RU2221130C1 - Technique limiting water inflow into production well - Google Patents

Abstract

FIELD: oil and gas industry, methods controlling flooding of oil and gas wells, methods regulating intake profiles of injection wells. SUBSTANCE: technique limiting water inflow into production wells includes preparation and injection into formation of insulation composition having paraffin in the capacity of dispersive phase with following proportion of components, per cent by weight: paraffin 10.0-70.0; aqueous solution of diethanolamide of fat acids with 10-16 hydrocarbon atoms 30.0-90.0; diethanolamides of fat acids with 10-16 carbon atoms 0.5-6.0; water being the balance. Above-mentioned composition is injected into well in the amount sufficient for insulation of entire thickness of water-saturated formation and up to achievement of pressure equal to 95-100% of maximum permissible pressure in well. After that injection of composition is finished, composition is kept in formation in the course of time sufficient for paraffin melting thanks to reconstruction of formation temperature. Thereafter composition is forced into formation by fluid volume large enough to create pressure in well equal to 75-95% of maximum permissible pressure. EFFECT: enhanced efficiency of limitation of water inflow by increase of penetration depth of insulation composition into formation. 2 dwg

Description

The invention relates to the oil industry, and in particular to methods of dealing with watering of oil and gas wells and to methods for regulating the injectivity profiles of injection wells.

In modern oil production, various methods are used to combat the flooding of oil and gas wells. For example, there is a known method for limiting water inflow into production wells, which consists in pumping a fluid that is not miscible with the formation fluid together with an emulsifier, under the action of which the formation fluid emulsifies with the injected fluid to form a viscous thixotropic emulsion that clogs the water-saturated part formation (US patent No. 3343599). In this case, the formation of an emulsion occurs in a limited contact zone of an emulsifier solution — a formation fluid, which does not ensure the effectiveness of mixing of the components with the formation of a stable oil-water emulsion. In addition, the isolation of water due to the viscous properties of the resulting oil-water emulsion is short-lived, since any emulsion collapses sooner or later. These factors determine the lack of effectiveness of this method.

There is also a method of limiting water inflow into production wells, in which a composition containing an aqueous solution of fatty acid diethanolamide with 10-16 carbon atoms and a dispersed phase, oil, is pumped into the well. A water-oil emulsion is obtained by emulsification of oil in an aqueous solution of fatty acid diethanolamide (USSR AS No. 726305, class E 21 B 43/32, dated 10.08.78). However, when using this method, waterlogging of wells occurs in a short time due to insufficient viscosity released during the decay of the oil emulsion.

Closest to the proposed invention is a composition for isolating the influx of formation water into the well and the method for its production by as USSR No. 872734, class E 21 B 43/32 dated 04.12.79. The composition, which includes the following components, wt.%: Paraffin - 10-70, an aqueous solution of fatty acid diethanolamide with 10-16 carbon atoms - 30-90, fatty acid diethanamides with 10-16 carbon atoms - 0.5-6, water - the rest is obtained by emulsification of the dispersed phase - paraffin in an aqueous solution of an emulsifier - diethanolamide of fatty acids with 10-16 carbon atoms, while the paraffin in molten form is emulsified in an aqueous emulsifier solution heated above the melting point of paraffin, followed by natural cooling of the obtained direct em lsii to cure the disperse phase. The resulting composition is the smallest solid paraffin particles held in a dispersed state in water with the help of emulsifier-diethanolamide fatty acids with 10-16 carbon atoms. At temperatures below the melting point of paraffin (50 ° C), the composition goes into a state of suspension and remains mobile. When pumping the specified water-paraffin composition into the well, the porous medium becomes saturated not only with water, but also with the released paraffin, which reduces the phase permeability.

However, when using this composition to isolate the flow of formation water into the well during injection of the resulting paraffin slurry in the formation, the bottomhole zone will become clogged with filtered paraffin, followed by the formation of a paraffin crust and pressure increase. As a result, due to insufficient penetration of the paraffin phase into the bottomhole zone, The necessary work efficiency has been achieved.

