Disposable membrane stacks

The invention claimed is: 1. A disposable, crossflow membrane stack suitable for use in an ion exchange unit, the stack comprising alternate dilution compartments and concentration compartments, each compartment being defined by a flat cation-permeable membrane and a flat anion-permeable membrane and at least two edges along which the cation-permeable and an anion-permeable membranes are permanently secured together wherein the cation-permeable membranes and/or the anion-permeable membranes have a textured surface profile which keep said membranes apart and/or from touching each other and wherein the edges secured together define the direction in which liquid may flow through the compartments, wherein the direction in which liquid may flow through the dilution compartments is different to the direction in which liquid may flow through the concentration compartments, wherein the area of texture/total membrane area×100% is 2 to 40%. 2. A stack according to claim 1 wherein the textured surface profile(s) create voids between the membranes through which liquid may pass. 3. A stack according to claim 1 which has rectangular cross-sectional profiles along two of the x, y and z axes and the cross-sectional profile of an n-sided polygon along the third axis, wherein n is an even integer having a value of at least 4. 4. A stack according to claim 1 wherein the cation-permeable and anion-permeable membranes are permanently secured together by means of an adhesive or a weld. 5. A stack according to claim 1 which comprises at least 20 concentration compartments and at least 20 dilution compartments. 6. A stack according to claim 1 wherein each compartment comprises two inner walls and two outer walls and at least one of the inner walls and at least one of the outer walls comprise a textured surface profile. 7. A stack according to claim 1 wherein the textured surface profile comprises protrusions which have an average length to width ratio of 10:1 to 1:10, when measured at the base of the protrusion. 8. A stack according to claim 1 wherein the textured surface profile comprises protrusions having an average height of from 5 to 500 μm. 9. A stack according to claim 1 wherein the average height of the protrusions is smaller than the average length and the average width of the protrusions. 10. An ion exchange unit comprising an anode, a cathode and a disposable cross-flow membrane stack according to claim 1 . 11. An ion exchange unit according to claim 10 which comprises a plurality of modular units, each modular unit comprising a disposable cross-flow membrane stack comprising alternate dilution compartments and concentration compartments, each compartment being defined by a flat cation-permeable membrane and a flat anion-permeable membrane and at least two edges along which the cation-permeable and an anion-permeable membranes are permanently secured together wherein the cation-permeable membranes and/or the anion-permeable membranes have a textured surface profile which keep said membranes apart and/or from touching each other and wherein the edges secured together define the direction in which liquid may flow through the compartments, wherein the direction in which liquid may flow through the dilution compartments is different to the direction in which liquid may flow through the concentration compartments. 12. A process for preparing a disposable crossflow membrane stack according to claim 1 , the process comprising permanently securing together opposite edges of flat anion exchange membranes and flat cation exchange membranes, thereby creating alternate dilution compartments and concentration compartments such that the direction in which liquid may flow through the dilution compartments is different to the direction in which liquid may flow through the concentration compartments. 13. An electrodialysis unit, a reverse electrodialysis unit, an electrodeionization module, or a diffusion dialysis apparatus, comprising one or more disposable, crossflow membrane stacks according to claim 1 . 14. A stack according to claim 1 wherein the direction of flow through each compartment is perpendicular to the direction of flow through the next compartment. 15. A stack according to claim 1 wherein the part of the membrane which extends outward from the plane of the membrane is ionically charged. 16. A stack according to claim 1 which has rectangular cross-sectional profiles along two of the x, y and z axes and the cross-sectional profile of an n-sided polygon along the third axis, wherein: (i) n is an even integer having a value of at least 4; and (ii) the cation-permeable and anion-permeable membranes are permanently secured together by means of an adhesive or a weld. 17. A stack according to claim 1 wherein: (i) the part of the membrane which extends outward from the plane of the membrane is ionically charged; (ii) each compartment comprises two inner walls and two outer walls and at least one of the inner walls and at least one of the outer walls comprise a textured surface profile; and (iv) the textured surface profile comprises protrusions which have an average length to width ratio of 10:1 to 1:10, when measured at the base of the protrusion. 18. A stack according to claim 1 which has rectangular cross-sectional profiles along two of the x, y and z axes and the cross-sectional profile of an n-sided polygon along the third axis, wherein: (i) n is an even integer having a value of at least 4; (ii) the cation-permeable and anion-permeable membranes are permanently secured together by means of an adhesive or a weld; (iii) the part of the membrane which extends outward from the plane of the membrane is ionically charged; (iv) each compartment comprises two inner walls and two outer walls and at least one of the inner walls and at least one of the outer walls comprise a textured surface profile; and (vi) the textured surface profile comprises protrusions which have an average length to width ratio of 10:1 to 1:10, when measured at the base of the protrusion. 19. An ion exchange unit comprising an anode, a cathode and a disposable cross-flow membrane stack according to claim 18 .