He obtained his PhD in materials science (ion conducting ceramics) from the University of Kiel, Germany in 1998. Professor Kai Peter Birke is a physicist and a full Professor at the University of Stuttgart, Germany, covering the field of Electrical Energy Storage Systems, including new cell materials and technologies, advanced Li-Ion batteries and Power to X. Also provides an advanced training course for anyone interested in the field of modern batteries. Readership: Engineers and professionals dealing with or specialising in cell technologies and their R&D. Power-to-X Conversion Technologies (Friedrich-Wilhelm Speckmann and Kai Peter Birke).Battery Recycling: Focus on Li-ion Batteries (Daniel Horn, Jörg Zimmermann, Andrea Gassmann, Rudolf Stauber and Oliver Gutfleisch).Potential of Capacitive Effects in Lithium-ion Cells (Alexander Uwe Schmid and Kai Peter Birke).Every Day a New Battery: Aging Dependence of Internal States in Lithium-ion Cells (Severin Hahn and Kai Peter Birke).Volume Strain in Lithium Batteries (Jan Patrick Singer and Kai Peter Birke).Fundamental Aspects of Reconfigurable Batteries: Efficiency Enhancement and Lifetime Extension (Nejmeddine Bouchhima, Matthias Gossen and Kai Peter Birke).Parallel Connection of Lithium-ion Cells - Purpose, Tasks and Challenges (Alexander Fill).Integral Battery Architecture with Cylindrical Cells as Structural Elements (Christoph Bolsinger, Marcel Berner and Kai Peter Birke).Lithium-ion Cells: Discussion of Different Cell Housings (Kai Peter Birke and Shkendije Demolli).Fundamental Aspects of Achievable Energy Densities in Electrochemical Cells (Kai Peter Birke and Desirée Nadine Schweitzer).This book is ideal for training courses for readers interested in the field of modern batteries.Ĭhapter 1: Fundamental Aspects of Achievable Energy Densities in Electrochemical Cells The book will help readers understand the principle issues of battery designs, paving the way for engineers to avoid wrong paths and settle on appropriate cell technologies for next generation batteries. Modern Battery Engineering explains why and how batteries have to be designed for successful commercialization in e-mobility and stationary applications. The book provides distinguished answers to still open questions on how future batteries look like. Emphasizing the engineering part of batteries, the book acts as a compass towards next generation batteries for automotive and stationary applications. This richly illustrated book written by Professor Kai Peter Birke and several co-authors addresses both scientific and engineering aspects of modern batteries in a unique way.
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