S. Choi and J. A. Eastman, Enhancing thermal conductivity of fluids with nanoparticles, 1995.

H. Masuda, A. Ebata, and K. Teramae, Alteration of thermal conductivity and viscosity of liquid by dispersing ultra-fine particles. Dispersion of Al 2 O 3 , SiO 2 and TiO 2 ultra-fine particles, Netsu Bussei, vol.7, issue.4, pp.227-260, 1993.

D. Wen, G. Lin, S. Vafaei, and K. Zhang, Review of nanofluids for heat transfer applications, Particuology, vol.7, issue.2, pp.141-50, 2009.

G. Huminic and A. Huminic, Application of nanofluids in heat exchangers: a review, Renew Sustain Energy Rev, vol.16, issue.8, pp.5625-5663, 2012.

R. Taylor, S. Coulombe, T. Otanicar, P. Phelan, A. Gunawan et al., Small particles, big impacts: a review of the diverse applications of nanofluids, J Appl Phys, vol.113, issue.1, p.1, 2013.

O. Mahian, A. Kianifar, S. A. Kalogirou, I. Pop, and S. Wongwises, A review of the applications of nanofluids in solar energy, Int J Heat Mass Transfer, vol.57, issue.2, pp.582-94, 2013.

J. M. Wu and J. Zhao, A review of nanofluid heat transfer and critical heat flux enhancement: research gap to engineering application, Prog Nucl Energy, vol.66, pp.13-24, 2013.

S. K. Verma and A. K. Tiwari, Progress of nanofluid application in solar collectors: a review, Energy Convers manag, vol.100, pp.324-370, 2015.

S. Rashidi, M. Eskandarian, O. Mahian, and S. Poncet, Combination of nanofluid and inserts for heat transfer enhancement, J Therm Anal Calorim, vol.135, issue.1, pp.437-60, 2019.

S. Rashidi, O. Mahian, and E. M. Languri, Applications of nanofluids in condensing and evaporating systems, J Therm Anal Calorim, vol.131, issue.3, pp.2027-2066, 2018.

H. Sheikhani, R. Barzegarian, A. Heydari, A. Kianifar, A. Kasaeian et al., A review of solar absorption cooling systems combined with various auxiliary energy devices, J Therm Anal Calorim, vol.134, issue.3, pp.2197-212, 2018.

W. Yu, D. M. France, J. L. Routbort, and S. Choi, Review and comparison of nanofluid thermal conductivity and heat transfer enhancements, Heat Transfer Eng, vol.29, issue.5, pp.432-60, 2008.

S. Ö-zerinç, S. Kakaç, and A. G. Yaz?c?oglu, Enhanced thermal conductivity of nanofluids: a state-of-the-art review, Microfluidics Nanofluidics, vol.8, issue.2, pp.145-70, 2010.

H. ?. Aybar, M. Sharifpur, M. R. Azizian, M. Mehrabi, and J. P. Meyer, A review of thermal conductivity models for nanofluids, Heat Transfer Eng, vol.36, issue.13, pp.1085-110, 2015.

K. Bashirnezhad, M. M. Rashidi, Z. Yang, S. Bazri, and W. Yan, A comprehensive review of last experimental studies on thermal conductivity of nanofluids, J Therm Anal Calorim, vol.122, issue.2, pp.863-84, 2015.

A. Asadi, S. Aberoumand, A. Moradikazerouni, F. Pourfattah, G. Zy?a et al., Recent advances in preparation methods and thermophysical Surface tension of ethylene glycol-based nanofluids containing various types of nitrides 805 properties of oil-based nanofluids: a state-of-the-art review, Powder Technol, vol.352, pp.209-235, 2019.

P. C. Mishra, S. Mukherjee, S. K. Nayak, and A. Panda, A brief review on viscosity of nanofluids, Int Nano Lett, vol.4, issue.4, pp.109-129, 2014.

A. K. Sharma, A. K. Tiwari, and A. R. Dixit, Rheological behaviour of nanofluids: a review, Renew Sustain Energy Rev, vol.53, pp.779-91, 2016.

S. Murshed and P. Estellé, A state of the art review on viscosity of nanofluids, Renew Sustain Energy Rev, vol.76, pp.1134-52, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01500498

A. A. Nadooshan, H. Eshgarf, and M. Afrand, Evaluating the effects of different parameters on rheological behavior of nanofluids: a comprehensive review, Powder Technol, vol.338, pp.342-53, 2018.

H. D. Koca, S. Doganay, A. Turgut, I. H. Tavman, R. Saidur et al., Effect of particle size on the viscosity of nanofluids: a review, Renew Sustain Energy Rev, vol.82, pp.1664-74, 2018.

I. M. Shahrul, I. M. Mahbubul, S. S. Khaleduzzaman, R. Saidur, and M. Sabri, A comparative review on the specific heat of nanofluids for energy perspective, Renew Sustain Energy Rev, vol.38, pp.88-98, 2014.

