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(Reference retrieved automatically from Web of Science through information on FAPESP grant and its corresponding number as mentioned in the publication by the authors.)

A new correlation for viscosity of model water-carbon nanotube nanofluids: Molecular dynamics simulation

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Razmara, Naiyer [1, 2] ; Namarvari, Hossein [2] ; Meneghini, Julio Romano [1]
Total Authors: 3
[1] Univ Sao Paulo, Dept Mech Engn, Escola Politecn, Sao Paulo, SP - Brazil
[2] Azarbaijan Shahid Madani Univ, Dept Mech Engn, Tabriz - Iran
Total Affiliations: 2
Document type: Journal article
Web of Science Citations: 0

In the present study, the viscosity of a model water-based nanofluid including an armchair-type (6,6) single-wall carbon nanotube is examined via Molecular Dynamics Simulation. The flexible four-site water model and the Tersoff empirical interatomic potential model are employed as an intermolecular force between liquid water molecules and as an interatomic potential function of carbon nanotube, respectively. Nevertheless, the interactions among water carbon nanotube atoms are modeled by the Lennard-Jones potential. The viscosity of nanofluid is sought using the Green-Kubo method at temperatures of 273 K, 283 K, 293 K, 303 K, and 313 K with volume fractions of 0.418%, 0.557% and 0.6%. The results are assessed with the related experimental data. The Radial Distribution Function is also calculated for its importance and usage to link the microscopic and macroscopic data. In conclusion, a relationship is obtained for the viscosity of water carbon nanotube nanofluids,mu = B zeta(m)/T-A zeta n + zeta/CT' in which volume fraction, temperature and viscosity are linked to each other. The recommended correlation is revealed to be acceptable and accurate for volume fractions in the range of 0.25 % <= phi <= 0.65%. (C) 2019 Elsevier B.V. All rights reserved. (AU)

FAPESP's process: 14/50279-4 - Brasil Research Centre for Gas Innovation
Grantee:Julio Romano Meneghini
Support type: Research Grants - Research Centers in Engineering Program
FAPESP's process: 18/16803-9 - Multiscale molecular modeling of nanostructures for natural gas separation processes
Grantee:Naiyer Razmara
Support type: Scholarships in Brazil - Post-Doctorate