초록 ▼

Membranes are used to separate fluids for the production of oxygen-enriched air, nitrogen-enriched-air, for the separation of carbon dioxide from hydrocarbons, and the separation of hydrogen from various petrochemical and oil refining streams. Membranes are discussed that provide a resistance to int

Membranes are used to separate fluids for the production of oxygen-enriched air, nitrogen-enriched-air, for the separation of carbon dioxide from hydrocarbons, and the separation of hydrogen from various petrochemical and oil refining streams. Membranes are discussed that provide a resistance to interaction with process components or contaminants, which can lead to plasticizing of the membrane, while providing the mechanical strength required to withstand high membrane differential pressures and high process temperatures. Membranes of blended polymers are used to improve the mechanical strength of the polymers used to make separation membranes. Specifically, polyimide polymers are combined with a blend polymer that is a polyamide and/or a polyamide-imde polymer. The resulting polymer mix is used to produce various forms of high strength, chemically resistant membranes, including hollow-fiber membranes that are suitable for high pressure, high temperature applications.

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What is claimed is: 1. A membrane for fluid separation comprising: a) a polyimide polymer, and b) a blend polymer selected from the group consisting of a polyamide polymer, a polyamide-imide polymer, and mixtures thereof, wherein said polyimide polymer comprises a plurality of first repeating unit

What is claimed is: 1. A membrane for fluid separation comprising: a) a polyimide polymer, and b) a blend polymer selected from the group consisting of a polyamide polymer, a polyamide-imide polymer, and mixtures thereof, wherein said polyimide polymer comprises a plurality of first repeating units of a formula (I), wherein said formula (I) is: in which R1 or said formula (I) is a moiety having a composition selected from the group consisting of a formula (A), a formula (B), a formula (C), and mixtures thereof, wherein said formula (A), said formula (B), and said formula (C) are: in which R4 of said formula (I) is a moiety having a composition selected from the group consisting of a formula (Q), a formula (S), a formula (T), and mixtures thereof, wherein said formula (Q), said formula (S), and said formula (T) are: in which Z of said formula (T) is a moiety having a composition selected from the group consisting of a formula (L), a formula (M), a formula (N), and mixtures thereof, wherein said formula (L), said formula (M), and said formula (N) are: wherein said polyamide polymer comprises a plurality of second repeating units of a formula (II), wherein said formula (II) is: in which Ra of said formula (II) is a moiety having a composition selected from the group consisting of a formula (a), a formula (b), a formula (c), a formula (d), a formula (e), a formula (f), a formula (g), and mixtures thereof, wherein said formula (a), said formula (b), said formula (c), said formula (d), said formula (e), said formula (f), and said formula (g) are: in which Z' of said formula (g) is a moiety having a composition selected from the group consisting of a formula (h), a formula (j), a formula (k), a formula (I), and mixtures thereof, wherein said formula (h), said formula (j), said formula (k), and said formula (I) are: in which X, X1, X2, and X3 of said formulas (a), (b), (d), (f), (g), (h), (j), and (I) are moieties selected independently from a group consisting of hydrogen, and an alkyl group having 1 to 6 carbon atoms, and in which Z" of formula (I) is selected from a group consisting of a formula (m), and a formula (p), wherein said formula (m) and said formula (p) are: in which X of formula (p) is a moiety selected from a group consisting of hydrogen, and an alkyl group having 1 to 6 carbon atoms, and in which R2 of formula (II) is a moiety selected from a group consisting having a formula (q), a formula (s), and mixtures thereof, wherein said formula (q) and said formula (s) are: wherein said polyamide-imide polymer comprises a plurality of third repeating units, wherein said third repeating units are moieties selected from the group consisting of said formula (I), said formula (II), a formula (III), or mixtures thereof, wherein said formula (III) is: in which Ra of formula (III) is a moiety having a composition selected from the group consisting of said formula (a), said formula (b), said formula (c), said formula (d), said formula (e), said formula (f), said formula (g), and mixtures thereof, and R3 of said formula (III) is a formula (t), wherein said formula (t) is: 2. The membrane of claim 1, wherein said first repeating units comprise moieties of a formula (Ia), wherein said formula (Ia) is: wherein R1 of formula (Ia) is a moiety selected from the group consisting of said formula (A), said formula (B), said formula (C), and mixtures thereof. 