DE2619362A1 - ARRANGEMENT OF UNDERGROUND HEAT EXCHANGER PIPES AND IRRIGATION HOSES - Google Patents

Description

Hrs 3603

Dr.-Ing. Wolfang Ständer, Karlsruhe

'' Arrangement of underground heat exchanger pipes and irrigation hoses

The invention relates to an arrangement of heat exchanger pipes laid underground, in particular cooling water pipes of nuclear power plants, as well as for such Arrangement of certain irrigation hoses.

The waste heat from power plants, especially from nuclear power plants, is often used for agricultural purposes utilized in such a way (with simultaneous solution of the cooling water problem occurring in power plants) that the warm cooling water is passed through underground heat exchanger pipes, which means that it is used for agricultural purposes used soil is heated and at the same time causes the necessary re-cooling of the cooling water. It now arises however, there is the problem that the soil in the vicinity of these heat exchanger tubes dries out as a result of the heat supplied and shrinks, so that an insulating layer is created, which further heat transfer from the cooling water into the soil increasingly deteriorated.

The invention is therefore based on the object, while avoiding this disadvantage, an arrangement of underground installed heat exchanger pipes in such a way that a consistently good heat transfer from the heat exchanger pipe is guaranteed in the ground.

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According to the invention, this object is achieved by that in the immediate vicinity of these heat exchanger pipes and also laid underground to humidify the Irrigation hoses serving in the vicinity of the heat exchanger pipes are provided on the ground.

These irrigation hoses allow the smallest amounts of water to escape and thereby moisten the soil in the vicinity of the heat exchanger tubes. The water supplied through the irrigation hoses then migrates out the immediate vicinity of the heat exchanger tubes capillary in the wider environment, which on the one hand the heat conduction from the heat exchanger tubes into the ground and an additional one through the capillary moisture flow Causes heat transport.

It should be noted at this point that water is supplied above ground, for example by sprinklers could not solve the problem described, because the seeping water due to the temperature depending on the surface tension of the water, it always tends to migrate capillary into colder zones. The water that seeps away would straighten the warm and dried-out soil zone surrounding the heat exchanger tube Report. In contrast, forces the arrangement of the irrigation hoses according to the invention in the immediate vicinity of the Heat exchanger tubes the desired humidification of the zone surrounding the heat exchanger tubes.

Since power plants are generally required to take off heat even in summer, an underground Laying of cooling water pipes.

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warming the soil does not have any harmful effects on plant growth. To this end according to an advantageous embodiment of the invention, artificial cooling is provided by in Ventilation pipes also laid underground near the heat exchanger pipes and irrigation hoses to be ordered. If air is blown into the ground through these ventilation pipes on hot days, it absorbs on their way to the surface of the earth moisture from the soil, whereby the evaporation cooling occurs a considerable Temperature reduction of the heated by the cooling water Causes soil.

The arrangement of such a three-channel system brings also has the advantage that you can also do this in spring, for example during the dreaded night frosts Can blow air into the soil, which comes out on the surface and is moist and warm and the plants from the cold protects.

The heat exchanger pipes, irrigation hoses and ventilation pipes are expediently at a depth of 0.3 to 1.0 m, preferably about 0.5 m.

The water supply caused by the irrigation hoses is expedient depending on the exact Moisture content of the soil made in the vicinity of the heat exchanger tubes. The previously known humidity measuring devices are consistently unsatisfactory because they depend either on the temperature and / or the salinity of the Depend on the ground or have only a very inadequate accuracy.

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According to an advantageous embodiment of the invention is in the immediate vicinity of the heat exchanger tubes determining the moisture content of the soil and, depending on the moisture content, the water supply to the irrigation hose controlling measuring device is provided which contains a temporarily switched on heating device and the temperature difference between the beginning and the end of the heating period compared to the environment certainly. With moist soil, this temperature difference is small because of the greater heat dissipation, while with dry soil is correspondingly high. Such a measuring device is characterized by high measuring sensitivity and .an extensive independence from numerous influencing factors.

An embodiment of an irrigation hose suitable for the arrangement according to the invention is shown in FIG the drawing illustrated schematically. Show it

Fig. 1 is a very schematic top view

on a section of the irrigation hose,

2 shows a section (on an enlarged scale) through the hose in the region of a slot-shaped one Opening.

