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W4225981320 startingPage "11" @default.
W4225981320 abstract "Sorption-enhanced steam butanol reforming (SESBR) is capable of producing pure hydrogen (H2). In CO2 sorption-enhanced (or sorption-assisted) reaction processes, the application of hybrid bifunctional materials consisting of a reforming catalyst and CO2 sorbent is encouraging. In this work, a novel material (CoMgHTlc, here denoted by HM1) containing cobalt catalyst and Mg-based hydrotalcite was synthesized using the coprecipitation method. HM1 was then promoted with K, Zr, or Ce using incipient wet impregnation to yield K-HM1, Zr-HM1, and Ce-HM1, respectively. SESBR was investigated in a fixed-bed reactor between 723 and 923 K. Gas hourly space velocity (GHSV) was changed between 3000 and 6000 mL/g h. Butanol concentration in the feed was varied to provide steam-to-carbon ratios (S/C) ranging from 3 to 7.5 mol/mol. All materials were stable and exhibited a high pre-breakthrough period. At 873 K, H2 concentration of the product stream was 97.3 mol % over Ce-HM1; the CO2-sorption capacity was 1.43 mol CO2/kg sorbent." @default.
W4225981320 created "2022-05-05" @default.
W4225981320 creator A5052708272 @default.
W4225981320 creator A5058874549 @default.
W4225981320 date "2022-01-01" @default.
W4225981320 modified "2023-09-30" @default.
W4225981320 title "PROMOTION OF COBALT-CONTAINING HYDROTALCITE MATERIALS WITH POTASSIUM, CERIA, AND ZIRCONIA FOR CO2 SORPTION-ASSISTED REFORMING OF BUTANOL TO H2" @default.
W4225981320 cites W1499423998 @default.
W4225981320 cites W1879039379 @default.
W4225981320 cites W1964026909 @default.
W4225981320 cites W1964444281 @default.
W4225981320 cites W1973315010 @default.
W4225981320 cites W1973854321 @default.
W4225981320 cites W1976679771 @default.
W4225981320 cites W1986235339 @default.
W4225981320 cites W1993333907 @default.
W4225981320 cites W1993559587 @default.
W4225981320 cites W1994310224 @default.
W4225981320 cites W1996603742 @default.
W4225981320 cites W1998164216 @default.
W4225981320 cites W1998527611 @default.
W4225981320 cites W2006423800 @default.
W4225981320 cites W2006597479 @default.
W4225981320 cites W2013893608 @default.
W4225981320 cites W2014846755 @default.
W4225981320 cites W2014887438 @default.
W4225981320 cites W2015611018 @default.
W4225981320 cites W2016137450 @default.
W4225981320 cites W2019310988 @default.
W4225981320 cites W2021220999 @default.
W4225981320 cites W2022263033 @default.
W4225981320 cites W2025160597 @default.
W4225981320 cites W2030100158 @default.
W4225981320 cites W2037057565 @default.
W4225981320 cites W2045726692 @default.
W4225981320 cites W2048072719 @default.
W4225981320 cites W2050710727 @default.
W4225981320 cites W2053615129 @default.
W4225981320 cites W2053873959 @default.
W4225981320 cites W2055121871 @default.
W4225981320 cites W2056152278 @default.
W4225981320 cites W2057794935 @default.
W4225981320 cites W2059637419 @default.
W4225981320 cites W2066208466 @default.
W4225981320 cites W2068791540 @default.
W4225981320 cites W2070843947 @default.
W4225981320 cites W2076680682 @default.
W4225981320 cites W2080947763 @default.
W4225981320 cites W2083060413 @default.
W4225981320 cites W2083595698 @default.
W4225981320 cites W2089071038 @default.
W4225981320 cites W2092300400 @default.
W4225981320 cites W2093007971 @default.
W4225981320 cites W2093499899 @default.
W4225981320 cites W2094177160 @default.
W4225981320 cites W2116016353 @default.
W4225981320 cites W2126477898 @default.
W4225981320 cites W2236935259 @default.
W4225981320 cites W2315438960 @default.
W4225981320 cites W2324358515 @default.
W4225981320 cites W2324422393 @default.
W4225981320 cites W2324618870 @default.
W4225981320 cites W2324971832 @default.
W4225981320 cites W2333554179 @default.
W4225981320 cites W2335575166 @default.
W4225981320 cites W2418324601 @default.
W4225981320 cites W2420208499 @default.
W4225981320 cites W2511190476 @default.
W4225981320 cites W2520778501 @default.
W4225981320 cites W2531523713 @default.
W4225981320 cites W2568144743 @default.
W4225981320 cites W2744678462 @default.
W4225981320 cites W2757800415 @default.
W4225981320 cites W2897474442 @default.
W4225981320 cites W2902072793 @default.
W4225981320 cites W2913752498 @default.
W4225981320 cites W2996263820 @default.
W4225981320 cites W3006777397 @default.
W4225981320 doi "https://doi.org/10.1615/catalgreenchemeng.2022041472" @default.
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