RU2698172C1 - Method of repair with replacement of damaged pipes on main lines of liquid hydrocarbons using elastic in-pipe sealers - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: invention relates to field pipelines for oil and oil products. Method of repair with replacement of damaged pipes on main pipelines of liquid hydrocarbons using elastic in-tube sealers includes installation of repair pipe with cutting in its middle part of mounting opening, installation of repair neck on it. After cutting the defective section of the pipeline, elastic in-pipe sealers are installed in each of the pipeline parts. Ends of pneumatic lines connected to elastic in-pipe sealers and mounting cables connected to mounting rims, which are attached to elastic in-tube sealers in their middle part, are brought out through mounting opening. Sealants are filled with gas. Repair string of pipes is connected to pipeline by welding, gas is released from elastic in-pipe sealers, and they are successively pulled out through mounting opening by means of mounting cables. Mounting insert is installed and fixed by means of tack welders. Slots between end edges of mounting opening and mounting insert are filled with composite sealant. A plug is attached to the repair neck.

EFFECT: invention of oil products and can be used at repair of their defective areas.

1 cl, 2 dwg

Description

The invention relates to the field of trunk pipeline transport of oil and oil products and can be used in the repair of their defective areas.

During operation of the main pipelines of liquid hydrocarbons, situations arise that require repair with the replacement of damaged pipes.

When considering the technical literature, a number of technical solutions related to this issue were identified.

A known method of repairing a pipeline, including cutting off a product of pumping at a defective site, draining product residues, cutting the defective site using a fireless method, installing tampons (plugs) made in the form of a cylinder with flanges at the pipe ends, in one of which through holes are made, soaking the polymer up to swelling, smearing it on the deepened part of the plugs to the level of the largest diameter of the flange, removing the plugs at the ends of the pipeline, orienting the flanges with holes towards each other, soaking the floor mine, providing a tight impermeable overlap of the pipeline during the swelling of the mass, burning pumping products on the inner walls of the pipeline before the plugs, supplying water to the polymine through holes in the flanges before welding a new pipe section (patent for invention RU 2032124, class F16L 55/18, publ. March 27, 1995).

The disadvantages of this method are:

high degree of danger of carrying out hot repair work;

high complexity of preparatory work;

contamination of the product pumped through the pipeline with fragments of destructible tampons (plugs);

the need for additional costs for creating increased pressure in the pipeline to ensure the forcing of tampons (plugs) after completion of repair work and their removal from the internal cavity of the pipeline.

A known method of repairing an oil pipeline using temporary overlap, including cutting off the product of pumping at the defective site, draining product residues, cutting the defective site using a fireless method, installing tampon-sealers made in the form of a cylindrical blank with clay coating at the ends, which has a cavity for stock water and a mass that can swell under the action of water coming from the cavity, cleaning the inner surface of the pipeline through the open ends of the pipe from paraffin deposits by evaporation, preliminary filling of the preform cavity with water to the first signs of mass swelling, final filling of the cavity with water, installation of the preform in the open ends of the pipeline in a zone cleared of paraffin deposits before swelling of the swabs to the size and shape of the pipeline sealing, destruction of sealant swabs after completion of repair work oil flow to the state of clay sediment and paper fragments, removing fragments from the oil pipeline through the chambers of cleaning and diagnostic tools or draining into reservoir of settling (patent RU 2604981, Cl. F16L 55/12, F16L 55/18, publ. 12/20/2016, bull. No. 35).

The disadvantages of this method are:

the complexity and long duration of work on the preparation and installation of tampon-sealants;

contamination of the product pumped through the pipeline with fragments of destructible tampon-sealants;

the need for additional costs for creating increased pressure in the pipeline to ensure the destruction of tampon-sealants after completion of repair work and extraction of fragments from the internal cavity of the pipeline.

