PL164995B1 - Gravimeter for determining dust content in air - Google Patents

Abstract

Gravimetric dust meter consisting of a probe for collecting and separating dust samples from the gas stream sucked in from the flow channel and equipped with a three-way valve, flow meter, measuring transducers, regulation elements and an electronic control and data processing system with a keyboard and digital display, characterized by that at the aspiration tip (1) in a plane perpendicular to the probe (3) and passing through the axis of symmetry of this tip (1), there are two cylindrical sensors (16 and 17) with piezometric openings for receiving the total and static pressure of the gas flowing in the channel while the three-way valve (8) is placed between the flow meter (6) and the suction pump (7), so that it alternately connects the pump (7) with the flow meter (6) and the regulating valve (9) or connects the pump (7) with the atmospheric air .

Description

The subject of the invention is a gravimetric dust meter, designed to measure the dustiness and the distribution of the dust-laden gas flow velocity, especially in closed-section channels.

Polish patent description No. 151 554 describes a semi-automatic gravimetric dust meter which has an aspiration probe for collecting and separating dust samples from a dust-laden gas stream from the flow channel. The known dust meter is equipped with a system for measuring the gas flow taken to the probe and measuring temperature and pressure. The dust meter has a separate damming tube to measure the dynamic pressure of the gas flowing at selected points in the channel and the electronic control and data processing system that records the measurement results needed to calculate the dust, and the optical bar indicator informs the operator whether the suction with a vacuum pump should be increased or decreased, that the isokinetic condition of sampling into the aspiration probe is maintained.

The disadvantage of the known dust meter is the need to use a three-way valve equipped with a mechanical valve opening sensor, which starts and stops the measurement cycle, which does not protect the electronic system against collecting false measurement data in the event of a malfunction in the measuring circuit of the gas flow meter sucked into the probe, which is equipped with the dust meter . (An additional disadvantage of the known dust meter is the lack of protection of this flow meter against the inflow of false air from the environment, which, in the event of leakages not recognized by the service, causes inaccuracy of gas dust measurement. Another disadvantage of the dust meter is the inability to correct measurement results based on individual measuring characteristics of the sensors and converters used, making up the measuring system of the device and the correction of indications from the ambient temperature, which varies greatly in the operation of the device, which increases the inaccuracy of dust and gas velocity measurements.

There is also an automatic gravimetric dust meter from the E.Sick brochure - GRAVIMAT SC / HC-2 Automatic Calibration System for Gravimetric Particle Concentration Measurement. The dust meter does not have an optical bar indicator, and the electronic control and data processing system is supported by an external, typical portable microcomputer, without which the dust meter does not function.

The disadvantage of this dust meter is the need to use an external microcomputer, which makes operation difficult and prevents measurements on objects exposed to atmospheric conditions and dust.

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The disadvantage of known gravimetric dust meters is also the use of two independent probes, namely an aspiration probe for sampling the dusty gas and a damming tube for measuring dynamic pressure, which makes it difficult to operate and accurately determine the flow velocity at a given measuring point. An additional disadvantage of the known gravimetric dust meters is the lack of acoustic signaling informing the staff about the existence of a sub-isokinetic or hyper-isokinetic state of sampling the dusty gas to the aspiration probe, which requires continuous visual inspection of the device by the operator and thus hinders the accurate measurement of dust or gas velocity distribution in the duct.

The invention relates to a gravimetric dust meter consisting of a probe for collecting and separating dust samples from the gas stream sucked from the flow channel. The dust meter is equipped with a three-way valve, flow meter, measuring transducers, regulating elements and an electronic control and data processing system with a keyboard and a digital display.

The essence of the dust meter according to the invention consists in the fact that at the aspiration tip in a plane perpendicular to the probe and passing through the axis of symmetry of this tip, there are two cylindrical sensors with piezometric openings for receiving the total and static pressure of the gas flowing in the channel. A three-way valve is positioned between the flow meter and the suction pump alternately connecting the pump with the flow meter and the regulating valve or connecting the pump with atmospheric air. It is advantageous to equip the electronic control system with two additional outputs, one of which directly controls the servo of the three-way valve. The second auxiliary output spheres through the control valve servo.

The advantage of the dust meter according to the invention is the possibility of obtaining gas suction from the duct without inflow of false air through the leakage of the three-way valve located in the duct upstream of the flow meter. As a result, the certainty of obtaining a representative sample of the sucked gas is increased without the need to check the dust meter tightness each time, and at the same time the supply of air from the atmosphere is provided to regulate the capacity and cooling the suction pump.

An advantage of the dust meter according to the invention is also that the electronic control and data processing system, before the measurement, in which the pollinated gas is aspirated, on the basis of the results of the preliminary measurement of the gas flow velocity distribution in the duct, calculates and reports the optimal diameter of the aspiration tip. An advantage of the dust meter according to the invention is also starting and stopping the measurement cycle when the flow of the suction gas reaches the preset minimum limit level, which protects the dust meter against erroneous measurement of the measurement cycle time. The advantage of the dust meter according to the invention is also the direct control by the microcomputer system of the servos of the three-way valve and the control valve according to an appropriately selected control characteristic without the need to use a separate controller.

The advantage of the dust meter according to the invention is also an acoustic signaling device, which informs the operator with an appropriately modulated sound signal about the correct or incorrect suction of gas to the flow meter, which facilitates the measurements. The advantage of the dust meter according to the invention is also the placement of sensors for receiving static and total pressures in a plane perpendicular to the probe shaft and passing through the axis of symmetry of the aspiration tip, which allows the use of longer measuring nozzles than with other sensor location geometries.

