Simulating laminar induced heat capacity and heat transmission convection using Al2O3 nanofluid

Natrayan Lakshmaiya

doi:10.1117/12.2675557

10 April 2023 Simulating laminar induced heat capacity and heat transmission convection using Al₂O₃ nanofluid

Natrayan Lakshmaiya

Proceedings Volume 12616, International Conference on Mathematical and Statistical Physics, Computational Science, Education, and Communication (ICMSCE 2022); 126160P (2023) https://doi.org/10.1117/12.2675557
Event: International Conference on Mathematical and Statistical Physics, Computational Science, Education, and Communication (ICMSCE 2022), 2022, Istanbul, Turkey

Abstract

Around this critical stage of working fluids, its heat transfer has not yet been exactly characterized, making assessing its actual benefit challenging. It has been demonstrated by examining its heat exchanger ability in a cylinder containing two thermal zones with a lower surface transfer coefficient. The parametric investigation of convection heat transfer of a nanoparticle’s clear liquid plus Al₂O₃ in tubing. Two different theories from the same research are utilized to represent heat capacity in particular instances of nanoparticle concentration, yielding various numerical findings in the repeating event of replacing a simple liquid with nanoparticles in a particular circumstance. During stable Nusselt number conditions, the hydrodynamic temperature difference of moisture Al2O3 nanofluid is raised by about 3.4–27.8 percentage points compared to conventional rainwater. Furthermore, for all the same mass fractions, the energy heat transfer performance is more significant than in temperature distribution. Furthermore, the impact of uncertainty in estimating nanofluids characteristics has been seen.

Citation Download Citation

Natrayan Lakshmaiya "Simulating laminar induced heat capacity and heat transmission convection using Al₂O₃ nanofluid", Proc. SPIE 12616, International Conference on Mathematical and Statistical Physics, Computational Science, Education, and Communication (ICMSCE 2022), 126160P (10 April 2023); https://doi.org/10.1117/12.2675557

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