Optimal Bus Layout in Transmission System by Using Meta-heuristic Approaches

Optimal Bus Layout in Transmission System by Using Meta-heuristic Approaches

Transmission system expansion leads to excessive short-circuit currents that exceed the capacity of circuit breakers. To avoid over short-circuit current; transmission system operators make various alterations in the transmission system by changing the topology of the system. The feeders can be dist...

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Bibliographic Details
Published in:Electric power components and systems Vol. 48; no. 12-13; pp. 1390 - 1400
Main Authors: Doğan, Erdi, Yörükeren, Nuran
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 08-08-2020
Taylor & Francis Ltd
Subjects:
binary particle swarm optimization
bus splitting
Circuit breakers
Circuits
congestion management
Contingency
Coupling circuits
Electric potential
Feeders
Flow equations
genetic algorithm
Genetic algorithms
Heuristic methods
Layouts
meta-heuristic optimization algorithms
multi-objective optimization
N-1 contingency analysis
network reconfiguration
network topology optimization
Particle swarm optimization
Power flow
Programming languages
Security
Short circuit currents
short-circuit current limitation
Substations
Topology
Transmission lines
Voltage
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Summary:Transmission system expansion leads to excessive short-circuit currents that exceed the capacity of circuit breakers. To avoid over short-circuit current; transmission system operators make various alterations in the transmission system by changing the topology of the system. The feeders can be distributed to different buses in substations through disconnecting coupling circuit breaker between buses. Having been interchanged, the transmission system may face up a lot of problems even in single outage. Therefore, the optimal positions of feeders in substations are important in order to maintain system security. However, this optimization problem has non-convex properties due to AC load flow equations and it has a multi-objective structure to provide the limitation of short-circuit current and security of N-1 contingency. The constraints are the short-circuit current, voltage and transmission line limits in the single contingency. In this paper, the Genetic Algorithm and Binary Particle Swarm Optimization methods were utilized to find a near-optimal bus layout. Algorithms coding was made with Python programming language and PSS/E program was used to obtain power flow and short-circuit data. The results of applying the methods to the IEEE 14-bus test system demonstrated the effectiveness of the methods to take overloads away and restrict short-circuit current and hold voltage in its limit.
ISSN:1532-5008
1532-5016
DOI:10.1080/15325008.2020.1854385