Add to ORKGA test program was undertaken to determine if variable combustor geometry could be used to reduce exhaust emissions of a low-pressure-ratio jet engine operating at ground idle conditions. Three techniques for varying combustor geometry were simulated. Other techniques evaluated were radial fuel staging and the use of preheated fuel. When simulated variable combustor geometry was employed with radial fuel staging, combustion efficiency at a fuel-air ratio of 0.01 was increased from 77 to 95 percent, and exhaust emissions of unburned hydrocarbons and carbon monoxide were significantly reduced
Full annular versions of advanced combustor designs, sized to fit within the CF6-50 engine, were def...
A series of Model TFE731-2 engine tests were conducted with the Concept 2 variable geometry airblast...
A preliminary evaluation was made of three types of combustor configurations in a 48-inch-diameter r...
Techniques were evaluated to determine if simple combustor modifications could be used to reduce the...
Test results of a full annulus swirl-can combustor operated at simulated engine idle conditions indi...
Two 72-swirl-can-module combustors were investigated in a full annular combustor test facility at en...
The characteristics of current and advanced low-emissions combustors when operated with special test...
Several combustor concepts were designed and tested to demonstrate significant reductions in aircraf...
Combustor research programs are described whose purpose is to demonstrate significantly lower exhaus...
A combustion program is underway to evaluate fuel quality effects on gas turbine combustors. A rich-...
Aviation gas-turbine combustion demands high efficiency, wide operability and minimal trace gas emis...
A full scale double-annular ram-induction combustor designed for Mach 3.0 cruise operation was teste...
Three concepts for optimizing the performance, increasing the fuel economy, and reducing exhaust emi...
Design and development efforts to evolve promising aircraft gas turbine combustor configurations for...
A series of iterative combustor pressure rig tests were conducted on two combustor concepts applied ...
Full annular versions of advanced combustor designs, sized to fit within the CF6-50 engine, were def...
A series of Model TFE731-2 engine tests were conducted with the Concept 2 variable geometry airblast...
A preliminary evaluation was made of three types of combustor configurations in a 48-inch-diameter r...
Techniques were evaluated to determine if simple combustor modifications could be used to reduce the...
Test results of a full annulus swirl-can combustor operated at simulated engine idle conditions indi...
Two 72-swirl-can-module combustors were investigated in a full annular combustor test facility at en...
The characteristics of current and advanced low-emissions combustors when operated with special test...
Several combustor concepts were designed and tested to demonstrate significant reductions in aircraf...
Combustor research programs are described whose purpose is to demonstrate significantly lower exhaus...
A combustion program is underway to evaluate fuel quality effects on gas turbine combustors. A rich-...
Aviation gas-turbine combustion demands high efficiency, wide operability and minimal trace gas emis...
A full scale double-annular ram-induction combustor designed for Mach 3.0 cruise operation was teste...
Three concepts for optimizing the performance, increasing the fuel economy, and reducing exhaust emi...
Design and development efforts to evolve promising aircraft gas turbine combustor configurations for...
A series of iterative combustor pressure rig tests were conducted on two combustor concepts applied ...
Full annular versions of advanced combustor designs, sized to fit within the CF6-50 engine, were def...
A series of Model TFE731-2 engine tests were conducted with the Concept 2 variable geometry airblast...
A preliminary evaluation was made of three types of combustor configurations in a 48-inch-diameter r...