Real time grid congestion management in presence of high penetration of wind energy

With the increased use of wind energy the power generation several Transmission System Operators (TSO) have increasing difficulties for congestion forecasting due to the unpredictable nature of the energy source. This paper proposes to enhance the congestion management using a real time supervisor. This supervisor is developed to perform automatic and dynamic re-dispatching using both wind and conventional generators. In order to reduce the production constraints to the minimum, the real time congestion management is based on an indicator of the efficiency of a re-dispatching on the power flowing in the overloaded line. This approach leads to reduced re-dispatching costs and increased network reliability. The simulation of the supervisor and the test grid is realized using by the EUROSTAG [1]. It is shown that the real-time supervisor allows maximization of renewable production during congestions while ensuring network reliability.

[1]  J. Deuse,et al.  Optimal network congestion management using wind farms , 2009, 2009 CIGRE/IEEE PES Joint Symposium Integration of Wide-Scale Renewable Resources Into the Power Delivery System.

[2]  S. Arnalte,et al.  Automatic Generation Control of a Wind Farm with Variable Speed Wind Turbines , 2002, IEEE Power Engineering Review.

[3]  M. Stubbe,et al.  STAG-A New Unified Software Program for the Study of the Dynamic Behaviour of Electrical Power Systems , 1989, IEEE Power Engineering Review.

[4]  Srinivas Devadas,et al.  On the verification of sequential machines at differing levels of abstraction , 1988, IEEE Trans. Comput. Aided Des. Integr. Circuits Syst..

[5]  J. Hazra,et al.  Congestion management using multiobjective particle swarm optimization , 2007, 2008 IEEE Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century.

[6]  H. H. Happ,et al.  Power System Control and Stability , 1979, IEEE Transactions on Systems, Man, and Cybernetics.

[7]  A. Fradi,et al.  Calculation of Energy Transaction Allocation Factors , 2001 .

[8]  H. Happ Power system control and stability , 1979, Proceedings of the IEEE.

[9]  A. Papalexopoulos,et al.  Transmission congestion management in competitive electricity markets , 1998 .

[10]  G.J. Berg,et al.  Economic Shift in Electric Power Generation with Line Flow Constraints , 1978, IEEE Transactions on Power Apparatus and Systems.

[11]  Edward F. Moore,et al.  Gedanken-Experiments on Sequential Machines , 1956 .

[12]  A. Vojdani,et al.  Transmission dispatch and congestion management in the emerging energy market structures , 1998 .

[13]  Benoit Robyns,et al.  Experiment of a Wind Generator Participation to Frequency Control , 2008 .

[14]  Janusz Bialek,et al.  Approximate model of European interconnected system as a benchmark system to study effects of cross-border trades , 2005 .

[15]  A. David,et al.  Optimal dispatch under transmission contracts , 1999 .