Georgia Power and Mitsubishi Power have successfully completed a second trial blending hydrogen and natural gas fuels at both partial and full load on an M501GAC natural gas turbine at Georgia Power’s Plant McDonough-Atkinson in Smyrna, Georgia. The demonstration project is the first to validate 50%* hydrogen fuel blending on an advanced class gas turbine, and the largest test of this kind in the world to date, with the 50% blend providing an approximately 22% reduction in CO2 emissions compared to 100% natural gas. Several tests were conducted prior to the 50% blend demonstration including multiple blend percentages that ranged from 5% to 50%, and testing occurred across several weeks in May and June.

Last year, the existing gas turbine was converted from steam-cooled to air-cooled, which includes J series combustion technology with proven high hydrogen co-firing capability. The conversion provides the benefits of faster startup times, increased turn down capability and decreased maintenance expenses, while also supporting the ability for this successful landmark hydrogen blend testing.

Georgia Power, the largest electric subsidiary of Southern Company, collaborated with Mitsubishi Power for the landmark testing as part of a continued commitment to new research and development (R&D) to advance reliable and affordable energy for customers, while reducing carbon emissions across its generation fleet. In fact, Georgia Power has reduced its carbon emissions by more than 60% since 2007.  This test follows the first 20% by volume hydrogen blending test at Plant McDonough-Atkinson completed in 2022. 

Learn more about Georgia Power’s landmark hydrogen blending project.

The Plant McDonough-Atkinson facility, located less than ten miles from downtown Atlanta, has served electric customers for more than 80 years and was fully converted to natural gas in 2012 and expanded to power up to 1.7 million homes. It currently operates with six advanced, large-capacity M501G and M501GAC series gas turbines, which deliver high performance and high efficiency, as well as three steam turbines running in three blocks of 2-on-1 combined-cycle configuration and two gas/oil fueled combustion turbines.

"Natural gas serves a critical role in our generation mix, providing flexibility, baseload power and quick response to customer demand, and will continue to be an important fuel as we plan to meet the energy needs of a growing Georgia through a diverse portfolio of generation resources,” said Rick Anderson, senior vice president and senior production officer for Georgia Power. “At Georgia Power, innovative testing such as this is just one way we help ensure we can deliver reliable and affordable energy for customers for decades into the future, and reduce our overall emissions. Investments we’re making in our fleet and power grid today will benefit future generations, and I’m very proud of the team at Plant McDonough-Atkinson and Mitsubishi Power for their dedication to this project and safely completing this test.” 

Mitsubishi Power completed the hydrogen blending on one M501GAC gas turbine unit, with an approximate one-on-one output of 283 MW. Mitsubishi Power provided full turnkey service for this project including engineering, planning, hydrogen blending hardware, controls, commissioning and risk management. Mitsubishi Power partnered with Certarus to source and manage the hydrogen supply and logistics.

"It has been a privilege to partner with Georgia Power on this landmark project.,” said Mark Bissonnette, executive vice president and chief operating officer of Power Generation at Mitsubishi Power Americas. “Building on the success of our earlier tests, we have achieved a 50% hydrogen blend in an advanced-class gas turbine, showcasing the capabilities of our state-of-the-art technology. This is a significant milestone for both companies to help Georgia Power reduce carbon emissions across its generation fleet."

Southern Company’s industry-leading R&D organization served as technical consultants on the project. The team is engaged in research focused on low-carbon hydrogen power generation, production, delivery, transportation, infrastructure and energy storage.