Flexible gas turbine fuel offerings
The flexibility to operate reliably and efficiently on lower-cost fuels—saving customers money.
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The flexibility to operate reliably and efficiently on lower-cost fuels—saving customers money.
For more than 50 years, GE Vernova has cultivated close relationships with owners, operators, and fuel suppliers, so we can understand new fuel trends, expand our capability for existing turbine fuels, qualify new fuels, and actively invest in new combustion technologies. As a result, we have the broadest experience to reliably convert the full spectrum of fuels to mechanical, electrical, and thermal energy. Over the last decade, GE Vernova experts have performed more than 20,000 hours of combustion testing to validate our technology as well as develop new technologies and expanded fuel capabilities.
Modern gas turbines can operate on a wide variety of fuels, which helps power generation in industrial and utility-scale applications where natural gas or light distillate fuels are not available. This fuel flex capability could play an increasing role in a future low- or zero-carbon energy ecosystem.
One path towards a reduced carbon energy system being discussed is the use of hydrogen as a gas turbine fuel. Hydrogen-fueled gas turbines could potentially allow both new and existing power plants to continue operating for decades to come while reducing their carbon emissions. GE Vernova’s gas turbines have nearly 50 years of experience operating on a variety of fuels that contain hydrogen totaling over 8.5 million operating hours with hydrogen concentrations ranging from 5% to 95% (by volume).
Gas-to-power technologies using associated gas for fuel can help greatly reduce gas flaring—a significant contributor to global warming. Typically, technology choice for such projects is driven by fuel quality, emissions standards, and economies of scale. With their high power density, GE Vernova’s efficient and reliable aeroderivative gas turbines are especially well suited as gas-to-power solutions, providing fuel flexibility while meeting stringent emission codes.
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Gas or liquid, natural or man-made—learn the basics of what fuels our turbines.
Hear from our customers
Florida, United States
74.5 MW
DeBary solar plant output
6000 yards
Approximate area of solar farm
Duke Energy has agreed to work with GE Vernova to upgrade one of DeBary’s GE Vernova 7E gas turbines to burn either liquid fuel, 100% hydrogen, or a blend of hydrogen and natural gas.
"Our existing solar field and gas turbines… provide a unique opportunity… to produce green hydrogen, store it onsite, and then combust it to ensure reliable service when electricity demand is high. This combination of technologies will allow gas turbines to become decarbonized, dispatchable assets that support the addition of more renewables to our grid."
Regis Repko
Senior vice president of generation and transmission strategy, Duke Energy
Hear from our customers
Germany
60%
Expected pollutant emission reduction
1340 MW
Generation capacity of power plants
Two of EnBW’s power plants in Germany will be converted from coal to cleaner, more efficient natural gas-burning plants. EnBW will work with an international consortium led by GE Vernova to bring equipment, software, and maintenance services to the plant for a decade. Ultimately, the project’s goal is to have both plants burning 100% hydrogen by the 2030s.
"The two power plants are designed to operate on up to 100% hydrogen by volume, in line with the national goal to deploy renewables and green hydrogen at large scale, but foremost in line with EnBW’s sustainability goals to be carbon-neutral by 2035. Others talk about hydrogen-ready power plants – we already started to build them. That makes the difference!"
Michael Class
Senior Vice President Generation Portfolio Management, EnBW
Hear from our customers
Ohio, USA
5%
initial hydrogen blending by volume to demonstrate the capability
100%
capability of 7HA.0 to transition to hydrogen over time
"We are thrilled to work with the Long Ridge teams on this first-of-its-kind GE HA-powered project that will drive a cleaner energy future by utilizing hydrogen to ultimately produce carbon-free power."
Scott Strazik
CEO, GE Vernova Gas Power
Hear from our customers
Australia
5% to 100%
GE’s gas turbine portfolio capabilities to burn hydrogen
AU$83MM
contributed to the use of hydrogen by Australian Government
"Our new open-cycle, hydrogen-and-gas-capable turbine will provide firm capacity on a continuous basis and will pave the way for additional cleaner energy sources to enter the system. We are leading the sector by building the first net zero emissions hydrogen and gas capable power plant in New South Wales."
Catherine Tanna
Managing Director of EnergyAustralia
Hear from our customers
Yemen
50%
lower flared methane gas emissions
50,000
homes can be powered with the TM2500
PetroMasila needed a fast solution to bring much-needed power to Yemen, a country where the distribution and transmission system was severely damaged in an 8-year-long military conflict.
"Ending routine flaring at our oil production site is vital, both to reduce greenhouse gas emissions and to conserve the gas for the generation of electricity in communities which rely on less-sustainable fuels, like diesel, for their energy needs."
Mohammed Bin Sumait
General Manager of PetroMasila
Products
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.
GE Vernova’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 gas turbines are 50% hydrogen (H2) capable with a technology pathway to 100%
With over 450 units deployed to more than 40 countries, GE Vernova 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 series turbines are GE’s most advanced F-class technology for 50 Hz applications.
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 gas turbines are up to 50% hydrogen (H2) capable with a technology pathway to 100%
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 series gas turbines can balance renewables by load-following at 40 MW/min ramp rates while maintaining emissions compliance.
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 gas turbines can run on up to 30% hydrogen fuel.
Formerly known as the Frame 9E, GE Vernova’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 series gas turbines can run on 52 types of fuel.
A single, economical solution for the dispatch needs of nearly every industry condition.
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LMS100 gas turbines can start up in 8 minutes
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 series gas turbines can deliver 100% load in 10 minutes.
GE Vernova’s 6F gas turbine offers the superior performance, reliability, and flexibility typically associated with larger power plants. Our 6F gas turbine packs big 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 turbine can maintain enhanced output and exhaust energy for combined cycle and CHP performance. The 6F offers segment-leading 32,000-hour combustion and hot gas path inspection intervals.
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6F gas turbines offer fuel flexibility and hydrogen capability while maintaining the reliability you’ve come to depend on
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 gas turbines can start up in 5 minutes
Its ability to operate in island mode, coupled with multiple decades of proven rugged performance, make the 6B an excellent solution for remote installations and extreme operating conditions. The rugged, reliable 6B heavy-duty gas turbine is a popular choice for refineries, natural gas liquefaction power, CHP applications, and industrial power.
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6B gas turbines can operate on a wide range of non-standard gas or liquid fuels, including over 90% hydrogen
The LM2500 family of aeroderivative gas turbines boasts several times the operating experience of its competitors combined, and its flexibility and reliability are unsurpassed.
LM2500XPRESS +G4 DLE | LM2500XPRESS +G5 DLE | LM2500 +G4 DLE | LM2500 +G4 SAC | |
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LM2500 gas turbines feature >99.8% availability
Introducing one of the world’s most modular, reliable, and experienced mobile gas turbines.
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TM2500 gas turbines can be installed and commissioned in 11 days
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