SU1384731A1 - Installation for recovering geothermal energy or mineral resources from bottom-adjoining areas of hydrosphere - Google Patents

Abstract

The invention relates to mining and improves the efficiency of geothermal energy production by reducing heat loss. The installation for extracting geothermal energy or mineral resources from the bottom areas of the hydrosphere includes a support ring 1 with a hollow volume 2, a guide cone 3 and an elastic base 6 with reinforced lugs 7. The guide cone 3 is installed in the upper part of the support ring and connected to pipeline 5 for lifting energy carrier. The installation is immersed to the place of selection of heat carrier or brine with preliminary filling of volume 2 of the support ring 1 with water through hose 8. From the place of unloading the heat carrier or brine guide cone 3 enters and then through pipe 4 and outlet pipe 5 - into collection tank 19. 3 sludge. with S (L

Description

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The invention relates to mining, primarily to geotechnological means for extracting geothermal energy and mineral resources from the bottom surfaces of the hydrosphere, and can be used both for heat engineering purposes and for extracting rare and trace elements from geothermal solutions leaving the bottom surface of the hydrosphere from the bowels of the earth.

The aim of the invention is to increase the efficiency of geothermal energy production by reducing heat loss.

FIG. 1 shows the installation, longitudinal section; in fig. 2 - the same in terms of; in fig. 3 shows section A-A in FIG. one..

The installation includes a support ring 1 with a hollow volume 2 filled with water, a guiding cone 3 attached to the upper part of the ring 1 and equipped with a nozzle 4 to which the branch pipe 5 is attached, with an elastic base 6 made of heat-resistant rubber with reinforced cones 7 cone-shaped forms, flexible hoses 8 and 9 pump station 10, consisting of a pump 11, a drive 12 and piping systems 13, 14 and 15, a compressor station 16, watercrafts 17 and 18, a collection tank 19.

The installation works as follows.

After the underwater vehicles have detected the discharge points of the hydrotherms in the bottom surface of the hydrosphere, the installation is immersed directly to the place of coolant or brine selection with preliminary filling with water 2 volumes of the support ring 1 via a flexible hose 8 from the pump station 10 using a pump 11 equipped with a drive 12. the need to lift the unit and keep it afloat by supplying compressed air through hose 9 from compressor station 16 to volume 2 carried out the displacement of water, like ballast. As a result, the installation rises to the surface of the hydrosphere. A support ring 1, lowered onto the bottom surface and equipped with an elastic base 6 adjacent to the bottom surface relief, provides sealing of the joint

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ka The stops 7, placed in an elastic base 6, crashing into the ground, ensure the stability of the installation, and also enable its horizontal movements by undercurrents. From the place of unloading, the coolant or brine spontaneously enters the guiding cone 3, to the nozzle 4 of which a branch pipe 5 is connected, through which the flow enters the collecting tank 19, from which it is further directed to heat engineering or technological use. When using a pumping station 10 to intensify the process of extracting geothermal solutions, the shut-off valve located at the beginning of the pipeline 13 is closed so that the flow is directed to the pump 11 via the pipeline 14, and the valve placed on the pipeline 15 opens to allow the flow to flow again through the pipeline 13 to collection tank 19.

The branch pipe 5, the pipeline system 13, 14, and 15, as well as the collection tank 19, are hydraulically insulated. Piping 5 and 13 are connected by hinges. Pump station 10 and compressor station 16 are located respectively on floating devices 17 and 18.

Claims (1)

Invention Formula Installation for extracting geothermal energy or mineral resources from. the bottom areas of the hydrosphere, consisting of pumping stations, pipelines for lifting and transporting energy carriers and watercrafts, from which, in order to improve the efficiency of geothermal energy production by reducing heat loss, the installation is equipped with a support ring, the internal volume which is filled with water, an elastic base with reinforced stops and a guide cone, while the elastic base is attached to the lower end surface of the support ring, and the guide cone is installed in the upper part the support ring and is connected to the pipeline to lift the energy carrier. 7 & m 12 IE / Heat carrier Brine