiler aad Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those valves for which the Code requirements have been found to be impractical. The Valve Test Program will be applicable for the re-mainder of the 120-month interval, which started on June 27, 1977 . 8 after which the Program will be reviewed and updated, as appro- ] priate, wi{h that Edition of the Code and Addenda in effect not l' more than 12 months prior to the start of the next 120-month , interval.- s Individual valve test requirements are presented in Section 'C' by coded valve Test Program Tables. The codes used for these Tables are defined in Section 'B' and summarized in Figure 1. The Valve Test Program Tables of Section 'C' are arranged in numerical se-
~
quence by Inservice Inspection Instrument Drawing -(ISID) number. Section 'D' provides justifications for exceptions taken to code test requirements as provided for in 10 CFR 50.55a(g) (5) (iii) . Two types of justifications are provided. The first are general in nature and pertain to requirements found to be impractical for all valves. The second type is used to justify code exceptions for specific valves. Code exceptions are numbered and referenced by number on the Valve Test Program Tables. B. VALVE TEST PROGRAM TABLE FORMAT
- 1. Valve Number. Unique number assigned to each valve.
- 2. Class. AS!.E Class.
- 3. Coordinates. Location on the ISID where the valve is found.
- 4. Valve Category. Valve Category as defined in Subsection IWV-2200.
- 5. Passive. An 'X' in this column indicates that a valve is passive as defined in Subsection IWV-2100. All other valves are active valves as described. Those valves mechanically I constrained to prevent changing positions are designated l as 'L' in the Test Requirement Column. Those valves whose position is controlled by plant administrative procedures only are designated as 'P' in the Test Requirement Column.
i 1 II-l
- 6. Size. Nominal diameter of valve.
- 7. Valve Type. The following is a list of the type of valve with the code used in the Valve Test Pro-gram Tables'to reflect the valve type.
o AN - Angle Valve e PG - Plug e BF - Butterfly e RD - Rupture' Disk. e BL - Ball e RG - Regulating e CK - Check e RL - Relief e DA - Diaphragm e SC - Stop Check , e GA. ' Gat'e[ 'e SK - Spring Check j e GL - Globe o TW - Threa Wayi 8 e ND - Needle
- 8. Actuator Type. The following is a list of the type ,
of operator used to change the valve position with the code used in the Valve Test Program Tables to reflect the operator type. e AO - Air Operator _ e MA - Manual Operator
~'-
o MO - Motor Operator e SA - Self Actuated e SO - Solenoid Operator e HO - Hydraulic Operator
- 9. Normal Position. The following is a list of valve positions during normal operation and the code used in the Valve Test Program Tables to reflect that position.
o OP - Open e CL - Closed e ID - Locked Open e LC - Locked Closed e LT - Locked Throttled e TH - Throttled e -- - Valve position determined by other system para-meters as in the case of check valves.
- 10. Test Requirement. This column indicates the Code test l requirements which apply to the valve. The following
,is a list of the codes used in the Valve Test Program Tables with the definition of what the code reflects.
e i II-2
e S - Valve shall be exercised to the position required to fulfill its function. Category C check valves will be verified for forward flow, reverse flow, or both forward and reverse flow depending on the safety related function of the valve. Valves with remote position indicators, which are
' used to verify valve exercising or timing will - ! have their remote position indicators verified in accordance with Section XI, Subsection IWV-3300.
e F - Valve with fail-safe actuator to be tested by observing the operation upon loss of actuator power. e T - Valve stroke time to be measured. e R - Safety and relief valves set points to be tested in accordance with ASME PTC 25.2 - 1976, e D - Explosive actuated valves or rupture disk tested in accordance with IWV-3610 or IWV-3620. e L - Valve whose position is controlled by the use of physical constraints such as padlocks or seals. e P - Valve whose position is controlled by the use of administrative procedures only,
- 11. Code Exception. If the valve is being tested in accordance
'with Section XI requirements, this column will be blank.
However, for valves which the Section XI requirements have been found to be impractical, a reference number is entered in the column. This reference number is addressed in Section 'D' with a complete explanation of the specific exception and justification for that exception.
- 12. Alternate Testing. If the valve is being tested in accordance with Section XI requirements, this column will be blank. However, if the Section XI testing requirements have been found to be impractical for' a valve, this column presents the testing that will be performed in lieu of the Section XI specified test. The coding used for this column is the same as for the Test Requirement Column, see Item 10.
l II-3
e
- 13. Test Frequency. The codes used in this column indicate the plant operational status that' must be achieved before a particular valve can be safely terted. For simplicity only the three codes are used.
e Q - Quarterly Valves in this category can be tested quarterly during normal operation. (Technical Specification Modes 1 through 4). i
, , . 9 4 e C - Cold Shutdown Testing of valves in this category must be deferred until cold shutdown in order to avoid possible adverse opera- '
tional or safety situations. (Technical Specification Mode 5). Inservice valve testing is defined as: Valve testing . will commence as soon as possible but no later than 48 hours after reaching cold shutdown conditions. Valve testin:g will proceed in a normal manner until all testing is complete or the plant is ready to return to power. A completion of all valve testing is not a prerequisite to return to power and any testing not completed at the end of one cold shutdown will be performed during subsequent cold shutdowns, starting from the last test performed at the previo*su cold shutdown, to meet the code specified testing frequency. Cold shutdown conditions are defined per the Davis-Besse Technical Specifications. e R - Refueling Testing of valves in this Category must be deferred until the plant is in a refueling interval in order to avoid possible adverse operational or safety situa-tions. This. designation is also usud for passive valves to indicate that valve position is administra-tively controlled. (Technical Specification Mode 6.)
- 14. Maximum Stroke Time. This column provides the limiting value of full stroke time for power operated valves.
- 15. Remarks. This column is provided for pertinent informa-tion as appropriate.
II-4
C. VALVE PROGRAM TABLES This section provides a tabulation of all safety related valves, both those valves that are tested in accordance with the require-ments of Subsection IWV of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda and those valves for which the Code requirements have been found to be impractical. A set of Valve Program Tables is provided for each IEID. These sets are arranged sequentially by ISID number. 4+ 0
'II 5
DAVIS-BESSE NUCLEAR POWER STATION UNIT NO, 1 Page 1 of 2 VALVE TEST PROGRAM System MAIN STEAM Drawing No. 003 Rev. 29 s E
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DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Pago 2 of 3 VALVE TEST PROGRAM Syg, tem FEEDWATER SYSTEM Drawing No. 006B Rev. 32 E E $^
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't AF13 3 J-8 X X 1.5 GA MA LO L R SW9 3 J-8 X X 1.5 GA MA LC L R H 'AF68 3 K-9 X 1 CK SA --
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~ ' ~ ~ DAVIS-BESSE NUCLEAR POWER STATION UN.IT_ NO._ ,1 PCga 7 of 8 VALVE TEST PROGRAM System SERVICE WATER Drawing No. 041 Rev. 26 a # 3^ # valve _ u e g; g 3 & 88 T3 Cat. g g 3 a e' t gg g es ! l!I 3 Sl $, * $* 05 #$ e$ 33 # $" 'E V21ve Number $ $ A B C D $ $U j h Mh j2 y@ Oy Q$ @U y Remarks l
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; T Q 120 ;"ONE PUMP IS AN INSTALLED SPARE AND NOT TESTED QUARTERLY. ;
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D. CODE EXCEPTIONS _ This section provides justification for the exceptions taken to code test requirements as provided for in 10 CFR 50.55a(g) (5) (iii) . Each code exception $s identified by a unique number and identifies the valve (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. Any testing performed in lieu of Code requirements is specified. Two types of justifications are provided. The first are general in nature and pertain to Code requirements found to be impractical for all valves. The second type is used to justify Code exceptions for specific valves. Code exceptions are numbered and referenced by number on the Valve Test Program Tables for specific valves.
- 1. General Code Exceptions
- a. Code Exception Number G-1 e Components: All safety related power operated va.lves.
e Function: ' Power operated valve timing requirements.
- Class: All e Test Requirement: Section XI, IWV-3413(b)
"The stroke time of power-operated valves shall be measured to the nearest second or 10% of the maximum allowable stroke time, whichever is less, whenever such a valve is full-stroke tested."
e Basis for Exception: For valves *ith stroke times less than 10 seconds - this would require measuring stroke times to within a fraction of a second. l Velve timing is performed using a stop watch either ' by directly observing valve movement or by observing remote position indicators. Neither method can be relied upon to yield results with accuracy of less than a second. l l e Alternate Testing: The stroke tina of all power-operated valves shall be measured to the nearest second. l l l II-57 4
- b. Code Exception Number G-2 o Components: All safety related power operated valves.
e Function: Power operated valve timing requirements. e Class: All e . Test Requirements: Section XI, IWV-3413 (c)
"If an increase in stroke time of 25% or more from the previous test for valves with stroke time greater than 10 seconds, or 50% or more for valves. with stroke times less than or equal to 10 seconds, is observed, test frequency shall be increased to once each month until corrective action is taken, at which time the original test frequency shall be resumed."
___ e Basis for Exception: Operating experience has indicated that individual valve timing is influenced by many factors such as changes 3' temperature, humidity, fluxuation in power source, limit switch adjustment, etc. Because of these outside factors timing data can exhibit scatter which exceeds the Code criteria but which is still less,than the maximum full stroke time. Lacking in the Code requirements is any provision for verifying test results prior to placing the valve on an accelerated test frequency. The present Code does not require any action for valves whose stroke time suddenly decreases a signi-ficant amount. Any marked decrease outside the nor-mal band of stroke times could indicate a major mechanical problem, such as the power operator being disconnected from the valve. Any significant decrease in stroke time should be investigated to determine if the valve and power actuator are capable of performing their function. e Alternate Testing: Maximum full stroke times shall be established for each valve based upon required valve response time to assure adequate system re-sponse for safety related functions. Valve test
, times will be acceptable if less than the maximum allowed. If test time exceeds the maximum allowed, the valve will be immediately retested and corrective action taken as appropriate. Any significant de-crease in valve test time will immediately be inves-tigated and appropriate corrective action taken.
II-58
- 2. Specific Code Exceptions
- a. Code Exception Number 1 ,
o Components: MS100, MS101, o Function: Main Steam Isolation Valve, o Class: 2 e Test Requirements: Quarterly stroking. e Basis for Exception: Cycling valve during normal operation results in loss of main steam to turbine, which causes a reactor trip. e Alternate Testing: Valve will be full stroke tested during cold shutdown. Partial stroking during normal operation is not possible because
- partial stroking can only be performed locally at _
the valve. If valve was to inadvertently fail close during test,.the main steam reliefs would lift. The local test station is located in the . area which fills with steam from the main steam reliefs. Entry into area is strictly controlled during operation. No remote partial stroke capability is available,
- b. Code Exception Number 2 e Components: SW3, SW4 e Function: Service water check valve to auxiliary ,
feedwater pump suction. e Class: 3 e Test Requirements: Forward Flow Stroking. e Basis for Exceptions: Forward flow cycling would introduce service water into the feedwater system which would damage the steam generator and is pre-cluded by plant operating procedure. e Alternate Testing: NONE. l l l II-59 e e.
- c. Code Exception Number 3 e Components: AF5'99, AF608.
e Function: Auxiliary feedwater isolation valve to the steam generator.
- Class: 2 e Test Requirements: Quarterly stroking.
e Basis for Exception: Failure of valve in closed position daring test would result in total loss of auxiliary feedwater to the steam generator. A ' subsequent loss of main feedwater would cause extensive damage to the steam generator. e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial - stroke testing during normal operation.
- d. Code Exception Number 4 e Components: AF39, AF43, AF72, AF73, AF74, AF75 e Function: Auxiliary feedwater check valves to the steam generators e Class: 3 e Test Requirements: Quarterly forward flow stroking.
e Basis for Exception: Cycling valve would require injection of auxiliary feedwater into the steam generator, which would thermal shock the auxiliary feedwater nozzles. e Alternate Testing: Valve will be forward flow cycled during refueling when the steam generator is cold. Valve can not be partial stroked during normal operation without. injecting auxiliary feedwater into the steam generator.
- e. Code Exception Number 5 e Components: FW601, FW612 e Function: Main feedwater isolation valve to the steam generator.
II-60 g
4 e Class: 2 e Test Requirements: Quarterly stroking.
\
e Basis for Exception: Cycling valve during normal operation would cause loss of main feedwater to steam generator, which would cause reactor trip. e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial stroke testing during normal operation.
- f. Code Exception Number 6 e Components: IA501 e Function: Instrument air to containment isolation check valve.
e Class: 2 e Test Requirements: Quarterly reverse flow stroking, o Basis for Exception: To verify reverse flow closure requires entry into the containment. Entry into the containment during power operation is generally precluded by plant operating procedure. Entry during power operation is strictly controlled and i limited to entry only when absolutely necessary. (As per Special Order Number 84-4, Revision 4, dated January 8, 1979.) e Alternate Testing: Valve will be full stroke tested at cold shutdown. System operation precludes partial stroke testing during normal operation.
- g. Code Exception Number 7 e Components: SA502, SA2010 e Function: Breathable air to containment isolation
- valves.
e Class: 2 e Test Requirements: . Quarterly stroking. e Basis for Exception: Valve provides breathable air inside containment which must be available during normal operation and cold shutdown for entry into the containment. Cycling could endanger plant personnel. II-61 c
4 e Alternate Testing: Valve will be full stroke tested at refueling when the system can be iso-lated without endangering plant personnel. . Valve design (SA2010) and system operation (SA502) preclude partial stroking during normal operation.
- h. Code Exception Number 8
- e Components: CV117, CV186, CV187, CVl91, CV209, .
CV210 e Function: Hydrogen dilution air to containment check valves. I e Class: 2 and 3 e Test Requirements: Quarterly forward flow stroking. e Basis for Exception: Cycling can only be performed by injecting air from the hydrogen dilution blowers into the containment. This air must be purged from the containment to the environment. '.s air must be purged from the containment to the environment. Purge time is limited to 90 hours per year during normal operation. Testing could cause excecsive purging with resulting increase in releases to the environment. e Alternate Testing: Valve will be cycled at cold shutdown. No partial stroking is possible during normal operation without injecting air into the containment.
