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Effect of material parameter on mixed convective fully developed micropolar fluid flow in a vertical channel

Kalyan, Shreedevi / Sharan, Ashwini / S, Jyothi

In this study, the effect of material parameter on the mixed convective fully developed micropolar fluid flow in a vertical channel has been analyzed. By considering appropriate boundary and interface conditions, the coupled nonlinear equations are solved analytically. The analytical results are plotted for various important parameters. It is found that an increase in the material parameter enhances the microrotation velocity and decreases the fluid velocity, and the results are shown graphically.

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Effect of material parameter on mixed convective fully developed micropolar fluid flow in a vertical channel

Kalyan, Shreedevi / Sharan, Ashwini / S, Jyothi

In this study, the effect of material parameter on the mixed convective fully developed micropolar fluid flow in a vertical channel has been analyzed. By considering appropriate boundary and interface conditions, the coupled nonlinear equations are solved analytically. The analytical results are plotted for various important parameters. It is found that an increase in the material parameter enhances the microrotation velocity and decreases the fluid velocity, and the results are shown graphically.

Effect of material parameter on mixed convective fully developed micropolar fluid flow in a vertical channel

Kalyan, Shreedevi / Sharan, Ashwini / S, Jyothi

In this study, the effect of material parameter on the mixed convective fully developed micropolar fluid flow in a vertical channel has been analyzed. By considering appropriate boundary and interface conditions, the coupled nonlinear equations are solved analytically. The analytical results are plotted for various important parameters. It is found that an increase in the material parameter enhances the microrotation velocity and decreases the fluid velocity, and the results are shown graphically.

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Titel:

Effect of material parameter on mixed convective fully developed micropolar fluid flow in a vertical channel

Beteiligte:

Kalyan, Shreedevi (Autor:in) / Sharan, Ashwini (Autor:in) / S, Jyothi (Autor:in)

Erschienen in:

Heat Transfer ; 50 ; 5853-5864

Erscheinungsdatum:

01.09.2021

Format / Umfang:

12 pages

ISSN:

2688-4542 , 2688-4534

DOI:

https://doi.org/10.1002/htj.22152

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

chemical reaction parameter , two‐phase flow , material parameter , thermal conductivity , microrotation

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