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W3021486533 abstract "Traditional steam methane reforming facilities for producing hydrogen not only consume a large amount of natural gas, but also emit a lot of greenhouse gas. Considering the utilization of clean energy, the reduction of carbon dioxide emission, and the production of chemicals, this paper establishes a model of steam methane reforming reactor heated by molten salt by utilizing finite-time thermodynamics. In order to reduce the irreversibility of this reactor, the entropy generation rate minimization and some operating parameters are taken as the optimization objective and variables, respectively. The hybrid particle swarm optimization algorithm is proposed for solving this model. Afterwards, the influences of the porosity of the catalyst bed and catalyst activity on the optimal performance are analyzed. The results indicate that the total entropy generation rate of the reactor is reduced by 22.08% after optimizing the inlet parameters of the molten salt and reaction mixture. Within the scope of this study, the total entropy generation rate of the optimal reactor decreases with the increasing porosity of catalyst bed. When the catalyst activity decreases, the hydrogen production rate can remain constant by adjusting the operating parameters. The obtained results are favorable to guide the optimal design of the practical reactors." @default.
W3021486533 created "2020-05-13" @default.
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W3021486533 date "2020-11-01" @default.
W3021486533 modified "2023-10-15" @default.
W3021486533 title "Entropy generation rate minimization for steam methane reforming reactor heated by molten salt" @default.
W3021486533 cites W1967860605 @default.
W3021486533 cites W1969148197 @default.
W3021486533 cites W1971458669 @default.
W3021486533 cites W1973165308 @default.
W3021486533 cites W1975848067 @default.
W3021486533 cites W1980306738 @default.
W3021486533 cites W1985572649 @default.
W3021486533 cites W1988008091 @default.
W3021486533 cites W1998211935 @default.
W3021486533 cites W1999572482 @default.
W3021486533 cites W2003144891 @default.
W3021486533 cites W2009764598 @default.
W3021486533 cites W2010362340 @default.
W3021486533 cites W2022875975 @default.
W3021486533 cites W2028464786 @default.
W3021486533 cites W2035009120 @default.
W3021486533 cites W2040417280 @default.
W3021486533 cites W2052512225 @default.
W3021486533 cites W2056571435 @default.
W3021486533 cites W2058020634 @default.
W3021486533 cites W2058568074 @default.
W3021486533 cites W2060755610 @default.
W3021486533 cites W2060761350 @default.
W3021486533 cites W2071282110 @default.
W3021486533 cites W2072687687 @default.
W3021486533 cites W2077376901 @default.
W3021486533 cites W2086649221 @default.
W3021486533 cites W2086827606 @default.
W3021486533 cites W2091763712 @default.
W3021486533 cites W2094661449 @default.
W3021486533 cites W2105744137 @default.
W3021486533 cites W2110083561 @default.
W3021486533 cites W2116897596 @default.
W3021486533 cites W2125489053 @default.
W3021486533 cites W2139327854 @default.
W3021486533 cites W2155537102 @default.
W3021486533 cites W2157297032 @default.
W3021486533 cites W2158367248 @default.
W3021486533 cites W2165798112 @default.
W3021486533 cites W2257869515 @default.
W3021486533 cites W2328926521 @default.
W3021486533 cites W2340323288 @default.
W3021486533 cites W2488567611 @default.
W3021486533 cites W2590313260 @default.
W3021486533 cites W2744170093 @default.
W3021486533 cites W2751287725 @default.
W3021486533 cites W2782463475 @default.
W3021486533 cites W2792642473 @default.
W3021486533 cites W2792741519 @default.
W3021486533 cites W2797931911 @default.
W3021486533 cites W2798843863 @default.
W3021486533 cites W2806461368 @default.
W3021486533 cites W2807019092 @default.
W3021486533 cites W2807060875 @default.
W3021486533 cites W2808694572 @default.
W3021486533 cites W2898737960 @default.
W3021486533 cites W2909155987 @default.
W3021486533 cites W2911932817 @default.
W3021486533 cites W2915733365 @default.
W3021486533 cites W2916554788 @default.
W3021486533 cites W2939332117 @default.
W3021486533 cites W2953621585 @default.
W3021486533 cites W2954964256 @default.
W3021486533 cites W2982466726 @default.
W3021486533 cites W2990391692 @default.
W3021486533 cites W3021833166 @default.
W3021486533 cites W3023133610 @default.
W3021486533 cites W3023838570 @default.
W3021486533 cites W2793954956 @default.
W3021486533 doi "https://doi.org/10.1016/j.egyr.2020.03.011" @default.
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