Membrane-based air separation module

The invention claimed is: 1. A membrane-based air separation module comprising: an inlet configured to receive supply air; a first hollow fiber membrane configured to substantially remove water from the supply air to form an anhydrous air stream; a permeate port configured to exhaust the water removed by the first hollow fiber membrane from the air separation module; a second hollow fiber membrane positioned downstream of the first hollow fiber membrane configured to receive the anhydrous air stream and substantially remove oxygen from the anhydrous air stream; an oxygen-enriched air outlet configured to exhaust the oxygen removed by the second hollow fiber membrane from the air separation module; a nitrogen-enriched air outlet configured to supply a stream of nitrogen-enriched air to a fuel tank of an aircraft; and a series of flow control valves positioned between the inlet and the first hollow fiber membrane and between the first hollow fiber membrane and the second hollow fiber membrane to divert supply air directly to the second hollow fiber membrane while the aircraft is in flight. 2. The air separation module of claim 1 , wherein the supply air is bleed air. 3. The air separation module of claim 1 , wherein the first hollow fiber membrane is removable from the air separation module. 4. The air separation module of claim 1 , wherein the first hollow fiber membrane comprises a first membrane material and the second hollow fiber membrane comprises a second membrane material different from the first membrane material. 5. The air separation module of claim 4 , wherein the first membrane material comprises polysulfone and the second membrane material comprises polyimide. 6. The air separation module of claim 1 , wherein the first hollow fiber membrane and the second hollow fiber membrane comprise a single type of membrane material. 7. The air separation module of claim 6 , wherein the single type of membrane material comprises polyimide. 8. The air separation module of claim 1 , and further comprising a plurality of flow lines configured to direct supply air through the first hollow fiber membrane and the second hollow fiber membrane in parallel when demand for nitrogen-enriched air is high. 9. The air separation module of claim 1 , wherein the first hollow fiber membrane is housed in a first canister and the second hollow fiber membrane is housed in a second canister. 10. The air separation module of claim 1 , wherein the first hollow fiber membrane and the second hollow fiber membrane are housed in a single canister. 11. The air separation module of claim 1 , and further comprising a flow control valve disposed between the first and second hollow fiber membranes and the fuel tank. 12. A method of generating nitrogen-enriched air, the method comprising: providing supply air to an inlet of a membrane-based air separation module; flowing the supply air through a first hollow fiber membrane to substantially remove water from the supply air; exhausting water removed by the first hollow fiber membrane from the air separation module; flowing the supply air through a second hollow fiber membrane to substantially remove oxygen from the supply air; exhausting oxygen removed by the second hollow fiber membrane from the air separation module; supplying a stream of nitrogen-enriched air produced by the air separation module to a fuel tank of an aircraft; and directing supply air through the first hollow fiber membrane and the second hollow fiber membrane in parallel when demand for nitrogen-enriched air is high. 13. The method of claim 12 , and further comprising cooling bleed air to condition the supply air. 14. The method of claim 12 , wherein the first hollow fiber membrane comprises a first membrane material and the second hollow fiber membrane comprises a second membrane material different from the first membrane material. 15. The method of claim 12 , wherein the first hollow fiber membrane and the second hollow fiber membrane comprise a single type of membrane material. 16. The method of claim 12 , and further comprising housing the first hollow fiber membrane in a first canister and the second hollow fiber membrane in a second canister. 17. The method of claim 12 , and further comprising housing the first hollow fiber membrane and the second hollow fiber membrane in a single canister. 18. A method of generating nitrogen-enriched air, the method comprising: providing supply air to an inlet of a membrane-based air separation module; flowing the supply air through a first hollow fiber membrane to substantially remove water from the supply air; exhausting water removed by the first hollow fiber membrane from the air separation module; flowing the supply air through a second hollow fiber membrane to substantially remove oxygen from the supply air; exhausting oxygen removed by the second hollow fiber membrane from the air separation module; supplying a stream of nitrogen-enriched air produced by the air separation module to a fuel tank of an aircraft; and diverting supply air directly to the second hollow fiber membrane while the aircraft is in flight.