RU2016105182A - METHOD AND DEVICE FOR AN INJECTOR CELLULAR CELLULAR RADIATOR FOR THE GENERATION AND MODULATION OF PRESSURE WAVES IN AN EXTENSION WELL - Google Patents

Claims (3)

1. A method of generating and modulating pressure waves in the injection wellbore, wherein: they collect from several Hartmann (GG) generators a jet cellular radiator in which each GG is an independent oscillatory system consisting of a nozzle and a hollow resonator chamber with an opening in the wall and excited by a stream of gas; organize a gas stream behind the nozzle in each GG and direct it into the hole in the wall of the corresponding hollow cavity chamber; generate pressure fluctuations and amplify their amplitude in the hollow cavity chamber; form a high-frequency pressure wave behind each GG, propagating in the same direction as waves from other GGs and interacting with them; characterized in that the inkjet cellular radiator is assembled from the GG, which are separate-frequency independent oscillatory systems, one part of which is tuned to generate, amplify and generate a high-frequency wave of one frequency, and the other part of independent oscillatory systems - to a different frequency, while the jet cellular radiator set in the well, form behind it parallel high-frequency waves of two different frequencies, interacting with each other and forming as a result of modulation in the near field is a low-frequency differential-frequency wave, which is amplified in a low-frequency volume resonator and sent to the injection wellbore. 2. A device for implementing the method according to claim 1, which is a honeycomb structure installed across the well, assembled from several Hartmann generators (GG), each of which consists of a nozzle and a hollow glass with a wall and a bottom, mounted coaxially and with an interval behind the nozzle moreover, the depth of the hollow glass and its inner diameter are equal to the diameter of the nozzle, and the glass itself is installed with an opening to the nozzle, characterized in that the honeycomb structure is assembled from two standard sizes with identical nozzles, but with a different interval between filling and a glass, the diameter of the hole and the depth of the glass, and installed in a honeycomb in a checkerboard pattern, in addition, in the well, behind the honeycomb structure, there is a chamber of a volume low-frequency resonator. 3. The device according to claim 2, characterized in that the chamber of the surround low-frequency resonator can be organized from the bottom of the well, separated by a packer.