2005 asme power conference performance considerations in power uprates of nuclear power plants - a...
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Plant Name & Units Date Application Received by NRC Date License Issued by NRCCalvert Cliffs 1 & 2 April 1998 March 2000Oconee 1, 2 & 3 July 1998 May 2000Arkansas Nuclear One 1 February 2000 June 2001Edwin I. Hatch 1 & 2 March 2000 January 2002Turkey Point 3 & 4 September 2000 June 2002Surry 1 & 2 May 2001 March 2003North Anna 1& 2 May 2001 March 2003McGuire 1 & 2 June 2001 December 2003Catawba 1 & 2 June 2001 December 2003Peach Bottom 2 & 3 July 2001 May 2003St. Lucie 1 & 2 November 2001 October 2003Fort Calhoun January 2002 November 2003Robinson 2 June 2002 April 2004Ginna August 2002 May 2004Summer August 2002 April 2004Dresden 2 & 3 Jaunary 2003 Under ReviewQuad Cities 1 & 2 Jaunary 2003 Under ReviewFarley 1 & 2 September 2003 Under ReviewArkansas Nuclear One 2 October 2003 Under ReviewCook 1 & 2 November 2003 Under ReviewBrowns Ferry 1, 2 & 3 January 2004 Under ReviewMillstone 2 & 3 January 2004 Under ReviewPoint Beach 1 & 2 February 2004 Under Review
HTR.114
SPESJAE
SSR
2,3,4
HP TURBINE
MSEP111
MSEP112
MSEP111 DT
MSEP112DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STG RHTR111 DT
To Htrs.115-135
To LP Cond.
1STGRHTR
111
2STGRHTR
112
2STG RHTR112 DT
To Htrs.115-135
To LP Cond.
MSEP122
MSEP121
MSEP121 DT
MSEP122DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STGRHTR
121
2STGRHTR
122
2STG RHTR122 DT
To Htrs.115-135
To LP Cond.
1STG RHTR121 DT
To Htrs.115-135
To LP Cond.
To LPTCRV 456
To LPTCRV 123
REACT OR
HTR.115
HTR. 125
HTR.135
FP11
FP12
FP13
HTR.124
HTR.134
HTR.113
HTR.123
HTR.133
HTR.112
HTR.122
HTR.132
HTR.111
HTR.121
HTR.131
DC 11
DC 12
DC 13
BP11
BP12
BP13
ToHtr. 124
ToHtr. 134
ToHtr. 114 From
Htr. 115
FromHtr. 125
FromHtr. 135
To HPCond.
To HPCond.
To HPCond.
To CRD
Inj. To MSDrn. Tk s.
CRD Flow
To Htrs.111-131
To LPCond.
COND.DEMIN.
To Htr.134
To Htr.133
To Htr.132To Htr.
131
LPCONDENSER
To Htr.124
To Htr.123
To Htr.122
To Htr.121
IPCONDENSER
To Htr.114
To Htr.113
To Htr.112
To Htr.111
HPCONDENSER
SprayPump
LP TURBINE LP SECTION LP TURBINE IP SECTION LP TURBINE HP SECTION3 3
7
7 7
7
89
1111
1313
8 9
1111
1313
8 9
1111
1313
CRV 1 CRV 6CRV 2 CRV 5CRV 3 CRV 4
CP11
CP12
CP13
2
1TO SJAE TO SSR MS BYPASS
3 4
AA
B B
A A
B B
A A
B B
Circ .W ater
In
Circ .W ater
Out
1Stg Rhtr.Drns.
From HPStg. 7
From HPStg. 7
From HPStg. 7
Moist.Sep. Drns.
FromLP Stg. 8
Moist. Sep.Drns.
FromLP Stg. 8
Moist.Sep. Drns.
1
1
1
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
SPE, SJAE Drns.
To LP Cond.
From SSR
Moist. Sep. Drn. Tk s. Cond. Dump
1Stg., 2Stg. Drn. Tk s. Cond. Dump
MS Bypass MS BypassHtr. Drns.
MS Bypass
Mak eup
ToHtrs. 115-135
Motor-Driv enFeed Pump
Motor-Driv enFeed Pump
Shaft-Driv enFeed Pump
Booster Pump
Booster Pump
Booster Pump
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
FromLP Stg. A
FromLP Stg. 8
FromLP Stg. A
FromLP Stg. A
Condensate Pump
No. Plant Type % Uprate Mwt Year Approved1 Beaver Valley 1 PWR 1.4 37 20012 Beaver Valley 2 PWR 1.4 37 20013 Comanche Peak 1 PWR 1.4 47 20014 Comanche Peak 2 PWR 1 34 19995 Comanche Peak 2 PWR 0.4 13 20016 D.C.Cook 1 PWR 1.66 54 20027 D.C.Cook 2 PWR 1.66 57 20038 Fort Calhoun PWR 1.6 24 20049 Grand Gulf BWR 1.7 65 2002
