RU2339801C2 - Method for development of multi-horizon non-uniform oil fields by means of branched horizontal wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method includes boring of pressure and producing wells with vertical and horizontal and/or sub-horizontal bores of horizontal and/or sub-horizontal and/or vertical branches, then pumping of displacing fluid and withdrawal of well product. According to the invention while boring horizontal and/or sub-horizontal bores borders of zones with different permeability crossed by these bores are determined. The number of branches is specified in direct proportion dependence on oil resources, in inverse proportion on zones permeability and on the condition of uniform extraction of deposit resources. Further a packer is installed in horizontal and/or sub-horizontal wells at the border of zones differed in their permeability by 1.5 and more times. Withdrawal of product is performed maintaining bottom pressure for each chosen zone.

EFFECT: increased oil extraction due to increased coverage of non-uniform beds by effecting onto them and due to uniformity of oil resources withdrawal.

1 ex, 2 dwg

Description

The proposed method relates to the oil industry, in particular to the field of oil field development with branched horizontal wells, represented by heterogeneous permeability zones.

The known method of simultaneous and separate development of several operational facilities, including their exploration, drilling, research, extraction, perforation, descent on a pipe string of a well installation, consisting of several sections separated by a packer, development and operation (RF patent No. 2211311, ЕВВ 43/14 , publ. Bull. No. 24 dated 08/27/2003). For each distinguished production facility, its geological and field characteristics are changed and / or determined, technical parameters of its corresponding section are selected, the well and production facility's operating modes are examined and adjusted by changing its geological and field characteristics, and / or technical parameters corresponding to it or others operating facilities of the sections, and / or technical and technological parameters of the well installation, repeat this process until the optimum mode is achieved, ensuring its maximum hydrocarbon production or the corresponding maximum hydrocarbon recovery.

The known method is not effective enough when developing a multi-layer heterogeneous oil field. The disadvantage of this method is the low coefficient of coverage by the impact.

The closest in technical essence to the proposed one is a method of developing a multilayer heterogeneous oil field with horizontal wells, including drilling injection and production wells with vertical and horizontal and / or subhorizontal shafts at a specific location in each reservoir, drilling from horizontal and / or subhorizontal horizontal and / or subhorizontal and / or vertical branches, injection of displacing fluid and production of well products other (RF patent №2282022, ЕВВ 43/20, publ. from 08.20.06, Bull. No. 23). According to the known method, the main trunk of horizontal and / or subhorizontal wells is located above the oil-water contact at a minimum distance, ensuring an anhydrous period of operation of the wells, and horizontal and / or subhorizontal and / or vertical branches are drilled along the ascending profile with the same azimuth as the main horizontal and / or subhorizontal trunk, and / or with departure from it to the side of the roof of the reservoir or layer. The method allows to increase oil recovery by increasing the anhydrous period of operation of wells.

The disadvantage of this method is that in conditions of a heterogeneous multilayer field, uneven production of formations with different reservoir characteristics occurs, which leads to a reduction in the life of the well, and therefore, to a decrease in oil recovery.

The technical task of the proposed method is to increase the oil recovery of a multilayer oil field with heterogeneous permeability zones and increase production productivity by increasing the coverage of heterogeneous formations by the effect and uniformity of oil reserves, reducing the cost of constructing additional wells.

This task is achieved by the method of developing a multilayer heterogeneous oil field with horizontal wells, including drilling injection and producing wells with vertical and horizontal and / or subhorizontal shafts at a specific location in each reservoir, drilling from horizontal and / or subhorizontal horizontal and / or subhorizontal shafts, and / or vertical branches, injection of displacing fluid and production of well products.

What is new is that when drilling horizontal and / or subhorizontal shafts, the boundaries of zones with different permeability intersected by these shafts are determined, the number of branches is determined in dependence directly proportional to oil reserves, inversely proportional to the permeability of zones and from the condition of ensuring uniform development of field reserves, then for horizontal and / or subhorizontal wells, a packer is installed at the border of zones differing in permeability by 1.5 or more times, and the selection of products is carried out keeping the bottomhole pressure for each selected zone.

Conducted preliminary patent research on the patent fund, as well as on the fund of the technical library of the TatNIPIneft Institute, showed the absence of identical or equivalent technical solutions in comparison with the claimed method. This allows us to conclude that it meets the criteria of "novelty" and "inventive step".

On figa presents the trajectory of a branched well in a schematic section of a reservoir.

On figb presents a layout of a branched horizontal well in the reservoir.

The inventive method is carried out in the following sequence.

One of the problems of the oil industry is to increase the production of oil reserves in a multi-layer heterogeneous oil field.

The field is drilled with a rare grid of wells, its arrangement is carried out. The type of field and the type of structure of the deposit are determined. The displacing fluid is injected into injection wells and production of well products from producing wells is performed. During operation, oil, water and water injection are measured. Clarify the geological structure of the reservoir and the reservoir properties of the reservoirs, oil reserves using the parameters of the reservoirs resulting from drilling a rare grid of wells. The boundary of the zones with the lowest and greatest permeability is determined. The results are compared with the data of geological and hydrodynamic modeling, taking into account the current development conditions.

