Evaluation of the Hybrid-Electric Aircraft Project Airbus E-Fan X
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- Publication date
- 2019-06-30
- Topics
- Luftfahrt, Luftfahrzeug, Elektroantrieb, Flugmechanik, Betriebskosten, Kraftstoffverbrauch, Luftverschmutzung, Fluglärm, Projektbewertung, Technikbewertung, Luftfahrttechnik, Flugtriebwerk, Passagier, Flugzeug, Entwurf, Dimensionierung, aeronautics, airplanes, electric propulsion, airplanes--performance, cost accounting, airplanes--fuel consumption, environmental protection, airplanes--noise, evaluation, technology assessment, aerospace engineering, airplanes--jet propulsion, airplanes--turbofan engines, design, aircraft, aircraft design, flight mechanics, engines, certification, DOC, Direct Operating Costs, Airbus, E-Fan X, BAe 146
- Publisher
- Aircraft Design and Systems Group (AERO), Department of Automotive and Aeronautical Engineering, Hamburg University of Applied Sciences
- Collection
- folkscanomy_academic; folkscanomy; additional_collections
- Contributor
- Scholz, Dieter
- Language
- English
- Rights
- © This work is protected by copyright. The work is licensed under CC BY-NC-SA. Any further request may be directed to Prof. Dr.-Ing. Dieter Scholz, MSME (http://www.ProfScholz.de)
Purpose - This master thesis evaluates the hybrid-electric aircraft project E-Fan X with respect to its economical and environmental performance in comparison to its reference aircraft, the BAe 146-100. The E-Fan X is replacing one of the four jet engines of the reference aircraft by an electric motor and a fan. A turboshaft engine in the cargo compartment drives a generator to power the electric motor. --- Methodology - The evaluation of this project is based on standard aircraft design equations. Economics are based on Direct Operating Costs (DOC), which are calculated with the method of the Association of European Airlines (AEA) from 1989, inflated to 2019 values. Environmental impact is assessed based on local air quality (NOx, Ozone and Particulate Matter), climate impact (CO2, NOx, Aircraft-Induced Cloudiness known as AIC) and noise pollution estimated with fundamental acoustic equations. --- Findings - The battery on board the E-Fan X it is not necessary. In order to improve the proposed design, the battery was eliminated. Nevertheless, due to additional parts required in the new configuration, the aircraft is 902 kg heavier. The turboshaft engine saves only 59 kg of fuel. The additional mass has to be compensated by a payload reduced by 9 passengers. The DOC per seat-mile are up by more than 10% and equivalent CO2 per seat-mile are more than 16% up in the new aircraft. --- Research limitations - Results are limited in accuracy by the underlying standard aircraft design calculations. The results are also limited in accuracy by the lack of knowledge of some data of the project. --- Practical implications - The report contributes arguments to the discussion about electric flight. --- Social implications - Results show that unconditional praise given to the environmental characteristics of this industry project are not justified.
Notes
Reference the item with persistent identifier:
https://archive.org/details/TextBenegasJayme.pdf
or
https://n2t.net/ark:/13960/t8hf6bt9n
- Addeddate
- 2020-02-14 18:23:08
- Ddc
- 629.13
- External-identifier
-
urn:doi:none
urn:doi:
urn:nbn:de:gbv:18302-aero2019-06-30.012
- Identifier
- TextBenegasJayme.pdf
- Identifier-ark
- https://n2t.net/ark:/13960/t8hf6bt9n
- Identifier-data
- https://doi.org/none
- Identifier-doi
- https://doi.org/
- Location
- Hamburg, Germany
- Ocr
- ABBYY FineReader 11.0 (Extended OCR)
- Ppi
- 300
- Relation-ispartof
- http://library.ProfScholz.de
- Rvk
- ZO 7250
- Scanner
- Internet Archive HTML5 Uploader 1.6.4
- Year
- 2019
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