RU2422804C2 - Device for evaluation of amount of liquid in gas sample - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: device for evaluation of amount of fluid in gas sample consists of sampling probe - tube with its one end introduced into pipeline through packing arrangement, of connecting sleeves of high pressure, of taps and control valve, of gas flow metre, and of filter for separation of drops of liquid from sample of gas. The filter consists of a horizontal cylinder case with a quick-detachable cover of connecting pipe of gas inlet and outlet. The connecting pipe of gas inlet is positioned on an end of the case along its axis. The filter is equipped with a cam mechanism installed in the case. Also, the device has hooks, rockers, strain sensors and a secondary converter connected with wires to the strain sensors. The converter is installed outside the case.

EFFECT: increased reliability of determination of liquid content in gas flow for evaluation of amount of liquid phase entrained with gas.

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Description

The invention relates to devices for studying a gas stream and can be used to determine the mass or volume content of suspended liquid in it.

A device for researching a gas-liquid flow in an existing pipeline is known, comprising a housing located on a shut-off valve mounted on a pipe outlet and axially displaced from the housing by a rod with a holder of instrumentation associated with the actuator and a sampling unit including a gas-liquid separator and a flexible a sampling tube coaxially placed in a guide curved in the form of a loop, one end of which is connected through a valve to a gas-liquid separator, and the other, to the body cavity through a lateral hole made in the latter, the rod being made in the form of a column of rods with radial holes in the upper part of the rod for alternately placing in one of them and in the radial hole made at the upper end of the body, a latch, the lower end of the sampling the tube through the seal in the guide is passed through a side hole in the housing and is fixed to the lower end of the rod string by means of a holder, and the upper end is freely mounted with the possibility of axial movement in the direction detergent (RF patent No. 02118747) (1).

A disadvantage of the known device is the low reliability of the results of determining the specific liquid content in the gas stream, since in order to determine the mass of liquid trapped from the gas stream, it is necessary to remove the filter element, which is an integral part of the device structure, from the housing and weigh it on the balance. At the same time, due to a decrease in pressure and contact with the atmosphere, part of the trapped liquid evaporates.

The closest in technical essence and the achieved result is a PCM 122 sampler (2).

A disadvantage of the known device is the low reliability of the results of determining the specific liquid content in the gas stream, since at a low concentration of liquid in the gas stream (up to 20 mg / m ³ ) it is determined by weighing the filter element on an analytical balance before and after the experiment. Evaporation of even a small part of the liquid captured by the filter element will lead to a significant measurement error.

The objective of the present invention is to increase the reliability of determining the amount of liquid in a gas sample in order to assess the amount of liquid phase carried away with the gas, and to evaluate the efficiency of gas separators, filters, coalescer filters and other equipment intended for gas purification.

A device is proposed for determining the amount of liquid in a gas sample, which differs from analogues in that the filter device allows for periodic weighing of the filter element without removing it from the housing. Weighing is carried out at operating pressure using strain gauges placed in the filter housing. The filter device allows you to release the filter element for weighing. To achieve the tightness of the connection, the inlet fitting is a filter element, the latter is pressed against it using a cam mechanism.

The connection diagram of the elements of the device for determining the amount of liquid in the gas sample is shown in Fig.1.

A gas sample taken by means of a sampling probe 1 having a stuffing box 2 installed on the tap 3 of the pipe 4 outlet, enters through the tap 5 through the flexible hose 6 to the filter 7. Liquid drops are collected from the gas sample in the filter, then the gas flows sequentially through the flow meter 8, the control valve 9 and is discharged into the atmosphere through a candle or into a low pressure gas pipeline. The filter, flowmeter, valve and candle are connected by flexible sleeves 10, 11, 12. A secondary converter 13 is connected to the sensors located in the filter 7.

The proposed device contains a filter (item 7 in FIG. 1), including a cylindrical body 14 with a cover 15, equipped with a quick connection 16, fittings for the inlet 17 and gas outlet 18 mounted on the end wall of the housing, equipped with threaded connections for connecting flexible high-pressure hoses 6 and 10, a cone 19 located on the inner side of the wall of the housing 14 coaxially to the fitting 17, a filter element 20, consisting of a cylindrical shell and two removable flat bottoms, a replaceable filter cartridge 21, pressed by a spring 22 to the cone 23.

