Daniela Chrenko

  • Citations Per Year
Learn More
This paper presents, a multi-physical fuel cell stack model. The stack model is divided into 3 sub-models describing the different physical domains: electrical, fluidic and thermal. The stacking method has been used to model the fuel cell stack from a single cell model. The proposed model has been validated against a 1.2 kW commercial fuel cell stack with(More)
This paper presents a multiphysical proton exchange membrane fuel cell (PEMFC) stack model. The stack model is divided into three submodels describing the different physical domains, namely, electrical, fluidic, and thermal. The stacking method has been used to model the fuel cell stack from a single-cell model. The proposed model has been validated against(More)
Fuel cell systems (FCS) are considered to be upcoming technology for electrical power generation. They can be used for portable, stationary and transportation applications. Fuel cells are run on hydrogen. Hydrogen can be produced either by electrolysis using electricity from renewable energy or by converting conventional hydrocarbons into a hydrogen rich(More)
  • 1