Membrane bioreactor system using reciprocating membrane

What is claimed is: 1. A reciprocating membrane bioreactor system comprising: a biological treatment train ( 50 ) for receiving influent ( 10 ) to be treated, the biological treatment train ( 50 ) producing treated wastewater; a membrane tank ( 60 ) housing a membrane ( 70 ), the treated wastewater from the biological treatment train ( 50 ) being filtered through the membrane ( 70 ) to produce effluent ( 40 ); a reciprocation apparatus ( 80 ) for reciprocating the membrane ( 70 ), the reciprocation reducing fouling on the membrane ( 70 ), wherein the reciprocation apparatus ( 80 ) comprises a motor ( 103 ) connected to a pulley ( 101 ) via a belt ( 102 ) to rotate a rotor ( 100 ) so as to convert rotational motion into reciprocating motion of a sliding frame ( 90 ) through a shaft ( 110 ), wherein the sliding frame is interconnected to the membrane so as to move the membrane submerged in the membrane tank in a horizontal reciprocating motion determined by a speed at which the rotor rotates. 2. The reciprocating membrane bioreactor system as described in claim 1 wherein shock load due to reciprocating motion is reduced by a dampener ( 94 ) in between the sliding frame ( 90 ) and the shaft ( 110 ), and wherein the sliding frame ( 90 ) is configured to move along sliding rails with linear bearings and pillow block ( 91 ) supports. 3. The reciprocating membrane bioreactor system as described in claim 1 wherein shock load due to reciprocating motion is reduced by a dampener ( 94 ) in between the sliding frame ( 90 ) and the shaft ( 110 ), and wherein the sliding frame ( 90 ) is configured to move along sliding rails with linear bearings and pillow block ( 91 ) supports. 4. The reciprocating membrane bioreactor system as described in claim 1 wherein the biological treatment train comprises: an anaerobic treatment tank ( 51 ) for biologically treating the influent in the absence of dissolved oxygen; an anoxic treatment tank ( 52 ) for denitrifying the treated wastewater under oxygen-depleted conditions; an aerobic treatment tank ( 53 ) for biologically treating the wastewater in the presence of dissolved oxygen; and wherein the membrane tank ( 60 ) for produces effluent through the membranes ( 70 ) being reciprocated repetitively via the reciprocation apparatus ( 80 ). 5. The reciprocating membrane bioreactor system as described in claim 4 further comprising an activated sludge return line ( 31 ) for delivering the activated sludge from the membrane tank ( 60 ) to the anoxic treatment tank ( 52 ) and an internal recirculation line ( 32 ) from the anoxic tank ( 52 ) to the anaerobic tank ( 51 ). 6. The reciprocating membrane bioreactor system as described in claim 4 further comprising an activated sludge return line ( 33 ) for delivering the activated sludge from the membrane tank ( 60 ) to the anaerobic treatment tank ( 51 ) and an internal recirculation line ( 34 ) from the aerobic tank ( 53 ) to the anoxic tank ( 52 ). 7. The reciprocating membrane bioreactor system as described in claim 4 further comprising an activated sludge return line ( 31 ) for delivering the activated sludge from the membrane tank ( 60 ) to the anoxic treatment tank ( 52 ). 8. The reciprocating membrane bioreactor system as described in claim 1 wherein the biological treatment train comprises: an anoxic treatment tank ( 52 ) for denitrifying the treated wastewater under oxygen-depleted conditions; an aerobic treatment tank ( 53 ) for biologically treating the wastewater in the presence of dissolved oxygen; and the membrane tank ( 60 ) produces effluent through the membranes ( 70 ) being reciprocated repetitively via the reciprocation apparatus ( 80 ). 9. The reciprocating membrane bioreactor system as described in claim 8 further comprising an activated sludge return line ( 31 ) that delivers the activated sludge from the membrane tank ( 60 ) to the anoxic treatment tank ( 52 ). 10. The reciprocating membrane bioreactor system as described in claim 1 further comprising a recirculation line from the membrane tank ( 60 ) to the biological treatment train ( 50 ) providing an oxygen-depleted condition. 11. A reciprocating membrane bioreactor system comprising: a biological treatment train ( 50 ) for receiving influent ( 10 ) to be treated, the biological treatment train ( 50 ) producing treated wastewater; a membrane ( 70 ), the treated wastewater from the biological treatment train ( 50 ) being filtered through the membrane ( 70 ) to produce effluent ( 40 ); a reciprocation apparatus ( 80 ) for reciprocating the membrane ( 70 ), the reciprocation reducing fouling on the membrane ( 70 ) and providing oxygen depleted conditions in the biological treatment train ( 50 ), wherein the reciprocation apparatus ( 80 ) comprises a motor ( 103 ) connected to a pulley ( 101 ) via a belt ( 102 ) to rotate a rotor ( 100 ) so as to convert rotational motion into reciprocating motion of a sliding frame ( 90 ) through a shaft ( 110 ), wherein the sliding frame is interconnected to the membrane so as to move the membrane submerged in a membrane tank in a horizontal reciprocating motion determined by a speed at which the rotor rotates. 12. The reciprocating membrane bioreactor system as described in claim 11 , wherein the biological treatment train ( 50 ) comprises an aerobic treatment tank ( 53 ) for biologically treating the wastewater in the presence of dissolved oxygen. 13. The reciprocating membrane bioreactor system as described in claim 11 , wherein the biological treatment train ( 50 ) comprises: an anoxic treatment tank ( 52 ) for denitrifying the treated wastewater under oxygen-depleted conditions; an aerobic treatment tank ( 53 ) for biologically treating the wastewater in the presence of dissolved oxygen; and an activated sludge return line ( 31 ) delivers the activated sludge from the aerobic treatment tank ( 53 ) to the anoxic treatment tank ( 52 ). 14. The reciprocating membrane bioreactor system as described in claim 11 , the biological treatment train ( 50 ) comprises; an anaerobic treatment tank ( 51 ) for biologically treating the influent in the absence of dissolved oxygen; an anoxic treatment tank ( 52 ) for denitrifying the treated wastewater under oxygen-depleted conditions; an aerobic treatment tank ( 53 ) for biologically treating the wastewater in the presence of dissolved oxygen; an activated sludge return line ( 31 ) delivers the activated sludge from the aerobic treatment tank ( 53 ) to the anoxic treatment tank ( 52 ); and an internal recirculation line ( 32 ) from the anoxic tank ( 52 ) to the anaerobic tank ( 51 ). 15. The reciprocating membrane bioreactor system as described in claim 11 , wherein the biological treatment train ( 50 ) comprises: an anaerobic treatment tank ( 51 ) for biologically treating the influent in the absence of dissolved oxygen; an anoxic treatment tank ( 52 ) for denitrifying the treated wastewater under oxygen-depleted conditions; an aerobic treatment tank ( 53 ) for biologically treating the wastewater in the presence of dissolved oxygen; an activated sludge return line ( 33 ) for delivering the activated sludge from the aerobic treatment tank ( 53 ) to the anaerobic treatment tank ( 51 ); and an internal recirculation line ( 34 ) from the aerobic tank ( 53 ) to the anoxic tank ( 52 ). 16. The reciprocating membrane bioreactor system as described in claim 11 , wherein the biological treatment train ( 50 ) comprises: an anoxic treatment tank ( 52 ) for denitrifying the treated wastewater under oxygen-depleted conditions; an anaerobic treatment tank