The objective of the invention is to increase the efficiency of limiting water inflow by increasing the depth of penetration of the insulating composition into the reservoir.

The problem is solved due to the fact that the insulating composition containing paraffin as the dispersed phase in the following ratio of components, wt.%: Paraffin - 10-70, an aqueous solution of fatty acid diethanolamide with 10-16 carbon atoms - 30-90, fatty diethanolamides acids with 10-16 carbon atoms - 0.5-6, water - the rest, is pumped into the well in an amount sufficient to isolate the entire thickness of the water-saturated formation, and until the maximum allowable pressure is reached, after which the composition is pumped off, kept in the formation for a time sufficient to melt the paraffin by restoring the reservoir temperature, and then push the composition into the reservoir with a fluid volume sufficient to create a pressure in the well equal to 75-95% of the maximum allowable.

The invention is illustrated by drawings, in which Fig. 1 shows the temperature dependence of the viscosity of a composition with a paraffin phase, and Fig. 2 shows the temperature dependence of the viscosity of paraffin.

The proposed method of limiting water inflow into production wells is implemented as follows. First, a composition for isolating the formation is prepared, for which components are taken in the following amounts, wt.%: Paraffin - 15, an aqueous solution of fatty acid diethanolamide C ₁₀ -C ₁₆ - 60. The content of fatty acid diethanolamide C ₁₀ -C ₁₆ - 5 wt.% water - 20 wt.%. By cooling to 20 ° C, the composition is turned into a suspension and in this form is taken to the well. A composition of 5.2 cubic meters through the tubing is brought to the reservoir and pumped into the reservoir under pressure and, with increasing pressure (for example, after injecting 5 cubic meters) to 120 kgf / cm ² (allowable pressure for the production string), stop download. Maintain the composition in the reservoir for 48 hours. During this time, the reservoir temperature is restored to 65 ° C, the paraffin in the composition goes into the liquid phase, and the viscosity of the composition with the liquid phase is significantly reduced.

As can be seen from figure 1, at temperatures below the melting point of paraffin (50 ° C), the suspension remains mobile and can be pumped. From the graph in figure 2 it is seen that when the temperature of paraffin is increased from 50 to 60 ° C, paraffin melts and its viscosity decreases sharply and at temperatures above 60 ° C, liquid paraffin is mobile and can be filtered through a porous medium. Since the composition is prepared on the basis of direct emulsion and has a hydrophilic medium, when injected, it mainly penetrates the water-saturated intervals of the formation. After this, the composition is squeezed deep into the reservoir with a liquid of 10 cubic meters. m at pressures not exceeding 100 kgf / cm ² and put the well into operation. Part of the paraffin that has fallen into the oil-saturated intervals of the reservoir is easily removed from the reservoir, dissolving in the produced oil.

The proposed method of limiting water inflow into production wells is effective for limiting water inflow at reservoir temperatures above the melting point of paraffin, for example, in oil and gas fields in Western Siberia, where the temperature of the reservoir is 60-80 ° C.

Claims (1)

A method of limiting water inflow into production wells, including the preparation and injection into the formation of an insulating composition containing paraffin as the dispersed phase, in the following ratio of components, weight. %: paraffin - 10-70, an aqueous solution of fatty acid diethanolamide with 10-16 carbon atoms - 30-90, fatty acid diethanolamides with 10-16 carbon atoms - 0.5-6, water - the rest, characterized in that the composition pumped into the well in an amount sufficient to isolate the entire thickness of the water-saturated formation, and until a pressure of 95-100% of the maximum allowable pressure is reached, then the composition is stopped pumping, kept in the formation for a time sufficient to melt the paraffin due to recovery reservoir The temperature and then the composition is forced into the reservoir volume of fluid sufficient to pressurize the borehole equal to 75-95% of maximum.

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