20kHz 2000W Ultrasonic Sonochemistry Dispersed Reactor Ultrasonic Oil Extraction Machine Reactor
Ultrasonic vibrating rods are also called ultrasonic vibrating rods. Compared with traditional ultrasonic vibrating plates, it has the characteristics of wider application range and longer service life. In industrial applications, the use of ultrasonic vibrating rods for cleaning, extraction, chemical reactions, scale prevention, water treatment, etc. is a very mature and widely used technology.
Ultrasonic vibrating rod uses the alternating period of positive and negative pressure existing in the transmission process of ultrasonic waves. In the positive phase, the medium molecules are squeezed to increase the original density of the medium; in the negative phase, the medium molecules are sparse and discrete, and the medium density Decrease. Ultrasonic vibrating rods can generate ultrasonic waves evenly around 360°, and the energy output is not affected by load changes such as liquid level and temperature difference. Ultrasonic vibrating rods generally include high-power ultrasonic transducers, horns, and tool heads (transmitting heads). ), used to generate ultrasonic vibration and emit this vibration energy into the liquid. The transducer converts the input electrical energy into mechanical energy, namely ultrasound. Its manifestation is that the transducer stretches back and forth in the longitudinal direction, and the amplitude is generally several microns. Such amplitude power density is not enough and cannot be used directly. The horn is designed to amplify the amplitude, isolate the reaction solution and the transducer, and also play a role in fixing the entire ultrasonic vibration system. The tool head is connected with the horn, the horn transmits the ultrasonic energy vibration to the tool head, and then the ultrasonic energy is emitted into the chemical reaction liquid by the tool head.
Features
1. Ultrasonic cavitation is generated around the vibrating rod, and the ultrasonic energy is very evenly distributed around the rod;
2. The power output of the ultrasonic vibrating rod is not affected by load changes such as liquid level, tank capacity and temperature difference, and the power output is stable and uniform;
3. Ultrasonic vibrating rod is more than 1.5 times the service life of traditional ultrasonic vibrating plate;
4. The round tube design of the ultrasonic vibrating rod makes the vibrating rod easy to install and use;
5. The ultrasonic vibrating rod is sealed and waterproof and safe to use.
Type |
Frequency (KHz) |
Material |
Ultrasound Output(W) |
Total Length (mm) |
Diameter (mm) |
OKS-300TA505
|
20khz |
Titanium |
300W |
505mm |
Φ50-40 |
OKS-600TA587 |
20khz |
Titanium |
600W |
587mm |
Φ50-40 |
OKS-900TA628 |
20khz |
Titanium |
900W |
628mm |
Φ50-40
|
OKS-1500TA814 |
20khz |
Titanium |
1500W |
814mm |
Φ32-40 |
OKS-2000TA1071 |
20khz |
Titanium |
2000W |
1071mm |
Φ24-53 |
We welcome size customization, we make according to your requirements! |
Application of ultrasonic vibrating rod in cleaning:
Due to the unique round tube design characteristics, the ultrasonic vibrating rod is especially suitable for cleaning all kinds of pipelines. The principle is to convert electrical energy into ultrasonic energy and transfer it to scale, water, and the inner wall of the pipeline according to its own rules, making it very large energy of. The oscillating wave generated by the ultrasonic wave in the transmission process causes the scale, water, and the inner wall of the pipe to resonate. Due to the different oscillation frequencies of the scale, water, and the inner wall of the pipe, the water molecules in the pipe collide violently, generating a strong impact force and impacting the heat exchange surface. The upper scale layer makes it crisp, peeled, peeled off, crushed, and discharged along with the sewage of the equipment, so as to realize the thorough cleaning of the inner wall of the pipe by the ultrasonic vibrating rod. In addition, the ultrasonic vibrating rod can also be used for the cleaning of the tank, and it can be freely placed in any position of the cleaning tank, which is very flexible and convenient to use, and occupies a small volume space, leaving no dead corners for cleaning.
