RU2557263C2 - Unit for measurement of flow rate of oil and gas wells (versions) - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: invention relates to oil and gas industry and can be used for measurement of flow rate of production of oil and gas wells. An unit for measurement of flow rate of oil and gas wells includes at least one system for measurement of flow rates of oil, water and gas, which is hydraulically connected by means of pipelines to an inlet line of the unit, which is connected to oil wells, and to the outlet of the header, which is made in the form of a piece of a pipeline with ascending and descending segments. On the descending segment there installed is a multiphase Coriolis flow meter and at least one parametric sensor. A flow homogenisation device is installed in the pipeline in front of the descending segment. A pipeline connecting the measurement system of flow rates of oil, water and gas to the inlet line of the unit, at the inlet of this system, can be also provided with at least one ascending segment and one descending segment, which are located in series. With that, the system inlet is connected to the outlet of the descending segment of the pipeline.

EFFECT: improvement of measurement accuracy of a phase flow rate in a real time mode due to homogeneity of the measured flow of a gas-liquid mixture.

13 cl, 6 dwg

Description

The invention relates to the oil and gas industry and can be used to measure the production rate of oil and gas wells in real time.

A known installation for measuring the flow rate of oil and gas wells, containing at least one system for measuring the flow of oil, water and gas, hydraulically connected via pipelines to the input line of the installation connected to oil wells, and with the output to the collector, made in the form of a section of the pipeline with ascending and descending segments with a multiphase Coriolis flowmeter installed on its descending segment and at least one parametric sensor, as well as piping and stop valves py ( "flow measurement of multiphase flow in oil and gas by using a new type of the measuring device on the basis of a Coriolis flowmeter." Journal "Oilfield Equipment», №3, 2013 year str.105-107).

A disadvantage of the known installation is the lack of accuracy in measuring the flow parameters due to its heterogeneity, which is due to the fact that on the ascending segment of the pipeline system for measuring oil, water and gas flow rates, the flow is easily separated into phases, and on the descending segment of the pipeline, despite the fact that mixing of these phases occurs, this process is insufficient for the formation of a homogeneous mixture.

The problem to which the claimed invention is directed, is to increase the accuracy of measuring the phase flow in real time by ensuring uniformity of the measured flow of the gas-liquid mixture.

The technical result according to the first embodiment of the invention is achieved by the fact that in the installation for measuring the flow rate of oil and gas wells, containing at least one system for measuring the flow of oil, water and gas, hydraulically connected through pipelines to the input line of the installation connected to oil wells, and with access to the collector, made in the form of a segment of the pipeline with ascending and descending segments with a multiphase Coriolis flowmeter installed on its descending segment and at least one With a parametric sensor, as well as pipeline and stop valves, the system for measuring oil, water and gas flow rates is equipped with a flow mixer installed on its pipeline in front of its descending section, made in the form of a dispersant or in the form of ribs mounted on the inner surface of the pipeline.

The technical result according to the second embodiment of the invention is achieved by the fact that in the installation for measuring the flow rate of oil and gas wells, containing at least one system for measuring the flow of oil, water and gas, hydraulically connected via pipelines to the input line of the installation connected to oil wells, and with access to the collector, made in the form of a segment of the pipeline with ascending and descending segments with a multiphase Coriolis flowmeter installed on its descending segment and at least one with a parametric sensor, as well as piping and stop valves, a pipeline connecting the system for measuring oil, water and gas consumption with the inlet line of the installation at the entrance to the system for measuring oil, water and gas consumption is made with at least one ascending and one descending segments moreover, the entrance to the system for measuring the flow of oil, water and gas is associated with the exit from the descending segment of the pipeline. In addition, the system for measuring the flow of oil, water and gas is equipped with a flow mixer installed in its pipeline in front of its descending section, made in the form of a dispersant or in the form of ribs mounted on the inner surface of the pipeline.

