RU2498231C1 - Plant for determining disperse phase content in gas flow - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: plant for determining disperse phase content in gas flow includes a sampling probe, a separation unit containing a separator equipped with an element filter and a batch metre for liquid separated from gas. The plant also includes a unit for maintaining constant gas flow rate at the pressure, temperature and velocity in the plant system which are equal to pressure, temperature and velocity of gas flow, which includes a gas flow rate control valve, a flow metre and a supply assembly of hydrating inhibitor. Hydrating inhibitor supply assembly includes an inhibitor tank and an inhibitor supply valve to the gas flow rate control valve. In addition, the plant includes a filtration unit that is installed parallel to the separation unit between the sampling probe and the flow metre. The filtration unit includes an element filter for collection of moisture released at the pressure in the device system, which is equal to gas flow rate pressure; then, the element filter for collection of drop moisture and mechanical impurities from gas, and after it, an element filter for correction of measurement results. With that, the constant gas flow rate maintaining unit includes a mass flow metre as a flow metre, which is installed before the gas flow rate control valve.

EFFECT: obtaining the value of content of disperse phase in gas flow at short time of high-accuracy gas sampling, both at its high, and low content.

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Description

The invention relates to the field of quality control of the preparation of natural and associated gases for transport in the oil and gas industry and can be used in fuel and energy, chemical, petrochemical and oil refineries. Gas quality control is carried out using a device for determining the content of the dispersed phase in the gas stream.

A known installation for determining the content of the dispersed phase in the gas stream, including a filter cartridge, a unit for maintaining a constant gas flow at a pressure, temperature and speed in the installation system equal to the pressure, temperature and speed of the gas stream, containing a valve, pressure gauge and throttle, see .A.Lonchakov, A.N. Kulkov G.K. Zibert. "Technological processes for the preparation of natural gas and methods for calculating equipment", LLC "Nedra. Business Center »Moscow. Printed at the VINITI Production and Publishing Plant, p.204, 2000

The disadvantages of the known installation is the high error in determining the content of the dispersed phase in the gas stream, associated with the release of moisture during the set pressure in the installation, which is captured by the filter cartridge and reduces the reliability of the measurement results. In addition, when passing the gas sample through the throttle, a sharp decrease in the temperature of the gas occurs, which cools the walls of the installation and reduces the temperature inside it, while the temperature of the gas sample is no longer equal to the temperature of the gas stream, which leads to a distortion of the results. The design of the installation allows you to take gas samples only near the wall of the pipeline and to determine the dispersed phase only with a small content in the gas stream.

A known installation for determining the content of the dispersed phase in the gas stream, including a sampling probe, a constant gas flow rate regulator at a pressure, temperature and speed in the installation system equal to pressure, temperature and gas flow rate, a filter unit including a filter cartridge for collecting the released moisture at a set in the system of the device of pressure equal to the pressure of the gas stream, then a filter cartridge for collecting drip moisture and mechanical impurities from the gas and after it a filter cartridge for correcting ultatov measurements, the constant gas flow regulator is designed as a block with a set of calibrated critical nozzles cm. RU Patent №2396553, MIIK G01N 25/56 (2006.01), 2010.

The disadvantages of the known installation is that the constant gas flow regulator, made in the form of a set of critical nozzles, provides a discrete change in gas flow through the installation, which does not always allow the condition of equal gas velocity in the installation system and gas flow, and, as a result, reduces the accuracy of determining the content of the dispersed phase in the gas stream. Also, the installation allows you to determine the content of the dispersed phase only with a small amount in the gas stream, which is associated with the rapid saturation of the filter cartridges with moisture at a high content.

The closest in technical essence is the installation for determining the content of the dispersed phase in the gas stream, including a sampling probe, a separation unit containing a separator equipped with a filter cartridge and measuring device for the separated liquid from the gas, a unit for maintaining a constant gas flow at a pressure, temperature and speed in installation system equal to pressure, temperature and gas flow rate, including a gas flow control valve, a flow meter and a hydrate inhibitor supply unit, containing an inhibitor and an inhibitor supply valve to the gas flow control valve, while the constant gas flow control unit as a flow meter contains a gas meter installed after the gas flow control valve, and the flow rate is determined using a stopwatch, see G.A. Lonchakov, A .N. Kulkov GK Zibert "Technological processes for the preparation of natural gas and methods for calculating equipment", LLC "Nedra. Business Center ”, Moscow. Printed at the VINITI Production and Publishing Plant, p. 210, 2000

The disadvantages of this installation is the duration and inaccuracy of determining the content of the dispersed phase in the gas stream due to the difficulty of establishing the actual gas flow through the installation caused by the use of a gas meter and stopwatch, while the gas meter is installed after the gas flow control valve in which gas throttling occurs and, as a result, a sharp decrease in temperature and pressure, which distorts the data on the actual gas flow, even using corrective Calculating and leads to inaccurate to the condition of equality of the gas velocity in the installation system and the gas stream, and this in turn reduces the accuracy in determining the content of the disperse phase. In addition, the design of the installation allows you to determine the content of the dispersed phase by the amount of separated moisture only with a large content in the gas stream.

