Spiral wound membrane element and method for cleaning spiral wound membrane sheet

What is claimed is: 1. A spiral wound membrane element, comprising: a perforated central tube with a flow restriction at one end; one for more membrane sleeves, each of the one or more membrane sleeves comprising two membrane sheets enclosed at two edges around a feed spacer sheet and wrapped around the central tube; one or more permeate carrier sheets attached to the perforated central tube at a first edge opposite a second edge, wherein the one or more permeate carrier sheets and the one or more membrane sleeves are in a 1:1 ratio, respectively; a seal on a third edge and a fourth edge of each of the one or more permeate carrier sheets, extending from the first edge to the second edge wherein the one or more membrane sleeves and each of the one or more permeate carrier sheets are wrapped in a spiral and the second edge of each of the one or more permeate carrier sheets is open and extends beyond each of the one or more membrane sleeves lying over each of the one or more permeate carrier sheets in a peripheral region of the spiral wound membrane element such that each of the one or more permeate carrier sheets is in fluid communication with the perforated central tube and the peripheral region of the spiral wound membrane element; and an anti-telescoping device secured to each of end of the perforated central tube, the anti-telescoping device comprising a passage that communicates between the peripheral region of the spiral wound membrane element and inside of the perforated central tube. 2. The spiral wound membrane element of claim 1 , further comprising an outer wrap that wraps around each of the one or more membrane sleeves and each of the one or more permeate carrier sheets. 3. The spiral wound membrane element of claim 1 , wherein the flow restriction is a one-way valve. 4. A method for cleaning a spiral wound membrane element comprising: a perforated central tube with a flow restriction at one end; one or more membrane sleeves, each of the one or more membrane sleeves comprising two membrane sheets enclosed at two edges around a feed spacer sheet and wrapped around the central tube; one or more permeate carrier sheets attached to the perforated central tube at a first edge opposite a second edge, wherein the one or more permeate carrier sheets and the one or more membrane sleeves are in a 1:1 ratio, respectfully; a seal on a third edge and a fourth edge of each of the permeate carrier sheets, extending from the first edge to the second edge wherein each of the one or more membrane sleeves and each of the permeate carrier sheets are wrapped in a spiral and the second edge of each of the permeate carrier sheets is open and extends beyond each of the one or more membrane sleeves lying over each of the permeate carrier sheets in a peripheral region of the spiral wound membrane element such that each of the permeate carrier sheets is in fluid communication with the perforated central tube and the peripheral region of the spiral wound membrane element; and an anti-telescoping device secured to each of end of the perforated central tube, the anti-telescoping device comprising a passage that communicates between the peripheral region of the spiral wound membrane element and inside of the perforated central tube, the method comprising: introducing a first solution to a first side of each of the membrane sheets of said spiral wound membrane element, wherein the first solution is introduced through a central region of each of the membrane sheets of said spiral wound membrane element and through a peripheral region of each of the membrane sheets of said spiral wound membrane element via the passage in the anti-telescoping device; introducing a second solution to a second side of each of the membrane sheets of said spiral wound membrane element, wherein the second solution has a higher solute concentration than the first solution; establishing a concentration gradient between the first and the second sides; communicating a first solvent from the first solution from the first side to the second side, wherein the first solvent removes a foulant located on the second side of each of the membrane sheets of said spiral wound membrane element; and collecting a waste stream that contains the foulant. 5. The method of claim 4 , wherein the second solution is introduced after the first solution contacts substantially the whole first side each of the membrane sheets of said spiral wound membrane element. 6. The method of claim 4 , wherein the second solution is introduced after permeate has been removed from the first side and replaced with the first solution. 7. The method of claim 4 , wherein the flow restriction is a one-way valve.