SU805118A1 - Method of gas analysis - Google Patents

Description

one

The invention relates to analytical instrumentation and can be used in the metallurgical, chemical and other sectors of the national economy.

There is a method of gas analysis, involving the use of an inkjet sensor. The composition of the gas is determined by the ratio of its density to the square of the dynamic viscosity coefficient 1.

The disadvantage of this method is the temperature measurement error. Temperature compensation Errors are possible, for example, by temperature control of the sensor, which requires the use of electricity and therefore is not consistent with the principle of operation of non-electric pneumonic devices, leading to the loss of their properties such as fire and explosion safety. The same error can be compensated by introducing corrections on the basis of calculations, but this necessitates a constant involvement of the service personnel in the measurement process.

The closest to the technical nature of the invention is a method for analyzing gases using an inkjet sensor, including the regulation of pressure drops of analyzing and comparative gases at the inlet of sensor 2.

However, this method does not have sufficient accuracy. Accuracy is reduced due to the inevitable deviations of the composition of C 1 equilibrium gas from the nominal. Special preparation of comparative gas and its cleaning

0 significantly increases the laboriousness of the measurement process. Temperature error is also not completely eliminated.

The purpose of the invention is to improve the accuracy of the analysis by reducing the temperature error.

This goal is achieved due to the fact that the temperature of the gas being measured is measured at the sensor inlet and the gas pressure at the sensor inlet is changed depending on the temperature value using the formula:

R )

where P is the absolute pressure of the inlet

five

into the sensor;

k is a constant value; T is absolute temperature on

sensor input;

m is the coefficient depending on the type of gas.

Thus, the essence of the invention is that when analyzing. gases with pressure regulation of the analyzed gas at the inlet to the jet sensor are measured on the line of the analyzed gas in front of the sensor and depending on its size manually or automatically adjust the pressure of the analyzed gas by formula (1).

The drawing shows a device that implements the method, option,

The device is made in the form of a pneumatic follow-up circuit for automatic control of the pressure of the analyzed gas and consists of. tube 1 for selecting pressure on the line of gas to be converted, pneumatic pressure regulator 2, regulating valve 3 with pneumatic actuator on the same line, pressure gauge thermometer 4 (with a thermometer 5 and secondary device 6) for monitoring the temperature of the analyzed gas. Pressure regulator and pneumatically actuated valve Can be any. The listed circuit elements are interconnected by pneumatic communication lines in the form of metal or plastic tubes with an internal diameter of not more than bmm.

The device works as follows.

Through tube 1, the signal of the actual pressure of the analyzed gas is reported to the regulator input. The signal of a given Pressure, depending on the temperature of the analyzed gas, according to the formula (1) is formed with the help of a manometric thermometer, which is used as a unit for the pressure of the analyzed gas. Most convenient to use Steam gauge: thermometer, since the dependence of the pressure of saturated steam on temperature is close to parabolic. Accurate formation of a signal of a given pressure is achieved by appropriate adjustment of the kinematic levers of the secondary instrument of a pressure thermometer or its output sensor.

Regulator 2 uses valve 3 to change the pressure of the gas to be analyzed according to the task, increasing this pressure with increasing temperature.

Compared to the known, the proposed solution is characterized by higher accuracy and reliability, as well as a significantly lower labor-intensiveness of the process of measuring the composition of the analyzed gas, since it makes it possible to carry out this process without continuous expenditure of the comparative gas simultaneously with the analyzed one.

The use of the invention contributes to the wider use of inkjet sensors for gas composition under industrial sawn conditions.

Claims (2)

1. USSR author's certificate number 439731, cl. G 01 N 11/00, 1969. 2. Authors certificate of the USSR 532040, cl. G 01 N I / OO, 1974 (prototype). To sensor /