M
M. Kbiri Alaoui
Researcher at King Khalid University
Publications - 27
Citations - 263
M. Kbiri Alaoui is an academic researcher from King Khalid University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 5, co-authored 16 publications receiving 69 citations.
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Analytical Investigation of Fractional-Order Cahn–Hilliard and Gardner Equations Using Two Novel Techniques
TL;DR: In this paper , the authors used the natural decomposition approach with non-singular kernel derivatives to find the solution to nonlinear fractional Gardner and Cahn-Hilliard equations arising in fluid flow.
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A blow-up result for nonlinear generalized heat equation
TL;DR: It is shown that any solution with nontrivial initial datum blows up in finite time and is given as a two-dimension numerical example to illustrate the result.
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Numerical treatment of time dependent magnetohydrodynamic nanofluid flow of mass and heat transport subject to chemical reaction and heat source
Yun-Xiang Li,Satyaranjan Mishra,P. K. Pattnaik,S. Baag,Yong-Min Li,M. Ijaz Khan,Niaz B. Khan,M. Kbiri Alaoui,Sami Ullah Khan +8 more
TL;DR: In this paper, a free convection of electrically conducting nanofluid embedding with resistive forces such that the magnetic field and permeability of the medium is augmented by radiative heat energy and absorption diffusion.
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Control of dusty nanofluid due to the interaction on dust particles in a conducting medium: Numerical investigation
TL;DR: In this article, the thermal aspects of dust nanoparticles in a dusty nano-material for the interaction of transverse magnetic field come across an expanding surface are presented. But, the results of the analysis have a greater impact in bio-medical since i.e. the blood flow within the artery as well as several industrial and engineering applications.
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Scrutinization of MHD stagnation point flow in hybrid nanofluid based on the extended version of Yamada-Ota and Xue models
TL;DR: In this paper , a brief comparative study of magnetohydrodynamics stagnant point flow in hybrid nanofluid based on the extended version of two models, known as the Yamada-Ota model and Xue model, is presented.