Method for treating a waste stream using a bioreactor and a membrane filter

The invention claimed is: 1. Method for treating a fluid aqueous waste stream comprising a biodegradable organic substance, comprising feeding the aqueous waste stream into a bioreactor containing a fluid which contains biomass; reacting the biodegradable organic substance with the biomass in the bioreactor under essentially anaerobic conditions, thereby forming methane; taking a first flow of fluid from the bioreactor and using the first flow for a feed to a membrane filtration unit, in which said feed is subjected to filtration, thereby forming a permeate stream and a retentate stream; returning the retentate stream completely or partly to the bioreactor; taking a second flow of fluid from the bioreactor as feed to a sludge treatment unit, which sludge treatment unit may be positioned outside the bioreactor or integrated in the bioreactor; adding a flocculation or coagulation additive to the second flow before feeding the second flow to the sludge treatment unit or adding a flocculation or coagulation additive inside the sludge treatment unit, whereby organic substance in the flow flocculates or coagulates; separating the second flow of fluid in the sludge treatment into a third flow, having a higher organic substance content than the second flow, and a fourth flow, having a lower organic substance content than the second flow; and mixing the fourth flow completely or a part thereof with the first flow that is to be fed to the membrane filtration unit and feeding said mixture into the membrane filtration unit. 2. Installation suitable for carrying out a method according to claim 1 , comprising a bioreactor ( 5 ); a sludge treatment unit ( 6 ) suitable for separating a second flow fluid stream from the bioreactor into a third flow having a higher organic substance content than the fluid stream from the bioreactor and a fourth flow having a lower organic substance content than the fluid stream from the bioreactor, and a membrane filtration unit ( 7 ), the bioreactor ( 5 ) comprising an inlet ( 8 , 8 a ) for a fluid waste stream, an outlet ( 12 , 12 a , 12 b ) for a first flow and second flow and an outlet ( 11 ) for a gas; the sludge treatment unit ( 6 ) comprising an inlet ( 13 ) for fluid originating from the bioreactor ( 5 ), which inlet ( 13 ) is connected with the outlet for a fluid ( 12 , 12 a , 12 b ) of the bioreactor via a conduit ( 2 ) for transporting fluid from the bioreactor ( 5 ) to the sludge treatment unit ( 6 ); the sludge treatment unit ( 6 ) comprising an outlet ( 14 ) for said fourth flow, and an outlet ( 15 ) for said third flow; the installation further comprising a unit for a coagulation/flocculation treatment provided in between the bioreactor ( 5 ) and the sludge treatment unit ( 6 ), adapted to allow adding coagulation/flocculation agent to the second flow originating from the bioreactor and further feeding the thus treated second flow to the sludge treatment unit; the membrane filter unit ( 7 ) comprising at an inlet ( 16 ) for a fluid which inlet ( 16 ) is connected with the outlet ( 12 , 12 a ) for fluid from the bioreactor via a conduit ( 1 ) for transporting fluid from the bioreactor ( 5 ) to the filter unit ( 7 ); the membrane filtration unit ( 7 ) comprising an outlet ( 18 ) for permeate and an outlet ( 17 ) for retentate, wherein the outlet ( 17 ) for retentate of the filtration unit ( 7 ) is connected to a recycle conduit ( 9 ) for returning the retentate from filtration unit ( 7 ) to the bioreactor ( 5 ); which outlet ( 14 ) for said fourth flow is connected with a conduit ( 4 , 4 a ) for introducing the fourth flow, after mixing with fluid taken from the bioreactor via the outlet for fluid ( 12 , 12 a ), via inlet ( 16 ) as filter feed (FF) into the filtration unit and/or which outlet ( 14 ) for the fourth is connected with a conduit ( 4 , 4 b ) for recycling fourth flow, to the bioreactor via the same inlet ( 8 ) or a separate inlet ( 8 b ) into the bioreactor. 3. Installation according to claim 2 , wherein the installation is provided with a sludge outlet ( 3 b , 103 ) to extract sludge from the installation. 4. Method for treating a fluid aqueous waste stream comprising a biodegradable organic substance, comprising feeding the aqueous waste stream into a bioreactor containing a fluid which contains biomass; reacting the biodegradable organic substance with the biomass in the bioreactor under essentially anaerobic conditions, thereby forming methane; taking a first flow of fluid from the bioreactor and using the first flow for a feed to a membrane filtration unit, in which said feed is subjected to filtration, thereby forming a permeate stream and a retentate stream; returning the retentate stream completely or partly to the bioreactor; taking a second flow of fluid from the bioreactor as feed to a sludge treatment unit, which sludge treatment unit may be positioned outside the bioreactor or integrated in the bioreactor, adding a flocculation or coagulation additive to the second flow before feeding the second flow to the sludge treatment unit or adding a flocculation or coagulation additive inside the sludge treatment unit, whereby organic substance in the flow flocculates or coagulates, separating the second flow of fluid in the sludge treatment into a third flow, having a higher organic substance content than the second flow, and a fourth flow, having a lower organic substance content than the second flow; and feeding the fourth flow completely or partly to the bioreactor. 5. Method according to claim 4 , wherein the fourth flow has a content of soluble plus colloidal organic substance having a size of less than 20 μm that is lower than the content of soluble plus particulate organic substance having a size of less than 20 μm in the second flow. 6. Method according to claim 4 , wherein the content of soluble plus colloidal organic substance having a size of less than 20 μm of the fourth flow is less than 10 g with COD/l. 7. Method according to claim 4 , wherein the content of soluble plus colloidal organic substance having a size of less than 20 μm in the feed to the membrane filtration unit is less than 12 g COD/l. 8. Method according to claim 4 , wherein the content of soluble plus colloidal organic substance having a size of less than 1.6 μm in the filter feed is less than 9 g COD/l. 9. Method according to claim 4 , wherein the sludge treatment unit comprises one or more devices selected from the group consisting of cyclones; screw presses; Voraxial® separators; drum screens; settlers; decanters; electro-dewatering devices; electro-osmosis devices; electro coagulation devices; and additional bioreactors operated at a lower total particulate solids content than the first bioreactor. 10. Method according to claim 4 , wherein soluble organic substance and colloidal organic substance having a size smaller than 20 μm flocculates or coagulates to form coagulates or flocculates having a size larger than 20 μm which coagulates or flocculates are removed with a separation device. 11. Method according to claim 4 , wherein a flocculation or coagulation additive is added to the fourth flow whereby organic substance in the flow flocculates or coagulates, wherein soluble organic substance and colloidal organic substance having a size smaller than 20 μm flocculates or coagulates to form coagulates or flocculates having a size larger than 20 μm which coagulates or flocculates are removed with a separation device. 12. Method according to claim 4 , wherein the second flow or the fourth flow is subjected to an adsorption treatment, wherein organic substance, in particular soluble and/or colloidal organic