Cilia and electroosmosis induced double diffusive transport of hybrid nanofluids through microchannel and entropy analysis

A mathematical model is presented to analyze the double diffusive transport of hybrid nanofluids in microchannel. The hybrid nanofluids flow is driven by the cilia beating and electroosmosis in the presence of radiation effects and activation energy. Cu–CuO/blood hybrid nanofluids are considered for...

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Published in	Nonlinear engineering Vol. 12; no. 1; pp. 366 - 76
Main Authors	Munawar, Sufian, Saleem, Najma, Tripathi, Dharmendra
Format	Journal Article
Language	English
Published	Berlin De Gruyter 12.04.2023 Walter de Gruyter GmbH
Subjects	Activation energy Approximation Broken symmetry Dimensional analysis electric double layer Electroosmosis Entropy Exact solutions Heat transfer hybrid nanofluid magnetic field Mass transfer metachronal waves Microchannels Nanofluids Radiation effects Stream functions (fluids) symmetry breaking walls thermal analysis
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Abstract	A mathematical model is presented to analyze the double diffusive transport of hybrid nanofluids in microchannel. The hybrid nanofluids flow is driven by the cilia beating and electroosmosis in the presence of radiation effects and activation energy. Cu–CuO/blood hybrid nanofluids are considered for this analysis. Phase difference in the beatings of mimetic cilia arrays emerge symmetry breaking pump walls to control the fluid stream. Analytical solutions for the governing equations are derived under the assumptions of Debye–Hückel linearization, lubrication, and Rosseland approximation. Dimensional analysis has also been considered for applying the suitable approximations. Entropy analysis is also performed to examine the heat transfer irreversibility and Bejan number. Moreover, trapping phenomena are discussed based on the contour plots of the stream function. From the results, it is noted that an escalation in fluid velocity occurs with the rise in slippage effects near the wall surface. Entropy inside the pump can be eased with the provision of activation energy input or by the consideration of the radiated fluid in the presence of electroosmosis. The results of the present study can be applicable to develop the emerging thermofluidic systems which can further be utilized for the heat and mass transfer at micro level.
AbstractList	A mathematical model is presented to analyze the double diffusive transport of hybrid nanofluids in microchannel. The hybrid nanofluids flow is driven by the cilia beating and electroosmosis in the presence of radiation effects and activation energy. Cu–CuO/blood hybrid nanofluids are considered for this analysis. Phase difference in the beatings of mimetic cilia arrays emerge symmetry breaking pump walls to control the fluid stream. Analytical solutions for the governing equations are derived under the assumptions of Debye–Hückel linearization, lubrication, and Rosseland approximation. Dimensional analysis has also been considered for applying the suitable approximations. Entropy analysis is also performed to examine the heat transfer irreversibility and Bejan number. Moreover, trapping phenomena are discussed based on the contour plots of the stream function. From the results, it is noted that an escalation in fluid velocity occurs with the rise in slippage effects near the wall surface. Entropy inside the pump can be eased with the provision of activation energy input or by the consideration of the radiated fluid in the presence of electroosmosis. The results of the present study can be applicable to develop the emerging thermofluidic systems which can further be utilized for the heat and mass transfer at micro level.
Author	Munawar, Sufian Saleem, Najma Tripathi, Dharmendra
Author_xml	– sequence: 1 givenname: Sufian surname: Munawar fullname: Munawar, Sufian email: sufian.munawar@hotmail.com organization: Department of Applied Sciences, National Textile University, Faisalabad 37610, Pakistan – sequence: 2 givenname: Najma surname: Saleem fullname: Saleem, Najma email: nsaleem@pmu.edu.sa organization: Department of Mathematics and Natural Sciences, College of Sciences and Human Studies, Prince Mohammad Bin Fahd University, Khobar, 31952, Saudi Arabia – sequence: 3 givenname: Dharmendra surname: Tripathi fullname: Tripathi, Dharmendra organization: Department of Mathematics, National Institute of Technology, Uttarakhand, Srinagar-246174, India
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Snippet	A mathematical model is presented to analyze the double diffusive transport of hybrid nanofluids in microchannel. The hybrid nanofluids flow is driven by the...
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StartPage	366
SubjectTerms	Activation energy Approximation Broken symmetry Dimensional analysis electric double layer Electroosmosis Entropy Exact solutions Heat transfer hybrid nanofluid magnetic field Mass transfer metachronal waves Microchannels Nanofluids Radiation effects Stream functions (fluids) symmetry breaking walls thermal analysis
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Title	Cilia and electroosmosis induced double diffusive transport of hybrid nanofluids through microchannel and entropy analysis
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