RU2081366C1 - Method of repair of sagging and washed-out sections of underwater pipe line - Google Patents

Abstract

FIELD: erection and repair of underwater pipe lines. SUBSTANCE: for repair of sagging and washed-out sections of underwater pipe line, washed-out section and sections adjacent to it are opened by parts whose length is equal to lines of intersection of water level with point of trench being dug out in direction of its raising. Trench is dug out along pipe line to depth exceeding design depth of trench at increased amount of opening of adjacent sections. Ground is removed from under pipe line by sections to ensure required bending radius of pipe line. The trench is filled with water forming cofferdams and intermediate supporting cofferdams which are removed, thus enhancing span of pipe line immersed in water. Cofferdams are cut by stages; after complete cutting of cofferdams limiting the bed portion, gas line is loaded to either side from center of washed-out section, after which trench is filled. EFFECT: enhanced reliability. 1 dwg

Description

 The present invention relates to the laying of trunk pipelines during their construction and repair and can be used to repair existing underwater pipelines in their sagging and blurry areas.

 There is a method of repairing sagging and washed out sections of an underwater pipeline, which includes opening a trench of sagging and adjacent sections of a pipeline, lifting open sections, developing a trench of estimated depth, laying the pipeline to new elevations, followed by backfilling of the trench.

 The underwater pipeline section is lifted at a certain angle to ensure the distance between the suspension points to facilitate sagging of the pipeline in the eroded section and, in order to eliminate the pipeline friction forces on the ground, to facilitate longitudinal movement of the pipeline to the side adjacent to the eroded section and to deepen the pipeline along the profile of the newly prepared trenches (see ed. certificate N 1712729, 1992).

 The disadvantage of this method, taken as a prototype, is that it contains the operation of lifting the sagging and adjacent sections using pipe-laying equipment with the distribution of the lifting force at an angle, which makes it difficult to perform work on pipelines of large diameter and a significant length of blurred and sagging sections. In addition, when performing work by the proposed method of repairing gas pipelines, inconsistency of the operators' work when lifting the pipe and holding it for a long time on weight can lead to pipe destruction with gas ignition.

 The objective of the invention is the laying of the pipeline at the design level without stopping the transportation of gas, without lifting the sagging and blurry section of the pipeline.

 The problem is solved in that in the known method of repairing sagging and washed out sections of an underwater pipeline, which includes opening a repaired section of a pipeline, deepening a trench under it, then laying it at new markings and backfilling with soil to deepen a curved section of a pipeline in a blurred area, open it and adjacent sections of the pipeline of opposite and identical curvature, while the disclosure of adjacent sections is performed in parts equal to the length of the horizontal l at the intersection of the water horizon from the top of the embankment of the lower part of the site with the point of the future trench in the direction of its rise, make a trench along the pipeline deeper than the design trench with an increase in shoulder opening in both directions with subsequent extraction of soil under the pipe in sections that provide an acceptable bending radius of the pipeline lying on two supports, fill the trench with jumpers with water, choose intermediate support jumpers, extending the free span of the pipe in the water, from both ends of adjacent sections produce the jumpering of the jumpers in stages to the depth of the upper jumpers to the channel of the washed-out area, during the final cutting of the jumpers limiting the channel part, the pipeline is loaded from the center of the washed-out area in both directions, followed by backfilling of the trench.

Of the patent and scientific and technical information, the following features of the invention are unknown, having novelty:
open blurred and adjacent to it sections of opposite or identical curvature, while the disclosure of adjacent sections is performed in parts equal to the length of the horizontal line of intersection of the water horizon from the top of the embankment of the lower part of the site with the point of the future trench in the direction of its rise;
make a trench deeper along the pipeline along the pipeline with an increase in shoulder opening on both sides with subsequent extraction of soil under the pipe in sections that provide an acceptable bending radius of the pipeline lying on two supports;
fill the trench with jumpers with water;
choose intermediate support jumpers, extending the free span of the pipe in the water;
from both ends of adjacent sections, the jumpers are trimmed in stages to the depth of the upper jumpers to the channel of the washed-out area, and at the final section of the jumpers bordering the channel part, the pipeline is loaded from the center of the washed-out area in both directions, followed by backfilling of the trench.

 The invention can be implemented in the repair of sagging and blurry sections of underwater crossings of gas pipelines.

 A diagram of the sagging and diffuse underwater gas pipeline is shown in the drawing (profile).

 The drawing shows a section of a sagging and blurred surface transition of the pipeline with the organization of support and water-retaining bridges with filling the trench of the adjacent sections with water in a stepwise manner.

