편대비행에서 후방 항공기의 위치 안전성 분석

조환기,Cho, Hwan Kee 한국항공운항학회 2016 한국항공운항학회지 Vol.24 No.2

Positional stability analysis based on aerodynamic forces and induced moments of formation flight using two small aircraft models is presented. The aerodynamic force and moments of the trailing aircraft are analyzed in the aspect of flight stability. The induced moments with the change of local flow direction by wing-tip vortex from the leading aircraft can affect the flight positional stability of aircraft in closed formation flight. Aerodynamic forces and moments of trailing aircraft model are measured by 6-component internal balance at the 49 locations with vertical and lateral space between two aircraft models. Results are shown that the positional stability of trailing aircraft in formation flight can be analyzed by positional stability derivatives with vertical and lateral space. It is concluded that flying positions can be important factors for aircraft position stability due to induced aerodynamic force and moments with vertical and lateral spacing by the variation of flow pattern from the leading aircraft in formation flight.

항공기의 롤운동 동안정미계수 측정에 관한 연구

조환기,Cho, Hwan-Kee 한국항공운항학회 2013 한국항공운항학회지 Vol.21 No.4

This paper deals with an experimental technique for the measurement of dynamic stability derivatives in the roll motion of aircraft. Experimental aquisition method for aircraft's dynamic stability derivatives is conducted on the oscillation condition of aircraft model in the subsonic wind tunnel. The oscillation of aircraft model was forced by the oscillation apparatus. The forced oscillation technique is the method getting data from the internal balance inserted into the aircraft model during oscillating it. Dynamic stability derivatives of rolling motion were calculated by data reduction from the measurements of rolling moment, frequency and amplitude of aircraft model due to forced oscillation under wind conditions. Results of experiment is obtained similar one with those of roll dynamic stability derivatives measured in other institutes. 본 논문은 항공기의 롤운동에 대한 동안정미계수 측정을 위한 실험적 기법에 관하여 기술하였다. 항공기 동안정미계수의 실험적인 추출 방법은 항공기 모델을 이용하여 풍동에서 진동실험을 수행하는 것이다. 항공기 모델의 진동은 강제진동기법이 적용되었다. 강제진동 기법은 항공기 모델의 내부에 밸런스형의 측정장치를 설치하고 모델을 풍동 시험부 내에 고정한 후에 강제로 진동시키면서 밸런스로부터 측정값을 획득하는 방법이다. 롤링 운동에 대한 동안정미계수는 풍속이 있는 상태에서 강제진동에 의한 항공기 모델의 모멘트와 진동 주파수 및 진폭을 측정한 후에 자료처리를 통하여 계산되었다. 풍동실험의 결과는 타 기관에서 측정된 표준동역학모델의 롤 동안정미계수와 유사한 결과가 얻어짐을 확인하였다.

표준 동력학모델의 피치 동안정미계수 측정에 관한 연구

조환기(Hwan-Kee Cho),백승욱(Seung-Woock Baek),허원욱(Won-Wooc Hur),박재현(Jae-Hyean Park),장조원(Jo-Won Chang) 한국항공우주학회 2000 韓國航空宇宙學會誌 Vol.28 No.5

국내 P공항의 부지 제한조건을 고려한 로컬라이저의 최적위치 선정에 관한 연구

조환기,김종범,송병흠,Cho, Hwan-Kee,Kim, Jong-Bum,Song, Byung-Heum 한국항공운항학회 2015 한국항공운항학회지 Vol.23 No.2

This paper deals with an optimal determination process for the built-in location of localizer under restrictive siting area conditions of a domestic P-airport. Aerodynamic forces and moments acting on the localizer structure can be used a reference to find the safe distance from jet blast and the position at which the reasonable structural loading is applied. Wind tunnel experiment is conducted to measure aerodynamic loadings. The finite element analysis for structural deformation is employed to get the information of structural failure. A new localizer's position is determined by considering aerodynamic loading, structural strength and thermal loading due to jet blast. Deflector effect was also investigated in this study. In conclusion, the location of localizer can be placed at shorter than the current position and greatly decreased if the deflector is applied at the front of localizer.

