RU2340765C1 - Method of intensification of oil production employing composition "gtk-100" - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil production and is designed for increased efficiency of oil producing well, particularly for intensifying of influx of oil from producing horizon. The essence of the invention is as follows: activation increasing conductivity of horizon is performed in a bottomhole zone of micro-cracks network of a producing horizon. Then the bottomhole zone of the producing horizon is subject to treatment with composition "GTK-100" in a following form: wt %: sodium naphtenate 85-95%, Neftenol ML 0.5-1.5%, Nefras AK - 0.2-0.7, gas condensate or diesel fuel 5-9% and acid. The well is left for reaction and following drainage of the producing horizon for cleaning from reaction products.

EFFECT: upgraded efficiency of the method due to possibility to drain horizon production with total thickness.

6 cl, 1 ex

Description

The present invention relates to the field of oil production and is intended to increase the productivity of oil wells - the intensification of oil flow from the reservoir.

A known method of intensifying oil production by exposing the reservoir to pulses of hydrodynamic pressure, which provide by lowering the chamber into the well on the tubing string, communicating the chamber cavity with the reservoir and creating periodic depressions and repressions in the chamber using a plunger that is lowered into the chamber on the rope , move the plunger from one position to another and transfer the camera to different operating modes (see, for example, Popov A.A. Impact effects on the bottom-hole zone of wells. Moscow, Nedra 1990, pp. 106-109).

The disadvantage of this method is that it requires additional funds for the implementation of the method, cannot be implemented directly during operation. The productive formation, in its near-wellbore zone, often cannot be fully processed (along its entire matrix) to such an extent that it drains the product in all its thickness.

The technical result of the invention is to increase the efficiency of the method due to the possibility of draining the product with a layer of the entire thickness.

The required technical result is achieved by the fact that the method of intensifying oil production involves activating a network of microcracks of a productive formation in the near-wellbore zone that increase its conductivity, subsequent processing of the near-wellbore zone of the productive formation with a composition in the following form, wt.%:

Sodium Naphthenate 85 ÷ 95 Neftenol ML 0.5 ÷ 1.5 Nefras AK 0.2 ÷ 0.7 Gas condensate or diesel 5 ÷ 9

and acid, leaving the well to react and subsequent drainage of the reservoir to clear the reaction products.

Besides:

the volume of the composition is taken at the rate of 0.5-1 m ³ mixture per 1 m of the thickness of the reservoir;

for processing the borehole zone of the reservoir, the composition and acid are injected simultaneously;

to treat the borehole zone of the reservoir, the composition and acid are pumped sequentially, with the composition being pumped first, and then acid;

the well is left to react under pressure for 4-6 hours;

as an acid, a 14% aqueous hydrochloric acid solution is used.

The essence of the invention lies in the fact that to ensure the necessary productivity of the well requires filtering the entire matrix of the reservoir, and not only high-permeability layers. The solution to this problem with conventional treatments is possible either by increasing the speed of injection of the reagents (pressure), or by using reagents that provide blocking - isolation of the most conductive - highly permeable channels of the reservoir. However, in most cases, reagents that block highly permeable channels require further destruction or additional work to ensure their removal after processing the borehole formation zone. Certain difficulties also arise when treating waterlogged wells, the production of which is a three-phase system, and it is very difficult to foresee all possible chemical reactions in this system. Therefore, the composition GTK-100 developed in accordance with the present invention, which is a complex system of a mixture of naphthenic acids, alkalis, and surfactants, can be adopted as the most promising for these conditions. This composition provides, during a selective reaction with mineralized water, the formation of a visco-plastic material blocking highly permeable flooded zones of the formation. This composition also provides the dissolution of resinous substances in the borehole zone of the reservoir, the conversion of paraffin deposits and a decrease in the viscosity of oil. The complete process involves the use of the GTK-100 composition together with acids to achieve a given level of intensification of oil production. The composition of GTK-100 is a mixture of sodium naphthenate - 85 ÷ 95%, Neftenol ML - 0.5 ÷ 4.50%, Nefras AK - 0.2 ÷ 0.7%, gas condensate or diesel fuel - 5 ÷ 9%.

With the use of this technology, the influx of oil is significantly increased, as well as the overhaul period of the well.

The result of the application of the proposed technology is an increase in well productivity due to a decrease in hydraulic resistances, a decrease in the viscosity of formation fluids and the adhesion force of rock particles, the bottom-hole zone is cleaned of deposits and permeability increases.

The method is as follows.

