GE Announces Two HA Orders and Continued Gas Power Fleet Momentum
– Orders for leading HA gas turbine booked in the third quarter in Florida and Taiwan
– HA has achieved more than 220,000 operating hours in the field
– Customers Invenergy and Bahrain Aluminum’s HA-power plants successfully first fired
– Gas will play a vital role in a cleaner energy future according to newly announced GE Gas Power CEO Scott Strazik, keynoting
today at POWER-GEN International
ORLANDO – December 5, 2018 – GE today announced orders and continued strong momentum for the company’s flagship HA, the largest and most efficient gas turbine fleet in the industry, at POWER-GEN International in Orlando, Florida.
The company announced it will partner with electric utility Tampa Electric (TECO), an Emera company, to modernize Big Bend Power Station in Hillsborough County, Florida, using GE’s advanced gas and steam turbine technology and services. The modernized Big Bend Power Station will help TECO produce electricity in an amount equivalent to the needs of more than 750,000 Florida households using two of GE’s industry-leading 7HA gas turbines and a comprehensive upgrade for the steam turbine island.
Independent power producer Chiahui Corporation will use the HA, the industry’s most efficient heavy-duty gas turbine, as part of a full turnkey power expansion project at Chiahui Power Plant in Chiayi Province, Taiwan. GE’s 7HA.02 gas turbine will be part of the expansion to increase the plant’s generation potential, and it will be the third HA gas turbine in Taiwan, enhancing the country’s ability to generate flexible, reliable and affordable electricity from natural gas.
GE’s customers have also announced major operational milestones for several HA-powered facilities around the world, including Invenergy’s Lackawanna Energy Center in Jessup, Pennsylvania, United States, and Aluminium Bahrain (Alba)’s Unit 1 at Power Station 5 in Bahrain. Both customers have achieved first fire status for the HA units —a significant milestone for plants preparing to become commercially operational and provide electricity to the grid.
In addition, GE shared that its fleet of more than 30 HA gas turbines commercially operating around the world has surpassed 220,000 operating hours, and has added 19 gigawatts (GW) of new capacity worldwide. The HA remains the fastest-growing fleet of gas turbines today, with 83 orders by 35 customers in 16 countries.
Natural gas power plants have a lifespan measured in decades, and customers look to GE to provide total plant solutions across the entire lifecycle of their power generation assets. To that end, GE also announced today that it has completed Europe’s first 9EMax gas turbine upgrade at the Czech Power Station, providing significantly more power, incremental revenue generation, and greater efficiency. This is GE’s fifth 9EMax upgrade, built on its deep experience of a global fleet of more than 700 9E gas turbines, and you can read more about this announcement here.
Powering to a Cleaner Energy Future with Gas
GE today also reaffirmed its foundational belief that natural gas generation will fuel the future of electricity through its ongoing grand transformation. Onstage at the industry’s largest annual gathering, newly announced GE Gas Power CEO Scott Strazik articulated a balanced environment for gas power with headwinds associated with renewables growth and tailwinds with supply growth and power density. “Gas power is well positioned to play a vital role replacing coal and nuclear retirements while complementing renewables growth in different parts of the energy landscape. It’s dispatchable, flexible, affordable, and fast.”
In a new whitepaper released this week citing the International Energy Agency’s most recent World Energy Outlook, GE said that “the contribution of gas to powering the world through 2040 is vital by almost any measure, across markets and sectors.” Natural gas generation is also a perfect complement to other technologies that will power the future of electricity: from energy storage and renewable energy sources such as wind and hydro to high-voltage grid technologies such as high-voltage direct current (HVDC).