Validation of capacitance and equivalent series resistance model of manganese oxide-based aqueous super-capacitor

Karandikar, P. B., Talange, D., Mhaskar, U. P. and Bansal, R. C. (2012) Validation of capacitance and equivalent series resistance model of manganese oxide-based aqueous super-capacitor. Electric Power Components and Systems, 40 10: 1105-1118.


Author Karandikar, P. B.
Talange, D.
Mhaskar, U. P.
Bansal, R. C.
Title Validation of capacitance and equivalent series resistance model of manganese oxide-based aqueous super-capacitor
Journal name Electric Power Components and Systems   Check publisher's open access policy
ISSN 1532-5008
1532-5016
Publication date 2012
Sub-type Article (original research)
DOI 10.1080/15325008.2012.682247
Volume 40
Issue 10
Start page 1105
End page 1118
Total pages 14
Place of publication Philadelphia, PA, United States
Publisher Taylor & Francis
Collection year 2013
Language eng
Abstract Electrical energy storage is a critical parameter in many advanced electric vehicles. Conventional batteries provide limited solution in this regard. Development of a battery compatible super-capacitor can give a good hybrid energy storage system consisting of a battery and super-capacitor. An aqueous metal oxide super-capacitor is voltage compatible with a conventional battery. Advances are required in improving both the energy and power density of this super-capacitor through a new electrode, electrolyte materials, and issues related to the construction of the device. Modeling with electrical parameters as an output and electrode/ electrolyte parameters as an input can be very effective in developing a low-cost super-capacitor. Electrode construction and material play important roles in its performance; these two aspects have been addressed in this article through a modeling approach to convert a manganese oxide-based aqueous super-capacitor into a cost-effective product. New super-capacitor structures are presented, along with capacitance and equivalent series resistance model validation, for a manganese oxide-based symmetrical aqueous super-capacitor by changing the input parameters.
Keyword Super-capacitor modelling
Ultra-capacitor modeling
Design of experiments
Q-Index Code C1
Q-Index Status Confirmed Code
Institutional Status UQ

Document type: Journal Article
Sub-type: Article (original research)
Collections: Official 2013 Collection
School of Information Technology and Electrical Engineering Publications
 
Versions
Version Filter Type
Citation counts: TR Web of Science Citation Count  Cited 1 times in Thomson Reuters Web of Science Article | Citations
Scopus Citation Count Cited 3 times in Scopus Article | Citations
Google Scholar Search Google Scholar
Access Statistics: 72 Abstract Views  -  Detailed Statistics
Created: Tue, 03 Apr 2012, 14:51:07 EST by Dr Ramesh Bansal on behalf of School of Information Technol and Elec Engineering