Keywords: hydraulic spin microvortex flocculation reactor microvortex flocculation reactor spin flocculator microvortex flocculator.
The microvortex flocculation reactor, which is a device specially designed for liquid-phase mixing reactions, comes from microvortex technology. Microvortex technology, like a clever magician, significantly enhances the mass and heat transfer of the reaction by manipulating the vortex field at the microscopic scale. The microvortex flocculation reactor uses this magic to improve the reaction efficiency and product quality.
Its design principle is mainly reflected in two aspects: the generation of microvortex and the flocculation reaction. First of all, the generation of microvortex is achieved by a well-designed reactor structure. Inside this reactor, multiple tangential inlets act as an artist's paintbrush, bringing in reactants and solvents. These inlets outline the vortex field inside the reactor, creating micro-vortex currents. At the same time, the internal structural design of the reactor is also ingenious, such as spiral structure, layered structure, etc., which not only increases the strength and stability of the eddy current, but also effectively enhances the mixed flow and further improves the mass and heat transfer effect of the reaction. Secondly, the flocculation reaction is the charm of this reactor. Flocculation aggregates tiny suspended particles into macroscopic particles. In a microvortex flocculation reactor, the reactants exist as a solution containing tiny suspended particles. Under the action of microvortex current, these particles begin to aggregate and settle, and gradually form large flocs. This process is mainly influenced by two forces: the gathering force and the dispersing force. The agglomeration force draws the particles tightly together, while the dispersing force tries to push the particles away. The microvortex flocculation reactor cleverly uses the flow field of the microvortex to enhance the aggregation force and inhibit the action of the dispersion force, thereby promoting the smooth progress of the flocculation reaction. This microvortex flocculation reactor not only has the advantages of small size, low energy consumption and easy operation, but also is suitable for a variety of liquid-phase mixed reactions. Its wide application prospect will make it play an important role in chemical engineering, biological engineering, environmental engineering and other fields. 