Analysis of Micropolar Immiscible Fluid Flow on Electrically Conducting Free Convective Flow in a Vertical Channel in the Presence of Chemical Reaction
This manuscript investigates the complex interplay of electrical conductivity, free convective flow, micropolar effects, and chemical reactions in immiscible fluid flow within a vertical channel. A comprehensive mathematical model is formulated, incorporating conservation equations for mass, momentum, angular momentum, energy, and species concentration. The numerical solution is obtained for solving the complex set of coupled partial differential equations, analytical approach such as the differential transform method (DTM) will be employed to analyze the behavior of immiscible fluids under these combined phenomena. The study provides valuable insights into multiphase fluid dynamics and offers practical implications in various engineering and environmental applications.
Kalyan, S., & Soliman, H. A. A. (2024). Analysis of Micropolar Immiscible Fluid Flow on Electrically Conducting Free Convective Flow in a Vertical Channel in the Presence of Chemical Reaction. International Journal of Advanced Engineering and Business Sciences, 5(1), 63-90. doi: 10.21608/ijaebs.2024.273140.1093
MLA
Shreedevi Kalyan; Hussein Abd Allah Soliman. "Analysis of Micropolar Immiscible Fluid Flow on Electrically Conducting Free Convective Flow in a Vertical Channel in the Presence of Chemical Reaction", International Journal of Advanced Engineering and Business Sciences, 5, 1, 2024, 63-90. doi: 10.21608/ijaebs.2024.273140.1093
HARVARD
Kalyan, S., Soliman, H. A. A. (2024). 'Analysis of Micropolar Immiscible Fluid Flow on Electrically Conducting Free Convective Flow in a Vertical Channel in the Presence of Chemical Reaction', International Journal of Advanced Engineering and Business Sciences, 5(1), pp. 63-90. doi: 10.21608/ijaebs.2024.273140.1093
VANCOUVER
Kalyan, S., Soliman, H. A. A. Analysis of Micropolar Immiscible Fluid Flow on Electrically Conducting Free Convective Flow in a Vertical Channel in the Presence of Chemical Reaction. International Journal of Advanced Engineering and Business Sciences, 2024; 5(1): 63-90. doi: 10.21608/ijaebs.2024.273140.1093
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