Hydrostatic Pumps
Danfoss open circuit axial piston pumps are available in a wide range of displacements, from 25cc to 147cc with continuous pressures up to 310 bar, to fit a broad variety of applications and needs.
Hydrostatic Pumps
Danfoss have the displacement, configuration and control option to suit your specific application.
High-pressure pumps for ultra pure water applications
Pumps for demanding UPW applications
With Danfoss high-pressure, PAHT and PAHT G pumps you will get one of the most reliable solutions for your next high-pressure application. In the Danfoss range of high-pressure pumps you will find pumps for even the most demanding applications within DI and ultra pure water. Those pumps handle flows ranging from 0.7 to 354 l/min (0.2 to 93.5 gpm) and pressures up to 160 barg (2,321 psig).
High-pressure pumps for reverse osmosis applications
Energy efficient pumps for desalination
With Danfoss high-pressure APP pumps tailored to Sea Water Reverse Osmosis (SWRO) applications you will get one of the most reliable and sustainable solutions for desalination. The APP pumps can be used in almost any SWRO application - land-based, offshore or marine. Mounted in containers or trains, the APP solutions can contain several pumps in parallel to secure uninterrupted and sufficient supply at any time. Their compact footprint and simplified design require no frames or belt drives and can be installed either vertically or horizontally – also when the space is limited.
High-pressure pumps for chemical solvent applications
The Danfoss PAHT C pumps are engineered to handle chemical solvents at high-pressure.
The pumps can meet the needs for various applications demanding low or high chemical concentration. The PAHT C pumps handle flows ranging from 0.7 to 18.1 l/min (0.2 to 4.7 gpm) and pressures up to 100 barg (1,450 psig).To avoid contamination from oils in your application, the Danfoss pumps rely purely on the pumped media as lubricant. At the same time, the performance levels of the pumps are extremely high reducing energy bills and lowering CO2 emissions.
