RU2379493C1 - Oil field development method - Google Patents

Abstract

FIELD: oil-and gas industry.

SUBSTANCE: method includes oil withdrawal through a production wells, and working agent injection through injection wells in a cyclic regime: 10-20 days - injection, 10-20 days - stop. Execute injection wells research. All the injection wells connected hydro-dynamically connected via surface pipeline system with the working agent overflow ability. Injection wells during the working agent injection to be stopped and started simultaneously. Execute injection wells research at the moon monthly ebbs and tides average values. In injection wells where the reservoir opened over the water-oil contact level- WOL, execute an additional reservoir opening under the WOL level. Stop working agent injection only in period of monthly moon reservoir waters tide.

EFFECT: oil field production efficiency increase because of the working agent injection cyclic regime in a period of the moon monthly ebb and tide.

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Description

The invention relates to the oil industry and may find application in the development of oil deposits.

A known method of developing an oil reservoir (patent RU No. 2061179, IPC 8 ЕВВ 43/20, published in Bulletin No. 15 of 05/27/1996), including the selection of oil through production wells, transferring a portion of production wells to injection wells and pumping a working agent through injection, characterized in that the development areas are isolated on deposits in the form of oil-saturated lenses isolated from one another, oil is taken within these areas until the initial reservoir pressure is reduced by 20-25%, the porosity and permeability of the reservoir are determined in production wells, and the capacity l the reservoir and the current reservoir pressure, then select one or more production wells located in the central part of the development site with the highest values of porosity and permeability, with a capacity not lower than the average value of the section and the lowest value of reservoir pressure, and the selected wells are transferred to injection wells, while producing monthly injection of working agent density 1,09-1,11 g / cm ³ in volume flow rates of liquid, thus as a working fluid density of 1,09-1,11 g / cm ³ using a passing Devonian water at it download working agent via injection wells produce cyclically: 10-20 days injection, 10-20 days stop.

The disadvantage of this method is that due to the reduction of reservoir pressure, it is impossible to interact injection wells when stopping the injection of the working agent and cleaning the bottom-hole zones of injection wells due to spout.

The closest in technical essence is the method of developing an oil reservoir (patent RU No. 23033126, IPC 8 ЕВВ 43/20, published in Bulletin No. 20 of July 20, 2007), including the selection of oil through production wells and injection of a working agent through injection wells in a cyclic mode, while the arithmetic injectivity of injection wells is determined, wells with injectivity of less than average are classified as low-acceptivity, wells with injectivity of higher than average are classified as highly responsive, grouped in pairs located geographically close the highest highly-responsive and low-injectivity injection wells, all the injection wells communicate hydrodynamically with each other through a surface water conduit system with the possibility of overflowing the working agent from the low-receiving to the highly-responsive well, during cyclic pumping of the working agent, grouped in pairs highly-responsive and low-receiving wells stop and start the next, and the cycle is started and the cycle is started simultaneously : 10-20 days - injection, 10-20 days - stop.

The disadvantages of this method are:

- firstly, low efficiency (up to 30-40%) when shifting relative to the monthly lunar tides and when placing the opening of injection wells above the level of the oil hole,

secondly, with an increase in oil cut to 95-99% in production wells, chemicals are not injected that increase oil recovery from the well; in addition, the state of production wells is not taken into account, especially when produced from fractured-pore reservoirs.

The objective of the invention is to increase the efficiency of reservoir development by combining the injection of a working agent into injection wells and stopping them, as well as producing wells during the development of fractured-pore reservoirs and during their water cut to 95-99% with a period of a monthly lunar low tide of produced water.

The problem is solved by the method of developing an oil deposit, including oil extraction through production wells and pumping a working agent through injection wells in a cyclic mode: 10-20 days - injection, 10-20 days - shutdown, while conducting injection studies, all injection wells report among themselves hydrodynamically through a ground-based water conduit system with the possibility of overflow of a working agent, injection wells are stopped and started at the same time when the working agent is injected.

New is that the study of injection wells is carried out at average values of the amplitude of the monthly lunar tides, in injection wells, where the formation was opened above the level of the oil-water contact (OWC), an additional opening of the formation is performed below the level of the OWC, while the working agent is stopped pumping injection wells are produced only during the period of the monthly lunar tide of formation water.

It is also new that the injection of reagents that increase oil recovery from the well is periodically carried out with the increase of water cut to 95-99% through production wells during the monthly lunar low tide of produced water.

Also new is the fact that in the fracture-pore reservoirs during the monthly lunar low tide of produced water from producing wells, oil production is increased.

Figure 1 shows the oil reservoir with producing and injection wells.

Figure 2 shows the distance from the Earth to the Moon during the period from November 1 to December 19, 2006.

Figure 3 shows a section of an injection well.

The proposed method for the development of oil deposits is as follows.

A method for developing an oil reservoir 1 (see FIG. 1), comprising the constant selection of oil through production wells 2; 2 '; 2 '' ... 2 ⁿ and injection of the working agent (use wastewater of the same reservoir as the working agent) through injection wells 3; 3 '; 3 '' ... 3 ⁿ in cyclic mode: 10-20 days - injection, 10-20 days - stop.

