SU1712651A1 - Geothermal power plant - Google Patents

Abstract

The invention relates to the power industry, in particular to geothermal power plants, and reduces the pollution of the atmosphere during operation of the latter. A geothermal installation containing a geothermal well connected to a degasser 2, connected to the last turbogenerator 4 with a mixing condenser 7 connected to cooling water cooling tower 8, a combustion chamber 6 with a fuel supply pipeline and an ejector 11. connected to the combustion chamber and condenser, equipped with a mixer 14 and a gas-liquid heat exchanger 13, and the gas supply pipe 5 of the combustion chamber is connected to a degasser 2, which allows removal of sulfur compounds from the geothermal heat carrier gases ate 1 il. Water from g / zodirniCSpoc gakhoy OSB

Description

The invention relates to energy, in particular to geothermal power plants.

The aim of the invention is to reduce atmospheric pollution.

The drawing shows a diagram of the 'proposed, power plants.

A geothermal power plant contains a geothermal well 1 connected to a degasser 2, made in the form of a steam degasser with a water supply pipe 3, and a combustion chamber 6 connected to the last steam turbine generator 4 and a gas 5. The turbogenerator is equipped with a mixing capacitor 7 connected to the cooling tower. 8 by a chilled water pipe 9 and a condensate pipe 10. The power plant is also equipped with an ejector 11 with a pressure pipe 12 connected to the last gas-liquid heat and mass exchanger 13 and a mixer 14. In this case, the ejector is connected to the combustion chamber 6 by the working gas and to the condenser 7 through the injected gas, and the chilled water pipeline 9 and the pipeline 15 - to the mixer 14, and the latter is placed in the condensate pipe 10.

Power installation works as follows.

A geothermal coolant, for example a steam-water mixture, enters from a well 1 into a degasser 2, where the liquid phase boils and gas is separated from the vapor, including hydrogen sulfide. Pipeline 3 supplies the degasser with the water necessary for gas separation technologies. Part of the gas with steam is sent to the turbogenerator 4, where it does the work. The spent steam condenses in the condenser 7, mixing with water cooled in the cooling tower 8, supplied through the pipeline 9. At the same time, hydrogen sulfide dissolves in the condensate. The remainder of the gases is removed from the degasser 2 through a pipe 5 to the combustion chamber 6, into which air is simultaneously supplied. In this case, the gases are burned at a temperature not exceeding 1000 ° C and fed to the ejector 11, where non-condensable gases are injected from the condenser 7 as a working medium. When gases are burned in the combustion chamber 6, hydrogen sulfide is oxidized by the following reaction:

H2S + 3 / 2O ₂ - * H ₂ O + SO2.

As a result of the fact that the temperature in the chamber 6 is maintained no higher than 1000 ° C, the formation of sulfuric anhydride is prevented. The combustion products coming from the ejector 11 to the gas-liquid heat and mass exchanger 13 are washed with water; supplied from the pipeline 9. The reaction proceeds

H ₂ O + SO ₂ -> H ₂ SO ₃ .

Washing the combustion products with water provides for cooling and removal of sulfur oxide. The washed gases are removed, and the solution obtained by washing is fed through a pipe 15 to the mixer 14, where condensate is also supplied from the condenser 5. In the mixer 14, the reaction proceeds

2H ₂ S + H2SO33S + ЗН? О

This reaction proceeds independently of the presence of carbon dioxide and other typical components of geothermal fluids in water. Water purified from sulfur compounds is supplied from mixer 14 to cooling tower 8, where it is cooled by air.

EFFECT: invention reduces atmospheric pollution by removing sulfur compounds from gases of a geothermal coolant.

Claims (1)

Claim A geothermal power plant containing a geothermal well connected to a degasser, connected to the last turbogenerator with a mixing condenser connected to a cooling tower of a chilled water pipeline and a condensate pipe, a combustion chamber with a fuel supply pipe and an ejector with a pressure pipe connected through a working gas to the combustion chamber, and injected - to the condenser, characterized in that, in order to reduce atmospheric pollution, it is equipped with a mixer and gas-liquid heat and mass transfer com connected to the chilled water line, to the discharge nozzle and the mixer which is located in the condensate conduit, and the gas supply line of the combustion chamber is connected to the degasser.