The document depicts a schematic of a power generation plant. It shows two gas turbines (GT#1 and GT#2) that produce electricity which is stepped up to 220kV by generators. Other components shown include air intake and flue gas lines, a compressor, combustor, steam lines and bypass stacks connecting the gas turbines. Auxiliary components include an air filter, transformers and switchyards to distribute the power generated. Heat recovery steam generators (WHRB#1 and WHRB#2) capture waste heat to produce steam that drives a steam turbine for additional power generation.

2. Fuel
Electric power
Air intake
Flue gases
Air filter
Compressor
Combuster
Gasturbine
Bypassstack
Generator

3. GT#1
GT#2
220 KV
220 KV
Main Steam Line
By Pass Stack
By Pass Stack
15.75 KV
10.5 KV
10.5 KV
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
ST
H
P
T
L
P
T
275.5
MW
WHRB#2
WHRB#1
156.07 MW
Gas / Naptha
GAIL (HBJ Pipeline)
Main Stack
Main Stack
DM Water
Condenser

4. GT#1
GT#2
220 KV
220 KV
Main Steam Line
By Pass Stack
By Pass Stack
10.5 KV
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
ST
H
P
T
L
P
T
275.5
MW
WHRB#2
WHRB#1
156.07 MW
Gas / Naptha
GAIL (HBJ Pipeline)
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

5. GT#1
GT#2
220 KV
220 KV
Main Stack
Main Stack
Main Steam Line
By Pass Stack
By Pass Stack
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline) DM Water
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
ST
H
P
T
L
P
T
275.5
MW
WHRB#2
WHRB#1
156.07 MW
15.75 KV
10.5 KV
Condenser

6. GT#1
GT#2
220 KV
220 KV
Main Steam Line
By Pass Stack
By Pass Stack
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline)
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
ST
H
P
T
L
P
T
275.5
MW
WHRB#2
WHRB#1
156.07 MW
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

7. GT#1
GT#2
220 KV
220 KV
Main Steam Line
By Pass Stack
By Pass Stack
Flue Gas
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline)
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
555 °C
200 MMWC
ST
H
P
T
L
P
T
275.5
MW
WHRB#2
WHRB#1
Flue Gas
555 °C
200 MMWC
156.07 MW
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

8. GT#1
GT#2
220 KV
220 KV
Main Steam Line
By Pass Stack
By Pass Stack
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline)
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
ST
H
P
T
L
P
T
432
MW
WHRB#2
WHRB#1
156.07 MW
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

9. GT#1
GT#2
220 KV
220 KV
Main Steam Line
By Pass Stack
By Pass Stack
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline)
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
ST
H
P
T
L
P
T
432
MW
WHRB#2
WHRB#1
156.07 MW
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

10. GT#1
GT#2
220 KV
220 KV
Flue Gas
Main Steam Line
By Pass Stack
By Pass Stack
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline)
GEN. TR
GEN. TR
UAT
6.6 KV
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
115 °C
Flue Gas
115 °C
ST
H
P
T
L
P
T
432
MW
WHRB#2
WHRB#1
156.07 MW
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

11. GT#1
GT#2
220 KV
220 KV
Flue Gas
83.11 KSC
Main Steam Line
By Pass Stack
By Pass Stack
73.7 KSC
520 Deg C
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline)
GEN. TR
GEN. TR
UAT
6.6 KV
83.11 KSC
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
115 °C
Flue Gas
115 °C
ST
H
P
T
L
P
T
432
MW
WHRB#2
WHRB#1
156.07 MW
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

12. GT#1
GT#2
220 KV
220 KV
Flue Gas
83.11 KSC
Main Steam Line
By Pass Stack
By Pass Stack
73.7 KSC
520 Deg C
10.5 KV
Gas / Naptha
GAIL (HBJ Pipeline)
GEN. TR
GEN. TR
UAT
6.6 KV
83.11 KSC
AIR
intake
AIR
intakeUAT
6.6 KV
137.758 MW
137.758 MW
115 °C
Flue Gas
115 °C
ST
H
P
T
L
P
T
LP steam
432
MW
WHRB#2
WHRB#1
156.07 MW
15.75 KV
10.5 KV
Main Stack
Main Stack
DM Water
Condenser

13. Thank you