Analysis of Flow and Thermal Performance of Sio2- Water Nanofluids with Variable Geometrical and Process Parameters

Authors

  • N. Oumer, H. Wan Azmi, Azizuddin Abd Aziz, J. P. Siregar, Aklilu T. Baheta

DOI:

https://doi.org/10.17762/msea.v71i4.1231

Abstract

This study numerically investigated the thermal-hydraulic performances of a single-phase SiO2-water nanofluid in forced convective turbulent flow in a pipe. The nanoparticle volume concentrations varied from 0-4% by weight. At different Res, bulk temperatures, and particle sizes, simulations were run. The obtained results showed that, in comparison to other input parameters, nanoparticle concentration and inlet velocity considerably affect the heat transfer coefficient (h) and pressure drop (. The analysis of thermal and flow performance discovered that increasing the nanoparticle concentration and inflow velocity significantly improves the ( and h.

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Published

2022-11-21

How to Cite

N. Oumer, H. Wan Azmi, Azizuddin Abd Aziz, J. P. Siregar, Aklilu T. Baheta. (2022). Analysis of Flow and Thermal Performance of Sio2- Water Nanofluids with Variable Geometrical and Process Parameters. Mathematical Statistician and Engineering Applications, 71(4), 6416–6435. https://doi.org/10.17762/msea.v71i4.1231

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Articles