Titanium Alloy Ultrasonic Transducer Reactor 20kHz 2000W for Wine Red Ferment Milk Emulsification

Product Details
Type: Tubular Reactor
Material: Titanium Alloy
Capacity: >1000L
Manufacturer/Factory, Trading Company
Gold Member Since 2020

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

Registered Capital
1000000 RMB
Plant Area
1001~2000 square meters
  • Titanium Alloy Ultrasonic Transducer Reactor 20kHz 2000W for Wine Red Ferment Milk Emulsification
  • Titanium Alloy Ultrasonic Transducer Reactor 20kHz 2000W for Wine Red Ferment Milk Emulsification
  • Titanium Alloy Ultrasonic Transducer Reactor 20kHz 2000W for Wine Red Ferment Milk Emulsification
  • Titanium Alloy Ultrasonic Transducer Reactor 20kHz 2000W for Wine Red Ferment Milk Emulsification
Find Similar Products

Basic Info.

Model NO.
OKS-HLCSB-2000
Structure
Single Tube
Condition
New
Aplication
Separation Emulsification Homogenization , Refinin
Usage
Clean/Emulsion/Stir/Dispersed/Homogeneous/Defoam
Power
600W-1500W Adjustable
Controller
Ultrasonic Cleaning Generator
Frequency
20kHz
Model Name
Vibration Sonicator Tubular Transducer
Transport Package
Wooden Box
Origin
Tianjin, China
HS Code
8543709990
Production Capacity
500set/Month

Product Description

Principle of ultrasonic vibrating rod: Ultrasonic technology is mainly used as a physical means and tool, which can form a series of extreme critical conditions when chemical reactions are generated. This energy can not only stimulate chemical reactions, accelerate the speed and efficiency of chemical reactions, and even It can also change the nature of certain chemical reactions, and make the original chemical composition produce some unexpected effects and functions. This is called sonochemistry. Almost all chemical reactions can use sonochemistry as a physical aid, such as extraction and separation, synthesis, biodiesel production, treatment of microorganisms, degradation of toxic organic pollutants, biodegradation, biological cell crushing, dispersion and aggregation, etc. . Therefore, the ultrasonic vibrating rod can not only be used to clean the object, peel off the dirt from the surface of the object, but also promote the further success of scientific research.
The working principle and function of ultrasonic vibrating rod
The three functions of the ultrasonic vibrating rod are explained below.
Ultrasonic dispersion: The process of dispersing and de-agglomerating particulate matter in the liquid through the "cavitation" effect of ultrasonic waves in the liquid using liquid as a medium. Ultrasonic dispersion can be divided into emulsion dispersion, which is liquid and liquid dispersion; and suspension, which is solid and liquid dispersion. Its function has been practically practiced and applied in many fields. Among them, the application of ultrasonic for the dispersion of suspensions, such as the dispersion of titanium oxide in water or solvents in the paint and plastic industries, the dispersion of dyes in molten paraffin; the dispersion of drug particles in the pharmaceutical industry; and the powder emulsion in the food industry Agent dispersion and so on.
Ultrasonic extraction: Ultrasonic extraction and separation are mainly based on the existence, polarity, and solubility of the effective ingredients and the effective ingredient groups in the substance. It is a scientific and rational use of ultrasonic vibration method to extract the new technology, so that the solvent can be quickly spread. Go to all corners of the solid material surface, dissolve the organic components contained in the material as completely as possible in the solvent to obtain a multi-component mixed extract, and then use appropriate separation methods to separate the chemical components in the extract , And then be refined and purified. After such a complete process, the final required monomer chemical composition can be obtained.
Ultrasonic emulsification: Ultrasonic emulsification refers to the mixing of two (or more than two) immiscible solutions uniformly to form a dispersion system under the action of ultrasonic energy, where one liquid is evenly distributed in the other liquid and then forms an emulsion liquid crafting process. The physical mechanism of crushing insoluble solids (or liquids) is the cavitation of ultrasonic waves. Ultrasonic cavitation effect means that under the action of ultrasonic waves, a large number of bubbles will be generated in the liquid. Small bubbles will gradually increase with ultrasonic vibration, and then suddenly burst and split. Tens of thousands of small bubbles will increase again and again. Burst, when the bubble collapses rapidly, high temperature and high pressure will be generated in the bubble, and because the liquid around the bubble rushes into the bubble at high speed, a strong local oscillation wave is generated in the liquid near the bubble, which also forms a local high temperature and high pressure, thus producing The effect of ultrasonic pulverization and emulsification.


Advantages of ultrasonic reactor:
The material of the ultrasonic horn is titanium alloy, which has high mechanical Q value, low mechanical loss and high mechanical strength.
Ultrasonic horns are energy-concentrating transducers with more concentrated energy and stronger response.
In industrial production, the use of ultrasonic horns for large-volume tanks is cheaper, easier to install, and easy to explosion-proof.
In the past, due to the concentrated energy of the ultrasonic horn, it was easy to generate heat, resulting in a high failure rate and unable to work for a long time. Now it adopts jacketed air-cooled or water-cooled device, which greatly reduces the working temperature and can be used for a long time without failure.
It can be used for ultrasonic Chinese medicine extraction, plant extraction, ultrasonic sewage treatment, ultrasonic wastewater treatment, ultrasonic emulsification, ultrasonic dispersion, ultrasonic desulfurization, ultrasonic aging, ultrasonic aging of liquor


According to chemical reaction conditions, materials and purpose different from the general equipment of the following:

1000W the following systems: mainly used for laboratory and small-scale or pilot systems
500W system: for maximum yield of less than 400 L / h of chemical reaction production equipment

1000W system: for maximum yield of less than 800 L / h of chemical reaction production equipment

1500W system: for production of 200-1200 L / h of chemical reaction production equipment

2000W system: for production of 300-1600 L / h of chemical reaction production equipment


Application range:
Ultrasonic vibrators are suitable for cleaning workpieces in various industries, such as precision electronic parts, clock parts, optical glass parts, hardware mechanical parts, jewelry, semiconductor silicon wafers, polyester filter elements/spinnerets, medical equipment, etc., and parts plating Before and after cleaning.
Ultrasonic vibrators are suitable for traditional Chinese medicine extraction, cleaning of the inner wall of thick-walled metal pipes, on-line ultrasonic anti-scaling of boilers, ultrasonic cleaning in vacuum/pressure occasions, various pipeline ultrasonic treatments and pipeline sonochemical treatments.


 
US equipment Frequency
(KHz)
Ultrasound
Output(W)
Total Length
(mm)
Diameter
(mm)
Static Capacity
(pF±10%)
OKS-HLCSB-1000
 
 15-28 1000
 
500
 
Φ50-55
 
68000
 
OKS-HLCSB-1500
 
15-28
 
1500
 
850 Φ50-55
 
68000
 
OKS-HLCSB-2000
 
15-28
 
2000
 
1100 Φ50-55
 
132000
 
Titanium Alloy Ultrasonic Transducer Reactor 20kHz 2000W for Wine Red Ferment Milk Emulsification
Titanium Alloy Ultrasonic Transducer Reactor 20kHz 2000W for Wine Red Ferment Milk Emulsification
 

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now
Contact Supplier