Fuel-Flexible Combustion System for Co-production Plant Applications

Abstract: Future high-efficiency, low-emission generation plants that produce electric power, transportation fuels, and/or chemicals from fossil fuel feed stocks require a new class of fuelflexible combustors. In this program, a validated combustor approach was developed which enables single-digit NO x operation for a future generation plants with low-Btu off gas and allows the flexibility of process-independent backup with natural gas. This combustion technology overcomes the limitations of current syngas gas turbine c… Show more

“…It was developed by the Air Force Research Laboratory and General Electric Aircraft Engines in the U.S. [3,4] , and has been widely studied for aircraft engine applications [5][6][7] , recently also for stationary gas turbine combustor applications as well [8,9] . Detailed experimental tests have demonstrated that trapped vortex combustor has extraordinary performances, such as high combustion efficiency, low NOx emission, reduced lean blow out, increase in altitude re-light, and so on [10] .…”

Combustion of hydrogen in an experimental trapped vortex combustor

“…It was developed by the Air Force Research Laboratory and General Electric Aircraft Engines in the U.S. [3,4] , and has been widely studied for aircraft engine applications [5][6][7] , recently also for stationary gas turbine combustor applications as well [8,9] . Detailed experimental tests have demonstrated that trapped vortex combustor has extraordinary performances, such as high combustion efficiency, low NOx emission, reduced lean blow out, increase in altitude re-light, and so on [10] .…”

Combustion of hydrogen in an experimental trapped vortex combustor

Reduced Chemical Kinetic Mechanism for Premixed CO/H₂/Air Flames