Progress in Modeling and Simulation of Batteries

Title: Progress in Modeling and Simulation of Batteries
Author: John Turner
ISBN: 076808282X / 9780768082821
Format: Soft Cover
Pages: 94
Publisher: SAE
Year: 2016
Availability: In Stock

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Modeling and simulation of batteries, in conjunction with theory and experiment, are important research tools that offer opportunities for advancement of technologies that are critical to electric motors. The development of data from the application of these tools can provide the basis for managerial and technical decision-making. Together, these will continue to transform batteries for electric vehicles. This collection of nine papers presents the modeling and simulation of batteries and the continuing contribution being made to this impressive progress, including topics that cover:

  • Thermal behavior and characteristics
  • Battery management system design and analysis
  • Moderately high-fidelity 3D capabilities
  • Optimization Techniques and Durability

As electric vehicles continue to gain interest from manufacturers and consumers alike, improvements in economy and affordability, as well as adoption of alternative fuel sources to meet government mandates are driving battery research and development. Progress in modeling and simulation will continue to contribute to battery improvements that deliver increased power, energy storage, and durability to further enhance the appeal of electric vehicles.

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Introduction

Chapter 1 : Characterizing Thermal Behavior of an Air-Cooled Lithium-Ion Battery System for HEV Applications Using FEA Approach (2013-01-1520)
Chapter 2 : AutoLion™ : A Thermally Coupled Simulation Tool for Automotive Li-Ion Batteries (2013-01-1522)
Chapter 3 : Simplified Extended Kalman Filter Observer for SOC Estimation of Commercial Power-Oriented LFP Lithium Battery Cells (2013-01-1544)
Chapter 4 : A Complete Li-Ion Battery Simulation Model (2014-01-1842)
Chapter 5 : Comparison of Optimization Techniques for Lithium-Ion Battery Model Parameter Estimation (2014-01-1851)
Chapter 6 : Physics-Based Models, Sensitivity Analysis, and Optimization of Automotive Batteries (2014-01-1865)
Chapter 7 : Three-Dimensional Electrochemical Analysis of a Graphite/LiFePO4 Li-Ion Cell to Improve Its Durability (2015-01-1182)
Chapter 8 : Experimental Measurements of Thermal Characteristics of LiFePO4 Battery (2015-01-1189)
Chapter 9 : Will Your Battery Survive a World With Fast Chargers? (2015-01-1196)

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