Gas turbine comprising thermal energy store, method for operating same, and method for modifying same

The invention claimed is: 1. An energy generation plant, comprising: a gas turbine comprising an exhaust gas apparatus, a generator, a thermal energy store, wherein the generator is adapted to be driven by the gas turbine, wherein hot exhaust gas from the gas turbine is adapted to be passed directly to the thermal energy store via the exhaust gas apparatus, a power generating apparatus for using thermal energy from the thermal energy store to generate power, and a circuit configured to receive air from the thermal energy store that has been cooled in the power generating apparatus into cold air, to deliver the cold air to the thermal energy store, to heat the cold air into heated air in the thermal energy store, and to return the heated air to the power generating apparatus. 2. The plant as claimed in claim 1 , wherein the plant does not use any power from renewable energies, from wind, from hydro energy, from solar energy, to heat the thermal energy store. 3. The plant as claimed in claim 1 , wherein the plant is adapted to use power from wind and/or hydro energy and/or solar energy to heat the thermal energy store, in particular by means of an electrical heater. 4. The plant as claimed in claim 1 , wherein the plant does not use solar energy to heat air or other working fluids. 5. The plant as claimed in claim 1 , wherein the plant is adapted to use superfluous power from an external power supply system to heat the thermal energy store, in particular by means of an electrical heater. 6. The plant as claimed in claim 1 , further comprising: in addition to the gas turbine, a steam turbine which is adapted to also drive the generator, wherein the thermal energy store is adapted to be used to operate the steam turbine. 7. The plant as claimed in claim 1 , further comprising: a heat recovery system, into which the hot exhaust gas from the gas turbine or steam from a steam turbine can pass. 8. The plant as claimed in claim 1 , further comprising: a bypass between the exhaust gas apparatus of the gas turbine and the thermal energy store, which bypass makes it possible to selectively guide the hot exhaust gas from the gas turbine into the thermal energy store and/or into a heat recovery system. 9. The plant as claimed in claim 1 , wherein the thermal energy store comprises a modular structure in order to heat the thermal energy store differently in individual modules. 10. The plant as claimed in claim 1 , wherein the thermal energy store is discharged via a fan in the circuit which supplies the cold air to the thermal energy store via a supply line of the circuit in such a manner that hot air is pushed from the thermal energy store, wherein the hot air leaving the thermal energy store is selectively mixable with a controllable mass flow of the cold air which is supplied via the fan through a bypass line, wherein the bypass line is connected to the circuit downstream of the fan with respect to a direction of travel of the cold air in the circuit, and wherein the bypass line bypasses the thermal energy store and joins with the circuit downstream of the thermal energy store with respect to a direction of flow of the heated air in the circuit. 11. The plant as claimed in claim 1 , which comprises a single generator for the gas turbine and a steam turbine in the form of a single-shaft plant. 12. The plant as claimed in claim 7 , wherein solar energy is not used to heat air or compress air, not for the heat recovery system, the gas turbine, nor the thermal energy store. 13. The plant as claimed in claim 1 , wherein the hot exhaust gas from the gas turbine is adapted to be passed directly through the thermal energy store in a first direction, and wherein the circuit is configured to heat the cold air into the heated air by passing the cold air through the thermal energy store in a second direction that is different than the first direction. 14. A method for operating an energy generation plant, at least comprising a gas turbine comprising an exhaust gas apparatus, a generator, and a thermal energy store, the method comprising: driving the generator by the gas turbine, guiding hot exhaust gas from the gas turbine via the exhaust gas apparatus directly into the thermal energy store, using only the hot exhaust gas from the gas turbine to heat the thermal energy store, using thermal energy from the thermal energy store at least to generate power via a power generating apparatus, and receiving air from the thermal energy store that has been cooled in the power generating apparatus into cold air, delivering the cold air to the thermal energy store, heating the cold air into heated air in the thermal energy store, and returning the heated air to the power generating apparatus. 15. The method as claimed in claim 14 , wherein the plant is a combined-cycle plant with a steam turbine and the thermal energy store, and wherein the thermal energy from the thermal energy store is used to operate the steam turbine. 16. The method as claimed in claim 14 , wherein the hot exhaust gas from the gas turbine is selectively redirected into the thermal energy store or into a heat recovery system by means of a bypass. 17. The method as claimed in claim 14 , wherein the thermal energy store is discharged using a fan which pushes hot air from the thermal energy store, wherein the hot air leaving the thermal energy store can be mixed with a controllable mass flow of cold air. 18. The method as claimed in claim 15 , wherein electricity from solar, hydro and/or wind energy is used to additionally heat up the thermal energy store by means of an electrical heater. 19. The method as claimed in claim 15 , wherein the gas turbine is operated in an open cycle. 20. The method as claimed in claim 15 , wherein the gas turbine is operated in combined-cycle operation. 21. The method as claimed in claim 15 , wherein only the steam turbine in the combined-cycle plant is operated by means of the thermal energy from the thermal energy store. 22. The method as claimed in claim 16 , wherein solar energy is not used to heat air or compress air, not for the heat recovery system, the gas turbine, nor the thermal energy store. 23. A method for modifying an existing energy generation plant, the method comprising: adding a thermal energy store configured to be heated by hot exhaust gas from a gas turbine of the existing energy generation plant; and adding a circuit configured to receive air from the thermal energy store that has been cooled in a power generating apparatus of the existing energy generation plant into cold air, to deliver the cold air to the thermal energy store, to heat the cold air into heated air in the thermal energy store, and to return the heated air to the power generating apparatus.