Numerical investigation of turbulent flow and heat transfer of nanofluid inside a wavy microchannel with different wavelengths-Reference-Cited by-同舟云学术

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Numerical investigation of turbulent flow and heat transfer of nanofluid inside a wavy microchannel with different wavelengths

Published:2019-08-07 Issue:3 Volume:139 Page:2365-2380
ISSN:1388-6150
Container-title:Journal of Thermal Analysis and Calorimetry
language:en
Short-container-title:J Therm Anal Calorim

Author:

Bazdar Hamed,Toghraie Davood,Pourfattah Farzad,Akbari Omid Ali,Nguyen Hoang Minh,Asadi Amin^ORCID

Publisher

Springer Science and Business Media LLC

Link

http://link.springer.com/content/pdf/10.1007/s10973-019-08637-3.pdf

Reference59 articles.

1. Marshall SD, Arayanarakool R, Balasubramaniam L, Li B, Lee PS & Chen PCY. Heat exchanger improvement via curved, angular and wavy microfluidic channels: A comparison of numerical and experimental results. In: 16th IEEE intersociety conference on thermal and thermomechanical phenomena in electronic systems (ITherm); 2017.

2. Huang H, Wu H, Zhang C. an experimental study on flow friction and heat transfer of water in sinusoidal wavy silicon microchannels. J Micromech Microeng. 2018;28:055003.

3. Barzegarian R, Moraveji MK, Aloueyan A. Experimental investigation on heat transfer characteristics and pressure drop of BPHE (brazed plate heat exchanger) using TiO2–water nanofluid. Exp Thermal Fluid Sci. 2016;74:11–8.

4. Barzegarian R, Aloueyan A, Yousefi T. Thermal performance augmentation using water based Al2O3-gamma nanofluid in a horizontal shell and tube heat exchanger under forced circulation. Int. Commun Heat Mass Transf. 2017;86:52–9.

5. Wen D, Ding Y. Experimental investigation into convective heat transfer of nanofluids at the entrance region under laminar flow conditions. Int J Heat Mass Transf. 2004;47:5181–8.

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