10 H. B. Robinson PWR 1.7 39 200211 Hatch 1 BWR 1.5 41 200312 Hatch 2 BWR 1.5 41 200313 Hope Creek BWR 1.4 46 200114 Indian Point 2 PWR 1.4 43 200315 Indian Point 3 PWR 1.4 42.4 200216 Kewaunee PWR 1.4 23 200317 Palisades PWR 1.4 35 2005 (Expected)18 Peach Bottom 2 BWR 1.62 56 200219 Peach Bottom 3 BWR 1.62 56 200220 Pilgrim BWR 1.5 30 200321 Point Beach 1 PWR 1.4 21.5 200222 Point Beach 2 PWR 1.4 21.5 200223 River Bend BWR 1.7 52 200324 Salem 1 PWR 1.4 48 200125 Salem 2 PWR 1.4 48 200126 San Onofre 2 PWR 1.4 48 200127 San Onofre 3 PWR 1.4 48 200128 Sequoyah 1 PWR 1.3 44 200229 Sequoyah 2 PWR 1.3 44 200230 South Texas 1 PWR 1.4 53 200231 South Texas 2 PWR 1.4 53 200232 Susquehanna 1 BWR 1.4 48 200133 Susquehanna 2 BWR 1.4 48 200134 Waterford 3 PWR 1.5 51 200235 Watts Bar PWR 1.4 48 2001
2,774,643 W 6,919,659 W 2,774,643 W 924,881 W 924,881 W 924,881 W 924,881 W 924,881 W 924,881 W154.60 P 970.00 P 4,077 W 154.60 P 1280.78 H 1280.78 H 1280.78 H 1280.78 H 1280.78 H 1280.78 H
7,308,865 W 513.10 F 1190.37 H 1190.37 H 513.10 F PIV = 151.88 PIV = 151.88 PIV = 151.88 PIV = 151.88 PIV = 151.88 PIV = 151.881051.00 P 1280.78 H 0.56% 1280.78 H1190.37 H 192,103 W 192,103 W 5,000 W 0 W 0 W 1,456 W 192,103 W 192,103 W
0.100% 892.38 P 961.66 P 1190.37 H 961.66 P 892.38 P530.95 F 157.57 P 157.57 P 530.95 F525.46 h 429.31 F 429.31 F 525.46 h
1234.75 H 1,584,069 W 1234.75 H1084.03 H
174,191 W 174,191 W 174,191 W 174,191 W192,103 W 431.18 P 435.77 P 435.77 P 431.18 P 192,103 W525.46 h 452.01 F 1,584,069 W 452.01 F 525.46 h0 W 432.49 h 1084.03 H 432.49 h 0 W
1,387,321 W 1,387,321 W1,387,321 W 1190.07 H 1190.07 H1190.07 H 165.50 P 165.50 P 1,387,321 W
1190.07 H PB = 151.88 PB = 151.88PB = 909.23HB = 1190.37
174,191 W 4,558 W 4,558 W 174,191 W432.49 h 455.30 P 455.30 P 432.49 h
0 W 0 W33,100 W66.58 h 95.02 P 95.02 P 95.02 P
196,747 W 196,747 W 1241.42 H 58.54 P 1241.42 H 58.54 P 1241.42 H 58.54 P336.35 h 336.35 h 18.75 P 1201.50 H 18.75 P 1201.50 H 18.75 P 1201.50 H
3,637,883 W 3,637,883 W 1125.22 H 1125.22 H 1125.22 H1215.96 P 1215.96 P 165.50 P 165.50 P 5.22 P 5.22 P 5.22 P
356.85 F 356.85 F 0 W 0 W 1058.67 H 1058.67 H 1058.67 H330.61 h 330.61 h 66.58 h 66.58 h
196,747 W 1,584,069 W 196,747 W336.35 h 1084.03 H 336.35 h
196,747 W 1,584,069 W 196,747 W0 W 336.35 h 1084.03 H 336.35 h 0 W66.58 h 66.58 h
393,494 W 220,355 W 393,494 W 1,450,555 W336.35 h 1084.03 H 336.35 h
128,069 W 0 W 0 W 29,270 W525.46 h
7,189 W 11,000 W116,128 W 73,452 W 52,329 W 84,079 W 669.52 H 4,000 W 29,270 W 1,450,555 W
432.49 h 157.48 P 90.24 P 118,208 W 108,132 W 4.25 P 0 W 1,450,555 W 29,270 W1084.03 H 1241.42 H 56.07 P 16.82 P 957.13 H 1,064 W 0 W 2,854,390 W
485 W 262,329 W 1201.50 H 1125.22 H 1116.89 H 0 W 0 W 0 W LP TURBINE PERFORMANCE1190.37 H 336.35 h 0 W LP IP HP
TD = 5.43 F TD = 6.64 F TD = 7.21 F TD = 4.69 F TD = 4.72 F PRESSURE, IN. HGA 1.171 1.383 1.7692,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 4,000 W 118,500 GPM 61.68 F 73.20 F 84.52 F ELEP, BTU/LB 972.09 979.16 989.80
356.85 F 315.67 F 313.82 F 281.11 F 214.20 F 150.69 F 117.48 F 97.59 F 50.00 F UEEP, BTU/LB 993.68 994.55 998.68330.61 h 287.95 h 284.40 h 250.84 h 183.10 h 119.48 h 86.37 h 66.58 h 118,500 GPM 61.68 F 73.20 F 84.52 F
362.28 F 320.47 F 288.32 F 218.89 F 155.41 F 50.00 F 1.17 IN.HGA 1.38 IN.HGA 1.77 IN.HGA CONDENSER PERFORMANCEDC = 9.92 F DC = 11.77 F DC = 8.96 F DC = 10.74 F DC = 7.32 F 1116.89 H 1,479,825 W 89.14 F 97.07 F LP ZONE IP ZONE HP ZONE
83.90 F 57.16 h PRESSURE, IN. HGA 1.171 1.383 1.769325.59 F 292.88 F 223.16 F 161.44 F 155.41 F 104.91 F 3,192 W HEAT LOAD, BTU/HR 1.384E+09 1.365E+09 1.342E+09296.32 h 318,133 W 2,425,255 W ∆Η = 3.55 318,133 W 262.44 h 191.50 h 129.42 h 123.37 h 72.91 h FLOW RATE, GPM 237000 237000 237000
