SU1286978A1 - Method of continuous determining of high and low specific value of fuel gases - Google Patents

Abstract

The definition is related to the determination of the thermophysical properties of substances, namely the higher and lower specific heat of combustion of combustible gases. The purpose of the invention is to reduce the determination error. The goal is achieved by eliminating the error associated with measuring the amount of moisture condensed during gas combustion. The gas under investigation and the oxidizer are continuously fed into the measuring cell and the process of complete combustion of the gas is carried out. Combustion products are discharged from the measuring cell to the atmosphere. In this case, the temperature of the outer surface of the measuring cell is changed so that when measuring the highest specific heat of gas combustion the temperature of the combustion products is below the dew point temperature, and when measuring the lowest specific heat of combustion it is higher than the dew point temperature. The sought values are determined by known dependencies. 1 il. i (/)

Description

The invention relates to the determination of the thermophysical properties of substances and can be applied, for example, in thermal power engineering.

The aim of the invention is to reduce the error in determining the highest and lowest specific heat of combustion of combustible gases.

The drawing shows a thermal circuit that implements the proposed method.

The proposed method is illustrated by the example of a differential combustion calorimeter,

The calorimeter contains two identical cells: measuring 1 and comparative 2, symmetrically located in the shell 3 of the calorimeter. The heat removal from the cells 1 and 2 to the shell 3 is carried out through the drains 4 and 5 of the heat with the same thermal resistance. The measuring and comparative cells are interconnected by semiconductor heat flux transducers 6 (heat meters), the electrical signal from the heat meters is measured with a voltmeter 7, and a gas burner unit 8 is installed in the measuring cell to ensure complete combustion of the gas under investigation. An electric heater 9 is installed in the comparative cell to obtain a compensatory amount of heat. The measuring cell is connected to the preparation and supply unit 10 of the test gas and oxidant, maintaining their flow rate, pressure, temperature and humidity constant. Since, in practice, for this scheme, the temperature of the combustion products at the outlet of the measuring cell becomes practically equal to the temperature of the outer surface of the measuring cell, therefore, the temperature of the combustion products can be controlled by changing the temperature of the outer surface of the measuring cell using a semiconductor thermocouple 11 mounted on the outer surface shell calorimeter. The temperature of the outer surface of the measuring cell is measured by means of a temperature sensor 12.

The method is carried out as follows.

The test gas and non-oxidant: continuously fall into block 10, from where they are supported by constant

the flow rate, pressure, temperature and humidity are directed to the measuring cell 1, where the gas-burning unit 8 is used to carry out the process of complete combustion of the test gas. In this case, the desired quantity of heat is selected in the measuring cell. The resulting combustion products are removed from the measuring cell.

to the atmosphere and measured using a temperature sensor 12, the temperature of its outer surface. The temperature of the outer surface of the measuring cell using a thermopile 11 is changed in such a way that when measuring the highest specific heat of gas combustion the temperature of the combustion products was below the dew point temperature, and when measuring the lowest

specific heat of combustion - enter dew point temperature. The amount of heat released in the measuring cell from the combustion of gas is compared with the heat gap in the comparative cell. To do this continuously, register heat flow between the measuring and comparative cells. the magnitude of the proportional electric signal from heat meters 6,

measured by a voltmeter 7. According to the magnitude of the electrical signal, heat meters in the heat meters measure the heat losses in the cells by adjusting the amount of heat generated in the

comparative cell, determine the value of the compensating thermal power in the comparative cell by measuring the current and voltage on the branches x of the electric heater 9, Then,

By knowing the volumetric flow rate of the test gas under normal conditions, the desired higher or lower specific heat is obtained using known dependencies,

Claims (1)

Invention Formula Method for continuous determination of higher and lower specific heat combustible gases, which means that the test gas and the oxidizer are continuously fed into the measuring cell at a constant flow rate, pressure, temperature and moisture, where the process of complete combustion of the gas is carried out, then the combustion products are removed and the desired values are determined, characterized in that, in order to reduce the measurement error, the temperature of the outer surface of the measuring cell is simultaneously measured and changed so that higher specific the heat of combustion of gas the temperature of the products of combustion was below the dew point temperature, and when measuring the lower specific heat of combustion of gas it was higher than the temperature of the dew point. 4 Exit combustion npoduff Aza input and oxidizing agents