Detailed Introduction

Industrial-grade ultrasonic stirrer

Ultrasonic and mechanical stirring combined: Mechanical stirring only achieves uniform mixing and dispersion, while ultrasonic stirring activates, breaks down, and oscillates, utilizing the formation, oscillation, growth, contraction, and eventual collapse of cavities in the liquid, triggering physical and chemical changes. The cavitation-induced physical, mechanical, thermal, biological, and chemical effects. After selecting the appropriate stirring speed, adding ultrasound, and adjusting the ultrasonic power to find the optimal power and amplitude, fix the ultrasonic power, reduce the stirring speed, and identify the suitable point.

Industrial-grade ultrasonic stirrers, as a physical method and tool, can create a series of near-ideal conditions within the medium of chemical reactions. This energy not only stimulates or promotes numerous chemical reactions and accelerates their pace but can also alter the direction of certain reactions, yielding unexpected effects and miracles. This is acoustic chemistry. Acoustic chemistry can be applied to almost all chemical reactions, including solid-liquid mixing, ultrasonic stirring, nanomaterial dispersion, breaking up and separating solid-liquid agglomerates, synthesis and degradation, biodiesel production, microbial control, biodegradable treatment, cell disruption, dispersion, and coagulation, and more.

Key Features:

The ultrasonic mixing equipment upgrade is simple and does not require any changes to the customer's existing production equipment and process flow.

2. Focused design with high energy density, significantly improving yield and efficiency; ultrasonic energy conversion rate exceeds 80%.

3. Utilizes ultrasonic CNC-driven power supply, featuring full digital circuit control and strong anti-interference capability.

4. Frequency and power are real-time monitorable, with continuous power adjustment capability, featuring automatic alarm protection and easy operation.

5. Easy installation, with standard flange connection, reducing costs and energy consumption.

6. The equipment is suitable for high temperature, high pressure, high viscosity, and various working environments. It can be customized to meet customer requirements and tailored usage solutions. Additionally, it can be used in combination with multiple sets to increase the radiation area and enhance production output.