Vertical hyperbolic mixer

NegotiableUpdate on 01/08

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Nature of the Manufacturer: Producers

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Online Consult

Overview

The vertical hyperbolic mixer is suitable for industries such as environmental protection, chemical engineering, energy, and light industry that require mixing and blending of liquids, liquids and solids, and liquids and gases. It is particularly suitable for mixing in sewage treatment and water purification projects.

Product Details

In 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 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 increase to the operating cost of sewage treatment plants, but also directly affects the subsequent process treatment effect. The birth of the double curved mixer has effectively solved such problems.

　　Vertical hyperbolic mixerSuitable for industries such as environmental protection, chemical engineering, energy, and light industry that require stirring and mixing of liquids and liquids, liquids and solids, and liquids and gases, especially suitable for stirring in sewage treatment and water purification projects, as follows:

1. Mixing in regulating tank: regulating tank used to regulate peak volume and peak load in sewage treatment engineering, aiming at homogeneous mixing, which is typically used in industrial projects, such as breweries, printing and dyeing plants, paper mills, etc.

2. Mixing and coagulation stirring: used for dissolving and stirring traditional Chinese medicine agents in water treatment, as well as coagulation stirring of agents with water; That is, if the treatment process requires additional chemical treatment, such as adding lime or other wastewater treatment agents.

3. Disinfection stirring: used for the contact stirring between traditional Chinese medicine and water in water treatment.

4. Sludge mixing: used for anaerobic digestion mixing of sludge and mixing in sludge homogenization tanks. Typical applications include sludge concentration tanks, anaerobic digestion tanks, and sludge storage tanks.

5. Anaerobic Stirring: Stirring in anaerobic wastewater treatment, used in anaerobic tanks where good homogenization and agitation are required to ensure optimal process efficiency.

6. Denitrification agitation: agitation during denitrification in wastewater denitrification treatment; Used in denitrification tanks, when nitrogen removal is required, a part of the biological treatment process is used to achieve the desired denitrification effect.

The hyperbolic mixer has changed the disadvantages of conventional mixers such as uneven flow velocity, dead corners, and low volume utilization in the mixing tank. It produces uniform bottom omnidirectional push flow in the tank, without sedimentation, and the water surface is calm, with no air entering the water; The appearance of the mixing impeller is complete, with a double curved surface design and a non blade structure. It will not produce any debris or fiber entanglement on the mixer, so no maintenance is required during normal operation.

The hyperbolic mixer (vertical mixer) has low impeller speed, low wear, good corrosion resistance, reliable performance, and long service life. Compared with conventional mixers, this high-capacity omnidirectional push flow hyperbolic mixer has lower energy consumption and energy savings.

Vertical hyperbolic mixerIt is a stirring device that can create large volume flow and obtain large area circulation and gentle water flow with small power. The impeller structure design maximizes the fluid characteristics and mechanical motion. The surface of a hyperbolic impeller is a curved body formed by the rotation of 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 disturbance of water inflow and ensures uniform pressure of the liquid on the surface of the impeller, thereby ensuring the balance of the whole machine in motion. Eight guide vanes are evenly distributed on the gradually opening double curved surface, and 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 circumference of the impeller under the condition of gravitational acceleration, and forms a bottom-up circulating water flow under the reflection of the red wall, thus obtaining cross flow in the axial (y) and radial (x) directions. It is precisely due to the structural characteristics of the hyperbolic mixer impeller and its proximity to the bottom of the pool that it can achieve ideal mixing effects in operation, effectively eliminating mixing dead corners.