Circumferential Aeration Aerator, a pivotal technology in the fields of environmental engineering and industrial processes, plays a critical role in enhancing the efficiency of chemical reactions. This advanced aeration system is designed to optimize the transfer of oxygen or other gases into liquids, thereby facilitating faster and more effective reactions. The efficiency of chemical reactions is often limited by the rate at which the reactants can be provided with the necessary gases, and the Circumferential Aeration Aerator addresses this challenge by ensuring an optimal gas-liquid interface.

The Circumferential Aeration Aerator operates on the principle of diffusing gas along the circumference of a rotating disk or tube, which is submerged in the liquid. This rotation creates a churning effect that not only increases the surface area of the liquid in contact with the gas but also enhances the turbulence, leading to a more uniform distribution of the gas bubbles. As a result, the Circumferential Aeration Aerator significantly improves the mass transfer rate of gases, such as oxygen, into the liquid phase.

One of the primary benefits of using a Circumferential Aeration Aerator is its ability to provide a high oxygen transfer rate, which is crucial for aerobic processes where oxygen is a reactant. In wastewater treatment, for example, the efficient delivery of oxygen is essential for the biological degradation of organic pollutants. The Circumferential Aeration Aerator ensures that the biological organisms have access to the oxygen they need to break down these pollutants, thereby speeding up the treatment process and reducing the overall time required for clean water production.

In addition to wastewater treatment, the Circumferential Aeration Aerator is also employed in other industries where chemical reactions are oxygen-dependent, such as fermentation in the food and beverage industry, or the oxidation of metals in the mining and metallurgical sectors. By ensuring a continuous supply of oxygen to these processes, the Circumferential Aeration Aerator not only accelerates the reaction rates but also increases the yield and quality of the final products.

The design of the Circumferential Aeration Aerator also contributes to its efficiency in enhancing chemical reaction efficiency. The system's modular design allows for scalability, enabling it to be adapted to various tank sizes and shapes, as well as different types of liquids. This flexibility ensures that the aeration system can be tailored to the specific needs of each application, optimizing the gas transfer process and, consequently, the efficiency of the chemical reactions taking place.

Furthermore, the Circumferential Aeration Aerator's operation is relatively low in energy consumption compared to other aeration methods, such as surface aeration or fine bubble diffusers. This energy efficiency is achieved through the use of fewer moving parts and the system's ability to maintain a high transfer rate with lower power inputs. As a result, the Circumferential Aeration Aerator is not only an effective tool for improving chemical reaction efficiency but also an environmentally friendly choice.

In conclusion, the Circumferential Aeration Aerator is a highly effective technology for enhancing the efficiency of chemical reactions that rely on gas-liquid contact. Its ability to optimize oxygen transfer rates, coupled with its energy efficiency and adaptability, makes it an indispensable component in a wide range of industrial and environmental processes. As the demand for more sustainable and efficient industrial operations grows, the Circumferential Aeration Aerator will continue to play a vital role in ensuring that chemical reactions can be carried out with maximum efficiency and minimal environmental impact.

Power: 0.75KW

Oxygen generating capacity: ≥1.35kgO2/h

Power efficiency: 1.2kg02/h*kW

Pumping capacity: ≥7,200m3/h

Wave-making strength: 50mm Amplitude Wave Action Range (Diameter)≥70m

Impeller speed: Φ1580*900mm

Dimensions: 34rpm

Weight: 53kg

Farming coverage: 4669m2