Artificial lung system and its methods of use

What is claimed is: 1. A method for providing oxygen rich gas for blood oxygenation, said method comprising: selectively operating an oxygen concentrator from battery power or from an external power source; delivering oxygen from the oxygen concentrator without scrubbing to a blood oxygenator when the oxygen concentrator is operating from the external power source; and combining oxygen from the oxygen concentrator with a carbon dioxide-scrubbed oxygen gas stream and delivering the combined gas stream to the blood oxygenator when the oxygen concentrator is operating from the battery. 2. A method as in claim 1 , further comprising producing the carbon dioxide-scrubbed gas stream by scrubbing carbon dioxide from a carbon dioxide elevated gas stream received from the blood oxygenator. 3. A method as in claim 2 , wherein the oxygen concentrator delivers a flow in the range from 0.5 LPM to 1 LPM to combine with the carbon dioxide-scrubbed gas stream. 4. A method as in claim 3 , wherein the carbon dioxide-scrubbed gas flow is from 4.5 to 9 LPM. 5. A method as in claim 1 , wherein oxygen from the oxygen concentrator without scrubbing is delivered at a rate from 2 LPM to 6 LPM. 6. A method as in claim 5 , further comprising combining the oxygen from the oxygen concentrator with a carbon dioxide elevated gas stream from the blood oxygenator. 7. A method as in claim 6 , wherein the carbon dioxide elevated gas stream flows at a rate from 3 LPM to 6 LPM. 8. An oxygen supply unit for a blood oxygenator which receives an oxygen rich gas flow and generates an elevated carbon dioxide gas flow, said oxygen supply unit comprising: an oxygen concentrator which produces an oxygen rich gas stream from air; a carbon dioxide scrubber which removes carbon dioxide from an elevated carbon dioxide gas flow; a power control which selectively delivers power from a battery or an external power supply; and a valved tubing network configured (1) to deliver oxygen rich gas from the oxygen concentrator to the blood oxygenator without scrubbing when the power control delivers power from the external power supply and (2) to combine oxygen rich gas from the oxygen concentrator with carbon dioxide-scrubbed gas from the carbon dioxide scrubber when the power control delivers power from the battery. 9. An oxygen supply unit as in claim 8 , further comprising an enclosure wherein the oxygen concentrator, the carbon dioxide scrubber, the power control, and the valved tubing network are disposed within the enclosure. 10. An oxygen supply unit as in claim 9 , wherein the enclosure comprises wheels configured to allow the enclosure to be pulled or pushed by a user. 11. An oxygen supply unit as in claim 8 , wherein the oxygen concentrator comprises a pressure-swing oxygen concentrator having an electronically driven internal compressor. 12. An oxygen supply unit as in claim 8 , wherein the carbon dioxide scrubber includes a canister having a scrubbing medium. 13. An oxygen supply unit as in claim 12 , wherein the scrubbing medium comprises soda lime, Litholyme®, Sodasorb®, Medisorb®, Sodasorb® LF, and Amsorb®. 14. An oxygen supply unit as in claim 8 , wherein the valved tubing network comprises a dehumidifier for removing moisture from the elevated carbon dioxide gas flow prior to passing said flow through the carbon dioxide scrubber. 15. An oxygen supply unit as in claim 14 , wherein the valved tubing network further comprises a pump for flowing the elevated carbon dioxide gas stream. 16. An oxygen supply unit as in claim 15 , wherein the valved tubing network further comprises a bypass line which allows the oxygen rich gas to flow by the carbon dioxide scrubber. 17. A system comprising: an oxygen supply unit as in claim 8 ; and a pump-blood oxygenator unit configured to be worn by a patient. 18. A system as in claim 17 , further comprising an umbilical cable including an oxygen rich flow tube, an elevated carbon dioxide flow tube, and an electrical line which connects a pump of the pump-blood oxygenator unit to the power control of the oxygen supply unit.