100w Micro Nano Bubble Generator for Lab

Description of Nano Bubble Generator X-MN-100:

Xinozone X-MN-100 is a small flow micro nano bubble generator designed specifically for research laboratories, with a higher proportion of nano bubbles and smaller particle size, making it more suitable for laboratory applications.
Can be used for CO2 dissolution experiments, hydrogen dissolution experiments, degradation of microplastics, seawater nitrogen experiments, pure oxygen dissolution experiments, and more.

What Are the Features of Lab Micro Nano Bubble Generator？

1. Zero Heat Generation During Recirculation

One of the standout advantages of our technology is that it operates without generating heat. Unlike some high-shear or cavitation-based nanobubble generators that rely on intense mechanical force—which can transfer energy into the water as thermal energy—this system is designed for efficiency without friction. This zero heat generation during recirculation is critical for applications where temperature stability is vital, such as in biomedical research, hydroponics, or sensitive chemical processes. By maintaining a consistent water temperature, you ensure a stable environment for aquatic life or chemical reactions, all while benefiting from a high concentration of ultrafine bubbles.

2. Adjustable Fluid Intake Rate

Flexibility is key in modern water treatment, which is why this system features an adjustable liquid intake rate. This allows operators to fine-tune the flow to meet specific experimental requirements. This level of control ensures you can always achieve the optimal gas-liquid mixing ratio, thereby maximizing the efficiency of the nanobubble aeration process. By adjusting the flow rate to match the exact demand, you can also save energy and reduce system wear, making it a versatile tool for small-scale research.

3. Compatible with External Gas Sources

To truly harness the power of nanobubble technology, the ability to use different gases is essential. This generator is fully compatible with external gas sources, meaning you are not limited to just air. This device can be used for small-scale and pilot experiments of various gases. You can use it for ozone addition experiments and introduce ozone for advanced oxidation in wastewater treatment; You can introduce pure oxygen for super-saturation in aquaculture, or carbon dioxide for pH control and nutrient delivery in hydroponics.  This precision gas infusion capability transforms the device from a simple aerator into a sophisticated tool for gas-infused water treatment. Whether you need oxygen nanobubbles to boost crop growth or ozone to eliminate pathogens, this system delivers.

4. Dry-Run Capable

Durability and safety are engineered into every aspect of this device. One of its most practical features is that it is dry-run capable. Pumps and generators are often damaged if they operate without water, leading to costly repairs and downtime. However, this nanobubble generator or in-line unit is built to withstand accidental dry starts or temporary interruptions in water supply without suffering damage.

5. Compact and Lightweight

Modern solutions need to fit into modern spaces. This system is designed to be compact and lightweight, making it incredibly easy to install, handle, and deploy. Unlike bulky industrial systems that require heavy machinery to move, this portable nanobubble generator can be transported by a single person and integrated into existing piping with minimal effort. Its small footprint means it can be used in decentralized point-of-use nanobubble generation setups, from small pond restoration projects to tight spaces in food processing plants. The in-line nanobubble generator design ensures that you get powerful performance without the need for a dedicated equipment room.

6. Ultra-Low Minimum Water Volume (150mL)

This system is designed for exceptional precision, capable of operating efficiently with an ultra-low minimum water volume of just 150mL. Unlike traditional aeration equipment that requires large tanks to function, this compact generator can effectively produce high-density nanobubbles in a standard laboratory beaker or small reactor. This capability is a breakthrough for small-scale nanobubble generation, enabling applications that were previously impossible, such as direct nanobubble infusion into valuable samples, microcosm experiments, or medical reagents. By eliminating the need for bulky supporting equipment, it provides a true point-of-use nanobubble generator for benchtop research, allowing scientists to study the effects of ultrafine bubbles with minimal waste of precious liquids.

Technical Specification of Nanobubbles Generator