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W2901613013 endingPage "390" @default.
W2901613013 startingPage "372" @default.
W2901613013 abstract "Present synergistic review is an attempt to evaluate compatibility of application of solar energy based systems for water purification. It provides an eagle’s perspective on progressive and contemporary, experimental and theoretical studies of water purification and production. Review focuses on conventional as well as modern techniques of desalination and waste water treatment. Systems modification with application of advanced materials and mimicking nature’s ways of conversion of waste water into potable water in vapor form has been new areas of research. Twenty-first century being marked with consistent and focused effort to conserve natural resources. It can be addressed by putting enhanced emphasis on use of non-conventional energy resources. Hybrid materials, like core shells, blended nanofluids can be used for selective absorptance of ultraviolet and infra-red radiation. This may be utilized in disinfection of certain type of harmful bacteria, and to enhance rate of diffusion through thin membrane. These are an innovative and promising techniques being used in recent years. There has been policy initiative taken by governments and research institutions to use solar energy in devices which are designed for water purification and production. With use of advanced materials for filter design, design modification of solar energy collecting devices, employing suitable photocatalytic conversion processes, area specific need based purification systems can be developed." @default.
W2901613013 created "2018-11-29" @default.
W2901613013 creator A5029135754 @default.
W2901613013 creator A5038365882 @default.
W2901613013 creator A5090379379 @default.
W2901613013 date "2019-01-01" @default.
W2901613013 modified "2023-09-27" @default.
W2901613013 title "A synergistic evaluation on application of solar-thermal energy in water purification: Current scenario and future prospects" @default.
W2901613013 cites W1655920638 @default.
W2901613013 cites W1751797750 @default.
W2901613013 cites W1969666766 @default.
W2901613013 cites W1981206423 @default.
W2901613013 cites W1995516019 @default.
W2901613013 cites W2002304646 @default.
W2901613013 cites W2013677059 @default.
W2901613013 cites W2021157791 @default.
W2901613013 cites W2025054510 @default.
W2901613013 cites W2025889873 @default.
W2901613013 cites W2027834832 @default.
W2901613013 cites W2031107636 @default.
W2901613013 cites W2038648344 @default.
W2901613013 cites W2043834042 @default.
W2901613013 cites W2046570808 @default.
W2901613013 cites W2052185541 @default.
W2901613013 cites W2056697704 @default.
W2901613013 cites W2069191983 @default.
W2901613013 cites W2074685217 @default.
W2901613013 cites W2080365232 @default.
W2901613013 cites W2081549881 @default.
W2901613013 cites W2082824154 @default.
W2901613013 cites W2099909061 @default.
W2901613013 cites W2108032269 @default.
W2901613013 cites W2108885225 @default.
W2901613013 cites W2111836708 @default.
W2901613013 cites W2135321418 @default.
W2901613013 cites W2179608566 @default.
W2901613013 cites W2193905293 @default.
W2901613013 cites W2223765904 @default.
W2901613013 cites W2328432877 @default.
W2901613013 cites W2483362938 @default.
W2901613013 cites W2488815739 @default.
W2901613013 cites W2510350912 @default.
W2901613013 cites W2513447832 @default.
W2901613013 cites W2522584568 @default.
W2901613013 cites W2527101766 @default.
W2901613013 cites W2551993753 @default.
W2901613013 cites W2557514093 @default.
W2901613013 cites W2561597502 @default.
W2901613013 cites W2563228880 @default.
W2901613013 cites W2571968696 @default.
W2901613013 cites W2576555683 @default.
W2901613013 cites W2586492065 @default.
W2901613013 cites W2587197564 @default.
W2901613013 cites W2593675354 @default.
W2901613013 cites W2611518324 @default.
W2901613013 cites W2612469803 @default.
W2901613013 cites W2726655414 @default.
W2901613013 cites W2746271131 @default.
W2901613013 cites W2746604848 @default.
W2901613013 cites W2747521879 @default.
W2901613013 cites W2748744538 @default.
W2901613013 cites W2749703667 @default.
W2901613013 cites W275002651 @default.
W2901613013 cites W2753938052 @default.
W2901613013 cites W2754872109 @default.
W2901613013 cites W2756540853 @default.
W2901613013 cites W2757679634 @default.
W2901613013 cites W2761672085 @default.
W2901613013 cites W2761998859 @default.
W2901613013 cites W2766483242 @default.
W2901613013 cites W2769149369 @default.
W2901613013 cites W2770312871 @default.
W2901613013 cites W2775815819 @default.
W2901613013 cites W2779081711 @default.
W2901613013 cites W2781379104 @default.
W2901613013 cites W2782279786 @default.
W2901613013 cites W2789469780 @default.
W2901613013 cites W2790213731 @default.
W2901613013 cites W2791073883 @default.
W2901613013 cites W2791628830 @default.
W2901613013 cites W2793552678 @default.
W2901613013 cites W2794379127 @default.
W2901613013 cites W2799782013 @default.
W2901613013 cites W2803649673 @default.
W2901613013 cites W2809189153 @default.
W2901613013 cites W2810589778 @default.
W2901613013 cites W2883959010 @default.
W2901613013 cites W2884459708 @default.
W2901613013 cites W2888591385 @default.
W2901613013 cites W2891089652 @default.
W2901613013 cites W4253794826 @default.
W2901613013 cites W567162263 @default.
W2901613013 cites W644803168 @default.
W2901613013 doi "https://doi.org/10.1016/j.enconman.2018.10.090" @default.
W2901613013 hasPublicationYear "2019" @default.
W2901613013 type Work @default.
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