RU125692U1 - DEVICE FOR DETERMINING SURFACE SIZES - Google Patents

Abstract

1. A device for determining the value of deposits, containing a measuring channel for supplying the test medium, a removable element for assessing the amount of deposits, differential pressure and temperature measuring devices, valves, valves for regulating the flow of the test medium, characterized in that the removable element is made in in the form of a cassette of parallel fastened tubes placed in the measuring channel for supplying the test medium, which is a working pipeline or other equipment, for example p separator or pipeline section, mounted in the working truboprovod.2. A device for determining the amount of deposits on the surface according to claim 1, characterized in that it is equipped with a node for dispensing reagents, the output of which is installed in front of the cartridge from the supply side of the test medium.

Description

The utility model relates to a testing technique designed to assess the possibility of deposition of substances, in particular resinous, hydrated deposits, from a gas-liquid stream, for example, in the processing of oil and gas in heat exchanger tubes of heat exchangers or in bulk equipment, when a decrease in flow rate occurs with a simultaneous increase in area surface in contact with the working environment in enterprises of gas, oil, chemical and other industries.

A device for determining the value of deposits on the inner surface of pipelines, described in the patent of the Russian Federation for invention No. 2439491, IPC G01B 21/02, publ. 01/10/2012.

The known device has a section of the test pipeline, on which is installed a means of measuring the amount of deposits, consisting of an annular heating element, and a temperature sensor located at a certain distance from it. The device comprises a current radio pulse generator, an inductive coil-inductor, an amplifier, an amplitude-to-digital converter, a computing device, indicators of the thickness of deposits and thermal conductivity.

The amount of deposits is estimated depending on changes in the surface temperature of the pipeline.

Common features of this and the proposed installations are:

- section of the test pipeline;

- temperature sensor;

- a device for estimating the amount of deposits.

The disadvantage of the described installation is that it can be installed only on linear prepared sections of the pipeline and does not allow to adequately estimate the amount of deposits on complex sections of pipelines (for example, branches, collectors, etc.). In addition, this installation does not allow to simulate the conditions under which there is a change in the parameters of the medium transported through the pipeline, for example, a change in speed, the area of the working surface of the pipeline in contact with the medium.

The closest in technical essence and the achieved result is a device for monitoring resinous substances described in the patent of the Russian Federation for invention No. 2426947, IPC F23N 5/24, publ. 08/20/2011. The device includes a measuring channel, diverted from the main pipeline of the test gas, containing appropriate shutoff valves, a flow control device installed on the specified measuring channel to control the flow of test gas, means for measuring the degree of deposition of resinous components (such as a differential pressure gauge), as well as a simulating channel having the shape is essentially similar to the shape of the smallest section of the main test gas pipeline section. The measuring device is equipped with a differential pressure measuring device for measuring the differential pressure between the input side and the output side of the specified element of the simulating channel when passing the test gas through the simulating channel, as well as a temperature sensor. Moreover, the simulating channel can be made in a removable version (for testing by the gravimetric method), and can also be made of a material that can transmit light (for visual and photometric estimates of the amount of tar deposits).

Common features of this and the proposed installations are:

- measuring channel for supplying the test medium;

- a removable element designed to estimate the amount of deposits by weight and / or visual method;

- differential pressure measuring device;

- shutoff valves;

- thermometer;

- a device for regulating the flow of the test medium.

The disadvantages of the described installation is that it does not allow to assess the change in the amount of tarry deposits with a significant decrease in the flow rate while increasing the surface area in contact with the gas, as well as in the case of dosing additional reagents (for example, corrosion inhibitors, paraffin deposition, hydrate formation, etc. .), which reduces the reliability of the data. The described installation is designed to work only with gaseous media, which narrows the range of use of the known device.

The technical result is to increase the reliability of the data obtained to determine the possibility of deposits on the walls of equipment and pipelines while expanding the range of use of the device, by increasing the area of the working surface in contact with various test media, and reducing the flow rate.

This result is achieved by the fact that in the known device for determining the amount of deposits on the surface, containing a measuring channel for supplying the test medium, a removable element for estimating the amount of deposits, pressure differential pressure, temperature measuring devices, valves, valves for regulating the flow of the test medium, new is that the removable element is made in the form of a cartridge of parallel, firmly fastened tubes placed in the measuring channel for supplying the test medium, containing a working pipeline or other equipment, for example, a separator, or a section of a pipeline mounted in a working pipeline.

In addition, the device is equipped with a unit for dispensing reagents, the output of which is installed in front of the cartridge from the supply side of the test medium.

