Modeling and Control of a Vanadium Redox Flow Battery

This book presents extensive work on the modeling and control aspects of the emerging field of vanadium redox flow batteries. After providing a detailed literature review, it describes a comprehensive model that defines the main phenomena associated with vanadium redox flow batteries, covering electrochemical, thermal, hydraulic, and voltage aspects. Phenomena and models are described in a concise manner using a set of differential equations that share common parameters and states. Various electrochemical models based on conservation principles and operating condition assumptions are described, and used for estimating the state of charge and state of health. Different methodologies for accurately estimating these indicators through offline optimization problems and online observers are presented. In turn, the results obtained from real experimental setups are presented and validated, providing a better understanding of the components, design, and operation of vanadium redox flow batteries.

Chapter 1. Introduction. - Chapter 2. The Vanadium Redox Flow Battery. - Chapter 3. State of the Art. - Chapter 4. Vanadium Redox Flow Battery Modeling. - Chapter 5. Vanadium Electrochemical Model Analysis. - Chapter 6. Parameter and State Estimation. - Chapter 7. Control Strategies Theory. - Chapter 8. Experimental Setup. - Chapter 9. Experimental Validation. - Chapter 10. Concluding Remarks. - Chapter 11. Model Interface and Webpage.