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Specifications

The highest efficiency

If it’s efficiency you’re looking for, search no more. Our LMS100 aeroderivative gas turbine is one of the highest simple cycle efficiency gas turbines in the world.

  • 50Hz
  • 60Hz
50 Hz selected
  LMS100 PA+ LMS100 PB+
Net output (MW) 113 106.5
Net heat rate (Btu/kWh, LHV) 7935 8017
Net heat rate (kJ/kWh, LHV) 8371 8458
Net efficiency (%, LHV) 43% 42.6%
Ramp rate (MW/minute) 50 50
Startup time (cold iron) (min.) 8 8
Exhaust Temp (°F/°C) 824/440 791/422
Exhaust mass flow (lbs) 516.9 507
Exhaust mass flow (Kg/s) 234.5 230
Simple Cycle
Combined Cycle 1x1
Combined Cycle 2x1

Additional specifications

  LMS100 PA+ LMS100 PB+
Reliability 99.6%99.6%
Availability 96.7%96.7%
Start reliability 99.7%99.7%
Fleet operation hours 742897742897
Hot section hours 2500025000
Overhaul hours 5000050000
NOx emission (ppm) (@ 15% O2) 2525
CO (ppm) (@ 15% O2) 95/250*200
Package noise (dBA average) 8585
Combustion SACDLE

LMS100 gas turbines can start up in 8 minutes

NOTE: All ratings are based on ISO conditions and natural gas fuel. Actual performance will vary with project-specific conditions and fuel.

Customer story

Sentinel Energy: California, USA

Southern California has become a hotbed for renewable energy projects. To offset the intermittency of Coachella Valley’s 700+ MW of wind power capacity, Competitive Power Venture (CPV) set out to build a natural gas-fired power plant capable of providing efficient and reliable summer peaking and backup power. Unique operating requirements for the plant included: varying capacity, flat efficiency curve, rapid start, and load changes.

10 minute

start time

103 days

ahead of schedule

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At 800 MW, CPV constructed the world’s largest facility utilizing GE’s intercooled LMS100 aeroderivative gas turbine. The turbine was selected for its rapid start (10 minutes) and ramp rate (greater than 10 MW per minute) capabilities. Eight total turbines provide a wide range of dispatch loads—from 50 MW to 800 MW—and a variety of ancillary services, like spinning- and non-spinning reserve, to help stabilize the grid and support intermittent renewable power sources.

Despite site location construction challenges—including wind, heat, and extreme dry conditions—the project execution team demonstrated all required operating and performance criteria 103 days ahead of schedule.

LMS100 aeroderivative gas turbine
Products

Find the right gas turbine to meet your needs

Whether you're generating power for entire cities, electrifying your own operations, or are facing an emergency electricity shortage and need power fast, we can act as a versatile gas turbine supplier, ready to quickly provide a range of solutions.

  • 50Hz
  • 60Hz
  • Simple
  • 1x1 combined
  • 2x1 combined
9HA

GE’s 9HA high efficiency, air-cooled gas turbine is one of the industry leaders among H-class offerings, and now the 9HA gas turbine is at the heart of the world's most efficient combined-cycle power plant.

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  9HA.01 9HA.02
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

9HA gas turbines are 50% hydrogen (H2) capable with a technology pathway to 100%

9F

With over 450 units deployed to more than 40 countries, GE has the largest operating and most experienced OEM F-class fleet in the world. Our 9F gas turbine delivers consistent performance and accommodates a diverse range of fuels, making it great for a variety of combined cycle and CHP applications.

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  9F.03 9F.04 9F.05
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

9F series turbines are GE’s most advanced F-class technology for 50 Hz applications.

7HA

GE’s 7HA high efficiency air-cooled gas turbine is one of the industry leaders among advanced class gas turbine offerings and is available in three models—the 7HA.01 at 290 MW, the 7HA.02 at 384 MW, and the 7HA.03 at 430 MW.

