Abstract
This paper proposes a novel adaptive optimization algorithm to solve the network reconfiguration and distributed generation (DG) placement problems with objective functions including power loss minimization and voltage stability index (VSI) improvement. The proposed technique called Adaptive Shuffled Frogs Leaping Algorithm (ASFLA) was performed for solving network reconfiguration and DG installation in IEEE 33- and 69-bus distribution systems with seven different scenarios. The performance of ASFLA was compared to that of other algorithms such as Fireworks Algorithm (FWA), Adaptive Cuckoo Search Algorithm (ACSA) and Shuffled Frogs Leaping Algorithm (SFLA). It was found that the power loss and VSI provided by ASFLA were better than those given by FWA, ACSA and SFLA in both 33- and 69-bus systems. The best solution of power loss reduction and VSI improvement of both 33- and 69-bus systems was achieved when the network reconfiguration with optimal sizing and the location DG were simultaneously implemented. From our analysis, it was indicated that the ASFLA could provide better solutions than other methods since the generating process, local and global searching of this algorithm were significantly improved from a conventional method. Hence, the ASFLA becomes another effective algorithm for solving network reconfiguration and DG placement problems in electrical distribution systems.
Highlights
In electrical distribution systems, the system power loss and voltage stability are the most significant factors indicating the power quality delivered to the costumers
In order to demonstrate the performance of proposed Adaptive Shuffled Frogs Leaping Algorithm (ASFLA) for solving the network reconfiguration and distributed generation (DG) installation in the electrical distribution system, this algorithm was implemented in IEEE 33-bus and 69-bus distribution systems
The results achieved by proposed ASFLA were compared to those of other methods including Fireworks Algorithm (FWA), Adaptive Cuckoo Search Algorithm (ACSA) and Shuffled Frogs Leaping Algorithm (SFLA) which are efficient algorithms for solving similar problems
Summary
The system power loss and voltage stability are the most significant factors indicating the power quality delivered to the costumers. Several implementations have been proposed for power loss reduction and voltage stability enhancement e.g., network reconfiguration, DG installation, capacitor placement, installation of energy storage. The network reconfiguration and DG installation are the most efficient procedures to reduce the power loss and handle the unstable voltage profile, which can improve the overall performance of the distribution system [6]. It was shown that performing a combination of network reconfiguration and DG placement could efficiently provide remarkable power loss reduction, voltage stability index (VSI). Algorithm (ASFLA) for solving the distribution network reconfiguration combined with the DG placement problem This proposed algorithm performs an adaptive technique applied to SFLA in order to improve the generating and searching process of SFLA. Problem Formulation and Implementation of ASFLA in Electrical Distribution System
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