SU1513344A1 - Geothermal arrangement - Google Patents

Abstract

The invention relates to geothermal energy and can be used to extract heat from geothermal fluids flowing to the surface of the earth. The purpose of the invention is to increase efficiency and reliability by lowering the temperature of the device case walls. The geothermal device contains a vertical casing (K) 2 installed on a hollow elastic base, provided in the upper part with a branch pipe 3 for draining a cooled geothermal heat carrier, and a heat exchange surface 4 installed in the casing 2, as well as an additional heat exchanger in the form of tubes displaced in height (T ) 5, parallel within a range and perpendicular T 5 adjacent rows. T 5 connected to the distributing and collecting manifolds 6 and 7 with the inlet and outlet air. K 2 in the plan is rectangular, and the collectors 6 and 7 are installed outside the housing 2, each adjoining its two adjacent walls, with the air inlet and outlet nozzles arranged diagonally relative to the cross section K 2. The geothermal coolant gives off some heat from the heat exchange surface 4, then heats the air in T 5. The presence of an additional heat exchanger with rows T 5 penetrating the thickness K 2, in combination with the collectors 6, 7 adjacent to the adjacent walls K 2, makes it possible to increase the economy and reliability by reducing thermal stresses in K 2. 3 Il.

Description

The invention relates to geothermal energy and can be used in devices for extracting heat from geothermal fluids emerging on the surface of the earth.

The purpose of the invention is to increase the economy and reliability by reducing the temperature of the walls of the device case.

FIG. 1 shows a geothermal device, longitudinal section; in fig. 2 - the same, top view; in fig. 3 shows section A-A in FIG. one.

The geothermal device contains a vertical body 2 installed on a hollow elastic base 1, provided with a branch pipe 3 for withdrawing a cooled geothermal heat carrier in the upper part, and a heat exchange surface 4 installed in the body 1, as well as an additional heat exchanger in the form of rows displaced in height parallel to within a range and perpendicular pipes of 5 adjacent rows. Pipe 5 is connected to the distributing and collecting manifolds 6 and 7, respectively, with pipes 8 and 9 of the supply and exhaust air. The housing 2 in plan is rectangular, and the said collectors 6 and 7 are installed outside the housing 2 each with being attached to its two adjacent walls (FIG. 3), with the air inlet and outlet nozzles 8 and 9 arranged diagonally relative to the cross section of the housing 2 (fig.Z).

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A steel sheet 10 is installed in the thickness of the elastic base 1 made of heat-resistant rubber. The branch pipe 3 is equipped with two discharge pipes 11 and 12 with shut-off valves 13 and 14.

The device is equipped with a safety valve 15 and a fan installation 16.

In order to intensify the heat exchange, the pipes 5 can be finned.

Geothermal device operates as follows.

The device is installed (for example, with the help of a helicopter) to the place of geothermal heat transfer fluid (water, steam-water mixture or steam) under pressure from the reservoir. The elastic base 1 provides tightness of the interior of the space by adjoining the relief, as well as protection from seismic effects. Geothermal the coolant transfers part of the heat from the heat exchange surface 4, in which water is heated, is discharged to the consumer, and then heats the air pumped by the fan installation 16 into the pipes 5 of the additional heat exchanger. The cooled geothermal coolant is discharged through pipe 2 and pipes 11 and 12 to the chemical plant for further operations, such as insertion.

The presence of an additional heat exchanger with rows of tubes 5 that penetrate the thickness of the housing 2 in combination with

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The collectors 6 and 7, which adjoin on the outside and adjacent walls of the housing 2, make it possible to increase the economy and reliability of the device by lowering the temperature and, therefore, the thermal stresses of the housing 2.

Claims (1)

Invention Formula A geothermal device comprising a vertical body mounted on a hollow elastic base, provided in the upper part with a branch pipe for discharging cooled geothermal fluid, and a heat exchange surface mounted in the body, characterized in that D6 Understanding efficiency and reliability by reducing the temperature of the casing walls, it is equipped with additional heat transfer in the form of tubes displaced in height, parallel to the range and perpendicular to the pipes of adjacent rows connected to the distributing and collecting collectors with connections for air inlet and outlet, respectively , the housing in the plan is rectangular, and the collectors are installed outside the hull, each adjoining its two adjacent walls, wherein the air inlet and outlet pipes are located diagonally with respect to the cross section of the housing. / FIG. g 15 (Rig.3