SU1656599A1 - Power plant - Google Patents

Abstract

The invention relates to electrical engineering and can be used in power plants. The aim of the invention is to increase the reliability and efficiency of the power plant. The power plant contains a source of thermal energy 1, a steam generator 2, a turbine 5, an electric generator 6, the windings 7 of which are cooled by liquid hydrogen coming from a cryostat system 8, which includes a liquefaction unit 9 and a thermo sorption compressor 10, which is connected through a valve 12 heat-electric-to-electrical energy converter 13 by means of a heat relief line The use of a thermal sorption compressor to circulate liquid hydrogen through the generator windings is compared th to the turbocharger increases the reliability and efficiency of the installation. 1 silt

Description

The invention relates to electrical engineering and can be used in power plants that convert thermal energy into electrical energy (thermal and nuclear power plants, thermal power plants, power plants with MHD cycles, etc.).

The purpose of the invention is to increase the reliability and efficiency of a power plant.

The drawing shows a power plant diagram.

The power plant contains a source of thermal energy 1, a steam generator 2 and a pump 3, a converter of thermal energy into electric 4, including, for example, a turbine 5, driving a generator b, having electromagnetic systems (windings) 7, the current-carrying elements of which are made of cryooh casing of the conductor and cooled with liquid hydrogen coming from the cryostat system 8, including the liquefaction unit 9 and the thermo sorption compressor 10 The high temperature heat exchanger 11 of the thermo sorption compressor united through the valve 12 with the line of heat release 13 of the converter of thermal energy into electrical energy.

The power plant works as follows.

The heat carrier heated in the heat source 1 (for example, in a sod reactor) is supplied to a steam generator 2 generating steam generating a turbine 5 and an electric generator in rotation b. The steam from turbine 5 is fed through valve 12 through the heat release line 13 to the high-temperature heat exchanger 11 of the thermo-sorption compressor 10, heating the intermetallic 14 (for example, type Ni-La, Fe-Tl, etc.), filling the working volume of the thermo-sorption

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compressor. The hydrogen entering the thermosorption compressor through the valves 15 and stored in the volume of the intermetallic compound 14. during heating evolves, the pressure rises until the exhaust valves 16 operate, releasing the hydrogen in the liquefaction unit 9. The intermetallic compound 14 is cooled to ambient temperature water circulating in a closed loop 17, including a low-temperature heat exchanger of the thermo-sorption compressor 18. After cooling the intermetallic compound 14, a new portion of hydrogen is fed through to apana 15 and the cycle is repeated. Liquid hydrogen from the liquefaction unit 9 is fed to the cooling electro

five

magnetic systems installation.

Claims (1)

Invention Formula A power plant containing a source of heat energy, a converter of heat energy into electrical energy, electromagnetic systems, the current-carrying elements of which are made of a cryocooled conductor and a cryostat system with a compressor, characterized in that, in order to increase the reliability and efficiency of the installation, the compressor is made thermosorption, and the high-temperature heat exchanger of the compressor is connected through a valve to the main line of heat transfer from the converter of thermal energy into electrical energy. .g. ll / J-}, rfi v / Yes. .g. ll ny