RU163243U1 - INSTALLATION FOR GAS-CONDENSATE RESEARCHES OF GAS AND GAS-CONDENSATE WELLS - Google Patents

Abstract

1. Installation for gas condensate research, characterized in that it contains a separator and a container for collecting liquid, structurally combined into a single design, the inlet lines of the gas condensate mixture, gas metering, metering fluid, drainage, while the gas and liquid metering lines are made with the possibility of connection to the loop, the separator is equipped with a gas sampling unit, the gas metering line is made with the possibility of connecting to the pipeline to the flare, equipped with a means for determining the gas flow rate, which is used as a flow a domer with a narrowing device, the liquid collection tank has calibration marks, is equipped with a liquid sampling unit, a level sensor and level-calibrated visual indicators for the level of separation of the media and the liquid level, with the upper inlet pipe of the medium level indicator located below the accumulated liquid level, liquid measurement line equipped with a liquid meter and made with the possibility of connection through a stop valve with a drainage line. 2. Installation according to claim 1, characterized in that the level sensor is installed in the housing. 3. Installation according to claim 1, characterized in that the level sensor is installed in a remote chamber.

Description

The utility model relates to the gas industry, namely, to prepare the initial data for calculating gas and condensate reserves, as well as the operational characteristics of gas and gas condensate wells at any stage of their development.

A well-known installation for researching wells, which includes a line for receiving the products of the investigated well and is equipped with pressure, temperature, vertical gravity separators for separating gas from liquid [RU 2438015 C1, IPC ЕВВ 47/10, 43/10 (2012.01), publ. 2011]. The gravity separator is equipped with condensate and water extraction lines, and is also connected to a condensate collector equipped with liquid level meters. The unit is equipped with a heat exchanger installed up to a vertical gravity separator. EFFECT: increased accuracy and reliability of field gas condensate studies of wells by lowering the temperature of gas separation, eliminating gas and condensate losses from flaring, a significant increase in the volume of research by reducing the complexity of the work.

A disadvantage of the known installation is the inability to return to the loop, the need to use a heat exchanger with a turbotetander to lower the gas temperature at the inlet to the separator, a sophisticated technological strapping with a large amount of equipment and with reference to the gravity separator is used.

A known device for measuring production rates of gas condensate wells and oil wells, containing a mobile base - a trailer on which a condensate collector is installed, equipped with a heat exchange device, an electronic radar level gauge and a visual level gauge, and a vertical hydrocyclone separator, which is connected to the condensate collector using flanges with the formation of a single vessel while the gas line of the separator and the liquid line of the condensate collector are configured to be connected to a loop [RU 2532490 C1, IPC ЕВВ 47/10 (2012.01), publ. 2014]. The gas line is equipped with a gas flowmeter, which is used as a vortex flowmeter, an additional separator equipped with a sampling probe, and a throttle valve. The continuous separation of the gas-liquid mixture in the hydrocyclone separator and the supply of gas and liquid to the gas and liquid flowmeters allows for the determination of the instantaneous flow of the gas condensate well and the possibility of monitoring the state of the well in real time, as well as reduces gas consumption by allowing gas to return after measurement to the loop instead of burning it in a torch. Sampling a gas from a gas pipeline using a sample inlet and determining the condensate content in a sample using an additional separation unit provides increased accuracy in determining the flow rates of gas condensate wells, especially with high gas pressures and high condensates and liquid impurities. Determining the gas flow rate using a vortex flowmeter can improve the reliability of the flowmeter at low temperatures, and thus ensures the accuracy of determining the instantaneous flow rate of wells.

The disadvantage is the lack of regulators that allow the installation on a torch and in a drainage tank, a gas heat exchanger in front of the separator, gas measurement is limited by a vortex flowmeter operating in a narrow range.

The task to which the claimed technical solution is directed is to develop an installation that allows the separation of a gas-liquid mixture with subsequent measurements of the flow rate of separation gas, gas-condensate mixture and determination of the condensate content in the liquid, including volumetric methods, for calculating gas and condensate reserves, as well as operational characteristics of gas and gas condensate wells at any stage of their development with the required reliability and safety.

