1 |
Co-production of hydrogen and carbon nanotubes from real-world waste plastics: Influence of catalyst composition and operational parameters Yao DD, Zhang YS, Williams PT, Yang HP, Chen HP Applied Catalysis B: Environmental, 221, 584, 2018 |
2 |
Catalytic gasification of oil-extracted residue biomass of Botryococcus braunii Watanabe H, Li DL, Nakagawa Y, Tomishige K, Watanabe MM Bioresource Technology, 191, 452, 2015 |
3 |
Development of Ni-Fe bimetallic based catalysts for biomass tar cracking/reforming: Effects of catalyst support and co-fed reactants on tar conversion characteristics Laosiripojana N, Sutthisripok W, Charojrochkul S, Assabumrungrat S Fuel Processing Technology, 127, 26, 2014 |
4 |
Bimetallic Ni-Fe total-methanation catalyst for the production of substitute natural gas under high pressure Tian DY, Liu ZH, Li DD, Shi HL, Pan WX, Cheng Y Fuel, 104, 224, 2013 |
5 |
The effect of Zn addition into NiFe2O4 catalyst for high-temperature shift reaction of natural gas reformate assuming no external steam addition Lee MS, Lee JY, Lee DW, Moon DJ, Lee KY International Journal of Hydrogen Energy, 37(15), 11218, 2012 |
6 |
Co-methanation of CO and CO2 on the NiX-Fe1-X/Al2O3 catalysts; effect of Fe contents Kang SH, Ryu JH, Kim JH, Seo SJ, Yoo YD, Sai Prasad PS, Lim HJ, Byun CD Korean Journal of Chemical Engineering, 28(12), 2282, 2011 |
7 |
Partial oxidation of ethanol to hydrogen over Ni-Fe catalysts Wang WP, Wang ZF, Ding Y, Xi JY, Lu GX Catalysis Letters, 81(1-2), 63, 2002 |