RU2554693C2 - Repair of pipeline with help of sealing chamber - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and repair of pipelines extending over water obstacles. This method comprises installation of rotary sealing chamber (further referred to as chamber) by coupler to contact with pipeline, attachment by yokes to pipeline, turning through 180 degrees, spacing and washing out. Then, chamber top part is placed on bottom one and bolted thereto via seal washers. Chamber is locked in soil with help of ballast weights and bedding. Shaft is place atop the chamber top part vertically with allowance for pipeline lengthwise inclination at shaft installation section. Required number and depth of shaft sections are selected with allowance for possible build-up of water. Then, chamber wall flanges are sealed as well as circular holes gaps, soil is removed and water is pumped from the chamber by subsurface pump. Water is pumped off during the entire working cycle.

EFFECT: safe repair works, accelerated repair.

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Description

The invention relates to the field of construction and maintenance of oil pipelines and oil pipelines (hereinafter referred to as pipelines), in particular, to methods for repairing oil pipelines passing through water barriers.

From the patent of the Russian Federation No. 2322578 (published on May 27, 2008; IPC F16L 1/26), a method for repairing an underwater pipeline by a complex method is known. The method includes installing a coupling around a repaired section of the pipeline with the formation of a cavity between its inner surface and the outer surface of the pipeline, sealing the coupling, displacing water from the cavity and filling it with an expanding plasticized filler, followed by its compaction. If non-destructive testing is detected on the repair section of the pipeline, defects whose parameters exceed the maximum permissible values for this type of repair, pre-install the caisson on the defective section of the pipeline, displace water from its chamber by filling it with protective gas, and reduce the working pressure of the pipeline to a pressure equal to the pressure of the protective gas in the box, carry out cleaning and non-destructive testing of the defective area, welding defects in the environment of the protective gas, dismantle caisson, and then make the installation of the coupling.

The technical result of the invention is to expand the scope of the method of repair of an underwater pipeline by installing couplings by providing a change in parameters (reducing depth) of the defect and improving the reliability of repair of an underwater pipeline.

The disadvantage of this method is the presence of a stage of reducing the operating pressure of the pipeline to a pressure equal to the pressure of the protective gas in the box. In addition, the sealing of places of possible leakage is carried out by means of a plasticized filler, which complicates the process of installation and dismantling of the coupling.

RF patent No. 2291936 (published on January 20, 2007; IPC E02D 23/02) describes a caisson for repair of underwater pipelines, including a chamber with stiffeners, consisting of two detachable parts, an upper and a lower one, a shaft, interchangeable rings, interchangeable split collars. Stiffeners are located inside the chamber. Replaceable rings are made of shells interconnected by annular ribs. The sealing gasket between the pipeline and interchangeable rings with crimp gland bushings is made of soft rubber sheet. On the bottom of the camera, detachable clamps are installed with the possibility of radial displacement of them relative to interchangeable rings. The objective of the proposed technical solution is to increase the strength of the caisson and reduce the complexity during installation and dismantling of the caisson on the pipeline.

Work with the caisson is carried out in the following sequence. Using a hydraulic monitor, the foundation pit is washed out under the defective section of the pipeline. From a floating repair site, the lower part of the chamber, turned upside down by 180 degrees relative to the working position, with the undocked clamps, is lowered by a crane to the pipeline. The lower part of the chamber with clamps lies on the pipeline being repaired. After that, the diver joins the clamps. Using a crane, the lower part of the chamber is rotated on clamps relative to the pipeline by 180 degrees to the working, lower position. The upper part is lowered by a crane to the lower part of the chamber, the diver docked them with bolts and nuts, and the shaft is lowered by a crane to the coaming of the upper part of the chamber. Diver docking the mine with coaming bolts and nuts. After that, the ballasting of the chamber is carried out using ballast weights. After ballasting the chamber, water is pumped out of the chamber and repair work is carried out on the pipeline. After performing repair work on the pipeline, the chamber is dismantled in the reverse order.

The disadvantage of the above method of working with the caisson is that after pumping water into the chamber through coaming, water can still get in, for example, when the water level rises in the space surrounding the pipeline, and pumping it will be difficult, because it will require a repeated and quick installation of the pump, whereas The repair process is already underway.

The method of working with the caisson according to RF patent No. 2291936 was chosen as the closest analogue of the claimed invention, designed to eliminate the known disadvantages of the prototype, namely to increase the level of protection of the pipeline area in which the repair is carried out, from contact with the external environment, primarily water.

This problem is solved in that the method of repairing the pipeline using a sealing chamber, consisting of an upper part and a lower rotatable part, connected to each other by means of corresponding connectors, containing a submersible pump and installed in place of a pipeline defect to prevent the pipeline from contacting the environment, includes fastening on the lower rotatable part of the sealing chamber of the cargo braces to prevent its rotation and swinging, lowering the lower rotatable parts of the sealing chamber with the connector down to the contact of the stops with the pipeline, fixing the lower rotatable part of the sealing chamber with clamps to the pipeline, turning the lower rotatable part of the sealing chamber 180 °, spacer and washing the lower rotatable part of the sealing chamber, installing the upper part of the sealing chamber on the lower rotatable part the sealing chamber and fixing them to each other with bolts through the sealing gaskets, fixing the sealing chamber on soil using ballast weights and bedding, installation on the upper part of the shaft’s sealing chamber of the required length with bolting through the gaskets, the shaft being installed vertically taking into account the longitudinal inclination of the pipeline at the shaft mounting section, and the required number and length of shaft sections are selected taking into account possible lifting water level, sealing the walls of the sealing chamber along the flanges, sealing the gaps in the annular openings of the sealing chamber, cleaning the soil, pumping water from rmetiziruyuschey submersible pump chamber, and provide a regular pumping water from the sealing chamber throughout the time of production work holding sealing tightness control chamber and the proper carrying out of repair work.

