Search
Call for Live Order Assistance & Technical Support (7:30am-5pm CST)
All Categories
    Menu Close

    FilmTec Thin Film Reverse Osmosis Filter Membranes

    FilmTec Thin Film Composite Membranes are common replacements for a wide variety of Reverse Osmosis Systems. Spiral wound, thin film composite membranes offer better rejection of dissolved solids, can operate at lower pressures and produce more water faster than other types of membrane construction. Rejection rates of 99% are standard.

    Available in Tap Water (Treated water supply), Chlorine filters should be used prior to the membrane for increased life. Contact us for options.

    Extra Low (XLE) and Low Energy (LE) membranes can operate at lower input pressures than standard membranes.

    Membrane performance is greatly affected by water temperature. Flow rates shown are based on 77° F. input water temperature. Example: (50° F. input temperature can reduce flow rates as much as 40%). Higher input temperatures will increase flow. Production rates are based on a 24 hour day.

    All membranes are rated to 113° F. Rated to 600 PSI. Sizes are either 2-1/2" or 4" O.D. x length


    *Low Energy Membranes.
    Part No. Catalog Description Price
    SKU: EPETT07 Catalog: E0761 Description: FilmTec Thin Film Reverse Osmosis Filter Membrane, Tap Water, 2-1/2" x 21", 325 GPD @ 225 PSI Price: $253.00 / EA
    i h
    SKU: EPETT08 Catalog: E0761 Description: FilmTec Thin Film Reverse Osmosis Filter Membrane, Tap Water, 2-1/2" x 40", 1000 GPD @ 225 PSI Price: $236.00 / EA
    i h
    SKU: EPETT11 Catalog: E0761 Description: FilmTec Thin Film Reverse Osmosis Filter Membrane, Tap Water, 4" x 40", 2600 GPD @ 225 PSI Price: $310.00 / EA
    i h
    SKU: EPXLE4021 Catalog: E0761 Description: FilmTec Thin Film Reverse Osmosis Filter Membrane, *Tap Water, 4" x 21", 1025 GPD @ 100 PSI Price: $376.00 / EA
    i h
    SKU: EPXLE4040 Catalog: E0761 Description: FilmTec Thin Film Reverse Osmosis Filter Membrane, *Tap Water, 4" x 40", 2600 GPD @ 100 PSI Price: $320.00 / EA
    i h