RU2499136C1 - Method of oil and oil gas amount measurement - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: proposed method comprises feed of extracted product via tuning to well mouth and, further, to gas-fluid separator to device said product in gas and liquid phases. Gas and fluid phases are discharged from gas-fluid separator via gas and fluid lines. Oil gas amount is measured in gas line while fluid amount is measured in fluid line. Gas chemical composition is defined as well as its components mass and/or molar fractions to calculate its molar weight. Cavity formed by casing inner surface and tubing outer surface from well mouth to well fluid dynamic level is used as a gas separator. Portion of gas is accumulated in said cavity to create gas pressure to discharge it via gas pipe into gas line and/or oil-and-gas pipeline. Oil gas amount and/or gas temperature and pressure are measured in gas branch pipe. Residual oil gas amount is measured in fluid line as well dissolved gas amount.

EFFECT: in-situ determination of oil yield.

1 dwg, 3 cl

Description

The claimed invention relates to oil production, and in particular to devices for measuring the amount of oil and gas extracted from the subsoil, and can be used for operational accounting of production rates of oil and gas condensate wells (both individual and well) and license areas in pressurized collection systems .

A known method of measuring the amount of oil and oil gas, including supplying the produced well products through the tubing string to the wellhead, entering the well products into the gas-liquid separator, dividing the well products into gas and liquid phases, withdrawing the gas and liquid phases from the gas-liquid separator on gas and liquid lines, respectively, measuring the amount of oil gas in the gas line and measuring the amount of liquid in the liquid line in which the gas and liquid lines are connected respectively with a gas pipeline and an oil pipeline / Patent RU 2284211 C2 IPC B01D 19/00 (2006.01). Claim 2004.06.10. Publ. 2006.09.27 /.

The disadvantage of this method is the lack of efficiency, due to the fact that in it with an increase in the amount of oil gas it is necessary to increase the volume of the gas-liquid separator. Typically, a large amount of oil gas (more than 2500 m ³ / day) 1-2 wells is produced on a well cluster. Therefore, it is necessary to choose all the equipment for measuring the amount of oil gas on such a bush based on the calculation of a large amount of oil gas, although it is required only for 1-2 wells. Additionally, it is necessary to lay separate oil and gas pipelines.

The closest in technical essence and the achieved result is a method of measuring the amount of oil and oil gas, including supplying the produced well products through the tubing string to the wellhead, entering the well products into the gas-liquid separator, dividing the well products into gas and liquid phases therein, removal from the gas-liquid separator of the gas and liquid phases along the gas and liquid lines, respectively, measuring the amount of oil gas in the gas line and measuring the amount of liquid in the liquid the remaining line, the connection of gas and liquid lines in the oil and gas pipeline / Patent RU 2342528 C1, IPC E21B 47/10 (2006.01), E21B 43/38 (2006.01) 2007.03.23. Publ. 2008.12.27. Bull. No. 36 /.

The disadvantage of this method is the lack of efficiency, due to the fact that in it with an increase in the amount of oil gas it is necessary to increase the volume of the gas-liquid separator. Typically, a large amount of oil gas (more than 2500 m ³ / day) 1-2 wells is produced on a well cluster. Therefore, it is necessary to choose all the equipment for measuring the amount of oil gas on such a bush based on the calculation of a large amount of oil gas, although it is required only for 1-2 wells.

The aim of the invention is to increase efficiency. This goal is achieved by the fact that in the method of measuring the amount of oil and oil gas, which includes supplying the produced well products through the tubing string to the wellhead, supplying the well products to a gas-liquid separator, dividing the well products into gas and liquid phases, withdrawing from gas-liquid separator of the gas and liquid phases along the gas and liquid lines, respectively, measuring the amount of oil gas in the gas line and measuring the amount of liquid in the liquid line, connecting the gas and liquid of the remaining lines in the oil and gas pipeline, determine the chemical composition of the gas, the mass or volume fractions of its constituent components, and calculate its molar mass, the cavity formed by the inner surface of the casing string and the outer surface of the tubing string from the wellhead to the dynamic level of the liquid in the well gas separator, part of the gas is collected in this cavity and a gas pressure is created sufficient to divert it through the gas pipe to the gas line and / or oil and gas pipeline. In addition, in some cases, the amount of oil gas and / or its temperature and pressure may be measured in the gas pipe. In addition, in some cases, the amount of residual free petroleum gas and / or the amount of dissolved gas may be measured in the liquid line.

Determination of the chemical composition of the gas, mass or volume fractions of its constituent components makes it possible to calculate its molar mass, which makes it possible to increase the accuracy of calculations, which ensures an increase in efficiency.

The removal of part of the oil gas from the cavity formed by the inner surface of the casing string and the outer surface of the tubing string through the gas pipe into the gas line and / or oil and gas pipeline allows reducing the amount of oil gas entering the gas-liquid separator, which makes it possible to reduce its volume, t .e. contributes to increased efficiency. Thus, the cavity formed by the inner surface of the casing string and the outer surface of the tubing string performs the function of a first stage gas separator.

