DEVELOPMENT OF A PROTOTYPE INFORMATION-VIBRATION SYSTEM FOR VIBRATING THE CONCENTRATION OF TOXIC, CORROSIVE AND TOXIC GASES
DOI:
https://doi.org/10.31891/2219-9365-2023-76-10Keywords:
gas analyzer, spectrum, light filter, laser emitter, spectral characteristicsAbstract
The article presents information on the information and measurement system for measuring concentrations of toxic, aggressive and poisonous gases, namely, the use, development and manufacture of an optical gas analyzer for IBS, which combines small dimensions, sufficient accuracy, simplicity of design and low cost of the device. The method of manufacturing filters using VU 1A is also considered. To determine the design of future light filters, in particular, a special program was used to calculate the spectral characteristics of the filter depending on the number of material film layers and the sprayed material itself.
The main goal of the work was the creation of an information and measurement system (IMS), which would provide measurement of air composition using modern technologies. The application of the proposed wideband light filters for laser emitters based on films of SI and SiO today made it possible to achieve the creation of an information and measurement system for determining the composition of gases based on a new design of a gas analyzer, which is relevant today with increased environmental pollution, namely, air, especially necessary for the vital activity of living organisms. An overview of the design of the gas analyzer using interference light filters, designs of interference light filters based on semiconductor materials for the infrared region of the spectrum conducted, and the method of their manufacture using the VU 1A installation was examined in more detail. To determine the design of future light filters, in particular, a special program used to calculate the spectral characteristics of the filter depending on the number of material film layers and the sprayed material itself.
The obtained data aimed at building complex equipment for monitoring the surrounding water environment, which allows
form reasonable recommendations, responses and define scenarios of automated actions. The use of automatic IBS monitoring will provide an opportunity to warn of air pollution and ensure the provision of timely measures for its purification. Key words: information and measurement system, nitrates, photometric scheme, ultraviolet LEDs, photodiodes, water environment monitoring.