The Optimization of the Location and Capacity of Reactive Power Generation Units, Using a Hybrid Genetic Algorithm Incorporated by the Bus Impedance Power-Flow Calculation Method

Dynamic and static reactive power resources have become an important means of maintaining the stability and reliability of power system networks. For example, if reactive power is not appropriately compensated for in transmission and distribution systems, the receiving end voltage may fall dramatica...

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Published inApplied sciences Vol. 10; no. 3; p. 1034
Main Author Kim, Insu
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.02.2020
Subjects
Algorithms
bus impedance power-flow calculation
Buses
Case studies
Electric potential
Generators
genetic algorithm
Genetic algorithms
Impedance
Impedance matrix
Integer programming
Load distribution
Methods
Mutation
Network reliability
Optimization
Optimization algorithms
Power flow
Reactive power
reactive power generation optimization
Test systems
Voltage
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Abstract Dynamic and static reactive power resources have become an important means of maintaining the stability and reliability of power system networks. For example, if reactive power is not appropriately compensated for in transmission and distribution systems, the receiving end voltage may fall dramatically, or the load voltage may increase to a level that trips protection devices. However, none of the previous optimal power-flow studies for reactive power generation (RPG) units have optimized the location and capacity of RPG units by the bus impedance matrix power-flow calculation method. Thus, this study proposes a genetic algorithm that optimizes the location and capacity of RPG units, which is implemented by MATLAB. In addition, this study enhances the algorithm by incorporating bus impedance power-flow calculation method into the algorithm. The proposed hybrid algorithm is shown to be valid when applied to well-known IEEE test systems.
AbstractList Dynamic and static reactive power resources have become an important means of maintaining the stability and reliability of power system networks. For example, if reactive power is not appropriately compensated for in transmission and distribution systems, the receiving end voltage may fall dramatically, or the load voltage may increase to a level that trips protection devices. However, none of the previous optimal power-flow studies for reactive power generation (RPG) units have optimized the location and capacity of RPG units by the bus impedance matrix power-flow calculation method. Thus, this study proposes a genetic algorithm that optimizes the location and capacity of RPG units, which is implemented by MATLAB. In addition, this study enhances the algorithm by incorporating bus impedance power-flow calculation method into the algorithm. The proposed hybrid algorithm is shown to be valid when applied to well-known IEEE test systems.
Author Kim, Insu
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Snippet Dynamic and static reactive power resources have become an important means of maintaining the stability and reliability of power system networks. For example,...
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StartPage 1034
SubjectTerms Algorithms
bus impedance power-flow calculation
Buses
Case studies
Electric potential
Generators
genetic algorithm
Genetic algorithms
Impedance
Impedance matrix
Integer programming
Load distribution
Methods
Mutation
Network reliability
Optimization
Optimization algorithms
Power flow
Reactive power
reactive power generation optimization
Test systems
Voltage
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Title The Optimization of the Location and Capacity of Reactive Power Generation Units, Using a Hybrid Genetic Algorithm Incorporated by the Bus Impedance Power-Flow Calculation Method
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https://doaj.org/article/51b461f8ba004020b352a6f5dd325e80
Volume 10
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