Table of Contents

1. Sources and Types of Cavitation.- 1.1. Introduction.- 1.2. Hydrodynamic Cavitation.- 1.3. Acoustic Cavitation.- 1.4. Optic and Particle Cavitation.- 2. Cavitation Bubble Dynamics.- 2.1. Introduction.- 2.2. Bubble Dynamics.- 2.3. Cluster Dynamics.- 2.4. Heat and Mass Transfer Effects in Cavitation.- 2.5. Concluding Remarks.- 3. Factors Affecting Cavitation Behavior.- 3.1. Introduction.- 3.2. Factors Affecting Cavity Behavior in Hydrodynamic Cavitation.- 3.3. Factors Affecting Cavity Behavior in Acoustic Cavitation.- 3.4. Factors Affecting Optical Cavitation.- 3.5. Factors Affecting Cavity Cluster Behavior in Hydrodynamic Cavitation.- 3.6. Factors Affecting Cavity Cluster Behavior in Acoustic Cavitation.- 3.7. Concluding Remarks.- 4. Gas-Liquid Cavitation Chemistry.- 4.1. Introduction.- 4.2. Mechanisms for Cavitation Reaction.- 4.3. Factors Affecting Cavitation Chemistry.- 4.4. Inorganic and Organic Cavitation Reactions.- 4.5. Depolymerization and Repolymerization Reactions.- 4.6. Ultrasound and Homogeneous Oxidation.- 4.7. Ultrasound and Liquid-Liquid Phase-Transfer Reactions.- 5. Gas-Liquid-Solid Cavitation Chemistry.- 5.1. Introduction.- 5.2. General Effects of Ultrasound on Gas-Liquid-Solid Reactions.- 5.3. Specific Role of Ultrasound on Gas-Liquid-Solid Reactions.- 5.4. Case Studies.- 6. Cavitation Reactors.- 6.1. Introduction.- 6.2. Hydrodynamic Cavitation Reactors.- 6.3. Acoustic Cavitation Reactors.- 6.4. Laser Cavitation Reactors.- 6.5. Some Additional Considerations for Flow Reactors.- 6.6. Health and Safety Aspects of Laboratory Reactors.- 6.7. Integration of Cavitation into Existing Scaled-Up Processes.- 6.8. Concluding Remarks.- 7. Models for Cavitation Reactors.- 7.1. Introduction.- 7.2. General Considerations for a Gas-Liquid Cavitation Reactor Model.- 7.3. Modeling a Batch Gas-Liquid Acoustic Reactor.- 7.4. Characterization of the Reaction Zone.- 7.5. Reactor Design and Scaleup based on the Concept of Cavitation Yield.- 7.6. Memory Effect in a Loop Cavitation Reactor.- 7.7. Concluding Remarks.- 8. Energy Efficiency and the Economics of the Cavitation Conversion Process.- 8.1. Introduction.- 8.2. Efficiency of Energy Transformation.- 8.3. Economics of Cavitation Conversion Processes.- 8.4. Concluding Remarks.- 9. CAV-OX Process.- 9.1. Introduction.- 9.2. Description of Process.- 9.3. Process Economics.- 9.4. Case Studies.- Nomenclature.- References.