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200 10$aBattery management systems $evolume I : battery modeling /$fGregory L. Plett
205   $a1st ed.
210   $aBoston, Mass. $cArtech House$d2015
215   $a1 online resource (xi, 327 p.) $cill
225 1 $aArtech House power engineering series
320   $aIncludes bibliographical references.
327   $a1. Battery Boot Camp -- 2. Equivalent-Circuit Models -- 3. Microscale Cell Models -- 4. Continuum-Scale Cell Models -- 5. State-Space Models and the Discrete-Time Realization Algorithm -- 6. Reduced-Order Models -- 7. Thermal Modeling.
330   $aLarge-scale battery packs are needed in hybrid and electric vehicles, utilities grid backup and storage, and frequency-regulation applications. In order to maximize battery-pack safety, longevity, and performance, it is important to understand how battery cells work. This first of its kind new resource focuses on developing a mathematical understanding of how electrochemical (battery) cells work, both internally and externally. This comprehensive resource derives physics-based micro-scale model equations, then continuum-scale model equations, and finally reduced-order model equations. This book describes the commonly used equivalent-circuit type battery model and develops equations for superior physics-based models of lithium-ion cells at different length scales. This resource also presents a breakthrough technology called the discrete-time realization algorithmù that automatically converts physics-based models into high-fidelity approximate reduced-order models.
410  0$aArtech House power engineering series.
606   $aElectric batteries
606   $aLithium cells$xMathematical models
606   $aBattery chargers$xMathematical models
606   $aElectric vehicles$xBatteries
606   $aLithium cells
615  0$aElectric batteries.
615  0$aLithium cells$xMathematical models.
615  0$aBattery chargers$xMathematical models.
615  0$aElectric vehicles$xBatteries.
615  0$aLithium cells.
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