Application of Ultrasonic Vibrating Rod in Chinese Medicine Extraction
The effective components of traditional Chinese medicine can be extracted by using ultrasonic vibrating rod. First, add the extraction solvent to the container, crush or cut the Chinese medicinal materials into granules as needed, and put them in the extraction solvent; turn on the ultrasonic generator, install the ultrasonic vibrating rod on the top of the extraction tank, and send ultrasonic waves to the extraction solvent. The "cavitation effect" and mechanical action produced in the extraction solvent can effectively break the cell walls of the medicinal materials on the one hand, so that the active ingredients are in a free state and dissolve into the extraction solvent, and on the other hand, it can accelerate the molecular movement of the extraction solvent to make the extraction solvent Quickly contact with the active ingredients in the medicinal materials, fusing and mixing with each other.
The best temperature for extracting medicinal materials with ultrasonic vibrating rod is 40-60 degrees Celsius, so there is no need to equip a boiler to provide steam heating, which is conducive to saving energy and improving environmental pollution. More importantly, it has a protective effect on the active ingredients in medicinal materials that are unstable, easily hydrolyzed or oxidized when exposed to heat. Ultrasonic vibrating rods generally run for about 30 minutes to obtain the best results. The extraction efficiency is greatly improved compared with traditional processes, and it is not limited by the nature and molecular weight of Chinese herbal medicines. It is suitable for most types of Chinese herbal medicines and various ingredients. Extraction (including liquid-liquid extraction and solid-liquid extraction). Therefore, the use of ultrasonic vibrating rods for Chinese medicine extraction has been increasingly adopted by the majority of pharmaceutical companies.
Application of Ultrasonic Vibrating Rod in Accelerating Chemical Reaction
The front end of the transmitter head of the ultrasonic vibrating rod tool head is close to the outer wall of the kettle or extends into the kettle cavity of the kettle body. The ultrasonic transducer can send ultrasonic waves to the chemical reactants in the kettle cavity, and the liquid to be processed is due to the ultrasonic wave. Cavitation can cause changes in the activity of the reaction system, destroy the solvent structure of the chemical reactants in the tank cavity, generate instantaneous high temperature and high pressure enough to initiate chemical reactions, form local high-energy centers, and promote the smooth progress of chemical reactions. This is the use of ultrasound The vibrator is the main factor in the catalytic chemical reaction.
The secondary effects of ultrasound, such as mechanical shock, emulsification, diffusion, crushing, etc., are conducive to the full mixing of the reactants. The ultrasonic vibrating rod adopts a high-power energy-concentrating transducer, which can make the substance perform violent forced motion and accelerate The transfer and diffusion of substances can replace traditional mechanical stirring. Of course, it is better to accelerate the reaction when it is used with an electric stirrer in practical applications.
Application of Ultrasonic Vibrating Rod in Anti-scaling
Let's take the heat exchanger as an example. The ultrasonic vibrating rod is generally installed at the liquid inlet of the heat exchanger. It adopts flange connection and control valve control, so that the ultrasonic equipment can be overhauled and maintained without stopping the production. The main principle is that ultrasonic waves transfer and generate energy due to resonance during the transmission process. Material molecules such as scale, water, and metal heat exchange surfaces obtain energy during the vibration process. The water in the heat exchange tube generates vibration and fierce collision while obtaining energy. , So that the unstable water molecules containing various inorganic salts produce countless cavitation bubbles (cavitation) to form water molecule cavitation cavities. When these bubbles expand rapidly and suddenly close, they produce local impacts of thousands of atmospheres, high-speed jets with a speed of up to 400km/h and high energy above 5000k. These energy destroy the combination of positive and negative ions and acid radicals and destroy the formation of scale. Conditions to achieve anti-scaling.
Application of ultrasonic vibrating rod in water treatment
Ultrasonic vibrating rod energy-concentrating ultrasonic probe concentrates energy and can obtain strong sound intensity on the end face of ultrasonic radiation. Due to the energy-gathering effect of the horn, the sound energy density is greatly improved; the response can be accurately designed according to the sound energy density The transmitter end face of the probe is generally designed to be detachable, so that a probe with a suitable end face size can be selected at any time according to the required sound intensity. At the same time, when the probe is severely corroded by cavitation, only the end needs to be replaced instead of the price. Expensive whole vibrator. Ultrasonic vibrating rods can be used to treat a variety of difficult-to-degrade organic wastewater, and have been used to contain monocyclic aromatic compounds, polycyclic aromatic hydrocarbons, phenols, chlorinated hydrocarbons, chlorinated hydrocarbons, organic acids, dyes, alcohols, ketones, etc. Research on wastewater treatment and achieved good results. In actual industrial wastewater, this equipment has been used to treat papermaking wastewater, printing and dyeing wastewater, tanning wastewater, coking wastewater, pharmaceutical wastewater, landfill leachate, etc., and has achieved good results.
