Filtration system and method for filtering water

The invention claimed is: 1. Filtration system ( 20 ), comprising a tank ( 40 ) filled at least partly with water to be filtered, and at least one filtration module ( 30 ), the at least one filtration module ( 30 ) comprising at least one filter membrane ( 10 ) for filtering the water comprising a substrate ( 12 ) which is penetrated by at least one capillary ( 16 ), and at least one filtrate pipe ( 32 ) for drawing filtered water out of the tank ( 40 ), whereat the at least one filtration module ( 30 ) is arranged in the tank ( 40 ) such that the at least one filter membrane ( 10 ) is submerged at least partly in the water to be filtered, wherein: the at least one filtration module ( 30 ) is designed and arranged such that water to be filtered flows into the at least one capillary ( 16 ) and from the at least one capillary ( 16 ) through the substrate ( 12 ) into the filtrate pipe ( 32 ); the at least one filter membrane ( 10 ) has a cylindrical shape extending in an axial direction (x), with the at least one capillary ( 16 ) also extending in the axial direction (x); the at least one filtration module ( 30 ) comprises a casing ( 34 ) extending in the axial direction (x) and surrounding the at least one filter membrane ( 10 ) and the at least one filtrate pipe ( 32 ) in circumferential direction; the at least one filtration module ( 30 ) comprises first and second sealings ( 36 ), wherein the first and second sealings ( 36 ) are arranged, respectively, within the casing ( 34 ) near a lower front side ( 15 ) and near an upper front side ( 15 ) of the at least one filter membrane ( 10 ), wherein each of the first and second sealings ( 36 ) surrounds the at least one filter membrane ( 10 ) and the at least one filtrate pipe ( 32 ) in a circumferential direction; the lower front side ( 15 ) and the upper front side ( 15 ) of the at least one filter membrane ( 10 ) are free, respectively, from the first and second sealings ( 36 ) such that water can enter the at least one capillary ( 16 ) in the axial direction (x) from the lower front side ( 15 ) and the upper front side ( 15 ); the at least one filtration module ( 30 ) is arranged in the tank ( 40 ) such that at least one of the lower front side ( 15 ) and the upper front side ( 15 ) of the at least one filter membrane ( 10 ) is in contact with the water; the filtration system ( 20 ) is configured to draw water from the lower front side; a suction pump is provided for drawing water through the filtrate pipe ( 32 ) of the at least one filtration module ( 30 ) out of the tank ( 40 ); and the suction pump is connected to the at least one filtrate pipe of the at least one filtration module or to at least one collecting pipe, the suction pump is configured to generate negative pressure, being smaller than atmospheric pressure, to draw water through the at least one filtrate pipe and through the at least one filter membrane out of the tank. 2. Filtration system ( 20 ) according to claim 1 , characterized in that the at least one filter membrane ( 10 ) comprises several capillaries ( 16 ) penetrating the substrate ( 12 ), whereat the several capillaries ( 16 ) are separated from each other by parts of the substrate ( 12 ). 3. Filtration system ( 20 ) according to claim 1 , characterized in that the at least one filtrate pipe ( 32 ) extends in the axial direction (x) parallel to the at least one filter membrane ( 10 ), and in that the at least one filtrate pipe ( 32 ) is penetrated by openings ( 38 ) extending in a radial direction such that water flows from the at least one filter membrane ( 10 ) through the openings ( 38 ) into the at least one filtrate pipe ( 32 ). 4. Filtration system ( 20 ) according to claim 1 , characterized in that the at least one filtration module ( 30 ) is arranged in the tank ( 40 ) such that the axial direction (x) extends vertically. 5. Filtration system ( 20 ) according to claim 4 , characterized in that the at least one filtration module ( 30 ) is arranged in the tank ( 40 ) such that the at least one filtrate pipe ( 32 ) extends out of the water. 6. Filtration system ( 20 ) according to claim 1 , characterized in that the at least one filtration module ( 30 ) is arranged in the tank ( 40 ) such that the axial direction (x) extends horizontally. 7. Filtration system ( 20 ) according to claim 6 , characterized in that the at least one filtration module ( 30 ) is arranged in the tank ( 40 ) such that the at least one filter membrane ( 10 ) is submerged completely in the water. 8. Filtration system ( 20 ) according to claim 7 , characterized in that several filtration modules ( 30 ) are provided, whereat the filtrate pipes ( 32 ) of several filtration modules ( 30 ) are connected to the at least one collecting pipe ( 42 ). 9. Filtration system ( 20 ) according to claim 1 , wherein the filtration system ( 20 ) is configured to draw water from the lower front side ( 15 ) and the upper front side ( 15 ) of the at least one filter membrane ( 10 ). 10. Method for filtering water by means of a filtration system ( 20 ) according to claim 1 , whereat the water to be filtered is drawn into the at least one capillary ( 16 ) and from the at least one capillary ( 16 ) through the substrate ( 12 ) into the filtrate pipe ( 32 ) and from the filtrate pipe ( 32 ) out of the tank ( 40 ).