Pumps

VA H50 SB-SF

The Verderair HI-CLEAN VA-H50 is a compact air operated double diaphragm (AODD) pump, constructed for hygienic CIP process applications. Suitable for medium transfer/container emptying.

Request a consultation
  • Description
  • Technical details
  • Downloads

he Verderair HI-CLEAN is a series of hygienic and food grade air operated diaphragm and piston pumps. The HI-CLEAN pumps are designed for operation in hygienic and food processing applications, such as pumping dairy (cream, cream cheese and yoghurt) and basic ingredients for fruit syrups or concentrates for the manufacturing of fruit juices & personal care. This pump range is not only giving you all features and benefits of the standard Verderair range, but is also guaranteeing a safe handling of your media and is easy to clean by hand or by a CIP or SIP process.

Diaphragm Pumps

The Verderair diaphragm pumps are the best solution for transfer applications that require more than just fluid to be handled. The range is excellent for viscous or sticky media, slurry and solids. The Verderair diaphragm pump series offers diaphragm pumps, varying in material (metallic, non-metallic, conductive) to drive principle (electric, pneumatic). Applications are found in chemical industry, pharmaceutical industry, solar power industry, waste water treatment, ceramic slurry, and many more. Special models are availble for ATEX, food and pharma applications.

Property
Max. flow 568 l/min
Max. discharge pressure 8 bar
Certificates EN 1935, FDA, ATEX 
Air conn. 1/2" BSP/NPT
Liquid conn. DIN11851 DN50-65-80
Liquid conn. 2"-2 1/2"-3" Triclamp (ASME(BPE))
Maximum suction lift (dry) 2,8 m wc
Maximum suction lift (wet) 5,5 m wc
Max. particle size 25,4 mm
Viscosity 20000 mPa.s
Max. temperature 104 °C
Materials liquids parts SS316 - Ra<0,8µm
Materials valves seats SS with EPDM o-rings
Materials valve balls Santoprene, PTFE, Flapper Valve
Materials diaphragms PTFE (2 piece), PTFE (overmolded), Santoprene, EPDM(overmolded)
Material center section Stainless steel Ra<0,8µm