Closest to the claimed invention is a method of carrying out repair work on a pipeline using a rubber cord sealant (GRK), comprising drilling holes on the wall of the repair section of the pipeline to discharge the GRK pneumatic pipeline, installing the GRK into the internal cavity of the pipeline through its open end in the absence of overpressure, oil inflow or vacuum in the pipeline, with the output of the pneumatic pipe to the outside, filling the GRC shell with working gas to the working pressure to completely shut off the pipeline and fixing the GRC therein, increasing the working gas pressure in the GRC shell and maintaining the increased pressure for at least 15 minutes, followed by lowering the working gas pressure to the working pressure, maintaining the working gas pressure in the GRC shell for the entire time repair work, repair work, depressurization of the working gas in the shell of the gas distribution system to atmospheric pressure, release of the pneumatic pipe from the hole, installation of a plug on the hole and transportation of the gas distribution system during restoration and pumping through the pipeline, followed by extraction of the gas distribution system in the nearest chamber for receiving cleaning and diagnostic tools (patent for invention RU 2508494, cl. F16L 55/12, publ. 02/27/2014, bull. No. 6).

The main disadvantage of this method is

the difficulty of ensuring the integrity of the sealant when moving through the pipeline under the influence of the pumped product and removing cleaning and diagnostic means from the receiving chamber;

danger of reuse of the sealant due to its possible damage in the previous repair work;

the need for additional costs for creating increased pressure in the pipeline to ensure the sealing of the sealants after completion of repair work and their removal from the internal cavity of the pipeline.

The problem solved in the invention is to develop a technology that ensures the implementation of the possibilities for removing elastic in-line sealants from the internal cavity of the pipelines until pumping resumes after completion of repair work on the main pipelines and, therefore, their repeated use in subsequent such works.

The technical result of the invention is to increase the technical and economic efficiency of repairs of trunk pipelines of liquid hydrocarbons, performed with the replacement of damaged pipes.

The problem is solved, and the technical result is achieved as a result of the fact that the repair method with the replacement of damaged pipes on the main pipelines of liquid hydrocarbons using flexible in-line sealants includes cutting a defective pipe section, installing a repair whip of pipes with a cut in its middle part of the mounting opening with a radius that ensures the possibility of dragging through it an unfinished elastic in-line sealant, welding connection e repair neck to the outer surface of the mounting opening, installing elastic in-line sealants in the internal cavity of each of the parts of the pipeline to which the repair whip of pipes is intended to be connected, through which the ends of the pneumatic pipes connected to the elastic in-line sealants and mounting cables connected to the mounting are connected through the mounting opening rims that are attached to the elastic in-tube sealants in their middle part, the gas supply to the inner cavity of the elastic inner pipe sealers until the moment when, according to the results of air-gas monitoring from the outside of each elastic in-line sealant, it will be established that there is no flow of explosive gases from the pipeline, the pipe is welded to the pipe during welding, the gas outlet from the elastic in-line sealants, and they are pulled out through the mounting aperture using mounting cables, installation and fastening using tacks on the repair neck of the mounting insert obtained in cut After cutting the mounting opening, filling the gaps with the composite sealant between the end faces of the mounting opening and the mounting insert, attaching the plug to the repair neck after checking the gas-air environment in the internal cavity of the repair neck and establishing the absence of explosive gases in it.

The invention is illustrated in FIG. 1 and 2.

In FIG. 1 shows the placement of elastic in-line sealants at the place of replacement of a defective section of a trunk pipeline.

In FIG. 2 shows a section of the main pipeline at the place of replacement of damaged pipes after completion of repair.

In FIG. 1 and 2 the following notation is used:

1 - repair pipe whip;

2 - pipeline;

3 - mounting opening;

4 - a repair mouth;

5 - elastic in-line sealant;

6 - mounting rim;

7 - mounting cable;

8 - pneumatic pipe;

9 - mounting insert;

10 - tack;

11 - composite sealant;

12 - a stub.

The repair method with the replacement of damaged pipes on the main pipelines of liquid hydrocarbons using flexible in-line sealants is implemented as follows.

