Results 231 to 240 of about 523 (263)
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Static VAr compensation system for industries

Power Quality '98, 2002
Industrial 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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Bibliography of Static Var Compensators Working Group 79.2 on Static Var Compensators in A.C. Substations of the IEEE Substations Committee

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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Harmonic failure in the filter of Static Var Compensator

Engineering Failure Analysis, 2020
Abstract 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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Static VAR compensators and their applications in Australia

Power Engineering Journal, 1989
Because of their fast response and versatility, static VAR compensators (SVCs) have been used to solve a variety of problems on the Australian high-voltage power ...
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A three-level advanced static VAr compensator

IEEE Transactions on Power Delivery, 1996
An 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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Static and Dynamic Var Compensation in System Planning

IEEE Transactions on Power Apparatus and Systems, 1978
This paper presents a comprehensive method for planning reactive compensation in power systems so as to maintain voltages in acceptable ranges during contingencies. The methodology allows the addition of further VAR compensation as may be economically justified.
H. H. Happ, K. A. Wirgau
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Multi-step static VAr compensators analysis

IEEE Power Engineering Society Summer Meeting,, 2003
Since the concept of FACTS was introduced, a new family of power electronic equipment has emerged for controlling and optimizing the performance of power systems, e.g. STATCOM, SSSC and UPFC. The use of voltage-source inverter (VSI) has been widely accepted as the next generation of reactive power controllers to replace the conventional VAr ...
J.D. Ricardo M, J.M. Ramirez A, R. Tapia
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A model of solid state static VAr compensator

Power Quality '98, 2002
In this paper, the operating principle of an advanced static VAr compensator (ASVC) which is developed in this work is based on the technique of the exact equivalence with the conventional rotating synchronous compensator. The ASVC uses a voltage source inverter, transforming a DC component to AC through a capacitor which is used as a power storage ...
A. Draou   +3 more
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Power electronics in electric utilities: static VAR compensators

Proceedings of the IEEE, 1988
The author deals with dynamic VAR compensation of electric power systems, applying power electronics for reactive power generation and control. After an overview of the emergence and status of modern, solid-state VAR compensators in utility and industrial applications, it is shown how dynamic VAR compensation increased transmittable power by providing ...
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Static VAr compensators in the Malaysian grid

Conference Record of the Power Conversion Conference - Yokohama 1993, 2002
The National Power Corporation (TNB) have ordered and placed into operation three static VAr compensation systems (SVCs) at its Kuala Lumpur North (KLN) and Yong Peng (YP) substations. The project was commissioned in the middle of 1991, and over the last one and a half years, TNB have gained considerable experience in operation and maintenance of the ...
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