论文信息 - Observation of the Electrochemically active Surface Area in a Proton Exchange Membrane Fuel Cell

Observation of the Electrochemically active Surface Area in a Proton Exchange Membrane Fuel Cell

In this paper a methodology for the estimation of the Electrochemically active Surface Area (ECSA) of a Proton Exchange Membrane Fuel Cell (PEMFC) is developed. Specifically, the ECSA in the Cathode Catalyst Layer (CCL) is estimated, which makes it possible to quantify the amount of active platinum (Pt) in the CCL. In order to estimate the ECSA, the internal conditions of the PEMFC have to be known. A model-based observer for the distributed parameter dynamics is designed. From the observation of the distributed states, the ECSA can be estimated as well. With the aim of representing the most relevant phenomena that affects the PEMFC voltage, the simulation model includes a two-phase water model and the effects of liquid water on the CCL. The results of the methodology are discussed in a simulation environment using the New European Driving Cycle (NEDC) as a case study.

Elio Usai | Attila Husar | Julio Luna | Maria Serra

[1] Arie Levant,et al. Higher-order sliding modes, differentiation and output-feedback control , 2003 .

[2] Frano Barbir,et al. PEM Fuel Cells: Theory and Practice , 2012 .

[3] Maria Pina Serra,et al. Nonlinear Distributed Parameter Observer Design for Fuel Cell Systems , 2015 .

[4] Andreas Bück,et al. Passivity based control of a distributed PEM fuel cell model , 2010 .

[5] Leonid M. Fridman,et al. Quasi-continuous HOSM control for systems with unmatched perturbations , 2008, 2008 International Workshop on Variable Structure Systems.

[6] Elio Usai,et al. Nonlinear observation in fuel cell systems: a comparison between disturbance estimation and High-Order Sliding-Mode techniques , 2016 .

[7] Attila Husar,et al. A multi-timescale modeling methodology for PEMFC performance and durability in a virtual fuel cell car , 2015 .

[8] Ross Taylor,et al. Multicomponent mass transfer , 1993 .

[9] Attila Husar,et al. Electrode structure effects on the performance of open-cathode proton exchange membrane fuel cells: A multiscale modeling approach , 2014 .