A molecular dynamics study of the effect of nanoparticles coating on thermal conductivity of nanofluids

Nanofluids have become the subject of theoretical and experimental researches over the last few decades due to their enhanced heat transfer performance. In this study, thermal conductivity of copper argon nanofluids containing coated and non‐coated copper particles is determined through MD simulatio...

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Vydáno v:	Micro & nano letters Ročník 16; číslo 3; s. 221 - 226
Hlavní autoři:	Roni, Md. Rakibul Hasan, Shahadat, Muhammad Rubayat Bin, Morshed, A.K.M. Monjur Monjur
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Stevenage John Wiley & Sons, Inc 01.03.2021 Wiley
Témata:	Argon Coated particles Coating effects Convection and heat transfer Copper General fluid dynamics theory, simulation and other computational methods Heat conductivity Heat transfer Microfluidics and nanofluidics Molecular dynamics Nanofluids Nanoparticles Numerical approximation and analysis Thermal conductivity Thermal simulation Thermodynamic properties
ISSN:	1750-0443, 1750-0443
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Abstract	Nanofluids have become the subject of theoretical and experimental researches over the last few decades due to their enhanced heat transfer performance. In this study, thermal conductivity of copper argon nanofluids containing coated and non‐coated copper particles is determined through MD simulation. Coating over the nanoparticles is applied to provide long‐term stable dispersion and also to enhance the heat transfer performance. Thermal conductivity of nanofluids depends on the types of coating applied over the nanoparticles. The role of surface coating over the nanoparticles in enhancing thermal properties of the nanofluids is discussed and compared to that of non‐coated particles. The silver coating is applied over the copper nanoparticles. Green Kubo method is employed to determine the thermal conductivity of the nanofluids. Result shows that, for volume fraction 3% and 86 K system temperature, thermal conductivity enhancement of nanofluid containing coated particle is 17% compared to that of base fluid and without coating, thermal conductivity enhancement is 12%. The mechanism of increased heat transfer performance for surface coating over the nanoparticles is discussed in this paper.
AbstractList	Nanofluids have become the subject of theoretical and experimental researches over the last few decades due to their enhanced heat transfer performance. In this study, thermal conductivity of copper argon nanofluids containing coated and non‐coated copper particles is determined through MD simulation. Coating over the nanoparticles is applied to provide long‐term stable dispersion and also to enhance the heat transfer performance. Thermal conductivity of nanofluids depends on the types of coating applied over the nanoparticles. The role of surface coating over the nanoparticles in enhancing thermal properties of the nanofluids is discussed and compared to that of non‐coated particles. The silver coating is applied over the copper nanoparticles. Green Kubo method is employed to determine the thermal conductivity of the nanofluids. Result shows that, for volume fraction 3% and 86 K system temperature, thermal conductivity enhancement of nanofluid containing coated particle is 17% compared to that of base fluid and without coating, thermal conductivity enhancement is 12%. The mechanism of increased heat transfer performance for surface coating over the nanoparticles is discussed in this paper. Abstract Nanofluids have become the subject of theoretical and experimental researches over the last few decades due to their enhanced heat transfer performance. In this study, thermal conductivity of copper argon nanofluids containing coated and non‐coated copper particles is determined through MD simulation. Coating over the nanoparticles is applied to provide long‐term stable dispersion and also to enhance the heat transfer performance. Thermal conductivity of nanofluids depends on the types of coating applied over the nanoparticles. The role of surface coating over the nanoparticles in enhancing thermal properties of the nanofluids is discussed and compared to that of non‐coated particles. The silver coating is applied over the copper nanoparticles. Green Kubo method is employed to determine the thermal conductivity of the nanofluids. Result shows that, for volume fraction 3% and 86 K system temperature, thermal conductivity enhancement of nanofluid containing coated particle is 17% compared to that of base fluid and without coating, thermal conductivity enhancement is 12%. The mechanism of increased heat transfer performance for surface coating over the nanoparticles is discussed in this paper.
Author	Shahadat, Muhammad Rubayat Bin Morshed, A.K.M. Monjur Monjur Roni, Md. Rakibul Hasan
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Snippet	Nanofluids have become the subject of theoretical and experimental researches over the last few decades due to their enhanced heat transfer performance. In... Abstract Nanofluids have become the subject of theoretical and experimental researches over the last few decades due to their enhanced heat transfer...
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SubjectTerms	Argon Coated particles Coating effects Convection and heat transfer Copper General fluid dynamics theory, simulation and other computational methods Heat conductivity Heat transfer Microfluidics and nanofluidics Molecular dynamics Nanofluids Nanoparticles Numerical approximation and analysis Thermal conductivity Thermal simulation Thermodynamic properties
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Title	A molecular dynamics study of the effect of nanoparticles coating on thermal conductivity of nanofluids
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