RU1779798C - Method of fluid feed from well by gas-lift - Google Patents

Abstract

Usage: in pump engineering for well development. SUMMARY OF THE INVENTION: An open gas lift valve is adjusted to a pressure of at least 10% greater than the discharge pressure, and the end of the gas supply is carried out while the flow rate is reduced to a value of 20% of the initial one. 2 ill.

Description

The invention relates to pump construction, in particular to a method for gas-lift well operation, and can be used in the design of hydrotransport systems for general use.

A known method of operating wells with a periodic gas lift, comprising injecting a working agent into the annular space through a regulating device (controller) and cyclic supply of the working agent to the lifting column by changing the pressure of the working agent in the annular space.

The disadvantages of the known method are the impossibility of cyclic supply of the working agent without a ground control device; high specific costs of the working agent due to the periodic increase in pressure in the annular space and the complexity of determining the optimal cycle (accumulation time, supply time of the working agent).

Closest to the proposed method is a gas-lift operation of the well, comprising a compressor string with a controlled gas-lift valve in its lower part, by periodically supplying compressed gas to the annular space between the casing and compressor strings, in communication with the reservoir gas source, at the same pressure drop in annular space and the compressor string, as determined by the installation of the gas lift valve, and measuring a flow rate from the compressor string.

A disadvantage of the known solution is its low efficiency.

The object of the invention is that the opening of the valve is adjusted to a pressure of at least 10% more than the discharge pressure, and the end of the gas supply is carried out while reducing the flow rate to a value of 20% of the initial one.

The goal is really achieved using these signs,

cl

with

Vj h y

Xi

about

00

since the pressure equal to 1.1 of the discharge pressure ensures complete emptying of the riser pipe, and after the flow rate indicated in the formula, the latter decreases sharply and it is not practical to continue the gas supply.

In FIG. 1 schematically shows a well, section; in FIG. 2 is a graph of the implementation of the method.

The method of supplying fluid from the well is implemented by periodically supplying a working agent to the annular space 1 between the casing 2 and the tubing, which is open for gas supply, with the same pressure difference between the pressure in the annulus 1 and the tubing 3 determined by the installation of gas lift valve 4, and a change in the flow rate parameter at the outlet, by the well production metering unit 5, the opening of valve 4 being adjusted to a pressure of at least 10% more than the discharge pressure, and the end of the gas supply is carried out with decreasing p initial parameter to a value of 20% of the initial. Operating valves 6 are available.

An example of implementation of the claimed method.

The gas-lift installation is calculated according to a known method, for example, of Samso.

A gas pressure distribution line 7 in the annular space is drawn, a static gradient of the jamming liquid 8, the placement depths of the start valves Hi, N2 and the operating valve HBr are determined. The design bottomhole pressure Rzab is noted at the depth of well N Squee. According to the well-known design values of the flow rate of the wells by liquid (Sg), water cut (pv), reservoir gas factor (G), density of the reservoir fluid (oil r and water p) we apply the operational pressure gradient of the liquid to be raised under the gas inlet point 6 (in this case, gas is introduced through valve 6). The gas inlet depth is defined as the point of intersection of the gradient 9 with the valve depth at which the gas pressure in the annular space Pr is higher than the pressure in the lifting column PT.

 The charging pressure of the working gas lift valve is calculated (the calculation of the starting valve charging is carried out according to known methods):

.Cgt,

where Cgt is the temperature coefficient.

After the equipment is launched, the well is launched and the well is brought into operation, the operational gradient 9 will be established by the gas inlet point.

is equal to the working pressure Pp, since there are no control devices at the mouth along the gas injection line.When the discharge pressure changes upward, the gas pressure at a depth of Pr also increases, increasing the pressure difference between Pr and PT, this entails an increase in gas flow through the valve, which leads to a decrease in the density of the mixture above the gas inlet point p cm1 and a decrease in the pressure in the lifting column to Pm, the operating valve closes, lowering the gas flow rate until the Pm stabilizes. With a decrease in the discharge pressure, otsess inverse described above. With increasing inflow

from the reservoir, the density of the mixture above the gas inlet point and the velocity w t increase, respectively, PT increases, the increase in the latter entails an increase in the degree of opening of the valve, i.e. increase

a cross section of the valve at which flow through the valve increases. An increase in gas flow rate decreases the density of the mixture above the gas inlet point pcm1 until the pressure in the riser decreases to Pt. At

the inflow from the formation decreases, the mixture density / Esm1I and speed a) 1 decrease, at which the pressure in the riser at the gas inlet depth also decreases, the service valve closes, decreasing the flow area, the gas flow through the valve decreases until the pressure in the riser reaches the pressure Pt. During stabilization, the pressure Tm is kept constant, at which the operating pressure at the bottom P3ab is also kept constant. The RFLP can change with a change in the density of the liquid to be lifted / Osm ,, and with a velocity 0) 2 by the gas inlet point, which can change with a change in reservoir pressure or density. formation fluid.

Claims (1)

SUMMARY OF THE INVENTION Method for supplying fluid from a well with a gas lift containing a compressor a column with a controlled gas-lift valve in its lower part, by periodically supplying compressed gas to the annular space between the casing and compressor columns, in communication with the reservoir gas source, at the same pressure drop in the annular space and the compressor column, determined by the gas-lift valve setting, and measuring a flow rate parameter at the outlet of the compressor column, characterized in that, in order to increase the efficiency by adjusting the start and end of the supply, the valve is opened by adjusting dissolved the pressure is at least 10% greater than the discharge pressure, and the end of the gas supply is carried out by reducing the flow rate to 20% of the initial value. AND... / fz Hi g. Ns / gv N, m Editor Compiled by N. Vasilieva Tehred M. Morgenthal Proofreader I. Shmakova