The difference of the proposed method of repairing a pipeline using a sealing chamber is the presence of the following essential features not disclosed in the closest analogue:

- pumping water from the chamber with a submersible pump, which is part of the sealing chamber and, thus, allows for pumping water during the whole time of work;

- the installation of the shaft is carried out after determining the position of the pipeline in the place of installation of the coupling with respect to the horizon to account for the longitudinal slope;

- when mounting the shaft of the sealing chamber, the number and length of sections are selected taking into account a possible rise in water level.

The invention is further explained in more detail with reference to the drawings.

Figure 1 shows the installation of the lower rotatable part of the sealing chamber on the pipeline.

Figure 2 shows the sealing chamber installed on the pipeline.

Figure 3 shows a sealing chamber with a shaft mounted on the pipeline.

Repair of the pipeline (1) is carried out using a sealing chamber (2, 3) installed on a section of the pipeline (1) requiring repair or inspection. The sealing chamber (2, 3) allows you to isolate this section of the pipeline (1) from the external environment, in particular from the water into which the pipeline (1) is immersed.

The sealing chamber (2, 3) consists of an upper part (2) and a lower rotatable part (3), connected to each other by means of corresponding connecting sockets (4). In addition, the sealing chamber contains a submersible pump (not shown) for pumping out medium, for example water.

Installing a sealing chamber (2, 3) on the pipeline (1) includes the following steps.

On the lower rotatable part (3) of the sealing chamber, load braces (5) are fixed to prevent its rotation and swinging during descent to the pipeline (1) by means of a crane, for example a truck crane (Fig. 1). The lower rotatable part (3) of the sealing chamber is lowered onto the pipeline (1) by connecting sockets (4) down to the contact of its stops (not shown) with the pipeline (1).

Fasten the lower rotatable part (3) of the sealing chamber with clamps (6) to the pipeline (1) and rotate the lower rotatable part (3) of the seal chamber 180 °.

To fix the lower rotatable part (3) of the sealing chamber, it is strut and washed on the basis of the trench.

Next, install the upper part (2) of the sealing chamber on the lower rotatable part (3) and connect them to each other with bolts through the sealing gaskets (figure 2, 3).

The sealing chamber (2, 3) is fixed on the ground with the help of ballast weights and bedding for additional fixation of the sealing chamber (2, 3) assembly.

A shaft (7) of the required length is mounted on the upper part (2) of the sealing chamber and bolted through the gaskets to the counter flange (8) on the upper part (2) of the sealing chamber (Fig. 3).

The shaft (7) is installed vertically, taking into account the longitudinal inclination of the pipeline (1) at the installation site of the shaft (7), in order to ensure the maximum height of the upper end of the shaft (7) along its entire perimeter. At the same time, the required number and length of mine sections (7) is selected taking into account a possible rise in water level, for example, during a flood.

Seal the walls of the sealing chamber (2, 3) on all flanges; also seal the gaps in the annular openings of the sealing chamber (2, 3).

The internal volume of the sealing chamber (2, 3) is cleaned of soil and water is pumped out of it by means of a submersible pump (not shown). Since the submersible pump is part of the sealing chamber (2, 3), it becomes possible to regularly pump water from the sealing chamber (2, 3) throughout the entire duration of the work, which reduces the overall period of repair work and also allows you to quickly pump out water from the sealing chamber cameras (2, 3) in case of emergency situations.

The tightness of the sealing chamber is monitored and after that the actual repair work is performed, after which the sealing chamber (2, 3) is dismantled.

Thus, the inventive method provides increased convenience and safety when carrying out repair work on pipelines placed in the aquatic environment, reduces the overall time of work and allows you to more quickly respond to emergency situations.

Claims (1)

A method of repairing a pipeline using a sealing chamber consisting of an upper part and a lower rotatable part, connected to each other by means of corresponding connectors, comprising a submersible pump and installed in place of a pipeline defect to prevent the pipeline from contacting the environment, including
fastening on the lower rotatable part of the sealing chamber of the cargo braces to prevent its rotation and swinging,
the descent of the lower rotatable part of the sealing chamber with the connector down to the contact of the stops with the pipeline,
fastening the lower rotatable part of the sealing chamber with clamps to the pipeline,
turning the lower rotatable part of the sealing chamber 180 °,
the spacer and the washing of the lower rotatable part of the sealing chamber,
installing the upper part of the sealing chamber on the lower rotatable part of the sealing chamber and securing them to each other with bolts through the sealing gaskets,
securing the sealing chamber on the ground with ballast weights and bedding,
installation on the upper part of the sealing chamber of the shaft of the required length with bolts through the gaskets, and the shaft is installed vertically taking into account the longitudinal inclination of the pipeline at the mine installation site, and the required number and length of sections of the shaft are selected taking into account a possible rise in water level,
sealing the walls of the sealing chamber along the flanges,
sealing gaps in the annular openings of the sealing chamber, removing soil, pumping water out of the sealing chamber with a submersible pump, moreover, they ensure regular pumping of water from the sealing chamber throughout the entire duration of the work, monitoring the tightness of the sealing chamber and carrying out repair work.

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