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Kozeny, Pavel [Author]; Hrdlicka, Jiri [Author]; von Unwerth, Thomas [Author] ; Technische Universität Chemnitz

Real-time mathematical description of a fuel cell system with a passive hydrogen recirculation

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  • Media type: E-Article; Conference Proceedings
  • Title: Real-time mathematical description of a fuel cell system with a passive hydrogen recirculation
  • Other titles: Übersetzter Titel: Echtzeitige mathematische Beschreibung eines Brennstoffzellensystems mit einer passiver Wasserstoffrezirkulation
  • Contributor: Kozeny, Pavel [Author]; Hrdlicka, Jiri [Author]; von Unwerth, Thomas [Author]
  • imprint: [2019]
  • Published in: FC³ - 1st Fuel Cell Conference Chemnitz 2019 - Saubere Antriebe. Effizient Produziert.
  • Language: English
  • Keywords: ejector ; realtime ; Strahlpumpe ; science-chemistry ; engineering-process ; recirculation ; Echtzeit ; Rezirkulation ; Chemie und Pharmazie ; Brennstoffzelle ; echtzeitig ; Mathematische Modellierung ; mathematical modeling ; Fuel cell
  • Origination:
  • Footnote:
  • Description: A passive recirculation of hydrogen using ejectors is effective and efficient only in a limited operating window, which kept ejectors until recently from being integrated into automotive fuel cell systems, where a more dynamic operation is expected. Strategies like parallel setup or a PWM-drive employed to expand the operating window demand reliable control algorithms. Such algorithms can greatly benefit from the predictive power a mathematical model. In a fuel cell system, the anode and cathode side cannot be separated, and a mathematical description should encompass all components to a reasonable degree, to allow the model to run on a low power automotive-grade platform in real time. This contribution demonstrates an approach to reduce the computation expense of the mathematical model.
  • Access State: Open Access