SU1714091A1 - Gas-lift valve - Google Patents

Abstract

The invention relates to an oil producing industry. in particular, to gas lift oil production, and: ^ m. used for up-5phage borehole operation by changing the pressure of the injected gas in the annulus. The aim of the invention is to simplify the design of the valve, while at the same time ensuring the possibility of controlling the operation by changing the pressure in the annulus. The valve contains a hollow body 1 With 2 input and 3 output channels. Inside the body there is a transverse partition (PP) 4 with an axial hole. Made PP with the possibility of formation with the body cavity. A rod (Ø) 8 is placed in the axial hole of the PP. Its lower end of the Ø 8 is rigidly connected to the bolt 9. A bolt is mounted (Lvi8

Description

9 with the ability to interact with the saddle 14, under which we place the check valve. The cavity above the PP is made airtight and filled with compressed gas. A blind hole is made in the upper part of Ш. The cross-sectional area W is smaller than the cross-sectional area of the channel 3. The PP is made of pslost. for buffer fluid, but; Atvor 9 is designed as a plunger with axial 10 and 11 radial channels. The total cross-sectional area of the radial channels 11 of the plunger is less than the cross-sectional area of the axial 10th channel of the plunger, and less than the cross-sectional area of the channels 2 and 3. During the borehole exploring process, the pressure at the bottom is automatically calculated due to the flow rate of the injected gas through the outer channels 11.2 C. pfl, 4 ill.

The invention relates to the oil industry, in particular to gas-lift oil production, and can be used to control the operation of a well by varying the pressure of the injected gas in the annulus, including automatically maintaining a given downhole pressure during operation.

Gas-lift valves are known, consisting of a housing with inlet and outlet channels, a charging unit, sealing elements, a bellows that forms a chamber of compressed nitrogen with the housing, a rod, a ball-saddle valve and a check valve.

A gas-lift valve is known, consisting of a housing with inlet and outlet ducts, an S erg with a charging unit, sealing elements, a bellows forming a compressed nitrogen chamber with the housing. rod and ball-shaped shutter.

This valve does not allow its opening to be controlled by pressure in the fluid flow; not by pressure in the fluid flow, and therefore at the bottom of the well for any changes in the oil and gas collecting systems, gas distribution and the reservoir. The bellows element reduces the service life of the valve due to its leakage, has a complicated manufacturing technology and high cost, and also limits gas throughput at the existing valve dimensions. When pressure fluctuates, the tightness of the ball-saddle pair is broken.

The aim of the invention is to simplify the design of the gas-lift valve while at the same time allowing the control of its operation by varying the annulus pressure.

When using a valve, the cost is reduced and the service life increases, oil production increases and / or the specific gas consumption decreases.

The goal is achieved by the fact that in the valve the cavity above the partition is made of sealants and filled with compressed gas, and in the upper stem of the stem there is a blind axial bore, and the cross-sectional area of the stem is less than p points of the transverse

shutter section. This allows you to get rid of the bellows in the valve and control its opening from the pressure in the fluid flow by changing the value of the working pressure of the injected gas in the annulus of the well.

When the stem moves with the valve in the valve body, the pressure of the compressed gas in the cavity changes due to a change in its volume. Moreover, the magnitude of the change in pressure depends largely on the initial volume of the cavity for compressed gas, i.e. with a smaller volume, the pressure of the compressed gas is increased to a greater extent, which reduces the control

pressure in the fluid flow. In order to reduce the pressure change in the cavity of compressed gas when the rod moves in it, the limited dimensions of the gas-lift valve in the upper part of the rod are made deaf

axial bore, which is an integral part of the compressed gas cavity. In the transverse partition a cavity is made for a buffer liquid in order to increase the tightness of the separation of the cavity of the compressed gas from

working environment. The shutter is made in the form of a plunger with axial and radial channels, the total cross-sectional area of the plunger radial channels being less than the cross-sectional area of the plunger axial channel and less than the cross-sectional area of the input and output channels. This feature provides gas throttling in the radial channels at any position of the shutter and allows to automatically maintain pressure in the fluid flow and, therefore, at the bottomhole at a constant working pressure of the injected gas by changing the cross section of the radial channels of the shutter at gas

pressure fluctuations in the oil and gas collecting system and reservoir.

FIG. 1 shows the gas-lift valve in the closed state, general view; in fig. 2 - the same, in the open (regulating) state; in fig. 3 - valve; in fig. 4 - graphically, explaining his work, where Pr and Pn, respectively, the pressure in the flow of gas and liquid under different conditions; PyN and PnN — change in wellhead and reservoir pressure at the N-m case; VrN - gas flow rates through the operating valve at N-m case, maintaining optimal pressure

at the bottom of wells (Ps ° const).

The gas-lift valve contains a hollow body 1 with an inlet, output 3 channels and a transverse partition 4 with an axial bore, charging assembly 5 and seal 6. In the axial bore of the transverse partition 4 with seals 7 there is a rod 8 rigidly connected to its lower end with a bolt 9 in the form of a plunger with an axial 10 and radial 11 channels, and S of the upper part of the rod 8 has a blind axial bore 12, which is an integral part of the hermetic cavity 13 for compressed gas. The shutter 9 is located in the saddle 14 of the housing 1, having a seal 15, which is intended for selecting the opening pressure on the stand. Inside the housing 1, there is a bottom 16 and a ball 17, which functions as a check valve.

