H
Hussein A. Mohammed
Researcher at Edith Cowan University
Publications - 200
Citations - 8214
Hussein A. Mohammed is an academic researcher from Edith Cowan University. The author has contributed to research in topics: Nanofluid & Heat transfer. The author has an hindex of 47, co-authored 190 publications receiving 6485 citations. Previous affiliations of Hussein A. Mohammed include University College of Engineering & Universiti Teknologi Malaysia.
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Numerical study of convective heat transfer of nanofluids: A review
TL;DR: In this paper, a comprehensive review on different CFD approaches employed in numerical simulation of nanofluid flow, address the pros and cons of each approach, and find the suitable technique which gives more credible results as compared to experimental results.
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A review on preparation methods and challenges of nanofluids
TL;DR: Recent developments in research on the synthesis and characterization of stationary nanofluids are summarized to try finding some challenging issues that need to be solved for future research.
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Review of convection heat transfer and fluid flow in porous media with nanofluid
TL;DR: In this article, the authors summarize the published articles in respect to porosity, permeability (K) and inertia coefficient (Cf) and effective thermal conductivity (keff) for porous media, also on the thermophysical properties of nanofluid and the studies on convection heat transfer in porous media with nanoparticles having dimensions of (1-100) nm.
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Heat transfer enhancement of nanofluids in a double pipe heat exchanger with louvered strip inserts
TL;DR: In this paper, the effect of using louvered strip inserts placed in a circular double pipe heat exchanger on the thermal and flow fields utilizing various types of nanofluids is studied numerically.
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Convective heat transfer and fluid flow study over a step using nanofluids: A review
TL;DR: In this paper, a review of the literature on convective heat transfer on internal separated flows has been extensively conducted in the past decades, and the influence of several parameters such as the geometrical specifications, boundary conditions, type of fluids, and inclination angle on the hydrodynamic and thermal characteristics using (BFS).