RU2673093C2 - Method for express determination of the characteristics of the bottomhole formation zone applied when developing the well - Google Patents

Abstract

FIELD: measuring equipment; mining.SUBSTANCE: invention relates to the field of well testing, and in particular to a method for the rapid determination of the filtration characteristics of the well bottomhole zone, while simultaneously combining the processes of well development and hydrodynamic research. Method of express-determination of the characteristics of the bottomhole zone used in the development of wells includes reducing the pressure below the reservoir during development. Measurement of well parameters, on the basis of which the filtration characteristics of rocks in the bottomhole formation zone are calculated. At the same time, mastering by swabbing is carried out after carrying out geological and technical measures. Well swabbing is combined with the research by the express method, carried out using a depth-measuring complex (DMC), logging in the on-line mode of the bottomhole pressure during the descent and ascent of the swab basket, and information on the pressure measurement is displayed in the form of a graph.EFFECT: technical result consists in high accuracy of on-line registration of the bottomhole pressure during swabbing, which will allow to obtain a reliable curve of pressure change at the bottom of a well with its subsequent interpretation.1 cl, 1 dwg

Description

The invention relates to the field of well research, and in particular to a method for express determination of the filtration characteristics of the bottom-hole zone of wells, while combining well development and hydrodynamic research.

A known method of well development and formation testing during the swabbing process (US Pat. RF No. 2341653, IPC ЕВВ 43/25, publ. 2008), which includes tight sealing of the test interval from the rest of the wellbore with a packer on the tubing string ( Tubing), lowering the underground swab equipment into the tubing on the geophysical cable, swabbing by lowering the swab to a predetermined depth and then raising it with the volume of fluid from the well, providing information support for technological parameters, displacement of the integrated downhole tool above the packer in the tubing, while the device provides operational control of fluid flow from the reservoir during the swab process and ensures data transfer to the wellhead via a cable running down the tubing string through the annulus, and after the inflow from the reservoir is called, it is reduced the fluid level in the tubing string and information and control support of the technological parameters of swabbing, the isolation of the tubing cavity from the formation by means of a packer, and the change in pressure is recorded eniya time above and below the packer pressure sensors curve inflow and formation pressure recovery over time, and determining characteristics of the formation.

The disadvantage of this method is that this solution does not disclose the possibility of using this system for well development, and the criteria that are taken into account when analyzing the success of geological and technical measures are not disclosed.

The closest in technical essence and technical result is a method for express-determining the characteristics of the bottom-hole zone of low-production wells, used in well development (US Pat. RF No. 2559247, ЕВВ 47/10, publ. 2015). The method comprises the steps in which, when developing a well, a pressure in the well is reduced to a pressure below the reservoir, a level recovery curve is measured. Well parameters are measured and based on them, the skin factor is calculated. The system contains means for reducing pressure in the well, means for measuring the above parameters, means for deciding whether to suspend or continue developing the well. At the wellhead, equipment is installed in the form of two automated devices: an echo sounder designed to measure levels, a sampler and a means for measuring the volume of recoverable liquid.

The disadvantage of this method is that in many cases, these methods of estimating the liquid level give an unreliable result. Most often this is due to three problems:

- the difficulty of recognizing the position on the echogram of reflection from the liquid level, due to foamed oil, the height of the column of which can be tens to hundreds of meters;

- low accuracy in determining the propagation time of a sound wave from the mouth to the liquid level in the well and vice versa;

- low accuracy of estimates of the speed of sound in the annular gas of the investigated well;

- level measurement is carried out only after the echo sounder is triggered, and not in a constant mode.

The objective of the invention is to improve the implementation of the express method of research wells by using a depth-measuring complex.

The proposed improvement will allow to record downhole pressure on-line and make a timely decision on the termination or extension of the swab operation and the simultaneous conduct of a hydrodynamic study of the well. At the same time, this method allows a high degree of accuracy to measure the dynamics of the bottomhole pressure, the nature of its change and, therefore, to more accurately determine the physical parameters of the rocks of the bottomhole formation zone.

The provided technical result consists in high accuracy of online recording of bottomhole pressure during swabging, which will allow to obtain a reliable curve of pressure change at the bottom of the well with its subsequent interpretation.

The problem is achieved by the fact that by the method of rapid determination of the characteristics of the bottom-hole zone used in well development, which includes reducing the pressure in the well to a pressure below the reservoir during development, by swabbing, measuring the recovery curve, measuring the parameters of the well, based on which filtration characteristics are calculated rocks of the bottom-hole zone of the reservoir, according to the proposed technical solution, the measurement of the parameters of the well is carried out by a depth-measuring complex - GIC, swab tion wells combined with the study on rapid method with registration in the on-line value of bottom hole pressure during descent and ascent svabnoy basket of metering and pressure information is displayed in a graph.

