Advancement in Thermal Engineering and Chemistry for Lithium Batteries: Challenges, Innovations and Practical Applications is a timely and essential guide for advancing the performance, safety, and sustainability of lithium-ion batteries. The book begins with a foundational introduction to lithium batteries and then explores the mechanisms of thermal runaway and associated safety concerns. It continues with a classification of cathodes and electrolytes that is followed by in-depth discussions on electrolyte interactions, optimization strategies, and the role of additives. Readers are guided through the reaction kinetics of cathodes and electrolytes, the development of advanced cathode materials, and the thermal stability of various components.
The book then examines the importance of thermal management and the integration of artificial intelligence and machine learning in battery optimization. It concludes with chapters on sustainability, environmental impact, and emerging technologies shaping the future of lithium battery systems. Users will find this to be a comprehensive and accessible roadmap on battery research, development, and application. It combines foundational knowledge with cutting-edge insights, enabling readers to move confidently from theory to practice in designing safer, more efficient, and more sustainable energy storage solutions.
- Evaluates safety challenges through the lens of material science, electrochemistry, thermal engineering, and artificial intelligence
- Applies innovations in high energy density and solid-state electrolytes to enhance battery performance and reliability
- Assesses sustainability strategies by examining recycling techniques and economic impact models
- Analyzes electrode and electrolyte kinetics to uncover their roles in thermal stability and efficiency
- Interprets real-world case studies and emerging technologies to project future directions in lithium battery development