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...

高电压技术 2015

基于可听噪声时域测量的正极性单点电晕放电声压级分析

DOI: 10.13336/j.1003-6520.hve.2015.03.036, PP. 971-978

卢铁兵,张娣,李学宝

Keywords: 时域测量,频域分析,时间计权,1/3倍频分析,频率计权,功率谱

Full-Text Cite this paper Add to My Lib

Abstract:

为了使可听噪声的时域结果直接应用于噪声评价中,根据声级计的基本原理和直流电晕放电产生可听噪声的随机性特点,叙述了将可听噪声时域测量结果转化为声压级的方法,即采用功率谱分析方法来计算可听噪声声压的有效值,同时实现对噪声信号进行时间计权、A计权及倍频分析等,从而实现了由时域数据获得频域声压级的目的。基于实验室内搭建的单点电晕放电可听噪声测试平台,获得了单点电晕放电产生的可听噪声的时域波形,将该方法与Labview噪声分析工具箱的分析结果进行对比,验证了本文方法的正确性。最后对单点电晕放电产生可听噪声的频域特性及声压级特性进行了分析。研究结果表明,单点直流电晕放电产生的可听噪声的声压级在可听的频率范围内(20Hz~20kHz),随着电压增加而有所增加;电晕噪声在高频段(1kHz以上)内的A计权声压级相对较大。研究方法和所得结论可为对电晕放电产生可听噪声特性的深入研究奠定基础。

