Microconvection of MHD solarized nanofluid in the presence of double slip and surface suction
Biot number
Thermal Radiation
DOI:
10.1016/j.asej.2023.102398
Publication Date:
2023-07-31T19:37:39Z
AUTHORS (6)
ABSTRACT
Refrigeration systems are becoming more efficient as a result of nanofluids. Cooling and heating process improvements can lead to enhanced industrial efficiency, reduced processing times, energy conservation, improved cooling processes. A study is being conducted on the effects magnetohydrodynamics (MHD) in nanofluids by adding double slip thermal radiation governing model. It numerically simulated using bvp4c code MATLAB. Analyzing temperature, concentration, velocity requires evaluation multiple parameters. uniform distribution temperatures be achieved increasing Biot number, radiation, thermophoretic motion The use suction an effective method controlling rate temperature reduction various manufacturing product's mechanical properties overall quality if one able control how quickly it cools during melting condensing raw materials. As consequence emergence quadratic linear factors, flow decreases. distinguishing feature this research boundary conditions that tailored geometry investigated.
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