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An internal combustion power-plant comprising a combustion housing having a crankshaft that is driven when a fuel is combusted in the combustion housing. An induction generator is positioned around the combustion housing. The induction generator includes a stator connected to an outer surface of the

An internal combustion power-plant comprising a combustion housing having a crankshaft that is driven when a fuel is combusted in the combustion housing. An induction generator is positioned around the combustion housing. The induction generator includes a stator connected to an outer surface of the combustion housing and an induction rotor that rotates about the stator. The induction rotor and the crankshaft are mechanically coupled to a sprocket via a clutch mechanism. The stator is electrically connected to power electronics that are within a nacelle that supports and surrounds the power-plant, as well as acts as a heat exchanger for the power-plant and power electronics closed loop cooling system. The induction generator operates as a generator to draw power off the crankshaft, via the clutch mechanism, to rotate the induction rotor which in turn induces current in the stator.

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1. An internal combustion power-plant, comprising: a combustion rotor housing having a combustion chamber bore and a common axis of rotation, a combustion rotor having a combustion rotor axis, and a crankshaft having a lobe, an aperture, and a crankshaft axis, the lobe having a lobe axis spaced from

1. An internal combustion power-plant, comprising: a combustion rotor housing having a combustion chamber bore and a common axis of rotation, a combustion rotor having a combustion rotor axis, and a crankshaft having a lobe, an aperture, and a crankshaft axis, the lobe having a lobe axis spaced from the crankshaft axis, wherein the common axis and the crankshaft axis are co-axial, and the combustion rotor axis and the lobe axis are co-axial;a compressor-turbine shaft having a first end and a second end, the compressor-turbine shaft being co-axial with the common axis and located within the aperture of the crankshaft, the crankshaft and compressor-turbine shaft are unconnected and rotate independently;a compressor wheel located at the first end of the compressor-turbine shaft at an air intake end of the power-plant, the compressor wheel having a plurality of compressor fins;a turbine wheel located at the second end of the compressor-turbine shaft at an air exhaust end of the power-plant, the turbine wheel having a plurality of turbine fins; and an induction generator positioned around the combustion rotor housing, the induction generator including a stator and an induction rotor, the induction rotor rotating about the stator, the induction rotor being mechanically coupled to the crankshaft, and the stator being electrically connected to a power electronics: anda nacelle that surrounds and supports the combustion rotor housing and the induction generator, the nacelle having a plurality of cooling fins disposed about an interior surface thereof, the nacelle further having at least one fluid-filled cooling port and a liquid-to-liquid heat exchanger that extends through the at least one fluid-filled cooling port and transports a first liquid heated by the combustion rotor housing to the at least one fluid-filled cooling port, whereby heat from the first liquid is transferred to a second fluid of the at least one fluid-filled cooling port, and then from the second fluid of the at least one fluid-filled cooling port to the fins, the fins being cooled by air circulating through the nacelle. 2. The internal combustion power-plant of claim 1 wherein the stator is secured to an outer surface of the combustion rotor housing, and the stator includes electrically-conductive windings formed from a metal material. 3. The internal combustion power-plant of claim 2 wherein the induction rotor has a pair of opposed induction rotor hubs and a plurality of metallic bars extending between the induction rotor hubs. 4. The internal combustion power-plant of claim 3 wherein at least one of the induction rotor hubs is mechanically coupled to the crankshaft. 5. The internal combustion power-plant of claim 1 wherein the power electronics includes means for converting alternating current to direct current. 6. The internal combustion power-plant of claim 5 wherein the power electronics includes a battery. 7. The internal combustion power-plant of claim 1 including a clutch mechanism that is selectively engageable with the crankshaft and the induction rotor, whereby the clutch mechanism can selectively engage only with the crankshaft, can engage only with the induction rotor, or can engage with both the crankshaft and the induction rotor. 8. The internal combustion power-plant of claim 7 wherein the power electronics includes means for converting direct current to alternating current. 