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W4303645134 endingPage "105828" @default.
W4303645134 startingPage "105828" @default.
W4303645134 abstract "Refrigeration has become an important part of human comfort and consumes almost 20 % of the total energy consumption of the commercial industry. Using fossil fuels to run refrigeration systems imposes a threat of global warming due to the release of carbon content during electricity production. On the other hand, the use of refrigerants also contributes to global warming and ozone layer depletion. The vapor absorption refrigeration system (VARS) with water‑lithium bromide (H 2 O-LiBr) could serve the purpose because pair of the refrigerant and absorbent does not release any harmful residuals. The H 2 O-LiBr vapor absorption refrigeration system with clean energy would remove the carbon emission completely. Among the available energy sources, solar energy is the cleanest source, and it is widely available throughout the globe. The only limitation of solar energy is its non-continuous and intermittent nature. Latent heat storage (LHS) is a promising and emerging technology to store solar heat and ensure the continuous operation of solar thermal-driven systems. LHS with suitable phase change material (PCM) and storage tank could be used to supply heat for operation of VARS. The potential and qualified PCM for the VARS application are discussed with the latest findings on their characterization, shortcomings, solutions and recent advancements. The detailed information enables to select the right PCM for VARS application. A detailed review on various designs of storage tank for LHS is made, the listed findings should be considered while designing the storage tank for VARS. The performance enhancement techniques like fins addition, encapsulations and use of additives are also discussed. The state of research of LHS integration with VARS is explored. The future perspective for the VARS-LHS integration is derived from the implications of the published research works. The outcomes of the review can be highlighted such that some modifications are needed in the organic and inorganic PCM to make it appropriate for heat storage. The number of operating hours of heat-driven VARS can be increased through LHS integration. The adoption rate of solar thermal VARS technology will determine the future of LHS for VARS. This review article serves as the reference guideline for planning, designing and development of the latent heat storage for vapor absorption refrigeration systems. • Organic PCM are best fit for solar heat storage if thermal conductivity is improved. • Inorganic PCM needs additives to mitigate the subcooling and phase separation. • Heat exchanger with higher heat transfer coefficient is preferred. • Integration of LHS with VARS extends the operation time of the refrigeration plant. • Future of LHS technology depends on the adoption of solar thermal VARS technology." @default.
W4303645134 created "2022-10-08" @default.
W4303645134 creator A5055012923 @default.
W4303645134 creator A5080216586 @default.
W4303645134 date "2022-11-01" @default.
W4303645134 modified "2023-10-18" @default.
W4303645134 title "A review on latent heat energy storage for solar thermal water-lithium bromide vapor absorption refrigeration system" @default.
W4303645134 cites W1903937141 @default.
W4303645134 cites W1963931265 @default.
W4303645134 cites W1968671164 @default.
W4303645134 cites W1972785421 @default.
W4303645134 cites W1972882748 @default.
W4303645134 cites W1974515205 @default.
W4303645134 cites W1975687576 @default.
W4303645134 cites W1979144939 @default.
W4303645134 cites W1980575992 @default.
W4303645134 cites W1983640005 @default.
W4303645134 cites W1983691271 @default.
W4303645134 cites W1985282853 @default.
W4303645134 cites W1991929321 @default.
W4303645134 cites W1992649838 @default.
W4303645134 cites W2004202959 @default.
W4303645134 cites W2006127728 @default.
W4303645134 cites W2008197364 @default.
W4303645134 cites W2011859892 @default.
W4303645134 cites W2015933623 @default.
W4303645134 cites W2019016925 @default.
W4303645134 cites W2019411199 @default.
W4303645134 cites W2019858338 @default.
W4303645134 cites W2022674074 @default.
W4303645134 cites W2024360636 @default.
W4303645134 cites W2027316199 @default.
W4303645134 cites W2030570669 @default.
W4303645134 cites W2031189376 @default.
W4303645134 cites W2042141131 @default.
W4303645134 cites W2042538126 @default.
W4303645134 cites W2048201553 @default.
W4303645134 cites W2049173850 @default.
W4303645134 cites W2051328598 @default.
W4303645134 cites W2052913980 @default.
W4303645134 cites W2054609828 @default.
W4303645134 cites W2055971253 @default.
W4303645134 cites W2056243450 @default.
W4303645134 cites W2059979490 @default.
W4303645134 cites W2062381602 @default.
W4303645134 cites W2063230248 @default.
W4303645134 cites W2064172788 @default.
W4303645134 cites W2066342423 @default.
W4303645134 cites W2068406285 @default.
W4303645134 cites W2068815865 @default.
W4303645134 cites W2072335901 @default.
W4303645134 cites W2077907049 @default.
W4303645134 cites W2085160157 @default.
W4303645134 cites W2087613582 @default.
W4303645134 cites W2093172029 @default.
W4303645134 cites W2093354875 @default.
W4303645134 cites W2096504525 @default.
W4303645134 cites W2097088642 @default.
W4303645134 cites W2132164994 @default.
W4303645134 cites W2144282004 @default.
W4303645134 cites W2151080396 @default.
W4303645134 cites W2163755005 @default.
W4303645134 cites W2190470515 @default.
W4303645134 cites W2203447527 @default.
W4303645134 cites W2252651813 @default.
W4303645134 cites W2287068181 @default.
W4303645134 cites W2293534651 @default.
W4303645134 cites W2306084996 @default.
W4303645134 cites W2328326813 @default.
W4303645134 cites W2341990972 @default.
W4303645134 cites W2362365340 @default.
W4303645134 cites W2390952678 @default.
W4303645134 cites W2402885866 @default.
W4303645134 cites W2460474378 @default.
W4303645134 cites W2491024040 @default.
W4303645134 cites W2564572201 @default.
W4303645134 cites W2592698813 @default.
W4303645134 cites W2595386390 @default.
W4303645134 cites W2613124924 @default.
W4303645134 cites W2615969123 @default.
W4303645134 cites W2662747502 @default.
W4303645134 cites W2726913734 @default.
W4303645134 cites W2756443402 @default.
W4303645134 cites W2765291333 @default.
W4303645134 cites W2772739313 @default.
W4303645134 cites W2775643641 @default.
W4303645134 cites W2779742404 @default.
W4303645134 cites W2792101759 @default.
W4303645134 cites W2792110765 @default.
W4303645134 cites W2884955463 @default.
W4303645134 cites W2885356860 @default.
W4303645134 cites W2886272694 @default.
W4303645134 cites W2891107018 @default.
W4303645134 cites W2899551118 @default.
W4303645134 cites W2901063806 @default.
W4303645134 cites W2909869953 @default.
W4303645134 cites W2910804991 @default.
W4303645134 cites W2920612063 @default.