基于UG/Grip的低比转速离心泵叶轮数字化造型原理

运用UG/Grip技术对低比转速叶轮进行三维造型设计,获得了一种先进的低比转速叶轮参数化设计方法,从而能够及时、直观地考察叶片的水力特性和机械特性。同时可采用交互方式对叶轮设计参数进行修改,增强了叶轮计算机辅助设计系统的交互设计能力,有利于提高叶轮设计质量。     

A novel approach for predicting inlet pressure of aircraft hydraulic pumps under transient conditions

Cavitation caused by insufficient suction is a major factor that influences the life of aircraft pumps. Currently, pressurizing the tank can solve the cavitation problem under steady large-flow conditions. However, this method is not always effective under transient conditions (from zero flow to full flow in a very short time). Moreover, to apply and design other measures, such as a boost impeller, the suction dynamics during the transient period must be investigated. In this paper, a novel approach based on the pressure wave propagation theory is proposed for predicting the inlet pressure of an aircraft pump under transient conditions. First, a dynamic model of a typical aircraft pump is established in the form of differential equations. Then, the transient flow model of the inlet line is described using momentum and continuity equations, and the governing equations are discretized by the method of characteristics and the finite difference method. The simulated results are in good agreement with the results from verification tests. Further simulation analysis indicates that the wave velocity and transient time may influence the inlet and reservoir pressure as well as the size of the inlet line. Finally, solutions for upgrading the inlet pressure are discussed. These solutions provide guidelines for designing inlet installations.     

提高花键加工精度的工艺研究

发动机中力及扭矩的传递全部通过渐开线花键副来实现,由于发动机工作转速高,因而要求渐开线花键副传动非常平稳。通过本工艺方法的探索,采用新的工艺加工方法,提高了涡轮泵叶轮、轴的花键加工精度,保证了涡轮泵装配性能的要求。     

Numerical investigation of flow mechanisms of tandem impeller inside a centrifugal compressor

This study numerically investigated a single stage centrifugal compressor ‘‘Radiver’’ with a wedge diffuser and several tandem-designed impellers to explore the flow phenomena within the tandem impeller and the potential to enhance compressor performance. The results demonstrate that tandem design and clocking fraction (λ_s) significantly affects the compressor performance. The compressor stage with tandem impellers of Series A of boundary layer growth interruption alone are observed to have a widely operating range but efficiency and total pressure ratio penalty compared with that of conventional impeller. The tandem impeller with at least the same impeller efficiency as the conventional design is considered as a critical design criteria so that further modification process based on the flow characteristic of tandem impeller is necessary. In order to restrain the inducer wake and exducer shock losses, parameters modification of blade angle and thickness distributions are necessary and the modified tandem impeller of Series B is obtained. The modified tandem impeller with 25% clocking arrangement shows an 8.45% stall margin increase and maintains the total pressure ratio and efficiency as the conventional design, which proves the potential of tandem impeller to improve compressor stage performance. It is noteworthy that the tandem impellers of Radiver have not shown obviously balanced exit flow field and the fundamental mechanism of stall margin extending of tandem impeller lies on the improved impeller/diffuser matching performance resulting from the incidence angle variation at diffuser inlet.     

离心叶轮背腔复杂流态及调控方法研究进展

因叶轮/扩压器转静间断,离心压气机级中必然存在引气腔并对级性能产生影响,中小型航空发动机/燃气轮机用半开式离心叶轮中背腔引气影响尤为突出。从简化及真实离心叶轮背腔流态研究、复杂流态调控方法、对级气动性能影响、叶轮/扩压器/背腔多维度耦合模拟方法等方面进行了综述,展示了背腔引气对风阻损失、轴向力平衡、油/气密封及冷却气输送等多方面重要影响,并对其可能的先进设计方法进行了分析与展望。     

水泵叶轮的流动叠加设计方法与CFD仿真

叶轮叶片是复杂的空间曲面体,它直接影响到水泵的水力性能及运行稳定性.发动机水泵叶轮流动叠加设计是通过分析流体的流动规律,按其流动轨迹进行叶轮设计,将流体在离心水泵内的流动看作叶轮静止时的轴向和径向流动和叶轮旋转时的周向流动的叠加,从而用绕角流动和源环流的流体流动规律设计出叶轮的轴面轮廓和叶片骨线.通过CFD(Computational Fluid Dynamics)仿真,可以证明该方法从结构上避免了流体流动过程中由于空间的相对不均而造成的压力不均,减轻了回流、二次流,相应地减少能量的损失,提高水泵的效率.     

利用OpenGL显示叶轮造型及模拟加工

分析了OpenGL编程原理以及OpenGL与Windows图形设备接口GDI之间的关系,介绍了OpenGL进行叶轮造型显示及虚拟加工的应用方法.     

含天然与人工内部缺陷轮盘裂纹扩展特性对比分析

为达到应用人工内部缺陷获得轮盘裂纹扩展特性，开展了含天然与人工内部缺陷轮盘高速旋转低周疲劳裂纹扩展对比试验，并通过无损检测分析、断口分析研究了裂纹扩展特性的差异，提出了含人工缺陷轮盘损伤容限分析思路。无损检测更易识别人工内部缺陷的特征及其变化；人工缺陷区呈碎裂状，有大量的晶间断裂，与天然缺陷区有明显差异；非缺陷区两者无明显差异。天然与人工缺陷区的裂纹扩展速率分别为0.2-0.4μm/次、0.6-1.2μm/次，均远大于基体材料理论值；1#盘加载突变区外断口反推寿命与第二加载阶段循环数的最大误差是12%；2#盘缺陷区外断口反推寿命占总循环数的44.9%-51.9%。基于人工缺陷区定义初始裂纹，排除人工与天然缺陷差异的影响，可获得轮盘裂纹扩展特性。     

用四坐标数控铣床加工整体叶轮

介绍一种形成包络面(等距面)的实用方法,提出一种用四坐标数控铣床加工整体叶轮的程序计算方法。还介绍了刀具选择、叶轮装夹和干涉检查等内容。根据本文所述方法用四坐标数控铣床在国内首次加工出导弹涡喷发动机整体叶轮,各项指标均达到设计标准。     

展成电解加工整体叶轮扭曲叶片中的间隙分析

叙述了展成电解加工整体叶轮扭曲叶片中间隙的计算方法,并讨论了工件和阴极各运动速度对间隙的影响。