RU2095557C1 - Method for treatment of down-hole zone in oil bed - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: this relates to stimulation of down-hole zone in oil bed. Improved efficiency of method is achieved due to increased embracing of bed in depth and thickness with involvement in operation of low-permeable clay-bearing reservoirs and consequently enhanced injectivity of injection wells. According to method, treatment of oil bed down-hole zone is effected by flushing it with working solution magnetized by lateral magnetic field with strength of 2•10³ A/m. Added to solution is crown-ether with concentration of 0.005-0.01%. Also possible to use as flushing liquid is non-magnetized water with addition of crown-ether of same concentration. Aforesaid method reduces swelling of clay by 21%, and with non-magnetized water with crown-ether by 6% more than in treatment by magnetized water. EFFECT: high efficiency. 1 cl, 1 tbl, 1 dwg

Description

 The invention relates to the oil industry, and in particular to methods of influencing the bottomhole formation zone.

 The purpose of the invention is to increase the efficiency of the method by increasing the coverage of the treatment along the depth and thickness of the reservoir with the inclusion of low-permeability clay-containing reservoirs and, as a result, increasing the injectivity of injection wells.

 As a prototype, a method was selected for treating the bottom-hole zone of the formation with a washing solution by pumping working agents in order to increase the coverage of the treatment of the formation by reducing the swelling of clay minerals of low permeability reservoirs.

 The need to improve the filtration properties of the formation based on hydrodynamic studies of pressure restoration in the well is associated with a decrease in the productivity of wells, reduced permeability of the formation in the bottomhole zone, low coverage of the formation, injection along its thickness, etc.

 It is possible to compensate for these shortcomings by treating non-magnetic wells with magnetized water when crown ethers are added to it.

 The aim of the proposed method is to increase the efficiency of oil recovery by increasing the coverage of the treatment of the formation in depth and thickness by reducing the swelling of clay minerals of low permeability reservoirs, as well as simplifying the method and reducing energy costs.

This goal is achieved in that the bottom-hole zone of the formation is treated with a working solution, and the working solution is kept for 1.5-10 hours, while an aqueous solution of crown ethers with a concentration of 0.005-0.01 in a volume sufficient is used as a working solution to fill the pore space of the bottomhole formation zone, while it is possible to treat the crown ether aqueous solution with a constant / transverse magnetic field with a strength of at least 2 • 10 ³ A / m.

 The crown ethers used are cyclic polyesters obtained by cationic polymerization of oxiranes. The use of crown ethers in this group is due to the fact that they are obtained using a new technology patented by the co-authors of this application. The cost of these crown ethers is much lower than the cost of the previously known (2000 to 20,000 dollars per kg), whereas for our use it is about 20 dollars per kg.

250).The cyclic esters used are colorless liquids with number average molecular weights not exceeding 250 (

250).

The drawing shows the dependence of the swelling of clay in solutions of crown ethers in simple and magnetized water relative to the swelling of clays in magnetized water without a reagent, depending on the exposure time, where V is the volume of the swollen clay sample in solutions of kaone ethers, cm ³ ; V _{0 the} volume of the swollen sample in magnetized water, cm ³ .

 The studies were carried out according to the Zhigach-Yarov method in the range of crown ether concentrations of 0.001 0.05 by weight.

 It was experimentally established that an aqueous solution of crown ethers reduces the swelling of montmorilonite clays at a holding time of 1.5 to 10 hours by 6 more than the working solution (prototype).

 A further increase in exposure time reduces the effect. After a day, the action of the reagent solution is similar to the action of magnetized water.

 A solution of crown ethers in magnetized water reduces the swelling of clays over a period of 1 h to 5 h by 14-16 compared to the action of magnetized water without a reagent (prototype). If the exposure is more than 5 hours, the effect increases and after 10 hours it is 21. In the future, the process stabilizes. It was found that the maximum positive effect is observed in the concentration range of 0.005-0.01 by mass, where the results are practically identical. An increase in the concentration of crown ether above 0.01 leads to an additional consumption of the reagent while stabilizing the effect. A decrease in concentration below 0.005 reduces the effect (see table).

The method is as follows. Aqueous solutions of crown ethers (cyclic polyesters based on oxiranes) with a concentration of 0.005-0.01 or 50-100 g / cm ³ , not treated or treated with a transverse magnetic field of at least 2 • 10 ³ A / m in volume, are pumped into the reservoir equal to 1.5-2 volume of the bottom-hole zone. Carry out technological exposure for non-magnetized aqueous solutions from 1.5 to 10 hours, for magnetization of solutions for at least 1 hour

 When 1.5-2.0 volumes of the indicated solutions are injected into the formation from the volume of the bottom-hole zone, its pore space is completely filled. The injection of 1 volume from the volume of the bottomhole zone is insufficient to completely displace the fluid in the reservoir, and more than 2 volumes are not economically feasible.

 Thus, this method of processing the bottom-hole formation zone allows to improve the technological and operational performance of previously applied methods. This is confirmed by the data carried out in the application (see table drawing).

 It is obvious that the use of simple non-magnetized water as a washing liquid simplifies and reduces the cost of the method by reducing the energy consumption required for magnetizing the washing liquid.

Claims (2)

 1. The method of processing the bottom-hole zone of the formation by washing it with a working solution, characterized in that the working solution is kept in the formation for 1.5 -10 hours, while an aqueous solution of crown ethers with a concentration of 0.005-0.01 is used as a working solution % in a volume sufficient to fill the pore space of the bottomhole formation zone. 2. The method according to claim 1, characterized in that the aqueous solution of crown ethers is magnetized with a constant transverse magnetic field with a strength of at least 2 • 10 ³ A / m.

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