Thermal Calculations - WHRS
10
314.00 ˚C 36.00 ˚C 43.30 T/H 11.8 MW 386.00 ˚C 198.00 ˚C 18.50 T/H 321.00 ˚C 20.50 T/H 386.00 ˚C 205.00 ˚C 4.30 T/H "X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X= Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= % SSC(Max)= T/MWH Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW P(Rated)= MW Generator Out Put Comparison with Max.Power Of Turbine % % T/Hr % Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH X(Rated) ή%(Rated) % Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% % ή%(Isentropic) % KJ/Hr % % % Turbine Exhaust Temp. WHRPP'S THERMAL CALCULATIONS Inputs for Calculation Turbine Inlet steam temp. Turbine Inlet steam flow Generator Out Put (For Comparison) AQC2 Main Steam Temperature ECO.Outlet Temperature Main steam Flow PH2(A&B) Main Steam Temperature Main steam Flow EG Main Steam Temperature ECO.Outlet Temperature Main steam Flow *here m is main steam flow at turbine inlet 0.824389857 31.72178356 Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.891234375 11.1275744 (CR/m)*100 82.43898568 Rated power of Turbine=Isentropic Efficiency*P(Max) 8.982178053 Note:Isentropic efficiency of turbine is calculated in the end 106.0428767 Generator Out Put Comparison with Rated Power Of Turbine 131.3712546 Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 35.6960808 89.82338373 Heat Rate (Max) 11348.66832 Heat Rate (Rated) 14059.30168 4.820657055 Heat rejection Factor Rated=(h2actual-hf)/hfg 0.898233837 Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 25.60582369 Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.807192807 80.71928073 Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp! Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 44012110.5 Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 88.71847038 AQC2 Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 118.7048715 EG PH2(A&B) "Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad) Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 61.46797867
description
Thermal Calculations - WHRS
Transcript of Thermal Calculations - WHRS
314.00 ˚C
36.00 ˚C
43.30 T/H
11.8 MW
386.00 ˚C
198.00 ˚C
18.50 T/H
321.00 ˚C
20.50 T/H
386.00 ˚C
205.00 ˚C
4.30 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
*here m is main steam flow at turbine inlet
0.824389857
31.72178356
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.891234375
11.1275744
(CR/m)*100 82.43898568
Rated power of Turbine=Isentropic Efficiency*P(Max) 8.982178053
Note:Isentropic efficiency of turbine is calculated in the end
106.0428767
Generator Out Put Comparison with Rated Power Of Turbine 131.3712546
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 35.6960808
89.82338373
Heat Rate (Max) 11348.66832
Heat Rate (Rated) 14059.30168
4.820657055
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.898233837
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 25.60582369
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.807192807
80.71928073
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 44012110.5
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 88.71847038
AQC2
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 118.7048715
EG
PH2(A&B)
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 61.46797867
314.00 ˚C
36.00 ˚C
43.40 T/H
11.8 MW
387.00 ˚C
198.00 ˚C
18.70 T/H
318.00 ˚C
20.50 T/H
383.00 ˚C
200.00 ˚C
4.30 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
*here m is main steam flow at turbine inlet
0.824389857
31.72178356
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.891234375
11.15327318
(CR/m)*100 82.43898568
Rated power of Turbine=Isentropic Efficiency*P(Max) 9.002922113
Note:Isentropic efficiency of turbine is calculated in the end
105.7985383
Generator Out Put Comparison with Rated Power Of Turbine 131.0685559
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 35.77851979
89.82338373
Heat Rate (Max) 11348.66832
Heat Rate (Rated) 14059.30168
4.820657055
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.898233837
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 25.60582369
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.807192807
80.71928073
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 44528683.1
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 88.45576848
AQC2
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 120.0981172
EG
PH2(A&B)
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 61.87777915
311.00 ˚C
36.00 ˚C
44.10 T/H
11.6 MW
378.00 ˚C
198.00 ˚C
18.50 T/H
323.00 ˚C
21.20 T/H
379.00 ˚C
200.00 ˚C
