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Thermal Properties and Reliabilities of Lauric Acid-Based Binary Eutectic Fatty Acid as a Phase Change Material for Building Energy Conservation

Zhixuan Fan, Yunchao Zhao, Xuying Liu, Yu Shi, Dahua Jiang

2022ACS Omega62 citationsDOIOpen Access PDF

Abstract

and a melting temperature of 35.10, 37.15, and 39.29 °C for lauric-myristic acid, lauric-palmitic acid, and lauric-stearic acid binary eutectic PCMs, respectively. The experimental results are very close to the theoretical results. Moreover, from FT-IR and XRD investigations, we realized that during the preparation of the lauric acid-based binary eutectic fatty acids, no new functional groups were produced. Besides, the TG illustrated that the LA-MA eutectic PCMs, LA-PA eutectic PCMs, and LA-SA eutectic PCMs exhibit excellent thermal stability below 126.51, 135.7, and 110.08 °C, respectively. Finally, lauric acid-based binary eutectic PCMs still show excellent thermal properties and chemical structure after 500 hot and cold cycles. All in all, as a novel material for building energy conservation, lauric acid-based binary eutectic PCMs have broad prospects and good practicability.

Topics & Concepts

Lauric acidEutectic systemMaterials scienceStearic acidMyristic acidPalmitic acidThermal stabilityMelting pointChemical engineeringFatty acidChemistryOrganic chemistryMicrostructureComposite materialEngineeringPhase Change Materials ResearchSolar Thermal and Photovoltaic SystemsBuilding Energy and Comfort Optimization
Thermal Properties and Reliabilities of Lauric Acid-Based Binary Eutectic Fatty Acid as a Phase Change Material for Building Energy Conservation | Litcius