Patent Number: 
Section: claims

1. A Thorium molten salt energy system comprising:a proton beam source for producing a proton beam, wherein the proton source is adapted to vary the energy level of the produced proton beam between at least a first energy level and a second energy level, the proton beam source having a power input to receive power for driving the proton beam source,wherein the first energy level is greater than the second energy level, wherein the first energy level is such that a proton at the first energy level can interact with a Beryllium nucleus to produce a (p, n) reaction resulting in the generation of a neutron at an energy level sufficient to fission Thorium;wherein the second energy level is such that the interaction of a proton at the second energy level can interact with a Lithium nucleus to produce a (p, n) reaction resulting in the generation of a neutron at an energy level sufficient to fission uranium;a Thorium molten salt assembly comprising:a main assembly body;a tubular member positioned within the main body,a top lid coupled to the main assembly body in the form of a circular disk defining a plurality of openings passing therethrough; the plurality of openings including:a window opening defining a top window through which protons from the proton source may pass;two impeller shaft openings passing through the top lid, each defining an opening suitable for receipt of a rotating shaft;at least two heat exchanger openings passing through the top lid each heat exchanger opening being sized for receipt of either an input or an output pipe element of a primary heat exchanger;a window element positioned within the window opening; the window element being formed of a material permitting the passage of protons therethrough;a molten salt solution contained within the main assembly body, the molten salt solution containing Thorium and Lithium;a plurality of solid Thorium fuel rods positioned within the tubular member and arranged such that at least a portion of each Thorium fuel rod is below the window opening in the lid, each solid Thorium fuel rod comprising:an inner member comprising Beryllium andan outer member formed from a solid that comprises at least some solid Thorium, wherein the outer member defines an opening passing through the solid Thorium fuel rod and the inner member is located within the opening;a plurality of immersion pumps, each immersion pump including an impeller shaft having a first end extending through one impeller opening defined by the top lid and a second end extending into the molten salt assembly, wherein an impeller is coupled to the second end of each immersion pump, and wherein the length of the impeller shaft is such that the impeller of each impeller pump is located within the Thorium molten salt assembly body; anda primary heat exchange assembly comprising a first set of primary coils positioned within the main assembly body and a second set of primary coils positioned outside the main assembly body, the primary heat exchange assembly including an input pipe passing through the top lid and an output pipe passing through the top lid, the primary heat exchange assembly further including a non-Thorium containing molten salt within the primary coils and being configured such that the non-Thorium molten salt within the first set of primary coils is capable of absorbing heat generated in the main assembly body. 2. The Thorium molten salt energy system of claim 1 wherein the first energy level is above 4.4 MeV and the second energy level is between 2.4 MeV and 4.0 MeV. 3. The Thorium molten salt energy system of claim 1 wherein the proton beam source further comprises a beam focusing/defocusing instrument for varying the shape of the proton beam provided by the proton beam source, and wherein the beam focusing/defocusing instrument can be varied such that the proton beam from the proton source can take the form of a spot beam of varying diameters and patterns. 4. The Thorium molten salt energy system of claim 3 wherein the beam focusing/defocusing instrument can further be controlled to provide a proton beam having a ring-like projection pattern wherein the Thorium molten salt includes at least four Thorium fuel rods, and wherein the at least four Thorium fuel rods are arranged within the main assembly body such that the ring-like beam projection pattern from the proton beam source will result in the impingement of protons on the Beryllium cores of each of the at least four Thorium fuel rods. 5. The Thorium molten salt energy system of claim 1 wherein each of the Beryllium cores defines a central opening passing therethrough, wherein the central opening extends through at least 75% of the length of the Thorium fuel rod. 6. The Thorium molten salt energy system of claim 5 wherein a cross section of the Beryllium cores includes four inwardly projecting Beryllium members that together define four clover-leaf shaped openings passing between them. 7. The Thorium molten salt energy system of claim 1 wherein there are five Thorium fuel rods and the five Thorium fuel rods are positioned between an upper support structure and a lower support structure to form a Thorium fuel bundle assembly and wherein one of the Thorium fuel rods is surrounded by the four other Thorium fuel rods. 8. A system for producing heat comprising:a proton beam source for producing a proton beam, wherein the proton source is adapted to vary the energy level of the produced proton beam between a first energy level of at least approximately 4.5 MeV and a second energy level of at least approximately 2.4 MeV, wherein the proton source includes a power input for receiving power to drive the proton beam source;a Thorium molten salt assembly comprising:a main assembly body;a tubular member positioned within the main assembly body,a lid coupled to the main assembly body in the form of a circular disk defining a plurality of openings passing therethrough, the plurality of openings including:a first opening passing through the top lid having a diameter larger than the other openings, the first opening defining a top window opening through which protons from the proton source may pass;a window element positioned within the first opening; the window element being formed of a material permitting the passage of protons therethrough;a molten salt solution contained within the main assembly body; the molten salt solution containing Thorium and Lithium;a plurality of Thorium fuel rods positioned within the tubular member body and arranged such that the top portions of each Thorium fuel rod is below the first opening in the lid, each solid Thorium fuel rod comprising:an inner member comprising Beryllium andan outer member formed from a solid that comprises at least some solid Thorium,wherein the outer member defines an opening passing through the Thorium fuel rod and the inner member is located within the opening;a primary heat exchange assembly positioned within the main assembly body, the primary heat exchange assembly comprising:an input manifold the input manifold comprising an element defining an inlet port on the top surface of the hexahedron element of a first diameter and a plurality of openings on the bottom surface of the hexahedron element, each of the openings on the bottom surface of the hexahedron element having a diameter less than the diameter of the inlet port;an outlet manifold, the outlet manifold comprising an element defining an outlet port on the top surface of the element of a first diameter and a plurality of openings on the bottom surface of the element, each of the openings on the bottom surface of the element having a diameter less than the diameter of the outlet port; anda plurality of coiled tubular elements, each of the plurality of coiled tubular elements having a first end coupled to one of the openings on the bottom surface of the input manifold and a second end coupled to one of the openings on the bottom surface of the outlet manifold;an input pipe having a first end coupled to the inlet port of the input manifold, the input pipe passing through an opening in the top lid; andan outlet pipe having a first end coupled to the outlet port of the outlet manifold, the outlet pipe passing through an opening in the top lid;wherein the proton beam source is adapted to direct a proton beam of the first energy level such that the beam is directed to the Beryllium core of at least one Thorium fuel rod to promote the generation of fast neutrons and the fission of Thorium within the Thorium fuel rod to generate heat; andwherein the manifolds and pipes comprising the primary heat exchange assembly are adapted to circulate molten salt to remove heat from the interior of the main assembly body. 9. The system for producing heat of claim 8 wherein the window element comprises titanium. 10. The system of producing heat of claim 8 wherein the outer surface of each of the Thorium rods defines a spiral shape. 11. The system of producing heat of claim 8 wherein each Thorium fuel rod extends at least ⅔ of the way down into the main assembly body. 12. The system of producing heat of claim 8 wherein the main assembly body is rounded at the bottom. 13. The system of producing heat of claim 8 wherein the input and output manifolds of the primary heat exchange assembly are positioned above the level of the molten salt within the main body and wherein a gaseous head exists in the space above the molten salt between the input and output manifolds.