SU1162957A1 - Method of investigating hole-bottom area of formation - Google Patents

Abstract

A method for studying a near-bottom zone of a formation, including recording the amplitude of a longitudinal wave along a column while waiting for cement to harden, characterized in that, in order to improve the accuracy of the permeable intervals of the bottomhole formation zone, the noise amplitude and the temperature in the aquifer roof after the application has passed, after the application has passed, after the application has passed, waves along the column, and the presence of permeable intervals is judged by the coincidence in time of the increases in the amplitudes of the noise and temperature.

Description

The invention relates to well logging and can be used in quality control testing of complex oil and gas objects.

There is a known method for separating permeable intervals during the setting of cement, based on an estimate of the anomalous heat gap time associated with advanced filtration of fusion water into the formation f 1,

The disadvantage of the method is the impossibility of determining fluid exchange between the well and the annular space after cement hardening due to the short duration of the fluid delivery pulses and the distortion of the thermal field due to mixing with continuous movements of the device,

A known method for studying the bottomhole formation zone, based on the allocation of fluid exchange intervals between the reservoir and the cement ring in the annular space during the waiting period for cement to harden by changing the amplitudes of the longitudinal wave along the acoustic logging column (A,) during the setting time,

The disadvantage of this method is the low accuracy of the selection of permeable intervals of the bottomhole formation zone due to the impossibility of estimating the fluid exchange between the well and the reservoir after the cement sets.

The purpose of the invention is to improve the accuracy of the permeable intervals of the near-bottom zone of the reservoir.

This goal is achieved by the fact that according to the method of studying the bottomhole formation zone, including the registration of the longitudinal amplitude. waves in the column during the waiting period for cement to harden, record the amplitude of the noise and the temperature in the roof of the aquifer after the end of the amplitude change of the longitudinal wave in the column, and the presence of prolonged intervals is judged by the coincidence in time of the amplitudes of the noise and temperature.

The drawing shows graphs of changes in noise amplitudes (.1), amplitudes of a longitudinal wave along a column in a cavity (2), as well as temperatures in the waiting period for cement to harden in the interval of the formation with no fluid exchange (3) and

fluid exchange in the late period of cement hardening (4).

The method is implemented as follows.

A complex instrument containing probes for recording amplitudes A. The amplitudes of the Ace noise, and the thermometer, are installed in the roof of the aquifer (at least 1 m from the reservoir boundaries) during the first hours (1-2) after the end of the cement pouring, the corresponding values of these parameters are measured and the measurements are repeated periodically 5-10 minutes before the end of the setting, which is determined by the characteristic point A of the amplitude graph Aj, then continue recording continuously during the ongoing hardening to point B (the beginning of the decrease in the decay rate of the amplitudes Ace) and later, after all the registered parameters.

As a result of such measurements, graphs of measured parameters A c, A c |, temperature) for the roof of the aquifer are plotted. The difference in the corresponding observations from the known ones is that they are made in the roof of the aquifer, and after the cement mixture has set, i.e. during the period when fluid exchange is possible only due to the intake of fluid from the reservoir.

After this point in the cement; the ring in the interval of the formation deliberately stops the filtration of the mixing water, and only fluid exchange by fluid can occur in the pore space of the hard grip of cement and rocks.

During this period, only inflow from the reservoir is possible, and it is necessarily accompanied by both an increase in noise amplitudes and a temperature anomaly. Since in low-permeable formations the inflow occurs only in the form of short-term pulses (with a follow-up period of tens of minutes or even less), the establishment of the fact of inflow is possible only with continuous recording. Time-independent noise and temperature anomalies characterize random processes that are not associated with at, current.

Any fluid exchange established during this period testifies to the E1162 non-zero permeability of the aquifer and, therefore, the possibility of its operation during the period of testing under test conditions with the presence of annular channels communicating with the Test Object. The latter condition can be determined by the increase in the amplitudes of the AC above the aquifer and by the increase after perforation. The technical and economic advantage of the proposed method compared to the known one is in the possibility of forecasting extraneous water inflow during development. 7 The economic efficiency of the method is due to the possibility of early release of water inflow immediately before perforation and the foundation of the object and allows changing the technology of opening and utilization of the object in such a way as to avoid product flooding (by timely isolating water, changing the mode and depressing development). The possible economic effect from the reduction of a simple well during the testing and from excluding the exploration and development operations will be at least 3,500 rubles. on the object.

Claims (1)

METHOD FOR STUDYING THE BOTTOM-HOLE ZONE of the formation, including recording the amplitude of the longitudinal wave along the column in the waiting period for cement hardening, characterized in that, in order to increase the accuracy of the allocation of permeable intervals of the bottom-hole formation zone, the noise amplitude and temperature in the roof of the aquifer are recorded after the change the amplitudes of the longitudinal wave along the column, and the presence of permeable intervals is judged by the coincidence in time of increases in the values of the amplitude of noise and temperature. W oe oe with JV SI