Low-coherence Heterodyne Interference Clearance Measurement Technology Based on Differential Detection

Jing LI; Wei ZHANG; Bin SHAO; Xing FAN; Peng ZHANG; Weimin CHEN

doi:10.3788/gzxb20215009.0906004

[1] A G SHEARD. Blade by blade tip clearance measurement. International Journal of Rotating Machinery, 1-13(2011).

[2] J DU, F LIN, H W ZHANG et al. Numerical simulation on the effect of tip clearance size on unsteadiness in tip clearance flow. Journal of Thermal Science, 17, 337-342(2008).

[3] B YU, H W KE, E Y SHEN et al. A review of blade tip clearance-measuring technologies for gas turbine engines. Measurement & Control, 53, 339-357(2020).

[4] L TAN, Z F XIE, Y B LIU et al. Influence of T-shape tip clearance on performance of a mixed-flow pump. Proceedings of the Institution of Mechanical Engineers, 232, 386-396(2018).

[5] Junfeng JIAO, Hongchao SONG, Lucheng JI. Research on the effect of inter-row spacing on the shock wave structure and performance of turbine. Journal of Engineering Thermophysics, 38, 62-67(2017).

[6] Dongjian LIU, Jun LI, Aiwu JIANG等. Influence of axial gap on compressor passage blockage and aerodynamic performance. Acta Aeronautica Et Astronautica Sinica, 36, 3522-3533(2015).

[7] L CAO, Y Y ZHANG, Z W WANG et al. Effect of axial clearance on the efficiency of a shrouded centrifugal pump. Journal of Fluids Engineering-Transactions of the Asme, 137(2015).

[8] S N DANISH, S R QURESHI, M M IMRAN et al. Effect of tip clearance and rotor-stator axial gap on the efficiency of a multistage compressor. Applied Thermal Engineering, 99, 988-995(2016).

[9] T FABIAN, F B PRINZ, G BRASSEUR. Capacitive sensor for active tip clearance control in a palm-sized gas turbine generator. IEEE Transactions on Instrumentation and Measurement, 54, 1133-1143(2005).

[10] A STEINER. Techniques for blade tip clearance measurements with capacitive probes. Measurement Science and Technology, 11, 865-869(2000).

[13] Weimin WANG, Wen SHANG, Jianfei YAO等. A blade tip-timing measurement study based on eddy current technology. Journal of Beijing University of Chemical Technology （Natural Science Edition）, 41, 102-107(2014).

[14] Tianlin HU, Haihe XIE, Huangping YAN等. Measurement model and tip clearance’s spatial filtering effect of eddy displacement sensor. Journal of Xiamen University （Natural Science）, 53, 66-70(2014).

[15] Jilong ZHANG, Fajie DUAN, Guangyue NIU. Blade tip clearance and blade tip timing measurement based on microwave sensors. Control Engineering of China, 36, 1233-1238(2019).

[16] M WOIKE, A ABDUL-AZIZ, M CLEM. Structural health monitoring on turbine engines using microwave blade tip clearance sensors. Networks, 9062, 90620L(2014).

[17] Yahui WU, Xingjuan XIE, Haolin SUN. Research on measurement system for blade tip clearance based on microwave. Metrology & Measurement Technology, 36, 37-39(2016).

[19] Bing WU, Xiaodong ZHANG, Siying XIE. Influence of roughness and inclination of blade tip on output behavior of reflective fiber bundle sensor. Aeroengine, 43, 75-80(2017).

[20] B H JIA, L HE. An optical fiber measurement system for blade tip clearance of engine. International Journal of Aerospace Engineering, 2017, 1-9(2017).

[21] Q B TONG, H P MA, L H LIU et al. Measurements of radiation vibrations of turbomachine blades using an optical-fiber displacement-sensing system. Journal of Russian laser research, 32, 216-229(2011).

[22] J M GIL-GARCIA, A SOLIS, G ARANGUREN et al. An architecture for on-line measurement of the tip clearance and time of arrival of a bladed disk of an aircraft engine. Sensors, 17, 2162(2017).

[23] X Z ZHANG, T G LIU, J F JIANG et al. Theoretical investigation of ultraprecise position determination by spatially modulated low-coherence interference fringe in optical fiber sensing. IEEE Photonics Journal, 8, 1-9(2016).

[24] X Y YAN, J CHENG, D BIAN et al. Surface profile measurement of doped silicon using near-infrared low-coherence light. Applied Optics, 58, 7436-7442(2019).

[25] B QI, D E WINDER, Y LIU. Quadrature phase-shifted optical demodulator for low-coherence fiber-optic fabry-perot interferometric sensors. Optics Express, 27, 7319-7329(2019).

[26] Chaoliang CHEN, Wanrong GAO, Haiyi BIAN. A method to improve precision and sensitivity of dispersion compensation in fourier domain optical coherence tomography. Acta Photonica Sinica, 43(2014).

[27] Ming QU, Junjie ZHENG, Min LI等. Pixel-level observation of phase profile in liquid crystal on silicon by white light scanning interferometry. Acta Photonica Sinica, 48(2019).

[28] Y PARK, K CHO. Heterodyne interferometer scheme using a double pass in an acousto-optic modulator. Optics Letters, 36, 331-333(2011).

[29] S G GRISHIN. Estimating phase errors in heterodyne laser interferometer measurement systems. Measurement Techniques, 54, 865-868(2011).

[30] A A TITOV. Measurements of movements of micro-objects by the heterodyne method. Measurement Techniques, 60, 156-160(2017).

[31] Weijing ZHANG, Yunqiang SUN. Phase characteristics of the collinear heterodyne interferometer system. Acta Photonica Sinica, 45(2016).

[32] X Y CHANG, Y YANG, J S LU et al. Vibration amplitude range enhancement method for a heterodyne interferometer. Optics Communication, 466, 125630(2020).

[33] A KEMPE, S SCHLAMP, T RÖSGEN et al. Low-coherence interferometric tip-clearance probe. Optics Letters, 28, 1323-1325(2003).

[34] A KEMPE, S SCHLAMP, T RÖSGEN et al. Spatial and temporal high-resolution optical tip-clearance probe for harsh environments, 1155(2006).

[35] Yanling YANG, Yanchao LI, Long GAO等. Numerical simulation of balanced heterodyne detection for coherent lidar. Infrared and Laser Engineering, 40, 1918-1922(2011).