3. The membrane of claim 2, wherein said moiety R1 has a composition of: a) said formula (A) in about 10-25% of said first repeating units, b) said formula (B) in about 55-75% of said first repeating units, and c) said formula (C) in about 2040% of said first repeating units. 4. The membrane of claim 3, wherein said moiety R1 has a composition of: a) said formula (A) in about 16% of said first repeating units, b) said formula (B) in about 64% of said first repeating units, and c) said formula (C) in about 20% of said first repeating units. 5. The membrane of claim 1, wherein said first repeating units comprise moieties of a formula (Ib), wherein formula (Ib) is: wherein said R1 of formula (Ib) is a moiety selected from the group consisting of said formula (A), said formula (B), and mixtures thereof. 6. The membrane of claim 1, wherein said first repeating units comprise moieties of: a) a formula (Ia), and b) a formula (Ib), wherein said formula (Ia) and said formula (Ib) are: and wherein said first repeating units of formula (Ib) constitute about 1-99% of a total of said first repeating units, and wherein R1 is a moiety having a composition of: a) said formula (A) in about 1-99% of said first repeating units, and b) said formula (B) in said first repeating units wherein R1 is not of said formula (A). 7. The membrane of claim 6, wherein R1 is a moiety having a composition of: a) said formula (A) in about 10-30% of said first repeating units, and b) said formula (B) in about 70-90% of said first repeating units, and wherein said first repeating units of said formula (Ib) are about 30-50% of the total of said first repeating units. 8. The membrane of claim 7, wherein RI is a moiety having a composition of: a) said formula (A) in about 20% of said first repeating units, and b) said formula (B) in about 80% of said first repeating units, and wherein said first repeating units of said formula (Ib) are about 40% of the total of said first repeating units. 9. The membrane of claim 1, wherein said blend polymer comprises said polyamide-imide polymer, and wherein said ratio of said polyimide polymer to said polyamide-imide polymer is at least about 1.0. 10. The membrane of claim 9, wherein said ratio of said polyimide polymer to said polyamide-imide polymer is at least about 2.0. 11. The membrane of claim 1, wherein said blend polymer comprises said polyamide polymer, and wherein said ratio of said polyimide polymer to said polyamide polymer is at least about 1.0. 12. The membrane of claim 11, wherein said ratio of said polyimide polymer to said polyamide polymer is at least about 2.0. 13. The membrane of claim 1, wherein said membrane comprises between about 20-80% said polyimide polymer. 14. The membrane of claim 1, wherein said polyimide polymer is formed by polycondensation of an aromatic diisocyanate selected from the group consisting of 2,4-toluenediisocyanate, 2,6-toluenediisocyanate, 4,4'-methylene-bis(phenylisocyanate) and a dianhydride selected from the group consisting of pyromellitic dianhydride, benzophenonetetracarboxylic dianhydride, 3,3',4,4'-diphenylsulfone tetracarboxylic dianhydride, 3,3',4,4'-biphenyl tetracarboxylic dianhydride, and mixtures thereof. 15. The membrane of claim 1, comprising a mixed polymer of said polyimide polymer and said blend polymer, wherein the elastic modulus of said mixed polymer is greater than the elastic modulus of said polyimide polymer. 16. The membrane of claim 1, comprising a mixed polymer of said polyimide polymer and said blend polymer, wherein the elastic modulus of said mixed polymer is at least 10% greater than the elastic modulus of said polyimide polymer. 17. The membrane of claim 1, comprising a mixed polymer of said polyimide polymer and said blend polymer, wherein the yield stress of said mixed polymer is greater than the yield stress of said polyimide polymer. 18. The membrane of claim 1, wherein said polyimide polymer, said polyamide polymer, and said polyamide-imide polymer have an average molecular weight in the range of about 20,000-400,000. 19. The membrane of claim 18, wherein said range is about 50,000-300,000. 20. The membrane of claim 1, wherein said membrane is selected from a group consisting of an asymmetric membrane, a uniformly dense membrane, a hollow fiber membrane, and a composite membrane. 