RU2700029C1 - Method for cleaning tubing string and device for its implementation - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to mechanical cleaning and decontamination of internal surface of pipes and can be used in oil and gas industry for removal of asphaltene-resin-paraffin deposits, contaminated with natural radionuclides (NRN), from inner cavity of separate and decommissioned oil and gas-well tubing being on temporary storage. Proposed method comprises cleaning of pipe outer surface, machining of pipe inner surface with metal cutting tool – cutter. At that, in addition, process of internal pipe surface treatment by screw scraper is performed. Proposed device comprises milling machine to process tube inner surface with pipe fastening device behind outer surface, rod with rod feed device inside the pipe, drive at one end of the rod and cutter at the other end of the rod. A screw scraper is arranged on the rod between the drive and mill.

EFFECT: high efficiency of removing sawdust and radioactive material from the inner part of the pipe and improving cleaning efficiency by scraping the inner surface of the pipe with a screw scraper, as well as by removing metal layer from inner part of pipe by milling, since removes, apart from deposits and layer of metal destroyed by corrosion, in cracks of which and in inner layer of metal radioactive contamination is retained.

5 cl, 10 dwg

Description

The invention relates to techniques for mechanical cleaning and decontamination of the inner surface of pipes and can be used in the oil and gas industry to remove asphalt-resin-paraffin deposits (ASA), contaminated with natural radionuclides (PRN), from the internal cavity of individual and decommissioned oil and gas pumping compressor pipes (tubing) and decontamination of their inner surface.

Known "Device for disinfection with stepped and annular scraper blades for the inner wall of the drill pipe" CN 106150435 [1] containing groups of scraper blades that are equally spaced around the pipe in the circumferential direction; groups of scraper blades have at least two layers and are distributed up and down along the axis of the core tube; in a side view, the main bodies of the scraper blades are O-shaped; scraper blades are connected to the outer wall of the core tube through support arms; in a plan view, the inner edges and outer edges of the groups of scraper blades are concentric circles.

The disadvantages of the known design are the low cutting ability of the tool, leading to an insufficient degree of cleaning deposits, in turn, to a decrease in efficiency.

Closest to the claimed technical solution is the "Device for the mechanical cleaning of oil and gas pipes from asphalt-tar and paraffin deposits and decontamination of their inner surface" RU 130523 [2], including cleaning the outer surface of the pipe, machining the inner surface of the pipe with a metal-cutting cutting tool - milling cutter.

The known method has increased efficiency due to the use of a cutting tool - cutters.

A disadvantage of the known design is the insufficient removal of sawdust and material cut by the cutter from the inner walls of the pipes to be cleaned and low cleaning efficiency.

The technical result of the invention is to increase the removal efficiency of sawdust and radioactive material from the inside of the pipe and to increase the cleaning efficiency.

The technical result is achieved by the fact that a method of cleaning tubing, including cleaning the outer surface of the pipe, machining the inner surface of the pipe with a metal cutting tool - mill, is characterized by the fact that (except for milling) an additional process is carried out for processing (scraping) of the inner surface of the pipe with a screw scraper .

A device for cleaning tubing containing a milling machine for treating the inner surface of a pipe with a mill on one end of the shaft and an actuator on the other end of the rod is characterized in that a screw scraper is located on the rod, in its central part, between the drive and the mill.

As a mill, you can use a removable countersink, which will allow you to quickly replace the tool.

The rod to the actuator can be fastened by means of a transitional part in the form of a disk having a plane of attachment to the actuator perpendicular to the axis of the rod and holes for fasteners located along a circle whose diameter is larger than the diameter of the rod, which allows you to quickly change the rod.

A device for cleaning tubing may further comprise a roller table, a machine for cleaning the outer surface of the pipe, a device for collecting waste, such as a chip pump with a filter and a chip container, attached to a metal (transport) container.

In FIG. 1 is a side view of a device for treating the inner surface of pipes, FIG. 2 is the same, end view, in FIG. 3 a tool for processing the inner surface of a pipe assembly, FIG. 4 adapter disk, in FIG. 5 rod, in FIG. 6 is a scan of a screw scraper, in FIG. 7 is a side view of the countersink; FIG. 8 countersink end view, in FIG. 9 a pipe cleaning device in a container with auxiliary devices, FIG. 10 sleeve, where:

1 - pipe mounting device;

2 - countersink;

3 - rod;

4 - screw scraper;

5 - rod drive;

6 - adapter disk;

7 - live rolls;

8 - a rack for dirty pipes;

9 - machine for cleaning the outer surface of the pipe;

10 - abrasive cutting machine;

11 - suction unit;

12 - ventilation dust collecting unit;

13 - waste container;

14 - a rack for clean pipes;

15 - transport container;

16 - sleeve.

The described method relates to the field of metalworking, in particular, mechanical cleaning (decontamination) of the internal surfaces of tubing with a high content of natural radionuclides using a hand tool of complex (compound) design. The method is preferably used in the oil and gas industry and is part of the installation for cleaning tubing and allows for integrated and safe handling of contaminated oilfield equipment.

