RU2186374C2 - Method of measurement and control of wet gas dew-point temperature - Google Patents

Abstract

FIELD: investigation of materials physical properties. SUBSTANCE: method consists in measurement with transducers of parameters which may be associated with gas moisture content and gas pressure in tested point, and direction of information on measured parameters to electronic device for processing of said parameters into information of gas moisture content. Parameters characterizing moisture content and pressure of gas are computed into dew-point temperature. EFFECT: higher efficiency due to automatic continuous measurement and control of wet gas dew-point temperature. 1 dwg

Description

 The invention relates to the category of studies of the physical properties of materials, in particular to measuring the dew point temperature of a wet gas at various pressures.

 A known method for directly measuring the temperature of the dew point (TTR) of a wet gas with devices (pyrometers) based on determining the temperature of the onset of moisture condensation, i.e. their TTR. For this, the moist gas is passed through a vessel with a mirror cooled, for example, with liquid nitrogen. When condensed droplets of moisture appear on the mirror, the temperature of the onset of condensation is recorded. After measuring, the mirror is thawed. The controlled gas is usually under elevated pressure, and measurements on the TTR are made after the pressure is reduced, usually to atmospheric pressure. The actual TTR under conditions of high pressure is found using I-d diagrams or nomograms (N. V. Keltsov. Fundamentals of adsorption technology, M., "Chemistry", 1984, p. 296-300, 312-313).

 The disadvantage of this method is the frequency of measurements, the need for liquid nitrogen or cylinders with high pressure gases, low accuracy, recalculations of TTR at different pressures of the wet gas according to nomograms.

 There is a method of measuring and monitoring the temperature of the dew point of a wet gas, adopted as a prototype, which consists in measuring gas parameters with sensors (devices) that can lead to moisture content, for example, absolute humidity, expressed, for example, in volumetric propromills.

 The humidity of the gas is recorded mainly after a decrease in pressure to atmospheric. The actual gas pressure is measured at the place studied by the dew point temperature, or set (if it is known and constant). Information about the measured parameters is sent to an electronic device, where these parameters are converted into information on its moisture content.

 Further, specialists recalculate the values characterizing the moisture content and pressure, using tables, nomograms or Id diagrams, into the dew point temperature under the conditions of the actual increased (or reduced) pressure (N. V. Keltsev. Fundamentals of adsorption technology, M. "Chemistry", 1984 g., s. 296-300, 312-313).

 The disadvantage of this method is that it does not provide a direct output signal according to the control parameter that is usually set in the technique — the temperature of the gas dew point. To obtain this parameter, human intellectual labor is required, which complicates the use of the method, for example, in systems for the automatic measurement, control and regulation of TTR of wet gases with variable pressure and temperature.

 The technical result of the invention is the creation of an automatic continuous method for measuring and monitoring the temperature of the dew point of a wet gas by recalculating the output parameters for moisture content (humidity) and gas pressure at various gas pressures.

где Т_рос - абсолютная температура точки росы влажного газа, К;
р - абсолютное давление в исследуемой точке газовой системы, МПа;
d - влагосодержание газа, кг/кг сухого газа;
μ_п, μ_r- молекулярная масса воды (пара) и газа соответственно;
C₁ - постоянная, численно равная 1;
С₂ - постоянная численно равная 1,999*10¹⁸;
С₃ - постоянная, численно равная 0,1329;
С₄ - постоянная, численно равная 174,15;
С₅ - постоянная, численно равная 0,4;
На чертеже изображена схематично автоматическая установка измерения и контроля температуры точки росы влажного газа для реализации предлагаемого способа.The specified technical result is achieved by the fact that in the method of measuring and monitoring the temperature of the dew point of a wet gas, which consists in measuring its parameters with the help of sensors, which can lead to moisture content of the gas, and the gas pressure in the place studied by the dew point temperature, send information about the measured parameters to the electronic device, recalculate these parameters into information on its moisture content, parameters characterizing the moisture content and gas pressure, recalculate to the temperature and dew following relationship:

where T _grew - the absolute temperature of the dew point of the wet gas, K;
p is the absolute pressure at the studied point of the gas system, MPa;
d is the moisture content of gas, kg / kg of dry gas;
μ _p , μ _r - molecular weight of water (steam) and gas, respectively;
C ₁ is a constant numerically equal to 1;
C ₂ is a constant numerically equal to 1.999 * 10 ¹⁸ ;
C ₃ - constant, numerically equal to 0.1329;
C ₄ is a constant numerically equal to 174.15;
C ₅ is a constant numerically equal to 0.4;
The drawing shows a schematic automatic installation of measuring and monitoring the temperature of the dew point of a wet gas to implement the proposed method.

 The installation consists of a gas compression means 1 (for example, a compressor), which is connected to a gas source 2 (for example, atmospheric air) and its consumer 3 through gas valves 4, a gas collector 5 and a gas dehydration device 6. After the device 6 for drying gas on the pipeline 7 are installed: a sensor (device) 8 for measuring relative or absolute humidity, a temperature measuring sensor 9, which is installed only when measuring relative humidity, a pressure measuring sensor 10.

 Sensors 8, 9, 10 are connected to an electronic device 11, for example, a computer, which is designed to process parameters characterizing moisture content from these sensors and to convert the sensor readings into information on moisture content and at the dew point temperature.

