The rugged 9F.03 heavy-duty gas turbine delivers efficiency, flexible operation, and reliability in one proven solution. With greater than 99 percent reliability and broad fuel flexibility, the 9F.03 delivers consistent performance in a multitude of diverse applications, ranging from industrial cogeneration to aluminum smelting.

Flexibility and High Performance Together

The rugged 9F.03 and 9F.04 deliver efficiency, flexible operation, and reliability—and the eight-month delivery cycle gets you up and running fast.

Rapid Response to Changing Conditions

Faster start times—up to 20 minutes in simple-cycle and 30 minutes in combined-cycle—along with better availability and high fuel flexibility.

9F.04: Lowest Lifecycle Cost in its Class

Advanced Gas Path (AGP) provides the 9F.04 with enhanced performance, additional output, and improved efficiency.
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9F.03/9F.04 Gas Turbine (50 Hz)

With more than 200 installed units worldwide, and an excess of 12 million operating hours, the 9F.03 and 9F.04 heavy-duty gas turbines are excellent for a wide range of applications.

  • Improved survivability from grid disruptions and load transients
  • OpFlex AutoTune, which improves Dry Low NOx (DLN) operability and eliminates firing-temperature suppression
  • 18-stage compressor with variable inlet guide vanes to reduce degradation and stress on wear-related components 
  • DLN 2.6+ combustor provides dual-fuel capability and enables turndown to 35 percent of baseload in simple cycle
  • Three-stage hot gas path (HGP) turbine has advanced cooling and sealing improves efficiency and provides lowest lifecycle cost in its class
  • More than 97 percent average start-up reliability
  • Improved compressor that increases reliability and availability, while reducing periodic inspections and maintenance costs

FORMER NAMES:
Frame 9F, 9F 3-Series, 9F-3, 9FA+e, 9FA.03, 9351(FA), PG9351FA, 9FA+, 9FA.02, 9331(FA), PG9331FA, 9FA, 9FA.01, 9311(FA), PG9311FA, MS9001(FA)

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Product Specifications

9F

Fact Sheet

9F.03  9F.04
50/60 50 HZ 50 HZ
SC Output
(MW)
265 288
SC Net Heat Rate
(Btu/kWh, LHV)
9020 8810
SC Net Heat Rate
(kJ/kWh, LHV)
9517 9295
SC Efficiency
(%, LHV)
37.80% 38.7%
Compressor Pressure Ratio 16.7 16.9
Exhaust Temp
(°F/°C)
1104 1150
Exhaust Energy
(MMBtu/hr)
1458 1524
GT Min. Turn Down Load
(%)
35% 35%
NOx Emission
(@ 15% O2 ppm)
15 15
CO Emission
(ppm)
24 24
Exhaust Energy
(MM kJ/hr)
1538 1608
GT Ramp Rate
(MW/minute)
22 23
Wobbe Variation
(%)
+/- 15% +/- 15%
Startup Time
(Hot, minutes)
23/ 20 23/ 20

9F

Fact Sheet

9F.03  9F.04
Block Configuration
(GTs x STs)
1x1 1x1
CC Net Output 409 443
CC Net Heat Rate
(Btu/kWh, LHV)
5792 5666
CC Net Heat Rate
(kJ/kWh, LHV)
6111 5978
CC Net Efficiency
(%, LHV)
58.9% 60.2%
Bottom Cycle Type 3PRH 3PRH
HP Throttle Pressure
(psia/bar)
2400/165 2400/165
HP Throttle Temp
(°F/°C)
1080 1085
Reheat Temp
(°F/°C)
1056 1085
ST Configuration SFT-D650 SFT-D650
GT Generator Type Hydrogen Hydrogen
ST Generator Type Air Air
Plant Turndown - Minimum load
(%)
46% 48%
Ramp Rate
(MW/minute)
22 22
Startup Time
(Hot, minutes)
30 30

9F

Fact Sheet

9F.03  9F.04
Block Configuration
(GTs x STs)
2x1 2x1
CC Net Output
(MW)
819 889
CC Net Heat Rate
(Btu/kWh, LHV)
5779 5649
CC Net Heat Rate
(kJ/kWh, LHV)
6097 5960
CC Net Efficiency
(%, LHV)
59% 60.4%
Bottom Cycle Type 3PRH  3PRH 
HP Throttle Pressure
(psia/bar)
2400/165 2400/165
HP Throttle Temp
(°F/°C)
1085 1085
Reheat Temp
(°F/°C)
1066 1085
ST Configuration STF-D650 STF-D650
GT Generator Type Hydrogen Hydrogen
ST Generator Type Hydrogen Hydrogen
Plant Turndown - Minimum load
(%)
21% 22%
Ramp Rate
(MW/minute)
44 44
Startup Time
(Hot, minutes)
39 39
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