RU96118138A - METHOD OF OPERATION OF A GAS-STEAM INSTALLATION AND A GAS-STEAM INSTALLATION - Google Patents

Claims (8)

1. The method of operation of a gas-steam installation, including the processes of compressing a gaseous working fluid, heating a compressed working fluid, expanding a heated working fluid, utilizing the residual heat of the expanded working fluid by generating steam and supplying the resulting steam to the compressed working fluid flow before heating, directly during heating or after heating, characterized in that the working process is carried out in at least two gas paths, separate or partially combined, with separate exhaust sweat Kami, wherein all the steam generated by utilizing the remaining heat or the greatest part of it is fed into one of the gas path, wherein the ratio of components is created with a high content of steam, and the steam condensation is carried tract.  2. The method of operation according to claim 1, characterized in that the steam generated in one gas path is supplied to another gas path.  3. The method of operation according to claims 1 and 2, characterized in that the process of steam condensation in the gas stream is combined with the process of generating lower pressure steam in another closed steam-power circuit.  4. The method of operation of a gas-steam installation, including the processes of compressing a gaseous working fluid, heating a compressed working fluid, expanding a heated working fluid, utilizing the residual heat of the expanded working fluid by generating steam and supplying the resulting steam to the compressed working fluid flow, at least the working process in two gas paths, separate or partially combined, with separate exhaust streams, and all steam generated by the utilization of residual heat or its greatest hour l is fed into one of the gas paths, in which a ratio of components with a high vapor content is created, and steam condensation is produced in this path, characterized in that the steam is condensed at a pressure exceeding the value necessary to overcome the hydraulic resistance of the exhaust tract, and the residual excess the pressure of the stream after condensation of the vapor is used to eject another exhaust stream.  5. Gas-steam installation, containing at least two gas paths, separate or partially combined, including compressors, heaters (combustion chambers), turbines and a residual heat recovery steam generator, characterized in that the steam generator (steam generators) located (located) in the exhaust stream (flows), communicated (communicated) on the steam outlet with one of the gas paths at the inlet to the heater, directly into the heating zone or after heating, in front of the turbine, and a condenser is placed at the outlet of this path.  6. Gas-steam installation according to claim 5, characterized in that the steam generator-utilizer, located on the exhaust of one gas path, is communicated by the output of steam with another gas path.  7. Gas-steam installation according to claims 5 and 6, characterized in that the condenser is combined with a lower-pressure steam generator included in a closed loop, also containing a steam turbine and its own vacuum condenser.  8. Gas-vapor installation according to claims 5 to 7, characterized in that the gas outlet condenser is in communication with an ejector located at the gas outlet from the steam generator of another gas path.