The main technical advantage resulting from the use of the dust meter according to the invention is its easy operation when performing measurements with the required accuracy in various industrial conditions, obtained thanks to the use of an aspiration probe with total and static pressure measurement connected with an electronic system that automatically controls the measurement without the need to check the correctness of the gas suction process to the probe by external means.

The subject matter of the invention is explained in the embodiment in the drawing, in which Fig. 1 shows a block diagram of the dust meter during the measurement, Fig. 2 - a frontal view of the dust meter probe, and Fig. 3 - a diagram of the three-way valve in the state before and after the measurement.

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The gravimetric dust meter is equipped with a replaceable aspiration tip 1 for sampling the dust-laden gas from the duct. 2, attached to the probe 3 which is connected to a dust filter 4 and to a moisture separator 5. The outlet of the separator 5 is connected to a flow meter 6 for measuring the suction gas flow. Between the flow meter 6 and the suction pump 7 there is a three-way valve 8, which alternately connects the flow meter 6 and the control valve 9 with the pump 7. Or at the same time the control valve 9 and the atmospheric air with the pump 7. The servo 10 controlled by the system serves to change the position of the three-way valve 8. electronic 11 for data control and processing, which has outputs controlling the second servo 12 of the control valve 9, a printer 13 for recording the measurement results and an acoustic signaling device 14 signaling the elapsed measurement time and the correct or incorrect gas suction to the dust meter. To the microcomputer system 11 there are impulse lines for measuring signals from the flow meter æ, manometer 15, total pressure sensor 16 and static pressure sensor 17, and lines for two thermometers 18 and 19.

The gravimetric dust meter is equipped with a sensor 16 with piezometric holes for receiving the total pressure and a sensor 17 with holes for receiving the static pressure of the gas flowing through the duct 2. The sensors 16 and 17 are located in a plane perpendicular to the probe 3 and passing through the axis of symmetry of the aspiration tip 1.

The dust meter of the invention operates as follows. Before starting the actual measurement, the keypad is used to enter into the memory of the microcomputer control and data processing system 11 values characteristic for a given measurement, which mainly include barometric pressure, gas constant for dry gas, channel cross-sectional area, identification number of the filter used for measurement, estimated time of measurement and the number of records required to be stored in the dust measurement. Then, based on the measurements of the total and static pressure differences between the gas in the duct, the electronic system 11 selects an aspiration tip with a known diameter 1, optimal for the measurement, which is placed on the probe 3. After switching on the pump 7, atmospheric air is sucked through the three-way valve 8. At the moment of starting the measurement the electronic system 11 controls via the auxiliary output 20 the servo 10 which opens the three-way valve 8 for the flow of gas from the conduit 2 via the end 1, the probe 3, the filter 4, the separator 5 and the flow meter 6 to the pump 7. The flow of the gas flow through the flow meter 6 gives a measuring signal electrical system, which is sent to the electronic system 11. After exceeding a certain minimum limit value of the suction gas flow, the measurement signal received by the electronic system 11 from the dust meter 6 causes the start and measurement of the measurement time.

During the measurement, the dust meter carries out a predetermined number of records in the memory of the microcomputer system 11 of the measured values of the total and static pressure difference, the gas temperature in the duct, the volume flow of the gas sucked in, its temperature and pressure. These measurements are processed in the electronic system 11, which sends to the additional output 21 a signal controlling the servo 12, which determines the position of the control valve 9 corresponding to the correct suction of gas to the probe 3. It is also possible to manually determine the position of the control valve 9 based on the value of the speed ratio of the suction gas to the aspiration tip 1 to the local gas velocity in the channel 2, indicated in the reading field of the electronic system 11, as well as on the basis of the sounds received by the acoustic signaling device 14. The values of all measurement quantities are available for checking during the measurement in the display field of the electronic system 11 .

The passage of the preset measurement time is signaled acoustically and visually. Switching the three-way valve 8 to the position as in Fig. 1 ends the measurement. After weighing the dust mass collected in the filter 4 and weighing the mass of water collected in the moisture separator 5, these mass values are entered into the memory of the electronic system 11, in which the final results of measuring gas dust, gas humidity, gas volume stream and dust stream in duct 2 are calculated. These results are available in the form of a report printout on the connected printer 13 or displayed in the display field of the electronics 11.

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Publishing Department of the UP RP. Circulation of 90 copies. Price: PLN 10,000

Claims (2)

Patent claims 1. Gravimetric dust meter, consisting of a probe for collecting and separating dust samples from the gas stream sucked in from the flow channel and equipped with a three-way valve, flow meter, measuring transducers, regulation elements and an electronic control and data processing system with a keyboard and a digital display, characterized by by the fact that at the aspiration tip (1) in a plane perpendicular to the probe (3) and passing through the axis of symmetry of this tip (1), there are two cylindrical sensors (16 and 17) with pressure openings for receiving the total and static pressure of the gas flowing in duct, while the three-way valve (8) is placed between the flow meter (6) and the suction pump (7) so that it alternately connects the pump (7) with the flow meter (6) and the regulating valve (9) or connects the pump (7) with the air atmospheric. 2. The dust meter according to claim The three-way valve (8) and the regulating valve (9) as direct actuating devices having properly positioned servos (10 and 12). * * *