Research output: Chapter in Book/Report/Conference proceeding › Chapter › Research › peer-review
Methane dry reforming on nanocomposite catalysts : Design, kinetics, and mechanism. / Sadykov, V. A.; Bobrova, L. N.; Mezentseva, N. V. et al.
Small-Scale Gas to Liquid Fuel Synthesis. CRC Press, 2015. p. 315-375.Research output: Chapter in Book/Report/Conference proceeding › Chapter › Research › peer-review
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TY - CHAP
T1 - Methane dry reforming on nanocomposite catalysts
T2 - Design, kinetics, and mechanism
AU - Sadykov, V. A.
AU - Bobrova, L. N.
AU - Mezentseva, N. V.
AU - Pavlova, S. N.
AU - Fedorova, Yu E.
AU - Bobin, A. S.
AU - Vostrikov, Z. Yu
AU - Glazneva, T. S.
AU - Smirnova, M. Yu
AU - Sazonova, N. N.
AU - Rogov, V. A.
AU - Ishchenko, A.
AU - Marin, Guy B.
AU - Thybaut, Joris W.
AU - Galvita, V. V.
AU - Schuurman, Y.
AU - Mirodatos, C.
PY - 2015/1/1
Y1 - 2015/1/1
N2 - Electricity and hydrogen are now considered as the dominant energy carriers in modern green chemical and process engineering. Nowadays, almost all of the hydrogen is produced commercially from natural gas (NG) via steam reforming to synthesis gas, also denoted as syngas, that is, a mixture comprising H2 and CO. Synthesis gas production via alternative routes to traditional methane steam reforming has recently attracted considerable attention due to both environmental and commercial reasons [1,2]. Transformation of NG using carbon dioxide and reforming of oxygenates derived from fast pyrolysis of biomass to synthesis gas are the most promising processes [3-14]. Dry reforming transforms cheap and undesirable greenhouse gases such as methane and carbon dioxide and is particularly important in the case of biogas or gas fields containing a significant amount of both compounds.
AB - Electricity and hydrogen are now considered as the dominant energy carriers in modern green chemical and process engineering. Nowadays, almost all of the hydrogen is produced commercially from natural gas (NG) via steam reforming to synthesis gas, also denoted as syngas, that is, a mixture comprising H2 and CO. Synthesis gas production via alternative routes to traditional methane steam reforming has recently attracted considerable attention due to both environmental and commercial reasons [1,2]. Transformation of NG using carbon dioxide and reforming of oxygenates derived from fast pyrolysis of biomass to synthesis gas are the most promising processes [3-14]. Dry reforming transforms cheap and undesirable greenhouse gases such as methane and carbon dioxide and is particularly important in the case of biogas or gas fields containing a significant amount of both compounds.
UR - http://www.scopus.com/inward/record.url?scp=85053966711&partnerID=8YFLogxK
U2 - 10.1201/b18075
DO - 10.1201/b18075
M3 - Chapter
AN - SCOPUS:85053966711
SN - 9781466599383
SP - 315
EP - 375
BT - Small-Scale Gas to Liquid Fuel Synthesis
PB - CRC Press
ER -
ID: 25396111