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Technical Seminar Presentation - 2004 THYRISTOR BASED FACTS CONTROLLER Under the guidance of Mr.Gayadhar Panda Presented By Anupam Pramanik Roll no-EE200118197 NATIONAL INSTITUTE OF SCIENCE & TECHNOLOGY Palur Hills,Berhampur-761008,Orissa,India Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 INTRODUCTION Rapid Growth in Electrical energy combined with demand for low cost energy Led to development of generation sites remotely Electrical transmission network Comprises of transmission network Operate at different transmission voltages Increasing requirement of power transmission Increases in transmission voltages Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 CONVENTIONAL CONTROL MECHANISM Most of controllability exists at generating station Automatic Generation Control Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Excitation Control Basic function to provide dc source for field excitation Control on excitation voltage Controls field excitation that controls generated voltage Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Transformer Tap Changer Control Many transformers equipped with tap changers Control carried manually or automatically Two types Off load tap Changer On load tap Changer Phase Shifting Transformer Combining transformer connected in series with line to voltage transformer equipped with tap changer Introduces phase shift in a line Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 FACTS The FACTS is a concept based on power-electronic controllers, which enhance the value of transmission networks by increasing the use of their capacity. Operate very fast Enlarge safe operating limit of a transmission system without risking stability Replacement of mercury-arc valves by thyristors yielded: Robust AC/DC converters Minimized conversion losses Yielded fast control on transmitted power Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Basic Types Of FACTS Controller Series controllers Shunt controllers Combined Series-Series Controllers Combined Series-Shunt Controllers Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Basic Types Of FACTS Devices Static VAR Compensators Thyristor controlled series compensators Static Synchronous Compensator Unified Power Flow Controller Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Advances in Power Electronics Switching Devices Thyristors offered controlled turn-on of currents Most applications were based on the natural commutation of currents In special cases forced commutation were used The present trend is to produce high-power electronic building blocks (HPEBBs) To configure high-power switches and converters, thus eliminating the customdesign at the device level Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Principles and Applications In high-power applications, semiconductor devices are used primarily as switches. Thus a thyristor switch offers current control in a reactor, rendering it a controlled reactor A thyristor switch is used only to turn on or turn off a capacitor, thereby implementing a switched capacitor Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Parallel combination of switched capacitors and controlled reactors provides a smooth current-control Shunt combinations of thyristor-controlled reactors (TCRs) and thyristor-switched capacitors (TSCs) yield static VAR compensators (SVCs). GTO devices makes forced commutation possible, and therefore PWM converters offer a more elegant solution An alternative to a thyristor-controlled SVC is a GTO-based VSC that uses charged capacitors as the input dc source and produces a 3phase ac voltage output in synchronism and in phase with the ac system. Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 A control on the output voltage of this converter—lower or higher than the connecting bus voltage—controls the reactive power drawn from or supplied to the connected bus. The functions of an SSSC and a STATCOM, in fact, may be combined to produce a unified power-flow controller (UPFC). UPFC offers a fast, controllable FACTS device for the flow of combined active–reactive power in a line. Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 CONCLUSION Energy congestion in critical transmission corridors must be avoided to eliminate the risk of missed business opportunities A power-transmission company must make the best use of its transmission capacity and ensure that transmission losses are reduced to their lowest values A transmission company must create the maximum safe operating limits to allow power injection and tapping from its buses without risking stable operation Several recent projects have been undertaken to make greater use of semiconductor devices for FACTS Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Presented By:- Anupam Pramanik(EE200118197) Technical Seminar Presentation - 2004 Presented By:- Anupam Pramanik(EE200118197)