The application of electric power for aircraft propulsion can take a variety of forms, ranging from partial electric to full electric. The introduction of electric engines to drive propulsors, along with the variety of available methods to generate electricity and store energy offers great degree of new design freedom for next-generation aircraft and aircraft architectures. This newfound design freedom exposes a need within the aviation industry to establish a common design language for electrified propulsion. While this need for a common design language is recognized, the intent of this document is to encourage innovation, providing reference architectures as a launching point for future work in this area. This document will describe potential electrified propulsion architectures and provide examples. While providing these example architectures, this document will develop common definitions for the elements of the architectures by defining: 1 The elements of electrified propulsion architectures, including any dedicated power generation and distribution systems as well as energy storage elements. 2 The interfaces to/from the electrified propulsion system. 3 The interfaces within the electrified propulsion system. 4 Electrical energy management and storage architecture of an electrified propulsion system. While capturing these architectures and elements, this document will serve as a reference point for future works of SAE and provide aerospace industry guidance. It is recognized that the high power density associated with electrified propulsion will require an advanced thermal management system (TMS). It is expected that, in practice, there will be a great degree of implementation-specific variation in TMS solutions for the elements of an electrified propulsion system. Although thermal management is an intrinsic requirement applicable to most, if not all, elements of an electrified propulsion system, TMS is outside the scope of this document, which is intended to describe six example electrified propulsion architectures. The electrification of aircraft propulsion is an emerging area which holds much promise for realizing an air transport revolution and enabling new mobility options. These technologies have the potential for carbon footprint reduction, noise reduction, improved performance, new aerodynamic efficiencies, and better utilization of energy infrastructure. The application of electric power for aircraft propulsion can take a variety of forms, ranging from partial electric to full electric. The introduction of electric drive systems to drive propulsors, along with the variety of available methods to generate electricity and store energy, offers an increased design freedom for next-generation aircraft and aircraft architectures. This newfound design freedom exposes a need within the aviation industry to establish a common design language for electrified propulsion. The purpose of this document is to describe potential electrified propulsion architectures to ensure that, while the industry innovates in this area, they can share common architectural definitions. This common architectural language will simplify the industry-wide efforts to assess functional and safety requirements for these emerging technologies.


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    Titel :

    Architecture Examples for Electrified Propulsion Aircraft


    Erscheinungsdatum :

    2022-08-01



    Medientyp :

    Aufsatz (Konferenz)


    Format :

    Print


    Sprache :

    Englisch





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