In addition, both embodiments of the invention provide for the possible presence in the installation of a device for separating at least a part of the gas phase having separate outlets for liquid and gas from the gas-liquid mixture coming from the wells, while the outlet for the liquid is connected to the entrance to the system for measuring oil flow water and gas, and the gas outlet is connected to the outlet to the collector, and a gas flow meter is installed on the pipeline connecting the gas outlet to the outlet to the collector. The installation may also contain a multi-way valve installed on the input line of the installation and connected with oil wells, while either one of the outputs of the multi-way valve is connected to a system for measuring oil, water and gas consumption, and the second exit with an outlet to the collector, or the installation contains two devices for measuring the flow of oil, water and gas associated with the exits of a multi-way valve.

The implementation of the pipeline connecting the system for measuring the flow of oil, water and gas with the input line of the installation at the entrance to the system for measuring the flow of oil, water and gas with at least one ascending and one descending segments, and the entrance to the system for measuring the flow of oil, water and gas is connected with the exit from the descending segment of the pipeline, provides flow movement in alternating directions, which, due to the resulting pressure drops, contributes to the dissolution of gas in the liquid phase and, accordingly, Ogen mixture, which, in turn, reduces the error in the determination of the phase composition of the mixture in real time, increasing the accuracy of determining the flow rate of the components.

The supply of a system for measuring oil, water and gas consumption with a flow mixer installed on its pipeline in front of its descending section and made in the form of a dispersant or in the form of ribs installed on the inner surface of the main pipeline ensures the homogeneity of the measured flow immediately before determining its phase flow rate due to intensive mixing of phases during the movement of a stream through a series of obstacles created in its path.

The presence in the installation of a device for separating at least a part of the gas phase from separate gas-liquid mixtures from the wells having separate outlets for liquid and gas, the outlet for liquid being connected to the entrance to the system for measuring oil, water and gas consumption, and the outlet for gas connected with the outlet to the collector, it allows preliminary processing of the incoming mixture before measuring its phase composition, which increases the accuracy of measurements especially for mixtures with a high gas content. Installing on the pipeline connecting the gas outlet with the outlet to the collector, a gas flow meter allows you to measure the volumetric flow rate of the released gas.

The presence of a multi-way valve installed on the input line of the installation and connected with oil wells, and the connection of one of the outputs of the multi-way valve with a system for measuring oil, water and gas consumption, and the second exit with an outlet to the collector allows sequentially switching the flows of n-1 oil mixture wells, measuring their total flow rate, and the flow of one of the wells without measurement to send to the reservoir and based on the measured parameters of the switched flows to calculate the values of the parameters of each of n flows.

The presence in the installation of two systems for measuring the flow of oil, water and gas associated with the exits of the multi-way valve allows switching the flows of a mixture of n-1 oil wells and separately measuring the flow rates of switched and unconnected flows, which increases the accuracy of determining the flow rate of each of the wells.

Figure 1 shows a fragment of the installation for measuring the flow rate of oil and gas wells according to the first embodiment;

Figure 2 shows a fragment of the installation for measuring the flow rate of oil and gas wells, the scheme according to the second embodiment;

In Fig.3 shows a mixer in the form of a dispersant - remote element A in Fig.1 and 2;

Figure 4 shows the mixer in the form of ribs on the inner surface of the pipeline - remote element A in figures 1 and 2;

Figure 5 shows a General diagram of a setup for measuring the flow rate of oil and gas wells;

Figure 6 shows the General scheme of the installation for measuring the flow rate of oil and gas wells using 2 systems for measuring the flow of oil, water and gas.

Installation for measuring the flow rate of oil and gas wells contains a system 1 for measuring the flow of oil, water and gas, an inlet pipe 2 of a system 1, an inlet pipe 3, hydraulically connected to oil wells, a valve 4 at the entrance to the installation, a valve 5 at its output, output valve 6, output 7 to the collector. The system 1 is made in the form of a segment of the pipeline with ascending and descending segments 8 and 9 with a multiphase Coriolis flowmeter 10 and at least one parametric sensor 11 installed on its descending segment 11. As pressure sensors, and / or sensors can be used as parametric sensors temperature, and / or humidity sensors, and / or gas or liquid flow sensors.

The installation also includes a bypass pipe 12 and a valve 13 located on it.

