A complete all-in-one reference on the important interdisciplinary topic of Battery Systems Engineering. Focusing on the interdisciplinary area of battery systems engineering, this book provides the background, models, solution techniques, and systems theory that are necessary for the development of advanced battery management systems. It covers the topic from the perspective of basic electrochemistry as well as systems engineering topics and provides a basis for battery modeling for system engineering of electric and hybrid electric vehicle platforms.
This original approach gives a useful overview for systems engineers in chemical, mechanical, electrical, or aerospace engineering who are interested in learning more about batteries and how to use them effectively. Chemists, material scientists, and mathematical modelers can also benefit from this book by learning how their expertise affects battery management.
A valuable resource for Scientists and Engineers working in the battery or electric vehicle industries, Graduate students in mechanical engineering, electrical engineering, chemical engineering.
Key Features
- Approaches a topic which has experienced phenomenal growth in recent years.
- Topics covered include: Electrochemistry; Governing Equations; Discretization Methods; System Response and Battery Management Systems.
- Include tables, illustrations, photographs, graphs, worked examples, homework problems, and references, to thoroughly illustrate key material.
- Ideal for engineers working in the mechanical, electrical, and chemical fields as well as graduate students in these areas.
Contents
Chapter 1 Introduction
- 1.1 Energy Storage Applications
- 1.2 The Role of Batteries
- 1.3 Battery Systems Engineering
- 1.4 A Model-Based Approach
- 1.5 Electrochemical Fundamentals
- 1.6 Battery Design
- 1.7 Objectives of this Book
- 2.1 Lead-Acid
- 2.2 Nickel-Metal Hydride
- 2.3 Lithium-Ion
- 2.4 Performance Comparison
- 3.1 Thermodynamics and Faraday's Law
- 3.2 Electrode Kinetics
- 3.3 Solid Phase of Porous Electrodes
- 3.4 Electrolyte Phase of Porous Electrodes
- 3.5 Cell Voltage
- 3.6 Cell Temperature
- 3.7 Side Reactions and Aging
- 4.1 Analytical Method
- 4.2 Pade Approximation
- 4.3 Integral Method Approximation
- 4.4 Ritz Method
- 4.5 Finite Element Method
- 4.6 Finite Difference Method
- 4.7 System Identification in the Frequency Domain
- 5.1 Time Response
- 5.2 Frequency Response
- 5.3 Model Order Reduction
- 6.1 Lead-Acid Battery Model
- 6.2 Lithium-Ion Battery Model
- 6.3 Nickel-Metal Hydride Battery Model
- 7.1 State of Charge Estimation
- 7.2 Least Squares Model
- 7.3 State of Health Estimation
- 8.1 BMS Hardware
- 8.2 Charging Protocols
- 8.3 Pulse Power Capability
- 8.4 Dynamic Power Limits
- 8.5 Pack Management
- Bibliography
- Index
Book Details
- Hardcover: 250 pages
- Publisher: Wiley; 1 edition (c2013)
- Language: English
- ISBN-10: 1119979501
- ISBN-13: 978-1119979500
- Product Dimensions: 7 x 10 inches
- List Price: $125.00