1231.80 P 632,791 W 750,999 W 859,131 W 951,463 W 951,463 W 2,436,288 W ∆Η = 0 2,974,650 W 7,308,865 W CIRC.WATER IN, F 50.00 61.68 73.20287.95 h 309.00 P 373.81 P 51.92 h 65.07 h CIRC. WATER OUT, F 61.68 73.20 84.52
128,069 W 73,452 W 284.40 h 215.00 P TEMP. RISE, F 11.68 11.52 11.33525.46 h 157.48 P CLEANLINESS, % 85.00 85.00 85.00
116,128 W 1084.03 H 118,208 W 108,132 W 84,079 W 7,189 W LMTD, F 27.64 21.18 17.61432.49 h 485 W 262,329 W 52,329 W 56.07 P 16.82 P 4.25 P 669.52 H 0 W 6,000 W 5,000 W 2,436,288 W HEAT TRANSFER, U 416.7 480.5 523.1
1190.37 H 336.35 h 90.24 P 1201.50 H 1125.22 H 957.13 H 1,064 W 1116.89 H 1190.37 H 185.00 PTD = 5.43 F 1241.42 H 1116.89 H
2,425,255 W 2,425,255 W 2,425,255 W ∆Η = 3.55 TD = 6.64 F TD = 7.21 F TD = 4.69 F TD = 4.72 F356.85 F 315.67 F 1231.80 P 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,436,288 W ∆Η = 0 ∆Η = 0330.61 h 287.95 h 287.95 h 309.00 P 313.82 F 281.11 F 214.20 F 150.69 F 117.48 F 97.59 F 373.81 P 2,436,288 W
362.28 F 284.40 h 284.40 h 250.84 h 183.10 h 119.48 h 86.37 h 66.58 h 215.00 P 7,308,865 W 7,308,865 W 7,308,865 W 7,308,865 W 185.00 PDC = 9.92 F 320.47 F 288.32 F 218.89 F 155.41 F 66.58 h 65.76 h 65.07 h
DC = 11.77 F DC = 8.96 F DC = 10.74 F DC = 7.32 F325.59 F 33,100 W ∆Η = 0296.32 h 318,133 W 292.88 F 223.16 F 161.44 F 155.41 F 2,436,288 W
318,133 W 262.44 h 632,791 W 191.50 h 750,999 W 129.42 h 859,131 W 123.37 h 951,463 W 5,000 W 185.00 P2,425,255 W ∆Η = 3.55 951,463 W 190.37 h
128,069 W 73,452 W 1231.80 P 2,436,288 W ∆Η = 0525.46 h 157.48 P 287.95 h 309.00 P 118,208 W 108,132 W 84,079 W 7,189 W 373.81 P ∆Η = 0
116,128 W 1084.03 H 284.40 h 52,329 W 56.07 P 16.82 P 4.25 P 669.52 H 215.00 P 6,000 W 11,000 W432.49 h 485 W 262,329 W 90.24 P 1201.50 H 1125.22 H 957.13 H 1,064 W 116.89 h
1190.37 H 336.35 h 1241.42 H 1116.89 HTD = 5.43 F TD = 6.64 F TD = 7.21 F TD = 4.69 F TD = 4.72 F
2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W 2,425,255 W356.85 F 315.67 F 313.82 F 281.11 F 214.20 F 150.69 F 117.48 F 97.59 F330.61 h 287.95 h 284.40 h 250.84 h 183.10 h 119.48 h 86.37 h 66.58 h
362.28 F 320.47 F 288.32 F 218.89 F 155.41 FDC = 9.92 F DC = 11.77 F DC = 8.96 F DC = 10.74 F DC = 7.32 F
325.59 F 292.88 F 223.16 F 161.44 F 155.41 F 104.91 F296.32 h 318,133 W 318,133 W 262.44 h 191.50 h 129.42 h 123.37 h 72.91 h
632,791 W 750,999 W 859,131 W 951,463 W 951,463 W
HTR.114
SPESJAE
SSR
2,3,4
HP TURBINE
MSEP111
MSEP112
MSEP111 DT
MSEP112DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STG RHTR111 DT
To Htrs.115-135
To LP Cond.
1STGRHTR
111
2STGRHTR
112
2STG RHTR112 DT
To Htrs.115-135
To LP Cond.
MSEP122
MSEP121
MSEP121 DT
MSEP122DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STGRHTR
121
2STGRHTR
122
2STG RHTR122 DT
To Htrs.115-135
To LP Cond.
1STG RHTR121 DT
To Htrs.115-135
To LP Cond.
To LPTCRV 456
To LPTCRV 123
REACT OR
HTR.115
HTR. 125
HTR.135
FP11
FP12
FP13
HTR.124
HTR.134
HTR.113
HTR.123
HTR.133
HTR.112
HTR.122
HTR.132
HTR.111
HTR.121
HTR.131
DC 11
DC 12
DC 13
BP11
BP12
BP13
ToHtr. 124
ToHtr. 134
ToHtr. 114 From
Htr. 115
FromHtr. 125
FromHtr. 135
To HPCond.
To HPCond.
To HPCond.
To CRD
Inj. To MSDrn. Tk s.
CRD Flow
To Htrs.111-131
To LPCond.
COND.DEMIN.
To Htr.134
To Htr.133
To Htr.132To Htr.
131
LPCONDENSER
To Htr.124
To Htr.123
To Htr.122
To Htr.121
IPCONDENSER
To Htr.114
To Htr.113
To Htr.112
To Htr.111
HPCONDENSER
SprayPump
LP TURBINE LP SECTION LP TURBINE IP SECTION LP TURBINE HP SECTION3 3
7
7 7
7
89
1111
1313
8 9
1111
1313
8 9
1111
1313
CRV 1 CRV 6CRV 2 CRV 5CRV 3 CRV 4
CP11
CP12
CP13
2
1TO SJAE TO SSR MS BYPASS
3 4
AA
B B
A A
B B
A A
B B
Circ .W ater
In
Circ .W ater
Out
1Stg Rhtr.Drns.
