Viscous Dissipation Effects in A Microchannel Caused by Oscillation of One Surface

Viscous Dissipation Effects in A Microchannel Caused by Oscillation of One Surface

The viscous dissipation effects in a microchannels caused by an oscillatory lower surface is investigated numerically. An asymmetric thermal boundary condition, particularly at upper plate insulated and lower plate with constant surface temperature is solved a...

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Bibliographic Details
Main Authors: Chee Hao Hor, Chih Ping Tso, Gooi Mee Chen
Format: Article
Language:English
Published: MMU Press 2019-06-01
Series:Journal of Engineering Technology and Applied Physics
Subjects:
viscous dissipation
microchannel
oscillating fluid flow
brinkman number
prandtl number
Online Access:https://journals.mmupress.com/index.php/jetap/article/view/14/307
Description
Summary:The viscous dissipation effects in a microchannels caused by an oscillatory lower surface is investigated numerically. An asymmetric thermal boundary condition, particularly at upper plate insulated and lower plate with constant surface temperature is solved and analyzed in details graphically. Results reveal that effect of temperature field is strongly dependent on Brinkman number, while the thermal diffusion rate on the heat induced relies on the Prandtl number. The angular frequency has influence on the temperature field gradient.
ISSN:2682-8383

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