EA000057B1 - Oil production well and assembly of such wells - Google Patents

Description

The present invention relates to the field of oil production and, more precisely, to a system of wells for the extraction of viscous oil from underground oil-bearing formations.

It is known from the prior art that the extraction of viscous oil from underground oil-bearing formations is stimulated by injecting a hot medium, such as steam, into the formation, thereby lowering the viscosity of the crude oil in place.

In US patent No. 3 994 340, 4 344 485, 4 465 137 and 5 046 559 disclosed methods of extracting oil, thermally intensified, which use steam to reduce in place the viscosity of crude oil within the pores of the oil-bearing formation.

A problem encountered in steam displacement methods is that the injected steam has a much lower viscosity than crude oil even after it is heated, so that if there is a steam breakthrough in an oil producing well, this well will produce mainly steam and water arising from condensed steam, along with a very small amount of crude oil.

Steam is less dense than crude oil. Consequently, steam injection will create a vapor pocket at the top of the reservoir. In this regard, if oil is produced through a normal vertical well, steam breakthrough usually occurs in the upper part of the inlet end of the well, and the operator will plug the upper part of the inlet end so that the fluid will flow only to its lower part.

From US patent No. 4598720 known well system for the production of viscous oil, containing at least one oil producing well and a well for supplying hot steam. An oil well has a horizontal inlet end through which crude oil flows from the oil reservoir to the oil well. A disadvantage of the known system is the need to perform the inlet end of an oil well of sufficient length to prevent steam breakthrough.

The technical task of the present invention is to develop a system of wells for the production of viscous oil, in which the oil production is stimulated by injecting hot steam and which is insensitive to the negative effects of the injection of hot hot steam at a relatively short length of the inlet end of the oil producing well.

This technical problem is solved by the fact that in the well system for producing viscous oil containing at least one oil producing well and a hot steam supply well, according to the invention, the inlet end of the oil producing well is directed upwards.

In a preferred embodiment, the oil producing well is in the shape of a letter J.

The well system for producing viscous oil according to the present invention, in which the hot steam flow is pumped along with the extracted crude oil through the inlet end, has the advantage of initially heating the inlet end and the surrounding oil-bearing formation, which stimulates the intake of crude oil into the oil producing well and the passage through her.

J-shaped oil well configuration is preferred because the upward orientation of the top of the well provides a natural barrier to steam breakthrough.

The above and other technical tasks, advantages and variations of the well system for the production of viscous oil will be clear from the following description and drawing, which schematically shows the vertical cross-section of the well system according to the invention.

The well system for producing viscous oil from an underground oil reservoir shown in the drawing comprises a central well 1 for supplying hot steam to the oil reservoir 2 with viscous oil, as indicated by arrows 3, and two oil producing wells 4 in the shape of a letter J, which have upwardly directed inlet ends 5. The ends 5 are perforated or equipped with a filter with slit-like openings to ensure the intake of fluid from the surrounding oil reservoir, as indicated by arrows 6.

The tops of the inlet ends of 5 oil wells are located essentially in the radial direction at equal distances from the well 1. Such a mutual arrangement of wells 1, 4 ensures an even distribution of the injected hot steam in horizontal sections of oil producing wells and creates an effective system to stimulate oil production. One hot steam supply well 1 is capable of heating the inlet ends of the oil producing wells 4, which are located at a considerable distance from the well 1.

The injected steam forms a vapor pocket at the top of the oil reservoir 2, thereby heating the reservoir 2, lowering the viscosity of the crude oil in the pores of the reservoir 2 and moving the crude oil, the mobility of which is thus increased, towards the inlet ends 5 of the production wells 4.

The present invention is based on the fact that, if steam or hot condensate is supplied along with crude oil with increased mobility in the vertex region 7 of the inlet ends 5, it will heat the inlet ends 5 and stimulate the intake of crude oil in the oil production well 4 .

The flow rate, pressure and temperature of the injected steam are adjusted so that at the inlet of the buried pump 8, which is located in the knee of each well 4, the steam condenses and the resulting mixture of crude oil and condensate has a pressure below the flash point, in order to avoid re-evaporation of the condensate on inlet of the pump and the formation of a steam tube.

In the event that steam will tend to bypass crude oil in one of the wells 4 and this well 4 will produce a mixture with too high water content and / or at too high a temperature, the top of the inlet end 5 is plugged to reduce the flow of steam. In order to reduce the water content in the resulting mixture, it is possible to reduce the amount and pressure of the injected steam instead of such blockage of the top 7 of the oil producing well 4 or in addition to it.

It is clear that the presence of the upward pointing of the top 7 of the inlet end 5 of each well 4 will significantly reduce the risk of steam breakthrough in the case when steam or condensate can flow into the well 4.

Claims (2)

CLAIM 1. A well system for producing viscous oil containing at least one oil producing well and a hot steam supply well, characterized in that the inlet end of the oil producing well is directed upwards. 2. The system of wells under item 1, characterized in that the oil well has the form J.