The system 1 for measuring the flow of oil, water and gas according to the first embodiment of the installation for measuring the flow rate of oil and gas wells (Fig. 1) is equipped with a flow mixer 14 installed on its pipeline in front of its descending segment 9. The mixer 14 is made in the form of a dispersant 15 ( figure 3). The mixer 14 can also be made in the form of ribs 16 mounted on the inner surface of the pipeline (figure 4)

In the installation for measuring the flow rate of oil and gas wells according to the second embodiment (Fig. 2), the pipeline 2 at the inlet to the device 1 for measuring the flow of oil, water and gas is made with at least one ascending and one descending segments 17 and 18 moreover, the entrance to the device for measuring the flow of oil, water and gas (entrance to the ascending segment 8) is associated with the exit from the descending segment 18 of the pipeline. In this embodiment, the installation, as well as provided for in the system 1 for measuring the flow of oil, water and gas in front of its descending segment 9 of the mixer 14 stream, similar to the first embodiment.

According to both variants of the invention, the installation may comprise a device for separating at least a part of the gas phase from the gas-liquid mixture (Fig. 5) from the wells, for example, a separator 19, which has separate outlets 20 and 21 for liquid and gas, while outlet 20 for liquid is connected to the entrance to the system 1 for measuring the flow rates of oil, water and gas, and the gas outlet 21 is connected to the outlet 7 to the collector. A gas flow meter 22 is installed on the pipeline connecting the gas outlet 21 to the outlet 7 to the collector.

The inlet pipe 2 of system 1 is connected to each of the wells through an inlet valve 23, an inlet valve 24, and a three-way valve 25.

The flow of gas-liquid mixture from the wells to the inlet pipe can also be done through a multi-way valve 26 (Fig.6). The supply of the working mixture is regulated by the valves 27. The device also includes a drainage channel connected to the inlet pipe 2 through the drain valves 28 and 29, and additional sensors 30. One of the output channels of the multi-way valve, switching flows from n-1 wells, is connected to system 1 for measuring the flow of oil, water and gas. The second outlet of the multi-way valve 26, which is the outlet of the flow of one of the wells, is connected either with the outlet 7 to the reservoir or with the entrance to the second system 1 for measuring the flow of oil, water and gas.

The device operates as follows.

The valves 4 and 5 are opened, the outlet valve 6. The valve 13 is closed.

The inlet valves 23 and inlet valves 24 are opened. The gas-liquid mixture from n wells enters the inlet pipe 2 to the inlet of the system 1 for measuring oil, water and gas consumption. Before entering the system 1 in the ascending segment 17 of the pipeline 2, the gas phase is released from the mixture, after which, in its descending segment 18, on the contrary, the gas is dissolved in the mixture. Before measuring in a multiphase Coriolis flowmeter 10, the flow passes through the ascending portion 8 and the descending portion 9 of the system 1. Repeatedly changing the flow movement provides a pressure drop at which all gas dissolves in the liquid flow. The phase transition allows the creation of cluster ultrafine mixtures that increase the homogeneity of the flow. The homogeneity of the mixture is further improved by passing the gas-liquid mixture before entering the downstream section 9 through the flow mixer 14.

In a downward flow of the mixture from the sensors 9, 10 and 11 take readings. After the measurement is completed, the valves 4 and 5 are closed, the valve 12 is opened, and the mixture passes through the bypass pipe 12 to the collector 7.

The regulation of the flow directed to the input of the system 1 is carried out by appropriate switching of three-way valves 25 or multi-way valve 26.

So, when using a multi-way valve 26, the flow at one of its exits is summed from n-1 wells and enters the input of one of the systems 1, where the phase flow rate of the mixture is measured. From another exit, the flow from one remaining well in the presence of a second system 1 for measuring the flow of oil, water and gas enters its entrance. In both systems 1 sensors 9, 10, 11 are taken readings. After completing the measurements with a multi-way valve, by switching the valves 30, the flow from other n-1 wells is switched. At the same time, the second system 1 measures the parameters of the remaining well. Measurement is repeated until n measurement cycles are complete. From the measurement readings of the first system 1, the parameter values of each well are determined by comparing and clarifying the obtained values with the values measured by the second system 1.

