Sizing Analysis for Aircraft Utilizing Hybrid-Electric Propulsion Systems

Abstract

Current conceptual aircraft design methods use historical data to predict and evaluate the size and weight of new aircraft. These traditional design methods have been ineffective to accurately predict the weight or physical dimensions of aircraft utilizing unique propulsion systems. The mild hybrid-electric propulsion system represents a unique design that has potential to improve fuel efficiency and reduce harmful emissions. Hybrid-electric systems take advantage of both reliable electric power and the long range/endurance capabilities of internal combustion engines. Desirable applications include general aviation single-engine aircraft and remotely-piloted aircraft. To demonstrate the advantages of mild hybrid-electric propulsion, a conceptual design code was created that modified conventional methods. Using several case studies, the mild hybrid conceptual design tool verified potential fuel savings for general aviation aircraft and expanded mission capability for remotely-piloted aircraft.

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Document Details

Document Type
Technical Report
Publication Date
Mar 18, 2011
Accession Number
ADA540143

Entities

People

  • Matthew D. Rippl

Organizations

  • Air Force Institute of Technology

Tags

Communities of Interest

  • Air Platforms
  • Autonomy
  • Energy and Power Technologies
  • Ground and Sea Platforms

DTIC Thesaurus Topics

  • Aircraft Equipment
  • Aircraft Industry
  • Aircrafts
  • Airframes
  • Control Systems
  • Electric Automobiles
  • Electric Power
  • Fuel Efficiency
  • Ground Control Stations
  • Hybrid Electric Vehicles
  • Hybrid Power
  • Lithium Ion Batteries
  • Propulsion Systems
  • Remotely Piloted Vehicles
  • Storage Batteries
  • Unmanned Aerial Systems
  • Unmanned Aerial Vehicles

Readers

  • Aviation Science / Aeronautics.
  • Electrical Engineering
  • Systems Analysis and Design