Stainless steel magnetic bag filter housing are devices for clarifying water in closed circuits for hot water in heating systems and also cooling and ice water circuits.
As far as the water is flowing through the filter, it will take corrosion and clogging of the circuits caused by the presence of metallic particles related to the phenomena of electrolytic currents in the water, the introduction of dissolved gases due to leakage losses or through the porosity of the pipes.
These phenomenas in the water will generate sediments and sludge, and, consequently, will slow down the circulation of the fluid; at same time, the system will loose energy, efficiency and the life duration of the pumps will be reduced and the exchangers will be clogged. Magnetic bag filter housing are an effective response to these problems. Dimensions:
A min: 730 mm
B: 355 mm
C min: 190 mm
C max: 420 mm
D: 114 mmTECHNICAL CHARACTERISTICS
Every kind of particles with a size greater than 50 microns will be stopped by the filter bag while the high magnetic field magnetic bars will capture all the ferrous particles resulting from the corrosion of the circuit.
In addition, the bag filter housing will allow the introduction of conditioning products such as corrosion inhibitors or antiscalant.
Filtration thickness: 50 microns are stopped by the filter bag
Polished 304 stainless steel treatment chamber with stainless steel magnetic bars for magnetic metal oxide capture.
Adjustable stainless steel feet
Closing of the cover by M12 wing bolts stainless steel with ball joints and clips, fully dismountable.
Stainless steel basket and basket holder for holding the filter bag.
0-10 bars Glycerin Pressure gauge with brass pipe and air vent valve with D.4-6 mm cannula and compression.
Delivered with T adaptor, ball valve purge and air bleed/filling valve or corrosion inhibitor /scaling for PE pipe 4-6 mm.
0.15 BarMax. pressure:
10 barMax. temperature:
90°CDrain with plug:
½ F 15x21
Fitting event ¼ F8/13
Recommended water quality: 14°dH Class 3 (or 25°F).
DN20 model: A bypass circuit with 8 m³ flow (5 to 20 rooms - 2m³)