Unsteady Numerical and Experimental Study of Cavitation in Axial Pump

Faculty	Engineering	Year:	2014
Type of Publication:	ZU Hosted	Pages:	55-68
Authors:	Mohamed Adel Mohamed Mohamed Elhady Staff Zu Site Abstract In Staff Site
Journal:	International Journal of Manufacturing, Materials, and Mechanical Engineering International Journal of Manufacturing, Materials, and Mechanical Engineering	Volume:	1

Keywords :	Unsteady Numerical , Experimental Study , Cavitation , Axial
Abstract:	This paper presents an experimental and three-dimensional numerical study of unsteady, turbulent, void growth and cavitation simulation inside the passage of the axial flow pump. In this study a 3D Navier-Stokes code was used (CFDRC, 2008)

Author Related Publications

Mohamed Adel Mohamed Mohamed Elhady, "Effect of Blade Angle on Cavitation Phenomenon in Axial Pump", Zagazig University, 2013 More
Mohamed Adel Mohamed Mohamed Elhady, "A comparative study of impeller aerators configurations", Elsevier, 2019 More

Mohammed Anwar Mohamed Ali Ismaeil, "Synthesis of TiO2 nanoparticles containing Fe, Si, and V using multiple diffusion flames and catalytic oxidation capability of carbon-coated nanoparticles", , Journal of Nanoparticle Research, 2016 More
Mohammed Ali Abdelaziz Essa, "Experiments performed with bubbly flow in vertical pipes at different flow conditions covering the transition region: simulation by coupling Eulerian, Lagrangian and 3D random walks models", DE GRUYTER, 2012 More
Ahmed Hamdy Hassanien Osman, "Investigation of Gas Pressure Variation at the Inlet of a Converging-Diverging Nozzle", International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2019 More
Mohammed Anwar Mohamed Ali Ismaeil, "Combustion and mass loss behavior and characteristics of a single biomass pellet positioning at different orientations in a fixed bed reactor", Springer Link, 2023 More
Ramy Hamdy Mohamed Abdelhady, "Performance enhancement of adsorption beds with silica-gel particles packed in aluminum foams", Elsevier, 2019 More