Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants

Hélio Ribeiro; Jose Jaime Taha-Tijerina; Ofelia Gomez; Ever Acosta; Gabriel M. Pinto; Lorena R.C. Moraes; Guilhermino J.M. Fechine; Ricardo J.E. Andrade; Jefferson Reinoza; Victoria Padilla; Karen Lozano

doi:10.3390/nano13202739

Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants

Hélio Ribeiro, Jose Jaime Taha-Tijerina^*, Ofelia Gomez, Ever Acosta, Gabriel M. Pinto, Lorena R.C. Moraes, Guilhermino J.M. Fechine, Ricardo J.E. Andrade, Jefferson Reinoza, Victoria Padilla, Karen Lozano

^*Autor correspondiente de este trabajo

Producción científica › revisión exhaustiva

4 Citas (Scopus)

Resumen

Nanofluids based on vegetal oil with different wt.% of carbon nanotubes (CNT), hexagonal boron nitride (h-BN), and its hybrid (h-BN@CNT) were produced to investigate the effects of these nano-additives on the thermal conductivity and rheological properties of nanofluids. Stable suspensions of these oil/nanostructures were produced without the use of stabilizing agents. The dispersed nanostructures were investigated by SEM, EDS, XRD, and XPS, while the thermal conductivity and rheological characteristics were studied by a transient hot-wire method and steady-state flow tests, respectively. Increases in thermal conductivity of up to 39% were observed for fluids produced with 0.5 wt.% of the hybrid nanomaterials. As for the rheological properties, it was verified that both the base fluid and the h-BN suspensions exhibited Newtonian behavior, while the presence of CNT modified this tendency. This change in behavior is attributed to the hydrophobic character of both CNT and the base oil, while h-BN nanostructures have lip-lip “bonds”, giving it a partial ionic character. However, the combination of these nanostructures was fundamental for the synergistic effect on the increase of thermal conductivity with respect to their counterparts.

Idioma original	English
Número de artículo	2739
Publicación	Nanomaterials
Volumen	13
N.º	20
DOI	https://doi.org/10.3390/nano13202739
Estado	Published - oct 2023
Publicado de forma externa	Sí

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Publisher Copyright:
© 2023 by the authors.

All Science Journal Classification (ASJC) codes

Ingeniería Química General
Ciencia de los Materiales General

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@article{8264a133c2ba4c0c82b1c2aca51eceef,

title = "Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants",

abstract = "Nanofluids based on vegetal oil with different wt.% of carbon nanotubes (CNT), hexagonal boron nitride (h-BN), and its hybrid (h-BN@CNT) were produced to investigate the effects of these nano-additives on the thermal conductivity and rheological properties of nanofluids. Stable suspensions of these oil/nanostructures were produced without the use of stabilizing agents. The dispersed nanostructures were investigated by SEM, EDS, XRD, and XPS, while the thermal conductivity and rheological characteristics were studied by a transient hot-wire method and steady-state flow tests, respectively. Increases in thermal conductivity of up to 39% were observed for fluids produced with 0.5 wt.% of the hybrid nanomaterials. As for the rheological properties, it was verified that both the base fluid and the h-BN suspensions exhibited Newtonian behavior, while the presence of CNT modified this tendency. This change in behavior is attributed to the hydrophobic character of both CNT and the base oil, while h-BN nanostructures have lip-lip “bonds”, giving it a partial ionic character. However, the combination of these nanostructures was fundamental for the synergistic effect on the increase of thermal conductivity with respect to their counterparts.",

author = "H{\'e}lio Ribeiro and Taha-Tijerina, {Jose Jaime} and Ofelia Gomez and Ever Acosta and Pinto, {Gabriel M.} and Moraes, {Lorena R.C.} and Fechine, {Guilhermino J.M.} and Andrade, {Ricardo J.E.} and Jefferson Reinoza and Victoria Padilla and Karen Lozano",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = oct,

doi = "10.3390/nano13202739",

language = "English",

volume = "13",

journal = "Nanomaterials",

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T1 - Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants

AU - Ribeiro, Hélio

AU - Taha-Tijerina, Jose Jaime

AU - Gomez, Ofelia

AU - Acosta, Ever

AU - Pinto, Gabriel M.

AU - Moraes, Lorena R.C.

AU - Fechine, Guilhermino J.M.

AU - Andrade, Ricardo J.E.

AU - Reinoza, Jefferson

AU - Padilla, Victoria

AU - Lozano, Karen

PY - 2023/10

Y1 - 2023/10

N2 - Nanofluids based on vegetal oil with different wt.% of carbon nanotubes (CNT), hexagonal boron nitride (h-BN), and its hybrid (h-BN@CNT) were produced to investigate the effects of these nano-additives on the thermal conductivity and rheological properties of nanofluids. Stable suspensions of these oil/nanostructures were produced without the use of stabilizing agents. The dispersed nanostructures were investigated by SEM, EDS, XRD, and XPS, while the thermal conductivity and rheological characteristics were studied by a transient hot-wire method and steady-state flow tests, respectively. Increases in thermal conductivity of up to 39% were observed for fluids produced with 0.5 wt.% of the hybrid nanomaterials. As for the rheological properties, it was verified that both the base fluid and the h-BN suspensions exhibited Newtonian behavior, while the presence of CNT modified this tendency. This change in behavior is attributed to the hydrophobic character of both CNT and the base oil, while h-BN nanostructures have lip-lip “bonds”, giving it a partial ionic character. However, the combination of these nanostructures was fundamental for the synergistic effect on the increase of thermal conductivity with respect to their counterparts.

AB - Nanofluids based on vegetal oil with different wt.% of carbon nanotubes (CNT), hexagonal boron nitride (h-BN), and its hybrid (h-BN@CNT) were produced to investigate the effects of these nano-additives on the thermal conductivity and rheological properties of nanofluids. Stable suspensions of these oil/nanostructures were produced without the use of stabilizing agents. The dispersed nanostructures were investigated by SEM, EDS, XRD, and XPS, while the thermal conductivity and rheological characteristics were studied by a transient hot-wire method and steady-state flow tests, respectively. Increases in thermal conductivity of up to 39% were observed for fluids produced with 0.5 wt.% of the hybrid nanomaterials. As for the rheological properties, it was verified that both the base fluid and the h-BN suspensions exhibited Newtonian behavior, while the presence of CNT modified this tendency. This change in behavior is attributed to the hydrophobic character of both CNT and the base oil, while h-BN nanostructures have lip-lip “bonds”, giving it a partial ionic character. However, the combination of these nanostructures was fundamental for the synergistic effect on the increase of thermal conductivity with respect to their counterparts.

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Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants

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