RU2017945C1 - Method for control of perforation interval and device for its realization - Google Patents

Abstract

FIELD: well logging. SUBSTANCE: when drilling holes, magnetic marks are automatically made on steel string at certain distance from point of drilling. These marks are registered after perforation and compared with background magnetic properties of string noted before perforation. Device for perforation interval control has surface control panel connected by means of logging cable to downhole instrument. The latter has separating block located between perforation block and inductor. Additionally connected to output of surface control panel containing control unit and power source is switching block whose inputs are connected to power source and control unit. EFFECT: higher reliability of control of deformation interval and higher efficiency of perforation. 2 cl, 2 dwg

Description

 The invention relates to geophysical surveys of wells.

 Existing methods for controlling perforation intervals, based on recording the temperature anomaly of an explosion or an acoustic signal reflected from the column wall, are not effective for controlling the intervals of drilling perforation due to the lack of thermal effect, as well as to the complexity of operation and insufficient resolution of downhole acoustic TVs.

 As a prototype, a method was selected according to which a locator of couplings articulated with a perforator and detecting a change in the magnetic properties of the perforated section of the column is used to control the perforation interval.

 The equipment for implementing this method comprises a ground control panel that provides control and power to the downhole part of the equipment, processing and recording information signals. The ground control panel is connected through a logging cable to a downhole tool containing an inductor and a blocking device that separates its information circuit from the ignition circuit of the perforator articulated with it.

 The effectiveness of beating off intervals of perforation by locators of couplings even when using perforated explosive perforators, when the change in the magnetic properties of the perforated section of the column is the strongest, does not exceed 60-70%. In the case of the use of drilling perforators, the magnetic properties of the column remain practically unchanged; therefore, recording changes in the magnetic properties is not applicable at all.

 The purpose of the invention is to increase the reliability of the control interval and the effectiveness of drilling perforations. The method includes applying magnetic marks to the perforated section of the column and registering them, recording the background magnetic properties of the column before perforation and determining the interval of perforation by comparing the background and changed magnetic properties of the perforated section of the column. It is proposed to apply marks on the column automatically and simultaneously when drilling holes at a fixed distance from the drilling site, and register marks after perforation of the column.

 A device for implementing the method comprises a downhole tool, including a perforating unit and an inductor, the inputs of which are connected to each other through a dividing element and, with a wireline cable, to the input of the ground panel, which consists of a power supply and a control unit connected in series, and the output of the ground panel is connected to the recorder . The ground control unit is equipped with a switching unit, the first and second inputs of which are connected respectively to the second output of the power source and the output of the control unit, the third input of the switching unit is the input of the ground control unit, and the output of the switching unit is the output of the ground control unit.

 In FIG. 1.2 shows a functional diagram of the device. The device consists of a ground control panel (NP), which includes a power source (IP), a control unit (UU) and a switching unit (KU), one of the inputs of which is connected via a wireline cable (KK) to a downhole tool (SP) containing perforating unit (PU), inductor (I) and separation element (RU).

 After completion of the preparatory work associated with the binding of the perforator to the well section, the downhole tool containing the perforator and inductor is installed on the intended perforation interval and the column is perforated. After that, a wireline cable is sent to the inductor, which in the simplest case is an inductor with a core, a direct current pulse. The coil induces magnetic flux, providing a magnetic mark, the location of which relative to the perforation holes is always constant and is determined by the design of the device. At the same time, the separation element prevents signal shunting from the inductor with a small input resistance of the perforating device. After completion of the perforation, the perforation interval is monitored during the same round trip, for which the inductor is switched from the induction mode to the registration mode using the switching unit. An inductor measures the magnetic properties of a column. In this case, the magnetic mark is marked on the log diagram with a characteristic protrusion, according to its position, the actual position of the perforation interval is judged.

 The magnetizing current pulse can be sent both after the end of the perforation, and before the start of the perforation, or in the process of perforation, which depends on the design features of a particular equipment.

 The magnetization of the column section during the perforation process can significantly increase the efficiency of the punching of the perforation intervals by reducing the time of well shut-in, increasing the accuracy and promptly obtaining data on the actual position of the perforation interval.

Claims (2)

 1. The method of controlling the perforation interval, including applying magnetic marks to the perforated section of the column and registering them, recording the background magnetic properties of the column before perforation and determining the perforation interval by comparing the background and changed magnetic properties of the perforated section of the column, characterized in that, in order to increase the reliability of the control interval and the effectiveness of drilling perforations, the labeling of the column is carried out automatically and at the same time when drilling holes on the fixation Wann distance from the drilling location and registration marks is performed after column perforation.  2. A device for controlling the perforation interval, comprising a downhole tool, including a perforating unit and an inductor, the inputs of which are connected to each other through a separation element and by means of a wireline cable, to the input of the ground panel, consisting of a power supply and a control unit connected in series, and the output of the ground the remote control is connected to the registrar, characterized in that, in order to increase the reliability of interval monitoring and the effectiveness of drilling perforations, the ground control panel is equipped with a switching unit, vy and second inputs of which are connected respectively to the second output of the power source and the output of the control unit, third input is the input of the switching unit remote ground and the output of the switching unit being the output of the remote ground.

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