Measurement of the amount of oil gas in the gas pipe allows you to determine the total amount of oil gas as the sum of the amounts of oil gas passing through the gas line and gas pipe, which improves the efficiency.

The implementation of the introduction of oil gas from the gas pipe into the oil and gas pipeline from the gas side after the separation of the production of wells into gas and liquid phases reduces the possibility of mixing the liquid and gas phases, which increases efficiency. As is widely known, mixing in the oil and gas pipeline of the liquid and gas phases can lead to an increase in the stability of the oil-water emulsion, which is undesirable for the preparation of oil.

Measuring the amount of residual free petroleum gas in a liquid line can improve efficiency by taking into account the amount of residual free petroleum gas.

Measuring the amount of dissolved gas in a liquid line can improve efficiency by taking into account the amount of dissolved petroleum gas.

Maintaining when introducing oil gas from the gas pipe into the gas line in the cavity formed by the inner surface of the casing string and the outer surface of the tubing string, the pressure is not lower than at the point of entry into the gas line eliminates the possibility of back flow of oil gas, which increases the efficiency work.

Maintaining, when oil gas is introduced from the gas pipe into the oil and gas pipeline, in the cavity formed by the inner surface of the casing string and the outer surface of the tubing string, the pressure is not lower than at the place of entry into the oil and gas pipeline to eliminate the possibility of backflow of oil gas, which increases the efficiency.

One of the embodiments of the device for implementing the method of measuring the amount of oil and gas is shown in Figure 1.

A device for implementing a method for measuring the amount of oil and oil gas includes a wellhead 1 with a tubing 2, to which a product pipeline 3 with a valve 4 is connected. A product pipeline 3 is connected to a separation device 5 of the column 6. A sensor for measuring the quantity is located at the bottom of the column 6 crude oil 7. A pipe is connected to the bottom of column 6. A gas pipe 9 is connected to the top of column 6 with a gas quantity meter 10. Gas pipe 9 is connected to pipe 8. Gas line 11 with a valve 12 and Meters withstand gas quantity 13 is connected with the cavity between the inner surface of the well casing 1 and the outer surface of the tubing 2. The other end of the gas line 10 is connected to the conduit 7.

A device for implementing the method of measuring the amount of oil and oil gas works as follows. The production of an oil well 1 from a tubing 2 with an open gate 4 through a product pipeline 3 enters the separation device 5 of the column 6. In the separation device 5, the production of the well 1 is divided into a water-oil emulsion (crude oil) and oil gas, which are subjected to gravitational force arrive respectively in the lower and upper parts of the column 6. The amount of crude oil is measured by a sensor to measure the amount of crude oil 7. Then the crude oil flows into the pipeline 8. A sensor for measuring the amount of cheese oil 7 may be equipped with an option for measuring the amount of residual free oil gas and / or measuring the amount of dissolved gas. Then at the entrance to the liquid line 8 using a sensor for measuring the amount of crude oil 7, the amount of residual free oil gas and / or the amount of dissolved gas is measured. From the upper part of the column 6, oil gas enters the gas pipeline 9, in which its quantity is measured using the gas quantity meter 10. Then, the oil gas from the gas pipeline 8 enters the pipeline 8. Oil gas accumulated in the cavity between the inner surface of the casing of the well 1 and the outer surface of the tubing 2, through the gas line 11 with the open valve 12 enters the gas pipeline 8, while its quantity is measured by the counter of the amount of gas 13. Additionally, in the gas line 11 due to the equipment with etchika options amount of gas 13 by measuring the temperature and / or pressure measurements may be temperature and / or gas pressure. The total amount of petroleum gas is determined by adding the readings of the gas counters 10 and 13. In the gas pipeline 8, gas samples are taken, which determine the chemical composition of the gas, mass or volume fractions of its constituent components, and calculate its molar mass.

Thus, the claimed invention improves the efficiency of measuring devices during oil production.

Claims (3)

1. A method of measuring the amount of oil and oil gas, including supplying the produced well products through the tubing string to the wellhead, entering the well products into the gas-liquid separator, dividing the well products into gas and liquid phases, withdrawing gas and liquid from the gas-liquid separator phases along the gas and liquid lines, respectively, measuring the amount of oil gas in the gas line and measuring the amount of liquid in the liquid line, connecting the gas and liquid lines in the oil and gas pipeline, ex which means that the chemical composition of the gas is determined, the mass or volume fractions of its constituent components and its molar mass is calculated, the cavity formed by the inner surface of the casing string and the outer surface of the tubing string from the wellhead to the dynamic liquid level in the well is used as a gas separator, part of the gas is collected in this cavity and a gas pressure is created sufficient to divert it through the gas pipe into the gas line and / or oil and gas pipeline. 2. The method of measuring the amount of oil and oil gas according to claim 1, characterized in that the gas pipe measures the amount of oil gas and / or its temperature and pressure. 3. The method of measuring the amount of oil and oil gas according to claim 1, characterized in that the liquid line is used to measure the amount of residual free oil gas and / or measure the amount of dissolved gas.

Images