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Full Description
Fundamentals and Power Engineering of Electrochemical Energy Conversion Devices: Fuel Cells, Batteries, and Electrolyzers guides energy students and engineers through the essential principles and applications of modern electrochemical energy conversion and storage devices. This book begins by introducing the types, components, and roles of electrochemical energy conversion devices in modern sustainable energy systems, before breaking down their thermodynamic energy systems and chemical-to-electric energy conversion. Later chapters delve into energy management strategies, examining efficiency considerations and control and mitigation strategies for irreversible losses. Physical design, materials, and performance degradation for system reliability, and finally analysis, simulation, and test technologies are given close attention. Collating practical and technical foundations in one holistic resource, Fundamentals and Power Engineering of Electrochemical Energy Conversion Devices: Fuel Cells, Batteries, and Electrolyzers supports energy scientists to leverage opportunities in energy storage, transmission, and conversion using electrochemical devices in sustainable energy systems.
Contents
1. Introduction to electrochemical energy conversion and devices
2. Thermodynamics for electrochemical reaction systems
3. Chemical energy to electrical energy conversion in electrochemical devices
4. Irreversible losses in electrochemical reactions for energy conversion
5. Mathematical analysis and computational simulation to determine the current-voltage curves and local details of electrochemical devices at operational conditions
6. Components designs, material properties and compatibility in fuel cells and electrolysis cells
7. Component material properties, issues causing degradation of performance in primary and rechargeable batteries
8. Control, instrumentation, and thermal management for stacks of electrochemical devices
9. Characterization and test technologies for electrochemical devices
