Hydrogen Generation from CO2 Reforming of Biomass-Derived Methanol on Ni/SiO2 Catalyst

被引:0
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作者
Pham Thi Thuy Phuong
Nguyen Nguyen Phuong
P. Senthil Kumar
Nguyen Phuc Hoang Duy
Quyet Van Le
Le Thi Bao Ngoc
A. A. Jalil
Saravanan Rajendran
Chin Kui Cheng
Thanh-Huong Nguyen
Minh Tuan Nguyen Dinh
Dai-Viet N. Vo
机构
[1] Vietnam Academy of Science and Technology,Institute of Chemical Technology
[2] Vietnam Academy of Science and Technology,Graduate University of Science and Technology
[3] Sri Sivasubramaniya Nadar College of Engineering,Department of Chemical Engineering
[4] Korea University,Department of Materials Science and Engineering, Institute of Green Manufacturing Technology
[5] Universiti Teknologi Malaysia,School of Chemical and Energy Engineering, Faculty of Engineering
[6] Universidad de Tarapacá,Departamento de Ingeniería Mecánica, Facultad de Ingeniería
[7] Khalifa University,Department of Chemical Engineering, College of Engineering
[8] Nguyen Tat Thanh University,NTT Hi
[9] The University of Da Nang - University of Science and Technology,Tech Institute
[10] Nguyen Tat Thanh University,Institute of Environmental Sciences
来源
Topics in Catalysis | 2023年 / 66卷
关键词
Hydrogen; Syngas; Ni-based catalyst; Reforming; Methanol CO; reforming;
D O I
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摘要
CO2 reforming of methanol for producing hydrogen was experimentally carried out in a fixed-bed reactor on 10%Ni/SiO2. The 10%Ni/SiO2 was completely reduced during H2 activation and it had the surface area of 240.5 m2/g. As CO2 reforming of methanol has an endothermic nature, the substantial improvement in methanol conversion from 52 to 99% was evident with rising temperature from 450 to 550 °C, respectively. H2/CO ratios varying within 1.65–1.76 were evidenced at different reaction temperatures. These H2/CO ratios are preferred as feedstocks for long-chain hydrocarbons generation in Fischer–Tropsch production. Ni0 metallic phase was maintained during CO2 reforming of methanol and hence catalytic activity was stable within 8 h on-stream. Although amorphous and graphitic species were unavoidably yielded on catalyst surface, catalytic deterioration in CO2 reforming of methanol was not observed due to the concomitant CO2 gasification of surface carbonaceous species during reaction.
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页码:41 / 52
页数:11
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