Nonlinear Robust Control of HVDC System Based on ESO;

Analysis and Simulation of Effects of HVDC Transmission Lines on Telecommunication Lines;

Analysis of HVDC system connecting to three-phase unbalanced grid;

The three circuit UHVDC power transmission of the first phase Jinsha River project possesses following features: high DC transmission capacity,short distances among converter stations at sending end and close connection with UHVAC power grid.

The UHVDC power transmission possesses such advantages as high transmission capacity and long working distance,so its position can not be replaced in the electric energy flowing in the future.

±500 kV HVDC power transmission project from Gezhouba to Nanqiao is the first long-distance,large-capacity and high-voltage HVDC project whose control & protection system had been retrofitted solely by the domestic technical force.

The valve insulation type test of ±500 kV HVDC power transmission is the test of highest voltage grade now on the world.

The ±800 kV Fulong converter station,which is the sending station of Xiangjiaba-Shanghai UHV DC transmission project,adopts one and a half breaker connection on the 500 kV AC side mains with indoor GIS and 9 compartments in total.

The paper demonstrates the feasibility of ±800 kV,6 400 MW UHV DC transmission technology to be applied in Jinshajiang River hydraulic power outgoing project.

Study on the Communication Failure in HVDC Transmission Lines;

Redundant design of control and protection system for HVDC transmission

Whether the switching sequence of reactive power equipments is correct or not directly determines the stable operation of HVDC transmission systems.