- i. Code Exception Number 9 3 e Components: CV5080 through CV5089 e Function: Containment vacuum breaker valves.
e Class: 2
e Test Requirements: Quarterly forw.rd flow stroking. e Basis for Exception: Forward flow cycling can only be performed by entering the annular area between the containment and shield building and verifying freedom of valve by hand. Entry to this area during power operation is strictly controlled and limited to entry only when absolutely necessary. ' (As per Special Order No. 84-4, Ret'sion 4, dated January 8, 1979). II-62 y
e Alternate Testing: Valve will be verified for freedom of valve movement at cold shutdown. Valve design precludes partial stroking during normal operation..
- j. Code Exception Number 10 e Components: CV124, CV125 o Function: Containment gas analyzer isolation check valve, e Class: 2 e Test Requirements: Quarterly reverse flow stroking.
e Basis for Exception: To verify reverse flow closure requires entry into the containment. Entry into the containment during norn'l operation is generally pre-cluded by plant operating procedure. Entry during power operation is strictly controlled and limited to entry only when absolutely necessary. (As per Special Order Number 84-4, Revision 4, dated January 8,1979) . e Alternate Testing: Valve will be full stroke tested at cold shutdown. System operation precludes partial stroke testing during normal operation.
- k. Code Exception Number 11 -
l e Components: RC10 e Function: Pressurizer spray control. e Class: 1 e Basis for Exception: Failure of valve in the closed position would result in loss of reactor coolant system pressure control, which is required during normal operation. e Alternate Testing: Valve will be full stroke tested during cold shutuown. Valve design precludes partial stroke testing during normal operation. II-63
- 1. Code Exception Niunber 12 o Components: RC2A ,
e Function: Pressurizer pressure control valve e Class: 1 e Test Requirements: Quarterly stroking and timing. e Basis for Exception: Valve is in normal operation to automatically control the pressurizer pressure. Valve is interlocked to the pressurizer which auto-matically controls valve position. Valve design and operating modes preclude valve timing. e Alternate Testing: Valve is effectively part stroked during normal operation in response to pressurizer conditions. Valve will be full stroked at refueling during performance of plant procedure PT5164.02 which also verifies pressure set point.
~
- m. Code Exception Number 13 e Components: MU33 e Function: Normal makeup water to the Reactor Coolant System o Class: 2 o Test Requirements: Quarterly stroking e Basis for Exception: Failure of valve in the closed '
position during test would result in total loss of , normal makeup to the reactor coolant system. Makeup ; is required during normal operation and cold shutdown. l e Alternate Testing: Valve will be cycled at refueling
)
1 when makeup water is not required. Valve design pre- ! cludes partial stroking during normal operation. , l II-64 e
- n. Code Exception Number 14 o Components: MU242," MU243, MU244, MU245 o Function: Reactor coolant pump seal water check valve.
e Class: 2 o Test Requirements: Quarterly reverse flow stroking e Basis for Exception: Reverse flow cycling during normal operation or cold shutdown would require stopping reactor coolant pump seal cooling water flow. This would damage reactor coolant pump _ , seals and is not permitted by plant proced rc. e Alternate Testing: Reverse flow stroking will be cycled at refueling. System operation precludes partial stroke testing during normal operation.
~
- o. Code Exception'!Iumber 15 e Components: MU66A, MU66B, MU66C, MU66D, MU59A, MU59D, MU38 e Function: Reactor coolant pump seal water isola-tion valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation would stop reactor coolant pump seal cooling water flow. This would damage reactor coolant pump seals and is not permitted by plant operating procedure.
e Alternate Testing: Valve will be cycled at re-fueling. Valve design precludes partial stroke testing during normal operation. f s II-65 C
4
- p. Code Exception Number 16 e Components: DH9A, DH9B e Function: Containment emergency sump isolation valve.
i e Class: 2 e Test Requirements: Quarterly stroking , e Basis for Exception: Cycling valve would introduce borated water from the borated water storage tank directly into the containment emergency sump. Valve
, is interlocked with DH7A (DH7B) and can only be tested when the borated water storage tank can be isolated.
e Alternate Testing: Valve will be cycled at refueling when the borated water storage tank can be isolated. valve can not be partial stroke tested during normal operation without injecting borated water into the containment emergency sump.
- q. Code Exception Number 17 e Components: CF28, CF29 e Function: Core flood tank isolation check valve e Class: 1 e Test Requirements: Quarterly forward flow stroking e Basis for Exception: Forward flow cycling can not be performed during normal operation or cold shutdown when the reactor coolant system is filled and pres-surized to pressure greater than that of the core flood tank.
e Alternate Testing: Valve will be tested at refueling when the contents of the core flood tank can be partially dumped into the reactor coolant system while monitoring core flood tank level. II-66 9
l l
- r. Code Exception Number 18 e Components: CF30, CF31, DII76, DH77 e Function: Low pressure injection check valve e class: 1 e Test Requirements: Quarterly forward stroking
> e Basis for Exception: Forward flow cycling can only be performed by injecting water from the decay heat system into the reactor coolant system. This can only be done at cold shutdown when reactor coolant system pressure is low enough to permit e injection.
e Alternate Testing: Valve will be forward flow cycled at cold shutdown. System operation pra-cludes partial stroke testing during normal _ operation when reactor coolant system pressure ~ is greater than the decay heat system design pressure.
- s. Code Exception Number 19 e Components: IIP 48, HP49, HP50, HP51, HP56, IIP 57 HP58, HP59 e Function: High pressure injection check valve.
e Class: 1 e Test Requirements: Quarterly forward flaw stroking e Basis for Exception: Valve can only be cycled by high pressure injection flow. High pressure injec-tion during normal operation or cold shutdown could introduce cold water into the significantly hotter reactor coolant system. This would thermal shock the high pressure injection nozzle. Additionally high pressure injection during cold shutdown could subject the reactor coolant system to pressures higher than allowed in the cold shutdown mode, e Alternate Testing: Valve will be forward flow cycled at refueling. System operation precludes partial stroke testing during normal operation. II-67 c
- t. Code Exception Number 20 e Co,mponents: C.F15, CF16, RC113 e Function: Nitrogen supply to core flood tank isolation check valve e Class: 2 e Test Requirements: Quarterly reverse flow stroking e Basis for Exception: Verification of reverse flow ]
stroking venting line downstream of valve. Venting line has the potential for release of airborne , radionuclides, which could cause local inhalation dose problems.
- Alternate Testing: Valve will be reverse flow cycled at refueling. System operation precludes .
stroke testing during normal operation.
- u. Code Exception Number 21 e Components: CCl411A, CCl411B, CCl407A, CC1407B e Function: Components cooling water isolation valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation or cold shutdown requires shutting off cooling water to the reactor coolant pumps, which would cause extensive damage to the pumps.
Cooling water to the reactor coolant pumps is re-quired except at refueling. e Alternate Testing: Valve will be full stroke tested at refueling. Valve design precludes partial stroke testing during normal operation. II-68
- v. Code Exception Number 22 -
e Components: CC1460 - o Function: Component cooling water isolation valve e Class: 3 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve during normal operation or cold shutdown requires shutting off cooling water to the makeup pump coolers which could cause damage to the pumps. -Cooling water to the pumps can only be shut off during cold shutdown. e Alternate Testing: Valve will be full stroke tested at cold shutdown. Valve design precludes partial
~
stroke testing' during normal operation.
- w. Code Exception Number 23 e Components: CC1567A, CC1567B e Function: Component cooling water isolation valve e Class: 2 e Test Requirements: Quarterly stroking e Basis for Exception: Cycling valve would require shutting off cooling water to the control rod drives which can only be done when electrical power is re-moved from the control rod drives at refueling, e Alternate Testing: Valve will be full stroke tested at refueling. Valve design precludes partial stroke testing during normal operation.
II-69
_ .=
- x. Code Exception Number 24 .
e Components: SW57 e Function: Service water isolation check valve
?
e Class: 3 , e Test Requirements: Quarterly. reverse flow stroking e Basis for Exception: Reverse flow cycling requires stopping cooling water flow through the turbine plant cooling water heat exchangers which could result in extensive equipment damage. e Alternate Testing: Valve will be reverse flow cycled at refueling when cooling water is not required. System operation precludes partial stroke testing during normal operation. h II-70 [
VALVE TYPE ACTUATOR TYPE TEST FREQUENCY Code D,efinition Code Definition Code Definition AN Angle Valve AO Air Operator Q Quarterly BF Butterfly MA Manual Operator C Cold Shutdown BL Ball MO Motor Operator R Refueling , CK Check SA Self Actuated DA Diaphragm SO Solenoid Operator GA Gate HO Hydraulic Operator
' GL Globe ,
ND Needle PG Plug RD Rupture Disk RG Regulating RL Relief ' SC Stop Check SK Spring Check TW Three Way NORMAL POSITION - Co'dh- Definition OP Open CL Closed LO Locked Open Ir Locked Closed LT Locked Throttled TH Throttled
-- Valve position determined by other system parameters as in the case of check valves.
TEST REQUIREMENT Code Definition S Valve shall be exercised to the position required to fulfill its I function. I F Valve with fail-safe actuator to be tested by observing the operation
;
upon loss of actuator power.
~ '
T Valve stroke time to be measured. R Safety and relief valves set points to be tested in accordance with ASME PT 25.2 - 1976. D Exposive actuated valves or rupture disk tested in accordance with I IWV-3610 or IWV-3620. L Valve whose position is controlled by the use of physical constraints such as padlocks or seals. ! P Valve whose position is controlled by the use of administrative l procedures only. Figure 1. Valve Test Program Codes t ra-m
SECTION III WELD, SUPPORT, COMPONENT AND BOLTING INSPECTION PROGRAMS TABLE OF CONTENTS Page A. PROGRAM
SUMMARY
. . . . . . . . . . . . . . . . III-l B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES FORMAT . . . . . . . III-2 C. WELD, SUPPORT AND BOLTING -
INSPECTION PROGRAM TABLES . . . . . . . . . . . III-6 l
- 1. Weld and Support Inspection Program Tables. III-7
- 2. Component Nondestructive Examination Tables'. . . . . . . . . . . . . III-35
- 3. Bolting Nondestructive Examination Tables. . . . . . . . . . . . . III-57 1
D. CODE EXCEPTIONS . . . . . . . . . . . . . . . . III-66 l l 1 I I
III. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM A. PROGRAM
SUMMARY
The Weld, Support and Bolting Inspection Program identifies the nondestructive examination (tmE) requirements for all piping and component welds, supports and bolting within the boundaries of safety related systems, both thcae welds, supports and bolting examined in accordance with the requirements of Subsection IWE, IWC, or IWD, as appropriate, of the ASME Boiler and Pressure vessel Code, 1977 Edition and Addenda through Summer 1978 Addenda and those welds, supports and bolting for which the Code require-ments have been found to be impractical. The Weld, Support and 1olting Inspection Program will be applicable for the remainder of the 120-month interval, which started on June 27, 1977 after which the Program will be reviewed and updated, as appropriate, with the Edition of the Code and Addenda in effect not more than 12 months prior to the start of the next 120-month interval. All examinations shall be conducted in accordance with Inspection Program B of Section XI. The Weld, Support and Bolting NDE requirements are presented in Section 'C' by coded Weld and Suppo? t Inspection Program Tables, Component Nondestructive Examinatior. Tables and Bolting Nonde-structive Examination Tables. The codes used for these Tables are defined in Section 'B' . The Weld and Support Inspection Program Tables of Section 'C' are arranged by system. Component Nondestructive Examination Tables and Bolting Nondestructive Examination Tables are arranged by Class and System. Section 'D' provides justificat'.u.' for exceptions take.3 to Code examination requirements as prtvF A for in 10 CFR 50.55a(g) (iii) . All Class 3 welds and a vports will be inspected to the require-ments of Table IWD-2500-1 of the Code. The examination will be conducted to the extent practicable within the limitations of the component, or system portion, design and geometry. l III-l d t
4 B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS -
- 1. The Weld and Support Inspection Tables are coded as follows:
- a. Subsystem / Description. A brief description of the line segment under consideration.
- b. Item Number. A unique, sequential number assigned to each line segment.
- c. Line Number. A non-unique number used to icentify the line.
The first set of numbers show the nominal piping diameter in inches. The second letter shows the material of con-struction as follows: e B - carbon steel e C - stainless steel e D - copper -- e R - carbon steel radwaste o S - stainless steel radwaste
- d. ISID. The Inservice Inspection Drawing on which the line segment is located,
- c. Coordinates. The location on the ISID where one end of the line segment is found.
- f. Normal Operating Pressure. The normal operating pressure in psig,
- g. Normal Operating Temperature. The normal operating temperature in "F.
- h. Material in <4 Inches. A 'CS' indicates that the line segment is exempted from NDE per IWC-1220(c), <4 inches nominal pipe size. This exemption is used for ferritic material only.
Austenitic naterial is exempted based upon <2-1/2 inches nominal pipo size. This exemption is applied to class 2 piping only. Other Code Exemption used in developing the Program were: e IWB-1223 (b) - Class 1 piping <1 inch nominal pipe size , e IWC-1220 (a) - Class 2 piping maintained under static co adi-tions of at least 80 percent normal operating pressure. I III-2
B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued)
- 1. Thickness. The nominal pipe wall thickness in inches.
- j. Weld Inspection. The numbers in each column indicate the number of welds in the line segment which will be inspected by that method.
e VOL & SUR/VOL - The welds will be inspected by either volumetric and surface examination (nominal pipe thickness
<1/2 inch) or by volumetric examination only (nominal pipe thickness >3/8 inch but <1/2 inch).
e SUR - The welds will be inspected by surface examination, o PRT - Pressure Test per IWB-5000 or IWC-5000, as appli-- cable. This is only used when no other weld examination is applied. e F/T - Flow Test at 100 percent mi imum rated flow. This is only used when no other weld exam *..;' ion is applied. e A/T - Air Test of open ended, normally dry pipe. This is , only used when no other weld examination is applied.
- k. Support Inspection. The numbers in each column indicate the number of supports which will be inspected by that method.
e SUR & VT The integral attachment weld will receive a surface examination and the complete support will receive a VT-3 visual examination. e SUR & VT The integral attachment weld will receive ! a surface examination and the complete support will I receive a VT-4 visual examination.
