RU6415U1 - GEOTHERMAL INSTALLATION - Google Patents

Abstract

A geothermal installation comprising a separator connected to a geothermal well, made with a flushing unit and a nozzle for supplying steam to the last condensate of the working fluid for washing steam, a steam turbine with a generator connected to the separator via a steam supply pipe, and also a condenser mounted on the exhaust of the steam turbine, characterized the fact that it is equipped with an additional condensate collector, the inlet of which is connected to the drains of the flowing part of the steam turbine, and the outlet is connected to a nozzle for supplying to the flushing assembly of the condensate separator of the working fluid for washing steam.

Description

GEOTENSIONAL INSTALLATION A utility model relates to a power system, specifically to a device using the heat transfer from geothermal sources to generate electricity using a steam turbine power plant. A known method and device for generating electricity from heat of a heat of a geothermal source by separating the heat carrier into a vapor and a solid phase and supplying steam to a power plant to convert heat energy into electrical energy (see, for example, patent SJ 112 4930316 according to class F03 € 7/00 for 1990). However, most geothermal springs contain a heat carrier with an increased content of mineral salts. With a quiet heat carrier, desalting of the steam is required before it is fed to the steam turbine, which is carried out by flushing with water supplied from various sources. The known method requires significant amounts of water for the passage, which: is not always available in the geothermal power plant zone. The closest in technical essence and achievable effect is a geothermal installation containing a separator connected to a geothermal well, made with a flushing unit and a nozzle for supplying B the last Koi-probe for steam flow, coupled to the separator through a steam supply pipeline, a steam turbine with a generator, as well as a co-condenser mounted on the exhaust of a steam turbine C, see, for example, U.S. Patent 11 4I20I58, class ROSB 7/00 for 1978). The disadvantages of the described installation include washing the steam with the entire volume of the exhausted steam after it is condensed behind the steam turbine, which reduces the condensate parslets and, ke: as a result, the whole power plant is parched. Ms. Goze 1/04

The objective of the utility model is to eliminate the enumerated drawbacks and increase the eras: the rigidity of the installation while increasing its reliability.

The problem is solved thanks to the fact that in the well-known geothermal installation, which contains a separator connected to the geothermal C1, made with a pumping unit and a nozzle for supplying steam to the last condensate of the working fluid for steam / welding, the steam turbine is connected to the separator via a steam supply pipeline with a generator , as well as a condenser mounted on the exhaust of a steam turbine, according to the proposed utility model, it is equipped with an additional con, color-collecting, the input of which is connected to the drains full-time part of a steam turbiBi, and the outlet - with a pipe for feeding into the swallowing unit of a con separator, a working fluid densate for washing steam

introduction of additional condensate drain, communication of its inlet with the drainage of the flow part of the steam turbine, and the outlet with the flushing unit of the POSEO separator.; SHUT without additional energy costs by reducing the use of clean condensate to reduce the salt content of the working fluid before the latter is fed to the power plant turbine, which increases the efficiency of the installation while increasing the reliability of its elements.

The drawing schematically shows (see figure 1) installation.

The device contains a geothermal well I connected by an air defense pipe 2 to the first stage of the separator 3 and a steam pipe 4 to the second stage of the separator 5, equipped with a flushing unit 6 and a condensate supply pipe 7. The separator 5 output is connected by a steam pipe 8 with a turbine 9, the exhaust of which 10 and the flow drains the parts are connected by a pipe II with an additional condensate collector 12, the outlet of which is connected by a pipe 13 through a pump 14 to a condensate supply pipe 7. The exhaust 10 of the turbine 9 is connected to a codenser 15 connected to the cooling tower 16. The separators 3 and 5 by pipelines 17 and 18 are respectively connected to a separate collector expander 19, the output of which is communicated from the injection 20. The steam outputs of the condenser 15 and separate collector expander 19 are connected to the installation technological systems (not shown in the drawing).

The device operates as follows.

Steam-water mixture (air defense from well I passes through pipeline 2 to the separator 3 of the first stage, from where the vapor phase passes through pipeline 4 to the separator 5 of the second stage, where additional drying of the vapor phase takes place and its washing out of salts contained in the hard phase. From the second steps of the separator 5, the steam enters the steam turbine 9 and after expansion through the exhaust pipe II into the condenser 15. The condensate from the condenser 15 enters the fan cooling tower 16, where it is cooled and returned to the mixing in the condenser 15.

For steam, coddensate is used from the additional co-condensate collector 12 (condensate from the deluge of the flow part of the turbine assembly 9 and its exhaust pipe 10), which is fed to the rinsing sheet of the separator 5 by pump 14 in accordance with tr7 / sampler 13.

The separator from separators 3 and 5 enters the expander 19, from where the vapor phase is used for the technological systems of the installation (supply of eluctors, etc.), and the separator is sent to the injection well.

Claims (1)

A geothermal installation comprising a separator connected to a geothermal well, made with a flushing unit and a nozzle for supplying steam to the last condensate of the working fluid for washing steam, a steam turbine with a generator connected to the separator via a steam supply pipe, and also a condenser mounted on the exhaust of the steam turbine, characterized the fact that it is equipped with an additional condensate collector, the inlet of which is connected to the drains of the flowing part of the steam turbine, and the outlet is connected to a nozzle for supplying to the flushing assembly of the condensate separator of the working fluid for washing steam.