DC networks that include storage systems, renewable sources, dc loads, and front-end converters can provide some advantages as compared with ac grids. However, the interruption of fault currents is difficult due to no-zero crossing of the current. Moreover, the fault clearing time of traditional dc circuit breakers can be too long for protecting power electronics switching components. Multiport converters seem to be a good solution for solving the aforementioned problem. The introduction of a multiport dc/dc converter, along with its configuration and a centralized control for power flow management, is proposed in the initial sections of this study. After this, this paper focuses on the study of system behavior during fault functioning cond...
The integration of distributed generation such as renewable energy at the distribution is considered...
This study presents a comprehensive review of dc transmission technologies for future power grids, w...
High voltage dc networks are a promising technology to flexibly transmit power over long distances. ...
DC networks that include storage systems, renewable sources, dc loads, and front-end converters can ...
The use of DC for primary power distribution has the potential to bring significant design, cost and...
This paper investigates DC network partition and alternative DC fault protection strategy for Multi-...
Modern distribution grids need to satisfy strict standards in terms of voltage quality and continuit...
This paper concentrates on using fast acting DC Circuit Breakers (DCCBs) at strategic locations to a...
This paper provides a discussion on future direct current (DC) network development in terms of syste...
This paper compares the transient behaviour of two HVDC networks with similar structures but which u...
The use of Voltage Source Converter (VSC) based HVDC transmission has been strongly suggested for th...
Abstract — For a large multi-terminal HVDC system, it is important that a DC fault on a single branc...
Nowadays there is a movement towards the creation of HVDC grids. The massive integration of renewabl...
The integration of distributed generation such as renewable energy at the distribution is considered...
This study presents a comprehensive review of dc transmission technologies for future power grids, w...
High voltage dc networks are a promising technology to flexibly transmit power over long distances. ...
DC networks that include storage systems, renewable sources, dc loads, and front-end converters can ...
The use of DC for primary power distribution has the potential to bring significant design, cost and...
This paper investigates DC network partition and alternative DC fault protection strategy for Multi-...
Modern distribution grids need to satisfy strict standards in terms of voltage quality and continuit...
This paper concentrates on using fast acting DC Circuit Breakers (DCCBs) at strategic locations to a...
This paper provides a discussion on future direct current (DC) network development in terms of syste...
This paper compares the transient behaviour of two HVDC networks with similar structures but which u...
The use of Voltage Source Converter (VSC) based HVDC transmission has been strongly suggested for th...
Abstract — For a large multi-terminal HVDC system, it is important that a DC fault on a single branc...
Nowadays there is a movement towards the creation of HVDC grids. The massive integration of renewabl...
The integration of distributed generation such as renewable energy at the distribution is considered...
This study presents a comprehensive review of dc transmission technologies for future power grids, w...
High voltage dc networks are a promising technology to flexibly transmit power over long distances. ...