Detailed Introduction

Principle of High-Power Ultrasonic Mixing Machine:

Ultrasonic dispersion refers to the process of dispersing and detaching particles in a liquid medium by utilizing the cavitation effect of ultrasound within the liquid. As a physical method and tool, ultrasonic technology can create various conditions in liquids, a phenomenon known as sonochemical action. The related ultrasonic equipment is called ultrasonic sonochemical equipment (abbreviated as "sonochemical equipment"). Ultrasonic dispersion equipment is an application of sonochemical equipment, which can be used for water treatment, solid-liquid system dispersion, detaching agglomerates of particles in liquids, and promoting solid-liquid reactions.

High-Power Ultrasonic Stirrer Introduction:

Utilizing physical technology, a series of near-equilibrium conditions are produced in the medium of chemical reactions. This energy not only excites or promotes numerous chemical reactions, speeding up their rate, but can also alter the direction of chemical reactions, yielding various effects. Acoustochemistry can be applied to virtually all chemical reactions, including extraction and separation, synthesis and degradation, bio-diesel production, microbial treatment, degradation of toxic organic pollutants, biological degradation treatment, cell disruption, dispersion, and coagulation, and more.

Principle

Ultrasonic systems consist of three main parts: the ultrasonic vibration components, the ultrasonic power supply, and the reactor. The vibration components primarily include high-power ultrasonic transducers, variable amplitude rods, and tool heads (emitters), which are used to generate ultrasonic vibrations and emit this vibrational energy into the liquid. The transducer converts electrical energy into mechanical energy, i.e., ultrasonic waves. It manifests as the transducer moving back and forth in a longitudinal direction, with an amplitude typically in the micrometer range. This amplitude power density is insufficient for direct use. The variable amplitude rod amplifies the amplitude as required by the design, isolates the reaction solution from the transducer, and also serves to fix the entire ultrasonic vibration system. The tool head is connected to the variable amplitude rod, which transfers the ultrasonic energy vibrations to the tool head. The tool head then emits the ultrasonic energy into the reaction liquid.

Features

1. Ultrasonic vibration source (power supply): Converts 50-60Hz household power into high-power high-frequency (15kHz-100kHz) power supply for the transducer.

2. Transducer (controller, transducer): Converts high-frequency electrical energy into mechanical vibration energy.

3. Amplifier Arm: Connects and secures the transducer to the tool head, amplifying the transducer's amplitude before transmitting it to the tool head.

4. Tool Head (Import Rod): Transfers mechanical energy and pressure to the workpiece while also featuring an amplitude amplification function.

5. Connecting Bolts: Securely connect all the above components.

? Features:

Industrial-grade ultrasonic homogenizers are primarily used for large-scale industrial production. Our company's industrial-grade high-power ultrasonic chemical processing equipment features high power, high efficiency, wide radiation area, and is suitable for large-scale industrial production. It includes real-time frequency and power monitoring, adjustable power, and overload alarm functions, with a length of 930mm. The industrial-grade ultrasonic homogenizer boasts an energy conversion efficiency of 80%-90%. Nano-ultrasonic dispersers can be applied to materials requiring ultrasonic dispersing, such as new materials, graphene, silicon carbide, resin, and alumina dispersing, among others.