M
Mubbashar Nazeer
Researcher at Government College University, Faisalabad
Publications - 94
Citations - 2087
Mubbashar Nazeer is an academic researcher from Government College University, Faisalabad. The author has contributed to research in topics: Heat transfer & Flow (mathematics). The author has an hindex of 17, co-authored 62 publications receiving 694 citations. Previous affiliations of Mubbashar Nazeer include International Islamic University, Islamabad & Riphah International University.
Papers
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Theoretical study of MHD electro-osmotically flow of third-grade fluid in micro channel
Mubbashar Nazeer,Farooq Hussain,M. Ijaz Khan,Asad-ur-Rehman,Essam R. El-Zahar,Yu-Ming Chu,M.Y. Malik +6 more
TL;DR: The article has been retracted at the request of the Editor-in-Chief of Elsevier as mentioned in this paper due to suspicious changes in authorship between the original submission and the revised version of this paper.
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Flow and thermal analysis on Darcy-Forchheimer flow of copper-water nanofluid due to a rotating disk: A static and dynamic approach
TL;DR: In this paper, a thermal conductivity model of nanofluids involving static and dynamic approach is considered, which signifies hydrodynamic interaction among the Brownian motion induced fluid particles.
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Combined impacts of heat source/sink, radiative heat flux, temperature dependent thermal conductivity on forced convective Rabinowitsch fluid
Yu-Ming Chu,Mubbashar Nazeer,M. Ijaz Khan,Farooq Hussain,Huma Rafi,Sumaira Qayyum,Zahra Abdelmalek +6 more
TL;DR: In this paper, the authors have evaluated the numerical solution of the energy equation with the help of numerical scheme and the effects of physical parameters on temperature and velocity profiles are presented in terms of graphs.
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Numerical simulation of MHD flow of micropolar fluid inside a porous inclined cavity with uniform and non-uniform heated bottom wall
TL;DR: In this article, a buoyancy-driven, incompressible, two-dimensional flow of a micropolar fluid inside an inclined porous cavity in the presence of magnetic field is investigated.
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Effects of radiative heat flux and joule heating on electro-osmotically flow of non-Newtonian fluid: Analytical approach
TL;DR: In this article, a theoretical analysis of the electro-osmosis flow of third-grade fluid in the microplate has been performed under the influence of radiative heat flux and variable viscosity.