RU2761035C1 - Method for regulating volume of gas condensate production in development of multi-layer gas fields - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to the field of the oil and gas industry and can be used in the development of hydrocarbon deposits. The method involves the construction of separate grids of producing wells for each development object. Wells operating different development facilities are connected to a single pipeline network. When developing a field in the wellhead strapping of wells for formations with a relatively low condensate content in gas, the flow section of the regulating device is reduced with a simultaneous increase in the flow section of the regulating device in the wellhead strapping of wells for formations with a relatively high condensate content in gas, increasing gas condensate production without changing the gas production level. EFFECT: increased condensate production at constant gas production levels.1 cl, 1 dwg

Description

The invention relates to the field of oil and gas industry and can be used in the development of hydrocarbon deposits.

There is a known method for the development of multilayer gas fields, in which gas is bypassed from the lower layers to the upper low-pressure layers with pressure control and the operation of productive layers is carried out along a single drilled grid of wells [RU 2135748, published on 08/29/1999].

The disadvantage of this method is a significant complication of the well design and a decrease in its reliability, which is especially important when developing deposits in remote hard-to-reach regions with severe climatic conditions, for example, deposits of the Yamal Peninsula.

There is a known method of gas collection, in which gas collection through independent gas collection networks is carried out in the following cases: a) when one group of productive horizons includes "dry" gas, and the other - gas with condensate, as well as in the presence of separate horizons containing industrial content helium; b) when the gas of one group of productive horizons contains a high percentage of corrosive elements, such as: hydrogen sulfide, carbon dioxide and organic acids; c) when the gas of productive horizons has a significant difference in the magnitude of reservoir pressures, which makes it possible to efficiently use ejectors or directions of gas of different pressures to various consumers [Korotaev Yu.P., Zakirov S.N. Theory and design of the development of gas and gas condensate fields. M .: Nedra, 1981, p. 151].

The disadvantage of this method is the need for the construction of several independent pipeline networks to collect gas from several productive horizons of the field, which leads to significant costs and time.

There is also a known method for the development of multilayer gas fields, which includes the construction of separate grids of production wells for each development object and the pipeline network, characterized in that the wells operating different development objects are connected to a single pipeline network and the development of the field begins with the exploitation of the lower gas deposits having a higher initial reservoir pressure, and the overlying reservoirs are included in development when the current wellhead pressure of the wells draining the lower reservoirs decreases to the initial wellhead pressure of the wells draining the overlying reservoirs [RU 2377396, published 12/27/2009].

The disadvantage of this method is the long wait for a decrease in reservoir pressure of the underlying layers to align with the overlying ones. There is no possibility of regulating the operation of wells in the overlying formations for their earlier inclusion in the general gathering system.

Currently, many developed fields are multi-layer, significant hydrocarbon reserves are concentrated in areas consisting of several productive horizons. Therefore, it becomes necessary to determine a rational scheme of the gas gathering network, which will receive well production from several productive horizons at the same time.

The aim of the present invention is the production of various volumes of gas condensate without changing the volume of gas production, by regulating wells operating formations with different specific content of gas condensate.

The technical result of the proposed solution is achieved by reducing the flow area of the regulating device in the wellhead connection to formations with a relatively low concentration of condensate in the gas and a simultaneous increase in the flow area of the control device in the wellhead connection to formations with a relatively high concentration of condensate in the gas.

The method for the development of multilayer gas condensate fields includes the construction of separate grids of production wells for each development target, wells operating different development targets are connected to a single pipeline network, according to the invention; section of the regulating device with a simultaneous increase in the flow area of the regulating device in the wellhead connection of wells to formations with a relatively high concentration of condensate in gas, increasing the production of gas condensate without changing the level of gas production.

The effect is achieved by reducing gas production at development targets (a group of reservoirs) with a lower specific condensate content and an increase in gas production at facilities with a high specific condensate concentration, while gas production levels do not change, while condensate production increases.

The method is illustrated by the gas production schedule using the example of production during four days of reservoir development.

The drawing shows:

1 - production of condensate in two layers;

2 - gas production in two layers;

3 - gas production from a reservoir with a low specific content of condensate;

4 - gas production from a reservoir with a high specific content of condensate;

5 - production of condensate in a reservoir with a low specific condensate content.

6 - production of condensate in a reservoir with a high specific content of condensate;

The method is carried out as follows.

Productive formations with different condensate content of the multilayer field are penetrated by wells. The production of hydrocarbons is carried out in several layers at the same time. As can be seen in the figure, the total production of condensate (1) from the second day to the fourth is higher than on the first day of operation with a constant total gas production (2). An increase in condensate production is achieved by regulating gas production from wells operating in different productive formations. By reducing the flow area of the regulating device in the wellhead connection of wells producing gas in formations with a relatively low specific content of condensate, reducing gas production (3) from the first to the second day, and at the same time increasing the flow area of the regulating device in the wellhead connection to formations with relatively high content of condensate in gas, while increasing gas production (4). Condensate production in reservoirs with a low specific content will slightly decrease (5), and in reservoirs with a high content it will increase (6), while the delta of changes in condensate production in the second case is higher than in the first due to the different gas content in the reservoirs.

An example of the implementation of the method.

The proposed method for the development of multilayer oil and gas condensate fields is implemented in the Bovanenkovskoye field. The wells of the Bovanenkovskoye oil and gas condensate field operate the development objects of the Cenomanian-Aptian deposits of various properties. The condensate content in the first layers was four times higher than in the second layers. In summer 2019, at Bovanenkovskoye OGCF selection condensate was 190 tons per day in the extraction gas 230 million m ³ / day, of which 21 million m ³ / day was extracted well in formations with high condensation. To increase condensate production, we reduced gas production in low-grade formations by 8% and compensated for losses by gas production from formations jointly developed, while total condensate production was 215 tons per day, which is 25 tons higher than production before adjustment. The total gas production was unchanged at 230 million m ³ / day as well as to regulate levels of gas condensate.

Claims (1)

A method for the development of multilayer gas condensate fields, including the construction of separate grids of production wells for each development object, wells operating different development objects are connected to a single pipeline network, characterized in that during field development in the wellhead connection to formations with a relatively low condensate content in gas reducing the flow area of the regulating device with a simultaneous increase in the flow area of the regulating device in the wellhead connection of wells to formations with a relatively high concentration of condensate in gas, increasing the production of gas condensate without changing the level of gas production.

Images