2019
DOI: 10.2478/ijame-2019-0026
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Effect of Viscous Dissipation and Thermoporesis on the Flow Over an Exponentially Stretching Sheet

Abstract: This article analyses the influence of viscous dissipation and thermoporesis effects on the viscous fluid flow over a porous sheet stretching exponentially by applying convective boundary condition. The numerical solutions to the governing equations are evaluated using a local similarity and non-similarity approach along with a successive linearisation procedure and Chebyshev collocation method. The influence of the pertinent parameters on the physical quantities are displayed through graphs.

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Cited by 12 publications
(5 citation statements)
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“…Viscous dissipation occurs significantly in polymer processing, aerodynamic heating, geological phenomena, denser space gases, and so forth. Several researchers incorporated viscous dissipation effects in flow problems influenced by stretching or shrinking surfaces, like, Alinejad and Samarbakhsh, 39 Mahantesh et al, 40 Malik et al, 41 Nayak, 42 Srinivasacharya and Jagdeeshwaar, 43 and Swain et al 44 …”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Viscous dissipation occurs significantly in polymer processing, aerodynamic heating, geological phenomena, denser space gases, and so forth. Several researchers incorporated viscous dissipation effects in flow problems influenced by stretching or shrinking surfaces, like, Alinejad and Samarbakhsh, 39 Mahantesh et al, 40 Malik et al, 41 Nayak, 42 Srinivasacharya and Jagdeeshwaar, 43 and Swain et al 44 …”
Section: Introductionmentioning
confidence: 99%
“…Viscous dissipation occurs significantly in polymer processing, aerodynamic heating, geological phenomena, denser space gases, and so forth. Several researchers incorporated viscous dissipation effects in flow problems influenced by stretching or shrinking surfaces, like, Alinejad and Samarbakhsh, 39 Mahantesh et al, 40 Malik et al, 41 Nayak, 42 Srinivasacharya and Jagdeeshwaar, 43 and Swain et al 44 The processes that involve melting heat transport in the flow of anomalous fluids have a considerable number of applications, particularly in thermal engineering, such as melting of permafrost, purification of metals, geothermal energy recovery, semiconductor material preparation, welding, and so forth. Epstein and Cho 45 studied melting heat transport in laminar steady flow past a straight plate.…”
Section: Introductionmentioning
confidence: 99%
“…Paul et al 27 analyzed the thermal transport of MHD hybrid nanofluid flow over stretching surface considering heat source. Also, over the exponentially stretching sheet, by addressing other effects, including the factors mentioned above, such as thermophoresis, porous effect, radiation and heat source effect, viscous dissipation effect, and the chemical reaction effect, many explorers like Khalili et al, 28 Hayat et al, 29 Nayak et al, 30 Srinivasacharya et al, 31 Jabeen et al, 32 Reddy et al, 33 and Suresh et al 34 handed forward their significant contribution.…”
Section: Introductionmentioning
confidence: 99%
“…However, authors [11][12][13] investigated the exponential sheet under the influence of radiation and heat source. As we know that the transformation of kinetic energy to thermal energy happens because of the viscosity in the motion of fluid particles is called viscous dissolution which was thought about at first by Brinkman 14 and further Ou and Cheng 15 and Srinivasacharya and Jagdeeshwar 16 have additionally researched about the impact of viscous dissolution on the exponential extending sheet. However, Khan et al 17 presented a new class of operative Prandtl model by considering ferromagnetic nanofluid past an expanding surface.…”
Section: Introductionmentioning
confidence: 99%