설비공학논문집 (Korean Journal of Air-Conditioning and Refrigeration Engineering)

  • 제27권3호
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  • Pages.123-127
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  • 2015
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  • 1229-6422(pISSN)
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  • 2465-7611(eISSN)
대한설비공학회 (The Society of Air-Conditioning and Refrigerating Engineers of Korea)
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염화칼슘이 함침된 펄라이트를 이용한 화학축열에 대한 실험적 연구

Experimental Study on Calcium Chloride Impregnated Perlite for Thermochemical Heat Storage

  • 정한솔 (한국과학기술연구원 도시에너지시스템연구단) ;
  • 김학성 (한국과학기술연구원 도시에너지시스템연구단) ;
  • 황경엽 (한국과학기술연구원 도시에너지시스템연구단) ;
  • 김광호 (한국과학기술연구원 도시에너지시스템연구단)
  • Jung, Han Sol (Center for Urban Energy System Research, Korea Institute of Science and Technology) ;
  • Kim, Hak Seong (Center for Urban Energy System Research, Korea Institute of Science and Technology) ;
  • Hwang, Kyung Yub (Center for Urban Energy System Research, Korea Institute of Science and Technology) ;
  • Kim, Kwang Ho (Center for Urban Energy System Research, Korea Institute of Science and Technology)
  • 투고 : 2014.12.05
  • 심사 : 2015.01.07
  • 발행 : 2015.03.10
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초록

Thermochemical heat storage is a cutting-edge technology which can balance the energy usage between supplies and demands. Recent studies have suggested that thermochemical heat storage has significant advantages, compared to other storage methods such as latent heat storage or sensible heat storage. Nevertheless, ongoing research and development studies showed that the thermochemical heat storage has some serious problems. To bring the thermochemical heat storage method into market, we introduce experimental setup with composite material using perlite that supports calcium chloride sorbent. Also, to compare thermal properties with composite material, we used pure thermochemical material. Then, we found that the composite material has higher heat storage density by mass than pure calcium chloride. Moreover, it can be easily regenerated, which was impossible in the pure thermochemical materials.

키워드

참고문헌

  1. Abedin, A. H., 2010, Thermochemical Energy Storage Systems : Modelling, Analysis and Design, MS degree thesis, University of Ontario Institute of Technology, Ontario, OT, Canada.
  2. Parfait, T., Nolwenn, L. P., and Lingai, L., 2013, A review of potential materials for thermal energy storage in building applications, Renewable and Sustainable Energy Reviews, Vol. 18, issue C, pp. 327-349. https://doi.org/10.1016/j.rser.2012.10.025
  3. Van Essen, V. M., Bleijendaal, L. P. J., Kikkert, B. W. J., Zondag, H. A., Bakker, M., and Bach, P. W., 2010, Development of a compact heat storage based on salt hydrates, Proceedings of the Eurosun 2010, 2nd International Conference on Solar Heating, Cooling and Buildings, Graz, Austria.
  4. Molenda, M., Stengler, J., Linder, M., and Worner, A., 2013, Reversible hydration behavior of $CaCl_2$ at high $H_2O$ partial pressures for thermochemical energy storage, Thermochimica Acta, Vol. 560, pp. 76-81. https://doi.org/10.1016/j.tca.2013.03.020
  5. Yu, N., Wang, R. Z., and Wang, L.W., 2013, Sorption thermal storage for solar energy, Progress in Energy and Combustion Science, Vol. 39, No. 5, pp. 489-514. https://doi.org/10.1016/j.pecs.2013.05.004

피인용 문헌

  1. Recent Progress in Air-Conditioning and Refrigeration Research : A Review of Papers Published in the Korean Journal of Air-Conditioning and Refrigeration Engineering in 2015 vol.28, pp.6, 2016, https://doi.org/10.6110/KJACR.2016.28.6.256