All injection wells 3; 3 '; 3 '' ... 3 ⁿ communicate with each other hydrodynamically through a groundwater conduit system (not shown in FIGS. 1, 2, 3) with the possibility of overflow of a working agent, all injection wells 3; 3 '; 3 '' ... 3 ⁿ when the working agent is downloaded, it is stopped and started simultaneously.

The Moon moves under the influence of gravity mainly of two celestial bodies - the Earth and the Sun, while solar attraction is twice as large as the Earth. The moon is at an average distance of 384,400 km. Figure 2 shows the distance from the Earth to the Moon during the period from November 1 to December 19, 2006. At the peak, this distance increases to 405,500 km, and at perigee decreases to 363,300 km. The moon makes a complete revolution around the earth in 29.5 days, if the Sun is taken as the reference point. During this period, called the synodic month, it goes through all phases from the new moon to the first quarter, the full moon, the last quarter and again returns to the new moon phase.

A rise in the level of water-oil contact (BWC) means an increase in the volume of water relative to oil in the oil-water ratio, and a decrease in the level of water-oil contact means a decrease in the volume of water in the oil-water ratio.

At the same time, a decrease in recovery during the period of monthly lunar tides, when the amount of water in the well’s production increases significantly, significantly slows down the process of watering the reservoir, since it slows down the process of “pulling” water directly to the producing well.

The amplitude of the monthly fluctuations in the height of the liquid column in the well is up to 300 cm. Since the wave has energy energy, there must be a movement of the formation fluid. If there is movement, then there should be an increase in water-oil contact from the east direction of the beginning of the movement of the Moon and the Sun. Therefore, the lunar-solar tidal - tidal forces are the main factor influencing the fluctuation of the column height in the wells. Injection wells 3; 3 '; 3 '' ... 3 ⁿ according to the proposed method work as follows.

First, studies are carried out by any known method in order to determine the injectivity of the formation and injection pressure of injection wells 3; 3 '; 3 '' ... 3 ⁿ at average values (384400 km) of the amplitude of the monthly lunar tides (see figure 2) for 2 days.

Then in the injection wells 3; 3 '; 3 '' ... 3 ⁿ , where the opening of 4 stratum 5 (see Fig. 3) is performed above the level of water-oil contact (VOC), an additional opening of 6 stratum 5 is made below the level of the VOC during the monthly lunar low tide.

Then, during the period of a monthly lunar ebb (see figure 2), a working agent, for example waste water, is injected for 10-20 days into all injection wells 2; 2 '; 2 '' ... 2 ⁿ . At the end of the injection time, injection wells 3 are again tested; 3 '; 3 '' ... 3 ⁿ .

Then, during the period of the monthly lunar tide (see Fig. 2), produced water is used to stop the injection of the working agent into injection wells 3; 3 '; 3 '' ... 3 ⁿ .

The Moon completes a complete revolution around the Earth in 29.5 days, which corresponds to a full cycle of operation of injection wells 3; 3 '; 3 '' ... 3 ⁿ , as described above.

In the process of developing reservoir 1 at some producing wells, for example 2 and 2 '', the water cut of oil increases to 95 - 99%. Then stopped the production wells 2 and 2 '' and produce therein reagent injecting, enhancing oil recovery, such as an aqueous solution of surface-active agents (surfactants), which is used as an aqueous solution neonol AF ₉ -12 in a concentration not exceeding 0.1 % After injecting reagents that increase oil recovery into them, start production wells 2 and 2 '' in the previous operating mode, while oil recovery from these production wells 2 and 2 '' increases by 10-14%.

In fractured-pore reservoirs, developed for example, production wells 2 '; 2 '' ', during the period of a monthly lunar low tide of formation water, oil production is increased by increasing the productivity of the downhole pump (not shown in FIGS. 1, 2, 3). The proposed method allows to reduce energy consumption to maintain reservoir pressure due to the injection of reagents during the monthly lunar low tide of formation water.

Also, the proposed method allows to maintain the optimal ratio of oil-water balance and preserve reservoir properties of the formation, since the injection of a working agent into injection wells and their shutdown are combined with the period of a monthly lunar ebb-tide of formation water.

Claims (3)

1. A method of developing an oil reservoir, including the selection of oil through production wells and the injection of a working agent through injection wells in a cyclic mode: 10-20 days - injection, 10-20 days - shutdown, while conducting studies of injection wells, all injection wells are reported between hydrodynamically through a ground-based water conduit system with the possibility of overflow of the working agent, the injection wells are stopped and started when the working agent is injected, characterized in that the studies are injection x wells are produced at average values of the amplitude of the monthly lunar ebbs and flows, in injection wells, where the formation was opened above the level of the oil-water contact - VOC, an additional opening of the formation below the level of the VOC is performed, while the injection of the working agent into injection wells is stopped only during the month moon tide formation water. 2. The method according to claim 1, characterized in that the injection of reagents that increase oil recovery from the well periodically, while increasing the water cut of oil to 95-99%, is carried out through the production wells during the monthly lunar low tide of produced water. 3. The method according to claim 1, characterized in that in the fissure-pore reservoirs during the period of the monthly lunar low tide of produced water from production wells, oil production is increased.

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