. VT The support which has no integral attachment weld ;
and will receive a VT-3 visual examination. ! l e VT The support which has no integral attachment weld and will receive a VT-4 visual examination.
- m. Remarks. This column is provided for pertinent information as appropriate.
ITI-3 I
B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued)
- 2. The Component Nondestructive Examination Tables are coded as follows:
- a. Component Information. Consists oft e Name - The name of the component e Number - The unique number assigned to the component e Drawing Coord. - The location on the ISID where the component is located e Design Operating F essure - The design maximum operating pressure in psig.
e DesignOperatingTemperature-Thedesignmaximumoperating temperature in F.
- b. W/S. A 'W' indicates that the line refers to a teld. An 'S' indicates that the line refers to a support.
- c. No,. Indicates the number of identical items referred to.
- d. Component Dra_ wing Number. The number of the drawing showing the component.
- e. Coord. The location of the wold or support on the component drawing.
- f. Section XI Item No./ Cat. The item number and category as given in Table IWB-2500-1 or Table IWC-2500-1.
- g. Section/ Base Material Thickness. The thickness of the welded section or the support base material in inches,
- h. Inspection. The inspection applied to the weld or support.
e VOL - volumetric examination I e SUR - surface examination , e VT VT-2 visual examination
- 1. Note No. The number of any applicable note. Notes art- shown at the bottom of the page.
III-4 l
B. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLE FORMATS (continued)
- 3. The Bolting Nondestructive Examination Tables are coded as follows:
- a. Description. A brief description of the item.
- b. Section XI Item No./ Cat. .The item number and category as given in Table IWB-2500-1 or Table IWC-2500-1.
- c. Size. The nominal bolt size in inches.
- d. No. The number of identical items referred to.
- e. Component Drawing Number. The number of the drawing of the overall component.
l f. Inspection. The inspection applied to the item. e VOL - volumetric examination
' ~~
e SUR - surface examination e VT VT-1 visual examination
- g. Note Number. The number of any applicable note. Notes are shown at the bottom of the page.
III-5
. - . ,- . . . . - ~ - . - .-.- -. .. . - _ _ .. .. . -_ __
C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES i a j 1, weld and Support Inspection Program Tables.
, F This section provides a summary of all piping welds and supports within the boundaries 'of the safety related systems, examined i in accordance with subsection IWB or IWC, as appropriate, of the l ASME Boiler and Pressure vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda. The Tables are arranged by System.
1 III-6
WELD AtlD SUPP0E SYSTEll: AUXILIARY FEEDWATER SYSTEM
$ e FIRST SEISMIC SUPPORT PAST H C 2) . BOUNDARY IS I!;CLUDED IN COUNT. N U UN , s des ge$
ITEM LIflE E 5$$ e$S I SUBSYSTEM /DESCRIPT10fl flUMBER flUMBER ISID 8 8S$ 8SU FROM VALVE AF599 TilRU PEN. 35 TO 35-0 6" EBB-4 007 F-2 990 90 STEAM GENEPATOR 1-2 FROM VALVE AF608 TIIRU PEN. 36 TO 36-0 6" EBB-4 007 F-12 990 90 STEAM GENERATOF. 1-1 e I
]- .
k l [ l
\ l \
1 l 1 l f
s i . T lllSPECT!0fl PROGRN1 W CLASS 2 PAGE i 0F 1 WELD IflSPECTI0ff SUPPORT iflSPECTI0fl A
- x usto _s 2!$ U$ .c O .o e d- ME A m - s s u? mT ? Y M iC Oa R 0 D 2 as 8s s s
~
REMARKS 0.280 - 5 - - - 1 1 - - 0.280 - 1 - - - 2 - - - 6 - - - 3, 1 - -
'I!;SPECT MIllIMUM OF 10% OF WELDS AND 25% OF SUPPORTS PER CODE. ,+
e d
/
III-7
9 f I a WELD Af!D SUPPORT SYSTEll: CoxPor!EliT COOLI!1G SYSTE!! O Y FIRST SEISMIC SUPPORT PAST Tile g g gg DOUllDARY IS It!CLUDED Ill THE COUtiT. z pg pg < ITEM LIf1E e O eww ME" m w :c E F SUBSYSTEM /DESCRIPTIOft fiUMBER flUMBER ISID 8 8SE ESI E 3-0 12"IIBB-1 036 F-2 60 95 - FROM VALVE CC1411B TilRU PEtt 3 s VALVE CCl411A 95
~
3-1 10"IIBB-1 036 G-3 60 - 3-2 12"11BB-1 036 G-3 60 95 - 4-0 12"IIBB-12 036 C-6 30 175 - FROM VALVE CC1407A TliRU PEli. 4& VALVE CC1407B 4-1 10"lIBB-12 036 C-9 30 175 - 4-2 12"11BB-12 036 C-9 30 175 - J. . l h e l 4
1 4 1 i V IllSPECTI0fl PROGRN1 I CLASS 2 PAGE 1 0F L WELD IftSPECT10fl SUPPORT lilSPECTI0fl W On 5 un " s a * - 1 5 55 t m , n . Ti bb N$ $ b b $N $N N N REMARKS 0.375 - - ALL - - 1 1 - - INSPECT ALL WELDS AND l SEISMIC SUPPORTS DURING ALL - - - - - - PRESSURE TEST. INSPECT 0.365 - - MINIMUM OF 25% OF SUPPORTS
- PER CODE.
0.375 - - ALL - - - - - 0.375 - - ALL - -
- 1. - - 1 INSPECT ALL WELDS AND SEISMIC SUPPORTS DURING 0.365 - -
ALL - - - - - - PRESSURE TEST. INSPECT MINIMUM OF 25% OF SUPPORTS 0.375 - - ALL - - - - - - PER CODE. 2 1 - 1 INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE.
-e m
O 9 8
\.
III-8
i , i i WELD AtlD SUPPORT SYSTEM: cnMPOurnT cooLI:iG SYSTEM C E G ew SE - 5 apsm apf 5 a sew a ITEM LItiE E s& <$ $ &$S $ SUBSYSTEH/DESCRIPTIOrl fiUMBER fiUMBER ISID 8 @SE 8SE' E E' ROM MICilOR 403 TilRU PENETRATION 12-0 3"IICB-40 036 D-4 115 95 S 12 TO MICilOR 355 I i 4- . 1 1 9 1 l l l l
l 1 lI \
~ =
GmEd@ ,g g-nr3e
" 3a o em uIl tPo =m,EeM@ - wg,S"CaAO
- S S)
ES L NE O KH &V CC / 3 4 3 4 . I I LR R T T T R - R - - - HI OU U R / / UT UT T T ,h=s ' T( VS S P F A SV SV V V i w .Co i m i ' '
- i ' ' sm M4 x 5ao ue OM i*
at ee $3o@ Mw 8O I p sui
- I' I
l WELD AtlD SUPPOR1 SYSTEM: CONTAINMENT AND PENETRATION ROOMS O E E Ew EE - 5 aps sDI e MMM eww E5M e w :c 0 e ITEM LINE 1 o SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 ESE ES" $ 8A-0 8"HBB-19 029B B-6 ATM 120 FROM NRV(1) TilRU PENETRATION 8
. (8A-8J) TO CONTAINMD3T VESSEL 8B-0 8"IIBB-19 029B B-6 ATM 120 8C-O 8"IIBB-19 029B B-6 ATM 120 BD-0 8"ItBB-19 029B B-6 ATM 120 8E-0 8"!!BB-19 029B B-6 ATM 120 8F-0 8"IIBB-19 029B B-6 ATM 120 8G-0 8"IIBB-19 029B B-6 ATM 120 8 11 - 0 8"IIBB-19 029B B-6 ATM 120 8I-O 8"IIBB-*19 029B B-6 ATM 120 )
120 j 8J-0 8"IIBB-19 029B B-6 ATM i I FROM BLIND FLANGE Tl!RU VALVE 17-0 8"IICB-44 029B G-5 ATM 120 CV343 MID PENETRATION 17 TO 8"HCB-49 029B G-5 ATM 120 DLIND FLANGE 8"IIBB-20 029B G-5 ATM 120 l FROM REDUCER DOWNSTREAM OF AND 51-0 4"IIBB-16 029A 11 - 5 18 150 TIIRU PENETRATION 51 TO SUPPOIU 29-IIBB-16-II5 . STEAM GENERATOR CIIEMICAL CLEANING 59-0 8"IICD-43 007 E-13 ATM .AMB 4 LINE - PENETRATION 59 1 l '. FROM SUPPORT 29-IIBC-73-II10 Ti!RU PENETRATION 69 TO SUPPORT 69-0 4"HBB-15 029A 11-11 18 150 f 29-IIBB-15-Il2
;
1 I 1 I l
\
l
IfiSPECTI0fl PROGRAF 1 l . CLASS 2 PAGE 1 0F 2-WELD IflSPECTI0ff SUPPORT IflSPECTI0fl lx 0 N wm a IN EN .e? .c oo ~ t~ MM as m - r r u? mi ? T
- % EiC WM a !E D 2 BC SC C C REMARKS 0.322 -
1 - - - - 0.322 - l' - 0.322 - 1 - - 0.322 - 1 - - - - - - 0.322 - 1 - - L 0.322 - 1 - - - - - - 0.322 - 1 - - 0.322 - 1 - - 0.322 - 1 0.322 - 1 - - - - - - 10 - - - - - - - ItiSPECT MIt3IMUM OF 25% OF WELDS PER CODE. NO SEISMIC SUPPORTS ON TIIESE LINES. 0.148 - 1 - - - 1 0.148 - 1 - - - - - 1 - 0.322 - 2 - - - 4 - - - - - 1 - INSPECT MI!3IMUM OF 25% OF WELDS AND SUPPORTS PER CODE , CS 0.237 - - - - - 1 - - - WELDS EXEMPT PER IWC-1220(c . INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. 0.148 - 2 - - - - - 1 - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE 1 1 - WELDS EXEMPT PER IWC-1220(c:. CS 0.237 - - - - - - INSPECT MINIMUM OF 25% OF SUPPORTS PER CODE. N
;
III-10
( WELD Afl0 SUPPORT SYSTEM: CONTAINMENT AND PENETRATI.ON IOOMS 0 Y E Ew WE a 5 aps ap5 5 a e 25$ M5E 5 ITEM LINE o www ews r SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE E$" I 33-0 48"IIBB-17 029A F-11 6 "W.G. 120 -
'IOM FIRST SFISMIC SUPPOIT UP-STREAM FROM VALVE CV5005 TIIRU . PDIETEATION 33 TO FIRST SEISMIC SUPPORT DOWNSTREAM FROM FIRST SEISMIC SUPPOIa UP- 34-0 48"IIBB-1B 029A G-5 8"W.G. 120 -
STREAM FROM VALVE CV5007 Ti!RU FDIETRATION 34 TO FIRST SEISMIC SUPPORT DOWNSTREAM OF VALVE CV5008 FROM SUPPORT 29-IIBC-73-II6 Ti!RU 67-0 4"IIBB-15 029A 11 - 1 1 18 150 CS .M PDIETFATION 67 TO SUPPORT 29-IIBB-15-II10 4 Y
.i 1
O I
4 I i
)
IllSPECTI0ft PROGRN1 i CLASS 2 PAGE 2 0F 1 WELD IflSPECTI0ft Sl!PPORT IfiSPECTI0ft d b 5 z 20 MI e> 8 e e i S a5 m H H H m7 NY 7 T
~
%___EC 98 8 E D 2 8% S$ $ REMARKS ALL - - - - - - INSPECT ALL WELDS AND SEISMIC SUPPORTS UPSTREAM i AND DOWNSTREAM OF PIPE DURING PRESSURE TEST. {
~' ~ ~ ~ E ~ ~ ~ ~ ~
INSPECT ALL WELDS AND I SEISMIC SUPPORTS UPSTREAM
* ' AND DOWNSTREAM OF PIPE DURING PRESSURE TEST. \
0.237 - 4 - - - 1 - 1 ~! INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER l CODE. I l 1 i I
. ;
I i I i i III-ll f L.
i 1 l . WELD AtlD SUPP01 SYSTEM: CONTAINMENT EMERCDICY SUMP 10 W
$ Ew ER 5 aps ops ;
ITEM LIfiE e O 258 eww EMM uwz f e SUBSYSTEli/DESCRIPTI0ft fiUMBER fiUtiBER ISID 8 88E @@W- % FROM PEN. 30 TIIRU VALVE Dl!9A & 30-0 18"IICB-1 033 K-4 - - REDUCERS TO TEE INCLUDING FW6 30-1 14"HCD-1 033 K-5 ATM 120 30-2 18"IICB-1 033 K-5 ATM 120 FROM PEN. 31 T11RU VALVE D119B & 31-0 18"HCB-1 033 J-4 - - l REDUCERS TO TEE INCLUDING WELD D ] i 31-1 14"IICD-1 033 J-5 ATM 120 d l 31-2 18"IICB-1 033 J-5 ATM 120 i 3-i i I l l l I s 1 e
\r l
1
.j
I1ll , 'l .l1 I t i . - - . rp,r Jp dl,ll tI v ~xuxJm i= L a t I 1 S 0 P
.O 0 0 E 3 1 3
_ ~x 3a=wmm C 7 1 T 8 7 8 ~ 8xwmm 1 5 8 5 8 0t i P
- - - R
_ - - _ >om e O mmmwc,_ G R A f
- W f 8 2 1 1 E 3 1 _ mam L D
I f 1 S
- - _ - - _ .am- P E
C T I
. 0 .us- t i <s-mam m C
_ S L
>s? U P
A S P S 1 1 O _ - - - _ mam a R w >sv T 2 I M- - _ lf S _ _ - - . P
>s? E C
T
. I 0 - _ t >rY t CWI OEN .
