Abstract:
Ethylene glycol with nanoparticles behaves as a non-Newtonian fluid and its rheology can be best predicted by the power-law rheological approach. Further, 2 and 2 nanoparticles are responsible for anti-oxidation, antievaporation, and anti-aging. Therefore, their dispersion in ethylene glycol is considered as these properties make the nanofluid stable. This article examines the impact of 2 and 2 on the thermal enhancement of ethylene glycol as it is a worldwide used coolant. Moreover, simultaneous effects of temperature and concentration gradients, Joule heating, viscous dissipation, thermal radiations, and Bouncy forces are modeled and developed investigations are computed by FEM. An increase in temperature due to composition gradient and an increase in concentration due to temperature gradient are observed. A significant increase in the Ohmic phenomenon with an increase in the intensity of the magnetic field is observed. Numerical experiments are performed by considering single-type nanoparticles ( 2) and hybrid-type nanoparticles (simultaneous dispersion of 2 and 2 is considered). During the visualization of simulations, it is observed that the effective thermal conductivity of 2- 2-ethylene glycol.
Page(s):
0-0
DOI:
DOI not available
Published:
Journal: First International Conference on Revamped Scientific Outlook of 21st Century (Abstract Book), Volume: 0, Issue: 0, Year: 2022
Keywords:
finite element method
,
HybridType Nanoparticles
,
NonNewtonian Fluid
,
SingleType Nanoparticles