Electromagnetic conveyor

What is claimed is: 1. A propulsion system for electrically conductive articles comprising: a passageway extending in length from a first end to an opposite second end and having an entrance at the first end for admitting electrically conductive articles into the passageway and an exit at the second end though which the electrically conductive articles leave the passageway; primary coils adjacent to the passageway along its length; a coil drive providing currents in the primary coils that produce a primary electromagnetic field that induces currents in the electrically conductive articles in the passageway that create secondary electromagnetic fields in the electrically conductive articles that interact with the primary electromagnetic field to produce a drive force directed against the electrically conductive articles to propel them from the entrance and through the exit of the passageway; a magnetically permeable backing surrounding the primary coils. 2. A propulsion system as in claim 1 wherein the primary coils are arranged as a solenoid surrounding the passageway along its length. 3. A propulsion system as in claim 1 further comprising a hollow, elongated, nonmetallic coil form around which the primary coils are wound, the coil form having an inner wall made of a low-friction material bounding the passageway. 4. A propulsion system as in claim 3 wherein the coil form is circular in cross section. 5. A propulsion system as in claim 3 wherein the coil form is rectangular in cross section. 6. A propulsion system as in claim 5 wherein the passageway has a 180° bend. 7. A propulsion system as in claim 5 wherein the passageway has a 180° twist. 8. A propulsion system as in claim 1 further comprising fluid ports and wherein the passageway has openings through which the fluid ports supply fluid to wash the electrically conductive articles being propelled through the passageway. 9. A propulsion system as in claim 1 wherein the primary electromagnetic field produced by the coil drive and the primary coils is an electromagnetic flux wave traveling along the length of the passageway, the propulsion system further comprising a second set of coils arranged around the passageway to carry currents perpendicular to the currents in the primary coils that produce an electromagnetic flux wave that travels circumferentially around the passageway to cause the electrically conductive articles to rotate as they are propelled along the length of the passageway. 10. A propulsion system as in claim 1 further comprising scrubbing elements bounding the passageway to scrub the electrically conductive articles as they pass. 11. A propulsion system as in claim 1 wherein the cross-sectional area of the passageway increases monotonically from the first end to the second end. 12. A propulsion system as in claim 1 wherein the passageway has a circular cross section in a first portion extending from the first end toward the second end, a rectangular cross section in a second portion extending from the second end toward the first end, and a cross section transitioning from square to rectangular in a transition portion separating the first portion from the second portion. 13. A propulsion system as in claim 12 further comprising a permanent magnet disposed outside the passageway close to one end of the longer side of the cross section of the transition portion nearer to the second portion than to the first portion. 14. A propulsion system as in claim 1 wherein the primary coils extend in length along a first side of the passageway, the propulsion system further comprising an array of permanent magnets extending in length along an opposite second side of the passageway. 15. A propulsion system as in claim 1 wherein the electrically conductive articles are aluminum cans. 16. A propulsion system as in claim 1 wherein the coil drive is a three-phase current source and the primary coils include three-phase windings. 17. A propulsion system for electrically conductive articles comprising: a passageway extending in length from a first end to an opposite second end and having an entrance at the first end for admitting electrically conductive articles into the passageway and an exit at the second end though which the electrically conductive articles leave the passageway; primary coils adjacent to the passageway along its length; a coil drive providing currents in the primary coils that produce a primary electromagnetic field that induces currents in the electrically conductive articles in the passageway that create secondary electromagnetic fields in the electrically conductive articles that interact with the primary electromagnetic field to produce a drive force directed against the electrically conductive articles to propel them from the entrance and through the exit of the passageway; wherein the coil drive provides the current with a first current at a first frequency primarily to propel the electrically conductive articles and a second current at a higher second frequency primarily to inductively heat the electrically conductive articles. 18. A propulsion system for electrically conductive articles comprising: a passageway extending in length from a first end to an opposite second end and having an entrance at the first end for admitting electrically conductive articles into the passageway and an exit at the second end though which the electrically conductive articles leave the passageway; primary coils adjacent to the passageway along its length; a coil drive providing currents in the primary coils that produce a primary electromagnetic field that induces currents in the electrically conductive articles in the passageway that create secondary electromagnetic fields in the electrically conductive articles that interact with the primary electromagnetic field to produce a drive force directed against the electrically conductive articles to propel them from the entrance and through the exit of the passageway; wherein the primary coils include a first set of coils extending in length along a first side of the passageway and a second set of coils extending in length along an opposite second side of the passageway. 19. A propulsion system as in claim 18 comprising a first coil form supporting the first set of coils and a second coil form supporting the second set of coils, wherein the first and second coils forms bound the passageway, the propulsion system further comprising a hinge joining the first coil form to the second coil form. 20. A propulsion system as in claim 18 wherein the first set of coils produces a first electromagnetic flux wave traveling along the passageway from the first end to the second end and the second set of coils produces a second electromagnetic flux wave traveling along the passageway in the opposite direction, and wherein the first and the second electromagnetic flux waves have different magnitudes to cause the electrically conductive articles to rotate as they are propelled along the passageway.