The aerodynamic performance of a 0.5 aspect ratio turbine vane configuration with coolant flow ejection was experimentally determined in a full annular cascade. The vanes were tested at a nominal mean section ideal critical velocity ratio of 0.890 over a range of primary to coolant total temperature ratio from 1.0 to 2.08 and a range of coolant to primary total pressure ratio from 1.0 to 1.4 which corresponded to coolant flows from 3.0 to 10.7 percent of the primary flow. The variations in primary and thermodynamic efficiency and exit flow conditions with circumferential and radial position were obtained
Experimentally determined efficiencies of turbine stator blades having trailing-edge coolant ejectio...
Previously published experimental aerodynamic efficiency results for a film cooled turbine stator bl...
Cold-air tests to determine performance characteristics of single-stage turbine with stator blades e...
The aerodynamic performance of a low aspect ratio turbine vane designed with coolant flow ejection h...
The aerodynamic performance of four different cooled vane configurations was experimentally determin...
The aerodynamic performance of two trailing edge ejection cooling configurations of a core-engine st...
An air cooled version of a single-stage, axial-flow turbine was investigated to determine aerodynami...
The results of an experimental investigation of the aerodynamic performance of two geometrically sim...
The aerodynamic performance of a solid (uncooled) version of a core engine cooled stator vane was ex...
The aerodynamic performance of a fully film cooled core turbine vane was investigated experimentally...
Trailing-edge slot configurations were investigated in a two-dimensional cascade of turbine stator b...
Tests were made on a 0.762-meter-tip-diameter research turbine to determine the effect of blade cool...
Preliminary investigation was made of conical cooling air ejector at primary pressure ratios from 1 ...
Cold air tests on axial flow turbine with transpiration cooled discrete hole stator blades to determ...
Published experimental aerodynamic efficiency results were compared with results predicted from two ...
Experimentally determined efficiencies of turbine stator blades having trailing-edge coolant ejectio...
Previously published experimental aerodynamic efficiency results for a film cooled turbine stator bl...
Cold-air tests to determine performance characteristics of single-stage turbine with stator blades e...
The aerodynamic performance of a low aspect ratio turbine vane designed with coolant flow ejection h...
The aerodynamic performance of four different cooled vane configurations was experimentally determin...
The aerodynamic performance of two trailing edge ejection cooling configurations of a core-engine st...
An air cooled version of a single-stage, axial-flow turbine was investigated to determine aerodynami...
The results of an experimental investigation of the aerodynamic performance of two geometrically sim...
The aerodynamic performance of a solid (uncooled) version of a core engine cooled stator vane was ex...
The aerodynamic performance of a fully film cooled core turbine vane was investigated experimentally...
Trailing-edge slot configurations were investigated in a two-dimensional cascade of turbine stator b...
Tests were made on a 0.762-meter-tip-diameter research turbine to determine the effect of blade cool...
Preliminary investigation was made of conical cooling air ejector at primary pressure ratios from 1 ...
Cold air tests on axial flow turbine with transpiration cooled discrete hole stator blades to determ...
Published experimental aerodynamic efficiency results were compared with results predicted from two ...
Experimentally determined efficiencies of turbine stator blades having trailing-edge coolant ejectio...
Previously published experimental aerodynamic efficiency results for a film cooled turbine stator bl...
Cold-air tests to determine performance characteristics of single-stage turbine with stator blades e...