Conventional load frequency control primarily relies on large synchronous generation units to ensure regulation of the system frequency. However, its performance deteriorates as the system parameters, including inertia and droop coefficients, deviate from original system design. This letter proposes an augmented load frequency control (ALFC) to ensure robust frequency regulation under diurnal variations in system parameters that are expected in the future, renewables-rich power system. The superior performance of ALFC is demonstrated by several case studies, and its stability is assessed by small-signal analysis
The increasing share of volatile and inverter-based energy sources render electric power grids incre...
This paper presents the design and validation of a Wide Area Monitoring and Control (WAMC) system fo...
The modern electric grid is one the most complex man made control systems. Automatic generation cont...
Droop control, inertia control, and PD control are three typical frequency response (FR) strategies ...
With the increasing penetration of renewables in power systems, frequency regulation is proving to b...
Frequency control as a major function of automatic generation control is one of the important contro...
The penetration of Renewable Energy (RE) sources (e.g., solar, wind) into the power system occurs vi...
Due to high penetration of renewable energy, converter-interfaced sources are increasing in power sy...
The shift from conventional synchronous generation to renewable inverter-interfaced sources has led ...
Grid-interactive converters with primary frequency control and inertia emulation have emerged and ar...
Maintaining demand-supply balance and regulating frequency are key issues in power system control. C...
Abstract: Load frequency control or automatic generation control is one of the main operations that ...
Thesis (Ph.D.)--University of Washington, 2020The increased penetration of renewable energy resource...
Most of the existing control schemes for power systems ensure stability only in the presence of cons...
With increasing power generation out of renewable energy sources, there is a rising interest to inve...
The increasing share of volatile and inverter-based energy sources render electric power grids incre...
This paper presents the design and validation of a Wide Area Monitoring and Control (WAMC) system fo...
The modern electric grid is one the most complex man made control systems. Automatic generation cont...
Droop control, inertia control, and PD control are three typical frequency response (FR) strategies ...
With the increasing penetration of renewables in power systems, frequency regulation is proving to b...
Frequency control as a major function of automatic generation control is one of the important contro...
The penetration of Renewable Energy (RE) sources (e.g., solar, wind) into the power system occurs vi...
Due to high penetration of renewable energy, converter-interfaced sources are increasing in power sy...
The shift from conventional synchronous generation to renewable inverter-interfaced sources has led ...
Grid-interactive converters with primary frequency control and inertia emulation have emerged and ar...
Maintaining demand-supply balance and regulating frequency are key issues in power system control. C...
Abstract: Load frequency control or automatic generation control is one of the main operations that ...
Thesis (Ph.D.)--University of Washington, 2020The increased penetration of renewable energy resource...
Most of the existing control schemes for power systems ensure stability only in the presence of cons...
With increasing power generation out of renewable energy sources, there is a rising interest to inve...
The increasing share of volatile and inverter-based energy sources render electric power grids incre...
This paper presents the design and validation of a Wide Area Monitoring and Control (WAMC) system fo...
The modern electric grid is one the most complex man made control systems. Automatic generation cont...