一种新型罗茨真空泵转子型线研究与应用

提出了一种罗茨真空泵三叶直线圆弧型转子型线设计方法,给出了型线方程和针对ZJ-5000型罗茨真空泵转子型线的主要结构参数;对新型罗茨真空泵进行有限元分析,研究了其在不同进气压力下的抽气速率;基于该转子型线进行了实际产品生产,并与双叶转子罗茨泵的抽速和其他性能指标进行了对比。结果表明:新设计的三叶直线圆弧型转子型线具有容积效率高、曲线光滑过度、加工方便、定位准确、工作噪声低的特点,相对于两叶转子,其强度增强,能够承受更大的压差载荷,与传统三叶转子相比抽气效率得到了提高。

倒角和间隙对跨音轴流压气机气动性能的影响

通过对一单级跨音速轴流压气机的流场进行数值模拟,研究了动叶根部倒角以及顶部间隙对流场气动性能的影响。结果表明:动叶叶顶间隙会造成顶部区域的通流阻塞并加重顶部分离损失,根部倒角会减小根部的气流折转角,降低做功能力,而且扩大根部分离区,减小根部流量,增大根部分离损失,因此为了提高数值模拟的准确性应考虑动叶叶顶间隙和根部倒角。

基于RMS的旋转叶片叶尖间隙信号处理方法

针对航空发动机旋转叶片叶尖间隙测量系统的信号处理和实时检测需求,该文提出了一种基于RMS的叶尖间隙信号处理方法。利用AD536A芯片设计了一种求信号RMS值转换电路,计算得到叶尖间隙信号的RMS值,并采用叶尖间隙信号的RMS值计算获得叶尖间隙值。搭建了一套基于该方法的电容式叶尖间隙测量系统进行测试验证,理论推导并利用试验数据验证了基于RMS的叶尖间隙测量模型。试验结果表明该方法可以实现对叶尖间隙的高精度实时在线测量,提高测量系统效率。

Grinding force and surface quality in creep feed profile grinding of turbine blade root of nickel-based superalloy with microcrystalline alumina abrasive wheels

Creep feed profile grinding of the fir-tree blade root forms of single crystal nickel-based superalloy was conducted using microcrystalline alumina abrasive wheels in the present study. The grinding force and the surface quality in terms of surface topography, subsurface microstructure,microhardness and residual stress obtained under different grinding conditions were evaluated comparatively. Experimental results indicated that the grinding force was influenced significantly by the competing predominance between the grinding parameters and the cross-sectional root workpiece profile. In addition, the root workpiece surface, including the root peak and valley regions, was produced with the large difference in surface quality due to the nonuniform grinding loads along the root workpiece profile in normal section. Detailed results showed that the surface roughness, subsurface plastic deformation and work hardening level of the root valley region were higher by up to25%, 20% and 7% in average than those obtained in the root peak region, respectively, in the current investigation. Finally, the superior parameters were recommended in the creep feed profile grinding of the fir-tree blade root forms. This study is helpful to provide industry guidance to optimize the machining process for the high-valued parts with complicated profiles.

叶片结构对叶片风能利用率及载荷的影响分析

针对叶片结构设计过程中叶片结构变化对风电机组性能及安全性的影响,利用GH Bladed对某73.2 m叶片进行仿真计算,通过探究扭转刚度、摆振刚度、抗弯刚度对风电机组的净空、风能利用率、发电量及载荷的影响,分析不同的刚度变化情况对机组性能及安全性的影响程度,为叶片结构设计提供依据,更加快速准确地推进叶片设计进程。结果表明,在提高发电量的前提下,叶片结构调整应该增加叶片扭转刚度和挥舞刚度,降低叶片摆振刚度,提高叶片挥舞刚度能够明显提高叶片净空及发电量,但同时会增加叶根载荷;在降低叶根合弯矩载荷的前提下,叶片结构调整应该增加叶片扭转刚度,增加叶片摆振刚度,降低叶片挥舞刚度。因此在实际调整中,需要根据载荷和发电量的实际情况进行平衡。

枞树型叶根间隙流量试验与数值研究

为了研究气流在涡轮枞树型叶根间隙内的流动特性,以及校核与优化现有叶根间隙流量计算关联式。以某型地面燃气轮机涡轮一级转子枞树型叶根间隙为对象,对其进行了流量试验与三维数值模拟研究。测量了进出口压比范围为1~2工况下通过叶根间隙的流量值,该流量值对应的流动雷诺数范围为1 700~16 500。并在ANSYS/CFX中对相同模型及进出口边界条件下叶根间隙内的流动进行数值模拟,获得叶根间隙截面流动结构,同时计算了长径比39~118范围内,不同压比工况下通过叶根间隙的流量。研究表明:随着压比增大,流过叶根间隙的流量增大趋势逐渐减小;随着长径比增大,流过叶根间隙流量逐渐减小;文献[10-11]提供的叶根间隙流量计算关联式的计算结果与试验测量值平均误差16.3%;与关联式流量计算值随压比变化趋势不同,试验测量值分布曲线随压比增大无明显转折;两端宽、中间窄的叶根间隙通道结构使得流道内层流与湍流共存,从而造成了上述偏差;针对上述偏差,根据试验与三维数值模拟结果拟合了新的叶根间隙流量计算关联式。