Based on the customer's operational parameters requirements, design and select the appropriate models to meet customer needs.

1.Technical Description：

Utilize mechanical and physical principles such as gravity, collision, filtration, and coalescence to remove liquid droplets and solid particles from gases. This process is applied to eliminate impurities like droplets, solid particles, and rust from gas media, protecting downstream precision instruments and equipment, recovering products, or purifying gases.

2.Design Selection：

Incorporating medium characteristics, operating parameters, site conditions, and filtration requirements, design and select a reasonable separation and filtration technology.

  • Imported equipment - blade type, cyclone type, baffle type

  • Separation Elements - Mesh, Blades, Cyclone, Vortex

  • Filter Elements - Core, Plate, Pleated, Bag, Activated Carbon

  • Agglomeration Elements - Plate-type, Candle-type

  • Select multi-stage separation and coalescence filter elements based on requirements.

3.Technical Specifications：

  • Separation Accuracy: 1, 3, 5, 10 micrometers

  • Separation Efficiency: 99.9%

  • Vertical/Horizontal structure

  • Component Material: ultra-fine glass fiber, polyester, polypropylene, nylon, 304, 316, etc.

4.ApplicationsIndustry：

Used in situations requiring the removal of liquid droplets and solid particle impurities from gases, such as in natural gas processing, oil, refining, petrochemicals, coal chemicals, hydrogen energy, and energy industries. Typical applications include:

  • Natural Gas Dust and Liquid Removal

  • Remove the desiccant particles and droplets downstream of the drying bed.

  • Remove catalyst particles and droplets downstream of the catalytic bed.

  • For metering and pressure regulating stations;

  • For urban gas distribution systems

  • Protect downstream equipment