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Hexagram converter for static VAR compensation
2008 IEEE/PES Transmission and Distribution Conference and Exposition, 2008A new multilevel converter - Hexagram converter is proposed for static VAR compensation in high-voltage high- power applications. The new converter is composed of six three- phase two-level standard voltage source converter (VSC) modules interconnected through inductors.
Jun Wen, Keyue Ma Smedley
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Laboratory realization of a Static VAr compensator
2013 International Conference-Workshop Compatibility And Power Electronics, 2013In a low voltage distribution network, wisely applied local reactive power generation can improve voltage profiles and reduce loses related with the energy transmission. This paper deals with the laboratory realization of a Static VAr compensator (STATCOM) suitable for adjustable local reactive power generation. In the case study, the basic design of a
Jernej Cernelic, Gorazd Stumberger
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Utility Application of Static Var Compensation
Proceedings of the 1987 IEEE Southern Tier Technical Conference, 1987., 2005The Marcy South Project, 200 miles of 345KV (kilovolts) transmission lines, is-being constructed to permit the cost-effective north-south transfer of low cost hydro-produced power from Canada, downstate to New York City by 1988. This project has involved new and interesting technology in its design and construction.
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Refurbishment of the static VAr compensator at Laurentides
2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491), 2004This paper provides a case study of the refurbishment of a 1978 SVC at Laurentides. A historical overview of the operating experience is provided with an evaluation of the state of the equipment prior to refurbishing. A full description of the justification to extend life at a minimum cost is given. Finally, a retrospective of the key technical aspects
H. Bilodeau, L.P. Rollin
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Nonlinear control for static VAR compensator
Proceedings of TENCON '93. IEEE Region 10 International Conference on Computers, Communications and Automation, 2002A nonlinear control design approach based on differential geometric control theory is presented briefly. It is taken the nonlinearity of a power system with static VAR compensator (SVC) into account by the mathematical model of the system for the SVC controller design.
null Qiang Lu +3 more
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A novel concept for static VAR compensators
2013 IEEE 8th International Conference on Industrial and Information Systems, 2013A new configuration to replace the Thyristor Controlled Reactor (TCR) of a Static VAR Compensator (SVC) by a DC link voltage controlled inductor is proposed in this paper. In this proposed technique, the reactor current contribution is regulated by controlling the peak current through the reactor which conducts for a complete cycle. This is in-contrast
R. M. R. Tharaka +5 more
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Static VAr compensation system for industries
Power Quality '98, 2002Industrial power supply networks today are polluted by various loads connected to them and their method of control. Consumers are required to meet the stringent requirements imposed by electric utility authorities at the supply network. Hence, it is very much essential for industrial plants to have a static VAr compensator (SVC) for both reactive volt ...
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IEEE Power Engineering Review, 1983
This bibliography was prepared for Working Group 79.2 on Static Var Compensators in AC Substations of the IEEE Substation Committee. This bibliography is the initial issue of published material on Static Var Compensators. Due to the interest expressed in Static Var Compensators for both DC and AC.
M. M. Gavrilovic +2 more
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This bibliography was prepared for Working Group 79.2 on Static Var Compensators in AC Substations of the IEEE Substation Committee. This bibliography is the initial issue of published material on Static Var Compensators. Due to the interest expressed in Static Var Compensators for both DC and AC.
M. M. Gavrilovic +2 more
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Harmonic failure in the filter of Static Var Compensator
Engineering Failure Analysis, 2020Abstract The Static Var Compensator (SVC) is an important transmission component for the stability of the power system, it has 3 main components: Thyristor- controlled reactor (TCR), Thyristor-switched capacitor (TSC) and filters. The filters are the weakness part in this power system.
Ricardo Manuel Arias Velásquez +1 more
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A three-level advanced static VAr compensator
IEEE Transactions on Power Delivery, 1996An advanced static VAr compensator (ASVC) employing a three-level inverter has been investigated for three-phase applications. The paper describes the operating principles of the ASVC using an elementary single phase ASVC circuit. The construction of a hardware model of the three-phase, three-level ASVC is then presented. The performance of the ASVC is
J.B. Ekanayake, M. Jenkins
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