• Advances in aircraft and spacecraft science
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• 제3권4호
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• pp.399-425
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• 2016

The dynamical requirements are obtained for airplanes to travel on inclined circular trajectories. Formulas are provided for determining the load factor, the bank angle, the lift coefficient and the thrust or power required for the motion. The dynamical properties of the airplane are taken into account, for both, airplanes with internal combustion engines and propellers, and airplanes with jet engines. A procedure is presented for the construction of tables from which the flyability of trajectories at a given angle of inclination can be read, together with the corresponding minimum and maximum radii allowed. Sample calculations are shown for the Cessna 182, a Silver Fox like unmanned aerial vehicle, and a F-16 jet airplane.

• Advances in aircraft and spacecraft science
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• 제5권5호
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• pp.551-579
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• 2018

This work is concerned with the motion of propeller driven airplanes, flying at constant velocity on ascending or descending rectilinear trajectories. Its purpose is to provide important features of rectilinear flights that are required for airplane trajectory planning but that cannot be found already published. It presents a method for calculating the amount of fuel used, the restrictions on the trajectory parameters, as inclination and speed, which result from the load factor, the lift coefficient, the positivity and upper boundedness of the power available. It presents a complete discussion of both ascending and descending flights, including gliding. Some original remarks are made about the parameters of gliding. It shows how to construct tables of parameters allowing to identify rapidly flyable trajectories. Sample calculations are shown for the Cessna 182 and a Silver Fox like unmanned aerial vehicle.

• International Journal of Aerospace System Engineering
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• 제2권2호
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• pp.10-14
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• 2015

To design airfoils for novel airplanes, new knowledge of aerodynamics is required. In this study, modified Parametric SECtion (PARSEC) which is a airfoil representation is applied to airfoil design using a multi-objective genetic algorithm to obtain an optimal airfoil for consideration in the development of a Martian airplane. In this study, an airfoil that can obtain a sufficient lift and glide ratio under lower thrust is considered. The objective functions are to maximize maximum lift-to-drag ratio and to maximize the trailing edge thickness. In this way, information on the low Reynolds number airfoil could be extracted efficiently. The optimization results suggest that the airfoil with a sharper thickness at the leading edge and higher camber at the trailing edge is more suitable for a Martian airplane. In addition, several solutions which has thicker trailing edge thickness were found.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2002년도 춘계합동학술대회 논문집
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• pp.133-136
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• 2002

In maned airport, crews may have risks as they manage passenger control system in IPMS in damage situations such as fire in a airport. So the application of unmanned autonomous system can reduce the number of boarding crews and attribute to safe airplane transportation. PBBC model can be used to obtain control strategy, and airplane and enhance operators' skill by simulating the airport. The paper suggests an intelligent system of the pbbc control using microprocessor in integrated platform management system which can take measures against passenger situation of a airplane excluding unnecessary warnings with undamaged situations. The system here detected the passenger more accurately and adopted more appriate measures according to airplane status compared with conventional systems.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2001년도 춘계학술대회논문집A
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• pp.889-894
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• 2001

A three dimensional transient thermo-elastic frictional contact analysis of airplane brakes is performed. The velocity history of the airplane during braking is calculated from energy conservation law. ABAQUS code is used in the analysis, and user subroutines supported in the ABAQUS are coded to calculate the frictional heat generation between pads and linings attached to back/pressure plate and rotor, respectively. Numerical results are compared with experimental ones.

• 한국항공운항학회지
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• 제5권1호
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• pp.17-30
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• 1997

FAR 23, AC 23-8, 그리고 Order 8110.7을 이용하여 경비행기의 비행 시험 절차에 대한 연구를 수행하였다. 본 연구에서는 창공-91의 비행 시험을 통한 경험을 바탕으로 형식증명을 위한 주요 절차에 대한 연구를 수행하였다. 본 연구는 소형 비행기의 제작자, 항공관련 기술자, 비행 시험 기술자, 비행 시험 조종사, 그리고 관련 정부 관계자들에게 비행 시험에 관련된 기준을 이해하도록 하기 위해 수행된 연구이다. 본 연구에서 비행 시험 방법과 절차는 주로 소형 비행기의 형식증명에 관련된 것으로 관련자들에게 큰 도움이 될 것이다.

