RU2307930C1 - Device for measuring oil, gas and water debit of oil wells - Google Patents

Abstract

FIELD: measuring equipment, possible use for measuring oil, gas and water debit of oil wells, and also for calibration (verification) of measuring devices.

SUBSTANCE: the device contains separator in form of cylindrical vessel with cyclone, sedimentation and outlet sections, separated from each other by walls, two level meters positioned in sedimentation section, a cyclone mounted at the entrance of cyclone section, measuring lines for gas and liquid with sensors of pressure and temperature and pipeline binding positioned inside, hardware block. The device is provided with two semi-trailers, liquid heating unit in cyclone section, compressor and pumping device with frequency motors, injector and electric power equipment. Separator is made horizontally oriented. The wall between cyclone and sedimentation sections is made in form of a set of pipes. The wall between sedimentation and outlet sections is made in form of overflow wall. Measuring line for liquid is made in form of water measuring line and oil measuring line, combined at the exit into outlet pipeline for oil-gas mixture, mounted serially on which are pumping device and injector with a unit for connection of gas measuring line. Compressor with frequency drive is mounted in gas measuring line. Positioned on one of semi-trailers are separator, measuring line, pipeline binding and hardware block, and on another one - outlet pipeline, pumping device, injector, compressor, and electric power equipment. Installed serially in water measuring line are density meter, device for measuring oil content in water, automatic and manual sampling apparatuses, binding for connection of free gas content measuring device, turbine flow meter, temperature and pressure sensors and an adjusting valve. Installed serially in oil measuring line are density meter, device for measuring content of water in oil, manual and automatic sample apparatuses, binding for connection of free gas detection plant, turbine flow meter, pressure and temperature sensors and an adjusting valve. Installed serially in gas measuring line are pressure sensors, device for measuring liquid drops, manual sampling apparatus, mass flow meter and adjusting valve.

EFFECT: increased degree of separation of oil-gas mixture onto different phases - gas, water and oil, reduced layer between these substances in separator after division, ensured mobility of device.

10 cl, 1 dwg

Description

The invention relates to measuring equipment and is intended to measure the flow rate of oil wells in oil, gas and water, as well as for calibration (calibration) of metering installations.

A known installation for measuring the flow rate of oil wells in oil, gas and water, including a separator in the form of a cylindrical vessel with a cyclone, settling and outlet sections, separated by partitions, two level gauges located in the settling section, installed at the inlet of the cyclone section, a cyclone, measuring lines gas and liquids with pressure and temperature sensors and piping placed in them, equipment unit (see SU 1553661, ЕВВ 47/10, 1989).

A disadvantage of the known installation is the lack of reliability of the measurements due to the insufficient degree of separation of the oil-gas mixture into different phases and large adjacent zones between the phases in the separator after separation. In addition, the known installation is not mobile and its relocation from one well to another is an operation with increased labor costs, and the operation of the installation depends on weather conditions.

The objective of the patented installation is to increase the reliability of measurements, expand the functionality of the installation and give it mobility.

The technical result of the installation is to increase the degree of separation of the oil-gas mixture into various phases (media) - gas, water and oil and, as a result, reduce the layer of adjacent zones between these media in the separator after separation, as well as create a mobile installation that facilitates the measurement of various wells with various oil and gas mixtures and under various climatic conditions.

The specified task and technical result is achieved by the installation for measuring the flow rate of oil wells in oil, gas and water, including a separator in the form of a cylindrical vessel with a cyclone, settling and outlet sections, separated by partitions, two level gauges located in the settling section, installed at the inlet of the cyclone cyclone section, gas and liquid measuring lines with pressure and temperature sensors and piping placed in them, an apparatus unit equipped with two semi-trailers, a heating unit and the liquid in the cyclone section, the compressor and the pump unit with frequency drives, an injector and electric power equipment, the separator is horizontally oriented, the partition between the cyclone and settling sections is made in the form of a set of tubes, the partition between the settling and outlet sections is made in the form of an overflow wall, and the liquid measuring line is made in the form of a water measuring line and an oil measuring line, uniting at the outlet of the oil and gas mixture outlet pipe, on which a pump unit and an injector with a gas measuring line connection unit were installed; the compressor with a frequency drive was installed in the gas measuring line, a separator, measuring lines, piping and equipment block were placed on one of the semitrailers, and an outlet pipeline, pump unit on the other , injector, compressor and electric power equipment.

The indicated task and technical result are also achieved by the fact that a densitometer, a device for measuring the oil content in water, automatic and manual samplers, piping for connecting a free gas determination unit (UOSG), a turbine flowmeter, pressure and temperature sensors are installed in series in the water measuring line and control valve, a densitometer, a device for measuring the water content in oil, manual and automatic samplers, piping are sequentially installed in the oil measuring line for connecting the UOSG, a turbine flow meter, pressure and temperature sensors and a control valve, a pressure sensor, a device for measuring liquid drops, a manual sampler, a mass flow meter and a control valve are installed in series in the gas measuring line.

