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Time:2025-07-07 15:15:58 Reading volume:
Impurity filtration of industrial oil is a key step to maintain equipment performance and extend the life of oil products. The following are methods, equipment and operation points for filtering impurities in industrial oil:
1. Solid particles: metal wear debris, dust, fiber, etc. (particle size ranges from a few microns to millimeters).
2. Water: free water or emulsified water.
3. Gel/sludge: oil oxidation products.
4. Other oils: mixed pollution of different oils.
1. Mechanical filtration (for solid particles)
- Equipment:
- Filter element:
- Use paper, metal mesh, or glass fiber filter element, with an accuracy of 1~100μm.
- Suitable for hydraulic oil and lubricating oil (such as regular maintenance of the excavator hydraulic system).
- Bag filter:
- Handle large flow oil, with an accuracy of 5~50μm (such as batch filtration of gearbox oil).
- Self-cleaning filter:
- With a scraper or backwash function, reduce downtime (such as a continuous production line in a steel mill).
- Key points of operation:
- replace the filter element regularly to avoid excessive pressure difference, causing filter element rupture.
- The filter element accuracy should match the equipment requirements (such as a servo valve requires NAS level 5 cleanliness).
2. Centrifugal separation (solid particles + water)
- Principle: Use centrifugal force to separate impurities and water with a density greater than oil.
- Equipment:
- Disc centrifuge: high-speed rotation (such as ship diesel engine oil purification).
- Tubular centrifuge: handles high-viscosity oil (such as rolling oil recovery).
- Advantages: no consumables are required, suitable for highly polluted oil.
3. Vacuum dehydration (for water)
- Equipment: vacuum oil filter
- Evaporate water through heating (60~70℃) + negative pressure, and filter particles at the same time.
- Applicable scenarios: transformer insulating oil, turbine oil (water content must be ≤50ppm).
4. Adsorption filtration (colloid/trace impurities)
- Materials:
- Activated clay: adsorption of oxidation products (such as the regeneration of old lubricating oil).
- Silica gel/molecular sieve: deep water removal (such as aviation hydraulic oil).
- Electrostatic adsorption: used for ultra-fine filtration (such as precision instrument oil).
5. Coagulation separation (oil-water emulsion)
- Equipment: Coagulation oil filter
- First coalesce tiny water droplets, then separate through a hydrophobic filter element (such as cutting fluid purification).
| Parameters | Considerations | Examples |
|----------------|-------------------------------------|-----------------------------|
| Oil type | Viscosity, chemical stability | High-viscosity gear oil needs to be heated to reduce viscosity before filtering |
| Impurity characteristics | Particle size, water content, whether emulsified | Emulsified oil needs to be demulsified first (add centrifuge or chemical agent) |
| Flow requirements | Online filtration for continuous production, offline for intermittent | Circulating filtration system for injection molding machine |
| Cleanliness standard | Refer to ISO 4406 or NAS 1638 level | Hydraulic system requires NAS level 7 or below |
1. Safety:
- Prevent scalding when filtering hot oil, and use explosion-proof vacuum equipment.
2. Compatibility:
- The filter material must be oil-resistant (e.g. nitrile rubber seals are not suitable for phosphate ester hydraulic oil).
3. Environmental protection:
- Waste filter elements are treated as hazardous waste (when containing heavy metals).
- Wind power gearbox: online filtration system + moisture sensor, real-time monitoring.
- Injection molding machine: magnetic filter + 10μm filter element combination to capture metal chips and dust.
