直升机旋翼积冰的数值模拟

为研究直升机旋翼桨叶积冰问题,通过对积冰形成机理和直升机飞行原理的分析,建立了基于CFD(Computational Fluid Dynamics)技术的直升机旋翼桨叶结冰预测的理论模型;采用欧拉法求解水滴控制方程,在经典Messinger模型的基础上提出了积冰表面质能平衡的改进模型;以UH-60型直升机和CH-47型直升机为样机,具体分析了积冰条件下直升机桨叶冰形预测的方法,为进一步研究直升机结冰后的飞行动力学问题及防除冰系统的设计奠定了基础,对提高直升机飞行安全性具有积极意义.     

民用飞机结冰研究相关技术及进展

飞机结冰是影响飞行安全的重要因素之一,结冰研究对分析民机安全性、适航性等具有重要意义。简述了飞机结冰形成机理以及对飞行特性的影响,描述了按结冰部件、结冰物理过程和几何形状的结冰分类形式,介绍了结冰研究的三种主要方法,分析了与结冰相关的应用研究,包括防/除冰方法和适航验证技术,最后对飞机结冰研究进行了讨论和展望。     

飞机三维结冰模型及其数值求解方法

 对飞机结冰外形进行纯三维数值模拟,是目前飞机结冰预测中的一大难点。为了建立三维结冰数值模拟方法,基于Messinger的二维结冰模型,提出了一种考虑液态水溢流效应的三维结冰计算模型,并针对该模型建立了表面单元内溢流水流动的分配方案、发展了相应的迭代求解方法。采用本文方法对MS-317后掠翼结冰进行了计算,并与实验和Lewice3D的计算结果进行了对比。研究结果显示：本文方法具有较好的收敛性,计算的霜冰和明冰外形均与Lewice3D计算的冰形一致;对于霜冰和结冰时间较短的明冰,本文计算的冰形与实验吻合较好;对于结冰时间较长的明冰,本文计算的冰形与实验对比还有一定差异,但冰生长的总体趋势和大致体积与实验一致。同时,对比了MS-317无后掠翼与有后掠翼结明冰的外形,发现机翼后掠导致的三维溢流效应对结冰外形有明显影响,因此,对于三维结冰分析,如果用二维截面的结果来代替三维结果,其合理性还需验证。     

飞机结冰探测器安装位置研究

基于飞机结冰探测器安装要求,通过三维数值仿真,模拟了机头表面流场和水滴撞击特性.通过标定水滴遮蔽区和浓度增加区引入危险位置点的概念,对结冰探测器的安装位置进行了分析,模拟了安装位置处结冰探测器探头表面和飞机主要迎风部件表面的水滴收集特性和结冰特性,并进行对比分析.分析结果表明探头表面的最大收集系数、结冰强度和结冰程度等...     

Optimization design of airfoils under atmospheric icing conditions for UAV

Natural ice accretion on the lifting surface of an aircraft is detrimental to its aerodynamic performance, as it changes the effective streamlined body. The main focus of this work considers the optimization design of airfoils under atmospheric icing conditions for the Unmanned Aerial Vehicle(UAV). The ice formation process is simulated by the Eulerian approach and the three-dimensional Myers model. A three-equation turbulence model is implemented to accurately predict the stall performance of t...     

冰风洞过冷大水滴云雾水滴质量分布模拟

准确模拟过冷大水滴（Supercooled large droplet, SLD）云雾水滴质量分布是最新的结冰适航条款要求，也是当前冰风洞试验技术难点。以14CFR 25部附录O规定冻毛毛雨水滴累计质量分布曲线为目标，在冰风洞中开展过冷大水滴结冰条件模拟研究。基于水滴质量分布要求进行大水滴云雾与小水滴云雾匹配性分析，并在FL-61风洞喷雾系统现有条件下开展大水滴喷嘴喷雾性能测量，将生成的具有不同液态水含量（Liquid water content, LWC）和体积中值直径（Medium volume diameter, MVD）特征的云雾参数组合，在试验段中心位置生成了水滴质量分布曲线接近附录O规定的冻毛毛雨条件。研究结果表明，采用分别模拟相应水滴质量分布的大水滴和小水滴云雾，再进行组合喷雾能够较好地预测和指导在冰风洞中构造大水滴云雾，同时验证了在冰风洞内能够采用两种喷嘴模拟水滴质量为双峰分布云雾条件的可行性。     

Geometrical and electrical optimization of NS-SDBD streamwise plasma heat knife for aircraft anti-icing

Ice accretion on aircraft encountering supercooled water droplets in clouds poses great risks to flight performance and safety. With the aim of optimizing the newly developed streamwise plasma heat knife method for anti-icing, a parametric investigation is carried out in this work. The influence of the detailed voltage profile on the heating effects of a Surface Dielectric Barrier Discharge driven by Nanosecond Pulses (NS-SDBD) is investigated, and a comparison of the anti-icing performance among different configurations of streamwise plasma heat knife is made. The results show that columnar high-temperature regions produced by a multi-streamer discharge appear at small pulse rise time, but become diffuse as the pulse rise time increases. An optimal pulse rise time exists to provide a wide range and high value of temperature, which is found to be 150 ns for the setup in the present study. The influence of the pulse fall time is much weaker than that of the rise time. The range and value of the temperature decrease with increasing pulse fall time. A greater pulse width is found to improve the heating effect by increasing the discharge power. When a spanwise electrode is placed connecting the streamwise electrodes of the streamwise plasma heat knife at the airfoil leading edge, the anti-icing performance becomes poorer, whereas good performance is achieved when the spanwise electrode is at the edge of the streamwise electrodes. Based on this, a three-level configuration of the plasma heat knife is proposed, and its anti-icing performance is found to be much better than that of the original configuration.     

Optimization of multi-element airfoil settings considering ice accretion effect

Almost half of all flight accidents caused by inflight icing occur at the approach and landing phases when high-lift devices are deployed. The present study focuses on the optimization of an ice-tolerant multi-element airfoil. Dual-objective optimization is carried out with critical horn-shaped ice accumulated during the holding phase. The optimization results show that the present optimization method significantly enhances the iced-state and clean-state performance. The optimal multi-element airfoil has a larger deflection angle and wider gap at the slat and the flap compared with the baseline configuration. The sensitivity of each design parameter is analyzed, which verifies the robustness of the design. The design is further assessed when ice is accreted during the approach and landing phases, which also shows performance improvement.     

冰晶粒子运动过程中的相变特性

针对冰晶在温暖环境下运动时固液汽耦合的相变现象，基于欧拉法建立了冰晶粒子的运动相变模型和计算方法。计算了冰晶粒子在强迫对流环境下的融化相变过程，与实验结果对比验证了运动相变模型和计算方法的准确性。针对NACA0012翼型计算了冰晶绕流运动时的热力学特性，得到了冰晶粒子到达撞击表面时的融化状态与收集系数。研究了冰晶粒径大小、初始球形度、气流相对湿度和温度对运动相变的影响。结果表明：冰晶粒子运动相变模型可以有效地评估冰晶结冰风险，冰晶粒子的融化速率主要取决于粒子直径、球形度、气流温度、湿度等因素，环境温度为288 K时冰晶粒子的融化时间为27.5 s，而相同条件下环境温度为302 K时的融化时间仅有5.2 s。