基于GCC-MSSA的变压器局放超声内部定位方法
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华北电力大学新能源电力系统国家重点实验室 北京 102206

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TM855

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国家自然科学基金(51577063)项目资助


Transformer partial discharge ultrasound internal positioning method based on GCC-MSSA
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State Key Laboratory of New Energy Power System, North China Electric Power University,Beijing 102206, China

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    摘要:

    变压器绕组因绝缘故障引发的局部放电危害着电力系统的安全运行,而目前针对局部放电的超声波外置检测方法受噪声干扰、传播介质等因素影响较大,故本文在变压器绕组中内置8个传感器内部检测局放产生的超声波信号。由于检测到的信号直接测量法不能反应实际的时延信息,以及传统智能算法定位精度低稳定性差,本文提出了一种广义互相关法(GCC)和混合策略麻雀算法(MSSA)相结合的超声定位方法。在COMSOL中搭建变压器绕组模型并仿真局放现象,通过GCC算法提取出精确的时延信息。根据时差信息建立超声定位的最优化约束方程,用MSSA算法求解得到局放源的位置信息。仿真结果显示,MSSA算法相较于其他传统智能算法定位误差更小。最后使用一种新型EFPI超声传感器进行变压器绕组局放实验,结果显示本文提出的方法定位平均误差为4 cm,比仿真的局放点大2.9 cm,具有工程应用实际价值。

    Abstract:

    The partial discharge caused by the insulation fault of the transformer winding endangers the safe operation of the power system. At present, the ultrasonic external detection method for partial discharge is greatly affected by factors such as noise interference and propagation medium. Therefore, in this paper, eight sensors are built in the transformer winding. Internal detection of ultrasonic signals generated by partial discharge. Because the direct measurement method of the detected signal cannot reflect the actual time delay information, and the traditional intelligent algorithm has low positioning accuracy and poor stability, this paper proposes an ultrasonic method that combines the generalized crosscorrelation method (GCC) and the mixed strategy sparrow algorithm (MSSA). The transformer winding model is built in COMSOL and the partial discharge phenomenon is simulated, and the accurate time delay information is extracted by the GCC algorithm. According to the time difference information, the optimal constraint equation of ultrasonic positioning is established, and the MSSA algorithm is used to obtain the position information of the PD source. The simulation results show that the MSSA algorithm has a smaller positioning error than other traditional intelligent algorithms. Finally, a new type of EFPI ultrasonic sensor is used to conduct partial discharge experiments on transformer windings. The results show that the average positioning error of the method proposed in this paper is 4 cm, which is 2.9 cm larger than the simulated partial discharge point,which has practical value for engineering application.

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钱定冬,宋柯,谢虎波,任文军,王伟.基于GCC-MSSA的变压器局放超声内部定位方法[J].电子测量技术,2023,46(3):134-141

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  • 在线发布日期: 2024-02-26
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