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Potential Use of Bio-Oleogel as Phase Change Material

Two bio-oleogels were investigated. These materials were produced with a combination of canola and soybean oil with 4, 6, 8, and 10% of beeswax (by weight). Sensible heat storage capacity, melting parameters, and enthalpies were investigated by the differential scanning calorimetry (DSC) test. An or...

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Published in:	Sustainability 2023-01, Vol.15 (3), p.2534
Main Authors:	Lorenzo, Natasha Dantas, Kuhn, Leonardo Seibert, Guimarães, Túlio Caetano, Sam, Mona Nazari, Mankel, Christoph, Caggiano, Antonio, Koenders, Eduardus, Nunes, Cleiton Antonio, Ferreira, Saulo Rocha
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Language:	English
Subjects:	Beeswax Calorimetry Canola Canola oil Cold storage Differential scanning calorimetry Dynamic tests Energy consumption Energy development Energy storage Heat Heat storage Heating Latent heat Melt temperature Phase change materials Porous materials Product development Raw materials Sensible heat Soybean Soybean oil Soybeans Spectrum analysis Storage capacity Sustainability Temperature Thermal energy Thermal properties Thermogravimetric analysis Vegetable oils Viscosity Waxes
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creator	Lorenzo, Natasha Dantas Kuhn, Leonardo Seibert Guimarães, Túlio Caetano Sam, Mona Nazari Mankel, Christoph Caggiano, Antonio Koenders, Eduardus Nunes, Cleiton Antonio Ferreira, Saulo Rocha
description	Two bio-oleogels were investigated. These materials were produced with a combination of canola and soybean oil with 4, 6, 8, and 10% of beeswax (by weight). Sensible heat storage capacity, melting parameters, and enthalpies were investigated by the differential scanning calorimetry (DSC) test. An ordinary DSC dynamic test was performed. Cycles of heating and cooling were performed, as well as tests with different heating rates. According to the results, the materials present a melting temperature between −16 to −12 °C and a total latent heat between 22.9 and 367.6 J/g. BC10 (canola oil with 10% beeswax) was the sample with the best performance, with a latent heat of 367.6 J/g and a melting temperature of −13.6 °C, demonstrating its possible use as a phase change material for cold storage.
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subjects	Beeswax Calorimetry Canola Canola oil Cold storage Differential scanning calorimetry Dynamic tests Energy consumption Energy development Energy storage Heat Heat storage Heating Latent heat Melt temperature Phase change materials Porous materials Product development Raw materials Sensible heat Soybean Soybean oil Soybeans Spectrum analysis Storage capacity Sustainability Temperature Thermal energy Thermal properties Thermogravimetric analysis Vegetable oils Viscosity Waxes
title	Potential Use of Bio-Oleogel as Phase Change Material
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