Microgrid reactive power management during and subsequent to islanding process

In a microgrid (MG) with high penetration of single phase induction motors (SPIMs), the voltage recovery process after a fault-induced islanding can be very slow. The reason lies in the stall of SPIMs caused by low voltage. During stalling, a SPIM can withdraw as high as three times of its rated power. This phenomenon can cause many problems including the loss of critical load due to the action of protection devices. This paper explores the role of reactive power support during MG islanding and proposes a novel approach to managing the reactive power generation of electronic-interfaced distributed generators (EIDGs). The concept of sensitivity factors is used in the proposed algorithm for regulating voltages at weak load buses. The optimal sharing of reactive power among EIDGs is formulated as a linear programming problem, which can be solved in a very fast manner for real-time control purpose. The proposed method is validated on a MG test-bed evolved from the IEEE standard 13-bus test feeder.

[1]  Michael Chertkov,et al.  Options for Control of Reactive Power by Distributed Photovoltaic Generators , 2010, Proceedings of the IEEE.

[2]  J. L. Kirtley,et al.  Microgrid Stability Characterization Subsequent to Fault-Triggered Islanding Incidents , 2012, IEEE Transactions on Power Delivery.

[3]  T. K. Saha,et al.  Investigation of Voltage Stability for Residential Customers Due to High Photovoltaic Penetrations , 2012, IEEE Transactions on Power Systems.

[4]  Charles Sao,et al.  Control and Power Management of Converter Fed Microgrids , 2008 .

[5]  Qiang Fu,et al.  Microgrid Generation Capacity Design With Renewables and Energy Storage Addressing Power Quality and Surety , 2012, IEEE Transactions on Smart Grid.

[6]  Caisheng Wang,et al.  Power Management of a Stand-Alone Wind/Photovoltaic/Fuel Cell Energy System , 2008, IEEE Transactions on Energy Conversion.

[7]  P.W. Lehn,et al.  Micro-grid autonomous operation during and subsequent to islanding process , 2005, IEEE Transactions on Power Delivery.

[8]  J.A.P. Lopes,et al.  Defining control strategies for MicroGrids islanded operation , 2006, IEEE Transactions on Power Systems.

[9]  P.W. Lehn,et al.  Control and Power Management of Converter Fed Microgrids , 2008, IEEE Transactions on Power Systems.

[10]  Caisheng Wang,et al.  A hybrid electric/hydro storage solution for standalone photovoltaic applications in remote areas , 2012, 2012 IEEE Power and Energy Society General Meeting.

[11]  R. Aghatehrani,et al.  Reactive Power Management of a DFIG Wind System in Microgrids Based on Voltage Sensitivity Analysis , 2011, IEEE Transactions on Sustainable Energy.

[12]  Massimo Ceraolo,et al.  Control techniques of Dispersed Generators to improve the continuity of electricity supply , 2002, 2002 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.02CH37309).