Power system reconfiguration and loss minimization for a distribution systems using "Catfish PSO" algorithm

One of the very important ways to save electrical energy in the distribution system is network reconfiguration for loss reduction. Distribution networks are built as interconnected mesh networks; however, they are arranged to be radial in operation. The distribution feeder reconfiguration is to find...

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Bibliographic Details
Published in:Frontiers in Energy 2014-12, Vol.8 (4), p.434-442
Main Authors: Sathish KUMAR, K, NAVEEN, S
Format: Article
Language:English
Subjects:
Algorithms
Analysis
catfish particle swarm optimization (catfish PSO)
Combinatorial analysis
distribution system reconfiguration (DFR)
Electric power generation
Electricity distribution
Energy
Energy Systems
Feeders
Genetic algorithms
Mathematical programming
Minimization
Networks
Optimization
Optimization techniques
power loss reduction
PSO
radial structure
Reconfiguration
Research Article
Studies
Switches
Switching theory
Test systems
分配系统
功率损失
动力系统
最小化
网络配置
网络重构
进化算法
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Summary:One of the very important ways to save electrical energy in the distribution system is network reconfiguration for loss reduction. Distribution networks are built as interconnected mesh networks; however, they are arranged to be radial in operation. The distribution feeder reconfiguration is to find a radial operating structure that optimizes network performance while satisfying operating constraints. The change in network configuration is performed by opening sectionalizing (normally closed) and closing tie (normally opened) switches of the network. These switches are changed in such a way that the radial structure of networks is maintained, all of the loads are energized, power loss is reduced, power quality is enhanced, and system security is increased. Distribution feeder reconfiguration is a complex nonlinear combinatorial problem since the status of the switches is non-differentiable. This paper proposes a new evolutionary algorithm (EA) for solving the distribution feeder reconfiguration (DFR) problem for a 33-bus and a 16-bus sample network, which effectively ensures the loss minimization.
ISSN:2095-1701
2095-1698
DOI:10.1007/s11708-014-0313-y