M
Manuel M. Piñeiro
Researcher at University of Vigo
Publications - 155
Citations - 4615
Manuel M. Piñeiro is an academic researcher from University of Vigo. The author has contributed to research in topics: Molar volume & Nanofluid. The author has an hindex of 33, co-authored 141 publications receiving 3901 citations. Previous affiliations of Manuel M. Piñeiro include University of Aveiro & University of Pau and Pays de l'Adour.
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CuO in water nanofluid: Influence of particle size and polydispersity on volumetric behaviour and viscosity
TL;DR: In this paper, the dispersion and stability of nanofluids obtained by dispersing CuO nanoparticles (obtained from different sources) in water have been analyzed, and the volumetric behavior up to high pressures (45 MPa) and atmospheric pressure viscosity were experimentally determined.
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Thermal conductivity and viscosity measurements of ethylene glycol-based Al2O3 nanofluids.
TL;DR: The dispersion and stability of nanofluids obtained by dispersing Al2O3 nanoparticles in ethylene glycol have been analyzed and it has been found that both thermal conductivity and viscosity increase with the concentration of nanoparticles, whereas when the temperature increases the viscosities diminishes and the thermal Conductivity rises.
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Simultaneous estimation of phase behavior and second-derivative properties using the statistical associating fluid theory with variable range approach
TL;DR: A modified statistical associating fluid theory with variable range version is presented using the family of m-n Mie potentials, and it is found to give a very accurate description of both vapor-liquid equilibria and compressed liquid bulk properties for long-chain n-alkanes.
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A study on stability and thermophysical properties (density and viscosity) of Al2O3 in water nanofluid
María José Pastoriza-Gallego,Carlos Casanova,Ricardo Páramo,Benigno Barbés,José Luis Legido,Manuel M. Piñeiro +5 more
TL;DR: In this paper, the dispersion and stability of nanofluids obtained by dispersing Al2O3 nanoparticles (obtained from different sources) in water have been analyzed, and the differences arising from different dispersion techniques, the resulting particle size distribution, and time stability among the different samples are evaluated.
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Rheological and volumetric properties of TiO2-ethylene glycol nanofluids
David Cabaleiro,María José Pastoriza-Gallego,Carlos Gracia-Fernández,Manuel M. Piñeiro,Luis Lugo +4 more
TL;DR: The rheological behavior was determined for both nanofluids at nanoparticle mass concentrations up to 25%, including flow curves and frequency-dependent storage and loss moduli, using a cone-plate rotational rheometer.