Overview and Research on Airworthiness and Safety of Electrical
Propulsion and Battery Technologies in eVTOL 2023-01-7116
This overview and study article scrutinizes the evolution and challenges of
electric vertical takeoff and landing aircraft (eVTOL), with a primary focus on
airworthiness and safety certification. The paper discusses key issues such as
high-energy-density aviation-grade batteries and the light weighting of
electrical propulsion systems. Utilizing scientific models and real-world data,
the study outlines the required battery technology and electrical propulsion
specifications for eVTOLs with effective commercial load capabilities. For
eVTOLs operating in the 300 km range, aviation-grade batteries must achieve
energy densities between 300-600 wh/kg. For those covering a 600 km range, the
energy density requirements exceed 600 wh/kg. Compliance with stringent safety
standards, including triple certification by the FAA under 14 CFR Part 23, is
imperative. This article conducted research and offered flowchart of the
complicated FAA standard, which is rare in existing articles. This article also
proposed better platform which is more conducive to testing the propulsion and
battery systems as well as the overall design of electric aircraft, especially
eVTOLs. By establishing this more advanced platform, we aim to engage industrial
partners both in China and internationally in various aspects such as propulsion
technology, battery and material technology, and the overall design,
manufacturing, and operation of eVTOL to meet airworthiness and safety
requirements.