The filter element 20 in its upper part is equipped with two loops on which through hooks 24 it is suspended to the rocker arms 25, which are fixed on the axis with one side and rest on the load cells 26. The wires from the load cells 26 are led to the block 27. On the outer surface of the filter housing 14 there is a similar block for connecting the secondary transducer 13 to the load cells 26. The conductors between the inner 27 and the outer blocks are passed through an opening in the wall of the filter housing 14, the hole is filled with a sealing compound. Pressing and releasing, raising and lowering the filter element during weighing are carried out using the cam mechanism. The cams 28 are seated on a shaft 29 sealed with an oil seal 30. The shaft is rotated using the handle 31. The middle cam is used to push the detachable pin 32, the other two are used to push the horizontal rods 33. The rods 33 smoothly raise and lower the filter element 20 when weighing . On the rods are installed inclined plates, which during translational motion raise the vertical rods 34 and the filter element 20 resting on them. The return movement of the rods 33 and the pin 32 is effected by springs. To control the horizontal position of the filter, a bubble level 35 is attached on top of it. To measure the temperature of the gas sample, a thermowell 36 is provided in which both a mercury and an electronic thermometer can be installed. To prevent changes in the temperature of the gas coming from the pipeline, thermal insulation of the filter housing and high-pressure hoses is provided (not shown in Figs. 1-3). An additional factor in ensuring the isothermality of the gas sample during its passage through the filter is the path of gas movement (shown in Fig. 2 by arrows) in the space between the walls of the filter and the filter element housing after trapping the liquid from it. Gas passing in the annular space around the filter element acts as an additional heat insulator.

Work on determining the amount of liquid in the sample gas is carried out in the following sequence:

A sampling probe 1, equipped with a stopcock 5, is inserted into the pipeline 4 with the gas flow through the lateral fitting with a valve 3 installed on it through an stuffing box 2. The filter 7 is installed horizontally (control by bubble level 35) and attached to a fixed support. The filter element 20 is installed in the housing 14, the detachable pin 32 is screwed in. Rotating the knob 31 270 degrees counterclockwise, the filter element is installed into the working position by means of the cam mechanism 28 (shown by dash-dotted lines in Fig. 2: it is aligned with the input fitting and pressed with a pin 32 through the plate 37 to the sealing cone 19). Install the cover 15 with a quick coupling 16. Flexible sleeves 6, 10, 11, 12 connect the elements of the device according to Figure 1.

Using a probe 1, a gas sample is taken from pipeline 4 and a gas sample is passed through filter 7, while the condition of flow isokinetics (equality of the linear gas velocity in pipeline 4 and probe tube 1) must be met - the speed is controlled by valve 9. Periodically, filter element 20 is weighed, for this close the valve 5 and the control valve 9, rotate the knob 31 270 degrees clockwise, the filter element is released from being pressed by the pin 32 and from the support on the vertical rods 34 (while the filter element remains suspended on the hooks 24 and, due to their shape, slides in the direction of the cover 15, this ensures that the filter element does not touch the cone 19. Rotating the knob 31 180 degrees counterclockwise and vice versa (only vertical rods 34 move, pin 32 is stationary), load cells 26 are loaded several times the weight of the filter element and using the secondary Converter 13 connected to the load cells 26, determine the mass of the filter element 20 with the trapped liquid. The position of the filter element in the weighing process is shown by the main lines in figure 2.

The mass of the filter element, the mass gain after passing through the filter a gas sample, the volume of the gas sample, technological parameters (temperature, pressure, gas flow, and others) are recorded in the experiment log. The specific liquid content in the gas sample is calculated, which is equal to the ratio of the increase in the mass of the filter element to the volume corresponding to this increase in the gas sample passed through the filter 7, measured by the flow meter 8.

The inventive device in comparison with the prototype allows you to determine the mass gain trapped in the filter element of the liquid at a working gas pressure. In this case, errors due to evaporation of the liquid with a decrease in pressure from the working to atmospheric are eliminated. In addition, the proposed device can significantly reduce the time of one determination. This makes it possible to carry out a series of determinations during one experiment, which also increases the reliability of the measurement data.

Information sources

1. Patent No. 02118747 "Device for the study of gas-liquid flow in an existing pipeline."

2. Sampling device PCM 122 LLC VNIIgaz.

3. Liquid ablation meter ГПР 420 DOAO ЦКБН.

Claims (1)

A device for determining the amount of liquid in a gas sample, including a sampling probe tube, introduced at one end through an stuffing box into a pipeline with a gas flow to be studied; connecting hoses of a high pressure; taps and control valve; gas flow meter; a filter for separating liquid droplets from a gas sample, comprising a horizontal cylindrical body with a quick-detachable cover, a gas inlet and outlet fitting, the gas inlet fitting being located at its end along the axis thereof, characterized in that the filter comprises a cam mechanism mounted in the housing, allowing vertical movements of the filter element inside the filter housing at a working gas pressure and fixing the filter element relative to the inlet pipe when passing through the filter a gas sample; hooks, rockers and strain gauges located in the upper part of the housing, designed to weigh the filter element; a secondary converter, connected by wires to the load cells, located outside the housing.

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