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A Second Order Exact Scaling Method for Turbomachinery Performance Prediction
Pelz, Peter Fanz,Stonjek, Stefan Sebastian Korean Society for Fluid machinery 2013 International journal of fluid machinery and syste Vol.6 No.4
A scaling method valid for most turbomachines based on first principles is derived. It accounts for axial and centrifugal turbomachines with respect to relative gap width/tip clearance, relative roughness, Reynolds number and/or Mach number for design and off-design operation as well. The scaling method has been successfully validated by a variety of experimental data obtained at TU Darmstadt. The physically based, hence reliable and universal method is compared with previous, empirical scaling methods.
A Second Order Exact Scaling Method for Turbomachinery Performance Prediction
Peter Franz Pelz,Stefan Sebastian Stonjek 한국유체기계학회 2013 International journal of fluid machinery and syste Vol.6 No.4
A scaling method valid for most turbomachines based on first principles is derived. It accounts for axial and centri-fugal turbomachines with respect to relative gap width / tip clearance, relative roughness, Reynolds number and/or Mach number for design and off-design operation as well. The scaling method has been successfully validated by a va-riety of experimental data obtained at TU Darmstadt. The physically based, hence reliable and universal method is compared with previous, empirical scaling methods.