Abstract
Reclosers and fuses are the commonplace protective devices in distribution networks. A recloser can prevent long-time outages by clearing temporary faults before operation of the fuses in the system. Thus, it decreases the rate of long-term outages and improves system reliability and power quality. Despite positive features of reclosers, each operation of a recloser causes a momentary voltage interruption that exacerbates power quality. Nowadays, power quality issues have become more important because of the increasing use of sensitive equipment to voltage interruptions. According to the mentioned concerns, it seems necessary to set reclosers to strike a balance between power quality and the effectiveness of fuse saving scheme. Thus, we proposed a method to set reclosers. Due to the random nature of faults, the proposed method is stochastic based on the Monte Carlo method. The proposed method determines the optimal number of operations, reclosing intervals, and protection zones. The proposed method efficiency is evaluated according to the simulation results, and the proposed method is capable of establishing an optimal trade-off between power quality and protection efficiency.
Highlights
Nowadays, there is an increasing demand for high-quality and reliable electrical energy and protection systems play a significant role in the improvement of the system reliability [1], [2]
As permanent outages were the main concern of utility operators, protection systems were designed to decrease the system average interruption frequency index (SAIFI), system average interruption duration index (SAIDI), and the energy not supplied (ENS) [8]
In this paper, we studied the effects of reclosers and proposed an approach based on the Monte Carlo method to set reclosers in distribution networks
Summary
There is an increasing demand for high-quality and reliable electrical energy and protection systems play a significant role in the improvement of the system reliability [1], [2]. In order to achieve these goals, the fuse-saving scheme ( referred to as feeder selective relaying) was employed In this scheme, reclosers operate faster than the other overcurrent protection (OCP) devices to clear temporary faults [7], [8]. Rashid Niaz Azari et al.: Optimal Recloser Setting, Considering Reliability and Power Quality in Distribution Networks speed drivers are sensitive to momentary voltage interruptions [8]. It has been reported that momentary outages account for two-third (52.3 billion dollars per year) of the overall power interruption cost in the USA [11], [12] This indicates the main drawback of the fuse-saving scheme that decreases SAIFI at the expense of an increase in momentary average interruption frequency index (MAIFI).
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