RU54395U1 - COMPLEX FOR MONITORING THE PARAMETERS OF FLUID IN OIL-PRODUCING WELLS - Google Patents

Abstract

The utility model relates to the oil industry, can be used in geophysical studies of oil wells, in particular for monitoring the parameters of the well fluid.

In a complex for monitoring fluid parameters in oil producing wells, including a geophysical cable with geophysical measuring instruments, a cable is passed through a lifting roller, a stuffing box input of a wellhead sealing device, a system of decentrators fixed to a tubing string, a cable length with geophysical measuring pipes fixed to it devices exceed the length of the tubing with a submersible pump installed on it.

The utility model allows to increase the accuracy of measurements of the parameters of the produced fluid, to increase the reliability of the device.

Description

The utility model relates to the oil industry, can be used in geophysical studies of oil wells, in particular for monitoring the parameters of the well fluid.

A well-known oil field development information support system according to Russian patent No. 2077735, G 01 V 1/40, 1997, comprising a downhole tool suspended on a geophysical cable in a predetermined interval of the wellbore and a block of ground equipment connected to it via a wireline. The downhole tool contains a pressure sensor, fluid composition, fluid flow rate, temperature and a locator couplings. The disadvantage is the lack of information about the state of the physical parameters of the produced fluid at different points of the wellbore by its depth, in particular, it is impossible to determine the bottomhole pressure during oil production.

The closest analogue to the claimed technical solution is a device for monitoring downhole thermobaric fluid parameters during oil production according to Russian patent No. 224102, Е 21 В 43/00, 01/10/2005. The device includes a pipe string for lifting oil, a liner from pipes, or cable, or a cable up to the roof of the reservoir, temperature, electrical conductivity and pressure sensors located on the liner, all sensors have a cable line to the surface, and pressure sensors

at least three in number are placed at fixed distances from each other, made with the possibility of continuous measurement over time of temperature, electrical conductivity of the well fluid, the absolute value of the pressure and pressure drop along the length of the liner in the zone of the reservoir. The disadvantage is that the cable is only up to the top of the reservoir, which makes it impossible to measure fluid parameters in the bottomhole zone, the lack of sealing of the wellhead, which affects the accuracy of the measured pressure in the well, the lack of a specific location and fixation of the geophysical cable in the well, which affects reliability devices.

The technical task of the proposed utility model is to increase the accuracy of measurements of the parameters of the produced fluid, increasing the reliability of the device.

The technical result is achieved by the fact that, in a complex for monitoring fluid parameters in oil producing wells, including a geophysical cable with geophysical measuring instruments, the cable is passed through a lifting roller, a stuffing box input of the wellhead sealing device, a system of decentrators fixed to the tubing string, cable length with geophysical measuring instruments attached to it exceeds the length of the tubing with a submersible pump installed on it.

The technical result is achieved due to the use of a wellhead sealing device in the fluid monitoring complex, through a stuffing box input of which the geophysical cable is placed inside the well. The use of a hoisting roller and the execution of a cable longer than the length of the tubing

a pipe with a submersible pump installed on it allows you to measure fluid parameters in the bottom zone under the pump, at points located at different depths, in the interval from the bottom of the well to the pump intake. The use of a decentralizer system allows you to fix the spatial position of the cable inside the borehole and prevent its damage.

The figure 1 presents the layout of geophysical measuring instruments in the well.

The figure 2 presents a diagram of the input of the geophysical cable into the well using a hoisting roller.

The figure 3 presents the sealing device of the wellhead.

4, a decentrator is shown.

A complex for controlling fluid parameters in oil wells is used in a well with a casing 1, in which a tubing string 2 is installed with a submersible pump 3 located at its lower end. Geophysical measuring devices 4 are mounted on a geophysical cable 5 fixed in the internal space of the well using a system of decentrators 6. Decentrators 6 are clamps tightened around tubing 2, located on it through distances determined by the angle of inclination of the well. A geophysical cable 5 is fixed between the blades 7 of each decentrator 6. The sealing device of the wellhead 8 is located on the wellhead fountain fittings 9, contains a stuffing box 10 for a geophysical cable 5 and a stuffing box 11 for a power cable. Geophysical cable 5 is passed through the hoisting roller 12.

The device operates as follows.

Geophysical measuring instruments 4, mounted on a geophysical cable 5, are lowered into the well together with a submersible pump 3 and suspended below the intake of a submersible pump 3 for the entire overhaul period. A sealing device 8 is installed at the wellhead, after passing the geophysical cable 5 and the power cable through the stuffing box 10 and 11. The geophysical cable 5 is fixed on the stuffing box 10 and its ground part, taking into account the course of the devices 4 and the stock, is wound from the winch drum and placed on the mouth wells. If it is necessary to control the fluid parameter, a hoisting roller 12 is installed, a supply of the geophysical cable 5 is wound on the winch drum, measurements are made by tripping the geophysical instruments 4 in the interval from the pump intake to the bottom.

Thus, the proposed utility model allows to increase the accuracy of measurements of the parameters of the produced fluid, to increase the reliability of the device.

Claims (1)

A complex for monitoring fluid parameters in oil wells, including a geophysical cable with geophysical measuring instruments, characterized in that the cable is passed through a lifting roller, a stuffing box input of the wellhead sealing device, a system of decentralizers fixed to the tubing string, cable lengths fixed to with geophysical measuring instruments exceeds the length of the tubing with a submersible pump installed on it.