SU901427A1 - Method for preventing pipeline from being destructed upon freezing of liquid therein - Google Patents

Description

The invention relates to water supply and is intended to protect the pipeline from rupture when freezing liquid in it.

A known method of preventing freezing of the pipeline, in which water £ lj is completely drained from the water supply.

There are also known methods of protecting the pipeline from rupture by maintaining the water temperature higher by heating the water or the walls of the pipe £ 2 J,

A disadvantage of the known solutions is the duration of the process, large water losses and significant energy consumption. ·

The closest in technical essence to the proposed invention is a method for pipeline protection when water freezes, zaklyu- ₂₁ aspirants that articles positioned inside the hermetic vessel with elastic walls, is filled with gas. When water freezes, the ice expands> and compresses the walls of the tank, as a result of which the destruction of the pipeline does not occur.

The disadvantage of this method is that the constant presence of a sealed container narrows the live section of the pipeline by 10-20% and reduces its productivity.

The aim of the invention is to increase the productivity of pipelines.

This goal is achieved by the fact that in the method of protecting the pipeline when liquid is frozen in it by placing a sealed container with elastic walls filled with medium in the pipeline, the sealed container is periodically filled with the medium when the pumping is stopped.

In this case, an anti-freezing liquid or gas is used as the medium.

They are served in a sealed container under pressure.

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At the time of creating a sealed container, 5-20% of the liquid is drained from the pipeline.

In the process of freezing the liquid, the capacity of the tank is reduced by reducing the pressure of the medium.

In Fig. 1, a schematic diagram of a water supply system explaining the proposed method, 'Fig. 2 is a longitudinal section of a piped water with an additional elastic pipe located therein; in Fig.Z is a cross section of the pipeline; figure 4 is an embodiment of a pipeline with placed A ⁵ in what several containers; figure 5 an embodiment of the pipeline with one tank placed in it.

The water supply system (Fig. 1) includes a reservoir 1, a pump 2 for transferring water through the pipeline 3 to the tank 4, and an additional elastic pipe. 5, pipe 6, jumper 7 for connecting to a container. 8 with compressed gas, pipe 9 for supplying ²⁵ coolant. Pipe 3 is equipped with a return line 10 for water discharge,: pipe 11 is used to discharge gas from pipeline 5.

The process is carried out in the following sequence of ^30-boiling (1 - 3). The cranes of the jumper 7, pipe 6 are opened and the elastic pipe 5 is filled with compressed gas, at the same time they are drained from the cavity of the pipe 3 35

5-20% of the water through the discharge line 10 into the reservoir 1 or into the reservoir 4. Thus, a damping tank ¹ is formed in an additional pipeline.

Then the jumper valve 7 is closed and, as the water freezes, it is pushed out of '. elastic pipe 5 through pipe b and pipe 11 gas to the atmosphere. The damping capacity in the additional pipeline can also be created between the walls of the pipeline 3 and the elastic shell (Figs. 4 and 5).

For quick commissioning of the water supply system, an additional pipe-so wire -5 is supplied with coolant through pipe 9, for example, hot steam, ice is melted. So that part of the condensed bath water does not remain in the additional pipeline 5, it is purged 55 ', for example with compressed gas from the tank 8, through open taps of the transfer 7, pipe 6 and pipe 9 into the atmosphere. After purging, the remaining air from the pipe 5 is released into atmosphere due to the pressure of the transported water. As a result, the capacity of the auxiliary / pipe 5 is reduced and pumping is resumed. It is possible that non-freezing liquid is pumped into the container. In this case, the water system is equipped with an auxiliary pump and a tank.

The invention in comparison with the known has the following advantages.

The productivity of the pipeline increases by 10-20%, since during transportation the volume of the tank is minimal and the active section of the pipeline is not narrowed.

The process of filling the tank with gas can be automated, in addition, it is autonomous and does not depend on sources of electricity.

The method may find application taize for re-pressing the operated above-ground pipeline in winter conditions, since freezing water can create high pressure, which can be regulated and maintain the change in the volume of the tank · filled with non-freezing liquid.

Claims (1)

1. Lyutov A.V. Construction and 3 Applications for Great Britain, operation of the above-water conduits and .№.1288677., cl. E 03 B, 1972. the operation of the conduits above ground and