Single use slurrying and chromatography systems

The invention claimed is: 1. A disposable particulate slurry chromatography system, comprising: a flexible container configured to fit within a support structure and adapted to receive a particulate slurry filtration medium, the flexible container comprising: at least one inlet; at least one outlet; a separation barrier peripherally sealed within the container to separate the container into a filtration portion and a drainage portion, the separation barrier including a nozzle; a rigid distributor plate that supports the separation barrier; and wherein the separation barrier retains the filtration medium separately from the drainage portion during use while allowing fluids to pass therethrough, and the nozzle allows a high velocity mobile phase, pumped via an external pump, to fluidize the filtration medium via dislodging at least some of the filtration medium. 2. The system of claim 1 , further comprising at least one agitator disposed within the flexible container and adjustably configured to be raised or lowered in the flexible container. 3. The system of claim 2 , wherein the agitator in the raised position permits the filtration medium to operate in a settled, packed-bed configuration. 4. The system of claim 2 , wherein the agitator in the lowered position permits the filtration medium to operate in a mixed, slurry configuration. 5. The system of claim 1 , further comprising at least one probe comprising a sensor coupled to the flexible container and operably connectable to a system controller. 6. The system of claim 5 , wherein the at least one probe can comprise a temperature sensor, a pressure sensor, a UV sensor, a conductivity sensor, an optical density sensor, a pH sensor, and a turbidity sensor. 7. The system of claim 1 , wherein the separation barrier is a manifold or a mesh or a frit element and the filtration medium includes particulate beds, particulate slurries, filter aids, fibrous materials, flocculents, gels or chromatography resins. 8. The system of claim 1 , further comprising at least one sparger coupled to the flexible container and configured to deliver air to an interior of the flexible container. 9. The system of claim 1 , wherein the system further comprises a system controller operably coupled to at least one element of the flexible container, the system controller configured to control at least one parameter of operation of the system. 10. The system of claim 1 , wherein the system is configured to be a batch process system, drain and fill intermittent system or a continuously operated perfusion system. 11. The chromatography system of claim 10 , further comprising at least one sparger coupled to the flexible container and configured to deliver air to an interior of the flexible container. 12. A chromatography system, comprising: a rigid support structure; and a flexible container configured to fit within a support structure and adapted to receive chromatography resin packing material, the flexible container comprising: at least one inlet; at least one outlet; a frit filter peripherally sealed within the flexible container to separate the container into a resin containing portion and a drainage portion, the frit filter including a nozzle; a rigid distributor plate that supports the frit filter; and wherein the frit filter retains the resin material separately from the drainage portion during use while allowing fluids to pass therethrough, and the nozzle allows a high velocity mobile phase, pumped via an external pump, to fluidize the resin material via dislodging at least some of the resin material. 13. The chromatography system of claim 12 , wherein the support structure is a transparent material configured to allow visualization of an interior of the outer support vessel. 14. The chromatography system of claim 13 , wherein the support structure further comprises an actuator for adjusting the height of an agitator disposed within the flexible container. 15. The chromatography system of claim 14 , further comprising at least one agitator disposed within the flexible container and adjustably configured to be raised or lowered in the flexible container. 16. The chromatography system of claim 15 , further comprising at least one upper agitator and at least one lower agitator. 17. The chromatography system of claim 16 , further comprising at least one probe comprising a sensor coupled to the flexible container and operably connected to a system controller. 18. A method of performing chromatography, comprising: placing a flexible container within a support structure, the flexible container having an integral frit element and a rigid distributor plate that supports the frit element, the frit element includes a nozzle and is for retaining a chromatography medium; loading the container with particulate slurry chromatography medium via at least one inlet in the flexible container; filtering a liquid through the chromatography medium by loading the liquid through at least one inlet, fluidizing the chromatography medium by dislodging at least some of the chromatography medium via the nozzle through which the liquid is pumped at a high velocity via an external pump, and draining the liquid through at least one outlet in the flexible container; and releasing an eluate from the chromatography medium. 19. The method of claim 18 , wherein the flexible container further comprises an agitator, and the method further comprises lowering the agitator into the flexible container during use to engage the chromatography medium and form a slurry thereof. 20. The method of claim 18 , wherein the flexible container further comprises an agitator, and the method further comprises raising the agitator within the container during use to operate the system in a packed-bed configuration. 21. The method of claim 18 , wherein the flexible container further comprises at least one gas nozzle and the method further comprises delivering a gas to the frit element. 22. The method of claim 18 , wherein the method further comprises disposing of the flexible container after use. 23. A disposable particulate slurry chromatography system, comprising: a flexible container configured to fit within a support structure and adapted to receive a particulate slurry filtration medium, the flexible container comprising: at least one inlet; at least one outlet; a separation barrier peripherally sealed within the container to separate the container into a filtration portion and a drainage portion, the separation barrier including a nozzle; a rigid distributor plate that supports the separation barrier; and wherein the separation barrier retains the filtration medium separately from the drainage portion during use of the chromatography system such that fluids are allowed to pass therethrough while the filtration medium remains a slurry, and the nozzle allows a high velocity mobile phase, pumped via an external pump, to fluidize the filtration medium via dislodging at least some of the filtration medium.