Optimization of cold starts in thermal power stations, in particular in steam-electric power plants or in combined cycle power plants (CCPPS)

The invention claimed is: 1. A thermal power plant, comprising an additional thermal energy storage device that is intrinsically in the thermal power plant and is adapted to supply energy during starting up of the thermal power plant, wherein the additional thermal energy storage device is a tank or a boiler adapted to be filled with a process gas of the thermal power plant during an operation of the thermal power plant; an air inlet; a crossflow heat exchanger that is in fluid communication with the air inlet, wherein the process gas of the thermal power plant is steam, wherein the additional thermal energy storage device is adapted to provide the process gas to the crossflow heat exchanger during the starting up of the thermal power plant to heat a stream of inlet air flowing through the air inlet and the crossflow heat exchanger; a waste-heat boiler, wherein the additional thermal energy storage device is adapted to provide the process gas to the waste-heat boiler during the starting up of the thermal power plant; a steam turbine, wherein the additional thermal energy storage device is coupled to the steam turbine by a control bleed, wherein the additional thermal energy storage device is adapted to provide the process gas to the steam turbine during the starting up of the thermal power plant, wherein the control bleed is adapted to bleed off the steam of the steam turbine to fill the additional thermal energy storage device during the operation of the thermal power plant, an additional electrical, chemical or mechanical energy storage device that is intrinsically in the thermal power plant and is adapted to supply energy during the starting up of the thermal power plant for feeding into an electrical energy distribution network. 2. The thermal power plant as claimed in claim 1 , wherein the additional electrical, chemical or mechanical energy storage device is a rechargeable battery. 3. The thermal power plant as claimed in claim 1 , wherein the additional thermal energy storage device that is intrinsically in the thermal power plant and the additional electrical, chemical, or mechanical energy storage device that is intrinsically in the thermal power plant are at least one of: integrated in a control and protection system of the thermal power plant, controllable by the control and protection system of the thermal power plant, operable by the control and protection system of the thermal power plant, and integrated spatially in the thermal power plant. 4. The thermal power plant as claimed in claim 1 , wherein the thermal power plant is selected from a steam turbine power plant, and a gas-and-steam combined cycle power plant. 5. The thermal power plant as claimed in claim 1 , wherein the additional thermal energy storage device is the tank, and wherein the tank comprises a pressurized tank. 6. The thermal power plant, according to claim 1 , wherein the additional thermal energy storage device is the boiler. 7. The thermal power plant as claimed in claim 6 , wherein the boiler comprises a steam, electrode or heating boiler. 8. A method for operating a thermal power plant, the thermal power plant comprising an additional thermal energy storage device that is intrinsically in the thermal power plant and is adapted to supply an additional amount of energy during a starting up of the thermal power plant, wherein the additional thermal energy storage device is a tank or a boiler adapted to be filled with a process gas of the thermal power plant during an operation of the thermal power plant; an air inlet; a crossflow heat exchanger that is in fluid communication with the air inlet, wherein the process gas of the thermal power plant is steam, wherein the additional thermal energy storage device is adapted to provide the process gas to the crossflow heat exchanger during the starting up of the thermal power plant to heat a stream of inlet air flowing through the air inlet and the crossflow heat exchanger; a waste-heat boiler, wherein the additional thermal energy storage device is adapted to provide the process gas to the waste-heat boiler during the starting up of the thermal power plant; a steam turbine, wherein the additional thermal energy storage device is coupled to the steam turbine by a control bleed, wherein the additional thermal energy storage device is adapted to provide the process gas to the steam turbine during the starting up of the thermal power plant, wherein the steam is bled off of the steam turbine via the control bleed to fill the additional thermal energy storage device during the operation of the thermal power plant, an additional electrical, chemical or mechanical energy storage device that is intrinsically in the thermal power plant and is adapted to supply energy during the starting up of the thermal power plant for feeding into an electrical energy distribution network, the method comprising: filling the additional thermal energy storage device with the process gas of the thermal power plant during the operation of the thermal power plant; providing the process gas from the additional thermal energy storage device to the crossflow heat exchanger during the starting up of the thermal power plant to heat a stream of inlet air flowing through the air inlet and the crossflow heat exchanger; providing the process gas from the additional thermal energy storage device to the waste-heat boiler during the starting up of the thermal power plant; providing the process gas from the additional thermal energy storage device to the steam turbine during the starting up of the thermal power plant, supplying the additional amount of energy during the starting up of the thermal power plant from the additional electrical, chemical or mechanical energy storage device that is intrinsically in the thermal power plant; and feeding the additional amount of energy from the additional electrical, chemical or mechanical energy storage device that is intrinsically in the thermal power plant into the electrical energy distribution network. 9. The method for operating a thermal power plant as claimed in claim 8 , wherein the starting up of the thermal power plant is a cold start or a black start. 10. The method for operating a thermal power plant as claimed in claim 8 , further comprising charging the additional electrical, chemical, or mechanical energy storage device by the additional amount of energy supplied to the electrical energy distribution network when there is a surplus of electrical energy in the electrical energy distribution network.