Title :
Cutting Campus Energy Costs with Hierarchical Control: The Economical and Reliable Operation of a Microgrid
Author :
Shahidehpour, Mohammad ; Khodayar, Mohammad
Author_Institution :
Robert W. Galvin Center for Electr. Innovation, Illinois Inst. of Technol. (IIT), Chicago, IL, USA
Abstract :
in this article, we discuss microgrid objectives and present options for microgrid operations and their monitoring and control in the context of a functional system at the illinois institute of technology (iit) in Chicago. the microgrid represents a multitier hierarchical control of self-sustaining energy infrastructure with islanding and resynchronization, self-healing, and demand response capabilities. the intelligent high-reliability distribution system (HRDS) at iit is equipped with phasor measurement units (PMUs) for real-time monitoring, nondispatchable renewable energy production, as well as conventional and dispatchable energy resources.
Keywords :
cost reduction; distributed power generation; phasor measurement; power distribution reliability; power generation control; power generation economics; synchronisation; Chicago; PMU; campus energy cost cutting; demand response capabilities; dispatchable energy resources; economical operation; functional system; hierarchical control; illinois institute of technology; intelligent high-reliability distribution system; islanding; microgrid operations; nondispatchable renewable energy production; phasor measurement units; real-time monitoring; reliable operation; resynchronization; self-healing capabilities; self-sustaining energy infrastructure; Educational institutions; Flexible electronics; Intelligent netowrks; Large-scale systems; Microgrids; Power systems planning; Reactive power control; Smart grids;
Journal_Title :
Electrification Magazine, IEEE
DOI :
10.1109/MELE.2013.2273994
