Title :
The application of demand response for frequency regulation in an islanded microgrid with high penetration of renewable generation
Author :
Marchese, Kevin ; Pourmousavi, S. Ali ; Nehrir, M. Hashem
Author_Institution :
Electr. & Comput. Eng. Dept., Montana State Univ., Bozeman, MT, USA
Abstract :
Increasing the penetration of variable generation sources, such as wind and solar, potentially threatens power system stability. Past studies have shown that 15-20% renewable penetration is the largest amount the power systems can handle using conventional control. To overcome the challenge that variable renewable generation presents, this paper proposes that real-time demand response (DR) be used for ancillary services (AS). The impact of varying the amount of DR on the performance of a microgrid-configured distribution feeder is evaluated in this study. Simulation results have shown that a proper amount of DR resources can help to achieve higher penetrations of renewable generation while maintaining the desired system frequency.
Keywords :
demand side management; distributed power generation; frequency control; power generation control; power system stability; AS; DR resources; ancillary services; demand response; frequency regulation; high renewable generation penetration; islanded microgrid; microgrid-configured distribution feeder; power system stability; real-time demand response; system frequency; variable generation source penetration; Automatic generation control; Delays; Frequency control; Generators; Load modeling; Power system stability; Time-frequency analysis; Adaptive hill climbing (AHC); automatic generation control (AGC); demand response (DR); frequency stabilization; governor droop control; microgrid; thermostatically controlled appliances (TCA);
Conference_Titel :
North American Power Symposium (NAPS), 2013
Conference_Location :
Manhattan, KS
DOI :
10.1109/NAPS.2013.6666857