The objective of the invention is to provide an installation that allows with high accuracy and with a small time of sampling gas to determine the content of the dispersed phase in the gas stream, both at high and low values.

The technical problem is solved in that the installation for determining the content of the dispersed phase in the gas stream, including a sampling probe, a separation unit containing a separator equipped with a filter cartridge and a measuring device for the separated liquid from the gas, a unit for maintaining a constant gas flow at a pressure, temperature and speed in a system equal to the pressure, temperature and velocity of the gas stream, including a gas flow control valve, a flow meter and a hydrate inhibitor supply unit, containing an inhibitor with an oror and an inhibitor supply valve to the gas flow control valve, the installation additionally contains a filtration unit mounted parallel to the separation unit between the sampling probe and the flow meter, and including a filter cartridge for trapping the released moisture when a pressure equal to the gas flow pressure is set in the system, then the filter -patron for trapping moisture and mechanical impurities from gas and after it a filter cartridge for correcting measurement results, and a unit for maintaining a constant gas flow in ETS flowmeter comprises a mass flowmeter is placed in front of the gas flow control valve.

The solution to the technical problem allows you to create an installation that provides for a small time sampling gas to obtain high accuracy values of the content of the dispersed phase in the gas stream, both with a large and low content.

Installation for determining the content of the dispersed phase in the gas stream, see Figure 1, includes a sampling probe 1, a separation unit 2, containing a separator 3, equipped with a filter cartridge 4 and a measuring device 5 for the separated liquid from the gas, the unit for maintaining a constant gas flow 6 when pressure, temperature and speed in the installation system, equal to the pressure, temperature and speed of the gas stream, including a gas flow control valve 7, a flow meter 8 and a hydrate inhibitor supply unit 9, containing a container 10 with an inhibitor and a valve 11 under When the inhibitor is connected to the gas flow control valve 7, the installation additionally contains a filtration unit 12 mounted parallel to the separation unit 2 between the sampling probe 1 and the flowmeter 8, and including a filter cartridge 13 to trap the released moisture when a pressure equal to the gas flow pressure is set in the system , then a filter cartridge 14 for trapping moisture and mechanical impurities from gas and after it a filter cartridge 15 for correcting measurement results, and a unit for maintaining a constant gas flow 6 as 8 the flowmeter comprises a mass flowmeter is placed in front of the gas flow control valve 7, wherein the structural elements of the unit are connected via piping systems and valves V1-V13, B1, B2.

Installation for determining the dispersed phase in the gas stream works as follows:

Determine the content of the dispersed phase in the gas stream moving through a pipeline with an inner diameter D and a gas volume flow Q, norms, m ³ / h.

Pre-calculate the required gas flow through the installation to comply with a speed equal to the speed of the gas stream according to the formula:

,

,

where q is the mass flow rate of gas through the installation, kg / h;

ρ _well - gas density under normal conditions, kg / m ³ .

d is the internal diameter of the sampling probe, m;

The mass of filter cartridges 14 and 15 of the filtration unit 12 is also pre-determined.

A sampling probe 1 is hermetically connected to the sampling fitting of pipeline B1 with the possibility of moving it inside the pipeline to select the volume of the gas sample. Valves V1-V13 must be closed.

Next, open the taps V2, V3, V10-V12, B2 and the gas flow control valve 7. Then the pressure is increased in the sampling probe 1 and in the system to the valve V1 by opening the valve B1. The sampling probe is moved to the operating position and briefly open and close the valve V1 to purge the system from possible accumulated moisture and mechanical impurities in the installation system, after which the gas flow control valve 7 is closed.

