Development of a Methane Steam Reformer Using an Electrically Heated Alumite Catalyst: Start-Up Performance Investigated by the Numerical and Experimental Analysis

Hideo Kameyama; Lu Zhou; Makoto Sakurai; Qi Zhang; Yu Guo

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Development of a Methane Steam Reformer Using an Electrically Heated Alumite Catalyst: Start-Up Performance Investigated by the Numerical and Experimental Analysis

机译：用电加热的氧化铝催化剂开发甲烷蒸汽重整器：通过数值和实验分析研究启动性能

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References(18) Cited-By(4) A cylindrical methane steam reformer using an electrically heated alumite catalyst (EHAC), i.e., Ni/Al2O3/Alloy catalyst, was introduced in this work. The relevant 2D dynamic model has been developed to reveal the key factors to improve the reformer’s performance in concepts of heat and mass transfer. Various strategies to improve the reformer’s reaction and start-up performance were discussed by numerical investigations. Based on the simulation results, the cylindrical reformer was experimented. The experimental results showed that the reformer has a fast start-up and quick response for the load fluctuation by the internal heating through the EHAC.

机译：参考文献（18）Cyd-By（4）在这项工作中介绍了一种使用电加热的氧化铝催化剂（EHAC）的圆柱形甲烷蒸汽重整器，即Ni / Al2O3 /合金催化剂。已经开发了相关的2D动态模型，以揭示改善重整器在传热和传质方面性能的关键因素。通过数值研究讨论了各种改进重整器反应和启动性能的策略。根据仿真结果，对圆筒形重整器进行了实验。实验结果表明，通过EHAC内部加热，重整器具有快速启动和快速响应负载波动的能力。

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《Journal of Chemical Engineering of Japan》 |2007年第6期|共页
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Hideo Kameyama; Lu Zhou; Makoto Sakurai; Qi Zhang; Yu Guo;
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1. Development of a Methane Steam Reformer Using an Electrically Heated Alumite Catalyst:Start-Up Performance Investigated by the Numerical and Experimental Analysis [J] . Qi ZHANG, YU GUO, LU ZHOU Journal of Chemical Engineering of Japan . 2007,第6期

机译：电加热铝矾土催化剂的甲烷蒸汽重整器的开发：通过数值和实验分析研究启动性能
2. Simulation and experimental analysis on the development of a co-axial cylindrical methane steam reformer using an electrically heated alumite catalyst [J] . Qi Zhang, Makoto Nakaya, Tetsuya Ootani, International journal of hydrogen energy . 2007,第16期

机译：电加热铝矾土催化剂开发同轴圆柱形甲烷蒸汽重整器的模拟和实验分析
3. Performance Simulations of a Compact Plate Methane Steam Reformer Using an Electrically Heated Alumite Catalyst [J] . Qi ZHANG, Makoto SAKURAI, Hideo KAMEYAMA Journal of Chemical Engineering of Japan . 2007,第4期

机译：电加热铝矾土催化剂的紧凑型板式甲烷蒸汽重整器的性能模拟
4. Devolpment of a Navel Heat-Exchange Methane Reformer using a Eelectrically Heated Alumite Catalyst: Deactivation Modeling and Reactor Transient Performance Estimation [C] . S.Morita, T.Kanno, S.Kurokawa, Joint China/Japan chemical engineering symposium;CJCES . 2007

机译：NN电加热氧化铝催化剂制备肚脐热交换甲烷重整器：失活模型和反应器瞬态性能估算
5. Development and characterization of an impedance-based carbon sensor for the detection of catalyst coking in steam-methane and dry-methane reforming systems [D] . Saqib, Najmus 2015

机译：基于阻抗的碳传感器的开发和表征，用于检测蒸汽甲烷和干甲烷重整系统中的催化剂焦化
6. Thermochemical Performance Analysis of the Steam Reforming of Methane in a Fixed Bed Membrane Reformer: A Modelling and Simulation Study [O] . João Paulo Fernando de Medeiros, Vitória da Fonseca Dias, José Marcelo da Silva, 2021

机译：固定床膜重整器中甲烷蒸汽重整的热化学性能分析：一种建模与仿真研究
7. Development of New Hybrid VOCs Treatment Process Using Activated Carbon and Electrically Heated Alumite Catalyst [O] . Toshio Yamaguchi, Kazuya Aoki, Makoto Sakurai, 2013

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Development of a Methane Steam Reformer Using an Electrically Heated Alumite Catalyst: Start-Up Performance Investigated by the Numerical and Experimental Analysis

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