RU2540701C2 - Productive strata opening method at drawdown - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention is referred to the area of oil and gas industry, and namely to methods of producing horizons opening by wells. The method includes running in of drill pipes with a drilling bit and containers with pressure gages to the well. Upon the hole cleaning surveys are made in order to set drilling modes at drawdown, thereafter upon beginning of flushing liquid circulation with a gaseous agent at least three drawdown-generating modes are made for delivery of the aerated flushing fluid. At all modes values of pressure are measured, time is recorded and pressure losses are identified within the interval from the pressure gage installation site up to the wellhead. The curve is plotted with the obtained data and the required mode for delivery of the flushing fluid and gaseous agent is identified against this curve. The mode maintaining bottomhole pressure and the preset drawdown value is selected so that the permanent drawdown value is ensured at the stratum opening within its whole thickness regulating bottomhole pressure by circulation chocking at the blowing line, which values is calculated for all types of drilling operations considering the stage of deposit development. For conditions in the newly drilled deposits pressure variations are compensated by the blowing line choking, and its value is defined bore arch type of drilling operations by calculation. For conditions of the long-term operated deposits the value of chocking pressure is defined on-the-spot by direct measurements of buttonhole and formation pressure in real time mode.

EFFECT: improved quality of the productive strata opening, reduced time of opening, exclusion of emergencies during hole boring.

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Description

The invention relates to the field of oil and gas industry, and in particular to methods for opening productive oil and gas horizons by wells, and is intended for use both in newly developed oil and gas fields, and in fields under development. The invention can be used when drilling vertical, deviated and horizontal wells in both carbonate and terrigenous reservoirs at any low pressure in the reservoir.

There is a method of opening a reservoir in a depression, given in the description of a utility model to the certificate of the Russian Federation 16177, IPC ⁷ ЕВВ 21/14 (claimed on January 25, 2000, published on December 10, 2000, BI 34), under the name "Device for opening a reservoir".

The specified device during operation implements a method that includes lowering drill pipe string with a bit, tying the wellhead, flushing the wellbore and feeding the bit when drilling an aerated flushing fluid with a gaseous, for example, nitrogen agent.

A casing of drill pipes with a bit of a smaller diameter is lowered into the cased well to the reservoir. The wellhead harness is sealed and equipped with supply lines to the drill pipe string through an ejector of flushing fluid from a tank at the wellhead and a gaseous agent from the source of its formation, for example, using an SDA-5 / 101M mobile nitrogen compressor station. The annulus of the well by flow line is connected to the separator.

When drilling a productive formation through a string of drill pipes, a flushing fluid and nitrogen in a gaseous state are simultaneously and simultaneously supplied to the bit, which eliminates the need to wait for the soluble (as in the analogue) substance to dissolve in the flushing fluid, thereby reducing time, simplifying drilling operations and ensuring while depression in the system: well - productive formation.

The disadvantage of this method is that not all cases provide high quality opening of productive formations in the depression, while not fully ensuring a reduction in the time of opening of productive formations and emergency situations during their passage are not completely excluded. This occurs in cases of insecurity of the estimated depression on the reservoir and is also due to the geological properties of the reservoirs being discovered (rock heterogeneity, the nature of fluid saturation, etc.).

The closest (prototype) to the claimed invention in terms of the essential features and the achieved result from among the known technical solutions is the “Method for opening a reservoir in a depression” (RF patent No. 2199646, IPC ⁶ ЕВВ 21/14, filed April 1, 2002, published February 27, 2002. 2003, BI No. 11).