When implementing the proposed technical solution, the task is solved by achieving a technical result, which consists in expanding the functionality.

The specified technical result is achieved in that the installation for gas condensate research contains a separator and a container for collecting liquid, structurally integrated into a single design, the inlet lines of the gas condensate mixture, gas metering, metering fluid, drainage, while gas and liquid metering lines are made with the possibility of connection to the loop, the separator is equipped with a gas sampling unit, the gas metering line is made with the possibility of connecting with the pipeline to the torch, equipped with a means for determining the gas flow, as A flow meter with a narrowing device was used, the liquid collection tank has calibration marks, is equipped with a liquid sampling unit, a level sensor and visual level gauges for the level of separation of the media and the liquid level calibrated according to the level, with the upper inlet pipe of the medium level indicator located below the accumulated liquid level, line liquid metering is equipped with a liquid meter and is made with the possibility of connection through a stop valve with a drainage line. In addition, the level sensor can be installed in the housing or in the remote chamber.

The constructive implementation of the installation for the study of wells provides the possibility of separating a gas-liquid mixture with subsequent measurements of the flow rate of separation gas, gas-condensate mixture and determining the content of condensate in the liquid, including volumetric methods, due to the claimed location of the level gauges, which extends the functionality of the installation. The possibility of changing (by changing) the diaphragm of the constricting device of the means for determining the gas flow rate provides the possibility of conducting well studies in various modes. Gas and liquid measurements can be carried out both without their utilization with the subsequent return of the gas-liquid mixture to the loop, and with gas utilization to the flare, and liquid into the tank. The possibility of gas and liquid utilization in two different ways due to the constructive design of the unit strapping allows the unit to be used on different to equip wells with varying degrees of development of their arrangement. Thus, with one installation, it is possible to conduct well research from research and start-up wells, to constantly working with dividing well production into phases for their analysis, determination of production capabilities and decision-making on optimizing their use.

In FIG. 1 schematically shows an installation for gas condensate research of gas and gas condensate wells (hereinafter installation), FIG. Figure 2 schematically shows a fragment of the lower storage tank with level gauges (visual level indicators), shows the boundary between the condensate (K) - produced water (B) media, the ratio of the liquid level and calibration marks on the tank.

The installation comprises a separator 1 for separating the gas condensate mixture and a container for collecting liquid 2 (condensate collector), structurally integrated into a single design with nozzles for the flow of the liquid phase. Directly in the fields, it is possible to use a standard separator, consisting, for example, of two horizontally oriented housings, combined into a single design, designed for the appropriate capacity, pressure and temperature.

The installation is equipped with gas-condensate mixture inlet lines 3, gas metering 4, liquid metering 5, drainage, gas and liquid return pipe to the loop. The gas condensate mixture inlet line 3 is equipped with a pressure regulator 7, instruments for measuring pressure and temperature. To ensure the required temperature of the gas-condensate mixture, the installation can be equipped with a heat exchanger 4 and a temperature regulator 6. The gas metering line 4 is equipped with a means for determining the gas flow 8 (gas meter), a flow regulator 9, shut-off valves 10 (for example, a shut-off valve) through which it is connected with a pipeline for returning gas and liquid to the loop and (with the corresponding position of the shutoff valves) a pipeline to the torch. As a means for determining the gas flow rate 8, a flow meter with a constricting device is used, which provides increased measurement accuracy, increased safety during operation of the installation, and facilitates dismantling and maintenance. By using a diaphragm as a constricting device, the possibility of using the device for various pressures is expanded.

The liquid metering line 5 is equipped with a liquid meter 11, a level regulator 12, and is configured to be connected through a stop valve 13, a check valve 15 with a gas and liquid return pipe to a loop, and through a stop valve 14 and a pressure regulator 16 with a drain line.

The separator 1 is equipped with nodes for sampling gas 17. To determine the properties of the liquid in accordance with calibrated volumes, the capacity for collecting liquid 2 is equipped with nodes for sampling the liquid 18. Standard tools were used as nodes for sampling 17, 18.

