RU2006108038A - METHOD FOR INCREASING OIL TRANSFER AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of increasing oil recovery, which consists in simultaneous vibration and thermal effects on the bottom-hole zone of the formation, characterized in that they generate powerful ultrasonic radiation, and then direct it from the surface of the well through the casing of the well as along a waveguide to the receiving part of the well, where it is scattered perforation of the casing and the end part of the well, partially turning into heat, and partially radiating to the bottomhole zone, while the specific power of the ultrasound supplied to the casing as a wave od chosen in the range from 0.1 to 10 kilowatts per smploschadi section of the casing, and the oscillation frequency converter is selected from the range of 0.5 · 10-10Gts, wherein the exposure is carried out in the process of oil production from the well without its ostanovki.2. The method according to claim 1, characterized in that the additional increase in the intensity of heating and radiation of ultrasound into the formation at any place in the casing is carried out by using concentrators of various shapes, including in the form of annular protrusions or cutouts located on the external and / or internal casing surface. 3. The method according to claim 1, characterized in that the simultaneous vibrational and thermal effects on the bottomhole formation zone are carried out continuously during the operation of the well. The method according to claim 1, characterized in that the simultaneous vibrational and thermal effects on the bottomhole formation zone are carried out during the operation of the well periodically or with a periodically changing ultrasound frequency. A device for implementing the method according to claim 1, consisting of a generator of electrical oscillations, powered

Claims (6)

1. A method of increasing oil recovery, which consists in simultaneous vibration and thermal effects on the bottom-hole zone of the formation, characterized in that they generate powerful ultrasonic radiation, and then direct it from the ground part of the well through the casing of the well as along a waveguide to the receiving part of the well, where it is scattered perforation of the casing and the end part of the well, partially turning into heat, and partially radiating to the bottomhole zone, while the specific power of the ultrasound supplied to the casing as a wave od chosen in the range from 0.1 to 10 kW per cm ² area of the casing section and the oscillation frequency of the inverter is selected from a range of 0.5 × 10 ⁴ to 10 ⁵ Hz, the exposure is performed in the process of oil production from the well without stopping . 2. The method according to claim 1, characterized in that the additional increase in the intensity of heating and radiation of ultrasound into the formation at any place in the casing is carried out by using concentrators of various shapes, including in the form of annular protrusions or cutouts located on the outside or / and the inner surface of the casing. 3. The method according to claim 1, characterized in that the simultaneous vibrational and thermal effects on the bottomhole formation zone are carried out continuously during the operation of the well. 4. The method according to claim 1, characterized in that the simultaneous vibrational and thermal effects on the bottomhole formation zone are carried out during the operation of the well periodically or with a periodically changing ultrasound frequency. 5. The device for implementing the method according to claim 1, consisting of an electric oscillation generator, feeding an electromechanical transducer, which is installed on the ground part of the well casing, characterized in that the installation comprises an ultrasonic frequency generator operating in the range of 0.5 · 10 ⁴ - 1 · 10 ⁵ Hz and connected to one or more electromechanical converters in the form of magnetostrictive converters, which are a tubular solid or multilayer magnetostrictive core, okr married by an external electric winding and generating ultrasonic vibrations with a frequency of 0.5 · 10 ⁴ -10 ⁵ Hz, structurally made as part of a casing pipe on the surface of the well or as a nozzle on it and connected to the casing using matching devices in the form of concentrators and / or waveguides, moreover, the tubular magnetostrictive core of the transducer is made of permendure, nickel or other magnetostrictive material in the form of a continuous pipe, or as a set of thin-walled concentrically inserted into each other x pipes, or in the form of a multilayer pipe formed by winding a continuous thin sheet of magnetostrictive materials onto a continuous thin-walled pipe of a smaller diameter of the same or another material, the ends of the magnetostrictive core are soldered or welded to the transducer flanges and / or to the waveguide, the lower flange of the transducer made in one piece or connected to a waveguide of a conical, step or exponential external form with an axial hole for the passage and heating of oily fluid from the well s and cooling the inverter, which in turn is connected to the flange of the well casing. 6. The device according to claim 5, characterized in that several transducers can be connected to the casing in series (train, one after another), and / or in parallel, located around the casing, as well as by combining serial and parallel location methods.