通过测量污染物的pH值和电导率来检测架空绝缘子污染水平的关键研究

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Umer Ijaz, Muhammad Fraz Anwar, Muhammad Nadeem, Muhammad Farhan, Kashif Nisar Paracha, Muhammad Saad Sharif
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引用次数: 0

摘要

电力的流动需要架空绝缘体在带电导体和支撑结构之间保持安全距离。这些绝缘子安装在室外,因此受到各种不利的环境条件,如空气中的灰尘和其他污染物。在潮湿的条件下,这些污染因素会引起闪络,导致以热和光的形式损失能量。因此,根据地理条件确定各种类型的污染物并分析其对这些绝缘子绝缘能力的影响是至关重要的。本研究工作分析了安装在不同地理位置的绝缘子上某些污染物的积累情况。对检测绝缘体污染程度的实验方法及其局限性也进行了研究。此外,还介绍了在工业、沿海、沙漠、内陆、农业和生物领域进行污染测试的结果。观察了不同pH值和电导率下瓷盘绝缘子的闪络电压(FOV)与污染物的pH值和电导率值之间的关系。污染物的pH值和电导率是影响绝缘子闪络电压的关键因素,而绝缘子闪络电压受周围大气条件的影响。了解这些成分和监测这些参数可以帮助制定基于特定pH值的预防性维护计划,确保架空绝缘子的可靠性和性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A critical study on detection of pollution level of overhead insulators by measuring pH and conductivity of the contaminants
The flow of electric power requires overhead insulators to maintain a safe distance between charged conductors and supporting structures. These insulators are installed in outdoor locations and are hence subjected to a variety of adverse environmental conditions, such as airborne dust and other contaminants. In moist conditions, these pollution factors can cause flashover, resulting in the loss of energy in the form of heat and light. Therefore, it is crucial to determine various types of contaminants based on geographical conditions and analyze their effects on the insulation capabilities of these insulators. This research work analyzes the accumulation of certain contaminants on the insulators installed at various geographical locations. Experimental approaches for detecting the level of contamination of insulators have also been examined, along with their limitations. Moreover, the findings of pollution tests performed in industrial, coastal, desert, inland, agricultural, and biological areas are presented as well. The flash-over voltage (FOV) of disc insulators made of porcelain for various pH and conductivity values has been observed to correlate FOV with pH and conductivity values of the pollutants. The pH and conductivity of contaminants are crucial factors impacting the insulator's flashover voltage, which is influenced by surrounding atmospheric conditions. Understanding the composition and monitoring these parameters can aid in developing preventive maintenance programs based on specified pH values, ensuring the reliability and performance of overhead insulators.
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