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The 3D Numerical Analysis on the Predictions of Flight Stability at Take-off and Landing (Crosswind 60°)
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 Title & Authors
The 3D Numerical Analysis on the Predictions of Flight Stability at Take-off and Landing (Crosswind 60°)
Sheen, Dong-Jin;
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 Abstract
The aim of this paper is to research the change in the turbulent flow and the AOA occurred by crosswind to the direction of runway through the three-dimensional numerical analysis and to predict the take-off and landing flight stability. As a result, the maximum amplitude of AOA variation on runway reached within 7 second because of the wake formed by the constructions in the vicinity of the airport, and the overall effects appeared as an irregular aperiodic forms. Additionally, it was observed that the layout and shape of the buildings effected on the strength of turbulence directly, and the rapid flow generated between the buildings changed into stronger wake and eventually expected that the flow raises serious take-off and landing flight instability.
 Keywords
Runway;Ground Turbulence;UAV;Crosswind;Take-off and Landing;CFD;
 Language
Korean
 Cited by
 References
1.
Fred H. Proctor and David A. Hinton., "A Windshear Hazard Index", Preprints of 9th Conference on Aviation, Range and Aerospace Meteorology 11-15 September 2000. pp. 482-487

2.
P. Douglas Arbuckle, Michael S. Lewis, and David A. Hinton, "Airborne Systems Technology Application of the Windshear Threat", International Council of the Aeronautical Sciences Paper Number 95-5.7.1, Sep. 1996

3.
Fred H. Proctor, "Interaction of Aircraft Wakes from Laterally Space Aircraft", American Institute of Aeronautics and Astronautics 092407

4.
Y.S. Ebrahimi, "Parallel Runway Requirement Analysis Study", NASA Contractor Report 191549, Volume 1, December 1993

5.
P. Neofytou, A.G. Venetsanos, D. Vlachogiannis, J.G. Bartzis, A. Scaperdas, "CFD simulations of the wind envrionment round an airport terminal building", Environmental Modelling & Software 21, pp.520-524, 2006. crossref(new window)

6.
홍교영,신동진,박수복, "활주로 주변건물을 지나는 측풍에 의한 이․착륙 항공기의 받음각 감소에 관한 연구", 한국항공운항학회지, 제17권 제 2호

7.
홍교영,신동진, "활주로 주변 건물로 인하여 발생되는 Ground Turbulence 감소 방안", 한국항행학회 논문지, 제13권 제6호

8.
신동진,홍교영,김영인, "활주로 주변에 설치된 fence가 Ground Turbulence에 미치는 영향에 대한 연구", 한국항공운항학회지, 제17권 제4호

9.
홍교영,신동진, "활주로 방향에 수직인 유동이 활주로에 미치는 영향에 대한 3차원 수치해석", 한국항행학회 논문지, 제 14권 제4호

10.
국토해양부, "비행장시설 설치기준(국토해양부 고시 제2009-346호)", pp.2-2, 2009.

11.
ICAO, "Doc. 9184-Airport planning manual Part I. Master planning", pp. I-35 - I-37, 2008.

12.
ICAO, "Annex. 14-Aerodrome", Vol. I, 2008.

13.
Cessna Aircraft Company, "Pilot's Operating Handbook and FAA Approved Airplane Flight Manual", CESSNA MODEL 172s, 1998

14.
FLUENT Inc., "FLUENT6 User's Guide Volume 2", pp. 10-15 - 10-16, 2006.

15.
Evektor Aircraft Company, "EV97 Operating Manual", 2006.

16.
노건수, "항공기 성능", 도서출판 공간아트, 2009. pp. 176-178