What is it about?
In this paper, a finite element simulation has been performed for a right triangular cavity filled with nanofluids with uniform thermal boundary conditions at the bottom heated wall in the presence of an inclined magnetic field using a nonhomogeneous dynamic model.
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Why is it important?
Nanotechnology plays a vital role in the development of 21st century modern micro- and nano-devices. Recent advances in nanotechnology have allowed researchers to study the next generation heat transfer nanofluids. The problem of natural convective heat transfer in a right triangular cavity filled with nanofluids using a nonhomogeneous dynamic model is investigated numerically for understanding the heat transfer mechanisms.
Perspectives
It is hoped that the theoretical predictions that have been investigated in this research using our 2D nanofluid mathematical model will be a useful guide for the experimentalists as well as theoretical scientists to study the transport phenomena of nanofluids precisely.
Md. Mojammel Haque
Jagannath University
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This page is a summary of: Heat transfer in a triangular cavity filled with nanofluid using nonhomogeneous dynamic model, January 2019, American Institute of Physics,
DOI: 10.1063/1.5115919.
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