Journal article
2017
APA
Click to copy
Lara-Hernández, G., Flores-Cuautle, J. J. A., Hernández-Aguilar, C., Suaste-Gómez, E., & Cruz-Orea, A. (2017). Thermal Properties of Jojoba Oil Between 20 ◦ C and 45 ◦ C.
Chicago/Turabian
Click to copy
Lara-Hernández, G., J. J. A. Flores-Cuautle, C. Hernández-Aguilar, E. Suaste-Gómez, and A. Cruz-Orea. “Thermal Properties of Jojoba Oil Between 20 ◦ C and 45 ◦ C” (2017).
MLA
Click to copy
Lara-Hernández, G., et al. Thermal Properties of Jojoba Oil Between 20 ◦ C and 45 ◦ C. 2017.
BibTeX Click to copy
@article{g2017a,
title = {Thermal Properties of Jojoba Oil Between 20 ◦ C and 45 ◦ C},
year = {2017},
author = {Lara-Hernández, G. and Flores-Cuautle, J. J. A. and Hernández-Aguilar, C. and Suaste-Gómez, E. and Cruz-Orea, A.}
}
Vegetable oils have been widely studied as biofuel candidates. Among these oils, jojoba ( Simmondsia chinensis ) oil has attracted interest because it is composed almost entirely of wax esters that are liquid at room temperature. Consequently, it is widely used in the cosmetic and pharmaceutical industries. To date, research on S. chinensis oil has focused on to its use as a fuel and its thermal stability, and information about its thermal properties is scarce. In the present study, the thermal effusivity and conductivity of jojoba oil between 20 ◦ C and 45 ◦ C were obtained using the inverse photopyroelectric and hot-ball techniques. The feasibility of an inverse photopyroelectric method and a hot-ball technique to monitor the thermal conductivity, and the thermal effusivity of the S. chinensis is demonstrated. The thermal effusivity decreased from 538 W · s 1 / 2 · m − 2 · K − 1 to 378 W · s 1 / 2 · m − 2 · K − 1 as the temperature increased, whereas the thermal conductivity remained the same over the temperature range inves-tigated in this study. The obtained results provide insight into the thermal properties of S. chinensis oil between 20 ◦ C and 45 ◦ C.