Large volume disposable ultrafiltration systems and methods

The invention claimed is: 1. A disposable filtration system, comprising: a filter component having two disposable ultrafiltration filters fluidly connected in a parallel flow path such that the filter component is adjustable from a high volume configuration to a low volume configuration by disconnecting at least one of the disposable ultrafiltration filters from the parallel flow path, the filter component further comprising a feed inlet and retentate outlet in fluid communication on one side of the parallel flow path and a single permeate conduit on the other side of the parallel flow path for withdrawing permeate that passes through the parallel flow path; at first disposable pressure control modulating valve in fluid communication with the retentate outlet and configured to regulate pressure within the filter component; a second disposable pressure control modulating valve in fluid communication with the permeate conduit and configured to regulate pressure within the filter component; a disposable feed pressure sensor operably coupled to the feed inlet; a retentate pressure sensor located intermediate the filter component and the first disposable pressure control modulating valve and operably coupled to the retentate outlet; a permeate pressure sensor along the permeate conduit and located intermediate the filter component and the second disposable pressure control modulating valve; and wherein the retentate pressure sensor and the permeate pressure sensor are operative to provide an indication of the pressure within the filter component, and at least one system controller operably coupled to the first disposable pressure control modulating valve, the second disposable pressure control modulating valve, the feed pressure sensor, the retentate pressure sensor and the permeate pressure sensor, the at least one system controller configured to control the first disposable pressure control modulating valve and the second disposable pressure control modulating valve using information from the feed pressure sensor, the retentate pressure sensor and the permeate pressure sensor, the information based at least in part on the indication of the pressure within the filter component. 2. The disposable filtration system of claim 1 , wherein at least one of the two disposable ultrafiltration filters comprises a tubular membrane filter disposed within the filter component such that the fluid path is between an inner tube disposed concentrically within an outer tube and having an interior of the inner tube, an exterior of the inner tube, at least one inner tube inlet, and at least one inner tube outlet, wherein the inner tube is configured to allow a permeate to pass from the interior of the inner tube to the exterior of the inner tube. 3. The disposable filtration system of claim 1 , wherein at least one of the two disposable ultrafiltration filters comprises a flat sheet type membrane. 4. The disposable filtration system of claim 1 , wherein the disposable filtration system comprises a tangential flow filtration system. 5. The disposable filtration system of claim 1 , wherein at least one of the two disposable ultrafiltration filters comprises at least about 2.5 square meters of filter area. 6. The disposable filtration system of claim 1 , wherein at least one of the two disposable ultrafiltration filters provides a filter surface area from about 1.0 meter 2 to about 50 meters. 7. The disposable filtration system of claim 1 , wherein the disposable filtration system is configured to allow a change in flow path. 8. The disposable filtration system of claim 1 , further comprising a retentate reservoir having at least one inlet in fluid communication with the retentate outlet of the filter component and at least one outlet in fluid communication with the feed inlet of the filter component. 9. The disposable filtration system of claim 1 , further comprising: a permeate reservoir having at least one inlet in fluid communication with the permeate conduit of the filter component. 10. The disposable filtration system of claim 1 , further comprising: at least one non-pulsating pump having a disposable pump head operably connected to move fluid through the disposable filtration system. 11. The disposable filtration system of claim 1 , further comprising: at least one of a conductivity sensor, a temperature sensor and a flow sensor located intermediate the filter component and the second disposable pressure control modulating valve. 12. The disposable filtration system of claim 1 , further comprising: a conductivity sensor, a temperature sensor, a flow sensor, an ultraviolet sensor, and a turbidity sensor. 13. The disposable filtration system of claim 1 , wherein the at least one system controller comprises a programmable logic controller containing a plurality of proportional-integral-derivative controllers. 14. A method of filtering a fluid, comprising: pumping a fluid through a filter component having two disposable ultrafiltration filters contained therein and fluidly connected in a parallel flow path such that the filter component is adjustable from a high volume configuration to a low volume configuration by disconnecting at least one of the disposable ultrafiltration filters from the parallel flow path, the filter component further comprising a feed inlet and retentate outlet in fluid communication on one side of the parallel flow path and a permeate conduit on the other side of the parallel flow path for withdrawing permeate that passes through the parallel flow path; and controlling at least a pressure within the filter component with a first disposable pressure control modulating valve and a second disposable pressure control modulating valve that are each operably coupled to a system controller using information from a plurality of disposable sensors including a feed pressure sensor operably coupled to the feed inlet, a retentate pressure sensor located intermediate the filter component and the first disposable pressure control modulating valve and operably coupled to the retentate outlet, and a permeate pressure sensor operably coupled to the permeate conduit intermediate the filter component and the second disposable pressure control modulating valve; and wherein the retentate pressure sensor and the permeate pressure sensor are operative to provide an indication of pressure within the filter component and the information is based at least in part on the indication of the pressure within the filter component. 15. The method filtering of claim 14 , wherein at least one of the two disposable ultrafiltration filters provides a filter surface area from about 1.0 meter 2 to about 50 meters 2 . 16. The method filtering of claim 14 , wherein the system controller is a programmable logic controller containing a plurality of proportional-integral-derivative controllers. 17. The method filtering of claim 16 , wherein at least one of the plurality of proportional-integral-derivative controllers controls trans-membrane pressure. 18. The method filtering of claim 14 , further comprising recycling at least a portion of a retentate stream from an outlet of the filter component to an inlet of the filter component. 19. A disposable filtration kit, comprising: at least one disposable filtration assembly comprising a filter component and two disposable ultrafiltration filters contained therein and fluidly connected in a parallel flow path such that the filter component is adjustable from a high volume configuration to a low volume configuration by disconnectin