The increasing penetration of converter-interfaced generators (CIGs) has raised concerns about the stability and security of future grids (FGs). These resources affect power systems dynamics in many ways including reducing system inertia, interacting with existing generators, changing power flow paths, etc. In this thesis, we carry out a sensitivity study to explore the structural impacts from CIGs on the damping and frequency stability of power systems. Initially, we study the impact of the intermittent power from wind turbine generators (WTGs) on the damping of the electromechanical oscillations in power systems. It will be shown that the inability of WTGs to provide synchronizing and damping torque to the system jeopardize the small sign...
The rapid development of wind power technology is reshaping conventional power grids in many countri...
The shift towards RES introduces challenges related to power system stability due to the characteris...
With the increasing complexity of the power system, electromechanical oscillations are becoming one ...
Many modern power systems are facing massive changes. Two of the main development trends are more in...
The massive integration of wind power plants into the transmission system calls for a careful scruti...
Abstract—The future power systems face several challenges; one of them is the use of high power conv...
Wind power is growing in capacity and wind farms are reaching productions similar to those of conven...
Wind turbine generators (WTGs), particularly Type III Doubly-fed Induction Generators (DFIGs) and Ty...
The operation and dynamic characteristics of power system grids with mixed generation technologies i...
The integration of additional intermittent and asynchronous generations such as wind is bringing in ...
The complexity of power systems has increased in recent years due to the operation of existing trans...
The integration of wind power generation (WPG) have many different impacts on the current power tran...
Power systems are shifting toward utilizing higher penetration of renewable energy sources (RESs) an...
Rising wind energy integration, accompanied by a decreasing level of system inertia, requires additi...
textElectric power generation using wind turbines is on the rise in not only the United States but t...
The rapid development of wind power technology is reshaping conventional power grids in many countri...
The shift towards RES introduces challenges related to power system stability due to the characteris...
With the increasing complexity of the power system, electromechanical oscillations are becoming one ...
Many modern power systems are facing massive changes. Two of the main development trends are more in...
The massive integration of wind power plants into the transmission system calls for a careful scruti...
Abstract—The future power systems face several challenges; one of them is the use of high power conv...
Wind power is growing in capacity and wind farms are reaching productions similar to those of conven...
Wind turbine generators (WTGs), particularly Type III Doubly-fed Induction Generators (DFIGs) and Ty...
The operation and dynamic characteristics of power system grids with mixed generation technologies i...
The integration of additional intermittent and asynchronous generations such as wind is bringing in ...
The complexity of power systems has increased in recent years due to the operation of existing trans...
The integration of wind power generation (WPG) have many different impacts on the current power tran...
Power systems are shifting toward utilizing higher penetration of renewable energy sources (RESs) an...
Rising wind energy integration, accompanied by a decreasing level of system inertia, requires additi...
textElectric power generation using wind turbines is on the rise in not only the United States but t...
The rapid development of wind power technology is reshaping conventional power grids in many countri...
The shift towards RES introduces challenges related to power system stability due to the characteris...
With the increasing complexity of the power system, electromechanical oscillations are becoming one ...