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  7HA.01 7HA.02 7HA.03
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

7HA gas turbines are up to 50% hydrogen (H2) capable with a technology pathway to 100%

7F

The demands of today’s power generation industry are many: low cost of electricity, dispatch volatility, along with high efficiency, reliability, and asset availability. With approximately 950 installed units producing ~175GW of power in 11 countries, GE’s 7F.04 and 7F.05 gas turbines are proven performers in all these areas.

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  7F.04 7F.05
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

7F series gas turbines can balance renewables by load-following at 40 MW/min ramp rates while maintaining emissions compliance.

GT13E2

With unprecedented operational flexibility, robust engineering and long operation intervals, the GT13E2 can be used in many different applications—all while meeting a very broad range of environment and operating conditions.

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  GT13E2
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

GT13e2 gas turbines can run on up to 30% hydrogen fuel.

9E

Formerly known as the Frame 9E, GE Gas Power’s 9E gas turbine can help decrease costs and increase revenue for your plant. From the desert to the tropics to the arctic, the rugged 9E.03 heavy-duty gas turbine provides essential power and performs in a vast number of duty cycles and applications. The 9E.04 gas turbine provides increased power and performance while maintaining the simplicity and operational strengths of the 9E.03.

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  9E.03 9E.04
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

9E series gas turbines can run on 52 types of fuel.

LMS100

A single, economical solution for the dispatch needs of nearly every industry condition.

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  LMS100 PA+ LMS100 PB+
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

LMS100 gas turbines can start up in 8 minutes

7E

The 7E.03 gas turbine is recognized as an industry leader for 60 Hz industrial power applications. Its robust architecture and operational flexibility make it well-suited for a variety of peaking, cyclic, and baseload operations. With state-of-the-art fuel handling equipment, multi-fuel combustion system options, and advanced gas path features, the 7E gas turbine can accommodate a full range of fuel alternatives while helping to deliver better efficiency and lower emissions than other technologies in its class.

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  7E.03
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

7E series gas turbines can deliver 100% load in 10 minutes.

6F

GE’s 6F gas turbines offer the superior performance, reliability, and flexibility typically associated with larger power plants. The 6F models, including the 6F.01 and the 6F.03 gas turbines, pack a lot of power into a small package, offering durability and flexibility for harsh, remote, or floating power environments. Whether it be for 50 or 60 Hz, the 6F gas turbines maintain best-in-class efficiency and exhaust energy for combined cycle and CHP performance. The 6F.01 and 6F.03 offer segment-leading approximately 32,000-hour combustion and hot gas path inspection intervals.

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  6F.03 6F.01
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

6F gas turbines offer fuel flexibility and hydrogen capability while maintaining the reliability you’ve come to depend on

LM6000

A leader in the +40 MW space, the LM6000 has over 40 million operating hours and more than 1,300 units shipped.

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  LM6000 PG LM6000 PF LM6000 PF+ LM6000 PC
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

LM6000 gas turbines can start up in 5 minutes

6B

Its ability to operate in island mode, coupled with multiple decades of proven rugged performance, make the 6B.03 an excellent solution for remote installations and extreme operating conditions. The rugged, reliable 6B.03 heavy-duty gas turbine is a popular choice for refineries, natural gas liquefaction power, CHP applications, and industrial power.

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  6B.03
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

6B gas turbines can operate on a wide range of non-standard gas or liquid fuels, including over 90% hydrogen

LM2500

The LM2500 family of aeroderivative gas turbines boasts several times the operating experience of its competitors combined, and its flexibility and reliability are unsurpassed.

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  LM2500XPRESS +G4 DLE LM2500XPRESS +G5 DLE LM2500 +G4 LM2500 +G4 DLE
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

LM2500 gas turbines feature >99.8% availability

TM2500

Introducing one of the world’s most modular, reliable, and experienced mobile gas turbines.

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  TM2500
Net output (MW)
Net heat rate (kJ/kWh, LHV)
Net efficiency (%, LHV)
Net heat rate (Btu/kWh, LHV)

TM2500 gas turbines can be installed and commissioned in 11 days