Regenerative blower

The invention claimed is: 1. A regenerative blower comprising: a housing comprising a first port and a second port; an airflow channel extending between the first port and the second port, wherein the airflow channel extends along a plane; an impeller rotatable in an impeller channel, wherein the impeller promotes airflow in the airflow channel from the first port to the second port; a motor to drive the impeller; an interrupter between the first port and the second port to limit airflow from the second port to the first port; and wherein the first port comprises a conduit that extends from the airflow channel, the second port comprises a conduit that extends from the airflow channel, and the first port forms a spiral with the airflow channel, wherein the first port is inclined with respect to the plane of the airflow channel, and wherein the housing comprises a top housing and a bottom housing, the impeller is disposed between the top housing and the bottom housing, the motor is disposed at least partially in the bottom housing, and the top housing is open to the bottom housing, and the top housing is open to the bottom housing such that there is no plate or other barrier of the housing separating the impeller and the motor. 2. The regenerative blower of claim 1 , wherein the second port forms a spiral with the airflow channel. 3. The regenerative blower of claim 2 , wherein the first port extends from the airflow channel as a helix with a partial turn, a variable pitch and a variable radius. 4. The regenerative blower of claim 1 , wherein the first port extends from the airflow channel as a helix with a partial turn and a substantially constant pitch and radius. 5. The regenerative blower of claim 1 , wherein the second port extends from the airflow channel as a helix with a partial turn and a variable pitch and a variable radius. 6. The regenerative blower of claim 2 , wherein the second port extends from the airflow channel as a helix with a partial turn and a substantially constant pitch and radius. 7. The regenerative blower of claim 1 , wherein the motor comprises a rotor and the housing comprises an aperture with a diameter that is shaped to enable, during manufacture, an assembly of the rotor coupled to the impeller by a shaft to be placed in the housing through the aperture. 8. The regenerative blower of claim 1 , wherein the housing comprises a top housing and a bottom housing with a bottom plate, and an aperture is in the bottom plate of the bottom housing. 9. The regenerative blower of claim 7 , wherein the aperture provides a third port. 10. The regenerative blower of claim 8 , wherein the housing further comprises a bottom housing cap, and wherein the bottom housing cap includes at least one bottom housing cap aperture. 11. The regenerative blower of claim 7 , wherein the aperture is an outlet from the impeller channel and/or the airflow channel under low flow conditions, and an inlet under high flow conditions. 12. The regenerative blower of claim 1 , wherein the airflow channel comprises an upper channel and a lower channel. 13. The regenerative blower of claim 12 , wherein the impeller channel separates the upper channel and the lower channel. 14. The regenerative blower of claim 1 , wherein lateral ends of the impeller rotate adjacent an interior lateral face of the housing. 15. The regenerative blower of claim 1 . wherein the first port inclines at an angle other than perpendicular relative to a plane of the airflow channel. 16. The regenerative blower of claim 1 , wherein the second port inclines at an angle other than perpendicular relative to a plane of the airflow channel. 17. The regenerative blower of claim 1 , wherein the first port is positioned within an outer perimeter of the regenerative blower. 18. A regenerative blower comprising: a housing comprising a first port and a second port; an airflow channel extending between the first port and the second port; an impeller rotatable in an impeller channel, wherein the impeller promotes airflow in the airflow channel from the first port to the second port; a motor to drive the impeller; an interrupter between the first port and the second port to limit airflow from the second port to the first port; wherein the first port comprises a conduit that extends from the airflow channel, the second port comprises a conduit that extends from the airflow channel, and the first port forms a spiral with the airflow channel; wherein the first port is connected to the airflow channel in a circumferential direction relative to a rotation of the impeller; and wherein the housing comprises a top housing and a bottom housing, the impeller is disposed between the top housing and the bottom housing, the motor is disposed at least partially in the bottom housing, and the top housing is open to the bottom housing such that there is no plate or other barrier of the housing separating the impeller and the motor. 19. A regenerative blower comprising: a housing comprising a first port and a second port; an airflow channel extending between the first port and the second port; an impeller rotatable in an impeller channel, wherein the impeller promotes airflow in the airflow channel from the first port to the second port; a motor to drive the impeller, the motor comprises a rotor and the housing comprises an aperture with a diameter that is shaped to enable, during manufacture, an assembly of the rotor coupled to the impeller by a shaft to be placed in the housing through the aperture, the aperture providing a third port; an interrupter between the first port and the second port to limit airflow from the second port to the first port; and the first port comprising a conduit that extends from the airflow channel, the second port comprising a conduit that extends from the airflow channel, and the first port forming a spiral with the airflow channel. 20. A regenerative blower comprising: a housing comprising a first port and a second port, the housing comprising a top housing a bottom housing, the bottom housing comprising a bottom plate, an aperture being defined in the bottom plate of the bottom housing, the housing comprising a bottom housing cap, and the bottom housing cap comprising at least one bottom housing cap aperture; an airflow channel extending between the first port and the second port; an impeller rotatable in an impeller channel, wherein the impeller promotes airflow in the airflow channel from the first port to the second port; a motor to drive the impeller, the motor comprises a rotor and the aperture having a diameter that is shaped to enable, during manufacture, an assembly of the rotor coupled to the impeller by a shaft to be placed in the housing through the aperture; an interrupter between the first port and the second port to limit airflow from the second port to the first port; and the first port comprising a conduit that extends from the airflow channel, the second port comprising a conduit that extends from the airflow channel, and the first port forming a spiral with the airflow channel. 21. A regenerative blower comprising: a housing comprising a first port and a second port; an airflow channel extending between the first port and the second port; an impeller rotatable in an impeller channel, wherein the impeller promotes airflow in the airflow channel from the first port to the second port; a motor to drive the impeller, the motor comprises a rotor and the housing comprises an aperture wi