Title :
On Self-Organized Criticality of the East China AC–DC Power System—The Role of DC Transmission
Author :
Jingzhe Tu ; Huanhai Xin ; Zhen Wang ; Deqiang Gan ; Zhilong Huang
Author_Institution :
Sch. of Electr. Eng., Zhejiang Univ., Hangzhou, China
Abstract :
In this paper, we aim to analyze the impact of dc transmission on self-organized criticality (SOC) of the East China power system (ECPS), which is a large-scale, ac-dc interconnected and classical receiving-end power system. To this end, a detailed ac-dc cascading failure analysis model is established to study the SOC of this system. In the proposed model, some important issues of dc transmission and several kinds of stochastic factors are considered. The corresponding algorithm realized on the platform of the PSS/E software is discussed as well. Simulation based on the 2010 East China ac-dc power system is performed and the following results are obtained: 1) the dc issues such as the operation modes and the control parameters have obvious effects on the SOC of the ac-dc system and 2) the risk of cascading failure and blackout can be decreased by deliberately choosing the dc operation modes and control parameters.
Keywords :
failure analysis; power engineering computing; power system interconnection; power transmission reliability; AC-DC classical receiving-end power system; AC-DC interconnected power system; DC transmission; ECPS; East China AC-DC power system; PSS-E software; SOC; detailed AC-DC cascading failure analysis model; self-organized criticality; stochastic factors; Analytical models; Load modeling; Mathematical model; Power system faults; Power system protection; Power system stability; System-on-chip; Blackout; East China power system (ECPS); cascading failure; self-organized criticality (SOC);
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2013.2251913
