RU2517997C1 - Method of above ground oil and gas pipelining through rocky and mountainous terrain - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: pipeline is mounted on posts articulated on a base with the possibility of rotation. At the top part of each post, a two-piece binding band with horizontal bolt-type flange connection of lower and upper elements embracing a pipeline with minimum clearance is fixed. On both sides of a pipeline with inclination from it, two steel wire ropes are mounted symmetrically, with the upper ends secured at a binding band and the lower ends hooked onto eyes at their bases. At that, each post is made of two beams of the same size, located at acute angle to each other, which vertex is pointed towards the pipeline. Each of two beams is articulated with flange connection of one two-piece binding band and individual bases of each beam with the possibility of rotation of the beams in plane along the pipeline axis. The upper ends of ropes are secured between the top beam articulations.

EFFECT: faster pipeline mounting process, use of support posts of the same size with the different height of the pipeline position at its various sections, increased transverse and buckling stability of a pipeline, higher reliability of its operation.

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Description

The invention relates to pipeline transport, and in particular to methods of ground laying pipelines for transporting oil and gas in rocky mountainous terrain.

A pipeline support is known, comprising a hollow base intended for fixing in the ground, in which longitudinal grooves are made from opposite sides and brackets are fixed, a stand designed to support the pipeline, placed in the base cavity with the possibility of longitudinal reciprocating movement, the support being provided with rotary nodes installed in the upper part of the support strut and in the lower part of the base, and levers, the axes of which are fixed on the brackets, with one end of the lever in Full to abut a rack end and the second end of the lever is mounted to be movable along the load arm to create a controlled force acting on the pipeline (RU №2211981 C1, IPC ⁷ F16L 3/26, publ. 09.10.2003).

The disadvantages of the known support are high metal consumption due to the need to balance the full weight of the supporting part of the pipeline with the help of counterweights, the inability to use it for laying the pipeline in rocky-mountainous terrain with a complex profile of the transportation route.

A pipe support is known, comprising a rack, blocks and a rope enveloping them connected to the loads, the support being provided with a hollow base fixed in the ground, in which longitudinal grooves are made from opposite sides, and the rack is placed in the base cavity with the possibility of supporting the pipeline and the possibility of longitudinal return - translational movement. The bearing movable blocks brackets are placed in the grooves of the base, on which the supporting movable blocks brackets are fixed above the longitudinal grooves, and the loads are connected to ropes, each of which sequentially bends around the corresponding fixed and movable blocks, and the ends of the ropes are fixed on the base above the longitudinal grooves RU No. 2211981 C1 , IPC ⁷ F16L 3/26, publ. 10/09/2003).

A disadvantage of the known construction of the support is the impossibility of its use when laying oil and gas pipelines through rocky mountainous terrain with a complex profile of the supporting surface for the pipeline, the complexity of the design, which consists in the presence of rotating elements (blocks) and balances of a sufficiently large size to balance the weight of the supported part of the pipeline, which increases the intensity and reduces the reliability of the support system of the pipeline.

A known adopted as a prototype method of land laying of oil and gas pipelines through rocky mountainous terrain, including supporting the pipeline on fixed on the base of the rack, supporting racks on the base are fixed using hinges oriented along the axis of the pipeline, with the ability to rotate the racks in a plane perpendicular to the longitudinal axis of the pipeline at the same time, on the top of each rack, a detachable bandage is fixed with a horizontally oriented bolted flange connection of the lower and upper elements, the covers the pipeline pipe with minimum clearance, and two steel wire ropes symmetrically located on both sides of the pipeline with an inclination from it, which are fixed with their lower ends on the base with the possibility of disconnecting from it, while the height of the racks placed along the pipeline is selected depending from the relief of the supporting surface from the condition of ensuring the minimum number of kinks in the vertical plane. Closed single strand ropes with a rigid core are accepted as steel wire ropes. On the racks in their lower part stiffeners can be fixed, the planes of which are oriented along the longitudinal axis of the pipeline (RF Application No. 20111118654/06, IPC ⁷ F16L, dated 05/10/2011).

However, the known technical solution does not take full advantage of the possibilities in solving the problem of simplifying the construction of supports with the possibility of reducing metal consumption, cost and laboriousness during repair and restoration work, since with a complex profile of the supporting surface for the pipeline, each supporting device for it must be performed with different dimensions of racks and steel wire ropes fixing them. This complicates the manufacture of supports of different heights, as well as the installation process of the pipeline and its duration.

An object of the invention is to simplify the manufacture of supports, reduce the cost and reduce installation time of the pipeline with a complex profile of its supporting surface on rocky mountainous terrain.