Then, the valve V1 is smoothly opened and thereby the pressure in the installation system is gained. By smoothly opening the gas flow control valve 7 of the unit for maintaining a constant gas flow 6 at a pressure, temperature and speed in the installation system equal to pressure, temperature and gas flow rate, the required gas flow q is set, controlling it by flow meter 8. A mass flow meter is used as a flow meter 8, installed in front of the gas flow control valve 7, which allows you to control the actual gas flow through the installation without the use of corrective calculations. In this case, a decrease in temperature during throttling of the gas flow through the gas flow control valve 7 does not affect the readings of the mass flow meter 8. If necessary, to prevent ice and hydrate formation at low gas temperatures, the flow rate control valve 11 is used to inhibit the gas flow control valve 7 a hydrate inhibitor from the reservoir 10 of the inhibitor supply unit 9.

After that, a gas sample is passed through the separation unit 2 and the amount of droplet moisture in the gas stream is qualitatively assessed by the presence of moisture in the meter 5. In the case of its high content, in the separator 3 under the action of centrifugal forces, the liquid separates from the gas stream and flows into the meter 5. filter cartridge 4 captures unseparated moisture and possibly mechanical impurities to clean the gas sample in front of the unit to maintain a constant gas flow 6. In case of a low content, all moisture is trapped in filter cartridge 4 and the meter 5 remains empty.

Then, depending on the amount of droplet moisture in the gas stream, the content of the dispersed phase is determined.

In the case of a high content of droplet moisture, close the valve V3 and smoothly open the valve V4 to drain the separated liquid. Crane V4 close. To determine the content of droplet liquid in the gas stream, the valve V3 is opened and the amount of liquid accumulated in the measuring device 5 is determined for a certain period of time. Then close the valve V2, and, after the drain of all the separated liquid into the measuring device 5, close the valve V3. By opening the valve V4, the separated liquid accumulated in the measuring device 5 is drained into the measuring flask.

In the case of a small content of droplet liquid in the gas stream, the valve V1 is closed. Next, they purge the installation system from possible accumulated moisture and mechanical impurities by briefly opening and closing the V9 crane.

To set the pressure in the filtration unit 12 equal to the pressure of the gas stream, the valves V7 and V5 are opened in series. At the time of opening of the valve V5, a part of the gas is throttled through the valve and drip moisture is released, which is caught by the filter cartridge 13.

After a set of pressure, the valve V6 is opened and the filter cartridge 13 is closed by closing the valves V5 and V7.

Studies have shown that gas has humidity, i.e. contains non-droplet moisture, which is absorbed by the filter cartridge 14 together with the droplet moisture. For accuracy in determining the content of the dispersed phase, it is necessary to use a measurement correction by a value depending on the gas humidity. In this case, the gas sample is sent to the filter cartridge 14, and from the filter cartridge 14 is sent to the filter cartridge 15, which absorbs non-drip moisture together with the filter cartridge 14 for a certain period of time with a constant flow of gas through the installation. To do this, with a pre-set required gas flow through the installation, open the valve V8, and after a certain period of time close the valve V6.

When atmospheric pressure is established in the installation, which is controlled by a pressure gauge installed in the unit for maintaining a constant gas flow 6, the filter cartridges 14 and 15 are removed and their weight gain is determined. The value of the content of the dispersed phase in the gas stream is determined as the difference in the gain of the filter cartridge 14 and the gain of the filter cartridge 15.

The sampling time is 3 ÷ 40 minutes.

The inventive installation provides for a short time of gas sampling (3 ÷ 10 minutes) to obtain high accuracy values of the content of the dispersed phase, both with a large and low content in the gas stream, which is confirmed by industrial tests in pipelines with diameters from 50 mm to 700 mm at an overpressure of 0.1 to 13 MPa and a temperature of (-35 ° C) to (+ 60 ° C).

Claims (1)

Installation for determining the content of the dispersed phase in the gas stream, including a sampling probe, a separation unit containing a separator equipped with a filter cartridge and a measuring device for the separated liquid from the gas, a unit for maintaining a constant gas flow at a pressure, temperature and speed in the installation system equal to the pressure, temperature and gas flow rate, including a gas flow control valve, a flow meter and a hydrate inhibitor supply unit, comprising a container with an inhibitor and an inhibitor supply valve to the cells a gas flow control panel, characterized in that the installation further comprises a filtration unit mounted parallel to the separation unit between the sampling probe and the flowmeter, and including a filter cartridge for trapping the released moisture when a pressure device equal to the gas flow pressure is set in the system, then a filter cartridge for trapping moisture and mechanical impurities from gas and after it, a filter cartridge for correcting measurement results, and a unit for maintaining a constant gas flow as a flow Era contains a mass flow meter installed in front of the gas flow control valve.