Working principle

Gas liquid shearing: Using high-speed rotary cutting and other methods to generate gas-liquid shearing force, the bubbles in the mixture are chopped to tens of nanometers to several micrometers, making the gas and liquid highly miscible and mixed, forming high-quality micro nano bubbles.    

Product Features

Adjustable parameters: The gas flow rate can be flexibly adjusted, and the bubble size and concentration can be precisely adjusted to meet different experimental needs.     

Excellent Material: The overcurrent components are made of SUS304 stainless steel/316L stainless steel/PTFE and other materials, which can resist the corrosion of oxidants such as ozone and hydrogen peroxide, and extend the service life of the equipment.   

Stable operation: After multiple improvements and upgrades, it can achieve long-term continuous stable operation, reduce the probability of failure, and ensure the efficiency of experimental work.

Intelligent Control: Equipped with an advanced microprocessor control system, it can accurately set and automatically adjust bubble generation parameters such as gas flow rate, liquid flow rate, and working hours. It supports remote control or timed mode, making it easy to achieve automated control.    

Multi gas source selection: It can integrate multiple gas sources (air, oxygen, nitrogen, carbon dioxide, hydrogen, etc.) for micro nano bubble generation and other installations, and can also be externally connected to multiple gas sources to meet different experimental needs.

Product model: Taking the ZJC-NM-200L model as an example, the flow rate is 16-160L/h (adjustable), suitable for scenarios such as scientific research experiments that do not require high water sample volume. It can test small amounts of wastewater, and the stability and reproducibility of bubble quantity and size distribution are extremely high.  

Application Fields

Research and experimental fields: used for experimental research in water quality treatment, chemical reaction enhancement, biological cell culture, drug delivery, etc.    

In the field of environmental governance, it can be applied to river treatment, sewage decolorization, waste gas treatment, etc. It can accelerate the oxidation and decomposition of pollutants in water bodies, increase the dissolved oxygen content of water bodies, and promote ecological restoration of water bodies.   

In the field of agriculture, it can be used for agricultural irrigation, aquaculture, etc. It can promote the development of crop roots, increase the feeding and digestion rates of aquatic animals, and thus promote growth.    

In the industrial field, it is widely used in oil-water separation, petroleum extraction, precision cleaning, mineral flotation, food processing, raw material synthesis, medicinal material processing, efficient emulsification, and other fields.