DocumentCode
271404
Title
Enhanced aging model for supercapacitors taking into account power cycling: Application to the sizing of an Energy Storage System in a Direct Wave Energy Converter
Author
Kovaltchouk, Thibaut ; Multon, Bernard ; Ben Ahmed, Hamid ; Aubry, Judicaël ; Venet, Pascal
Author_Institution
SATIE, ENS Rennes, Bruz, France
fYear
2014
fDate
25-27 March 2014
Firstpage
1
Lastpage
10
Abstract
This paper proposes an original model for supercapacitors that takes into account both calendar aging and cycling aging. This model is based on a series of recent experiments conducted in various research laboratories on the same technology (Maxwell Technology) and serves to represent the degradation of Equivalent Series Resistance and capacitance. We show that an accurate aging model is critical to the design of an Energy Storage System that optimizes the economic life cycle cost. Such an optimization is especially applicable for smoothing in offshore systems like Direct Wave Energy Converters, which require both cost reduction and high reliability. The influence of an aging model in the sizing process is investigated towards the end of this paper.
Keywords
ageing; offshore installations; optimisation; power convertors; reliability; supercapacitors; wave power generation; Maxwell technology; calendar aging; cost reduction; cycling aging; direct wave energy converter; economic life cycle cost; energy storage system; equivalent series capacitance; equivalent series resistance; offshore systems; optimization; power cycling; reliability; supercapacitors; Aging; Calendars; Computational modeling; Laboratories; Mathematical model; Supercapacitors; Aging; Direct Wave Energy Converter; Energy Storage Systems; Irregular Waves; Power Cycling; Power Smoothing; Supercapacitors;
fLanguage
English
Publisher
ieee
Conference_Titel
Ecological Vehicles and Renewable Energies (EVER), 2014 Ninth International Conference on
Conference_Location
Monte-Carlo
Print_ISBN
978-1-4799-3786-8
Type
conf
DOI
10.1109/EVER.2014.6844039
Filename
6844039
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