강제진동기법을 이용한 표준동역학 모델의 피치 동안정미계수측정

조환기(Hwan-Kee Cho),김승필(Seung-Pil Kim),백승욱(Seung-Woock Baek),장조원(Jo-Won Chang) 한국항공우주학회 2007 韓國航空宇宙學會誌 Vol.35 No.6

표준 동역학 모델의 피치 동안정미계수를 측정하기 위한 실험적 연구가 아음속 풍동에서 수행되었다. 모델은 트리거 신호가 주어지면 직류형 서보모터에 의하여 일정한 진폭과 주파수로 상, 하 피치운동을 시작하며, 동시에 25 사이클 동안의 데이터가 자료획득시스템에 저장된다. 동안정미계수 계산에 필요한 위상차는 기분입력 신호와 모델의 무게중심에 장착된 밸런스로부터 나오는 출력신호의 최대 정점과의 위상변화로부터 얻어졌다. 또한 Stabilator의 동안정미계수에 대한 영향은 조종면을 변위시키면서 측정하였다. 본 실험을 위해 독창적으로 제작된 모델의 구동장치 및 실험장치가 다른 연구와 다른데도 불구하고 실험결과는 받음각 변화에 따른 동안정미계수의 변화 경화성이 TPI, NAE, 그리고 FFA의 연구결과와 비교적 잘 일치함을 확인하였다. An experimental study was carried out in order to measure the pitch dynamic stability derivatives of a standard dynamics model in a low-speed wind tunnel. When a trigger signal is generated, the aircraft model starts oscillation with constant amplitudes and frequencies provided by DC electrical servomotor. The measured data are simultaneously recorded on a data recorder for 25 cycles of the model oscillation. The Phase shift needed to compute the dynamic stability derivatives is determined by calculating differences between the peak values of the input and output signals from the dynamic stability balance. Stabilator effects on the stability derivatives were also investigated with deflection angles. Although the driving apparatus and experimental equipments manufactured creatively for this study are different from other experiments, the variational trend of dynamic stability derivatives with the angle of attack is in a good accordance with the results of TPI, NAE, and FFA.

항공기 탑재체의 분리 후 공력 특성 변화 효과

조환기,이상현,강치행,Cho, Hwan-Kee,Lee, Sang-Hyun,Kang, Chi-Hang 한국군사과학기술학회 2011 한국군사과학기술학회지 Vol.14 No.3

The aerodynamic characteristics of a separated captive body in flow field around aircraft are studied to observe aerodynamic stability for safe separation from aircraft. Since the captive body separated from aircraft is initially exposed to unsteady flow pattern, the change of aerodynamic forces and moments should be measured to analyze how the flow pattern affects on the captive body at the vicinity of aircraft. Aerodynamic forces and moments of the separated captive body are measured at selected positions along predictable dropping trajectories. The measuring trajectories, generated by the free drop test of the dropping model in the wind tunnel, are consisted of 9 possible lines by free dropped trajectories. Experimental results show that the aerodynamic forces and moments are significantly varied with the distance between the captive body and aircraft. In conclusion, the change of aerodynamic characteristics within flow field around aircraft should be considered to simulate trajectories of the separated captive body from aircraft.

편대비행상태에서 날개 끝 와류의 공력 간섭 효과

조환기(Hwan-Kee Cho),이상현(Sang-Hyun Lee),이순태(Soontae Lee) 한국항공우주학회 2013 韓國航空宇宙學會誌 Vol.41 No.11

본 연구에서는 편대비행하는 고속 항공기의 날개 끝 와류의 공력 간섭 효과를 연구하기 위해서 풍동실험기법이 적용되었다. 편대비행에서 앞선 항공기의 날개 끝에서 발생하는 와류가 뒤따르는 항공기의 공력 특성에 영향을 미칠 수 있다. 흐름의 간섭 효과는 앞선 항공기와 뒤따르는 항공기의 날개 끝 사이의 거리에 따라서 변화된다. 본 연구의 실험결과 앞선 항공기에서 발생되는 날개 끝 와류는 뒤따르는 항공기의 공력 및 모멘트 계수를 변화시킴을 확인하였다. 특히, 후방 항공기의 양력계수는 수직 및 수평 위치에 따라 y/b=-0.125, z/b=0.0에서 가장 많이 증가되거나 y/b=-0.5, z/b=0.38에서 가장 크게 감소됨을 확인하였으며, 두 항공기로부터 발생된 날개 끝 와류의 간섭 현상이 자세히 관찰되었다. Experimental study was conducted to investigate aerodynamic interference effect of wing tip vortex in formation flight of high speed aircraft. In formation flight, wing tip vortex produced by leading aircraft can affect on the aerodynamic characteristics of trailing aircraft. The interference effect of flow is varied with distances between wing tips of leading and trailing aircraft. It is confirmed, in this study, that the interference of wing tip vortex generated from the leading aircraft makes the aerodynamic forces and moments of the trailing aircraft with the vertical or horizontal positions of the trailing aircraft. Especially, the lift coefficients of trailing aircraft were highly increased at y/b=-0.125, z/b=0.0 or deeply decreased at y/b=-0.5, z/b=0.38. The interfering pattern of wing tip vortices from two aircraft is precisely observed.

