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Continuous Dewatering Environmental Protection Equipment Stacked Screw Dewaterer for Municipal Wastewater Treatment

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Product Description

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                                                stacked screw dewaterer for wastewater treatment, municipal wastewater dewatering equipment, environmental protection screw dewaterer
                              

Continuous Dewatering Environmental Protection Equipment Stacked Screw Dewaterer for Municipal Wastewater Treatment

Equipment Description

Working Principle

Belt Filter Press: After flocculation, the sludge enters the filter belt interlayer and passes through the gravity dewatering zone, the wedge-shaped pre-pressing zone, and the multi-roller high-pressure pressing zone, ultimately forming a sludge cake with a moisture content of ≤80%.
Stacked Screw Dewaterer: Propelled by the screw shaft, the sludge moves from the thickening section (wide filter slots) to the dewatering section (narrow filter slots). Internal pressure generated by the back pressure plate squeezes out moisture, achieving continuous dewatering with low energy consumption.
Centrifugal Dewaterer: The drum rotates at a high speed of 3000-4000 rpm. Centrifugal force deposits solid particles in the sludge on the inner wall. The screw conveyor discharges the sludge cake, and the filtrate is discharged through the discharge port.

Technical Parameters (Typical Model)

Parameters	Belt Filter Press	Screw Dehydrator	Centrifugal Dehydrator
Processing Capacity	3-6 m³/h	5-15m³/h	10-50 m³/h
Cake Moisture Content	75-84%	78-85%	65-82%
Power Range	1.1-4 kW	2.2-5.5kW	15-75 kW
Belt/Screw Speed	2-5 m/min	2-3r/min	2500-4000 rpm

Application Scenarios

Municipal Wastewater: Belt filter presses are suitable for large-scale continuous treatment, with a processing capacity of 40 m³/h or more.
Food/Chemical Industry: Screw-type dehydrators are highly resistant to oil and dirt, making them suitable for oily sludge and small- to medium-scale applications.
Industrial High-Concentration Sludge: Centrifugal dehydrators can process sludge with a solids content ≥ 20%, achieving a separation efficiency ≥ 95%.

Daily Maintenance Key Points

Filter Belt/Filter Cloth: Check wear daily, clean the filter mesh monthly, and replace the filter belt every six months (for belt-type models).
Lubrication System: Lubricate bearings and gears with high-temperature grease weekly, and replace the screw shaft seals quarterly.
Electrical Safety: Regularly test the overload protection function and maintain a flushing water pressure above 0.5 MPa.

Comparison of Technical Advantages

Machine Type	Advantages	Limitations
Belt Filter Press	Large processing capacity, high degree of automation, stable filter cake solids content	Filter belts are susceptible to wear and require a large footprint.
Screw Dehydrator	Self-cleaning, no clogging, low energy consumption (≤3kW), suitable for oily sludge	Processing capacity is moderate, requiring high reliance on flocculants.
Centrifugal Dehydrator	High separation efficiency, suitable for high-concentration sludge, airtight and odor-resistant	High energy consumption and complex maintenance.

Main Structures and Components

Core Unit Structure

Screw Dewatering Machine:
- Screw Shaft: Surfaced with spiral blades, it penetrates the fixed and movable rings, propelling the sludge forward and applying pressure, achieving continuous dewatering.
- Screw Shaft and Looping Ring: Staggered to form a filter chamber, the movable ring rotates in conjunction with the fixed ring to create a dynamic filter gap, preventing clogging.
- Filter Cloth: Wraps the screw shaft, separating water through its pores. The material must balance water permeability with sludge retention.
- Drive: A motor or reducer is used to control the screw shaft's speed and thrust, tailored to the specific sludge treatment requirements.
Belt Filter Press:
- Filter Belt: Composed of multiple layers of polyester fiber mesh, it carries the sludge and is water-permeable. Regular cleaning and maintenance are required.
- Roller Press System: Consists of gravity dewatering rollers, wedge-shaped pre-pressing rollers, and high-pressure pressing rollers, gradually reducing the sludge moisture content through a gradient pressure.
- Tensioning and Correction Device: Adjusts filter belt tension and corrects deviation to ensure stable operation.
Centrifugal Dewatering Machine:
- Drum: Rotates at high speed (2500-4000 rpm) and separates the solid and liquid phases through centrifugal force.
- Screw Conveyor: Operates coaxially with the drum at a differential speed, pushing the dewatered sludge cake to the discharge port.
- Differential Speed Control System: Adjusts the speed difference between the drum and screw conveyor to control discharge efficiency.

Auxiliary Systems

Pretreatment Unit: Sludge mixing tank and flocculant addition device (such as a static mixer) ensure uniform reaction between sludge and chemical to form flocculants.
Control System: PLC integrated module, variable frequency drive, and automatic correction system enable dynamic parameter adjustment and one-button start and stop.
Flushing System: High-pressure nozzles and a closed water tank for online cleaning of the filter belt (belt-type models) or screw shaft (stacked screw models).

Comparison

Machine Types	Core Structural Features
Screw Dehydrator	Compact dynamic filtration chamber eliminates the need for complex hydraulic systems and features self-cleaning and anti-clogging capabilities.
Belt Filter Press	Multi-stage roller-type gradient dewatering provides high throughput but high belt wear.
Centrifugal Dehydrator	High-speed centrifugal separation accommodates high-concentration sludge but consumes more energy.

Features

High cost performance: Based on the customer's product positioning and development strategy, and with economic affordability as the foundation, we achieve the best cost performance.

The advanced and meticulous design concept of the equipment, along with the highly automated industrial equipment, showcases the image of a modern and advanced enterprise.

It has high adaptability, meeting the current production requirements and reserving room for development, taking into account the needs of increased production and improved quality in the future.

Quality compliance strictly adheres to the ISO900 quality management system, with every minute detail of the entire equipment installation being strictly controlled.

Tags:

Automatic Powder Coating Line

Electrostatic Powder Coating Line

Electrophoretic Coating Equipment

Electrostatic Painting Line

Hanging Conveyor System

Chemical Cleaning Line

Electroplating Oxidation Production Line

Automatic Immersion Coating Line

Environmental Protection Equipment

Aging Detection Equipment

Accessories

Fireproof Safe Box

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