Affiliation:
1. Faculty of Building Services, Technical University of Civil Engineering, 021414 Bucharest, Romania
2. National Institute for Research-Development in Construction, Urbanism and Sustainable Territorial Development—INCD URBAN-INCERC, 021652 Bucharest, Romania
Abstract
Decentralized ventilation systems in schools are becoming more important due to the focus on indoor air quality and energy economy. The research aims to explore how these technologies affect classroom air quality, thermal comfort, and noise. The study examined four decentralized ventilation systems in a real-world school using field measurements and data analysis. This included measuring the CO2, temperature, noise, and thermal comfort using the Predicted Mean Vote (PMV) index. All systems greatly improved the air quality, keeping CO2 levels within suggested limits. They failed to control indoor humidity, often lowering it to below optimal levels. Noise surpassed the 35 dB(A) criteria at maximum operation but was acceptable at lower airflows. Noise and air drafts did not bother residents. The study found that decentralized ventilation systems improve air quality and are easy to adapt to, although they need humidity control and noise management at higher operational levels.
Funder
National Research Grants of the UTCB
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference39 articles.
1. IEQ assessment on schools in the design stage;Catalina;Build. Environ.,2012
2. Tran, M.T., Wei, W., Dassonville, C., Martinsons, C., Ducruet, P., Mandin, C., Héquet, V., and Wargocki, P. (2023). Review of Parameters Measured to Characterize Classrooms’ Indoor Environmental Quality. Buildings, 13.
3. TAIL, a New Scheme for Rating Indoor Environmental Quality in Offices and Hotels Undergoing Deep Energy Renovation (EU ALDREN Project);Wargocki;Energy Build.,2021
4. PredicTAIL, a Prediction Method for Indoor Environmental Quality in Buildings Undergoing Deep Energy Renovation Based on the TAIL Rating Scheme;Wei;Energy Build.,2022
5. (2019). Energy Performance of Buildings. Ventilation for Buildings. Indoor Environmental Input Parameters for Design and Assessment of Energy Performance of Buildings Addressing Indoor Air Quality, Thermal Environment, Lighting, and Acoustics (Standard No. EN 16798-1).
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