Browse > Article
http://dx.doi.org/10.20910/JASE.2020.14.4.40

Evaluation of Fuel Consumption of B747-400 in Short-range Flight with Catapult Assist  

Lee, Changhyeok (Div. of Aerospace, Automotive and Mechanical Engineering of Dong Seoul University)
Park, Hyunchul (Div. of Aerospace, Automotive and Mechanical Engineering of Dong Seoul University)
Publication Information
Journal of Aerospace System Engineering / v.14, no.4, 2020 , pp. 40-46 More about this Journal
Abstract
Recently, the aviation industry has sought to reduce its carbon usage in aircraft operations. Specifically, the industry is proceeding with the development of ultra-large turbofan engines and the development of hybrid electric engines to reduce the fuel consumption of aircraft. In one case, Airbus is developing as its future goal an aircraft with a short take-off distance that uses a catapult. In this study, when a b747-400 aircraft with two of the four engines removed was tested using a catapult, its fuel consumption was compared with that of the original aircraft. Fuel consumption was calculated using the mass flow consumption formula. Further, the aircraft L/D ratio caused by engine removal was interpreted using the CFD Tool, Ansys Fluent. The results showed that the lift ratio was improved by about 7% and that the fuel efficiency was improved by about 14%.
Keywords
Catapult; TSFC; Lift-drag ratio; MTOW; Breguet Equation; CFD;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Kim. D, Lee. D, Seo. J, "Aircraft Modeling Using CATIA", 1st ed, Science technology, Seoul, 2018
2 Airfoil Data of Aircraft, https://m-selig.ae.illinois.edu/ads/aircraft.html,
3 UIUC airfoil data, https://m-selig.ae.illinois.edu/ads/coord_database.html
4 Ansys, Fluent Basic, 1st ed., TSNE, seoul, 2018
5 Park. S, "Numerical analysis of Aerodynamics for DLR F6 configurations using CFD", Master's Thesis. Inha Univ, 2011
6 John E. Cashman, Brian D. Kelly, Brian N. Nield, Operational Use of Angle of Attack on Modern Commercial Jet Airplanes, Boeing, USA, 2000
7 Hanke, C. Rodney and Donald R., "The Simulation of a Large Jet Transport Aircraft", Boeing Rept. Vols. I and II, No. D6-306433, 1970
8 Ministry of Land Infrastructure and Transport., "b747-400", seoul, 2014
9 Boeing, Boing 747 - 400 Operational Data Manual, USA, 2008
10 Elodie Roux, Turbofan and Turbojet Engines : Database Handbook, 1st Ed., Blagnac, France, 2007
11 Characteristics of the Specific Fuel Consumption for Jet Engines, https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/LZNNL1
12 Kristof Risse, "Preliminary overall aircraft design with hybrid laminar flow control", PhD Thesis. RWTH Aachen University, 2016
13 Gregg G. Fleming and Ivan de Lepinay, "Environmental Trends in Aviation to 2050", ICAO 2019 Environmental Rept, 2019
14 Airbus Smarter Skies, https://www.airbus.com/newsroom/press-releases/en/2012/09/airbus-unveils-its-2050-visionfor-smarter-skies.html
15 Research Council of Aircraft Design Education, Aircraft Conceptual Design, 1st Ed, Kyungmunsa, Seoul, 2001
16 Park, H., "Calculation of Trip Fuel Efficiency by catapult-assisted Take-off", pp.413-414. SASE 2017 Fall Conference, Busan, 2017