SU1601367A1 - Unit for measuring yield of oil wells - Google Patents

Abstract

The invention relates to the oil industry. used for group gathering of oil and gas. The goal is to expand the measurement range, improving the accuracy and reliability of measuring the production wells. For this, the unit has a control unit 12, a level indicator 3 and a pump 8 and a check valve 9 installed on the liquid line. The liquid line between the gas separator 1 and the meter 6 is made in the form of two parallel sections, one of which has a pump 8. The latter is connected to the gas separator 1 and a valve 9 connected to the counter 6. Another section of the liquid line is connected to the counter 6 via the valve 9. The indicator 3 is connected to the float level control 2. The block 12 is connected to the pump 8, the counter 6 and the signaling device 3. Before the counter 6, check valves 9 and 11 are installed, which hold the fluid in the part of the pipeline where the counter 6 is installed, thereby preventing it from water hammering when the pump 8 is turned on, prevent the fluid from being pushed back from the common pipeline into the gas separator 1. The valve 11 prevents overflow fluid back to the intake of the pump 8 in the measurement of marginal wells. 1 il.

Description

The indicator 3. Before the counter 6, the check valves 9 are installed, which hold the liquid in that part of the pipeline where the counter 6 is installed, thereby preventing it from water hammering

turning on the pump 8, prevent the liquid from being pushed back from the common pipeline into the gas separator 1. Valve 11 prevents the liquid from flowing back to the pump 8 intake when measuring low-yield wells. 1 il.

The invention relates to the oil industry and can be applied to group oil and gas collection systems.

The purpose of the invention is to expand the range of measurement of flow rates connected to the well pumping installation, increasing the reliability and accuracy of measuring production wells.

The drawing shows the scheme of the proposed installation.

 The installation consists of a gas separator 1, a float regulator 2 .. level and a level indicator 3 connected to it, a damper k, a liquid line connecting the gas separator with a common pipeline 5. and a counter 6 of a liquid. The liquid line from the gas separator to the liquid counter 6 is divided into two parallel sections. The first section used in the mode of production of low-yield wells includes pipeline 7, pump 8 connected to the gas separator and non-return valve 9. connected to the meter, the second by-pass pipeline 10 and the secondary valve 11 (for the mode of measuring high-production wells), the pipeline section behind the meter 6 liquid is raised above the working liquid level in the gas separator, whereby the liquid meter 6 is constantly filled with the measured liquid and prevents free flow of liquid from the gas separator 1 through the pump 8 into the common valve boprovod 5 when measured marginal wells and the bypass line 10 when measuring high debit wells.

The float level control Z is connected to the valve i and the level 3 alarm. The control unit 12 is connected to the pump B, the level 3 signaling device and the counter.

The unit operates in two modes in the mode of measuring depleted wells

and in the mode of measurement of high production wells.

When the installation is turned on, the production of the well enters the gas separator 1. The gas released in the gas separator 1 is discharged through the gas line through the valve into the common pipeline 5.

five

thirty

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: If a low-yield well is connected (with a flow rate below 2Q% of the maximum performance of the liquid meter 6), when the accumulated liquid reaches a predetermined upper level to which the level indicator 3 is preset, the latter sends a signal to the control unit 12 to turn on the pump 8. Gas line This position does not overlap. The liquid pumped out by the pump 8 passes through the non-return valve E-meter 6 of the liquid and enters the common pipeline 5. When the specified lower level is reached, the level indicator 3 sends a signal to the control unit 12 to turn off the pump 8. Next, the cycle of measuring the incoming liquid is repeated specified measurement time. After this time has elapsed, before connecting the next well, a command from the control unit 12 is used to pump the pump 8 from the gas separator 1 to the specified low level, measured at the same time. the amount of residual liquid is summed up with the amount of measured flow /

wells.

In the case of connecting a high production well (with a flow rate above 20% of the maximum performance of counter 6), as the level of liquid in the separator 1 rises, the float of level 2 regulator rises and the associated valve k blocks the gas line. The 3 level indicator is pre-disconnected in accordance with the program laid down in the control unit 12. In the gas separator 1, a differential is created with respect to the common pipeline 5, due to which the incoming liquid from the gas separator 1 is displaced. The fluid passes through the bypass pipe 10, through the check valve 11 and the counter 6 into the common pipeline 5.

Upon expiration of the set time for measuring the flow rate, the next well is connected by the command of the control unit 12 to measure its flow rate. In this case, if a low-yield well is connected to the installation, prior to the beginning of the measurement cycle of its flow rate, the residual liquid is pumped out of the gas separator by pump 8 to the lower limit level. In cases of switching to a high-yield well, pre-pumping is not required, since the amount of residual liquid in gas separator 1 does not significantly affect the measurement accuracy of the flow rate of a high-production well.

The check valves 9 and 11 installed in front of the counter keep the fluid in the part of the pipeline where the meter is installed, thereby preventing it from water hammering when the pump 8 is turned on, prevent the fluid from the common pipeline 5 from being forced back into the gas separator 1. The check valve 11 also prevents the flow fluid back to the intake of the pump 8 in the measurement of marginal wells.

Expansion of the measurement range of the flow rate of wells connected to the installation. Improving the reliability and accuracy of measurement is achieved by performing

0

liquid line to the liquid meter in the form of two parallel sections with non-return valves and installation on one of these pump sections, thus creating normal conditions for the liquid meter to operate, for a more complete measurement of the production of low-yield wells by taking into account residual liquid in rav ocenapaTope and using separate lines to measure the production of low-yield and high-production wells.

Claims (1)

5 claims An installation for measuring the flow rate of oil wells, containing a gas separator with a float level regulator, a gas line with a valve connected to the float level regulator and a liquid line with a meter connected to the gas separator and the general pipeline, so that, in order to expand the measurement range, increase the accuracy and reliability of the measurement of marginal wells, it is equipped with a control unit, a level indicator and a pump installed on the liquid line and non-return valves, on the line between the gas separator and the meter is made in the form of two parallel sections, one of which is equipped with a pump connected to the gas separator and a check valve connected to the meter, and the other section is connected to the meter via a check valve, the level indicator is connected to the float . level control, and the control unit is connected to the pump, the liquid meter and the level gauge.