International audienceThe proliferation of distributed generation (DG) is expected to lead to a change in philosophy in the manner that distribution networks are managed and operated. It is envisaged that distribution networks will be transformed from passive to active entities in order to accommodate the connection of DG. This paper presents current research at Durham University relating to the active management of distribution networks at MV and LV levels. A dynamic thermal rating system has been proposed for the control of DG at the MV level. Furthermore, a multi-agent system-based distributed control approach has been presented for the coordinated control of micro-generators, energy storage units and controllable loads at the LV level
In this paper, a distributed multi-agent scheme is presented for reactive power management with rene...
Distribution networks are approaching the critical point whereby the connection of Distributed Energ...
The connection of a great number of distributed generation (DG) plants may cause a critical voltage ...
International audienceThe proliferation of distributed generation (DG) is expected to lead to a chan...
Power flows within distribution networks are expected to become increasingly congested with the prol...
The central question to be addressed in this thesis is whether Active Network Management (ANM) imple...
Renewable Energy Sources are becoming widely spread, as they are sustainable and low-carbon emission...
Due to the significant growth of distributed generators connected to the distribution networks, thes...
A traditional distribution network carries electricity from a central power resource to consumers, a...
This thesis gives a particular vision of the future power delivery system with its main requirements...
The challenges associated with controlling power networks are increasing due to integration of renew...
Distributed generation and consequent voltage rise problem in MV distribution networks has been foun...
This paper presents a fully decentralized coordination strategy based on Multi-Agent System (MAS) f...
The structure and control methods of existing distribution networks are planned assuming unidirectio...
In many countries, in the last years, there has been a wide spread of Distributed Generation (DG) fr...
In this paper, a distributed multi-agent scheme is presented for reactive power management with rene...
Distribution networks are approaching the critical point whereby the connection of Distributed Energ...
The connection of a great number of distributed generation (DG) plants may cause a critical voltage ...
International audienceThe proliferation of distributed generation (DG) is expected to lead to a chan...
Power flows within distribution networks are expected to become increasingly congested with the prol...
The central question to be addressed in this thesis is whether Active Network Management (ANM) imple...
Renewable Energy Sources are becoming widely spread, as they are sustainable and low-carbon emission...
Due to the significant growth of distributed generators connected to the distribution networks, thes...
A traditional distribution network carries electricity from a central power resource to consumers, a...
This thesis gives a particular vision of the future power delivery system with its main requirements...
The challenges associated with controlling power networks are increasing due to integration of renew...
Distributed generation and consequent voltage rise problem in MV distribution networks has been foun...
This paper presents a fully decentralized coordination strategy based on Multi-Agent System (MAS) f...
The structure and control methods of existing distribution networks are planned assuming unidirectio...
In many countries, in the last years, there has been a wide spread of Distributed Generation (DG) fr...
In this paper, a distributed multi-agent scheme is presented for reactive power management with rene...
Distribution networks are approaching the critical point whereby the connection of Distributed Energ...
The connection of a great number of distributed generation (DG) plants may cause a critical voltage ...