The technical result is achieved by the fact that in the method of ground laying oil and gas pipelines through rocky mountainous terrain, including supporting the pipeline on racks fixed on the bases, which are fixed on the bases with hinges, with the possibility of turning the racks with the split band fixed on the top of each rack with horizontally oriented bolted flange connection of the lower and upper elements, covering the pipe pipe with minimal clearance, and the installation of two steel wire channels Atoms symmetrically located on both sides of the pipeline with an inclination from it, which are fixed at the top with their upper ends and attached to the bottom with hooks at the bottom, can be disconnected from it, while each rack is made of two beams of the same size, located under a sharp angle to each other, the top of which is oriented towards the pipeline, with swivel joints of each beam with a flange connection and independent bases of each beam with the possibility of turning the beams in a plane ty, placed along the axis of the pipeline, the upper parts of the steel wire ropes are fixed between the upper hinges of the beams, and the lower ends are fixed on their bases, which are made with several loops at each end with the possibility of connecting hooks to them at the ends of the ropes.

The method of laying the pipeline is illustrated by drawings, in which Fig. 1 shows a side view of the pipeline, in Fig. 2 is a section A-A in Fig. 1, in Fig. 3 is a section B-B in Fig. 1.

The method of surface laying of oil and gas pipelines through rocky mountainous terrain involves supporting the pipeline 1 on a rack fixed to the bases. Each rack is made of two beams 2 and 3 of the same size located at an acute angle α to each other. In this case, the apex of the acute angle α between the beams 2 and 3 is oriented towards the pipe 1. Each beam 2 and 3 is connected using one of the joints 4 and 5 with one detachable bandage 6 with a flange connection 7, and with the help of hinges 8 and 9 with independent bases 10 and 11 of each beam 2 and 3 with the possibility of their rotation in a plane placed along the axis of the pipeline 1. On both sides of the pipeline 1 are symmetrically placed two steel wire ropes 12 and 13 with an inclination from it, which with their upper ends are fixed on the bandage 6 between the upper hinges 4 and 5 b Alok 2, 3, and their lower ends with hooks 14 and 15 are fixed on their own base 16, which is performed with several loops 17 and 18 at each end with the possibility of connecting hooks 14 and 15 to them at the ends of ropes 12 and 13. 19 - supporting surface of rocky mountainous terrain.

The laying of oil and gas pipelines through rocky mountainous terrain is as follows. Before mounting the pipeline 1, the required number of supports is made in the form of double racks with the same dimensions of their elements - beams 2 and 3, ties 6 with flange joints 7, pieces of steel wire ropes 12 and 13 of the same length, bases 10, 11 and 16. The length beams 2 and 3 are taken taking into account extreme fluctuations in the height h of the placement of the pipeline 1 above the supporting surface 19 for the conditions of the planned longitudinal profile of the route of the pipeline 1. Depending on the profile of the route of the pipeline 1, which determines the height h of its placement above the op surface 19 on the next section of the route, the base 10 and 11 with hinges 8 and 9 fixed to them by beams 2 and 3 of each rack, the upper parts of which are hinged 4 and 5 are fixed to the flange connection 7 of the brace 6, are placed at a distance L from each other, equal to L = 2 ( a ² -h ² ) ^0.5 , where a is the length of each beam 2 and 3, h is the height of the next section of the pipeline 1 above the supporting surface. Moreover, at a maximum height h, the angle α between the beams 2 and 3 is minimal, and at a minimum height h, it is increased. Then, the upper ends of the ropes 12 and 13 are attached to the flange connection 7 of the bandage 6, and a base 16 is placed between the bases 10 and 11 on the supporting surface 19. Depending on the height h of the pipe 1 above the supporting surface 19, the hooks 14 and 15 of the lower ends of the ropes 12 and 13 are fixed on the corresponding loops 17 and 18: at the maximum height h, the lower ends of the ropes 12 and 13 are fixed on the extreme loops 17 and 18 from the side of the pipe 1, and at the minimum height h - on the loops 17 and 18 located at the ends of the base 16. After this mounted pipe section water 1 is placed on the shroud 6.

The proposed method of laying a pipeline through rocky mountainous terrain provides a cheaper and faster installation process due to the fact that it is not necessary to produce support racks of different heights, but you can use their prefabricated set if they are easily adapted for different heights of the pipeline in different sections. In addition, the proposed design of the support posts provides increased lateral and longitudinal stability of the pipeline and, accordingly, increased reliability of its operation.

Claims (1)

A method of ground laying oil and gas pipelines through rocky mountainous terrain, including supporting the pipeline on racks fixed on the bases, which are fixed on the bases with hinges, with the possibility of turning the racks with a detachable band fixed to the top of each rack with a horizontally oriented bolted lower flange connection and the upper elements, covering the pipeline pipe with a minimum clearance, and the installation of two steel wire ropes symmetrically located on both sides from the pipeline with an inclination from it, which are fixed on the bandage with their upper ends, and the hooks are fixed on their bottom with hooks detachable from it, characterized in that each rack is made of two beams of the same size, arranged at an acute angle to each other, the top of which is oriented towards the pipeline, with swivel joints of each beam with a flange connection of one detachable bandage, and independent bases of each beam with the possibility of rotation of the beams in the plane, p zmeschennoy of the pipeline axis, the upper part of the steel wire ropes secured between upper beam joints, and lower ends secured to their bases, which operate with several loops at each end for connection to hook them on the ends of the ropes.

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