During the operation of the well, its production is monitored, in particular, the stability of the oil flow rate is controlled, as well as the water content in the produced oil. If the flow rate or the water content in oil falls above the permissible level, measures are taken to intensify oil production. For this, the entire matrix of the reservoir in the near-wellbore area is processed by a physical method to activate the network of microcracks of the reservoir in the near-wellbore zone. This is done, for example, by creating a pressure that is 10-15% less than the hydraulic fracturing pressure, or by exposing the reservoir to waves of compression and rarefaction, which activate the network of microcracks. To do this, during operation, impulses of hydrodynamic pressure in the well are generated by periodic interaction of fluid (oil) in the tubing string and its annular space in the mode of preventing mutual compensation of hydrodynamic pressure pulses. After activation of the microcrack network, the near-wellbore zone of the reservoir is treated with the GTK-100 composition with acids or their solutions. Apply hydrochloric acid, hydrofluoric, clay.

A specific example of the implementation of the method.

According to the method, a network of microcracks of the productive formation is activated, for which, for example, they create a pressure in the well below the hydraulic fracture pressure and withstand this pressure until the cracks open. As another option, it is possible to impact the reservoir with compression and rarefaction waves. To do this, in the standard tubing arrangement, a well-known spool-type device is installed on the submersible pump rod to ensure periodic fluid communication in the tubing and their annular space. Hydrodynamic pressure pulses are generated in the well in the mode of preventing mutual compensation of hydrodynamic pressure pulses. To do this, provide for the overlapping of the source of pressure pulses until the moment of arrival of the reflected wave reflected from the free surface - the rarefaction wave. In this case, the duration of the source during one cycle should be less than the ratio of the double distance from the pulse source to the free surface in the annular space of the tubing to the speed of sound in the liquid. The effects of hydrodynamic pressure waves continue until the activation of a network of microcracks, which is controlled by geophysical methods.

After activating the network of microcracks in the near-wellbore zone of the reservoir, the GTK-100 composition is injected. For this, the wellhead is strapped using the TsA-320 and SIN-32 aggregates through a tee using standard technology. The system is pressure tested with a pressure of 15-20 MPa.

The annulus of the well is sealed and injectivity of the reservoir is determined by water injection.

Provide a composition of GTK-100 and acid. The composition of the GTK-100 is taken, for example, with the following ratio of components, wt.%: Sodium naphthenate - 91, "Neftenol ML - 1.0," Nefras AK - 0.5, diesel fuel - 7.5. All components of the composition GTK-100 are produced by industry. Sodium naphthenate is produced in accordance with TU 0258-001-10105754-97. Neftenol ML - a mobile foaming liquid, is a multicomponent mixture of anionic and nonionic surfactants and is produced according to TU 2481-056-17197708-00. Nefras AK is produced according to GOST 443-76.

The composition is injected in one of two ways.

1. In the tubing with open annular space pumped prepared according to the injectivity of the well and the power of its filter part volume GTK-100 at the rate of 0.5-1 m ³ mixture per 1 m of formation thickness and 14% and water hydrochloric acid solution, with simultaneous injection through a tee, and brought to the tubing shoe.

2. The second version of the injection is carried out sequentially, in batches. In this case, the composition of GTK-100 is first injected, and then acid.

The injection pressure is determined based on the injectivity of the reservoir. The annulus of the well is sealed, and the mixture is pressed into the reservoir with industrial water.

The well is left to react under pressure for 4-6 hours. Then carry out the drainage of the formation for cleaning from the reaction products and continue to operate.

Claims (6)

1. A method of intensifying oil production, including the activation in the borehole zone of a network of microcracks of the reservoir, increasing its conductivity, subsequent processing of the borehole zone of the reservoir with a composition in the following form, wt.%: Sodium Naphthenate 85 ÷ 95 Neftenol ML 0.5 ÷ 1.5 Nefras AK 0.2 ÷ 0.7 Gas condensate or diesel fuel 5 ÷ 9 and acid, leaving the well to react and subsequent drainage of the reservoir to clear the reaction products. 2. The method according to claim 1, characterized in that the volume of the composition is taken at the rate of 0.5-1 m ³ mixture per 1 m of the thickness of the reservoir. 3. The method according to claim 1, characterized in that for processing the borehole zone of the reservoir, the composition and the acid are injected simultaneously. 4. The method according to claim 1, characterized in that for processing the borehole zone of the reservoir, the composition and the acid are injected sequentially, moreover, the composition is pumped first, and then the acid. 5. The method according to claim 1, characterized in that the well is left to react under pressure for 4-6 hours 6. The method according to claim 1, characterized in that the acid used is a 14% aqueous hydrochloric acid solution.