CSP/biomass hybrid externally fired gas turbines: thermo-economic assessment
Abstract
This paper focuses on the thermo-economic analysis of a hybrid solar-biomass CHP combined cycle composed by a 1.3-MW externally fired gas-turbine (EFGT) and a bottoming organic Rankine cycle (ORC) plant. The primary thermal energy input is provided by a hybrid concentrating solar power (CSP) collector-array coupled to a biomass boiler. The CSP collector-array is based on parabolic-trough concentrators (PTCs) with molten salts as the heat transfer fluid (HTF) upstream of a fluidized-bed furnace for direct biomass combustion. Thermal-energy storage (TES) with two molten-salt tanks (one cold and one hot) is considered, as a means to reducing the variations in the plant’s operating conditions and increasing the plant’s capacity factor. On the basis of the results of the thermodynamic simulations, upfront and operational costs assessments, and considering an Italian energy policy scenario (feed-in tariffs for renewable electricity), the global energy conversion efficiency and investment profitability of this plant are estimated for 2 different sizes of CSP arrays and biomass furnaces. The results indicate the low economic profitability of CSP configuration in comparison to only biomass CHP, because of the high investment costs, which are not compensated by higher electricity sales revenues.
Anno di pubblicazione
2016
ISSN
Non Disponibile
ISBN
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Numero di citazioni Wos
Nessuna citazione
Ultimo Aggiornamento Citazioni
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Numero di citazioni Scopus
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Settori ERC
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Codici ASJC
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