Aeration Tower + Flat Bottom Aeration Water Tank + Ozone Sterilizer
Ozone mixing tower
Ozone enters the bottom of the oxidation tower through a pipeline, passes through an aerator, and is emitted by a microporous bubbler to form small bubbles. As the bubbles rise, they fully dissolve ozone in the water. The water falls down from the top of the ozone tower and flows out naturally. This ensures sufficient mixing of ozone and water to enhance the sterilization effect. The top of the tower is also equipped with exhaust and overflow outlets to ensure that any excess ozone does not remain in the room and affect workers’ productivity. The overflow outlet ensures that when the water in the mixing tower is full, it does not flow back to the ozone generator and damage it.
Ozone generator
Ozone is a widely recognized broad-spectrum and efficient sterilization and disinfection agent. The new generation of green and environmentally friendly high-tech products, called active oxygen machines, uses natural air as raw material and produces high-concentration ozone through electron high-frequency and high-voltage discharge, which has one more active and lively oxygen atom than an oxygen molecule. Ozone has particularly active chemical properties and is a strong oxidant that can rapidly kill bacteria in the air at a certain concentration.
Oxygen generator
1). The principle of industrial oxygen generator is to use air separation technology. First, the air is compressed at high density, and then its various components are separated based on their different condensation points at a certain temperature to achieve gas-liquid separation. Then, further distillation is performed to obtain oxygen.
2). In industry, oxygen is generally obtained through this physical method. Large-scale air separation equipment is designed to allow gases such as oxygen and nitrogen to fully exchange temperature during their ascent and descent, thus achieving distillation. The working principle of household oxygen generator is using physical adsorption and desorption technique with molecular sieve. The oxygen generator is filled with a molecular sieve. When pressurized, nitrogen in the air is adsorbed and the remaining unabsorbed oxygen is collected. After being purified, it becomes high-purity oxygen. When the molecular sieve is depressurized, the adsorbed nitrogen is emitted back into the environment in the air, and when pressurized again, nitrogen is absorbed again to produce oxygen. The entire process is a dynamically cyclical process, and the molecular sieve does not consume.
Stainless steel aseptic tank is a container for storing or cultivating sterile samples. It is made of stainless steel, and the entry of air and bacteria should be excluded as much as possible under sterile conditions. Sterile tanks are often used in the fields of microbiology and cell culture to ensure that the processed samples are sterile, avoid the influence of the external environment on the experiment, and ensure the accuracy of the experimental results.