A method for predicting low-speed aerodynamic characteristics of transport aircraft

The saucer-shaped aircraft is a novel aircraft adopting blend-wing-body configuration. The linear perturbation theory based on the classic flight dynamics was used to analyze the longitudinal, lateral and directional flight qualities of the saucer-shaped aircraft under low speed conditions. The flight qualities were given. Meanwhile the aerodynamic characteristics of the saucer-shaped aircraft, the conventional aircraft and the flying wing aircraft were also contrasted to discuss their similarities and differences. The results show that the saucer-shaped aircraft has stable longitudinal mode, rollover mode and Dutch roll mode. The spiral mode is unstable. The saucer-shaped aircraft exhibits superior flight qualities and excellent comprehensive performances.

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Low-Speed Aerodynamic Characteristics of Supercritical Airfoil with Small High-Lift Devices from Flow Pattern Measurements

Journal of Flow Control Measurement &amp Visualization ◽

10.4236/jfcmv.2020.84010 ◽

2020 ◽

Vol 08 (04) ◽

pp. 159-172

Author(s):

Thai Duong Nguyen ◽

Masashi Kashitani ◽

Masato Taguchi

Keyword(s):

Flow Pattern ◽

Aerodynamic Characteristics ◽

High Lift ◽

Supercritical Airfoil ◽

Low Speed

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Features of flow around transport aircraft model with running propellers by modelled engine failure in wind tunnel

Journal of Physics Conference Series ◽

10.1088/1742-6596/2103/1/012206 ◽

2021 ◽

Vol 2103 (1) ◽

pp. 012206

Author(s):

V I Chernousov ◽

A A Krutov ◽

E A Pigusov

Keyword(s):

Wind Tunnel ◽

Lift Coefficient ◽

Aerodynamic Characteristics ◽

Light Transport ◽

Transport Aircraft ◽

Engine Failure ◽

The One ◽

Low Speed Wind Tunnel ◽

Control Surfaces ◽

Landing Mode

Abstract This paper presents the experiment results of modelling the one engine failure at the landing mode on a model of a light transport airplane in the T-102 TsAGI low speed wind tunnel. The effect of starboard and port engines failure on the aerodynamic characteristics and stability of the model is researched. The model maximum lift coefficient is reduced about ≈8% and there are the same moments in roll and yaw for starboard and port engines failure case. It was found that the failure of any engine has little impact on the efficiency of control surfaces. Approaches of compensation of forces and moments arising in the engine failure case were investigated.

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Aerodynamic Characteristics of an Airborne Vertical Gradient Magnetic Measuring Probe on the Wing Tip of a High Aspect Ratio UAV with Low Speed

10.1109/icisce50968.2020.00329 ◽

2020 ◽

Author(s):

S. B. Jia ◽

S. J. Luo ◽

Y. Wang ◽

Y. L. Cui ◽

S. J. Guo ◽

...

Keyword(s):

Aspect Ratio ◽

High Aspect Ratio ◽

Vertical Gradient ◽

Aerodynamic Characteristics ◽

Low Speed ◽

Measuring Probe ◽

Magnetic Measuring ◽

Wing Tip

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Aerodynamic Characteristics of Helicopter with Ducted Fan Tail Rotor in Hover under Low-Speed Crosswind

International Journal of Aerospace Engineering ◽

10.1155/2020/7059209 ◽

2020 ◽

Vol 2020 ◽

pp. 1-14

Author(s):

Nahyeon Roh ◽

Sejong Oh ◽

Donghun Park

Keyword(s):

Flow Characteristics ◽

Aerodynamic Characteristics ◽

Rotor System ◽

Main Rotor ◽

Complex Flow ◽

Open Type ◽

Low Speed ◽

Ducted Fan ◽

Wake Interaction ◽

Fixed Part

The tail rotor of a helicopter operating under low-speed crosswind undergoes highly complex flow due to the interaction between the main rotor, fuselage, and tail rotor system. In this study, numerical simulations have been conducted on the complete configuration of a helicopter with a ducted fan tail rotor system (comprising a main rotor, ducted fan tail rotor, fuselage, and empennage) to analyze the wake interaction in hovering flight under various crosswind directions. The flow characteristics around the tail rotor, the tail rotor thrust, and the yawing moment of the helicopter are investigated and evaluated. The aerodynamic forces are compared with those of a helicopter with an open-type tail rotor. The results indicate that the aerodynamic performance of the ducted fan tail rotor is highly affected by the wakes of both the main rotor and port wing. Nevertheless, the helicopter with a ducted fan tail rotor is observed to be much more directionally stable under various crosswind directions, than that with an open-type tail rotor. This is because the rotor is protected by the fixed part of the tail rotor system in the former case.

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