Cut the defective section of the pipeline 2, prepare the ends of the parts of the pipeline 2, to which the repair lash of pipes 1 is to be welded, measure the distance between these ends, mount the repair lash of pipes 1 and mount the repair lash of pipes 1 with a length corresponding to this distance. In the middle part of the repair whip of the pipes 1, the mounting opening 3 is cut out, choosing its radius so that, on the one hand, it is possible to pull through it the unfilled elastic in-line sealant 5 and, on the other hand, be able to use pieces of serial the production of pipes for the device on the outer surface of the mounting opening 3 of the repair neck 4. The contour of the lower part of the pipe segment used for the repair neck 4 is adjusted to the contour of the outer the surface of the pipe used for the manufacture of repair whip pipes 1.

Two elastic in-tube sealants 5 are prepared by attaching a pneumatic pipe 8 to each of them and attaching a mounting rim 6 in its middle part with a mounting cable 7 attached to it.

Each elastic in-tube sealant 5 is placed in the inner cavity of each of the parts of the pipeline 2, to which the repair lash of the pipes 1 is connected at distances from their ends, at which the unacceptable temperature effect from the welding process on the material of the elastic in-line sealants 5 will not be provided. 7 and pneumatic lines 8 through the mounting opening 3 lead out. Connect the ends of the pneumatic pipelines 8 to a pneumatic compressor (not shown) and supply gas to the internal cavity of each elastic in-line sealant 5, periodically measuring the concentration of explosive gases in the gas-air medium that may come from the internal cavity of the pipeline 2. After reaching the pressure in the internal cavity each elastic in-line sealant 5, in which it will be established that there is no flow of explosive gases from the pipeline 2 into the external environment, the gas supply to about the inner cavity of the elastic in-line sealant 5 is stopped.

The end edges of the pipeline 2 and the repair whip of pipes 1 are welded. After its completion, gas is released from the internal cavities of the elastic in-pipe sealants 5 and, with the help of mounting cables 7, the elastic in-pipe sealants 5 are pulled out through the mounting opening 3. In the mounting opening 3, the mounting insert obtained as a result of cutting the mounting opening 3 and pre-equipped with rigidly attached to it at least three equally tacked potholders 10 made of steel wire. The ends of the tacks 10 are fixed on the upper end part of the repair neck 4 so that the outer surface of the mounting insert 9 is flush with the outer surface of the pipe repair whip 1, in which the mounting opening 3 is made. The slots between the end faces of the mounting opening 3 and the mounting insert 9 are filled with composite sealant 11, after hardening of which and a positive result of the control of the gas-air medium in the inner cavity of the repair neck 4 for the absence of plugs in it of explosive gases at 12, they are connected by welding to the repair neck 4. After that, pumping through pipeline 2 is resumed.

Thus, as a result of the implementation of the proposed technical solution, it is possible to increase the technical and economic efficiency of repairs of main pipelines of liquid hydrocarbons, performed with the replacement of damaged pipes through the use of technology that allows the extraction of elastic in-line sealants from the internal cavity of main pipelines until pumping resumes after completion of repair pipelines and, therefore, their repeated use in subsequent t what works.

Claims (1)

Method of repair with replacement of damaged pipes on the main pipelines of liquid hydrocarbons using elastic in-line sealants, including cutting out a defective section of the pipeline, installing a repair whip of pipes with a cutting in its middle part of the mounting opening with a radius that allows the elastic in-pipe sealant to be pulled through it, which is not filled, connecting the repair neck to the outer surface of the mounting opening during welding, installing flexible inner tube seals into the internal cavity of each part of the pipeline, to which a repair whip of pipes is envisaged, with the ends of the pneumatic pipes connected to the elastic in-line sealants and mounting cables attached to the mounting rims that are attached to the elastic in-tube sealants in their middle parts, the gas supply to the internal cavity of the elastic in-line sealants until the moment at which, according to the results of the gas-air control environment from the outside of each elastic in-tube sealant, it will be established that there is no flow of explosive gases from the pipeline, the pipes are joined to the pipe during welding of the repair whip, the gas is exhausted from the elastic in-pipe sealants, they are pulled out through the mounting opening with the help of mounting cables, installation and fastening with tacks on the repair neck of the mounting insert obtained by cutting the mounting opening, filling the gaps between the end face with composite sealant and the faces of the mounting opening and mounting insert, welding plugs to the repair neck after monitoring the gas-air environment in the internal cavity of the repair neck and establishing the absence of explosive gases in it.

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