Rajiv K. Varma scite author profile

Renewable energy resources (RES) are being increasingly connected in distribution systems utilizing power electronic converters. This paper presents a novel control strategy for achieving maximum benefits from these grid-interfacing inverters when installed in 3-phase 4-wire distribution systems. The inverter is controlled to perform as a multi-function device by incorporating active power filter functionality. The inverter can thus be utilized as: 1) power converter to inject power generated from RES to the grid, and 2) shunt APF to compensate current unbalance, load current harmonics, load reactive power demand and load neutral current. All of these functions may be accomplished either individually or simultaneously. With such a control, the combination of grid-interfacing inverter and the 3-phase 4-wire linear/non-linear unbalanced load at point of common coupling appears as balanced linear load to the grid. This new control concept is demonstrated with extensive MATLAB/Simulink simulation studies and validated through digital signal processor-based laboratory experimental results.Index Terms-Active power filter (APF), distributed generation (DG), distribution system, grid interconnection, power quality (PQ), renewable energy.

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Mitigation of Subsynchronous Resonance in a Series-Compensated Wind Farm Using FACTS Controllers

Varma

Auddy

Semsedini

2008

IEEE Trans. Power Delivery

268

116

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Performance of Distance Relays on Shunt—FACTS Compensated Transmission Lines

Sidhu

Varma

Gangadharan

et al. 2005

IEEE Trans. Power Delivery

126

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This paper presents a study of the performance of distance protection relays when applied to protect shunt Flexible AC Transmission System (FACTS) compensated transmission lines. The objective of this study is to evaluate the performance of distance relays on transmission lines with FACTS devices applied for mid point voltage control. Effect of two types of shunt FACTS devices, Static Var Compensators (SVC) and Static Synchronous Compensators (STATCOM) are studied. The study is conducted in three stages. First the situation is studied analytically, where the errors introduced in the impedance measurement due to the presence of shunt FACTS devices on the line are analyzed. In the second stage, the situation is simulated using transient simulation software, EMTDC. In this method, the response of FACTS devices for different fault conditions and system conditions is also modeled. This method brings out some unique problems that would be experienced by the distance relays due to some specific characteristics of the FACTS devices. Finally, the findings are confirmed by testing a commercial distance relay using a Real Time Digital Simulator (RTDS). The results obtained by testing the commercial relay validate the analytical and simulation studies.Index Terms-Distance protection relay, flexible ac transmission system (FACTS), power system protection, real-time digital simulator (RTDS), shunt compensation, static synchronous compensators (STATCOM), static var compensators (SVC).

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Rajiv K. Varma

Thyristor-Based FACTS Controllers for Electrical Transmission Systems

Electrostatic oscillations in the presence of grain-charge perturbations in dusty plasmas

Grid Interconnection of Renewable Energy Sources at the Distribution Level With Power-Quality Improvement Features

Mitigation of Subsynchronous Resonance in a Series-Compensated Wind Farm Using FACTS Controllers

Performance of Distance Relays on Shunt—FACTS Compensated Transmission Lines

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