Particulate matter
Particulate matter (PM) present in the atmosphere exerts both direct and indirect impacts on human health and the environment. PM is associated with a wide range of health issues, including respiratory and cardiovascular diseases, while also exerting detrimental effects on industrial processes and ecological systems. Originating from diverse sources such as industrial emissions, combustion processes, and urban activities, PM necessitates effective removal technologies to ensure public safety.
Accordingly, the development of efficient and sustainable PM removal strategies is recognized as a pivotal requirement for safeguarding human health and preserving environmental integrity.
1. Effect of Racomitrium canascens on particulate matter reduction under flow and humidity condition
2. Photothermal-driven flow with water droplets for effective removal of indoor fine particulate matters
3. Effect of the flow structure on the indoor deposition of particulate matter
4. Effect of trichome structure of Tillandsia usneoides on deposition of particulate matter under flow conditions
5. Effect of flow and humidity on indoor deposition of particulate matter
6. Removal of fine particulate matter (PM2.5) via atmospheric humidity caused by evapotranspiration