The installation for cleaning tubing (hereinafter referred to as UONKT) is intended for the cleaning and decontamination of tubing to comply with sanitary standards NRB-99/2009 (SanPiN 2.6.1.2523-09) by mechanical removal (drilling) of internal deposits with a high content of natural radionuclides.

UONKT modular type is made on the basis of transport containers 15 universal type 1AA GOST 18477-79, allowing transportation by road, rail and sea.

The device of a removable tool of a complex (composite) design and a pipe supply system allows you to effectively clean the inner surfaces of tubing from asphalt, maraparaffin and oxide deposits with a high content of natural radionuclides in a mobile unit for cleaning tubing (UONKT). The construction tool has been developed for the first time.

The problem to which the claimed invention is directed is to implement a method and device that meets modern requirements for safety, energy saving, durability, ease of transportation, installation and operation.

Brief description of the operation of the tubing cleaning installation.

The operation of the installation of cleaning tubing in General is presented in Fig.9.

Tubing is sorted by inner diameter and placed on the rack 8 for dirty tubing, then the pipe is placed on the feed roller 7.

On the roller conveyor through the technological window, the pipe is smoothly fed to the machine for cleaning the outer surface of the pipe 9.

After cleaning the outer surface, the pipe is conveyed via the roller conveyor to the abrasive cutting machine 10, where the tubing is cut to the required length (up to 3 m).

In the operations of cleaning and cutting tubing, waste is removed by two suction units 11 and a ventilation dust collecting unit 12, which are turned on automatically, remove dust and abrasive, collecting waste in a waste container 13 (MK-1.36A or KRAD - 1.36). In this case, aerosol emissions of radionuclides in the work area are excluded.

Next, a cut 3-meter tubing is installed in a mobile tray for internal tubing cleaning.

After installing the tubing in the movable tray and securing the pipe in the tray, using pipe fastening devices 1 (clamping handles). A vertical drill is selected for cleaning in accordance with the inner diameter of the tubing.

After that, the tubing is internally cleaned.

If necessary, final cleaning of the inner surface of the pipe is carried out using a nozzle for abrasive blast cleaning of the inner surface of the pipe (not shown). The cleaned tubing is removed from the machine and stacked on a rack for “clean” pipes 14.

Removable tool:

An assembly drawing of a removable tool (boring bar) is shown in Fig. 3. The removable tool consists of a countersink 2, a sleeve (tip) 16, a rod 3 with a screw scraper 4 and a transition disk (flange) 6.

A sleeve is welded on one side of the rod for connection through it with a countersink, and on the other hand, a transition disk for connection with the rod drive.

Screw scraper 4 (coil) on the rod is made of a rolling sheet. The scan of the coil is shown in Fig.6.

Removable tool in tubing cleaning technology:

A 3 meter long cut tubing is installed in a mobile tray for internal tubing cleaning. After installing the tubing in the movable tray and securing the pipe in the tray, using pipe fastening devices 1 (clamping handles), a vertical drill 2 is selected for cleaning in accordance with the inner diameter of the tubing.

The vertical drill is installed in the sleeve 16, (tip) of the rod 3, in turn, the rod through the adapter disk (flange) is attached to the actuator of the rod 5, which creates the torque of the rod.

Using a mobile platform, the tray on which the tubing is laid moves in the direction of a rotating rod with a countersink at the end.

Using a mobile platform, the tubing tray is pushed onto a rotating removable tool, which is a boring bar on one side of which there is a flange for mounting on the drive, on the other hand, a vertical drill, whose working surfaces are a means of cleaning the inner surface of the tubing. Thus, the internal cleaning of the tubing is carried out.

Thus, the claimed design of the technology for the use of a removable tool and a tubing supply system for tubing cleaning at a mobile tubing decontamination unit allows quick and technologically clean tubing, while the process is carried out without unnecessary heat loss with the necessary safety .

The technical result is an increase in the efficiency of removing sawdust and radioactive material from the inner part of the pipe and an increase in cleaning efficiency is achieved by the fact that the screw scraper, in addition to efficiently removing chips, scrapes the inner surface of the pipe, removing residual contamination of radioactive materials.

Industrial application. The invention can be successfully applied for cleaning tubing.

Claims (5)

1. A method of cleaning tubing, including cleaning the outer surface of the pipe, machining the inner surface of the pipe with a metal cutting tool - a milling cutter, characterized in that it additionally produces a process for treating the inner surface of the pipe with a screw scraper. 2. A device for cleaning tubing containing a milling machine for processing the inner surface of the pipe with a device for fastening the pipe to the outer surface, a rod with a rod feeding device inside the pipe, a drive at one end of the rod and a cutter at the other end of the rod, characterized in that it further a screw scraper is located on the rod between the drive and the mill. 3. The device for cleaning tubing according to claim 2, characterized in that a removable countersink is used as a milling cutter. 4. The device for cleaning tubing according to claim 2, characterized in that the rod is attached to the drive by means of a transition piece in the form of a disk having a plane of attachment to the drive perpendicular to the axis of the rod and holes for fasteners located along a circle whose diameter is larger the diameter of the rod. 5. The device for cleaning tubing according to claim 2, characterized in that it further comprises a roller table, a machine for cleaning the outer surface of the pipe, an abrasive cutting machine, a device for removing and collecting waste, all devices are attached to a metal container.

Images