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Thermo-Bioconvection in Nanoliquid Suspension Saturated with Thermotactic Microorganisms

This study primarily focuses on the analytical investigation of thermal-bioconvection in the nanoliquid layer confined between two horizontal parallel walls. Bioconvection is considered to be driven by thermotactic microorganisms. Flow governing equations are modeled using Buongiorno’s model and mic...

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Published in:	Forces in mechanics 2022-12, Vol.9, p.100128, Article 100128
Main Authors:	Bisht, Ankita, Maheshwari, Sanjalee
Format:	Article
Language:	English
Subjects:	Bioconvection Linear stability analysis Nanoliquid Normal mode analysis Thermotactic microorganisms
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description	This study primarily focuses on the analytical investigation of thermal-bioconvection in the nanoliquid layer confined between two horizontal parallel walls. Bioconvection is considered to be driven by thermotactic microorganisms. Flow governing equations are modeled using Buongiorno’s model and microorganism concentration equations are modeled using Pedley’s model. The Eigenvalue problem, obtained by Normal mode analysis, is solved by the weighted residual Galerkin method using trigonometric trial functions. It is observed that the presence of nanoparticles and fast swimmers has destabilized the system since the convection is occurring from top to bottom. Moreover, the system is becoming more stable with the decrease in the diffusivity of the cells.
doi_str_mv	10.1016/j.finmec.2022.100128
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subjects	Bioconvection Linear stability analysis Nanoliquid Normal mode analysis Thermotactic microorganisms
title	Thermo-Bioconvection in Nanoliquid Suspension Saturated with Thermotactic Microorganisms
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