RU2007118117A - METHOD FOR MEASURING OIL WELL PRODUCTS AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (12)

1. A method of measuring the production of oil wells, including the separation of gas-liquid products of the well by sending it to the separation tank, separating the gas from the liquid and directing it to the upper nozzle of the separator, followed by discharge into the gas line and measuring its quantity with a meter, and the discharge of liquid is carried out through the lower nozzle separator into the measuring line of the liquid, ensuring its passage through the measuring device in batches at specified pressure drops of the beginning and end of the passage of each portion, creating a turbulent mode of fluid flow in the measuring device, and determine the size of the portions by the time they pass through the measuring device, taking into account the calibration coefficient of the measuring device, characterized in that, in order to improve accuracy, determining the size of the portions is made taking into account the measured average pressure drop over the meter transit time of each portion of liquid. 2. The method according to claim 1, characterized in that the determination of the amount of gas released in the separator is made by sending it to the measuring device in portions at a given pressure drop range on the measuring device of the beginning and end of the passage of the portion, and the beginning of the passage of the portion of gas is produced at a pressure drop of less a given pressure drop of the termination of the passage of a portion of the liquid. 3. The method according to claim 1, characterized in that the measurement of magnitude (mass) and the determination of the composition (oil and water content) of the liquid portions are performed by two types of mass and volume meters, including, for example, a meter with a constricting device and a turbine meter, and the measurement result is considered the average meter readings for the specified measurement time, and the composition of the liquid is determined taking into account data on the density of oil and water in the production of the well. 4. The method according to claim 1, characterized in that the amount of free gas in the liquid is determined by measuring the volume and mass of the liquid, taking into account the pressure and temperature in the measuring line, as well as the density of water and oil contained in the measured liquid. 5. The method according to claim 1, characterized in that the amount of produced gas of the measured well is determined by the obtained measurement results on the amount of produced oil and the value of the gas factor for the oil of the measured well. 6. The method according to claim 1, characterized in that only the control units (without the housing) of the mass meter, gas quantity meter and the turbine meter measuring unit can be calibrated during operation. 7. A device for measuring the production of oil wells, containing a gas separator with a discharge pipe located in the upper part and connected to the gas line in which the gas damper and a meter of the amount of gas released are located, the damper connected to the float device and the discharge nozzle located in the lower part a gas separator associated with a liquid line in which a liquid mass meter is installed, pressure and temperature sensors associated with a computing device, characterized in that the mass and volume body with a constricting device is made in the form of a differential pressure controller, which includes a housing in which a control unit is located, consisting of a cylinder with an inlet in its lower part and a calibrated outlet (nozzle) in the side wall with the ability to move inside the cylinder along its axis, a valve, a separating piston, a spring and a permanent magnet fixed on the rod, and the upper cylinder cavity above the piston is communicated with a hole in the cylinder wall with a discharge cavity lecturer through the gap between the cylinder and the housing, and the closed position of the valve chamber above the piston is also coupled to the collector of flow cavity through a calibrated orifice, a regulating unit is provided with an open valve position sensor associated with a computing device. 8. The device according to claim 7, characterized in that the differential pressure limits for opening and closing the valve of the mass and volume meter are selected equal to 1.2-1.5 kgf / cm ² for opening and 0.3-0.5 kgf / cm ² to close. 9. The device according to claim 7, characterized in that the meter of the amount of gas released in the separator is made in the form of a check valve, in the housing of which there is a control unit consisting of a cylinder with an inlet in its lower part and an outlet (nozzle) in the side wall with a valve, a separation piston and a permanent magnet mounted inside the cylinder that can be moved along its axis, fixed on the rod, the separation piston and cylinder being made with a minimum clearance between each other, and the piston is made ene with a recess to accommodate the load, which increases the weight and the cylinder is provided with an upper valve position sensor. 10. The device according to claim 7, characterized in that it is additionally equipped with a second volume and mass meter, for example, a turbine meter equipped with pressure sensors before and after it. 11. The device according to PP.7 and 8, characterized in that in the control nodes of the liquid mass meter and gas quantity meter, the ratio of the valve opening area to the area of the calibrated outlet (nozzle) is selected from the ratio F _to / F _c = 3.2-2 , 2, and the ratio of the diameters of the valve openings and the diameters of the separation pistons is selected from the ratio D _p / D _k = 1.3-1.2. 12. The device according to claim 7, characterized in that the control units of the mass meter, gas meter and the turbine meter measurement unit are interchangeable and equipped with sealing devices that block the covers of the control units and the measurement unit.