Controlled fusion in a field reversed configuration and direct energy conversion
First Claim
1. A method of converting fusion product energies into electric energy, comprising the steps ofinjecting ions along a helical path within a generally cylindrical cavity formed of a plurality of semi-cylindrical electrodes in spaced relation with one another forming a plurality of elongate gaps there between, converting substantially all of the injected ions'"'"' axial energy to rotational energy, applying an oscillating potential to the plurality of electrodes, forming a multi-pole electric field within the cavity, the electric field comprising three or more poles, and converting at least a portion of the ion energy into electrical energy.
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Abstract
A system and apparatus for controlled fusion in a field reversed configuration (FRC) magnetic topology and conversion of fusion product energies directly to electric power. Preferably, plasma ions are magnetically confined in the FRC while plasma electrons are electrostatically confined in a deep energy well, created by tuning an externally applied magnetic field. In this configuration, ions and electrons may have adequate density and temperature so that upon collisions they are fused together by the nuclear force, thus forming fusion products that emerge in the form of an annular beam. Energy is removed from the fusion product ions as they spiral past electrodes of an inverse cyclotron converter. Advantageously, the fusion fuel plasmas that can be used with the present confinement and energy conversion system include advanced (aneutronic) fuels.
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Citations
39 Claims
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1. A method of converting fusion product energies into electric energy, comprising the steps of
injecting ions along a helical path within a generally cylindrical cavity formed of a plurality of semi-cylindrical electrodes in spaced relation with one another forming a plurality of elongate gaps there between, converting substantially all of the injected ions'"'"' axial energy to rotational energy, applying an oscillating potential to the plurality of electrodes, forming a multi-pole electric field within the cavity, the electric field comprising three or more poles, and converting at least a portion of the ion energy into electrical energy.
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6. A method of converting fusion product energies into electric energy, comprising the steps of
injecting ions along a helical path within a generally cylindrical cavity formed of a plurality of semi-cylindrical electrodes in spaced relation with one another forming a plurality of elongate gaps there between, wherein the ions are injected in the form an annular beam, directing the annular beam through a magnetic cusp, converting substantially all of the injected ions'"'"' axial energy to rotational energy, collecting charge neutralizing electrons from the annular beam as the electrons follow magnetic field lines of the magnetic cusp, forming a multi-pole electric field within the cavity, the electric field comprising three or more poles, and converting at least a portion of the ion energy into electrical energy.
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11. A method of converting fusion product energies into electric energy, comprising the steps of
injecting ions along a helical path within a generally cylindrical cavity formed of a plurality of semi-cylindrical electrodes in spaced relation with one another forming a plurality of elongate gaps there between, wherein the ions are injected in the form an annular beam, creating a magnetic cusp, wherein the step of creating the magnetic cusp comprises the steps of creating first and second magnetic fields within the cavity, wherein field lines of the first and second magnetic fields extend in opposing directions, and joining the first and second magnetic fields, directing the annular beam through a magnetic cusp, converting substantially all of the injected ions'"'"' axial energy to rotational energy, forming a multi-pole electric field within the cavity, the electric field comprising three or more poles, and converting at least a portion of the ion energy into electrical energy.
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12. A method of converting fusion product energies into electric power, comprising the steps of
injecting ions along a helical path within a cylindrical cavity formed by three or more elongate electrodes in spaced relation with an elongate gap formed between adjacent electrodes of the three or more electrodes, applying an oscillating potential to the three or more electrodes, and converting at least a portion of the ion energy into electrical energy.
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18. A method of converting fusion product energies into electric power, comprising the steps of
injecting ions along a helical path within a cylindrical cavity formed by three or more elongate electrodes in spaced relation with an elongate gap formed between adjacent electrodes of the three or more electrodes, wherein the ions are injected in the form an annular beam, directing the annular beam through a magnetic cusp, collecting charge neutralizing electrons from the annular beam as the electrons follow magnetic field lines of the magnetic cusp, and converting at least a portion of the ion energy into electrical energy.
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22. A method of converting fusion product energies into electric power, comprising the steps of
injecting ions along a helical path within a cylindrical cavity formed by three or more elongate electrodes in spaced relation with an elongate gap formed between adjacent electrodes of the three or more electrodes, wherein the ions are injected in the form an annular beam, creating a magnetic cusp, wherein the step of creating the magnetic cusp comprises the steps of creating first and second magnetic fields within the cavity, wherein field lines of the first and second magnetic fields extend in opposing directions, and joining the first and second magnetic fields, directing the annular beam through the magnetic cusp, and converting at least a portion of the ion energy into electrical energy.
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23. A method of converting fusion product energies into electric power, comprising the steps of
creating first and second magnetic fields within a cavity formed in part by three or more semi-cylindrical electrodes in spaced relation with elongate gaps formed between adjacent electrodes, wherein field lines of the first and second magnetic fields extend in opposing directions, joining the field lines of the first and second magnetic fields to form a magnetic cusp, injecting ions in the form of an annular beam along a helical path within the cavity, directing the annular beam through the magnetic cusp, applying an oscillating potential to the three or more electrodes, and converting at least a portion of the ion energy into electrical energy.
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27. A method of converting fusion product energies into electric power, comprising the steps of
creating first and second magnetic fields within a cavity formed in part by three or more semi-cylindrical electrodes in spaced relation with elongate gaps formed between adjacent electrodes, wherein field lines of the first and second magnetic fields extend in opposing directions, joining the field lines of the first and second magnetic fields to form a magnetic cusp, injecting ions in the form of an annular beam along a helical path within the cavity, directing the annular beam through the magnetic cusp, collecting charge neutralizing electrons from the annular beam as the electrons follow magnetic field lines of the magnetic cusp, and converting at least a portion of the ion energy into electrical energy.
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30. A method of converting fusion product energies into electric power, comprising the steps of
applying an oscillating potential to three or more elongate electrodes in spaced relation with elongate gaps formed between adjacent electrodes, the three or more elongate electrodes forming a cylindrical cavity, creating a multi-pole elongate electric field comprising three or more poles, injecting ions in the form of an annular beam along a helical path through the electric field, and converting at least a portion of the ion energy into electrical energy.
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37. A method of converting fusion product energies into electric power, comprising the steps of
applying an oscillating potential to three or more elongate electrodes in spaced relation with elongate gaps formed between adjacent electrodes, the three or more elongate electrodes forming a cylindrical cavity, creating a multi-pole elongate electric field comprising three or more poles, injecting ions in the form of an annular beam along a helical path through the electric field, creating first and second magnetic fields within the cavity, wherein field lines of the first and second magnetic fields extend in opposing directions, joining the field lines of the first and second magnetic fields to form a magnetic cusp, collecting charge neutralizing electrons from the annular beam as the electrons follow magnetic field lines of the magnetic cusp, and converting at least a portion of the ion energy into electrical energy.
Specification