1 |
Gliding arc plasma reforming of toluene for onboard hydrogen production Wang BW, Liu SZ, Peng YP, Wang CY International Journal of Hydrogen Energy, 45(11), 6138, 2020 |
2 |
Excess-methane dry and oxidative reforming on Ni-containing hydrotalcite-derived catalysts for biogas upgrading into synthesis gas Izquierdo-Colorado A, Debek R, Da Costa P, Galvez ME International Journal of Hydrogen Energy, 43(27), 11981, 2018 |
3 |
Simulated biogas oxidative reforming in AC-pulsed gliding arc discharge Liu JL, Park HW, Chung WJ, Ahn WS, Park DW Chemical Engineering Journal, 285, 243, 2016 |
4 |
Thermodynamic analysis and experimental study of hydrogen production from oxidative reforming of n-butanol Hartley UW, Amornraksa S, Kim-Lohsoontorn P, Laosiripojana N Chemical Engineering Journal, 278, 2, 2015 |
5 |
Oxidative-reforming of model biogas over NiO/Al2O3 catalysts: The influence of the variation of support synthesis conditions Asencios YJO, Elias KFM, Assaf EM Applied Surface Science, 317, 350, 2014 |
6 |
Synthesis Gas Production via Partial Oxidation, CO2 Reforming, and Oxidative CO2 Reforming of CH4 over a Ni/Mg-Al Hydrotalcite-type Catalyst Song HS, Kwon SJ, Epling WS, Croiset E, Nam SC, Yi KB Clean Technology, 20(2), 189, 2014 |
7 |
Modified oxalic acid co-precipitation method for preparing Cu/ZnO/Al2O3/Cr2O3/CeO2 catalysts for the OR (oxidative reforming) of M (methanol) to produce H-2 (hydrogen) gas Lesmana D, Wu HS Energy, 69, 769, 2014 |
8 |
Hydrogen production from oxidative reforming of methane on Ni/gamma-Al2O3 catalysts: Effect of support promotion with La, La-Ce and La-Zr Silva TD, Reis CGM, Lucredio AF, Elisabete MAC, Assaf JM Fuel Processing Technology, 127, 97, 2014 |
9 |
Study of Co/CeO2-gamma-Al2O3 catalysts for steam and oxidative reforming of ethanol for hydrogen production Maia TA, Assaf JM, Assaf EM Fuel Processing Technology, 128, 134, 2014 |
10 |
Renewable and high-concentration syngas production from oxidative reforming of simulated biogas with low energy cost in a plasma shade Liu JL, Li XS, Zhu X, Li K, Shi C, Zhu AM Chemical Engineering Journal, 234, 240, 2013 |