Industry’s Filtration Partner
Commercial Polypropylene Depth Media Filter Cartridges Engineered and Manufactured for Maximum Efficiency and Value

CPD pleated polypropylene depth cartridges are designed for clarifying applications requiring high flow capacity. The depth media utilized in the CPD product line is high loft Melt-blown polypropylene which gives exceptional flow characteristics and high dirt holding capacity because of its high internal porosity. Fine polypropylene fibers are bonded together to ensure no fiber release in a fiber matrix that maintains high porosity. Rated at 99.9% efficiencies make it a cost effective filter designed to extend final filter life.
Unit of Measure

Specifications

Pore size

N/A 1.0 µm

316 SS Ring

N/A No Ring

Cartridge Length

N/A 20 in50.8 cm

End Caps

N/A 213/119 Both Ends 213/119 w/ Plug 2-222 O-ring / Flat 2-222 O-ring with Spear 2-226 O-ring / Flat 2-226 O-ring with Spear Flat Gasket, double open end

Flow Rate

N/A 8.0 gpm30.28 lpm

Construction Materials

Filtration Media

N/A Polypropylene

Filtration Media Support Material

N/A Polypropylene

End Caps Material

N/A Polypropylene

Center Core Material

N/A Polypropylene

Outer Support Cage Material

N/A Polypropylene

Sealing Method

N/A Thermal Bonding

O-Rings Material

N/A Buna EP PTFE® Encapsulated Silicone PTFE® Encapsulated Viton® Silicone Viton®

Note

N/A All materials of construction are FDA accepted.

Maximum Operating Parameters

Forward Differential Pressure at 20ºC

N/A 50 psi3.4 bar

Reverse Differential Pressure at 20ºC

N/A 20 psi1.4 bar

Operating Temperature at 10 psid (0.69 bar) in Water

N/A 175 ºF80 ºC

Dimensions

Nominal Length

N/A 10 to 40 in25.4 to 101.6 cm

Nominal Outside Diameter

N/A 2.50 in6.35 cm

Filtration Area Per 10" Length

N/A 6.5 ft²0.60 m²

Flow Rate

N/A See the Flow Rate table in more image which represents typical water flow at a one psi (69 mbar) pressure differential across a single 10 inch cartridge element. The test fluid is water at ambient temperature. Extrapolation for housings with multiple elements and higher pressure drops is acceptable, but as flows increase the pressure drop of the housing becomes more apparent.