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Vertical shaft flocculation mixer. It includes a mixer main body and a mixing tank. The mixer main body is connected with a driving mechanism. The driving mechanism includes a reducer and a stirring shaft. A transverse plate is connected horizontally to the stirring shaft, and a paddle is connected to the transverse plate. This utility model has a simple structure and is easy to use. It is suitable for flocculation and stirring in water plants after the medicine is mixed, so that the medicine forms flocculated velvet in the water body. This utility model can choose single-layer, double-layer and three-layer mixing, with horizontal plates and The size of the paddle can be adjusted according to usage needs to meet different handling requirements.
The flocculation mixer is a type of equipment commonly used in the fields of sewage treatment and chemical industry. It is mainly used to mix and stir suspended solids in liquids to promote the flocculation process. This process is accomplished by adding a chemical called a flocculant, which causes suspended solids to coalesce into larger particles that can be more easily separated from the liquid.
A flocculation mixer usually has an agitator that rotates in a mixing tank to mix the liquid and flocculant together. This mixing process can be controlled by adjusting the speed and direction of the agitator to ensure the best flocculation effect.
In addition, flocculation mixers can be equipped with different accessories and configurations to meet specific application needs. For example, some mixers can be equipped with heating and cooling systems to control the temperature of the mixed liquid; while other mixers can be equipped with different types of agitators to adapt to different material characteristics and mixing requirements.
In general, the flocculation mixer is one of the very important equipment in the fields of sewage treatment and chemical industry. It can help improve production efficiency, reduce treatment costs, and also help protect the environment.
With the continuous advancement of science and technology and the increasing importance of environmental protection, flocculation mixers are increasingly used in the fields of sewage treatment and chemical industry. They are used in factories and businesses of all sizes to handle a wide range of different liquids and suspended solids.
When treating sewage, the flocculation mixer can greatly improve the efficiency and quality of sewage treatment. By mixing flocculants with sewage, suspended solids and pollutants in sewage can be quickly condensed, making them easier to settle and separate. This can not only reduce the content of harmful substances in sewage, but also improve the transparency and clarity of sewage, thereby better protecting the environment and human health.
In chemical production, flocculation mixers are also widely used. For example, when producing products such as paints, coatings, and dyes, flocculation mixers are needed to mix various raw materials and additives. By controlling the speed and direction of the agitator, the mixing degree of raw materials and product quality can be precisely controlled, thereby producing higher quality and more stable products.
In addition, with the continuous development of intelligent and automation technology, modern flocculation mixers are becoming more and more automated and intelligent. For example, some advanced models of flocculation mixers can realize automated operation and remote monitoring through intelligent control systems, which greatly improves the reliability and maintainability of the equipment.
In short, the application of flocculation mixer in the fields of sewage treatment and chemical industry is of great significance. They can not only improve production efficiency and product quality, but also reduce processing costs and environmental pollution, making a positive contribution to sustainable development.
Agitator models | Application | Advantages | Disadvantages |
Paddle: · Flat paddles · Finger paddles · Gate paddles | · Solid mixing · Slurry mixing | · Heavy duty mixing · Adjustable to 2 or 4 blades · Excellent for low-speed | · High power consumption · Inefficient liquid circulation |
Counter-rotating paddles | Paste mixing | · Efficient in the laminar condition · Blending | · Vibrates at high speed · Not suitable for liquid mixing |
Tumbling | Blending | Paste and viscous material mixing | Not suitable for fluid solutions |
Disk and cone | Polymers and dispersionpreparation | Viscous solution mixing with 60 revolutions per second | Paste mass cannot be handled |
Free shaft suspension | Sugar processing | Suspension, Thickening operation | High power requirement |
Impeller type | Emulsion preparations | · Good temperature control · Creates axial flow · Good phase mixing | Not for viscous materials |
Turbine agitator · Straight blade · Pitched blade · Vaned disk · Curved blade | Liquid and gas reactions | · Excellent for dispersionoperations · Creates good radial flow | Only for less viscous liquid below 15 to 20 Ns/m2 |
Slotted rotary · Rotating disk | Powders and | Unique particle size and homogeny product formation | · Minimum axial flow · Operates better only for 0.1 to 0.01mm particle size solids |
Screw · Screw in cone | Food and snack processing | Homogenization of high viscous materials | Not suitable for miscibility operations |
Helical · Ribbon type · Helical screw | Polymer and paints processing | Handles viscoelastic liquidsthat are more than 20 Ns/m2 | Less radial flow patterns |
Gate | Blending operations | · Good speed control · Handles pseudoplastic liquids | Not suitable for gas to liquid operations |
Anchor · Round anchor · Combine anchor and gate | Milk and fat processing | Efficient heat exchange between the reactor walls and reaction mass (fluids) | · High power consumption · Requires heavy duty gearbox |
Propeller | · Dairy and food processing · Chemicals processing | · Less Metzner –Ott shear rate constant · Homogenization · Good miscibility | · Motion of liquid starts on one spot · Dead spots formation at high rotation speeds · The occurrence of solids settling at low speeds |
Vertical shaft flocculation mixer. It includes a mixer main body and a mixing tank. The mixer main body is connected with a driving mechanism. The driving mechanism includes a reducer and a stirring shaft. A transverse plate is connected horizontally to the stirring shaft, and a paddle is connected to the transverse plate. This utility model has a simple structure and is easy to use. It is suitable for flocculation and stirring in water plants after the medicine is mixed, so that the medicine forms flocculated velvet in the water body. This utility model can choose single-layer, double-layer and three-layer mixing, with horizontal plates and The size of the paddle can be adjusted according to usage needs to meet different handling requirements.
