System simulation model for high-pressure metal hydride hydrogen storage systems

Mandhapati Raju; Jerome P. Ortmann; Sudarshan Kumar

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System simulation model for high-pressure metal hydride hydrogen storage systems

机译：高压金属氢化物储氢系统的系统仿真模型

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On-board hydrogen storage systems employing high-pressure metal hydrides promise advantages including high volumetric capacities and cold start capability. In this paper, we discuss the development of a system simulation model in Matlab/Simulink platform. Transient equations for mass balance and energy balance are presented. Appropriate kinetic expressions are used for the absorption/desorption reactions for the Ti_(1.1)CrMn metal hydride. During refueling, the bed is cooled by passing a coolant through tubes embedded within the bed while during driving, the bed is heated by pumping the radiator fluid through same set of tubes. The feasibility of using a high-pressure metal hydride storage system for automotive applications is discussed. Drive cycle simulations for a fuel cell vehicle are performed and detailed results are presented.

机译：采用高压金属氢化物的车载储氢系统具有许多优点，包括高容量和冷启动能力。在本文中，我们讨论了在Matlab / Simulink平台上开发系统仿真模型的过程。提出了质量平衡和能量平衡的瞬态方程。适当的动力学表达式用于Ti_（1.1）CrMn金属氢化物的吸收/解吸反应。在加油期间，通过使冷却剂通过嵌入在床内的管子来冷却床，而在行驶期间，通过将散热器流体泵送通过同一组管子来加热床。讨论了在汽车应用中使用高压金属氢化物存储系统的可行性。进行了燃料电池汽车的驾驶循环仿真，并给出了详细的结果。

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来源
《International journal of hydrogen energy》 |2010年第16期|p.8742-8754|共13页
作者
Mandhapati Raju; Jerome P. Ortmann; Sudarshan Kumar;
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作者单位

Optimal CAE Inc., Plymouth, MI 48170, USA Chemical Sciences and Material Systems Laboratory, General Motors R&D Center, Warren, MI 48090, USA;

rnChemical Sciences and Material Systems Laboratory, General Motors R&D Center, Warren, MI 48090, USA;

rnChemical Sciences and Material Systems Laboratory, General Motors R&D Center, Warren, MI 48090, USA;

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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
hydrogen storage; system model; simulation model; metal hydride; fuel cell;

机译：储氢系统模型;模拟模型;金属氢化物燃料电池;
入库时间 2022-08-18 00:29:21

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System simulation model for high-pressure metal hydride hydrogen storage systems

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