前掠翼在亚音速下的空气动力特性

Q2 Mathematics CFD Letters Pub Date : 2024-01-11 DOI:10.37934/cfdl.16.5.18
Choosak Ngaongam, Rapee Ujjin
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引用次数: 0

摘要

设计了一种用于超音速飞机的前掠翼。通过实验和排除亚音速条件的数值模拟研究了其气动特性。本文旨在利用计算流体动力学方法,探讨前掠翼在亚音速范围内的气动特性。模拟中,机翼模型的翼型为 NACA 3412。它的后掠角和攻角都是变化的。空速恒定为 50 米/秒。仿真结果表明,前掠翼模型适合特技飞机,因为前掠翼模型的升力系数和失速角都高于非前掠翼模型。此外,前掠翼的气动失速发生在翼根,这使得飞机能够在高攻角情况下保持副翼面的可控性。不过,与非前掠翼机型相比,前掠翼机型的飞机往往消耗更多能量。因为前掠翼的最大升阻比小于非后掠翼。在攻角为 2° 时,非后掠翼模型的最大升阻比为 8.76。而前掠翼 35° 在攻角 6° 时的最大升阻比为 7.47。
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Aerodynamic Characteristics of Forward Swept Wing in Subsonic Speed
A forward swept wing was designed to use for a supersonic aircraft. Its aerodynamic characteristics were studied through experiments and numerical simulations which excluded the subsonic speed condition. For this paper aims to explore the aerodynamic characteristics of the forward swept wing in the range of subsonic speed by using a computational fluid dynamics method. In simulation, the airfoil shape of the wing model was NACA 3412. It was varied in both swept angle and angle of attack. The airspeed was given constant at 50 m/s. The simulation results indicate that the forward swept wing model is suitable for the aerobatic aircraft because lift coefficient and the stall angle of the forward swept wing model is higher than the non-swept wing model. Moreover, the aerodynamic stall of the forward swept wing occurs at the wing root which makes the aircraft able to maintain the controllability of the aileron surface at high angle of attack. However, the aircraft with forward swept wing model tends to consume more energy as compared with non-swept wing model. Because the maximum lift to drag ratio of the forward swept wing is less than the non-swept wing. Non-swept wing model has the maximum lift to drag ratio of 8.76 at the angle of attack 2°. While the forward swept wing 35° provides the maximum lift to drag ratio of 7.47 at the angle of attack 6°.
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来源期刊
CFD Letters
CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
3.40
自引率
0.00%
发文量
76
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