• 항공우주시스템공학회지
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• 제7권3호
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• pp.39-44
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• 2013

On this study, climb performance related airworthiness requirements for small airplane on KAS Part 23 and flight test techniques for climb performance (Sawtooth climb) are introduced. Also, applicable procedures, test conditions and required test parameters of sawtooth climb flight test techniques are reviewed.

• 한국산학기술학회논문지
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• 제22권5호
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• pp.15-21
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• 2021

전기동력을 기반으로 하는 전기추진비행기는 화석연료 사용에 따른 CO2 발생을 줄여서 지구온난화에 대응할 수 있고 에너지의 효율적 사용을 통해서 장기적으로 비행기의 운용비용을 줄일 수 있다. 이런 이유로, 미국과 유럽연합 등 선진 항공국가에서는 미래의 완전한 전기비행기 구현을 위한 혁신적 기술개발을 선도적으로 진행하고 있다. 현재, 국내에서는 기존 2인승 엔진 비행기를 전기추진비행기로 개조하는 연구개발이 진행 중에 있다. 개조대상 비행기는 KLA-100으로써 엔진 장착공간과 부조종사 공간을 활용하여 배터리 팩을 설치하고, 30분의 비행시험을 목표로 하고 있다. 해당 목표를 달성하기 위해서는 배터리 성능이 보장되어야 하는데, 개조 비행기에는 비출력 150Wh/kg, 중량 200kg 그리고 C-rate 3~4인 리튬-이온(Li-ion) 배터리가 설치된다. 본 논문에서는 설계된 배터리 팩이 장착된 전기추진비행기의 비행 가능성을 사전에 점검하고자 한다. 이를 위해 30분 비행 프로파일을 시동 및 활주단계, 이륙단계, 상승단계, 순항단계, 하강단계, 착륙 및 활주단계로 구분하고, 각 단계에서 요구되는 배터리 용량을 계산하여 최종 목표로 하고 있는 30분 비행 가능 여부를 평가하였다. 또한, 비행속도에 따른 비행 가능시간과 항속거리를 분석하여 전기추진비행기용 배터리 팩의 비행성능을 파악하였다.

• Advances in aircraft and spacecraft science
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• 제7권1호
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• pp.53-78
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• 2020

Automatic trajectory planning is an important task that will have to be performed by truly autonomous vehicles. The main method proposed, for unmanned airplanes to do this, consists in concatenating elementary segments of trajectories such as rectilinear, circular and helical segments. It is argued here that because these cannot be expected to all be flyable at a same constant speed, it is necessary to consider segments on which the airplane accelerates or decelerates. In order to preserve the planning advantages that result from having the speed constant, it is proposed to do all speed changes at maximum deceleration or acceleration, so that they are as brief as possible. The constraints on the load factor, the lift and the power required for the motion are derived. The equation of motion for such accelerated motions is solved numerically. New results are obtained concerning the value of the angle and the speed for which the longest distance and the longest duration glides happen, and then for which the steepest, the fastest and the most fuel economical climbs happen. The values obtained differ from those found in most airplane dynamics textbooks. Example of tables are produced that show how general speed changes can be effected efficiently; showing the time required for the changes, the horizontal distance traveled and the amount of fuel required. The results obtained apply to all internal combustion engine-propeller driven airplanes.

• 한국전산유체공학회지
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• 제13권4호
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• pp.66-71
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• 2008

This research computes the viscous flow field and aerodynamics around the model of a commercial passenger airplane, Boeing 747-400, which cruises in transonic speed. The configuration was realized through the reverse engineering based on the photo scanning measurement. In results, the pressure coefficients at the several wing section on the wing surface of the airplane was described and discussed to obtain the physical meaning. The lift coefficient increased almost linearly up to $17^{\circ}$. Here the maximum lift occurred at $18^{\circ}$ according to the angle of attack. And the minimum drag is expected at $-2^{\circ}$. The maximum lift coefficient occurred at the Mach number 0.89, and the drag coefficient rapidly increased after the Mach number of 0.92. Also shear-stress transport model predicts slightly lower aerodynamic coefficients than other models and Chen's model shows the highest aerodynamic values. The aerodynamic performance of the airplane elements was presented.