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Ali J. Chamkha
Researcher at King Abdulaziz University
Publications - 1064
Citations - 40575
Ali J. Chamkha is an academic researcher from King Abdulaziz University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 88, co-authored 901 publications receiving 27550 citations. Previous affiliations of Ali J. Chamkha include American University of Ras Al Khaimah & Prince Mohammad bin Fahd University.
Papers
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Journal ArticleDOI
Effect of Design Parameters on Fresh Water Produced from Triangular Basin and Conventional Basin Solar Still
A. Rajendra Prasad,Ravishankar Sathyamurthy,M. Sudhakar,B. Madhu,D. Mageshbabu,A. Muthu Manokar,Ali J. Chamkha +6 more
TL;DR: In this article, the experimental testing of a triangular and conventional basin solar still (TBSS and CBSS) was conducted during the month of December 2018, and different natural criteria such as intensity, wind speed, and surrounding ambient temperatures were considered.
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Effects of Newtonian heating and thermal radiation on micropolar ferrofluid flow past a stretching surface: Spectral quasi‐linearization method
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Analytical solutions for hydromagnetic natural convection flow of a particulate suspension through a channel with heat generation or absorption effects
TL;DR: In this article, a continuum model for two-phase flow induced by natural convection is developed and applied to the problem of steady hydromagnetic flow of a particulate suspension through an infinitely long channel in the presence of heat generation or absorption effects.
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Nonsimilar Combined Convection Flow over a Vertical Surface Embedded in a Variable Porosity Medium
Ali J. Chamkha,Khalil Khanafer +1 more
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Hydrothermal and entropy production analyses of magneto-cross nanoliquid under rectified Fourier viewpoint: a robust approach to industrial applications
Sachin Shaw,M. K. Nayak,Abdul Sattar Dogonchi,Ali J. Chamkha,Yasser Elmasry,Yasser Elmasry,Radi Alsulami +6 more
TL;DR: In this paper, boundary-driven magnetized flow of cross nanoliquid over thin needle subject to auto catalysis chemical reactions is explored and the effect of entropy optimization model is incorporated and transportation of heat under non-uniform heat source/sink, Cattaneo-Christov heat flux (rectified Fourier) viewpoint (CCHF), and nonlinear thermal radiation is also taken into account.