Filter Presses
- Multiple years of experience
- Superior performance
- Industrial and commercial application
- High tech water treatment
- Multiple certifications
Raw water: Manufacturing plant, food & beverage, energy, farms, mining, etc.
Produced water: Commercial, industrial, agricultural, etc.
Dosing Rate: 1.8 – 2.4
Speed (m/min): 1.04 – 5.51
Motor Power (kW): 0.75 – 1.5
Water Consumption (m3/h): 6.2 – 28.8
Applications: Food and beverage industry, water treatment, wastewater, sewage, etc.
Support customization.
Your Trusted Filter Presses Manufacturer in China
A variety of industries from food and beverage industries to wastewater treatment all require Filter Presses to ensure optimum dewatering applications. The Filter Presses that we design and manufacture here at NEWater are ideal for a variety of these applications, while also guaranteeing the provision of a stable and efficiently designed device.
Our Filter Presses perform filtration under pressure to separate solids and liquids, thus dewatering the solution being pumped into it. The solution is usually in the form of a slurry, that is pressed between two surfaces. And these Filter Presses can be used both in industrial and municipal applications.
- Product Parameters
- Product Details
- Process Introduction
- Applications
- Hot FAQ
NEWater manufactures and designs a variety of Metering Pumps; please refer to the parameters below to determine which one is most appropriate for you.
|
Model Item |
500 | 1000A | 1500A | 1500B | 2000A | 2000B | 2500A | 2500B |
3000 |
| Â |
70 – 80 |
||||||||
| Polymer Dosing Rate (%) |
1.8 – 2.4 |
||||||||
| Dried Sludge Capacity (kg/h) |
100 – 120 |
300 – 360 | 400 – 460 | 470 – 550 |
600 – 700 |
||||
| Belt Speed (m/min) |
1.57 – 5.51 |
1.04 – 4.5 |
|||||||
| Main Motor Power (kW) |
0.75 |
1.1 |
1.5 |
||||||
| Mixing Motor Power (kW) |
0.25 |
0.37 |
0.55 |
||||||
| Effective Belt Width (mm) |
500 |
1500 | 2000 | 2500 |
3000 |
||||
| Water Consumption (m3/h) |
6.2 |
16 | 17.6 | 20.8 | 22.4 | 24.1 | 25.2 |
28.8 |
|
|
Main technical data |
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|
Main performance parameters |
Filtering pressure |
MPa |
≤0.6 |
| Rubber membrane squeezing pressure |
MPa |
≤1.0 |
|
| Filtering temperature |
℃ |
-10 – 90 |
|
| Total chamber volume |
m³ |
0.6 |
|
| Filter area |
m² |
40 |
|
| Designed depth of the chamber |
mm |
30 |
|
| Qty of filter/membrane plate |
PC |
19/20+2 |
|
| Maximum hydraulic protecting pressure |
Mpa |
29 |
|
| Maximum hydraulic pressing pressure |
Mpa |
25 |
|
| Max. stroke distance of pressing board |
mm |
800 |
|
| Diameter of hydraulic Cylinder |
mm |
200 |
|
| Drip tray motor power |
KW |
0.55 |
|
| Cloth washing system lift motor power |
KW |
1.1 |
|
| Host hydraulic station motor power |
KW |
4.0 |
|
| Belt Conveyor motor power |
KW |
2.2 |
|
| Total equipment weight |
KG |
4950 |
|
The slurry is pumped into the filter press during the filling cycle and distributed uniformly throughout. In the void volume of the plate, solids accumulate on the filter cloth, forming the filter cake. The filtrate, or clean water, exits the filter plates via the ports and exits the plates’ sides.
Filter presses are a way of filtering under pressure. As pressure develops on the filter press feed pump, solids accumulate within the chambers until they are totally full. This is how the cake is constructed. When the plates are all filled, the filter cakes are released. Additionally, many larger capacities filter presses use motorized plate shifters that accelerate the cycle time. Matec’s filter presses are designed specifically for fully automated, 24-hour operation in tough environments such as mines or chemical manufacturing plants for wastewater treatment.
- Mining Industry
- Tunnel Industry
- Coal Washing
- Stone Industry
- Sand Making Industry
- Municipal Slurry
- Ceramic Tile Industry
- Pharmaceutical Industry
- And many more
Get Professional Water Deionizer System Solution
- Provide raw water quality data.
- Provide scenarios for the use of the Water Deionizer System.
- Provide the final water quality and quantity requirements to be achieved.
- Provide your local current and voltage.
NEWater Filter Press Features
- Frame: The steel frame of the filter press serves as a clamp for the filter plates.
- Filter Plates: Plate and frame, recessed chamber, and membrane squeeze are the 3 basic categories of filter plates.
- Manifold: The manifold (piping and valves) controls the inlet of the slurry and connects the four corner filtrate discharge ports to a common discharge pipe.
- Filter Cloth: Solids accumulate on the fabric, forming a filter cake that separates liquids from solids.
NEWater Filter Press Highlighted Advantages
- Reliable and energy-efficient.
- Fully automatic and robust design.
- Longevity of service, high operational availability
- Modular design enables a customer-oriented process solution.
NEWater Can Promise You
- Source manufacturers.
- One-to-one guidance.
- The strict quality control process.
- One-year warranty.
- Lifetime maintenance.
High-quality Parts and Skid-mounted Equipment to Support the System
A Variety of Matching Processes are Available
Send Your Inquiry Now
NEWater Filter Presses
NEWater’s Filter Presses are highly effective tools using pressurized filtration as a separation process. They are composed of a frame, filter plates, manifold, and filter cloths. The quality of all these components is ensured to allow for a superior performing device.
The frames of our Filter Presses are generally constructed with steel and take the role of clamps to bring filter plates on both sides together. The filter plates themselves can vary according to your requirements, generally being of a few types that include membrane squeeze, recessed plates, and plate and frame.
Recessed plates generally have a depression in the plate, that is made of polypropylene. They have holes on their surface, the central is larger as compared to the other that is present in all four corners. The manifold of our Filter Presses is composed of pipes and valves, connecting all the parts of the device and ensuring that there is a singular discharge pipe.
The final and essential component of our Filter Presses is the filter cloths. They are connected to the filter plates and aid in making a filter cake, once the slurry has been dewatered, by separating all the liquid from the solids.
The water or slurry to be filtered is pumped into the press, as the device pressurizes it the solid begins to get caught and build up on the filter cloth, and this solid layer acts as an extra layer of filtration to prevent other solids from passing through. These solids continue to build up as the pressurization process continues and finally form a filter cake that can easily be removed.
Our Filter Presses also ensure that the filtrate, which is the liquid component flows out through the corner ports into pipes that connect to form one discharge outlet. This filtrate can then be either disposed of or sent for further treatment to be used elsewhere.