Battery Management Systems Equivalent-circuit Methods

Cover of Battery Management Systems Equivalent-circuit Methods by Gregory L. Plett
Author: Gregory L. Plett
Publisher: Artech House
Year: 2016
Language: en
Pages: 316
ISBN-13: 9781630810238
Dimensions:
Height: 11.2 Inches
Length: 8.7 Inches
Weight: 2.6 Pounds
Width: 1 Inches
Dewey Decimal: 621.31242
Editorial overview Touché

Battery Management Systems Equivalent-circuit Methods by Gregory L. Plett, published by Artech House in 2016, is a detailed resource comprising 316 pages in English. This book explores the development of physics-based microscale model equations, continuum-scale model equations, and reduced-order model equations, focusing on the commonly used equivalent-circuit-type battery model while advancing to superior physics-based models of lithium-ion cells across various length scales.

Readers will find an in-depth examination of a breakthrough technology known as the discrete-time realization algorithm, which facilitates the conversion of physics-based models into high-fidelity approximate reduced-order models. These models maintain a computational complexity comparable to equivalent-circuit-type models while offering the capability to predict electrochemical variables at any spatial location within the cell. The book addresses critical subjects such as electric batteries, lithium cells, and electric vehicles, making it a valuable resource for those interested in advanced battery management systems.

Official synopsis Publisher

This comprehensive resource derives physics-based microscale 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 book presents a breakthrough technology called the discrete-time realization
algorithm that automatically converts physics-based models into high-fidelity
approximate reduced-order models. These reduced-order models have similar
computational complexity to equivalent-circuit-type models, but can also predict
electrochemical variables at any spatial location inside the cell.

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What is “Battery Management Systems Equivalent-circuit Methods” about?
This page includes the available description and bibliographic details for “Battery Management Systems Equivalent-circuit Methods” by Gregory L. Plett. Synopsis preview: This comprehensive resource derives physics-based microscale model equations,then continuum-scale model equations, and finally reduced-order model equations.This book describes the commonly used equivalent-circuit-type b…
Who is the author of “Battery Management Systems Equivalent-circuit Methods”?
“Battery Management Systems Equivalent-circuit Methods” is credited to Gregory L. Plett.
When was “Battery Management Systems Equivalent-circuit Methods” published?
Publisher: Artech House. Year: 2016.
What is the ISBN for “Battery Management Systems Equivalent-circuit Methods”?
ISBN-13: 9781630810238.
What are the book details (language, pages, edition)?
Language: en. Pages: 316.

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