RU56550U1 - SYSTEM OF EMPLOYMENT AND SIMULTANEOUS MONITORED INERT GAS FILLING OF THE OIL PIPELINE PART - Google Patents

Abstract

The utility model relates to the field of operation of main oil pipelines and can be used to carry out scheduled repair work on pipelines transporting oil and oil products. It can also be used for emptying and filling with inert gas oil pipelines that have developed a resource for safe operation and are intended for temporary conservation. The essence of the proposed technical solution is as follows. The proposed system, as well as the known one, includes a section of the pipeline to be repaired or preserved and cut off by valves, a media separator piston installed in the pipeline and a power plant for injecting inert gas into the emptied section of the pipeline. But unlike the known one, the proposed system contains: at least a cryogenic tank with liquid nitrogen and a nitrogen gasification unit designed to inject gaseous nitrogen into the pipeline; a medium separating piston made of at least five cast foam rubber pistons installed sequentially in the oil pipeline one after the other, and a gel plug layer is installed between the third and fourth pistons. In addition, the system includes at least a mobile pumping unit designed to pump oil from the oil pipeline, as well as two gas analyzers and two pressure gauges installed in the oil pipeline at least at the beginning and end of the cut off section of the oil pipeline. At the same time, during the operation of the entire system, the main parameters are monitored - pressure in the oil pipeline, productivity of the nitrogen gasification unit and mobile pumping unit, speed and location of the medium separator piston in the oil pipeline. In the proposed system, instead of a power plant containing a cryogenic unit with liquid nitrogen and a nitrogen gasification unit, a mobile membrane nitrogen unit can be used to produce gaseous nitrogen from ambient air due to the selective permeability of the membrane material by various air components.

1 illustration.

Literature:

1. "Method of emptying a defective section of the pipeline" according to the description of the invention to the patent of the Russian Federation No. 2069766, IPC class 6 F 16 L 55/10, published on 05/20/1997, bull. No. 15.

Description

The utility model relates to the field of operation of main oil pipelines and can be used to carry out scheduled repair work on pipelines transporting oil and oil products. It can also be used for emptying and filling with inert gas an oil pipeline that has developed a resource for safe operation and is intended for temporary conservation.

A device that implements the "Method of emptying a defective section of the pipeline" according to the description of the invention to the patent of the Russian Federation No. 2079766, IPC class 6 F 16 L 55/10, published on 05/20/1997 in Bull. No. 15 (1)

The essence of this invention is as follows. A medium separator piston is passed through the pipeline with its subsequent stop, and the medium separator piston is stopped by means of a partially closed valve located behind the defective section of the pipeline by the oil flow. Then, the valves are completely closed and the piston-separator of the media is moved in the opposite direction with inert gases pumped through the outlet in the pipeline, for example, nitrogen gas or exhaust exhaust gases, to a partially closed valve located in front of the defective section, followed by complete closure of the latter.

The disadvantage of this invention is that it does not have sufficient means and devices to ensure a guaranteed and controlled emptying of the pipeline from oil and its complete filling with inert gas. In this case, the inert gas pressure for moving the media separator piston and forcing oil out of the defective section of the oil pipeline into the existing oil pipeline should be higher than the pressure in the existing oil pipeline, which requires significant energy consumption and the mass of injected gas.

In addition, in oil pipelines made with washer rings at the joints of pipes welded together, the medium separator piston receives mechanical damage when it moves in the oil pipeline

from the edges of the bearing rings protruding on the surface inside the pipe by 5 mm, which do not allow ensuring the proper quality of cleaning the internal cavity of the oil pipeline and the displacement of oil in full.

The goal in developing the proposed utility model is to create a universal and effective system for emptying and at the same time controlled filling of the pipeline section with inert gas. At the same time, the system should be suitable for use in oil pipelines made with washers.

The specified goal and technical result are implemented as follows.

The proposed system, as well as the known one, includes a section of the pipeline to be repaired or preserved and cut off by valves, a media separator piston installed in the pipeline and a power plant for injecting inert gas into the emptied section of the pipeline.

But unlike the known one, the proposed system contains: at least a cryogenic tank with liquid nitrogen and a nitrogen gasification unit designed to inject gaseous nitrogen into the pipeline; a medium separating piston made of at least five cast foam rubber pistons installed sequentially in the oil pipeline one after the other, and a gel plug layer is installed between the third and fourth pistons.

In addition, the system includes at least a mobile pumping unit designed to pump oil from the oil pipeline, as well as two gas analyzers and two pressure gauges installed in the oil pipeline at least at the beginning and end of the cut off section of the oil pipeline. At the same time, during the operation of the entire system, the main parameters are monitored - pressure in the oil pipeline, productivity of the nitrogen gasification unit and mobile pumping unit, speed and location of the medium separator piston in the oil pipeline.

In the proposed system, instead of a power plant containing a cryogenic unit with liquid nitrogen and a nitrogen gasification unit, a mobile membrane nitrogen unit can be used to produce gaseous nitrogen from ambient air due to the selective permeability of the membrane material by various air components.

As a close analogue of the proposed emptying system and the simultaneous controlled inert gas filling of a section of the pipeline, you can take devices that implement the "Method of emptying a defective section of the pipeline" according to the source of patent information (1).

The presented figure schematically shows the proposed system of emptying and simultaneous controlled filling with inert gas section of the pipeline.

The proposed system contains the following machines, equipment, units, devices and appliances.

