Fluidguard Machinery Equipment Co., Ltd. amy@aida-machinery.com
Call Us : 0086-15137376132
Model : P-CE03-538
Type : Oil Separators Filters
Replacement for : P-CE03-538
Widely used in machinery manufacturing, automotive parts processing, packaging printing, textile factories, industrial spray painting, food processing, medium laser cutting and factory centralized air supply systems.
Part numbers marked "replacement" are not affiliated with the original manufacture.
Model: P-CE03-538
Type: Built-in Flange Air Oil Separator Filter Element
Core Technical Specifications
Filter Media: Imported German HV gradient borosilicate micro glass fiber composite
Filtration Precision: 0.1 μm submicron oil mist aerosol
Separation Efficiency: ≥99.99%
Residual Oil Content of Outlet Compressed Air: <3 ppm
Overall Dimension: OD 150mm, ID 100mm, Height 310mm, Flange Dia 220mm
Max Working Pressure: 1.6 MPa / 16 bar
Max Continuous Operating Temperature: ≤110℃
Initial Differential Pressure: ≤0.02 MPa
Replacement Warning Differential Pressure: ≥0.1 MPa
Installation: Multi-hole galvanized steel flange with high-temperature composite sealing gasket
Inner & Outer Protection: Double-layer perforated galvanized steel support mesh
Key Product Features
High-efficiency Air-Oil Coalescing Separation
Gradient layered glass fiber fully captures tiny oil mist mixed in high-temperature oil-gas mixture. Micro oil droplets collide and polymerize into large liquid oil, which flows back to the oil tank via built-in oil return pipe by gravity. It drastically reduces oil carryover rate, cuts lubricant consumption, and prevents oil contamination of downstream dryers, pipeline and terminal pneumatic equipment.
Low Pressure Drop Energy-saving Design
Uniform deep-pleated filter media expands effective filtration area significantly. Stable low airflow resistance is maintained under long-term full-load continuous operation, eliminating extra power loss caused by high back pressure and lowering overall compressor operation cost.
Super Large Oil & Dirt Holding Capacity
Multi-depth gradient composite structure stores massive separated lubricating oil, carbon sludge and metal wear debris, prolongs maintenance intervals and reduces production downtime for filter replacement.
Double-layer Galvanized Steel Reinforced Mesh
Inner and outer perforated metal cages resist high-speed airflow impact, prevent filter media collapse, deformation and fiber shedding, and eliminate secondary fiber pollution inside the compressor oil circulation system.
High-temperature Anti-leak Flange Sealing System
Heat-resistant composite flange gasket forms tight sealing after bolt fastening. Zero oil-air leakage occurs under frequent temperature and pressure fluctuation, ensuring stable separation efficiency without long-term attenuation.
Working Principle
High-temperature oil-gas mixture discharged from screw airend enters the separator tank and flows through the outer layer of oil separator core. Large oil droplets are separated by gravity at first; residual 0.1μm micro oil mist is intercepted and coalesced by gradient glass fiber media, aggregated into heavy liquid oil that drips back to the oil tank for circulating lubrication. Clean low-oil compressed air flows out from central channel to post-processing purification pipeline.
Application & Industries
Widely used in machinery manufacturing, automotive parts processing, packaging printing, textile factories, industrial spray painting, food processing, medium laser cutting and factory centralized air supply systems.