Abstract
Indoor air quality (IAQ) has gained renewed importance in public awareness, especially in times of the corona pandemic. In classrooms in particular, regular ventilation is essential to keep the potential viral load in the air as low as possible and thus reduce the likelihood of infection with the corona virus. But also the concentration of other pollutants, such as particulate matter (PM) or volatile organic compounds (VOCs), which are responsible for symptoms such as concentration disorders, headaches and dizziness can be reduced. In addition to the direct measurement of VOC pollutants using metal oxide semiconductor (MOS) gas sensors, CO2is also measured as an indicator gas for monitoring IAQ. However, young people in particular have only a diffuse idea of air pollutants. This can be explained by the fact that many of these air pollutants are both odorless and colorless and are only detectable using suitable sensors. In order to provide students with a comprehensive picture of the topic of air quality and thus strengthen their environmental awareness, declarative, conceptual and procedural knowledge needs to be combined. This includes knowledge about different sensor principles, pollutant types, their limits, health effects on humans and strategies to maintain good air quality, both indoors and outdoors. To ensure that this knowledge does not remain inert, authentic learning scenarios with a direct relevance to everyday life must be provided. Measuring pollutants in indoor air in particular offers the opportunity to apply what has been learned in a context-oriented manner. By linking the performance of measurements with sensors and the subsequent interpretation of measurement results, environmental awareness can be sharpened with regard to IAQ. This can be achieved by measuring pollutants with sensors and then interpreting and classifying the measurement results. In this paper, various student experiments with gas sensors are presented that introduce the function principles of different sensor types, record air quality data and provide meaningful interpretation. Based on these experiences, students are encouraged to develop their own research questions on air quality.
Highlights
The environmental awareness for air pollution is still not very distinct in the general population and especially young people often have only a diffuse and abstract idea of air pollutants. This can be explained by the fact that many air pollutants are both odorless and colorless
Already in the 19th century, Pettenkofer recognized that the CO2 concentration could be used as an indicator for indoor air quality (IAQ), since it correlates with the total VOC (TVOC) concentration if humans are the primary source of volatile organic compounds (VOCs)
According to today’s understanding, environmental awareness is composed of various factors and includes environmental knowledge and aspects of environmental attitude and environmental behavior
Summary
The environmental awareness for air pollution is still not very distinct in the general population and especially young people often have only a diffuse and abstract idea of air pollutants. To actively involve students in the process of maintaining good IAQ and to create acceptance for ventilation measures, the development of environmental awareness about pollutants and air quality is a basic requirement. In the first step, it is crucial to provide declarative and conceptual knowledge about the existence of pollutants, their sources, limit values, health effects on humans, and main measurement principles for objective quantification of pollutants.
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