Gated-concentric artificial lung

What is claimed is: 1. An artificial lung comprising: a housing having a circular outer wall being enclosed by a first surface and a second surface to define an interior volume; a blood inlet port operable to permit inlet flow of blood to the interior volume of the housing; a blood outlet port operable to permit outlet flow of the blood from the interior volume of the housing; a gas inlet port operable to permit inlet flow of a gas to the interior volume of the housing; a gas outlet port operable to permit outlet flow of the gas from the interior volume of the housing; a plurality of baffles concentrically disposed within the housing and fixedly coupled to the housing, the plurality of baffles being positioned to define a flow path between the blood inlet port and the blood outlet port, each of the plurality of baffles includes a gate opening formed therethrough to permit flow of the blood along the flow path; and a non-rotating fiber bundle being disposed within and fixedly coupled to the housing and between the plurality of baffles within the flow path, the non-rotating fiber bundle being configured to passively generate orderly secondary flows and recirculation as the blood flows along the flow path through the non-rotating fiber bundle and gate openings from the blood inlet port to the blood outlet port, wherein the inlet flow of blood to the interior volume of the housing via the blood inlet port is provided solely based on a patient's native circulatory system. 2. The artificial lung according to claim 1 wherein the plurality of baffles, the gate openings, and the non-rotating fiber bundle are selected to maintain a non-turbulent blood flow along the flow path having a Reynolds number less than 1000. 3. The artificial lung according to claim 1 wherein the blood inlet port is directed at a tangent position relative to the circular outer wall of the housing. 4. The artificial lung according to claim 1 , further comprising: a second blood inlet port directed at a second tangent position relative to the circular outer wall of the housing. 5. The artificial lung according to claim 1 wherein the blood inlet port is disposed through the circular outer wall of the housing. 6. The artificial lung according to claim 1 wherein the blood outlet port is disposed coaxially at a central longitudinal axis of the housing. 7. The artificial lung according to claim 1 wherein the blood outlet port is disposed through the first surface of the housing. 8. The artificial lung according to claim 1 wherein the gas inlet port is disposed through the first surface of the housing. 9. The artificial lung according to claim 1 wherein the gas outlet port is disposed through the second surface of the housing. 10. The artificial lung according to claim 1 wherein the flow path is generally in a direction from a peripheral section of the housing to a central section of the housing. 11. The artificial lung according to claim 1 wherein each of the plurality of baffles is discrete relative to the remaining plurality of baffles. 12. The artificial lung according to claim 1 wherein a gate opening of a first of the plurality of baffles is radially offset relative to a gate opening of a second of the plurality of baffles. 13. The artificial lung according to claim 12 wherein a gate opening of a third of the plurality of baffles is radially aligned relative to the gate opening of the first of the plurality of baffles. 14. The artificial lung according to claim 1 wherein each of the plurality of baffles is circularly shaped to define a circular flow path. 15. The artificial lung according to claim 1 wherein the fiber bundle is configured to encourage the blood to flow in a direct across the fiber bundle. 16. The artificial lung according to claim 1 wherein the fiber bundle defines a flow resistance in the range of 10 mmHg to 30 mmHg per liter of blood flow.