SU1739201A1 - Device for measuring separate components of oil well production - Google Patents

Abstract

This invention relates to the petroleum industry. The purpose of the invention is to enhance the functionality by measuring the amount of gas. The gas-oil mixture enters the separation chamber and the separator enters the accumulation chamber 3. When the oil level in chamber 3 is reached, a siphon 8 is triggered and the oil flows into the measuring chamber 4, from where it flows through the slit flow meter 6 into the buffer chamber chamber 7. After the siphon 8 has been activated, the valve 16 opens and the gas enters the outlet manifold. After the liquid has been drained in the buffer chamber, a certain level of fluid is detected by the sensor 11. At this point, the valve 16 closes and the gas begins to force the liquid out of the buffer compartment. In the process of gas displacement, liquids record the initial and final levels in the buffer chamber 7 and the time by which the amount of gas is determined. 1 il. CO c & VI with H N3 O

Description

The invention relates to the oil industry, in particular, to devices for measuring the composition of the production of oil wells.

The purpose of the invention is to enhance the functionality by measuring the amount of gas.

The invention is illustrated in the drawing, which shows a diagram of a device for measuring individual components of the production of oil wells.

The device contains a cylindrical container 1, divided by partitions into a separation chamber 2. a storage chamber 3, a measuring chamber 4 with a hydrostatic pressure sensor 5 and a slit flow meter b, a buffer chamber 7. The accumulation and measuring chambers 3 and 4 are interconnected by a overflow siphon tube 8. In order to balance the pressure in the tank 1, the gas cavities of the chambers 2-4 and 7 are interconnected by tubes 9 and 10. The buffer chamber 7 is equipped with a level sensor 11 and a bent tube 12, one end of which is connected to tube 13, connecting the tank 1 with the outlet manifold 14. The gas cavity of the tank 1 is connected by a pipe 15c to a shut-off valve 16 to the outlet manifold 14. The pressure in the gas cavity is measured by means of a pressure sensor 17.

The device works as follows.

Gas-oil to the mixture from the measured well goes through the supply pipeline to the separation chamber 2 and the separated oil flows into the storage chamber 3. The oil does not flow to the measuring chamber 4 during the accumulation period. When the oil level in the accumulation chamber is sufficient to trigger the siphon 8, the oil from the accumulation chamber 3 flows into the measurement chamber 4, from where it flows through the slit flow meter 6 to the buffer chamber 7. During the overflow process, the hydrostatic pressure is measured through the slit flow meter liquid column above the lower edge of the slit flow meter, and accordingly, the flow rate of the fluid entering the installation.

After the siphon has triggered and the liquid overflows through the measuring chips, the valve 16 is opened on the coarse 15

connecting the gas space of the device with the output collector 14, and the gas from the device enters the output collector, and the liquid draining from the measuring chamber accumulates in the buffer chamber 7 due to the presence of a water seal created by the pipe 12 in it. liquids from the storage chamber to the measuring and buffer chambers,

A certain level of liquid is formed in the buffer chamber, which is formed by the level sensor 11. At this point, the valve 16 is closed, the flow of gas from the tank 1 to the outlet

the collector and all the gas entering the tank 1, remaining inside the tank, begins to be forced out by creating an excess pressure in the tank; the liquid from the buffer compartment to the outlet manifold,

When the lower, predetermined level of liquid in the buffer chamber 7 is reached, the valve 16 opens and the gas begins to flow again into the outlet manifold 14. Then, as the oil accumulates in the accumulation chamber, the cycle repeats again. In the process of gas displacing the liquid from the buffer compartment fixed area in height, fix the beginning and end levels in the buffer chamber

t, e, the volume of the displaced fluid, the gas pressure of the sensor 17 at the initial and final liquid level and the time during which the liquid was displaced.

These parameters allow you to determine the amount of gas entering the device per unit of time,

Claims (1)

The invention of the device for measuring individual oil well production components, comprising a cylindrical tank in which a separation chamber, a storage chamber, a measuring chamber with a hydrostatic pressure sensor and a slit flow meter and a buffer chamber, characterized in that, in order to expand functionality by measuring the amount of gas, are located, in a buffer the sensor is installed in the camera The pipe is bent at the level and connected to the outlet manifold, creating a water seal, and the gas cavity of the device is connected by a pipe with a shut-off valve to the outlet manifold.