Title :
Residential microgrid model for disaster recovery operations
Author :
Hurtt, James ; Mili, Lamine
Author_Institution :
Bradley Dept. of Electr. & Comput. Eng., Virginia Tech, Falls Church, VA, USA
Abstract :
Microgrids hold great potential to improve the reliability of modern power systems, to foster the integration of renewable sources, and to enable smart grid development. In this paper, we design a microgrid that provides all of these benefits. The proposed microgrid serves a notional residential area located in South Florida, which is a region that is annually exposed to hurricanes. It meets all the design requirements raised by the environmental attributes of that region. It has been modeled in MATLAB for energy analysis and in PSCAD for dynamic simulations. By combining novel inverter control and central control from previous research, it has been demonstrated that the proposed microgrid can support sustained islanding mode of operation before, during, and after a major storm.
Keywords :
business continuity; distributed power generation; photovoltaic power systems; power system reliability; power system simulation; renewable energy sources; smart power grids; MATLAB; PSCAD; South Florida; central control; disaster recovery operations; dynamic simulations; energy analysis; environmental attributes; inverter control; modern power systems reliability; notional residential area; renewable sources; residential microgrid model; smart grid development; sustained islanding mode; Arrays; Batteries; Inverters; Load modeling; Mathematical model; Microgrids; System-on-chip; Microgrids; Modeling; Photovoltaic Systems; Power Distribution; Renewable Energy;
Conference_Titel :
PowerTech (POWERTECH), 2013 IEEE Grenoble
Conference_Location :
Grenoble
DOI :
10.1109/PTC.2013.6652418