From HPStg. 7
From HPStg. 7
From HPStg. 7
Moist.Sep. Drns.
FromLP Stg. 8
Moist. Sep.Drns.
FromLP Stg. 8
Moist.Sep. Drns.
1
1
1
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
SPE, SJAE Drns.
To LP Cond.
From SSR
Moist. Sep. Drn. Tk s. Cond. Dump
1Stg., 2Stg. Drn. Tk s. Cond. Dump
MS Bypass MS BypassHtr. Drns.
MS Bypass
Mak eup
ToHtrs. 115-135
Motor-Driv enFeed Pump
Motor-Driv enFeed Pump
Shaft-Driv enFeed Pump
Booster Pump
Booster Pump
Booster Pump
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
FromLP Stg. A
FromLP Stg. 8
FromLP Stg. A
FromLP Stg. A
Condensate Pump
2,815,477 W 7,031,901 W 2,815,477 W 938,492 W 938,492 W 938,492 W 938,492 W 938,492 W 938,492 W156.83 P 970.00 P 4,135 W 156.83 P 1280.57 H 1280.57 H 1280.57 H 1280.57 H 1280.57 H 1280.57 H
7,420,304 W 513.10 F 1190.37 H 1190.37 H 513.10 F PIV = 154.08 PIV = 154.08 PIV = 154.08 PIV = 154.08 PIV = 154.08 PIV = 154.081051.00 P 1280.57 H 0.56% 1280.57 H1190.37 H 191,701 W 191,701 W 5,000 W 0 W 0 W 1,398 W 191,701 W 191,701 W
0.100% 892.38 P 961.66 P 1190.37 H 961.66 P 892.38 P530.95 F 159.85 P 159.85 P 530.95 F525.46 h 430.86 F 430.86 F 525.46 h
1235.29 H 1,608,186 W 1235.29 H1083.99 H
178,530 W 178,530 W 178,530 W 178,530 W191,701 W 437.92 P 442.58 P 442.58 P 437.92 P 191,701 W525.46 h 453.56 F 1,608,186 W 453.56 F 525.46 h0 W 434.24 h 1083.99 H 434.24 h 0 W
1,407,738 W 1,407,738 W1,407,738 W 1190.27 H 1190.27 H1190.27 H 167.89 P 167.89 P 1,407,738 W
1190.27 H PB = 154.08 PB = 154.08PB = 923.60HB = 1190.37
178,530 W 4,623 W 4,623 W 178,530 W434.24 h 462.42 P 462.42 P 434.24 h
0 W 0 W33,100 W67.17 h 96.39 P 96.39 P 96.39 P
200,448 W 200,448 W 1241.24 H 59.37 P 1241.24 H 59.37 P 1241.24 H 59.37 P337.57 h 337.57 h 19.02 P 1201.35 H 19.02 P 1201.35 H 19.02 P 1201.35 H
3,693,602 W 3,693,602 W 1125.12 H 1125.12 H 1125.12 H1215.47 P 1215.47 P 167.89 P 167.89 P 5.29 P 5.29 P 5.29 P
357.81 F 357.81 F 0 W 0 W 1058.49 H 1058.49 H 1058.49 H331.61 h 331.61 h 67.17 h 67.17 h
200,448 W 1,608,186 W 200,448 W337.57 h 1083.99 H 337.57 h
200,448 W 1,608,186 W 200,448 W0 W 337.57 h 1083.99 H 337.57 h 0 W67.17 h 67.17 h
400,895 W 227,318 W 400,895 W 1,471,955 W337.57 h 1083.99 H 337.57 h
127,801 W 0 W 0 W 29,267 W525.46 h
7,247 W 11,000 W119,020 W 75,773 W 53,352 W 84,960 W 672.84 H 4,000 W 29,267 W 1,471,955 W
434.24 h 159.75 P 91.53 P 120,218 W 109,984 W 4.31 P 0 W 1,471,955 W 29,267 W1083.99 H 1241.24 H 56.87 P 17.07 P 957.54 H 1,127 W 0 W 2,901,638 W
466 W 267,264 W 1201.35 H 1125.12 H 1116.86 H 0 W 0 W 0 W LP TURBINE PERFORMANCE1190.37 H 337.57 h 0 W LP IP HP
TD = 5.61 F TD = 6.84 F TD = 7.43 F TD = 4.83 F TD = 4.84 F PRESSURE, IN. HGA 1.189 1.406 1.8022,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 4,000 W 118,500 GPM 61.84 F 73.52 F 85.00 F ELEP, BTU/LB 971.70 978.81 989.58
357.81 F 316.48 F 314.63 F 281.80 F 214.81 F 151.18 F 118.04 F 98.18 F 50.00 F UEEP, BTU/LB 993.26 994.15 998.36331.61 h 288.79 h 285.24 h 251.54 h 183.71 h 119.97 h 86.94 h 67.17 h 118,500 GPM 61.84 F 73.52 F 85.00 F
363.43 F 321.48 F 289.23 F 219.63 F 156.01 F 50.00 F 1.19 IN.HGA 1.41 IN.HGA 1.80 IN.HGA CONDENSER PERFORMANCEDC = 10.14 F DC = 12.04 F DC = 9.21 F DC = 10.98 F DC = 7.46 F 1116.86 H 1,501,222 W 89.64 F 97.69 F LP ZONE IP ZONE HP ZONE
