Handbook of lithium-ion battery pack design : chemistry, components, types, and terminology.

The Handbook of Lithium-Ion Battery Pack Design, authored by John T. Warner, provides an in-depth exploration of lithium-ion battery pack design. It covers a range of topics including battery chemistry, components, and terminology, emphasizing design criteria, engineering processes, and thermal mana...

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Bibliographic Details
Main Author: Warner, John (John T.)
Corporate Author: ScienceDirect (Online service)
Format: eBook
Language:English
Published: [S.l.] : Elsevier, 2024.
Edition:2nd ed.
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Front Cover
  • The Handbook of Lithium-Ion Battery Pack Design
  • The Handbook of Lithium-Ion Battery Pack Design
  • Copyright
  • Contents
  • List of Figures
  • List of Tables
  • About the Author
  • Preface to the Second Edition
  • References
  • 1
  • Introduction
  • Factors Influencing Consumer Adoption of Electric Vehicles
  • Other Adoption Factors
  • Evolving Vehicle Technologies and Systems
  • Purpose of the Book
  • Chapter Outline
  • 2
  • History of Vehicle Electrification
  • The History of the Modern Storage Battery
  • Primary Cells
  • Dry Cells
  • Secondary Batteries
  • An Electrical Industry Emerges
  • Early Electric Vehicle Development
  • Vehicle Electrification 1970-90
  • Vehicle Electrification 1990-2000
  • Vehicle Electrification 2000 to Present
  • Japanese and Korean OEMs
  • European OEMs
  • Chinese OEMs
  • Start-ups
  • Summary
  • 3
  • Basic Terminology
  • Vehicle Terms
  • Stationary and Grid Terminology
  • Battery Terms
  • Summary
  • 4
  • Battery Pack Design Criteria and Selection
  • Ohm's Law and Basic Battery Calculations
  • Understanding Customer Requirements
  • Calculating the Number of Cells Needed
  • Calculating the Pack Energy and Capacity
  • Calculating Total Pack Energy
  • Calculating Usable Energy
  • Calculating End of Life Energy
  • Calculating System Power
  • Maximum Continuous Discharge
  • Calculating Charge Voltages
  • Power to Energy Ratios
  • Large Stationary and Grid Systems
  • Application Engineering and Systems Engineering
  • Quick Formula Summary
  • 5
  • Battery Engineering Processeses and Methods
  • Technology Readiness Levels
  • Battery Pack Engineering Process and Stages
  • Program and Project Management
  • Feasibility Stage
  • Proof of Concept (Alpha) Stage
  • Production Design (Beta) Stage
  • Failure Mode and Effects Analysis
  • Design for Reliability and Design for Service
  • Design for Service
  • Process Verification
  • Quality and Reliability
  • How It Really Works
  • 6
  • Battery Engineering Tools: Computer-Aided Engineering, Design, and Analysis
  • National Laboratories
  • Software Providers and Packages
  • Analysis Types
  • Battery Sizing Tools
  • 7
  • Lithium-ion and Other Cell Chemistries
  • Lead Acid
  • Nickel-Based Chemistries
  • Nickel Cadmium
  • Nickel Metal Hydride
  • Nickel Iron
  • Nickel Zinc
  • Nickel Hydrogen
  • Sodium-Based Chemistries
  • Sodium-ion
  • Sodium Sulfur
  • Lithium-ion Cells
  • Cathode Chemistries
  • Anode Materials
  • Separators
  • Electrolytes
  • Safety Features
  • Lithium-ion Cell Types and Sizes
  • Cylindrical Cells
  • Prismatic Cells
  • Pouch Cells
  • Lithium-ion Cell Manufacturers
  • 8
  • Battery Management System Controls
  • Battery Management System Typologies
  • Centralized/Monolithic Battery Management System
  • Master-Slave BMS
  • Distributed Battery Management System
  • Battery Management System Hardware
  • Balancing
  • Active Versus Passive Balancing
  • Additional Battery Management System Functionality
  • Software and Controls
  • 9
  • System Control Electronics