Heat and mass transfer analysis of MHD peristaltic flow through a complaint porous channel with variable thermal conductivity

H. Vaidya; C. Rajashekhar; G. Manjunatha; K. V. Prasad; O. D. Makinde; K. Vajravelu

doi:10.1088/1402-4896/ab681a

Heat and mass transfer analysis of MHD peristaltic flow through a complaint porous channel with variable thermal conductivity

H. Vaidya, C. Rajashekhar, G. Manjunatha, K. V. Prasad, O. D. Makinde, K. Vajravelu

Research output: Contribution to journal › Article › peer-review

59 Citations (Scopus)

Abstract

The MHD peristaltic motion of Bingham fluid through a uniform channel is examined under the influence of long wavelength and small Reynolds number. The impact of variable thermal conductivity, convective heat transfer, porous boundaries, and wall properties are considered. The semi-analytical technique is utilized to solve the governing nonlinear temperature equation. The effects of different parameters on the physiological quantities of interest are captured with the assistance of MATLAB programming. The assessment reveals that an ascent in a magnetic parameter reduces the velocity field. Further, an increment in the estimation of variable thermal conductivity upgrades the temperature profiles. Besides, the trapped bolus is a function of a porous parameter, and an increase in porous parameter will have the proportional increment in the other parameter.

Original language	English
Article number	045219
Journal	Physica Scripta
Volume	95
Issue number	4
DOIs	https://doi.org/10.1088/1402-4896/ab681a
Publication status	Published - 01-01-2020

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics
Mathematical Physics
Condensed Matter Physics

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10.1088/1402-4896/ab681a

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abstract = "The MHD peristaltic motion of Bingham fluid through a uniform channel is examined under the influence of long wavelength and small Reynolds number. The impact of variable thermal conductivity, convective heat transfer, porous boundaries, and wall properties are considered. The semi-analytical technique is utilized to solve the governing nonlinear temperature equation. The effects of different parameters on the physiological quantities of interest are captured with the assistance of MATLAB programming. The assessment reveals that an ascent in a magnetic parameter reduces the velocity field. Further, an increment in the estimation of variable thermal conductivity upgrades the temperature profiles. Besides, the trapped bolus is a function of a porous parameter, and an increase in porous parameter will have the proportional increment in the other parameter.",

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AU - Vaidya, H.

AU - Rajashekhar, C.

AU - Manjunatha, G.

AU - Prasad, K. V.

AU - Makinde, O. D.

AU - Vajravelu, K.

PY - 2020/1/1

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N2 - The MHD peristaltic motion of Bingham fluid through a uniform channel is examined under the influence of long wavelength and small Reynolds number. The impact of variable thermal conductivity, convective heat transfer, porous boundaries, and wall properties are considered. The semi-analytical technique is utilized to solve the governing nonlinear temperature equation. The effects of different parameters on the physiological quantities of interest are captured with the assistance of MATLAB programming. The assessment reveals that an ascent in a magnetic parameter reduces the velocity field. Further, an increment in the estimation of variable thermal conductivity upgrades the temperature profiles. Besides, the trapped bolus is a function of a porous parameter, and an increase in porous parameter will have the proportional increment in the other parameter.

AB - The MHD peristaltic motion of Bingham fluid through a uniform channel is examined under the influence of long wavelength and small Reynolds number. The impact of variable thermal conductivity, convective heat transfer, porous boundaries, and wall properties are considered. The semi-analytical technique is utilized to solve the governing nonlinear temperature equation. The effects of different parameters on the physiological quantities of interest are captured with the assistance of MATLAB programming. The assessment reveals that an ascent in a magnetic parameter reduces the velocity field. Further, an increment in the estimation of variable thermal conductivity upgrades the temperature profiles. Besides, the trapped bolus is a function of a porous parameter, and an increase in porous parameter will have the proportional increment in the other parameter.

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Heat and mass transfer analysis of MHD peristaltic flow through a complaint porous channel with variable thermal conductivity

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