SU96385A1 - Electric carrot method - Google Patents

Description

from the depth at which the probe is located.

In order to attenuate the moving screen effects and to isolate the formations different from the environment in which they are deposited, only the transverse resistance according to the invention proposes using constant or low frequency alternating current for electrical logging to determine the apparent conductivity of the rocks intersected by the well, for which the value of t / m is maintained unchanged. With the aid of the adjustable resistance R included in the power supply circuit, the current strength that is removable / is recorded. Obviously, the result of such registration will be proportional to the apparent conductivity of the medium: In FIG. 1-3 shows the possible variants of the lagged method.

one/

The P & K (named after (7; v) for the implementation of the Preliminary 96385-2B device using the gradient probe shown in FGI. 1), in addition to the supply circuit with electrodes L and B and the receiving measuring circuit with electrodes M and L, there is an auxiliary circuit with electric genera M and, between which the constant difference between the potentials of UM-f // v is maintained.

Maintaining a constant potential difference between electrodes A-B using an adjustable resistance R, the potential of the electrode is reached at electrode M, i.e., at the point of observation of the probe, and the potential difference UM-Ufi in the receiving circuit is measured.

Thus, unlike the conventional logging method, which determines the ratios:

UM - .u ch, jj

With the proposed method, the ratio is determined:

UM - and.:. m {/ ,, / Ud / and f

This ensures the reduction of the moving screen effects, including the shielding effect of the longitudinal conductivity of anisotropic rocks. In this connection, it is possible to combine the advantages of short and long length probes and obtain a greater depth of action without screen interference. Obviously, the proposed logging type does not provide resistivity. With an appropriate choice of the coefficient of the probe for the case of a homogeneous medium with an arbitrary resistivity, the measurement result is equal to one.

In particular, for the probe shown in FIG. 1, raAM AP Ben ratio. ±

MN MN

To simplify the device, it is possible to combine the electrode / And with one of the three electrodes of the probe, for example with the electrode M, as shown in FIG. 2. This eliminates the need for a fourth core cable. It is possible to register the potential difference with an unchanged potential difference Um-U:; replace the registration of the ratio (VM- (JN) (UM - f / .v) using, as shown in Fig. 3, a bridging scheme.

More complete results can be obtained by registering both potential differences UM.- .v and LM-Uj / or registering the values UM-Ux and / with a constant potential difference UM-UK.

The result of using the probe shown in FIG. 1 and 2 is equivalent to the ratio of the results of simultaneous registration with two probes of the same length, of which one is a potential probe and the other is a gradient probe, and not the recording points, but unpaired electrodes of the probes are combined.

From the magnitude of the apparent electrical conductivity st, obtained as a result of applying the proposed method, to the apparent resistivity, p., You can proceed by reversing the curve in the registration process or in the subsequent processing of the measurement data.

Subject invention

Claims (3)

1. Electric logging method, characterized in that, in order to more clearly differentiate the rocks of low resistance. provided by determining their apparent conductivity, keep the potential of a certain point of the probe constant by changing the resistance in the power supply circuit. 2. The electric logging method according to claim 1, characterized in that the potential difference between the receiving electrodes of the probe is kept constant and the measurement is carried out using the device connected to the power supply circuit. 3. The electric logging method according to claim 1, characterized in that the potential difference between the electrodes of the auxiliary circuit is kept constant and the measurement is carried out using an instrument connected to the circuit of the receiving electrodes of the probe. / / / /