Slip factor: (a) turbine inlet, (b) pump inlet, (c) comparison
Download scientific diagram | Slip factor: (a) turbine inlet, (b) pump inlet, (c) comparison with Busemann's data for centrifugal pumps from publication: Optimum incidence angle in centrifugal pumps and radial inflow turbines | A theoretical method is presented for establishing the optimum incidence angle in outward- and inward-flow runners. Relative through-flow and eddy vortex are considered separately in order to examine their influence on the vane inlet conditions. The action of the | Turbine, Centrifuges and Vortex | ResearchGate, the professional network for scientists.
Numerical study on the hydrodynamic performance and internal flow
Experimental and numerical investigation of slip factor reduction
Raising the Speed Limit of Axial Piston Pumps by Optimizing the
Centrifugal Pumps: Types, Applications, Benefits, and Maintenance
Frontiers Influence of Different Offset Angles of Inlet Guide
Guido ARDIZZON, University of Padova, Padova, UNIPD
Slip factor: (a) turbine inlet, (b) pump inlet, (c) comparison
What is a Positive Displacement Flow Meter and How do they Work?
Investigation of Slip Models for High-Speed Centrifugal
Water, Free Full-Text
How to Read a Pump Curve: Complete Guide
Effect of Rotation Speed and Flow Rate on Slip Factor in a
Performance Evaluation of a Virtual Impactor with an Additional
What Is Cavitation (Pump Cavitation)?, Documentation
What Is Cavitation (Pump Cavitation)?, Documentation