SU1216549A1 - Installation for collecting and measuring output of oil wells - Google Patents

Description

I

The invention relates to oil production in the fields, in particular, to devices for monitoring the operation of wells in a group system for collecting products.

The aim of the invention is to expand the limits and increase the accuracy of measurement.

. This goal is achieved by reducing the pressure in the collection manifold, i.e. reducing the resistance to movement of the fluid through the fluid meter (the required flow rate is provided) without the need to increase the pressure in the metering separator. This allows refusing the use of an ejector for suction of a fluid, and thus provides a measurement of both high-flow and low-flow wells.

In addition, gas from the separator to the ejector on the collecting manifold allows gas to be measured, not cyclically but continuously, and thus to avoid pressure fluctuations in the metering separator, which negatively affect the separation process.

According to the invention, in an assembly for collecting and measuring production of wells comprising a well switch, a metering separator, liquid and gas meters, and an ejector mounted on the collecting manifold additionally on the collecting collector in front of the ejector, a jet degasser and a pump are installed in series with the low pressure ejector chamber It is connected to the outlet of the gas from the metering separator and through the pressure regulator to the gas outlet from the jet degasser, and the outlet of the liquid from the metering separator is connected through a liquid meter. and directly to the collection manifold Move entrance jet degasser.

16549

The drawing shows an installation for collecting and measuring the production of wells.

The installation contains a switch 5 hoist 1 well, metering separator 2, flow meters 3 and 4, respectively, liquid and gas, jet degasser 5, pump 6, ejector 7, pipelines 8 and 9 for drainage

 O and gas from separator 2, prefabricated

a collector 10. A flow meter 3 is installed on a pipeline 8 connecting the separator 2 to a collector 10, and a flow meter 4 on a pipeline 9,

15 connecting the separator 2 with the low pressure chamber of the ejector 7, which is connected via the pressure regulator 11 to the gas outlet from the jet degasser 5.

20

The installation works as follows.

The well output comes in through the program through switch 1.

23 wells in metering separator 2, where the gas is separated from the liquid. Gas through raskdomer 4 is sucked through the pipeline 9 into the low pressure chamber of the ejector 7,

30, in the jet degasser, gas is released from the liquid entering it through the collecting manifold, and this gas also enters the low pressure chamber of the ejector 7,

,, - and the fluid is pumped through the pump through the ejector 7. In this case, the resistance exerted by the flow of fluid from the separator 2 into the collecting manifold 10, Liquid

The 4Q pipeline 8 continuously enters the collecting manifold 10 through the flow meter 3 at a rate sufficient to measure, regardless of the flow rate of the well being measured.

45. .

Measurement of liquid

and gas at the end of the measurement are fixed in the automation unit of the installation (not shown) and for measurement

another well is connected.

Claims (1)

(57,) INSTALLATION FOR COLLECTING AND MEASURING OIL WELL PRODUCTS, containing a well switch, a metering separator, liquid and gas meters, an ejector mounted on a prefabricated manifold, characterized in that, in order to expand the limits and improve the measurement accuracy, on the prefabricated collector in front of the ejector, a jet degasser and a pump are installed in series, the low pressure chamber of the ejector being connected to the gas outlet from the metering separator and to the gas outlet from the jet degasser, and the liquid outlet from the metering separator It is connected through the fluid meter directly with the collecting manifold degasser before entering the jet.