Future power systems will have low inertia which will lead to larger deviations and rates of change of grid frequency. Large loss of infeed (e.g. due to a fault in the DC grid) higher than the spinning reserve can be more frequent. Also, voltage constraints will result in curtailment of renewable energy in the distribution systems. This thesis investigates the characteristics and effectiveness of the use of power electronic compensators in the control of both grid voltage and frequency through aggregated demand response in an autonomous fashion without any need for communication. Not relying on communication is essential to have a plug-and-play functionality for these compensators, so no central controller is critical for the system operati...
This paper shows that the smart loads (SLs) could be effective in mitigating voltage problems caused...
The objective of this paper is to assess the economic viability of a certain form of Demand Response...
As solar energy continues to increase in the current power grid, the reactive power support capabili...
Power distribution system is a highly critical infrastructure for modern power grid. In recent years...
With consideration of environmental protection, traditional fossil fuel power plants and nuclear fis...
With the increasing adoption of renewable energy sources into power grids, the issue of voltage and ...
By the growing infiltration of asynchronous inverter interfaced generation (solar, wind, etc.), the ...
Increasing penetration of non-synchronous generators (e.g. wind) would result in drastic reduction ...
Smart grids must involve active roles from end users in order to be truly smart. The energy consumpt...
The deployment of renewable energy sources (RESs) could relive the grid from the heavy reliance on f...
The rapid development of renewable energy sources and electricity storage technologies is further dr...
This paper discusses actively involving highly distributed loads in power system control actions; an...
The electric spring (ES) is a novel voltage compensator which is series with a noncritical load to r...
Within this paper, the main focus would be to compare the potency of anchorman current control using...
This thesis considers the use of medium-voltage power electronic compensation at distribution networ...
This paper shows that the smart loads (SLs) could be effective in mitigating voltage problems caused...
The objective of this paper is to assess the economic viability of a certain form of Demand Response...
As solar energy continues to increase in the current power grid, the reactive power support capabili...
Power distribution system is a highly critical infrastructure for modern power grid. In recent years...
With consideration of environmental protection, traditional fossil fuel power plants and nuclear fis...
With the increasing adoption of renewable energy sources into power grids, the issue of voltage and ...
By the growing infiltration of asynchronous inverter interfaced generation (solar, wind, etc.), the ...
Increasing penetration of non-synchronous generators (e.g. wind) would result in drastic reduction ...
Smart grids must involve active roles from end users in order to be truly smart. The energy consumpt...
The deployment of renewable energy sources (RESs) could relive the grid from the heavy reliance on f...
The rapid development of renewable energy sources and electricity storage technologies is further dr...
This paper discusses actively involving highly distributed loads in power system control actions; an...
The electric spring (ES) is a novel voltage compensator which is series with a noncritical load to r...
Within this paper, the main focus would be to compare the potency of anchorman current control using...
This thesis considers the use of medium-voltage power electronic compensation at distribution networ...
This paper shows that the smart loads (SLs) could be effective in mitigating voltage problems caused...
The objective of this paper is to assess the economic viability of a certain form of Demand Response...
As solar energy continues to increase in the current power grid, the reactive power support capabili...