Transient electromagnetic logging device in through-casing well

Abstract

The invention discloses a transient electromagnetic logging device in a through-casing well, which comprises ground monitoring equipment 1, wherein the ground monitoring equipment 1 is connected with a downhole logging instrument 3 through a cable 2, and the downhole logging instrument 3 consists of a transmitting control unit 4, a receiving control unit 5, a magnetized power supply 6, a magnetizer 7, a transmitting coil 12 and a receiving coil 13. The device utilizes transient electromagnetic technology to transmit low-frequency high-power electromagnetic signals; according to Faraday law of electromagnetic induction, a variable magnetic field produces a variable electric field; the characteristics of an electromagnetic field are determined by the characteristics of medium; and the magnetic field which embodies the characteristics of the detected medium is received by the downhole logging instrument 3, so that the aim of identifying stratum characteristics through the signals detected by the receiving coil is achieved. The device has the characteristics of high efficiency, quickness and non-contact.

Description

technical field [0001] The invention belongs to a well logging device in the field of resource and environment development, in particular to a transient electromagnetic well logging device in a through-casing well which uses casing magnetization technology and transient electromagnetic technology to realize production well formation detection. Background technique [0002] With the continuous development of oil and gas production, a large number of production wells have entered the middle and later stages, the water content has continued to rise, and the production has gradually declined. In oil and gas fields, tracking changes in reservoir fluid saturation and movement of reservoir liquid interfaces, while tracking changes in fluid saturation in older reservoirs needs to be done in production wells. Production well logging technology has become an important technical means for reservoir dynamic monitoring, remaining oil distribution monitoring, and determination of oil and ...

AI Technical Summary

Problems solved by technology

[0005] The main problems of these through-casing resistivity logging methods are: during the contact process between the electrode and the casing, thermoelectric potential will be generated, and at the same time, friction will occur between the electrode system and the casing wall due to the lifting of the logging instrument. Generate friction potential, because the measured signal is mostly nV level signal, while friction potential and thermoelectric potential are generally μV level or higher

In addition, since the conductivity of the casing itself is several orders of magnitude greater than that of the formation, when the emitter electrode is applied to the formation through the electrode in contact with the casing, most of the current is consumed on the casing, and only a small part The current flowing into the formation, coupled with the influence of various factors such as the corrosion of the casing, the cement quality outside the casing, and the natural potential of the formation itself, makes the signal-to-noise ratio very low, and the useful signal is actually submerged in the noise. Difficulty, complex technology, high cost of equipment, not conducive to popularization, restricting the promotion and application of technology

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