Power distribution control coordinating ultracapacitors and batteries for electric vehicles

Electrical energy storage is a central element to any electric-drivetrain technology - whether hybrid-electric, fuel-cell, or all-electric. A particularly cost-sensitive issue with energy storage is the high replacement cost of depleted battery banks. One possibility to ease the power burden on batt...

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Published in	2004 American Control Conference Proceedings; Volume 5 of 6 Vol. 5; pp. 4716 - 4721 vol.5
Main Authors	Ozatay, E., Zile, B., Anstrom, J., Brennan, S.
Format	Conference Proceeding Journal Article
Language	English
Published	Piscataway NJ IEEE 01.01.2004 Evanston IL American Automatic Control Council
Subjects	Applied sciences Battery powered vehicles Computer science; control theory; systems Control system synthesis Control systems Control theory. Systems Costs Electric vehicles Energy storage Exact sciences and technology Fluctuations Fuel cells Hybrid electric vehicles Power distribution Supercapacitors Energy cost Hybrid vehicle Control synthesis Secondary cell Load frequency control Replacement Electric vehicle Electrical network Power control Battery Supercapacitor Capacitor Fuel cell Energy storage
Online Access	Get full text
ISBN	9780780383357 0780383354
ISSN	0743-1619
DOI	10.23919/ACC.2004.1384057

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Abstract	Electrical energy storage is a central element to any electric-drivetrain technology - whether hybrid-electric, fuel-cell, or all-electric. A particularly cost-sensitive issue with energy storage is the high replacement cost of depleted battery banks. One possibility to ease the power burden on batteries and fuel cells is to use ultra-capacitors as load-leveling devices. The high power density of ultra-capacitors allows a significant reduction in the power fluctuations imposed on the remaining electrical system; however, the same ultra-capacitors have a very low energy density and therefore must be used sparingly and with coordination. A control strategy for coordinated power distribution is a central issue for ultracapacitor-supported systems. Toward this end, several control methods are implemented on an electric vehicle equipped with a battery/ultracapacitor system with the goal of improving battery life and overall vehicle efficiency. A particular goal is to obtain both a peaking load control and a frequency-weighted coordination between capacitor and battery in order to mitigate transients in the battery current demand. A key control design issue is that the control objectives vary with respect to vehicle velocity, driver's power demand, and state-of-charge of both the batteries and ultracapacitors.
AbstractList	Electrical energy storage is a central element to any electric-drivetrain technology - whether hybrid-electric, fuel-cell, or all-electric. A particularly cost-sensitive issue with energy storage is the high replacement cost of depleted battery banks. One possibility to ease the power burden on batteries and fuel cells is to use ultra-capacitors as load-leveling devices. The high power density of ultra-capacitors allows a significant reduction in the power fluctuations imposed on the remaining electrical system; however, the same ultra-capacitors have a very low energy density and therefore must be used sparingly and with coordination. A control strategy for coordinated power distribution is a central issue for ultracapacitor-supported systems. Toward this end, several control methods are implemented on an electric vehicle equipped with a battery/ultracapacitor system with the goal of improving battery life and overall vehicle efficiency. A particular goal is to obtain both a peaking load control and a frequency-weighted coordination between capacitor and battery in order to mitigate transients in the battery current demand. A key control design issue is that the control objectives vary with respect to vehicle velocity, driver's power demand, and state-of-charge of both the batteries and ultracapacitors.
Author	Brennan, S. Anstrom, J. Ozatay, E. Zile, B.
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Keywords	Energy cost Hybrid vehicle Control synthesis Secondary cell Load frequency control Replacement Electric vehicle Electrical network Power control Battery Supercapacitor Capacitor Fuel cell Energy storage
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SubjectTerms	Applied sciences Battery powered vehicles Computer science; control theory; systems Control system synthesis Control systems Control theory. Systems Costs Electric vehicles Energy storage Exact sciences and technology Fluctuations Fuel cells Hybrid electric vehicles Power distribution Supercapacitors
Title	Power distribution control coordinating ultracapacitors and batteries for electric vehicles
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