Litcius/Paper detail

Design aspects of the hybrid HVDC system

Hong Rao, Yuebin Zhou, Changyue Zou, Shukai Xu, Yan Li, Yang Liu, Weihuang Huang

2020CSEE Journal of Power and Energy Systems52 citationsDOIOpen Access PDF

Abstract

Hybrid high voltage direct current transmission (Hybrid HVDC) is a new type of HVDC technology developed in recent years. It combines the characteristics of large-capacity and low cost of the line commutated converters (LCC) and non-commutation failure and dynamic reactive power support of the voltage sourced converters (VSCs) in one HVDC system. It has technical advantages in the fields of unidirectional power transmission and in the application of improving the stability of multi-infeed HVDCs, giving it broad application prospects. This paper defines the basic form of hybrid HVDC first and discusses the characteristics and challenges of different hybrid HVDCs. Then, it analyzes the matching characteristics between LCC and VSC in the station-station hybrid HVDC, studies the key technologies, such as VSC topologies and control strategies for clearing the DC overhead line faults, and introduces the key technologies for analyzing and suppressing the high-frequency resonances between VSC and the power grid. In this paper, using the Wudongde UHV multi-terminal HVDC as an example, the proposed key technologies are analyzed and verified.

Topics & Concepts

ConvertersOverhead (engineering)Voltage sourceElectronic engineeringEngineeringCommutationGridElectric power transmissionTransmission systemHigh-voltage direct currentTransmission lineOverhead lineNetwork topologyTransmission (telecommunications)Electrical engineeringKey (lock)Power transmissionComputer scienceElectric power systemPower (physics)VoltageDirect currentQuantum mechanicsComputer securityMathematicsOperating systemGeometryPhysicsHVDC Systems and Fault ProtectionHigh-Voltage Power Transmission Systems