Place of Origin:
China
Brand Name:
RPS-SONIC
Certification:
CE
Model Number:
SONO-20-1000
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Ultrasonic Degassing and Bubble Removal
Product Description:
Ultrasonic degassing and bubble removal refer to the process of using high-frequency sound waves (ultrasound) to remove dissolved gases and eliminate bubbles from liquids. This technique is commonly employed in various industries where the presence of gases or bubbles can hinder the desired processes or affect product quality. Here's how ultrasonic degassing and bubble removal work:
Cavitation-induced degassing: Ultrasonic degassing relies on a phenomenon called cavitation. When high-intensity ultrasound waves propagate through a liquid, they create alternating high- and low-pressure cycles. During the low-pressure cycle, small bubbles or voids in the liquid grow due to the reduction in pressure. As the pressure increases during the high-pressure cycle, these bubbles collapse rapidly, creating shock waves and microjets in the liquid. The collapse of bubbles releases dissolved gases, allowing them to escape from the liquid and facilitating degassing.
Bubble elimination: Ultrasonic waves can effectively eliminate bubbles from liquids. The intense cavitation created by ultrasound causes rapid and violent collapse of bubbles. When bubbles collapse, they generate high-speed liquid jets and localized agitation. These jets and agitation help break down and disperse the bubbles, leading to their elimination. The continuous application of ultrasound ensures efficient removal of bubbles and prevents their reformation.
Application of ultrasonic degassing:
Applications of ultrasonic degassing and bubble removal: Ultrasonic degassing and bubble removal find applications in various industries, including:
Food and beverage: Ultrasonic degassing is used to remove dissolved gases, such as oxygen or carbon dioxide, from liquids like beverages, sauces, and syrups, to enhance the product's shelf life, taste, and appearance.
Pharmaceutical and biotechnology: Bubble removal is crucial in pharmaceutical formulations, where the presence of bubbles can affect dosage accuracy, stability, and drug delivery. Ultrasonic degassing is employed in the preparation of parenteral solutions, vaccines, and other pharmaceutical products.
Coatings and paints: In the coatings and paints industry, ultrasonic bubble removal ensures a smooth and defect-free finish by eliminating air bubbles that can cause surface imperfections or irregularities.
Electronics and semiconductor manufacturing: Bubble removal is essential in electronic component production, such as the encapsulation of integrated circuits or the filling of liquid crystal displays (LCDs), to prevent defects and ensure optimal performance.
Analytical and laboratory applications: Ultrasonic degassing is used in analytical instruments and laboratory processes where the presence of dissolved gases can affect measurements or interfere with analytical techniques.
Advantages:
Benefits of ultrasonic degassing and bubble removal: Ultrasonic degassing and bubble removal offer several advantages:
Improved product quality: Removal of dissolved gases and bubbles from liquids can enhance product quality by minimizing defects, improving surface finish, and preventing gas-related issues such as oxidation, foaming, or reduced stability.
Increased process efficiency: The presence of bubbles can hinder various processes, such as mixing, chemical reactions, coating applications, or fluid flow. By eliminating bubbles, ultrasonic degassing enhances process efficiency, ensuring consistent and reliable results.
Enhanced sample purity: Ultrasonic degassing is commonly used in analytical and laboratory settings to ensure the purity of samples. Dissolved gases can interfere with measurements or analytical techniques, and bubble removal helps obtain accurate and reliable results.
Fast and non-destructive: Ultrasonic degassing is a rapid and non-destructive method. It does not involve the use of chemicals or require prolonged processing times. The degassing process can be completed within a short period, minimizing production delays and ensuring efficient operations.
Parameter:
Item |
sono-20-1000
|
sono-20-2000 | sono-20-3000 | sono-15-3000 |
Frequency |
20khz±0.5
|
20khz±0.5 | 20khz±0.5 | 15khz±0.5 |
Power |
1000w
|
2000w | 3000w | 3000w |
Voltage |
110 or 220V |
|||
Max temp |
300℃ |
|||
Max pressure |
35Mpa |
|||
Itensity of sound |
20W/cm²
|
40W/cm² | 60W/cm² | 60W/cm² |
Capacity |
10L/min
|
15L/min | 20L/min | 20L/min |
Material of probe |
Titanium |
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