J. Fal, O. Mahian, and G. Zy?a, Nanofluids in the service of high voltage transformers: breakdown properties of transformer oils with nanoparticles, review. Energies, vol.11, issue.11, p.2942, 2018.

F. Ahmad, A. A. Khan, Q. Khan, and R. Hussain, State-of-art in nanobased dielectric oil: a review, IEEE Access, vol.7, p.13396, 2019.

O. Mahian, L. Kolsi, M. Amani, P. Estellé, G. Ahmadi et al., Recent advances in modeling and simulation of nanofluid flowspart I: fundamental and theory, Phys Rep, vol.790, pp.1-48, 2019.

O. Mahian, L. Kolsi, M. Amani, P. Estellé, G. Ahmadi et al., Recent advances in modeling and simulation of nanofluid flows-part II: applications, Phys Rep, vol.791, pp.1-59, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02051317

P. Estellé, D. Cabaleiro, G. Zy?a, L. Lugo, and S. Murshed, Current trends in surface tension and wetting behavior of nanofluids, Renew Sustain Energy Rev, vol.94, pp.931-975, 2018.

M. Moosavi, E. K. Goharshadi, and A. Youssefi, Fabrication, characterization, and measurement of some physicochemical properties of ZnO nanofluids, Int J Heat Fluid Flow, vol.31, issue.4, pp.599-605, 2010.

A. R. Harikrishnan, P. Dhar, P. K. Agnihotri, S. Gedupudi, and S. K. Das, Effects of interplay of nanoparticles, surfactants and base fluid on the surface tension of nanocolloids, Eur Phys J E, vol.40, issue.5, p.53, 2017.

G. Zy?a and J. Fal, Experimental studies on viscosity, thermal and electrical conductivity of aluminum nitride-ethylene glycol (AlN-EG) nanofluids, Thermochim Acta, vol.637, pp.11-17, 2016.

G. Zy?a, J. Fal, S. Biki?, and M. Wanic, Ethylene glycol based silicon nitride nanofluids: an experimental study on their thermophysical, electrical and optical properties, Phys E Low Dimens Syst Nanostruct, vol.104, pp.82-90, 2018.

G. Zy?a, J. Fal, and P. Estellé, Thermophysical and dielectric profiles of ethylene glycol based titanium nitride (TiN-EG) nanofluids with various size of particles, Int J Heat Mass Transfer, vol.113, pp.1189-99, 2017.

G. Zy?a, J. P. Vallejo, and L. Lugo, Isobaric heat capacity and density of ethylene glycol based nanofluids containing various nitride nanoparticle types: an experimental study, J Mol Liquids, vol.261, pp.530-539, 2018.

H. O. Pierson, Handbook of refractory carbides and nitrides: properties, characteristics, processing and apps. Norwich: William Andrew, 1996.

S. Azizian and M. Hemmati, Surface tension of binary mixtures of ethanol? ethylene glycol from 20 to 50 C, J Chem Eng Data, vol.48, issue.3, pp.662-665, 2003.

S. Azizian and N. Bashavard, Surface tensions of dilute solutions of cycloheptanol in ethylene glycol, J Chem Eng Data, vol.50, issue.3, pp.1091-1095, 2005.

S. Azizian and N. Bashavard, Surface properties of pure liquids and binary liquid mixtures of ethylene glycol? methylcyclohexanols, J Chem Eng Data, vol.49, issue.4, pp.1059-63, 2004.

S. Azizian and N. Bashavard, Equilibrium surface tensions of benzyl alcohol? ethylene glycol mixtures, J Chem Eng Data, vol.50, issue.2, pp.709-721, 2005.

E. Jimenez, M. Cabanas, L. Segade, S. Garcia-garabal, and H. Casas, Excess volume, changes of refractive index and surface tension of binary 1, 2-ethanediol? 1-propanol or 1-butanol mixtures at several temperatures, Fluid Phase Equilib, vol.180, issue.1-2, pp.151-64, 2001.

A. A. Rafati, E. Ghasemian, and M. Abdolmaleki, Surface properties of binary mixtures of ethylene glycol with a series of aliphatic alcohols (1-pentanol, 1-hexanol, and 1-heptanol), J Chem Eng Data, vol.53, issue.8, pp.1944-1953, 2008.

J. D. Berry, M. J. Neeson, R. R. Dagastine, D. Chan, and R. F. Tabor, Measurement of surface and interfacial tension using pendant drop tensiometry, J Colloid Interface Sci, vol.454, pp.226-263, 2015.

R. Gómez-villarejo, T. Aguilar, S. Hamze, P. Estellé, and J. Navas, Experimental analysis of water-based nanofluids using boron nitride nanotubes with improved thermal properties, J Mol Liq, vol.277, pp.93-103, 2019.

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