Stored gas pressure recovery system

What is claimed is: 1. A method for storing nitrogen-enriched air, comprising: providing an air separation device; producing nitrogen-enriched air in the air separation device; providing a first compressor; supplying the nitrogen-enriched air to the first compressor; compressing the nitrogen-enriched air with the first compressor; providing a second compressor; supplying air to the second compressor; powering the second compressor by supplying thereto the nitrogen-enriched air compressed by the first compressor; compressing, using the second compressor, the air supplied thereto; and supplying the air compressed by the second compressor to the air separation device. 2. The method as set forth in claim 1 , wherein the providing of the second compressor includes providing a pressure intensifier. 3. The method as set forth in claim 2 , further comprising: providing a backpressure regulator; and supplying the air compressed by the pressure intensifier to the backpressure regulator prior to the air separation device. 4. The method as set forth in claim 1 , further comprising: providing at least one storage container; and storing the nitrogen-enriched air compressed by the first compressor in the storage container. 5. The method as set forth in claim 2 , further comprising: providing at least one regenerative heat exchanger; supplying to the regenerative heat exchanger nitrogen-enriched air from the pressure intensifier; supplying to regenerative heat exchanger the air compressed by the pressure intensifier; and cooling, using the regenerative heat exchanger, the air compressed by the pressure intensifier. 6. The method as set forth in claim 2 , further comprising: providing at least one regenerative heat exchanger; supplying a fluid to the regenerative heat exchanger; supplying the regenerative heat exchanger with nitrogen-enriched air output from the pressure intensifier; and cooling the fluid using the regenerative heat exchanger. 7. The method as set forth in claim 2 , further comprising: providing at least one regenerative heat exchanger; supplying a fluid to the regenerative heat exchanger; supplying the regenerative heat exchanger with the air compressed by the pressure intensifier; and heating the fluid using the regenerative heat exchanger. 8. The method as set forth in claim 1 , further comprising: providing a turbine in fluid communication with the first compressor and drivingly connected to the second compressor; supplying the nitrogen-enriched air compressed by the first compressor to the turbine; driving the turbine with the nitrogen-enriched air compressed by the first compressor; and driving the second compressor with the turbine. 9. The method as set forth in claim 1 , further comprising: providing a motor drivingly connected to the second compressor; providing a generator connected to the motor; providing a turbine in fluid communication with the first compressor and drivingly connected to the generator; supplying the nitrogen-enriched air compressed by the first compressor to the turbine; driving the turbine with the nitrogen-enriched air compressed by the first compressor; driving the generator with the turbine; powering the motor with the output of the generator; and driving the second compressor with the motor. 10. A system for creating nitrogen-enriched air from an incoming air flow, the system comprising: an air separation device that receives the incoming air and produces nitrogen-enriched air therefrom; a first compressor in fluid communication with the air separation device that receives and compresses the nitrogen-enriched air produced by the air separation device; a pressure intensifier in fluid communication with the air separation device; wherein the pressure intensifier is powered by the compressed nitrogen-enriched air; and wherein the pressure intensifier compresses the incoming air prior to such incoming air being received by the air separation device. 11. A system as set forth by claim 10 , further comprising: at least one storage container for storing the compressed nitrogen-enriched air; and wherein the storage container stores the compressed nitrogen-enriched air after the compressed nitrogen-enriched air has powered the pressure intensifier. 12. A system as set forth by claim 10 , further comprising: a backpressure regulator; and wherein the incoming air compressed by the pressure intensifier passes through the backpressure regulator prior to being received by the air separation device. 13. The system as set forth in claim 10 , further comprising: at least one regenerative heat exchanger; wherein the nitrogen-enriched air from the pressure intensifier and the incoming air compressed by the pressure intensifier are supplied to the regenerative heat exchanger; and wherein the regenerative heat exchanger cools the incoming air compressed by the pressure intensifier. 14. The system as set forth in claim 10 , further comprising: at least one regenerative heat exchanger; wherein the nitrogen-enriched air from the pressure intensifier and the incoming air compressed by the pressure intensifier are supplied to the regenerative heat exchanger; and wherein the regenerative heat exchanger heats the nitrogen-enriched air from the pressure intensifier. 15. A system for creating nitrogen-enriched air from an incoming air flow, the system comprising: an air separation device that receives the incoming air and produces nitrogen-enriched air therefrom; a first compressor in fluid communication with the air separation device that receives and compresses the nitrogen-enriched air produced by the air separation device; a second compressor in fluid communication with the air separation device; a turbine in fluid communication with the first compressor and drivingly connected to the second compressor; wherein the compressed nitrogen-enriched air drives the turbine; wherein the turbine drives the second compressor; and wherein the second compressor compresses the incoming air prior to such incoming air being received by the air separation device. 16. A system as set forth by claim 15 , further comprising: at least one storage container for storing the compressed nitrogen-enriched air; and wherein the storage container stores the compressed nitrogen-enriched air after the compressed nitrogen-enriched air has powered the turbine. 17. The system as set forth in claim 15 , further comprising: at least one regenerative heat exchanger; wherein the nitrogen-enriched air from the turbine and the incoming air compressed by the second compressor are supplied to the regenerative heat exchanger; and wherein the regenerative heat exchanger cools the incoming air compressed by the second compressor. 18. A system for creating nitrogen-enriched air from an incoming air flow, the system comprising: an air separation device that receives the incoming air and produces nitrogen-enriched air therefrom; a first compressor in fluid communication with the air separation device that receives and compresses the nitrogen-enriched air produced by the air separation device; a second compressor in fluid communication with the air separation device; an electric motor drivingly connected to the second compressor; an electrical generator; a turbine in fluid communication with the first compressor and drivingly connected to the generator; wherein the compressed nitrogen-enriched air drives the turbine; wherein the turbine drives the generator; wherein