Graphene-Supported Fe/Ni, β-Mo2C Nanoparticles: Experimental and DFT Integrated Approach to Catalyst Development for Synergistic Hydrogen Production through Lignin-Rich Biomass Reforming and Reduced Shale Gas Flaring

Amoolya D.  Lalsare; Tuhin S.  Khan; Brian  Leonard; Roman  Vukmanovich; Pedram  Tavazohi; Lili  Li; Jianli  Hu

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Graphene-Supported Fe/Ni, β-Mo2C Nanoparticles: Experimental and DFT Integrated Approach to Catalyst Development for Synergistic Hydrogen Production through Lignin-Rich Biomass Reforming and Reduced Shale Gas Flaring

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。

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《ACS catalysis》 |2021年第1期|共19页
作者
Amoolya D. Lalsare; Tuhin S. Khan; Brian Leonard; Roman Vukmanovich; Pedram Tavazohi; Lili Li; Jianli Hu;
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作者单位

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;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
biomass reforming; graphene nanocatalysts; flare gas mitigation; syngas; catalyst design; reaction engineering; reaction kinetics;

机译：生物质重整;石墨烯纳米催化剂;爆炬气体缓解;合成气;催化剂设计;反应工程;反应动力学;
入库时间 2022-08-20 17:33:17

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1. Hydrogen production from simulated hot coke oven gas by catalytic reforming over Ni/Mg(A1)O catalysts [J] . Hongwei Cheng, Baohua Yue, Xueguang Wang, 天然气化学（英文版） . 2009,第002期
2. Self-regenerable carbon nanofiber supported Fe - Mo2C catalyst for CH4-CO2 assisted reforming of biomass to hydrogen rich syngas [J] . Lalsare Amoolya D., Leonard Brian, Robinson Brandon, Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2021,第1期

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
3. Development of an Integrated Oil Shale Refinery with Retorting Gas Steam Reforming for Hydrogen Production [J] . Siyu Yang, Jun Zhang, Qingchun Yang, Energy & fuels . 2014,第julaaauga期

机译：Gas气蒸汽重整制氢综合油页岩炼油厂的开发
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5. Steam reforming of biomass pyrolysis tar for hydrogen-rich gas with Ni-Fe-Al/Attapulgite catalysts [C] . Xi-Rong Bao, Shi Zhang, Ding-Yu Xue Asian Pacific Confederation of Chemical Engineering congress . 2008

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
6. Development of inexpensive catalysts for hydrogen production through the integration of steam reforming of methane and high temperature water gas shift. [D] . LeValley, Trevor L. 2015

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7. Catalytic Steam Reforming of Biomass-Derived AceticAcid over Two Supported Ni Catalysts for Hydrogen-Rich Syngas Production [O] . Peng Fu, *, Andong Zhang, 2019

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
8. Graphene-Supported Fe/Ni, Mo2C Nanoparticles: Experimental and DFT Integrated Approach to Catalyst Development for Synergistic Hydrogen Production through Lignin-Rich Biomass Reforming and Reduced Shale Gas Flaring [O] . -1

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。

Graphene-Supported Fe/Ni, β-Mo2C Nanoparticles: Experimental and DFT Integrated Approach to Catalyst Development for Synergistic Hydrogen Production through Lignin-Rich Biomass Reforming and Reduced Shale Gas Flaring

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