Modelling and Simulation of Sono-Processes: Fundamental and Semi Empirical Approaches for Ultrasound-Assisted Processes and Sonochemistry
Kerboua, Kaouther
Modelling and Simulation of Sono-processes provides an overview of the mathematical modelling and numerical simulation as applied to sono-process-related phenomena, from the microscopic to the macroscopic scale, collecting information on this topic into one dedicated resource for the first time. It covers both fundamental and semi-empirical approaches and includes both physical and chemical effects. Single acoustic cavitation bubble and bubble population-related aspects are modelled mathematically, and numerical simulation procedures and examples are presented. In addition, the procedure involving semi-empirical modelling of sonochemical activity and sonochemical reactors is demonstrated and ultrasound assisted processes (hybrid processes) are demonstrated including several case studies. Modelling and Simulation of Sono-processes is written primarily for advanced graduates or early career researchers in physics, physical chemistry or mathematics who want to use mathematical modelling and numerical simulation of aspects related to acoustic cavitation bubble, bubble population, sonochemistry, sonochemical reactors and ultrasound-assisted processes. Uses an evolutive approach to build understanding of scale (microscopic to macroscopic) of modelsClear hypotheses will be advanced with justifications and guidelines to select the appropriate assumptions according to the studied case and the objective of the modelling procedureResolution methods and simulation conditions are presented in each chapter to offer a reference for reproducible resultsSpecial attention is given to semi-empirical approaches to handle complex phenomenon accordingly in ultrasound-assisted processes, offering a reliable method to approach mathematically apparent effects of sonicationMetrics are presented for the assessment of the efficiency of sonication (alone or in hybrid processes) according to the studied case and the intended effect INDICE: Part I: Introduction to mathematical modelling and simulation of sono-processes 1. Fundamentals of acoustic cavitation, ultrasound assisted processes and sonochemistry 2. Basics and principles of fundamental and semi-empirical modelling and simulation of sono-processes Part II: Fundamental modelling of sono-processing: from the single bubble to bubble population 3. Acoustic wave propagation in liquid medium and damping mechanisms: Modelling and simulation 4. Acoustic streaming: Modelling and simulation 5. Nucleation of single acoustic cavitation bubble: Modelling and simulation 6. Oscillation of single acoustic cavitation bubble: Modelling and simulation 7. Thermodynamics of single acoustic cavitation bubble: Modelling and simulation 8. Microstreaming from acoustic cavitation bubble: Modelling and simulation 9. Shockwave from acoustic cavitation bubble: Modelling and simulation 10. Microjet from acoustic cavitation bubble: Modelling and simulation 11. Sonochemistry from acoustic cavitation bubble: Modelling and simulation 12. Sonoluminescence from acoustic cavitation bubble: Modelling and simulation 13. Acoustic bubble population: Modelling and simulation of the number density 14. Acoustic bubble population: Modelling and simulation of size distribution 15. Acoustic bubble population: Modelling and simulation of spatial distribution 16. Acoustic bubble cluster: Modelling and simulation of dynamics, interaction, and coalescence Part III: Semi-empirical modelling of sono-processing: from experiments to mathematical models 17. Semi -empirical modelling of sonochemical reaction 18. Semi-empirical modelling of acoustic bubble population 19. Semi-empirical modelling of sonochemical reactors 20. Semi-empirical modelling of ultrasound assisted separation 21. Semi-empirical modelling of ultrasound assisted mixing 22. Semi-empirical modelling of ultrasound assisted synthesis 23. Sono-processes: Quantitative metrics for efficiency evaluation 24. Sono-processes: Quantitative metrics of greenness character
- ISBN: 978-0-443-23651-8
- Editorial: Elsevier Science
- Encuadernacion: Rústica
- Páginas: 352
- Fecha Publicación: 01/12/2024
- Nº Volúmenes: 1
- Idioma: Inglés