84.36 F 57.66 h PRESSURE, IN. HGA 1.189 1.406 1.802326.63 F 293.84 F 224.01 F 162.16 F 156.01 F 105.64 F 3,381 W HEAT LOAD, BTU/HR 1.403E+09 1.383E+09 1.360E+09297.40 h 323,059 W 2,462,401 W ∆Η = 3.55 323,059 W 263.43 h 192.37 h 130.15 h 123.97 h 73.63 h FLOW RATE, GPM 237000 237000 237000
1231.80 P 643,675 W 763,893 W 873,878 W 967,213 W 967,213 W 2,473,435 W ∆Η = 0 3,017,444 W 7,420,304 W CIRC.WATER IN, F 50.00 61.84 73.52288.79 h 309.00 P 375.81 P 52.39 h 65.69 h CIRC. WATER OUT, F 61.84 73.52 85.00
127,801 W 75,773 W 285.24 h 215.00 P TEMP. RISE, F 11.84 11.67 11.48525.46 h 159.75 P CLEANLINESS, % 85.00 85.00 85.00
119,020 W 1083.99 H 120,218 W 109,984 W 84,960 W 7,247 W LMTD, F 28.03 21.44 17.82434.24 h 466 W 267,264 W 53,352 W 56.87 P 17.07 P 4.31 P 672.84 H 0 W 6,000 W 5,000 W 2,473,435 W HEAT TRANSFER, U 416.7 481.2 524.0
1190.37 H 337.57 h 91.53 P 1201.35 H 1125.12 H 957.54 H 1,127 W 1116.86 H 1190.37 H 185.00 PTD = 5.61 F 1241.24 H 1116.86 H
2,462,401 W 2,462,401 W 2,462,401 W ∆Η = 3.55 TD = 6.84 F TD = 7.43 F TD = 4.83 F TD = 4.84 F357.81 F 316.48 F 1231.80 P 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,473,435 W ∆Η = 0 ∆Η = 0331.61 h 288.79 h 288.79 h 309.00 P 314.63 F 281.80 F 214.81 F 151.18 F 118.04 F 98.18 F 375.81 P 2,473,435 W
363.43 F 285.24 h 285.24 h 251.54 h 183.71 h 119.97 h 86.94 h 67.17 h 215.00 P 7,420,304 W 7,420,304 W 7,420,304 W 7,420,304 W 185.00 PDC = 10.14 F 321.48 F 289.23 F 219.63 F 156.01 F 67.17 h 66.36 h 65.69 h
DC = 12.04 F DC = 9.21 F DC = 10.98 F DC = 7.46 F326.63 F 33,100 W ∆Η = 0297.40 h 323,059 W 293.84 F 224.01 F 162.16 F 156.01 F 2,473,435 W
323,059 W 263.43 h 643,675 W 192.37 h 763,893 W 130.15 h 873,878 W 123.97 h 967,213 W 5,000 W 185.00 P2,462,401 W ∆Η = 3.55 967,213 W 190.37 h
127,801 W 75,773 W 1231.80 P 2,473,435 W ∆Η = 0525.46 h 159.75 P 288.79 h 309.00 P 120,218 W 109,984 W 84,960 W 7,247 W 375.81 P ∆Η = 0
119,020 W 1083.99 H 285.24 h 53,352 W 56.87 P 17.07 P 4.31 P 672.84 H 215.00 P 6,000 W 11,000 W434.24 h 466 W 267,264 W 91.53 P 1201.35 H 1125.12 H 957.54 H 1,127 W 116.86 h
1190.37 H 337.57 h 1241.24 H 1116.86 HTD = 5.61 F TD = 6.84 F TD = 7.43 F TD = 4.83 F TD = 4.84 F
2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W 2,462,401 W357.81 F 316.48 F 314.63 F 281.80 F 214.81 F 151.18 F 118.04 F 98.18 F331.61 h 288.79 h 285.24 h 251.54 h 183.71 h 119.97 h 86.94 h 67.17 h
363.43 F 321.48 F 289.23 F 219.63 F 156.01 FDC = 10.14 F DC = 12.04 F DC = 9.21 F DC = 10.98 F DC = 7.46 F
326.63 F 293.84 F 224.01 F 162.16 F 156.01 F 105.64 F297.40 h 323,059 W 323,059 W 263.43 h 192.37 h 130.15 h 123.97 h 73.63 h
643,675 W 763,893 W 873,878 W 967,213 W 967,213 W
HTR.114
SPESJAE
SSR
2,3,4
HP TURBINE
MSEP111
MSEP112
MSEP111 DT
MSEP112DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STG RHTR111 DT
To Htrs.115-135
To LP Cond.
1STGRHTR
111
2STGRHTR
112
2STG RHTR112 DT
To Htrs.115-135
To LP Cond.
MSEP122
MSEP121
MSEP121 DT
MSEP122DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STGRHTR
121
2STGRHTR
122
2STG RHTR122 DT
To Htrs.115-135
To LP Cond.
1STG RHTR121 DT
To Htrs.115-135
To LP Cond.
To LPTCRV 456
To LPTCRV 123
REACT OR
HTR.115
HTR. 125
HTR.135
FP11
FP12
FP13
HTR.124
HTR.134
HTR.113
HTR.123
HTR.133
HTR.112
HTR.122
HTR.132
HTR.111
HTR.121
HTR.131
DC 11
DC 12
DC 13
BP11
BP12
BP13
ToHtr. 124
ToHtr. 134
ToHtr. 114 From
Htr. 115
FromHtr. 125
FromHtr. 135
To HPCond.
To HPCond.
To HPCond.
To CRD
Inj. To MSDrn. Tk s.
CRD Flow
To Htrs.111-131
To LPCond.
COND.DEMIN.
To Htr.134
To Htr.133
To Htr.132To Htr.