The section of the oil pipeline 1 to be repaired or preserved, with a pipe diameter, for example, from 720 mm to 1220 mm, made with or without washer rings, is cut off from the main by valves 2 and 3. At the beginning and at the end of the cut-off section of the oil pipeline 1, gas analyzers 4 and 5 are installed and manometers 6 and 7.

At the beginning of the cut off section of the pipeline 1, a pipeline 8 is connected with a valve 9, through which nitrogen gas is supplied to the pipeline 1 from a nitrogen gasification unit 10, to which, in turn, a cryogenic tank 11 with liquid nitrogen is connected. In the proposed system for the production of gaseous nitrogen directly from the ambient air directly at the place of work can be used mobile membrane nitrogen installation.

At the beginning of the cut-off section of the oil pipeline 1, a media separator piston is installed made of five cast foam rubber pistons 12, each of which has a length equal to about 1.5-2 diameters of the oil pipeline 1. A gel plug 13 is installed between the third and fourth pistons 12, which serves as an additional sealing element and has a length equal to approximately two diameters of the oil pipeline 1.

At the end of the cut-off section of the pipeline 1 using a mobile pumping unit 14 through the pipeline 15, equipped with valves 16, pumping oil from the emptied section to the parallel thread 17 of the existing pipeline or directly to the pipeline 1 behind the valve. 2.

The proposed system of emptying and simultaneous controlled inert gas filling of the pipeline section operates as follows.

The pipeline section 1 to be repaired is cut off by valves 2 and 3 and equipped with the above instruments, equipment, machines and prepared for emptying from oil. At the end of the cut-off section 1 in front of the valve 2, a mobile pumping unit 14 is put into operation and oil is pumped either into the parallel string 17 of the oil pipeline or directly into the oil pipe 1 behind the valve 2.

At the same time, nitrogen gas under a pressure of 0.4 MPa and a temperature of about 20 ° is sent from the cryogenic tank 11 with nitrogen and, accordingly, from the nitrogen gasification unit 10 through pipeline 8 to the oil pipeline 1. Gaseous nitrogen at a pressure of 0.4 MPa acts as a working fluid and moves a group of pistons 12 with a gel layer 13 along the oil pipeline 1 while cleaning the inner surface. At the same time, foam rubber pistons overcome local local narrowing in the oil pipeline formed by backing rings due to their own deformation, and pumping oil in front of the pistons using a mobile pumping unit 14 can reduce the gas pressure required for moving the pistons to 0.4 MPa and its mass flow rate.

The space in the oil pipeline 1, formed after the displacement of oil and the movement of the pistons 12, is simultaneously filled with gaseous nitrogen, which also acts as a neutral medium for preserving the cut-off section of the oil pipeline 1.

During the operation of the entire system when emptying the oil pipeline, the main parameters are monitored - pressure in the oil pipeline, productivity of the nitrogen gasification unit and mobile pumping unit, speed and location of the medium separator piston in the oil pipeline.

After complete displacement of oil from the cut off section of the pipeline 1, the composition of the medium in the cavity of the pipeline is controlled at the beginning and at the end of the section with gas analyzers 4 and 5.

The proposed system was developed at Transsibneft and tested from December 17 to 21, 2005, when a section of the Omsk-Anzherskaya oil pipeline with a length of 39.16 km was freed from oil.

In the course of work, 15087 m ^{3 of} OIL was pumped from this section of the oil pipeline, 95552 cubic meters of gaseous nitrogen were pumped (under normal conditions).

A high degree of purification of the inner surface of the pipeline 1 was noted; after removing from the pipeline 1 pistons 12 after the last

of these, no traces of oil in the form of spills, drops, paraffin deposits were found on the inner wall of the oil pipeline.

Checking the quality of oil evacuation of section 1 of the pipeline at the end of the pilot work (the release of the gas medium through the plungers and sampling, pressure measurements, dipstick measurements through the control holes) showed the absence of oil and emulsion.

According to the results of a laboratory analysis of a gas sample taken from pipeline 1 after its preservation, the volumetric oxygen content was 0.09%, carbon dioxide - 0.02%, hydrocarbons - 0.23%, nitrogen - 99.66%.

Literature:

1. "Method for emptying a defective section of the pipeline" according to the description of the invention to the patent of the Russian Federation No. 2079766, IPC class 6 F 16 L 55/10, published on 05/20/1997, Bull. No. 15.

Claims (2)

1. The system of emptying and simultaneous controlled inert gas filling of the pipeline section, including the pipeline section to be repaired or preserved and the pipeline section cut off by the valves, the media separator piston installed in the oil pipeline, an energy installation for pumping inert gas into the empty section of the pipeline, characterized in that it comprises: at least a cryogenic tank with liquid nitrogen and a nitrogen gasification unit designed to inject gaseous nitrogen into the pipeline; a medium separating piston made of at least five cast foam rubber pistons installed sequentially in the oil pipeline one after the other, with a gel interlayer between the third and fourth pistons; at least a mobile pumping unit for pumping oil from an oil pipeline; two gas analyzers and two pressure gauges installed in the oil pipeline at least at the beginning and at the end of the cut off section of the oil pipeline; at the same time, in the process of functioning of the entire system, the main parameters are monitored - pressure in the oil pipeline, productivity of the nitrogen gasification unit and mobile pumping unit, speed and location of the medium separator piston in the oil pipeline. 2. The system according to claim 1, characterized in that the power plant is made in the form of a mobile membrane nitrogen plant.