RU1755612C - Method for development of oil field - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: after thorough study of section of producing strata, similar formations are separated. In these formations the bottom-hole formation zones are treated simultaneously in injection and producing wells. EFFECT: higher efficiency. 2 tbl

Description

 The invention relates to the development of oil fields and can be used in the oil industry.

 In the practice of developing oil fields, various methods of influencing the bottom-hole zones of wells are widespread in order to intensify the flow of fluid, reduce the selection of associated or bottom water, isolate low-quality cement stone, etc.

 A significant drawback of the development of formations using impact on the near wellbore zones of the wells is the lack of a systematic approach to the work. The latter are performed in single wells without taking into account the state of development of well locations. The effects obtained in the form of an increase in oil production or a decrease in ballast water withdrawal are usually small and short-lived.

 A prototype of the present invention is a method for systemically processing oil well wells. It includes injecting a working agent through injection wells, producing fluids through production wells and treating the formation with chemicals.

 In the known method, a section of the formation is selected, and in all injection and production wells located on it, before injection of the working agent and production of fluids, practically simultaneously, they influence the bottom-hole zones of the formations using various impact methods.

 In real productive deposits, represented by alternating impermeable and permeable formations (interlayers), as the practice of field exploitation shows, no more than 40-60% of the productive thickness of the production facility works. The rest of the section is not involved in the development for various reasons. Moreover, often in adjacent wells, different formations (interlayers) are included in the work. The use of system technology in these conditions does not bring the expected results, its effectiveness is relatively low. This is the main disadvantage of this method.

 The aim of the invention is to increase the development efficiency by increasing the pressure gradient between the discharge and extraction lines.

 The goal is achieved by the fact that in the known method of developing an oil reservoir, including the simultaneous treatment of the bottom-hole zone of the producing and injection wells, a thorough study of the section of the productive stratum is carried out, the "same" formations are distinguished according to the geological and physical characteristics of the reservoirs in the producing and injection wells and they are simultaneously processed bottom-hole zones.

 A comparative analysis of the proposed solution with the prototype shows that the proposed method differs from the known one in that the simultaneous effect is carried out on the "same" formations (interlayers) of productive deposits.

A more detailed study of the technical and economic effectiveness of the proposed and known methods will be carried out on the example of the development of a pilot site of the Sutorminskoye field in Western Siberia. It is located in the northern part of the field, the productive section on it is represented by BS ₇ , BS ₉ ¹ , BS ₁₀ ² and BS ₁₁ strata. Their initial geological and physical characteristics are presented in table 1.

The site is supposed to be developed by one dense grid of wells with sequential development of formations from bottom to top (from BS ₁₁ to BS ₇ ). At the experimental site, 25 wells were placed according to the well-known reversed nine-point system, of which 6 were injection wells and 19 were operational. The main technological limitations are shown in Table 2.

 A prerequisite for the implementation of the proposed method is a thorough correlation of formations (interbeds) in adjacent injection and production wells before carrying out work on the impact on the bottom-hole zones. Correlation can be carried out both by well-known methods of oilfield geology, and with the use of the automated complex of geological construction programs GEOPAK developed at SibNIINP.

 Having obtained the "same-named" formations (interlayers) based on the results of these studies, the state of opening, development and operation of the layers (interlayers) in adjacent wells is further analyzed. Based on the results of these studies, such a set of methods for influencing bottom-hole zones (pre-opening, shooting, isolation, increasing the permeable properties of sediments, etc.) is selected so that in adjacent injection and production wells, impacts of the same name (layers) are covered. This, in addition to the usual effects, can significantly increase the efficiency of oil displacement from the pore space by increasing the pressure gradient between the discharge and extraction lines. A strong dependence of increasing the efficiency of oil and water displacement with an increase in the pressure gradient applied to the formation was obtained at SibNIINP according to the results of special studies.

 Approximate calculations show that in other geological and physical conditions the effectiveness of the proposed method is also significantly higher compared to the known method.

Claims (1)

 METHOD FOR DEVELOPING AN OIL DEPOSIT, including simultaneous treatment of the bottom-hole zone of production and injection wells, characterized in that, in order to increase the development efficiency by increasing the pressure gradient between the injection and extraction lines, a thorough study of the section of the productive stratum is carried out, “geologic” deposits are identified physical characteristics of reservoirs in producing and injection wells and in them conduct simultaneous treatment of bottom-hole zones.

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