The working principle of a China turbine agitator is mainly based on its special turbine structure and rotational motion. Turbine agitator is a commonly used mixing equipment in industries such as chemical, food, and pharmaceutical. It creates powerful vortices and shear forces by rotating the turbine, thereby achieving mixing, dissolution, dispersion, and other purposes.
The turbine structure is the core component of a turbine agitator, and common turbine structures include single-layer and multi-layer impellers. A single-layer impeller is composed of several curved blades, usually connected to a shaft, and generates strong vortices when rotating. A multi-layer impeller is composed of multiple impeller blades stacked together, with each layer of blades having opposite directions. This structure can generate more complex flow fields and increase the stirring effect.
During the stirring process, the turbine blades rotate rapidly, driving the surrounding liquid to generate high-speed vortices. The high-speed rotation of eddies causes rapid mixing of liquids and the formation of shear forces. This shear force can evenly disperse solid particles, accelerate the dissolution of substances, and promote the contact and reaction of reactants. At the same time, the convective effect generated by eddy currents can effectively expand the stirring range and improve stirring efficiency.
In addition, the turbine agitator also has the advantages of stable operation, uniform mixing, and low energy consumption. By controlling the speed of the turbine and the design of the blades, the stirring effect can be flexibly adjusted to meet different process requirements. Therefore, turbine agitators are widely used in industrial production.
In summary, the turbine agitator utilizes its unique turbine structure and rotational motion to achieve powerful stirring effects. Its working principle is simple and efficient, providing reliable mixing methods for production in various industries.