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Molecular Sieve Desiccant 4A 25 lb Pail
Price: $157.00
Availability: In Stock
Van Air Systems Item #: 33-0249 -

Molecular Sieve 4A Desiccant is shipped in 25 pound pails. Molecular sieve is a sodium aluminosilicate. It has a fixed pore size according to the material specified, a 4 Angstrom pore size being the most common. (1 Angstrom - 3.94 x 10-9 inches)Because of its high comparative cost, it is normally used for special process applications. Pressure dew points to -100°F may be achieved with molecular sieve depending on the dryer design and operating conditions.Color and Form: Off white / tan...

Molecular Sieve Desiccant 4A 50 lb Bag
Price: $228.00
Availability: In Stock
Van Air Systems Item #: 33-0265 -

Van Air Systems Molecular Sieve 4A Desiccant is shipped in 50 pound bags. Molecular sieve is a sodium aluminosilicate. It has a fixed pore size according to the material specified, a 4 Angstrom pore size being the most common. (1 Angstrom - 3.94 x 10-9 inches)Because of its high comparative cost, it is normally used for special process applications. Pressure dew points to -100°F may be achieved with molecular sieve depending on the dryer design and operating conditions.Color and Form: Off...

Molecular Sieve 4A 4x8 330 Lb Drum
Price: $695.00
Availability: In Stock
Item #: IFS4A4X8330 -

Molecular Sieve 4A Desiccant in 4 x 8 mesh size is shipped in 330 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. It has a fixed pore size according to the material specified, a 4 Angstrom pore size being the most common.

Molecular Sieve Desiccant 4A 8x12 Drum
Price: $695.00
Availability: In Stock
Item #: IFS4A8X12330 -

Molecular Sieve 4A Desiccant is shipped in 330 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. It has a fixed pore size according to the material specified, a 4 Angstrom pore size being the most common (1 Angstrom - 3.94 x 10-9 inches) Because of its high comparative cost, it is normally used for special process applications. Pressure dew points to -100°F may be achieved with molecular sieve depending on the dryer design and operating conditions. General Name 8x12 Beaded...

Molecular Sieve 3A 4x8 330 Lb Drum
Price: $780.00
Availability: In Stock
Item #: IFS3A4X8330 -

Molecular Sieve 3A Desiccant is shipped in 330 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. Because of its high comparative cost, it is normally used for special process applications. Pressure dew points to -100°F may be achieved with molecular sieve depending on the dryer design and operating conditions. General Name 4x8 Beaded Minimum Pore Diameter 3A Shape Sphere Size 4x8 Bulk Density 40 - 47 lbs / cu ft Resistance to Breakage 14- 20 lbs Absorption Capacity 19.5 lbs...

Molecular Sieve 3A 8x12 330 lb Drum
Price: $825.00
Availability: In Stock
Item #: IFS3A8X12330 -

Molecular Sieve 3A Desiccant is shipped in 330 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. Because of its high comparative cost, it is normally used for special process applications. Pressure dew points to -100°F may be achieved with molecular sieve depending on the dryer design and operating conditions. General Name 8x12 Beaded Minimum Pore Diameter 3A Shape Sphere Size 8x12 Bulk Density 42 - 48 lbs / cu ft Resistance to Breakage 7- 12 lbs Absorption Capacity 19.5 lbs...

Molecular Sieve 5A 4x8 330 lb Drum
Price: $825.00
Availability: In Stock
Item #: IFS5A4X8330 -

Molecular Sieve 5A Desiccant is shipped in 330 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. An alkali metal alumino-silicate, in the calcium form of the Type A crystal structure. Type 5A will adsorb molecules with critical diameters up to 5 Å angstroms. All molecules which can be adsorbed on Molecular Sieve types 3A and 4A can be adsorbed on Type 5A. General Name 4x8 Beaded Minimum Pore Diameter 5A Shape Sphere Size 4x8 Mesh Bulk Density 40 - 47 lbs / cu ft Resistance to...

Molecular Sieve 5A 8x12 330 lb Drum
Price: $825.00
Availability: In Stock
Item #: IFS5A8X12330 -

Molecular Sieve 5A Desiccant is shipped in 330 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. An alkali metal alumino-silicate, in the calcium form of the Type A crystal structure. Type 5A will adsorb molecules with critical diameters up to 5 Å angstroms. All molecules which can be adsorbed on Molecular Sieve types 3A and 4A can be adsorbed on Type 5A. General Name 8x12 Beaded Minimum Pore Diameter 5A Shape Sphere Size 8x12 Mesh Bulk Density 42 - 48 lbs / cu ft Resistance to...

Molecular Sieve Desiccant 13X 4x8 Drum
Price: $780.00
Availability: In Stock
Item #: IFS13X4X8308 -

Molecular Sieve 13X Desiccant is shipped in 308 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. An alkali metal alumino-silicate, in the calcium form of the Type A crystal structure. An alkali metal alumino-silicate, in the sodium form of the Type X crystal structure. Type 13X will adsorb molecules with critical diameters up to 10 Å angstroms. All molecules which can be adsorbed on Molecular Sieve types 3A, 4A, and 5A can be adsorbed on type 13X. General Name 4x8 Beaded Minimum...

Molecular Sieve 13X 8x12 308 lb Drum
Price: $780.00
Availability: In Stock
Item #: IFS13X8X12308 -

Molecular Sieve 13X Desiccant is shipped in 308 pound Steel Drums. Molecular sieve is a sodium aluminosilicate. An alkali metal alumino-silicate, in the calcium form of the Type A crystal structure. An alkali metal alumino-silicate, in the sodium form of the Type X crystal structure. Type 13X will adsorb molecules with critical diameters up to 10 Å angstroms. All molecules which can be adsorbed on Molecular Sieve types 3A, 4A, and 5A can be adsorbed on type 13X. General Name 8x12 Beaded...

Carbon Molecular Sieve Desiccant  20 KG Drum
Price: $409.00
Availability: In Stock
Item #: CMS-200 -

The carbon molecular sieve (CMS) is a sorbent desiccant developed in the 1970s that has no polarity. The primary purpose of carbon molecular sieve desiccant is to separate nitrogen from air. It has the performance to absorb oxygen in the air under changing pressure of normal temperature, so it can gain rich nitrogen gas. Traditional rich nitrogen in plant air is produced to adopt deep freezing method, that is to make air liquefy under low temperature, separate oxygen and nitrogen through...