 Sagging and eroded section of pipe 1 is afloat in channel 2 of length L, sections 3 and 4 are in embankment A, B and laid above design mark 5, water-retaining bridges 6 are constructed on both sides of channel 2, the distance to the supporting bridges 7 under the pipe determined by the stiffness of the pipe 1, the location of the water-retaining bridges 8 is determined by the level of the water horizon from the top of the bridges 6 to point C, which determines the intersection with the profile line of the project deepening 5 and sets the beginning of the bridges 8.

 Replanting sagging and washed out section of the underwater pipeline is as follows.

 Before starting work, geodetic changes are made to the position of the eroded part of pipe 1 and adjacent sections 3.4 to points coinciding with the design position (not shown in the drawing), the obtained length of the sections is compared with the design length of the trench 5, the maximum depth of replanting of the pipe section 1 and the depth are calculated trenches 5 along the ascending line in adjacent sections 3 and 4, while the sum of the profile areas of the adjacent sections 3 and 4 should be no less than the profile area of the eroded pipe section 1.

 Digging of the trench along the pipeline is carried out from the center of the pipe 1 in both directions with a deepening to the design and its broadening by the volume of soil removed in the future from under the pipe. The distance between the water-retaining jumpers 6 and 8 is determined by the water horizon, and the water-retaining jumpers 6 and supporting 7 pipe stiffness. With a dug trench 5 with jumpers 6,7 and 8, the trench is filled with water in 9 steps, and thereby the supporting jumpers 7, which are completely cut off, are released from the work, and the pipe stays afloat with support on the soil-holding jumpers. The smoothness of replanting of the washed-out section of the underwater passage is achieved by cutting off all the soil-retaining bridges 6.8 and 10 and further, by the value of the extreme upper 10 then 8.6, while to prevent the development of reverse curvature in the pipe section 1, partial loading is performed, and at the final removal of the bridges 6 load the channel part of the pipe 1 to the calculated value. Stacked sections 3.4 to the design marks of trench 5 are loaded from the center in both directions, followed by filling with soil 11 of the entire section of the gas pipeline, while at least 1 m of soil should be above the top of the pipe. Monitoring of the state of the pipe metal is carried out by acoustic emission (AZ) .

 Repair of sagging and washed out sections of the underwater pipeline using the described method of replanting allows them to be brought into compliance with the requirements of SNiP 2.05.06-85 for the underground method of laying pipelines. In addition, it is not required to bleed gas into the atmosphere from 3 to 5 million cubic meters.

 Example. Design solution for the underwater passage of the Ukhta Torzhok gas pipeline, IV line 142 mm in diameter across the Kochenga River.

 The pipeline was laid above the design elevations in the channel part, as a result of which the banks eroded with bare pipes up to 40 meters.

The main idea of the invention is the compensation of excess space between the lower generatrix of the pipeline 1 and the new position of the pipeline 5 with its redistribution to adjacent sections 3 and 4, for which the area along the lower generatrix of the pipeline 1 and curve 5, which depicts the new position of the buried pipeline, are calculated. For the position of the pipeline shown in the drawing, it amounted to 526.0 m ² .

The option of deepening from two adjacent sections is selected. The calculation of the areas is carried out from the condition of unchanging stresses, that is, the open section is planted to a depth of 1 mm below the bottom of the river, and the length of the lower generatrix of the pipe 1 is not limited to the open part, but it is taken into account when the adjacent area between the inflection points D and E of the pipe sections 3 and 4. Selected profile area of section 3, equal to 230 m ² , and section 4 296 m ² . And thus, the planted area practically along the entire length fits into a new trench without increasing stresses in the pipe.

Claims (1)

 A method of repairing sagging and washed out sections of an underwater pipeline, which consists in opening a repaired section of a pipeline, deepening a trench under it, and then laying it at new elevation and backfill levels, characterized in that they open blurred and adjacent sections of a pipeline of opposite or identical curvature, In this case, the sections are opened in parts equal to the length of the horizontal line of intersection of the water horizon from the top of the embankment of the lower part of the site with the point of the future trench in In order to raise it, make a deeper trench along the pipeline along the design trench with an increase in shoulder opening on both sides with subsequent extraction of soil under the pipe in sections that provide an acceptable bending radius of the pipeline lying on two supports, fill with jumpers with water, choose intermediate support jumpers, extending the free span pipes in water from both adjacent sections trim the bridges in stages to the depth of the upper bridges to the channel of the blurred section, with the final section of the bridges , limiting the channel part, the gas pipeline is unloaded from the center of the eroded area in both directions, followed by backfilling of the trench.