A seismic wave generating tool, such as a spark gap, of an electric arc generation device includes an upper part and a lower part defining a discharge chamber between them, at least one retaining arm connecting the upper part to the lower part, first and second electrodes respectively associated with the upper and lower parts and arranged in the discharge chamber. The retaining arm comprises an electrically insulating part facing the electrodes. The tool includes a first deployable device implementing a current return and connecting the upper part to the lower part. The first deployable device is configured to be in a retracted state and in a deployed state in which it is at a distance from the discharge chamber.

A seismic wave generating tool, such as a spark gap, of an electric arc generation device includes an upper part and a lower part defining a discharge chamber between them, at least one retaining arm connecting the upper part to the lower part, first and second electrodes respectively associated with the upper and lower parts and arranged in the discharge chamber. The retaining arm comprises an electrically insulating part facing the electrodes. The tool includes a first deployable device implementing a current return and connecting the upper part to the lower part. The first deployable device is configured to be in a retracted state and in a deployed state in which it is at a distance from the discharge chamber.

The invention relates to the field of oil production, and more particularly to equipment for stimulating increased oil recovery. The present complex is most suitable for operations in wells where natural flow and gas-lift recovery methods are used, and also for treating the near wellbore region of a formation in combination with acoustic (ultrasonic) emitters. A complex with a plasma discharger consists of two main parts: a surface power supply and control unit, and a downhole electro-hydraulic instrument consisting of a stabilizing unit, a capacitor unit and a plasma discharger. Said instrument has a length of not more than 3 meters and a diameter of not more than 52 mm, allowing the instrument to pass freely through all existing production tubing. The instrument has a modular structure, making it possible to build up the power of the plasma discharge from 0.5 to 3 kJ. It also comprises a plasma discharger designed to be easily disassembled for the replacement of electrodes and the installation of a new spool with a wire, said plasma discharger having a mechanical drive of a wire feeding unit, set in motion by a piston mechanism that is powered by a high pressure pulse produced by the discharger itself. Using the invention makes it possible to increase the efficiency and cost-effectiveness of oil recovery enhancement operations when working through tubing.

The invention relates to the field of oil production, and more particularly to equipment for stimulating increased oil recovery. The present complex is most suitable for operations in wells where natural flow and gas-lift recovery methods are used, and also for treating the near wellbore region of a formation in combination with acoustic (ultrasonic) emitters. A complex with a plasma discharger consists of two main parts: a surface power supply and control unit, and a downhole electro-hydraulic instrument consisting of a stabilizing unit, a capacitor unit and a plasma discharger. Said instrument has a length of not more than 3 meters and a diameter of not more than 52 mm, allowing the instrument to pass freely through all existing production tubing. The instrument has a modular structure, making it possible to build up the power of the plasma discharge from 0.5 to 3 kJ. It also comprises a plasma discharger designed to be easily disassembled for the replacement of electrodes and the installation of a new spool with a wire, said plasma discharger having a mechanical drive of a wire feeding unit, set in motion by a piston mechanism that is powered by a high pressure pulse produced by the discharger itself. Using the invention makes it possible to increase the efficiency and cost-effectiveness of oil recovery enhancement operations when working through tubing.

An electrical tool for well stimulation includes a first electrode and a second electrode. The second electrode being at the level of a first segment and a second segment of the tool. A peripheral electrode insulated electrically from the first electrode. The first segment and the second segment are linked by an articulated link inside which is arranged a coaxial cable running from the first segment to the second segment. The coaxial cable includes an electrically conducting outer envelope insulated electrically from an electrically conducting central core. The tool includes a first electrical contact between the central core of the coaxial cable and the first electrode, and a second electrical contact between the outer envelope of the coaxial cable and the second electrode.

An electrical tool for well stimulation includes a first electrode and a second electrode. The second electrode being at the level of a first segment and a second segment of the tool. A peripheral electrode insulated electrically from the first electrode. The first segment and the second segment are linked by an articulated link inside which is arranged a coaxial cable running from the first segment to the second segment. The coaxial cable includes an electrically conducting outer envelope insulated electrically from an electrically conducting central core. The tool includes a first electrical contact between the central core of the coaxial cable and the first electrode, and a second electrical contact between the outer envelope of the coaxial cable and the second electrode.

Disclosed is a diagnostic device for a seismic probe, the probe including, in an elongate tubular body, an electronic module, a capacitor bank and a spark gap adapted to generate a shock wave in a wellbore, the device including at least one sensor adapted to measure at least one parameter of the shock wave over time. The sensor is fixed to an inner surface of a wall of the tubular body, at a predetermined, non-zero distance from the spark gap in the direction of the electronic module. Also disclosed is a diagnostic method using the signals of the sensor.

Disclosed is a diagnostic device for a seismic probe, the probe including, in an elongate tubular body, an electronic module, a capacitor bank and a spark gap adapted to generate a shock wave in a wellbore, the device including at least one sensor adapted to measure at least one parameter of the shock wave over time. The sensor is fixed to an inner surface of a wall of the tubular body, at a predetermined, non-zero distance from the spark gap in the direction of the electronic module. Also disclosed is a diagnostic method using the signals of the sensor.

A probe for generating seismic waves, includes at least: a tubular body (10) having a first end linked to an electrical power cable, a capacitor bank arranged within the body, a spark gap installed at a second end of the body and linked to the capacitor bank, suitable for generating a seismic wave upon the release of the energy stored by the capacitor bank, wherein: the capacitor bank is formed from cylindrical capacitors (621) including bases each having a different polarity, the capacitors are mounted coaxially to each other, parallel to the main axis of the body, and the capacitors are electrically linked into at least two groups of capacitors connected in parallel, each group of capacitors having a positive pole and a negative pole, the groups being arranged in the body such that the facing poles of two adjacent groups are of the same polarity.

A probe for generating seismic waves, includes at least: a tubular body (10) having a first end linked to an electrical power cable, a capacitor bank arranged within the body, a spark gap installed at a second end of the body and linked to the capacitor bank, suitable for generating a seismic wave upon the release of the energy stored by the capacitor bank, wherein: the capacitor bank is formed from cylindrical capacitors (621) including bases each having a different polarity, the capacitors are mounted coaxially to each other, parallel to the main axis of the body, and the capacitors are electrically linked into at least two groups of capacitors connected in parallel, each group of capacitors having a positive pole and a negative pole, the groups being arranged in the body such that the facing poles of two adjacent groups are of the same polarity.