RU2579089C1 - Method for preparation of hydrocarbon deposit for development - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to development of hydrocarbon deposits and can be used for preparation of potential of developed deposit to exploration and production drilling. Method is characterised by performing seismic exploration of section of rocks in area of potential insufficiently studied deposit. Determining intervals of its production deposits and intervals of possible accumulation of natural gas-gas pockets in upper part of section. Determining areas of exploratory and producing wells. Drilling of pilot-priority well using blowout preventer, recovery of core and investigations of borehole environment to specify intervals possible accumulation of natural gas. Opening pilot well of said intervals, extracting gas therefrom with reduction of formation pressure to a value of not more than hydrostatic pressure. Constructing prospecting and exploration and production wells on productive deposit potential deposit, including with possible development of said wells in upper part of section of rock intervals with selected gas. Pilot well, solving problem of gas production, is provided for use as observation for control of gas flows from lower horizons.

EFFECT: technical result is prevention of accidents when drilling prospect and/or production wells in area of potential deposit due to opening of high-pressure natural gas in upper part of section.

1 cl, 1 ex

Description

The invention relates to the field of development of hydrocarbon deposits and can be used to prepare a potential mastered field for exploration and production drilling.

According to the current rules for the development of oil and gas fields (National Standard of the Russian Federation, GOST R 53713-2009), in the course of their exploration, seismic studies of the rock section are carried out, according to the results of which the intervals of the most probable occurrence of productive deposits and the location of exploration and production wells are determined for opening them. In the case when the details of the structure of productive deposits are little known, they provide for the drilling of so-called pilot shafts (see, for example, IP Melnichuk, Drilling directional wells of small diameter. - M .: Nedra, 1978). In recent years, pilot (pre-walkable) shafts have become especially relevant for the development of offshore oil and gas fields and the need to drill costly exploration and production wells with horizontal completion where more accurate data on the depths and configuration of productive deposits are needed.

However, in the section of rocks in the presence of impermeable formations in its upper part (for example, a permafrost layer - IMF) as a result of flows of high-pressure natural gas from deep intervals (for example, along faults in rocks), small gas deposits with abnormally high reservoir pressures can accumulate (AVPD) exceeding hydrostatic for a given depth. Opening of such accumulations of gas (the so-called gas “pockets”) during exploration and production drilling can lead to various emergencies and catastrophes from well liquidation with loss of drilling equipment.

The technical task of the described invention is to prevent accidents when drilling exploration and (or) production wells in the area of a potential field due to the opening of accumulations of high-pressure natural gas in the upper part of the section.

The stated technical problem is solved due to the fact that in the method of preparing a hydrocarbon field for development, characterized by the fact that seismic studies of a rock section on the area of a potential little-studied field are carried out, the intervals of its productive deposits and the intervals of possible accumulations of natural gas - gas pockets - are determined the upper part of the section, determine the location of the exploration and production wells, carry out the drilling of the pilot-first a sequential well using blowout equipment, core sampling and near-wellbore studies to determine the intervals of possible accumulation of natural gas, open these intervals with a pilot well, extract gas from them with a decrease in reservoir pressure to a value not more hydrostatic, and build exploration and production wells for productive deposits of potential deposits, including those with the possible opening of these wells in the upper part of the rock section dredged gas, while a pilot well that has completed the task of gas production is provided for use as an observation well for monitoring gas flows from lower horizons.

The invention consists in the following.

On an area promising oil and gas potential, seismic studies of the rock section are carried out, according to the results of which the possible intervals of occurrence of productive deposits and the location of the priority exploration wells are determined. In the process of processing seismic data, attention is drawn to possible accumulations of high-pressure natural gas in the upper part of the section, the so-called “gas pockets”. Such “pockets” in the practice of developing oil and gas fields are found, for example, inside or under the strata of IMF, which serve as tires for lower lying reservoirs, which, due to hydrodynamic connection with deep intervals, can contain, usually non-industrial, reserves of natural gas with gas over pressure hydrostatic pressure for a given depth. Accumulations of gas hydrates in the low-temperature intervals (in the bottom sedimentary strata of the water area, in the reservoirs inside and under the permafrost) can play the role of “gas pockets”, which, when opened by drilling and changing thermobaric conditions (mainly due to temperature increase), can cause unexpected emissions natural gas.