 Sensors 8, 9, 10 can be installed anywhere in the gas system of interest for the dew point temperature, in the drawing they are conventionally installed after the gas drying device 6. In practice, various instruments characterizing the moisture content, for example coulometric, sorption-frequency, spectral, can be used as sensors 8, 9, 10.

где Т_рос - абсолютная температура точки росы влажного газа, К;
р - абсолютное давление в исследуемой точке газовой системы, МПа;
d - влагосодержание газа, кг/кг сухого газа;
μ_п, μ_r- молекулярная масса воды (пара) и газа соответственно;
C₁ - постоянная, численно равная 1;
С₂ - постоянная, численно равная 1,999•10¹⁸;
С₃ - постоянная, численно равная 0,1329;
С₄ - постоянная, численно равная 174,15;
С₅ - постоянная, численно равная 0,4;
Значения переменных - Т_рос; р; d в зависимости указаны в международной системе единиц "Си", в других системах единиц измерения в зависимость вводят соответствующие переводные коэффициенты.The method is as follows. Measure or set (if they are known and constant) gas parameters that can lead to moisture content, for example, using sensors (devices) 8, 9, 10 relative humidity, temperature and pressure, or using sensors (devices) 8 and 10 absolute humidity and gas pressure at the place studied by dew point temperature, send information about the measured parameters from sensors 8, 9, 10 when measuring relative humidity, and 8 and 10 when measuring absolute humidity to an electronic device 11, where the measured gas parameters are converted into info moisture content, parameters characterizing the moisture content and gas pressure are converted to dew point temperature according to the following relationship:

where T _grew - the absolute temperature of the dew point of the wet gas, K;
p is the absolute pressure at the studied point of the gas system, MPa;
d is the moisture content of gas, kg / kg of dry gas;
μ _p , μ _r - molecular weight of water (steam) and gas, respectively;
C ₁ is a constant numerically equal to 1;
C ₂ is a constant numerically equal to 1.999 • 10 ¹⁸ ;
C ₃ - constant, numerically equal to 0.1329;
C ₄ is a constant numerically equal to 174.15;
C ₅ is a constant numerically equal to 0.4;
Values of variables - T _grew ; R; d depending on are indicated in the international system of units "C", in other systems of units of measurement, the corresponding conversion factors are introduced into the dependence.

где С_ppm - концентрация, выраженная в объемных пропромилях, ppm;
При измерении относительной влажности, температуры и давления газа, подставляя зависимость влагосодержания (кг/кг сух.газа) от относительной влажности температуры и давления газа, зависимость температуры точки росы будет выражена:

где φ - относительная влажность газа в долях единицы;
р_н - давление насыщенных паров воды при температуре газа в точке замера, определяется как функция температуры, МПа. (Гогричиани Г. В. Расчет значения "точки росы" при удалении влаги из пневматической системы. Журнал "Автоматизация и современные технологии", М., Машиностроение, 1996, 2, с. 17).The translation of the parameters characterizing humidity into moisture content is carried out according to well-known (V.A. Kirillin et al. Technical Thermodynamics, M., Energoatomizdat, 1983, pp. 11-19) or obvious analytical dependencies. So, for example, when measuring absolute humidity in volumetric pro-mills (ppm), substituting the dependence of moisture content (kg / kg dry gas) on the absolute humidity, expressed in volumetric pro-mills (ppm), the dependence of the dew point temperature will be expressed:

where C _ppm is the concentration expressed in volumetric propromiles, ppm;
When measuring relative humidity, temperature and gas pressure, substituting the dependence of moisture content (kg / kg dry gas) on the relative humidity of temperature and gas pressure, the dependence of the dew point temperature will be expressed:

where φ is the relative humidity of the gas in fractions of a unit;
p _n - pressure of saturated water vapor at the gas temperature at the measuring point, is determined as a function of temperature, MPa. (Gogriciani G.V. Calculation of the value of the "dew point" when removing moisture from the pneumatic system. Journal of Automation and Modern Technology, M., Mechanical Engineering, 1996, 2, p. 17).

 The method allows automatically continuously, without human intervention, to measure and control the temperature of the dew point of the wet gas at various discharge pressures, for example, in compression, transportation and drying systems of compressed air, nitrogen, hydrogen and other gases that do not form stable chemical compounds with water.

Claims (1)

A method of measuring and monitoring the temperature of the dew point of a wet gas, which consists in measuring with its sensors and instruments its parameters that can lead to moisture content of the gas, and the gas pressure in the place studied by the dew point temperature, sends information about the measured parameters to the electronic device, recalculate these parameters into information on its moisture content, characterized in that the parameters characterizing the moisture content and pressure of the gas are converted to dew point temperature according to the following relationship

where T _grew - the absolute temperature of the dew point of the wet gas, K;
p is the absolute pressure at the studied point of the gas system, MPa;
d is the moisture content of gas, kg / kg of dry gas;
μ _p , μ _r - molecular weight of water (steam) and gas, respectively;
C ₁ is a constant numerically equal to 1;
C ₂ is a constant numerically equal to 1.999 • 10 ¹⁸ ;
C ₃ - constant, numerically equal to 0.1329;
C ₄ is a constant numerically equal to 174.15;
C ₅ is a constant numerically equal to 0.4.