A method and apparatus for processing air. The apparatus comprises an air separation module, a first input, a first output, a second output, and a flow control system. The air separation module is configured to generate an inert gas. The first input for the air separation module is configured to rec
A method and apparatus for processing air. The apparatus comprises an air separation module, a first input, a first output, a second output, and a flow control system. The air separation module is configured to generate an inert gas. The first input for the air separation module is configured to receive first air. The first output for the air separation module is configured to output the inert gas from the air separation module. The second output for the air separation module is configured to output separated air from the air separation module. The flow control system is configured to control a flow of air in the air separation module that increases a rate at which the air separation module reaches a desired operating temperature for generating the inert gas using a number of ports in the flow control module.
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1. An apparatus comprising: an air separation module configured to generate an inert gas;a first input for the air separation module, wherein the first input is configured to receive first air;a first output for the air separation module, wherein the first output is configured to output the inert ga
1. An apparatus comprising: an air separation module configured to generate an inert gas;a first input for the air separation module, wherein the first input is configured to receive first air;a first output for the air separation module, wherein the first output is configured to output the inert gas from the air separation module;a second output for the air separation module, wherein the second output is configured to output separated air from the air separation module;a flow control system configured to control a flow of air in the air separation module that increases a rate at which the air separation module is warmed to a desired operating temperature for generating the inert gas using a number of ports in the air separation module, the number of ports comprising a second input for the air separation module, the second input configured to receive second air from a heating source; anda pipe downstream from the first output, the pipe configured to divert at least a portion of the inert gas to the air separation module. 2. The apparatus of claim 1, wherein the second input is configured to increase the rate at which the air separation module is warmed to reach the desired operating temperature. 3. The apparatus of claim 1, wherein the number of ports in the flow control system comprises: a third output for the air separation module wherein the third output is configured to output the separated air and the third output is configured to increase the rate at which the air separation module reaches the desired operating temperature. 4. The apparatus of claim 1, wherein the number of ports in the flow control system further comprises: a third output for the air separation module wherein the third output is configured to output the separated air and the third output is configured to increase the rate at which the air separation module reaches the desired operating temperature. 5. The apparatus of claim 1, wherein the first input is located at a first end of the air separation module and the first output is located at a second end of the air separation module. 6. The apparatus of claim 1, wherein the second input is located on the air separation module in a first location that is downstream to a second location of the second output. 7. The apparatus of claim 1, wherein the flow control system further comprises: a number of structures associated with the second input, wherein the second input and the number of structures are configured to control a flow of the second air such that the rate at which the air separation module reaches the desired operating temperature increases. 8. The apparatus of claim 6, wherein the second air into the second input causes a flow of the second air upstream toward the second output in the air separation module. 9. The apparatus of claim 1, wherein a source supplies the first air and the second air. 10. The apparatus of claim 1, wherein a source supplies the first air and wherein the second air is a portion of the inert gas output from the first output. 11. The apparatus of claim 1 further comprising: a valve associated with the pipe, wherein the valve is configured to be open while a temperature of the air separation module increases toward the desired operating temperature for the air separation module. 12. The apparatus of claim 11, wherein the pipe is connected to the second input. 13. The apparatus of claim 1, wherein the inert gas is nitrogen enriched air and the separated air is oxygen enriched air, and the air separation module comprises: a housing with a chamber; anda separation system configured to separate the first air into the oxygen enriched air and the nitrogen enriched air. 14. The apparatus of claim 13, wherein the separation system comprises: a plurality of hollow fibers configured to separate the first air into the oxygen enriched air and the nitrogen enriched air, wherein the nitrogen enriched air flows out of the first output and the oxygen enriched air flows out of the second output. 15. An apparatus comprising: a fluid separation module configured to generate a desired fluid from a first fluid;a first input for the fluid separation module, wherein the first input is configured to receive the first fluid;an output for the fluid separation module, wherein the output is configured to output the desired fluid;a flow control system configured to control a flow of fluids in the fluid separation module that increases a rate at which the fluid separation module is warmed to a desired operating temperature for generating the desired fluid using a number of ports in the fluid separation module, the number of ports comprising a second input for the fluid separation module, the second input configured to receive a second fluid from a heating source; anda pipe downstream from the output, the pipe configured to divert at least a portion of the desired fluid to the fluid separation module. 16. The apparatus of claim 15, wherein a flow of the second fluid in the fluid separation module is configured to increase the rate at which the fluid separation module is warmed to reach the desired operating temperature for generating the desired fluid. 17. The apparatus of claim 15, wherein the fluid separation module is an air separation module having a plurality of hollow fibers with a permeable membrane, the first fluid is air, the second fluid is oxygen enriched air, and the desired fluid is nitrogen enriched air.
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이 특허에 인용된 특허 (7)
Victor P. Crome ; Alan J. Yoder, Air separation module using a fast start valve for fast warm up of a permeable membrane air separation module.
Bonchonsky,Michael J.; Dow,Steven C.; Golles,Robert F.; Jensen,Bryan D.; Bonchonsky,Mike, Air separation system and method with modulated warning flow.
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