相変化材料
出典: フリー百科事典『ウィキペディア(Wikipedia)』 (2023/09/24 00:40 UTC 版)
相変化材料(そうへんかざいりょう、phase-change material (PCM))は、相変化時に大きなエネルギーの放出または吸収を行い、利用可能な程度の発熱または冷却を行うことができる物質の総称である。
- ^ a b Kenisarin, M; Mahkamov, K (2007). “Solar energy storage using phase change materials”. Renewable and Sustainable –1965 11 (9): 1913–1965. doi:10.1016/j.rser.2006.05.005.
- ^ “ENRG Blanket powered by BioPCM”. Phase Change Energy Solutions. 2018年3月12日閲覧。
- ^ "Heat storage systems" (PDF) by Mary Anne White, brings a list of advantages and disadvantages of Paraffin heat storage. A more complete list can be found in AccessScience from McGraw-Hill Education, DOI 10.1036/1097-8542.YB020415, last modified: March 25, 2002 based on 'Latent heat storage in concrete II, Solar Energy Materials, Hawes DW, Banu D, Feldman D, 1990, 21, pp.61–80.
- ^ Floros, Michael C.; Kaller, Kayden L. C.; Poopalam, Kosheela D.; Narine, Suresh S. (2016-12-01). “Lipid derived diamide phase change materials for high temperature thermal energy storage”. Solar Energy 139: 23–28. Bibcode: 2016SoEn..139...23F. doi:10.1016/j.solener.2016.09.032.
- ^ Agyenim, Francis; Eames, Philip; Smyth, Mervyn (2011-01-01). “Experimental study on the melting and solidification behaviour of a medium temperature phase change storage material (Erythritol) system augmented with fins to power a LiBr/H2O absorption cooling system”. Renewable Energy 36 (1): 108–117. doi:10.1016/j.renene.2010.06.005.
- ^ Fleishcher, A.S. (2014). “Improved heat recovery from paraffn-based phase change materials due to the presence of percolating graphene networks”. Improved Heat Recovery from Paraffn-based Phase Change Materials Due to the Presence of Percolating Graphene Networks 79: 324–333.
- ^ (2015). Thermal energy storage using phase change materials: fundamentals and applications. Springer
- ^ “Phase Change Energy Solutions”. 2018年2月28日閲覧。
- ^ Cantor, S. (1978). “DSC study of melting and solidification of salt hydrates”. Thermochimica Acta 26 (1–3): 39–47. doi:10.1016/0040-6031(78)80055-0.
- ^ olé, A.; Miró, L.; Barreneche, C.; Martorell, I.; Cabeza, L.F. (2015). “Corrosion of metals and salt hydrates used for thermochemical energy storage”. Renewable Energy 75: 519–523. doi:10.1016/j.renene.2014.09.059.
- ^ A. Sharma; V. Tyagi; C. Chen; D. Buddhi (February 2009). “Review on thermal energy storage with phase change materials and applications”. Renewable and Sustainable Energy Reviews 13 (2): 318–345. doi:10.1016/j.rser.2007.10.005.
- ^ Sharma, Someshower Dutt; Kitano, Hiroaki; Sagara, Kazunobu (2004). “Phase Change Materials for Low Temperature Solar Thermal Applications”. Res. Rep. Fac. Eng. Mie Univ. 29: 31–64. オリジナルの2020-06-27時点におけるアーカイブ。.
- ^ “Infinite R”. Insolcorp, Inc. 2017年3月1日閲覧。
- ^ “Phase Change Energy Solutions PhaseStor”. Phase Change Energy Solutions. 2018年2月28日閲覧。
- ^ Omer, A (2008). “Renewable building energy systems and passive human comfort solutions”. Renewable and Sustainable Energy Reviews 12 (6): 1562–1587. doi:10.1016/j.rser.2006.07.010.
- ^ “FlexTherm Eco, Flamco (Aalberts hydronic flow control)”. www.Flamco.com. 2021年11月20日閲覧。
- ^ Chatterjee, Rukmava; Beysens, Daniel; Anand, Sushant (2019). “Delaying Ice and Frost Formation Using Phase-Switching Liquids” (英語). Advanced Materials 31 (17): 1807812. Bibcode: 2019AdM....3107812C. doi:10.1002/adma.201807812. ISSN 1521-4095. PMID 30873685.
- ^ Aravind, Indulekha; Kumar, KP Narayana (2015年8月2日). “How two low-cost, made-in-India innovations MiraCradle & Embrace Nest are helping save the lives of newborns”. timesofindia-economictimes
- ^ “MiraCradle - Neonate Cooler”. miracradle.com. 2023年9月24日閲覧。
[続きの解説]
「相変化材料」の続きの解説一覧
- 1 相変化材料とは
- 2 相変化材料の概要
- 3 関連項目
- 相変化材料のページへのリンク
