摘要
设计了紫外光谱成像仪CoroCAMⅣ+与虚拟仪器编程环境Labview8.0相结合的电晕放电测试和分析平台。选用适当的数字图像处理算法和流程,通过对实时记录的电晕放电紫外视频图像处理,定义成像仪观测范围内"放电区域紫外成像面积百分比"作为量化电晕放电强度的表征参数。在近似标准大气条件下,研究了基于紫外图像处理的棒—板间隙工频电压作用下的电晕放电,结果表明,文中所述紫外数字图像处理流程可对紫外成像仪观测到的电晕放电图像真实还原,从而保证所选电晕放电量化表征参数的有效性;表征参数可明确反映起晕情况和电晕放电发展的阶段;得到电晕放电紫外成像随观测距离的衰减规律,提出电晕放电紫外成像检测法的应用判据。
A platform is designed that combines CoroCAM Ⅳ + with the virtual instrument programming environment Labview 8.0 for evaluating and analyzing the development of corona discharges. With an appropriate algorithm and flowchart for digital image processing, the area percentage of the UV image within the discharging region is defined as the characterizing parameter of quantifying the intensity of corona discharge by processing the UV video of corona discharge recorded in real time. Under the approximate standard atmospheric ambient, a study is made on corona discharge under the power frequency voltage of the rodplane gap based on the UV digital image processing. The results show that the flowchart of the digital image processing proposed can reproduce the images observed by the UV camera so as to guarantee the validity of the quantifying parameter of corona discharge; the characterizing parameter can distinctly reflect the corona discharge developing stages; the law of the UV imaging of corona discharge attenuating with the observation distance is obtained; the standard conversion method--the criterion for the UV imaging detection of corona discharge is proposed.
出处
《电力系统自动化》
EI
CSCD
北大核心
2008年第24期74-79,共6页
Automation of Electric Power Systems
基金
2006国家电网公司科技进步三等奖后续项目(鄂电2005-038后续项目)~~
关键词
紫外成像技术
数字图像处理
棒-板间隙
工频电压
电晕放电
UV imaging technology
digital image processing
rod plane gap
power frequency voltage
corona discharge
作者简介
马斌(1981-),男,通信作者,博士研究生,主要研究方向:高电压测试技术以及复合绝缘材料的电老化机理和试验。E-mail:bingo.maxer@gmail.com
周文俊(1959-),男,博士,教授,博士生导师,主要研究方向:高电压测试技术以及电力系统电磁兼容技术。E—mail:wjzhou@whu.edu.cn
汪涛(1964-),男,高级工程师,主要研究方向:高电压试验技术。E—mail:wangt@hbepc.com.cn
