Numerical analysis of stagger Supersonic biplane at off-design condition with trailing edge flap

IF 1.2 Q3 ENGINEERING, MECHANICAL
V. Patidar, S. Joshi
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引用次数: 0

Abstract

Supersonic biplanes can achieve low-boom and low-drag supersonic flights. In the present study, aerodynamic analysis of a two-dimensional stagger Bussmann biplane (staggered upper element by 0.5c) at zero degrees angle of attack with trailing edge flap was investigated with the help of computational fluid dynamics (CFD) tools. Due to the wave cancellation effect, the Busemann biplane delivers a positive drag reduction at design supersonic Mach values. However, when operating outside of its intended parameters, it performs worse, and the wave cancellation effect has no beneficial effects on reducing drag. Another issue with the Busemann biplane is flow chocking, which produces a potent bow shock wave in front of the aircraft. This paper attempts to address low aerodynamics efficiency problems during take-off through numerical simulation of a staggered Busemann biplane with trailing edge flaps at zero degrees angle of attack. It was confirmed that the staggered biplane airfoil with flap has better aerodynamic performance during take-off at lower subsonic free stream Mach numbers. In 2D wings, the effect of flow chocking and hysteresis as starting problems, which arise when the biplanes accelerate from low Mach numbers, is reduced by using the suitable dimension and angle of rotation of the flap, and the flap is effective in settling these issues.
带尾缘襟翼的错开超音速双翼飞机非设计工况数值分析
超音速双翼飞机可以实现低boom和低阻力的超音速飞行。本文利用计算流体力学(CFD)工具,研究了带后缘襟翼的二维错列Bussmann双翼飞机(上单元错开0.5c)零迎角时的气动特性。由于波抵消效应,Busemann双翼飞机在设计超音速马赫值时提供了积极的阻力减少。然而,当超出其预期参数时,它的性能会变差,并且波浪抵消效果对减少阻力没有任何有益作用。布斯曼双翼飞机的另一个问题是气流阻塞,它会在飞机前方产生强大的弓形激波。本文试图通过对带尾缘襟翼的交错布斯曼双翼飞机零迎角起飞过程的数值模拟,解决起飞过程中空气动力学效率低的问题。验证了带襟翼的交错双翼型在低亚音速自由流马赫数下的起飞气动性能。在二维机翼中,通过选择合适的襟翼尺寸和旋转角度,有效地解决了低马赫数加速时产生的起动问题——流阻和滞回的影响,有效地解决了这些问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
FME Transactions
FME Transactions ENGINEERING, MECHANICAL-
CiteScore
3.60
自引率
31.20%
发文量
24
审稿时长
12 weeks
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