This method is as follows. First, drill the wellbore to the top of the reservoir with conventional drilling equipment using conventional drilling mud and cement it. A drill pipe string with a smaller diameter bit is lowered into the cased wellbore. At least two containers with autonomous pressure gauges, for example, type MTA-06, are introduced into the string of drill pipes before being lowered into the well. The wellhead is sealed, and its annulus is connected by a flow line to the separator. A feed line to the drill pipe string is equipped through a flushing fluid ejector from the reservoir at the wellhead and a feed pipe string to the drill pipe string through the ejector of the gaseous agent from its source. As the latter, for example, a portable nitrogen compressor station of the SDA-5 / 101M brand is used. Flush the wellbore. Then, through the cable entry into the well, the depth gauge is lowered to the cable to a depth comparable to the installation depth of the autonomous pressure gauges of the drill string. Both flushing fluid and gaseous agent are fed into the drill string through an ejector, creating a circular circulation of the gas-liquid mixture in the wellbore, after which studies are conducted in the wellbore to establish depression drilling modes. For this, after the beginning of the circular circulation of the flushing fluid with a gaseous agent in the wellbore, at least three modes of supply of aerated flushing fluid are alternately created: below the design pressure equal to the design pressure and above the design pressure, which create depression on the reservoir. In all modes, pressure values are measured on autonomous and cable depth gauges, time is fixed and pressure losses are established in the interval from the installation site of the manometer to the wellhead. According to the data obtained, the bottomhole pressure changes are analyzed depending on the flow rate of the flushing fluid and the gaseous agent, and a graph of this dependence is built. According to the schedule, the required mode of supply of the washing liquid and gaseous agent is established. When drilling a productive formation, the supply of washing fluid and a gaseous agent to the bit is performed in the selected mode of maintaining a given value of depression on the productive layer when opening it over the entire thickness.

Considered by the prototype "The method of opening the reservoir in the depression" at the moment in practice is not adapted to the following conditions:

- does not take into account changes in reservoir pressure in the process of posting the trunk in conditions of long-term developed deposits;

- the flushing mode does not take into account the presence of additional hydrodynamic losses when turning on the circulation and the difficulty of controlling bottom-hole pressure during drilling (density fluctuation during aeration of the flushing agent, the inability to smoothly control the flow of the pumping unit and compressor units, the difficulty of accurately calculating the hydrodynamic pressure of the aerated liquid in the required barrel interval wells).

The objective of the invention is to create conditions for maintaining stable depression in the well-formation system during the initial opening of the reservoir by drilling.

The technical result is achieved by the fact that in the inventive method of opening a productive formation in a depression, which includes lowering drill string with a bit and at least two containers with autonomous manometers, tying the wellhead, flushing the wellbore and feeding the bit when drilling an aerated flushing liquids with a gaseous, for example, nitrogen agent, after washing the wellbore through the cable entry into the well, lower the cable depth gauge to the depth of the autonomous mans in the well meters of the drill pipe string, then studies are conducted in the wellbore to establish depressed drilling modes, for which, after the beginning of the circular circulation of the flushing fluid with a gaseous agent in the wellbore, at least three regimes of aerated flushing fluid supplying depression are created alternately: below the design pressure, equal to the calculated and higher than the calculated, while in all modes the pressure values are measured on autonomous and cable depth gauges, time is fixed and set pressure loss in the interval from the installation site of the pressure gauge to the wellhead, according to the obtained data, an analysis of the bottomhole pressure changes depending on the flow rate of the flushing liquid and gaseous agent is made and a graph of this dependence is constructed, according to which the required flow rate of the flushing liquid and gaseous agent is established, the bottomhole maintenance mode pressure and a predetermined value of depression on the reservoir are selected in such a way as to ensure a constant value of depression at the opening of the formation throughout the thickness not by regulating the supply of flushing fluid and gaseous agent to the bit, as well as by regulating the bottomhole pressure by throttling the circulation on the flow line, the value of which is calculated for all types of drilling operations taking into account the stage of development of the deposit, and for conditions only of drilled and not commissioned deposits, characterized by constant reservoir pressure across the reservoir, bottomhole pressure fluctuations in static and hydrodynamics are compensated by throttling of the flow line, in which each (i-th) type drilling determined by calculation according to the formula:

P _{throttle. (I)} = P _{pl. -R zab. (I)}

where P _{throttle. (i)} - the value of the throttle pressure at the i-th stage of work, MPa;

R _square - value of reservoir pressure, MPa;

P _{zab. (I)} - bottomhole pressure at the i-th stage of work, MPa;

and for conditions of long-term exploited deposits, characterized by reservoir pressure varying along the reservoir strike, the throttling pressure value is determined on-line by direct measurements of bottomhole and reservoir pressure in real time.

