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 f 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. Cavitation bubble collapse dynamics near various boundaries based on Kelvin impulse theory 8.

Thermodynamics of single acoustic cavitation bubble: Modelling and simulation 9. Microstreaming from acoustic cavitation bubble: Modelling and simulation 10. Shockwave from acoustic cavitation bubble: Modelling and simulation 11. Microjet from acoustic cavitation bubble: Modelling and simulation 12. Sonochemistry from acoustic cavitation bubble: Modelling and simulation 13. Sonoluminescence from acoustic cavitation bubble: Modelling and simulation 14. Acoustic bubble population: Modelling and simulation of the number density 15. Acoustic bubble cluster: Modelling and simulation of dynamics, interaction, and coalescence Part III: Semi-empirical modelling of sono-processing: from experiments to mathematical models 16.

Semi-empirical modelling of acoustic bubble population 17. Acoustic bubble population: Modelling and simulation of size distribution 18. Semi-empirical modelling of sonochemical reactors 19. Semi-empirical modelling of ultrasound assisted separation 20. Semi-empirical modelling of ultrasound assisted synthesis 21. Sono-processes: Quantitative metrics for efficiency evaluation.