RU2083804C1 - Method for preventing deposition of paraffin at producing oil from well - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: according to method, oil flow is directed through device which changes oil flow velocity. Used as oil flow velocity changing device is bean setup. Oil flow is forwarded through this setup at pressure differential of 0.015 to 0.035 MPa. Application of device reduces operating and material expenses for fighting PARAFFIN depositions and it can be used in any method of well exploitation. EFFECT: high efficiency.

Description

 The invention relates to the field of oil production, in particular to methods for preventing paraffin deposits in oilfield equipment, mainly in-depth, and is intended for use in the process of pumping and fountain oil production.

There is a method of preventing paraffin deposits in pipelines by passing oil through a device containing a manifold with an internal hydrophilic coating, equipped with heat-removing elements mounted on its outer surface, and areas with high hydraulic resistance (for example, coils). When this method is implemented, oil from the wellhead gets into the coil, where the excessive flow energy is extinguished and the emulsion is partially destroyed due to collision with the hydrophilic walls of the pipes, and the oil is cooled and paraffin crystals precipitate into the solid phase [1]
However, this known method is intended for use only in onshore oilfield equipment. It does not provide protection against paraffin deposits of in-depth oilfield equipment.

 In addition, the implementation of this method requires significant material costs for the manufacture and installation of a bulky section of coils.

Closest to the proposed technical solution is a method of preventing salt deposition in the oilfield equipment of an oil producing well by passing oil through a device, by means of which the oil stream is accelerated, followed by its twisting and the formation of a turbulent stream, which is then subjected to a process of local discontinuity of the medium with the formation of caverns (bubbles) with their subsequent closure at the outlet of the diffuser in front of the impeller vanes of the submersible centrifuge zhnogo pump [2]
However, this known method is intended for use only in oil production by submersible centrifugal pumps. It cannot be realized in oil production by sucker rod pumps and in oil production from wells by a fountain method.

 In addition, the known method requires high operational and material costs, because its implementation requires a complex device.

 The aim of the present invention is to provide the possibility of using the method for any method of operating a well while ensuring ease of implementation of the method, reducing operational and material costs and high efficiency of the method.

 This goal is achieved by the fact that in the known method of preventing deposition of paraffin during oil production from a well by passing an oil flow through a device that changes the speed of the oil stream, a connecting device is used as a device that changes the speed of the oil stream, and the oil stream is passed through the specified device with a pressure drop from 0.015 to 0.035 MPa.

 It was established and confirmed by experiments that, due to the claimed pressure drop range when connecting the oil flow, the spontaneous formation of paraffin microcrystals in the oil volume apparently occurs and there is absolutely no formation of such microcrystals on the walls of oilfield equipment. As a result, paraffin crystals can be freely removed from the well, their deposition on the walls of the equipment is excluded, which means that its protection against paraffin deposits increases.

When implementing the proposed method, the following operations are carried out in the following sequence:
for each well, according to its geological and technical data, the diameter of the bore hole of the fitting device is established, so that when a stream of oil extracted from the reservoir passes through such a hole, a pressure drop in the range from 0.015 to 0.035 MPa is ensured;
for wells that produce oil by pumping (submersible centrifugal pumps, sucker rod pumps, etc.), a fitting device is installed in the immediate vicinity of the receiving valve of the pump unit;
for wells conducting oil production in a fountain way, a fitting device is installed in the well inside the tubing string into the zone of the beginning of paraffin crystallization;
after installing the fitting device into the well, it is put into operation, i.e. conduct oil production from the well.

 Example 1. The method was tested during oil production from a well with a flow rate of 4 tons / day, into the tubing string of which a brand N-43 pump was lowered to a depth of 776 m. Previously, a fitting device was installed in front of the pump intake valve, which was a washer with a hole diameter of 8 mm, providing a differential pressure of the oil flow of 0.015 MPa. During the operation of this well with a mounted fitting device for 24 months of continuous operation with the same flow rate of 4 tons / day, there are no paraffin deposits, there is no need to carry out preventive work to remove paraffin (without washing with hot oil), while earlier this the well required monthly (12 times a year) cleaning the tubing of paraffin.

 Example 2. The method was tested during oil production at the well with a flow rate of 6 tons / day. An N-43 brand pump was lowered into the tubing string of the indicated well to a depth of 1000 m, in front of the inlet valve of which a fitting device was previously installed, which was a washer with a hole diameter of 8 mm in order to ensure an oil pressure drop of 0.035 at the place of installation of this washer MPa When operating such a well for 10 months now, it has been working without repair and without reducing the initial production rate. And before processing this well with the proposed method, 12 hot flushes of this well were carried out annually in order to remove paraffin from the tubing and to maintain its initial production rate.

 Thus, the proposed method allows with a high degree of efficiency to prevent the deposition of paraffin during oil production from the well with any method of its operation (both pumping and fountain).

 In addition, the method is easy to use, because its implementation does not require sophisticated equipment (and the used fitting device is easily manufactured in an ordinary workshop). And thanks to this, the operational and material costs of the proposed method are scanty.

Claims (1)

 A method of preventing paraffin deposition during oil production from a well, comprising passing an oil stream through a device that changes the speed of the oil stream, characterized in that a device is used as a device that changes the speed of the oil stream, and the oil stream is passed through the specified device with a pressure drop 0.015 0.035 MPa.