System, transition conduit, and article of manufacture for transitioning a fluid flow

The invention claimed is: 1. A transition conduit coupled with a main conduit, comprising: a volute passageway curving around the main conduit; the volute passageway having a slot that follows a route around the curving volute passageway and opens into an interior of the main conduit, the slot defined at least in part by a lip, the slot establishing a slot entry/exit path for either a secondary fluid flow to enter the main conduit or a portion of a main fluid flow to exit the main conduit, wherein the volute passageway is a first volute passageway that transfers either the secondary fluid flow or the portion of the main fluid flow in a first direction, and the slot entry/exit path is a first slot entry/exit path, further comprising a second volute passageway located adjacent to the first volute passageway, the second volute passageway curving around the main conduit and transferring either the secondary fluid flow or the portion of the main fluid flow in a second direction opposite to the first direction; the second volute passageway having a second slot that follows a second route around the curving second volute passageway and opens into the interior of the main conduit, the second slot defined at least in part by a second lip, the second slot establishing a second slot entry/exit path for either the secondary fluid flow to enter the main conduit or a second portion of the main fluid flow to exit the main conduit. 2. The transition conduit coupled with the main conduit of claim 1 , wherein the volute passageway is configured to impart a tangential momentum component to the secondary fluid flow as the secondary fluid flow exits the slot and enters the main conduit. 3. The transition conduit coupled with the main conduit of claim 1 , wherein the slot entry/exit path extends at an acute angle with respect to a longitudinal axis of the main conduit. 4. The transition conduit coupled with the main conduit of claim 1 , wherein the slot is configured to induce a venturi effect in the secondary fluid flow. 5. The transition conduit coupled with the main conduit of claim 4 , wherein a cross-sectional area of the slot is sized to match a first speed of the secondary fluid flow to a second speed of the main fluid flow. 6. The transition conduit coupled with the main conduit of claim 1 , wherein the volute passageway has a cross sectional area that decreases in a direction of curvature of the volute passageway around the main conduit from at least a first position to a second position. 7. The transition conduit coupled with the main conduit of claim 6 , wherein the direction of curvature of the volute passageway is configured to correspond to a rotation direction of the main fluid flow. 8. The transition conduit coupled with the main conduit of claim 1 , wherein the volute passageway is located downstream from a first portion of the main fluid flow in the main conduit and upstream from the second portion of the main fluid flow in the main conduit. 9. The transition conduit coupled with the main conduit of claim 1 , wherein the volute passageway includes a divider between the volute passageway and the second volute passageway. 10. The transition conduit coupled with the main conduit of claim 1 , wherein the transition conduit and the main conduit are integrally formed and are removably coupled to a supply conduit on a supply side and a delivery conduit on a delivery side. 11. The transition conduit coupled with the main conduit of claim 1 , wherein the transition conduit is integrally formed with the main conduit. 12. A fluid transfer system for an engine, comprising: a first turbine having an exit for discharging a main fluid flow; a second turbine having an inlet for receiving at least a portion of the main fluid flow; a main conduit fluidically coupling the exit of the first turbine to the inlet of the second turbine, the main conduit configured to carry the main fluid flow along an axis between the first turbine and the second turbine; and a funnel fluidically coupled to the main conduit and located between the exit of the first turbine and the inlet of the second turbine, the funnel curving around the main conduit; the funnel having a slot that opens into an interior of the main conduit, the slot defined at least in part by a lip, the slot establishing a path for a secondary fluid flow to enter the main conduit upstream of the second turbine, wherein the funnel is a first funnel that is configured to transfer the secondary fluid flow in a first direction, further comprising a second funnel located adjacent to the first funnel, the second funnel curving around the main conduit and configured to transfer the secondary fluid flow in a second direction opposite to the first direction; the second funnel having a second slot that opens into the interior of the main conduit, the second slot defined at least in part by a second lip, the second slot establishing a second path for the secondary fluid flow to enter a fluid carrier upstream of the second turbine. 13. The fluid transfer system of claim 12 , wherein the funnel has a cross section with an area that decreases in a direction of curvature of the funnel from at least a first position to a second position. 14. The fluid transfer system of claim 13 , wherein the direction of curvature of the funnel is configured to correspond to a rotation direction of the main fluid flow. 15. The fluid transfer system of claim 12 , wherein the funnel includes a divider that creates two flow paths around the funnel. 16. The fluid transfer system of claim 12 , wherein the axis of the main fluid flow is a longitudinal axis. 17. An article of manufacture, comprising: a main conduit for carrying a main fluid flow; and passageway means coupled to the main conduit for at least one of introducing a secondary fluid flow to the main conduit or removing a portion of the main fluid flow from the main conduit, the passageway means including a first passageway means and a second passageway means adjacent to the first passageway means, the first passageway means configured to carry at least one of the secondary fluid flow or main fluid flow in a first direction and the second passageway means configured to carry at least one of the secondary fluid flow or the main fluid flow in a second, opposite direction.