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yasushi sekine
yasushi sekine
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Zitiert von
Jahr
Catalytic activities and coking resistance of Ni/perovskites in steam reforming of methane
K Urasaki, Y Sekine, S Kawabe, E Kikuchi, M Matsukata
Applied Catalysis A: General 286 (1), 23-29, 2005
2262005
Recent progress in ethanol steam reforming using non-noble transition metal catalysts: A review
S Ogo, Y Sekine
Fuel processing technology 199, 106238, 2020
1932020
Reaction mechanism of methane activation using non-equilibrium pulsed discharge at room temperature
S Kado, K Urasaki, Y Sekine, K Fujimoto, T Nozaki, K Okazaki
Fuel 82 (18), 2291-2297, 2003
1682003
Reactivity and structural change of coal char during steam gasification
Y Sekine, K Ishikawa, E Kikuchi, M Matsukata, A Akimoto
Fuel 85 (2), 122-126, 2006
1602006
Diagnosis of atmospheric pressure low temperature plasma and application to high efficient methane conversion
S Kado, Y Sekine, T Nozaki, K Okazaki
Catalysis Today 89 (1-2), 47-55, 2004
1592004
Low temperature catalytic reverse water gas shift reaction assisted by an electric field
K Oshima, T Shinagawa, Y Nogami, R Manabe, S Ogo, Y Sekine
Catalysis Today 232, 27-32, 2014
1522014
Production of hydrogen by steam reforming of ethanol over cobalt and nickel catalysts supported on perovskite-type oxides
K Urasaki, K Tokunaga, Y Sekine, M Matsukata, E Kikuchi
Catalysis Communications 9 (5), 600-604, 2008
1402008
Low temperature steam reforming of methane over metal catalyst supported on CexZr1− xO2 in an electric field
Y Sekine, M Haraguchi, M Matsukata, E Kikuchi
Catalysis today 171 (1), 116-125, 2011
1202011
Low-temperature dry reforming of methane to produce syngas in an electric field over La-doped Ni/ZrO2 catalysts
T Yabe, K Mitarai, K Oshima, S Ogo, Y Sekine
Fuel Processing Technology 158, 96-103, 2017
1182017
Steam reforming of toluene over perovskite-supported Ni catalysts
Y Sekine, D Mukai, Y Murai, S Tochiya, Y Izutsu, K Sekiguchi, ...
Applied Catalysis A: General 451, 160-167, 2013
1132013
Low-temperature hydrogen production by highly efficient catalytic system assisted by an electric field
Y Sekine, M Haraguchi, M Tomioka, M Matsukata, E Kikuchi
The Journal of Physical Chemistry A 114 (11), 3824-3833, 2010
1072010
Direct conversion of methane to acetylene or syngas at room temperature using non-equilibrium pulsed discharge☆
S Kado, K Urasaki, Y Sekine, K Fujimoto
Fuel 82 (11), 1377-1385, 2003
1052003
Methane conversion using carbon dioxide as an oxidizing agent: A review
T Yabe, Y Sekine
Fuel Processing Technology 181, 187-198, 2018
1032018
Recent trends on the dehydrogenation catalysis of liquid organic hydrogen carrier (LOHC): a review
Y Sekine, T Higo
Topics in Catalysis 64 (7), 470-480, 2021
1012021
Hydrogen production via steam–iron reaction using iron oxide modified with very small amounts of palladium and zirconia
K Urasaki, N Tanimoto, T Hayashi, Y Sekine, E Kikuchi, M Matsukata
Applied Catalysis A: General 288 (1-2), 143-148, 2005
992005
Role of support lattice oxygen on steam reforming of toluene for hydrogen production over Ni/La0. 7Sr0. 3AlO3− δ catalyst
D Mukai, S Tochiya, Y Murai, M Imori, T Hashimoto, Y Sugiura, Y Sekine
Applied Catalysis A: General 453, 60-70, 2013
922013
Comparative study between fluidized bed and fixed bed reactors in methane reforming combined with methane combustion for the internal heat supply under pressurized condition
K Tomishige, Y Matsuo, Y Yoshinaga, Y Sekine, M Asadullah, K Fujimoto
Applied Catalysis A: General 223 (1-2), 225-238, 2002
922002
Autothermal CO2 reforming of methane over NiO–MgO solid solution catalysts under pressurized condition: effect of fluidized bed reactor and its promoting mechanism
Y Matsuo, Y Yoshinaga, Y Sekine, K Tomishige, K Fujimoto
Catalysis Today 63 (2-4), 439-445, 2000
922000
Catalytic conversion of ethane to valuable products through non-oxidative dehydrogenation and dehydroaromatization
H Saito, Y Sekine
RSC advances 10 (36), 21427-21453, 2020
902020
Reaction and oxygen permeation studies in Sm0. 4Ba0. 6Fe0. 8Co0. 2O3− δ membrane reactor for partial oxidation of methane to syngas
M Ikeguchi, T Mimura, Y Sekine, E Kikuchi, M Matsukata
Applied Catalysis A: General 290 (1-2), 212-220, 2005
902005
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