Electric aircraft conceptual designs usually have an assumed specific power and specific energy for the aircraft’s energy storage system that dictates the total capacity and the peak power available. The specific energy and power are inherently linked to the state-of-charge and discharge rate from which they were derived; therefore, they will not directly correspond to the diverse circumstances encountered in various aircraft missions and flight segments. These parameters turn the battery system into a black box, disregard potential electrical restrictions, and disallow the aircraft and battery to be optimized as a system. Peering into this box, this study highlights the importance of incorporating a parametric battery model into the conceptual design workflow by splitting high-level terms such as power into voltage and current and investigating their variability during the discharge process. Through the modeling of these more detailed parameters, this methodology shows the feasibility of using low states-of-charge for contingency operations, including the end of the reserve mission, expanding the amount of usable capacity for electric aircraft. Stark differences in aircraft capabilities can arise between varying fidelity battery models due to late-mission, high-power flight operations. This parametric battery model effectively captures these differences by evaluating the limitations that arise within the individual battery cells and the aircraft powertrain. This paper shows that the unusable charge of a battery is set by the balked landing power requirement and can realistically range from 5% to 44% based on assumptions. This sets the analog to unusable fuel capacity in aircraft with liquid fuel systems. Needing only aircraft- and mission-level inputs and only seconds of run time, this model is a prime fit for the fast, accurate exploration of the electric aircraft conceptual design space.


    Access

    Access via TIB

    Check availability in my library


    Export, share and cite



    Title :

    Parametric Battery Model for the Conceptual Design of Electric Aircraft


    Contributors:

    Publication date :

    2024


    Size :

    17 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English






    Exploring Parametric CAD-Models in Aircraft Conceptual Design

    Tarkian, Mehdi / Ölvander, Johan / Berry, Patrick | AIAA | 2008


    Exploring Parametric CAD-Models in Aircraft Conceptual Design

    Tarkian, M. / Olvander, J. / Berry, P. et al. | British Library Conference Proceedings | 2008


    Enhancements in conceptual electric aircraft design

    Mieloszyk, Jacek / Tarnowski, Andrzej | Emerald Group Publishing | 2019