The flocculation mixer is a type of equipment commonly used in the fields of sewage treatment and chemical industry. It is mainly used to mix and stir suspended solids in liquids to promote the flocculation process. This process is accomplished by adding a chemical called a flocculant, which causes suspended solids to coalesce into larger particles that can be more easily separated from the liquid.
A flocculation mixer usually has an agitator that rotates in a mixing tank to mix the liquid and flocculant together. This mixing process can be controlled by adjusting the speed and direction of the agitator to ensure the best flocculation effect.
In addition, flocculation mixers can be equipped with different accessories and configurations to meet specific application needs. For example, some mixers can be equipped with heating and cooling systems to control the temperature of the mixed liquid; while other mixers can be equipped with different types of agitators to adapt to different material characteristics and mixing requirements.
In general, the flocculation mixer is one of the very important equipment in the fields of sewage treatment and chemical industry. It can help improve production efficiency, reduce treatment costs, and also help protect the environment.
With the continuous advancement of science and technology and the increasing importance of environmental protection, flocculation mixers are increasingly used in the fields of sewage treatment and chemical industry. They are used in factories and businesses of all sizes to handle a wide range of different liquids and suspended solids.
When treating sewage, the flocculation mixer can greatly improve the efficiency and quality of sewage treatment. By mixing flocculants with sewage, suspended solids and pollutants in sewage can be quickly condensed, making them easier to settle and separate. This can not only reduce the content of harmful substances in sewage, but also improve the transparency and clarity of sewage, thereby better protecting the environment and human health.
In chemical production, flocculation mixers are also widely used. For example, when producing products such as paints, coatings, and dyes, flocculation mixers are needed to mix various raw materials and additives. By controlling the speed and direction of the agitator, the mixing degree of raw materials and product quality can be precisely controlled, thereby producing higher quality and more stable products.
In addition, with the continuous development of intelligent and automation technology, modern flocculation mixers are becoming more and more automated and intelligent. For example, some advanced models of flocculation mixers can realize automated operation and remote monitoring through intelligent control systems, which greatly improves the reliability and maintainability of the equipment.
In short, the application of flocculation mixer in the fields of sewage treatment and chemical industry is of great significance. They can not only improve production efficiency and product quality, but also reduce processing costs and environmental pollution, making a positive contribution to sustainable development.
Agitator models | Application | Advantages | Disadvantages |
Paddle: · Flat paddles · Finger paddles · Gate paddles | · Solid mixing · Slurry mixing | · Heavy duty mixing · Adjustable to 2 or 4 blades · Excellent for low-speed | · High power consumption · Inefficient liquid circulation |
Counter-rotating paddles | Paste mixing | · Efficient in the laminar condition · Blending | · Vibrates at high speed · Not suitable for liquid mixing |
Tumbling | Blending | Paste and viscous material mixing | Not suitable for fluid solutions |
Disk and cone | Polymers and dispersionpreparation | Viscous solution mixing with 60 revolutions per second | Paste mass cannot be handled |
Free shaft suspension | Sugar processing | Suspension, Thickening operation | High power requirement |
Impeller type | Emulsion preparations | · Good temperature control · Creates axial flow · Good phase mixing | Not for viscous materials |
Turbine agitator · Straight blade · Pitched blade · Vaned disk · Curved blade | Liquid and gas reactions | · Excellent for dispersionoperations · Creates good radial flow | Only for less viscous liquid below 15 to 20 Ns/m2 |
Slotted rotary · Rotating disk | Powders and | Unique particle size and homogeny product formation | · Minimum axial flow · Operates better only for 0.1 to 0.01mm particle size solids |
Screw · Screw in cone | Food and snack processing | Homogenization of high viscous materials | Not suitable for miscibility operations |
Helical · Ribbon type · Helical screw | Polymer and paints processing | Handles viscoelastic liquidsthat are more than 20 Ns/m2 | Less radial flow patterns |
Gate | Blending operations | · Good speed control · Handles pseudoplastic liquids | Not suitable for gas to liquid operations |
Anchor · Round anchor · Combine anchor and gate | Milk and fat processing | Efficient heat exchange between the reactor walls and reaction mass (fluids) | · High power consumption · Requires heavy duty gearbox |
Propeller | · Dairy and food processing · Chemicals processing | · Less Metzner –Ott shear rate constant · Homogenization · Good miscibility | · Motion of liquid starts on one spot · Dead spots formation at high rotation speeds · The occurrence of solids settling at low speeds |