448-571 MW SIMPLE CYCLE OUTPUT >64% COMBINED CYCLE EFFICIENCY HYD RO G E N (H 2 ) C APAB LE WITH A TECH N O LO GY PATHWAY E NAB LI N G A FUTU RE OUTSTANDING COMBINED CYCLE EFFICIENCY >64% FOR REDUCED CUSTOMER CARBON FOOTPRINT. Marrying sheer power with record-breaking SC Net Heat Rate (Btu/kWh, LHV) and dependable capacity for demanding SC Net Heat Rate (kJ/kWh, LHV) customer economics. It offers the most cost- CC Net Heat Rate (Btu/kWh, LHV) CC Net Heat Rate (kJ/kWh, LHV) increased dispatch and ancillary revenue. The 9HA gas turbine is at the heart of the world›s Plant Turndown – Minimum Load (%) most efficient combined-cycle power plants Startup Time (RR Hot†, Minutes) CC Net Output (MW) 2X CC PLANT PERFORMANCE Ramp Rate (MW/min) CC Net Heat Rate (Btu/kWh, LHV) Plant Turndown – Minimum Load (%) Ramp Rate (MW/min) Startup Time (RR Hot†, Minutes) as industry-leading operational flexibility for effective conversion of fuel to electricity as well CC Net Heat Rate (kJ/kWh, LHV) efficiency, the 9HA gas turbine provides reliable NOTE: ll ratings are net plant, based on ISO conditions and natural gas fuel. Actual performance will vary with project-specific A conditions and fuel. † Rapid Response/Hot Start in commercial operation today and is a key element in the path to decarbonisation.