• FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit
  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit
  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit
  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit
  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit
  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit

FSK Corrosion-Resistant Water-Ring Vacuum Unit

The Xin’anjiang IIFSK series corrosion-resistant water-ring vacuum unit is a patented new-generation product independently developed by our company, integrating corrosion-resistant materials and high-vacuum technology. The FSK series is designed for corrosive gases without solid particles and is widely used in light industry, chemicals, food processing, textiles, petrochemicals, metallurgy, and pharmaceuticals.
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  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit
  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit
  • FSK Corrosion-Resistant Water-Ring Vacuum Unit,MY SHOP,FSK Corrosion-Resistant Water-Ring Vacuum Unit

Description

  Product Overview  

The Xin'anjiang-brand IIFSK series corrosion-resistant water-ring vacuum unit is a new generation of patented products independently developed by our company; this series of water-ring pumps integrates corrosion-resistant materials with high-vacuum technology.


  Use  

    The FSK series corrosion-resistant water-ring vacuum pump is designed for pumping corrosive gases free of solid particles and is widely used in industries such as light industry, chemicals, food processing, textiles, petrochemicals, metallurgy, and pharmaceuticals.

    In practical applications, these pumps are frequently employed in processes such as vacuum drying, vacuum conveying, negative-pressure dust removal, distillation and filtration, and vacuum crystallization.

        Intended Use  

        This pump is widely used in processes such as vacuum evaporation, filtration, drying, concentration, distillation, and vacuum crystallization across the food, petroleum, chemical, pharmaceutical, metallurgical, and electronics industries. It is suitable for handling various gases, including corrosive gases that are free of solid particles.

        In practical applications, water-ring pumps are frequently employed for processes such as vacuum drying, vacuum material transfer, negative-pressure dust removal, distillation and filtration, and vacuum crystallization.

          Performance Range Chart 




          Selection Guide  

            Water-ring vacuum pump models are typically designated in the format "II FSK - 8," where the parameters signify the following:

            II — Second-generation water-ring pump

            F — Corrosion-resistant

            SK — Water-ring vacuum pump

            8 — Maximum pumping capacity (m³/min)

              Water-ring vacuum pump specifications table  


            Product Model

             Maximum pumping capacity (m³/min)



            Ultimate vacuum level

            Power
            (kW)


            Rotational speed (r/min)

            Water consumption (L/min)
            Inlet/Outlet Diameter (mm)
            Mpa mmHg
            II FSK-1.5 1.6 0.098 735 3 1440 8 65/65
            II FSK-2 2.76 0.098 735 4 1440 9 65/65
            II FSK-3 3.85 0.098 735 5.5 1440 12 65/65
            II FSK-4 4.68 0.098 735 7.5 1440 15 65/65
            II FSK-6 6.1 0.098 735 11 1440 20 80/80
            II FSK-8 7.8 0.098 735 15 1440 24.5 80/80
            II FSK-12 12.6 0.098 735 22 970 26 125/125
            II FSK-16 16.8 0.098 735 30 970 34 150/150
            II FSK-20 20.4 0.098 735 37 970 36 150/150
            Notes: ① The performance figures in the table are based on the following conditions: gas temperature of 20°C, atmospheric pressure of 1013.25 hPa (equivalent to 760 mmHg), relative gas humidity of 70%, and circulating water supply temperature of 15°C. 
            ② Pumping speed tolerance: ±10%. 
            ③ The vacuum values ​​in the table represent the pressure level below standard atmospheric pressure. (1 mmHg = 1 Torr = 133.3 Pa; 0.1 MPa = 750 mmHg)

            Guidelines for Selecting Water-Ring Vacuum Pumps  

              Notes: ① The performance figures in the table are based on the following conditions: gas temperature of 20°C, atmospheric pressure of 1013.25 hPa (equivalent to 760 mmHg), relative gas humidity of 70%, and circulating water supply temperature of 15°C. 

              ② Pumping speed tolerance: ±10%. 
              ③ The vacuum values ​​in the table represent the pressure level below standard atmospheric pressure. (1 mmHg = 1 Torr = 133.3 Pa; 0.1 MPa = 750 mmHg)








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