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W4285603928 abstract "The methane steam reforming to produce hydrogen under concentrated irradiation was proposed and the novel thermodynamic analysis interaction effects on the conversion of methane via Design Expert software was utilized in this paper. The four parameters (material porosity, inlet gas temperature, steam-to-methane ratio, inlet gas velocity) and three levels (low, center and high) were designed via the Box-Behnken Design in Response Surface Methodology. The response model was established to optimize and analyze the condition parameters, which showed effects on the methane conversion under concentrated irradiation. The results showed that the value of material porosity, inlet gas temperature and S/C had a positive effect on the methane conversion rate, while the value of inlet gas velocity had a negative effect on it. The analysis of variance of the methane conversion in the Response Surface Methodology was 0.9914. When the material porosity, gas inlet temperature, S/C and gas inlet velocity were 0.770, 579.925 K, 2.996 and 0.031, respectively, methane conversion was 94.03%; Among the above four factors, material porosity had the most significant effect on the reaction of methane steam reforming to produce hydrogen under concentrated irradiation. These results provided theoretical guidance for application of methane steam reforming under concentrated irradiation. • Methane steam reforming under concentrated irradiation were carried out via response surface methodology. • The influence order was material porosity > steam-to-methane ratio > inlet gas temperature > inlet gas velocity. • The optimal condition of material porosity, inlet gas temperature, S/C and inlet gas velocity was obtained. • The optimal conversion of methane was 94.03%." @default.
W4285603928 created "2022-07-16" @default.
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W4285603928 date "2022-08-01" @default.
W4285603928 modified "2023-10-14" @default.
W4285603928 title "Optimization of operating parameters for methane steam reforming thermochemical process using Response Surface Methodology" @default.
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W4285603928 doi "https://doi.org/10.1016/j.ijhydene.2022.06.166" @default.
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