© 2018 IEEE. HVDC grids are currently considered to accommodate the integration of renewable energy sources into the power system. Since HVDC circuit breakers might at present incur a large investment cost, fault clearing strategies with limited use of HVDC circuit breakers have been recently proposed. These strategies, here called partially selective, split the grid into a number of protection zones which encompass sub-grids of multiple converters, transmission lines or a combination of both. Although the application of such strategies within the HVDC grid has been studied recently, discrimination of faults between zones is not yet widely investigated. This paper analyzes the application of a communication-less protection algorithm introdu...
© 2015 IEEE.Recently proposed meshed HVDC networks include both converters and DC circuit breakers, ...
High Voltage DC (HVDC) grids provide an efficient solution for the transmission of bulk power over l...
This paper reviews the state of the art of DC fault discrimination and detection methods of HVDC gri...
This work has received support from the European Horizon 2020 PROMOTioN project under grant agreemen...
This paper defines and classifies fault clearing strategies for HVDC grid protection, based on the m...
For the large-scale integration of renewable energy sources into the power system, transmission corr...
International audienceWhile more and more HVDC point-to-point connections are initiated worldwide, t...
Multiterminal High Voltage Direct Current (HVDC) systems are anticipated to enable flexible transmis...
This paper compares the DC breaker requirements for different DC breaker protection schemes for high...
A high-voltage direct-current (HVDC) grid protection strategy to suppress dc fault currents and prev...
DC grids are susceptible to DC side faults, which lead to a rapid rise of the DC side currents. DC s...
In a near future, multi-terminal High Voltage Direct Current grids (MT-HVDC grids) appear to be a su...
To protect the converters and minimize the power transmission interruption during dc line faults, it...
Abstract This paper proposes a simple and fast way to determine the direction of a fault in a multi-...
© 2015 IEEE.Recently proposed meshed HVDC networks include both converters and DC circuit breakers, ...
High Voltage DC (HVDC) grids provide an efficient solution for the transmission of bulk power over l...
This paper reviews the state of the art of DC fault discrimination and detection methods of HVDC gri...
This work has received support from the European Horizon 2020 PROMOTioN project under grant agreemen...
This paper defines and classifies fault clearing strategies for HVDC grid protection, based on the m...
For the large-scale integration of renewable energy sources into the power system, transmission corr...
International audienceWhile more and more HVDC point-to-point connections are initiated worldwide, t...
Multiterminal High Voltage Direct Current (HVDC) systems are anticipated to enable flexible transmis...
This paper compares the DC breaker requirements for different DC breaker protection schemes for high...
A high-voltage direct-current (HVDC) grid protection strategy to suppress dc fault currents and prev...
DC grids are susceptible to DC side faults, which lead to a rapid rise of the DC side currents. DC s...
In a near future, multi-terminal High Voltage Direct Current grids (MT-HVDC grids) appear to be a su...
To protect the converters and minimize the power transmission interruption during dc line faults, it...
Abstract This paper proposes a simple and fast way to determine the direction of a fault in a multi-...
© 2015 IEEE.Recently proposed meshed HVDC networks include both converters and DC circuit breakers, ...
High Voltage DC (HVDC) grids provide an efficient solution for the transmission of bulk power over l...
This paper reviews the state of the art of DC fault discrimination and detection methods of HVDC gri...