Estimation of children’s CO2 generation rates in naturally ventilated educational buildings
Cita com:
hdl:2117/407407
Document typeArticle
Defense date2024-06-01
PublisherElsevier
Rights accessOpen Access
Except where otherwise noted, content on this work
is licensed under a Creative Commons license
:
Attribution-NonCommercial-NoDerivs 4.0 International
ProjectESTRATEGIAS DE VENTILACION OPTIMIZADAS CONSIDERANDO LA CALIDAD DEL AIRE INTERIOR, EL CONFORT TERMICO Y EL CONSUMO DE ENERGIA EN EDIFICIOS EDUCATIVOS (AEI-PID2020-117366RB-I00)
SISTEMA MODULAR DE VENTILACION PARA EDIFICIOS EDUCATIVOS INTEGRADO CON LA PRODUCCION URBANA DE ALIMENTOS: INCREMENTAR LA EFICIENCIA ENERGETICA Y LA SOSTENIBILIDAD DEL EDIFICIO (AEI-PID2021-126845OB-C22)
SISTEMA DE VENTILACION PARA ESCUELAS INTEGRADO CON LA PRODUCCION DE ALIMENTOS: EXPLORANDO LA GENERACION DE CO2 EN INTERIORES A PARTIR DE LA RESPIRACION PARA PRODUCIR ALIMENTOS (AEI-PID2021-126845OB-C21)
SISTEMA MODULAR DE VENTILACION PARA EDIFICIOS EDUCATIVOS INTEGRADO CON LA PRODUCCION URBANA DE ALIMENTOS: INCREMENTAR LA EFICIENCIA ENERGETICA Y LA SOSTENIBILIDAD DEL EDIFICIO (AEI-PID2021-126845OB-C22)
SISTEMA DE VENTILACION PARA ESCUELAS INTEGRADO CON LA PRODUCCION DE ALIMENTOS: EXPLORANDO LA GENERACION DE CO2 EN INTERIORES A PARTIR DE LA RESPIRACION PARA PRODUCIR ALIMENTOS (AEI-PID2021-126845OB-C21)
Abstract
Indoor CO CO 2 2 concentration serves as an indicator of indoor air quality, which is mainly influenced by occupants’ generation rate, outdoor ventilation rate and outdoor CO 2 levels. Determining the CO 2 generation rate is fundamental to design effective ventilation systems that ensure good indoor air quality. The ASTM D6245 standard offers a method to estimate human CO 2 generation based on sex, age, body mass, and activity level. However, due to the limited number of studies on CO 2 generation rate for children and adolescents in daily scholarly activities, accurated values are difficult to estimate. This research uses a stochastic grey box modelling approach to estimate CO 2 generation rates in naturally ventilated schools and compares it with the standard approach. This method can address the complexities and variations in real educational environments. The proposed model was verified through an experimental campaign including 32 classrooms with students aged 4, 10, 13 and 16 years. The model provided a detailed description of the indoor CO 2 cases. Estimated CO 2 dynamics in 72% of the studied generation rates were found to be in line with the expected standard value of between 1.0 MET to 2.0 MET activity levels (7.07–12.65 L/h for a 4-year-old, 9.63–13.29 L/h for a 10-year-old, 14.54–19.32 L/h for a 13-year-old, and 12.11–20.53 L/h for a 16-year-old). These findings not only bridge the gap in children’s CO 2 generation rates but also introduce a novel approach to assess human CO uncontrolled conditions.
CitationTugores, J.; Macarulla, M.; Gangolells, M. Estimation of children's CO2 generation rates in naturally ventilated educational buildings. "Building and environment", 1 Juny 2024, vol. 257, núm. article 111550.
ISSN1873-684X
Publisher versionhttps://www.sciencedirect.com/science/article/pii/S0360132324003925
Files | Description | Size | Format | View |
---|---|---|---|---|
1-s2.0-S0360132324003925-main.pdf | Estimation of children’s CO₂ generation rates in naturally ventilated educational buildings | 4,271Mb | View/Open |