RU2819865C1 - Method for development of oil field with heterogeneous reservoirs - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to a method of developing an oil deposit with heterogeneous reservoirs. Method includes drilling of production and injection wells. It also includes pumping of displacement agent through injection wells. Method also involves extraction of products through production wells, determination of boundaries of non-reservoir rocks zones and extraction of formation products from stagnant zones near the zone of non-reservoir rocks. Method involves determination of the degree of product watering. At watering of production wells up to 98%, a side horizontal shaft is drilled from production wells towards the zone of non-reservoir rocks and transferred to injection with injection volume of 1.4 of the volume of produced fluid from production wells and pressure 10% higher than initial formation pressure. Also, sections of fracture of zones of non-reservoir rocks are determined. After that in sections of fracture of zones of non-reservoir rocks additional horizontal production well is drilled parallel to regional stress opposite to injection wells with side horizontal borehole.

EFFECT: increasing oil recovery of the deposit and introducing additional oil reserves into development, which are located in fracture zones of zones of non-reservoir rocks.

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Description

The invention relates to the oil industry, in particular to the field of oil field development, and can be used to increase oil recovery from oil fields with heterogeneous reservoirs.

There is a known method for developing a heterogeneous oil field (patent RU No. 2386799, MPK E21B 43/20, published in Bulletin No. 11 dated April 20, 2010), including drilling production and injection wells, pumping a displacing agent through injection wells, sampling products through production wells, determining the boundaries of reservoir replacement zones and selecting reservoir products from stagnant zones near the reservoir replacement zone. The rupture zones of the reservoir replacement zones are determined, and additional production wells are drilled near the rupture zones of the reservoir replacement zones from the side of the injection wells. Additional injection wells are drilled with horizontal sections in the direction of rupture zones of reservoir replacement zones.

The disadvantages of this method are:

- insufficient introduction into development of stagnant oil zones located near rupture zones of non-reservoir zones;

- reduced value of the final oil recovery factor.

The objective of the invention is to increase oil recovery from the field and introduce into development additional oil reserves located in rupture zones of non-reservoir zones.

A method for developing an oil field with heterogeneous reservoirs, including drilling production and injection wells, pumping a displacing agent through injection wells, sampling products through production wells, determining the boundaries of non-reservoir zones and sampling formation products from stagnant zones near the non-reservoir zone.

What is new is that the degree of water cut of the product is determined; when the water cut of production wells is up to 98%, a horizontal lateral trunk is drilled from production wells towards the non-reservoir zone and transferred to injection with an injection volume of 1.4 volumes of produced fluid from production wells and a pressure 10% higher initial reservoir pressure, areas of rupture of non-reservoir zones are determined, after which, in areas of rupture of non-reservoir zones, an additional horizontal production well is drilled parallel to the regional stress opposite injection wells with a horizontal sidetrack.

The field is drilled according to the designed well pattern and developed. Water is pumped into injection wells and products are withdrawn through production wells. During the operation of the field, measurements of oil and water production are made. The geological structure and oil reserves are clarified using reservoir parameters. The boundaries of non-reservoir zones are clarified.

The water cut of production wells is determined. When the water cut of production wells is up to 98%, a horizontal lateral trunk is drilled from production wells towards the non-reservoir zone and transferred to injection with an injection volume of 1.4 volumes of produced fluid from production wells and a pressure 10% higher than the initial reservoir pressure. At the same time, in the rupture zones of non-reservoir zones, an additional horizontal production well is drilled parallel to the regional stress opposite the injection wells with a horizontal sidetrack.

Example of concrete execution

The field site is drilled according to the designed well pattern. Products are selected through production wells. Conduct geophysical research, build lithological maps and identify zones of non-reservoir distribution, which make up 20% of the field. Recoverable oil reserves amount to 1,200 thousand tons. Oil samples are taken and the degree of water content of the product is determined. When the water cut reaches 98% of the production wells, a side horizontal trunk is drilled towards the non-reservoir zone. 870 thousand tons of oil were produced.

By modeling the area, the rupture area of the non-reservoir zones is determined. It was determined that stagnant zones were formed near non-reservoir zones and rupture zones on the side of injection wells. The working agent is injected with a volume of 91 m ³ /day and at a pressure of 14 MPa. In the rupture area of the non-reservoir zone, a horizontal production well is drilled parallel to the regional stress and put into production. Recoverable reserves are determined using displacement characteristics, the increase is 25% - 1500 thousand tons. Additional oil production amounted to 300 thousand tons. The reservoir sweep factor has increased.

The use of this method makes it possible to increase oil recovery from the field and bring into development additional oil reserves located in rupture zones of non-reservoir zones.

Claims (1)

A method for developing an oil field with heterogeneous reservoirs, including drilling production and injection wells, pumping a displacing agent through injection wells, sampling products through production wells, determining the boundaries of non-reservoir zones and selecting formation products from stagnant zones near the non-reservoir zone, characterized in that the degree of water cut is determined production, when the production wells are watered up to 98%, drill a horizontal lateral trunk from the production wells towards the non-reservoir zone and transfer it to injection with an injection volume of 1.4 volumes of produced fluid from the production wells and a pressure 10% higher than the initial reservoir pressure, determine zone rupture areas non-reservoir, after which, in areas of rupture of non-reservoir zones, an additional horizontal production well is drilled parallel to the regional stress opposite the injection wells with a horizontal sidetrack.