RU123837U1 - INSTALLATION FOR MEASURING THE DEBIT OF OIL WELL PRODUCTS - Google Patents

Abstract

Installation for measuring the production rate of wells, containing a switch for wells, an output manifold and a measuring system with a separation tank, a hydrocyclone and a level regulator in communication with the output manifold by gas and liquid measuring sections, characterized in that it is additionally equipped with an emergency line with an electrically operated shutter connecting the measuring a system with an output collector through a switch of wells, made with the possibility of connecting wells to a measuring system in a single eme.

Description

The utility model relates to the technique of oil, gas and water in the fields.

A well-known installation for measuring the flow rate of oil wells, comprising a switch for wells, an output manifold, a measuring system with a separation tank, a hydrocyclone and a level regulator in communication with the output manifold with gas and liquid measuring sections - see as SU No. 1452960 for the invention of "Group metering installation", published 01/23/1989.

By its characteristics and the achieved result, this installation is closest to the claimed and adopted as a prototype.

The known installation is configured to simultaneously measure the flow rate of all wells connected to the switch or each of the wells individually.

The disadvantage of this installation is the significant size and complexity of the design, due to passing through its measuring system at the same time products produced by all oil wells connected to the well switch, which is associated with the proportionally large sizes of almost all the units of the installation, and its low reliability, firstly, due to the impossibility of identifying wells with a developed oil reservoir, and, secondly, when measuring the production rate of a single well, due to a sharp slowdown eniya measurement process and instability of motion while the well production through the channels of the measuring system configured to repeatedly large (e.g., 10-20 times) nominal bore.

The technical result of the utility model is to reduce the dimensions, simplify the design and increase the reliability of the installation.

The named technical result is ensured by the fact that in the installation for measuring the production rate of oil wells, comprising a well switch, an output manifold and a measuring system with a separation vessel, a hydrocyclone and a level regulator, connected to the output manifold by gas and liquid measuring sections, according to the utility model, it is additionally equipped with an emergency line with an electrically controlled shutter connecting the measuring system to the output manifold through a well switch, made th with poodinochnogo connecting wells to the measuring system.

Below, with reference to the attached drawing, a description of the claimed utility model is given.

The installation for measuring the production rate of oil wells contains a switch 1 of the wells connected to it via pipelines A, an output manifold 2, a measuring system 3 with a separation tank 4, a hydrocyclone 5 and a level regulator (level gauge) 6, in communication with the output manifold 2 of a gas and liquid measuring sections 7 and 8, respectively.

The installation is additionally equipped with an emergency line 9 with an electrically controlled shutter 10 connecting the measuring system 3 by a pipe B to the output manifold 2 through the switch 1 of the wells, made with the possibility of connecting wells to the measuring system 3 in a single way.

At the same time, the pipeline B at the inlet to the separation tank 4 contains a shut-off valve 11, a filter 12 and a hydrocyclone 5, and at the outlet, a shut-off valve 13, a gas mass flow meter 14, a temperature sensor 15, a pressure sensor 15a, a gas flow regulator 16 in the form of a magnetically controlled valve , an electrically controlled valve 17 and a valve 18. The liquid measuring section 8 in the direction from the separation vessel 4 comprises a shut-off valve 19, a temperature sensor 20 and a liquid pressure sensor 21, a mass flow meter 22, a moisture meter 23 and an electrically controlled passage valve 24.

When the installation is operated by the controller’s command (not shown in FIG.), Switch 1 connects the next well through pipeline B to the measuring system 3, through which (when the electrically operated shutter 10 and valve 24 are closed), through the shut-off valve 11, the filter 12 and the hydrocyclone 5 are cleared of of mechanical impurities, the production of the well falls into the separation tank 4 with the accumulation of gas in its upper part, and liquid in the lower part. After a certain level of liquid has been set in the separation tank 4, the gas pressure in the flow regulator 16 reaches the upper threshold of its operation, for example, 0.8-1.2 atm., And it opens. Gas from the separation tank 4 (with the electrically operated valve 17 and the valve 18 open) flows under excess pressure through the gas measuring section 7 into the output manifold 2 with simultaneous measurement of the mass and density of the passing gas by the flow meter 14, temperature and pressure by sensors 15 and 15a, and a timer (on Fig. not shown) - gas expiration time.

In the process of gas outflow, its pressure decreases and when the lower threshold is reached, for example 0.2-0.4 atm., The flow regulator 16 closes, the timer stops and the next cycle of gas and water-oil liquid accumulation in the separation tank 4 begins. As the gas pressure approaches in the separation tank 4 to the upper threshold of 0.8-1.2 atm. and a set of the required liquid level, the controller gives a signal to open the electrically operated valve 24 and the oil-water flows through the liquid measuring section 8 from the separation tank 4 to the output manifold 2 with a flowmeter 22 measuring mass flow and density, and sensors 20 and 21 measure the temperature and pressure of the liquid , hydrometer 23 - volumetric water content in the oil-water liquid.

When the liquid in the separation tank 4 reaches an acceptable low level determined by the level 6 regulator (for example, the radar type), at the command of the controller, the electrically operated valves 17 and 24 are closed, switch 1 connects the next oil well for measurement while switching the previous one to the output manifold 2, and the measurement cycle is repeated.

In the process of the above assessment of the production rate of a particular oil well, the remaining wells communicate through a switch 1 with an output manifold 2, and the emergency line 9 remains blocked by an electrically operated shutter 10.

In case of failure or malfunction of the measuring system 3, for example, due to exceeding the permissible pressure in it or failure of one of the units, the emergency command 9 is opened by the electrically controlled shutter 10 and the fluid flow of the measured well is switched by switch 1 from pipeline B to the outlet collector 2. Then, by automatically opening the electrically operated taps 24 and 17, the measuring system 3 is freed from liquid and gas. This eliminates the emergency caused, for example, by a malfunction of the locking elements, exceeding the set pressure or depressurization of the measuring system 3.

After the recovery of the measuring system 3, the electrically operated shutter 10 is closed and the installation continues to operate in the normal mode.

The installation for measuring the production rate of oil wells in comparison with the prototype has significantly smaller dimensions, simpler design and increased reliability, including due to the possibility of accelerated elimination of emergency situations during operation of the installation.

Claims (1)

Installation for measuring the production rate of wells, comprising a well switch, an output manifold and a measuring system with a separation tank, a hydrocyclone and a level regulator, connected to the output manifold by gas and liquid measuring sections, characterized in that it is additionally equipped with an emergency line with an electrically operated shutter connecting the measuring a system with an output manifold through a switch of wells, configured to connect wells to a measuring system in a single eme.

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