Melting heat and mass transfer in stagnation point micropolar fluid flow of temperature dependent fluid viscosity and thermal conductivity at constant vortex viscosity - Egyptian Knowledge Bank

381060

Melting heat and mass transfer in stagnation point micropolar fluid flow of temperature dependent fluid viscosity and thermal conductivity at constant vortex viscosity

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Last updated: 05 Jan 2025

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Abstract

Steady mixed convection micropolar fluid flow towards stagnation point formed on horizontal linearly
stretchable melting surface is studied. The vortex viscosity of micropolar fluid along a melting surface
is proposed as a constant function of temperature while dynamic viscosity and thermal conductivity are
temperature dependent due to the influence of internal heat source on the fluid. Similarity transformations were used to convert the governing equation into non-linear ODE and solved numerically. A parametric study is conducted. An analysis of the results obtained shows that the flow-field is influenced
appreciably by heat source, melting, velocity ratio, variable viscosity and thermal conductivity.

DOI

10.1016/j.joems.2016.06.007

Volume

Article Issue

Related Issue

50395

Issue Date

2017-03-01

Receive Date

2024-09-22

Publish Date

2017-03-01

Page Start

Page End

Print ISSN

1110-256X

Online ISSN

2090-9128

Article File

JOEMS_Volume 25_Issue 1_Pages 79-85.pdf

PDF . 836.1kB

Link

https://joems.journals.ekb.eg/article_381060.html

Detail API

https://joems.journals.ekb.eg/service?article_code=381060

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381,060

Publication Type

Journal

Publication Title

Journal of the Egyptian Mathematical Society

Publication Link

https://joems.journals.ekb.eg/

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