SU1350339A1 - Method of investigating collector formations - Google Patents

Abstract

The invention relates to the field of geophysical surveys of the geological section of boreholes, hydraulic. homelandic methods. The purpose of the invention is to improve the accuracy of well status information. An acoustic probe and microbore logging electrodes are inserted into the well under study. Excite the influx of formation fluid. The electrical conductivity of the test area is recorded at different distances from the wall. Acoustic sounding is carried out with a varying radiation frequency and at the same time a picture of elastic oscillations is recorded. The influx of formation fluid is caused and the pressure in the sampler is measured until the measured parameters stabilize. As the test cycles repeat by pushing the underlying fluid in, the filtrate is replaced by fluids. The cessation of changes in the recorded characteristics is a sign of complete replacement of the filtrate, which is a signal to stop the tests. 1 3.p. f-ly. with $

Description

The invention relates to methods for geophysical surveys of a geological section of boreholes by hydrodynamic methods.

The purpose of the invention is to improve the accuracy of well status information.

The method is implemented as follows.

An acoustic probe (receiver and emitter) and micro-side logging electrodes are placed on the cable on the insulating, special design element of the formation tester. The design of the emitter of the acoustic probe allows varying the frequency of the radiation. For research, a downhole tool equipped with probes is installed at the point of study. Before opening the flow of the device, the characteristics of the unexcited formation are recorded. To this end, the electrical conductivity is measured in the study area at different distances from the well wall by changing the parameters of the electrical probe. At the same time, acoustic sounding is carried out with a varying radiation frequency with subsequent recording of the wave pattern of elastic oscillations.

The change in the parameters of the electric probe is made as follows.

The microprobe consists of n electrodes located in the isolating element of the formation tester, the distance between them is 1 (cm). One electrode is current, the remaining p - 1 electrodes are measuring ones. Each measuring electrode has its own amplifier with a level fixing device. At the request command, the level of the voltage measured by the electrode is fixed, converted into a digital code and transmitted to the surface. Interrogating each of the n - 1 measurement electrodes (changing the parameters of the probe) allows an electrical scanning of the formation with a discretely varying radius from Cr "to R" to cc. The discretization step is determined by the number of measuring electrodes. At the same time, at the request of the command, the pressure sensor reading is also recorded and the emitter of the acoustic probe is energized. Acoustic oscillation passing through the zone of use

following, recorded by the receiver, digitized and stored in a buffer storage device. Between the Inquiry commands, these acoustic signals are transmitted to the surface.

The measured electrical and acoustic characteristics of the study area are basic data for which increments of the measured values are noted in the course of further research. Without discontinuing the measurement of electrical and acoustic characteristics, the fluid flow from the formation at the test point is called up and the pressure change during the sampling process is recorded.

Depending on the nature of the inflow. As either high-frequency or low-frequency radiators are excited. For example, at the beginning of the influx of a liquid with a high content of dissolved gas, it is possible that the gas is released in the study area. In this case, a complete attenuation of the high-frequency acoustic signal is observed, then a low-frequency emitter is excited, although the measurement accuracy is reduced, but information about the study area is recorded.

In reservoirs, for example, where permeability is good, the filtration zone is significant. Therefore, at the beginning of the flow, the microprobe readings do not change. At this moment, due to a significant pressure drop, the matter of the skeleton of the formation is destroyed and carried away. This is well recorded during acoustic sounding. At the end of the study, the flow rate drops, the change in the acoustic signal stops, but due to fluid pull-in, a change in the microprobe reading begins.

As the test cycles are repeated due to pushing deep into the underlying fluids, the filtrate is replaced by fluids.

The cessation of changes in the recorded characteristics is a sign of the complete replacement of the filtrate, which is a signal for the termination of the tests.

The data obtained by the proposed method of reservoir research, most fully characterize the hydrodynamic and geophysical properties of IS

reservoir, both permeable and low-permeable. Their correlation processing will make it more likely to determine the reservoir saturation coefficient with fluids.

Claims (2)

1. A method for investigating reservoir formations, including introducing a probe into the well, initiating inflow of reservoir fluid, simultaneously conducting electrical and acoustic sounding of the investigated section of the well in the process of multiple sampling of reservoir fluid and recording pressure in the analyzer N. Bobkova Order 5237/32 Compiled by I. Fomichev Tehred A. Kravchuk Circulation 533 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company Uzhgorod, st. Project, 4 sampling and recording the values of the measured parameters, about tl and h a rent, and so that, in order to ensure the accuracy of the information on the well status, the electrical conductivity of the studied area is recorded at different distances from the borehole wall, and acoustic sounding is carried out with varying frequency of radiation with simultaneous recording of the pattern of elastic oscillations. 2. The method of pop. 1, which differs from the fact that the challenge of inflow formation fluid and pressure measurement in the sampler is carried out until the values of the measured parameters are stabilized. Proofreader AiObruchar Subscription