Abstract
An application of latent heat thermal energy storage systems with phase change materials seems to be unavoidable in the present world. The latent heat thermal energy storage systems allow for storing excessive heat during low demand and then releasing it during peak demand. However, a phase change material is only one of the components of a latent heat thermal energy storage system. The second part of the latent heat thermal energy storage is a heat exchanger that allows heat transfer between a heat transfer fluid and a phase change material. Thus, the main aim of this review paper is to present and systematize knowledge about the heat exchangers used in the latent heat thermal energy storage systems. Furthermore, the operating parameters influencing the phase change time of phase change materials in the heat exchangers, and the possibilities of accelerating the phase change are discussed. Based on the literature reviewed, it is found that the phase change time of phase change materials in the heat exchangers can be reduced by changing the geometrical parameters of heat exchangers or by using fins, metal foams, heat pipes, and multiple phase change materials. To decrease the phase change material’s phase change time in the tubular heat exchangers it is recommended to increase the number of tubes keeping the phase change material’s mass constant. In the case of tanks filled with spherical phase change material’s capsules, the capsules’ diameter should be reduced to shorten the phase change time. However, it is found that some changes in the constructions of heat exchangers reduce the melting time of the phase change materials, but they increase the solidification time.
Highlights
The thermal energy storage (TES) seems to be unavoidable in the present world due to several reasons
It was confirmed by numerous scientists that the melting process is faster than the solidification process [13,14,18,19,20,21,22,23,24,25], and the heat exchangers should be designed in such a way that do not suppress the natural convection inside the phase change materials (PCMs) [16,26]
Han et al [78] showed that the melting timethe of in the horizontal cylinder model was lower by compared to the pipe model if the the PCM in the horizontal cylinder model Double-tube heat heat exchangers exchangers (DTHXs) was lower by 23.5% compared to the pipe model if mass andand heatheat transfer surface area was equal inin each case
Summary
The thermal energy storage (TES) seems to be unavoidable in the present world due to several reasons. There is a tendency to increase the use of both cogeneration and waste heat recovery as well as energy from renewable sources, it can generally be concluded that their common disadvantage is often the discrepancy between the time of energy supply and time of energy demand. It seems that the use of energy storage systems, including TES, is the necessity.
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