Add to ORKGBlading models added to TURBAN, an axial turbine meanline design code, and CSPAN, an axial compressor spanline design code, are presented. Calculations of blade chord length, blade axial length, and number of blades for each blade row are now provided by each code. In order to accomplish this, computational models for axial solidity and stagger angle were added to TURBAN. For a compressor, where solidity and chord were already available from input, the modeling additions to CSPAN were for stagger angle and for the blade angles to include incidence and deviation. All added computations utilized models already available in the literature
Computer program calculates the velocity distribution and streamlines over widely separated blades o...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
This mean diameter flow analysis uses a stage average velocity diagram as the basis for the computat...
Several modifications have been made to the axial-flow turbine preliminary sizing code TURBAN. Turbi...
Modifications made to the axial-flow compressor conceptual design code CSPAN are documented in this ...
The increasing demand to obtain more accurate turbomachinery blading performance in the design and a...
In this computer-aided study, existing methods of determining the fluid flow in axial flow turbomach...
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
A FORTRAN IV program which calculates leading- and trailing-edge circle radii, tangency angles on th...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1993.In...
Computer program calculates the velocity distribution and streamlines over widely separated blades o...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
This mean diameter flow analysis uses a stage average velocity diagram as the basis for the computat...
Several modifications have been made to the axial-flow turbine preliminary sizing code TURBAN. Turbi...
Modifications made to the axial-flow compressor conceptual design code CSPAN are documented in this ...
The increasing demand to obtain more accurate turbomachinery blading performance in the design and a...
In this computer-aided study, existing methods of determining the fluid flow in axial flow turbomach...
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
A FORTRAN IV program which calculates leading- and trailing-edge circle radii, tangency angles on th...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1993.In...
Computer program calculates the velocity distribution and streamlines over widely separated blades o...
Present day military aero-gas turbines demand higher stage loadings for turbines so as to meet the ...
This mean diameter flow analysis uses a stage average velocity diagram as the basis for the computat...