LC Column Switching and Regeneration
From LEAP
(Difference between revisions)
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=== Overview === | === Overview === | ||
- | This configuration allows the regeneration of one of the analytical columns while the other one is engaged - giving greater efficiency and higher throughput. | + | This configuration allows the regeneration of one of the analytical columns while the other one is engaged - giving greater efficiency and higher throughput. This can be run from Cycle Composer or within Analyst using a custom Cycle (requires ICC-CE). |
There are 2 pumps needed, one for the gradient run and another (higher flow rate and isocratic) for regeneration. This configuration requires a 6 port valve for sample loading and a 10 port valve for column switching. | There are 2 pumps needed, one for the gradient run and another (higher flow rate and isocratic) for regeneration. This configuration requires a 6 port valve for sample loading and a 10 port valve for column switching. | ||
+ | [[Image:Valve_Drawing_ColRegen.png|frame|Plumbing diagram for each selected column]] | ||
- | [[Image: | + | |
+ | [[Image:key_Benefits2.png]] | ||
- | |||
[[Image:Restrictions.png]] | [[Image:Restrictions.png]] |
Revision as of 15:28, 4 February 2009
LC Column Switching & Regeneration | |
Application Type | |
High Throughput | |
Application ID | |
LC1001 | |
Description | |
LC Column Switching & Regeneration. |
Overview
This configuration allows the regeneration of one of the analytical columns while the other one is engaged - giving greater efficiency and higher throughput. This can be run from Cycle Composer or within Analyst using a custom Cycle (requires ICC-CE).
There are 2 pumps needed, one for the gradient run and another (higher flow rate and isocratic) for regeneration. This configuration requires a 6 port valve for sample loading and a 10 port valve for column switching.