This paper deals with a system-level modelling for the performance prediction of power units based on fuel cells that are designed to work with a syngas or with a fuel that can contain CO, such as HT-PEMFCs, MCFCs and SOFCs. The model solves mass and energy balances and allows to estimate the polarization curves by applying mathematical equations that take into account the different type of fuel cell. The empirical coefficients of the model equations have been tuned by using available experimental data.
Development of a System-Level Model for Fuel Cell Power Units Operated with Syngas
PERNA, Alessandra;
2015-01-01
Abstract
This paper deals with a system-level modelling for the performance prediction of power units based on fuel cells that are designed to work with a syngas or with a fuel that can contain CO, such as HT-PEMFCs, MCFCs and SOFCs. The model solves mass and energy balances and allows to estimate the polarization curves by applying mathematical equations that take into account the different type of fuel cell. The empirical coefficients of the model equations have been tuned by using available experimental data.File in questo prodotto:
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