Ultrasonic material emulsification and dispersion system

Product Description

The principle of ultrasonic fracturing, emulsification, and dispersion: The ultrasonic transducer driving circuit converts 50/60Hz mains electricity into 2000Hz high-frequency voltage electrical energy. This energy acts on the liquid to generate a powerful pressure wave, which forms millions of microscopic bubbles. With high-frequency vibration, the bubbles will rapidly grow and then suddenly close. When the bubbles close, strong shock waves are generated due to the collision between the liquids, generating thousands of atmospheres of pressure (i.e. ultrasonic waves) and an instantaneous temperature of 5000 ℃ around them, with a temperature change rate greater than 109K/s.
Product features: The ultrasonic emulsification and dispersion system utilizes multiple interactions such as ultrasonic dispersion, crushing, and activation. Its function can destroy the solvent structure, improve reaction activity, disperse powder particles, and further reduce their linearity. Through on-site experiments, it has been proven that ultrasonic reactors have a significant effect on the ultrafine powder and nano dispersion of powdered substances in liquid phase. At the same time, they can also accelerate reactions involving powdered substances, emulsification reactions, and homogeneous reactions. They are widely used in laboratory fields such as chemical engineering, petroleum, metallurgy, coal, electronics, medicine, building materials, and light industry.

Ultrasonic material emulsification and dispersion system

★ Scope of use:

Emulsification and microemulsification of oil-water or other materials in petroleum and chemical processes. It can also be used for liquid processing in industries such as light industry, nanomaterials, food, and medicine.

★Product Description：

The ultrasonic material emulsification and dispersion system involves directly immersing the amplitude rod of a high-power ultrasonic transducer into the reaction liquid, allowing sound energy to enter the reaction system directly without the need for transmission through the reactor wall of the cleaning tank. Its advantage is that it can directly deliver a large amount of energy to the reaction medium, effectively converting electrical energy into mechanical energy, and can control the magnitude of ultrasonic energy by changing the amplitude of the energy delivered to the transducer.

★Product parameters：

Model	Operating Frequency（KHz）	Ultrasonic power （w）	Random amplitude rod	Processing capacity（ml）	Optional variable amplitude pole	Temperature control (optional)
XO-200F	22±1	200WAdjustable tuning	Φ6	0.2-150	Φ2、Φ3，Φ10	-50~300℃
XO-500F	22±1	500WAdjustable tuning	Φ6	0.2-200	Φ2、Φ3，Φ10
XO-1000F	20±1	1000Adjustable tuning	Φ10	50-600	Φ6、Φ15
XO-1500F	20±1	1500Adjustable tuning	Φ20	250-1500	Φ25
XO-2000F	20±1	2000Adjustable tuning	Φ25	100-2000	Φ25
XO-2500F	20±1	2500Adjustable tuning	Φ25	500-5000	Φ28

Main features:

The concentrated energy ultrasonic material emulsifier disperser is a device that directly immerses the amplitude rod of a high-power ultrasonic transducer into the reaction liquid, allowing sound energy to enter the reaction system directly without the need for transmission through the reactor wall of the cleaning tank. Its advantage is that it can directly deliver a large amount of energy to the reaction medium, effectively converting electrical energy into mechanical energy, and can control the magnitude of ultrasonic energy by changing the amplitude of the energy delivered to the transducer
This product has strong scalability. (As shown in the picture)
(1) Optional cooling water circulation device, combined with a specially designed double-layer glass reaction kettle, forms a cooling water circulation system that achieves precise temperature control at any temperature point within the range of -50~300 ℃, effectively avoiding sample tissue damage caused by excessive temperature. Compared with traditional ice bath cooling, it is more convenient and accurate.
(2) Optional magnetic stirrer. By stirring, the emulsification rate of the processed sample can be improved, resulting in a better treatment effect.