The parametric optimization to enhance the pin-fin microchannel heatsink performance using splitter and water/silver nanofluid applying the two phase mixture model-Reference-Cited by-同舟云学术

The parametric optimization to enhance the pin-fin microchannel heatsink performance using splitter and water/silver nanofluid applying the two phase mixture model

Published:2023-01 Issue: Volume:146 Page:216-225
ISSN:0955-7997
Container-title:Engineering Analysis with Boundary Elements
language:en
Short-container-title:Engineering Analysis with Boundary Elements

Author:

Wang Dan,Hai Tao

Publisher

Elsevier BV

Subject

Applied Mathematics,Computational Mathematics,General Engineering,Analysis

Reference25 articles.

1. Novel design of a liquid-cooled heat sink for a high-performance processor based on constructal theory: a numerical and experimental approach;Sakamatapan;Alexandr Eng J,2022

2. Investigation of the flow structure and heat transfer intensity of surfaces with split plate finning;Baranyuk;Therm Sci Eng Prog,2019

3. Heat transfer and airflow characteristics enhancement of compact plate-pin fins heat sinks – a review;Al-damook;Propuls Power Res,2018

4. Numerical investigation on heat transfer and pressure drop of pin-fin array under the influence of rib turbulators induced vortices;Bai;Int J Heat Mass Transfer,2019

5. Heat transfer enhancement by a sinusoidal wavy plate having punched triangular vortex generators;Caliskan;Int J Therm Sci,2022

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