基于LabVIEW的航空发动机导流叶片虚拟调试技术

介绍了一种通过LabVIEW虚拟仪器实现的航空发动机压气机导流叶片偏转角度调试技术,该技术基于虚拟仪器编程技术,通过对飞参数据的二次开发,实现了航空发动机运转时压气机导流叶片偏转特性的直观显示。由虚拟仪器图像化实现模拟导流叶片偏转角度的调整过程、调试条件和调试结果评估,实现了导流叶片偏转角度虚拟调试及效果评价,可以指导发动机的实际调试工作。经试车验证,此方法能有效地应用于航空发动机导流叶片偏转性能参数的监控和调整,预防故障发生,相比传统的人工经验调试方法,可以减少调试过程中的燃油消耗并延长发动机的使用寿命,具有较高的经济效益。

LabVIEW-Based Virtual Debugging Technique of Aero-Engine Guide Vanes

A technique for adjusting the attack angle of aero-engine compressor inlet guide vane through LabVIEW is introduced.Based on the virtual instrument programming technology,this technique focusses on re-development of flight parameters to realize the intuitive display of the deflection characteristics of aero-engine compressor inlet guide vane when the aero-engine is running.The simulation of the adjustment process of the guide vanes attack angle,the debugging conditions and the evaluation of the adjustment results are realized by the visualization of virtual instrument,so virtual debugging and effect evaluation of deflection angle of guide vane are realized,which can be used to guide the actual debugging of the aero-engine.The test results show that this method can be effectively applied to monitor and adjust the deflection performance parameters of aero-engine guide vane,and prevent the occurrence of faults.Compared with the traditional manual experience debugging method,it can reduce the fuel consumption during the debugging process,and extend the aero-engine life which produces higher economic value.