SU1741037A1 - Dew point content test method - Google Patents

Abstract

The invention relates to physical measurements and can be used in hydrometeorology, instrument making, the petroleum, chemical industry and other areas of science and technology where measurement of gas humidity is necessary. The aim of the invention is to simplify the method for determining the temperature of the onset of condensation. A comparison is made of the temperature dependence of the condensation surface on time with the reference curve obtained by cooling the condensation surface in vacuum. 1 ill., 1 tab.

Description

The invention relates to physical measurements and can be used in hydrometeorology, instrument making, the petroleum, chemical industry and other areas of science and technology where measurement of gas humidity is necessary.

There is a known method consisting in continuously measuring the heat flux passing through a uniformly cooled surface, the onset of condensate on the surface being determined by an abrupt change in the heat flux at the moment of release of heat of condensation.

However, to implement this method, it is necessary to control the gas flow rates over the control (condensing) surface, as well as the uniform cooling of the condensation surface by the refrigerator, in addition, it is necessary to simultaneously measure both the heat flux through the cooled surface and the condensation surface temperature.

The closest to the proposed technical solution is the method consisting in that the material under study, the humidity of which is to be determined, is poured into the measuring cell, and the same amount of pre-dried material is poured into the reference cell. Both cells are placed in the working volume of the heating chamber with a given temperature. During the warm-up process, the temperature of the reference (dry) substance will vary along one curve, and containing moisture, along the other. At the same time, the nature of the latter will be more gentle, since in the process of heating a part of the heat is spent on the evaporation of moisture. After some time, the temperature of the dry and wet samples will become the same, and the area limited by these two curves will be proportional to the amount of moisture in the material under study.

However, to implement this method, it is necessary to control the identity

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objects by mass and fractional composition, which greatly complicates the process of determining the humidity.

The purpose of the invention is to simplify the determination of the temperature of the onset of condensation while maintaining the accuracy of measurement by graphically comparing the dependences of the temperature of the condensation surface on time.

This goal is achieved by the fact that the dependence of the temperature change of the condensation surface on time for the reference medium is obtained by measuring the temperature of the surface placed in a vacuum, and the temperature of the onset of condensation is determined by the point of divergence of the curves corresponding to the reference and controlled media.

The device with which the proposed method is carried out consists of a vacuum desiccator, inside which a microcooler is installed with a differential thermocouple located on its surface, and a potentiometer of the type KSP-4.

To determine the temperature of the onset of condensation, a control experiment was preliminarily carried out in order to obtain a reference time dependence in the event of condensate falling on it. For this, air is evacuated from the desiccator and the microcooler is cooled in vacuum.

Then a gas is supplied to the desiccator, the humidity of which is to be determined, and the dependence of the change in the temperature of the cooled surface on the cooling time when condensate falls on it is removed.

From the comparison of the obtained graphs (by the method of superposition), the point of divergence of the curves is determined, which will correspond to the temperature at which condensation starts on the cooled surface, i.e. dew point.

The divergence of the curves is due to the fact that during condensation, heat Q is released (proportional to the amount of condensate deposited), which leads to an increase in the temperature of the condensation surface. Thus, starting from the moment of condensate deposition on the controlled surface of the micro-refrigerator, the dependence of the surface temperature on time will differ from the reference dependence obtained by cooling the micro-refrigerator in vacuum, i.e. without condensation.

The method allows the initial amount of condensate to be recorded.

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regardless of its distribution over the condensation surface, on the order of 10 mg / km2.

Example. Determination of air humidity.

A preliminary experiment was carried out in order to obtain a reference dependence of the temperature variation of the cooled surface of the microcooler without condensation. For this, air is pumped out of the desiccator to a pressure of -0.1 MPa and the micro-refrigerator is cooled in vacuum (curve 1 in the graph).

Then the air is supplied to the desiccator, the humidity of which needs to be determined, and the dependence of the temperature change on the cooled surface of the microcooler versus time is removed when condensate falls on it (curves 2 and 3, obtained at 44% and 68% air humidity, respectively). Each of the obtained dependences 2 and 3 is compared with the reference curve 1 (by the method of superposition) and the temperatures at which condensate begins to form are determined from the point of divergence of the curves.

After determining the temperature of the onset of condensation, the air humidity is calculated by the formula

I 100 () DeC (tTG-tt) avg

T Wed T p

where D is -5.3627; From 6888.2 K.

The results of measurements of five laboratory samples are presented in the table (5 psychrometric methods were used as the standard method).

A satisfactory agreement between the results obtained using the proposed and standard methods can be noted.

Thus, the proposed method for determining the dew point retains the sensitivity of the known method, but, unlike it, has the ease of implementation, reliability, and does not require sophisticated equipment.

In addition, the structural characteristics of a capillary-porous medium (pore and capillary sizes) and the distribution of condensate over the test surface do not affect the accuracy of determining the dew point temperature by the proposed method.

Claims (1)

Invention Formula The method of determining the dew point, which consists in determining the dependence of the temperature change of the condensation surface of the microcooler on the time in the reference and controlled media, and using the curves obtained in the graphs of the curves, determine the temperature onset of condensation, characterized in that, in order to simplify the process while maintaining accuracy, the dependence of the temperature change on the condensation surface is obtained by measuring the temperature of the surface placed in a vacuum, and the temperature of the onset of condensation is determined by the divergence point of the curves, corresponding to from time to time for the reference environment, 5 general reference and controlled environments. is obtained by measuring the temperature of a surface placed in vacuum, and the temperature of the onset of condensation is determined from the point of divergence of the curves, corresponding to 295 291 289 285 281 i 277