%0 Electronic Article
%A Yi Lin
%A Meng Li
%A Zhi-Nan Qi
%A Liu-Qing Qiu
%A Yong-Hua Zhang
%K correction control approach
%K VSC-based high-voltage direct current technology
%K optimisation model
%K reactive power sub-model
%K AC/DC hybrid system
%K active power sub-model
%K power network
%K VSC-HVDC technology
%K AC/DC hybrid network
%K corrective control model
%K voltage-source converter-based HVDC technology
%K AC/DC hybrid grids
%K power grid
%K PQ decoupling property
%X With the maturity and wide application of the voltage-source converter-based high-voltage direct current (VSC-HVDC) technology in the power grid, the fast-response characteristic of VSC helps to improve the speed of corrective control for the AC/DC hybrid system. This paper presents a corrective control model for AC/DC hybrid grids based on VSC-HVDC. The model is expressed as a typical optimisation model with both the features of the equipment and security constraints of a power network. The corrective control model is dived into an active power sub-model and a reactive power sub-model in order to improve the calculation speed. Case studies of a modified IEEE testing system have been carried out. The results demonstrate the effectiveness of the approach.
%T Novel correction control approach for an AC/DC hybrid network considering the PQ decoupling property
%B The Journal of Engineering
%D March 2019
%V 2019
%N 16
%P 924-928
%I Institution of Engineering and Technology
%U https://digital-library.theiet.org/;jsessionid=q6xkalja09fw.x-iet-live-01content/journals/10.1049/joe.2018.8602
%G EN