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W2000668596 abstract "The solar thermochemical decomposition of CH4 is carried out in a solar reactor consisting of a cavity-receiver containing an array of tubular absorbers, through which CH4 flows and thermally decomposes to H2 and carbon particles. A reactor model is formulated by coupling radiation/convection/conduction heat transfer and chemical kinetics for a two-phase solid-gas reacting flow. Experimental validation is accomplished by comparing measured and simulated absorber temperatures and H2 concentrations for a 10 kW prototype reactor tested in a solar furnace. The model is applied to optimize the design and simulate the performance of a 10 MW commercial-scale reactor mounted on a solar tower system configuration. Complete conversion is predicted for a maximum CH4 mass flow rate of 0.70 kg s−1 and a desired outlet temperature of 1870 K, yielding a solar-to-chemical energy conversion efficiency of 42% and a solar-to-thermal energy conversion efficiency of 75%." @default.
W2000668596 created "2016-06-24" @default.
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W2000668596 date "2010-12-01" @default.
W2000668596 modified "2023-10-18" @default.
W2000668596 title "Heat transfer model and scale-up of an entrained-flow solar reactor for the thermal decomposition of methane" @default.
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W2000668596 doi "https://doi.org/10.1016/j.ijhydene.2010.08.119" @default.
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