SU1032394A1 - Conductometric pickup - Google Patents

Description

The invention relates to measuring technique and can be used

in devices for measuring the conductivity of liquid and gaseous media.

A sensor is known that has electrodes all the space between which is filled with a vapor condensate under investigation. The measuring electrode electrodes have a cylindrical shape and are located coaxially С 1}.

However, if such a sensor measures the resistance of a gaseous phase, such as steam, the resistance of the interelectrode space filled with steam (gas) becomes comparable with the resistance of the isolator separating the measuring electrodes, which makes it impossible to make these measurements.

The closest to the present invention is a conductometric sensor for measuring the concentration of impurities in the stream, containing measuring electrodes, one of which is made in the form of a vessel, the upper part of which

goes into the sampling nozzle-probe to which the differential pressure gauge is connected, and the second - in the form of a hollow serpentine, located in this vessel 2 J.

However, when condensed by such sensors

A vapor or gas phase containing suspended liquid droplets or solid particles of soluble substances, these droplets or specks of salt do not fall into the condensate filling the interelectrode space of such a sensor and are carried away by a stream of steam (or gas). quantities that can be neglected. As a result, the concentration of substances in the film of a sensor sensor does not reflect their true concentration in a unit of weight or volume of wet steam or gas, which must be reliably measured. The inability of the sensor to provide a representative sample of a two-phase medium (vapor and droplets, gas and droplets, vapor and dust particles, t, d,) by several times underestimates the true content of impurities in it (the medium),

The purpose of the invention is to improve the accuracy of measuring the concentration of impurities in a two-phase flow.

This goal is achieved by the fact that in a conductometer sensor for measuring the concentration of impurities in a stream containing measurement electrodes, one of which is made in

The vessel, the upper part of which goes to the sampling nozzle-probe, to which the differential pressure gauge is connected, and vchora - in the form of a hollow serpentine located in this vessel, the sensor has refrigerant flow regulators and a condensate sample, connected to the differential pressure gauge by the control line.

The drawing shows schematically the proposed sensor, a general view.

The sensor is a vessel 1 consisting of measuring electrodes, in the bottom of which there is a drain line 2 with a valve 3, which controls the amount of sample condensate removed from the sensor. The upper part of the vessel 1 passes into the sampling nozzle-probe 4, placed in the pipeline 5 with a moving two-phase flow and facing the flow with a throat. Inside the vessel 1 there is a heat exchanger 6, filled in the form of a hollow coil, which is the second measuring electrode, which is filled with a cooling regulator 7 for cooling the VL. The vessel 1 and the heat exchanger 6 are separated by an isolator 8, the sensor is equipped with a differential pressure gauge 9 connected to the probe pipe 1 probe 4 (point A) and pipe 5 (point B) and the associated control line 10 to the i-body flow regulator 7 through the heat exchanger 6 and the regulator 3 of the condensate consumption of the sample from the vessel 1.

The sensor works as follows.

A cooler is passed through the heat exchanger 6. The two-phase stream entering the vessel 1 is condensed. At the same time, the differential pressure gauge 9 shows the pressure difference in the pipeline 5 and in the probe 4, using the control line 10 of the regulators 7 and 3, the installation costs of the cooler in the heat exchanger 6 and the condensate in the vessel 1 ensure that the pressures at points A and B are equal, when filled with condensate Vessel 1 measurements are carried out according to known schemes with temperature co-compensation.

The presence of the control line {1eni) connecting the controllers 3 and 7 with the differential pressure gauge 9 makes it possible to establish the same pressure at points A and B, and consequently, the two-phase flow velocity in the probe W and the main pipeline C / 2 by equalizing the flow rate of the chiller heat exchanger and condensate in the vessel, which improves the measurement accuracy compared to the conductivity probe sampling probe, for which the isokinetics condition is determined by calculation: the boiler load is assumed to be 8% nominally a priori constant sample rate; take the flow rate of the probe at 5-6 greater than the kinetic speed of the film breakdown, and even the probe calculated for all rules of 944 willows does not always with the UJ W design because of the inevitable deviations of the boiler load taken into account. The invention will improve the quality of coolants of modern heat and power plants, chemically produced raw materials, automate the control of two-phase flows and improve the efficiency of equipment operation.

Claims (1)

A CONDUCTIVE SENSOR for measuring the concentration of impurities in a stream, containing measuring electrodes, one of which is made in the form of a vessel, the upper part of which passes into a sampling probe, to which a differential pressure gauge is connected, and the second - in the form of a hollow coil placed in this vessel, which differs in that, in order to increase the accuracy of measurement in a two-phase flow, it has sample flow cooler and condensate flow controllers connected with a control line differential meter.