Method and device for generating electrical energy

The invention claimed is: 1. A method for generating electrical energy in a system comprising a power plant, a cold air storage system and an air compression system, wherein the air compression system includes a primary air compressor for generating a primary compressed air flow at a first pressure level, the power plant includes a combustion unit for generating a combustion gas for use in generating electrical energy, and the cold air storage system includes a means for generating cold air from the primary compressed air flow, a means for storing the cold air produced by the means for generating cold air and a means for generating a third compressed air flow at a second pressure level using the cold air from the means for storing the cold air, wherein the second pressure level is higher than the first pressure level, the method comprising, operating in a first operating mode, comprising providing the primary compressed air flow as a first compressed air flow from the air compression system to the cold air storage system and charging the means for storing the cold air, operating in a second operating mode, comprising discharging the cold air from the means for storing the cold air to the means for generating the third compressed air flow; generating the third compressed air flow in the means for generating the third compressed air flow; and providing the third compressed air flow to the combustion unit, and operating in a third operating mode, comprising providing all of the primary compressed air flow as a second compressed air flow to the combustion unit, the method further comprising operating the combustion unit at the second pressure level; when operating in the third operating mode, boosting all of the second compressed air flow to the second compressed air pressure level using a first booster included in the air compression system prior to the second compression air flow being provided to the combustion unit; and when operating in the second operating mode, providing a portion of the primary compressed air flow as the first compressed air flow to the cold air storage system for discharging to the means for generating the third compressed air flow and generating the third compressed air flow for use in the combustion unit; wherein the means for generating the third compressed air flow in the cold air storage system includes a cold compressor. 2. The method as claimed in claim 1 , wherein in the second operating mode the first compressed air flow is only a first portion of the primary compressed air flow. 3. The method as claimed in claim 2 , wherein, in the second operating mode a second portion of the primary compressed air flow is provided directly to the combustion unit. 4. The method as claimed in claim 1 , further comprising expanding the combustion gas from the combustion unit in a combustion turbine to produce work and coupling the combustion turbine to a generator for generating electrical energy. 5. The method as claimed in claim 1 , wherein the means for generating cold air comprises an air turbine mechanically coupled to a second booster and wherein when operating in the first operating mode, a first partial flow of the first compressed air flow is expanded in the air turbine to produce work, and a second partial flow of the first compressed air flow is boosted in the second booster. 6. The method as claimed in claim 1 , wherein the means for storing the cold air includes a liquid air tank for cryogenic liquid air, and wherein when operating in the first operating mode, the first compressed air flow is liquefied in the means for generating cold air and is provided to the liquid air tank, and when operating in the second operating mode, the cryogenic liquid air is taken from the liquid air tank and, evaporated at above-atmospheric pressure in the means for generating the third compressed air flow. 7. The method as claimed in claim 6 , wherein the means for generating the third compressed air flow includes an air turbine, and wherein in the second operating mode, at least part of the evaporated liquid air is expanded from a fourth pressure level to the second pressure level to produce work, and wherein the air turbine is coupled mechanically to an electric generator or to the cold compressor for increasing the pressure of the third compressed air flow. 8. The method as claimed in claim 1 , wherein when operating in the first operating mode, the first compressed air flow is cooled down and provided to the means for storing the cold air, and when operating in the second operating mode, the first compressed air flow is removed from the means for storing the cold air and heated. 9. The method as claimed in claim 1 , wherein the cold air storage system includes a regenerator, the method further comprising when operating in the first operating mode and in the second operating mode, passing at least part of the first compressed air flow through the regenerator. 10. A device for generating electrical energy comprising: a power plant, a cold air storage system and an air compression system, wherein the air compression system includes a primary air compressor for generating a primary compressed air flow at a first pressure level, the power plant includes a combustion unit for generating a combustion gas, and means for generating electrical energy from the combustion gas, the cold air storage system includes a means for generating cold air from the primary compressed air flow, a means for storing the cold air produced by the means for generating cold air and a means for generating a third compressed air flow at a second pressure level using cold air from the means for storing the cold air, wherein the second pressure level is higher than the first pressure level, and wherein the device includes a control means, that directs the device to operate in a first operating mode, wherein the primary compressed air flow is provided as a first compressed air flow from the air compression system to the cold air storage system to charge the means for storing the cold air, in a second operating mode, wherein the means for storing the cold air is discharged to the means for generating the third compressed air flow, and the third compressed air flow is provided to the combustion unit, and in a third operating mode, wherein all of the primary compressed air flow is provided as a second compressed air flow to the combustion unit; the device further comprising a first booster included in the air compression system for boosting the second compressed air flow to the second pressure level; wherein the control means further directs the device to operate the combustion unit at the second pressure level, in the third operating mode such that all of the second compressed air flow is boosted by the first booster prior to being provided to the combustion unit, in the second operating mode such that the first compressed air flow is comprised of a portion of the primary compressed air flow, and wherein the means for generating the third compressed air flow includes a cold compressor.