|Florencio Varela 155 - Villa Martelli (1603) - Pcia de Bs.As. - Argentina||
|Phones: (54-11) 4709-4070 / 4353 / 2120 / 2124 / 1325 / 4866 / 1468 - Fax: (54-11) 4709-7873|
|e mail: email@example.com|
MODEL CSA y CSN
|MET-POR model CSA, and CSN, were designed for those
applications requiring a superior filtration grade with low cost.
Due to the characteristics and properties of the materials used for the manufacturing of these elements, they are suitable for:
- Pharmaceutical Industry
Two efficiency options:
- CSA absolute retention (ß=5000).
- CSN nominal retention
These cartridges are available in polypropylene fibers and are manufactured under the most exigent parameters for synthetic cartridges.
CSA and CSN cartridges are supplied in universal sizes, diameter
2-1/2" O.D., 5" (127mm), 10” (254mm), 20" (508mm), 30"
(762mm) and 40" (1016mm) length.
Also special custom sizes may be manufactured.
Depending on the application different end caps may be supplied.
Micron ratings available are: 0,5µm; 1µm; 3µm; 5µm; 10µm; 20µm; 30µm; 50µm.
Maximum Temperature: 210ºF.
CARTRIDGE END ADAPTERS
These filter elements may be manufactured with different type of adapters to fit in your housing. Some of most common are:
HOW TO ORDER
Its unique capacity for the retention of particles and longer
life than other competitive depth filter is due to its strong design and modern
manufacturing process using very fine fibers giving high efficiency.
They are manufactured using a continuous extrusion process of polypropylene micro fibers thermally bonded into a complex matrix.
Due to the graded density of that matrix (increase gradually from the exterior surface to the interior), an efficient filtration and long life are reached using the whole depth of the cartridge.
Due to the wide chemical compatibility range of the polypropylene, these cartridges are suitable for almost low temperature applications.
Due to the graded density design, larger particles are trapped
near the surface while smaller particles penetrate the larger open areas to
be trapped nearer the center of the filter core, that is why this is a true