1. Compact magnetic filter for boilers
2. Body construction in polyamide PA66 + 33% Glass Fiver
3. Cap construction in polyamide PA66 + 33% Glass Fiver
4. Stainless steel filter AISI 304, 800 microns
5. EPDM PEROX as a hydraulic seal
6. Magnetic element Neodymium RE35 11.000 Gauss.
7. Brass ball valve acc/ UNE-EN 12165
8. Brass connection fitting acc/ UNE-EN 12165
9. Maximum working pressure 3 bar
10. Maximum working temperature 90ºC
11. Connection on boiler side with free nut female, G3/4" UNE-EN ISO 228
12. Connection on system side with male G3/4” UNE-EN ISO 228
13. Compatible fluid: Water and water with glycol
By going through a set course, the fluid is forced to cross the mesh of cartridge and enter the filtration chamber, where simultaneous action of magnet, filtering cartridge and the specific geometry in different phases, the water is filtered from the ferrous sludge. First, the sudden cross-section variation (the filtering chamber has a greatest diameter than the conduit) slows down the fluid motion and, consequently the entrainment rate of the particles suspended in it, this preventing them from avoiding the action exerted by the magnetic fields.
The large particles collide with the mesh of the filter cartridge and then slow down before circulation again. The magnet placed inside a cylinder at the centre of the filtration chamber, attracts all the impurities having magnetic characteristics. In this way, all magnetic (ferrous residues) and nonmagnetic (algae, sludge, sand, etc.) contaminants in the system are retained in the filtration chamber.
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