Gas exhaust filter device for a bioreactor

The invention claimed is: 1. A gas exhaust filter device for filtering moisture containing exhaust gas of a bioreactor, the filer device comprising a housing with a filter medium, a gas inlet, a gas outlet, and a plurality of ribs extending from at least one inner wall of said housing in a region between the gas inlet and the filter medium, wherein the filter medium is pleated with the pleats extending in a plane at an angle of 60-90 degrees relative to a straight line between said gas inlet and said gas outlet, and wherein the surface of the ribs and the interior walls of the housing is hydrophilic and the filter medium is hydrophobic. 2. The gas exhaust filter device of claim 1 , wherein said ribs extend between two opposite inner walls of said housing, delimiting a plurality of tortuous channels between the gas inlet and the filter medium. 3. The gas exhaust filter device of claim 1 , wherein said ribs are arranged in a continuous or discontinuous zigzag pattern. 4. The gas exhaust filter device of claim 1 , wherein the housing is single-walled and the thickness of the housing wall is less than 1 mm. 5. The gas exhaust filter device of claim 1 , wherein the pleats are extending in a plane at an angle of 80-90 degrees relative to a straight line between said gas inlet and said gas outlet. 6. The gas exhaust filter device of claim 5 , wherein the pleat angle is 20-120 degrees. 7. The gas exhaust filter device of claim 5 , wherein a plurality of pleats are supported by pleat support rods extending from at least one wall of the housing. 8. The gas exhaust filter device of claim 1 , further comprising at least one Peltier element clamped to an outer wall of the housing. 9. A bioreactor set that comprises a bioreactor equipped with at least one gas exhaust filter device of claim 1 . 10. The bioreactor set of claim 9 , wherein the bioreactor comprises a flexible bag. 11. A method for cultivation of cells in a bioreactor set according to claim 9 . 12. The method of claim 11 , wherein moisture condenses on the plurality of ribs during cultivation. 13. The method of claim 11 , wherein the cell culture volume is less than 100 L. 14. The method of claim 11 , wherein no cooling liquid is applied to said gas exhaust filter device. 15. The method of claim 11 , wherein the gas exhaust filter device is positioned with the gas outlet above the gas inlet and with a straight line between said gas inlet and said gas outlet at less than about 30 degrees relative to a vertical plane. 16. The bioreactor set of claim 9 , wherein the bioreactor is a flexible bag that can be mounted on a movable platform that provides agitation. 17. The method of claim 11 , wherein the cell culture volume is between 0.5 L and 20 L. 18. A gas exhaust filter device for a bioreactor, comprising a housing with a filter medium, a gas inlet a gas outlet, and a plurality of ribs extending from at least one inner wall of said housing in a region between the gas inlet and the filter medium and wherein the surface of the ribs and the interior walls of the housing is hydrophilic and the filter medium is hydrophobic, wherein the filter medium is pleated with the pleats extending in a plane at an angle of 60-90 degrees relative to a straight line between said gas inlet and said gas outlet, wherein said ribs extend between two opposite inner walls of said housing, delimiting a plurality of tortuous channels between the gas inlet and the filter medium, wherein said ribs are arranged in a continuous or discontinuous zigzag pattern, and wherein at least a portion of the housing is conical cylindrical in shape. 19. The filter device of claim 1 , wherein the filter is sterilization grade and the filter medium is a 0.1-0.2 micron hydrophobic microfiltration membrane. 20. The filter device of claim 1 , wherein the filter device is disposable. 21. The filter device of claim 1 , wherein the exhaust gas flow rate through the filter device is less than 2 L/min. 22. The bioreactor set of claim 9 , wherein the bioreactor set is disposable. 23. The bioreactor set of claim 9 , wherein the bioreactor set is made from radiation resistant material.