Hybrid Adaptive Balancing Capacitive Compensator for Three-Phase Four Wires Networks Harmonically Polluted

In ac distribution networks. the current limitation or mitigation of the transfer of disturbances produced by both sides of the Point of Common Coupling (PCC) between the electricity distribution system operator and the consumer's use facilities necessitates, more and more frequently, the insta...

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Bibliographic Details
Published in2019 International Conference on ENERGY and ENVIRONMENT (CIEM) pp. 444 - 448
Main Authors Pana, Adrian, Baloi, Alexandru, Molnar-Matei, Florin
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.10.2019
Subjects
Adaptive Balancing Capacitive Compensator
Distribution networks
Electrical Power Quality
Harmonic analysis
Load modeling
Mathematical model
Passive filters
Power harmonic filters
Reactive power
Reactive Power Compensator
Static VAR Compensator
Symmetrical Component Method
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Summary:In ac distribution networks. the current limitation or mitigation of the transfer of disturbances produced by both sides of the Point of Common Coupling (PCC) between the electricity distribution system operator and the consumer's use facilities necessitates, more and more frequently, the installation of equipment such as Custom Power Devices (CPD). For a multitude of applications aimed at power quality improvement at the PCC, especially in the case of high power and less severe requirements regarding the speed response or accuracy, the use of Static Var Compensators (SVCs) remains an efficient solution. The article proposes a hybrid compressor version composed by an Adaptive Balancing Capacitive Compensator (ABCC) and a Passive Filter (PF), as an advantageous solution for distribution networks containing unbalanced and distorting loads. A numerical application, developed on the ABCC mathematical model and validated by Matlab-Simulink modeling, confirms the correctness of the solution.
DOI:10.1109/CIEM46456.2019.8937629