NO303358B1 - Procedure for regulating the production of an oil well - Google Patents

Description

The present invention relates to a method for regulating the production of an oil well, which well comprises a hydrocarbon production pipe which leads to a wellhead and which, together with the well wall, defines an annulus, the pipe in the well being provided with at least one gas injection valve which is connected to a pressurized gas source on the surface by means of a first regulation valve at the surface which makes it possible to regulate the quantity of gas flowing towards the interior of the production pipe, and where the method further comprises the step where the instantaneous hydrocarbon flow quantity provided is regulated by means of a second regulation valve at the surface, the regulation process which carried out using the two control valves makes it possible to regulate the hydrocarbon flow in the production pipe.

Such a method is known from US 4,685,522.

At some oil wells, the production yield of hydrocarbons is low, either because of the low pressure that prevails in the oil field, or because of the low gas content in the hydrocarbons. In order to be able to increase the hydrocarbon flow in the production pipe, a production process of the above type is usually used, where gas is injected to be able to reduce the density in the oil pipe, which process is usually known as the "gas lift" process.

In this type of process, a gas under pressure is usually injected into the hydrocarbons via a series of inlets arranged along the production pipe. The gas input is regulated by means of a regulating valve which is placed upstream. Usually the gas used is a hydrocarbon gas that comes from the oil field. The injection of gas causes the weight of the hydrocarbons to be reduced and thus facilitates their ascent in the production pipe.

However, the type of process mentioned at the outset does not make it possible to regulate the hydrocarbon flow in the production pipe accurately and instantaneously and has therefore entailed disadvantages. For example when hydrocarbon production is started, the lack of an adequate control system can mean that the start of production is too abrupt, which could lead to the formation of a liquid plug in the production pipe or damage in the boundary zone between formation and well.

The purpose of the invention is therefore to provide a method for regulating the production of an oil well, which enables better regulation of the start of production and the subsequent hydrocarbon flow.

For this purpose, according to the invention, a method of the type mentioned at the outset is proposed which is characterized by the two control valves being regulated as a function of temperature and pressure measurements of the hydrocarbon flow and of the gas in the annulus which are carried out at the surface, the two control valves being likewise regulated as a function of measurements at the surface of pressure and gas flow rate from the source.

Further features and advantages of the invention will appear more clearly from the following description with reference to the figure, which schematically shows an oil installation where the method according to the invention is used.

The figure schematically shows an oil well 10 equipped with a production pipe 12. In the usual way, the production pipe has a length of approximately 1000 - 3000 m. A well packing 14 is placed at the bottom of the production pipe 12. Gas injection valves 16, which can optionally be calibrated, and which in the example there are a number of four, are arranged with optimal spaces along the production pipe 12. A gas under pressure is led from a source, schematically shown at 18, via a collector 20 and a line 22 which is provided with a first control valve 24, towards the annulus 26 which is defined between the production pipe 12 and the wall 28 of the well 10. In the example shown, the gas used is a natural gas which has been separated from the liquid hydrocarbons and recompressed.

The annulus 26 is made leakproof by means of a wellhead device which is shown generally at 30. When the pressure of the gas in the annulus 26 exceeds the hydrocarbon pressure in the production pipe 12, and when the valve 16 is open, the gas is fed into the pipe and displaces the hydrocarbons towards the wellbore. the head device 30. This device 30 comprises an outlet 32 downstream of a safety valve 34 and a second control valve 36. The first and the second control valve 24 resp. 36 are controlled valves. The outlet 32 leads to a production collector (not shown). The wellhead device 30 is provided with a temperature sensor 38 and a pressure sensor 40 for the hydrocarbons at the well outlet. In addition, the line 22 includes a pressure sensor 42 for measuring the pressure prevailing in the annulus 26, and a production meter 44.

In the usual way, the input of compressed gas is regulated by moving the first control valve 24. According to the invention, the second control valve 36 is also moved to better regulate the fluid flow in the production pipe 12. The two control valves 24 and 36 are controlled in a pre-programmed parametric logic sequence.

Four sub-sequences that can be carried out at a production well will now be described as examples.

Decompression on

In order to enable a gradual reduction of the pressure that prevails at the wellhead after a previous well shutdown, the second control valve 36 is opened gradually while the first control valve 24 remains closed. The pressure that prevails at the wellhead is constantly measured using the sensor 40

and determines the transition to the next step.

Start of well production

The second control valve 36 is partially opened to a predetermined position to prevent the start being too abrupt, which could damage either the boundary zone between the formation and the well or the installations on the downstream side. Then the first control valve 24 is opened gradually to create a controlled increase of the gas pressure in the annulus 26 to a predetermined pressure. The initial flow is maintained while the hydrocarbon pressure and temperature are measured at the top of the production pipe 12 by the sensors 3 8 and 40. The gas gradually flows via the injection valves 16 towards the interior of the production pipe 12 and causes the hydrocarbons to move towards the surface. The second control valve 36 is then opened beyond its initial position to increase the rate of hydrocarbon production.

Stabilization

The previous conditions are maintained while the temperature and pressure prevailing at the top of the production pipe 12 are measured until the conditions in the well stabilize.

Optimizing the regulation

The purpose of this operation is to optimize hydrocarbon production while minimizing the amount of gas injected. The production quantity is checked regularly so that one will be able to close the second control valve 36 slowly if this flow quantity becomes too large. If the production quantity is satisfactory, the first control valve 24 is closed slowly to reduce gas consumption. For a given production amount, it is thus sought to open the second control valve 36 as much as possible and to reduce the opening of the first control valve 24 as much as possible while observing the previously determined limitations.

According to a further feature of the invention, the controlled control valves 24 and 36 can be controlled by means of an automatic system which is connected to the different sensors 38, 40, 42 and 44. A system of this type can continuously monitor the different measurements and continuously adjust the control valves 24 and 36 to optimize the production conditions.

Claims (2)

1. Method for regulating the production of an oil well, which well comprises a hydrocarbon production pipe (12) which leads to a wellhead (30) and which, together with the well wall, defines an annulus (26), the pipe (12) in the well is provided with at least one gas injection valve (16) which is connected to a pressurized gas source (18) on the surface by means of a first control valve (24) at the surface which makes it possible to regulate the amount of gas flowing towards the interior of the production pipe, and where the method further comprises the step where the instantaneous hydrocarbon flow quantity provided is regulated by means of a second control valve (36) at the surface, the regulation process being carried out by means of the two control valves (24, 36) makes it possible to regulate the hydrocarbon flow in the production pipe, characterized in that the two control valves (24, 36) are regulated as a function of temperature and pressure measurements of the hydrocarbon stream and of the gas in the annulus the room (26) which is made at the surface, the two control valves (24, 36) being likewise regulated as a function of measurements at the surface of pressure and gas flow rate from the source (18). 2. Method according to claim 1, characterized in that the first and second valves (24, 36) are controlled valves which are regulated continuously by means of a control system as a function of the measurements taken.