SU1035283A1 - Borehole sucker-rod pumping plant - Google Patents

Abstract

BOREDOWING ROD PUMP INSTALLATION for the extraction of reservoir fluids, containing a column of pumping pipes connected to a sucker-rod pump, in the case of which a piston with a stem-rod connected to the sucker rod and a chytocht shchang is installed with the formation of an overmolder and substage chambers and a shaft shaft. radial channels communicating its cavity with the annular space of the well, characterized in that in order to increase reliability, increase the depth of descent and reduce the breakage of the rods by hydraulic compensation of the loads on the rods and the balance head of the pumping unit, the radial channels are made in the lower part of the chaff chamber, and the over-piston chamber is made deaf and filled with easily crushing fluid, and between the part of the body in which the piston is installed and the receiving shtangovogo pump is placed a packer-disconnector , with i the annulus of the well above the packer is filled with a liquid, the density of which (About the second is higher than the density of the produced fluid. 00 sd y 00 with

Description

The invention relates to a technique for extracting oil, in particular borehole sucker-rod pumping units, and can be used in the operation of wells in the oil industry. A well-known well pumping unit for producing formation fluids, comprising a pumping unit, columns of pumping tubes and rods, a borehole plunger pump, and a hydraulic load compensator consisting of a housing with radial channels in its wall, communicating the housing cavity with the annulus and the piston with the rod rigidly connected at the ends with the pump plunger and the rod columns 1. A disadvantage of the known installation is the low reliability associated with the breakage of the rods placed between the compensator and the borehole ACOs. This is because the principle of operation of the compensator does not allow to lower it to the pump installation depth, since with increasing depth of the compensator below the fluid level in the well decreases the pressure drop across the compensator bore, which in turn does not provide the possibility of increasing the pump’s depth and significant reducing the load on the rods and the balance head of the pumping unit. The closest to the invention is a technical solution: a well pumping unit for producing formation fluids, comprising a column of pumping pipes connected to a sucker-rod pump, in the casing of which, with a piston and piston chambers, a piston is installed with a flow rod rigidly connected to the sucker rod pump and column rods, and the housing is equipped with radial channels, which communicate its cavity with the annular space of well 2. This well installation is characterized by low reliability, insufficient depth of descent and a high degree of breakage of the rods. The purpose of the invention is to increase reliability, increase the depth of the descent and reduce the breakage of the rods by hydraulic compensation of the loads on the rods and the rocker head. The goal is achieved by the fact that in a well pumping pump unit for producing formation fluids containing a column of pumping pipes associated with a shtangovoy pump, in the body of which, with the formation of an over piston and subframe chambers, a bore is installed , and the body is equipped with rational channels, which communicate its cavity with the annular space of the well, radial channels are made in the lower part of the sub-chamber, and the supra piston chambers made hollow and filled with liquid legkoispar decoupling and between the housing part in which installed porschen and reception schtangovogo pump placed packer uncoupler, wherein the well annulus above the packer is filled with a liquid whose density is above the density of the produced fluid. Alcohols, volatile hydrocarbons, and the like can be used as a highly evaporating liquid to fill the nicks. Viscous oil, thinned with bentonite clay, viscoelastic compositions prepared on KCL or NaCLTi brine brines can be used as a fluid for filling the annulus above the packer. FIG. 1 schematically shows a well pump assembly at the lowest position of the pump plunger, a general view; in fig. 2 - the same, with the extreme upper position of the plunger, sucker-rod pump. The well pumping unit includes a pumping unit (not shown), a column of pumping pipes 1 connected to a pumping pump 2, in the body 3 of which a piston 6 is fixed to the piston to form a piston 4 and a piston 5 chamber. 8 shtangovogo pump 2 and the column rods 9, and the housing 3 is equipped with radial channels 10, which communicate its cavity (not labeled) with the annular space II of the well. The radial channels 10 are formed in the lower part of the pod chamber 5, and the over piston chamber 4 is made deaf and filled with easily evaporating liquid. Between the part of the housing 3 in which the piston 6 is installed and the receiving 12 of the sucker-rod pump 2 is placed a packer-uncoupler 13, and the annulus 11 of the well above the packer 13 is filled with a liquid whose density is higher than the density of the produced fluid. A borehole sucker pump unit operates as follows. When the balance head of the pumping unit (not shown) moves from the extreme upper position downward, the string Shtang 9 is set in motion, which begins to move downward the piston 6 with the flow rod 7 and the plunger 8 of the Shtangov pump 2 rigidly connected to it. At the same time, the suction and the discharge valves open (not

marked) of the pump, between the reception 12 of which and the part of the housing 3 in which the piston 6 is installed, the packer uncoupler 13 is placed, and the produced fluid from the cylinder (not indicated) of the said pump through the flow rod 7 enters the column of pumping pipes 1, and the liquid From the sub-piston chamber 5 through the radial channels 10 of the housing 3 enters the annulus 11 of the well (FIG. 2). At the same time, having preliminarily swept into the piston chamber 4, the lightly vaporized liquid with the liquid gradually turns into a gaseous state, preventing, and the formation of around -. discharge area in said chamber. During the downward movement, the weight of the liquid stolb in the column of pumping pipes 1 is transferred from the column of rods 9 to the above-mentioned pipes, and the weight of the column of rods 9 is compensated by pressure in the annulus 11 of the well bore, the density of which is higher

the density of the produced fluid on the piston 6.

When the plunger 8 of the sucker-rod pump 2 moves upward (Fig. 1), the weight of the rod string 9 is also compensated, since the communication between the annulus 11 of the well and the sub-piston chamber 5 is constant.

The use of the invention will reduce the number of accidents due to a decrease in the frequency of breakage of the rods and provide an increase in the allowable depth of descent of the sucker-rod pump into the well, which, in turn, can achieve the ability to extract reservoir fluids, in particular oil, using the deep-pump method from deep-seated layers and increase the efficiency of deep-pumping method of production in all wells, regardless of their depth.

Claims (1)

A downhole sucker-rod pumping unit for producing formation fluids, comprising a pump pipe string connected to a sucker rod pump, a piston with a flow-through piston rigidly connected to a sucker rod pump plunger and a sucker rod is installed in the casing with the formation of a piston and a sub-piston chamber; radial channels communicating its cavity with the annulus of the well, characterized in that in order to increase reliability, increase the depth of descent and reduce the breakage of the rods by hydraulic Compensation of loads on the rods and the rocker head of the rocking machine, the radial channels are made in the lower part of the sub-piston chamber, and the supra-piston chamber is made deaf and filled with easily sparkling liquid, and a packer-disconnector is placed between the part of the body in which the piston is installed and the intake of the sucker rod pump moreover, the annulus of the well above the packer is filled with a liquid whose density is higher than the density of the produced fluid.