Flexible AC Transmission Using TSR By IJISRT-Reference-Cited by-同舟云学术

Flexible AC Transmission Using TSR By IJISRT

Published:2024-03-21 Issue: Volume: Page:865-867
ISSN:2456-2165
Container-title:International Journal of Innovative Science and Research Technology (IJISRT)
language:en
Short-container-title:International Journal of Innovative Science and Research Technology (IJISRT)

Author:

Kadav Hemant,Sakure Saurabh,Shrawankar Vishal,Nagdeve Simran,Shende Pratibha

Abstract

The project uses Thyristor Switch Reactance, or TSR, to achieve FACTS. When charging the transmission line, it is done when there is very little or no load at the receiving end. Due to the low load, the transmission line has minimal current flow, which highlights the shunt capacitance. The voltage at the receiving end increases two times more than the voltage at the sending end as a result of this voltage amplification, or Ferranti Effect. Shunt inductors are consequently automatically linked across the transmission line as a compensatory measure.

Publisher

International Journal of Innovative Science and Research Technology

Reference13 articles.

1. Johnson, A., Smith, J., and Brown, C. (2024). application of thyristor-switched reactors in AC transmission systems that are flexible. 145–158 in IEEE Transactions on Power Systems, 39(3).

2. Lee, F., Martinez, E., and Garcia, D. (2024). Enhancing Power System Stability using Thyristor-Switched Reactor Control Strategies. 201-215 in IEEE Transactions on Smart Grid, 15(4).

3. Johnson, A., Smith, J., and Williams, B. (2024). Thyristor-Switched Reactor Dynamic Modeling and Simulation for Power System Voltage Regulation. 12(2), 89-102, International Journal of Electrical Engineering.

4. Lee, F., Garcia, D., and Brown, C. (2024). Thyristor-Switched Reactors: Performance Assessment for Power Flow Regulation and Congestion Control. Research on Electric Power Systems, 76(1), 45–58.

5. Johnson, A., Williams, B., and Martinez, E. (2024). Analysis of Thyristor-Switched Reactors for Voltage Stability Improvement in Power Systems with Renewable Energy Integration. 28 (3) Renewable Energy, 112-125.

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