A power plant system is provided having a high temperature battery, supplied with fluid via at least one supply line, for storing and releasing electrical energy, a gas turbine for generating electrical energy, and a heat exchanger which is designed to extract thermal energy from the exhaust stream
A power plant system is provided having a high temperature battery, supplied with fluid via at least one supply line, for storing and releasing electrical energy, a gas turbine for generating electrical energy, and a heat exchanger which is designed to extract thermal energy from the exhaust stream of the gas turbine and transfer said thermal energy to the fluid, which fluid can be supplied after heat transfer to the high temperature battery via the at least one supply line.
대표청구항▼
1. A power plant system comprising: a high-temperature battery, supplied with a fluid via at least one feed line, for storing and also for delivering electric energy,a gas turbine, comprising at least one compression stage for compressing air, a combustion chamber configured to receive the air and g
1. A power plant system comprising: a high-temperature battery, supplied with a fluid via at least one feed line, for storing and also for delivering electric energy,a gas turbine, comprising at least one compression stage for compressing air, a combustion chamber configured to receive the air and generate combustion gases, and at least one turbine stage configured to receive the combustion gases and to generate an exhaust gas flow, for generating electric energy, anda heat exchanger adapted for extracting thermal energy from the exhaust gas flow of the at least one turbine stage and transferring said thermal energy to the fluid, which fluid is fed to the high-temperature battery via the at least one feed line after heat transfer has been carried out,wherein the high-temperature battery comprises a discharge line adapted for discharging the fluid from the high-temperature battery and for feeding said fluid to the exhaust gas flow of the gas turbine at a point in the exhaust gas flow downstream of the heat exchanger to form a combined exhaust flow,wherein in the heat exchanger the fluid and the exhaust gas flow are not in direct fluid communication with each other, andwherein the power plant system further comprises a steam turbine which is operated with steam, and wherein a thermal energy of the steam is extracted at least partially from the combined exhaust gas flow. 2. The power plant system as claimed in claim 1, wherein a temperature of the exhaust gas flow is at least 600° C. 3. The power plant system as claimed in claim 1, wherein the power plant system has an electric heating element adapted for increasing an energy content of the fluid in the at least one feed line via a thermal interaction therebetween before the fluid is fed to the high-temperature battery via the at least one feed line. 4. The power plant system as claimed in claim 1, wherein the fluid is subjected to a flow which is generated by a flow generator which is in fluidic functional communication with the at least one feed line. 5. The power plant system as claimed in claim 4, wherein the fluid is a gas. 6. The power plant system as claimed in claim 5, wherein the gas is air. 7. The power plant system as claimed in claim 5, wherein the flow generator is designed as a fan. 8. The power plant system as claimed in claim 1, wherein the fluid is a gas, and the high-temperature battery is a metal-air battery which requires thermally conditioned gas as process gas. 9. The power plant system as claimed in claim 8, wherein the gas is air. 10. The power plant system as claimed in claim 1, wherein the exhaust gas flow does not enter the high-temperature battery. 11. A method for operating a power plant system, the power plant system comprising: a high-temperature battery, supplied with a fluid via at least one feed line, for storing and also for delivering electric energy,a gas turbine, comprising at least one compression stage for compressing air, a combustion chamber configured to receive the air and generate combustion gases, and at least one turbine stage configured to receive the combustion gases and to generate an exhaust gas flow for generating electric energy, anda heat exchanger adapted for extracting thermal energy from the exhaust gas flow of the at least one turbine stage and transferring said thermal energy to the fluid, which fluid is fed to the high-temperature battery via the at least one feed line after heat transfer has been carried out,wherein the high-temperature battery comprises a discharge line adapted for discharging the fluid from the high-temperature battery and for feeding said fluid to the exhaust gas flow of the gas turbine at a point in the exhaust gas flow downstream of the heat exchanger to form a combined exhaust flow,wherein in the heat exchanger the fluid and the exhaust gas flow do not share a flow path,the method comprising feeding of fluid, which is thermally conditioned in the heat exchanger, via the at least one feed line to the high-temperature battery in a temperature-controlled and/or flow-controlled manner,wherein the power plant system further comprises a steam turbine which is operated with steam and wherein a thermal energy of the steam is extracted at least partially from the combined exhaust gas flow. 12. The power plant system as claimed in claim 11, wherein the exhaust gas flow does not enter the high-temperature battery. 13. A power plant system comprising: a gas turbine comprising a compression stage, a combustion chamber, a turbine stage, a heat exchanger, and a steam turbine,a first circuit in which a working fluid flows first from the compression stage, then to the combustion chamber, then to the turbine stage, then to the heat exchanger, and then to a point downstream of the heat exchanger,wherein the heat exchanger is configured to transfer thermal energy from the working fluid to a second fluid,a high-temperature battery,a feed line configured to configured to provide fluid communication between the heat exchanger and the high-temperature battery,a discharge line configured to provide fluid communication between the high-temperature battery and the point in the first circuit downstream of the heat exchanger, anda second circuit in which a second fluid flows: first through the heat exchanger where the second fluid is heated therein by a transfer of thermal energy from the working fluid to the second fluid; then to the high-temperature battery through the feed line; then through the high-temperature battery; and then to the point in the first circuit downstream of the heat exchanger through the discharge line,wherein in the heat exchanger the first circuit and the second circuit are fluidically discrete from each other so that the working fluid and the second fluid are not in direct fluid communication with each other,wherein the first circuit and the second circuit merge at the point in the first circuit downstream of the heat exchanger, thereby forming a combined exhaust gas flow,wherein the steam turbine is operated with steam, and wherein a thermal energy of the steam is extracted at least partially from the combined exhaust gas flow, andwherein the high-temperature battery and the gas turbine produce electricity. 14. The power plant system as claimed in claim 13, wherein the working fluid does not enter the high-temperature battery.
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