Parallel assembly of chromatography column modules

What is claimed is: 1. A parallel assembly of chromatography column modules, the assembly having one common assembly inlet connected to a first end plate and one common assembly outlet connected to a second end plate, wherein the first and second end plates have no direct fluid contact with each other, each chromatography column module comprising: a bed space filled with chromatography medium; and integrated fluid conduits comprising a first integrated fluid conduit including a first tube fluid conduit connecting with the common assembly inlet and integrally combined with a first fluid conduit perpendicular to the first tube fluid conduit and connected to an inlet of the bed space at a bottom of the bed space to form a bottom distribution system, and a second integrated fluid conduit including a second tube fluid conduit connected with the common assembly outlet and integrally combined with a second fluid conduit perpendicular to the second tube fluid conduit and connected to an outlet of the bed space at a top of the bed space to form a top distribution system, wherein when the chromatography column module is connected with other chromatography column modules and the first and second integrated fluid conduits are configured to connect the bed space of the chromatography column module with the common assembly inlet and the common assembly outlet via the first tube fluid conduit and the second tube fluid conduit, and wherein a total length and/or volume of the first integrated fluid conduit from the common assembly inlet to one bed space together with a length and/or volume of the second integrated fluid conduit from the same bed space to the common assembly outlet is substantially the same for all bed spaces and chromatography column modules installed in the parallel assembly, wherein the first integrated fluid conduit of the chromatography column module adjacent to the common assembly outlet and the second integrated fluid conduit of the chromatography column module adjacent to the common assembly inlet are sealed to block flow therethrough to the first and second end plates, wherein the top distribution system of each chromatography column module is in communication with the common assembly outlet formed in the second end plate, such that fluid is released therethrough from the bed space, and the bottom distribution system of each chromatography column module is in communication with the first end plate such that fluid is introduced into the bed space. 2. The parallel assembly of claim 1 , wherein said chromatography column modules are stacked together. 3. The parallel assembly of claim 2 , further comprising a compression frame housing the chromatography column modules and configured to apply a compression force to the chromatography column modules to secure fluid tight connections within the fluid conduits of the assembly. 4. The parallel assembly of claim 2 , further comprising two fluid distribution modules one arranged at each side of the stack of column modules, each fluid distribution module having one distribution module fluid connection representing the assembly inlet or assembly outlet of the parallel assembly and a connection face towards the stack of column modules, the connection face having at least two connection face fluid connections for connecting to the inlet or outlet side of at least two stacked chromatography column modules. 5. The parallel assembly of claim 1 , wherein the chromatography column modules comprise at least two serially connected chromatography column submodules. 6. A chromatography column module adapted to be used in a parallel assembly, the assembly having one common assembly inlet connected to a first end plate and one common assembly outlet each connected to a second end plate, wherein the first and second end plates have no direct fluid contact with each other, each chromatography column module comprising: a bed space filled with chromatography medium; and integrated fluid conduits comprising a first integrated fluid conduit including a first tube fluid conduit connecting with the common assembly inlet and integrally combined with a first fluid conduit perpendicular to the first tube fluid conduit and connected to an inlet of the bed space at a bottom of the bed space to form a bottom distribution system, and a second integrated fluid conduit including a second tube fluid conduit connecting with the common assembly outlet and integrally combined with a second fluid conduit perpendicular to the second tube fluid conduit and connected to an outlet of the bed space at a top of the bed space to form a top distribution system, wherein when the chromatography column module is connected with other chromatography column modules and the first and second integrated fluid conduits are configured to connect the bed space of the chromatography column module with the common assembly inlet and the common assembly outlet via the first tube fluid conduit and the second tube fluid conduit, and wherein a total length and/or volume of the first integrated fluid conduit from the common assembly inlet to one bed space together with a length and/or volume of the second integrated fluid conduit from the same bed space to the common assembly outlet is substantially the same for all bed spaces and chromatography column modules installed in the parallel assembly, and wherein the first integrated fluid conduit of the chromatography column module adjacent to the common assembly outlet and the second integrated fluid conduit of the chromatography column module adjacent to the common assembly inlet are sealed to block flow therethrough to the first and second end plates, wherein the top distribution system of each chromotagraphy column module is in communication with the common assembly outlet formed in the first end plate, such that fluid is released therethrough from the bed space, and the bottom distribution system of each chromatography column module is in communication with the second end plate whereby fluid is introduced into the bed space. 7. The chromatography column module of claim 6 , wherein it is disposable. 8. The chromatography column module of claim 6 , wherein the end pieces and a tube of the chromatography column modules together define the bed space and the end pieces are facing each other when stacking said chromatography column modules and are prepared by moulding techniques. 9. The chromatography column module of claim 6 , wherein a tube of the chromatography column module is manufactured with the first and second integrated fluid conduits. 10. The chromatography column module of claim 6 , wherein sealing means are provided to fluid connections of the chromatography column modules. 11. The chromatography column module of claim 6 , wherein each chromatography column module is sterilized using gamma radiation prior to filling the bed spaces with chromatography medium. 12. The chromatography column module of claim 6 , wherein the bed space is prefilled with dry chromatography gel in an amount such that when liquid is added to the bed space the dry gel swells to a volume occupied in a nonconfined space that is at least 2% larger than the volume of the confined bed space. 13. The chromatography column module of claim 6 , wherein it comprises a sensor. 14. The chromatography column module of claim 6 , wherein it comprises an adjustable flow restrictor. 15. The chromatography column module of claim 14 , wherein the aseptic films are provided to fluid connections between the modules. 16. The chromatography column module of claim 6 , wherein the chromatography column module is