The asymmetric integration of distributed generators (DGs) exacerbates the three-phase unbalanced condition in distribution systems. The serious unbalanced operation causes inefficient utilization of network assets and security risks in the system. Soft open point (SOP) is a flexible power electronic device which can achieve accurate active and reactive power flow control to balance the power flow among phases. This paper proposes an SOPs-based operation strategy for unbalanced active distribution networks. By regulating the operation of SOPs, the strategy can reduce power losses and simultaneously mitigate the three-phase unbalance of the upper-level grid. Semidefinite programming (SDP) relaxation is advocated to convert the original non-c...
AbstractSoft Open Points (SOPs) are power electronic devices installed in place of normally-open poi...
This article proposes a new approach to the operation of unbalanced Active Distribution Systems (ADS...
The connection of multiple Distributed Generators (DGs) to medium voltage (MV) distribution network...
The asymmetric integration of distributed generators (DGs) exacerbates the three-phase unbalanced co...
Active distribution networks (ADNs) are capable of mitigating phase imbalance caused by various oper...
Three-phase unbalanced conditions in distribution networks are conventionally caused by load imbalan...
The integration of distributed generators (DGs) exacerbates the feeder power flow fluctuation and lo...
With the integration of high shares of distributed generators (DGs), it is increasingly difficult to...
Soft open points (SOPs) are power electronic devices that may replace conventional normally-open poi...
With the integration of high shares of distributed generators (DGs), both volatile DGs and demand-si...
AbstractA soft open point (SOP) is a power electronic device, usually using back-to-back voltage sou...
With the increasing penetration of distributed generation (DG), the maximum hosting capacity of acti...
Traditional distribution network operators are gradually being transformed to system operators, usin...
As part of the smart grid concept, different strategies specialized for power flow control in distri...
As a power electronic device, Soft Open Point (SOP) offers increasingly valuable flexible and accur...
AbstractSoft Open Points (SOPs) are power electronic devices installed in place of normally-open poi...
This article proposes a new approach to the operation of unbalanced Active Distribution Systems (ADS...
The connection of multiple Distributed Generators (DGs) to medium voltage (MV) distribution network...
The asymmetric integration of distributed generators (DGs) exacerbates the three-phase unbalanced co...
Active distribution networks (ADNs) are capable of mitigating phase imbalance caused by various oper...
Three-phase unbalanced conditions in distribution networks are conventionally caused by load imbalan...
The integration of distributed generators (DGs) exacerbates the feeder power flow fluctuation and lo...
With the integration of high shares of distributed generators (DGs), it is increasingly difficult to...
Soft open points (SOPs) are power electronic devices that may replace conventional normally-open poi...
With the integration of high shares of distributed generators (DGs), both volatile DGs and demand-si...
AbstractA soft open point (SOP) is a power electronic device, usually using back-to-back voltage sou...
With the increasing penetration of distributed generation (DG), the maximum hosting capacity of acti...
Traditional distribution network operators are gradually being transformed to system operators, usin...
As part of the smart grid concept, different strategies specialized for power flow control in distri...
As a power electronic device, Soft Open Point (SOP) offers increasingly valuable flexible and accur...
AbstractSoft Open Points (SOPs) are power electronic devices installed in place of normally-open poi...
This article proposes a new approach to the operation of unbalanced Active Distribution Systems (ADS...
The connection of multiple Distributed Generators (DGs) to medium voltage (MV) distribution network...