SU1693495A1 - Method of determining moisture content of gas-liquid flow - Google Patents

Abstract

The invention relates to the study of the composition of a substance in a stream using microwave radiation. The purpose of the invention is to improve the measurement accuracy. The gas flow passing through the pipeline is exposed to electromagnetic radiation from the microwave and infrared bands. The magnitude of the absorbed power is determined by measuring the change in temperature of the test stream before and after exposure to electromagnetic radiation, respectively, in the microwave and infrared bands. In both cases, fluctuations in the flow rate, pressure, temperature do not affect the measurement results, since the effect on the flux by radiation from both ranges is carried out in equal conditions. 2 Il. (L

Description

The invention relates to the field of research of the composition of substances in a stream using microwave radiation.

The purpose of the invention is to improve the measurement accuracy.

Figure 1 shows the structure of an apparatus for carrying out a method for determining the moisture content of a gas-liquid flow; Fig. 2 shows the same embodiment.

A device for determining the moisture content of a gas-liquid stream contains a pipeline 1 with windows 2 and 3 of material that is transparent for microwave (IR) and infrared (IR) radiation, temperature sensors 4 and 5,

installed in windows 2 and 3, respectively. In pipe 1, a partition 6 can be installed, dividing the flow into two parts (figure 2).

The method is carried out as follows.

The gas or liquid flow through pipeline 1 is affected by the electromagnetic radiation of the microwave and infrared bands, the absorption values of the electromagnetic radiation by the test flow are measured, and the absorption values are determined by measuring the temperature change of the test flow

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microwave radiation and infrared, respectively.

Claims (1)

A change in the moisture content of the gas-liquid flow under study leads to a significant change in temperature under the influence of microwave radiation and is insignificant in the IR range. In both cases, the information parameters are the flow temperature, i.e. the registration and processing of the received information is greatly simplified. The desired moisture content is proportional to the temperature difference acquired by the stream after exposure to microwave and infrared radiation, regardless of whether this effect is consistent in the direction of propagation of the stream or after its separation into two streams (Figures 1 and 2). In both cases, fluctuations in the flow rate, pressure, temperature do not affect the measurement result, since the effect on the flux by radiation from both ranges is carried out in equal conditions. This automatically eliminates the additive error in temperature measurements. Measurements can be carried out continuously or discretely at a specified time interval depending on the technical characteristics of the measuring instruments used. The claims of the method for determining the moisture content of a gas-liquid flow, including a double impact on the gas-liquid flow under study by electromagnetic radiation, measuring the amount of absorption of electromagnetic radiation during the first and second exposure, and determining the moisture content by the difference values, one of the effects being carried out in the ultra-high frequency range, characterized in that, in order to increase the measurement accuracy, another effect is carried out in the infrared radiation range, and the absorption value is determined by measuring the temperature change of the gas-liquid flow before and after the corresponding effects. t  / yy / / / s / / , h sdch 4 J. i i i 5, 1 1 microwave | | |