DLS
.E SE DP C
AT N DM R I SN E M P
~.J A A R G P3 O1 K S
E
. R 6 TO 1 SF P2 E5 0 R% F S
O 1 F e
\ '; '
1 9
i 4 I I n WELD AND SUPPORT SYSTEM: CarrAIN:ENT SPRAY SYSTEM Y Y
. Q Ew ER a , 5 ACE ACE h e EEN EMU $
ITEM LINF o eww e w :c > SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 eSE ESK 3 FROM 18"IICB-1 LINE TO CONTAINMENT 30-4 10"IICB-3 033/ K-9 25 120 -- SPRAY PUMP P56-2 SUCTION 034 30-5 8"IICB-3 034 D-10 25 120 -- FROM CONTAINMENT SPRAY PUMP 25-0 6"GCD-5 034 D-9 220 120 - P56-2 DISCIIARGE TO UPPER 25-1 8"GCB-5 034 D-9 220 120 -- SPRAY IIEADER INCLUDING WELDS B, 35, Y, AND 2 034 D-9 220 120 25-2 8"GCB-5 -- 25-3 8"IICD-8 034 C-3 60 120 - 25-4 8"IICB-8 034 C-3 60 120 -- TEST RETURN LINE FROM 8"GCB-5 LINE 25-1A 8"IICC-38 034 D-6 5 120 -- L TIIRU VALVE CS33 M 7 31-4 10"IICD-3 25 120 FROM 18"l!CB-1 LINE TIIRU VALVE 033/ J-10 -- CS2 TO CONTAINMENT SPRAY PUMP 034 P56-1 SUCTION 31-5 8"IICD-3 034 D-10 25 120 -- 6 FROM CONTAINMENT SPRAY PUMP 26-0 6"GCB-5 034 D-9 220 120 -- P56-1 DISCIIARGE TIIRU CONTAINMENT 034 D-9 220 120 26-1 8"GCB-5 -- SPRAY HEADER 26-2 8"HCB-4 034 D-6 150 120 -- 26-3 8"IICB-8 034 D-3 60 120 -- 26-4 8"IICB-8 034 D-3 60 120 -- TEST RETURN LINE FROM 8"GCB-5 26-1A 8"GCB-5 034 D-6 220 120 -- LINE TIIRU VALVE CS36 TO SUPPORP 34-IICC-38-II27 INCLUDING WELD FWl6B l
I t I
@ ~SO8Jm s l
l S P 000 0 0 0 0 000 0 0 0 0 E 0 L(
.O . 5 uMZJAM L C T
2 1 1 1 2 1 1 1 1 1 12 2 1 1 1 L 5 444 5 3 4 6 4 445 5 3 4 6 ~=uIJMeL I 0 0 888 0 4 8 5 8 880 0 4 8 5 f l P
- - - - - - - - - - - - - - - - B ,_ de R O
G S m~ >o_2 R A f W 1 E
- - - 2 - - - - - - - - - - - 8u L D
I l l S
- - - - - - - - - - - - - - - - "- P E
C T I A - - - A A A A A - - - A A A A 0 L L L L L L L L L L L L L L L L L L L L bs f t
- AAA - - - - - AAA - - - -
LLL LLL LLL LLL 2-
- - - - - - - - - - - - - - - - Sm 5e S C
L
$m U P
A S P S o O
- - - - - - - - - - - - - - - - Sm U R T
I $.n I 2 I l I l
- S 1 - - - - - - - - - - - - - - - - P 3 $.n E C
T I O
- - - - - - - - - - - - - - - - N $.n FSI ASI FS I FSI FSI ASI FSI FSI I EN I EN LEN LEN LEt: IEN LEN I EN .
DI S RI SPS OI S OIS OI S RISP S WSP OIS DIS WSP WSP WSP WS P WSP ME TME ME ME ME TME ME ME TI C EIC TI C TI C TI C EI C TI C TI C ECT SCT ECT ECT ECT SCT ECT ECT S T S S S T S S R
. SA .T ULSA TSA TSA . SA TSA. T. UL SA .T UL SA UL . UL . UL UL UL E M P PL PL PL PL PL PL PL PL A A P P P P P P P P R G OW OW OW OW OW OW OW OW K E RE RE RE RE RE RE RE RE S TL TL TL TL 'TL TL TL SD TL SD 1 SD SD SD SD SD SD O S S S S S S S S D D D D D D D D UA UA UM UA UA UM UM UA RN RN RI RN RN RI RI RN 0 I D I D I D I D I D I D I D I D F N N N N N N N N . G G G G G G G G D
L N l I
i i WELD AtlD SUPPORi SYSTEM: CORE FLOODING SYSTEM C E! e ew EE _
= sps apf 5 ITEM LIllE e EMM eww M&M ewr E
F o SUBSYSTEM /DESCRIPTI0t1 tiUMBER fiUMBER ISID 8 8SE ES& E FROM CORE FIDODING TANK T9-2 THRU 27-5 14"FCD-2 034 J-3 - - - VALVE CF28 INCLUDING FW27 27-6 14"CCB-5 3 J-3 - - - 27-7 14"CCA-6 033 B-3 2155 280 - FROM COPE FLOODING TANK T9-1 THRU 28-5 14"FCB-2 034 J-7 - - - VALVE CF29 INCLUDING FW12 28-6 14"CCB-5 J-7 - - - 3
)
28-7 14"CCA-6 033 B-2 2155 280 - 1 NOTE 10. SYSTEM EXEMPTED FROM MDE DUE TO SiSTEM BEING 80% STATIC - i e
\
f
l l i gA3g= yg- o P3m ~
- M T M g O!I
;
rPa E$$ e wc , $ =D AOb* S S E S) H ES L . C NE O , R KH &V &
- I CC / 3 4 3 4 I
l LR R T T T . L - R - - - 4 1 HI T( OU VS U S R P
/
F
/
A UT SV UT SV T V T V . X
, , i i i i i , i ' - !a MNY O a- =kM E , , i i : i i i i '
gP !a MN O $-
~ ME P 3O 5.b ON !8 , i i i i i '
m ,"o e O H "M ^
, , i i , i i i i ha MN b $- =kM a * , , i i i i i i e i !a MNP b $- =kM E -.3Q , i i i i i i i i " - %h OM !a mNyo s O HM M ^
H0i%
1 I 1 I WELD AND SUPPORT SYSTEM: DECAY HEAT REMOVAL SYSTEM 1 C U t~ Sw SS a
= _, p s __, p g 3 e $$$ f5E 6 ITEM LINE o eww e w :c SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 ESE ES" d I
ST-0A 8"HCB-2 033 B-12 25 120 -- FROM 24"11CD-2 LINE THRU VALVE BW7 TO FIRST SEISMIC SUPPOPT 27-2 10"CCB-6 033 B-6 ATM 200 --
.FROM DECAY IIEAT PUMP P42-2 DIS-OIARGE TIIRU PDIETRATION 27 TO 27-3 10"CCB-6 033 B-3 ATM 200 --
l REACTOR VESSEL 10"CCA-6 033 B-3 2155 280 -- 27-4 14"CCA-6 033 B-3 2155 280 - 27-1A 8"GCB-10 033 F-10 410 200 -- FROM VALVE DH830 TO 10"GCB-10 LINE 27-1A1 8"GCB-10 033 F-10 410 200 --
'FROM VALVE Dill 26 TO 8"GCD-10 LINE
/ . y . FROM BWST TO CAP ST-0 24"l!CB-2 033 B-12 25 120 -- 1 FROM 24"HCB-2 LINE THRU VALVES DII7A ST-1 14"IICB-2 033 C-12 25 120 -- AND DI!82 TO REDUCER INCLUDING WELD EMl FROM 24"HCB-2 LINE THRU VALVES ST-2 14"IICD-2 033 C-12 25 120 -- l DlI78 AND Dil81 TO REDUCER FROM REDUCER UPSTREAM OF VALVE 30-3 18"HCB-1 033 K-9 ATM 120 -- Dl!82 TO' TEE FROM 18"IICB-1 TEE THRU VALVE 30-6 18"HCB-1 033 K-9 ATM 120 -- DH2734 TO DECAY llEAT PUMP P42-2 30-7 18"HCB-8 033 K-9 45 260 -- 30-8 12"GCD-8 .033 G-9 45 260 -- FROM DECAY !! EAT PUMP P42-2 DIS- 27-0 10"GCB-1 033 G-10 410 280 -- OIARGE TIIRU PENETRATION 27 TO 27-1 10"GCB-10 033 G-ll 410 280 -- REACI'OR VESSEL HEAT EXCIIANGER BYPASS 27-0A 6"GCB-10 033 G-ll 410 200 -- 6"GCB 033 G-11 410 280 --
) . \
f
t 1 IllSPECTI0ft PROGRN1 CLASS 1s2 PAGE 1 0F 1 WELD IflSPECTI0tl SUPPORT INSPECTION m m e m -~ 2? LAJ m _J LD &* 14J o oo .o s- xx .o > M M q
- =0 VU N *:t
-= _a cc e t- H F-- mi ei e ,
e I- oa a a s N o F- o 6- >- t-- REMARKS vl F- - - >m m o. u. < m> m> > > 0.148 - 2 - - - 1 - - - 1.000 6 - - - - 3 - - - 1.000 - - - - - - - - - CLASS 1 1.000 - - - - - - - - - CLASS 1 1.250 3 - - - - 1 - - - CLASS 1 0.250 - 3 - - - 1- - - - 0.250 - 1 - - - - - - - 9 6 - - - 6 - - - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORfS PER CODE. 0.375 - - - ALL - - - - - 0.188 - - - ALL - - - - - 0.188 - - - ALL - - - - - 0.375 - - - ALL - - - - - 0.375 - - - ALL - - - - - 0.375 - - - ALL - - - - - 0.375 - - - ALL - - - - - 1 0.250 - - - ALL - - - - - 0.250 - - - ALL - - - - - 0.134 - - - ALL - - - -
.r-0.134 - - -
ALL - - - - - ALL - - - - - INSPECT ALL WELDS AND SEIS-MIC SUPPORTS DURING FLOW TEST. i III-15
\
l WELD AND SUPPORT SYSTEM: DECAY IIEAT REMOVAL SYSTEM (CONTINUED)
.' C U e Ew ER a 5 aps apf 5 'l e $ $ $? 25W $
ITEM CINE eww mwr H SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ES" $ l FROM 10"GCB-10 LINE TIIRU VALVE 27-lF 8"GCD-10 033 B-9 410 200 -- DII65 TO ANCi!OR 83 8"IfCB-9 033 B-9 100 120 -- FROM DECAY HEAT PUMP P42-1 DIS- 28-2 10"CCB-6 033 E-5 ATM 200 q CIIARGE TIIRU PENETRATION 28 TO 033 C-2 2155 280 28-3 10"CCA-6 REACTOR VESSEL 28-4 14"CCA-6 033 B-2 2155 280 J s IIEAT EXCIIANGER BYPASS 28-0A 6"GCB-10 033 G-8 410 200 - FROM VALVE DII831 TO 10"GCB-10 LINE 28-1A 8"GCB-10 033 F-9 410 200 - I FROM VALVE Dill 28 TO 8"GCB-10 LINE 28-1A1 8"GCB-10 033 F-9 410 200 - d ' FROM 10"GCB-1O LINE TO VALVE DII66 28-lE 8"GCD-10 033 E-7 410 200 - 1 FROM REDUCER UPSTREAM OF VALVE 31-3 18"IICB-1 033 J-6 ATM 120 -= DH81 'IO TEE FROM 18"!!CB-1 TEE THRU VALVE 31-6 18"HCB-1 033 J-6 ATM 120 -c DI!2733 TO DECAY IIEAT :? UMP P42-1 033 45 260 31-7 18"GCB-8 J-6 - 31-8 12"GCB-8 033 H-6 45 260 -' FROM DECAY IIEAT PUMP P42-1 DIS- 28-0 10"GCB-1 033 11 - 8 410 280 -c Cl!ARGE TIIRU PENETRATION 28 TO 033 G-8 410 280 28-1 10"GCB-10 -c t REACTOR VESSEL
)
3, , t ItiSPECTI0fl PROGRAll CLASS 1 & 2 PAGE 2 0F 2 WELD INSPECTI0t1 SUPPORT ItiSPECTION m m w m-I wM J v mw a =e s u xx .o > oo m e m e
*-. u: s 6-- mi m e
_a m e t-m. F-s o t-a -r I- om a s a t-- m> 6-- t--
> REMARKS v1 Hv >m m c u. < m> >
0.250 - 1 - - - - - - - 0.143 1.000 6 - - - - 1 - - 2 1.000 1 - - - - - - - - CLASS 1 1.250 5 - - - - - 1 - - CLASS 1 0.134 - 2 - - - - - - - 0.250 - 1 - - - 1 - - - 0.250 - 1 - - - 1 - - - 0.250 - 2 - - - 1 - - - 12 6 - - - 4 1 - 2 INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. . 0.375 - - - ALL - - - - - 0.375 - - - ALL - - - - - 0.375 - - - ALL - - - - - 0.250 - - - ALL - - - - - 0.250 - - - ALL - - - - - 0.250 - - - ALL - - - - - ALL - - - - - INSPECT ALL WELDS AND SEIS-MIC SUPPORTS DURING FLOW TEST. k III-16
t
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WELD AND SUPP0F SYSTEM: HIGH PRESSURE INJECTION SYSTEM 0 Y G Sw ER 5 aps op@ ITEM LINE @ @ @ !2 eww M@E o ewr SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID & ESE ESI FROM IIIGII PRESSURE INJECTION PUMP 22-0 4"CCB-2 033 E-8 ATM AMD P58-1 DISCHARGE TifRU PENETRATION 22 TO REACTOR VESSEL 22-1 h"CCD-2 033 E-5 2250 120
. 22-2 2 "CCA-2 033/ E-5 2155 582 : , 030 FROM 4"CCB-2 LINE TEE TIIRU PENETRA- 50-0 2 "CCB-2 033 E-5 2250 120 E TION 50 TO REACTOR VESSEL 50-1 2 "CCA-2 033/ E-5 2155 582 E 030 FROM IIIGII PRESSURE INJECTION PUMP 19-0 4"CCB-2 033 C-8 ATM AMB S P58-2 DISCIIARGE TIIRU PENETRATION 19 TO REACTOR VESSEL 19-1 "CCB-2 033 C-6 2250 120 S L
M 19-2 2 "CCA-2 033/ C-3 2155 582 5 030 - FROM 4"CCB-2 LINE TEE TIIRU PENETRA- 20-0 2 "CCD-2 033 C-3 2250 120 S TION 20 TO REACTOR VESSEL 20-1 2 "CCA-2 033/ C-3 2155 582 S 030 PROM 14"IICB-2 LINE TIIRU VALVES ST-3 6"IICB-2 033 J-ll 25 120 . -- IIP 10 AND IIP 12 'IO IIIGII PRESSURE ST-4 6"GCB-4 033 E-11 410 180 -- INJECTION PUMP P58-1 SUCTION INCLUDING WELD IW32 FROM 14"IICD-2 LINE TIIRU VALVES IIPll ST-5 6"liCB-2 033 K-ll 25 120 -- AND IIP 13 TO IIIGI! PRESSURE INJECTION ST-6 6"GCD-4 033 D-11 410 180 PUMP P58-2 INCLUDING WELD FW27 -- FROM 4"CCB-2 LINE TIIRU VALVE IIP 26 TC 22-0B 4"CCB-18 033 D-7 ATM AMB St FIRST SEISMIC SUPPORT 33C-CCD-19-H2 FROM 4"CCB-2 LINE TIIRU VALVE IIP 27 IS-0B 4"CCB-18 033 C-7 ATM AMB SE TO FIRST SEISMIC SUPPORT 33C-CCD-19-ill2 Q J
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9 T IflSPECTI0tl PROGRAF 1 CLASS 1 & 2' PAGE 1 0F _1 WELD IflSPECTI0t1 SUPPORT If1SPECTI0tl m m sw mm xx wm 2
*O Zw o 8 t: c-z.
o xx vv .a :::.
