In Flow Batteries werden die wichtigsten Aspekte und neuesten Entwicklungen in Bezug auf Flussbatterien und Redox-Flow-Batterien (FB bzw. RFB) von den Grundlagen bis zu den kommerziellen Anwendungen dargestellt. Dies umfasst auch die elektrochemischen Grundkenntnisse, die verwendeten Materialien und ihre Charakterisierung. Das von einem Team führender Experten, darunter der Erfinderin der Flussbatterietechnologie Maria Skyllas-Kazacos, herausgegebene Werk enthält u. a. die folgenden Themen: - Computermodellierung und -simulation von FB unter Berücksichtigung quantenmechanischer…mehr
In Flow Batteries werden die wichtigsten Aspekte und neuesten Entwicklungen in Bezug auf Flussbatterien und Redox-Flow-Batterien (FB bzw. RFB) von den Grundlagen bis zu den kommerziellen Anwendungen dargestellt. Dies umfasst auch die elektrochemischen Grundkenntnisse, die verwendeten Materialien und ihre Charakterisierung. Das von einem Team führender Experten, darunter der Erfinderin der Flussbatterietechnologie Maria Skyllas-Kazacos, herausgegebene Werk enthält u. a. die folgenden Themen:
- Computermodellierung und -simulation von FB unter Berücksichtigung quantenmechanischer Überlegungen, Zellen-, Stapel- und Systemmodellierung, Techno-Ökonomie und Netzverhalten - Die ausgereifte Variante der Vanadium-Flussbatterie sowie die neu entwickelten FB mit unterschiedlichen chemischen Verfahren und deren Einfluss auf den Forschungsbereich - Kommerziell erhältliche FB unterschiedlicher Hersteller, die darin verwendete Technologie und deren Anwendungsbereiche - Die Rolle von FB bei der Bewältigung der globalen Energiekrise
Flow Batteries ist ein wertvolles Referenzwerk für Forscher und Ingenieure in Industrie und Wissenschaft, die sich mit dieser spannenden neuen Technologie befassen und den vollen Umfang der aktuellen und künftigen Anwendungsmöglichkeiten ergründen möchten.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Christina Roth is Full Professor at the University of Bayreuth and the Chair of Electrochemical Process Engineering. Having obtained her academic degrees from the Technical University of Darmstadt and after a post-doctoral stay at Liverpool University, UK, she began her career as junior group leader at the Karlsruhe Institute of Technology (KIT). In 2012, she became professor at the Freie Universität Berlin, before taking up her present appointment at the Faculty of Engineering Sciences at the University of Bayreuth in 2019. Her research interests comprise methodical and materials development for electrochemical energy technologies, such as fuel cells and batteries. Jens Noack is an Adjunct Associate Professor at the University of New South Wales (UNSW) in Sydney and works since 2007 for the Fraunhofer Institute for Chemical Technology (ICT) in the Department for Applied Electrochemistry. He studied chemical engineering and environmental technology at the Dresden University of Applied Sciences and received his PhD from Karlsruhe Institute of Technology. His research and development focuses on stationary energy storage systems for renewable energies and the development of novel energy storage and conversion systems. He has authored over 100 publications and 29 patent applications and is a member of several standardisation committees in IEC and DKE and the chairman of the German national committee on flow batteries. Maria Skyllas-Kazacos is Professor Emeritus in the School of Chemical Engineering at UNSW Sydney where she has been a member of the academic staff since 1980, initially as Queen Elizabeth Fellow and Lecturer, reaching Full Professor in 1993. She and her research team are the pioneers of the vanadium redox flow battery technology that was patented by UNSW in 1986. She is a Member of the Australian Academy of Technological Sciences and Engineering and has received a number of Honours for her work on the VRB, including Member of the Order of Australia, the Castner Medal of the UK Chemical Industry Group, the Chemeca Medal of the Australian Institute of Engineers and the RK Murphy Medal of the Royal Australian Chemical Institute. She is the author or co-author of numerous book chapters on batteries and energy storage and of more than 200 publications, and she holds over 40 patents in the field.
