SU258980A1 - SETTING FOR MEASURING DEBIT - Google Patents

Description

The invention relates to the field of measurement technology, namely to liquid flow meters used in wells.

Devices are known - debit emers, which record the performance of wells in the oil fields. Such devices have a separation chamber for separating gas and oil from a liquid, a measuring capacitance filled with a controlled liquid, a sensitive element (for example, a magnetostrictive sensor located under a cantilever beam), measuring the mass of a liquid, a flow rate recorder, a three-way valve and an operation control unit specified elements of the device.

To improve the measurement accuracy, a setup is proposed, made in the form of two separation chambers and removable measuring tanks, spring loaded in the lower part and interacting through a contact system with a control unit determining the switching sequence of three-way valves.

FIG. 1 dana describes the installation; in fig. 2 - installation at the time of measurement.

The installation for measuring the flow rate of the well contains a cylindrical tank 1, a receiving and drain nozzles 2 - l 3, three-way switching valves 4 and 5, seeding chambers 5 and 7, measuring tanks 8

and 9, drain lines 10 and //, springs 12, permanent magnets 13 and 14, magnetically controlled contacts 15-20, total-flow recorder 21, control unit 22, guiding measurement containers 23 and 24.

The installation works as follows. Gas-oil to the mixture from the well through the suction inlet 2 and the three-way valve (4) (openly) enters the separation chamber 6, where gas and oil are separated. The oil from the separation chamber is discharged into the measuring tank 8, and the basin through the measuring tank 9, the drain line 10 and the three-way valve 5 (in the open position) is directed through the drain pipe 3. Into the common collector.

As the measuring vessel 8 is filled, the spring 12 is compressed, and the camera with a permanent magnet 13 moves down. When the measuring tank is filled with 50 kg of liquid (the installation is preset for this mass), the permanent magnet is combined with the mattronally controlled contact 15, the relay 25 is triggered, and an electrical impulse is applied to the recorder 21 of the total flow rate. Upon further filling of the measuring capacitance, the permanent magnet is sequentially combined with the contacts .16 and 77, causing the relay 26 and 27 to operate, and each 50 kg of liquid is fixed by the flow recorder. When contact 17 closes, the winding of the three-way switching valve is de-energized (at this time 150 kg of liquid is contained in the measuring tank), voltage is applied to the coil 4 and three-way valves change their position ("closed for clathine 4 and" open for valve 5). Gas-oil mixture from the well through a three-way valve 4 enters the separation chamber 7, and the whole measurement process is repeated in the described sequence.

Oil is drained into measuring tank 9, and gas displaces oil from measuring tank 8 through a drain line into a common reservoir. As the liquid is displaced by the basin, the spring 12 expands and the container 8 moves upwards. In this case, the combination of the magnet 13 with the contacts 16 and 15 E of the flow rate recorder does not occur. The recorder notes only the filling of the capacitance I with a liquid, which is detected when the permanent magnet is closed with contacts 18 and 19, when relays 28 and 29 are triggered. When 150 kg of fluid accumulates in the tank, relay 30 is triggered, as well as relay 25-27. The winding of the three-way valve 4 is de-energized, electrical voltage is applied to the winding of valve 5, and the valves change their position. The liquid is drained from the tank 9 into the tank 8. Then the measurement cycle is repeated.

Subject invention

An installation for measuring the flow rate, for example, a well, which includes a separation chamber, a measuring tank, a control unit, a flow recorder on a three-way valve system, characterized in that, in order to improve the measurement accuracy, it is made in the form of two separation chambers and removable measuring tanks, spring-loaded in the lower part and interacting through the system of contacts with the control unit determining the sequence of switching of three-way valves.