Basic Comparison of Three Aircraft Concepts: Classic Jet Propulsion, Turbo-Electric Propulsion and Turbo-Hydraulic Propulsion

Basic Comparison of Three Aircraft Concepts: Classic Jet Propulsion, Turbo-Electric Propulsion and Turbo-Hydraulic Propulsion

Purpose - This thesis presents a comparison of aircraft design concepts to identify the superior propulsion system model among turbo-hydraulic, turbo-electric and classic jet propulsion with respect to Direct Operating Costs (DOC), environmental impact and fuel burn. --- Approach - A simple aircraf...

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Bibliographic Details
Main Author: Rodrigo, Clinton
Other Authors: Scholz, Dieter
Format: Others
Language:English
Published: Aircraft Design and Systems Group (AERO), Department of Automotive and Aeronautical Engineering, Hamburg University of Applied Sciences, 2019
Subjects:
ddc:620
info:eu-repo/classification/ddc/629.13
Luftfahrt
Luftfahrzeug
Flugmechanik
Betriebskosten
Aeronautics
Airplanes
Airplanes > Performance
Cost accounting
Ölhydraulik
Flugtriebwerk
Elektroantrieb
Kraftstoffverbrauch
Flugzeug
Entwurf
Dimensionierung
Aeroplanes
Design
Airplanes > Jet propulsion
Airplanes > Turbofan engines
Electric propulsion
Hydraulics
Airplanes > Fuel consumption
Environmental protection
Airbus A320
aircraft
aircraft design
flight mechanics
engines
hybrid propulsion
hydraulics
certification
DOC
Direct Operating Costs
Airbus
A320
Online Access:http://nbn-resolving.org/urn:nbn:de:gbv:18302-aero2019-09-22.014
http://doi.org/10.15488/9329
http://n2t.net/ark:13960/t2k72zp1t
http://d-nb.info/1204558019
http://library.ProfScholz.de
http://www.fzt.haw-hamburg.de/pers/Scholz/arbeiten/TextRodrigo.pdf
http://www.fzt.haw-hamburg.de/pers/Scholz/arbeiten/TextRodrigo.jpg
http://doi.org/10.7910/DVN/K5FLHR
Description
Summary:Purpose - This thesis presents a comparison of aircraft design concepts to identify the superior propulsion system model among turbo-hydraulic, turbo-electric and classic jet propulsion with respect to Direct Operating Costs (DOC), environmental impact and fuel burn. --- Approach - A simple aircraft model was designed based on the Top-Level Aircraft Requirements of the Airbus A320 passenger aircraft, and novel engine concepts were integrated to establish new models. Numerous types of propulsion system configurations were created by varying the type of gas turbine engine and number of propulsors. --- Findings - After an elaborate comparison of the aforementioned concepts, the all turbo-hydraulic propulsion system is found to be superior to the all turbo-electric propulsion system. A new propulsion system concept was developed by combining the thrust of a turbofan engine and utilizing the power produced by the turbo-hydraulic propulsion system that is delivered via propellers. The new partial turbo-hydraulic propulsion concept in which 20% of the total cruise power is coming from the (hydraulic driven) propellers is even more efficient than an all turbo-hydraulic concept in terms of DOC, environmental impact and fuel burn. --- Research Limitations - The aircraft were modelled with a spreadsheet based on handbook methods and relevant statistics. The investigation was done only for one type of reference aircraft and one route. A detailed analysis with a greater number of reference aircraft and types of routes could lead to other results. --- Practical Implications - With the provided spreadsheet, the DOC and environmental impact can be approximated for any commercial reference aircraft combined with the aforementioned propulsion system concepts. --- Social Implications - Based on the results of this thesis, the public will be able to discuss the demerits of otherwise highly lauded electric propulsion concepts. --- Value - To evaluate the viability of the hydraulic propulsion systems for passenger aircraft using simple mass models and aircraft design concept.

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