Drawing on my experience in thermochemical processes, combustion, reactive systems, and industrial consulting—as well as insights from the literature—I view hydrodynamic cavitation (HC) not only as a high-performance mixing technology but also as an adjustable and efficient reactor concept. Its controlled physical and chemical effects enable process optimization, improved efficiency, and innovation across a broad range of industrial applications.
By combining intense physical effects (mixing, shear, localized heat and pressure) with chemical interactions, HC enables multiple processing functions across the value chain:
By combining intense physical effects (mixing, shear, localized heat and pressure) with chemical interactions, HC enables multiple processing functions across the value chain:
- Pretreatment: conditioning, cleaning, activation
- Treatment: reaction acceleration, conversion, reforming, and upgrading
- Post-treatment: stabilization, purification, and homogenization
