Litcius/Paper detail

Technical Assessment of Hybrid HVDC Circuit Breaker Components under M-HVDC Faults

Saqib Khalid, Ali Raza, Umar Alqasemi, Nebras Sobahi, Muhammad Zain Yousaf, Ghulam Abbas, Mohsin Jamil

2021Energies25 citationsDOIOpen Access PDF

Abstract

One of the technical challenges that needs to be addressed for the future of the multi-terminal high voltage direct current (M-HVDC) grid is DC fault isolation. In this regard, HVDC circuit breakers (DCCBs), particularly hybrid circuit breakers (H-DCCBs), are paramount. The H-DCCB, proposed by the ABB, has the potential to ensure a reliable and safer grid operation, mainly due to its millisecond-level current interruption capability and lower on-state losses as compared to electromechanical and solid-state based DCCBs. This paper aims to study and evaluate the operational parameters, e.g., electrical, and thermal stresses on the IGBT valves and energy absorbed by the surge arrestors within H-DCCB during different DC fault scenarios. A comprehensive set of modeling requirements matching with operational conditions are developed. A meshed four-terminal HVDC test bench consisting of twelve H-DCCBs is designed in PSCAD/EMTDC to study the impacts of the M-HVDC grid on the operational parameters of H-DCCB. Thus, the system under study is tested for different current interruption scenarios under a (i) low impedance fault current and (ii) high impedance fault current. Both grid-level and self-level protection strategies are implemented for each type of DC fault.

Topics & Concepts

Circuit breakerHigh-voltage direct currentEngineeringFault (geology)GridElectrical engineeringReliability engineeringDirect currentVoltageGeometryMathematicsGeologySeismologyHVDC Systems and Fault ProtectionCardiac Structural Anomalies and RepairElectrical Fault Detection and Protection
Technical Assessment of Hybrid HVDC Circuit Breaker Components under M-HVDC Faults | Litcius