A Generalized Power System Architecture Sizing and Analysis Framework | Zendy

David J. Sadey | Zendy; Jeffrey Csank | Zendy; Patrick Hanlon | Zendy; Ralph Jansen | Zendy

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A Generalized Power System Architecture Sizing and Analysis Framework

Author(s) -

David J. Sadey,

Jeffrey Csank,

Patrick Hanlon,

Ralph Jansen

Publication year - 2018

Publication title -

2018 joint propulsion conference

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.242

H-Index - 10

DOI - 10.2514/6.2018-4616

Subject(s) - sizing , architecture , electric power system , computer science , dependency (uml) , systems architecture , electric power , systems engineering , power (physics) , electric power industry , engineering , electrical engineering , electricity , art , visual arts , physics , quantum mechanics

The aeronautics industry has been challenged to increase efficiency, reduce noise and emissions, and decrease dependency on carbon-based fuels. To address these needs, NASA has identified and begun to pursue electrified aircraft as a possible solution. The power system for an electric aircraft can exist in many different forms, however; at the early design stage the engineer(s) must identify whether a hybridor turboelectric solution may be best, whether the power transmission system is to be AC or DC, and to ultimately answer the question: does the electric solution provide a net system benefit compared to the fully mechanical solution? This paper describes a generalized power system architecture sizing and analysis framework to provide a mechanism to answering these questions, along with an example based on the STARC-ABL Architecture.

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