D. V. João, Hamilton G. B. Souza, M. A. Martins, K. Martins
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引用次数: 0
摘要
当故障击穿了线路电缆并保持在极点或接触到高阻抗表面时,就会造成导线断裂。这种情况给传统的保护系统带来了问题,传统的保护系统只对过流措施作出反应。在某些情况下,临时故障和永久故障的识别可能需要很长时间,直到最终保护跳闸。提出了一种基于死区重合闸自适应的加速保护方法,以提高电力系统的保护性能。该方法的目标是在经过确定次数的试验后,根据保护区调整死区重合闸。结果,本文带来了实际的实施案例,考虑到一个变电站的十个馈线,其中提出的方法进行了现场分析。这项工作的成果是由ENEL distribui o s o Paulo主持的一个名为“城市未来”的研发项目的结果。
Accelerated Protection Methodology for Broken Conductor Protection - An Implementation Case
Broken Conductor is caused when a fault breaks up the line cable and remains hanging at the pole or touches in a high impedance surface. This situation brings problems for traditional protection systems that acts in response only to an overcurrent measures. In certain situation, the temporary and permanent fault distinguishing can take long time until the final protection trip. This paper presents an Accelerated Protection based on dead-time recloser adaptation to improve the power system protection. The goal of this methodology is to adapt the dead-time reclosing, according to the protection zone, after a determined number of trials. As results, the paper brings real cases of implementation, considering ten feeders of a electrical substation, where the proposed methodology is analyzed on-field. The outcome of the work is the result of a R&D project hosted by ENEL Distribuição São Paulo called Urban Futurability.
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