Bioreactor system

The invention claimed is: 1. A hydrocyclone configured to be connected to a bioreactor, said hydrocyclone comprising: a cell culture inlet which is configured to be connected to a cell culture in the bioreactor via a pump, whereby cell culture from the bioreactor can be transferred to the hydrocyclone; a hydrocyclone separation part into which cell culture can be introduced from the cell culture inlet, a top outlet through which a part of the cell culture with decreased cell concentration can be transferred after separation in the hydrocyclone separation part; a bottom outlet through which a part of the cell culture with increased cell concentration can be transferred after separation in the hydrocyclone separation part; and a connection device which is provided to surround the bottom outlet of the hydrocyclone leaving a free space around it such that a cell culture transferred out form the bottom outlet is allowed to freely discharge around the bottom outlet, wherein said connection device is configured to be connected to an inlet of the bioreactor; wherein said connection device is a tubular part connected to the hydrocyclone symmetrically around the bottom outlet, wherein said tubular part has a diameter of at least 2 cm; and wherein said connection device comprises an aseptic connector and wherein said hydrocyclone is produced from plastic and is a pre-sterilized single-use component. 2. The hydrocyclone according to claim 1 , wherein said connection device comprises a bellows or a telescope connection. 3. A bioreactor system for culturing cells, comprising: at least one bioreactor; and at least one hydrocyclone comprising: a cell culture inlet which is connected to a cell culture outlet of the bioreactor via a pump, whereby a cell culture from the bioreactor can be transferred to the hydrocyclone when a cell culture is provided in the bioreactor; a hydrocyclone separation part into which cell culture can be introduced from the cell culture inlet, a top outlet through which a part of the cell culture with decreased cell concentration can be transferred after separation in the hydrocyclone separation part; and a bottom outlet through which a part of the cell culture with increased cell concentration can be transferred after separation in the hydrocyclone separation part; and a connection device which is provided to surround the bottom outlet of the hydrocyclone leaving a free space around it such that the cell culture transferred out from the bottom outlet is allowed to freely discharge around the bottom outlet, wherein said connection device comprises an aseptic connector, and wherein said connection device is a tubular part connected to the hydrocyclone symmetrically around the bottom outlet, wherein said tubular part has an inner diameter of at least 2 cm, and wherein said hydrocyclone is produced from plastic and is a pre-sterilized single-use component, wherein said bottom outlet of the hydrocyclone is provided in a position such that when the bioreactor system is used for culturing cells the bottom outlet is in connection with a headspace of the bioreactor and wherein said bottom outlet is provided such that the bottom outlet has a free space around it such that a cell culture transferred out form the bottom outlet is allowed to freely discharge around the bottom outlet. 4. The bioreactor system according to claim 3 , wherein said bottom outlet is provided such that the bottom outlet has a free space of at least 1 cm radially around it. 5. The bioreactor system according to claim 3 , wherein the hydrocyclone is integrated with the bioreactor such that the bottom outlet of the hydrocyclone is provided directly in the headspace of the bioreactor when the bioreactor system is used for culturing cells. 6. The bioreactor system according to claim 3 , wherein the bioreactor is a flexible bag and the hydrocyclone is produced from plastic and wherein at least the bioreactor and a single-use part of the pump are provided as single-use components of the bioreactor system, optionally as a presterilized single-use package. 7. The bioreactor system according to claim 3 , wherein the hydrocyclone is provided inside the bioreactor and the top outlet of the hydrocyclone is connected to a port in a wall of the bioreactor. 8. The bioreactor system according to claim 3 , wherein the bottom outlet of the hydrocyclone is provided pointing into the bioreactor whereby the hydrocyclone is integrated in a side wall of the bioreactor. 9. The bioreactor system according to claim 3 , wherein the bioreactor system comprises at least two connected hydrocyclones, wherein the top outlet(s) of one or more first hydrocyclone(s) is connected to a cell culture inlet of a second hydrocyclone and wherein all the hydrocyclones are positioned such that their bottom outlets are provided in connection with the headspace in the bioreactor when the bioreactor system is used for culturing cells. 10. The bioreactor system according to claim 3 , wherein the bioreactor system further comprises a hollow fiber filter comprising an inlet connected to the top outlet of the hydrocyclone and a retentate outlet connected to the bioreactor and a permeate outlet configured for transferring a part of the cell culture with decreased cell concentration out from the bioreactor system when the bioreactor system is used for culturing cells.