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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| Corporate Author: | |
| Format: | eBook |
| Language: | English |
| Published: |
[S.l.] :
Elsevier,
2024.
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| 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