A detailed Validation Guide is available from GE Water & Process Technologies to document our rigorous testing for your records and reviews. The guide includes all the data necessary to assist the user with compliance to regulatory requirements.
The MMP-S filter is just one example of our strong commitment to the pharmaceutical industry. Our complete portfolio includes filters for every stage of processing, and we offer custom solutions for your unique applications. GE is your complete source for filters, crossflow membranes, housings and other filtration equipment.
Specifications
Type |
N/A MMP-S |
Absolute Micron Rating |
N/A 0.2 µm |
Nominal Cartridge Length |
N/A 20 in51 cm |
End #1 Adapter |
N/A 222 O-Ring Stainless Steel Support Ring |
End #2 Adapter |
N/A 120 O-Ring |
Elastomer Material |
N/A Silicone |
Grade |
N/A Sterilizing |
Integrity Testing |
N/A Air diffusion per 10" module after saturation with clean water. <12 cc/min at 40 psig (2.76 bar) |
Note |
N/A Trademark of General Electric Company; may be registered in one or more countries. |
Materials of Construction
Media Material |
N/A 2 Layers of Hydrophilic Polyethersulfone |
Support Layers |
N/A Polypropylene Microfiber |
Core and Cage |
N/A Polypropylene |
Endcaps and Adapters |
N/A Polypropylene with Stainless Steel Insert |
Dimensions
Nominal Outside Diameter |
N/A 2.75 in70 mm |
Nominal Inside Diameter |
N/A 1.25 in31 mm |
Effective Filtration Area |
N/A 7 ft²1 m² |
Operational Limits
Maximum Forward Differential Pressure |
N/A 60 psi4.14 bar |
Maximum Reverse Differential Pressure |
N/A 30 psi2.07 bar |
Maximum Operating Temperature at 10 psid (0.69 bar) in Water |
N/A 180 ºF82 ºC |
Typical Applications
N/A
Memtrex MP-S filters are specifically designed for sterile filtration of pharmaceutical and biological products. Typical applications include: |
General Properties
N/A Memtrex MP-S filters are available the following absolute pore size micron rating: 0.2 µm. Tables 1, 2, 3 and 4 show further details on materials of construction, dimensions, operational limits and flow performance. |
Additional Information
N/A
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