What is it about?
A non-Newtonian heat-conducting fluid is subjected to a magnetic field then its effect are analyzed by applying a numerical mathematical technique. The equations governing this fluid in the specified conditions are formulated based on the stated assumptions. The results are illustrated graphically to depict the effect of variation of parameters in consideration. These effects are crucial in the application of fluid heat dischargers. This concept can be applied in engineering in the design of heat exchanger systems, engine cooling systems, electronics coolants among other areas. This can help effectively eject heat from systems thus improving functionality, production, etc
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Why is it important?
The fluid in consideration is effective for heat transfer. Therefore it can be used to bridge the existing gap of heat transfer in systems that require effective heat ejection, transfer among others
Perspectives
There is a need for effective heat transfer systems. For instance, in a nuclear reactor system, effective heat transfer fluid is needed to maintain the optimal functioning of the plant. Such attracted the interest of Wekesa and Mutuku to investigate Eyring-Powel fluid. The results depicted are practically doable. Further areas of interest can be extended on the same project.
simon waswa
Kenyatta University
Read the Original
This page is a summary of: Numerical Analysis of Heat Transfer of Eyring Powell Fluid Using Double Stratification of Magneto-Hydrodynamic Boundary Layer Flow, Asian Research Journal of Mathematics, November 2020, Sciencedomain International,
DOI: 10.9734/arjom/2020/v16i1030233.
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