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Sustainability 2018, 10, 191 31 of 32 59. Ohanessian, P.; Charters, W.W.S. Thermal simulation of a passive solar house using a Trombe-Michel wall structure. Sol. Energy 1978, 20, 275–281. [CrossRef] 60. Lai, C.; Hokoi, S. Thermal performance of an aluminum honeycomb wallboard incorporating microencapsulated PCM. Energy Build. 2014, 73, 37–47. [CrossRef] 61. Silva, T.; Vicente, R.; Soares, N.; Ferreira, V. Experimental testing and numerical modelling of masonry wall solution with PCM incorporation: A passive construction solution. Energy Build. 2012, 49, 235–245. [CrossRef] 62. Sun, Y.; Wang, S.; Xiao, F.; Gao, D. Peak load shifting control using different cold thermal energy storage facilities in commercial buildings: A review. Energy Convers. Manag. 2013, 71, 101–114. [CrossRef] 63. Waqas, A.; Din, Z.U. Phase change material (PCM) storage for free cooling of buildings: A review. Renew. Sustain. Energy Rev. 2013, 18, 607–625. [CrossRef] 64. De Gracia, A.; Navarro, L.; Castell, A.; Ruiz-Pardo, A.; Alvarez, S.; Cabeza, L.F. Experimental study of a ventilated facade with PCM during winter period. Energy Build. 2012, 58, 324–332. [CrossRef] 65. Constantinescu, M.; Dumitrache, L.; Constantinescu, D.; Anghel, E.; Popa, V.; Stoica, A.; Olteanu, M. Latent heat nano composite building materials. Eur. Polym. J. 2010, 46, 2247–2254. [CrossRef] 66. Kalaiselvam, S.; Parameshwaran, R.; Harikrishnan, S. Analytical and experimental investigations of nanoparticles embedded phase change materials for cooling application in modern buildings. Renew. Energy 2012, 39, 375–387. [CrossRef] 67. Kumaresan, V.; Chandrasekaran, P.; Nanda, M.; Maini, A.; Velraj, R. Role of PCM based nanofluids for energy efficient cool thermal storage system. Int. J. Refrig. 2013, 36, 1641–1647. [CrossRef] 68. Sayyar, M.; Weerasiri, R.R.; Soroushian, P.; Lu, J. Experimental and numerical study of shape-stable phase-change nanocomposite toward energy-efficient building constructions. Energy Build. 2014, 75, 249–255. [CrossRef] 69. Parameshwaran, R.; Deepak, K.; Saravanan, R.; Kalaiselvam, S. Preparation, thermal and rheological properties of hybrid nanocomposite phase change material for thermal energy storage. Appl. Energy 2014, 115, 320–330. [CrossRef] 70. Harikrishnan, S.; Deenadhayalan, M.; Kalaiselvam, S. Experimental investigation of solidification and melting characteristics of composite PCMs for building heating application. Energy Convers. Manag. 2014, 86, 864–872. [CrossRef] 71. Sarı, A.; Alkan, C.; Özcan, A.N. Synthesis and characterization of micro/nanocapsules of PMMA/capric–stearic acid eutectic mixture for low temperature-thermal energy storage in buildings. Energy Build. 2015, 90, 106–113. [CrossRef] 72. Amin, M.; Putra, N.; Kosasih, E.A.; Prawiro, E.; Luanto, R.A.; Mahlia, T. Thermal properties of beeswax/graphene phase change material as energy storage for building applications. Appl. Therm. Eng. 2017, 112, 273–280. [CrossRef] 73. Hussain, S.I.; Dinesh, R.; Roseline, A.A.; Dhivya, S.; Kalaiselvam, S. Enhanced thermal performance and study the influence of sub cooling on activated carbon dispersed eutectic PCM for cold storage applications. Energy Build. 2017, 143, 17–24. [CrossRef] 74. Nomura, T.; Okinaka, N.; Akiyama, T. Impregnation of porous material with phase change material for thermal energy storage. Mater. Chem. Phys. 2009, 115, 846–850. [CrossRef] 75. Tyagi, V.V.; Kaushik, S.C.; Tyagi, S.K.; Akiyama, T. Development of phase change materials based microencapsulated techno-logy for buildings: A review. Renew. Sustain. Energy Rev. 2011, 15, 1373–1391. [CrossRef] 76. Delgado, M.; Lazzaro, A.; Mazo, J.; Zalba, B. Review on phase change material emulsions and microencapsulated phase change material slurries: Materials, heat transfer studies and applications. Renew. Sustain. Energy Rev. 2012, 16, 253–273. [CrossRef] 77. Höhne, G.; Hemminger, W.; Wolfgang, F.; Flammersheim, H.-J. Differential Scanning Calorimetry; Springer: Heidelberg/Berlin, Germany, 2003. 78. Li, G.; Hwang, Y.; Radermacher, R. Review of cold storage materials for air conditioning application. Int. J. Refrig. 2012, 35, 2053–2077. [CrossRef] 79. Garg, H.P.; Mullick, S.C.; Bhargava, A.K. Solar Thermal Energy Storage; Springer: Boston, MA, USA, 2013. 80. Herrmann, U.; Kelly, B.; Price, H. Two-tank molten salt storage for parabolic trough solar power plants. Energy 2004, 29, 883–893. [CrossRef]PDF Image | Comprehensive Review of Thermal Energy Storage
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