CZ308619B6 - Combustion exhaust analysis line - Google Patents

Abstract

A combustion flue gas analysis line, which includes equipment (1) for heating and combusting evaluated materials, a flue gas analyser (5), spectrometer (4) and heated filter (3) for analysing a complex mixture of gases, including substances that at normal temperatures are liquid, but at higher temperatures are gaseous. This is achieved by a special way of treating the samples before their analysis on the line, which includes protection against condensation of the measured substances and maintain their composition on the connecting elements (2) and connections leading the whole line. This increases the number of analysed substances.

Description

Combustion flue analysis line

Field of technology

The invention falls within the field of safety, in particular in the field of safety of industrial operations connected with the heating of material, safety of emergency units in case of fire and also in the field of environmental protection.

It is an assembly that allows the analysis of a complex mixture of gases, including substances that are liquid at normal temperatures but are gaseous at elevated temperatures. This is achieved by a special method of sample preparation before introduction into the analyzer. This increases the number of analytes.

Prior art

For the analysis of gaseous products of heating or combustion of materials, various types of equipment are used, which basically always consist of two parts. The basic part is the analyzer, the selection of which varies according to the purpose of the device. A gas chromatograph with a mass spectrometer (GC-MS) is very often used, which is preferred especially for a wide range of substances, which can be determined with it even in low concentrations and in complex mixtures. Currently, the trend is to use a Raman spectrometer, especially in a portable form, which is equipped with software for substance identification, which makes its use very easy.

Another analyzer used is the FTIR (Fourier transform infrared) spectrometer, which is recognized as a very suitable detector for the analysis of flue gases, for example in flues or in the analysis of exhaust gases from internal combustion engines.

Another part of the device is a probe for taking gaseous samples if it is a question of gas analysis directly in the conditions of industrial equipment, working environment or fires. If the device is intended for the implementation of standardized test methods for determining the toxicity of decomposition products, a special device for the production of flue gases is used instead of the probe. An example is the tube furnace, which is used in accordance with DIN 53436, especially for the evaluation of flue gas toxicity in the early stages of fire for the needs of fire brigades. The quality of the analysis depends as much on the quality of the analyzer as on the quality of the sampling.

Heated cuvettes with a pre-heated filter and a heated part of the sampling line are used in the analysis of heating and combustion products using FTIR spectrometers (see ISO 19702). By this process, solids are filtered out of the evaluated mixture and condensation of vapors of some substances is prevented. The temperature of the heated parts is kept above 100 ° C.

During the transition from heated to unheated parts of the apparatus (connecting tube between individual devices, pump) condensation of some substances, especially water, but also other aggressive substances (formic or acetic acid, etc.). Condensed liquids clog the connecting tubes, accumulate in some places and prevent the smooth passage of gases and are corrosive. This reduces the quality of the analysis because stable conditions are not maintained, especially during long-term (multi-hour) measurements.

When using an IC (infrared) spectrometer as a single analyzer, it is not possible to analyze some components of the gas mixture, such as oxygen. Another problem is associated with the concentration of the components in the mixture. Some components may exceed the measuring range of the spectrometer if both analysis and determination of low concentration components are aimed at analysis. When selecting a higher range spectrometer, higher concentrations of some components (eg carbon oxides) are captured, but low concentration components are not detected, so the analysis is not complex and does not cover all gaseous components.

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The essence of the invention

The object of the invention is to provide such a line assembly that it is possible to analyze a mixture of gases formed during heating and combustion with high accuracy in the order of ppm for high and low concentrations simultaneously in one step, while maintaining their original composition without undesired condensation of flue gases.

The goal is achieved by combining two types of analyzers that work on different detection principles. The first detects some selected substances, especially oxygen and carbon, nitrogen and sulfur oxides, in the range of concentrations from ppm to tens of percent.

The second detector, the FTIR spectrometer, allows the identification of a number of substances, both organic and inorganic. When using a cuvette with an optical length of 10 m, the substances are determined in the range from ppb to hundreds of ppm. The limits of determination of the concentration are different for each substance, taking into account the different intensity of the detector's response to the given substance and also with regard to the calibration used. During the analysis, it is not possible to replace the used cuvette with a cuvette with a different range and at the same time this "new" cuvette would not be able to identify substances in low concentrations.

In addition, by means of a specific arrangement of the connecting elements, both inside the apparatus for generating heating and combustion products and the connecting elements between the individual parts of the device, conditions are created which allow the analysis of a larger number of substances.

The proposed apparatus, the analysis line of combustion products, consists of a device for heating and combustion of evaluated materials under controlled conditions and an analysis part. The flue gases generated in the combustion chamber of the device for heating and burning the material under controlled conditions are led through an inner metal tube to the outlet, where the analysis part is connected. The inner metal tube is provided with a heated jacket to prevent condensation of the measured substances.

The connecting elements are, for example, tubes made of, for example, metal or hoses, etc. The inner metal tube with the heated jacket is connected to the analysis part at the outlet of the device. This connection is also heated. In front of the analyzers there is a heated filter for the separation of solid particles in the flue gas, followed by a connector for connecting the spectrometer and the flue gas analyzer. After the analysis, the flue gases are led through the pump and flow meter to the exhaust. All connecting tubes of the analysis part are provided with a heated jacket or thermal insulation, which guarantees the maintenance of a constant temperature throughout the device. Each connecting tube also has its own temperature control, as they have different lengths with respect to the apparatus configuration. The temperature range is selectable from 100 to 180 ° C.

