两种天气条件下单个故障通道指示器放置对径向配电系统可靠性的影响

G. Kirankumar, V. Rekha, Dr. E. Vidya Sagar
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引用次数: 0

摘要

架空电网中的组件持续暴露在各种天气条件下的物理环境中。如果电网周围的天气在一段时间内是正常和一致的,那么天气可以被建模为正常或单一天气(SW)。然而,在实际应用中,架空电网总是受到各种天气条件的影响,如正常天气和恶劣天气,因此将天气建模为双天气(TW)模型。恶劣天气(AW)会对组件造成严重的物理损坏,导致更高的平均故障率和更长的恢复时间。在不考虑天气条件的情况下,对架空配电系统的可靠性评估可能会过于乐观,从而影响规划设计决策。对两种天气条件下系统可靠性的调查提供了在恶劣天气条件下发生的故障百分比对每位客户每年平均中断时间和每位客户每年未供应的能源量的影响。本文考虑了单一天气和两种天气条件,对径向配电系统的可靠性进行了评价。在此基础上,进一步分析了断层通道指示物的放置对断层动态响应的影响。故障通道指示器(FPI)是一种向操作员指示并传达故障位置的设备,从而减少故障识别时间,并通过减少停机时间来提高系统可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of a Single Fault Passage Indicator Placement on Radial Distribution System Reliability under Two Weather Conditions
The components in the overhead electrical network are continuously exposed to the physical environment of varying weather conditions. If the weather around an electrical network is normal and consistent throughout a certain period of time, then the weather can be modelled as normal or single weather (SW). However, in practice, the overhead electrical network is always subjected to varying weather conditions such as normal weather and adverse weather then the weather is modelled as two weather (TW) model. Adverse weather (AW) can cause significant physical damage to the components, resulting in higher average failure rates and longer durations for power restoration. Without considering the weather conditions, the reliability assessment of the overhead electric power distribution system can be over-optimistic, and influence the planning and design decisions. The investigation of system reliability under two weather conditions provides the effect of percentage failures that occurs in severe weather conditions on average interruption duration per customer per year and the amount of energy not supplied per customer per year. This paper evaluates the reliability of a radial distribution system (RDS) considering single weather and two weather conditions. Further, the effect of the fault passage indicator placement on RDS under SW and TW is also evaluated. A fault passage indicator (FPI) is a device that indicates and communicates the fault's location to the operator hence reducing the fault identification time and improving the system reliability by reducing the outage duration time.
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