A Coordinated Volt/Var Control Strategy for Wind Farm Group

Jian Sun; Qiang Wang; Yang Yang

doi:10.4028/www.scientific.net/AMM.701-702.641

Paper Titles

Damage Identification Method Based on LMD Sample Entropy and SVM for Oil Derrick
p.620

The Design of a Robust Weighted Measurement Fusion Steady-State Kalman Filter
p.624

Applications of BIM&RFID Technology in Electromechanical Equipment Management and Maintenance
p.630

3-Dimensional Numerical Simulation of Tesla Disc Turbines for Industrial Dust Blower
p.637

A Coordinated Volt/Var Control Strategy for Wind Farm Group
p.641

A Parameter-Dependent Approach to Robust H_∞ Control of Norm Bounded Uncertain Systems
p.645

Configuration Design and Simulation of Exoskeleton for Upper Limb Rehabilitation Train
p.654

Design and Analysis of Steering Mechanism for Small Tracked Vehicle
p.659

Design of Air Conditioning Unit Performance Test Bench for Rail Vehicles
p.666

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 701-702A Coordinated Volt/Var Control Strategy for Wind...

A Coordinated Volt/Var Control Strategy for Wind Farm Group

Abstract:

A coordinated Volt / Var control strategy for wind farm group is proposed. The area voltage control center monitors the pilot bus in the central substation where many wind farms are connected to, and coordinates all kinds of reactive power resources in different wind farms to regulate the voltage profile of all wind farms. The genetic algorithm is used to solve such a multi-objective optimization model. The simulation results of a typical wind power system show that the coordinated control strategy has better performance than the current individual one in respects of security and economy of the grid.