A Turbine Aerator is an industrial tool designed to aerate and mix fluids. Its primary use is in sewage treatment plants, brewing, and pond aeration. Amongst many other applications, an aerator is beneficial in the treatment of waste water and wastewater. Here are the benefits of a Turbine Aerator. Listed below are some of the most common uses.

One of the primary benefits of an air turbine aerator is its high performance and long life. This air turbine aerator is made up of a minimal number of parts and is handled by a professional lathe. The O2-Turbine Aerator's centrifugal accuracy provides a lifetime of high performance. It is ideal for applications such as urban sewage treatment, waste water treatment, and stagnant Water Ponds.

Another benefit of a Turbine Aerator is its ability to cut down on the costs associated with biocides. Biocides are commonly used by wastewater engineers and frac operators to kill pathogens. However, many biocides are ineffective because they interact with water contaminants. Oxidized biocides do not kill pathogens as effectively as disinfectants, and they must be used in larger amounts. Aeration systems are more effective at reducing the need for biocides.





A Turbine Aerator uses the latest technology in wastewater treatment. Using twin physics principles, this air turbine draws air from the surface into a low-pressure zone. It discharges this air quickly through centrifugal force. In addition, the Turbine Aerator also pushes the dissolved oxygen downward, resulting in microbubbles. This microbubble effect allows the aerator to increase the population of aerobic bacteria in water.

One such case involves the treatment of wastewater for hydrofracturing. A large scale turbine aerator, capable of producing 4 to 20 hp, can reduce the amount of power required to produce 20 MW of electricity. By reducing energy costs, a turbine can significantly improve dissolved oxygen levels in downstream water and limit efficiency losses. Aerating water improves the health of communities and helps to reduce the cost of hydrofracking.

In contrast, peripheral aeration can improve the efficiency of a turbine by mixing air and water. This technique reduces the static pressures near the air injection locations on the deflector. Its efficiency is mainly boosted when the load is moderate to high. The benefits of peripheral aeration are intermediate compared to central aeration. However, there are certain differences between the two technologies. This article will discuss the differences between the two and its benefits and disadvantages.