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In the current era of emerging technologies, the desired demand is the outstanding efficiency to be achieved by the virtue of standard design and the selection of constituents. Out of these, a key role is the transmission of heat across the systems, and the enhancement of this transmission is the fundamental requirement to be addressed. An addition of nanoparticles with the selected liquids supported...
This study addresses the novel characteristics of infinite shear rate viscosity and entropy generation in magneto-mixed convective flow of cross-nanomaterial toward a stretched surface. Moreover, analysis of current research work has been prepared for Brownian moment and thermophoresis deposition. Radiation and viscous dissipation aspects are accounted. More specifically, roles of activation energy...
The present communication addresses the magnetoperistalsis of Jeffrey nanomaterial in a vertical asymmetric compliant channel walls. Flow modeling is based upon mixed convection, non-Darcy’s resistance, thermal radiation, Brownian motion and thermophoresis, chemical reaction and activation energy. Nonlinear thermal radiation is taken instead of classical linear radiation consideration. Buongiorno...
This article scrutinizes the influence of chemical reactions on flow of an Oldroyd-B fluid due to stretched cylinder. In vision of non-Fourier heat flux model, the heat transfer phenomenon is scrutinized. This enhanced constitutive model anticipates the time space upper-convected derivative which is recycled to depicting heat conduction mechanism. Additionally, heat transfer scrutiny is considered...
As an emergent expertise, there is a serious necessity for enhancing the low thermal conductivity of conventional liquids is to improve proficient heat transfer liquids in numerous solicitations. By diffusing nanometric materials in a certain base liquid, this obligation can be attained and resulting nanoliquid improved the thermal conductivity of the base liquids. Nanofluids are liquid interruptions...
In view of ecological concern and energy security, execution of refrigeration system should be enriched which can be done by improving the characteristics of working liquids. The nanoliquids have gained interest in industrial and engineering fields due to their outstanding thermophysical features. Researchers used nanoliquids as working liquid and detected substantial variations in thermal performance...
The present article investigates the steady 3D flow of a Carreau liquid influenced by bidirectional stretching surface. In the presence of Cattaneo–Christov double diffusion with temperature-dependent thermal conductivity, the heat and mass transfer mechanisms have been scrutinized. The alteration of nonlinear PDEs to nonlinear ODEs is equipped via apposite conversions and then resolved numerically...
Nanoliquids, the engineered liquids with isolated effectual nanoparticles have disclosed a surprising thermo-physical effects and added functionalities and therefore have supported an extensive sort of essential applications. In particular, nanoliquids have displayed pointedly improved aptitude of heat transfer as equated to traditional functioning liquids. The notable intention of current scrutiny...
The purpose of current communication is to analyze the characteristics of static–moving wedge for unsteady 2D Falkner–Skan flow of cross fluid in the presence of nonlinear thermal radiation. Furthermore, revised Buongiorno’s relation of nanomaterials is implemented for mathematical modeling of Falkner–Skan flow of cross fluid. Nanofluid characteristics for Brownian movement and thermophoresis are...
This paper explores the impact of wall properties on the Walter’s B fluid with fine solid particles in a uniform channel. Traveling sinusoidal wave is imposed on the channel walls which induces peristaltic motion in the fluid. A regular series is employed to obtain analytic solution by taking small wave number. The phenomenon is modeled in the form of stream function for both fluid and solid particles...
This approach is to examine the impact of magnetic field, viscosity, gravity and initial stress on SV wave while traveling through the interface of two visco-thermoelastic liquid layers. The basic equations in context of three theories have been discussed to drive results for refracted thermal and P waves and reflected thermal, SV and P waves. After using the boundary conditions the amplitude ratios...
In this article, we establish a mathematical relation for unsteady 3D flow of a magneto-Carreau liquid over a bidirectional stretched surface. The impact of convective heat transfer for magneto-Carreau liquid is investigated in the presence of non-linear thermal radiation and heat absorption/generation. Additionally, in this analysis, the proposed model of heterogeneous–homogeneous processes with...
This paper investigated the effect of wire electrical discharge machining process parameters like discharge duration, pulse interval time, discharge current and the wire drum speed on the kerf width while machining newly developed hybrid metal matrix composite (Al7075/7.5 % SiC/7.5 % Al2O3). The hybrid composite was prepared by inert gas assisted electromagnetic stir-casting process. Taguchi method...
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