In the absence of a second system 1 for measuring the phase flow rate of a well stream that is not switched into the total flow (from n-1 wells), the products of this well, bypassing system 1, are sent to the reservoir 7. The values of the parameters of each well are determined from the readings of the measurements of system 1 switched flow from n-1 wells.

The invention can significantly improve the accuracy of measuring the phase flow rate of oil and gas wells in real time using a multiphase Coriolis flowmeter by ensuring uniformity of the measured flow of the gas-liquid mixture.

Claims (13)

1. Installation for measuring the flow rate of oil and gas wells, containing at least one system for measuring the flow of oil, water and gas, hydraulically connected via pipelines to the input line of the installation connected to oil wells, and with the output to the collector, made in in the form of a segment of a pipeline with ascending and descending segments with a multiphase Coriolis flowmeter and at least one parametric sensor installed on its descending segment, as well as pipeline and stop valves, about Leach in that the system for measuring the oil costs, water and gas is provided with a device for homogenizing the flow set in its pipeline before descending segment. 2. Installation according to claim 1, characterized in that the device for homogenizing the flow is made in the form of a dispersant. 3. Installation according to claim 1, characterized in that the device for homogenizing the flow is made in the form of ribs installed on the inner surface of the pipeline. 4. Installation according to claim 1, characterized in that it is equipped with a device for separating from the gas-liquid mixture coming from the wells, at least a part of the gas phase having separate outlets for liquid and gas, while the outlet for liquid is connected to the entrance to the system to measure the flow rates of oil, water and gas, and the gas outlet is connected to the outlet to the collector, and a gas flow meter is installed on the pipeline connecting the gas outlet to the outlet to the collector. 5. Installation according to claim 1, characterized in that it contains a multi-way valve installed on the input line of the installation and connected with oil wells, the installation comprising two systems for measuring the flow of oil, water and gas associated with the exits of the multi-way valve. 6. Installation under item 1, characterized in that it contains a multi-way valve installed on the input line of the installation and connected with oil wells, while one of the outputs of the multi-way valve is connected to a system for measuring the flow of oil, water and gas, and the second exit - with access to the collector. 7. Installation for measuring the flow rate of oil and gas wells, containing at least one system for measuring the flow of oil, water and gas, hydraulically connected via pipelines to the input line of the installation connected to oil wells, and with the output to the collector, made in the form of a segment pipelines with ascending and descending segments with a multiphase Coriolis flowmeter and at least one parametric sensor installed on its descending segment, as well as pipeline and shut-off valves, excellent characterized in that the pipeline connecting the system for measuring the flow of oil, water and gas with the input line of the installation, at the entrance to the system for measuring the flow of oil, water and gas is made with sequentially located at least one ascending and one descending segments, moreover, the entrance to the system for measuring the flow of oil, water and gas is associated with the exit from the descending segment of the pipeline. 8. Installation according to claim 7, characterized in that the system for measuring the flow of oil, water and gas is equipped with a device for homogenizing the flow, placed in its pipeline in front of its descending segment. 9. Installation according to claim 8, characterized in that the device for homogenizing the flow is made in the form of a dispersant. 10. Installation according to claim 8, characterized in that the device for homogenizing the flow is made in the form of ribs mounted on the inner surface of the pipeline. 11. Installation according to claim 7 or 8, characterized in that it is equipped with a device for separating at least part of the gas phase from the gas-liquid mixture coming from the wells, having separate outlets for liquid and gas, the outlet for liquid being connected to the system entrance to measure the flow rates of oil, water and gas, and the gas outlet is connected to the outlet to the collector, and a gas flow meter is installed on the pipeline connecting the gas outlet to the outlet to the collector. 12. Installation according to claim 7 or 8, characterized in that it comprises a multi-way valve mounted on the input line of the installation and connected to oil wells, wherein one of the outputs of the multi-way valve is connected to a system for measuring oil, water and gas consumption, and the second exit - with an exit to the collector. 13. Installation according to claim 7 or 8, characterized in that it comprises a multi-way valve installed on the input line of the installation and connected with oil wells, the installation comprising two systems for measuring the flow of oil, water and gas associated with the exits of the multi-way valve .

Images