RU141918U1 - PIPELINE SUPPORT SYSTEM IN PERMANENTLY FROZEN SOIL - Google Patents

Abstract

The support system in the permafrost soil of the main and additional pipelines, the axes of which are located in a vertical plane, the main pipeline being made with a larger diameter than the additional one, and both pipelines are made with thermal insulation, containing a refrigerant source connected to the additional pipeline, tubular supports for installing pipelines, containers with cold storage material buried in the ground, heat pipes with cooling radiators, made with fins, moreover, heat pipes They are located in the internal cavities of the tubular supports, while the upper ends of the heat pipes are installed in tight contact with the additional pipeline, the upper ends of the indicated containers are located above the lower ends of the tubular supports, and the lower ends of the containers are located below the upper boundary of permafrost soils, characterized in that it is provided a wind generator, and each radiator for cooling the heat pipe supports is made of at least two inclined lateral branches with fins and vertical struts, the upper ends of which connected horizontal rod, each vertical strut cooling radiator is formed as a hollow cylinder, muffled above.

Description

The utility model relates to pipeline transport and can be used to prevent swelling of the soil under the supports of the pipeline in permafrost soil.

Known thermal pile (RF patent for the invention No. 2250302, IPC E02D 3/115, E02D 3/11, E02D 3/12, published 04/20/2005) containing a reinforced concrete or metal hollow barrel with an internal heat pipe and horizontal support.

A disadvantage of the known device is the lack of capacity with a cold storage substance, which reduces the efficiency of the heat pipe.

A well-known system for supporting pipelines in permafrost soil, (RF patent for utility model No. 102242, IPC F16L 3/00 published on 02.20.2011), containing the main and additional pipelines of larger and smaller diameters with thermal insulation, the axes of which are placed in a vertical plane, and the additional pipeline connected to a source of refrigerant, and the pipelines themselves are installed on tubular supports equipped with heat pipes placed in the internal cavities of the supports, and containers with a cold storage substance buried in the ground, with this, the upper ends of the heat pipes are installed in tight contact with the additional pipeline, and the upper ends of the indicated containers are located above the lower ends of the tubular supports, and the lower ends of the tanks are located below the upper boundary of permafrost soils.

A disadvantage of the known device is the low efficiency of heat removal from the supports of pipelines.

The objective of the utility model is to increase the efficiency of heat removal from the pipe supports by installing heat sink cooling radiators, as well as to obtain additional electricity from wind generators installed on the pipe supports.

The problem is solved in that the support system in the permafrost soil of the main and additional pipelines, the axes of which are located in a vertical plane, and the main pipeline is made with a larger diameter than the additional one, and both pipelines are made with thermal insulation, contains a refrigerant source connected to the additional pipeline, tubular supports for installing pipelines, containers with a cold storage substance, buried in the ground, heat pipes with cooling radiators, made with fins, with heat pipes are located in the internal cavities of the tubular supports, while the upper ends of the heat pipes are installed in tight contact with the additional pipeline, the upper ends of the indicated containers are located above the lower ends of the tubular supports, and the lower ends of the tanks are located below the upper boundary of permafrost, according to a utility model , it is equipped with a wind generator, and each radiator cooling the heat pipe supports made of at least two inclined lateral branches with fins and vertical with dots, the upper ends of which are connected by a horizontal bar, and each vertical rack of the cooling radiator is made in the form of a hollow cylinder, muffled from above.

Supply of the support system in the permafrost soil of the main and additional pipelines with a wind generator and the implementation of each heat sink cooling pipe supports at least two inclined lateral branches with fins and vertical posts, the upper ends of which are connected by a horizontal rod, with each vertical rack of the cooling radiator the form of a hollow cylinder, muffled from above, on which the specified wind generator is placed, increases the efficiency of heat removal from the supports water through the installation of radiators for cooling heat pipes, and also allows you to get additional electricity from wind generators installed on the supports of pipelines.

Figure 1 shows a vertical section of a support system for pipelines in permafrost; figure 2 is a section A-A in figure 1.

The support system in the permafrost soil of the primary and secondary pipelines contains the primary and secondary pipelines 1 and 2, the axes of which are located in a vertical plane, the main pipeline 1 being made with a larger diameter than the secondary piping 2, and both pipelines are made with thermal insulation 3. The piping support system also contains a source (not indicated) of refrigerant connected to an additional pipeline 2, tubular supports 4 for installing pipelines, tanks 5 with cold storage buried in the soil 6, heat pipes 7 located in the internal cavities of the tubular supports 4, while the upper ends of the heat pipes 7 are installed in tight contact with the additional pipe 2, the upper ends of these tanks 5 are located above the lower ends of the tubular supports 4, and the lower the ends of the tanks 5 are located below the upper boundary 8 of the permafrost. According to a utility model, the support system in the permafrost soil of the primary and secondary pipelines is equipped with a wind generator and cooling radiators for heat pipes with fins, each cooling radiator 9 for the heat pipe 7 of support 4 made of at least two inclined lateral branches 10 with fins 11 and vertical struts 12, the upper ends of which are connected by a horizontal rod 13, and each vertical strut 12 of the cooling radiator 9 is made in the form of a hollow cylinder, muffled from above, on which vetroelektrogenerator said displacements, the blade 14 is formed of curved plates, rigidly fixed to the hub 15 of the rotor 16.

The system operates as follows.

Preservation of the soil under the supports in a frozen state is carried out using a heat pipe 7, which transfers cold to the soil from an additional pipeline 2 connected to a source (not indicated) of refrigerant. To reduce the cost of cooling the soil, around supports 4 there are containers 5 with a cold-accumulating substance, which also transfer cold in the cold season to the surrounding support 4. Tanks 5 are buried below the upper boundary 8 of permafrost soils and are a constant source of cooling of the soil surrounding the support 4, in which the upper ends of the tanks are 5. An increase in heat dissipation from the supports 4 of the pipelines is achieved by installing radiators 9 with fins 11 located on the lateral branches of 10 radiators 9. The installation of a wind generator on each vertical rack 12 allows you to get additional electricity from the wind generator.

The proposed system for supporting pipelines in permafrost soil increases the efficiency of heat removal from the pipe supports by installing heat sink cooling radiators, and also allows you to get additional electricity from wind generators installed on the pipe supports.

Claims (1)

The support system in the permafrost soil of the main and additional pipelines, the axes of which are located in a vertical plane, the main pipeline being made with a larger diameter than the additional one, and both pipelines are made with thermal insulation, containing a refrigerant source connected to the additional pipeline, tubular supports for installing pipelines, containers with cold storage material buried in the ground, heat pipes with cooling radiators, made with fins, moreover, heat pipes They are located in the internal cavities of the tubular supports, while the upper ends of the heat pipes are installed in tight contact with the additional pipeline, the upper ends of the indicated containers are located above the lower ends of the tubular supports, and the lower ends of the containers are located below the upper boundary of permafrost soils, characterized in that it is provided a wind generator, and each radiator for cooling the heat pipe supports is made of at least two inclined lateral branches with fins and vertical struts, the upper ends of which connected horizontal rod, each vertical strut cooling radiator is formed as a hollow cylinder, muffled above.

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