3D Geometry Modeling for the Entire Flow Passage of Francis Turbine with Long and Short Blades Based on Pro/E

Xiao Xu Zhang; Si Qing Zhang; Li Xiang Zhang

doi:10.4028/www.scientific.net/AMR.354-355.599

Paper Titles

Deposition Process of Droplets Impacting on a Horizontal Surface
p.579

Modeling and Stability Analysis of the Speed Regulating System of a Planetary Mixer
p.585

Numerical Simulation of Gasoline Blending in a Cylindrical Tank Agitated by Side-Entering Agitators
p.589

Lattice BGK Study on Flow Pattern in Two-Dimensional Wall-Driven Semi-Circular Cavity
p.594

3D Geometry Modeling for the Entire Flow Passage of Francis Turbine with Long and Short Blades Based on Pro/E
p.599

CFD Study of the Mixing of Pseudoplastic Fluids with Yield Stress in a Two-Staged Stirred Tank
p.604

Time Evolutions of Water Drops Impacting on a Rotating Disk
p.609

Analysis on Effects of the Blade Wrap Angle and Outlet Angle on the Performance of the Low-Specific Speed Centrifugal Pump
p.615

A Study on the Mechanism of Bottom Hole Hydraulic Pulse Increasing Drilling Rate
p.621

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 354-3553D Geometry Modeling for the Entire Flow Passage...

3D Geometry Modeling for the Entire Flow Passage of Francis Turbine with Long and Short Blades Based on Pro/E

Abstract:

Based on the good function for 3D modeling of Pro/E software, 3D geometry modeling for the entire flow passage of HLA351 which is the Francis turbine with long and short blades was realized by means of a series of methods of drawing from inside to outside, drawing from top to bottom, drawing lines from points, drawing surfaces from lines, and finally getting body from surfaces, so as to provide a reliable foundation for the future CFD calculation and performance prediction.