| 用于分布式制氢的甲烷蒸汽重整膜反应器的数值模拟 |
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| 引用本文: | 闫鹏,程易.用于分布式制氢的甲烷蒸汽重整膜反应器的数值模拟[J].化工进展,2022,41(7):3446-3454. |
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| 作者姓名: | 闫鹏 程易 |
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| 作者单位: | 清华大学化学工程系,北京 100084 |
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| 基金项目: | 国家自然科学基金(22008137) |
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| 摘 要: | 采用反应-分离集成的膜反应器进行分布式制氢,对简化工艺、降低能耗、提升技术经济性至关重要。本文采用数学模型对甲烷蒸汽重整制氢过程膜反应器进行模拟,系统分析了渗透侧操作策略、反应压力、反应温度、钯基膜性能、催化剂性能对反应器行为的影响;并以1m3/h甲烷最大程度转化为目标进行分布式制氢案例分析,详细比较膜反应器技术与“常规反应器+膜分离”工艺技术。结果表明,膜反应器在反应压力30atm(1atm=101325Pa)、反应温度500℃下操作可实现紧凑设计,比“常规反应器+膜分离”工艺技术具有明显优势,但是亟需研发更佳活性(10倍)的钯基膜和催化剂以实现显著的过程强化。模拟结果可为不同规模分布式制氢膜反应器的操作与设计及进一步的性能强化提供指导。
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| 关 键 词: | 甲烷蒸汽重整 制氢 膜反应器 数学模型 操作与设计 过程强化 |
| 收稿时间: | 2021-09-01 |
Numerical simulation of membrane reactor of methane steam reforming for distributed hydrogen production |
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| YAN Peng,CHENG Yi.Numerical simulation of membrane reactor of methane steam reforming for distributed hydrogen production[J].Chemical Industry and Engineering Progress,2022,41(7):3446-3454. |
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| Authors: | YAN Peng CHENG Yi |
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| Affiliation: | Department of Chemical Engineering, Tsinghua University, Beijing 100084, China |
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| Abstract: | The membrane reactor system with integrated chemical reaction and membrane separation for distributed hydrogen production is of vital importance to simplify chemical process, lower energy consumption and improve techno-economics. Herein, the mathematical model were adopted to simulate methane steam reforming process in membrane reactor, and thus analyze the effect of operational strategies of permeation side, reaction pressure, reaction temperature, palladium-based membrane performance and activity of catalyst on the behaviors of membrane reactor. Subsequently, case study was conducted with the aim of maximum conversion of 1m3/h CH4 to compare membrane reactor technology and "conventional reactor + membrane separation" process. The results showed that compact design of membrane reactor under the conditions of 30atm and 500℃ can be achieved and the membrane reactor presented obvious advantages over the process technology of "conventional reactor+membrane separation". However, more active palladium-based membranes and catalysts, particularly 10 times than current performance, were in urgent need for further process intensification. The results can provide fundamental guidelines for the design, operation and further performance intensification of membrane reactor for distributed hydrogen production with various scales. |
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| Keywords: | methane steam reforming hydrogen production membrane reactor mathematical model operation and design process intensification |
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