Currently, from publicly available sources of scientific, technical and patent information, we are not aware of methods for opening a productive formation for depression, which, together with well-known essential features, would contain the new set of essential features proposed by us, outlined above, as in the inventive method for opening a productive formation on depression.

To implement the method using standard standard equipment for opening the reservoir. Typical piping used technological complex for drilling on a depression includes a drilling rig; a set of blowout preventer equipment, in particular, a mechanical preventer with blind dies or a wellhead ball valve with a mechanical drive; hydraulic die preventers with pipe, blind or shear dies; universal hydraulic preventer; rotary or universal rotating hydraulic preventer sealant; primary and secondary control panels for preventers; manifolds; separation and jamming lines; Blocks separation, silencing, throttling and sampler; flare system and pump and power equipment.

Standard sizes of equipment are selected depending on the design of the well. Manifold piping separation lines, silencing consists of pipes with a diameter of 89 mm and 114 mm, respectively. The separation unit consists of a three-phase oil and gas sludge separator connected to the technological capacity, an automation system, a tank for collecting oil, sludge from the separator and for storing oil and produced water. In addition, the complex includes nitrogen compressor units of type SDA 5 / 101M and SD 9 / 101M (or their analogs of type TGA), providing a supply of nitrogen of at least 88% in a mixture with air.

The control system consists of a station for monitoring and control of technological processes for drilling on a depression (AMKD); autonomous deep gauges with program control (or sensors for measuring bottomhole pressure transmitting information in real time); depth gauges lowered by cable; automatic continuous gas analyzers; automation of a separation plant; instrumentation.

To open the productive part of the formation and to carry out hoisting operations under pressure, it is necessary to use drill pipes of the corresponding standard size that have undergone special training (with a chamfer groove at the ends of the locks at an angle of 180 to the castle generatrix), balanced drill collars, check and ball valves of small diameter, sub with plugs or diaphragms that fail under a certain force (pressure), containers of autonomous pressure gauges, four- or six-sided leading drill pipes of the corresponding type sizes, hydraulic downhole motors, equipment for forced lowering and raising the drilling tool in the presence of excessive pressure in the well, swivel VRB-100 or VRB-80 with a sealing cable entry unit, mechanisms of small mechanization, etc.

The method is as follows.

A tool assembly identical to that used when opening the reservoir is lowered into the well.

Based on the washing program, studies are carried out in various modes. At the same time, technical water in the wellbore is replaced with oil. The oil consumption in the gas-liquid mixture is taken from the calculation of the stable operation of the hydraulic downhole motor (for example, for DI-105-6 l / s).

Then, studies are conducted to establish depression drilling regimes. For this, after the start of the circular circulation of oil with a gaseous agent in the wellbore, at least three modes of supply of aerated fluid are alternately created, which ensure the creation of depression: lower than the calculated, equal to the calculated and higher than the calculated. Using autonomous pressure gauges and a manometer lowered on the cable, pressure is measured in all modes. Set the pressure loss in the range from the installation of pressure gauges to the bit. The pressure gauge is lifted on the cable and the tool with containers of depth gauges.

According to the data obtained, the bottomhole pressure changes are analyzed depending on the consumption of oil and nitrogen. Based on the results obtained, the initial regime of oil and nitrogen supply is established. In the process of drilling a well, the mode of maintaining bottomhole pressure and a predetermined value of depression is provided by regulating the flow of flushing fluid and gaseous agent to the bit, as well as by adjusting the bottomhole pressure by throttling the circulation on the flow line, the value of which is calculated for all types of drilling operations taking into account the stage of development of the reservoir.

The figure shows an example of regulation of bottomhole pressure of a horizontal section of a well using depressive equipment in a new section of a reservoir characterized by constant reservoir pressure along the strike of the reservoir (constant during the entire drilling). At each stage (i-th form) of drilling operations, the change in the measured bottomhole pressure is analyzed. For example, at 13:10 hours, drilling is carried out with the specified values of the supply of flushing fluid and gaseous agent, the bottomhole pressure being 94 atm, and the reservoir pressure is 105 atm (Fig.).

