SU1187045A1 - Method of determining pressure of gas condensation inception - Google Patents

Abstract

A METHOD FOR DETERMINING THE PRESSURE OF THE BEGINNING OF GAS CONDENSATION, which involves pumping their portions into a thermostatted closed vessel with a quartz resonator and measuring the pressure and frequency of the quartz resonator after the puff of the gas, in which time, the speed of the inlet and the temperature of the injected gas are set to be appropriate before the start of the condensation iiKCTpeNryMa on the curve of the quartz frequency ( resonator in time, and pressure of the dew point was judged by the appearance of the second extremum.

Description

The invention relates to methods for studying the physicochemical properties of substances, in particular to methods for studying phase equilibria.

The pressure and temperature of the onset of the gas-liquid phase transition are the most important characteristic. These parameters allow one to determine the heat of phase transitions, critical parameters, the potential of intermolecular interaction, etc. Data on the pressure and temperature of the onset of condensation of gases is necessary when designing systems for collecting, transporting and processing petroleum gases.

The purpose of the invention is to improve the accuracy of determining the pressure of the onset of condensation of gases.

The method consists in injecting gases in portions into a thermostatically controlled closed vessel with a quartz resonator and measuring the pressure and frequency of the quartz resonator after the inlet of a portion of gas.

Additionally, the change in the frequency of the quartz resonator in time is measured, the inlet speed and the temperature of the inlet gas are set to correspond to the appearance before the start of the extremum condensation on the curve of the change in the frequency of the quartz resonator in time, and the pressure of the onset of condensation is judged by the appearance of the second extremum.

FIG. 1 is a schematic diagram of a device implementing the proposed method; in fig. 2 curves of change in the frequency of quartz in time after the start-up in the absence of condensation and in its presence.

The device contains a gas reservoir 1 placed in a thermostat 2. A valve 3 is connected to a vessel 4 placed in a thermostat 5. A quartz resonator 6 is connected to an electronic circuit 7 for exciting and maintaining its oscillations. A pressure gauge 8 serves to measure the pressure of the injected gas.

Frequency recorder 9 is connected to resonator 6 through circuit 7. Temperature sensor 10 serves as temperature gauge 10 in vessel 4, and pressure gauge 11 is used to measure pressure in this vessel.

The device works as follows.

Gas tank 1, heated by a thermostat 2, opens valve 3, supplies a portion of the gas to vessel 4 with a quartz resonator 6, which is connected to the electronic excitation circuit 7. Then, pressure gauge 11 measures gas pressure in vessel 4, and recorder 9 measures There are changes in the frequency of the crystal in time. The temperature of the injected gas is measured by temperature sensor 10, and its pressure is measured by a pressure gauge 8. If the frequency decreases and then rises to an equilibrium value and remains constant (curve 12, Fig. 2), the pressure in vessel 4 is less than the condensation onset pressure. The final frequency value depends on the pressure temperature and the visco-elastic properties of the gas.

If after some kind of gas inlet on the frequency-time curve a secondary decrease in frequency appears (curve 13, Fig. 2), the pressure in the vessel becomes equal to the pressure of the onset of gas condensation at a given temperature.

Curve 12 (Fig. 2) reflects the nature of the frequency change over time before the onset of condensation, curve 13 reflects the nature of the frequency change upon the onset of condensation. Portions of gas in size choose. such that the pressure in the gas rises with minimal steps, the magnitude of which determines the accuracy of determining the pressure of the onset of condensation. According to the data obtained, the pressure of the onset of gas condensation on temperature is plotted.

FIG. 2

Claims (1)

A METHOD FOR DETERMINING THE GAS CONDENSATION PRESSURE PRESSURE PRESSURE, which involves letting them in portions into a thermostatically controlled closed vessel with a quartz resonator and measuring after admitting a portion of the gas the pressure and frequency of the quartz resonator, characterized in that, in order to increase the accuracy of determination, they additionally measure the change in the frequency of the quartz resonator over time , the inlet velocity and the temperature of the inlet gas are set corresponding to the appearance before the condensation of the extremum on the curve of the frequency of the quartz crystal time, and the pressure of the onset of condensation is judged by the appearance of a second extremum. Figure 1