Raise Voltage Stability Limit of a Power System using Reactive Power Compensation Technique
V.Sundaravazhuthi1, A.Alli Rani2, M.Manoj Kumar3
1V. Sundaravazhuthi, Assistant Professor, Department of EEE, SASTRA University, Srinivasa Ramanujan Centre, Kumbakonam, Tamil Nadu, India.
2Dr. A. Alli Rani, Professor/Associate Dean, SASTRA University, Srinivasa Ramanujan Centre, Kumbakonam, Tamil Nadu, India.
3M. Manoj Kumar, Assistant Professor, Department of EEE, SASTRA University, Srinivasa Ramanujan Centre, Kumbakonam, Tamil Nadu, India.
Manuscript received on September 16, 2019. | Revised Manuscript received on 24 September, 2019. | Manuscript published on October 10, 2019. | PP: 2931-2934 | Volume-8 Issue-12, October 2019. | Retrieval Number: K18900981119/2019©BEIESP | DOI: 10.35940/ijitee.K1890.1081219
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Abstract: In recent years, voltage stability problems have been increasing since power systems operate close to stability limits. The voltage stability problem of a power system is associated with a rapid voltage drop due to heavy system load and it occurs because of inadequate reactive power support at some critical bus. One of the serious consequences of the voltage stability is a system blackout, and this has received more attention in recent years. Accurate determination of stability limit and amount of reactive power injection to stabilize is important.This paper proposes to determine voltage stability margin of a critical bus and also provide amount of reactive power injection to the bus particularly during overload, a simple two bus equivalent model of the power system is used to determine the maximum apparent power for different power factors. Any required apparent power can directly obtained by correcting the reactive power at critical bus. Experimental results support our theoretical findings.
Keywords: Critical Voltage, Reactive Power, Voltage Stability, Harmonics.
Scope of the Article: Bio-Science and Bio-Technology