A mathematical model to analyze solid oxide electrolyzer cells (SOECs) for hydrogen production

Vikram Menon; Vinod M. Janardhanan; Olaf Deutschmann

首页> 外文期刊>Chemical Engineering Science >A mathematical model to analyze solid oxide electrolyzer cells (SOECs) for hydrogen production

【24h】

A mathematical model to analyze solid oxide electrolyzer cells (SOECs) for hydrogen production

机译：用于分析制氢的固体氧化物电解槽（SOEC）的数学模型

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

团队文献服务 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

In this analysis, we report an in-house model to describe the complex fundamental and functional interactions between various internal physico-chemical phenomena of a SOEC. Electrochemistry at the three-phase boundary is modeled using a modified Butler–Volmer approach that considers H2 as the electrochemically active species. Also, a multi-step elementary heterogeneous reaction mechanism for the thermo-catalytic H2 electrode chemistry, dusty-gas model to account for multi-component diffusion through porous media, and plug flow model for flow through the channels are used. Results pertaining to detailed chemical processes within the cathode, electrochemical behavior and irreversible losses during SOEC operation are demonstrated. Furthermore, efficiency analysis is performed and limiting current behavior of the SOEC system is investigated.

机译：在此分析中，我们报告了一个内部模型，用于描述SOEC的各种内部理化现象之间的复杂的基本和功能相互作用。使用改进的Butler-Volmer方法对三相边界处的电化学进行建模，该方法将H2视为电化学活性物质。另外，使用了用于热催化H2电极化学的多步基本非均相反应机理，考虑了多组分通过多孔介质扩散的粉尘气体模型以及用于流经通道的塞流模型。结果表明，与SOEC操作过程中阴极内部详细的化学过程，电化学行为和不可逆损耗有关。此外，进行了效率分析并研究了SOEC系统的极限电流行为。

著录项

来源
《Chemical Engineering Science 》 |2014年第null期| 共11页
作者
Vikram Menon; Vinod M. Janardhanan; Olaf Deutschmann;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Solid oxide electrolyzer cell (SOEC); Hydrogen production; Numerical modeling; Reaction kinetics;

机译：固体氧化物电解槽（SOEC）;制氢;数值模拟;反应动力学;

相似文献

外文文献
中文文献
专利

1. A mathematical model to analyze solid oxide electrolyzer cells (SOECs) for hydrogen production [J] . Vikram Menon, Vinod M. Janardhanan, Olaf Deutschmann Chemical Engineering Science . 2014 ,第Null期

机译：用于分析制氢的固体氧化物电解槽（SOEC）的数学模型
2. Technological development of hydrogen production by solid oxide electrolyzer cell (SOEC) [J] . Meng Ni, Michael K.H. Leung, Dennis Y.C. Leung International journal of hydrogen energy . 2008 ,第9期

机译：固体氧化物电解槽（SOEC）制氢技术的发展
3. 2D thermal modeling of a solid oxide electrolyzer cell (SOEC) for syngas production by H_2O/CO_2 co-electrolysis [J] . Meng Ni International journal of hydrogen energy . 2012 ,第8期

机译：固体氧化物电解槽（SOEC）通过H_2O / CO_2共电解生产合成气的2D热建模
4. Computational Fluid Dynamic (CFD) Modeling of Bipolar Steam Solid Oxide Electrolyzer Cells (SOECs)(Abstract) [C] . Diana T Matonis, Richard D Doctor American Institute of Chemical Engineers Spring National Meeting . 2005

机译：双极蒸汽固体氧化物电解槽电池（SOECS）的计算流体动力学（CFD）建模（摘要）
5. Multi-Physicochemical Modeling of Solid Oxide Fuel Cells and Electrolyzer Cells [D] . Xie, Yuanyuan 2013

机译：固体氧化物燃料电池和电解池的多物理化学建模
6. 3D Self‐Architectured Steam Electrode Enabled Efficient and Durable Hydrogen Production in a Proton‐Conducting Solid Oxide Electrolysis Cell at Temperatures Lower Than 600 °C [O] . Wei Wu, Hanping Ding, Yunya Zhang, 2018

机译：3D自构蒸汽电极可在质子传导性固体氧化物电解槽中在低于600°C的温度下高效且持久地产生氢气
7. 2D thermal modeling of a solid oxide electrolyzer cell (SOEC) for syngas production by H₂O/ CO₂ co-electrolysis [O] . Ni, M 2012

机译：固体氧化物电解槽（SOEC）通过H 2 O / CO 2共电解生产合成气的二维热模拟
8. Gradient Meshed and Toughened SOEC (Solid Oxide Electrolyzer Cell) Composite Seal with Self-Healing Capabilities, (Final Report) [R] . 2010

机译：具有自愈能力的梯度网状和增韧sOEC（固体氧化物电解槽）复合密封，（最终报告）

A mathematical model to analyze solid oxide electrolyzer cells (SOECs) for hydrogen production

摘要

著录项

相似文献

相关主题

期刊订阅