131
LPCONDENSER
To Htr.124
To Htr.123
To Htr.122
To Htr.121
IPCONDENSER
To Htr.114
To Htr.113
To Htr.112
To Htr.111
HPCONDENSER
SprayPump
LP TURBINE LP SECTION LP TURBINE IP SECTION LP TURBINE HP SECTION3 3
7
7 7
7
89
1111
1313
8 9
1111
1313
8 9
1111
1313
CRV 1 CRV 6CRV 2 CRV 5CRV 3 CRV 4
CP11
CP12
CP13
2
1TO SJAE TO SSR MS BYPASS
3 4
AA
B B
A A
B B
A A
B B
Circ .W ater
In
Circ .W ater
Out
1Stg Rhtr.Drns.
From HPStg. 7
From HPStg. 7
From HPStg. 7
Moist.Sep. Drns.
FromLP Stg. 8
Moist. Sep.Drns.
FromLP Stg. 8
Moist.Sep. Drns.
1
1
1
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
SPE, SJAE Drns.
To LP Cond.
From SSR
Moist. Sep. Drn. Tk s. Cond. Dump
1Stg., 2Stg. Drn. Tk s. Cond. Dump
MS Bypass MS BypassHtr. Drns.
MS Bypass
Mak eup
ToHtrs. 115-135
Motor-Driv enFeed Pump
Motor-Driv enFeed Pump
Shaft-Driv enFeed Pump
Booster Pump
Booster Pump
Booster Pump
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
FromLP Stg. A
FromLP Stg. 8
FromLP Stg. A
FromLP Stg. A
Condensate Pump
No. Plant TYPE % Uprate Mwt Year Approved1 Braidwood 1 PWR 5 170 20012 Braidwood 2 PWR 5 170 20013 Browns Ferry 2 BWR 5 164 19984 Browns Ferry 3 BWR 5 164 19985 Brunswick 1 BWR 5 122 19966 Brunswick 2 BWR 5 122 19967 Byron 1 PWR 5 170 20018 Byron 2 PWR 5 170 20019 Callaway PWR 4.5 154 1988
10 Calvert Cliffs 1 PWR 5.5 140 197711 Calvert Cliffs 2 PWR 5.5 140 197712 Crystal River 3 PWR 0.9 24 200213 Diablo Canyon 1 PWR 2 73 200014 Duane Arnold BWR 4.1 65 198515 Farley 1 PWR 5 138 199816 Farley 2 PWR 5 138 199817 Fermi 2 BWR 4 137 199218 Fitzpatrick BWR 4 100 199619 Fort Calhoun PWR 5.6 80 198020 H. B. Robinson PWR 4.5 100 197921 Hatch 1 BWR 5 122 199522 Hatch 2 BWR 5 122 199523 Kewaunee PWR 6 99 200424 La SaIle 2 BWR 5 166 200025 La Salle 1 BWR 5 166 200026 Limerick 1 BWR 5 165 199627 Limerick 2 BWR 5 165 199528 Millstone 2 PWR 5 140 197929 Nine Mile Point 2 BWR 4.3 144 199530 North Anna 1 PWR 4.2 118 198631 North Anna 2 PWR 4.2 118 198632 Palo Verde 1 PWR 2 76 199633 Palo Verde 2 PWR 2 76 199634 Palo Verde 2 PWR 2.9 114 200335 Palo Verde 3 PWR 2 76 199636 Peach Bottom 2 BWR 5 165 199437 Peach Bottom 3 BWR 5 165 199538 Perry BWR 5 178 200039 River Bend BWR 5 145 200040 Salem 1 PWR 2 73 198641 Shearon Harris PWR 4.5 138 200142 St. Lucie 1 PWR 5.5 140 198143 St. Lucie 2 PWR 5.5 140 198544 Surry 1 PWR 4.3 105 199545 Surry 2 PWR 4.3 105 199546 Susquehanna 1 BWR 4.5 148 199547 Susquehanna 2 BWR 4.5 148 199448 TMI-1 PWR 1.3 33 198849 Turkey Point 3 PWR 4.5 100 199650 Turkey Point 4 PWR 4.5 100 199651 V. C. Summer PWR 4.5 125 199652 Vogtle 1 PWR 4.5 154 199353 Vogtle 2 PWR 4.5 154 199354 WNP-2 PWR 4.9 163 199555 Wolf Creek PWR 4.5 154 1993
No. Plant TYPE % Uprate Mwt Year Approved1 ANO-2 PWR 7.5 211 20022 Brunswick 1 BWR 15 365 20023 Brunswick 2 BWR 15 365 20024 Clinton BWR 20 579 20025 Dresden 2 BWR 17 430 20016 Dresden 3 BWR 17 430 20017 Duane Arnold BWR 15.3 248 20018 Hatch 1 BWR 8 205 19989 Hatch 2 BWR 8 205 1998
10 Monticello BWR 6.3 105 199811 Quad Cities 1 BWR 17.8 446 200112 Quad Cities 2 BWR 17.8 446 200113 Vermont Yankee BWR 20 319 2005 (Expected)14 Waterford PWR 8 275 2005 (Expected)
3,436,466 W 8,594,137 W 3,436,466 W 1,145,489 W 1,145,489 W 1,145,489 W 1,145,489 W 1,145,489 W 1,145,489 W190.92 P 990.00 P 5,023 W 190.92 P 1278.49 H 1278.49 H 1278.49 H 1278.49 H 1278.49 H 1278.49 H
8,974,753 W 515.52 F 1190.41 H 1190.41 H 515.52 F PIV = 187.57 PIV = 187.57 PIV = 187.57 PIV = 187.57 PIV = 187.57 PIV = 187.571050.00 P 1278.49 H 0.44% 1278.49 H1190.41 H 187,808 W 187,808 W 5,000 W 0 W 0 W 627 W 187,808 W 187,808 W
