Modeling and Simulation of Sono-Processes

Capture the power of ultrasound in process engineering with Modeling and Simulation of Sono-Processes by Kaouther Kerboua. This authoritative guide brings clarity to the complex physics of sono-processes—acoustic cavitation, bubble dynamics, multiphase flow, and sonochemical reaction modeling—making it indispensable for engineers, researchers, and advanced students working with ultrasonic technologies.

Dive into practical modeling strategies and simulation workflows that translate laboratory phenomena into scalable industrial solutions. The book blends theory and applied techniques: numerical methods (CFD, FEM), coupling of acoustic and chemical kinetics, validation approaches, and case studies that address reactor design, process intensification, and energy efficiency. Clear diagrams and stepwise explanations help bridge the gap between experimental observation and predictive simulation.

Whether you’re optimizing ultrasonic reactors in pharmaceutical synthesis, wastewater treatment, materials processing, or academic research, this title equips you with tools to reduce trial-and-error, improve reproducibility, and accelerate scale-up. Its global perspective makes it relevant to practitioners and institutions across Europe, North America, Asia, and the MENA region seeking to integrate ultrasound into sustainable, high-performance processes.

For a rigorous, application-oriented reference that demystifies sono-processes and their simulation, add Modeling and Simulation of Sono-Processes by Kaouther Kerboua to your library. Order now to start transforming experimental insight into reliable, model-driven process solutions.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.