Thin wall polyether block amide membrane tubing and module

What is claimed is: 1. An ultra-thin composite polyether block amides (PEBA) tube comprising: a) a composite PEBA film comprising: i) a porous scaffold support; and ii) a PEBA copolymer attached to the porous scaffold support; iii) a thickness of no more than 50 μm; b) an overlap area of the composite PEBA film that is fused to form said PEBA tube; c) an outside surface; d) an inside surface; e) a film layer configured on at least one of the outside surface or inside surface of the composite PEBA tube; wherein the film layer comprises a continuous polymer layer; f) an inlet; g) an outlet; and h) a length from said inlet to said outlet. 2. The ultra-thin composite PEBA tube of claim 1 , wherein the composite PEBA film thickness is no more than 25 μm. 3. The ultra-thin composite PEBA tube of claim 1 wherein the composite PEBA film thickness is no more than 10 μm. 4. The ultra-thin composite PEBA tube of claim 1 , wherein the composite PEBA film thickness is no more than 5 μm. 5. The ultra-thin composite PEBA tube of claim 1 , wherein the overlap area is no more than 30% of an outside surface area of the composite PEBA tube. 6. The ultra-thin composite PEBA tube of claim 1 , wherein the overlap area is no more than 20% of an outside surface area of the composite PEBA tube. 7. The ultra-thin composite PEBA tube of claim 1 , wherein the overlap area is no more than 10% of an outside surface area of the composite PEBA tube. 8. The ultra-thin composite PEBA tube of claim 1 , wherein the composite PEBA film is spirally wrapped to form said composite PEBA tube. 9. The ultra-thin composite PEBA tube of claim 1 , wherein the composite PEBA film is longitudinally wrapped to form said composite PEBA tube. 10. The ultra-thin composite PEBA tube of claim 1 , wherein the porous scaffold support is expanded polytetrafluoroethylene membrane. 11. The ultra-thin composite PEBA tube of claim 1 , wherein the porous scaffold support comprises a porous polyethylene membrane. 12. The ultra-thin composite PEBA tube of claim 1 , wherein the porous scaffold support comprises a porous polypropylene membrane. 13. The ultra-thin composite PEBA tube of claim 1 , further comprising a biocide to prevent mold formation. 14. The ultra-thin composite PEBA tube of claim 1 , wherein the film layer comprises PEBA. 15. The ultra-thin composite PEBA tube of claim 1 , wherein the film layer is configured on the outside surface of the composite PEBA tube. 16. A pervaporation module comprising: a) an ultra-thin composite Polyether block amides (PEBA) tube comprising: i) composite PEBA film comprising: a porous scaffold support; and a PEBA copolymer attached to the porous scaffold support; a thickness of no more than 50 μm; ii) an overlap area of the composite PEBA film that is fused to form said PEBA tube; iii) an outside surface; iv) an inside surface; v) a film layer configured on at least one of the outside surface or inside surface of the composite PEBA tube; wherein the film layer comprises a continuous polymer layer; vi) an inlet; vii) an outlet; b) an inlet tube sheet sealed to the inlet of the composite PEBA tube; c) an outlet tube sheet sealed to the outlet of the composite PEBA tube; d) a flow of water through the composite PEBA tube from the inlet tube sheet to the outlet tube sheet; e) a flow of fluid over the ultra-thin composite PEBA tube; wherein water vapor passes through the composite PEBA tube and into the flow of fluid thereover to increase the relative humidity of the flow of fluid. 17. The pervaporation module of claim 16 , comprising a plurality of composite PEBA tubes coupled to the inlet and outlet tube sheets. 18. The pervaporation module of claim 16 , wherein the composite PEBA film comprises a biocide. 19. The pervaporation module of claim 16 , further comprising a tube support configured around the ultra-thin composite PEBA tube. 20. The pervaporation module of claim 16 , wherein the film layer comprises PEBA.