And also by the fact that the fluid heating unit is made in the form of concentrically arranged nozzles, the inner of which is perforated along the side surface and has a connection to the steam generator, and the other outer one is connected to the drainage system.

And also because the separator at the inlet to the cyclone section has an inlet for supplying chemical reagents.

And also the fact that it is equipped with a third radar type level gauge located in the output section, and the settling section level gauges are made of one radar reflex and the other of the buoy type.

And also by the fact that the gas measuring line has an outlet to the torch.

And also the fact that it is equipped with limit level detectors located in the output section of the separator.

And also the fact that the separator, piping, measuring lines, hardware unit are insulated from the environment.

And also the fact that the cyclone is made with two tangential inputs.

And also by the fact that at the entrance to the gas measuring line there is a jet droplet eliminator with a differential pressure meter on it.

Patented installation is illustrated in the drawing.

The apparatus for measuring the flow rate of oil wells in oil, gas and water includes a separator 1 in the form of a cylindrical vessel with a cyclone 2, settling 3 and output 4 sections separated by partitions 5 and 6. In the settling section 3 there are two level gauges 7 and 8. On the cyclone 9 is installed at the inlet of the cyclone section 2. The installation has measuring lines for gas 10, oil 11 and water 12 with measuring instruments (pressure, temperature sensors, etc.) located in them, grouped in an apparatus unit (not shown), and with piping (not yet ana) consisting of valves (valves, cocks, etc.). The installation is equipped with two semi-trailers (not shown), a fluid heating unit 13 in the cyclone section 2, a compressor 14 and a pump unit 15 with frequency drives 16 and 17, an injector 18 and electric power equipment (not shown). The separator 1 is made horizontally oriented, the partition 5 between the cyclone 2 and the settling 3 sections is made in the form of a set of tubes 19, the partition 6 between the settling 3 and the outlet 4 sections is made in the form of an overflow wall. The measuring water line 12 and the measuring oil line 11 are combined at the outlet of the oil and gas mixture outlet pipe 20, on which the pump unit 15 and the injector 18 are connected in series with the connection unit (not shown) of the gas measuring line 10. A compressor 14 with a frequency drive 16 is installed in the measuring gas lines 10. On one of the semi-trailers are placed a separator 1, measuring lines 10, 11 and 12, piping and an apparatus unit, and on the other semi-trailer there is an outlet pipe 20, a pump unit 15, an injector 18, ompressor 14 and electric power equipment.

In the oil measuring line 12, a densitometer 21, a device 22 for measuring the water content in oil, an automatic 23 and a manual 24 samplers, a piping 25 for connecting a GSL, a turbine flow meter 26, pressure and temperature sensors 27 and a control valve 29, are installed in series in the measuring line a water meter 11, a densitometer 30, a device 31 for measuring the oil in water and water in oil, a manual 32 and an automatic 33 samplers, a harness 34 for connecting a UOSG, a turbine flow meter 35, pressure and temperature sensors 36 and a control valve 38, a pressure sensor 39, a device 40 for measuring liquid droplets, a manual sampler 41, a mass flow meter 42 and a control valve 43 are sequentially installed in the gas measuring line 10.

The fluid heating unit 13 is made in the form of concentrically arranged nozzles, the inner 44 of which are perforated along the lateral surface and connected to the steam generator 45, and the other outer nozzle is connected to the drainage system 46.

The installation also has a third radar type level gauge 47 located in the output section 4, and the level gauges 7 and 8 of the settling section 3 are made of one radar reflex and the other of the buoy type.

The gas measurement line 10 has an exit 48 to the torch.

The installation has signaling devices 49, 50, 51 and 52 of limit levels located in the output section 4 of the separator 1.

The separator 1 at the inlet 53 to the cyclone section 2 has a supply 54 for supplying chemicals, in particular a demulsifier.

The separator 1, piping, measuring lines 10, 11 and 12 and the hardware unit are thermally insulated from the environment.

The cyclone 9 is made with two tangential inputs 55 and 56.

In the upper part of the settling section, the gas passes through a defoaming nozzle 57 made of Z-shaped plates.

At the entrance to the gas measuring line 10, there is a jet droplet eliminator 58 with a pressure drop meter 59 thereon.

Installation works as follows.

Before carrying out measurements, it is necessary to horizontally set the platforms of transport semi-trailers using screw jacks to ensure the measurement of the emulsion – formation water and gas – liquid interfaces in the separator 1, as well as to ensure the conditions for putting the compressor 14 and the pump unit 15 into operation.