.c .o s m e m e - :.: _2 m m H H H ma mi e '
f 57: IO !?a S E D E 8$ 8$ b b REMARKS S 0.437 5 - - - - 1 - - - S 0.375 - 14 - - - 5 - - - S 0.375 - 4 - - - - - - - CLASS 1 0.375 - 10 - - - 4 - - - 0.375 - 4 - - - - CLASS 1 0.438 4 - - - - 1 - - - 0.375 - 6 - - - 4 - - - 0.375 - 4 - - - - - - - l
;
l 0.375 - 8 - - - 4 - - - $ 0.375 - 4 - - - - - - - CLASS 1 9 54 - - - 19 - - _ INSPECT MINIMUM OF 25% OF l WELDS AND SUPPORTS PER CODE. 0.134 - - - ALL - - - - INSPECT ALL WELDS AND SEIS-0.134 MIC SUPPORTS DURING FIOW ALL - _ _ _ _ TEST. l 0.134 - - - ALL - - - - - INSPECT ALL WELDS AND SEIS-0.134 - - - ALL _ _ _ _ _ MIC SUPPORTS DURING FLOW TEST. 0.438 - - - - - - - - EXEMPT PER IWC-1220(c) . 0.438 - - - - - - - - - EXEMPT PER IWC-1220 (c) . t 4 i III-17
l l' WELD Afl0 SUPPOR~ 1 l SYSTEM: LIQUID RADWASTE SYSTEM . l le , I t0 W l Q Ew ER - 5 aps apf : i ITEM LIfiE e o 150 eww E&" ewr l t SUBSYSTEM /DESCRIPT10ft fiUMBER fiUMBER ISID 8 ESE ESW 5 FROM SUPPORT 46-HBB-2-l!4 TIIRU 13-0 4"IIBB-2 046 C-10 25 180 C 1 l
. PENETRATION 13 TO SUPPORT l
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l WELD AflD SUPPORT SYSTEM: ww PRFsSURE IrOECTION SYSTEM / DECAY !! EAT REMOVAL SYSTEM J $ E G Sw ER - 5 aps opf : ITEM LINE e o 25$ eww H5E ewz e E SUBSYSTEM /DESCRIPTI0t1 NUMBER NUMBER ISID 8 8SE 85& E FROM 10"GCB-10 LINE THRU 28-lD 4"GCB-2 033 E-8 410 200 Sf VALVE Dil64 TO 6"GCB-4 LINE FROM 14"!!CB-2 LINE THRU VALVES ST-1A 4"HCB-2 033 K-ll 25 120 Sf DH132 AND Dlil31 FROM 14"HCB-2 LINE T!!RU VALVES ST-2A 4"IICD-2 033 J-11 25 120 SE 1
. Dill 29 AND Dlil30 FROM 10"GCB-10 LINE TIIRU VALVE 27-lE 4"GCB-2 033 C-11 410 200 S3 DII63 TO 6"GCB-4 LINE i
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1 IflSPECT!0ft PROGRN1 CLASS 2 PAGE 1 0F l_ WELD IflSPECTI0t1 SUPPORT It:SPECTION G _ W ET .R e e . ~ MM as ga m - - - m? uT at as
? T
% 50 a E D 2 t $ REMARKS 0.120 - - - - - - - - - EXEMPT PER IWC-1220(c) . 0.120 - - - - - - - - - EXEMPT PER IWC-1220(c) . 0.120 - - - - - - - - - EXEMPT PER IWC-1220 (c) . 0.120 - - - - - - - - - EXEMPT PER IWC-1220 (c) . L f III-19
i I t l WELD Afl0 SUPP0R SYSTEM: MAIN FEEDWATER SYSTEM v> w FIRST SEISMIC SUPPORT PAST w g gg
' BOUNDARY IS INCLUDED IN COUNT. <5 5y 2: H y i
O asa as@ - ITEM L-INE O eww
@$E e w ::c d
H SUBSYSTEM / DESCRIPTION ~ NUMBER NUMBER ISID 8 8SE ES" 5 FROM VALVE PW601 THRU PENETRATION 37-0 18" EBB-3 007 H-2 990 461
. 37 TO STEAM GENERATOR l-2 37-1 14" EBB-3 007 C-2 990 461 37-2 14" EBB-3 007 C-3 990 461 FROM VALVE FW612 THRU PENETRnTION 38-0 18" EBB-3 007 H-ll 990 461 38 TO STEAM GENERATOR l-1 '
38-1 14" EBB-3 007 C-12 990 461 1
- 38-2 14" EBB-3 007 C-12 990 461 i -
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ItiSPECTI0tt PROGRN1 CLASS 2 PAGE 1 0F 1 WELD IflSPECTI0t{ SUPPORT IllSPECTI0tl 0 I U-Ls3 O _J " N EN 40 a m
~
MS an u - - - e? eT ? T Vi 50 SS S E D E SC S$ b C REMARKS - 0.937 4 2 - - - 1 1 - - 0.750 6 3 - - - 1 1 - - 0.750 7 3 - - - 2 - - - 0.937 6 1 - - - - 1 - - 0.750 5 2 - - - 2 1 - - 0.750 4 1 - - - 1 - - 32 12 - - - 6 5 - -
. INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. ,
I 4 I l a 1 f III-20
- a I
WELD AtlD S PPORT SYSTEM: MAIN STEAM SYSTEM - SECONDARY CIDE m w g e es ]c
. - arm 5e ors 5~ #g ITEM LIf1E e
o Efs mww EEE ewr dd r SUBSYSTEM /DESCRIPTI0li fiUMBER fiUMBER 'ISID 8 8SE ESW f_* FROM STEAM GENERATOR l-2 THRU 39-0 26" EBB-1 007 B-2 910 594 - PENETRATION 39 AND VALVE MS100 007 910 594 39-1 26" EBB-1 B-2 - TO SUPPORT C-283 39-2 36" EBB-1 007/ B-3 910 594 - 003 FROM 36" EBB-1 LINE TO VALVE 39-2A 8" EBB-1 007 B-5 1155 600 - ICSilA FROM 36" EBB-1 LINE TO 12" CAP 39-2B 12" EBB-1 003 B-14 --- --- - PROM STEAM GENERATOR l-1 THRU 40-0 26" EBB-1 007 B-11 910 594 - PENETRATION 40 AND VALVE MS101 40-1 26" EBB-1 007 B-ll 91Q 594 - I TO SUPPORT SR10 4 40-2 36" EBB-1 007/ B-11 910 594 - 003 i FROM 36" EBB-1 LINE M VALVE 40-2A 8" EBB-1 007 B-8 910 594 - ICSilB FROM 36" EBB-1 LINE TO 12" CAP 40-2B 12" EBB-1 003 A-11 --- --- l O 4 t e I
a (flSPECTI0ff PROGRN1 CLASS 2 PAGE 1 0F 2 WELD If1SPECTI0fl. SUPPORT IfiSPECTI0fi , m ,s m^ , LAJ m J ' l M 4 M 4 * - uu s m n n e MD -.J W W H H H MC 0 9 e e 3* W OD D E N N DH DH H H - rl r Hv >m m o. u. < m> m> > > REMARKS 0.798* 6 - - - - 1 1 - -
- MIN. WALL O.798* 2 -
1 - 2 '* MIN. WALL 1.055/ 6 1 - - - 1 - - - 2.375 l 0.406 1 - - - - - - - - 0.798* 7 - - - - 1 2 - 1
- MIN. WALL 0.798* 5 - - - - - - - -
- MIN. WALL 1.055/ 8 3 - - - - -
1 - 2.375 0.406 1 - - - - - - - 1 l 1 I 36 4 - - - 3 4 1 4 INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODI: . l i i
~
e t l l III-21
l", . 4
\ /
6 WELD AtlD SUPPORT SYSTEM: MAIN STEAM SYSTEM - SECOrDARY SIDE a u Q Ew ER - 5 aps apf e EnN 25E d eww ewx P ITEM LIllE o SUBSYSTEM /DESCRIPTI0ft fiUMBER fiUMBER ISID 8 8$E ES" E 39-3 6" EBB-2 007/ B-3 910 594 - FROM 36" EBB-1 LINE TO VALVE MS107 003 39-3A 6" EBB-2 003 C-12 910 594 - FROM 6" EBB-2 LINE TO VALVE MS106A 40-3 6" EBB-2 007/ B-10 910 594 -- FROM 36" EBB-1 LINE TO VALVE MS106 003
;
40-3A 6" EBB-2 003 E-2 910 594 -- FROM 6" EBB-2 LINE TO VALVE MS107A 57-0 4" EBB-5 007 E-2 930 536
.{ FROM STEAM GENERATOR l-2 THRU j' PENETRATION 57 57-1 4" EBB-5 007 E-2 930 536 I
930 536 e FROM STEAM GDIERATOR l-1 THRU 58-0 4" EBB-5 007 E-ll
' PCIETRATION 58 58-1 4" EBB-5 007 E-ll 930 536 c i
4 I r
I IftSPECTI0ft PROGRAff e CLASS 2 PAGE 2 0F _2 WELD IflSPECTION SUPPORT IftSPECTI0ft M w ILd Me c La w _s >E l .~. U$ uu g3 s e m e M i e m e I
>-* C & F- F- F- M I I
_J m S$ M5 f [ VI 50 25 a E D E $ $ REMARKS 5 - - - 3 - - 1 0.280 - 0.280 - 2 - - - - - 2 1 0.280 - G - - - 3, - - 1 o.280 - 2 - - -
- EXEMPT PER IWC-1220(c) 0.237 - - - -
3 l
- - - - - - EXEMPT PER IWC-1220(c) 5 9.237 - - -
1 0.237 - - - - - - - - - EETT PER IWC-1220 (c)
- - - - - - - EXEMPT PER IWC-1220(c) 1 0.237 - - - 15 - - -
6 - 2 3 INSPECT MINIMUM OF 10% OF WELDS AND 25% OF SUPPORTS PER CODE. 6
- i
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e (
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i t III-22
d 9
'i 'l I WELD AtlD SUPPORT ]
SYSTEM: MAYZUP WATER TREATMENT SYSTEM 10 W Q Ew ER S c
' 5 aps ap5 $2 e @$$ 2fE $3 , ITEM -LINE O eww mwr r SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ESd' $5 FIOM ANCllOR 183 TifRU PENETRATION 21-0 4"l!CB-23 010B K-2 35 85 SS 21 TO ANCilOR 121 h
i- . t i , $ i e l dt
oRdS o "h2- : n5M u so h tPo =5E 5
- $4S* . .- U2 AO5=
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-' W W E ew spg HE a 5
5 sps
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ITEM LINE o eww ewz H SUBSYSTEM /DESCRIPTI0t{ fiUMBER flUMBER ISID 8 8SE ES" I 2185 580 g LD-0 2 "CCA-18 031 C-2 FROM TIIE REACTOR COOLANT LOOP TO VALVES MUlA & MUlB 2185 580 S LD-1 2 "CCA-18 031 C-3 031 C-3 2185 580 S LD-2 2\"CCA-18 1 14-0 2 "CCB-21 031 C-4 2185 120 S FROM VALVE MU2A TIIRU PEN. 14 & VALVE MU3 .4' I- . I
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s If1SPECTI0ft PROGRAll CLASS 1& 2 PAGE 1 0F 1_ WELD IfiSPECTI0f4 SUPPORT IflSPECTI0tl
$ $G a i EE eg e e ' ~
MM A u - .- - m? mi ? ?
