Integration of intermittent renewable resources and mass electrification of heat and transport into the existing electricity network, with limited network asset reinforcement requires incorporation of intelligence in form of active management of flexible resources within different sections of the distribution network. A hierarchical multi-level control framework is proposed for this purpose which incorporates the appropriate optimisation and control strategies at different levels. In particular a novel deterministic control algorithm for controlling power flows at the community cell level has been developed and presented in this paper. This algorithm incorporates robustness to communication and device failure and is easily expandable to an...
The electric energy demand will increase in the future, and the will to exploit larger amounts of ge...
Power flows within distribution networks are expected to become increasingly congested with the prol...
Conventionally, power system has a hierarchical control structure including primary, secondary, and ...
Integration of intermittent renewable resources and mass electrification of heat and transport into ...
The electrification of heat and transport in addition to integration of intermittent renewable resou...
The Community Power Flow Control (CPFC) Algorithm has been proposed as a technique for managing elec...
The variability of renewable resources creates challenges in the operation and control of power syst...
With large-scale plans to integrate renewable generation driven mainly by state-level renewable port...
Given the increased penetration of smart grid technologies, distribution system operators are oblige...
In this paper, we consider the balancing problem in a hierarchical market-based structure for smart ...
The way in which electricity networks operate is going through a period of significant change. Renew...
In this paper, a comprehensive real-time interactive energy management system (EMS) framework for th...
The increasing installation of distributed energy resources (DERs) such as photovoltaics, electric v...
High-scale penetration of distributed energy resources (DERs) turned out to be an innovative and eff...
The high penetration of Distributed Energy Resources (DERs) in the distribution network has become a...
The electric energy demand will increase in the future, and the will to exploit larger amounts of ge...
Power flows within distribution networks are expected to become increasingly congested with the prol...
Conventionally, power system has a hierarchical control structure including primary, secondary, and ...
Integration of intermittent renewable resources and mass electrification of heat and transport into ...
The electrification of heat and transport in addition to integration of intermittent renewable resou...
The Community Power Flow Control (CPFC) Algorithm has been proposed as a technique for managing elec...
The variability of renewable resources creates challenges in the operation and control of power syst...
With large-scale plans to integrate renewable generation driven mainly by state-level renewable port...
Given the increased penetration of smart grid technologies, distribution system operators are oblige...
In this paper, we consider the balancing problem in a hierarchical market-based structure for smart ...
The way in which electricity networks operate is going through a period of significant change. Renew...
In this paper, a comprehensive real-time interactive energy management system (EMS) framework for th...
The increasing installation of distributed energy resources (DERs) such as photovoltaics, electric v...
High-scale penetration of distributed energy resources (DERs) turned out to be an innovative and eff...
The high penetration of Distributed Energy Resources (DERs) in the distribution network has become a...
The electric energy demand will increase in the future, and the will to exploit larger amounts of ge...
Power flows within distribution networks are expected to become increasingly congested with the prol...
Conventionally, power system has a hierarchical control structure including primary, secondary, and ...