RU154256U1 - DEVICE FOR NANOTHE INSULATION OF HEAT - AND OIL PIPELINES - Google Patents

Abstract

A thermal insulation device for ground heating pipelines, including monolithic foam concrete and plastic formwork, characterized in that the thermal insulation used in the claimed device is foam concrete containing Taunit carbon nanotubes in an amount of 0.005-0.0005% by weight of cement.

Description

The utility model relates to the field of construction and the oil and gas industry, and in particular to the arrangement of surface heat pipelines.

A known method of applying concrete to a pipe, in which the pipe is mounted vertically on a base with a stand and rails so that the lower part of the pipe is enclosed in a ring shape with a concrete pipe connected to it, concrete solution is fed into the mold, the pipe having an annular space formed between the outer surface pipes and a shell concentrically arranged around the pipe; bounding the annular space of the upper cap and the bottom cap with holes for the receipt of concrete mortar (patent RU 2418225 C2, 07/13/2009). The technical result of this invention is to increase the rate of applying concrete to the pipe in the presence of a shell that protects the concrete from environmental influences.

The disadvantage of this method is the use of a special protective shell, as well as the high complexity of manufacturing, as a result of which a narrow scope for the installation of onshore pipelines.

A known installation for internal insulation of pipelines with fine-grained concrete (patent RU 2041745 C1, 08/20/1995). The invention is used in the coating of fine-grained concrete on the inner surface of pipelines to increase productivity. The essence of this invention is that the installation is equipped with an additional cable on which the piston is mounted. This cable is connected to an independent source of movement. The forming head is made in the form of a cone, the rod of which is connected to the centering element.

The disadvantage of this method is the complexity of the insulation of pipelines, moreover, the use of fine concrete does not provide the necessary thermal insulation.

The closest solution to the proposed utility model is the invention of a combined pipe and concrete application device (patent for invention RU 2418224 C2, 07/13/2009). The combined pipe consists of a central pipe, a sheath, an annular space with centralizers formed between the pipe and the sheath, plugs with holes covering the annular space, at least one of the plugs has several holes, a butterfly valve to close the holes in the plug by turning it after filling the annulus with concrete mortar. The device for applying concrete to a pipe located horizontally or obliquely has an annular shape covering the pipe, consisting of an inner, an outer and two side walls, one of which, facing the plug with a disk shutter, has openings; the walls form at least one cavity having a fitting for connecting the concrete pipe, and the device has means for compressing the annular shape to the plug, consisting of a sleeve with a flange fixed to the end of the pipe and jacks mounted on the flange, and means for rotating the butterfly valve.

The disadvantage of this invention is the high technical complexity and the complexity of manufacturing a combined pipe, high specific gravity of the injected concrete.

The technical result of the present invention is to increase the durability and operational reliability of heat pipelines, the low complexity of the thermal insulation device, reducing heat loss when transferring superheated steam to the well while reducing the time for manufacturing thermal insulation.

The result is achieved by using monolithic nano-modified foam concrete as thermal insulation of heat pipes, and formwork made of plastic, which can be made of any shape depending on the requirements, as formwork.

Monolithic nano-modified foam concrete is made directly at the construction site, or can be manufactured at a specialized factory and delivered by road. Foam concrete contains Taunit carbon nanotubes in an amount of 0.005-0.0005% by weight of cement.

Plastic formwork is made depending on the size of the pipeline.

The proposed thermal insulation device for heat pipelines is illustrated by the drawings shown in FIG. 12.

In FIG. 1 shows a fragment of the design of thermal insulation of ground heating pipelines; in FIG. 2 shows a longitudinal section of heat pipes.

Thermal insulation of ground heating pipelines consists of pipeline 1 itself, a monolithic nano-modified foam concrete 2, a plastic shell 3 serving as a formwork, fixing the formwork 4, and special diaphragms of rigidity 5, a funnel for supplying nano-modified foam concrete 6.

Thermal insulation is arranged in the following way: formwork is installed, foam concrete is prepared using carbon nanotubes. Then, the prepared foam concrete is fed into the installed formwork.

The method of thermal insulation of heat pipelines can be successfully used both in new construction and in the reconstruction of existing heat pipelines.

Claims (1)

A thermal insulation device for ground heating pipelines, including monolithic foam concrete and plastic formwork, characterized in that the thermal insulation used in the claimed device is foam concrete containing “Taunit” carbon nanotubes in its amount in the amount of 0.005-0.0005% by weight of cement.

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