'Ji 50 RS S E D 2 S$ S$ $ $ REMARKS s 0.375 - 3 - - - 1 - - - CU6S 1 3 - - - - - - -
CLASS 1 3 0.375 1 - - - Cues I 3 0.375 - 3 - - - 1' 1 - - FIRST SEISMIC SUPPORT li 0.375 - 3 - PAST TiiE BOUNDARY IS INCLUDED IN COUNT 3 1 - - INSPECT MINIMUM OF 25% OF 12 - - WELDS AND SUPPORTS PER CODE. l W 6 l l . III-24
; i \ ,l WELD N!D SUPPORT SYSTEM: NOPSI, COOLDOWN SYSTEM C U e Ew ER - , 5 aps aps #
e 158 cr: w w 25W a: w =c h ITEM LItiE o SUBSYSTEM / DESCRIPTION t1 UMBER NUMBER ISID 8 88E ESW $ 29-0 12"CCA-4 030/ D-7 2155 350 - FROM REACTOR COOLANT LOOP 2( A) TO 18"GCB-8 LINE INCLUDING WELDS 'D' 033 D 'B' 29-1 12"GCB-7 033 11 - 3 220 280 l FROM 12"CCA-4 LINE TO VALVE DH23 29-0A 8"CCA-4 033 11 - 2 2155 350 - 8"GCB-7 033 H-3 220 280 -e
.FROM VALVE Dil23 TO 12"GCB-7 LINE ,
29-1A FROM 12"GCB-7 LINE TO VALVE DH4849 29-1B 4"GCB-7 033 H-3 220 280 S2 1 4 FROM 12"GCB-7 LINE TO VALVE DI!31 29-2B 10"GCB-7 033 G-5 220 280 - 1
.i FROM 12"CCB-7 LINE TO VALVE DH30 ,
29-3B 10"GCB-7 033 H-5 --- --- -- 1 FROM REACTOR COOLANT LOOP 2(A) TO 29-2 12"GCB-7 033 G-5 220 280 -- 18"GCD-8 LINE INCLUDING WELDS 'D' 29-3 12"GCB-7 033 II-5 220 280 -- AND B BYPASS AROUND VALVE Dill 518 29-lD 2 "GCD-7 033 !!-4 220 280 S: 1 FROM 12"GCB-7 LINE TO VALVE Dl!33 29-2C 2\"GCB-7 033 H-6 220 280 S1
. BYPASS AROUND VALVE Dill 517 29-lC 2 "GCB-7 033- H-4 220 280 SS FROM 12"GCB-7 LINE TO VALVE DH29 29-2A 2 "GCB-7 033 H-5 220 280" SE FROM 12"GCD-7 LINE TO VALVE DH28 29-3A 2 "GCB-7 033 11 - 5 --- --- S5 \' - .
FROM 12"GCB-7 LINE TO VALVE DH32 29-3D 2 "GCB-7 033 H-6 --- - SI E
I IflSPECT10fl PROGRAll CLASS 1& 2 PAGE 1 0F _1_ WELD IflSPECT10ft SUPPORT IfiSPECT10f1 , m m w mn , x wm _s 'N. . c-NN uu ms s a m a
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u
*-* C _j m N H H >-= M e M 3 8 8 l
M s s 2 6- 2 6-- 6-- ar I- om a u m> m> t-
> > i REMARKS vi e- - um m u. =t - - 1 1.125 4 - - - -
2 - - lCLA49 l 0.250 - 8 - - - - - - - 0.812 1 - - - - - 1 - - CLASS 1 0.250 - 1 - - - - - r 0.120 - '- - - - - - - - 0.250 - 1 - - - - - - - 1 - - - - - - - 5 11 - - - 2 1 - - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE . 0.250 - - - ALL - - - - - 0.250 - - - ALL - - - - - 0.203 - - - - - - - 1 - ALL - - - 1 - Ii!SPECT ALL WELDS AND SEIS-MIC ddPPORTS DURING FLOW TEST. ) 0.203 - - - - - - - - 1 EXEMPT PER IWC-1220(c) . IN-SPECT MINIMUM OF 25% OF SUP - l . PORTS PER CODE. 0.203 - - - - - - - - - EXEMPT PER IWC-1220(c).' O.203 - - - - - - - - - EXEMPT PER IWC-1220(c) . e
----- - - - - - - - - EXEMPT PER IWC-1220(c) . l ----- - - - - - - - - - EXEMPT PER IWC-1220(c) . d. l l
l III-25
a
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t WELD Afl0 SUPPOR1 SYSTEM: now.AL MAKEUP m w w ce
$ Ew ER _
aDE apM ' O ITEM Lif1E O EOm NEE b SUBSYSTEM /DESCRIPTI0ft f. UMBER fiUMBER ISID E v bE
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x FEoM VALVE Mu33 To 2 "CCB-2 LINE 19-1A 2 "CCB-3 031/ C-6 2250 120 t 033 O f
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IflSPECTI0fl PROGRAff CLASS 2 PAGE 1 0F l__ WELD If1SPECTI0ft SUPPORT If4SPECTI0fl
;5 =
W!0 xx g -
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ME as u - - - m? mT ? Y - Il 50 SS S E D E S$ S$ $ $ REMARKS S O. 5 - 4 - - -- 1 - - - INSPECT MINIMUM OF 25% OF WELDS AND SUPPORTS PER CODE. 0 9 4 j t , III-26
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v WELD Afl0 SUPPORT SYSTEM: PEACTOR COOLMIT DRAIN NiD GASEOUS EADWASTE SYSTEM AUXILIARY BUILDING
$ E e ew Wi2 a 5 aps apf 5 e 558 EME 5 e
ITEM LIflE o 22 w w ewz SUBSYSTEM /DESCRIPT!0rt fiUMBER fiUM9ER ISID 8 8SE ESU' I 16-0 3"11CD-33 040A J-7 15 120 SS FIOM VALVE RC1719A M3D SUI' PORT IICB-12-I!3 TIIRU PENETRATION 16 MID VALVE RC1719B I
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C WmmQ5= o x8g-o P3w u ,Em s g c$ 2mgnd3
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# i ' ' - i " i HZ(A9 mod aEEc3 OM w OM o M= *5 d t"0In DG mGmOkC OOOt.1:
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1 h a WELD AflD SUPP0R SYSTEM: REACER COOLNiT SYSTEM
'i 0 Y - e Ew ER 5 aps ops :
ITEM LINE e $$$ aww 65E l o e w :c > SUBSYSTEM /DESCRIPTI0ft tiUMBER fiUMBER ISID 8 @SE @ S "- ! REACTOR COOLtJ3T I4OP A RCA-0 36"DIA. 030 D-8 2250 650 - RCA-1 28"DIA. 030 F-3 2250 590 - RCA-2 28"DIA. 030 G-3 2250 390 - RCA-3 28"DIA. 030 F-2 2250 590 c RCA-4 28"DIA. 030 J-3 2250 590 c i, REACTOR COOLANT LOOP B RCB-0 36"DIA. 030 D-9 2250 650 - RCB-1 28"DIA. 030 F-13 2250 590 - RCB-2 28"DIA. . 030 G-Il 2250 590 - RCB-3 28"DIA. 030 F-14 2250 590 - RCB-4 28"DIA. 030 J-12 2250 590 - I i, I FROM 28" COLD LEG % REAC% R RCA-lA 2h"CCA-18 030 G-3 2185 580 SE COOLANT PUMP P36-3 TO VALVE RC33 FROM 28" COLD LEG % REACE R RCA-3A 2 "CCA-18 030 J-2 2185 580 ss COOLANT PUMP P36-4 TO VALVE RC35 FROM 28" COLD LEG W REACM R RCB-1A 2h"CCA-18 030 F-13 2185 580 ss COOLANT PUMP P36-1 TO VALVE RC34 FROM 28" COLD LEG TO REACE R RCB-3A 2 "CCA-18 030 J-12 2185 580 S@ COOLANT PUMP P36-2 % RC41 O f 1
I1 1 l l [ L lp1l J!C2 '
% NW:30 I N
S 0 0 0 0 P 2 2 2 2 3 2 2 E 3 7 3 7 3 7 3 7 2 2 2 2 0 2 2 2 2 2 0 3 5~UiUG i J C T V 5 5 5 5 5 5 5 5 0 0 0 0 0 0 5 5 5 0 0 0 0 0 5 0 0=UWin I O N
- - - 2 P - - 4 2 2 2 2 4 3 2 1 2 4 go R O
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= _, p 3 _, p 3 - 5 <9 ,' e M$N E5W $5 ITEM LINE g ggg gg5 =os q,
SUBSYSTEM / DESCRIPTION NUMBER NUMBER 'ISID u = o n- 2-2 PZ-0 10" DIA. 030 D-5 2250 670 - PRESSURIZER SURGE LINE PZ-1 3"CCA-8 030 B-4 2155 648 SS FROM PRESSURIZER TIIRU VALVE RCll TO VALVE RC2A PZ-2 2 "CCA-8 030 B-3 2155 648 SS FROM PRESSURIZER TO VALVE PZ-3 6"CCA-8 030 B-5 2155 648 - RC13B PZ-4 4"CCA-8 030 B-5 2155 648 SS FROM PRESSURIZER TO VALVE PZ-5 6"CCA-8 ' 030 B-5 2155 648 -
! RCl3A PZ-6 4"CCA-8 030 B-6 2155 648 SS J. '
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1 P ll5PECTI0tl PROGRN1 CLASS 1 PAGE 2 0F 1 WELD IflSPECTI0tlr SUPPORT ItiSPECTI0ff , m , m- . LAJ m _J GW uu
-e s m
ff e e m e MZ F- H F-- M B B e SC at-J tr rt i EEC 28 a" E D 2 $ $ . REMARKS 1.000 4 - - - - - - - 1 0.438 2 1 - - - 1 1 - - 0.375 - - - - - 0.562 6 - - - - 1 - - - - 0.438 - - - - - 0.562 3 - - - - 1 - - - 0.438 1 - - - - - 16 1 - - - 3 1 - 1 inspect 25% OF WELDS AND SUPPORTS PER CODE. e l I
- 1 III-29
1 i WELD AtlD SUPPORT SYSTEM: REACTOR CooLA!iT SYSTEM _ ,.' y, w G GQ t n
- arm 5e ars 5~ d!
e M5s Ese $f ITEM NUMBER LINE NUMBER ISID a 8 ct w w 8SE a: w z ESW rJ fs SUBSYSTEM / DESCRIPTION - PZ-7 2 " DIA. 030 E-8 2250 - - PRESSURIZER SPRAY lit 4E PZ-7A 2 " DIA. 030 C-8 2250 - -
; =,
i 74C-0 1 "CCA-10 033/ G-ll 2185 580 SS PROM 10"GCB-10 lit 1E TilRU VALVE D1127 36, PE!;ETRATIO!I 74C M4D 030 VALVE RC51 To 2 " PRESSURE SPRAY 74C-1 l\"CCA-7 033/ D-5 2155 400 SS' jf_ LIFIE If;CLUDIIIG WELD 'l' 030 h l e s .
l
'l flSPECTI0il PROGRAft CLASS 1 PAGE 3 0F L i
f WELD IflSPECTI0ti SUPPORT IflSPECTI0fl $ 03 a g ' MM ne .8 - e e? e eT
? T F om m - - - .
h EC 88 8 !E D 2 at at b REMARKS 7 0.375 - 10 - - - - 0.375 - -
- 2 - - -
1 12 - - - - - - 7 INSPECT 25% OF WELDS AND SUPPORTS PER CODE. O.281 - - ALL - - - - ALL - 0.281 - - ALL - - - - ALL - ALL - - - - ALL - ALL WELDS AND SUPPORTS - PRESSURE TEST PERFORMED WITH PRIMARY SYSTEM HYDRO. 1 6 O 9 1
. 1 l
III-30
r, . _ - 1 { d WELD AtlD SUPPORT SYSTEM: REACTOR COOLANT SYSTEM J $ E Q Ew EE a 5 aps ap5 5
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r ITEM LINE o ce w w a: w =c SUBSYSTEM / DESCRIPTION NUMBER NUMBER ISID 8 8SE ES& I FROM SUPPORT 4Q,CCB-16-Jil 32-0 3"IICB-32 040A C-10 5 AMB SS
- TIIRU PENETRATION 32 70 SUPPORT 40-IISC-71-lil FROM SUPPORT 40-IICB-22-II3 48-0 3"HCC-22 040A 11 - 3 25 200 SS 'IIIRU PENETRATION 48 AND VALVE RC229A TO SUPPORT 40-IICC-85-lil =
1 tI 4 Wt O I i
t b It1SPECTI0tl PROGRAff l CLASS 2 PAGE 4 0F 4 WELD ItiSPECTI0tl SUPPORT lilSPECTI0tl 0G a h EM eR - e e eY b?M ak u - .- - u? ? Y [i v == ea a = 2 = se at t : REMARKS 0.120 - 3 - - - 1 - - - INSPECT MI!!IMUM OF 25% OF WELDS AllD SUPPORTS PER CODI' O.120 - 4 - - - - - 1 - Ir;SPECT MINIMUM OF 25%.OF WELDS A!;D SUPPORTS PER CODE e e
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- i. l III-31
P' 4 WELD AtlD SUPPORT SYSTEM: REFUELING CANAL SYSTEM
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. 1 TTT-12
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, SUBSYSTEM /DESCRIPTI0ti tiUMBER tlUMBER ISID 8 8SE OS" $
FPOM VALVE SW1366 Tl!RU PEN. 5 5-0 8"IIBB-7 041 E-3 70 85 - 1 FlOM VALVE SW1368 TilRU PEN. 6 6-0 8"IIBB-7 041 E-5 70 85 - I FROM VALVE SW1367 T!!RU PEN. 7 7-0 8"IIBB-7 041 E-6 70 85 - 5' ROM PEN. 9 TO VALVE SW1356 9-0 8"IIBB-ll 041 C-1 65 100 - _ FROM PEN.10 TO VALVE SW1358 10-0 8"11BB-11 041 C-3 65 100 - f FROM PEN. 11 TO VALVE SW1357 11-0 8"IIBB-11 041 C-5 65 100 - { e 6 3 k k
P i IflSPECTI0ff PROGRAft i. CLASS 2 PAGE 1 0F _1 m m WELD IflSPECTIOff SUPPORT IflSPECTI0ft La mn - tr LAJ M J t) Z LAJ o
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$3r 50 BS S E D 2 8$ 5$ $ h REMARKS 0.322 - 3 - - - 2 - - - 0.322 3 I 1 - - - 0.322 - 2 - - - 2 - - - 0.322 - 3 - - - 1 - - - 0.322 - 2 - - - 1 - - - 0.322 - 2 - - - 1 - - - INSPECT MINIMUM OF 25% OF
~ ~ ~ ~
0 ~ ~ ~ WELDS AND SUPPORTS PER CODE 1 l l l O e Y b III-33 I
i . P C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES (continued) s + l
- 2. Component Nondestructive Examination Tables.
