Abstract
With the increasing penetration of distributed generations, preserving the protection system coordination is of great importance for the distribution network operation. This paper presents a supplementary protection strategy for the multi-agent system (MAS)-based hierarchical protection scheme (HPS). The primary level of MAS-based HPS clears the fault and preserves the protection coordination while the higher levels update the relay settings. The key advantage of the proposed supplementary scheme is that the primary level can autonomously and quickly preserve the protection coordination when the main relay is during the time-consuming process of updating settings in the case of network operating condition change. By adopting converter-based DGs as the only MAS agents, the proposed supplementary scheme divides the distribution network into several zones that communicate together using point-to-point communication. Without communicating with higher protection levels, the supplementary protection limits the influence of DGs on the fault current by controlling the produced power of each zone. The effectiveness of the proposed strategy is validated through several simulation case studies on the Isfahan distribution network.
Highlights
Enhancing the power quality and reliability, developing the efficient and clean energy, increasing the power production, and obviating the power transmit limitation lead to a paradigm change of power system structure from centralized generation to the distributed one [1]–[4]
This paper is motivated by the miscoordination of multi-agent system (MAS) based hierarchical protection scheme (HPS) due to time-consuming processes of collecting and analyzing the network information and of taking and transferring the proper decision
The proposed supplementary protection limits the influence of converter-based distributed generators (DGs) on the protection system coordination of distribution networks by managing their produced powers
Summary
Enhancing the power quality and reliability, developing the efficient and clean energy, increasing the power production, and obviating the power transmit limitation lead to a paradigm change of power system structure from centralized generation to the distributed one [1]–[4]. Preserving the protection system coordination as one of the main requirements of such networks may be disrupted due to the presence of DGs [7]–[9]. This disruption results in the protection devices either do not detect fault condition or wrongly trip the circuit breakers. The associate editor coordinating the review of this manuscript and approving it for publication was Yunfeng Wen. reasons for protection system miscoordination is the effect of DGs on the network fault current; the fault current can be so high that the backup protection wrongly trips or it may go out of the operating range of the main protection [10], [11]. The change of network current direction may disrupt the protection coordination
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