Sonication technology achieves accurate results due to the sound waves produced to agitate particles. The usage of a probe-type sonicator enables the processing of even smaller samples to meet laboratory goals. This machine can disrupt the microorganism particles used for microbiology and fermentation processes. It is a critical intensifying tool for getting stable nanofluids. The sonification is important for heat transfer in this user case. Primarily used in pharma laboratories, the ultrasonic probe sonicator optimization is done by expert service providers.

If you represent the pharma industry, this informative content will add more reliability to your business. Augment and accelerate different lab processes with the ultrasonic probe sonicator designed by RTUL group’s technical team.

Through this blog learn about the multiple uses of this technology.

Sonification technology growth

This technique has been in existence for a very long time. Earlier versions used low-energy vibrations and acoustics to create sound waves. Either the bath or probe was used to achieve the results but with varying efficiencies. Now the challenges in the pharma industry have forced service providers to design better machines. With new methods of sonification and feasibility trials, it has been possible to develop the latest ultrasonic probe sonicator.

RTUL has been able to design the equipment to measure the integrated process with a controlling unit. They are flexible and adaptable for lab samples and large-scale plant utilization.

Diverse user cases for this technology

The pharma industry has labs for making vaccines, drug carriers, and particle agitation. Probe sonicators are utilized for all these processes. It has 3 major components to create a customized design is created.

1. Generator-for electronic pulses
2. Convertor-required for the transformation of pulses into vibrations
3. Probe (ultrasonic horn)-It works as a sample medium to get the desired outcome of the process.

They are required to work for all cycles to create the chain reactions required to get the best results. The probe sonicator makes an uninterrupted interaction with the sample undergoing the process. It adds concentrated energy to the sample.

Benefits of the ultrasonic probe sonicator

• Sonochemistry research and development activities.
• Cost saving for daily usage.
• Contains automatic frequency tuning in any load condition.
• Amplitude control during power fluctuations.
• Offers comparable and achievable results.

How to choose your sonicator?

Average sonicator equipment is tricky to use as it works on a high frequency of 20 kHz. At that energy level a device is ideal for:

1. Liquid agitation of particles
2. Cell disruption
3. Cleaning and mixing
4. Degassing
5. Preparation of a sample

If your pharma company business is research and production then these devices are beneficial. Large-scale cleaning operations, degassing, and sterilization will be easier.

RTUL group makes affordable probe sonicators that produce a blast of energy for all operations. Emulsification and desperation of nanoparticles are subjected to high-frequency sound waves. The basis of your choice should be related to the total costs, specifications of design, and lab requirements.  

Our team of experts will help you to make the right choice. We understand why it is necessary to optimize the probe sonicator for lab processes. Catalyzation of chemical reactions and dispersion are critical to drug delivery, and also for cleaning instruments. Get in touch with our team today.