机译:石墨烯支持的Fe / Ni,β-MO2C纳米颗粒:通过木质素的生物质重整和降低页岩气燃烧,催化剂发育的实验和DFT综合方法。
Department of Chemical and Biomedical Engineering West Virginia University;
Department of Chemical and Biomedical Engineering West Virginia University;
Department of Chemical and Biomedical Engineering West Virginia University;
Department of Chemical and Biomedical Engineering West Virginia University;
Department of Physics and Astronomy West Virginia University;
Department of Chemical and Biomedical Engineering West Virginia University;
Department of Chemical and Biomedical Engineering West Virginia University;
biomass reforming; graphene nanocatalysts; flare gas mitigation; syngas; catalyst design; reaction engineering; reaction kinetics;
机译:用于CH4-CO2的CH4-CO2辅助重整生物质至氢合成气的自我可再生的碳纳米蛋白催化剂
机译:Gas气蒸汽重整制氢综合油页岩炼油厂的开发
机译:在中孔镍-M-氧化铝(M = Ni,Ce,La,Y,Cs,Fe,Co和Mg)气凝胶催化剂上通过蒸汽重整模拟液化天然气(LNG)来制氢
机译:Ni-Fe-Al /凹凸棒石催化剂对生物质热解焦油进行富氢制氢
机译:通过整合甲烷的蒸汽重整和高温水煤气变换,开发廉价的制氢催化剂。
机译:生物质衍生乙酸的催化蒸汽重整两种负载型镍催化剂上的酸可生产富氢合成气
机译:石墨烯支持的Fe / Ni,MO2C纳米粒子:通过木质素的生物质重整和降低页岩气燃烧,协同氢气产生的实验性和DFT综合方法。