SU898371A1 - Device for investigating wells by induced potential method - Google Patents

Description

one

The invention relates to field and exploration geophysics, in particular, to electrical logging of wells using the induced potential (VP) method on a temporary basis with automatic registration of measured values.

A device is known for recording relative evoked potentials in wells, allowing measurement of the relative magnitude of evoked potentials, and comprising current and measurement circuits, an automatic control circuit for the magnitude of the supply current, a source of reference voltage, a pulsator, and a recorder 1.

The disadvantages of this device are that, due to the use of a mechanical pulsator, it has low reliability, insufficient speed, and low measurement accuracy due to the influence on the measurement results of the polarization potentials of the electrodes and the natural field.

The closest in technical essence to the proposed invention is an apparatus for well testing with the method of evoked potentials, containing a repeater, to the input of which

Claims (2)

the receiving electrodes, the measuring circuit, the feeding electrodes connected through the regulating element to the output of the generator, made in the form of serially connected multivibrator standby multivibrator and output stage, automatic vibrator circuit, voltage regulation proportional to the magnitude of not apparent resistance (CS), connected the output to the input of the regulating element, the input to the output of the repeater through the coincidence circuit; the control input of which is connected to the 15th generator, the synchronization circuit ((control device consisting of several parallel circuits made in the form of two sequentially waiting multivibrators), the synchronization circuit is connected by the input to the generator, and the output to the calculation and registration circuit containing keys (anti-coincidence schemes), dividing device and recorder (2. 25 The disadvantage of this equipment is low measurement accuracy due to the influence on the measurement results of the polarization potentials of the electrodes and natural 20 The purpose of the invention is the measurement accuracy. The goal is achieved by the fact that, in a well testing device, the evoked potentials method contains feed electrodes, a generator made in the form of a multivibrator, a synchronization circuit and an output stage, a regulating element, receiving electrodes, a repeater, coincidence circuits, computation and recording of automatic voltage regulation, with the supply electrodes connected to the output stage of the generator The electrodes are connected to the input of the repeater, the input of the synchronization circuit is connected to the multivibrator, and the outputs to the input of the output stage of the generator, to the control inputs of the calculation and registration circuit, and to the first input of the coincidence circuit, the output of which is connected to the input of the automatic control circuit the voltage of the output of the latter is connected to the input of the regulating element; an additional circuit has been introduced for automatically compensating the potentials of the polarization of the receiving electrodes and the natural field, consisting of an operational amplifier, The switch and the capacitor, one plate of which is connected to the zero potential bus, and the second to the input of the operational amplifier and through a switch to the output of the repeater, the second input of the operational amplifier is connected to the output of the repeater, the output to the input of the calculation and registration circuit and the second input of the circuit matches, and the control input of the key is connected to the fifth output of the synchronization circuit. FIG. 1 is a block diagram of the device; in fig. 2 - pulse timing diagram of it. work. The device for investigating wells using the evoked potential method comprises a multivibrator 1, the output of which is connected to the input of circuit 2, the synchronization outputs of synchronization circuit 2 are connected respectively to the input of the output stage 3 of the generator, to circuit 4, calculating and registering to the control input of key 5 The input of the circuit is 6 matches. The supply electrodes 7 and 8 are connected to the output stage of the generator 3 through the regulating element 9. Receiving electrodes 10 and 11 below. One relay capacitor 1 and one of the inputs of the operational amplifier 14 are connected via the switch L to the repeater 12 input, the second capacitor 13 cover is connected to the zero potential bus, another input, the operational amplifier 14 is connected directly to the output of the repeater 12 The outputs of the operational amplifier 14 are connected to the input cxeNttJ 4 of the calculation and registration and to the input of the coincidence circuit 6, the output of which is connected to the input of the automatic voltage control circuit 15. The output of the automatic voltage regulation circuit 1b is connected to the input of the regulating element 9 "multivibrator 1, the synchronization circuit 2 and the output stage 3 of the generator form an oscillator 16, and the operational amplifier 14, a capacitor 13 and a switch 5 form an automatic electrode potential-polarization potential compensation circuit 17 and naturally the floor. The device works as follows. Square pulses from the output of the multivibrator 1 are fed to the input of the synchronization circuit 2. Timing circuit 2 produces control pulses (Fig. 2c) with key 5, an output stage 3 of the generator (Fig. 2a) and calculation and registration circuit 4 (Fig. 2e). Before applying the next current pulse to the supply electrodes 7 and 8, when the de-polarization of rocks is almost complete (Fig. 2c), the key 5 is opened by the control pulse (Fig. 2c) From the synchronization circuit 2. The capacitor 13 through the closed key b is charged to a value equal to the potential difference between the receiving electrodes 10 and 11. At the moment the supply current is switched on (Fig. 2a), the key b is open and the voltage on the capacitor 13 is stored until the next pulse arrives at the control input of the key D. The signal at the output of the operational amplifier 14 with the open L b. Is proportional to the difference of the input signals. Thus, compensation (subtraction from the sum signal) of the potential difference of the receiving electrodes 10 and 11 is made. The difference of the constant potential arises in connection with the polarization of the receiving electrodes 10 and 11 and the presence of the electrode potential of the ore bodies. The command coming from the synchronization circuit 2, in the computation and recording circuit 4, measures and processes signals proportional to the magnitudes of evoked potentials (VP) at different times and apparent resistivity. The potential difference at the output of circuit 6 of coincidence is proportional to the magnitude of apparent resistivity. This potential difference from the output of the coincidence circuit 6 is fed to the input of the automatic voltage control circuit 15 and then to the regulating element 9. The automatic voltage control circuit 1b changes the current through the supply electrodes 7 and 8 in such a way that the signal proportional to the apparent resistance, remains unchanged. The scheme of automatic compensation of the polarization potentials of the electrodes and the natural field is applied in the equipment of the method of evoked potentials for well testing, which increases the measurement accuracy, and also makes it possible to continuously measure the measured values and, therefore, to obtain greater detail of the study. Continuous recording significantly increases the logging performance. The invention The device for investigating wells by the method of evoked potentials, containing power electrodes, a generator made in the form of a multivibrator, a synchronization circuit and an output stage, a regulating element, receiving electrodes, a repeater, a matching circuit, a calculation and a recording, an automatic voltage control. the power electrodes are connected to the output stage of the generator through the regulating element, the receiving electrodes are connected to the repeater input, the synchronization circuit input is connected to and the outputs: the first to the output of the generator output stage, the second and third to the control inputs of the calculation and recording circuit, and the fourth to the first input of the coincidence circuit, the output of which is connected to the input of the automatic voltage control circuit, the output of the last Connected to the second input of the regulating element, characterized in that, in order to increase the measurement accuracy, the device additionally contains a circuit for automatic compensation of the polarization potentials of the receiving electrodes and the natural field The rest of the operational amplifier, the key and the capacitor, one plate of which is connected to the zero potential bus. The second plate is connected to the input of the operational amplifier and through the key to the repeater output, the second input of the operational amplifier is connected to the output of the repeater, the output to the calculation circuit input and the registration and to the second input of the coincidence circuit, and the controls of the key input are connected to the fifth output of the synchronization circuit. Sources of information taken into account in the examination 1. Scherbakova T.V. and Plyusnin M.I. A device for recording relative evoked potentials in wells. Express Information Regional Exploration and Production Geophysics, vol. 46, M., 1962, p. 96-101. 2. USSR author's certificate 2693S5, cl. G 01 V 3/18, 1968. (prototype). but P - vr P P P eleven - ". d l