Fluidguard Machinery Equipment Co., Ltd. amy@aida-machinery.com
Call Us : 0086-15137376132
Model : 1C486026
Type : Coalescing Filters
Replacement for : 1C486026
Automotive electrostatic spray booths, small precision laser cutting equipment, pharmaceutical cleanroom aseptic filling lines, food & beverage sterile packaging, precision electronic component manufacturing, laboratory analytical instruments, small standalone screw compressor stations, medical brea
Part numbers marked "replacement" are not affiliated with the original manufacture.
Part No: 1C486026
Core Technical Specifications
Filtration Grade: A-Grade Terminal Oil Vapor & Odor Adsorption
Primary Function: Eliminate gaseous compressor oil vapor, hydrocarbon fumes and oily odors; capture residual trace liquid oil mist & solid particles ≥0.01 μm
Adsorption Media: High-density activated carbon foam composite with built-in micro glass fiber pre-filter layer; carbon foam embedded support structure prevents carbon powder shedding
Key Product Advantages
Final-stage adsorption element to deliver fully oil-free, odorless compressed air for high-sensitivity processes
Installed after S-grade ultrafine coalescing filter, this A-series cartridge removes gaseous oil vapor that cannot be captured by mechanical glass fiber coalescing media. It eliminates oily odors and volatile hydrocarbon contaminants, protecting downstream precision equipment, finished products and cleanroom production quality.
High-density activated carbon foam with superior long-term adsorption capacity
Uniform high-porosity carbon foam structure provides massive adsorption surface area, extends service interval and avoids rapid saturation in oil-contaminated compressed air pipelines. Built-in upstream microfiber layer intercepts residual liquid oil mist before it contacts carbon media, preventing premature carbon deactivation.
Carbon shedding prevention design, no secondary pipeline contamination
Activated carbon fully encapsulated within stabilizing foam matrix, combined with full stainless steel outer mesh shield; zero carbon dust leakage under continuous airflow impact, avoiding contamination of laser optics, spray nozzles, electronic components and food/pharmaceutical materials.
Optimized internal flow path for low permanent pressure loss
Built-in inlet flow distributor minimizes airflow turbulence and pressure drop across the entire element lifespan. Lower system backpressure reduces continuous power consumption of air compressors and cuts long-term factory electricity operating costs.