4.40 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
*here m is main steam flow at turbine inlet
0.822934651
31.68630768
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.904507251
11.29463903
(CR/m)*100 82.29346514
Rated power of Turbine=Isentropic Efficiency*P(Max) 9.117032626
Note:Isentropic efficiency of turbine is calculated in the end
102.7035921
Generator Out Put Comparison with Rated Power Of Turbine 127.2343807
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 36.29141813
89.65276086
Heat Rate (Max) 11361.37425
Heat Rate (Rated) 14075.04242
4.837100163
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.896527609
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 25.57718756
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.807192795
80.71927955
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 43689100.5
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 91.92899636
AQC2
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 117.8336826
EG
PH2(A&B)
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 63.0829279
311.00 ˚C
36.00 ˚C
42.10 T/H
11.1 MW
379.00 ˚C
198.00 ˚C
17.50 T/H
326.00 ˚C
20.20 T/H
388.00 ˚C
203.00 ˚C
4.30 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
*here m is main steam flow at turbine inlet
0.822934651
31.68630768
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.904507251
10.7824105
(CR/m)*100 82.29346514
Rated power of Turbine=Isentropic Efficiency*P(Max) 8.456644558
Note:Isentropic efficiency of turbine is calculated in the end
102.9454406
Generator Out Put Comparison with Rated Power Of Turbine 131.2577338
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 34.64554882
90.52686809
Heat Rate (Max) 11361.37425
Heat Rate (Rated) 14486.00567
4.978333866
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.905268681
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 24.85157111
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.784293
78.42929998
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 41365677.5
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 87.85118999
AQC2
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 111.5671885
EG
PH2(A&B)
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 61.81931851
315.00 ˚C
36.00 ˚C
43.30 T/H
11.9 MW
388.00 ˚C
198.00 ˚C
18.60 T/H
318.00 ˚C
20.40 T/H
385.00 ˚C
205.00 ˚C
4.30 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 61.41090558
EG
PH2(A&B)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 88.02427693
AQC2
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 119.5652431
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.807192811
80.71928112
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 44331109.8
89.88005139
Heat Rate (Max) 11344.37645
Heat Rate (Rated) 14053.9847
4.815168689
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.898800514
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 25.61551102
(CR/m)*100 82.48723656
Rated power of Turbine=Isentropic Efficiency*P(Max) 8.992416007
Note:Isentropic efficiency of turbine is calculated in the end
106.8197912
Generator Out Put Comparison with Rated Power Of Turbine 132.3337353
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 35.71697343
*here m is main steam flow at turbine inlet
0.824872366
31.73378471
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.886804166
11.14025769
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
313.00 ˚C
36.00 ˚C
42.80 T/H
11.5 MW
386.00 ˚C
198.00 ˚C
18.00 T/H
316.00 ˚C
20.20 T/H
379.00 ˚C
205.00 ˚C
4.50 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
*here m is main steam flow at turbine inlet
0.823906068
31.7098702
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.895661662
10.98658039
(CR/m)*100 82.39060682
Rated power of Turbine=Isentropic Efficiency*P(Max) 8.616774996
Note:Isentropic efficiency of turbine is calculated in the end
104.6731521
Generator Out Put Comparison with Rated Power Of Turbine 133.4606045
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 35.26317972
90.64270474
Heat Rate (Max) 11352.932
Heat Rate (Rated) 14475.24161
4.967055542
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.906427047
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 24.8700512
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.784293007
78.42930075
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 42822594
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 86.98833174
AQC2
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 115.4966317
EG
PH2(A&B)
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 63.9083129
315.00 ˚C
35.00 ˚C
