SU1386738A1 - Geothermal power plant - Google Patents

Abstract

The invention allows to increase the capacity of the power plant. Stages 1,2 and 3 of the contact heat exchanger are connected in series through a geothermal fluid. Separators 14 and 15 of each stage 2 and 3 are connected through pumps 16 and 17 to the entrance of the previous stage and to the next one. The condenser 6 is made multisectioned with sections 7.8 and 9 sequentially running along the condensate, each of which is connected via pumps 10 11 and 12 to the input of the corresponding stage 1.2 and 3. The geothermal fluid is mixed with the working fluid condensate that has been exhausted in the turbine 4. The working fluid is served sequentially from each stage. Due to the contact with the geothermal fluid, the working fluid evaporates and is fed to the inlet of the intermediate stage of the turbine, and the geothermal fluid with the working fluid is supplied to the separator, where they are separated, and the working fluid is fed to the corresponding heat exchanger step. 1 silt about i (L S

Description

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The invention relates to energy and can be used in the construction of geothermal power plants.

The aim of the invention is to improve the performance of a geothermal power plant,

I The drawing shows the layout of a € 1 geothermal power plant.

The power plant contains a series of stages 1, 3 connected to the geothermal and liquid stages of the heat exchanger connected to the turbine 4 with an electric generator 5 connected to the multi-section condenser 6, sections 7.8 and 9 of which are connected to the input of the corresponding stages. 1,2 and 3 heat exchangers, respectively, through pumps 1C, It and 12, the pressure regulator 13 is connected to the entrance to the second stage 2 of the heat exchanger, and liquid-liquid ones are installed at the top of the stages 2 and 3 of the heat exchanger se; n Aarators 14 and 15, pumps 16 and 17 connected to a block cutter to the entrance to previous stages 5 and 5 of the heat exchanger, respectively,

; The geothermal power installation works (|) melts as follows.

I The initial geothermal fluid in stage 1 of the heat exchanger, is mixed with condensate of the working body: the body that has been discharged in the turbine 4 supplied from section 7 of condenser 6 through pump 10 and from separator 14 pump 16. Due to contact with; with a geothermal liquid, the working fluid is evaporated and is fed to the inlet of a coater 4-. The geothermal fluid is fed to the pressure regulator 13, g; |; e; it is reduced to a value corresponding to the pressure in stage 2 of the heat exchanger, after which the liquid is transferred to stage 2 of the heat exchanger, mixed with the working condensate (0 body, which is supplied from section 8 of the condenser 6 through the pump 11 and from the separator 15 through the pump 17, Vapor

The working fluid is supplied to the intermediate stages of the turbine 4 from step 2, and the geothermal liquid containing the working fluid is fed to the separator 14, where the geothermal liquid and the working fluid are separated, and the working fluid from the separator 14 is fed to the heat exchanger 1 through the pump 16 geothermal fluid is fed to the entrance to the stage 3 of the heat exchanger, where it is mixed with the condensate of the working fluid spent in the turbine supplied from section 9 of the condenser 6 through the pump 11. The evaporation of the working substance is directed from stage 3 to the intermediate stages of the turbine 4 us, and geothermal liquid is fed to the separator 15 where the geothermal liquid separated and the working fluid through the pump 17, the latter is fed to heat exchanger 2 .stupen. The condensate from section 9 of the Condenser 6 through the pump 12 serves in stage 3 of the heat exchanger

Claims (1)

Invention Formula A geothermal power plant containing a contact heat exchanger stage connected by pipeline to a turbine with a condenser connected to a heat exchanger stage condenser line connected in series to a geothermal liquid at the outlet of the latter, a liquid-liquid separator and a pump, characterized in that with entire production | it is additionally equipped with a series-connected geothermal fluid in steps, each separator, starting with the second, is connected through a pump to the inlet of the pre yduschey stage and subsequent entry, wherein the capacitor is a multi sektsionnm with series during the condensation sections, each of which is connected through a pump to the input of the respective heat exchanger stage.