In modern water treatment processes, flocculation is a crucial step that plays a decisive role in ensuring the quality of the effluent. However, traditional flocculation methods are often difficult to achieve the desired treatment effect in the face of high influent loads. Therefore, the search for a new and efficient flocculation device has become an important direction for the upgrading and transformation of water plants.
At present, many water plants use grid flocculation tanks. Although this device can achieve particle collision and floc formation to a certain extent, the hydraulic conditions provided by it cannot meet the needs of efficient flocculation under high inlet water load. In order to solve this problem, a new type of hydrocyclone grid flocculation device came into being.
The new hydrocyclone grid flocculation device, with its unique hydraulic self-rotating microvortex reactor technology, breaks the limitations of the traditional flocculation device. Through the combination of a screw device and a fixed skeleton, the device causes the water flow to produce steering disturbance when passing through, forming a fluid turning turbulence. This multi-level microdynamic disturbance not only promotes the formation and combination of alum flowers, but also gradually reduces the gradient of water flow velocity, which is not only conducive to the rapid growth of particles, but also reduces the fragmentation of large-scale particles.
In addition, the new hydrocyclone grid flocculation device not only improves the flocculation effect, but also significantly reduces the energy consumption and the amount of flocculant. This not only reduces the operating costs of the water plant, but also reduces the burden on the subsequent inclined plate sedimentation link. More importantly, the application of this device helps to improve the effluent quality of the sedimentation tank and provide the public with safer and healthier drinking water.
It is worth noting that when carrying out the upgrading and transformation of the flocculation tank of the water plant, the hydraulic conditions of the high-frequency spectral vortex must be provided. This can increase the chance of adsorption of suspended solids in collision with each other, so that the flocculant is in full contact with the particles in the water, so as to improve the sedimentation performance of alum. This is also the key to ensuring that the new hydrocyclone grid flocculation unit works optimally.
To sum up, the new hydrocyclone grid flocculation device has a broad application prospect in the upgrading and transformation of the flocculation tank of the water plant. It not only solves the limitations of traditional flocculation units at high inlet loads, but also reduces energy consumption and operating costs while improving flocculation results. Therefore, for the pursuit of high efficiency, energy saving, environmental protection of modern water plants, the use of this new type of flocculation device is undoubtedly a wise choice.