Automatic activated carbon filter Nobel mod. FACD/F complete of filtering column, with vessel in coated carbon steel, with internal lining made with epoxy coated (thickness 300 µm) applied after sand blasting at the Sa3 of the Swedish scale; the external lining in polyuretanic acid-proof painting applied after sand blasting as above.
The vessel is made complete of man-holes, plate with a proper quantity of filter-nozzels made in polypropylene, for water distribution inside the filter.
The filter is equipped with INLET – OUTLET manifolds, including nos. 5 pneumatically controlled butterfly valves with pneumatic actuator double effect, media filter including one layer of granular activated carbon with high adsorption capacity and a supporting layer of selected quartz-sand, spheroidal type.
Fully automatic control by electronic programmer, according to the following modes :
FACD/FT according to (adjustable) time schedule
FACD/F-DP according to pressure drop and/or time schedule.
Dual models : two filters installed on parallel and both on service in the same time. The regeneration, by time (FT) or by pressure drop (F-DP) is featured on one filter at a time. This arrangement allows to reduce the backwashing flow rate required
Desalination systems by reverse osmosis. Designed to produce deionized water from drinking water or to produce drinking water from brackish water. Production of treated water up to 30.000 l/h (up to 720.000 l/day)
Automatic filters to remove iron and manganese from water, top of the line. Strong and reliable are designed for industrial applications or even for huge block or flat with butterfly valves for highest reliability.
Flow rates up to 38 m³/h.
(38+38 for Dual models)
Automatic dual media (sand) filters; top of the line. Specially suitable for filtration of water coming from wells or however with turbidity. Strong and reliable are designed for industrial applications or even for huge block or flat, with butterfly valves for highest reliability. Flow rates up to 76 m³/h (76+76 for Dual models).