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A review on efficiently integrated passive distillation systems for active solar steam evaporation SCIE SCOPUS

Title
A review on efficiently integrated passive distillation systems for active solar steam evaporation
Authors
Arunkumar T.Lim H.W.Lee S.J.
Date Issued
2022-03
Publisher
Elsevier BV
Abstract
Solar energy-driven desalination is one of sustainable means to produce reusable water. Recently, solar distiller formally known as a solar still (SS) has been commonly employed to get freshwater through evaporation and consequent condensation process. However, such passive systems are typically slow on the distillation process, because bulk heating requirement and other energy losses. To increase the fresh water productivity of the passive distillation systems, researchers have usually adopted concentrators, reflecting mirrors, evacuated tube collectors (ETC), energy absorbing-engineered nanoparticles and energy storage (sensible and latent heat) materials. In this manner, water in a distiller can obtain additional heat and speedy evaporation take place immediately. Thus, efficient integration of passive distillation is highly useful to achieve appreciable production rate of fresh water for human daily needs. In this aspect, many researchers continuously tried to develop new innovative technologies for effective solar desalination. The main objective of this assessment is to review the current integration strategies and consequences for improving the productivity of solar distillers. Here, the term integration comprises additional heat sources, including heat confinement to broadband nanoparticles (micro-integration), concentrators, reflecting-mirrors (macro-integration), latent heat storage (LHS), sensible heat storage (SHS), and wicking cloth-based absorbers. This review exclusively focused on the newest results in the year of 2020–2021. In addition, the challenges, limitations, and requirements for future prospects are discussed.
URI
https://oasis.postech.ac.kr/handle/2014.oak/110887
DOI
10.1016/j.rser.2021.111894
ISSN
1364-0321
Article Type
Article
Citation
Renewable and Sustainable Energy Reviews, vol. 155, 2022-03
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이상준LEE, SANG JOON
Dept of Mechanical Enginrg
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