Product Overview
The Vertical Leaf Filter is a type of pressure filtration equipment designed for efficient solid-liquid separation. Under pressure, solid particles are trapped on the filter leaves, forming a filter cake, while the filtrate passes through the cake and flows out through the outlet. This process ensures highly clear filtrate with low moisture content in the cake. The vertical leaf filter is widely used in industries such as petrochemical, food, pharmaceutical, mineral oil, and paint manufacturing.
Process Flow
The MG Series Vertical Leaf Filter operates under pressure filtration principles:
1. Solids are trapped on filter leaves, forming a cake.
2. Filtrate passes through the filter cake and exits via the outlet.
3. As filtration progresses, cake thickness increases, resistance grows, and tank pressure rises.
4. When pressure reaches the set limit, automatic slagging occurs:
o Stop feed and drain liquid.
o Blow compressed air or steam to dry the cake.
o Activate the vibrator to discharge the filter cake through the slag outlet.
This process ensures highly efficient filtration with minimal residual moisture and reduces manual labor.
Main Features
· Working Pressure: 0.1–0.49 MPa
· Maximum Working Pressure: 0.6 MPa
· Design Temperature: ≤150°C
· Vibrator Air Pressure: 0.45–0.6 MPa
· Vibration Frequency: 3000–4500 times/minute
· Liquid Content in Slag: ≤0.5%
Product Advantages
1. Automatic cake discharge for reduced manual labor.
2. Low oil/moisture residue in the filter cake.
3. Supports both dry and wet cake discharge.
4. Durable stainless steel filter leaves with long service life, reducing running costs.
5. Bottom closure via butterfly valve or wedge lock, with optional heel leaf.
6. High filtration rate and efficiency.
7. Compact design, occupying less installation space.
8. Filter leaves available in 5-layer or 7-layer design for enhanced performance.
Product Parameters
Model | Filter square (m³) | Diameter | Distance between filter leaf(mm) | Inlet | Outlet | Overflow | Slag outlet | Height | Weight |
(mm) | (mm) | (mm) | (mm) | (kg) | |||||
MG-4 | 4 | 550 | 70 | Dg50 | 80 | Dg32 | 300 | 2000 | 460 |
MG-8 | 8 | 650 | 70 | Dg50 | 80 | Dg32 | 300 | 2100 | 890 |
MG-10 | 10 | 800 | 70 | Dg50 | 80 | Dg32 | 400 | 2300 | 1200 |
MG-15 | 15 | 900 | 70 | Dg50 | 80 | Dg32 | 400 | 2400 | 1500 |
MG-20 | 20 | 1100 | 75 | Dg50 | 80 | Dg32 | 400 | 2500 | 1800 |
MG-30 | 30 | 1200 | 75 | Dg50 | 80 | Dg32 | 400 | 2600 | 2500 |
MG-40 | 40 | 1300 | 75 | Dg70 | 80 | Dg50 | 500 | 3000 | 3400 |
MG-50 | 50 | 1400 | 75 | Dg80 | 80 | Dg50 | 500 | 3300 | 3800 |
MG-60 | 60 | 1500 | 75 | Dg80 | 80 | Dg50 | 600 | 3500 | 4500 |
FAQ:
Parameters Required for Filter Machine Selection
Type of material (liquid, slurry, chemical, oil, wastewater, etc.)
Material properties: viscosity, density, temperature, pH, corrosiveness, abrasiveness
Solid content and particle size distribution
Desired filtration accuracy or particle size (mesh size or micron rating)
Required filtration capacity (m³/h, L/h, or tons/hour)
Continuous or batch operation
Operating temperature (°C or °F)
Motor power and voltage