This section provides a tabulation of all component welds and supports within the boundaries of the safety related systems, both those welds and supports that are tested in accordance with the requirements of Subsection IWB or IWC, as appropriate, i of the ASME Boiler and Pressure Vessel Code,1977 Edition, and Addenda through Summer 1978 Addenda; and those welds and sup-ports for which the Code requirements have been found to be impractical. The Tables are arranged by Class and System. l III-34
PREPARED B M h h f,, DATE V/ca]B PAGE 1 OF 3 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY DATEf/2/fD UNIT NO. 1 ISID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L d COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER ITEM THICKNESS $5 NOTE COORD NO. CAT. (INCIES) M$ NO. NAMES REACTOR VESSEL W UPPER SHELL FLANGE TO UPPER SHELL 1 154616E E-8 Bl.30 B-A 12.000 MIN VOL I MK-7 to MK-169 W UPPER SHELL TO SHELL MK-169 to 1 154625E G-8 Bl.ll B-A 8.438 MIN. VOL I MK-170 ' NUMBER:Tl W SHELL TO IDWER SHELL MK-170 to 1 154617E E-3 Bl.ll B-A 8.438 MIN VOL s MK-171 DRAWING COOE: D-8 W LOWER SHELL TO LOWER HEAD MK-171 TO 1 15'4625E G-10 Bl.ll B-A 5.375 NOM VOL f $ MK-181 W IDWER HEAD WELD M-181 to MK-6 1 154623E D-7 Bl.21 B-A 5.375 NOM VOL DESIGN OPERATING (ACCESSIBLE, PRESSURE 2750 psig i W Z OUTLET NOZZLE TO SHELL MK-168 TO 1 154619E G-2 B3.90 B-D 12.175 NOM VOL (17) TEMPERATURE 608 0 F MK-169 B3.100 W X OUTLET NOZZLE TO SHELL MK-168 TO 1 154619E G-2 B3.90 B-D 12.175 NOM VOL (17) MK-169 B3.100 W W/Z INLET NOZZLE TO SHELL MK-182 TO 1 154620E G-2 B3.90 B-D 12.175 NOM VOL (17) MK-169 B3.100 W Y/Z INLET NOZZLE TO SHELL MK-182 TO 1 154620E G-2 ,B3.90 B-D 12.175 NOM VOL (17) MK-169 B3.100 W X/Y INLET NOZZLE TO SHELL MK-182 to 1 154620E G-2 B3.90 B-D 12.175 NOM VOL (17) MK-169 33.100 EXAMINATION PERFORMED FROM VESSEL ID. - e
s - PREPARED BYMe,s./-r / MATE g/r,j//W O.T ONENT NONDES E C M N N ION - 2 3 PAGE OF DAVIS-BESSE NUCLEAK POWER STATION REVIEWED BY p DATEf/2/fd UNIT NO. 1 ISID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : DRAWING BASE MAT'L M ITEM THICKNESS Si 5 NOTE COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) 3E NO. HAME: REACTOR VESSEL W W/X INLET NOZZLE TO SHELL MK-182 TO 1 154620E G-2 B3.90 B-D 12.175 NOM VOL (17) MK-169 B3.100 - W W CORE FLOODING NOZZLE TO SHELL 1 154618E G-8 B3.90 B-D 12.175 NOM, VOL (17) i NUMBER: Tl MK-176 to MK-169 B3.100 , W Y CORE FLOODING NOZZLE TO SHELL 1 154618E G-8 B3.90 B-D 12.175 NOM VOL (17) 4 MK-176 TO MK-169 B.100 l DRAWING COORD: D-8 W W CORE FLOODING NOZZLE TO SAFE END 1 15'4618E B5.10 F-2 B-F 3.000 NOM VOL & ' g MK-176 to MK-89 SUR W Y CORE FIDODING NOZZLE TO SAFE END 1 154618E I DESIGN OPERATING F-2 B'5.10 B-F 3.000 NOM VOL & MK-176 TO MK-89 SUR PRESSURE 2750 psig W INSTRUMENTATION NOZZLES TO LOWER 52 154624E C-7 B4.14 B-E NA l VT-2 HEAD MK-92-ll8 to MK-6 (25%) ' TEMPERATURE 608 o p W CLOSURE HEAD FLANGE TO CLOSURE 1 154628E B-10 Bl.21 B-A 6.625 MIN VOL HEAD MK-22 TO MK-24 W CONTROL ROD HOUSING TO CLOSURE 69 154631E E-7 B4.13 B-E NA VT-2 HEAD MK-43-54 to NK-24 (25s) W CONTROL ROD HOUSING WELD 69 154632E --- B14.10 B-O 0.649 SUR (O N. 7 PER-IPHERA :,) S LIFTING LOG TO CLOSURE HEAD MK-34 3 154629E B-ll 38.10 B-H 3.5000 NOM SUR TO MK-24 EXAMINATION PERFORMED FROM VESSEL ID. e
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8 PREPARED MM bwDATE 8//u)f3 COMPONENT NONDESTRUCTIVE EXAMINATION 1 i pA OF DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DATE[/ Mfg UNIT NO. 1 030 ISID NO. CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION ITEM THICKNESS $$ NOTE NO. NUMBER COORD NO. CAT. (INCHES) dE NO. NAME8 STEAM GENERATO tW INLET NOZZLE TO UPPER HEAD MK-70 1 151916E .B-10 B3.130 B-D 8.000 NOM VOL PRIMARY SIDE TO MK-8 B3.140 (TYPICAL OF 2) W UPPER HEAD TO UPPER TUBE SHEET MK-8 1 151916E C-8 B2.40 B-B 8.000 NOM. VOL NUMBER: E24-1 TO MK-51 E24-2 W 151917E LOWER TUBE SHEET TO IOWER HEAD 1 E-9 B2.40 B-B 8.000 NOM VOL 7 MK-50 TO MK-9 y DRAWING COORD: E-14 W HEAD WELD MK-9 TO MK-7 1 151917E B2.31 e C-9 B-B 8.000 NOM VOL
- E-2 W OUILET NOZZLE TO LOWER HEAD MK-65 2 151917E G-7 B3.130 B-B 8.000 NOM VOL i TO MK-7 33.140 DESIGN OPERATING I' W DRAIN TO LOWER HEAD MK-22 TO MK-7 1 151917E G-3 TA B-E 8.000 NOM VT-2 (18)
PRESSURE 2750 psig S SUPPORT SKIRT TO LOWER HEAD MK-96 1 151917E H-10 38.30 B-H 1.750 NOM VOL (19) , TEMPERATURE 608 0 F I I f NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IBW-2500-1/IWC-2500-1. EXAMINATION PERFORMED ON ONE COMPONENT ONLY.
s, .. PREPARED d %4_DATEf/74/po COMPONENT NONDESTRUCTIVE EXAMINATION , p DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY DATEf/p/pC UNIT NO. 1 I ID NO. 030 CLASS 1 SYSTEM REACTOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION : DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD ITEM NO. THICKNESS $$ NO'IE CAT. (INCHES) 3E NO. f NAME: PRESSURIZER W VENT NOZZLE TO UPPER HEAD MK-78 TO 1 154594E D-7 NA B-E NA VI-2 (18) MK-5 - W MANWAY NOZZLE TO UPPER HEAD MK-122 1 154594E D-10 B3.110 B-D 4.750 MIN ' VOL NUMBER: T2 TO MK-5 B3.120 ' W 2 " RELIEF NOZZLE TO UPPER HEAD 1 154594E G-7 B3.110 B-D 4.750 MIN VOL i MK-31 TO MK-5 B3.120
- C-4 W SAFE END TO 2 " RELIEF NOZZLE MK-32 1 154594E C-7 B5.20 B-F .375 NOM VOL &
.j TO MK-31 SUR W 3" RELIEF NOZZLE TO UPPER HEAD 2 154594E F-F B3.110 B-D 4.750 NOM VOL DESIGN OPERATING MK-124 TO MK-5 33.120 PRESSURE 2750 psig W SAFE END TO 3" RELIEF NOZZLE 2 154608E E-7 35.20 B-F .938 NOM VOL & MK-125 TO MK-124 SUR TEMPERATURE 608 Op W SPRAY NOZZLE TO UPPER HEAD MK-9 TO 1 154594E G-5 33.110 B-D 4.750 MIN VOL MK-5 33.120 W SAFE END TO SPRAY NOZZLE MK-45 TO 1 154601E C-7 B5.20 B-F .813 NOM VOL & j MK-9 SUR l W LIFT LOG TO UPPER HEAD MK-47 TO 2 154594E H-1 38.20 B-H 3.60,5 MIN SUR f MK-5 W UPPER HEAD TO SHELL MK-5 to MK-1 1 154592E D-10 32.10 B-B 4.750 MIN L'OL W SHELL LONGITUDINAL WELD MK-1 1 154596E F-2 32.12 B-B 6.500 NOM 10L (21) ( NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD.
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PREPARED ua/s b DATE Vdd[fd COMPONENT NONDESTRUCTIVE EXAMINATION
- PAGE 2 op 3 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DATE f/%/yp UNIT NO. 1 i ISID NO. 030 CLASS 1 SYSTEM REACIOR COOLANT REV. O, 2-15-80 COMPONENT SECTION XI SECTION DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER ITEM THICKNESS $$ NOTE COORD NO. CAT. (INCHES) 3E NO.
NAME: PRESSURIZER W- LEVEL SENSING NOZZLE TO SHELL 3 154592E C-8 NA B-E NA VT-2 (18) MK-132 'IO MK-1 W SHELL TO SHELL WELD MK-1 TO MK-2 1 154593E H-7 B2.ll B-B 6.500 NOM- VOL W SHELL LONGITUDINAL WELD MK-2 1 154596E F-2 B2.12 B-B 6.500 NOM VOL (21) W SUPPORT TO SHELL MK-126 TO MK-3 8 154592E F-ll B8.20 B-H NA SUR DRAWING COORD: C-4 W SHELL TO SHELL WELD MK-2 TO MK-3 1 154593E H-7 B2,11 B-B 6.500 NOM VOL i W SHELL LONGITUDINAL WELD MK-3 1 154596E F-2 B2.2 B-B 6.500 NOM VOL (21) W SHELL TO HEATER BELT MK-3 TO MK-4 1 154593E H-7 32,11 DESIGN OPERATING B-B 6,500 NOM VOL AND MK-41 PRESSURE 2750 psig W HEATER BELT FORGING TO HEATER BELT 4 154599E D-2 B2.12 B-B 7,500 NOM VOL (21) SHELL LONGITUDINAL MK-4 TO MK-41 TEMPERATURE 608 OF AND MK-4 TO MK-40 W HEATER BELT FORGING CIRCUMFERENTIAL 1 154599E E-7 B2.ll B-B 13,562 POM 70L HK-41 TO MK-40 W SAMPLING NOZZLE TO SHELL MK-30 TO 1 154592E D-8 NA tiK-4 B-E % /T-2 '18) M THERMOMETER WELL TO SHELL MK-29 TO 154592E 1 (I-7 NA B-E 1A LT-2 (18)
- 4K-4 W LEVEL SENSING NOZZLE TO SHELL MK-132 3 154592E E-9 t B4.20 B-E NA /T-2 :18)
TO MK-4 t i NO SECTION XI CATEGORY AND/'OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD.
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PREPARED BY pak -fz DATE'//ga/fd COMPONENT NONDESTRUCTIVE EXAMINATION , DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWED BY -[ DATEf/2/f0 UNIT NO. 1 f ISID NO. CLASS 1 SYSTEM VARIOUS REV. O, 2-15-80 COMPONENT SECTION XI SECTION DRAWING BASE MAT'L 8 ; COMPONENT INFORMATION ITEM THICKNESS Oi 5 NOTE W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) dE NO. I NAME: CLASS 1 VALVES VALVES DH-ll, DH-12 2 =--- =- --- B12.40 B-M-2 NA VT-1 (19) VALVES DH-21, DH-23 2 ' B12.40 B-M-2 NA 7T-1 '(19)
.SEE DESCRIPTION VALVES CF-30, CF-31, CF-28, CF-29 4 ------- ---
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PREPARE ,L /w 7m' DATE <//bs/fd ONE M N M DES M M N MAT M DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWED BY Jr. - DATEjI/2/fg UNIT NO. 1 ISID NO. 033 CLASS 2 SYSTEM DECAY HEAT REMOVAL REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L O ITEM THICYNESS Oi5 NOTE COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCOS) dE NO. j NAME: DEACAY HEAT W HEAD TO SHELl. '4 ELD A 1 D2552-5 NA C1.20 C-A 0.625 NOM VOL (19)ll COOLER W SHELL LONGITUL_'AL WELDS B AND H 2 D2552-6 N,. NA C-A 0.625 NOM VOL (18) (TYPICAL OF 2) (19)q NUMBER: E27-1, E27-2 ' (21)
. W NOZZLE TO SHELL WELDS C AND E 2 D2552-6 NA C2.10 C-B 0.365 NOM SUR (19)
W NOZZLE TO FLANGE WELDS D AND F 2 D2552-6 NA C5.ll C-F 0.365 NOM SUR (19) DMEG ME: -8 5 _f W SHELL 'IO FLANGE WELD G 1 D2552-6 NA C2.23 C-B 0.625 NOM SUR (19) W NOZZLE REENFORCING PAD TO SHELL 2 D2552-6 NA NA NA 0.750 NOM SUR. (18) DESIGN OPERATING W SOCKET TO NOZZLE 4 D2552-6 NA C5.30 PRESSURn 410 psig C-F NA SUR (19)! S SADDLE TYPE SUPPORT NOT WELDED 2 D2552-6 NA C3.20 C-C NA VT-3 (19) TEMPERATURE 280 '0 F ' I i
'NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1.
EXAMINATION PERFORMED ON ONE COMPONENT ONLY. EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD. m .
