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15.30 Darlene Pudolin - CAPLINQ.pdf

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1、Advanced Thermal Management Strategiesfor PEM Fuel Cells using Phase Change MaterialsDarlene Pudolin,CAPLINQ Corporation35 December 2024|Stuttgart,GermanyFuel CellsIntroduction2Electrochemical device that generates electricity without combustionby combining hydrogen and oxygen in an electrochemical

2、reaction,producing only water and heat as by-products.Fuel cells power a range of applications today,from homes and critical facilities to vehicles like cars,buses,and trains,offering a clean,efficient energy source.Fuel CellBackup PowerPrime Power for Critical LoadsSpecialty VehiclesTransportationG

3、enerated by the release of latent heat during water vapor condensationHeat Generation in Fuel CellsIntroductionChemical energy that is not converted into electricity is released as heatElectrodes due to electrochemical reactionsGas diffusion electrodes due to water condensationMembrane due to proton

4、ic resistanceHeat in the membrane is generated due to protonic resistance,as ion movement encounters resistanceMembraneelectrode interface due to water sorptionWater sorption maintains ionic conductivity and ion transport,generating heat due to the enthalpy of absorption.3Catalyst layer and GDL degr

5、adationthrough dissolution,agglomeration,detachment,and Ostwald ripening,with carbon support corrosion adding to these issues.Higher temperatures increase these degradation rates.Membrane dehydrationincreases the risk of physical damage,such as cracking or pin-hole formation.High temperatures can in

6、crease ohmic losses.Ionomers can degrade too.High-temperature operation and localized hot spot formation are two major sources of material degradation.Thermal Management Strategies in PEM Fuel CellsIntroduction4Heat/thermal management of the PEMFC is normally achieved via employing a suitable coolin

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本文主要探讨了使用相变材料(PCM)改善质子交换膜燃料电池(PEMFC)的热管理策略。关键点如下: 1. 燃料电池在发电过程中会产生热量,高温操作和局部热点形成会导致材料退化。 2. 热管理策略通常依赖于冷却系统,低功率燃料电池采用空气冷却,而高功率燃料电池则考虑液体冷却。 3. 相变材料具有高热容和适宜的相变温度,能存储和释放大量热能,但其在PEMFC热管理中的应用尚未广泛探索。 4. 研究开发了一种带有空气冷却(ACC)和PCM冷却通道(PCC)的3D非等温PEMFC模型,使用MATLAB软件进行模拟。 5. 模拟结果显示,集成PCM后,GDL-CL接口温度降低了20°C,水分摩尔分数从0.28提升至0.37,有助于稳定温度,提高PEMFC的导电性和效率,延长其寿命。 核心数据:相变材料(如钠醋三水合物和Honeywell PTM6000)的熔点分别为331.15K和318.15K,热导率分别为0.6W/m⋅K和6.0W/m⋅K,比热容分别为2.9kJ/kg⋅K和0.97kJ/kg⋅K。
"如何降温20°C?PEM燃料电池新策略" "水蒸气也能高效冷却?探索PCM新材料" "提升燃料电池效率,秘密在哪种材料?"
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