The 9F.06 gas turbine delivers higher output and efficiency than any other GE F-class gas turbine. These units provide an unprecedented balance of performance and flexibility and are engineered to meet the availability and life cycle economics you’ve come to expect from GE’s F-class gas turbines.

LOWEST COST OF ELECTRICITY IN ITS CLASS

In combined-cycle operation, the 9F.06 gas turbine’s efficiency of over 61 percent provides the lower cost of electricity in 50 Hz F-class technology.

GREATER FLEXIBILITY

With a fast ramp capability of 65 MW per minute, the 9F.06 turbine provides greater capacity for flexibility, including renewable energy support.

Full-Load Validation

The 9HA has been fully tested in our Greenville, S.C. facility, with an approach that is superior to operating a field prototype for 8,000 hours.

Compatible Fuels

The 9F gas turbine is capable of running on a variety of liquid & gas fuels

Explore Compatible Fuels

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LM6000-PF+-9_mobile

9F.06 Gas Turbine (50 Hz)

All power plants are different, but one requirement remains the same – the lowest life cycle cost in the right size for your project. The 9F.06 is GE’s most powerful and efficient F-class gas turbine and benefits from over 2,000 hours of full-speed, full-load validation testing performed on previous F-class and H-class gas turbines.

  • F-class firing temperatures provide extended operation between planned maintenance events at 32,000 hour intervals
  • Similar architecture enables future upgrades to 9HA performance as plant requirements grow over time
  • Significant flexibility allows for customization for the specific power and exhaust condition needs of each project
  • Modular systems ease installation and reduce onsite labor requirements by reducing field mechanical welds by 25 percent and field installed valves by a factor of 10
  • Maintenance is streamlined with a quick-removal turbine roof, field-replaceable blades, and 100 percent borescope inspection coverage for all blades
  • Simplified dual-fuel system uses less water, eliminates recirculation, and utilizes enhanced liquid purge for improved reliability and dependability
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Tools & Resources

Explore our range of tools that let you choose products, keep them up and running, and enhance their power potential.

Product Specifications

9F.06  
SC Net Output (MW) 359
SC Net Heat Rate (Btu/kWh, LHV) 8,146
SC NetHeat Rate (kJ/kWh, LHV) 8,595
SC Net Efficiency (%, LHV) 41.9%
Comp. Pressure Ratio (X:1) 19.5
ExhaustTemperature (°F) 1,132
ExhaustTemperature (°C) 611
Exhaust Energy (MM Btu/hr) 1,700
Exhaust Energy (MM kJ/hr) 1,794
GT Turn-down - Minimum load  (%)  38%
GT Ramp Rate - (MW/minute) 65
NOx (ppmvd) at baseload (@15% O2) 15
CO (ppm) at min. turn-down w/o abatement 9
Wobbe Variation (%)  +/- 15%
Startup Time - Conventional / Peaking (min.) 23 / 12
9F.06  
CC Net Output (MW) 532
CC Net Heat Rate (Btu/kWh, LHV) 5,489
CC Net Heat Rate (kJ/kWh, LHV) 5,791
CC Net Efficiency (%, LHV) 62.2%
Plant Turn-down - Minimum load  (%)  49%
Ramp Rate - (MW/minute) 65
Startup Time (RR Hot, minutes) < 30
Bottoming Cycle Type  3PRH 
HP Throttle Press. (psia/bar) 2685/185
HP Throttle Temp. (°F/°C) 1,085/585
Reheat Temp. (°F/°C) 1,058/570
ST Configuration (Type) STF-D650
GT Generator Type (Cooling) Hydrogen
ST Generator Type (Cooling) Hydrogen
9F.06  
CC Net Output (MW) 1,067
CC Net Heat Rate (Btu/kWh, LHV) 5,476
CC Net Heat Rate (kJ/kWh, LHV) 5,777
CC Net Efficiency (%, LHV) 62.3%
Plant Turndown - Minimum load  (%)  23%
Ramp Rate - (MW/minute) 130
Startup Time (RR Hot, minutes) < 30
Bottoming Cycle Type  3PRH 
HP Throttle Press. (psia/bar) 2685/185
HP Throttle Temp. (°F/°C) 1,085/585
Reheat Temp. (°F/°C) 1,058/570
ST Configuration (Type) STF-D650
GT Generator Type (Cooling) Hydrogen
ST Generator Type (Cooling) Hydrogen
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