Experimental investigation of convective heat transfer growth on ZnO@TiO2/DW binary composites/hybrid nanofluids in a circular heat exchanger-Reference-Cited by-同舟云学术

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Experimental investigation of convective heat transfer growth on ZnO@TiO2/DW binary composites/hybrid nanofluids in a circular heat exchanger

Published:2020-02-05 Issue:2 Volume:143 Page:879-898
ISSN:1388-6150
Container-title:Journal of Thermal Analysis and Calorimetry
language:en
Short-container-title:J Therm Anal Calorim

Author:

Ahmed Waqar,Kazi S. N.,Chowdhury Z. Z.,Johan M. R. B.,Akram Naveed,Mujtaba M. A.,Gul M.,Oon C. S.

Funder

Universiti Malaya

Publisher

Springer Science and Business Media LLC

Link

http://link.springer.com/content/pdf/10.1007/s10973-020-09363-x.pdf

Reference69 articles.

1. Sadri R, Mallah AR, Hosseini M, Ahmadi G, Kazi SN, Dabbagh A. CFD modeling of turbulent convection heat transfer of nanofluids containing green functionalized graphene nanoplatelets flowing in a horizontal tube: comparison with experimental data. J Mol Liq. 2018;269:152–9.

2. Amani M, Amani P, Kasaeian A, Mahian O, Wongwises S. Thermal conductivity measurement of spinel-type ferrite MnFe2O4 nanofluids in the presence of a uniform magnetic field. J Mol Liq. 2017;230:121–8.

3. Chaurasia P, Kumar A, Yadav A, Rai PK, Kumar V, Prasad L. Heat transfer augmentation in automobile radiator using Al2O3–water based nanofluid. SN Appl Sci. 2019;1(3):257.

4. Sedeh RN, Abdollahi A, Karimipour A. Experimental investigation toward obtaining nanoparticles’ surficial interaction with basefluid components based on measuring thermal conductivity of nanofluids. Int Commun Heat Mass Transf. 2019;103:72–82.

5. Esmaeili E, Rounaghi SA, Gruner W, Eckert J. The preparation of surfactant-free highly dispersed ethylene glycol-based aluminum nitride–carbon nanofluids for heat transfer application. Adv Powder Technol. 2019;30:2032–41.

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