Introduction to Ultrasonic Emulsification Equipment
Ultrasonic emulsification equipment
Under the action of ultrasonic energy, two or more immiscible liquids are mixed together, one of which is uniformly dispersed in the other liquid to form an emulsion liquid. This treatment process is called ultrasonic emulsification.
All kinds of intermediates and consumer products, such as cosmetics and skin care products, pharmaceutical ointments, paints, lubricants and fuels, are all or part of emulsions. The ultrasonic emulsification ability of ultrasonic emulsification equipment in the laboratory has been well known and used for a long time, and it is used in industry for the emulsification of mass production in production plants.
Ultrasonic emulsification equipment can be composed of one or more multi-kilowatt ultrasonic processors, effectively providing the ability to transform laboratory applications into industrial production, and achieve results comparable to today's high-pressure homogenizers for continuous flow or batch acquisition Finely dispersed emulsion. The maintenance cost of FUNSONIC ultrasonic emulsification equipment is very low, and it is very easy to operate and clean. The power of ultrasonic emulsification equipment can be adjusted to meet specific product and emulsification requirements.
Emulsion is the dispersion of two or two insoluble liquids. High-intensity ultrasound provides the energy required to disperse small droplets into the liquid phase in the second stage. In the dispersion area, implosion cavitation will cause a strong shock wave in the surrounding liquid, forming a high-speed liquid jet. In order to stabilize the anti-coalescence effect of the newly formed dispersed phase droplets, emulsifiers and stabilizers are added to the emulsion.
Due to the coalescence of droplets after breaking, the final droplet size distribution will be affected. Therefore, it is necessary to add an effective and stable emulsifier to maintain the final droplet size distribution. The distribution level is the same as the effect of the droplets in the ultrasonic dispersion area.