To ensure the implementation of visual control on the tank for collecting liquid 2 applied calibration marks of the volume levels of the liquid phase in the tank (Fig. 2). The liquid collection tank is equipped with a level gauge 19, which can be installed in a housing or in a remote chamber (not shown) and visual level gauges spaced apart by the height of the tank: a visual level gauge 20 shows the liquid level, a level gauge 21 shows the level of medium separation (condensate and produced water). To indicate the level of the liquid section, the upper inlet pipe of the level indicator (level gauge) 21 is located below the accumulated liquid level, to prevent squeezing out liquid with a lower density from the level indicator. Having the claimed location of the visual level gauges, it is possible to measure by volumetric methods, without using instrumentation and automation, according to calibration marks, the content of condensate in the liquid and separately the content of produced water.

As means of instrumentation and automation, standard means used in the art are used, piping piping lines are interconnected by known methods, for example, by means of sleeve couplings or quick-detachable couplings. Installation for gas condensate research can be performed in the form of a monoblock with the possibility of its installation on a mobile vehicle.

Installation work can be carried out in two modes:

1 Work in a loop

The products from the well under study enter through the inlet pipe — the gas condensate mixture supply line 3 through the heat exchanger 22 (if necessary) to the separator 1 of the installation. In the heat exchanger 22, the product is heated by supplying coolant to the annular space, the temperature of the coolant is regulated by a temperature controller 6. In the separator 1, mechanical impurities and the liquid phase are separated from the gas, which flow into the container for collecting liquid 2. The gas stream enters the gas meter 8. Then gas is reduced on the control valve 9 to the pressure in the loop and is fed to the output through the shut-off valve 10 into the loop. The control of the filling of the liquid collection tank 2 is monitored by a level sensor 19 and by a visual level indicator 20. A constant nominal level of the liquid phase in the tank is maintained by a control shut-off valve 12, made for example with an electric actuator. Measurement of the flow rate of the liquid phase is made by the liquid meter 11. Then the liquid through the shut-off valve 13 and the check valve 15 is fed through the return pipe to the loop, mixing with gas. Sampling is carried out in containers using the valves of the sampling units of the gas 17 and liquid 18.

2 Work on a torch torch

The products from the studied well (gas from the well) are fed through the inlet pipe to the heat exchanger 22 (if necessary), in which the gas is heated by supplying the coolant into the annulus, the temperature of the coolant is regulated by temperature regulator 6. Next, the gas is reduced by regulator 7 to the pressure in the separator 1, then the flow is measured on the gas meter 8, and the flow is set by the clan regulating 9. After that, the gas is discharged to the torch through the shut-off valve 10. The liquid phase accumulates in the lower tank 2, after the accumulation of the measured volume is discharged through the shut-off valve 14 and the control valve 16 into the drainage tank. Sampling is carried out in containers using the valves of the sampling units of the gas 17 and liquid 18.

Thus, the inventive installation allows for hydrodynamic studies of wells, aimed at measuring certain parameters and sampling gas and produced water in working, shut down wells, and provides the ability to connect to the studied wells with varying degrees of equipment. Due to the design of the installation in the form of a monoblock and its small dimensions, the mobility of the installation and the ability to move around the field are ensured.

Claims (3)

1. Installation for gas condensate research, characterized in that it contains a separator and a container for collecting liquid, structurally combined into a single design, the inlet lines of the gas condensate mixture, gas metering, metering fluid, drainage, while the gas and liquid metering lines are made with the possibility of connection to the loop, the separator is equipped with a gas sampling unit, the gas metering line is made with the possibility of connecting to the pipeline to the flare, equipped with a means for determining the gas flow rate, which is used as a flow a domer with a narrowing device, the liquid collection tank has calibration marks, is equipped with a liquid sampling unit, a level sensor and level-calibrated visual indicators for the level of separation of the media and the liquid level, with the upper inlet pipe of the medium level indicator located below the accumulated liquid level, liquid measurement line equipped with a liquid meter and made with the possibility of connection through a stop valve with a drainage line. 2. Installation according to claim 1, characterized in that the level sensor is installed in the housing. 3. Installation according to claim 1, characterized in that the level sensor is installed in a remote chamber.

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