0.100% 910.78 P 981.49 P 1190.41 H 981.49 P 910.78 P533.37 F 194.60 P 194.60 P 533.37 F528.46 h 451.66 F 451.66 F 528.46 h
1242.32 H 1,944,385 W 1242.32 H1096.02 H
239,025 W 239,025 W 239,025 W 239,025 W187,808 W 536.68 P 542.39 P 542.39 P 536.68 P 187,808 W528.46 h 474.36 F 1,944,385 W 474.36 F 528.46 h0 W 457.97 h 1096.02 H 457.97 h 0 W
1,718,233 W 1,718,233 W1,718,233 W 1193.59 H 1193.59 H1193.59 H 204.39 P 204.39 P 1,718,233 W
1193.59 H PB = 187.57 PB = 187.57PB = 911.33HB = 1190.41
239,025 W 5,578 W 5,578 W 239,025 W457.97 h 566.70 P 566.70 P 457.97 h
0 W 0 W33,100 W75.77 h 117.10 P 117.10 P 117.10 P
226,152 W 226,152 W 1239.22 H 71.70 P 1239.22 H 71.70 P 1239.22 H 71.70 P354.73 h 354.73 h 23.06 P 1199.11 H 23.06 P 1199.11 H 23.06 P 1199.11 H
4,470,827 W 4,470,827 W 1123.48 H 1123.48 H 1123.48 H1218.52 P 1218.52 P 204.39 P 204.39 P 6.40 P 6.40 P 6.40 P
374.93 F 374.93 F 0 W 0 W 1055.96 H 1055.96 H 1055.96 H349.60 h 349.60 h 75.77 h 75.77 h
226,152 W 1,944,385 W 226,152 W354.73 h 1096.02 H 354.73 h
226,152 W 1,944,385 W 226,152 W0 W 354.73 h 1096.02 H 354.73 h 0 W75.77 h 75.77 h
452,304 W 321,738 W 452,304 W 1,782,536 W354.73 h 1096.02 H 354.73 h
125,206 W 0 W 0 W 29,158 W528.46 h
8,200 W 11,000 W159,350 W 107,246 W 69,718 W 105,649 W 710.27 H 4,000 W 29,158 W 1,782,536 W
457.97 h 194.48 P 111.20 P 158,134 W 137,583 W 5.21 P 0 W 1,782,536 W 29,158 W1096.02 H 1239.22 H 68.67 P 20.69 P 967.71 H 2,060 W 0 W 3,524,671 W
209 W 301,536 W 1199.11 H 1123.48 H 1125.32 H 0 W 0 W 0 W LP TURBINE PERFORMANCE1190.41 H 354.73 h 0 W LP IP HP
TD = 4.53 F TD = 5.78 F TD = 5.85 F TD = 4.63 F TD = 4.71 F PRESSURE, IN. HGA 1.470 1.757 2.3482,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 4,000 W 118,500 GPM 64.15 F 78.10 F 91.82 F ELEP, BTU/LB 967.42 974.98 987.57
374.93 F 331.73 F 329.81 F 295.79 F 225.14 F 159.30 F 125.62 F 106.84 F 50.00 F UEEP, BTU/LB 987.92 989.14 995.03349.60 h 304.51 h 300.96 h 265.86 h 194.10 h 128.07 h 94.48 h 75.77 h 118,500 GPM 64.15 F 78.10 F 91.82 F
379.46 F 335.59 F 301.64 F 229.76 F 164.01 F 50.00 F 1.47 IN.HGA 1.76 IN.HGA 2.35 IN.HGA CONDENSER PERFORMANCEDC = 9.42 F DC = 11.05 F DC = 9.37 F DC = 9.41 F DC = 9.69 F 1125.32 H 1,811,694 W 96.86 F 106.56 F LP ZONE IP ZONE HP ZONE
91.07 F 64.86 h PRESSURE, IN. HGA 1.470 1.757 2.348341.15 F 306.84 F 234.50 F 168.71 F 164.01 F 116.52 F 6,179 W HEAT LOAD, BTU/HR 1.677E+09 1.653E+09 1.625E+09312.58 h 392,011 W 2,980,551 W ∆Η = 3.55 392,011 W 276.84 h 202.98 h 136.71 h 131.97 h 84.50 h FLOW RATE, GPM 237000 237000 237000
1231.80 P 763,265 W 921,399 W 1,058,982 W 1,174,890 W 1,174,890 W 2,991,584 W ∆Η = 0 3,638,388 W 8,974,753 W CIRC.WATER IN, F 50.00 64.15 78.10304.51 h 309.00 P 363.32 P 59.09 h 74.54 h CIRC. WATER OUT, F 64.15 78.10 91.82
125,206 W 107,246 W 300.96 h 215.00 P TEMP. RISE, F 14.15 13.95 13.71528.46 h 194.48 P CLEANLINESS, % 85.00 85.00 85.00
159,350 W 1096.02 H 158,134 W 137,583 W 105,649 W 8,200 W LMTD, F 33.50 25.08 20.85457.97 h 209 W 301,536 W 69,718 W 68.67 P 20.69 P 5.21 P 710.27 H 0 W 6,000 W 5,000 W 2,991,584 W HEAT TRANSFER, U 416.7 491.4 534.9
1190.41 H 354.73 h 111.20 P 1199.11 H 1123.48 H 967.71 H 2,060 W 1125.32 H 1190.41 H 185.00 PTD = 4.53 F 1239.22 H 1125.32 H
2,980,551 W 2,980,551 W 2,980,551 W ∆Η = 3.55 TD = 5.78 F TD = 5.85 F TD = 4.63 F TD = 4.71 F374.93 F 331.73 F 1231.80 P 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,991,584 W ∆Η = 0 ∆Η = 0349.60 h 304.51 h 304.51 h 309.00 P 329.81 F 295.79 F 225.14 F 159.30 F 125.62 F 106.84 F 363.32 P 2,991,584 W
