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Packed GC Columns
Packed GC columns are used in applications where separation performance is not the critical point. In contrast to the flexible fused silica capillary columns, which are easy to handle in normal laboratory operation, packed stainless steel columns are extremely stable. At harsh conditions that you find for example at production sites or in mobile systems the stability of packed columns often is helpful and necessary. Furthermore packed columns have a significant higher sample capacity. To some extend the lower separation efficiency can be compensated by the very large assortment of stationary phases. They give the opportunity to choose the right selectivity of the phase. Especially in the field of gas analysis packed columns are still essential.
Packed Columns for GC available on request
Altmann-Analytik offers a large assortment of packed columns. You can select from several column materials (stainless steel, INNOSteel), different dimensions (e. g. inner diameter from 1 to 5.3 mm) and a variety of packing materials. Beside separation phases based on polymers (see tables) a lot of stationary phases can prepared regarding customer requirements. On customer’s option the packed column can be pre-conditioned in carrier gas stream so that it is prepared for direct use in the system.
Altmann Analytik offers the appropriate individual column for each application. Our inquiry form will help you with the configuration. For further questions please contact us via E-Mail or phone.
Surfaces of packed GC Columns
If stainless steel surfaces are not applicable specially coated columns are available. These INNOSteel columns have a high-purity silica surface and therefore characteristics similar to glass but combined with the mechanical stability and flexibility of stainless steel.
Comparison of some features of packed and capillary columns
| Feature | Packed Column | Capillary Column |
|---|---|---|
| Separation efficiency | - | + |
| Sample capacity | + | - |
| Available phase selectivity | + | - |
| Column bleeding | - | + |
| Max. temperature | - | + |
| Chemical stability | + | - |
Some polymer based packing materials for packed columns
| Type | Name | USP-Code |
|---|---|---|
| Styrene-divinylbenzene copolymer having a nominal surface area of less than 50 m² per g and an average pore diameter of 0.3 to 0.4 μm | Chromosorb 101 | S2 |
| Copolymer of ethylvinylbenzene and divinylbenzene having a nominal surface area of 500 to 600 m² per g and an average pore diameter of 0.0075 μm |
HayeSep Q Porapak Q |
S3 |
| Styrene-divinylbenzene copolymer with aromatic –O and –N groups, having a nominal surface area of 400 to 600 m² per g and an average pore diameter of 0.0076 μm |
HayeSep R Porapak R |
S4 |
| Styrene-divinylbenzene copolymer having a nominal surface area of 250 to 350 m² per g and an average pore diameter of 0.0091 μm |
HayeSep P Porapak P Chromosorb 102 |
S6 |
| Copolymer of 4-vinyl-pyridine and styrene-divinylbenzene |
HayeSep S Porapak S |
S8 |
| A porous polymer based on 2,6-diphenyl-p-phenylene oxid | Tenax TA | S9 |