RU119041U1 - Borehole PUMP PUMP UNIT FOR OIL PRODUCTION UNDER CONDITIONS COMPLICATED BY SALTATION - Google Patents

Abstract

1. A sucker rod pumping unit for oil production in conditions complicated by scaling, consisting of a plug-in sucker rod pump driven by a drive through a sucker rod string, a tubing string, a liner at the pump intake, characterized in that in the lower part of the liner there are nozzles installed in the coupling joints of the tubing of the liner and branch pipes. ! 2. The downhole sucker rod pumping unit according to claim 1, characterized in that a diaphragm valve is installed between the plug-in sucker rod pump and the liner.

Description

The utility model relates to the oil industry and is intended for oil production from wells complicated by scaling in downhole pumping equipment.

A well-known sucker rod pump installation, consisting of a drive, a string of sucker rods, a downhole pump, a string of tubing. During operation of a well pump driven by a drive through a string of pump rods, the fluid rises along the tubing string to the wellhead, from where it enters the collection system. (A.G. Molchanov, V.L. Chicherov. “Oilfield Machines and Mechanisms” Textbook for technical schools. 2nd ed., Revised and enlarged M., “Nedra”, 1983, p. 34-37)

The disadvantage of this installation is the low reliability for wells, the operation of which is complicated by scaling in the downhole pumping equipment.

Known sucker rod pump installation, consisting of a sucker rod pump driven by a drive through a column of sucker rods, tubing string, liner at the pump inlet (V.I. Shchurov "Technology and technique for oil production" M., "Nedra", 1983, p. 350) The specified borehole sucker-rod pumping unit is by its technical essence closest to the proposed installation, and it can be taken as a prototype.

The disadvantage of this installation is the low reliability for wells, the operation of which is complicated by salt deposition in downhole pumping equipment, since, despite the partial deposition of salts in the liner, most of the salts are deposited in the pump, tubing string and sucker rods.

The technical task of the utility model is to increase the reliability of work for wells, the operation of which is complicated by scaling in the downhole pumping equipment.

The stated technical problem is solved by the described well sucker-rod pumping unit for oil production in conditions complicated by scaling, consisting of an inserted sucker-rod suction pump driven by a drive through a column of sucker rods, columns of tubing, and a liner at the pump intake.

A distinctive feature of the claimed utility model is the presence in the lower part of the shank of the fittings installed in the sleeve connections of the tubing of the shank and nozzles, as well as the diaphragm valve between the pump and the shank. Due to the presence of fittings in the lower part of the shank, a more intensive salt deposition process is provoked on its inner surface, which prevents salt deposits in the pump, tubing string and sucker rods.

Figure 1 shows a diagram of the proposed installation.

A downhole sucker-rod pumping unit consists of an inserted sucker-rod sucker-rod pump 1, mounted in a lock support 2 and driven by a drive 3 through a string of pump rods 4, a string of tubing 5, through which the produced fluid is lifted, the liner 6 is 50-200 m long of used tubing at the pump inlet 1. At the bottom of the shank 6 there are fittings 7 installed in the coupling joints 8 between the tubing of the shank 6 and the nozzles 9 with a length of 0.8 m. K lichestvo fittings 7 can vary depending upon the degree of complications wellbore scaling. The nozzles 7 have holes of different diameters (25, 30, 40 mm) equal to the diameter of the hole of the valve seat assembly of the rod pump 1. A membrane valve 11 is installed between the pump 1 and the shank 6 through one tubing 10.

Well sucker rod pump installation operates as follows.

When the plug-in sucker rod pump 1 is driven by a drive 3 through a string of pump rods 4, the produced fluid is lifted along the liner 6 and the tubing string 5. The liner 6 consists of second-hand tubing having a high internal roughness surface on which salts are deposited more intensively.

From the practice of oil production, it is known that salt deposition mainly occurs at the intake of the pump or in the pump itself. This is due to an increase in the rate of passage of fluid in these areas and the creation of a pressure drop. When passing through the intake of the pump (filter), as well as the pump itself (valve), the liquid is found with areas of local resistance to movement, where salts are actively deposited. The nozzle 7 simulate the holes of the valve seat of the pump 1 assembly, thereby precipitating a more intensive process of scaling on the inner surface of the shank 6, which prevents salt deposits in the pump 1, the tubing string 5 and on the sucker rods 4.

In the case of a complete overlap of the passage through section of the shank with 6 salts, the plug-in pump 1 is disrupted from the lock support 2, a direct flushing is carried out using the pump unit (CA-320) with increasing pressure until the membrane valve 9 breaks off. Next, the plug-in pump 1 is put into support 2 and operation through the hole of the diaphragm valve 9.

Thus, the proposed downhole sucker rod pump installation has high reliability for wells, the operation of which is complicated by scaling in the downhole pumping equipment.

Claims (2)

1. A downhole sucker-rod pumping unit for oil production in conditions complicated by scaling, consisting of an inserted sucker-rod suction pump driven by a drive through a string of pump rods, a string of tubing, a shank at the pump inlet, characterized in that in the lower part of the shank there are fittings installed in the coupling joints of the tubing of the liner and nozzles. 2. The downhole sucker rod pump installation according to claim 1, characterized in that a diaphragm valve is installed between the plug-in sucker rod pump and the liner.