This text accommodates paid for content material produced in collaboration with KNF.
The N 680.15 is a brand new addition to KNF’s N 680 collection designed for prime most stress and movement fee. Its sturdy building permits it to tolerate excessive media and ambient temperatures, making it a really perfect selection for compression and restoration purposes. It’s able to dealing with hydrogen, biogas, pure fuel, noble gases and different difficult or useful media.
The N 680.15 is designed for fuel purposes requiring excessive stress efficiency. It affords a most stress of 12 bar (rel.), whereas additionally offering a robust movement fee as much as 140 l/min. Sturdy building, together with its distinctive head configuration, makes the N 680.15 appropriate for prime temperature purposes. It’s able to dealing with ambient and media temperatures as much as 40 °C. Wonderful chemical resistance and fuel tightness as much as 6 x 10-6 mbar x l/s make it a robust selection for purposes involving harmful or aggressive gases. Sooner or later, the brand new pump can even be obtainable in an explosion-proof model.
With its high-pressure capabilities and warmth resistance, the N 680.15 is a wonderful selection for industrial, vitality, and environmental industries. These capabilities, together with its warmth resistance and movement, make the N 680.15 optimum in hydrogen and fuel restoration purposes. Its leak tightness and chemical resistance additionally make it a sensible choice for helium compression and fuel purification methods, in addition to purposes involving excessive worth media.
Sturdy building: A powerful selection for difficult environments
The N 680.15 includes a solid aluminum compressor housing, stainless-steel heads, and cast-iron connecting rod for max sturdiness. It’s obtainable with a PTFE-coated diaphragm and stainless-steel valves as normal choices. The N 680.15 has a strong 230/400-volt AC 3 motor, with different voltages obtainable as customization choices. All of this with an impressive efficiency to cost ratio.
