Dynamic axial compression for preparative columns using external compression

What is claimed is: 1 . A dynamic axial compression column comprising: a tube defining: a first opening, a second opening, and a lumen extending from the first opening through the tube to the second opening; a first end plate assembly sealing the first opening and movably extending at least partially into the lumen via the first opening; a second end plate assembly sealing the second opening; a plurality of rods each extending along an outside of the tube and connecting the first end plate assembly and the second end plate assembly; and a first plurality of compression devices external to the tube, each of the first plurality of compression devices engaging one of the plurality of rods and biasing the first end plate assembly towards the second end plate assembly. 2 . The dynamic axial compression column of claim 1 , further comprising media filling the lumen. 3 . The dynamic axial compression column of claim 2 , wherein the media is compressible. 4 . The dynamic axial compression column of claim 2 , wherein the media is incompressible 5 . The dynamic axial compression column of claim 4 , wherein the media comprises at least one of: silica; alumina; zirconia; glass; hydroxyapatite; and flourapatite. 6 . The dynamic axial compression column of claim 4 , wherein the first plurality of compression devices are configured to apply a first pressure to the media filling the lumen. 7 . The dynamic axial compression column of claim 6 , wherein the first pressure is less than a maximum pressure for applying to the media without damaging the media. 8 . The dynamic axial compression column of claim 1 , wherein the plurality of rods comprise at least two rods. 9 . The dynamic axial compression column of claim 1 , wherein each of the first plurality of compression devices comprises a spring. 10 . The dynamic axial compression column of claim 9 , wherein the spring comprises a disc spring. 11 . The dynamic axial compression column of claim 10 , wherein the disc spring comprises a plurality of stacked discs. 12 . The dynamic axial compression column of claim 11 , wherein at least two of the plurality of stacked discs have opposite orientations. 13 . The dynamic axial compression column of claim 1 , further comprising an equalizing plate positioned between the first plurality of compression devices and the first end plate assembly, the equalizing plate configured to equally transfer force from the first plurality of compression devices to the first end plate assembly. 14 . The dynamic axial compression column of claim 1 , wherein the second end plate assembly movably extends at least partially into the lumen via the second opening. 15 . The dynamic axial compression column of claim 14 , further comprising a second plurality of compression devices. 16 . The dynamic axial compression column of claim 15 , wherein each of the second plurality of compression devices are external to the tube, and wherein each of the second plurality of compression devices engage one of the plurality of rods and bias the second end plate assembly towards the first end plate assembly. 17 . The dynamic axial compression column of claim 16 , further comprising a second equalizing plate positioned between the second plurality of compression devices and the second end plate assembly, the second equalizing plate configured to equally transfer force from the second plurality of compression devices to the second end plate assembly. 18 . The dynamic axial compression column of claim 1 , wherein the first plurality of compression devices are configured to apply a first pressure to bias the first end plate assembly towards the second end plate assembly. 19 . The dynamic axial compression column of claim 18 , wherein the first pressure is equal to or greater than a backpressure in the chromatography column and thereby eliminates headspace creation. 20 . The dynamic axial compression column of claim 1 , wherein the tube is circular. 21 . The dynamic axial compression column of claim 20 , wherein the tube has a diameter of at least three centimeters. 22 . The dynamic axial compression column of claim 1 , wherein the first end plate assembly comprises a first inward face, and wherein the second end plate assembly comprises a second inward face, and wherein each of the first inward face and the second inward face are covered by a frit.