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W2558609496 abstract "Abstract This article presents a review on the research and development of spectral beam splitting concentrated photovoltaic/thermal (SBS CPVT) hybrid solar systems. The investigations on the SBS CPVT hybrid technologies had begun in the 1980s and were aimed at complete utilization of the solar irradiation over the whole solar spectrum using both PV cells and thermal absorbers. Several different SBS approaches were employed to achieve better conversion efficiencies, including the interference filter, liquid absorptive filter, holographic filter, luminescent filter, diffractive filter, combined interference and liquid absorptive filter, combined liquid and solid absorptive filter, and photovoltaics itself as a solid absorptive filter. The SBS CPVT systems were proposed or assembled in various system configurations for numerous purposes, such as domestic hot water, thermochemical reaction, hydrogen production, or even power generation. These researches and developments are comprehensively reviewed in this article, and the advantages and disadvantages of different SBS methods are presented and concluded. This paper also aims to provide a global point of view on research trends, market potential, technical obstacles, and the future work required for the development of SBS CPVT technology." @default.
W2558609496 created "2016-12-08" @default.
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W2558609496 date "2017-02-01" @default.
W2558609496 modified "2023-10-13" @default.
W2558609496 title "A review of the concentrated photovoltaic/thermal (CPVT) hybrid solar systems based on the spectral beam splitting technology" @default.
W2558609496 cites W1552844018 @default.
W2558609496 cites W1770664584 @default.
W2558609496 cites W1910129225 @default.
W2558609496 cites W1964155082 @default.
W2558609496 cites W1964488106 @default.
W2558609496 cites W1964902557 @default.
W2558609496 cites W1965433065 @default.
W2558609496 cites W1968453106 @default.
W2558609496 cites W1970692997 @default.
W2558609496 cites W1972079266 @default.
W2558609496 cites W1973989996 @default.
W2558609496 cites W1975910496 @default.
W2558609496 cites W1981480023 @default.
W2558609496 cites W1984186404 @default.
W2558609496 cites W1986366546 @default.
W2558609496 cites W1986712191 @default.
W2558609496 cites W1990046459 @default.
W2558609496 cites W1993817106 @default.
W2558609496 cites W1994388652 @default.
W2558609496 cites W1995917794 @default.
W2558609496 cites W1999279422 @default.
W2558609496 cites W2000310455 @default.
W2558609496 cites W2002159817 @default.
W2558609496 cites W2011517656 @default.
W2558609496 cites W2011665202 @default.
W2558609496 cites W2023238086 @default.
W2558609496 cites W2024530060 @default.
W2558609496 cites W2026239026 @default.
W2558609496 cites W2026770156 @default.
W2558609496 cites W2029149883 @default.
W2558609496 cites W2033362911 @default.
W2558609496 cites W2046067403 @default.
W2558609496 cites W2053423855 @default.
W2558609496 cites W2056164786 @default.
W2558609496 cites W2056185142 @default.
W2558609496 cites W2057258139 @default.
W2558609496 cites W2061978968 @default.
W2558609496 cites W2067660916 @default.
W2558609496 cites W2069387933 @default.
W2558609496 cites W2075148945 @default.
W2558609496 cites W2078006225 @default.
W2558609496 cites W2083159965 @default.
W2558609496 cites W2083241321 @default.
W2558609496 cites W2084071688 @default.
W2558609496 cites W2084655727 @default.
W2558609496 cites W2085713745 @default.
W2558609496 cites W2086985271 @default.
W2558609496 cites W2089407270 @default.
W2558609496 cites W2091576220 @default.
W2558609496 cites W2094500754 @default.
W2558609496 cites W2095488491 @default.
W2558609496 cites W2097219155 @default.
W2558609496 cites W2098487618 @default.
W2558609496 cites W2100382078 @default.
W2558609496 cites W2113435148 @default.
W2558609496 cites W2117964549 @default.
W2558609496 cites W2144581650 @default.
W2558609496 cites W2156549570 @default.
W2558609496 cites W2161662289 @default.
W2558609496 cites W2163303085 @default.
W2558609496 cites W2169522154 @default.
W2558609496 cites W2259179310 @default.
W2558609496 cites W2259574124 @default.
W2558609496 cites W2265840411 @default.
W2558609496 cites W2279690397 @default.
W2558609496 cites W2475518328 @default.
W2558609496 cites W4205771209 @default.
W2558609496 cites W4243060495 @default.
W2558609496 doi "https://doi.org/10.1016/j.apenergy.2016.11.087" @default.
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