Specification and model of fiberglass multi curved mixer

The fiberglass hyperbolic mixer fills the domestic gap in municipal, chemical, papermaking, and other water treatment processes, where water mixing is one of the key processes. Traditional mixing machinery is divided into two commonly used methods: vertical axis folding blade type and horizontal (submersible) type. Due to the installation method and blade form determining its mixing form, it is not ideal in terms of energy consumption and mixing effect. This not only brings unnecessary increases to the operating costs of sewage treatment plants, but also directly affects the final process treatment effect.

In response to the above issues, after years of experimentation and leveraging the design experience of peers, we have successfully developed a brand newCurved mixerAfter years of practical application in multiple sewage treatment plants, good results have been achieved, filling the gap in this type of product in China and becoming the preferred product to replace imports.
　　
The upper surface of the curved impeller body of the fiberglass hyperbolic mixer is a hyperbolic structure formed by the rotation of hyperbolic busbars around the axis of the impeller body. Its unique impeller structure design maximizes the combination of fluid characteristics and mechanical motion.
　　
The equation for the hyperbolic curve of fiberglass isThe curved body formed by rotating the xy=b curve along the y-axis; In order to cater to the flow of water, the water is designed to enter from the center of the impeller, which reduces the turbulence of the inlet and ensures uniform pressure of the liquid on the surface of the impeller, thereby ensuring the balance of the whole machine in motion.
　　
There are eight guide vanes evenly distributed on the gradually opening double curved surface. The potential energy obtained by supplementing the inflow with the self weight pressure of the liquid and the centrifugal force generated by the rotation of the impeller form kinetic energy. The liquid moves tangentially along the circumferential direction of the impeller through the hyperbolic structure transition under the action of gravity acceleration. Under the reflection effect of the pool wall, it forms a circulating water flow from top to bottom, thus obtaining axial flow（y) Cross flow in the radial (x) direction (as shown in a bipartite flow diagram).

　　
It is precisely because of the structural characteristics of the impeller of the curved mixer and its proximity to the bottom of the pool that its working position determines its direct anti settling effect on suspended solids, which can achieve ideal mixing effect during operation and effectively eliminate mixing dead corners. A larger specific surface area can result in extensive water exchange.

Application prospects of hyperbolic mixer

Fiberglass reinforced plasticHyperbolic mixerAs an energy-saving and efficient mixing and stirring device, it has broad application prospects in the stirring of two-phase solid-liquid or three-phase solid-liquid gas. At present, due to the increasingly serious environmental pollution and the improvement of environmental awareness in the whole society, sewage treatment has received more and more attention. The sewage treatment rate in small and medium-sized towns in China is gradually increasing. At the same time, the upgrading and transformation of the process technology of existing sewage treatment plants will inevitably create an urgent demand for high-efficiency and energy-saving key equipment technology. The double curved impeller mixing scheme has obvious advantages in water mixing effect and energy saving. So through correct and active promotion, we believe that this hyperbolic mixing scheme will become the ideal and dominant mixing method in the future, playing an important role in sewage treatment processes and other mixing and mixing sites.

Fiberglass multi curved mixer becomes the preferred product to replace imports

Multi surface mixerIn municipal, chemical, papermaking, and other water treatment processes, water mixing is one of the key processes. Traditional mixing machinery is divided into two commonly used methods: vertical shaft bending slurry and horizontal (submersible) slurry. Due to the installation method and blade slurry form determining its mixing form, it is not ideal in terms of energy consumption and mixing effect. This not only brings unnecessary increase to the operating costs of sewage treatment plants, but also directly affects the final process treatment effect.

In response to the above issues, after years of experimentation and drawing on the design experience of peers, a new multi surface mixer has been successfully developed. After years of practical application in multiple sewage treatment plants, it has achieved good results, filling the gap in this type of product in China and becoming the preferred product to replace imports.

Multi surface mixers are widely used in industries such as environmental protection, chemical engineering, energy, and light industry where solid-liquid and gas mixing of liquids is required. They are particularly suitable for use in coagulation tanks, regulating tanks, anaerobic tanks, nitrification and denitrification tanks in wastewater treatment processes.Multi surface mixerIt consists of a driving device, a hyperbolic impeller body, and installation accessories. In order to meet the needs of users under different working conditions, the installation is divided into dry typeThere are two types: vertical axis and submersible.