Journal ArticleDOI
Effects of Heat Transfer in Flow of Nanofluids Over a Permeable Stretching Wall in a Porous Medium
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This article is published in Journal of Computational and Theoretical Nanoscience.The article was published on 2014-02-01. It has received 242 citations till now. The article focuses on the topics: Nanofluid & Porous medium.read more
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Journal ArticleDOI
Analysis of Heat and Mass Transfer in a Tapered Asymmetric Channel During Peristaltic Transport of (Pseudoplastic Nanofluid) with Variable Viscosity Under the Effect of (MHD)
TL;DR: In this article, a study and an analysis of a heat and mass transfer during peristaltic flow for a pseudoplastic fluid in asymmetric tapered channel, and a variable viscosity dependent of a fluid temperature with exist of slip conditions through porous medium and the influence of this conditions on the velocity and pressure was performed.
Book ChapterDOI
Effect of Marangoni Convection on Nanofluid Treatment
TL;DR: In this article, the effect of Marangoni boundary layers in the presence of Lorentz forces has been reported and Brownian motion and thermophoretic effects have been considered for predicting nanofluid properties.
Journal ArticleDOI
Enhancement of heat mass transmission characteristics through a non-Newtonian nanofluid model due to a convectively heated stretched sheet which exposed to a magnetic field
TL;DR: In this article , the authors investigated the flow of a Maxwell nanofluid that exhibits non-Newtonian behavior over a horizontally stretching sheet, using a boundary layer medium and taking into account the Cattaneo-Christov model.
Book ChapterDOI
Modeling of the Magnetohydrodynamic Flow of the Nanofluid Confined Between Two Parallel Plates
TL;DR: In this paper , an analytical study of unsteady squeezing nanofluid flow and heat transfer between two parallel plates under the effect of a variable magnetic field using the two-phase Buongiorno model is presented.
Book ChapterDOI
Nanofluid Flow Analysis by Means of Semi Analytical Methods
TL;DR: In this article, the authors presented several applications of nanofluids for heat transfer and showed that they can be used as effective passive cooling techniques for high-energy devices, such as water, ethylene glycol, and engine oil.