The gas lift valve works as follows:

Initially, the cavity 13 is filled with compressed gas to a design pressure through the charging unit 5. The characteristic curve (Pg) for the valve is then determined by calculation as well as bench tests. The calculation uses the equation of the balance of forces acting on the transverse area of the rod 8 with gate 9, i.e.

. Рсззш Рг () PnolSa OR

 Pnoi-Pc3 .. (1-If-)

where RSE is the pressure of the cavity charging with compressed gas;

Prt - working pressure of the injected. gas at the depth of the valve for a given 1st mode;

FD) is the pressure in the fluid flow at the depth of the valve, which is equal to the opening pressure of the valve, corresponding to the specified value of Pg at the 1st mode;

$ sh and Zz transverse to the area of the stem and bolt.

It can be seen from the equation that the valve opening pressures depend both on the value of Рсз and on the value of Рг, i.e. at constant

RSH, if Pg varies, the valve opening pressure changes accordingly, which is its advantage.

After bench testing, the valve is lowered into the well to the design depth found during the design of the gas-lift unit. Then, using Ppo f (Pr). calculate dependence

РзгПРгу)

0 where RZ - well bottom pressure corresponding to the RPO;

Pry - wellhead pressure of the injected gas in the annulus of the well, corresponding to Pr.

5 When controlling the operation of a well, the Pz f (Pry) dependence is used, i.e. Different values of the pressure Pryi of the gas (Fig. 3) are set and maintained by the wellhead regulator, based on the bottomhole pressures Pai, and the corresponding flow rates of the fluid B1 are measured. Then the curve Ob f (Pry) is plotted. The optimum value of the working gas pressure is chosen based on the value of

5 of rational downhole pressure or fluid flow rate required. The value of P g is established and maintained by means of a gas pressure regulator 18 installed at the wellhead. Valve

0 opens at a constant Rgu from the pressure of fluid flow acting from below on the transverse area of the valve 9. When the valve is opened, the rod 8 with the valve 9 moves up and the working gas flows into

5 lift, passage through channels 2. 11. 10 and 3. At the same time, the liquid is degassed and rises to the surface of the well.

During operation. Borehole pressure at the bottom (Fig. 3), corresponding to

0 given by Pry, is maintained automatically by changing the flow rate of the injected gas through the radial channels 11, i.e. when the pressure in the oil and gas gathering system or the reservoir changes, the pressure at the bottom practically does not change due to the movement of the shutter 9 up or down under the action of pressure in the fluid flow on its transverse area, as a result of which the radial channels 11 additionally open or, conversely, overlap, thereby valve Changes the flow rate of gas injected into the lift. and provides compensation for disturbing influences (pressure change) by

5 of the oil and gas collection and / or IS formation, which is also an important advantage of this valve.

Form Ula Invention 1, a gas-lift valve comprising a hollow body with inlet and outlet channels and a transverse bulkhead with an axial bore configured to form a cavity body, a stem placed in the axial bore of the transverse baffle, rigidly connected with its lower end to the gate , the seat and the charge assembly, so that in order to simplify the design of the valve while simultaneously allowing its operation to be controlled by changing the pressure in the annulus, the cavity above The town was sealed "" "Oh and filled with compressed gas, and in the upper part of the rod there was a blind hole, with the cross section of the rod smaller than the cross section of the valve.

2. A valve according to claim 1, in which there is a cavity for the buffer fluid in the transverse partition.

3. The valve on the PP. 1 and 2, from the gateway, with the fact that the valve is filled in all the plunger with axial and radial channels, the total mass of the populated sections of the radial channels of the plunger is smaller than the cross section of the axial channel of the plunger and less than the cross section area. Research Institute of input and output channels. --.-. JriL, G “С к: lines of the systema of the collection collection, from the gas distribution line healer f Рллн

Claims (3)

Claim ! A gas lift valve, comprising a hollow body with inlet and outlet channels 7 and a transverse baffle with an axial hole configured to form a cavity with the body, a rod located in the axial bore of the transverse partition, rigidly connected to its lower end with a shutter, a seat and a charging unit, o with the fact that, in order to simplify the design of the valve while providing the ability to control its operation by changing the pressure in the annulus, the cavity above the septum is made of a herme egg minutes filled with compressed gas, and in the upper part of the rod a blind axial bore, wherein the area of poperechno10 secheniyatntoka smaller cross sectional area of the gate. 2. Valve according to π. 1, due to the fact that a cavity for the buffer liquid is made in the transverse partition. 3. Riveted popp. 1 and 2, characterized in that the shutter is made in the form of a plunger with axial and radial channels, and the total cross-sectional area of the radial channels of the plunger is less than the cross-sectional area of the axial channel of the plunger and less than the cross-sectional area of the input and output channels. Compiled by M. Sharifov Editor N. Gunko Tehred M. Morgenthal Corrector I. Muska Order 669 Circulation Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Plant Patent, Uzhgorod, Gagarin St. 101