SU632827A1 - Arrangement for simultaneous separate excavation of two seams - Google Patents

Description

rigidly connected to the cross-coupling 15. On the string of lift pipes 16 is placed a connecting node 17 having a seating saddle 18. The connecting node is designed to pass fluid from the bypass channel to the lift pipes and to flush and press the well through the annulus.

The elevator pipes 16 are connected to the cross-coupling 15 and are supported on the thrust bearing 19. The packers 1 and 2 are connected to each other by means of a perforated pipe 20. The packer 1 is also connected by means of a perforated cup 21 to the tailpiece 22, which abuts the bottom hole.

At the wellhead a rotary unit 23 is installed, which consists of a worm steam; connected to the drive. The rotary unit 23, the sleeves 3 and 4, the nozzles 9 and 10 form a switch fluid flow.

The installation works as follows.

Fluid from the lower reservoir, through perforations in the casing, perforated nozzle of the shank 22, holes 7, nozzle 9, pipe 14 and coupling 1 5 enters the annulus of the well and moves to the connecting node 17 and further to the day surface. Fluid from the upper reservoir enters through the opening 8, the opening 12 into the annular space between the pipes 13 and 14 and through the cross coupling 1-5 into the elevator pipes 16.

The reservoir investigation is carried out on lift pipes 16 by standard research equipment, which is run down to a cross coupling. Measuring instruments are calibrated at each descent.

To study the lower layer, pipes 13 and 14 must be rotated by 180 ° using the swivel unit 23, then the upper layer will work through the nozzle 10 into the annular space, and the lower layer through the annular space between the pipes 13 and 14 through the elevator pipes 16.

In the study of one of the layers does not stop the other layer. If necessary, the threads can be separated in the connecting node 17 by fitting the cone 18 with a cylindrical through hole. The connecting node 17 can be installed at any depth.

In the case of watering one of the layers, the withdrawal of fluid from it is stopped. In the cone connecting node 17

18, the opening is closed, and the flow of fluid from this formation into the lift pipes 16 is stopped. In this case, the isolation of water from the formation is not needed.

The installation allows for a full range of hydrodynamic studies. In addition, the moisture content and the physicochemical properties of the oil are measured. The installation is automated in a general integrated fishing solution. Fluid from the well is taken in a fountain, compressor or mechanized way.

Due to the design features of the facility, the opportunity for launching the research

equipment and its periodic calibration. This increases the accuracy of the research and creates the opportunity to establish the optimal flow rates in the wells separately for each reservoir. The independence of the exploration and exploitation of the reservoir strata allows to increase the efficiency of control of the development and selection of fluid. The installation also allows

oil production with limited water content.

Claims (2)

Invention Formula Installation for simultaneous-separate operation of two layers, containing an inner riser, concentrically placed relative to the outer riser, the inner and outer risers form two channels for lifting oil, packers are the fluid flow control unit, characterized in that enabling the study of each of the layers separately with the exclusion of hydrodynamic influence of one layer on another, the installation is equipped with a flow switch fluids that has radial bore sleeves that are concentrically mounted relative to the outer riser pipe against the formations / nozzles to communicate the inner pipe 0 with seams and a swivel unit associated with the outer and inner lifting tubes. Sources of information taken into account in the examination: 5 1 USSR Author's Certificate No. 68300, cl. E 21 B 43/14, 1947. 2. Faniev R.D. and others. New technology and technology of oil production. M., Nedra, 1958, p.77,