Hydrogen production in a Pore-Plated Pd-membrane reactor: Experimental analysis and model validation for the Water Gas Shift reaction

Sanz R.; Calles J. A.; Alique D.; Furones L.; Ordonez S.; Marin P.

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Hydrogen production in a Pore-Plated Pd-membrane reactor: Experimental analysis and model validation for the Water Gas Shift reaction

机译：孔板式钯膜反应器中的氢气生产：水煤气变换反应的实验分析和模型验证

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A laboratory reactor equipped with a Pd-composite membrane prepared by ELP "pore-plating" method (Pd thickness of 10.2 mu m) has been used for performing the water gas shift reaction (WGSR). Reaction experiments were carried out with and without the membrane at different operating conditions: H2O/CO ratio (1-3), temperature (350-400 degrees C) and GHSV (4000-5500 h(-1)). In all cases, CO conversion was found to be higher when using the membrane to separate hydrogen. The membrane maintained the integrity with complete selectivity to H-2. The membrane reactor has been modelled using a 2D mathematical model, capable of modelling the non-ideal flow pattern formed in this type of reactors. The model predicts the experimental CO conversion with an accuracy of +/- 10%. The proposed model was used as a tool in the scale-up of a membrane reactor for the water-gas-shift reaction (feed: 100 m(3)/h synthesis gas), designed to achieve high CO conversion (>99%) and hydrogen recovery (>99.5%). The permeation of hydrogen through the membrane was found to be ruled by mass transfer in the membrane support and palladium layer. Copyright (C) 2014, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.

机译：配备有通过ELP“孔镀”法制备的钯复合膜的实验室反应器（钯厚度为10.2微米）已用于进行水煤气变换反应（WGSR）。在有和没有膜的情况下，在不同的操作条件下进行反应实验：H2O / CO比（1-3），温度（350-400摄氏度）和GHSV（4000-5500 h（-1））。在所有情况下，当使用膜分离氢时，发现CO转化率更高。膜保持对H-2的完全选择性的完整性。膜反应器已使用2D数学模型建模，该模型能够对在这种类型的反应器中形成的非理想流型进行建模。该模型预测实验的CO转换精度为+/- 10％。拟议中的模型用作膜反应器用于水煤气变换反应（进料：100 m（3）/ h合成气）的放大工具，旨在实现高CO转化率（> 99％）氢气回收率（> 99.5％）。发现氢通过膜的渗透是由膜载体和钯层中的传质所决定的。 Hydrogen Energy Publications，LLC版权所有（C）2014。由Elsevier Ltd.出版。保留所有权利。

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《International journal of hydrogen energy》 |2015年第8期|3472-3484|共13页
作者
Sanz R.; Calles J. A.; Alique D.; Furones L.; Ordonez S.; Marin P.;
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作者单位

Rey Juan Carlos Univ, Dept Chem & Energy Technol, Chem & Environm Technol, Mech Technol & Analyt Chem, Madrid 28933, Spain;

Rey Juan Carlos Univ, Dept Chem & Energy Technol, Chem & Environm Technol, Mech Technol & Analyt Chem, Madrid 28933, Spain;

Rey Juan Carlos Univ, Dept Chem & Energy Technol, Chem & Environm Technol, Mech Technol & Analyt Chem, Madrid 28933, Spain;

Rey Juan Carlos Univ, Dept Chem & Energy Technol, Chem & Environm Technol, Mech Technol & Analyt Chem, Madrid 28933, Spain;

Univ Oviedo, Fac Chem, Dept Chem & Environm Engn, E-33006 Oviedo, Asturias, Spain;

Rey Juan Carlos Univ, Dept Chem & Energy Technol, Chem & Environm Technol, Mech Technol & Analyt Chem, Madrid 28933, Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Pd composite membrane; Electroless pore-plating; Membrane reactor simulation; Computational fluid dynamics; Scale-up;

机译：钯复合膜;无电镀孔;膜反应器模拟;计算流体力学;放大;
入库时间 2022-08-18 00:21:13

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Hydrogen production in a Pore-Plated Pd-membrane reactor: Experimental analysis and model validation for the Water Gas Shift reaction

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