Home Articles List Article Information
JES. Journal of Engineering Sciences
Journal Archive
Volume Volume 53 (2025)
Volume Volume 52 (2024)
Volume Volume 51 (2023)
Volume Volume 50 (2022)
Volume Volume 49 (2021)
Volume Volume 48 (2020)
Volume Volume 47 (2019)
Volume Volume 46 (2018)
Volume Volume 45 (2017)
Volume Volume 44 (2016)
Volume Volume 43 (2015)
Volume Volume 42 (2014)
Volume Volume 41 (2013)
Volume Volume 40 (2012)
Volume Volume 39 (2011)
Volume Volume 38 (2010)
Volume Volume 37 (2009)
Volume Volume 36 (2008)
Volume Volume 35 (2007)
Volume Volume 34 (2006)
Noman, M., Al-Ghamdi, S. (2013). CURRENT CONTROLLED VSC FOR REACTANCE MODULATION AND VOLTAGE DROP COMPENSATION ON POWER TRANSMISSION LINES. JES. Journal of Engineering Sciences, 41(No 3), 1110-1126. doi: 10.21608/jesaun.2013.114784
M. A. Noman; S. A. Al-Ghamdi. "CURRENT CONTROLLED VSC FOR REACTANCE MODULATION AND VOLTAGE DROP COMPENSATION ON POWER TRANSMISSION LINES". JES. Journal of Engineering Sciences, 41, No 3, 2013, 1110-1126. doi: 10.21608/jesaun.2013.114784
Noman, M., Al-Ghamdi, S. (2013). 'CURRENT CONTROLLED VSC FOR REACTANCE MODULATION AND VOLTAGE DROP COMPENSATION ON POWER TRANSMISSION LINES', JES. Journal of Engineering Sciences, 41(No 3), pp. 1110-1126. doi: 10.21608/jesaun.2013.114784
Noman, M., Al-Ghamdi, S. CURRENT CONTROLLED VSC FOR REACTANCE MODULATION AND VOLTAGE DROP COMPENSATION ON POWER TRANSMISSION LINES. JES. Journal of Engineering Sciences, 2013; 41(No 3): 1110-1126. doi: 10.21608/jesaun.2013.114784

CURRENT CONTROLLED VSC FOR REACTANCE MODULATION AND VOLTAGE DROP COMPENSATION ON POWER TRANSMISSION LINES

Article 18, Volume 41, No 3, May and June 2013, Page 1110-1126  XML PDF (294.55 K)
Document Type: Research Paper
DOI: 10.21608/jesaun.2013.114784
View on SCiNiTO View on SCiNiTO
Authors
M. A. Noman email ; S. A. Al-Ghamdi
Electrical Engineering Department, Al Baha University, Saudi Arabia
Abstract
Reactance modulation of power transmission lines has great effects on load voltage control and on the stability of power transmission. Steady state voltage control can be easily achieved with conventional control devices such as switchable capacitors and reactors, while transient voltage control requires faster and more effective means of control [1]. In this paper, the transient voltage control is achieved by modulation of the net reactance of the transmission line using Voltage Drop Compensator (VDC) through hysteresis switching of a dc current from Voltage Source Converter (VSC) to charge/discharge a capacitor in series with the line. Modulation of the capacitor voltage by dc current from VSC improves the voltage control of the load, reduces the voltage drop on the transmission line, and improves the stability of the power transfer [2-4]. High frequency switching of the capacitor through charging/discharging process ensures faster response to transients in the input voltage and prevents it from appearing in the load. Fast response to variation in the input supply is done by comparing the load voltage to a sinusoidal reference voltage every time this voltage deviates from a fixed hysteresis window. Under this method of capacitor voltage control, no control is exerted on the dc current from VSC which can reach hundred amperes. In this paper a dc current controller is introduced to limit the dc current from VSC to a any value desired or to any other value necessary to keep the load voltage sinusoidal.
Keywords
Flexible AC Transmission Systems (FACTS); Power System Stability; Voltage Drop Compensation
Main Subjects
Electrical Engineering, Computer Engineering and Electrical power and machines engineering.
Statistics
Article View: 111
PDF Download: 314