Add to ORKGModifications made to the axial-flow compressor conceptual design code CSPAN are documented in this report. Endwall blockage and stall margin predictions were added. The loss-coefficient model was upgraded. Default correlations for rotor and stator solidity and aspect-ratio inputs and for stator-exit tangential velocity inputs were included in the code along with defaults for aerodynamic design limits. A complete description of input and output along with sample cases are included
The tip clearance size has historically been considered to be the main factor affecting stability ra...
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
A FORTRAN computer code is presented for off-design performance prediction of axial-flow compressors...
Blading models added to TURBAN, an axial turbine meanline design code, and CSPAN, an axial compresso...
Computer program for calculating off-design aerodynamic performance of axial flow compresso
Performance data are presented for a transonic axial-flow compressor rotor designed to operate at a ...
This paper describes a method to estimate key aerodynamic parameters of single and multi-stage axial...
An existing axial compressor streamline analysis computer program to allow input of measured radial ...
An optimum, axial flow, high pressure ratio compressor for a turbofan engine was defined for commerc...
An off-design axial-flow compressor code is presented and is available from COSMIC for predicting th...
This review indicates the possible future directions for research on endwall flows in axial flow com...
The highlights of the NASA program on transonic compressors are presented. Effects of blade shape an...
Several modifications have been made to the axial-flow turbine preliminary sizing code TURBAN. Turbi...
This presents the aerodynamic design parameters along with the overall and blade element performance...
Outlet annulus area blockage configuration effects on performance of axial flow compressor roto
The tip clearance size has historically been considered to be the main factor affecting stability ra...
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
A FORTRAN computer code is presented for off-design performance prediction of axial-flow compressors...
Blading models added to TURBAN, an axial turbine meanline design code, and CSPAN, an axial compresso...
Computer program for calculating off-design aerodynamic performance of axial flow compresso
Performance data are presented for a transonic axial-flow compressor rotor designed to operate at a ...
This paper describes a method to estimate key aerodynamic parameters of single and multi-stage axial...
An existing axial compressor streamline analysis computer program to allow input of measured radial ...
An optimum, axial flow, high pressure ratio compressor for a turbofan engine was defined for commerc...
An off-design axial-flow compressor code is presented and is available from COSMIC for predicting th...
This review indicates the possible future directions for research on endwall flows in axial flow com...
The highlights of the NASA program on transonic compressors are presented. Effects of blade shape an...
Several modifications have been made to the axial-flow turbine preliminary sizing code TURBAN. Turbi...
This presents the aerodynamic design parameters along with the overall and blade element performance...
Outlet annulus area blockage configuration effects on performance of axial flow compressor roto
The tip clearance size has historically been considered to be the main factor affecting stability ra...
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
A FORTRAN computer code is presented for off-design performance prediction of axial-flow compressors...