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Oil Separators Filters

DC3265 Air-Oil Separator Flter

DC3265 Air-Oil Separator Flter

Model : DC3265

Type : Oil Separators Filters

Replacement for : DC3265

Automotive component electrostatic spraying workshops, metal cutting & welding factories, plastic injection molding production lines, food & beverage sterile packaging pneumatic systems, textile factory compressed air supply, small & medium pharmaceutical aseptic production gas supply, general machi

Part numbers marked "replacement" are not affiliated with the original manufacture.

Description

Part No: DC3265

Core Technical Specifications

Absolute Separation Precision: 0.1 μm micro oil mist aerosols

Oil Mist Capture Efficiency: 99.99% interception rate for oil particles ≥0.1 μm

Max Continuous Working Pressure: 1.0 MPa

Continuous Operating Temperature Range: -10°C ~ 115°C

Heavy dust, high ambient temperature, 24/7 continuous production: Shorten service life to 3,500–4,500 hours

Initial pressure drop of brand-new separator: ≤0.02 MPa

Alarm replacement differential pressure: ΔP ≥ 0.08 MPa

Outer Support Jacket: Perforated galvanized steel mesh, anti-rust coating to resist high-temperature oil vapor and acidic condensate erosion inside tank

Inner Central Support Tube: Thickened perforated steel core, anti-collapse under airflow pressure surges

Mounting Flange & Gasket: Integrated stamped steel flange, heat-resistant fiber composite full-face sealing gasket, zero air/oil bypass leakage

Built-In Oil Return Pipe: Central drain channel collects coalesced liquid oil and refluxes back to tank oil sump to avoid secondary oil re-entrainment

Key Product Advantages

Core primary separation component to control residual oil content of compressed air

Installed at the outlet of the compressor oil receiver tank, this element captures micro oil aerosols generated after rotor compression. It limits outlet air residual oil below 3 ppm, fully protecting downstream refrigerated dryers, desiccant dryers and inline precision coalescing filters from heavy oil contamination and premature failure.

Multi-layer gradient glass fiber media with ultra-large contaminant holding capacity & stable low pressure loss

Multi-gradient HV glass fiber composite media provides massive oil sludge storage capacity, slowing differential pressure rise throughout the full service cycle. Layered coalescing structure aggregates micro oil droplets into continuous liquid film for gravity reflux, maintaining consistent ultra-high separation efficiency without performance decay.

Integrated central oil return pipeline eliminates secondary oil carryover risk

Coalesced liquid oil flows down the dedicated central drain tube directly back to the tank bottom oil sump, preventing separated oil from being blown back into clean air stream by high-speed turbulent airflow, sustaining stable low oil carryover performance for the entire service life.

Full galvanized anti-corrosion & anti-static metal framework adapts to harsh humid high-temperature tank environment

All metal supporting frames adopt galvanized anti-rust treatment, resisting long-term erosion of high-temperature oil vapor and acidic condensate inside the oil tank; built-in static conductive structure eliminates static accumulation hidden fire hazard inside the filter element.

Air-Oil Separation Working Principle

High-temperature oil-air mixed gas discharged from screw rotors enters the outer cavity of the separator element. Large oil droplets collide with outer steel perforated jacket and drop into the oil tank via gravity for primary coarse separation.

Fine submicron oil mist aerosols penetrate multi-layer gradient glass fiber media; tiny oil particles collide, aggregate and coalesce into continuous liquid oil films on fiber surfaces.

Coalesced liquid oil flows downward along media layers, converges into the central built-in oil return tube, and refluxes back to the oil sump for circulation reuse.

Clean low-oil compressed air (residual oil ≤3 ppm) passes through the inner core support tube and flows out of the oil tank to downstream air treatment equipment and production terminals.

When media is fully saturated with carbon sludge and oil deposits, differential pressure rises sharply; excessive pressure difference may crack glass fiber media and cause massive oil carryover fault.

Application Scope

Automotive component electrostatic spraying workshops, metal cutting & welding factories, plastic injection molding production lines, food & beverage sterile packaging pneumatic systems, textile factory compressed air supply, small & medium pharmaceutical aseptic production gas supply, general machinery processing pneumatic tool stations.

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