Add to ORKGDue to increasing level of power converter-based component and consequently the lack of inertia, automatic generation control (AGC) of interconnected systems is experiencing different challenges. To cope with this challenging issue, a derivative control-based virtual inertia for simulating the dynamic effects of inertia emulations by HVDC (high-voltage direct current) interconnected systems is introduced and reflected in the multi-area AGC system. Derivative control technique is used for higher level applications of inertia emulation. The virtual inertia will add an additional degree of freedom to the system dynamics which makes a considerable improvement on first overshoot responses in addition to damping characteristics of HVDC links. Com...
This paper presents an experimental performance evaluation of different control strategies for provi...
The increasing penetration of power electronics interfaced renewable generation (e.g. offshore wind)...
Recent trend of research is oriented in different methods of emulating the inertia to increase the s...
Due to increasing level of power converter based component in the grid and consequently the lack of ...
Due to increasing level of power converter-based component and consequently the lack of inertia, aut...
This paper proposes an new approach for modeling and analysis the dynamic effects of virtual inertia...
Virtual inertia is known as an inevitable part of the modern power systems with high penetration of ...
Virtual inertia is known as an inevitable part of the modern power systems, especially considering t...
Automatic Generation Control (AGC) in multi-area interconnected power systems is experiencing severa...
Due to a rapid increase in the utilization of power converter-based renewable energy sources (RESs),...
This paper presents an evaluation of two control schemes for virtual inertia support from the conver...
This paper presents an evaluation of two control schemes for virtual inertia support from the conver...
There is concern that the levels of inertia in power systems may decrease in the future, due to incr...
In this paper the supporting action of a multi-terminal HVDC network to one AC grid is investigated....
This paper presents an experimental performance evaluation of different control strategies for provi...
The increasing penetration of power electronics interfaced renewable generation (e.g. offshore wind)...
Recent trend of research is oriented in different methods of emulating the inertia to increase the s...
Due to increasing level of power converter based component in the grid and consequently the lack of ...
Due to increasing level of power converter-based component and consequently the lack of inertia, aut...
This paper proposes an new approach for modeling and analysis the dynamic effects of virtual inertia...
Virtual inertia is known as an inevitable part of the modern power systems with high penetration of ...
Virtual inertia is known as an inevitable part of the modern power systems, especially considering t...
Automatic Generation Control (AGC) in multi-area interconnected power systems is experiencing severa...
Due to a rapid increase in the utilization of power converter-based renewable energy sources (RESs),...
This paper presents an evaluation of two control schemes for virtual inertia support from the conver...
This paper presents an evaluation of two control schemes for virtual inertia support from the conver...
There is concern that the levels of inertia in power systems may decrease in the future, due to incr...
In this paper the supporting action of a multi-terminal HVDC network to one AC grid is investigated....
This paper presents an experimental performance evaluation of different control strategies for provi...
The increasing penetration of power electronics interfaced renewable generation (e.g. offshore wind)...
Recent trend of research is oriented in different methods of emulating the inertia to increase the s...