Method and system for purification of natural gas using membranes

What is claimed is: 1. A method for purification of natural gas including methane, CO 2 , and C 3+ hydrocarbons, comprising the steps of: feeding a feed gas consisting of the natural gas to a first gas separation membrane stage comprising one or more membranes in series or parallel having a selective layer that is selective for C 3+ hydrocarbons over methane; withdrawing a first permeate stream from the membrane(s) of the first stage that is enriched in C 3+ hydrocarbons in comparison to the feed gas; withdrawing a first retentate stream from the membrane(s) of the first stage that is deficient in C 3+ hydrocarbons in comparison to the feed gas; feeding the first retentate stream to a second gas separation membrane stage comprising one or more membranes in series or parallel having a selective layer that is selective for CO 2 over methane; withdrawing a second permeate stream from the membrane(s) of the second stage that is enriched in CO 2 in comparison to the feed gas; and withdrawing a second retentate stream from the membrane(s) of the second stage that is deficient in CO 2 in comparison to the feed gas, wherein: the one or more membranes of the first gas separation membrane stage have a methane permeance of less than 68 gas permeation units (22.4 mol/m 2 ·sec·Pa); and the one or membranes of the first gas separation membrane stage have a separation layer made of: 1) a copolymer or block polymer of tetramethylene oxide, 2) a copolymer or block polymer of tetramethylene oxide and propylene oxide, 3) a copolymer or block polymer of propylene oxide, or 4) a copolymer or block polymer of ethylene oxide, terephthalate, and tetramethylene terephthalate. 2. The method of claim 1 , further comprising removing water from the feed gas prior to feeding the feed gas to the first gas separation membrane stage. 3. The method of claim 2 , wherein said step of removing water comprises feeding the feed gas to a molecular sieve adapted and configured to remove water from fluids. 4. The method of claim 2 , wherein said step of removing water comprises feeding the feed gas to a dehydration gas separation membrane. 5. The method of claim 1 , further comprising the step of combusting the first and/or the second permeate streams as a flare gas. 6. The method of claim 1 , wherein the feed gas is obtained from natural gas extracted from a subterranean or subsea geological formation and said step further comprises injecting the first and/or second stage permeate streams into the geological formation. 7. The method of claim 6 , further comprising dehydrating the first and/or second permeate streams prior to injection into the geological formation such that a water content in the first and/or second permeate stream injected into the geological formation is no more than 50 ppm (vol/vol). 8. The method of claim 1 , wherein a pressure drop between a pressure of the feed gas and a pressure of the first retentate stream is less than 50 psi (3.45 bar). 9. The method of claim 1 , wherein a pressure drop between a pressure of the feed gas and a pressure of the first retentate stream is less than 30 psi (2.07 bar). 10. The method of claim 1 , wherein a pressure drop between a pressure of the feed gas and a pressure of the first retentate stream is less than less than 20 psi (1.38 bar). 11. The method of claim 1 , wherein the one or more membranes of the first gas separation membrane stage have a methane permeance of less than 34 GPU. 12. The method of claim 1 , wherein the one or more membranes of the first gas separation membrane stage have a methane permeance of less than 20 GPU. 13. A method for purification of natural gas including methane, CO 2 , and C 3+ hydrocarbons, comprising the steps of: feeding a feed gas consisting of the natural gas to a first gas separation membrane stage comprising one or more membranes in series or parallel having a selective layer that is selective for C 3+ hydrocarbons over methane; withdrawing a first permeate stream from the membrane(s) of the first stage that is enriched in C 3+ hydrocarbons in comparison to the feed gas; withdrawing a first retentate stream from the membrane(s) of the first stage that is deficient in C 3+ hydrocarbons in comparison to the feed gas; feeding the first retentate stream to a second gas separation membrane stage comprising one or more membranes in series or parallel having a selective layer that is selective for CO 2 over methane; withdrawing a second permeate stream from the membrane(s) of the second stage that is enriched in CO 2 in comparison to the feed gas; and withdrawing a second retentate stream from the membrane(s) of the second stage that is deficient in CO 2 in comparison to the feed gas, wherein: the one or more membranes of the first gas separation membrane stage have a methane permeance of less than 68 gas permeation units (22.4 mol/m 2 ·sec·Pa); and the one or membranes of the first gas separation membrane stage have a separation layer made of a copolymer or block polymer of the formula: where PA is an aliphatic polyamide having 6 or 12 carbon atoms and PE is either poly(ethylene oxide) poly(tetramethylene oxide). 14. The method of claim 1 , wherein one or membranes of the first gas separation membrane stage have a separation layer made of repeating units of the following monomers: 15. The method of claim 1 , wherein the one or more membranes of the first gas separation membrane stage are formed as flat films or as a plurality of hollow fibers. 16. The method of claim 1 , wherein each of the one or more membranes of the first gas separation membrane stage has a separation layer that is supported by a support layer. 17. The method of claim 16 , wherein each of the support layers is made of a polyimide, polysulfone, or polyether ether ketone. 18. The method of claim 17 , wherein each of the support layers is porous and is made of polyether ether ketone. 19. The method of claim 1 , wherein each of the membranes of the second gas separation membrane stage is made of cellulose acetate, a polysulfone, or a polyimide. 20. A system for purification of natural gas including methane, CO2, and C 3+ hydrocarbons, comprising: a source of natural gas; a first gas separation membrane stage comprising one or more membranes fluidly in series or parallel communicating with said source, each membrane of the first gas separation membrane stage having a selective layer that is selective for C 3+ hydrocarbons over methane; and a second gas separation membrane stage comprising one or more membranes in series or parallel fluidly communicating with a retentate outlet(s) of the membranes of the first gas separation membrane stage so as to receive retentate from the first gas separation membrane stage as a feed gas in the second gas separation membrane stage, each membrane of the second gas separation membrane stage having a selective layer that is selective for CO 2 over methane, wherein: the one or more membranes of the first gas separation membrane stage have a methane permeance of less than 68 gas permeation units (22.4 mol/m 2 ·sec·Pa); and the one or membranes of the first gas separation membrane stage have a separation layer made of: 1) a copolymer or block polymer of tetramethylene oxide, 2) a copolymer or block polymer of tetramethylene oxid