SU1627957A1 - Conductometric concentration meter transducer - Google Patents

Abstract

The invention relates to devices for measuring the concentration of liquid electrolytes in vapor-gas unexpected flows. The goal is to simultaneously increase the accuracy and op-erativity of measurements. The sensor of the conductometric concentration meter contains a process (II) and measuring (IT) pipe of the breed, interconnected according to the scheme of ejection flow. An inductive sensor is installed on the IT, the CT is equipped with a separation chamber and an ejector installed inside the inlet and outlet nozzles of the TT, respectively. The measured flow is separated from vapor-gas inclusions in the separation chamber, which prevents the gas phase from entering the IT sensor. 3 il.

Description

AND

The invention relates to a measurement technique, in particular, devices for measuring the concentration of liquid electrolytes in a gas-liquid stream, and can be used, for example, when measuring the concentration of sulfuric acid in a cooking stream during wood hydrolysis.

The aim of the invention is to simultaneously improve the accuracy and efficiency of measuring the concentrations of substances in a vapor-gas-liquid stream.

Figure 1 shows a sensor of a conductometric concentratometer, a section; figure 2 is a view of And figure 1; on fig.Z - section aa in figure 1.

The sensor includes a process piping 1 with a separator 2 integrated in the upper part, located on the outlet pipe 3 of the pipeline 1. The separator is made in the form of a cylindrical chamber with a diameter greater than the diameter of the process pipeline. The inlet 4 of the wire 1 is equipped with an ejector 5. Yes.chik has a measuring pipe 6 containing the inlet 7 and output 8 of the nozzle. The measuring pipe 6 is equipped with an inductive sensor 9 mounted on it, which includes a power 10 and measuring 11 transformers. The outlet 8 of the measuring pipe 6 is in communication with the nozzle of the ejector 5, and the inlet 7 is tangentially connected to the outer part of the separator.

To communicate the flow of liquid through the measuring pipe 6 of the upper part of the technological pipe 1, openings 12 are made. The internal cross section of the technological pipe 1 is larger than the internal cross section of the measuring pipe 6 times 100 times or more.

The sensor works as follows.

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When a vapor-gas-liquid flow in the ejector nozzle 5 is supplied to the process pipe 1, a vacuum develops at the cut of the outlet pipe 8 of the measuring pipe 6, which leads to liquid movement through the measuring channel of the pipe 6. At the same time, the liquid separated by separator 2 rotation caused by the tangential selection of electrolytic fluid enters the measuring conduit 6 and forms an ion coil passing through the measuring conduit 6 into the separation The ion chamber 2 and the process piping 1. The ion coil is a common coil of communication for both transformers 10 and 11 of the inductive sensor 9 located on the measuring piping 6. A signal proportional to the concentration of the substance dissolved in the liquid appears in the measuring transformer 11 ( not specified).

The speed of movement of the separated liquid through the measuring pipe 6 depends on the value of the perio- or gas content in the stream flowing through the process pipe 1 (the movement of the liquid due to the difference in the densities of flows in the process 1 and measuring 6 pipelines) and on the speed

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gas-liquid-vapor flow in the nozzle of the ejector 5, and is also determined by the ejection coefficient of the latter.

The tangential take-off of the separator 2 facilitates the process of separating gas or vapor from the liquid, since in this case the liquid is separated due to the total effect of the gravitational and centrifugal effects.

Claims (1)

Claims of a conductometric concentration meter, including process and measurement pipelines with inlet and outlet connections communicated to each other in an ejector circuit, a separator, an inductive sensor, characterized in that, in order to improve the accuracy and speed of measurement of the concentration of substances in a vapor-liquid flow made in the form of a cylindrical chamber with a diameter greater than the diameter of the technological pipeline installed in the upper part of the technological pipeline, having There are openings for bleeding into the separator, while the inlet of the measuring pipe is tangentially connected to the outer part of the separator, and its outlet is connected to the ejector located at the bottom of the process pipe. 12 / 1E ion batch Fig 1 See FIG. Z b - b