Asian Research Thesis Index

Abstract

Analytic solutions and behavior of squeezing ﬂow of Newtonian ﬂuid under the inﬂuence of magnetic ﬁeld in porous medium channel squeezed between two inﬁnite parallel plates are studied. Slip and no-slip effects at the boundariesaretakenintoaccount. VariousanalytictechniqueslikeOptimalHomotopy Asymptotic Method (OHAM), Daftardar Jaffari Method (DJM), Homotopy Perturbation Method (HPM) and Homotopy Analysis Method (HAM) are used to derive velocity proﬁle of ﬂuid ﬂow. Using the idea of residual and absolute residual, efﬁciency of each scheme is established. Comparative studyoftheseschemesshowsthatHAMisconsistentthroughoutthedomain under consideration. The effect of various parameters on ﬂuid ﬂow, like Reynolds and Hartmann numbers, imposed magnetic effect inside the ﬂuid, electrical conductivity, slip parameter, distance between the plates and velocity of the plates, is also studied in this thesis. It is observed that by decreasing Hartmann and Reynolds numbers together, the velocity of ﬂuid decreases for ﬁxed value of slip parameter γ. By increasing Reynold and Hartmann numbers and decreasing the slip paramenter γ, velocity of ﬂuid decreases. In the absence of slip parameter, velocity of ﬂuid decreases with the increase of m, R and the distance between plates L. The inﬂuence of imposed magnetic ﬁeld Bo and electric conductivityσ are inversely proportional to velocity of ﬂuid.

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