基于多物理场建模的质子交换膜电解槽暂态机理研究OA
Transient Mechanism of Proton Exchange Membrane Water Electrolysis Based on Multi-physics Modeling
质子交换膜电解槽(proton exchange membrane water electrolysis,PEMWE)在瞬时功率波动下的快速动态变化涉及多物理场相互作用,其暂态机理尚不明晰,制约了暂态控制建模和并网安全稳定分析.该文提出考虑多孔介质瞬时热非平衡特性的多物理场模型,研究PEMWE秒级热电耦合动态行为,揭示其瞬时功率波动下的暂态机理.首先,鉴于PEMWE瞬态工况局部热点引发热失控风险,在其工作原理和结构特征分析基础上,提出多孔介质固有的热非平衡特性会主导其秒级暂态过程的科学猜想及模型;进一步,考虑多孔介质的局部热非平衡,建立最小电解单元三维多物理场模型,模拟其瞬时功率波动下的热电动态行为;最后,通过数值模拟研究电解槽单池电压、入口流速、入口温度和相间热传递系数对PEMWE在变功率条件下多孔介质两相温度分布暂态过程的影响规律,证明PEMWE在瞬时功率波动下的秒级动态行为是膜电极热非平衡传热主导的热电耦合过程,揭示PEMWE的热电暂态机理.
The rapid dynamic changes of proton exchange membrane water electrolysis(PEMWE)under instantaneous power fluctuations involve the interaction of multiple physical fields,and its transient mechanism is still unclear,which hinders transient control modeling and grid-connection safety and stability analysis.A multi-physics field model considering the transient thermal non-equilibrium characteristics of porous media is proposed to study the second-level thermoelectric coupling dynamic behavior of PEMWE and reveal its transient mechanism under instantaneous power fluctuations.First,considering the risk of thermal runaway caused by local hot spots under PEMWE transient conditions,based on the analysis of its working principle and structural characteristics,a scientific conjecture and a model are proposed,which suggest that the inherent thermal non-equilibrium characteristics of porous media dominate its second-level transient process.Furthermore,considering the local thermal non-equilibrium of porous media,a three-dimensional multi-physics field model of the minimum electrolysis unit is established to simulate its thermoelectric dynamic behavior under instantaneous power fluctuations.Finally,numerical simulation is used to study the influence of battery voltage,inlet flow rate,inlet temperature,and interphase heat transfer coefficient on the transient process of the two-phase temperature distribution in porous media in PEMWE under variable power conditions.It is proved that the second-level dynamic behavior of PEMWE under instantaneous power fluctuations is a thermoelectric coupling process dominated by thermal non-equilibrium heat transfer of membrane electrode,revealing the thermoelectric transient mechanism of PEMWE.
袁铁江;谭捷;闫华光
大连理工大学电气工程学院,辽宁省 大连市 116024大连理工大学电气工程学院,辽宁省 大连市 116024中国电力科学研究院有限公司,北京市 海淀区 100192
信息技术与安全科学
质子交换膜电解槽热非平衡暂态机理热电耦合瞬时功率波动
proton exchange membrane water electrolysisthermal non-equilibriumtransient mechanismthermoelectric couplinginstantaneous power fluctuations
《中国电机工程学报》 2026 (5)
1980-1993,中插20,15
国家电网有限公司科技项目(5400-202328240A-1-1-ZN).Science and Technology Project of State Grid Corporation of China(5400-202328240A-1-1-ZN).
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