Title :
Supercapacitor Cycle Life Equalization in a Microgrid Through Flexible Distribution of Energy and Storage Resources
Author :
Khasawneh, Hussam ; Illindala, Mahesh
Author_Institution :
Dept. of Electr. & Comput. Eng., Ohio State Univ., Columbus, OH, USA
Abstract :
Industrial microgrids functioning under islanded mode of operation are often subjected to large and fluctuating demands from loads such as crushers, excavators, and steel rolling mills. This paper studies the supercapacitor (SC) cycle life when multiple small rated but distantly located distributed energy resources are supplying a cement plant crusher-conveyor load in the islanded operation of the microgrid. Each DER consists of a fuel cell (FC) supplemented with a SC. After having carried out extensive modeling, simulation, and analysis, this paper demonstrates that the SC cycle life can be equalized by employing the cooperative framework of flexible distribution of energy and storage resources.
Keywords :
cement industry; distributed power generation; power distribution faults; product life cycle management; supercapacitors; cement plant crusher-conveyor load; distributed energy resource; energy resource distribution; flexible distribution; fuel cell; industrial microgrids; islanded mode; storage resource distribution; supercapacitor cycle life equalization; Aging; Capacitance; Density estimation robust algorithm; Load modeling; Mathematical model; Microgrids; Supercapacitors; Aging; Batteries; Distributed Generation; Energy Storage; Fuel cells; Microgrids; Supercapacitors; Virtual reactance; batteries; distributed generation; energy storage; fuel cells (FCs); microgrids; supercapacitors (SCs); virtual reactance;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2014.2369815
