PRECISE ENERGY: A MISSING VIEW ON BATTERIES A Missing View on Batteries – PDF/EPUB Version Downloadable

Achievable energy densities dominate important future research activities on battery technology. This book deduces in detail the future options for energy density enhancement of rechargeable battery cells and complete batteries. It connects rechargeability to energy density limits and gives a detailed argumentation on how and when battery energy densities will achieve their inherent limits.

This work provides key insights for the future market for modern batteries and points readers towards future battery cell designs — highlighting their limitations and potential advancements, and discusses which battery cell technologies will survive and dominate. It identifies the most promising candidates for achieving higher energy densities and explores the trade-offs between energy density, power density, lifetime, safety, and costs. It also investigates the influence of raw materials on energy densities and provides an overview of progress made in battery energy densities. Lastly, it expands the discussion to alternative energy storage systems, revealing a compelling vision for the future of energy storage.

Precise Energy is a valuable resource for researchers and students of related fields, engineers and other professionals with corresponding background, and decision and policymakers interested in the evolving landscape of energy storage and its profound impact on our future.

Contents:

• About the Editors
• About the Contributors
• Acknowledgments
• Introduction — Energy Reimagined: Precise Discussions on Batteries are Shaping the Future (Julian Joël Grimm and Kai Peter Birke)
• The Periodic System of Elements as the Limiting Factor for Galvanic Cell Design (Elisa Thauer and Kai Peter Birke)
• Energy Density vs. Power Density: Implications for Electrolyte Quantity and Filling Procedure (Johannes Wanner and Kai Peter Birke)
• The Best Battery Cell Candidates for Highest Energy Density (Kathrin Schad and Kai Peter Birke)
• Energy Density versus Power Density, Lifespan, Safety, and Costs (Sabri Baazouzi and Kai Peter Birke)
• The Role of Raw Materials in Enhancing or Limiting Energy Density (Daniel Steffen Reichert and Kai Peter Birke)
• Remaining Energy Densities on Battery Systems Level (Julian Joël Grimm and Kai Peter Birke)
• Achievable Progress in Battery Energy Densities (Yucheng Luo and Kai Peter Birke)
• Power-to-X Technology for Decarbonizing Non-Land Transportation, Heating, and Chemical Industry (Paul Röβner and Kai Peter Birke)
• Index

Readership: Researchers, postgraduate and advanced undergraduate students, industry professionals, specialising in battery cell R&D and manufacturing, as well as governments and civil servants who wish to understand the topic.