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Abstract
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This paper reviews cascaded or multiple phase change materials (PCMs) approach to provide a fundamental
understanding of their thermal behaviors, the performance in terms of heat transfer uniformity,
and the influence of input parameters and different geometrical containments on the performance of
latent heat thermal energy storage (LHTES) systems. Furthermore, the performance enhancement of
energy components through the implementation of cascaded techniques and cascaded arrangements of
PCMs accompanied by other enhancement approaches is discussed. The influence of stage numbers
affecting the performance of the cascaded LHTES unit is summarized and the range of recommended
values for those parameters is provided. Our critical evaluation demonstrates that replacing single PCM
by multiple PCMs shows the possibility of improving the performance of TES in terms of energy, exergy
and entransy charging/discharging rate along with increased stored/retrieved energy and exergy efficiency.
It is also shown that the cascaded LHTES systems opens the doors of opportunity for the seasonal
energy sources and extracting the optimum amount of energy within the stipulated time through the
proper arrangement of PCMs. Finally, the discussions are extended to the challenges of implementing the
cascaded PCMs with some recommendations for future research in this direction.
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