OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

高压电器 2015

城市电网高压电缆光纤传感在线监测技术比对试验研究

DOI: 10.13296/j.1001-1609.hva.2015.07.012, PP. 63-68

王丽,罗健斌

Keywords: 光纤复合电缆,在线监测,线路温度,光纤光栅,拉曼散射,布里渊散射

Full-Text Cite this paper Add to My Lib

Abstract:

文中建立了用于高压电缆的温度在线监测的光纤传感系统，针对电缆不同部分的测量需求，采用不同的光纤传感原理分别进行了温度测量。通过模拟电缆隧道进行了有针对性的试验，试验结果表明，布里渊温度测量系统的精度可达2℃，布里渊散射频率与温度变化呈严格的线性关系；拉曼温度测量系统的精度可达0.5℃；拉曼温度测量系统适用于通过监测热点温升电缆局部缺陷；布里渊温度测量系统适用于电缆全段的温度测量，实现动态载流量；点式光纤光栅温度测量需要注意消除电缆温度变化导致形变的干扰。

References

[1]	赵勇. 光纤传感器原理与应用技术[M]. 北京：清华大学出版社，2007.
[2]	KERSEY A D，DAVIS M A，PATRICK H J，et al. Fiber grating sensors[J]. Journal of Lightwave Technology，1997，15(8):1442-1463.
[3]	高玉珍，郝旭东．光纤测温系统在OPPC中的应用[J]．电信科学，2010，12A(S3):162-165． GAO Yuzhen，HAO Xudong. Application of fiber optic temperature measurement system in OPPC[J]. Telecommunications Science, 2010, 12A(S3):162-165.
[4]	马国明，李成榕，全江涛，等．架空输电线路覆冰监测光纤光栅拉力倾角传感器的研制[J]．中国电机工程学报，2010, 30(34):132-138． MA Guoming，LI Chengrong，QUAN Jiangtao，et al. Development of fiber bragg grating tension angle sensor for transmission line icing monitoring[J]. Proceedings of the CSEE，2010，30(34):132-138.
[5]	蔡炜，罗兵，邓鹤鸣，等．光纤布拉格光栅复合绝缘子的应力分布分析[J]．高电压技术，2011，37(5):1106-1114． CAI Wei，LUO Bing，DENG Heming，et al. Stress distribution of fiber Prague grating composite insulator[J]. High Voltage Engineering，2011，37(5):1106-1114.
[6]	KRISHNAN R S. Fine structure of the Rayleigh line in amorphous substances[J]. Nature，1950，165(426):933-934.
[7]	FARAHANI M A，GOGOLLA T. Spontaneous raman scattering in optical fibers with modulated probe light for distributed temperature raman remote sensing[J]. Journal of Lightwave Technology，1999，17(8):1379-1391.
[8]	张在宣，金尚忠，王剑锋，等．分布式光纤拉曼光子温度传感器的研究进展[J]．中国激光，2010，37(11):2749-2761． ZHANG Zaixuan，JIN Shangzhong，WANG Jianfeng，et al. Research progress of distributed fiber raman photon temperature sensor[J]. Chinese Journal of Lasers，2010，37(11):2749-2761.
[9]	KEMPER M S，PHILIPPCZYK C，RAYZAK R J，et al. A new method for the detection and quantification of residual volatiles in XLPE electrical cable using Large-Spot raman spectroscopy[J]. IEEE Transactions on Power Delivery，2011，26(1):3-10.
[10]	彭超，赵健康，苗付贵．分布式光纤测温技术在线监测电缆温度[J]．高电压技术，2006，32(8):43-45． PENG Chao，ZHAO Jiankang，MIAO Fugui. The on-line monitoring cable temperature of distributed optical fiber temperature measurement technology[J]. High Voltage Engineering，2006，32(8):43-45.
[11]	张吉生，徐涛．光纤布里渊传感系统在高压电缆检测中的应用[J]．电力系统通信，2008，29(12):55-58． ZHANG Jisheng，XU Tao. Application of fiber optic Brillouin sensing system in high voltage cable detection[J]. Telecommunications for Electric Power System，2008，29(12):55-58.
[12]	MAUGHAN S M，KEE H H，NEWSON T P. Simultaneous distributed fiber temperature and strain sensor using micro wave coherent detection of spontaneous brillouin backscatter[J]. Measurement Science & Technology，2001(12):834-842.
[13]	ALAHBABI M N，CHO Y T，NEWSON T P. 100 km distributed temperature sensor based on coherent detection of spontaneous brillouin backscatter[J]. Measurement Science & Technology，2004，15(8):1544-1547.
[14]	耿军平，许家栋，韦高，等．基于布里渊散射的分布式光纤传感器的进展[J]．测试技术学报，2002，16(2):87-91． GENG Junping，XU Jiadong，WEI Gao，et al. Progress of distributed optical fiber sensor based on Brillouin scattering[J]. Journal of Test and Measurement，2002，16(2):87-91.
[15]	UKIL A，BRAENDLE H，KRIPPNER P. Distributed temperature sensing: Review of technology and applications[J]. Sensors Journal，2012，12(5):885-892.
[16]	GENG Jihong，STAINES S，BLAKE M，et al. Distributed fiber temperature and strain sensor using coherent radio-frequency detection of spontaneous Brillouin scattering[J]. Applied Optics，2007，46(23):5928-5932.
[17]	SHIMIZU K，HORIGUCHI T，KOYAMADA Y，et al. Coherent self-heterodyne Brillouin OTDR for measurement of Brillouin frequency shift distribution in optical fibers[J]. Journal of Lightwave Technology，1994，12(5):730-736.
[18]	HORIGUCHI T，TATEDA M. BOTDA-nondestructive measurement of single-mode optical fiber attenuation characteristics using Brillouin interaction: theory[J]. Journal of Lightwave Technology，1989，7(8):1170-1176.
[19]	GARCUS D，GOGOLLA T，KREBBER K，et al. Brillouin optical-fiber frequency-domain analysis for distributed temperature and strain measurements[J]. Journal of Lightwave Technology，1997，15(4):654-662.
[20]	HOTATE K，TANAKA M. Distributed fiber Brillouin strain sensing with 1 cm spatial resolution by correlation-based continuous-wave technique[J]. Photonics Technology Letters，2002，14(2):179-181.
[21]	TKACH R W，CHRAPLYVY A R，DEROSIER R M. Spontaneous Brillouin scattering for single-mode optical-fibre characterisation[J]. Electronics Letters，1986，22(19):1011-1013.
[22]	KURASHIMA T，HORIGUCHI T，IZUMITA H，et al. Brillouin optical-fiber time domain reflectometry[J]. IEICE Trans. on Commun，1993，E76-B(4):382-390.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133