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

The Society of Air-Conditioning and Refrigerating Engineers of Korea (대한설비공학회)
권호 표지

Thermodynamic performance of 2-PCM latent heat thermal energy storage system

2-PCM 잠열축열 시스템의 열역학적 성능

  • Published : 2000.02.01
Download PDF
⟨ Previous Next ⟩

Abstract

This paper investigates the thermodynamic performance of latent heat thermal energy storage system using two phase change materials(2-PCM system). The thermodynamic merit of using 2-PCM is clear in terms of exergetic efficiency, which is substantially higher than that of 1-PCM system. Optimum phase change temperature to maximize the exergetic efficiency exists for each case. The heat transfer area ratio of high temperature storage unit, X, becomes another important parameter for 2-PCM system if the phase change temperatures of given materials are different from those of optimum conditions. It is a good approximation for X$_{opt}$ to be 0.5 when optimum phase change temperatures are used. Otherwise X$_{opt}$ is determined differently as a function of given phase change temperatures.res.

Keywords

References

  1. Journal of Heat Transfer v.100 Two thermodynamic optima in the design of sensible heat units for energy storage Bejan, A.
  2. International Journal of Heat and Mass Transfer v.30 A second law analysis of the optimum design and operation of thermal energy storage system Krane, R. J.
  3. ASME Journal of Energy Resources Technology v.113 A second law analysis of sensible heat thermal energy storage systems with a distributed storage element, Part Ⅰand Ⅱ Taylor, M. J.;Krane, R. J.;Parsons, J. R.
  4. ASME Journal of Solar Energy Engineering v.112 Thermodynamics of energy storage by melting due to conduction or natural convection De Lucia, M.;Bejan A.
  5. ASME Journal of Energy Resources Technology v.116 Optimum efficiencies and phase change temperatures in latent heat storage systems Aceves-Saborio, S.;Nakamura H.;Reistad, G. M.
  6. ASME Journal of Energy Resources Technology v.114 Thermodynamic optimization of phase change energy storage using two or more materials Lim, J. S.;Bejan, A.;Kim, J. H.
  7. ASME Journal of Solar Energy Engineering v.120 Optimization of a class of latent thermal energy storage systems with multiple phase-change materials Aceves, S. M.;Nakamura, H.;Reistad, G. M.;Martinez-Frias, J.