作者:薛志飞1, 牛广越2, 易亮1, 郑芳芳1, 李发富2, 段发阶2
作者单位:1. 中国航发上海商用航空发动机制造有限责任公司,上海 201306;
2. 天津大学 精密测试技术及仪器全国重点实验室,天津 300072
关键词:叶尖间隙;低压涡轮;篦齿;轴向窜动;电容传感器
摘要:
航空发动机叶尖间隙参数的在线高精度测量是保证发动机运行安全和气动效率的关键。涡扇发动机低压涡轮叶片为叶顶带有篦齿结构的带冠叶片,传统电容式叶尖间隙传感器为圆形芯极结构,其测量精度易受变工况下篦齿轴向窜动影响。因此提出一种矩形芯极的电容传感器结构方案,基于双极板电容原理,建立矩形芯极下的叶尖间隙测量模型。仿真分析轴向窜动对不同结构传感器方案的影响规律。开发矩形芯极传感的带冠叶片叶尖间隙测量系统,搭建测试平台,开展实验室环境下的标定和测量实验。仿真和实验结果表明:新型的矩形芯极传感器可提高传感器的抗轴向窜动能力;1~3 mm量程内,叶尖间隙测量误差小于65 μm。
research on tip clearance measurement of shrouded turbine blades of turbofan engine
xue zhifei1, niu guangyue2, yi liang1, zheng fangfang1, li fafu2, duan fajie2
1. aero engine corporation of china shanghai commercial aircraft engine manufacturing co., ltd., shanghai 201306, china;
2. state key laboratory of precision measurement technology and instruments,tianjin university, tianjin 300072, china
abstract: high precision online measurement of blade tip clearance parameters is the key to ensure the safety and aerodynamic efficiency of aeroengine. the low pressure turbine blades of turbofan engine are covered with sealing labyrinth at the top. the typical capacitive sensor of blade tip clearance measurement is designed with circular core structure, which makes the measurement accuracy easily affected by the axial movement of blades under varying working conditions. therefore, a new kind of capacitance sensor with rectangular core electrode structure is invented. the blade tip clearance measurement model based on the new sensor is established using the bipolar plate capacitance principle. effects of the axial movement of blades on different structure sensors is simulated and analyzed. the tip clearance measurement system of shrouded turbine blades based on the sensor with rectangular core electrode was developed. the test platform was built, and the calibration and measurement experiments in the lab were carried out. simulation and experimental results show that the new type sensor with rectangular core electrode has good performance faced with the axial movement of blades. the measurement error of blade tip clearance is less than 65 μm in the range of 1 mm to 3 mm.
keywords: blade tip clearance;low pressure turbine;labyrinth;axial movement;capacitive sensor
2023, 49(12):16-22 收稿日期: 2022-08-30;收到修改稿日期: 2022-10-28
基金项目: 国家自然科学基金项目(52205573, u2241265);中国博士后科学基金(2022m720106);精密测试技术及仪器全国重点实验室(天津大学)青年教师科研启动项目(pilq2304);国家科技重大专项(j2022-v-0005-0031);广东省重点研发计划项目(2020b0404030001)
作者简介: 薛志飞(1992-),男,江苏南通市人,工程师,硕士,研究方向为旋转机械结构间隙测试技术。
参考文献
[1] 华泽锋, 潘孟春, 陈棣湘, 等. 发动机叶片微缺陷自动检测系统的设计[j]. 中国测试, 2021, 47(10):109-113.
[2] 邢琛, 段发阶, 叶德超, 等. 变面积电涡流传感器带冠叶片振动测量[j]. 中国测试, 2021, 47(2):119-124.
[3] niu g, duan f, liu z, et al. a high-accuracy non-contact online measurement method of the rotor-stator axial gap based on the microwave heterodyne structure[j]. mechanical systems and signal processing, 2021, 150:107320.
[4] 段发阶, 牛广越, 周琦, 等. 航空发动机叶尖间隙在线测量技术研究综述[j]. 航空学报, 2022, 43(9):626014.
[5] 张鑫, 段发阶, 叶德超, 等. 基于rms的旋转叶片叶尖间隙信号处理方法[j]. 自动化与仪表, 2019, 34(11):42-46.
[6] wiseman m, guo t. an investigation of life extending control techniques for gas turbine engines[c]//proceedings of the american control conference. arlington, 2001:3706-3707.
[7] 左铭, 杨养花, 张志述. 锯齿冠低压涡轮工作叶片叶冠防错位设计方法[j]. 航空发动机, 2018, 44(3):36-41.
[8] 侯宽新. 涡轮叶尖间隙泄漏流动控制研究进展[j]. 飞航导弹, 2014(1):85-90.
[9] 许欧阳, 童杏林. 航空发动机叶尖间隙测量技术研究进展[j]. 半导体光电, 2020, 41(6):774-778.
[10] 于正慧, 张志杰, 陈昊泽, 等. 基于平面电容传感器的复合材料缺陷检测研究[j]. 电子测量技术, 2022, 45(2):7-12.
[11] 邵兴臣, 段发阶, 蒋佳佳, 等. 基于自适应滑动均值和小波阈值的叶尖间隙信号降噪方法[j]. 传感技术学报, 2021, 34(1):34-40.
[12] yu b, ke h, shen e, et al. a review of blade tip clearance-measuring technologies for gas turbine engines[j]. measurement and control (united kingdom), 2020, 53(3-4):339-357.
[13] 李维双. 基于电容法的涡轮叶尖间隙测量技术研究[d]. 哈尔滨:哈尔滨工程大学, 2013.
[14] 龙成. 电容调频式叶尖间隙测量技术研究[d]. 天津:天津大学, 2009.
[15] 曹家骏. 正方形平行板电容器的边缘效应——谈物理模型实用化[j]. 大学物理, 1990(12):17-20.
