SU1714100A1 - Bottomhole treatment method - Google Patents

Abstract

The invention relates to the development of oil fields, in particular to methods of influencing the near-well zone of the formation. The goal is to reduce the flow of water and increase the flow of oil. For this purpose, a cff-create in the reservoir a network of cracks and fill them with granular material to create a constant magnetic field. Constant magnetic field created by

Description

The invention relates to the development of oil fields, in particular to methods of influencing the bottomhole formation zone (PPP).

The well-known: method of intensifying production of doziCineft in fields that are in a long pa3pa6oTj (e, which prepares the application of hydraulic fracturing.

However, this method, together with high (b) efficiency in a number of cases, leads to premature Watering of products, which is associated with the spread of the impact not only on the oil-saturated zones 14 of the reservoir thickness, but also aquifers and water saturated procrastination.

The §fio6§i Ytmnmm application of 8 wastewaters, which provides for the sequential injection of oil into the subsea

a layer of two substances interacting to form a sediment.

The disadvantage of this method is low efficiency, so (after treatment not only the inflow of water is reduced, but also in a number of cases the inflow of oil,.; .Y.,;,;,,,,.

A known method of preventing sand from escaping into the wellbore is obtained by injecting a mixture of granulated ferromagnet and an artificial permanent magnet into an LZP.

Prevent sand removal from PPP

Scrapages are achieved for the creation of premiums for the structure of the structure by means of them, moreover, than the first (for example, to know the magic of the etiquette of the artist, the stronger the structure and louis effect.

The actual magnitude of the magnetic field in this solution is 10-10 OE.

At such a magnetic field strength, its magnitude per filtering fluid (to limit water flow) is carrying.

Therefore, the method cannot be used to reduce water flow in oil wells.

The purpose of the invention is to increase the flow of oil and gas into the bottom of a well by increasing the permeability of the PPP while simultaneously reducing the flow of water due to acquisitions of the last significant initial gradient under the influence of a magnetic field; "

This goal is achieved by hydraulic fracturing followed by injection of special granular ferromagnets into the PPP, which create a constant magnetic field of 200-300 3.

The procedure is as follows.

A mixture of granulated ferromagnetic material is prepared on the surface (magnetite, titanomagnetite, etc. is used as a ferromagnetic material) in a special fluid with rheological parameters ensuring the transportation of the granule to the bottom of the well and into the formation. The particle sizes of the material are chosen in view of the possibility of pumping into the fractures of the formation, as well as their throughput. Filling existing and newly-formed cracks, this material creates highly visible 4 channels through which oil and gas are filtered at relatively lower values of friction loss. The movement of water through these channels occurs at high pressure drops.

Formation waters - mineralized, alkaline, hard when filtering in a magnetic field, acquire a significant initial gradient and decrease its mobility.

With the help of experimental studies, it was discovered that the influence of the magnetic field on the physical properties of water and its filtration in a porous medium has an experimental character. Up to a certain value of the magnetic field strength, with an increase in its magnitude, the influence on such parameters of the structural-mechanical properties as viscosity, surface tension, initial shear stress and others increases, and then this effect decreases.

Therefore, in order to obtain the greatest effect in a porous medium, a magnetic field strength should be created that is close to the experimental values.

The studies were carried out on linear models of layers with a length of 1500 mm and a diameter of 40 mm. To create a model of layers, the columns are filled with a granular ferromagnet of a certain magnetic intensity.

The porous medium thus prepared is saturated with formation water and filtered to achieve a steady flow at a constant pressure gradient.

After saturating the porous medium and filtering the produced water through it, the latter is replaced by oil and the permeability of the oil and the amount of water displaced are determined. Each time the intensity of the magnetic field changes, the percentage reduction in the amount of water extracted is measured compared to displacement from a porous medium without a magnetic field.

The research results are summarized in table 1.

As can be seen from the table. 1, with an increase in the intensity of the magnetic field to 300 3, the decrease in water decreases, and a further increase in the intensity of the magnetic field leads to an increase in the percentage of water. The magnetic field intensity reaches 3 (according to the prototype), which means that it is ahead of the initial one.

The results of experimental studies showing the effect of the magnetic field on some physical properties of water are given in Table. 2

As can be seen from the table. 2, the surface tension of the oil first decreases, then increases. An increase in the magnetic field strength of more than 400 3 does not affect the surface tension.

The effect of the magnetic field on the viscosity of the formation water is complex. If you plot, you get two wings. In the left wing of the graph (the field of application of the proposed method) with increasing magnetic field strength up to 300 Oe, the viscosity of the water increases. In the right wing, an increase in the intensity of the magnetic field leads to a decrease in the viscosity of the water to approximately the initial value.

It has been found that, under the influence of a magnetic field, the initial shear stress (G0) of water changes. If for fresh water with an increase in the magnetic field strength up to 300 3, the initial shear stress increases to 0.4 g / cm, then for produced water it is 0.6 g / cm.

The effect of an increase in the oil flow rate of the well according to the proposed method is predetermined by an increase in the oil inflow due to the creation of cracks and their filling with a highly permeable granular material.

It has been found that when creating one fracture of more than 10 m and permeability of granular material 7-8 darcy, the oil production rate increases more than 3-4 times.

Due to the pronounced ferromagnetic properties of granules, the formation fluids are magnetically treated, which increases the productivity

Claims (2)

1. The method of processing the bottomhole formation zone, including the creation in the reservoir network the cracks are filled with granular material to create a permanent magnetic field, characterized in that, in order to reduce the water flow and increase the oil flow, a permanent magnetic field is created in the face zone of the formation (1.54-2.38) by the SA / m 2. The method according to p-1. This is due to the fact that as a granular material a ferromagnetic rock is used to create a magnetic field. Table 1