초록 ▼

A generating facility is provided for generating electricity from both solar and non-solar energy sources. The solar generating portion of the facility includes capability to directly generate electricity from solar insolation, or to store the solar energy in a tangible medium, including stored heat

A generating facility is provided for generating electricity from both solar and non-solar energy sources. The solar generating portion of the facility includes capability to directly generate electricity from solar insolation, or to store the solar energy in a tangible medium, including stored heat, or solar generating fuel. The generating facility is configured to generate electricity simultaneously from both solar and non-solar sources, as well a solely from immediate solar insolation and from solar energy stored in a tangible medium. Additionally, the solar generating capacity may be segregated; such that separate spectra of solar insolation are used to capture heat for steam turbine based electrical generation, capture light energy for photovoltaic based electrical generation, and to grow biomass to generate a solar fuel.

대표청구항 ▼

I claim: 1. A method of generating electricity, comprising: providing a solar facility having at least one apparatus therein for generating electricity from solar insolation and at least one apparatus therein for generating a solar fuel therewith; providing a non-solar fuel based generating facilit

I claim: 1. A method of generating electricity, comprising: providing a solar facility having at least one apparatus therein for generating electricity from solar insolation and at least one apparatus therein for generating a solar fuel therewith; providing a non-solar fuel based generating facility adjacent to said solar fuel facility and including therewith at least one gas turbine engine-generator set configured to generate electricity; producing, with said solar facility, electricity while releasing it to the power grid and solar fuel; and powering said non-solar based generating facility, at least in part, with said solar fuel, thereby generating electricity, and releasing the electricity generated thereby to the grid. 2. The method of claim 1, wherein the non-solar generating facility includes at least one gas turbine coupled to at least one generator for producing electricity therein. 3. The method of claim 2, wherein said solar fuel is oxygen or hydrogen. 4. The method of claim 2, further including the steps of: providing argon mixing the argon with a fuel and an oxidizer; and flowing the mixture of argon, fuel and oxidizer to the non-solar facility and combusting the fuel within a gas turbine engine in the gas turbine facility. 5. The method of claim 2, further including the steps of providing as a portion of the solar apparatus a solar field for converting solar insolation into heat energy in a heat transfer media; transferring at least a portion of the heat energy in the heat transfer fluid (HTF) into water to heat the water to steam; providing at least one steam turbine coupled to at least one generator, passing the so generated steam through the steam turbine and converting the heat energy transferred into the steam from the HTF into an output energy of the steam turbine useful to drive a generator; generating electricity with the generator; providing a fuel cell and a supply of water thereto; and directing at least a portion of the electricity generated by the generator to the fuel cell, and driving the fuel cell to produce hydrogen and oxygen from the water in the fuel cell. 6. The method of claim 5, wherein at least one of the hydrogen or oxygen is stored for use in the gas turbine generating facility. 7. The method of claim 2, further including the steps of: generating a solar fuel; storing the solar fuel; and thereafter simultaneously generating electricity using both the solar fuel and a fossil fuel. 8. The method of claim 2, further including a heat recovery. 9. The method of claim 1, further including the steps of: providing a solar field and capturing energy from solar insolation in the solar field; transferring the captured energy as a solar fuel to at least one of a solar electrical generator system including a steam turbine therein or a storage; providing a fossil fuel fired generating facility operatively coupled to, and selectively powered by, fossil fuel or solar energy provided from the storage; and producing electrical energy from incident solar insolation by transferring such energy to the solar electrical generating system and simultaneously generating electrical energy in the fossil fuel fired generating facility from solar energy in the storage. 10. An apparatus for producing electricity, comprising: a solar facility having a solar generator for generating and storing solar energy in the form of fuel; a combustion based generating facility, coupled to said solar fuel generator, to use energy from said solar energy in the form of fuel to produce electricity therewith, said combustion based generating facility, at times, producing electricity solely from said solar energy in the form of fuel and transmitting said electricity over the grid. 11. An apparatus for producing electricity, comprising: a solar facility having a solar generator for storing solar energy in tangible form; a combustion based generating facility, coupled to said solar fuel generator, to use energy from said solar energy stored in tangible form to produce electricity therewith, said combustion based generating facility, at times, producing electricity solely from said solar energy stored in tangible form and transmitting said electricity over the grid wherein said solar generator includes: a solar field for capturing heat energy from solar insolation; a steam turbine operatively coupled to the solar field and configured to generate electricity from heat energy captured from the solar field; a fuel cell coupled to a source of water and to the electrical output of said solar generator, said fuel cell drivable to generate oxygen and hydrogen from water; and a storage for storing at least one of said hydrogen or oxygen for use in said combustion based generating facility, the tangible form including the hydrogen. 12. An apparatus for producing electricity, comprising: a solar facility having: a solar generator for storing solar energy as hydrogen; a combustion based generating facility, coupled to said solar generator, to use energy from said hydrogen to produce electricity therewith; a solar field for capturing heat energy from solar insolation; a steam turbine operatively coupled to the solar field and configured to generate electricity from heat energy from the solar field; a fuel cell coupled to a source of water and to an electrical output of said solar generator, said fuel cell drivable to generate oxygen and hydrogen from water; a storage for storing at least one of said hydrogen or oxygen for use in said combustion based generating facility; and a controller coupled to said solar generator and said combustion based generating facility, wherein said controller selectively controls the solar generator to deliver electricity from the steam turbine to an electrical distribution grid or the fuel cell to create hydrogen and oxygen; and said controller also being configured to pass hydrogen stored from prior operation of the solar generator to fuel to said combustion based generating facility and thereby generate and supply electricity to the grid while simultaneously causing the solar generating facility to generate electricity directly from incident solar energy captured in the solar field and directed to the steam turbine in the solar generating facility. 