Experimental Studies of Cavity and Core Flow Interactions With Application to Ultra-Compact Combustors

Abstract: Reducing the weight and decreasing pressure losses of aviation gas turbine engines improves the thrust-to-weight ratio and improves efficiency. In ultra-compact combustors (UCC), engine length is reduced and pressure losses are decreased by merging a combustor with adjacent components using a systems engineering approach. High-pressure turbine inlet vanes can be placed in a combustor to form a UCC. In this work, experiments were performed to understand the performance and associated physics within a UCC. Exper… Show more

“…3(a)], where inlet air is divided into discrete air passages to allow sufficient core air diffusion and distribution while providing a transport mechanism for cavity products flowing into the core region. Further details of this front-end design can be found in Blunck et al 6 A variant of this design [CDF-2, shown in Fig. 3(b)] was examined in the first study.…”

“…A similar UCC sector has been reported previously. 6,33 A brief description of the UCC sector is provided below. Figure 2 shows a top-down view of the planar section of a UCC that displays flow elements and directions.…”

“…Water cooling protected the rakes from the combustion environment and assisted in quenching the products. The layout and location of the probes is the same as detailed in Blunck et al 6 Total unburned hydrocarbons (THC) data were collected using a Beckman Model 402 flame-ionization detector; carbon dioxide (CO 2 ) and carbon monoxide (CO) data were collected using Beckman non-dispersive infrared analyzers; and NO x data were collected using an EcoPhysics Model 700 chemiluminescent analyzer. Manufacturer specifications state that the uncertainty of the emissions measurements is ± 1% of the data range on the analyzer.…”

“…[1][2][3][4][5] These improvements can increase thrust-to-weight ratio and/or decrease thrust specific fuel consumption. 6,7 In the current design the high-pressure turbine inlet guide vanes (IGVs) are integrated into the combustor, as proposed by Zelina et al 8 Therefore, the flow-turning and acceleration effected by the IGVs are integrated with the combustion process to achieve engine length reduction. A study has shown that the potential for further reduction exists through the removal of the compressor outlet guide vanes (OGVs).…”

“…Sturgess and Hsu 14 showed that entrainment of the core flow into the trapped-vortex cavity resulting from cavity vortex motion varies with the fuel and air jet momentum. Blunck et al 6 studied the effect of varying the trapped-vortex cavity air driver forward-to-aft momentum ratio, cavity air loading, and front-end air passage location on combustion efficiency, exit temperature profile, and cavity vortex strength. High combustion efficiency over a wide range of equivalence ratios was observed for elevated air loadings, forward-to-aft momentum ratios near 0.9, and the lowest air passages open in the front-end.…”

Experimental Characterization of the Reaction Zone in an Ultra-Compact Combustor

“…3(a)], where inlet air is divided into discrete air passages to allow sufficient core air diffusion and distribution while providing a transport mechanism for cavity products flowing into the core region. Further details of this front-end design can be found in Blunck et al 6 A variant of this design [CDF-2, shown in Fig. 3(b)] was examined in the first study.…”

“…A similar UCC sector has been reported previously. 6,33 A brief description of the UCC sector is provided below. Figure 2 shows a top-down view of the planar section of a UCC that displays flow elements and directions.…”

“…Water cooling protected the rakes from the combustion environment and assisted in quenching the products. The layout and location of the probes is the same as detailed in Blunck et al 6 Total unburned hydrocarbons (THC) data were collected using a Beckman Model 402 flame-ionization detector; carbon dioxide (CO 2 ) and carbon monoxide (CO) data were collected using Beckman non-dispersive infrared analyzers; and NO x data were collected using an EcoPhysics Model 700 chemiluminescent analyzer. Manufacturer specifications state that the uncertainty of the emissions measurements is ± 1% of the data range on the analyzer.…”

“…[1][2][3][4][5] These improvements can increase thrust-to-weight ratio and/or decrease thrust specific fuel consumption. 6,7 In the current design the high-pressure turbine inlet guide vanes (IGVs) are integrated into the combustor, as proposed by Zelina et al 8 Therefore, the flow-turning and acceleration effected by the IGVs are integrated with the combustion process to achieve engine length reduction. A study has shown that the potential for further reduction exists through the removal of the compressor outlet guide vanes (OGVs).…”

“…Sturgess and Hsu 14 showed that entrainment of the core flow into the trapped-vortex cavity resulting from cavity vortex motion varies with the fuel and air jet momentum. Blunck et al 6 studied the effect of varying the trapped-vortex cavity air driver forward-to-aft momentum ratio, cavity air loading, and front-end air passage location on combustion efficiency, exit temperature profile, and cavity vortex strength. High combustion efficiency over a wide range of equivalence ratios was observed for elevated air loadings, forward-to-aft momentum ratios near 0.9, and the lowest air passages open in the front-end.…”

Experimental Characterization of the Reaction Zone in an Ultra-Compact Combustor

Combustion and stability characteristics of ultra-compact combustor using cavity for gas turbines

The unsteady turbulence flow of cold and combustion case in different trapped vortex combustor