Patent Number: 043671934
Section: claims

1. A toroidal reactor for generating thermal energy from fusion reactions in ionized plasma of fusible fuel comprising: (a) fusion core unit comprising a plasma containment means having a major radius on the order of 50 cm for containing said fusible fuel, said plasma containment means forming a plasma containment region,  (b) said plasma containment means including a plurality of toroidal field coils adjacent to and surrounding said plasma containment region for generating a toroidal magnetic field,  (c) means for transporting a cooling fluid to said toroidal field coils,  (d) said toroidal field coils having fluid conducting portions for transporting said cooling fluid within regions of said toroidal field coils,  (e) power supply means connected to said toroidal field coils for generating a high toroidal magnetic field within the ionized plasma within said plasma containment region, said toroidal magnetic field being on the order of greater than 100 KG,  (f) said plurality of toroidal field coils comprising high-strength; non-superconducting conductors for sustaining said high field and thermal energies,  (g) ohmic heating means for inducing an ohmic heating plasma current in said plasma fuel within said plasma containment means, said ohmic heating current raising the temperature of said plasma, said ohmic heating means including transformer means and said ohmic heating current generating a poloidal magnetic field within said plasma,  (h) blanket means positioned completely outside of and substantially surrounding said toroidal field coils,  (i) means extending into said plasma containment means for delivering said fusible fuel therein,  (j) said fusion core unit being readily separable from said blanket means for permitting facile access to said fusion core unit to allow for replacement of said fusion core unit as required,  (k) blanket cooling fluid transport means connected to said blanket means for transporting a cooling fluid to said blanket means, and  (l) means connected to at least one of said blanket cooling fluid transport means and said toroidal field cooling transport means for extracting thermal energy therefrom.  (a) a toroidal region for containing said plasma, and  (b) means, including said plurality toroidal field coils, for magnetically confining said plasma within said toroidal region. 2. The toroidal reactor of claim 1, wherein said plasma containment means further includes a toroidal housing having a major radius on the order of 50 cm and a minor radius on the order of 20 cm and wherein, said toroidal field coils being adjacent to and surround said toroidal housing and means for transporting said cooling fluid around the surfaces of said toroidal housing adjacent said toroidal field coils. 3. The toroidal reactor of claim 2, wherein said blanket means further includes tritium breeding means for generating tritium from neutrons emitted in said fusion reactions. 4. A toroidal reactor as recited in claim 1 wherein said plasma containment means comprises: 5. A toroidal reactor as recited in claim 4 wherein said means for magnetically confining said plasma further comprises means, in addition to said ohmic heating means, for generating said poloidal magnetic field. 6. A toroidal reactor as recited in claim 1 or 5 wherein said toroidal magnetic field strength is on the order of 100-150 kilogauss. 7. A toroidal reactor as recited in claim 1 wherein said fusible fuel is a mixture of deuterium and tritium. 8. A toroidal reactor as recited in claim 7 wherein said means for extracting thermal energy is connected to both said plasma containment means and said blanket means and comprises fluid transport means. 9. A toroidal reactor as recited in claim 8 wherein said thermal energy extraction means comprises one fluid transport means for extracting thermal energy from said plasma containment means and another fluid transport means for extracting thermal energy from said blanket means. 10. A toroidal reactor as recited in claim 8 wherein said thermal energy extraction means comprises a single fluid transport means for both said plasma containment means and said blanket means. 11. A toroidal reactor as recited in claim 6 wherein said fusible fuel is a mixture of deuterium and tritium. 12. A toroidal reactor as recited in claim 1 wherein said means for extracting thermal energy is connected to both said plasma containment means and said blanket means and comprises fluid transport means. 13. A toroidal reactor as recited in claim 12 wherein said thermal energy extraction means comprises one fluid transport means for extracting thermal energy from said plasma containment means and another fluid transport means for extracting thermal energy from said blanket means. 14. A toroidal reactor as recited in claim 12 wherein said thermal energy extraction means comprises a single fluid transport means for both said plasma containment and said blanket means. 15. A toroidal reactor as recited in claim 1 wherein said fusible fuel is a mixture of deuterium and tritium, said plasma containment means comprising a toroidal region and said toroidal region having a major radius on the order of 50 cm. 16. A toroidal reactor as recited in claim 15 wherein said toroidal region has a minor radius on the order of 20 cm. 17. A toroidal reactor as recited in claim 1 wherein said plasma containment means includes a toroidal region having as aspect ratio of approximately 2.5. 18. A toroidal reactor as recited in claim 17 wherein said toroidal field coils include copper-coils. 19. A toroidal reactor as recited in claim 1 further comprising means for reprocessing said radiation-damaged containment means. 20. A toroidal reactor device as recited in claim 1 further comprising auxiliary heating means for heating said plasma.