RU158634U1 - GEOTHERMAL INSTALLATION - Google Patents

Abstract

A geothermal installation containing a geothermal circuit, including a production well connected by pipelines, a primary and secondary separator, a turbine generator with a steam turbine, a condenser and a re-injection well, characterized in that the geothermal circuit further comprises a helamine dosing unit connected to the input to the secondary separator and the turbine inlet.

Description

The utility model relates to the field of power engineering and can be used to generate electricity based on geothermal sources.

Known geothermal installations containing a geothermal circuit, including a production well connected by pipelines, a separator, a turbine, a condenser and a steam ejector (see, for example, US patent No. 4429535 under CL F03G 7/00 for 1984).

The disadvantages of the known installations include low profitability due to the non-use of the geothermal coolant separatethe electricity generation.

The closest to the proposed technical solution in terms of technical nature and the effect achieved is a geothermal installation containing a geothermal circuit, including a productive well connected by pipelines, high and low pressure separators, a turbogenerator with a steam turbine, a condenser and a re-injection well (see, for example, RF patent No. 2121074 according to FO3G 7/00 for 1998).

The disadvantages of the described installation include the low efficiency of the GeoPP, the low service life of the installation, due to short overhauls caused by forced shutdowns and equipment shutdowns due to metal damage and scaling in the flow part of the turbine unit and heat exchange equipment from the action of the geothermal coolant.

The objective of the utility model is to eliminate these shortcomings and increase the efficiency of the GeoPP, increase the service life of the installation and maintenance intervals, and finally, reduce the cost of operating the GeoPP.

The problem is solved due to the fact that in the well-known geothermal installation containing a geothermal circuit, including a production well connected by pipelines, a primary and secondary separator, a turbogenerator with a steam turbine, a condenser and a re-injection well, according to the proposed utility model, the geothermal circuit additionally contains a reagent dosing unit, connected with the entrance to the secondary separator and the turbine inlet.

The described implementation of the geothermal installation allows the metered supply of the reagent - chelamine, to the coolant circuit, so that the following equipment and pipelines of the power unit will be processed:

- internal surfaces and elements of separation boards of the secondary separator;

- steam pipelines from the secondary separator to the turbine, including shut-off and control valves installed on this line;

- elements of the flow part of a steam turbine;

- elements of a capacitor;

- piping for flushing water, including a pump.

The drawing schematically shows the proposed geothermal installation.

The installation contains a productive well 1, connected with a geothermal circuit, including a primary separator 2, a secondary separator 3, a turbine 4 and a condenser 5. A washing water unit 6 equipped with a pump 7 is connected to the condenser 5. The geothermal circuit is additionally equipped with a helamine dosing unit 8 containing a tank chelamine and a pump (not shown in the drawing) and connected to the input of the secondary separator 3 and to the input of the turbine 4.

Geothermal installation works as follows.

The steam-water mixture from the productive well 1 is fed to the separators 2 and 3, where it is divided into steam and a separate. The separated moisture is sent for re-injection, and the steam enters the turbine 4, where the heat drop is triggered, condenses in the condenser 6 and then is pumped into the re-injection wells.

Chelamine is introduced from the metering unit 8 into the steam in front of the turbine 4. The metering unit 8, which includes a tank with helamine and a metering pump, is connected to the inlet of the separator 3 and the inlet to the turbine 4.

Helamine is dosed at the points of entry into the circuit with a frequency of once a week for 24 hours at a rate of:

for the first cycle - 1.5 l / h;

for the second cycle - 1.0 l / h;

for the third cycle - 0.8 l / h. In subsequent cycles, the dosage of chelamine is carried out at a flow rate of 0.8 l / h.

In order to control the efficiency of the dosing process, it is necessary to carry out chemical control of the coolant (pH, electrical conductivity, total iron, chlorides, flint) at the following sampling points: steam to turbogenerator 4, separator, wash water.

Claims (1)

A geothermal installation containing a geothermal circuit, including a production well connected by pipelines, a primary and secondary separator, a turbine generator with a steam turbine, a condenser and a re-injection well, characterized in that the geothermal circuit further comprises a helamine dosing unit connected to the input to the secondary separator and the turbine inlet.

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