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W2008931698 abstract "The sustainability index is an adaptive, multicriteria and novel technique that is used to compare different energy storage systems for their sustainability. This innovative concept utilizes both qualitative and quantitative results to measure sustainability through an index based approach. This report aims to compare three different energy storage options for an intermittent renewable energy source. The three energy storage options are lead acid batteries, lithium polymer batteries and fuel cell systems, that are selected due to their availability and the geographical constrain of using other energy storage options. The renewable energy source used is solar photovoltaic (PV). Several technical, economic and environmental factors have been discussed elaborately which would help us to evaluate the merits of the energy storage system for long term storage. Finally, a novel sustainability index has been proposed which quantifies the qualitative and quantitative aspects of the factors discussed, and thus helps us choose the ideal energy storage system for our scenario. A weighted sum approach is used to quantify each factor according to their importance. After a detailed analysis of the three energy storage systems through the sustainability index approach, the most feasible energy storage option was found to be fuel cell systems which can provide a long term energy storage option and also environmental friendly." @default.
W2008931698 created "2016-06-24" @default.
W2008931698 creator A5011685624 @default.
W2008931698 creator A5062586602 @default.
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W2008931698 date "2014-12-01" @default.
W2008931698 modified "2023-10-01" @default.
W2008931698 title "Sustainability index approach as a selection criteria for energy storage system of an intermittent renewable energy source" @default.
W2008931698 cites W1964919311 @default.
W2008931698 cites W1967898971 @default.
W2008931698 cites W1971627467 @default.
W2008931698 cites W1973308766 @default.
W2008931698 cites W1974955113 @default.
W2008931698 cites W1975024052 @default.
W2008931698 cites W1975435454 @default.
W2008931698 cites W1977110707 @default.
W2008931698 cites W1978450952 @default.
W2008931698 cites W1979037298 @default.
W2008931698 cites W1979216334 @default.
W2008931698 cites W1981420659 @default.
W2008931698 cites W1985654449 @default.
W2008931698 cites W1989937017 @default.
W2008931698 cites W1990211070 @default.
W2008931698 cites W1990934805 @default.
W2008931698 cites W1995533518 @default.
W2008931698 cites W2005788866 @default.
W2008931698 cites W2008704783 @default.
W2008931698 cites W2012536706 @default.
W2008931698 cites W2013190587 @default.
W2008931698 cites W2019467188 @default.
W2008931698 cites W2020211270 @default.
W2008931698 cites W2023979635 @default.
W2008931698 cites W2033507953 @default.
W2008931698 cites W2038845772 @default.
W2008931698 cites W2039987036 @default.
W2008931698 cites W2040237546 @default.
W2008931698 cites W2043317049 @default.
W2008931698 cites W2044559152 @default.
W2008931698 cites W2048458147 @default.
W2008931698 cites W2049642529 @default.
W2008931698 cites W2049771614 @default.
W2008931698 cites W2051502460 @default.
W2008931698 cites W2052060286 @default.
W2008931698 cites W2054623088 @default.
W2008931698 cites W2055150293 @default.
W2008931698 cites W2061111089 @default.
W2008931698 cites W2063142639 @default.
W2008931698 cites W2064633595 @default.
W2008931698 cites W2065677630 @default.
W2008931698 cites W2066848303 @default.
W2008931698 cites W2066858174 @default.
W2008931698 cites W2069970796 @default.
W2008931698 cites W2072464631 @default.
W2008931698 cites W2074011240 @default.
W2008931698 cites W2076832175 @default.
W2008931698 cites W2077984397 @default.
W2008931698 cites W2083220672 @default.
W2008931698 cites W2084955245 @default.
W2008931698 cites W2090843220 @default.
W2008931698 cites W2099271915 @default.
W2008931698 cites W2100141697 @default.
W2008931698 cites W2100676776 @default.
W2008931698 cites W2108731655 @default.
W2008931698 cites W2114153151 @default.
W2008931698 cites W2118147370 @default.
W2008931698 cites W2121879133 @default.
W2008931698 cites W2136244454 @default.
W2008931698 cites W2140011994 @default.
W2008931698 cites W2142301550 @default.
W2008931698 cites W2160251018 @default.
W2008931698 cites W2168010250 @default.
W2008931698 cites W2492524580 @default.
W2008931698 doi "https://doi.org/10.1016/j.apenergy.2014.04.080" @default.
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