13. The apparatus of claim 12, wherein said solar generator includes: at least one bio-reactor capable of growing a biomass therewith. 14. The apparatus of claim 13, wherein said solar generator includes: at least a second bio-reactor capable of growing a biomass therewith other than the biomass growable in the at least one bio-reactor. 15. The apparatus of claim 13, further including a refinery for refining a fuel from said biomass for combustion in said combustion based generating facility; a storage for storing said fuel; a gas turbine provided in said combustion based generating facility and coupled to an electrical generator; a carrier gas source coupled to said gas turbine, said gas turbine including an exhaust therewith; a heat recovery heat exchanger coupled to said exhaust and configured to recover heat therefrom, said heat transferred therefrom for use in generating electricity in a steam turbine-generator, said exhaust passing through the heat exchanger to an exhaust; an extractor coupled to said exhaust for recovery of at least one product of combustion from said gas turbine; a steam turbine operatively coupled to the solar field and configured to generate electricity from heat energy captured from the solar field; a fuel cell coupled to a source of water and to the electrical output of said solar generator, said fuel cell drivable to generate oxygen and hydrogen from water; and a storage for storing at least one of said hydrogen or oxygen for use in said combustion based generating facility. 16. A method of generating electricity, comprising: providing solar facilities having at least one apparatus for generating electricity from solar insolation and at least one apparatus for generating a solar fuel therewith; providing a non-solar fuel based generating facility and including therewith at least one electricity generating mechanism; producing, with said solar facility, both electricity for release to a power grid and solar fuel; and powering the non-solar based generating facility, at least in part, with said solar fuel simultaneously with non-solar fuel to generate electricity and release it to the power grid during at least one of periods of peak electricity demand and non-peak electricity demand, and powering the non-solar generating facility solely with non-solar fuel to generate electricity and release it to the power grid during the other of the period of peak electricity demand or non-peak electricity demand. 17. The method of claim 16, wherein the electrical generating mechanism is a gas turbine. 18. The method of claim 16, wherein the solar fuel is hydrogen. 19. The method of claim 17, wherein the hydrogen is generated from a fuel cell. 20. The method of claim 17, further including the steps of providing argon mixing the argon with a fuel and an oxidizer; and flowing the mixture of argon, fuel and oxidizer to the non-solar facility and combusting the fuel within the gas turbine engine in the gas turbine facility. 21. The method of claim 20, wherein the exhaust of the gas turbine, at least in part, is separated into multiple components, and the argon in the exhaust is recycled. 22. The method of claim 16, wherein the solar fuel is used solely during periods of peak electrical demand. 23. A method of generating electricity, comprising: providing a fixed land-based solar facility with a capacity of at least 100 MW having an apparatus therein configured to generate electricity from solar insolation and an apparatus therein configured to generate a solar fuel; providing a generating facility configured to generate electricity from fuel; at first times, converting the solar energy received by the solar facility to electricity while releasing the electricity to the power distribution grid; at second times, converting a first part of the solar energy received by the solar facility to second electricity while releasing the electricity to the power distribution grid and simultaneously converting a remainder of the solar energy received by the solar facility to solar-derived fuel and storing it; and at third times, converting the solar energy received by the solar facility and solar-derived fuel to electricity, using the solar facility and the generating facility, while simultaneously releasing the electricity to the power distribution grid. 24. The method of claim 23, wherein the solar-derived fuel includes hydrogen. 25. The method of claim 23, further comprising at fourth times converting the solar energy received by the solar facility, solar-derived fuel, and a fossil fuel to electricity, using the solar facility and the generating facility, while simultaneously releasing the electricity to the power distribution grid. 26. The method of claim 23, further comprising, wherein the converting the remainder of the solar energy to solar-derived fuel includes storing oxygen and the converting the solar-derived fuel includes burning a mixture of hydrogen and argon using the oxygen resulting from the storing oxidizer, producing oxygen as a product. 27. The method of claim 23, further comprising, at fourth times converting the solar energy received by the solar facility, solar-derived fuel, and a natural gas to electricity, using the solar facility and the generating facility, while simultaneously releasing the electricity to the power distribution grid, the converting including automatically selecting and mixing selected ratios of natural gas and hydrogen using a mixing valve. 28. An apparatus for producing electricity, comprising: a solar fuel generator configured to generate hydrogen and oxygen and store the same; a combustion based-generating facility, coupled to the solar fuel generator, configured to convert at least the hydrogen into electricity; a solar field for capturing heat energy from solar insolation; a solar thermal facility configured to generate electricity from the heat energy; a controller, coupled to the solar fuel generator and the combustion based generating facility, configured selectively to control the solar thermal facility to deliver electricity to an electrical distribution grid or to control the solar fuel generator to generate hydrogen and oxygen; and the controller also being configured to pass hydrogen stored from prior operation of the solar fuel generator to the combustion based generating facility to generate electricity and supply it to the electrical supply grid while simultaneously using the solar thermal facility to generate electricity using thermal energy from the solar field and conveying the electricity to the electrical supply grid. 29. The apparatus of claim 28, wherein said solar generator includes: at least one bio-reactor capable of growing a biomass therewith. 30. The apparatus of claim 29, wherein said solar generator includes: at least a second bio-reactor capable of growing a biomass therewith other than the biomass capable of growing in the at least one bio-reactor.