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Found results for
patents
1.
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NEUTRON GENERATOR USING SUPERCONDUCTING COILS FOR ELECTROSTATIC HEATING AND MAGNETIC CONFINEMENT
Application Number |
18596875 |
Status |
Pending |
Filing Date |
2024-03-06 |
First Publication Date |
2024-08-08 |
Owner |
Horne Technologies, Inc. (USA)
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Inventor |
Horne, Tanner L.
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Abstract
A nuclear fusion reactor includes a chamber containing plasma and two or more devices which include superconducting electromagnetic coils. At least one of the two or more devices may be biased to a high voltage to provide thermal energy to ions in the magnetic confinement region. In some examples, the chamber and the two or more devices can be coaxial and toroid shaped. In some examples, the chamber can be spherical or cylindrical with the two or more devices being toroid or elongated toroid shaped and formed on opposite faces of a cuboid. The two or more devices may be disposed in the chamber to provide a high-beta magnetic confinement region for the plasma.
IPC Classes ?
- G21B 1/05 - Thermonuclear fusion reactors with magnetic or electric plasma confinement
- G21B 1/11 - Thermonuclear fusion reactors Details
- G21B 1/17 - Vacuum chambersVacuum systems
- G21B 1/21 - Electric power supply systems, e.g. for magnet systems
- H01F 6/06 - Coils, e.g. winding, insulating, terminating or casing arrangements therefor
- H05H 1/11 - Arrangements for confining plasma by electric or magnetic fieldsArrangements for heating plasma using applied magnetic fields only using cusp configuration
- H05H 1/12 - Arrangements for confining plasma by electric or magnetic fieldsArrangements for heating plasma using applied magnetic fields only wherein the containment vessel forms a closed loop, e.g. stellarator
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2.
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Neutron generator using superconducting coils for electrostatic heating and magnetic confinement
Application Number |
17900330 |
Grant Number |
11948696 |
Status |
In Force |
Filing Date |
2022-08-31 |
First Publication Date |
2023-02-02 |
Grant Date |
2024-04-02 |
Owner |
Horne Technologies, Inc. (USA)
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Inventor |
Horne, Tanner L.
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Abstract
A nuclear fusion reactor includes a chamber containing plasma and two or more devices which include superconducting electromagnetic coils. At least one of the two or more devices may be biased to a high voltage to provide thermal energy to ions in the magnetic confinement region. In some examples, the chamber and the two or more devices can be coaxial and toroid shaped. In some examples, the chamber can be spherical or cylindrical with the two or more devices being toroid or elongated toroid shaped and formed on opposite faces of a cuboid. The two or more devices may be disposed in the chamber to provide a high-beta magnetic confinement region for the plasma.
IPC Classes ?
- G21B 1/05 - Thermonuclear fusion reactors with magnetic or electric plasma confinement
- G21B 1/11 - Thermonuclear fusion reactors Details
- G21B 1/17 - Vacuum chambersVacuum systems
- G21B 1/21 - Electric power supply systems, e.g. for magnet systems
- H01F 6/06 - Coils, e.g. winding, insulating, terminating or casing arrangements therefor
- H05H 1/11 - Arrangements for confining plasma by electric or magnetic fieldsArrangements for heating plasma using applied magnetic fields only using cusp configuration
- H05H 1/12 - Arrangements for confining plasma by electric or magnetic fieldsArrangements for heating plasma using applied magnetic fields only wherein the containment vessel forms a closed loop, e.g. stellarator
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3.
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Nuclear fusion reactor with toroidal superconducting magnetic coils implementing inertial electrostatic heating
Application Number |
16595266 |
Grant Number |
11482342 |
Status |
In Force |
Filing Date |
2019-10-07 |
First Publication Date |
2020-04-09 |
Grant Date |
2022-10-25 |
Owner |
HORNE TECHNOLOGIES, INC. (USA)
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Inventor |
Horne, Tanner L.
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Abstract
A nuclear fusion reactor includes a chamber containing plasma and two or more devices which include superconducting electromagnetic coils. At least one of the two or more devices may be biased to a high voltage to provide thermal energy to ions in the magnetic confinement region. In some examples, the chamber and the two or more devices can be coaxial and toroid shaped. In some examples, the chamber can be spherical or cylindrical with the two or more devices being toroid or elongated toroid shaped and formed on opposite faces of a cuboid. The two or more devices may be disposed in the chamber to provide a high-beta magnetic confinement region for the plasma.
IPC Classes ?
- G21B 1/05 - Thermonuclear fusion reactors with magnetic or electric plasma confinement
- G21B 1/11 - Thermonuclear fusion reactors Details
- H05H 1/11 - Arrangements for confining plasma by electric or magnetic fieldsArrangements for heating plasma using applied magnetic fields only using cusp configuration
- H01F 6/06 - Coils, e.g. winding, insulating, terminating or casing arrangements therefor
- G21B 1/17 - Vacuum chambersVacuum systems
- G21B 1/21 - Electric power supply systems, e.g. for magnet systems
- H05H 1/12 - Arrangements for confining plasma by electric or magnetic fieldsArrangements for heating plasma using applied magnetic fields only wherein the containment vessel forms a closed loop, e.g. stellarator
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