풍력터빈 에어포일 주위의 벽면효과에 관한 연구

조환기(Hwan Kee Cho),강승희(Seung-Hee Kang),유기완(Ki-Wahn Ryu),이준신(Jun-shin Lee) 한국항공우주학회 2012 韓國航空宇宙學會誌 Vol.40 No.6

저 레이놀즈 수 조건에서 폐쇄형 풍동 시험부에 설치된 에어포일 주위의 벽면효과에 대한 실험적 연구를 수행하였다. 이를 위해 풍동시험이 수행되었으며, 시험은 자유흐름 속도 10 ~ 31 ㎧와 시위기준 레이놀즈 수 1.5x105~ 4.6x105 조건에서 수행되었다. 시위대 시험부 폭 비인 기준폐쇄율은 27.8%, 38.5%, 41.7%, 45.5% 그리고 55.6%이다. 시험 결과 벽면효과에 의해 에어포일 표면에서의 천이점이 후방으로 미미하게 이동함을 확인하였다. 또한, 벽면압력을 이용한 벽면효과 보정을 위해서는 에어포일을 중심으로 시위의 세배 이상의 벽면압력이 필요함을 확인하였다. The wall interference effects around the wind-turbine airfoil are experimentally investigated at low Reynolds numbers in a closed test-section wind tunnel. The test is performed at free-stream velocities from 10 to 31 m/s, which correspond to Reynolds numbers ranging from 1.5x105 to 4.6x105 based on chord of the airfoil. The blockage-area ratios, which is the ratio of the chord to the test-section width, are 27.8%, 38.5%, 41.7%, 45.5%, and 55.6%. The test results for the airfoil show that the transition point on the airfoil surface tends to move backward due to wall interference. The wall pressures for an adequate interference correction by a measured-boundary-condition method are desirable more than three times region of the chord before and after around the reference center.

AHP를 이용한 공중승무원 비행환경 적응장비 획득방안 선정에 관한 연구

설현주,김규호,정현욱,조환기,황창수,Seol, Hyeon-Ju,Kim, Gyu-Ho,Jung, Hyun-Wook,Cho, Hwan-Kee,Hwang, Chang-Su 한국군사과학기술학회 2009 한국군사과학기술학회지 Vol.12 No.4

The purpose of this study is propose an alternative for flight attendants to acquire equipment that could enhance the ability to adapt in flying conditions. Introducing and acquiring weapon system, such equipments should be deeply considered in multilateral aspects; reinforcements in the overall strategic status in the army, the ramifications that can contribute to military resources, and economic situations in the country. To do this, we first induced several criteria that can be used for evaluating alternatives. After that, we applied the analytic hierarchy process(AHP) approach to putting all factors into considerations in decision making for equipment acquirement. The results of this study are expected to have usefulness in formulating strategies and policies in selecting equipment acquisition alternatives for flight attendants.

과학로켓 모델의 정적 안정성에 대한 초음속풍동 실험연구

이상현(Sang-Hyun Lee),조환기(Hwan-Kee Cho),성홍계(Hong-Gye Sung),김진곤(Jin-Kon Kim) 한국항공우주학회 2010 韓國航空宇宙學會誌 Vol.38 No.9

본 연구에서는 하이브리드 과학로켓의 공력특성을 파악하고 정적 세로 안정성에 대한 판단을 하기 위해서 초음속 풍동실험을 하였다. 과학로켓의 10% 축소모델에 대해서 마하 수 1.75 ~ 2.5, 받음각 0° ~ 6°의 조건에서 실험을 수행하였으며, 4분력 내장형 밸런스를 사용하여 실험모델의 공력과 모멘트를 측정하였다. 측정된 자료를 바탕으로 로켓의 안정성을 판단하였으며, 로켓의 길이효과를 분석하기 위하여 길이가 다른 3개의 모델에 대하여 실험을 수행하였다. 또한, 쉴리렌 광학장치를 이용하여 초음속 비행 시 발생하는 충격파를 가시화하고 속도 및 받음각 변화에 따른 충격파의 변화를 관찰하였다. In this work, experiments on hybrid sounding rocket were conducted to investigate the aerodynamic characteristics and analyze longitudinal static stability. Tests were performed on 1/10 scale models of sounding rocket through Mach number ranging from 1.75 to 2.5 and for angle of attack from 0° to 6°. Aerodynamic forces and moments were measured by means of a 4 component internal balance. With measured forces and moments, static stability characteristics of rocket were calculated. Tests were made for three models with different length to determine the effect of body length. The visualization of shock waves was carried out by Schlieren optical system to observe variations of shock waves with Mach number and angle of attack.