RU2006128067A - METHOD FOR OPERATING ATOMIC STEAM TURBINE POWER INSTALLATION AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Claims (3)

1. A method of operating an atomic steam turbine power plant, in which in the reactor plant (RU), due to the heat of nuclear fuel, the feed water compressed by the pump is converted into a carrier of thermal energy - water vapor, which is compressed to a higher pressure in at least one, for example , a multi-stage compressor, mainly with intermediate cooling of its stages by the feed water of the installation, which is rotated, for example, by driving an electric generator by a gas turbine installation (GTU), a combustion chamber the swarm runs on fossil fuels, then the steam is heated to coupled parameters in at least one superheater, to the heating side of which is fed, mainly gaseous or liquid fossil fuels, as well as an oxidizing agent in the form, for example, of atmospheric air, and Further, water vapor superheated in the superheater is sent to the corresponding working cylinders, i.e., to the high pressure cylinder (CVP), the medium pressure cylinder (CSD) and, for example, to the low pressure cylinder ( ND) of at least one rotary main electric generator of the steam turbine of the installation, including feed water heaters, in which the water obtained in the condenser of the steam turbine part (PTC) of the installation is heated before being fed to the heated sides of the steam generators of RU, characterized in that water vapor in superheaters heated by fossil fuels installed in front of the CVP, in front of the DSP, and also, for example, in front of the low-pressure cylinder of a steam turbine, in addition, not less than, for example, by ~ 25% of the total heat output steam superheaters are heated by additional supply to the heating sides of the superheaters of exhaust gases from a gas turbine unit rotating a compressor and an electric generator, as well as by supplying exhaust gases from at least one additional gas turbine power unit rotating an additional electric generator, and the combustion chamber of which runs on an organic (or hydrocarbon) fuel, while from the heating sides of mainly all organic superheaters, the exhaust gas is sent to gr side guides substantially all feedwater heaters, from which the gas is fed, if necessary to the heating side, at least one heat exchanger thermal energy consumers in the form of, for example, hot water or steam, and then the gas is discharged into the atmosphere. 2. The method according to claim 1, characterized in that during periods of shutdown (for example, during scheduled fuel overload) of the nuclear reactor and / or shutdown of the steam turbine part of the installation or during periods of emergency blackout of circulation pumps of the 1st circuit of the nuclear power plant, electrical and, if necessary, thermal energy produced due to the operation of mainly all gas turbine power plants. 3. Nuclear steam-turbine power plant, including a reactor (RU), generating a carrier of thermal energy - water vapor (working medium of the PTC installation), as well as a steam-turbine installation containing the heated side of the steam generator of the RU, connected by pipelines to the steam and feed water, steam output from which it is connected through shut-off devices simultaneously with the steam inlet to a multi-stage cooled, mainly feed water, compressor driven, for example, by a gas turbine power installation, the combustion chamber of which is made with the possibility of heating with gaseous or liquid organic fuel, and is also connected to the steam inlet to the medium pressure working cylinder (CSD) of at least one steam turbine that drives an electric generator, and, in addition, is also connected with steam entering the heated side of the superheater, which in turn is connected to the steam turbine central cylinder, while the output of compressed water from the compressor is connected to the steam inlet into the high pressure cylinder (CVC) of the steam turbine the heated side of the superheater, in addition, the steam outlet from the central cylinder of the steam turbine is connected to the steam inlet to the low-pressure cylinder of the steam turbine, for example, through the heated side of the third superheater, while the heating sides of all superheaters of the power plant are connected through shut-off and control devices to sources of gaseous or liquid organic fuel , as well as, for example, through gas blowers with atmospheric air for burning fuel, characterized in that at least one is introduced into the power plant an additional gas turbine unit rotating an additional electric generator, and the combustion chamber of which is configured to be heated with gaseous or liquid organic fuel, while the heating sides of mainly all superheaters are also connected to the exhaust gas pipelines from all gas turbine installations, and the exhaust gas exits from the heating sides of mainly all steam superheaters are connected to the gas inlet to the heating sides of mainly all feed water heaters, Exit gas of which are connected, for example, with a heating side of the heat exchanger the heat energy consumer connected after which, finally, to the atmosphere.