To ensure equilibrium in the "well-formation" system in this type (stage) of work, throttling of the flow line is required by the pressure determined by the formula:

P _{throttle. (I)} = P _{pl. -R zab. (I)} = 105-94 = 11 atm,

where - throttling pressure at the i-th stage of work, MPa;

- value of reservoir pressure, MPa;

- bottomhole pressure at the i-th stage of work, MPa;

The throttling pressure of 11 atm must be ensured during this type (stage) of work to ensure the required mode of primary opening. After the flow line is cross-sifted, by the time point 14:10 the bottomhole pressure is already 105 atm (Fig.), Therefore, while maintaining the given values of the flushing fluid and gaseous agent, the required throttling pressure of 11 atm is provided.

To ensure equilibrium in the "well-reservoir" system, subsequent appropriate stages (types) of work also carry out prompt appropriate adjustment of the throttling pressure, by analogy with the above-mentioned stage of work. In the presented example (Fig.), It can be seen that when performing work on building up a drilling tool (blowing off a tool and building), the bottomhole pressure without throttling the flow line would drop to 75-80 atm, which is due to a change in the supply of flushing fluid and gaseous agent when building the tool. To accomplish the task of maintaining a given mode of primary opening, at this stage of work, an increased throttling pressure of the flow line is required (up to 25-30 atm).

Thus, maintaining a constant value of depression during the opening of the formation throughout the thickness is provided by regulating the supply of flushing fluid and gaseous agent to the bit, as well as regulating the bottomhole pressure by throttling the circulation on the flow line.

Using the proposed method improves the quality of the opening of productive formations in a depression with any heterogeneity of the rock properties of the productive formations by their thickness while ensuring a reduction in the time of opening of the productive formations and eliminating emergency situations when they are drilled.

Claims (1)

A method of opening a productive formation in a depression, including lowering drill string with a bit and at least two containers with autonomous pressure gauges into the well, piping the wellhead, flushing the wellbore and feeding the bit when drilling an aerated flushing fluid with a gaseous, for example, nitrogen agent , after flushing the wellbore, a cable depth gauge is lowered through the cable entry into the well to the depth of the autonomous manometers of the drill string in the well, then in the wellbore Studies are underway to establish drilling regimes for depression, for which, after the start of circular circulation of flushing fluid with a gaseous agent in the wellbore, at least three alternating at least three regimes of creating a depression of aerated flushing fluid supply are created: lower than the calculated pressure equal to the calculated pressure and higher than the calculated one, while all modes measure pressure values on autonomous and cable depth gauges, record the time and set the pressure loss in the interval from the installation site of the manometer to the wellhead, according to the obtained data, an analysis of the bottomhole pressure changes depending on the flow rate of the washing liquid and gaseous agent is made and a graph of this dependence is built, according to which the required flow rate of the washing liquid and gaseous agent is established, characterized in that the mode of maintaining the bottomhole pressure and a predetermined value Depressions on the reservoir are selected in such a way as to ensure a constant value of depression during the opening of the reservoir throughout the thickness by adjusting the flow of flushing liquid and a gaseous agent on the bit, as well as regulating the bottomhole pressure by throttling the circulation on the flow line, the value of which is calculated for all types of drilling operations taking into account the stage of development of the deposit, and for conditions of only drilled and not commissioned deposits, characterized by a constant strike reservoir pressure, fluctuations in bottomhole pressure in statics and hydrodynamics compensate by throttling the flow line, the value of which for each (i-th) type b levels of work determined by calculation by the formula:
P _{throttle. (I)} = P _{pl. -R zab. (I)}
where P _{throttle. (i)} - the value of the throttle pressure at the i-th stage of work, MPa;
R _square - value of reservoir pressure, MPa;
P _{zab. (I)} - bottomhole pressure at the i-th stage of work, MPa;
and for conditions of long-term exploited deposits, characterized by reservoir pressure varying along the reservoir strike, the throttling pressure value is determined on-line by direct measurements of bottomhole and reservoir pressure in real time.

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