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Dynamic modeling of polymer electrolyte membrane fuel cells under real-world automotive driving cycle with experimental validation on segmented single cell

Francesco Verducci, Amedeo Grimaldi, Elena Colombo, Andrea Casalegno, Andrea Baricci

2024Renewable Energy12 citationsDOIOpen Access PDF

Abstract

A 1+1D transient non-isothermal and multiphase polymer electrolyte membrane fuel cell model is developed. The model is validated on experimental data gathered on a segmented single cell and representative of a real-world automotive driving cycle, derived from the stack protocol defined in the ID-FAST H2020 project. During Low-Power operation, cell voltage response is mainly controlled by platinum oxide and water dynamics: the low hydration significantly affects cathode inlet performance. Throughout High-Power operation, instead, voltage transients are ascribable to local mass-transport related phenomena: in particular, liquid water accumulation along the channel strongly decreases the efficiency of cathode outlet region. Finally, the effect of relative humidity at cathode channel inlet is investigated: an increase in the humidification of the air inlet stream from 30% to 50% leads to a better proton conductivity and, therefore, to a significant enhancement of the performance of cathode inlet regions, which also means a slight improvement in the average stack efficiency from 62.2% to 62.8%. Lowering RH of the air-inlet stream from 30% to 15%, a worsening of proton conductivity is observed, which exacerbates performance heterogeneities and leads to a reduction of the average stack efficiency from 62.2% to 61.5%, consistently with experimental results.

Topics & Concepts

Automotive industryDriving cycleElectrolyteMembraneFuel cellsAutomotive engineeringProton exchange membrane fuel cellMaterials sciencePolymerEngineeringComputer scienceChemistryChemical engineeringComposite materialAerospace engineeringElectrodePhysicsElectric vehicleBiochemistryQuantum mechanicsPower (physics)Physical chemistryFuel Cells and Related MaterialsElectric and Hybrid Vehicle TechnologiesElectrocatalysts for Energy Conversion
Dynamic modeling of polymer electrolyte membrane fuel cells under real-world automotive driving cycle with experimental validation on segmented single cell | Litcius