Effects of both variable electrical conductivity and microstructural/multiple slips on MHD flow of micropolar nanofluid | ||
Egyptian Journal of Chemistry | ||
Volume 66, Issue 4, April 2023, Pages 449-456 PDF (533.93 K) | ||
Document Type: Original Article | ||
DOI: 10.21608/ejchem.2023.184388.7407 | ||
Authors | ||
M. Ouaf1; Mohamed Abouzeid* 2; Mohamed G. Ibrahim3 | ||
1a Department of Mathematics, Faculty of Education, Ain Shams University, Egypt | ||
2Mathematics Department, Faculty of Education, Ain Shams University, Cairo, Egypt | ||
3Cairo, sharkia, egypt | ||
Abstract | ||
Through heating processes, electrical conductivity plays a crucial role in the food industry. The effects of Joule heating and temperature-dependent electrical conductivity on the boundary layer flow of micropolar fluid were the main topics of this paper. Considerations include thermal radiation, activation energy, and microstructural/multiple slips effects. The resulting partial differential equations system (PDEs) is transformed into a nonlinear ordinary differential equations model using the proper similarity variables (ODEs). The shooting technique, a highly reliable/accurate technique, is used to obtain semi-analytical results. In Mathematica13.1.1, apply the generalised differential transform method (GDTM), Dawar 2021 newly published results are used to approve/confirm the accuracy of the acquired results. Findings demonstrate that the parameter of temperature-dependent electrical conductivity enhances fluid temperature and increases energy gain in the heating operation system, which is important for the design of Ohmic heaters (food industry processes). | ||
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