Principles of Electrochemical Conversion and Storage Devices
Blackwell Verlag GmbH
978-3-527-35060-5 (ISBN)
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Starting with the importance and background of electrochemical foundations, Principles of Electrochemical Conversion and Storage Devices explains the working principles and electrochemistry of electrochemical cells. After a summary of thermodynamic and kinetics, different types of fuel cells as well as batteries and capacitors are covered.
This book is written in the style of a textbook, providing illustrative examples and inspiring problems to facilitate the understanding of essential principles of electrochemical cells while offering practical insights for research pursuits. Various application examples are provided at the end of each chapter to strengthen reader understanding of energy storage from a practical point of view.
Written by a highly qualified and awarded academic and based on a culmination of his two decades of personal teaching and research experience in the field, Principles of Electrochemical Conversion and Storage Devices includes information on:
Common reference electrodes and potentials, standard electrode potentials in aqueous solutions, and current functions for the charge transfer process
Standard Gibbs free energy of formation of selected compounds, standard heat of combustion of common fuels, and commonly used physical constants
Latest developments in the field, especially surrounding clean energy technologies, and various experimental methods essential for conducting rigorous electrochemical research
Characterizing methods, key materials, and governing principles behind all of the covered devices
Providing comprehensive coverage of the subject, Principles of Electrochemical Conversion and Storage Devices is an excellent resource tailored for researchers and students from all technical and natural science disciplines seeking to understand more about the most promising energy-related devices and the potential they hold to change the world.
Professor Kevin Huang is a SmartState Endowed Chair and Director of the Solid Oxide Fuel Cell Center at University of South Carolina. He teaches Advanced Thermodynamics and Energy Storage to graduate students. He is the associate editor of Journal of Electrochemical Energy Conversion and Storage. He is the recipient of numerous awards, including the 2018 Breakthrough Leadership in Research Award and the 2017 Educational Foundation Award for Research in Science, Mathematics, and Engineering.
1. INTRODUCTION
1.1 Importance of EECS
1.2 Current status of EECS
1.3 Motivation
1.4 Coverage
2. THERMODYNAMICS FOR ELECTROCHEMICAL CELLS
2.1 Chemical potentials
2.2 Gibbs free energy, enthalpy and entropy
2.3 Nernst equation
2.4 Temperature and pressure coefficients of Nernst potential
2.5 Electrode potentials
2.6 Problems
3. KINETICS FOR ELECTROCHEMICAL CELLS
3.1 Transport of charged particles in solids
3.2 Mass transfer by migration and diffusion in liquids
3.3 Kinetics of electrode reactions
3.4 Double layer structure and adsorption
3.5 Problems
4. FUNDAMENTALS OF FUEL CELLS, BATTERIES, AND CAPACITORS
4.1 Working principles and key metrics of fuel cells
4.2 Working principles and key metrics of batteries
4.3 Working principles and key metrics of capacitors
4.4 Problems
5. BASIC METHODS FOR CHARACTERIZING ELECTROCHEMICAL CELLS
5.1 Potential step methods
5.2 Potential sweep methods
5.3 AC impedance spectroscopy
5.4 Bulk electrolysis methods (Coulometric titration)
5.5 Galvanic intermittent titration technique
5.6 Ionic conductivity/transport number measurement
5.7 Problems
6. KEY MATERIALS FOR ELECTROCHEMICAL CELLS
6.1 Electrolyte materials
6.2 Cathode materials
6.3 Anode materials
6.4 Current collector materials
6.5 Problems
7. MULTIPHYSICS MODELING OF ELECTROCHEMICAL CELLS
7.1 Basic electrochemical processes
7.2 Governing equations
7.3 Computational procedures
7.4 Experimental validation
7.5 Performance predictions
7.6 Problems
8. EXEMPLARY APPLICATIONS OF ELECTROCHEMICAL ENERGY CONVERSION AND STORAGE DEVICES
8.1 Proton exchange membrane fuel cells
8.2 Solid oxide fuel cells
8.3 Lead-acid batteries
8.4 Ni-Cd batteries
8.5 Ni-MH batteries
8.6 Zn-ion batteries
8.7 Li-ion batteries
8.8 Na-ion batteries
8.9 K--ion batteries
8.10 Metal-air batteries
8.11 Problems
| Erscheint lt. Verlag | 9.10.2024 |
|---|---|
| Verlagsort | Berlin |
| Sprache | englisch |
| Maße | 170 x 244 mm |
| Themenwelt | Naturwissenschaften ► Chemie |
| Technik ► Elektrotechnik / Energietechnik | |
| Technik ► Maschinenbau | |
| ISBN-10 | 3-527-35060-8 / 3527350608 |
| ISBN-13 | 978-3-527-35060-5 / 9783527350605 |
| Zustand | Neuware |
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