[논문]Multifunctional fuel cell system for civil aircraft: Study of the cathode exhaust gas dehumidification

Cruz Champion, H.; Kabelac, S.

doi:10.1016/j.ijhydene.2017.09.175

Multifunctional fuel cell system for civil aircraft: Study of the cathode exhaust gas dehumidification

International journal of hydrogen energy, v.42 no.49, 2017년, pp.29518 - 29531

Cruz Champion, H. (Corresponding author.) , Kabelac, S.

Abstract ▼ AI-Helper

Abstract Integration of a multifunctional fuel cell into civil aircraft as on-board power generating system is a promising opportunity to improve energy efficiency while reducing emissions. In this approach, a PEMFC would provide electrical energy during on-ground operations and emergency situations, while by-products water vapour and oxygen depleted air (ODA) would be used during flight for water generation and inerting (provision of non-inflammable atmosphere). This study presents a novel cathode exhaust gas dehumidification system based on an air cycle machine (compressor, heat exchanger, cyclone, turbine) which supplies liquid water and dry ODA for the aforementioned functions. First, feasibility of the multifunctional approach, quality of the generated water and necessary level of dehumidification are discussed. Next, real fluid property data and the system thermodynamic model are presented. Feasibility of the novel system is demonstrated with a parametric study on the effect of stoichiometry, compressor pressure ratio and turbine outlet pressure. Computed results show that: the target average O2 concentration of 10.5% (vol.) is maintained at stoichiometries below λ O 2 ≤ 1.8 ; for maximum humidity ratio x m a x = 0.002 kg H 2 O / kg O D A there is not risk of ice formation on condenser when compressor pressure ratio is above π ≥ 2.8. Finally, an estimation of added and potentially removed weight is given, also possible system configurations are derived. Highlights Novel dehumidification system of the PEM fuel cell cathode exhaust gas is proposed. System provides liquid water and dry inert gas for the multifunctional FC approach. Feasibility is proved with a parametric study using real fluid property data. Estimations show the system potential to compensate for added FC system weight.

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참고문헌 (44)

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Multifunctional fuel cell system for civil aircraft: Study of the cathode exhaust gas dehumidification

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참고문헌 (44)

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