Enhancing sonochemical processes with pulsed focused ultrasound

live at ESS 19

In sonochemistry, cavitation is not difficult to generate — the real challenge is to control it precisely and consistently, enabling continuous, uninterrupted operation while delivering higher volumetric power density when required by the process.

Addressing this challenge with pulsed focused ultrasound

Pulsed focused ultrasound provides a new way to regulate cavitation:
it can be triggered and controlled in a more stable and rhythmic manner.At the 19th Meeting of the European Society of Sonochemistry, we will demonstrate it, allowing you to observe how cavitation starts and evolves — not just through data, but under real operating conditions.

What does this mean for your chemical process?

This approach makes it possible to:
• trigger cavitation at a defined point in the flow
• support continuous processing, compatible with industrial systems
• deliver higher volumetric power density when required by the process
enabling better process control and providing a more reliable basis for optimization and scale-up

Sonochemical Reactor

For sonochemical applications, our solutions typically include:
A ultrasonic generator
→ converts the power supply into a signal adapted to the operating frequency at real time
A cup horn
→ converts the electrical signal into mechanical vibrations in the liquid
A reactor, positioned on the cup horn
→ designed to suit your process conditions

Meet us at ESS 19

Chania, Greece
May 25–29, 2026

Join us to explore this approach and discuss your application