2020
DOI: 10.1016/j.jechem.2019.12.017
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Tuning combined steam and dry reforming of methane for “metgas” production: A thermodynamic approach and state-of-the-art catalysts

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Cited by 68 publications
(21 citation statements)
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“…Generally, DRM and CH4 disassociation thermodynamically prefers to occur at the temperature above 645 and 557°C, respectively [21,22] . Notably, the reaction (Equation 1) is favorable at the temperature below 600°C with a highly negative ∆rG, which is indicative of the spontaneous formation of Ni3ZnC0.7 from the reaction between Ni3Zn and CH4.…”
Section: Resultsmentioning
confidence: 99%
“…Generally, DRM and CH4 disassociation thermodynamically prefers to occur at the temperature above 645 and 557°C, respectively [21,22] . Notably, the reaction (Equation 1) is favorable at the temperature below 600°C with a highly negative ∆rG, which is indicative of the spontaneous formation of Ni3ZnC0.7 from the reaction between Ni3Zn and CH4.…”
Section: Resultsmentioning
confidence: 99%
“…[22][23][24] The technique itself consists of three fundamental steps: syngas generation (Equation (1)), water-gas shift (WGS) reaction (Equation (2)), and hydrogen purification. [25] WGS is used to increase the hydrogen content and to convert CO into CO 2 , whereas in the final purification step, H 2 and CO 2 are separated by different methods. [26] The following reactions occur when CH 4 is used as feedstock [27,28]…”
Section: Steam Methane Reformingmentioning
confidence: 99%
“…This is in alignment with some prior work that has investigated the effect of cofeeding steam at much higher levels. [51] The thermodynamic analysis identifies operation at 1123 K at a feed ratio of CO 2 :CH 4 :H 2 O ¼ 1:1:0.1 at atmospheric pressure, as suitable conditions to reduce carbon formation while ensuring the conversion of water.…”
Section: Effect Of Co-feeding H 2 Omentioning
confidence: 99%