RU2128286C1 - Method for isolating bottom water in oil wells - Google Patents

Abstract

FIELD: development of oil fields with bottom water, in particular, development of contact oil reserves and water-oil transition zones. SUBSTANCE: method involves perforating bed transition zone; withdrawing water till reverse cone oil body and conical bottom water body are formed underneath the bed; performing additional shooting of water-logged top part of transition zone above existing perforation interval; pumping-in selective water-isolating composition for forming artificial screen for oil-saturated liquid. Screen has impermeable bottom part and permeable conical top part and is adapted for isolating stripping interval over the whole height of it from bottom water. Method allows oil well operating period free of water to be increased. EFFECT: increased efficiency by reduced flooding of product and provision for extraction of liquid from water-oil transition zone part most saturated with oil. 2 dwg

Description

 The invention relates to the field of development of oil fields with bottom water, in particular to the development of contact oil reserves and transition zones water-oil.

 A known method of isolating formation water in oil wells [1] involves perforation of the water-saturated part of the formation, forced water extraction to form the inverse oil cone, then perforation of the oil-saturated part and oil selection, or oil selection only through the water-saturated part.

 The disadvantage of this method is in the first embodiment, the inevitable breakthrough of plantar water into the well, but somewhat later than in a conventional well; in the second option there will be a large percentage of water cut in the production of the well.

 The aim of the proposed method is to extend the anhydrous period of the well’s operation, to reduce the percentage of water cut in the product, as well as to extract liquid from the most oil-saturated part of the water-oil transition zone.

 This goal is achieved by the fact that after the formation of the inverse cone (1, Fig. 1), the drill (2) of the water-saturated part of the water-oil transition zone is drilled above the existing perforation interval (3), then the water-insulating composition (4) is pumped for selective waterproofing. Such compositions, as you know, have the property of crystallizing when combined with water and thereby create impermeable zones / 2 /. In our case, along with the formation of an oil cone, a clear water cone is also formed from below, since the water-oil transition zone is perforated. The injection of a water-insulating composition will lead to the formation of an artificial screen with a “cut out” upper part (5) in place of the oil cone, because there is no water in this place, and the composition crystallizes only in the presence of water in the rock. The most durable screen will be at the bottom (6), because Water saturation was maximum here. The higher the dot on the screen, the more permeable it is, because water saturation decreases, and oil saturation increases with approaching a purely oil zone. Thus, after the screen is formed and the well is put into operation, oil will be taken through the return cone from the oil-saturated part of the formation (7) and liquid will be taken from the upper part of the transition zone (8), which is the most oil-saturated. Breakthrough of water from a purely water-saturated part will be hindered by the strong part of the screen from the water-saturated zone, as well as the presence of an inverse oil cone.

 An oil well reveals contact oil reserves. The thickness of the oil-saturated part is 4 meters, the transition zone is 6 meters, and the water-saturated part is 8 meters. The formation anisotropy is 2. The transition zone is opened in the interval of 6-8 meters, counting from the roof of the oil-saturated part (Fig. 2). Next, forced liquid is taken with a flow rate of 350 tons / day. As calculations show according to the program compiled on the basis of the methodology of V.L. Danilov and R.M. Katz / 3 /, oil and water cones will reach the bottom on the fourth day (Fig. 2). Then they make 1 meter more than the existing perforation interval and inject the composition for selective waterproofing. The width of the inverse oil cone at the beginning of the perforation interval is, as calculations show, about 4 meters. Based on this, it is possible to determine the volume of injection of a waterproofing composition. After crystallization of the composition, production begins with depression acceptable for the formed artificial screen.

Using the proposed method for limiting the flow of plantar water provides the following advantages compared to existing methods:
1. The presence of the inverse oil cone makes it possible to select oil from a purely oil zone and to take liquid from the most oil-saturated part of the transition zone with minimal water cut;
2. The presence of an impermeable bottom for water and a partially permeable top for oil-saturated liquid artificial screen;
3. The presence of a perforation interval isolated over the entire height from the bottom water.

Sources of information:
1. A.S. USSR N 1038470, E 21 B 43 / 32.1983 BI N 23 (prototype).

 2. G. Z. Ibragimov and others. The use of chemical reagents for the intensification of oil production: a Handbook. - M .: Nedra, 1991, 384 pp. (Analogue).

 3. V.L. Danilov, R.M. Katz. Hydrodynamic calculations of the mutual displacement of liquids in a porous medium. - M .: Nedra, 1980, 264 p.

Claims (1)

 A method of isolating plantar water in oil wells, which provides for perforation of the transition zone of the formation, taking water to form an inverse oil cone and bottom water cone from the bottom, characterized in that the upper water-saturated part of the transition zone is higher than the existing perforation interval, the selective water-insulating composition is injected to form artificial a screen with an impermeable part from below and a permeable part in the form of a cone at the top for oil-saturated liquid, while the artificial screen is insulated over the entire height, the autopsy interval from the bottom water.

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