21. A method of separating one or more fluids from a fluid mixture comprising the steps of: (a) providing a fluid separation membrane, said membrane comprising: 1) a polyimide polymer, and 2) a blend polymer selected from the group consisting of a polyamide polymer, a polyamide-imide polymer, and mixtures thereof, wherein said polyimide polymer comprises a plurality of first repeating units of a formula (I), wherein said formula (I) is: in which R1 or said formula (I) is a moiety having a composition selected from the group consisting of a formula (A), a formula (B), a formula (C), and mixtures thereof, wherein said formula (A), said formula (B), and said formula (C) are: in which R4 of said formula (I) is a moiety having a composition selected from the group consisting of a formula (Q), a formula (S), a formula (T), and mixtures thereof, wherein said formula (Q), said formula (S), and said formula (T) are: in which Z of said formula (T) is a moiety having a composition selected from the group consisting of a formula (L), a formula (M), a formula (N), and mixtures thereof, wherein said formula (L), said formula (M), and said formula (N) are: and wherein said polyamide polymer comprises a plurality of second repeating units of a formula (II), in which Ra of said formula (II) is a moiety having a composition selected from the group consisting of a formula (a), a formula (b), a formula (c), a formula (d), a formula (e), a formula (f), a formula (g), and mixtures thereof, wherein said formula (a), said formula (b), said formula (c), said formula (d), said formula (e), said formula (f), and said formula (g) are: in which Z' of said formula (g) is a moiety having a composition selected from the group consisting of a formula (h), a formula (j), a formula (k), a formula (I), and mixtures thereof, wherein said formula (h), said formula (j), said formula (k), and said formula (I): in which X, X1, X2, and X3 of said formulas (a), (b), (d), (f), (g), (h), (j), and (I) are moieties selected independently from a group consisting of hydrogen, and an alkyl group having 1 to 6 carbon atoms, and in which Z" of formula (I) is selected from a group consisting of a formula (m), and a formula (p), wherein said formula (m) and said formula (p) are: in which X of formula (p) is a moiety selected from a group consisting of hydrogen, and an alkyl group having 1 to 6 carbon atoms, and in which R2 of formula (II) is a moiety selected from a group consisting having a formula (q), a formula (s), and mixtures thereof, wherein said formula (q) and said formula (s) are: and wherein said polyamide-imide polymer comprises a plurality of third repeating units selected from the group of formulas consisting of said formula (I), said formula (II), a formula (III), or mixtures thereof, wherein said formula (III) is: in which Ra of formula (III) is a moiety having a composition selected from the group consisting of said formula (a), said formula (b), said formula (c), said formula (d), said formula (e), said formula (f, said formula (g), and mixtures thereof, and R3 of said formula (III) is a formula (t), wherein said formula (t) is: (b) contacting a fluid mixture with a first side of said fluid separation membrane thereby causing a preferentially permeable fluid of said fluid mixture to permeate said fluid separation membrane faster than a less preferentially permeable fluid to form a permeate fluid mixture enriched in said preferentially permeable fluid on a second side of said fluid separation membrane and a retentate fluid mixture depleted in said preferentially permeable fluid on said first side of said fluid separation membrane, and (c) withdrawing said permeate fluid mixture and said retentate fluid mixture separately. 22. The method of claim 21, wherein said polyimide polymer is selected from a group consisting of P84, P84HT, or mixtures thereof. 23. The method of claim 21, wherein said fluid mixture comprises carbon dioxide and methane. 24. The method of claim 21, wherein a pressure gradient across said membrane is in the range of about 100 to about 2000 psi. 25. The method of claim 24, wherein said pressure gradient is in the range of about 1000 to about 2000 psi. 26. The method of claim 21, wherein said fluid separation membrane comprises a mixed polymer of said polyimide polymer and said blend polymer, wherein the elastic modulus of said mixed polymer is greater than the elastic modulus of said polyimide polymer. 27. The membrane of claim 21, wherein said fluid separation membrane comprises a mixed polymer of said polyimide polymer and said blend polymer, wherein the yield stress of said mixed polymer is greater than the yield stress of said polyimide polymer.