A FORTRAN computer code is presented for off-design performance prediction of axial-flow compressors. Stage and compressor performance is obtained by a stage-stacking method that uses representative velocity diagrams at rotor inlet and outlet meanline radii. The code has options for: (1) direct user input or calculation of nondimensional stage characteristics; (2) adjustment of stage characteristics for off-design speed and blade setting angle; (3) adjustment of rotor deviation angle for off-design conditions; and (4) SI or U.S. customary units. Correlations from experimental data are used to model real flow conditions. Calculations are compared with experimental data
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
AbstractThe development of advanced turbomachinery relies heavily on the use of 3-D CFD methods. Fas...
A method of estimating the undistorted stall line for an axial-flow compressor by using the digital ...
A computer code is presented for the prediction of off-design axial flow compressor performance with...
An off-design axial-flow compressor code is presented and is available from COSMIC for predicting th...
Stage-stacking technique for predicting over-all performance in multistage axial flow turbojet compr...
This paper describes a method to estimate key aerodynamic parameters of single and multi-stage axial...
Multistage turbocompressor simulation applied to performance prediction of axial flow instabilitie
For use in computing the detailed performance parameters of individual blade rows of a multistage co...
The over-all performance of a 16-stage axial-flow compressor was determined with various stator-blad...
A one-dimensional theory regarding the change of state in a multistage axial compressor at design po...
This study focuses on predicting axial compressor stage characteristics using a single performance p...
A computer model of the J-85 gas turbine engine has been used in a investigation for potential ben...
An axial compressor loss and deviation model that was developed and presented during previous resear...
The object of the present paper is to present a fast and reliable CFD tool that is able to simulate ...
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
AbstractThe development of advanced turbomachinery relies heavily on the use of 3-D CFD methods. Fas...
A method of estimating the undistorted stall line for an axial-flow compressor by using the digital ...
A computer code is presented for the prediction of off-design axial flow compressor performance with...
An off-design axial-flow compressor code is presented and is available from COSMIC for predicting th...
Stage-stacking technique for predicting over-all performance in multistage axial flow turbojet compr...
This paper describes a method to estimate key aerodynamic parameters of single and multi-stage axial...
Multistage turbocompressor simulation applied to performance prediction of axial flow instabilitie
For use in computing the detailed performance parameters of individual blade rows of a multistage co...
The over-all performance of a 16-stage axial-flow compressor was determined with various stator-blad...
A one-dimensional theory regarding the change of state in a multistage axial compressor at design po...
This study focuses on predicting axial compressor stage characteristics using a single performance p...
A computer model of the J-85 gas turbine engine has been used in a investigation for potential ben...
An axial compressor loss and deviation model that was developed and presented during previous resear...
The object of the present paper is to present a fast and reliable CFD tool that is able to simulate ...
This report summarizes some NASA Lewis (i.e., government owned) computer codes capable of being used...
AbstractThe development of advanced turbomachinery relies heavily on the use of 3-D CFD methods. Fas...
A method of estimating the undistorted stall line for an axial-flow compressor by using the digital ...