The flow characteristics of several tandem bladed compressor stators were analytically evaluated over a range of inlet incidence angles. The ratios of rear-segment to front-segment chord and camber were varied. Results were also compared to the analytical performance of a reference solid blade section. All tandem blade sections exhibited lower calculated losses than the solid stator. But no one geometric configuration exhibited clearly superior characteristics. The front segment accepts the major effect of overall incidence angle change. Rear- to front-segment camber ratios of 4 and greater appeared to be limited by boundary-layer separation from the pressure surface of the rear segment
A conical-flow compressor stage with a large radius change through the rotor was tested at three val...
The mid-span section of a previously reported controlled-diffusion compressor stator has been experi...
An axial flow compressor stage, having single-airfoil blading, was designed for zero rotor prewhirl,...
Analytical investigation of effects of geometric changes on flow characteristics of tandem bladed co...
Performance of tandem turbine blade and its influence on flow separation and visualizatio
Analytically computed flow parameters were compared to measured values for the midspan double-circul...
An experimental investigation was conducted with an 0.8 hub/tip ratio, single-stage, axial flow comp...
A conventional and a tandem bladed stage were designed for a comparative experimental evaluation in ...
The design and experimental performance of a 20-inch diameter tandem-bladed axial-flow transonic com...
A conventional rotor and stator, two dual-airfoil tandem rotors, and one dual-airfoil tandem stator ...
With the inception of low aspect ratio blades in high pressure ratio axial compressors of modem day ...
Stage C, comprised of tandem-airfoil rotor C and tandem-airfoil stator B, was designed and tested to...
Flow and wake characteristics on turbine tandem blades in two dimensional cascade tunne
Jet engine manufacturers and designers are seeking for lighter and smaller type of axial compressors...
This study, primarily reports the development of a 3D design procedure for axial flow tandem compres...
A conical-flow compressor stage with a large radius change through the rotor was tested at three val...
The mid-span section of a previously reported controlled-diffusion compressor stator has been experi...
An axial flow compressor stage, having single-airfoil blading, was designed for zero rotor prewhirl,...
Analytical investigation of effects of geometric changes on flow characteristics of tandem bladed co...
Performance of tandem turbine blade and its influence on flow separation and visualizatio
Analytically computed flow parameters were compared to measured values for the midspan double-circul...
An experimental investigation was conducted with an 0.8 hub/tip ratio, single-stage, axial flow comp...
A conventional and a tandem bladed stage were designed for a comparative experimental evaluation in ...
The design and experimental performance of a 20-inch diameter tandem-bladed axial-flow transonic com...
A conventional rotor and stator, two dual-airfoil tandem rotors, and one dual-airfoil tandem stator ...
With the inception of low aspect ratio blades in high pressure ratio axial compressors of modem day ...
Stage C, comprised of tandem-airfoil rotor C and tandem-airfoil stator B, was designed and tested to...
Flow and wake characteristics on turbine tandem blades in two dimensional cascade tunne
Jet engine manufacturers and designers are seeking for lighter and smaller type of axial compressors...
This study, primarily reports the development of a 3D design procedure for axial flow tandem compres...
A conical-flow compressor stage with a large radius change through the rotor was tested at three val...
The mid-span section of a previously reported controlled-diffusion compressor stator has been experi...
An axial flow compressor stage, having single-airfoil blading, was designed for zero rotor prewhirl,...