Explains the mass-balance principle for predicting indoor pollutant concentrations and emphasizes ventilation importance.
Explores the complexity of indoor microbial communities and the impacts of microbes in buildings.
Explores atmospheric trace compounds, their monitoring, motivation, and measurement techniques.
Explores mass-balance principles and air-exchange rates for indoor air quality assessment.
Explores the impact of biomass burning on air quality and health, discussing pollutants emitted, global exposure, and indoor pollution comparison.
Explores clean cook stoves to improve indoor air quality and ventilation through ongoing research and resources for involvement.
Explores nanotoxicology and atmospheric chemistry, focusing on particle deposition, emission, and acid deposition.
Explores air-exchange rate measurement methods, tracer gases, and building variation.
Explores the impact of air pollution, including winter and summer smog, VOCs, emissions, health effects, and legal regulations.
Covers the basics of indoor air quality modeling and the importance of ventilation in indoor environments.
