Core principle:
Efficient separation: mainly used for efficiently removing liquid water and oil mist from fluids such as compressed air, gas, or lubricating oil.
Condensed filtration: Its core working principle is condensed filtration.
Interception and diffusion: When a fluid containing suspended oil-water aerosols passes through a filter element, tiny droplets are first captured by specially designed multi-layer composite fiber filter materials through mechanisms such as interception, diffusion, and inertial collision.
Agglomeration and growth: The captured tiny droplets aggregate and combine on the surface of the filter fiber, gradually forming larger droplets.
Gravity settling and discharge: When the droplet is large enough, it will detach from the surface of the filter material under the action of gravity and airflow, settle to the bottom of the collection tank or filter shell at the bottom of the filter element, and finally be discharged from the system through an automatic drain.
Solid particle removal: High quality coagulation separation filters usually have a certain solid particle filtration capacity (such as 1 micron or higher precision), which can simultaneously remove solid impurities such as dust and pipeline rust, achieving "two in one" filtration.
Core advantages:
1. Efficient water and oil removal:
It can effectively remove liquid water and oil mist (aerosols) from compressed air, and the residual oil content in the treated air can reach very low levels (such as<0.01 ppm w/w or lower, depending on the filter model and operating conditions).
2. Multi layer composite filter material:
Borosilicate micro glass fibers or other high-performance synthetic fibers are usually used as the core filter layer, which has extremely high porosity and pollutant carrying capacity.
It may include a pre filtration layer (to capture larger particles and protect the main filtration layer) and a post filtration layer/support layer (to prevent fiber detachment and provide structural support).
3. Stable and reliable structure:
End caps are usually made of metal (such as stainless steel, aluminum alloy) or high-strength engineering plastics to ensure sealing and structural strength.
The internal support structure (such as the central pipe and external network) is designed reasonably and can withstand system pressure fluctuations and pressure differentials.
There are various choices of sealing ring (O-ring) materials (such as NBR nitrile rubber, FKM/ fluororubber) to adapt to different fluid and temperature requirements.
Compressed air system: It is the main application area of FUDAI separation filter element.
After the air compressor aftercooler (as a pre filter or main pipeline filter).
Protect the dryer (refrigerated, adsorption) before use.
Before the precision filter (activated carbon filter), remove liquid oil-water to protect downstream high-value filter elements and equipment.
Use air points at the front end to ensure that terminal devices (such as pneumatic tools, spray guns, cylinders, valves, instruments and meters) receive clean and dry air.
Industrial gas system: purification of gases such as nitrogen, oxygen, carbon dioxide, etc. for water and oil removal.
Lubricating oil/hydraulic oil system: used for separating water from oil (especially for oil tank respirators or online dehydration devices).
Gas turbine intake filtration system: removes moisture and oil mist (if present) from the air.
| K-1.842 |
P.3-842 |
P.7-965 |
P.4-965 |
| K.1-842 |
P.3-965 |
P7.965 |
P.4-1093 |
| K.3-467 |
P.3-1093 |
P7.1093 |
P.4-1422 |
| K.3-559 |
P.3-1422 |
P7.1422 |
P.7-362 |
| K.3-842 |
P.4-279 |
60.644 965/D |
P.7-467 |
| K.3-965 |
P.4-362 |
60.644-1093/D |
P.7-559 |
| K.4-279 |
P.4-467 |
60.644-1012/D |
P.7-727 |
| K.4-362 |
P.4-559 |
60.644-1226/D |
P.7-965 |
| K.4-559 |
P.4-727 |
60.644-1204/D |
P.7-559 |
| K.4-727 |
P.4-842 |
60.644-1130/D |
P.7-727 |
| K.4-842 |
K.4-1422 |
P.3-362 |
P.3-727 |
| K.4-965 |
P.1-842 |
P.3-467 |
|
| K.4-1093 |
P.3-279 |
P.3-559 |
|
Audited Supplier 
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