超临界机组末级叶片典型截面的叶型设计

针对超临界机组末级长叶片的设计特点,采用遗传算法和人工神经网络,提出对长叶片典型截面叶型进行分区优化设计思想,并对原型与改型进行了多工况点的数值计算,结果表明,将叶型吸力侧后半段由直线型改为内凹型,能够显著降低超声速叶型在超声速工况范围内的叶型损失。对叶型前缘以及压力侧的局部优化设计能够改善超声速叶型在临界马赫数工况下的气动性能。优化设计最大程度地减小了样本空间,提高了优化效率。     

复杂空冷叶片换热特性研究

为了深入了解空冷透平动叶的冷却机理和冷气流动特性,对某重型燃机透平动叶进行了气-热耦合数值模拟。结果表明,叶尖开孔可以促进冷气在蛇形通道中的流动,改善冷却效果;涡流矩阵通道中子通道的宽度与高度比减小会加大涡流矩阵通道中的流动阻力,从而改变冷却的效果,其宽高比与冷气进口条件存在一个最佳组合关系;涡流矩阵通道结构与叶尖之间的间隙会降低冷气的利用率。     

跨声速轴流压气机近失速状态的间隙泄漏流流动特性

为了研究间隙泄漏流以及泄漏涡自身的非定常性对轴流压气机的旋转失速的影响.对跨声速轴流压气机NASA转子37进行全三维定常、非定常的数值模拟,对比了最大效率和近失速工况的实验和数值模拟结果,定常计算所获得的总性能与试验结果符合良好.对于非定常计算,详细分析了NASA转子37近失速工况下流场结果,揭示了NASA转子37在近失速工况点,间隙泄漏流存在较明显的非定常性,这种非定常性表现为间隙泄漏流激波干涉引起间隙泄漏涡的周期性破碎.      

间隙流触发压气机内部流动失稳机制及周向槽扩稳机理

利用高频响动态压力传感器对某低速轴流压气机转子的失速先兆和顶部流场进行了详细的测试,探明该压气机内部存在与叶顶间隙泄漏流相关的突发型失速先兆,对压气机转子内部流场进行了单通道定常和非定常数值模拟,详细分析了压气机内部流动失稳过程中顶部流场结构的变化,揭示顶部间隙泄漏流触发轴流压气机内部流动失稳机理.在此基础上,利用周向槽处理机匣结构对顶部间隙泄漏流进行控制,并探讨了周向槽处理机匣结构提高压气机稳定工作裕度机理.      

直升机后掠桨尖旋翼气弹稳定性研究

通过建立具有后掠桨尖旋翼气弹稳定性的分析模型，研究后掠桨尖旋翼气弹的稳定性。结构模型考虑了旋翼桨叶的偏置、预锥、预掠、预扭以及桨尖的后掠等多种旋翼参数及非线性影响，分析了不同桨尖后掠角几何参数对旋翼气弹稳定性的影响。数值结果表明，桨尖后掠对旋转旋翼桨叶气弹稳定性影响较大，桨尖后掠使一阶扭转频率增加，同时使一阶摆振阻尼降低，后掠桨尖单元的非线性转换关系对气弹分析结果有影响，桨尖后掠角越大这种影响越显著。     

Lock-in phenomenon of tip clearance flow and its influence on aerodynamic damping under specified vibration on an axial transonic compressor rotor

In this study, the lock-in phenomenon of Tip Clearance Flow(TCF) instabilities and their relationship to blade vibration are investigated numerically on an axial transonic rotor with a large tip clearance. The capabilities of simulating instability flow and lock-in phenomenon are verified on a transonic rotor and a NACA0012 airfoil by comparing with the test data, respectively.The lock-in phenomenon is first numerically confirmed that may occur to TCF instabilities when its frequency is close to...     

涡轮叶片内部微小V肋-凹陷涡复合冷却流动与传热数值模拟

为强化航空发动机涡轮叶片内冷通道传热性能,针对带有微小V肋-凹陷涡高效复合冷却结构矩形通道,采用Abe Kondoh Nagano （AKN） k-ε湍流模型数值模拟研究了肋高与凹陷深度组合对流动传热特性的影响机理。结果表明,当凹陷深度一定,复合结构的强化换热效果随肋高增加而增加,3mm肋高复合结构的传热相比纯凹陷提高了87.1%;当肋高一定,传热随凹陷深度增加先增强后基本保持不变,6mm深凹陷复合结构相比纯V肋提高了52.8%。通过在凹陷上游布置V肋,增强了越过V肋冲入凹陷内流体的湍动能,从而使凹陷前部回流区减小;同时来自微小V肋的涡流与凹陷内部的涡流相互作用,增强了整个流场的动量和热量输运,使通道换热均匀,并相较纯凹陷或纯V肋结构均有显著提升。     

Parametric study of turbine NGV blade lean and vortex design

The effects of blade lean and vortex design on the aerodynamics of a turbine entry nozzle guide vane (NGV) are considered using computational fluid dynamics. The aim of the work is to address some of the uncertainties which have arisen from previous studies where conflicting results have been reported for the effect on the NGV. The configuration was initially based on the energy efficient engine turbine which also served as the validation case for the computational method. A total of 17 NGV configurations were evaluated to study the effects of lean and vortex design on row efficiency and secondary kinetic energy. The distribution of mass flow ratio is introduced as an additional factor in the assessment of blade lean effects. The results show that in the turbine entry NGV, the secondary flow strength is not a dominant factor that determines NGV losses and therefore the changes of loading distribution due to blade lean and the associated loss mecha-nisms should be regarded as a key factor. Radial mass flow redistribution under different NGV lean and twist is demonstrated as an addition key factor influencing row efficiency.     

Reliability analysis of aero-engine blades considering nonlinear strength degeneration

To comprehensively consider the effects of strength degeneration and failure correlation, an improved stress-strength interference (SSI) model is proposed to analyze the reliability of aeroengine blades with the fatigue failure mode. Two types of TC4 alloy experiments are conducted for the study on the damage accumulation law. All the parameters in the nonlinear damage model are obtained by the tension-compression fatigue tests, and the accuracy of the nonlinear damage model is verified by the damage tests. The strength degeneration model is put forward on the basis of the Chaboche nonlinear damage theory and the Griffith fracture criterion, and determined by measuring the fatigue toughness during the tests. From the comparison of two kinds of degeneration models based on the Miner’s linear law and the nonlinear damage model respectively, the nonlinear model has a significant advantage on prediction accuracy especially in the later period of life. A time-dependent SSI reliability model is established. By computing the stress distribution using the finite element (FE) technique, the reliability of a single blade during the whole service life is obtained. Considering the failure correlation of components, a modified reliability model of aero-engine blades with common cause failure (CCF) is presented. It shows a closer and more reasonable process with the actual working condition. The improved reliability model is illustrated to be applied to aero-engine blades well, and the approach purposed in this paper is suitable for any actual machinery component of aero-engine rotor systems.     

不锈钢、钛合金导管高频钎焊工艺方法的改进

高频钎焊焊接方法在国内外进行研究的院校和公司相对较少，是一项较新的钎焊方法。国外在此项焊接工艺的研究和应用走在世界的前列。国内一直处于不断摸索和改进的过程中，焊接过程始终存在一些问题。通过本课题技术研究和相关的试验，详细地介绍了高频钎焊设备、工艺方法和高频钎焊工艺参数确定等方面的应用。