RU2083915C1 - Method of transportation of oil-well production via pipe lines - Google Patents

Abstract

FIELD: oil production; methods of transportation of oil-well production via flow lines, pipe lines connecting the well with field tank farm and via oil pipe lines. SUBSTANCE: oil-well production flow is treated simultaneously by two actions. Treatment is performed by combination of electric field, magnetic field and action of pressure through cyclic loading and unloading. Treatment is effected at pipe line inlet. EFFECT: enhanced efficiency. 3 cl, 3 dwg, 1 tbl

Description

 The invention relates to oil production, in particular, to a method for transporting oil well products through pipelines of flow lines of wells, through pipelines connecting a well to a commodity fleet and through oil pipelines.

A known method of transporting oil well products, including processing the flow of well fluid with a constant magnetic field [1]
In addition, a method is known for providing combined processing of a flow of a well fluid [2]
Known methods improve the throughput of pipelines, but to ensure the design technological indicators of pipelines it is necessary to achieve maximum throughput of pipelines.

 The technical result of the invention is to increase the throughput of pipelines transporting oil well products.

 This is achieved by the fact that in the method of transporting oil well products through a pipeline providing for the combined processing of a well fluid stream, the flow is treated with an electric and magnetic field, or an electric field and a pressure field, or a pressure field, or a magnetic field, while the electric field is created by tension 0.2-2.0 V / m, and the pressure field by cyclic loading and unloading of the treated well fluid.

 Combined processing is carried out either sequentially or simultaneously. Processing is a combination of electric, magnetic fields and pressure.

 When combined processing with the various types of fields mentioned above, the effect is enhanced, the rheophysical parameters of the oils and the throughput of the pipelines transporting oil well products are improved.

 A device for implementing the proposed method consists of a combination of the following devices: devices for electrical processing; device for magnetic processing; devices for barotreatment.

 With the joint application of physical fields and bar processing, the effect of improving the hydrodynamic parameters of oil is enhanced.

 The drawing shows several schemes of combined processing of a stream by two types of fields.

 In FIG. 1 shows a diagram of a device for sequential magnetic and electrical processing; in FIG. 2 diagram of a device for simultaneous electrical and magnetic processing; in FIG. 3 scheme of joint baromagnetic processing.

 The device for electrical processing consists of a housing 1, electrodes 2 mounted in parallel in the housing 1, a DC power supply 3, lead wires 4. The device for magnetic processing consists of a housing 5, permanent magnets 7 of the same poles are mounted coaxially with centralizers 6 made of non-magnetic material to each other. The device for barotreatment is either a pump or a container 8 in which pressure pulsation is created, for example, by means of a pump 9.

 A device for implementing the proposed method is installed at the entrance to the pipeline or oil pipeline.

The parameters of barworking (cyclic loading and unloading of the system), electric treatment and magnetic treatment in each case, depending on the properties and composition of the well fluid, are selected experimentally at the installation, the main components of which are a high-pressure bomb (PVT), a hydraulic press, a copper tube (capillary) with a length of 3.0 m and an inner diameter of 0.004 m, the container is in the form of a cylindrical container in which removable permanent magnets can be installed. On the side surface of the container there are nests through which electrodes are inserted into the inside. They are two parallel copper plates, with the help of which an electric field is created in the container. Electric current is supplied by a direct current power source, which allows varying the voltage between 0.1 and 50 V / m. The PBT bomb, container, and copper tube are placed in thermostatic housings. The required temperature regime is maintained using a thermostat. So for oil with a density of 916 kg / m ³ and a viscosity of 75.0 mPa • s at a temperature of 20 ^o With the best results in increasing oil consumption, that is, increasing the throughput of the pipeline, obtained with cyclic loading and unloading the system at a rate of 2 cycles per minute. In electrical processing, the best results were obtained with an electric field strength of 0.2-2.0 V / m, with magnetic processing with a magnetic field of H 47.7 • 10 ³ A / m.

 The data on the change in oil flow rate at various pressure drops at the inlet and outlet of the capillary with the above parameters during the processing of the oil flow by various physical fields and during barotreatment and their combination during sequential and joint processing are given in the table.

As can be seen from the table, if during electrical processing, oil consumption increases by 8-10% during magnetic processing by 15-16% during bar processing by 16-18%, then during joint magnetoelectric processing, the increase in oil consumption is 22-24% during electrical processing 24-25% and with baromagnetic processing 30-33%
An increase in the throughput of the pipeline also occurs during sequential processing of the flow by two fields.

Claims (3)

 1. A method of transporting oil well products through a pipeline, including combined processing of a well fluid stream, characterized in that the processing of the well fluid stream is conducted by an electric and magnetic field, or an electric field and a pressure field, or a pressure field and a magnetic field, wherein an electric field is created tension of 0.2 to 2.0 Vm, and the pressure field is created by cyclic loading and unloading of the treated well fluid.  2. The method according to claim 1, characterized in that the combined processing of the flow of well fluid is carried out simultaneously.  3. The method according to claim 1, characterized in that the combined processing of the flow of well fluid is carried out sequentially.

Images