Micro fine bubble is a small bubble with a diameter of below 50 microns. The diameter of a pore is 200 microns and the diameter of a hair is 100 microns which illustrated as below. Micro bubbles in the water enter into pores or sweat gland, and push dirt out. But in order to make more effectives, the diameter of micro bubbles is needed should be below 50 microns.(=micro fine bubble)
THE ADVANTAGES OF MICRO NANO BUBBLES
Bubbles are not the same
- Milli Bubbles
These are normal bubbles, obvious to the eye with a diameter larger than 100 microns. These bubbles easily float to the surface and disperse. - Micro Bubbles
Are tiny bubbles, sometimes referred to as “Fine Bubbles”. Sized less than 100 microns, their small size allows them to remain submerged for extended periods before dispersing. - Nano Bubbles (Ultra-fine Bubbles)
Are tiny bubbles sometimes referred to as “Ultra-Fine Bubbles” are 100 times smaller than a human skin pore, sized between 1 to 20 microns. Their small size and negative electric charge allows them to remain in water for extended periods without dispersing. The miniscule size of Nano Bubbles sets them aside from normal bubble generation, due to their high density and stagnation features in the liquid stage. Following a number of experiments the typical life span of a gas bubble with a 100nm radius would be around 100ps in saturated liquids. Nano Bubbles are extremely stable due to the absorption of ions on their surface.
THE MOTION OF NANO BUBBLES
Unlike Macro or Micro Bubbles, Nano Bubbles stay submerged in water for extended periods of time.
This allows the gasses in the bubbles to remain effective for longer periods.
Nano Bubbles are negatively charged, which means the bubbles repel other bubbles, by doing so they move around instead of up and remain evenly dispersed throughout the water. This process is known as the “Brownian Motion”
NANO BUBBLES ARE STABLE IN SATURATED LIQUIDS
The miniscule size of Nano Bubbles sets them aside from normal bubble generation, due to their high density and stagnation features in the liquid stage. Following a number of experiments the typical life span of a gas bubble with a 100nm radius would be around 100ps in saturated liquids. Nano Bubbles are extremely stable due to the absorption of ions on their surface.
The gas molecules inside the Nano Bubbles do not come in contact with the bulk liquid allowing the Nano Bubbles to last for extended periods of time. Larger bubbles have gases that is above the atmospheric pressure. Nano Bubbles contain internal pressure of hundreds of atmospheres.
THE CHARACTERISTICS OF NANO BUBBLES
The miniscule size of Nano Bubbles sets them aside from normal bubble generation, due to their high density and stagnation features in the liquid stage. Following a number of experiments the typical life span of a gas bubble with a 100nm radius would be around 100ps in saturated liquids. Nano Bubbles are extremely stable due to the absorption of ions on their surface. The gas molecules inside the Nano Bubbles do not come in contact with the bulk liquid allowing the Nano Bubbles to last for extended periods of time. Larger bubbles have gases that is above the atmospheric pressure. Nano Bubbles contain internal pressure of hundreds of atmospheres.
Micro Nano Bubbles are effective in removing dirt and residue from the pores and innermost crevices of fruit, vegetables, skin and metal. The action can also inactivate bacteria.
By attaching our Micro Nano Bubble device to your kitchen and bathroom faucets it can help you to conserve water by up to 40%. This not only saves budget but the conservation of water is essential to the environment. By using our devices you can also reduce the use of chemicals and soap/detergent in personal, clothing and household cleaning.
Our Micro Nano Bubble generator, when combined with Ozone, will greatly improve the cleaning process.
Ozone can destroy the chemical properties of pesticides and remove the residual bacteria and residue from fruit and vegetables
Due to the collision of water and air, enormous amounts of negative ions are generated. When anions are absorbed into human body, the body fluid vitalizes the body’s metabolism, resulting in the decomposition of fatigue-causing substances that are accumulated in the body. This helps people to recover from fatigue.
Micro Bubbles are 1/100th the size of our skin pores, by using our Micro Bubble shower device the water would able to penetrate the pores of human skin for a deep cleansing effect. This process not only removes deep seated grime and bacteria but keeps the skin moisturized.
Because the bubbles penetrate deep into the pores, they eliminate the bacteria that create body odor.
Our Micro Nano Bubble devices are easy to install. You simply attach the device between your kitchen, bathroom or washroom water supply and your faucets, washing machine or shower heads.
You can save up to 40% on water usage, power consumption and a significant reduction in the consumption of chemical products. Using Micro Nano Bubble devices also reduces the frequency of changing pond water in the case of aquariums and aquaculture facilities.
INDUSTRIES TO APPLY MICRO BUBBLES TECHNOLOGY
MNB technology is being applied in several industries
Personal care & cleansing |
Pet grooming |
Household cleaning |
Agricuture |
Aquaculture |
Poultry |
Hydroponics |
Sanitation |
Wastewater treatment |
THERE ARE SEVERAL METHODS TO GENERATE NANO BUBBLES
- High Pressure Disolved style
- High Speed Tornade Flow Style
- High Speed Cutting Flow Style
- Ultrasonic Bubbling Style
- Permeable-membrane Style
- Shirasu Porous Glass Style
- Ejector Style
- Flip Flop Style
- Cavitation Style: Cavitation system is using air in water (ex. Tap water includes 2% of air). Cavitation system do not require added air from outside. Therefore, do not worry to oxidize works & inside of machine
MEASURING SYSTEM FOR NANO BUBBLES (ULTRA-FINE BUBBLES)
Particle Tracking Analysis method
Dynamic Light Scattering method
Resonant Mass Measurement method
Laser Diffraction method
Electrical Sensing Zone method
Tunable Resistive Pulse Sensor method
Digital Instruments Nano Scope