论文信息 - Continuation power flow considering area net interchange constraint

Continuation power flow considering area net interchange constraint

Abstract Interconnected power systems not only allow to the areas to provide mutual assistance, but also import or export energy with respect to optimize energy resources assessment where, a cost reduction involved in the generation of power required to meet its demand. To determine the required control actions, in the planning and operation stages, it is important to verify the loading margins for both the normal operation and the different conditions of contingencies that may eventually occur. In this paper a continuation power flow that allows obtaining the loading margin and maximum active power transfer considering the area interchange control is proposed. From the results of the IEEE systems (9 and 118 buses), a difference of up to twelve percent in the active power transfer capacity is verified compared to the cases without area interchange control. The method also highlights the effects of the loop flow which occur as a consequence of the existence of parallel paths in the interconnected network.

[1] J.L.R. Pereira,et al. A new approach for area interchange control modeling , 2004, IEEE Transactions on Power Systems.

[2] B. Chakrabarti,et al. Impacts of Loop Flow on Electricity Market Design , 2006, 2006 International Conference on Power System Technology.

[3] B. M. Pasternack,et al. OPERATING PROBLEMS WITH PARALLEL FLOWS , 1991 .

[4] B. Jeyasurya,et al. Contingency ranking for on-line voltage stability assessment , 2000 .

[5] Parimal Acharjee. Identification of maximum loadability limit and weak buses using security constraint genetic algorithm , 2012 .

[6] Venkataramana Ajjarapu,et al. Voltage stability-limited interchange flow , 1996 .

[7] Dilson Amancio Alves,et al. Improved geometric parameterisation techniques for continuation power flow , 2010 .

[8] H. A. Shayanfar,et al. Steady state voltage stability with AVR voltage constraints , 2012 .

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

[10] Sakti Prasad Ghoshal,et al. Determination of maximum load margin using fuzzy logic , 2013 .

[11] Carlos A. Castro,et al. An efficient geometric parameterization technique for the continuation power flow , 2007 .

[12] Xiaoyu Yang,et al. Asymptotic numerical method for continuation power flow , 2012 .

[13] Luis Rouco,et al. Formulation, computation and improvement of steady state security margins in power systems. Part I: Theoretical framework , 2011 .