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Non-linear radiative squeezed flow in a rotating frame

Ahmed, Naveed ; Khan, Umar ; Mohyud-Din, Syed Tauseef ; [et al.]

Emerald ; 2017

In: Engineering Computations Vol. 34, No. 8 ( 2017-11-06), p. 2450-2462

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In: Engineering Computations, Emerald, Vol. 34, No. 8 ( 2017-11-06), p. 2450-2462

Abstract: In this current study, the authors aim to analyze non-linear radiative squeezed flow in a rotating frame of viscous fluid. Design/methodology/approach The Radioactive nature of the fluid is taken into consideration. The reduced form of equations governing the flow are developed by the implementation of similarity transformations. The coupled system thus obtained is solved by using the homotopy analysis method (HAM). Findings Augmentation in velocity and temperature profiles is discussed graphically by varying various involved parameters. The total error of the system is discussed in Table I. The cases of linear radiation and non-linear radiation are also discussed in Tables II and III. Originality/value The study presented in this paper is original and it has not been submitted to any other journal for publication purpose. The contents are original and proper references have been provided wherever applicable.

Type of Medium: Online Resource

ISSN: 0264-4401

URL: Article

DOI: 10.1108/EC-04-2017-0158

Language: English

Publisher: Emerald

Publication Date: 2017

detail.hit.zdb_id: 2009342-1

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A numerical study of thermo-diffusion, diffusion-thermo and chemical reaction effects on flow of a micropolar fluid in an asymmetric channel with dilating and contracting permeable walls

Mohyud-din, Syed Tauseef ; Ahmed, Naveed ; Khan, Umar ; [et al.]

Emerald ; 2017

In: Engineering Computations Vol. 34, No. 2 ( 2017-04-18), p. 587-602

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In: Engineering Computations, Emerald, Vol. 34, No. 2 ( 2017-04-18), p. 587-602

Abstract: The purpose of this study is to analyze thermo-diffusion and diffusion-thermo effects, combined with first-order chemical reaction, in the flow of a micropolar fluid through an asymmetric channel with porous boundaries. Suction/injection velocities of upper and lower walls are taken to be different from each other. The channel exhibits a parting or embracing motion and the fluid enters, or leaves, the channel because of suction/injection through the permeable walls. Design/methodology/approach The solution of the problem is obtained by using the fourth-order Runge-Kutta method combined with the shooting technique. Findings The asymmetric nature of the channel that is caused by the different permeabilities of the walls deeply influences the flow. The temperature of the fluid rises significantly by increasing the absolute value of A for both Case I and Case II. While, for the concentration profile, the concentration drops near the lower vicinity of the center in Case I, and, it falls near the lower wall of the channel in Case II. Stronger Dufour effects increase the temperature of the fluid except for Case 1 at the center of the channel and for Case II in lower quarter of the channel. Originality/value It is confirmed that the presented work is original and is not under consideration by any other journal.

Type of Medium: Online Resource

ISSN: 0264-4401

URL: Article

DOI: 10.1108/EC-03-2016-0097

Language: English

Publisher: Emerald

Publication Date: 2017

detail.hit.zdb_id: 2009342-1

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