Inhaltsangabe
VOLUME 1 PART 1: FUNDAMENTALS The Need for Stationary Energy Storage History of Flow Batteries General Electrochemical Fundamentals of Batteries General Aspects and Fundamentals of Flow Batteries Redox-mediated Processes Membranes for Flow Batteries Standards for Flow Batteries Safety Considerations of the Vanadium Flow Battery A Student Workshop in Sustainable Energy Technology: The Principles and Practice of a Rechargeable Flow Battery
PART 2: CHARACTERIZATION OF FLOW BATTERIES AND MATERIALS Characterization Methods in Flow Batteries: A General Overview Electrochemical Methods Radiography and Tomography Characterization of Carbon Materials Characterization of Membranes for Flow Batteries
PART 3: MODELING AND SIMULATION Quantum Mechanical Modeling of Flow Battery Materials Mesoscale Modeling and Simulation for Flow Batteries Continuum Modelling and Simulation of Flow Batteries Pore-scale Modeling of Flow Batteries Dynamic Modelling of Vanadium Flow Batteries for System Monitoring and Control Techno-economic Modelling and Evaluation of Flow Batteries Machine Learning for FB Electrolyte Screening
VOLUME 2 PART 4: VANADIUM FLOW BATTERIES The History of the UNSW All-Vanadium Flow Battery Development Vanadium Electrolytes and Related Electrochemical Reactions Electrodes for Vanadium Flow Batteries (VFBs) Membranes for Vanadium Flow Batteries Advanced Flowfield Architecture for Vanadium Flow Batteries State-of-Charge Monitoring for Vanadium Redox Flow Batteries Rebalancing/Regeneration of Vanadium Flow Batteries Life Cycle Analysis of Vanadium Flow Batteries Next-Generation Vanadium Flow Batteries Asymmetric Vanadium-based Aqueous Flow Batteries
PART 5: OTHER IMPORTANT INORGANIC FLOW BATTERY TECHNOLOGIES Zn/Br Battery - Early Research and Development An Overview of the Polysulfide/Bromine Flow Battery Fe/Fe Flow Battery Zinc-Cerium and Related Cerium-Based Flow Batteries: Progress and Challenges Undivided Copper-Lead Dioxide Flow Battery Based on Soluble Copper and Lead in Aqueous All-copper Flow Batteries Hydrogen-Based Flow Batteries
VOLUME 3 PART 6: ORGANIC FLOW BATTERIES Aqueous Organic Flow Batteries Metal Coordination Complexes for Flow Batteries Organic Redox Flow Batteries: Lithium-Ion-based FBs Nonaqueous Metal-Free Flow Batteries Polymeric Flow Batteries
PART 7: INDUSTRIAL AND COMMERCIALIZATION ASPECTS OF FLOW BATTERIES Inverter Interfacing and Grid Behaviour Flow-Battery System Topologies and Grid Connection Vanadium FBESs installed by Sumitomo Electric Industries, Ltd Industrial Applications of Flow Batteries Applications of VFB in Rongke Power Metal-Free Flow Batteries Based on TEMPO Commercialization of All-Iron Redox Flow-Battery Systems Application of Hydrogen-Bromine Flow Batteries: Technical Paper Some Notes on Zinc/Bromine Flow Batteries Mobile Applications of the ZBB
VOLUME 1 PART 1: FUNDAMENTALS The Need for Stationary Energy Storage History of Flow Batteries General Electrochemical Fundamentals of Batteries General Aspects and Fundamentals of Flow Batteries Redox-mediated Processes Membranes for Flow Batteries Standards for Flow Batteries Safety Considerations of the Vanadium Flow Battery A Student Workshop in Sustainable Energy Technology: The Principles and Practice of a Rechargeable Flow Battery
PART 2: CHARACTERIZATION OF FLOW BATTERIES AND MATERIALS Characterization Methods in Flow Batteries: A General Overview Electrochemical Methods Radiography and Tomography Characterization of Carbon Materials Characterization of Membranes for Flow Batteries
PART 3: MODELING AND SIMULATION Quantum Mechanical Modeling of Flow Battery Materials Mesoscale Modeling and Simulation for Flow Batteries Continuum Modelling and Simulation of Flow Batteries Pore-scale Modeling of Flow Batteries Dynamic Modelling of Vanadium Flow Batteries for System Monitoring and Control Techno-economic Modelling and Evaluation of Flow Batteries Machine Learning for FB Electrolyte Screening
VOLUME 2 PART 4: VANADIUM FLOW BATTERIES The History of the UNSW All-Vanadium Flow Battery Development Vanadium Electrolytes and Related Electrochemical Reactions Electrodes for Vanadium Flow Batteries (VFBs) Membranes for Vanadium Flow Batteries Advanced Flowfield Architecture for Vanadium Flow Batteries State-of-Charge Monitoring for Vanadium Redox Flow Batteries Rebalancing/Regeneration of Vanadium Flow Batteries Life Cycle Analysis of Vanadium Flow Batteries Next-Generation Vanadium Flow Batteries Asymmetric Vanadium-based Aqueous Flow Batteries
PART 5: OTHER IMPORTANT INORGANIC FLOW BATTERY TECHNOLOGIES Zn/Br Battery - Early Research and Development An Overview of the Polysulfide/Bromine Flow Battery Fe/Fe Flow Battery Zinc-Cerium and Related Cerium-Based Flow Batteries: Progress and Challenges Undivided Copper-Lead Dioxide Flow Battery Based on Soluble Copper and Lead in Aqueous All-copper Flow Batteries Hydrogen-Based Flow Batteries
VOLUME 3 PART 6: ORGANIC FLOW BATTERIES Aqueous Organic Flow Batteries Metal Coordination Complexes for Flow Batteries Organic Redox Flow Batteries: Lithium-Ion-based FBs Nonaqueous Metal-Free Flow Batteries Polymeric Flow Batteries
PART 7: INDUSTRIAL AND COMMERCIALIZATION ASPECTS OF FLOW BATTERIES Inverter Interfacing and Grid Behaviour Flow-Battery System Topologies and Grid Connection Vanadium FBESs installed by Sumitomo Electric Industries, Ltd Industrial Applications of Flow Batteries Applications of VFB in Rongke Power Metal-Free Flow Batteries Based on TEMPO Commercialization of All-Iron Redox Flow-Battery Systems Application of Hydrogen-Bromine Flow Batteries: Technical Paper Some Notes on Zinc/Bromine Flow Batteries Mobile Applications of the ZBB
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