9. The internal combustion power-plant of claim 8 including a sprocket connected to the clutch mechanism whereby rotational energy from the induction rotor and rotational energy from the crankshaft are selectively delivered to and from the sprocket by the clutch mechanism. 10. The internal combustion power-plant of claim 1 having a first one of the at least one fluid-filled cooling ports positioned near the air exhaust end of the power-plant, and a second one of the at least one fluid-filled cooling ports positioned near the air intake end of the power-plant, and the liquid-to-liquid heat exchanger being configured to transport the first liquid from the combustion rotor housing to the first cooling port near the air exhaust end, and then to the second cooling port near the air intake end. 11. An internal combustion power-plant, comprising: a combustion rotor housing having a combustion chamber bore and a common axis of rotation, a combustion rotor having a combustion rotor axis, and a crankshaft having a lobe, an aperture, and a crankshaft axis, the lobe having a lobe axis spaced from the crankshaft axis, wherein the common axis and the crankshaft axis are co-axial, and the combustion rotor axis and the lobe axis are co-axial; andan induction generator positioned around the combustion rotor housing, the induction generator including a stator and an induction rotor, the induction rotor rotating about the stator, the induction rotor being mechanically coupled to the crankshaft, and the stator being electrically connected to a power electronics; anda nacelle that surrounds and supports the combustion rotor housing and the induction generator, the nacelle having a plurality of cooling fins disposed about an interior surface thereof, the nacelle further having at least one fluid-filled cooling port and a liquid-to-liquid heat exchanger that extends through the at least one fluid-filled cooling port and transports a first liquid heated by the combustion rotor housing to the at least one fluid-filled cooling port, whereby heat from the first liquid is transferred to a second fluid of the at least one fluid-filled cooling port, and then from the second fluid of the at least one fluid-filled cooling port to the fins, the fins being cooled by air circulating through the nacelle. 12. The internal combustion power-plant of claim 11 wherein the stator is secured to an outer surface of the combustion rotor housing. 13. The internal combustion power-plant of claim 11 including a clutch mechanism that is selectively engageable with the crankshaft and the induction rotor, whereby the clutch mechanism can selectively engage only with the crankshaft, can engage only with the induction rotor, or can engage with both the crankshaft and the induction rotor. 14. An internal combustion power-plant, comprising: a combustion housing having a crankshaft that is rotated when a fuel is combusted in the combustion housing;an induction generator positioned around the combustion housing, the induction generator including a stator and an induction rotor, the induction rotor rotating about the stator, the induction rotor being mechanically coupled to the crankshaft, and the stator being electrically connected to a power electronics; anda nacelle that surrounds and supports the combustion rotor housing and the induction generator, the nacelle having a plurality of cooling fins disposed about an interior surface thereof, the nacelle further having at least one fluid-filled cooling port and a liquid-to-liquid heat exchanger that extends through the at least one fluid-filled cooling port and transports a first liquid heated by the combustion rotor housing to the at least one fluid-filled cooling port, whereby heat from the first liquid is transferred to a second fluid of the at least one fluid-filled cooling port, and then from the second fluid of the at least one fluid-filled cooling port to the fins, the fins being cooled by air circulating through the nacelle. 15. The internal combustion power-plant of claim 14 wherein the power electronics includes means for converting alternating current to direct current. 16. The internal combustion power-plant of claim 14 including a clutch mechanism that is selectively engageable with the crankshaft and the induction rotor, whereby the clutch mechanism can selectively engage only with the crankshaft, can engage only with the induction rotor, or can engage with both the crankshaft and the induction rotor. 17. The internal combustion power-plant of claim 16 including a sprocket connected to the clutch mechanism whereby rotational energy from the induction rotor and rotational energy from the crankshaft are selectively delivered to and from the sprocket by the clutch mechanism. 18. The internal combustion power-plant of claim 14 wherein the induction rotor has a pair of opposed induction rotor hubs and a plurality of metallic bars extending between the induction rotor hubs, and at least one of the induction rotor hubs is mechanically coupled to the crankshaft. 19. The internal combustion power-plant of claim 14 wherein the power electronics includes means for converting direct current to alternating current.