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Molecules 2020, 25, 5572 25 of 26 51. Ravotti, R.; Fellmann, O.; Fischer, L.J.; Wortlischek, J.; Stamatiou, A. Investigation of the Thermal Properties of Diesters from Methanol, 1-Pentanol, and 1-Decanol as Sustainable Phase Change Materials. Materials 2020, 13, 810. [CrossRef] [PubMed] 52. Vecchio, S.; Campanella, L.; Nuccilli, A.; Tomassetti, M. Kinetic Study of Thermal Breakdown of Triglycerides Contained in Extra-Virgin Olive Oil. J. Therm. Anal. Calorim. 2008, 91, 51–56. [CrossRef] 53. Lee, H.; Jeong, S.G.; Chang, S.J.; Kang, Y.; Wi, S.; Kim, S. Thermal Performance Evaluation of Fatty Acid Ester and Paraffin Based Mixed SSPCMs Using Exfoliated Graphite Nanoplatelets (xGnP). Appl. Sci. 2016, 6, 1–10. [CrossRef] 54. Nawar, W. Thermal Degradation of Lipids—A review. J. Agric. Food Chem. 1969, 17, 18–21. [CrossRef] 55. Crossley, A.; Heyes, T.D.; Hudson, B.J.F. The effect of heat on pure triglycerides. J. Am. Oil Chem. Soc. 1962, 39, 9–14. [CrossRef] 56. Noble, A.C.; Buziassy, C.; Nawar, W.W. Thermal hydrolysis of some natural fats. Lipids 1967, 2, 435–436. [CrossRef] 57. Moorthy, A.S.; Liu, R.; Mazzanti, G.; Wesdorp, L.H. Estimating Thermodynamic Properties of Pure Triglyceride Systems Using the Triglyceride Property Calculator. J. Am. Oil Chem. Soc. 2017, 94, 187–199. [CrossRef] 58. King, M.; Garner, E.W. The Melting Points of Long-chain Carbon Compounds. J. Chem. Soc. 1936, 296, 1368–1372. [CrossRef] 59. Constantinou, L.; Gani, R. New group contribution method for estimating properties of pure compounds. AIChE J. 1994, 40, 1697–1710. [CrossRef] 60. Chandrasekhar, I.; van Gunsteren, W.F. A comparison of the potential energy parameters of aliphatic alkanes: Molecular dynamics simulations of triacylglycerols in the alpha phase. Eur. Biophys. J. 2002, 31, 89–101. [CrossRef] [PubMed] 61. Sum, A.K.; Biddy, M.J.; de Pablo, J.J.; Tupy, M.J. Predictive Molecular Model for the Thermodynamic and Transport Properties of Triacylglycerols. J. Phys. Chem. B 2003, 107, 14443–14451. [CrossRef] 62. Pink, D.A.B. Hanna, C.B.; Sandt, C.; MacDonald, A.J.; MacEachern, R.; Corkery, R.; Rousseau, D. Modeling the solid-liquid phase transition in saturated triglycerides. J. Chem. Phys. 2010, 132, 054502. [CrossRef] 63. Pizzirusso, A.; Brasiello, A.; De Nicola, A.; Marangoni, A.G.; Milano, G. Coarse-grained modelling of triglyceride crystallisation: A molecular insight into tripalmitin tristearin binary mixtures by molecular dynamics simulations. J. Phys. D 2015, 48, 494004. [CrossRef] 64. Tascini, A.S.; Noro, M.G.; Chen, R.; Seddon, J.M.; Bresme, F. Understanding the interactions between sebum triglycerides and water: A molecular dynamics simulation study. Phys. Chem. Chem. Phys. 2018, 20, 1848–1860. [CrossRef] 65. Phan, T.T.; Harwell, J.H.; Sabatini, D.A. Effects of Triglyceride Molecular Structure on Optimum Formulation of Surfactant-Oil-Water Systems. J. Surfact Deterg. 2010, 13, 189–194. [CrossRef] 66. Henneré, G.; Prognon, P.; Brion, F.; Nicolis, I. Molecular dynamics study of a phospholipid monolayer at a water/triglyceride interface: Towards lipid emulsion modelling. Chem. Phys. Lip. 2009, 157, 86–93. [CrossRef] 67. Du, K.; Calautit, J.; Wang, Z.; Wu, Y.; Liu, H. A review of the applications of phase change materials in cooling , heating and power generation in different temperature ranges. Appl. Energy 2018, 220, 242–273. [CrossRef] 68. Abu-Hamdeh, N.H.; Alnefaie, K.A. Assessment of thermal performance of PCM in latent heat storage system for different applications. Sol. Energy 2019, 177, 317–323. [CrossRef] 69. Pereira da Cunha, J.; Eames, P. Thermal energy storage for low and medium temperature applications using phase change materials—A review. Appl. Energy 2016, 177, 227–238. [CrossRef] 70. Akgüna, M.; Aydın, O.; Kaygusuz, K. Experimental study on melting/solidification characteristics of a paraffin as PCM. Energy Convers. Manag. 2007, 48, 669–678. [CrossRef] 71. Ramakrishnan, S.; Sanjayan, J.; Wang, X.; Alam, M.; Wilson, J. A novel paraffin/expanded perlite composite phase change material for prevention of PCM leakage in cementitious composites. Appl. Energy 2015, 157, 85–94. [CrossRef] 72. Gunasekara, S.N.; Stalin, J.; Marçal, M.; Delubac, R.; Karabanova, A.; Chiu, J.N.; Martin, V. Erythritol, glycerol, their blends, and olive oil, as sustainable phase change materials. Energy Proc. 2017, 135, 249–262. [CrossRef]PDF Image | Triglycerides as Novel Phase-Change Materials
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