In addition, in some landscape lakes and rivers, ultrasonic vibrating rods can also be used to kill and inhibit algae. The mechanical effect, cavitation effect, thermal effect and acoustic current effect of ultrasonic waves cause the rupture of algae cells and the rupture of chemical bonds in the material molecules to act on the outer wall of the algae and cause it to rupture and die, so as to achieve the algae vacuole promotion and cell death or growth. Inhibition and other effects cause a series of biological effects. Cavitation causes the microbubbles in the liquid to expand rapidly and then suddenly close, generating shock waves and jets to achieve the purpose of eliminating algae and balancing the water environment. Low-intensity ultrasound destroys the structure and function of phycobilisomes, interferes with the synthesis of chlorophyll, and achieves the purpose of inhibiting the growth of algae.
Performance characteristics:
1. Suitable for various high-power industrial-grade liquid treatments, such as homogenization, emulsification, dispersion, depolymerization and wet grinding (particle size reduction), cell disruption and disintegration, extraction, degassing, and sonochemical processes;
2. Heavy load 24 hours continuous work, industrial design, external PLC remote control, automatic frequency search and matching;
Market application:
Traditional Chinese medicine extraction: refers to the ultrasonic pulverization (breaking) of Chinese medicine cells to achieve high-efficiency extraction of useful substances. Compared with conventional extraction technology, ultrasonic assisted extraction is fast, inexpensive, efficient, safe, low in cost, and widely applicable.
Biodiesel production: The use of ultrasonic emulsification to prepare a biomass oil-diesel mixed emulsion is actually to disperse the biological oil droplets into another immiscible diesel liquid. Compared with other technologies, the prepared droplets can be dispersed finely and narrowly distributed, high efficiency, good dispersion effect, and can increase the stability of the emulsion.
Ultrasonic sea life prevention: It is based on the cavitation effect of ultrasound. When the tiny bubble core in the liquid is activated under the action of ultrasound, it is manifested as a series of dynamic processes such as bubble oscillation, growth, contraction and collapse. The bubbles in the liquid generate over several hundred atmospheres and high temperatures of thousands of degrees Celsius at the moment of bursting, which can quickly peel off the attachment of sea creatures and crush the epidermal cells of sea creatures, thereby achieving the purpose of preventing sea creatures.
Ultrasonic catalysis: The application of ultrasound to the catalytic reaction process can simulate the high-temperature and high-pressure reaction in the reactor on a microscopic scale. It provides a very special physical and chemical environment for catalytic reactions that are difficult or impossible to achieve under normal conditions. The catalytic reaction can be carried out in a relatively mild environment. It can further increase the reaction speed, shorten the reaction time, and increase the yield of the target product. The main applications include catalysis on metal surfaces, phase transfer catalyzed reactions, and enzyme catalyzed reactions.
Sewage treatment: In the process of sewage treatment, ultrasonic cavitation has a strong ability to degrade organic matter, and the degradation rate is very fast, which provides the possibility to degrade harmful organic matter in water, so as to achieve the purpose of ultrasonic sewage treatment.
* Ultrasonic dispersion: refers to the process of dispersing and de-agglomerating particles 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 (liquid-liquid dispersion) and suspension dispersion (solid-liquid dispersion), and has been applied in many fields. The application of ultrasonic for the dispersion of suspensions includes the dispersion of titanium oxide in water or solvents in the coating industry, the dispersion of dyes in molten paraffin wax; the dispersion of drug particles in the pharmaceutical industry, and the powder emulsion in the food industry Disperse etc.
20kHz 2000W Ultrasonic Sonochemistry Dispersed Reactor Ultrasonic Oil Extraction Machine Reactor