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翼型对高压捕获翼构型高速气动特性影响研究OA

Effects of airfoil geometry on high-speed aerodynamic characteristics of high-pressure capturing wing configuration

中文摘要英文摘要

高压捕获翼构型作为一种在高速条件下具有巨大发展潜力的新型气动布局,其气动性能主要取决于捕获翼的几何形状及位置,且该构型与常规布局差异显著,高速时机体激波将严重干扰捕获翼.为了研究翼型对该类构型气动特性的影响,本文基于高压捕获翼单翼概念构型,选取 4 种典型高速翼型(双弧形、四边形、六边形和三角形翼型),通过数值模拟分析设计条件(来流马赫数 6)和非设计条件(来流马赫数 3)下翼型对升阻特性和稳定特性的影响.结果表明:设计条件下,翼型引起的整机升阻比变化较小,不超过 2.2%,而在非设计条件下增至 4.9%,这种差异源于非设计条件下机体受到捕获翼前缘激波和反射激波的干扰;四边形翼型在两种工况中均表现出最优的整机升阻比;稳定性方面,除三角形翼型的压心和焦点位置在多数攻角下后移 3%~4%外,其余翼型之间差异较小.因此,在设计条件下,保持最大相对厚度一致时,高压捕获翼构型的气动特性对翼型选择并不敏感(除三角形翼型的稳定特性需关注),这为宽速域翼型设计提供了更广阔的优化空间.

The aerodynamic performance of the high-pressure capturing wing(HCW),a novel aerodynamic configuration with significant promise for high-speed aircraft,primarily depends on its geometry and positioning.This configuration differs significantly from conventional ones,as the severe shock wave generated by the airframe strongly interferes with the HCW at high speeds.To investigate the influence of airfoil geometry on the aerodynamic characteristics of this configuration,this study adopts a single-wing HCW concept and selects four typical high-speed airfoils(biconvex,quadrilateral,hexagonal,and triangular)to analyze the effects of airfoil shape on lift-to-drag characteristics and stability under design(freestream Mach number 6)and off-design(freestream Mach number 3)conditions via numerical simulations.The results show that under the design condition,the variation in the overall lift-to-drag ratio caused by different airfoils is relatively small,not exceeding 2.2%,while under the off-design condition it increases to 4.9%.This difference is attributed to the interference of the leading-edge shock wave and reflected shock wave of the capturing wing with the airframe under the off-design condition.Among the four airfoils,the quadrilateral airfoil exhibits the highest overall lift-to-drag ratio under both operating conditions.Stability analysis indicates that,except for the triangular airfoil,for which the center of pressure and the aerodynamic center shift rearward by 3%-4%at most angles of attack,the differences among the other airfoils are small.Therefore,under the design condition and with the same maximum relative thickness,the aerodynamic characteristics of the HCW configuration are not particularly sensitive to the choice of airfoil(except for the stability characteristics of the triangular airfoil),which provides broader optimization space for wide-speed-range airfoil design.

王丰逸;常思源;肖尧;李广利;田中伟;崔凯

中国科学院力学研究所 高温气体动力学国家重点实验室,北京 100190||中国科学院大学 工程科学学院,北京 100049中国科学院力学研究所 高温气体动力学国家重点实验室,北京 100190中国科学院大学 工程科学学院,北京 100049中国科学院大学 工程科学学院,北京 100049中国科学院力学研究所 宽域飞行科学与应用中心,北京 100190中国科学院力学研究所 高温气体动力学国家重点实验室,北京 100190||中国科学院大学 工程科学学院,北京 100049

航空航天

高压捕获翼翼型高速数值模拟气动特性

high-pressure capturing wingairfoilhigh-speednumerical simulationaerodynamic characteristics

《空气动力学学报》 2026 (5)

28-40,13

中国科学院基础前沿科学研究计划(ZDBS-LY-JSC005)跨域飞行交叉技术实验室开放课题(2024-KF01001)

10.7638/kqdlxxb-2025.0013

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