This result is achieved by the fact that the claimed combination of features makes it possible to evaluate, under given conditions, the possibility of deposits when dosing various reagents into the gas-liquid flow (for example, corrosion inhibitors, paraffin deposition, hydrate formation). Due to the implementation of a removable element in the form of a cassette of parallel, firmly fastened tubes placed in the measuring channel for supplying the test medium, the real gas-liquid flow falling into the cassette is reduced, and the test flow is contacted with the inner and outer surfaces of each tube, t .e. contact is provided over a large surface area. In addition, this device can be used either directly in the working pipeline or in other equipment, for example in a separator, or in a section mounted in the pipeline. In this case, the test medium may be a gas or liquid, or a gas-liquid stream. Thus, if there are particles in the gas-liquid flow that can cause deposits, this device provides conditions that affect the size of deposits on the surface, as a result, increase the reliability of the data obtained while expanding the range of use of the device.

Equipping the device with a dosing unit allows introducing various reagents into the working medium (corrosion inhibitors, hydrate formation, paraffin deposits, etc.) and evaluate their effect on the ability of working media to deposit in predetermined conditions.

The figure 1 presents a diagram of a device for determining the size of deposits on the surface, type A cassettes.

The figure 2 shows a section of the pipeline with the extension on which the test cassette is installed.

The figure 3 shows the installation diagram of the test cassette of parallel, tightly fastened tubes in the working pipeline by means of the probe through the stuffing box.

A device for determining the amount of deposits on the surface contains a measuring channel for supplying the test medium in the form of a portion of the working pipeline 1, equipped with a removable element designed to estimate the amount of deposits by weight and / or visual method, made in the form of a cartridge 2 (the cross section of which is shown in figure 1 , view A) from parallel tightly bound tubes, while the tubes can be made of at least a circular cross section, but can be made with a cross section in the form of a square, polygon and other shapes s.

The device is equipped with shutoff valves: valves 3 and 4, a flow regulator 5 of the working medium, to maintain the speed and pressure of the working medium in the area of the working pipeline 1.

The device may have a unit for dispensing reagents 6 (corrosion inhibitors, paraffin deposition, hydrate formation, etc.) into the working medium, the outlet of which is installed in front of the cartridge 2 from the supply side of the test medium. The device is equipped with devices for measuring temperature 7 and measuring differential pressure - differential gauge 8.

The removable test cassette 2 can be made in several versions:

Cassette 2 can be placed in the section of the working pipeline 1 using a detachable connection in the pipeline — flange or threaded (see figure 1), while the diameter of the cartridge 2 can be equal to the diameter of the section of the working pipeline 1, or may be larger than the diameter of the section of the working pipeline 1, for cases where a substantial decrease in flow rate is necessary, then at the installation location of the cartridge 2 a special extension 9 is provided (see FIG. 2). In this case, the cartridge 2 is located coaxially to the section of the working pipeline 1, i.e. installed on one line.

The location of the cartridge 2 coaxially to the section of the working pipeline provides free passage of the working medium through the cartridge, facilitates the determination of deposits by visual method, and also simplifies the cleaning of the cartridge after exposure in the pipeline.

Cassette 2 can be installed in the pipeline using a probe 10 through the stuffing box 11, while the axis of the cassette 2 is parallel to the axis of the section of the working pipeline 1 (see figure 3), which ensures free passage of the working medium through the cartridge, without distorting the direction of flow .

A device for determining the amount of deposits on the surface works as follows - the working medium transported through the section of the working pipeline 1 passes through valve 3 and a flow regulator 5, with which the flow rate and pressure of the working medium are regulated, the temperature of the working medium is controlled using a temperature measuring device Using the node for dispensing reagents 6, the test reagent is fed into the working medium, the resulting mixture enters the section of the working pipeline 1, on which 8 meter and the removable cassette 2, which is conducted estimate of deposits. The determination of the amount of deposits is carried out immediately in several parallel ways:

- using a differential pressure gauge 8, the differential pressure is estimated on the portion of the working pipeline 1 on which the test cassette 2 is installed, respectively, the greater the differential pressure relative to the initial indicators, the greater the number of deposits;

- gravimetrically, by changing the mass of the cartridge 2 before its exposure on the site of the working pipeline 1 and after;

- visually, it is evaluated after removing the cartridge 2 from the site of the working pipeline 1.

Claims (2)

1. A device for determining the value of deposits, containing a measuring channel for supplying the test medium, a removable element for assessing the amount of deposits, differential pressure and temperature measuring devices, valves, valves for regulating the flow of the test medium, characterized in that the removable element is made in in the form of a cassette of parallel fastened tubes placed in the measuring channel for supplying the test medium, which is a working pipeline or other equipment, for example p separator or pipe portion mounted in the process line. 2. A device for determining the amount of deposits on the surface according to claim 1, characterized in that it is equipped with a unit for dispensing reagents, the output of which is installed in front of the cartridge from the supply side of the test medium.

Images