Ultrasonic spray coating system is a technique for forming thin films with specific functions or properties on the surface of optical glass. It utilizes ultrasonic waves to atomize liquid into fine droplets and uniformly spray them onto the surface of optical glass. This article introduces the princ
Ultrasonic spray coating system is a technique for forming thin films with specific functions or properties on the surface of optical glass. It utilizes ultrasonic waves to atomize liquid into fine droplets and uniformly spray them onto the surface of optical glass. This article introduces the princ
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
Ultrasonic spray coating system is a technique for forming thin films with specific functions or properties on the surface of optical glass. It utilizes ultrasonic waves to atomize liquid into fine droplets and uniformly spray them onto the surface of optical glass. This article introduces the princ
What is ultrasonic tinning?Ultrasonic tinning is a kind of welding method that does not use flux. The ultrasonic probe produces cavitation in the molten solder core through mechanical vibration at ultrasonic frequency, and removes the oxide film on the metal surface for smooth and clean tinning. Ult
The application of ultrasonic in the sewing industry mainly reflects the two major functions of ultrasonic: welding and cutting. In 2019, for masks that are popular all over the world, ultrasound is a household name for applying these two functions to the fullest. The cutting and welding of velvet c
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
The application of ultrasonic in the sewing industry mainly reflects the two major functions of ultrasonic: welding and cutting. In 2019, for masks that are popular all over the world, ultrasound is a household name for applying these two functions to the fullest. The cutting and welding of velvet c
The application of ultrasonic in the sewing industry mainly reflects the two major functions of ultrasonic: welding and cutting. In 2019, for masks that are popular all over the world, ultrasound is a household name for applying these two functions to the fullest. The cutting and welding of velvet c
What is ultrasonic tinning?Ultrasonic tinning is a kind of welding method that does not use flux. The ultrasonic probe produces cavitation in the molten solder core through mechanical vibration at ultrasonic frequency, and removes the oxide film on the metal surface for smooth and clean tinning. Ult
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
What's the Principle and theory of ultrasonic plastic welding machine? The principle of ultrasonic plastic welding machine? How does ultrasonic welding work? what's the composition and function of ultrasonic plastic welding machine What's the core parts in ultrasonic plastic welding machine Ultrasonic plastic welding machine models and specifications? What's the Advantages of ultrasonic welding?
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
Ultrasonic spray coating system is a technique for forming thin films with specific functions or properties on the surface of optical glass. It utilizes ultrasonic waves to atomize liquid into fine droplets and uniformly spray them onto the surface of optical glass. This article introduces the princ
The application of ultrasonic in the sewing industry mainly reflects the two major functions of ultrasonic: welding and cutting. In 2019, for masks that are popular all over the world, ultrasound is a household name for applying these two functions to the fullest. The cutting and welding of velvet c
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
Currently, research on the extraction of antioxidants and anti-aging drugs from natural products has attracted widespread attention from domestic and foreign scholars. Considerable research results have been achieved in this field, and based on comprehensive domestic and international research repor
| Certification: | |
|---|---|
| Installation: | |
| Pressure: | |
| Frequency: | |
| Power: | |
| Max Capacity: | |
| Tip Head Material: | |
| Availability: | |
| Quantity: | |
SONOL28-500
RPS-SONIC
8515900090
High Quality Ultrasonic Sonochemistry Homogenizer System for Degassing And Vacuuming System
Description
The High Quality Ultrasonic Sonochemistry Homogenizer System for Degassing and Vacuuming is a precision laboratory and pilot-scale ultrasonic platform designed for efficient removal of dissolved gases, microbubbles, and volatile impurities from liquid systems. It combines high-intensity ultrasonic cavitation with a controlled vacuum environment to achieve rapid and thorough degassing, significantly improving material purity, stability, and process reliability.
Unlike conventional vacuum degassing systems that rely solely on pressure reduction and long processing times, this ultrasonic-assisted system accelerates bubble nucleation and release through cavitation effects, enabling faster, deeper, and more uniform degassing performance even in high-viscosity or complex liquid formulations.
It is widely used in sonochemistry, materials science, pharmaceutical formulation, and advanced liquid processing where gas-free systems are critical for performance and reproducibility.
The system integrates a high-performance ultrasonic sonochemistry generator, producing intense cavitation fields that actively break dissolved gas clusters and promote rapid bubble release.
A key innovation is the combined ultrasonic + vacuum degassing architecture, where ultrasonic cavitation continuously disrupts microbubbles while vacuum pressure efficiently removes released gases, creating a dual-action degassing mechanism.
Compared with traditional vacuum-only systems, this technology achieves significantly faster degassing speed and higher final gas removal efficiency, especially in viscous or surfactant-containing liquids.
The ultrasonic energy field ensures uniform bubble collapse throughout the entire liquid volume, preventing localized degassing limitations common in static vacuum systems.
The system supports adjustable ultrasonic power, vacuum level, and processing time, allowing precise optimization for different solvents, emulsions, and chemical formulations.
Constructed with corrosion-resistant materials and laboratory-grade ultrasonic components, it ensures stable long-term operation in chemical and research environments.
A digital control interface enables real-time monitoring of vacuum pressure, ultrasonic intensity, and processing cycles for repeatable experimental results.
Ultrasonic cavitation dramatically enhances gas nucleation and release efficiency, significantly reducing degassing time compared to conventional methods.
The dual ultrasonic-vacuum mechanism ensures deeper and more complete gas removal, improving liquid stability and reducing defects such as foaming or bubble formation.
It enhances product quality by eliminating microbubbles that can affect optical clarity, coating uniformity, and chemical reaction consistency.
Compared with standard vacuum degassers, it provides higher efficiency, better reproducibility, and improved performance in complex formulations.
The system is suitable for both laboratory research and pilot-scale development, offering excellent scalability and process control.
The Ultrasonic Sonochemistry Degassing System is widely used in:
Sonochemical reaction systems
Laboratory liquid degassing and vacuum treatment
Pharmaceutical formulation preparation
Nanomaterial and nanoparticle suspensions
Resin, polymer, and coating systems
Electronic ink and functional fluid preparation
Chemical synthesis and reaction optimization
High-precision analytical sample preparation
The Ultrasonic Sonochemistry Degassing System is a high-efficiency laboratory solution designed for rapid removal of dissolved gases and microbubbles in liquids. By combining powerful ultrasonic cavitation with vacuum processing, it achieves fast, deep, and uniform degassing that traditional vacuum systems cannot match.
Ultrasonic energy continuously breaks microbubbles and gas clusters, while the vacuum environment instantly removes released gases—delivering faster processing, higher purity, and superior liquid stability.
Ideal for sonochemistry, pharmaceuticals, coatings, nanomaterials, and advanced liquid formulations, this system ensures bubble-free, high-precision results for research and pilot applications.
Ms. Yvonne
sales@xingultrasonic.com
+86 571 63481280
+86 15658151051
1st Building NO.608 Road ,FuYang, Hangzhou, Zhejiang,China