Vacuum Bubble® Technology Science
The Advanced Aeration Group ‘s Vacuum Bubble® Aerators are built upon sound scientific principles and engineering practices. The bubbles are created under a partial vacuum and consequently, as they enter the water, the higher water pressure surrounding them causes them to collapse further. There are no other documented aerators with bubbles as small as 0.25mm in diameter.
This technology addresses biochemical oxygen demand (BOD) and waste treatment problems by improving the performance of aerobic bacteria. As the aerobic bacteria oxidize waste and consume oxygen, the Vacuum Bubble® Technology Aerator makes additional oxygen readily available by producing very large populations of micro Vacuum Bubbles®. The process is proven to be highly energy-and cost-efficient across a wide range of applications.
Vacuum Bubble® Technology Aeration
The Vacuum Bubble® Technology Aerator, instead of using the compressed air/fine pore system, uses a patented process to create bubbles in a partial vacuum. The micro Vacuum Bubbles® created in this process average 0.25 mm in diameter. The small size of the bubble and the low-pressure gas it holds create a small buoyancy force (The phenomenon which makes bubbles rise in a liquid). This buoyancy force is so small that it is less than the surrounding surface tension of the water. The bubble, in fact, does not rise to the surface, but remains suspended in the fluid. This makes all of the oxygen in the bubble available to be dissolved in the liquid as needed.
Most aeration equipment in use today utilizes compressed air systems. These introduce bubbles of air into the water by forcing the compressed air through a fine pore diffuser, similar to the aerators commonly found in most home fish tanks. Experimental results with these systems have shown that the minimum bubble sizes generated are greater than 3 to 4 millimeters in diameter. Bubbles of this size quickly rise to the surface and are lost to the atmosphere. They do not remain in the water long enough to transfer an appreciable amount of oxygen.
Determining the Average Size of a Micro Vacuum Bubble®
A VBT™ 100 Aerator was installed in a 55 gallon glass tank with 50 gallons of tap water. A watertight plastic rectangle large enough to hold a Polaroid camera was mounted with a clear plastic grid of 9 mm squares. The aerator was placed 24 inches below the surface of the water. The aerator plate was 2 inches in diameter and had ten 2.38 mm orifices.
As the propeller withdrew water from the 12 inch column, a partial vacuum interface formed between the plate and propeller causing water to collapse in the partial vacuum, thus forming the micro Vacuum Bubbles®. The aerator was activated for 60 seconds, shut-off and a Polaroid negative taken of the bubbles accumulated on the surface of the submerged 9 mm square grids.
Advantages of Bubbles Created by VBT™
- Compressed air diffusers produce bubbles 20mm or greater in diameter.
- Fine-pore diffusers produce bubbles between 2mm and 4mm in diameter.
- VBTtm creates bubbles 0.25mm in diameter.
Vacuum Bubble® Technology and Aerobic Bacteria
Conventional Waste Treatment
It is expected that in the conventional septic tank or waste lagoon the organic waste contained in them is digested. This is not the case – the organic waste builds up over time and the tanks and lagoons are nothing more than containers for sedimentation and sludge storage. The bacteria in normal septic digestion are anaerobic and are accompanied by odorous gases and groundwater contaminating pathogens.
By supplying enough oxygen, an aerobic condition is developed. Bacteria that obtain their energy aerobically are much more efficient. The same organic waste food supply supports a much larger bacterial flora by aerobiosis than anaerobiosis, and therefore, aerobic decomposition of organic matter is much more rapid. Aerobiosis in activated sludge is substantially complete in six to eight hours, whereas conventional septic digestion of sewage sludge requires about 60 days.
The usual end products from anaerobic decomposition are carbon dioxide, methane, ammonia, and hydrogen sulfide. The end products of aerobic bacteria are carbon dioxide, ammonia, water, and sulfates. The ammonia is not given off as a gas, and is nitrified by the aerobs Nitrosomonas – oxidizing the ammonia into nitrite, and Nitrobacter – oxidizing the nitrite into non-toxic nitrate. Nitrates are directly plant usable and will not harm fish. The only gas given off by aerobic bacteria is odorless carbon dioxide, thereby eliminating any offensive odor.