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.I PREPARED 2 74,, JATE j//fe[3 COMPONENT NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWED BY [ ADATE[/2-/70 UNIT NO. 1 ISID NO. 034 CLASS 2 SYSTEM DECAY HEAT REV. O, 2-15-80 I
COMPONENT SECTION XI SECTION i DRAWING BASE MAT'L M ITEM THICKNESS Oi 5 NOIE COMPONE%T INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) 3E NO. d NAME: CORE FLOOD TANK W MANWAY TO TANK WELD A 1 139621E G-5 C2.20 C-B 2.375 MIN VOL & (TYPICAL OF 2) SUR (19).l W HEAD TO SHELL (UPPER HEAD) WELD B 1 139621E NUMBER: T9-1, T9-2 I-3 C1.20 C-A 2.375 MIN - VOL (19) I W HEAD TO SHELL (LOWER HEAD) WELD C 1 139621E C1.20 I-3 C-A 2.375 MIN VOL (19) OUTLET NOZZ M M HEAD WED D l DRAWING COORD: 1 139621E G-6 C2.20 C-B 2.375 M m m& p q H-7, H-3 8 W OUTLET NOZZLE TO SAFE END WELD 1 139621E G-7 DESIGN OPERATING C5.10 C-F --------- SUR (19) W N2LOADING NOZZLE TO UPPER HEAD WELE 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) ' PRESSURE 700 psig W MAKEUP NOZZLE TO SHELL WELD 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) TEMPERATURE 150 0 F W SAMPLE CONNECTION NOZZLE IO SHELL WELD 1 139621E G-2 C2.10 C-B 2.375 MIN SUR (19) i W LEVEL SENSING NOZZLE TO SHELL WELD 4 139621E G-2 C2.10 C-B 2.375 MIN 3UR (19) S VESSEL SUPPORT WELDS E, F, I, J 4 139621E E-6 C3.10 C-C (19) BUR S VESSEL SUPPORT WELDS G, H, K, L 4 139621E E-7 C3.10 C-C --- - SUR (19) I EXAMINATION PERFORMED ON ONE COMPONENT ONLY. 8
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PREPARED 4YY.&/r E;,,e @ TE_Y/$a /e COMPONENT NONDESTRUCTIVE EXAMINATION DAVIS-BESSE NUCLEAR POWER STATION PAGE 1 OF 1 REVIEWEDBY_[ DATEf/2/fd UNIT NO. 1 CLASS 2 SYSTEM DECAY HEAT REV. 0,.2-15-80 COMPONENT SEC'. . XI SECTION i DRAWING BASE MAT'L 8 COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD ITEM NO. THICKNESS $$ NOTE CAT. (INCHES) $E NO. NAMEe IIIGH PRESSURE W PUMP CASING WELD A 1 643066 NA C6.10 COOLANT INJECTION C-G -------- SUR W (19) PUMP (TYPICAL OF 2) INLET NOZZLE TO PUMP WELD C 1 643066 NA NA C-B -------- NUMBER: P58-1, P58-2 . SUR (18)' W (19) OUTLET NOZZLE TO PUMP WELD 1 643066 NA NA C-B - - - - ---
'SUR (18)
(19) DRAWING COORD: E-9, B, D, E,. F 5 642157 NA C3.70 C-E NA SUR _ C-9 (19) $ DESIGN OPERATING PRESSURE 1650 psig O TEMPERATURE 260 F I19I NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IW8-2500-1/IWC-2500-1 EXAMINATION PERFORMED.ON ONE COMPONENT ONLY.
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SECONDARY SIDE (TYPICAL OF 2) W TUBE 31EET TO UPPER SHELL MK-51 TO 1 151911E H-5 C1.30 C-A 6.625 NOM VOL (19) MK-1
- NUMBER E24-1, E24-2 W UPPER SIELL LONGITUDINAL WELD MK-1 2 175138E C-1 NA C-A 6.625 NOM VOL (18)
(19)
- DRAWING COORD: C-ll, (21)
C-2 W SIELL 'IO SIELL MK-1 TO MK-2 1 151911E D-5 C1.10 C-A 4.188 NOM VOL (19) W SHELL LONGITUDINAL MK-2 1 175138E C-2 NA C-A 4.188 NOM VOL (18) DESIGN OPERATING (21) PRESSURE 1155 psig W SHELL 'IO SHELL MK-2 TO MK-3 1 151911E D-5 C1.10 C-A 4.188 NOM VOL (19) W SHELL LONGITUDINAL TEMPERATURE 600 0F 2 175138E C-3 NA C-A 6!625 NOM VOL (18) (19) (21) W SHELL TO SHELL MK-3 TO MK-2_ 1 151911E D-5 C-A W Cl.10 4.188 NOM 10L (19) I SIELL LONGITUDINAL MK-2 1 175138E' C-5 NA C-A 4.188 NOM VOL 118) (19) i (21) NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB-2500-1/IWC-2500-1. EXAMINATION PERFORMED ON ONE COMPONENT ONLY. EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD.
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- PAGE 2 OF 4 DAVIS-BESSE NUCLEAR POWER STATION REVIEWED BY I DAC f/2/ft1 UNIT NO. 1 ISID NO. _ 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM REV. O, 2-15-80
' COMPONENT SECTION XI SECTION DRAWING BASE MAT'L M ITEM THICKNESS Oi 5 NOTE COMPONENT INFORMATION W/S DESCRIPTION NO. NUMBER COORD NO. CAT. (INCHES) ME NO.
W SHELL TO SHELL MK-2 TO MK-4 1 NAME: STEAM GENERATOR 151911E E-5 C1.10 C-A 4.188 NOM VOL SECONDARY SIDE W (19) SHELL LONGITUDINAL MK-4 1 175138E C-5 (. TYPICAL OF 2L NA C-A 4.188 NOM VOL (18)
' (19)
NUMBER: E24-1, E24-2 (21) W SHELL TO SHELL MK-4 TO MK-5 1 151911E E-5 C1.10 C-A 4.188 NOM NONE. (22) W SHELL LONGITUDINAL MK-5 1 175138E C-5 NA C-A' 4.188 NOM DRAWING COORD: C-ll, ' VOL (18) C-2 W (21) SHELL TO SHELL MK-5 TO MK-6 1 151911E D-5 C1.10 C-A '.188 4 NOM VOL (19) DESIGN OPERATING W SHELL LONGITUDINAL MK-6 2 175138E C-6 5 NA C-A 6.625 NOM VOL (18) PRESSURE 1155 psig (19) (21) TEMPERATURE 600 0 F (18)NO SECTION XI CATEGORY AND/OR ITEM NUMBER ( , GIVEN ON TABLE IWB 2500 1 00-1. . EXAMINATION PERFORMED ON ONE COMPONENT ONLY. EXAMINATION IS ONE FOOT AT INTERSECTION WITH CIRCUMFERENTIAL WELD . . NOT AT A GROSS , STRUCTURAL DISCONTINUITY - NO EXAMINATION. O
PREPARED B47[2/, r;,, ,,, m . DATEv/co/r2, COMPONENT NONDESTRUCTIVE EXAMINATION PAGE 3 DAVIS-BESSE NUCLEAR POWER STATION OF 4 REVIEWED BY DATE f///fD UNIT NO. 1 r ISID NO. 007 CLASS 2 SYSTEM STEAM GENERATOR SECONDARY SYSTEM REV. O, 2-15-80 COMPONENT SECTION XI SECTION i DRAWING. BASE MAT'L M COMPONENT INFORMATION ITEM THICKNESS Si $ NOTE W/S DESCP'.72* ION NO. NUMBER COORD NO'. CAT. (INCHES) $E NO. W SHELL TO LO'.ER TUBE SHEET MK-6 TO 1 151911E NAME8 STEAM GENERATOR H-10 C1.30 C-A 6.625 NOM VOL (19) MK-50 SECONDARY SIDE (TYPICAL OF 2) W AUXILIARY FEEDWATER NOZZLE TO SHELL 1 151902E G-9 C2.10 C-B 6.625 NOM VOL & NUMBERtE24-1, E24-2 ' W AUXILIARY FEEDWATER NOZZLE TO SAFE 1 151902E G-9 C5.ll C-E O.432 NOM VOL END MK-300 TO MK-301 l DRAWING COORD: C-ll, W C-12 STEAM OUTLET NOZZLE TO SHELL MK-14 2 15'1902E E-5 C2.20 C-B 6.625 TO MK-3 VOL & SUR W li"s DRAIN CONNECTION TO SHELL MK-25 2 DESIGN OPERATING 151902E C-5 NA NA NA VT-2 TO MK-3 (18) PRESSURE _1155 psig W 1" LEVEL CONNECTION NOZZLE TO SHELL 2 151.,0 2E E-5 NA NA NA VT-2 (18) MK-18 TO MK-3 O TEMPERATURE 600 F W TEMPERATURE SENSING CONNECTION TO 2 151902E E-7 NA NA NA VT-2 (18) SHELL MKn28 TO MK,2 W SPARE LEVEL SENSING CONNECTION 2 151902E C-7 NA NA NA VT-2 (18) SHELL MK-18 TO MK-2 W LOW LEVEL SENSING CONNECTION TO 2 151902E C-9 NA NA NA VT-2 SHELL MK-27 TO MK-5 (18) W SAMPLE AND DRAIN NOZZLE 'IO SHELL 2 151902E E-10 NA NA NA VT-2 MK-18 TO MK-6 (18) NO SECTION XI CATEGORY AND/OR ITEM NUMBER GIVEN IN TABLE IWB- 2500-1/IWC-25bO-1. EXAMINATION PERFORMED ON ONE COMPONENT ONLY. 9
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t C. WELD, SUPPORT AND BOLTING INSPECTION PROGRAM TABLES (continued)
- 3. Bolting Nondestructive Examination Tables.
This section provides a ' tabulation of all ' bolting within the boundariec of safety related systems, both bolting that -is tested in accordance with the requirements of Subsection IWB or IWC, as applicable, of the ASME Boiler and Pressure Vessel Code, 1977 Edition, and Addenda through Summer 1978 Addenda; and bolting for which the Code requirements have' been found to be impractical. The Tables are arranged by Class and System. i e m. 1 4 4 4 III-56
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. PAGE 1 OF 5 , SECTION XI g , ,$ COMPONENT O b ITEM dE DRAWING $0 $f DESCRIPTION NO. CAT. 5U NO. NUMBER 5E O :s REACTOR VESSEL CLOSURE STUDS (MK-25) B6.20 B-G-1 6.50 60 M-503-44-5 VOL (23)
OR B6.30 VOL & (24) y SUR 7 y CLOSURE HEAD NUTS (MK-26) B6.10 B-G-1 6.50 60 M-503-44-5 SUR LIGAMENTS BE'IWEEN STUD HOLES AND THREADS IN BASE MATERIAL B6.40 B-G-1 NA 60 M-503-44-5 VOL CLOSURE SPHERICAL WASHERS (MK-27) B6.50 B-G-1 6.50 60 M-503-44-5' VT-1 CONTROL ROD DRIVE NOZZLE FLANG3 BOLTS B7.10 B-G-2 1.125 552 M-503-44-5 VT-1 (26) CONTROL ROD DRIVE NOZZLE FLANGE NUTS B7.10 B-G-2 1.125 552 M-503-44-5 VT-1 (26) WHEN BOLTING IS IN PLACE. WHEN BOLTING IS REMOVED. SEE CODE EXCEPTION 2.
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ITEM dE DRAWING $$ Nl DESCRIPTION NO. CAT. EU NO. NUMBER ME Oz PRESSURIZER HEATER STUDS (MK-75) B7.20 B-G-2 2 48 M-507-7-4 VT-1 U NUTS (MK-76) B7.20 B-G-2 2 48 M-507-7-4 VT-1 y - E MANWAY STUDS (MK-67) B6.60 B-G-1 2.750 12 M-507-7-4 VOL (23) OR B6.70 VOL & SUR (24) NUTS (MK-68) B6.60 B-G-1 2.750 12 M-507-7-4 VOL (23) OR B6.70 VOL & SUR (24) LIGAMENTS AND THREADS IN BASE MATERIAL B6.70 B-G-1 NA 12 M-507-7-4 VOL (24) WHEN BOLTING IS IN PLACE. (20 WHEN BOLTING IS REMOVED. ' 4 e
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D. CODE EXCEPTIONS This section provides justification for the exceptions taken ,to Code test requirements as provided for in 10 CFR 50.55a(g) (5) (iii) . Each Code exception is identified by a unique number and identifies the item (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. Any testing performed in lieu of Code requirements is specified.
- 1. Code Exception Number 1.
e Components: Reactor Coolant Pumps P36-1, P36-2, P36-3, P36-4 o Function: Reactor Coolant Circulation e Class: 1 o Test Requirement: Volumetric and Surface examination of the reactor coolant pump casing welds. e Basis for Exception: The reactor coolant pump casing welds are too thick for examination by using present state of art ' ultrasonic techniques. For a baseline, these welds are radiographed. However, for inservice inspection, the back-ground radiation will be too high making radiography impractical. e Alternate Testing: Surface examination only.
- 2. Code Exception Number 2.
e Components: Control rod drive nozzle flange bolts and nuts. e Function: Secure control rod drive housing to reactor vessel head, e Class: 1 e Testing Requirement: Visual examine (VT-1) all bolts and nuts. e Basis for Exception: It is impractical to visually examine the eight flange bolts on each of the 69 CRDM's from the plat-form of the head service structore, approximately 20 feet above the flange surface. Most of the peripheral CRDM bolts can be observed through the twelve (12) inch diameter ports in the service structure cylinder, the other CRDM bolts and are not accessible for examination. e Alternate Testing: Examine bolts and nuts on 10 percent of peripheral CRDM's to coincide with category B-0 " Pressure Retaining Welds in CRD Housings". III-66
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SECTION IV SYSTEM PRESSURE TEST PROGRILM t l
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IV. SYSTEM PRESSURE TEST PROGRAM The System Pressure Test Program for all safety related systems will lac conducted in accordance with Table IWB-2500-1, Table ~IWC-2500-1 or Table IWD-2500-1 and will meet the requirements of Subsection IWB-5000, IWC-5000' or IWD-5000, as appropriate, of the ASME Boiler and Pressure Vessel Code,1977 Edition, and Addenda through Summer 1978 Addenda. The System Pressure Test Program will be applicable for the remainder of the 120-month interval, which started June 27, 1977 after which the Program will be reviewed and updated, as appropriate, with the Edition of the Code and Addenda in effect, not more than 12 months prior to the $ start of the next 120-nonth interval. All tests shall be conducted in accordance with the Inspection Program B of Section XI. In the event that no safety or relief valve is provided within the test boundary, for tests performed under IWC-5000 or IWD-5000, the system's normal operating pressure will be used to determine the System Pressure Test and System Hydrostatic Test pressures to ~ be used. In no case will the maximum pressure rating (with a 7 percent safety factor) of the lowest rated component be exceeded. f 0 4 IV-1
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