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W4378084799 abstract "Considering the current crisis of fossil energies, the exploitation of renewables and green technologies is necessary and unavoidable. Additionally, the design and development of integrated energy systems with two or more output products and the maximum usage of thermal losses in order to improve efficiency can boost the yield and acceptability of the energy system. In this regard, this paper develops a comprehensive multi-aspect assessment of the operation of a new solar and biomass energies-driven multigeneration system (MGS). The main units installed in MGS are three electric energy generation units based on a gas turbine process, a solid oxide fuel cell unit (SOFCU) and an organic Rankine cycle unit (ORCU), a biomass energy conversion unit to useful thermal energy, a seawater conversion unit into useable freshwater, a unit for converting water and electricity into hydrogen energy and oxygen gas, a unit for converting solar energy into useful thermal energy (based on Fresnel collector), and a cooling load generation unit. The planned MGS has a novel configuration and layout that has not been considered by researchers recently. The current article is based on presenting a multi-aspect evaluation to study thermodynamic-conceptual, environmental and exergoeconomic analyzes. The outcomes indicated that the planned MGS can produce about 6.31 MW of electrical power and 0.49 MW of thermal power. Furthermore, MGS is able to produce various products such as potable water (∼0.977 kg/s), cooling load (∼0.16 MW), hydrogen energy (∼1.578 g/s) and sanitary water (∼0.957 kg/s). The total thermodynamic indexes were calculated as 78.13% and 47.72%, respectively. Also, the total investment and unit exergy costs were 47.16 USD per hour and 11.07 USD per GJ, respectively. Further, the content of CO2 emitted from the desgined system was equal to 10.59 kmol per MWh. A parametric study has been also developed to identify influencing parameters." @default.
W4378084799 created "2023-05-25" @default.
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W4378084799 date "2023-09-01" @default.
W4378084799 modified "2023-10-07" @default.
W4378084799 title "An innovative biomass-driven energy systems for green energy and freshwater production with less CO2 emission: Environmental and technical approaches" @default.
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W4378084799 cites W2194565803 @default.
W4378084799 cites W2345694959 @default.
W4378084799 cites W2473168905 @default.
W4378084799 cites W2762854102 @default.
W4378084799 cites W2776298425 @default.
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W4378084799 cites W2894787734 @default.
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W4378084799 cites W2912016149 @default.
W4378084799 cites W2919051848 @default.
W4378084799 cites W2923223888 @default.
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W4378084799 cites W2946039405 @default.
W4378084799 cites W2951431619 @default.
W4378084799 cites W2965017709 @default.
W4378084799 cites W2970587714 @default.
W4378084799 cites W2980369443 @default.
W4378084799 cites W2991462087 @default.
W4378084799 cites W3023474934 @default.
W4378084799 cites W3042498048 @default.
W4378084799 cites W3082546727 @default.
W4378084799 cites W3088771341 @default.
W4378084799 cites W3091602275 @default.
W4378084799 cites W3093113443 @default.
W4378084799 cites W3094234186 @default.
W4378084799 cites W3114905628 @default.
W4378084799 cites W3121321154 @default.
W4378084799 cites W3146109072 @default.
W4378084799 cites W3165547276 @default.
W4378084799 cites W3166510162 @default.
W4378084799 cites W3168863209 @default.
W4378084799 cites W3171074139 @default.
W4378084799 cites W3181272967 @default.
W4378084799 cites W3183584850 @default.
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W4378084799 cites W3214837069 @default.
W4378084799 cites W4200242358 @default.
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W4378084799 doi "https://doi.org/10.1016/j.chemosphere.2023.139008" @default.
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