Using the obtained information, the location of the main horizontal and / or subhorizontal wellbore and horizontal and / or subhorizontal and / or vertical branches of horizontal and / or subhorizontal wells is determined both by the section of the formations (Fig. 1a) and by the area of the multilayer oil field (figb). Determine the placement of the packer in the main horizontal and / or subhorizontal trunk. The packer is placed between zones with a permeability of 1.5 or more times.

The choice of the type of branched wells and their placement depends on the geological structure of the reservoir.

For low-power reservoirs, it is advisable to use at least one horizontal wellbore with horizontal branches or a horizontal wellbore with subhorizontal branches, or a similar wellbore with horizontal and subhorizontal branches.

For reservoirs with a thickness of more than 8 m or massive deposits, it is advisable to use at least one subhorizontal wellbore with horizontal branches, or a subhorizontal wellbore with subhorizontal branches, or a similar trunk with vertical branches. It is also possible to use branched well options recommended for low-power reservoirs, or a combination of recommended options for low-power and powerful reservoirs.

The choice of the type of branching depends on the geological structure of the formation, the presence of water-oil zones and layer-by-layer heterogeneity. In the presence of water-oil zones, the distribution of branches will be directed towards the roof of the productive formation and / or layer, in the case of high layer-by-layer heterogeneity, the direction of branches will be towards the layers with maximum reserves.

The choice of the number of branches depends on the ratio of zones with different permeability. The number of branches is determined in direct proportion to the oil reserves, inversely proportional to the permeability of the zones and from the condition of ensuring uniform development of reserves of the field.

The main horizontal and / or subhorizontal trunk is placed in zones with permeability differing by 1.5 or more times. Branches are drilled, a packer is installed at the boundary of zones with different permeabilities, and equipment is simultaneously lowered for separate operation. These branched horizontal wells are placed according to the above profile and put into production.

The proposed method allows you to determine the type and exact number of branches, place the equipment in such a way that only under these conditions it is possible to rationally develop a multi-layer heterogeneous oil field deposit, providing increased formation coverage and uniform reserves development. At the same time, the productivity of wells and oil recovery of deposits increase, and the cost of constructing additional production wells also decreases.

An example of a specific implementation. The implementation of this method, consider the example of the development of a heterogeneous field. The site was drilled with a rare grid of wells, they were arranged. Water was pumped into injection wells and oil was extracted from production wells. Made measurements of oil, water and water injection. We built lithological maps and calculated oil reserves, determined recoverable reserves by the displacement characteristics - 1600 thousand tons of geological and 800 thousand tons of recoverable. Studies have shown that the site consists of two zones with permeability K = 150 mD and K = 300 mD. The permeability of the zones is 2 times different, therefore, the number of branches in the zone with permeability K = 150 mD will be 2 times greater than in the zone with permeability K = 300 mD. We drilled a horizontal production well (1) from the top of the formation to the entire depth (Fig. 1a), specified zones with different permeability. We drilled 2 horizontal branches in the highly permeable zone (2) and 4 horizontal branches in the low-permeable zone (3). The border of the zones with the lowest and greatest permeability was determined, a packer was installed at the border of the zones and equipment for simultaneous and separate operation was installed (4). They set up a branched horizontal well and put into operation.

With the known method, the flow rate of a branched horizontal well will be 80 tons / day, which is 1.5 times higher than the flow rate of surrounding wells.

According to the proposed method, the flow rate will increase by 12.5% and amount to 90 tons / day, since the WEM equipment allows maintaining bottomhole pressure for each of the zones with different permeability.

E = ΔQn · (C-C) = 34000 t · (3500 rubles / t - 2000 rubles / t) = 51 million rubles.

where ΔQн - additional oil production, thousand tons,

C - the price of oil, thousand rubles / t,

C - the cost of production of one ton of oil, thousand rubles / t, i.e. according to the proposed method, on average 3.4 thousand tons of additional oil will be produced per year and the savings for 1 year will amount to 5.1 million rubles.

The application of the proposed method can increase the oil recovery of a multilayer oil field with heterogeneous permeability zones, increase production productivity by increasing the coverage of heterogeneous formations by the effect and uniformity of oil reserves, improve technological development indicators, and reduce the cost of constructing additional wells.

Claims (1)

A method of developing a multilayer heterogeneous oil field with horizontal wells, including drilling injection and producing wells with vertical and horizontal and / or subhorizontal shafts at a specific location in each reservoir, drilling from horizontal and / or subhorizontal horizontal and / or subhorizontal shafts and / or vertical branches, injection of displacing fluid and production of well products, characterized in that when drilling horizontal and / or subhills the boundaries of zones with different permeability intersected by these trunks are determined from the zonal wells, the number of branches is determined in direct proportion to the oil reserves, inversely to the zones permeability and from the condition of ensuring uniform development of the field reserves, then in horizontal and / or sub-horizontal wells a packer is installed at the zone boundary differing in permeability by 1.5 and more times, and the selection of products is carried out while maintaining bottomhole pressure for each selected zone.

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