RU2017068C1 - Gas flowmeter - Google Patents

Abstract

FIELD: measurement of gas flow rate. SUBSTANCE: flowmeter has a pure air manifold. The inlet port communicates with taps, and the outlet port communicates with a pipeline. An orifice is installed in one of the taps. The taps are connected to a pressure-differential transducer through pulse tubes. EFFECT: location of the pure air manifold between the taps and pipeline allows the taps to be connected to a single point of the pipeline, which prevents formation of a reservoir in the pipeline, and as a result, prevents any influence of variation of the contents of conveyed material in the air mixture on measurement of gas flow rate. 1 dwg

Description

 The invention relates to measuring technique and can be used, for example, for measuring gas flow during pneumatic beneficiation of asbestos ore.

 A known gas flow meter containing two branches with different aerodynamic characteristics, connected by impulse tubes to a differential pressure transducer. In this case, the bends are installed on the studied section of the pipeline at its beginning and end and contain adjusting screws to obtain different aerodynamic characteristics.

 The disadvantage of this gas flow meter is the large error in measuring the gas flow with changes in the concentration of the transported gas mixture (mixture of material and gas particles), since an increase or decrease in the content of material particles in the studied section of the pipeline, which is a container that is open from the inlet and outlet, affects the differential pressure between the taps, and, accordingly, the value of the measured gas flow.

 The aim of the invention is to improve the accuracy of measuring gas flow.

 The goal is achieved in that the gas flow meter contains a clean air manifold located between the pipeline and the bends, while its inlet is communicated with bends, and the outlet with the pipeline.

 The technical nature and principle of operation of the gas flow meter are illustrated in the drawing.

 The flow meter contains a clean air collector 1, in which the inlet 2 is connected with taps 3 and 4, and the outlet 5 of the collector 1 is connected with a pipe 6. In order to provide different aerodynamic characteristics of the taps 3 and 4 at the inlet of one of them, for example, in tapping 4, Diagram 7 is established, which increases the aerodynamic resistance to the flow of atmospheric air into it compared to the outlet 3. In this case, the rarefaction of the air in the outlet 4 for any gas rarefaction in the pipeline is always greater than the vacuum 3. challenge in bends 3 and 4 are connected impulsive pipes 8 and 9 to the differential pressure transducer 10 (e.g., monometrichesky converter).

 The flow meter operates as follows. When the gas mixture moves in the pipeline 6, a rarefaction of gas is created, which, in turn, through the outlet 5 creates a vacuum in the manifold 1 of clean air. Under the action of the vacuum created in the clean air collector 1, atmospheric air in the form of two air flows is sucked into the outlets 3 and 4 and then through the hole 2 enters the clean air collector 1. In the collector 1, the air flows are mixed, and then the mixed air stream leaves the collector 1 through the outlet 5 and enters the pipeline 6. Due to the placement of the clean air collector 1 between the outlets 3, 4 and the pipeline 6, the outlets 3, 4 are connected to one point of the pipeline 6, which eliminates the formation of capacity in the pipeline 6, as a result of which the influence of changes in the content of the transported material in the gas mixture flow on the measurement of the current gas flow is excluded. Due to the installation of the diaphragm 7 in the outlet 4, the ratio of the amount of rarefaction of air in the branches 3 and 4 is inversely proportional to the ratio of the amount of air flowing through them, while the rarefaction of the air in the outlet 4 is greater than in the outlet 3, and the amount of air flowing through the outlet 4 is less than in branch 3. The vacuum in the branches 3 and 4 is transmitted via pulse tubes 8 and 9 to the differential pressure transducer 10, which records the current gas flow rate.

 In the absence of material in the pipeline 6, its aerodynamic resistance decreases, while the gas flow rate and the amount of rarefaction of the air in branches 3 and 4 increase, and in branch 4, due to the installation of a diaphragm 7, the rarefaction of air increases by a larger amount than in branch 3. A signal about an increase in the difference in rarefaction (differential pressure) in branches 3 and 4 via impulse tubes 8 and 9 is transmitted to the differential pressure transducer 10, the arrow of which deviates to the larger side and fixes the value of the current gas flow, t i.e., an increase in gas flow in the pipeline 6.

 In the case of an increase in the amount of material in the pipeline 6, its aerodynamic resistance increases, while the gas flow rate and the amount of rarefaction of the gas are reduced. The signal about the reduction of the difference in rarefaction (differential pressure) in the bends 3 and 4 will deflect the arrow of the differential pressure transducer 10 in a smaller direction, which will record a decrease in gas flow in the pipeline 6.

 Thus, the new set of features provides an increase in the accuracy of determining the gas flow rate due to the connection of two outlets through the clean air collector to one point of the pipeline, which eliminates the effect of changes in the concentration of the transported material in the gas mixture flow.

Claims (1)

 A GAS FLOW METER containing two branches with different aerodynamic characteristics, connected by impulse tubes to a differential pressure transducer, characterized in that, in order to increase the accuracy of measurements, it contains a clean air manifold located between the pipeline and the branches, while its inlet is in communication with the branches , and the output - with the pipeline.

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