Method and apparatus for generating electricity using a thermal power plant

The invention claimed is: 1. A method for the generation of electricity by means of a thermal power plant and a liquid vaporization apparatus, the method comprising the steps of: a) producing thermal energy thereby creating hot gases, using at least a first portion of the hot gases to vaporize water or to heat water vapor, and then expanding the resulting water vapor stream in a first turbine, which thereby produces electricity via an electricity generator driven by the first turbine, wherein the thermal energy is produced by combustion of a fuel; b) vaporizing a cryogenic liquid sourced from a cryogenic storage facility to produce a pressurized gas; c) heating the pressurized gas to form a heated pressurized fluid, wherein the pressurized gas is heated using heat from a source selected from the group consisting of the hot gases, a second portion of the hot gases, a proportion of the water vapor to be delivered to the first turbine of the thermal power plant, and a proportion of the heat of the water vapor to be delivered to the first turbine of the thermal power plant; d) expanding the heated pressurized fluid in a second turbine for the production of electricity; wherein the source used to heat the pressurized gas is the second portion of the hot gases, wherein the flow rate of the second portion of the hot gases is no more than 30% of the sum of the first portion and the second portion of the hot gases. 2. The method as claimed in claim 1 , wherein the first and second turbines in combination produce more electricity than would have been produced by the first turbine alone, using all the heat energy of the hot gases to heat the water or water vapor to be delivered to the first turbine. 3. The method as claimed in claim 1 , wherein the only gas which expands in the second turbine is the heated pressurized fluid. 4. The method as claimed in claim 1 , wherein the cryogenic liquid is selected from liquefied air, liquefied atmospheric gases, and combinations thereof. 5. A method for the generation of electricity by means of a thermal power plant and a liquid vaporization apparatus, the method comprising the steps of: a) producing thermal energy thereby creating hot gases, using at least a first portion of the hot gases to vaporize water or to heat water vapor, and then expanding the resulting water vapor stream in a first turbine, which thereby produces electricity via an electricity generator driven by the first turbine, wherein the thermal energy is produced by combustion of a fuel; b) vaporizing a cryogenic liquid sourced from a cryogenic storage facility to produce a pressurized gas; c) heating the pressurized gas to form a heated pressurized fluid, wherein the pressurized gas is heated using heat from a source selected from the group consisting of the hot gases, a second portion of the hot gases, a proportion of the water vapor to be delivered to the first turbine of the thermal power plant, and a proportion of the heat of the water vapor to be delivered to the first turbine of the thermal power plant; and d) expanding the heated pressurized fluid in a second turbine for the production of electricity, wherein the hot gases heat the pressurized gas prior to heating the water or water vapor in step a). 6. A method for the generation of electricity and the storage of energy, wherein: i) during a first period operation, the method is as claimed in claim 1 ; and ii) during a second period, the method comprises a) producing thermal energy by means of the power plant and the thermal energy is used to generate electricity, b) using electrical and/or mechanical energy generated by the power plant to produce the cryogenic liquid, and c) storing the cryogenic liquid in the cryogenic storage facility. 7. The method as claimed in claim 6 , wherein the second period corresponds to a period of lower electricity demand and/or a period in which the electricity prices are lower than in the first period. 8. The method as claimed in claim 6 , wherein, during the second period, the first turbine generates electricity, which is used to produce the liquefied gas. 9. The method as claimed in claim 6 , wherein, during the first period, no liquefied gas is produced or added to the storage facility. 10. The method as claimed in claim 6 , wherein, during the second period, the liquefied gas sourced from the cryogenic storage facility is not vaporized. 11. The method as claimed in claim 6 , wherein, during the second period, the pressurized fluid is not expanded in the second turbine. 12. An integrated electricity generating apparatus, comprising: a thermal power plant having a steam turbine that is configured to drive a first electrical generator; a liquefaction unit in electrical communication with the first electrical generator, such that the liquefaction unit can receive electricity from the first electrical generator; a cryogenic liquid storage facility in fluid communication with the liquefaction unit; a vaporization unit in fluid communication with the cryogenic liquid storage facility; a heat exchanger configured to heat a cryogenic liquid sourced from the cryogenic liquid storage facility against hot gases sourced from the thermal power plant; and a second turbine configured to receive a vaporized fluid from a means for preheating the cryogenic liquid, wherein the second turbine is configured to drive a second electrical generator. 13. The apparatus as claimed in claim 12 , further comprising means for the transmission of the water vapor, originating from the thermal power plant, to the preheating means.