导风轮叶片偏置对高压比串列离心压气机性能的影响

为提升高压比串列离心压气机的性能,借鉴常规一体化离心叶轮中偏置分流叶片的方法,针对某高压比串列离心压气机,应用数值仿真手段分析了串列叶轮中导风轮叶片周向偏置对压气机流场和性能的影响。通过对不同导风轮叶片偏置方案下压气机流场的分析,建立了压气机流动损失与偏置参数的关联性。研究表明:采用较大的偏置参数γ可降低导风轮叶片1前缘的激波强度,改善激波作用导致的泄漏涡破碎和流动分离,但过大或过小的γ方案中导风轮叶顶会出现二次泄漏致使低能流体的掺混损失增加;γ=65%方案压气机综合性能最佳,其压比和效率较γ=50%分别提高了1.5%和1.4%;对于串列离心压气机导风轮叶片周向位置的优化,在避免导风轮叶顶形成较强二次泄漏的前提下,应考虑采用较大的偏置参数γ,同时应防止诱导轮尾迹流体参与导风轮的叶顶泄漏。     

基于压电纤维复合材料的离心叶轮叶片高阶模态测量

为准确获取离心叶轮叶片的高阶振动特性及其模态,利用压电纤维复合材料(Marco fiber composite,MFC)对离心叶轮叶片进行模态测试。设计了MFC激励系统,提出了MFC选型、激励和测点位置的确定方法,研究了不同信号的高阶模态激励效果,并分析了MFC附加质量和刚度对叶片固有频率和模态的影响;结合有限元仿真结果,对比分析了前20阶振动模态的异同。试验结果表明:MFC具有操作简单、重复性好、信噪比高、能够稳定激励出高阶模态等优势,计算模态与测量模态吻合较好,在第6～8阶与第12～15阶之间存在模态密集区域;MFC附加质量和刚度对实验固有频率的影响低于4%。提出的MFC激励方法可用于具有较高固有频率的航空发动机部件的模态测量。     

电火花加工技术在小型闭式三元叶轮制造中的应用研究

针对难切削材料以及流道结构复杂扭曲的小型闭式三元叶轮带来的机械加工难题,提出一种应用多组成形电极组合完成一个流道的电火花整体加工方案.本文重点论述了电火花加工总体方案设计及关键技术,包括工艺流程设计、电极和运动轨迹的设计、工装夹具设计及电火花加工参数的选择与优化.结果表明,多组成形电极组合电火花加工方法成功完成了某型号压缩机闭式三元叶轮实际生产,加工精度及性能试验满足设计要求.     

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.     

液体火箭发动机推进剂泵诱导轮与离心轮的匹配

为获得诱导轮离心轮周向匹配的时序效应对离心泵外特性以及压力脉动的影响规律，阐释相关作用机制，采用基于分离涡仿真（DES）的离心泵三维全流道数值仿真方法，引入熵产理论以及压力脉动强度系数等先进分析方法对不同匹配角度下离心泵内能量损失机制及压力脉动特性进行了研究。结果表明：离心轮诱导轮的时序效应对泵外特性有一定的影响，随着匹配角度的增加，扬程和效率均呈现先减小后缓慢增大的趋势，扬程变化为0.8%，效率变化为1.2%，其影响机制由不同匹配角度下叶轮通道分离涡、叶轮叶片尾迹以及靠近隔舌处扩压器通道回流涡变化决定；时序效应对离心轮扩压器动静干涉效应影响显著，当诱导轮叶片尾缘位于离心轮相邻主叶片中间位置时，能够有效消除3倍频成分，显著降低泵内压力脉动水平，其中动静干涉区域以及隔舌处扩压器叶片表面压力脉动平均降幅分别达到14.5%和16.7%。     

微小整体叶轮五轴联动微细铣削加工试验研究

微小整体叶轮作为微型发动机的重要组成部分,其加工质量直接影响微型发动机的使用性能。针对微小整体式复杂叶轮流道狭窄、叶片扭曲大和长厚比大等特点,开展了微小复杂扭曲整体式叶轮五轴联动微细铣削加工方法研究。针对微小叶轮加工过程极易发生变形、过切和碰撞干涉等问题,对微小叶轮的加工过程进行工艺规划,建立了微小叶轮流道加工刀具选择的约束方程,计算出叶轮加工刀具的最大理论直径。通过CAM软件对叶轮进行切削仿真,验证了刀具选择和工艺规划的正确性。通过五轴联动微细铣削试验,得到了具有6个直径10mm的叶片、叶片最小厚度0.15mm、叶片最小相邻间距0.58mm的7075铝合金微小整体叶轮。     

数字化技术在叶轮研制中的应用

本文通过分析归纳建立了一种叶轮数字化建模方法，并利用该方法成功实现了某型叶轮三维模型创建，同时也根据该数字化模型实现了模具数字化设计及其数控加工。     

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。     

整体离心叶轮叶片的振动可靠性分析

述及了整体离心叶轮的结构及其故障模式特点,在强迫振动放大系数模型的基础上提出了离心叶轮叶片的振动可靠性分析方法,结合固有频率灵敏度分析的叶片共振相干分析,通过厚度控制来调整整体叶轮叶片的固有频率,控制强迫振动放大系数使之避开危险性共振或强迫振动,给出了一实际算例,算例及试车试验表明本文方法是有效的。