379.46 F 300.96 h 300.96 h 265.86 h 194.10 h 128.07 h 94.48 h 75.77 h 215.00 P 8,974,753 W 8,974,753 W 8,974,753 W 8,974,753 W 185.00 PDC = 9.42 F 335.59 F 301.64 F 229.76 F 164.01 F 75.77 h 75.10 h 74.54 h
DC = 11.05 F DC = 9.37 F DC = 9.41 F DC = 9.69 F341.15 F 33,100 W ∆Η = 0312.58 h 392,011 W 306.84 F 234.50 F 168.71 F 164.01 F 2,991,584 W
392,011 W 276.84 h 763,265 W 202.98 h 921,399 W 136.71 h 1,058,982 W 131.97 h 1,174,890 W 5,000 W 185.00 P2,980,551 W ∆Η = 3.55 1,174,890 W 190.41 h
125,206 W 107,246 W 1231.80 P 2,991,584 W ∆Η = 0528.46 h 194.48 P 304.51 h 309.00 P 158,134 W 137,583 W 105,649 W 8,200 W 363.32 P ∆Η = 0
159,350 W 1096.02 H 300.96 h 69,718 W 68.67 P 20.69 P 5.21 P 710.27 H 215.00 P 6,000 W 11,000 W457.97 h 209 W 301,536 W 111.20 P 1199.11 H 1123.48 H 967.71 H 2,060 W 125.32 h
1190.41 H 354.73 h 1239.22 H 1125.32 HTD = 4.53 F TD = 5.78 F TD = 5.85 F TD = 4.63 F TD = 4.71 F
2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W 2,980,551 W374.93 F 331.73 F 329.81 F 295.79 F 225.14 F 159.30 F 125.62 F 106.84 F349.60 h 304.51 h 300.96 h 265.86 h 194.10 h 128.07 h 94.48 h 75.77 h
379.46 F 335.59 F 301.64 F 229.76 F 164.01 FDC = 9.42 F DC = 11.05 F DC = 9.37 F DC = 9.41 F DC = 9.69 F
341.15 F 306.84 F 234.50 F 168.71 F 164.01 F 116.52 F312.58 h 392,011 W 392,011 W 276.84 h 202.98 h 136.71 h 131.97 h 84.50 h
763,265 W 921,399 W 1,058,982 W 1,174,890 W 1,174,890 W
HTR.114
SPESJAE
SSR
2,3,4
HP TURBINE
MSEP111
MSEP112
MSEP111 DT
MSEP112DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STG RHTR111 DT
To Htrs.115-135
To LP Cond.
1STGRHTR
111
2STGRHTR
112
2STG RHTR112 DT
To Htrs.115-135
To LP Cond.
MSEP122
MSEP121
MSEP121 DT
MSEP122DT
BPInj. Flow
BPInj. Flow
To Htrs.114-134
To LP Cond.
1STGRHTR
121
2STGRHTR
122
2STG RHTR122 DT
To Htrs.115-135
To LP Cond.
1STG RHTR121 DT
To Htrs.115-135
To LP Cond.
To LPTCRV 456
To LPTCRV 123
REACT OR
HTR.115
HTR. 125
HTR.135
FP11
FP12
FP13
HTR.124
HTR.134
HTR.113
HTR.123
HTR.133
HTR.112
HTR.122
HTR.132
HTR.111
HTR.121
HTR.131
DC 11
DC 12
DC 13
BP11
BP12
BP13
ToHtr. 124
ToHtr. 134
ToHtr. 114 From
Htr. 115
FromHtr. 125
FromHtr. 135
To HPCond.
To HPCond.
To HPCond.
To CRD
Inj. To MSDrn. Tk s.
CRD Flow
To Htrs.111-131
To LPCond.
COND.DEMIN.
To Htr.134
To Htr.133
To Htr.132To Htr.
131
LPCONDENSER
To Htr.124
To Htr.123
To Htr.122
To Htr.121
IPCONDENSER
To Htr.114
To Htr.113
To Htr.112
To Htr.111
HPCONDENSER
SprayPump
LP TURBINE LP SECTION LP TURBINE IP SECTION LP TURBINE HP SECTION3 3
7
7 7
7
89
1111
1313
8 9
1111
1313
8 9
1111
1313
CRV 1 CRV 6CRV 2 CRV 5CRV 3 CRV 4
CP11
CP12
CP13
2
1TO SJAE TO SSR MS BYPASS
3 4
AA
B B
A A
B B
A A
B B
Circ .W ater
In
Circ .W ater
Out
1Stg Rhtr.Drns.
From HPStg. 7
From HPStg. 7
From HPStg. 7
Moist.Sep. Drns.
FromLP Stg. 8
Moist. Sep.Drns.
FromLP Stg. 8
Moist.Sep. Drns.
1
1
1
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 9
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 11
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
FromLP Stg. 13
FromSSR
SPE, SJAE Drns.
To LP Cond.
From SSR
Moist. Sep. Drn. Tk s. Cond. Dump
1Stg., 2Stg. Drn. Tk s. Cond. Dump
MS Bypass MS BypassHtr. Drns.
MS Bypass
Mak eup
ToHtrs. 115-135
Motor-Driv enFeed Pump
Motor-Driv enFeed Pump
Shaft-Driv enFeed Pump
Booster Pump
Booster Pump
Booster Pump
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
1Stg Rhtr.Drns.
2Stg Rhtr.Drns.
FromLP Stg. A
FromLP Stg. 8
FromLP Stg. A
FromLP Stg. A
Condensate Pump