| Literature DB >> 28544164 |
Xiangyu Jie1, Sergio Gonzalez-Cortes1, Tiancun Xiao1, Jiale Wang2, Benzhen Yao1, Daniel R Slocombe3, Hamid A Al-Megren4, Jonathan R Dilworth1, John M Thomas5, Peter P Edwards1.
Abstract
Hydrogen as an energy carrier promises a sustainable energy revolution. However, one of the greatest challenges for any future hydrogen economy is the necessity for large scale hydrogen production not involving concurrent CO2 production. The high intrinsic hydrogen content of liquid-range alkane hydrocarbons (including diesel) offers a potential route to CO2 -free hydrogen production through their catalytic deep dehydrogenation. We report here a means of rapidly liberating high-purity hydrogen by microwave-promoted catalytic dehydrogenation of liquid alkanes using Fe and Ni particles supported on silicon carbide. A H2 production selectivity from all evolved gases of some 98 %, is achieved with less than a fraction of a percent of adventitious CO and CO2 . The major co-product is solid, elemental carbon.Entities:
Keywords: decarbonization; hydrogen production; iron; microwave catalysis; nickel
Year: 2017 PMID: 28544164 DOI: 10.1002/anie.201703489
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336