RU2007132777A - STEAM-GAS TURBO INSTALLATION - Google Patents

Claims (11)

1. Combined-type gas turbine unit containing an air compressor mounted on the same shaft as a steam-gas turbine, a vacuum compressor, a counterpressure steam turbine (when using a high-pressure steam generator instead of a combustion chamber as a gas-vapor mixture in the turbine unit) and an electric generator, feed water heater, the gas path of which is in communication with the exhaust of a power steam-gas turbine, and the steam-water tract at the outlet of it through connected to the device for producing a gas-vapor mixture, a mixing type condenser connected to the gas path of the feed water heater by the gas path input and a water cooler whose water path input is connected to the mixing type condenser water path and the water path output is connected to the condenser water path mixing type, characterized in that the turbine installation further comprises an exhaust cooler for the vacuum compressor and a flue gas cooler, which are communicated on ha so that the exhaust cooler of the vacuum compressor inlet gas is connected to the exhaust of the vacuum compressor, and the exhaust gas to the inlet gas pipe of the flue gas cooler, the gas path of which by the exhaust pipe is closed to the chimney, while the water path of the flue gas cooler at the inlet is connected with the output of the water path of the cooling water cooler of the mixing type condenser, and the output is connected to the input of the water path of the exhaust cooler of the vacuum compressor a, the outlet of the water path of which through the heating boiler is connected to the outlet of the water path of the mixing type condenser, and the flue gas cooler, as an element that transfers the heat flux from heated flue gases to feed water, contains heat pipes, the evaporative parts of which are located in the flue gases, and condensation parts in a heated feed water stream. 2. Combined-cycle gas turbine plant according to claim 1, characterized in that it contains a non-condensable gas path between the mixing type condenser and the absorber, a non-condensable gas dryer-freezer and a refrigeration unit, which provides the operation of a freeze-dryer and is an integral part of the combined-cycle gas turbine equipment the branch pipe of the desiccant-freezer communicates with the exhaust gas pipe of the mixing type condenser, and the outlet gas pipe closes to the inlet gas pipe absorbent. 3. A combined cycle gas turbine plant according to any one of claims 1 and 2, characterized in that it contains an absorber in the path of non-condensable gases between the dehumidifier-freezer of non-condensable gases and the inlet gas of which is connected to the exhaust gas pipe of the desiccant-freezer and the gas outlet pipe closed to a vacuum compressor. 4. Combined cycle gas turbine plant according to claim 3, characterized in that it contains a closed circuit for circulating the liquid chemical absorbent through the absorber, on which a pump, a regenerative absorbent heat exchanger, and a regenerator with an absorbent heater located inside the housing are installed in series with the absorbent after it leaves the absorber; , an absorbent cooler and a throttle valve, wherein the regenerative absorbent heat exchanger is an inlet pipe of the heating surfaces by the pipeline on which the pump is installed, communicates with the outlet pipe of the absorbent absorber, and the outlet pipe of the heating surfaces is connected to the inlet pipe of the regenerator, the outlet pipe of which for a heated liquid chemical absorbent is closed to the inlet pipe of the regenerative heat exchanger, from which the cooled absorbent is piped to the inlet to the cooling surface of the absorbent cooler, from which the cooled absorbent is directed into the pipeline with a throttle valve installed on it and discharged into the absorber. 5. Combined cycle gas turbine plant according to claim 4, characterized in that it contains a carbon dioxide cooler, which is connected to the outlet of the gas path of the regenerator by the inlet of the gas path, and connected through the water path to the outlet of the water path of the cooling water condenser of the mixing type condenser and the outlet of the water path with the input of the water path into the heated water storage tank, while the carbon dioxide cooler contains heat as an element that transfers the heat flux from the heated carbon dioxide to the feed water s tube evaporator parts are placed in a gaseous medium, a condensing portion in the heated feedwater stream. 6. Combined-cycle turbine plant according to claim 5, characterized in that it contains an “dry” ice generator with a water jacket built into its body, connected on the gas side to the exhaust pipe of the carbon dioxide cooler, on which the corresponding shut-off and control valves and butterfly valve are installed . 7. Combined cycle gas turbine plant according to claim 6, characterized in that it contains an atmospheric air cooler that operates at an elevated positive ambient temperature, connected on the gas side by the inlet of the air cooler cooling surfaces to the exhaust line of the carbon dioxide cooler with a gas pipeline, with the corresponding shut-off and control valves and butterfly valves. 8. A combined cycle gas turbine plant according to claim 7, characterized in that it contains a carbon dioxide exhaust gas pipeline equipped with appropriate shutoff and control valves, connected to the carbon dioxide gas outlet of the dry ice maker and the exhaust manifold of cooling surfaces of the atmospheric air cooler and closed to liquid chemical absorbent cooler, from which carbon dioxide is discharged into the absorber through a butterfly valve. 9. A combined cycle gas turbine plant according to claim 8, characterized in that it comprises a gas-vapor mixture cooler connected at the inlet of the gas path to the exhaust gas path of the feedwater heater and at the outlet of the gas path to the inlet of the gas path of the mixing type condenser, and in the water path connected at the inlet with the exit of the water path of the mixing water condenser cooling water cooler and the exit of the water path with the heated water storage tank, while the vapor-gas mixture cooler as an element I transmit The heat flow from the preheated vapor – gas mixture to the feed water contains heat pipes, the evaporation parts of which are placed in the vapor – gas mixture, and the condensation parts in the heated feed water stream. 10. Combined-cycle turbine plant according to claim 9, characterized in that it contains a heated water storage tank connected by a pipeline, with corresponding shut-off and control valves installed on it and a pump, with a water jacket of the “dry” ice machine, from which the cooled heated water is discharged through the pipeline to the pressure water line of the mixing type condenser, and connected by the heated water pipeline, on which the corresponding shut-off and control valves and pump are mounted, to the inlet manifold erhnostey heating feedwater preheater and preheated waste water conduit in a position corresponding shut-off control valves and a pump connected to the storage tank feedwater. 11. Combined cycle gas turbine plant according to claim 10, characterized in that the fuel elements of the device for producing a gas-vapor mixture (combustion chamber or high-pressure steam generator, depending on the embodiment of a combined-cycle gas turbine unit) are equipped with an outer casing mounted with a gap to the body of the device for producing a gas-vapor mixture mixtures, and form together with the last cavity, which at the inlet of the water path is connected to the output collector of the heating surfaces of the feed water heater, and at the exit the water path is closed to a device for producing a vapor-gas mixture, while the outer casing is located in the zone of maximum temperatures of the gas medium circulating through the device for receiving the vapor-gas mixture.