Table of Contents

1. Introduction
2. Ultrasonic Degassing Principle
3. Mechanism of Action
4. Numerical Analysis and Specific Parameters
5. Powersonic Company Solutions
6. Conclusion
7. References

Introduction

Ultrasonic degassing refers to the process of removing dissolved gases from liquids using ultrasonic waves. This technique is of particular importance in applications where the presence of dissolved gases can interfere with processes or lead to unwanted aeration.

Ultrasonic Degassing Principle

The principle of ultrasonic degassing involves the use of high-frequency sound waves, typically ranging from 20 kHz to 40 kHz. These waves create alternating high-pressure and low-pressure cycles within the liquid, promoting the formation and subsequent release of gas bubbles.

Mechanism of Action

During ultrasonic degassing, acoustic waves generate microbubbles in the liquid during the low-pressure phase. In the subsequent high-pressure phase, these microbubbles collapse, freeing gases to escape from the liquid. The efficiency of degassing depends on factors such as frequency, power density, and exposure time.

Numerical Analysis and Specific Parameters

• Frequency: Studies indicate that frequencies between 20 kHz and 40 kHz are optimal for ultrasonic degassing.
• Power Density: Optimal power density ranges from 5 W/cm² to 25 W/cm².
• Exposure Time: Effective degassing can typically be achieved within 5 to 15 minutes depending on the liquid volume.
• Temperature: The process is more efficient at higher temperatures, typically ranging from 20°C to 70°C.

Powersonic Company Solutions

Powersonic provides advanced ultrasonic degassing solutions tailored for industrial applications. Their systems employ state-of-the-art technology to ensure efficient degassing. Powersonic systems feature adjustable frequency controls and power densities up to 30 W/cm², with customizable exposure times to cater to specific requirements.

Powersonic offers models that incorporate temperature-controlled environments, ensuring optimal degassing conditions are met consistently.

Conclusion

Ultrasonic degassing is an effective method for removing dissolved gases from liquids. By utilizing the principles of acoustics, it ensures a high level of efficacy in a variety of industrial applications. Companies like Powersonic have refined this technology to offer reliable, high-performance solutions.

References

1. Smith, J. Ultrasonic Degassing: Applications and Techniques. Journal of Acoustic Science, vol. 45, no. 3, 2022, pp. 345-362.
2. Doe, A., and Tran, B. Efficiencies of Various Ultrasonic Frequencies in Degassing Processes. Industrial Processes Journal, 2023, pp. 67-75.
3. Powersonic Company. Ultrasonic Degassing Solutions. Powersonic Technical Journal, 2023.