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W3038662297 endingPage "21408" @default.
W3038662297 startingPage "21392" @default.
W3038662297 abstract "Hydrogen production from dry reforming of methane (DRM) was investigated on different Nickel based catalysts deposited on MgAl2O4. MgAl2O4 spinel was prepared using γ-Alumina supplied from different manufacturers (Sigma Aldrich, Alfa Aesar and Degussa) with low and high specific surface area. Moreover, the influence of different parameters on the catalytic activity on methane dry reforming was studied such as the effect of Ni content, the effect of commercial alumina and the effect of doping nickel with cerium and lanthanum. During this study, the catalytic activity was compared at atmospheric pressure at 750 °C during 4 h then 650 °C during 4 h toward methane dry reforming (DRM) reaction with a molar ratio CH4/CO2 = 1/1 and a Weight Hourly Space Velocity (WHSV) of 60.000 mL g−1.h−1. The results showed that among the different catalysts 1.5Ce–Ni5/MgAl2O4, synthesized with alumina from Alfa Aesar, exhibited the best catalytic activity for DRM. Furthermore, this catalyst showed the best performance during a stability test at 600 °C for 24 h under reacting mixture with a low carbon formation rate (2.71 mgC/gcat/h). Such superior activity is consistent with characterization results from BET, XRD, SEM, TPR and TPO analysis. Furthermore, it seems that the addition of Cerium on Ni/MgAl2O4 leads to an increase in catalyst efficiency. It can be due to an effective active oxygen transfer due to the redox properties of CeO2, leading to the formation of oxygen vacancies offering a benefit for DRM reaction." @default.
W3038662297 created "2020-07-10" @default.
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W3038662297 date "2020-08-01" @default.
W3038662297 modified "2023-10-16" @default.
W3038662297 title "Production of hydrogen by methane dry reforming: A study on the effect of cerium and lanthanum on Ni/MgAl2O4 catalyst performance" @default.
W3038662297 cites W1008058157 @default.
W3038662297 cites W1031068254 @default.
W3038662297 cites W1841091094 @default.
W3038662297 cites W1965690999 @default.
W3038662297 cites W1972642292 @default.
W3038662297 cites W1973346083 @default.
W3038662297 cites W1981433091 @default.
W3038662297 cites W1984159151 @default.
W3038662297 cites W1986229972 @default.
W3038662297 cites W1986282920 @default.
W3038662297 cites W1987030959 @default.
W3038662297 cites W1991239894 @default.
W3038662297 cites W1992759491 @default.
W3038662297 cites W1992792330 @default.
W3038662297 cites W1995234195 @default.
W3038662297 cites W2004528415 @default.
W3038662297 cites W2013004227 @default.
W3038662297 cites W2013213142 @default.
W3038662297 cites W2013658794 @default.
W3038662297 cites W2015960627 @default.
W3038662297 cites W2020660978 @default.
W3038662297 cites W2023404472 @default.
W3038662297 cites W2025160597 @default.
W3038662297 cites W2028569038 @default.
W3038662297 cites W2030325313 @default.
W3038662297 cites W2030712609 @default.
W3038662297 cites W2036036580 @default.
W3038662297 cites W2038788033 @default.
W3038662297 cites W2041563415 @default.
W3038662297 cites W2043153562 @default.
W3038662297 cites W2061637381 @default.
W3038662297 cites W2065075370 @default.
W3038662297 cites W2073079104 @default.
W3038662297 cites W2075509113 @default.
W3038662297 cites W2080211776 @default.
W3038662297 cites W2083015162 @default.
W3038662297 cites W2084978174 @default.
W3038662297 cites W2102578204 @default.
W3038662297 cites W2123108997 @default.
W3038662297 cites W2159981836 @default.
W3038662297 cites W2236264994 @default.
W3038662297 cites W2284341446 @default.
W3038662297 cites W2324708439 @default.
W3038662297 cites W2395568575 @default.
W3038662297 cites W2603082584 @default.
W3038662297 cites W2618550242 @default.
W3038662297 cites W2624867665 @default.
W3038662297 cites W2700472897 @default.
W3038662297 cites W2730444756 @default.
W3038662297 cites W2731062434 @default.
W3038662297 cites W2734737605 @default.
W3038662297 cites W2738196107 @default.
W3038662297 cites W2740096798 @default.
W3038662297 cites W2745557205 @default.
W3038662297 cites W2753399437 @default.
W3038662297 cites W2769109307 @default.
W3038662297 cites W2772732226 @default.
W3038662297 cites W2772738445 @default.
W3038662297 cites W2782069689 @default.
W3038662297 cites W2789290632 @default.
W3038662297 cites W2790986506 @default.
W3038662297 cites W2795274651 @default.
W3038662297 cites W2809046601 @default.
W3038662297 cites W2900340180 @default.
W3038662297 cites W2907623701 @default.
W3038662297 cites W2911493410 @default.
W3038662297 cites W2944426987 @default.
W3038662297 cites W2970751733 @default.
W3038662297 cites W2984242157 @default.
W3038662297 doi "https://doi.org/10.1016/j.ijhydene.2020.05.221" @default.
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