Optimal Placement of SVC for Static and Dynamic Voltage Security Enhancement
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M. K. Verma
This paper presents a sensitivity based approach to determine optimal location of Static VAR Compensator (SVC) for voltage security enhancement. The proposed approach of SVC placement computes sensitivity of system loading factor with respect to reactive power generation, derived from reactive power balance equation. This sensitivity factor has been termed as Bus Static Participation Factor (BSPF). The sensitivity of the most critical eigen value with respect to bus voltage magnitude has been considered as Bus Dynamic Participation Factor (BDPF). BSPF and BDPF have been combined to obtain Bus Hybrid Participation Factor (BHPF), which have been computed for the system intact case and critical contingency cases and used for selecting the optimal site for the SVC installation. The effectiveness of the proposed approach of SVC placement has been validated on a practical 75-bus Indian system with respect to enhancement of the static as well as dynamic voltage stability margins.
©2011 Walter de Gruyter GmbH & Co. KG, Berlin/Boston
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Artikel in diesem Heft
- Article
- An Optimum UPQC with Minimum VA Requirement and Mitigation of Unbalanced Voltage Sag
- Travelling Wave-Based Fault Location Scheme for Aged Underground Cable Combined with Overhead Line
- Time-Overcurrent Relay Coordination: A Review
- A LQG Based Load Frequency Controller in a Competitive Electricity Environment
- Duration Curve Approach for Managing Uncertainty of Renewable Generation While Dispatching a Mixed Generation Portfolio
- Optimal Placement of SVC for Static and Dynamic Voltage Security Enhancement
- Detecting High Impedance Faults Utilizing Combined Phase Voltages with Neutral Line Current