References

[1]	舒印彪,张文亮. 特高压输电若干关键技术研究[J]. 中国电机工程学报,2007,27(31)：1-6. SHU Yinbiao, ZHANG Wenliang. Research of key technologies for UHV transmission[J]. Proceedings of the CSEE, 2007, 27(31): 1-6.
[2]	张文亮,于永清,李光范,等. 特高压直流技术研究[J]. 中国电机工程学报,2007,27(22)：1-7. ZHANG Wenliang, YU Yongqing, LI Guangfan, et al . Researches on UHVDC technology[J]. Proceedings of the CSEE, 2007, 27(22): 1-7.
[3]	吴桂芳. 我国±500 kV直流输电工程的电磁环境问题[J]. 电网技术,2005,29(11)：5-8. WU Guifang. Electromagnetic environment problem brought about by ±500 kV DC transmission project in China[J]. Power System Technology, 2005, 29(11): 5-8.
[4]	谭闻,张小武. 输电线路可听噪声综述[J]. 高压电器,2009,45(3)：109-112. TAN Wen, ZHANG Xiaowu. Research review on audible noise control of transmission line[J]. High Voltage Apparatus, 2009, 45(3): 109-112.
[5]	Chartier V L, Stearns R D. Formulas for predicting audible noise from overhead high voltage AC and DC lines[J]. IEEE Transactions on Power Apparatus and Systems, 1981, 100(1): 121-130.
[6]	俞集辉,杨越,何健,等. 几种1 000 kV交流特高压输电线路下可听噪声预测公式的评估[J]. 高压电器,2009,45(4)：1-4. YU Jihui, YANG Yue, HE Jian, et al . Evaluations of several audible noise predicting formulas for 1 000 kV UHV AC transmission lines[J]. High Voltage Apparatus, 2009, 45(4): 1-4.
[7]	何佳美. 高压直流导线电晕放电可听噪声特性的实验研究[D]. 北京：华北电力大学,2013：34-41. HE Jiamei. Experimental study on the characteristics of audible noise from corona discharge of HVDC lines[D]. Beijing, China: North China Electric Power University, 2013: 34-41.
[8]	查显光,杨景刚,张子阳,等. 交流特高压试验线段可听噪声测量及特性分析[J]. 江苏电机工程,2011,30(2)：28-30. ZHA Xianguang, YANG Jinggang, ZHANG Ziyang, et al . Measurement and characteristics analyze of audible noise of the UHVAC test line[J]. Jiangsu Electrical Engineering, 2011, 30(2): 28-30.
[9]	祝令瑜,汲胜昌. 高压直流换流站滤波电容器的振动与可听噪声[J]. 高电压技术,2011,37(11)：2849-2856. ZHU Lingyu, JI Shengchang. Vibration and audible noise of filter capacitors in HVDC converter stations[J]. High Voltage Engineering, 2011, 37(11): 2849-2856.
[10]	陈豫朝,谢辉春,张业茂,等. 基于电晕笼的特高压交流输电线路可听噪声预测方法[J]. 高电压技术,2012,38(9)：2189-2194. CHEN Yuchao, XIE Huichun, ZHANG Yemao, et al . Audible noise prediction of UHVAC transmission lines based on corona cage[J]. High Voltage Engineering, 2012, 38(9):2189-2194.
[11]	田丰,余占清,曾嵘,等. 高海拔地区UHVDC输电线路电晕可听噪声影响因素分析[J]. 高电压技术,2012,38(12)：3125-3132. TIAN Feng, YU Zhanqing, ZENG Rong, et al . Influence factors of audible noise caused by corona discharge on UHVDC transmission lines under high altitude condition[J]. High Voltage Engineering, 2012, 38(12): 3125-3132.
[12]	邓军,肖遥,楚金伟,等. 云南—广东±800 kV特高压直流输电线路可听噪声仿真计算与测试分析[J]. 高电压技术,2012,38(12)：3268-3276. DENG Jun, XIAO Yao, CHU Jinwei, et al . Simulation calculation and measurement analysis of audible noise for ±800 kV Yunnan-Guangdong UHVDC transmission lines[J]. High Voltage Engineering, 2012, 38(12): 3268-3276.
[13]	李学宝,崔翔,卢铁兵,等. 高压输电线路可听噪声空间传播计算模型[J]. 高电压技术,2013,39(8)：2045-2052. LI Xuebao, CUI Xiang, LU Tiebing, et al . Calculation model for the propagation of audible noise from high voltage transmission lines[J]. High Voltage Engineering, 2013, 39(8): 2045-2052.
[14]	陈豫朝,张广洲,周翠娟,等. 特高压交流试验基地变电构架区可听噪声源特征频率分析[J]. 高电压技术,2009,35(8)：1824-1829. CHEN Yuchao, ZHANG Guangzhou, ZHOU Cuijuan, et al . Characteristic frequency analysis of audible noise source in transforming region of UHV AC test base[J]. High Voltage Engineering, 2009, 35(8): 1824-1829.
[15]	路遥,齐晓曼,张广州,等. ±500 kV葛南线和宜华线可听噪声频谱特性及影响因素[J]. 高电压技术,2010,36(11)：2754-2758. LU Yao, QI Xiaoman, ZHANG Guangzhou, et al . Spectrum characters of the audible noise from ±500 kV Ge-Nan and Yi-Hua transmission line and affecting factors[J]. High Voltage Engineering, 2010, 36(11): 2754-2758.
[16]	刘元庆,郭剑,陆家榆. 基于电晕笼实验的特高压正极直流线路可听噪声频谱分析[J]. 高电压技术,2013,39(6)：1324-1330. LIU Yuanqing, GUO Jian, LU Jiayu. Audible noise spectrum characteristics of UHVDC positive line using corona cage[J]. High Voltage Engineering, 2013, 39(6): 1324-1330.
[17]	汲胜昌,祝令瑜,沈琪,等. 换流站用交流滤波电容器的噪声试验与仿真[J]. 高电压技术,2011,37(12)：2897-2903. JI Shengchang, ZHU Lingyu, SHEN Qi, et al . Experiment and simulation of audible noise for AC filter capacitor used in converter station[J]. High Voltage Engineering, 2011, 37(12): 2897-2903.
[18]	路遥,干喆渊,陈豫朝,等. 特高压试验线段与实际线路产生的电场和可听噪声的等效性分析[J]. 高电压技术,2011,37(2)：354-360. LU Yao, GAN Zheyuan, CHEN Yuchao, et al . Consistency analysis between the electric field and audible noise caused by UHV test line and UHV transmission line[J]. High Voltage Engineering, 2011, 37(2): 354-360.
[19]	李学宝,崔翔,卢铁兵,等. 直流单点电晕放电噪声时域特性实验研究[J]. 中国电机工程学报,2014,34(24)：4152-4160. LI Xuebao, CUI Xiang, LU Tiebing, et al . Experimental studies on the time-domain characteristics of audible noise from single corona source on the conductor under DC voltage[J]. Proceedings of the CSEE, 2014, 34(24): 4152-4160.
[20]	刘振亚. 特高压电网[M]. 北京：中国经济出版社,2005：253-270. LIU Zhenya. UHV power grid [M]. Beijing, China: China Economic Publishing House, 2005: 253-270.
[21]	JJG 449—2001 倍频程和1/3倍频程滤波器检定规程[S],2001. JJG 449—2001 Octave and 1/3 octave filter verification procedures[S], 2001.
[22]	JJG 188—2002 声级计检定规程[S],2002. JJG 188—2002 Sound level meter verification procedures[S], 2002.
[23]	张峰, 石现峰, 张学智. Welch功率谱估计算法仿真及分析[J]. 西安工业大学学报,2009,29(4)：353-356. ZHANG Feng, SHI Xianfeng, ZHANG Xuezhi. Welch power spectrum estimation algorithm simulation and analysis [J]. Journal of Xi’an Technology University, 2009, 29(4): 353-356.
[24]	IEC61672：2002 电声学-声音水平仪表-第1部分：规范[S],2002. IEC61672：2002 Electroacoustics-sound level meters -part 1[S], 2002.
[25]	李学宝,崔翔,卢铁兵,等. 正极性单点电晕放电可听噪声时域波形拟合及分析[J]. 电网技术,2014,38(6)：1542-1548. LI Xuebao, CUI Xiang, LU Tiebing, et al . Analysis and fitting of the time-domain waveform of the audible noise caused by single positive corona source on the conductor[J]. Power System Technology, 2014, 38(6): 1542-1548.
[26]	陈欣. 语音增强算法的研究与实现[D]. 北京：北京邮电大学, 2007：20-39. CHEN Xin. Research and implementation of speech enhancement algorithm[D]. Beijing, China: Beijing University of Posts and Tele- communications, 2007: 20-39.
[27]	孙晋松. 语音增强算法的研究及改进[D]. 济南：山东大学,2009：38-45. SUN Jinsong. The research and improvement of speech enhancement algorithms[D]. Jinan, China: Shandong University, 2009: 38-45.
[28]	Bian X M, Chen L, Yu D M, et al . Influence of aged conductor surface conditions on AC corona-generated audible noise with a corona cage[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2012, 19(6): 2037-2043.
[29]	闫磊,王同庆. 基于labview的n倍频程实时采集分析系统设计[C]∥2006北京地区高校研究生学术交流会—通信与信息技术会议论文集(下). 北京,中国：出版地不详,2006：1616-1620. YAN Lei, WANG Tongqing. Design of real-time data acquisition and n octave analyze system based on labview[C]∥University Graduate Student Academic Exchange Meeting in Beijing in 2006—Communi- cations and Information Technology Conference Proceedings. Beijing, China: [s.n.], 2006: 1616-1620.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133