Probe sonicator Ultrasonic Degasification

What is the Probe Ultrasonic Degassing Equipment consisted with?

The Probe Ultrasonic Degassing Equipment consisted with 

Probe sonicator,

Peristaltic pump (6 rotors),

Ultrasonic Bubble Detector
vacuum generator,Magnetic stirrer (non-heating).

Ultrasonic probe sonicator

Magnetic stirrer

The customer changed the frame and designed his own non-heating magnetic stirrer plate. Maximum stirring volume (H2O): 1.5L
Electronically controlled motors,
Speed range: 0~2500RPM, speed setting step 10rpm.
Speed control: touch key
Speed display: LED
Work plate material: glass, extremely corrosion-resistant.
Working disc size: diameter 135.
Weight: 0.5kg

Peristaltic pump：

The reference flow range is ，within 6 meters of head, 3 meters of suction, 0.0053~645ml/min. Different specifications of hoses are equipped for different flows.

Bubble Sensor

Integrated Micro Driver Circuit
non-immersive detection
Ultrasonic detection does not require the transparency of the pipeline
The delivery tube can be soft or hard
highly sensitive
5V power supply TTL output

Parameter of other sonicator you can select:

Ultrasonic degasification and deaeration is a highly potent alternative to traditional degassing methods of liquids that include boiling, reducing pressure to vacuum, or sparging with inert gases. These traditional degassing methods often come with disadvantages such as thermal degradation (due to heating), time- and energy-consuming processing and/or insufficient gas removal. Ultrasonic degassing is based on the working principle of ultrasonic cavitation. When high-power ultrasound waves are coupled in liquid, the liquid is compressed and expanded during high-pressure and low pressure cycles, respectively. During low-pressure cycles, minute vacuum bubbles (so-called cavitation bubbles) are created, which grow over several pressure cycles. During those cycles of bubble growth, the dissolved gases in the liquid enter the vacuum bubble, so that the vacuum bubble transform into growing gas bubbles. Furthermore, micro-turbulences and liquid jets cause intense agitation and mass transfer. These ultrasonically generated conditions cause gas bubble coalescence, which is the unification of small dissolved gas bubbles to larger gas bubbles, which quickly rise to the surface of the liquid, where there they leave the liquid. The temperature changes caused by ultrasonic vibration and cavitation are confined to very small local spaces and the temperature rise in the total volume can be neglected as it does not interfere with the product quality. Depending on the volume, viscosity and gas inclusions of the liquid or slurry, we will recommend you different ultrasonic program. An high-power ultrasonic probe emits acoustic cavitation into the liquid, so that the liquid is efficiently degassed. Ultrasonic degasification can be also implemented to improve already existing degassing systems such as heating, vacuum or sparging. Ultrasonic degassing and defoaming is used on industrial scale to remove dissolved gases from water, oils, foods and beverages, chemical solutions, hydraulic fluids, coolants, drilling fluids, crude oil, emulsions, paints, inks, adhesives, varnishes, coatings, epoxies, shampoos, detergents and many other products.

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