After connecting the separator 1 to the measured oil-gas flow, the compressor 14 is turned on and in the separator 1 according to the testimony of the pressure sensor 39 installed in line 10, a pressure close to atmospheric is maintained. In this case, the separator 1 is filled with formation fluid. There is an accumulation of formation water and partially dehydrated water-oil emulsion to the specified levels. After reaching the specified levels, the pump unit 15 is turned on. According to the testimony of the device 31, it is necessary to make sure that the water content in the oil line 11 does not exceed 10-15%. If it exceeds, then by increasing the flow rate of the demulsifier and changing the temperature of the liquid in the separator 1, it is necessary to achieve a decrease in the water content in oil to a predetermined value. In this case, according to the testimony of the reflex radar level gauge 7, it is necessary to set the supply of the demulsifier and the temperature of the liquid so that the dimensions of the interfacial layer do not interfere with the readings of the reflex radar level gauge 7, which is ensured at the minimum possible thickness of the intermediate layer.

You must also make sure that the oil content in the water line does not exceed 0.5%.

If necessary, both manual samples and automatic samplers are simultaneously taken. With the help of the GSL, the presence of free gas in the oil and water lines, as well as dissolved gas in the oil line, is monitored.

The measurement time depends on the flow rate of the well, the stability of the oil emulsion and the temperature of the oil-gas mixture and is selected individually for each stream, taking into account previous experience and data from the chemical laboratory.

During the measurements, the readings of flow meters, temperature and pressure sensors, as well as changes in the interfacial level in the settling section and the gas-liquid boundary in the outlet section are recorded using the operator's automated workstation (AWS) and an information processing algorithm agreed with the customer.

The installation provides operation with oil and gas mixture flows in accordance with the technical requirements for a mobile three-phase separator for operation at various oil fields, while ensuring high reliability of measurements in various climatic conditions and for various oil and gas mixtures.

Claims (10)

1. Installation for measuring the flow rate of oil wells in oil, gas and water, including a separator in the form of a cylindrical vessel with a cyclone, settling and outlet sections, separated by partitions, two level gauges located in the settling section, installed at the inlet of the cyclone section, measuring gas and liquid lines with pressure and temperature sensors and piping placed in them, an apparatus unit, characterized in that it is equipped with two semi-trailers, a fluid heating unit in the cyclone section, a compressor and a pump unit with frequency drives, an injector and electric power equipment, the separator is horizontally oriented, the partition between the cyclone and settling sections is made in the form of a set of tubes, the partition between the settling and outlet sections is made in the form of an overflow wall, and the liquid measuring line is made in the form of a measuring water lines and an oil measuring line, uniting at the outlet of the oil and gas mixture outlet pipeline, on which the pump an assembly and an injector with a gas meter line connection unit, while a compressor with a frequency drive is installed in the gas meter line, on one of the semi-trailers is a separator, meter lines, piping and equipment unit, and on the other a outlet pipe, pump unit, injector, compressor and power equipment. 2. Installation according to claim 1, characterized in that a densitometer, a device for measuring the oil content in water, automatic and manual samplers, piping for connecting the installation for determining the free gas content (UOSG), a turbine flowmeter, pressure sensors are installed in series in the water measuring line temperature and control valve, a densitometer, a device for measuring the water content in oil, a manual and automatic samplers, piping for connecting a turbine generator, turbines are installed in series in the oil measuring line the first flow meter, pressure and temperature sensors and a control valve in the measurement gas line sequentially mounted pressure sensor to measure the liquid droplet instrument manual sampler, a mass flow meter and control valve. 3. The installation according to claim 1, characterized in that the fluid heating unit is made in the form of concentrically arranged nozzles, the inner of which is perforated along the side surface and has a connection to the steam generator installation, and the other outer one is connected to the drainage system. 4. Installation according to claim 1, characterized in that the separator at the inlet of the cyclone section has an inlet for supplying chemical reagents. 5. Installation according to claim 1, characterized in that it is equipped with a third radar type level gauge located in the output section, and the settling section level gauges are made of one radar reflex and the other of a buoy type. 6. Installation according to claim 1, characterized in that the gas measuring line has an outlet to the torch. 7. Installation according to claim 1, characterized in that it is equipped with limit level detectors located in the output section of the separator. 8. Installation according to claim 1, characterized in that the separator, piping, measuring lines, hardware unit are insulated from the environment. 9. Installation according to claim 1, characterized in that the cyclone is made with two tangential inputs. 10. Installation according to claim 1, characterized in that at the entrance to the gas measuring line there is a jet droplet eliminator with a differential pressure meter on it.