The irrigation hose 1 illustrated in FIGS. 1 and 2 has a plurality of slot-shaped openings 2 provided, for example along a surface line running parallel to the longitudinal direction of the hose are arranged. The length 1 of these slot-shaped openings is between 0.1 and 0.2 mm; the distance D

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between successive openings 2 is, for example 0.2 to 0.6 m.

The slot-shaped openings 2 have - as shown in FIG.

shows - a cross-sectional shape that widens towards the outside to form a wedge and are on the water inlet side (i.e. in the area of the inner wall 1a of the hose) limited by relatively sharp edges 2a, 2b. this has the consequence that the water jet 3 emerging from the slit-shaped opening 2 during operation of the irrigation hose detaches itself in the area of the edges 2a, 2b and, due to the constriction that forms, the inner wall of the slot-shaped opening 2 essentially not touched. The risk of dirt and debris in the slot-shaped This reduces the opening to a minimum.

The production of these slot-shaped openings with cross-sectional profile widening outwardly to form a wedge shape can be used, for example, with the aid of a wedge-shaped one Made knife that penetrates to a certain depth in the wall of the hose. Of course other manufacturing processes are also possible.

Despite the detachment of the water jet from the wall of the water jet at certain flow speeds Due to the surface tension, the water jet has slot-shaped openings 2 widening outward in a wedge shape and the forces of the masses strive to diverge again after being constricted. Since this is from a certain wall thickness of the hose material again for the beam to rest against the wall of the slot-shaped opening an extremely thin wall thickness of the irrigation hose is advantageous. According to the invention possesses the tube accordingly has a wall thickness between 0.2 and 0.35 mm.

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Given the high water pressure required for irrigation and the long duration of this operating state However, the mechanical properties of most plastics are not sufficient with this low wall thickness. In particular, there is a risk that the cold flow of the plastic will become gradual over time Expansion of the slot-shaped openings, which then finally no longer close at zero pressure (see above that roots penetrate into the openings and can clog the tube within a very short time) To avoid danger, in the depressurized state, i.e. when there is no watering, the complete closing of the slot-shaped openings are essential.

This is also the case with the very thin wall thickness of the irrigation hose To ensure that the flexible hose material is tangential during manufacture Direction (i.e. in the circumferential direction) stretched, whereby the mechanical properties of the hose material around can be improved many times over.

The irrigation hoses according to the invention can If necessary, they can also be used temporarily as additional heat exchanger tubes by using a reduced Pressure are operated at which the water, which is then used, for example, as a heat medium, does not pass through the slot-shaped openings emerge.

In addition, the heat exchanger tubes can be designed as elastic hoses (for example made of soft PVC). This has the advantage that, when pressurized, it fits snugly against the wall of the floor Create a duct and thus ensure good heat transfer from the heat exchanger pipe to the floor.

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Claims (6)

Claims / IJ arrangement of laid underground heat exchanger ^ - ^ pipes, in particular cooling water pipes of nuclear power plants, characterized in that serving Irrigation tubes are provided in the immediate vicinity of these heat exchanger tubes and likewise laid underground for moistening of the soil in the vicinity of the heat exchanger tubes. 2. Arrangement according to claim 1, characterized in that that near the heat exchanger pipes and irrigation hoses also laid underground Ventilation pipes are provided. 3. Arrangement according to claims 1 and 2, characterized in that that the heat exchanger pipes, irrigation hoses and ventilation pipes at a depth of 0.3 to 1.0 m, preferably about 0.5 m, laid are. 4. Arrangement according to claim 1, characterized in that in the immediate vicinity of the heat exchanger tubes one that determines the moisture content of the soil and, depending on the moisture content, the water supply for the irrigation hose controlling measuring device is provided, which is a temporarily switched on Contains heating device and the temperature difference resulting between the beginning and the end of the heating time determined in relation to the environment. 709846/0212 5. Irrigation hose, in particular for an arrangement according to claim 1, characterized in that the from elastic material existing hose slot-shaped openings with a slot length between 0.05 and 0.25 mm. has, which have a cross-section that widens outwardly into a wedge shape and are delimited with sharp edges on the water inlet side. 6. Irrigation hose according to claim 5, characterized in that the hose has an inner diameter between 0.6 and 1.0 cm, preferably about 0.7 cm, and a wall thickness between 0.2 and 0.35 mm and the hose material is stretched in the tangential direction (circumferential direction) during manufacture. 709846/0212