NANO BUBBLE GENERATOR
Step into innovation with Nanobubble Technology – it revolutionizes global industries, especially water treatment. Using patented technology, we generate trillions of nanobubbles smaller than light wavelengths. These charged bubbles, suspended for extended periods, bring unmatched advantages. In various applications, our nanobubbles boost plant growth, prevent biofilm and scale, and improve filtration, solubility, detergency, and lubricity. Nanobubble Technology’s versatile bene
fits promise to redefine your processes, establishing a new standard for efficiency and sustainability. Embrace a future where nanobubbles propel enhanced performance in diverse industries. Join us in this extraordinary journey.
WHAT ARE NANO BUBBLES?
Nanobubbles are tiny, long-lasting, gas-containing cavities in aqueous solutions. Due to their unique physical and mechanical characteristics they can be used to optimize water resources, improve processing techniques, increase production, and offer scalable solutions in the various fields of science and technology, including industrial, biological, and medical fields.
BENEFITS OF NANO BUBBLES
- Suspends neutrally in liquids for months, maintaining buoyancy.
- Enhances physical, chemical, and biological processes.
- Boosts dissolution efficiency and extends retention time.
- Lowers surface tension, enhancing fluid permeability.
- Blends gases and liquids seamlessly for a stable solution with uniform particle distribution.
- Increase Dissolved Oxygen %
- Stays stable in liquids until interaction with surfaces or contaminants occurs.
- Amplifies sanitizer delivery to bacteria.
- Effectively eradicates microbial biofilm on surfaces, even within pipe interiors.
- Achieves greater mass transfer efficiency.
- Elevates the heat transfer performance of liquids.
- Utilizes a strong negative surface charge to prevent coalescing and separate small particles.
Bubble Size
Nanobubbles are generally classified as being less than 200 nanometers (nm) in diameter. Unlike larger size bubbles that increase in size, rise rapidly and burst at the water surface, nanobubbles remain stable in water for an extended period of time due to their strong negative surface charge and neutral buoyancy.
Neutral Buoyancy
Nanobubbles are neutrally buoyant and can remain suspended in liquid for months and due to the Brownian Motion will travel randomly throughout the body of water. This unique behavior enables nanobubbles to provide a homogeneous distribution of gas throughout the water column and efficiently aerate the entire body of water.
Surface Charge
One of the important properties of nanobubbles is the electrical charges on the bubble surface which determines the interaction of nanobubbles and how they interact with other materials such as solid particles or oil droplets. The electrical potential of a particle in a colloidal system can be expressed by the Zeta-potential.
High And Low Zeta Potential
The zeta potential is measured in mV and it measures the magnitude of the attraction between particles and bubbles or electrostatic repulsion. It is a useful indicator for understanding the state of the nanoparticle surface charge and in predicting the long-term stability of dispersions.
A high zeta potential signifies stability to nanobubbles in a suspension due to repulsion among the bubbles. Conversely, a lower zeta potential leads to coagulation and is less stable.
Nanobubbles have a high negative surface charge that keeps them stable in liquid and enables them to continuously participate in and stimulate physical, biological, and chemical interactions.
Smaller Bubbles, Greater Reactivity
The surface area between bubbles in water filled with nanobubbles is much greater than water filled with larger bubbles. This increase in the surface area allows for higher gas mass transfer rates and increases the efficiency of chemical reactions with any dissolved or suspended components in the water.