мікроклімат

The impact of hazardous substances on working conditions in the energy sector, where in addition to physical microclimate indicators there is thermal radiation, gas emissions, vapors, metal dust, and radioactive materials, leads to risks to air quality in industrial premises. A decrease in air quality can result in the deterioration of workers health and the development of chronic diseases. This work demonstrates the need for a comprehensive approach to monitoring air quality in the working area of industrial premises with installed electrical distribution devices.

This paper is dedicated to the development of a unified system for monitoring microclimate parameters in the terrariums of the Kyiv Zoo. In cooperation with zoo representatives, existing methods and devices for artificially creating a microclimate in exhibition modules were reviewed and analyzed. The issues of this process were examined, and the main parameters for animal housing conditions were determined, such as air or water temperature, humidity, illumination, and the level of ultraviolet radiation. Six exhibition modules were selected for experimental studies.

The organization of air distribution is one of the key aspects of creating a comfortable and healthy indoor climate. The effectiveness of this process affects not only temperature and humidity, but also overall air quality, which directly impacts people's well-being. To ensure optimal air distribution, a variety of ventilation devices are used, including grilles and diffusers, which differ in design and technical characteristics. Recently, louvered linear diffusers have gained considerable popularity, combining high functionality with modern design.

This paper is devoted to the research of the important issue of increasing the efficiency and optimization of microclimate management processes in residential premises. The purpose of this study is to create an automated system for accurate setting and control of the main parameters of the microclimate in the room, which will make it possible to increase comfort and energy efficiency. To achieve the task, the Arduino platform is used, which is an open hardware and software system with a wide range of opportunities for developing embedded systems.