RU101082U1 - FORMATION OF A BRANCHED WELL FOR OPERATION OF WATERFILLING HYDROCARBON DEPOSITS - Google Patents

Abstract

 The design of a branched well for the exploitation of waterlogging hydrocarbon deposits, comprising a main wellbore with a horizontal section and several sidetracks extending from this horizontal section, characterized in that the sidetracks are parallel to the plane of the gas or oil contact, hydraulic fracturing is performed in each side well with the formation of hydraulic fractures that do not reach the 2–5 m plane of the gas or oil-water contact, while the side trunks are located us at the top of the producing formation or in the reservoir.

Description

The utility model relates to the oil and gas industry, in particular to well designs for the exploitation of waterlogged hydrocarbon deposits.

Well-known designs of wells with the placement of sidetracks in different productive formations [Oganov A.S. et al. Multilateral drilling of wells - development, problems, successes. - M .: VNIIOENG OJSC, 2001. - P.46] or [Shenberger V.M. and others. Technique and technology for the construction of sidetracks in oil and gas wells. - Tyumen: Publishing house "Oil and Gas University", 2007. - 594 p.].

The disadvantage of these designs is the insufficient drained area of the bottomhole formation zone formed by separate lateral trunks in separate layers.

The closest of the known well designs to the claimed design, selected as a prototype, is the design of the well, including the placement of sidetracks in different reservoirs [Pat. No. 2366805 of the Russian Federation. ЕВВ 43/16, 43/26].

The disadvantage of this design is the insufficient drainage area of the bottomhole formation zone (PZP), formed by separate lateral shafts in separate layers.

The challenge in creating the device is to develop a reliable and efficient design of a branched well for the exploitation of flooded hydrocarbon deposits.

The achieved technical result, which is obtained as a result of creating a utility model, consists in creating a large drainable area of the bottomhole formation zone, which allows to ensure the maximum possible volumes of oil or gas from irrigated hydrocarbon deposits.

The task and technical result are achieved by the fact that in the well-known design of a branched well for the exploitation of waterlogging hydrocarbon deposits containing the main wellbore with a horizontal section and several sidetracks extending from this horizontal section, unlike the prototype, the sidetracks are parallel to the gas or oil-water contact, in each side well a hydraulic fracturing was performed with the formation of hydraulic fractures, not reaching 2-5 m plane of gas or oil-water contact, while the side trunks are located in the roof of the reservoir or in the reservoir itself.

To exclude premature flooding when raising a gas or oil contact, the lateral boreholes are parallel to the plane of the gas or oil contact, a distance of 2-5 m is determined so that hydraulic fractures do not reach the gas or oil contact.

In FIG. shows the design of a branched well with two sidetracks for the exploitation of waterlogged hydrocarbon deposits.

The design of a branched well comprises a horizontal portion 1 of the main trunk of a branched well and several sidetracks, in FIG. shown: the first sidetrack 2, the second sidetrack 3, in which are: a hydraulic fracture 4 from a horizontal portion 1 of the main wellbore, a hydraulic fracture 5 from the first sidetrack 2 and a hydraulic fracture from the second sidetrack 6. Sidetracks 2 and 3 are located in the most productive formation 7 having a flooded portion 8 of the formation. Hydraulic fracturing cracks 4, 5 and 6 do not reach the gas or oil-water contact plane 9 on the 2-5 m plane. These lateral shafts 2 and 3 can also be located in the roof 10 of the reservoir.

The design of a branched well is constructed as follows.

The first lateral barrel 2 is attached to the horizontal section 1 of the main wellbore through a cut-out window, which is parallel to the plane of the gas or oil-water contact 9. Next, the second lateral trunk 3 is also connected to the same horizontal section 1 of the main wellbore through the cut-out window, which is also parallel gas or oil-water contact plane 9.

Moreover, the horizontal section 1 of the main wellbore and sidetracks 2 and 3 can be located both in the roof of the formation 10 and in the most productive formation 7.

In the horizontal section 1 of the main wellbore and in the sidetracks 2 and 3, hydraulic fracturing is performed with the formation of hydraulic fractures 4, 5, 6 that do not reach the gas or oil-water contact on the 2-5 m plane.

Hydraulic fractures 4, 5, 6 are performed at intervals with isolation from each other by annular packers (not shown in FIG.).

The inventive design of a branched well provides reliable and efficient operation of waterlogged hydrocarbon deposits with a simultaneous increase in oil and gas production rates by increasing the drainage area of the bottomhole formation zone.

Claims (1)

The design of a branched well for the exploitation of waterlogging hydrocarbon deposits, comprising a main wellbore with a horizontal section and several sidetracks extending from this horizontal section, characterized in that the sidetracks are parallel to the plane of the gas or oil contact, hydraulic fracturing is performed in each side well with the formation of hydraulic fractures that do not reach the 2–5 m plane of the gas or oil-water contact, while the side trunks are located us at the top of the producing formation or in the reservoir.