A photovoltaic cell for the production from solar radiation of electrical energy includes a reservoir adapted to contain a quantity of photoionizable solution, a solar powered plasma generator in fluid communication with the reservoir, a solar powered ionization chamber in fluid communication with t
A photovoltaic cell for the production from solar radiation of electrical energy includes a reservoir adapted to contain a quantity of photoionizable solution, a solar powered plasma generator in fluid communication with the reservoir, a solar powered ionization chamber in fluid communication with the plasma generator, an electrode baffle in fluid communication with the ionization chamber and a return fluid communication path from the electrode baffle to the reservoir. As arranged, the reservoir, the plasma generator, the ionization chamber and the electrode baffle form a closed fluid loop in order from the reservoir to the plasma generator to the ionization chamber to the electrode baffle and back to the reservoir.
대표청구항▼
1. A photovoltaic cell for the production from solar radiation of electrical energy, said photovoltaic cell comprising: a reservoir adapted to contain a quantity of photoionizable solution;a solar powered plasma generator in fluid communication with said reservoir through a plurality of capillary tu
1. A photovoltaic cell for the production from solar radiation of electrical energy, said photovoltaic cell comprising: a reservoir adapted to contain a quantity of photoionizable solution;a solar powered plasma generator in fluid communication with said reservoir through a plurality of capillary tubes, said plasma generator comprising a heating plate adapted to contact the photoionizable solution and configured to be heated by solar radiation to convert said photoionizable solution, as drawn under solar power from said reservoir into said solar powered plasma generator through the plurality of capillary tubes, from a liquid phase to a plasma phase;a solar powered ionization chamber in fluid communication with said plasma generator, said ionization chamber being adapted to ionize said plasma phase of said solution, as conveyed from said solar powered plasma generator into said solar powered ionization chamber;a plurality of lenses configured and adapted to focus light onto the heating plate where the capillary tubes terminate at the heating plate; an electrode baffle in fluid communication with said ionization chamber, said electrode baffle being adapted to conduct electrical energy from the ionized plasma phase of said solution, as conveyed from said solar powered ionization chamber into said electrode baffle, through a plurality of electrodes, said conduction causing said plasma phase of said solution to reconvert to a liquid phase; andwherein: said reservoir is in fluid communication with said electrode baffle such that said reservoir, said plasma generator, said ionization chamber and said electrode baffle form a closed fluid loop in order from said reservoir to said plasma generator to said ionization chamber to said electrode baffle and back to said reservoir; andelectrical charge imparted by solar radiation to said photoionizable solution is captured as electrical energy as said photoionizable solution is circulated through said closed loop. 2. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 1, wherein said photoionizable solution comprises a combustible hydrocarbon. 3. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 2, wherein said combustible hydrocarbon is halogenated. 4. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 1, wherein said photoionizable solution comprises a spiro-benzopyran. 5. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 1, wherein said fluid communication between said reservoir and said solar powered plasma generator is provided by a capillary tube. 6. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 5, wherein said fluid communication between said reservoir and said solar powered plasma generator is provided by a plurality of capillary tubes. 7. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 5, wherein said solar powered plasma generator comprises a lens adapted to focus incident solar radiation onto a portion of said solar powered plasma generator. 8. A photovoltaic cell for the production from solar radiation of electrical energy, said photovoltaic cell comprising: a reservoir containing a quantity of photoionizable solution;a solar powered plasma generator in fluid communication with said reservoir through a plurality of capillary tubes, said plasma generator comprising a heating plate in contact with the photoionizable solution and configured to be heated by solar radiation to convert said photoionizable solution, as drawn under solar power from said reservoir into said solar powered plasma generator through the plurality of capillary tubes, from a liquid phase to a plasma phase;a solar powered ionization chamber in fluid communication with said plasma generator, said ionization chamber being adapted to ionize said plasma phase of said solution, as conveyed from said solar powered plasma generator into said solar powered ionization chamber;a plurality of lenses configured and adapted to focus light onto the heating plate where the capillary tubes terminate at the heating plate; an electrode baffle in fluid communication with said ionization chamber, said electrode baffle being adapted to conduct electrical energy from the ionized plasma phase of said solution, as conveyed from said solar powered ionization chamber into said electrode baffle, through a plurality of electrodes, said conduction causing said plasma phase of said solution to reconvert to a liquid phase; andwherein: said reservoir is in fluid communication with said electrode baffle such that said reservoir, said plasma generator, said ionization chamber and said electrode baffle form a closed fluid loop in order from said reservoir to said plasma generator to said ionization chamber to said electrode baffle and back to said reservoir; andelectrical charge imparted by solar radiation to said photoionizable solution is captured as electrical energy as said photoionizable solution is circulated through said closed loop. 9. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 8, wherein said photoionizable solution comprises a combustible hydrocarbon. 10. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 9, wherein said combustible hydrocarbon is halogenated. 11. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 8, wherein said photoionizable solution comprises a spiro-benzopyran. 12. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 8, wherein said fluid communication between said reservoir and said solar powered plasma generator is provided by a capillary tube. 13. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 12, wherein said fluid communication between said reservoir and said solar powered plasma generator is provided by a plurality of capillary tubes. 14. The photovoltaic cell for the production from solar radiation of electrical energy as recited in claim 12, wherein said solar powered plasma generator comprises a lens adapted to focus incident solar radiation onto a portion of said solar powered plasma generator.
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이 특허에 인용된 특허 (4)
Taylor Edward O. (Sandy UT) Taylor Carole A. (Sandy UT), Apparatus and method for reducing pollutants in effluent gas flow utilizing an ionizing and resonance means.
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