Insulated serial column chromatography arrangements and systems

The invention claimed is: 1. A chromatography columns arrangement, comprising: a plurality of chromatography columns arranged in a longitudinally parallel cluster configuration; a single insulating sleeve which collectively encompasses the chromatography columns in the cluster configuration and provides thermal management of the chromatography columns; first and second end caps for the chromatography columns arrangements, the endcaps being sized to encompass the plurality of chromatography columns and to interface with the single insulating sleeve to form a sealed container; an inlet valve for directing mobile phase with a sample of analyte into the cluster configuration, the inlet valve interfaces with the insulating sleeve and integrated into the first end cap for the arrangement; an outlet valve for directing the mobile phase with the sample of analyte from a selected one of the chromatography columns to an output, the outlet valve interfaces with the insulating sleeve and integrated into the second end cap for the arrangement; a controller configured for controlling the inlet valve and the outlet valve to serially pass the mobile phase with the sample of analyte through multiple successive ones of the plurality of a sequence of successive ones of the chromatography columns. 2. The chromatography columns arrangement of claim 1 , further comprising an inlet mobile phase heater for each of the chromatography columns in the configuration. 3. The chromatography columns arrangement of claim 1 , further comprising an outlet heater for each of the chromatography columns in the configuration. 4. The chromatography columns arrangement of claim 1 , wherein the inlet valve has an inlet port connected to an inlet tube for receiving the mobile phase with the sample of analyte and respective ports in fluid communication with a respective one of the chromatography columns. 5. The chromatography columns arrangement of claim 1 , wherein the outlet valve has an outlet port connected to an outlet tube for receiving the mobile phase with the sample of analyte and respective ports in fluid communication with a respective one of the chromatography columns. 6. The chromatography columns arrangement of claim 1 , further comprising a single inlet mobile phase heater for the arrangement. 7. The chromatography columns arrangement of claim 1 , further comprising fluidic connections from the outlet selection valve to inlets of at least some of the chromatography columns. 8. The chromatography columns arrangement of claim 1 , wherein a first of the chromatography columns in the plurality of chromatography columns is oriented to have an inlet fluidically coupled to the inlet selection valve and an outlet fluidically coupled to the outlet selection valve and a second of the chromatography columns in the plurality of chromatography columns is oriented to have an inlet fluidically coupled to the outlet selection valve and an outlet fluidically coupled to an inlet selection valve. 9. The chromatography columns arrangement of claim 1 , wherein the plurality of chromatography columns are liquid chromatography columns. 10. The chromatography columns arrangement of claim 1 , wherein the single insulating sleeves is a vacuum sleeve, a sleeve of insulating material or a sleeve containing gas. 11. The chromatography columns arrangement of claim 1 , wherein a first of the plurality of the chromatography columns has an inlet fluidically coupled to the inlet valve and a second of the plurality of the chromatography columns has an inlet fluidically coupled to the outlet valve. 12. The chromatography columns arrangement of claim 1 , wherein the controller is configurable to select a desired number of chromatography columns for the mobile phase with the sample of analyte to serially pass though. 13. The chromatography columns arrangement of claim 12 , wherein the desired number of chromatography columns is 2, 3, 4 or 5.