Slip flow of MHD Casson fluid in an inclined channel with variable transport properties

K. V. Prasad; Hanumesh Vaidya; C. Rajashekhar; Sami Ullah Khan; G. Manjunatha; J. U. Viharika

doi:10.1088/1572-9494/aba246

Slip flow of MHD Casson fluid in an inclined channel with variable transport properties

K. V. Prasad, Hanumesh Vaidya, C. Rajashekhar, Sami Ullah Khan, G. Manjunatha, J. U. Viharika

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

23 Citations (Scopus)

Abstract

Due to the instructive role of the peristaltic phenomenon in the human body, interests have been developed in recent years towards peristaltic transport with various thermo-physical features. The current investigation reveals the effects of the magnetic field and variable transport properties on the peristaltic transport of a Casson fluid slip flow through an inclined channel. Nonlinear coupled partial differential equations regulate the fluid flow. Through the perturbation method, the momentum and energy equations are solved for small values of variable viscosity and thermal conductivity, and the closed-form solution is obtained for mass transfer. The impact on physiological quantities of related parameters of interest is evaluated and discussed via graphs. The results obtained for the current flow represent some interesting behaviors which have applications in the biomedical field.

Original language	English
Article number	095004
Journal	Communications in Theoretical Physics
Volume	72
Issue number	9
DOIs	https://doi.org/10.1088/1572-9494/aba246
Publication status	Published - 01-09-2020

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1088/1572-9494/aba246

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abstract = "Due to the instructive role of the peristaltic phenomenon in the human body, interests have been developed in recent years towards peristaltic transport with various thermo-physical features. The current investigation reveals the effects of the magnetic field and variable transport properties on the peristaltic transport of a Casson fluid slip flow through an inclined channel. Nonlinear coupled partial differential equations regulate the fluid flow. Through the perturbation method, the momentum and energy equations are solved for small values of variable viscosity and thermal conductivity, and the closed-form solution is obtained for mass transfer. The impact on physiological quantities of related parameters of interest is evaluated and discussed via graphs. The results obtained for the current flow represent some interesting behaviors which have applications in the biomedical field. ",

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AU - Prasad, K. V.

AU - Vaidya, Hanumesh

AU - Rajashekhar, C.

AU - Khan, Sami Ullah

AU - Manjunatha, G.

AU - Viharika, J. U.

PY - 2020/9/1

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AB - Due to the instructive role of the peristaltic phenomenon in the human body, interests have been developed in recent years towards peristaltic transport with various thermo-physical features. The current investigation reveals the effects of the magnetic field and variable transport properties on the peristaltic transport of a Casson fluid slip flow through an inclined channel. Nonlinear coupled partial differential equations regulate the fluid flow. Through the perturbation method, the momentum and energy equations are solved for small values of variable viscosity and thermal conductivity, and the closed-form solution is obtained for mass transfer. The impact on physiological quantities of related parameters of interest is evaluated and discussed via graphs. The results obtained for the current flow represent some interesting behaviors which have applications in the biomedical field.

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Slip flow of MHD Casson fluid in an inclined channel with variable transport properties

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