The temperature of the evaluated sample in the heating and combustion device belongs to the monitored parameters and it can be sensed both inside the material and on its surface or surroundings. Therefore, the device for heating and combustion of evaluated materials is equipped with a heating programmer, which allows to monitor the temperature rise according to a preselected program. The temperature is measured by thermocouples and its recording in time is done automatically.

The temperature field, in the working space of the device for heating and combustion of the evaluated materials, is homogenized by means of an internal fan. This interior can also be hermetically sealed or evacuated by means of a vacuum pump, the pressure inside being measured by means of a manometer. The composition of the atmosphere in the work area is optional thanks to these measures.

The FTIR analyzer is able to detect a wide range of substances that can be found in heating products or in flue gases even in low concentrations (ppb). On the other hand, it is not able to identify substances with a symmetrical molecule, such as oxygen. A second analyzer connected in parallel is used for this purpose; it is a flue gas analyzer, which is also suitable for the analysis of substances with higher concentrations (tens of%).

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The apparatus is designed to study the composition of gaseous combustion products. The results obtained by the analysis are useful for evaluating the toxicity and impact of combustion products on the air and the environment. The different measurement principles of the two analyzers ensure a very wide range of analytes, both qualitatively and quantitatively.

Explanation of drawings

Fig. 1 shows a diagram of the device. Figure 2 shows a comparison of two measurements of flue gases, in this case methanol, when heating wood, on a standard apparatus and on an analysis line.

Examples of embodiments of the invention

The analysis line consists of a device 1 for heating and combustion of the evaluated materials under controlled conditions, which is connected by a connecting element 2, which is a metal tube / hose with a heated jacket, to a heated filter 3 for separating solid particles in the flue gas. This is followed by bifurcation for the connection of spectrometer 4 and flue gas analyzer 5. After the analysis, the flue gases are led through the pump 6 and the flow meter 7 to the exhaust 8. The analysis can also be performed separately, either only on the spectrometer 4 or on the analyzer 5.

All metal connecting elements 2 are provided with a heated jacket or thermal insulation. Each connecting element 2 has its own temperature control, because each has a different length with respect to the configuration of the apparatus. The heating temperature range of the connecting hoses / pipes is selectable from 100 to 180 ° C.

Example 1

Wood chips are material that is used as a substitute fuel for incineration or co-incineration, but when stored in landfills, self-heating can occur, evolving gaseous emissions, including hazardous gases such as methane or carbon monoxide. To determine safe storage conditions, it is necessary to know the heat at which these hazardous gases are released.

In the device 1 for heating and combustion of the evaluated materials we insert a metal basket of cubic shape with known dimensions, filled with wood chips of known grain size and weight. The device 1 for heating and combustion of the evaluated materials is heated to a constant temperature and air is taken from it, 2 Lmin ¹ , which we lead by means of a connecting element 2 from metal to the analyzer 5 and the spectrometer 4. Both analyzing devices record concentrations and measurement times.

From the measurement, a result is calculated which determines whether at the temperature used such an amount of gas is produced which is already dangerous to health or from the point of view of explosiveness. This analysis serves to increase safety, especially when stored in closed rooms.

Example 2

The transformers use a liquid, which is used not only for insulation, but also for cooling. During operation, it heats up and gaseous decomposition products are formed. The analysis of these gases determines the thermal stability of oils and it is possible to determine the time until the oil change, etc.

Insert a flat glass vessel with a transformer liquid of known weight into the device 1 for heating and combustion of the evaluated materials. We heat the device 1 for heating and combustion of the evaluated materials to a constant temperature and take air from the heated space, 2 Lmin ¹ ,

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From the measurement results, we evaluate the formation of toxic gases that are dangerous for health and the environment. The measurement results can also be used to classify the quality of different types of insulating liquids in terms of their temperature resistance.

Industrial applicability

The analysis line is suitable for performing chemical analyzes of combustion products and is therefore suitable for performing tests in areas of fire safety, chemical analysis and environmental protection, or in the field of 3D printing, for analysis of emissions from 3D printers, which arise during heating plastics. and escape into the work environment essentially without restriction. The scope of use of the device is not limited to the previously mentioned matters, but can find application in all thermal processes in which gaseous substances are formed by decomposition or combustion.

Claims (4)

Combustion flue gas analysis line comprising a device (1) for heating and combustion of evaluated materials, analyzers connected in parallel, which are a spectrometer (4) and a flue gas analyzer (5), equipped with a heated filter (3), characterized in that it is equipped protection against condensation of measured substances and to preserve their composition, which is applied to connecting elements (2) and joints leading the whole line, where from the device (1) for heating and combustion of evaluated materials leads connecting element (2) to heated filter (3) for the separation of solid particles in the flue gas and behind it, the connecting element (2) is further divided into a branch with a spectrometer (4) and a branch with a flue gas analyzer (5), the two branches are then combined again leads the connecting element (2) to the flow meter (7) and through it to the exhaust (8), while the connection of the individual lines with the parts of the connecting element (2) is realized by a connection. Combustion component analysis line according to claim 1, characterized in that the protection against condensation of the measured substances and the preservation of their composition consists of a tempered jacket or insulation located on the connecting element (2) and further that the joints of individual line parts and connecting elements ( 2) are adapted for tempering and each of the parts of the connecting element (2) is equipped with its own temperature control device. Combustion flue gas analysis line according to Claim 1, 2, characterized in that the length of the individual parts of the connecting elements (2) is different. Combustion flue gas analysis line according to claim 1, characterized in that the device (1) for heating and burning the evaluated materials is equipped with a heating programmer, a pump and a manometer.