Before laying the priority exploration wells, especially in poorly studied areas and at the high cost of exploratory drilling, a pilot shaft is designed and drilled to clarify the structure of the studied section. This is, as a rule, a small-diameter well, which is drilled with the selection of core material and various studies of the near-wellbore space. In the presence of identified "gas pockets" the trajectory of the pilot well is designed and implemented taking into account the opening of these "pockets". If for some reason it is not possible to open the “gas pocket” with a pilot shaft designed for additional exploration of the area, then a special well is designed for this, which can also be drilled with a minimum diameter. When drilling such a well, all necessary measures are taken to prevent possible complications when opening the “gas pocket”. After opening it, the well is equipped in such a way as to become practically operational for the selection of natural gas from the identified and opened “gas pocket”. It is preferable to use the produced gas for generating electricity (for example, as in the method according to the RF patent No. 2484245, IPC ЕВВ 47/00, 2012.01) or after separation cleaning for filling cylinders with subsequent use for own needs or in the social sphere to provide for the local population.

Gas production from one or more "gas pockets" is carried out until the reservoir pressure decreases to a value not more than hydrostatic. This is done so that there would be no complications during the subsequent opening of the “gas pocket” intervals in the process of exploration and production drilling. After such development of gas deposits in the "gas pockets", the prospected area can be considered prepared for its subsequent drilling with exploration and production wells (including, if necessary, pilot shafts). Therefore, exploratory wells designed according to the results of seismic studies, as well as production wells designed according to the positive results of exploratory drilling, can be carried out, including with the possible opening of intervals with sampled gas in the upper part of the rock section. The well itself, having completed the tasks of gas production from the “gas pocket”, can later be used for drilling (deepening) the pilot shaft or as an observation one for monitoring possible gas flows from lower horizons during the development of a potential field.

Moreover, it is obvious that if the designed pilot shaft is located outside the identified "gas pocket", then the wiring of this barrel can be implemented without reference to the timing of drilling for opening the "gas pocket".

An example implementation of the method.

In the process of seismic exploration of the area with potential for oil and gas potential, in addition to a possible hydrocarbon field at a depth of 2500 m, a structure was revealed in the upper part of the section at a depth of 450 m, characteristic of possible accumulations of natural gas. Given the shallow depth of the potential "gas pocket", it was decided to drill a priority well to open it. The well was drilled using blowout equipment. After opening the revealed structure, a gas methane deposit (“gas pocket”) with a reservoir pressure of 8 MPa was discovered, which exceeds hydrostatic pressure (4.5 MPa) by 3.5 MPa. During short-term drilling of a well for a flare, the reserves reserves were determined by the dynamics of pressure reduction - 500 thousand m ³ . When producing gas to hydrostatic pressure, we can take approximately (500,000 · 3,5 / 8) = 218 thousand m ³ . For utilization of the produced gas, the Capstone 200 microturbine electrical installation was used, which makes it possible to obtain 200 kW of electric power at a fuel (methane gas) consumption of 65 m ³ . Taking these characteristics as the hourly load of the power plant, we get the time of utilization of the produced gas (218000/65 · 24) = 140 days, for which it generates (200 · 24 · 140) = 672 thousand kW of electricity.

Another way (or simultaneous) utilization of the produced gas was considered filling methane cylinders with a capacity of 50 l (GOST 948-73) with a working pressure of 19.6 MPa (200 kg · s / cm ² ). The entire volume of produced gas (218 thousand m ³ ) allows filling (218000/10) = 21.8 thousand cylinders (0.05 · 200 = 10 m ³ - the volume of gas in the cylinder at normal pressure). Utilized gas using it as a balloon in transport allows you to replace about 200 tons of liquid fuel (gasoline, diesel fuel).

When using the described method of preparing a hydrocarbon field for development, not only issues of improving the safety of drilling exploration and production wells, but also energy supply both for own needs and in the social sphere at an early stage of exploration, are solved. In addition, the task of combating the emission of greenhouse gases is being solved, which is especially important in the conditions of a vulnerable ecosystem of the Arctic, where most gas fields are explored and most of the gas in Russia is produced.

Claims (1)

A method of preparing a hydrocarbon deposit for development, characterized in that seismic studies of a rock section are carried out on the area of a potential little studied field, the intervals of its productive deposits and the intervals of possible accumulations of natural gas — gas pockets in the upper part of the section — are determined, and the locations of exploration and exploration are determined and production wells, drill a pilot-priority well using blowout equipment exploration, core sampling and research of the near-borehole space to clarify the intervals of possible accumulation of natural gas, open these intervals with a pilot well, extract gas from them with a decrease in reservoir pressure to a value not more than hydrostatic, and exploration and production wells are constructed for productive deposits of a potential field in including with the possible opening by these wells in the upper part of the rock section of the intervals with the selected gas, while the pilot well, having performed The main task of gas production is envisaged for use as an observational for controlling gas flows from lower horizons.