HA technology now available at industry-first 64 percent efficiency

  • GE Power’s largest 9HA.02 gas turbine is now available at more than 64 percent net efficiency in combined cycle power plants
  • Additive manufacturing plays significant role in HA technology’s upgrades
  • HA continues to be world's most efficient gas turbine

 

SCHENECTADY, NEW YORK - December 4, 2017 — GE Power (NYSE:GE) announced today that its largest and most efficient gas turbine, the HA, is now available at more than 64 percent efficiency in combined cycle power plants, higher than any other competing technology today. This milestone is achieved largely due to GE’s advances in additive manufacturing and combustion breakthroughs through constant innovation, coming just 18 months after GE set a world record with the HA for powering the world’s most efficient combined-cycle power plant at 62.22 percent.
 

“The HA is our most advanced gas turbine technology, and we’ve never stopped pushing the boundaries of what it can do,” said Joe Mastrangelo, president and CEO, GE’s Gas Power Systems. “With the ability to deliver 64 percent efficiency, GE is proud to achieve an industry first and offer customers the most efficient gas technology available in the world today.” 
 

According to GE Power’s estimates, an additional percentage point of efficiency in gas turbines can translate to millions in fuel savings for customers globally.  GE’s long-term investments in additive manufacturing play an important role in the HA’s latest efficiency upgrades. Specifically, GE engineers developed additively-manufactured components for the 9HA’s combustion system, using metal 3D-printing to unlock new geometries for better premixing of fuel and air, leading to greater efficiency. The new combustion system has already been successfully tested at full-load and full-speed at GE’s test stand in Greenville, South Carolina.
 

As a result of these innovative breakthroughs, the 9HA.02 can now be quoted at 64.0 percent net efficiency in specified conditions with total output of 826 megawatts in 1x1 combined cycle configuration. Customers can order HA-based combined cycle power plants quoted at 64+ percent in 2018, compared to the previous quoted limit of 63.7 percent efficiency for 2017 orders. In addition, GE Power remains on track to achieve 65 percent efficiency by the early 2020s, continuing the HA’s legacy as the most advanced H-class technology in the world.
 

The HA is a proven technology  - with 70+ orders to date - and is being deployed by customers worldwide.  Since the first HA unit was inaugurated in June 2016, more than 17 units have started operation, achieving more than 50,000 operating hours. Among its many benefits, the HA is an excellent flexible complement to intermittent renewable sources, capable of ramping up or down at 65 MW/minute while still meeting emissions requirements to help balance grid instability.

 

 

About GE

GE (NYSE: GE) is the world’s Digital Industrial Company, transforming industry with software-defined machines and solutions that are connected, responsive and predictive. GE is organized around a global exchange of knowledge, the "GE Store," through which each business shares and accesses the same technology, markets, structure and intellect. Each invention further fuels innovation and application across our industrial sectors. With people, services, technology and scale, GE delivers better outcomes for customers by speaking the language of industry. www.ge.com
 

About GE Power

GE Power is a world energy leader that provides technology, solutions and services across the entire electricity value chain from the point of generation to consumption. We are transforming the electricity value chain by uniting all the resources and scale of the world’s first Digital Industrial company. Our customers operate in more than 150 countries, and together we power more than a third of the world to illuminate cities, build economies and connect the world.

For more information, visit the company's website at www.gepower.com. Follow GE Power on Twitter @GE_Power and on LinkedIn at GE Power

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