In world and domestic practice, for the implementation of real-time monitoring, rapid response to changes in well operating conditions, obtaining information about the filtration parameters of the formation and the bottom-hole zone, the use of a deep measuring complex (GIC) has become widespread. [Directions for improving hydrodynamic control methods at PJSC TATNEFT. - V.A. Iktisanov, N.Kh. Musabirova, A.V. Baigushev, K.F. Shipilova TatNIPIneft, Bugulma / Innovations in the exploration and development of oil and gas fields: proceedings of the International Scientific and Practical Conference dedicated to the centenary of the birth of V.D. Shashina. - Kazan: Ihlas Publishing House, 2016. - T. 2. - 268 p.].

One of the main and most common types of research conducted in the fields is the control and determination of static or dynamic fluid levels in the well [Methodological Guide for conducting and interpreting the results of hydrodynamic methods for researching production wells without stopping. - Public Joint-Stock Company Tatneft named after V.D. Shashina (PJSC Tatneft). - Bugulma, 2016]. This is one of the methods for monitoring well productivity and identifying the hydrodynamic connection of a well-reservoir system. These studies are carried out most often in the process of field development. According to the statistical and dynamic levels, the reservoir operation mode is also determined and isobar maps are constructed. Therefore, to monitor the development of deposits, it is necessary to regularly conduct hydrodynamic studies in order to monitor the state of the productive part of the wells, especially the productivity of the well must be evaluated after various geological and technical measures.

Measurement of the liquid level in the well is carried out in a working well, idle or in the well in which the bottomhole zone of the well was processed. Under such conditions, oil is formed in the annulus containing a large amount of dissolved gas, even in the form of foam.

Having studied all the possible errors and inaccuracies during the express method of researching wells, the method for determining pressure at the bottom of the wells was revised, and it was proposed to improve the previously used methodology for conducting the express method of researching wells by eliminating the use of various types of echo sounders, using depth measuring systems ( GIK) is a measuring system that allows you to measure flow, pressure and temperature directly at the bottom of the well in on-line mode. However, usually these complexes are used either in working wells to monitor bottom-hole pressure dynamics or when conducting independent hydrodynamic studies of wells according to a schedule or research plan, including after geological and technical measures are carried out in wells.

Previously, GICs were used to study working wells and wells that simultaneously and separately operate several development facilities.

To register bottomhole pressure during well development after processing the bottom hole zone of the well or other geological and technical measures, a deep measuring complex (GIC) is lowered into the well, after which the process of well development (swabbing) is performed. Combining swabbing with research by the express method according to the proposed technical solution does not increase the time for carrying out geological and technical measures, while conducting a hydrodynamic control study of the wells with building a pressure recovery curve according to the guidance document - RD takes an average of 10-15 days. That is, combining the study with the swabbing process during development after treatment of the bottom-hole zone, it is possible to reduce the downtime of the wells by 10-15 days, while using the GIC to build a reliable dependence of the pressure change on the bottom of the well being developed.

The figure shows the location of the GIC in the well during swabbing after processing the bottom-hole zone of the well or any other geological and technical measures.

The diagram shows the positions: 1 - controller-interface unit, 2 - sealed cable output device, 3 - communication cable with devices in a reinforced shell, 4 - svoby basket, 5 - studied reservoir-collector, 6 - GIC (in-depth research complex.

The method of rapid determination of the characteristics of the bottom-hole zone is as follows. The tubing string is lowered into the well on the tubing string, to which the communication cable 3 in the armored sheath is attached with special belts. GIC 6 is installed opposite the interval of perforation of the studied reservoir. And in the inside of the tubing string, a swab basket 4 comes down.

The pressure at the bottom of the well is recorded online during the descent and ascent of the sump basket 4, and information about the pressure measurement is displayed in a graph on the controller-interface unit 1.

When raising the next volume of fluid, samples are taken and water cut, viscosity, pH are determined, after which the necessary hydrodynamic parameters of the bottomhole zone of the well are calculated.

The proposed method according to the scheme allows with high accuracy to record on-line the value of the bottomhole pressure during swabbing. This will allow you to get a reliable curve of the pressure at the bottom of the well with its subsequent interpretation.

Thus, the proposed express method for the study of wells during swabbing with the launch of the GIC will allow:

1. To register the dynamics of the bottomhole pressure with high accuracy during the swabbing process;

2. To reduce the downtime of the well and put it into operation immediately after receiving the final pressure data;

3. Subject to the second paragraph, reduce oil shortages;

4. To analyze the success of measures to optimize oil production and restore productivity.

Claims (1)

A method for expressly determining the characteristics of the bottom-hole zone used in well development, including reducing the pressure below the reservoir during development, measuring well parameters, based on which the filtration characteristics of the bottom-hole formation rocks are calculated, characterized in that development by swabbing is carried out after geological and technical measures well swabbing is combined with research by the express method, carried out using a depth-measuring complex - GIC, registering it is in the online mode of the bottomhole pressure during the descent and ascent of the swab basket, and information about the pressure measurement is displayed in a graph.

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