SU1163681A1 - Steam-gas installation - Google Patents

Abstract

A steam gas plant containing a steam saturated steam turbine connected to a steam generator with feed and water heaters and connected to a compressor through a heating chamber. A gas turbine whose exhaust line is connected to a series-connected gas intermediate steam superheater and feedwater heater of a steam turbine that differs from that, with the aim of increasing maneuverability, the installation is equipped with a system for producing and storing hydrogen and oxygen connected to the heating chamber, and the latter dinena.s steam turbine and at least one feedwater heater, wherein a gas feed water heater is connected to the compressor.

Description

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The invention relates to nuclear power engineering and can be used in nuclear power plants (NPPs),

The aim of the invention is to increase the maneuverability of the installation.

The drawing shows a diagram of the combined-cycle plant.

The installation contains a steam turbine 1 with a steam generator connected to a steam generator (not shown), between the cylinders of which a separator 2 and a steam intermediate superheater 3 are installed. Parallel to the latter, a gas intermediate superheater 4 is connected, connected to the exhaust gas path of the gas turbine 5. A gas turbine 5. part of the installation also includes a compressor 6, a heating chamber 7 and a gas heater 8 for the feed water of the steam turbine 1 included in the exhaust path of the gas turbine 5 sequentially for superheater 4 and connected to the inlet of the compressor 6, i.e. the gas part of the installation is closed. Gas heater 8 is turned on with feed water parallel to the regenerative heater 9 of the steam turbine j 1 (the remaining regenerative heaters are not shown in the drawing). The plant is equipped with a system 10 for producing and storing hydrogen and oxygen with tanks 11 and 12 for hydrogen and oxygen, which is connected to the heating chamber 7, which is in turn connected to a steam turbine 1.

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The installation works as follows. During periods of minimum electrical load, electricity generated by a steam generator

turbines 1 are used in system 10 for electrolysis of water. The resulting oxygen and hydrogen are sent to tanks 11 and 12. During periods of peak electrical loads, hydrogen and oxygen

fed to the heating chamber 7, in which the heat from the combustion of hydrogen is supplied to the working fluid of the gas turbine 5. The water vapor produced by the combustion of hydrogen in oxygen

served from the tail end of the heating chamber 7 to the steam turbine 1 or to at least one feedwater heater, which increases the power of the steam turbine 1. The spent working fluid of the gas turbine 5 is fed to the gas superheater 4 and then to the feedwater heater 8. Steam intermediate superheater 3 and the regenerative heater 9 at this time partially or completely off. The steam released as a result of this is also fed to the turbine 1 to generate peak power.

Thus, the use of the invention will make it possible to increase the adjustment range of a nuclear power plant, since its power is expended during the hours of minimum load to produce hydrogen and oxygen. The operation of the gas turbine does not require the supply of fossil fuels.

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Claims (1)

(5 ^) combined cycle plant comprising a saturated steam turbine connected to a steam generator with feed water heaters and a gas turbine connected to the compressor through a heating chamber, the exhaust path of which is connected to a gas intermediate steam superheater and steam turbine feed water heater connected in series, characterized in that In order to increase maneuverability, the installation is equipped with a system for the production and storage of hydrogen and oxygen connected to the heating chamber, and the latter is connected with a steam turbine and at least one feedwater heater, the gas feedwater heater being connected to a compressor.