42.90 T/H
11.8 MW
390.00 ˚C
198.00 ˚C
18.20 T/H
324.00 ˚C
20.50 T/H
386.00 ˚C
205.00 ˚C
4.30 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 61.46797867
EG
PH2(A&B)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 88.98117227
AQC2
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 117.2079675
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.784279239
78.42792385
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 43457104.6
90.62836654
Heat Rate (Max) 11280.80967
Heat Rate (Rated) 14383.28403
4.92094552
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.906283665
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 25.02905451
(CR/m)*100 82.30721294
Rated power of Turbine=Isentropic Efficiency*P(Max) 8.717836812
Note:Isentropic efficiency of turbine is calculated in the end
106.1586744
Generator Out Put Comparison with Rated Power Of Turbine 135.3546786
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 35.30979435
*here m is main steam flow at turbine inlet
0.823072129
31.91260297
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.859497571
11.11543646
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
312.00 ˚C
36.00 ˚C
42.00 T/H
h1 s hf sf sg hfg hg
3062.84 6.95612 150.81 0.51867 8.332 2415.50 2566.30
11.3 MW
389.00 ˚C
198.00 ˚C
18.10 T/H
320.00 ˚C
19.60 T/H
386.00 ˚C
204.00 ˚C
4.30 T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
Turbine Inlet steam flow
Readings taken from steam tables at above inputs
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
*here m is main steam flow at turbine inlet
0.823906068
31.65780889
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH 3.905042843
10.75532374
(CR/m)*100 82.39060682
Rated power of Turbine=Isentropic Efficiency*P(Max) 8.435400411
Note:Isentropic efficiency of turbine is calculated in the end
105.0642479
Generator Out Put Comparison with Rated Power Of Turbine 133.9592604
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr 34.60405487
90.62288052
Heat Rate (Max) 11371.60191
Heat Rate (Rated) 14499.04617
4.979016757
Heat rejection Factor Rated=(h2actual-hf)/hfg 0.906228805
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) 24.82921951
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 116.4575456
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 0.784292991
78.42929906
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 43178871.3
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 84.73979026
AQC2
EG
PH2(A&B)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 61.5865755
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
˚C
˚C
T/H
MW
˚C
˚C
T/H
˚C
T/H
˚C
˚C
T/H
"X"(Heat Rejection Factor) in condensor = (S-Sf)/(Sg-Sf) X=
Rankine Cycle Efficiency = (h1-h2)/(h1-hf)*100 ή%(Max)= %
SSC(Max)= T/MWH
Maximum Power of Turbine =m(h1-h2)/3600 MW P(Maximum)= MW
P(Rated)= MW
Generator Out Put Comparison with Max.Power Of Turbine %
%
T/Hr
%
Heat rate (Max) = m*(h1-hf)/P(Max) KJ/KWH
Heat Rate(Rated)=m*(h1-hf)/P(Rated) KJ/KWH
SSC Rated (Tons/MWH)= 3600/(h1-h2actual) SSC(Rated) T/MWH
X(Rated)
ή%(Rated) %
Rated Condensate Recovery= [{(m-m(1-Xactual)/m}*100]% %
ή%(Isentropic)%
KJ/Hr
%
%
%
Turbine Exhaust Temp.
WHRPP'S THERMAL CALCULATIONSInputs for Calculation
Turbine Inlet steam temp.
Turbine Inlet steam flow
Generator Out Put (For Comparison)
AQC2Main Steam Temperature
ECO.Outlet Temperature
Main steam Flow
PH2(A&B)Main Steam Temperature
Main steam Flow
EGMain Steam Temperature
ECO.Outlet Temperature
Main steam Flow
*here m is main steam flow at turbine inlet
#DIV/0!
#DIV/0!
Specific Steam Consumption=1/(h1-h2)*3600 Tons/MWH #DIV/0!
#DIV/0!
(CR/m)*100 #DIV/0!
Rated power of Turbine=Isentropic Efficiency*P(Max) #DIV/0!
Note:Isentropic efficiency of turbine is calculated in the end
#DIV/0!
Generator Out Put Comparison with Rated Power Of Turbine #DIV/0!
Condensate Recovery (Max) =CR= {m-m(1-X)} Tons/Hr #DIV/0!
#DIV/0!
Heat Rate (Max) #DIV/0!
Heat Rate (Rated) #DIV/0!
#DIV/0!
Heat rejection Factor Rated=(h2actual-hf)/hfg #DIV/0!
Rated Rankine Cycle Efficiency=(h1-h2actual)/(h1-hf) #DIV/0!
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 0
Isentropic Efficiency of Turbine = (h1-h2actual)/(h1-h2s)*100 #DIV/0!
#DIV/0!
Cooling Tower's Efficiency= (Tin-Tout/Tin-Twb)*100 needs wet bulb temp!
Boiler Heat Transfer Rate= m*(h1-hf1) AQC2 0
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 0
AQC2
EG
PH2(A&B)
"Prepared By Engr Sibt-e-Hassan"(WHRPP MLCFL Iskanderabad)
Boiler's Efficiency=m*(h11-hf1)/Gas Flow(Inlet enthalpy-outlet enthalpy)*100 0
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