Abstract
Daycare centers (DCCs) play an instrumental role in early childhood development, making them a significant indoor environment for a large number of children globally. Amidst routine DCC activities, young children are exposed to a myriad of volatile organic compounds (VOCs), potentially impacting their health. Therefore, this study aims to investigate the VOC emissions during typical DCCs activities and evaluate respective health risk assessments. Employing a full-scale experimental setup within a well-controlled climate chamber, research was conducted into VOC emissions during three typical DCC events: arts-and-crafts (painting, gluing, modeling), cleaning, and sleeping activities tied to mattresses. The research identified 96 distinct VOCs, grouped into twelve categories, from 20 different events examined. Each event exhibited a unique VOC fingerprint, pinpointing potential source tracers. Also, significant variations in VOC emissions from different events were demonstrated. For instance, under cool & dry conditions, acrylic painting recorded high total VOC concentrations of 808 μg/m3, whereas poster painting showed only 58 μg/m3. Given these disparities, the study emphasizes the critical need for carefully selecting arts-and-crafts materials and cleaning agents in DCCs to effectively reduce VOC exposure. It suggests ventilating new mattresses before use and regular mattress check-ups to mitigate VOCs exposure during naps. Importantly, it revealed that certain events resulted in VOC levels exceeding the 10−5 cancer risk thresholds for younger children. Specifically, tetrachloroethylene and styrene from used mattresses in cool & dry conditions, ethylene oxide from new mattresses in warm & humid conditions, and styrene, during sand modeling in both conditions, were the key compounds contributing to this risk. These findings highlight the critical need for age-specific health risk assessments in DCCs. This study highlights the significance of understanding the profiles of VOC emissions from indoor events in DCCs, emphasizing potential health implications and laying a solid foundation for future investigations in this field.
Original language | English |
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Article number | 170734 |
Number of pages | 18 |
Journal | Science of the Total Environment |
Volume | 918 |
DOIs | |
Publication status | Published - 25 Mar 2024 |
Bibliographical note
Publisher Copyright:© 2024 The Author(s)
Funding
We are grateful to all the funding parties ( Eindhoven University of Technology , and the China Scholarship Council ) for enabling this research. The colleagues in TU/e BPS laboratory, especially Anneke Delsing and Janneke De Kort (now at bba binnenmilieu), are acknowledged for their overall support during the extraction and processing of sampling tubes. All handling editors including Prof. Dr. Philip K. Hopke, etc., and anonymous reviewers are acknowledged for their thorough and professional evaluation of our work and for their helpful and constructive suggestions.
Keywords
- Chemical fingerprint
- Health risk assessment
- Indoor air quality
- Inhaled air quality
- Volatile organic compound
- Climate
- Environmental Monitoring
- Risk Assessment
- Humans
- Child, Preschool
- Volatile Organic Compounds/analysis
- Air Pollution, Indoor/analysis
- Styrenes
- Air Pollutants/analysis
- Child