BACKGROUND
Healthy building design is strongly influenced by outdoor climate of various scales, i.e. regional, city and neighbourhood, as well as future climate change and extremes. For example, the intense urban heat island effect and high air pollution level in megacities could restrict the use of natural ventilation for buildings, reduce the access to the fresh air and increase the indoor air pollution. In a similar fashion, at the neighbourhood scale, the urban design at the immediate surrounding of the building such as tree planting, building block arrangement, and location of the water body will affect the building environmental performance and even occupant’s mental health.
Due to climate change, the outdoor environment will face more intense changes in temperature and humidity in the long-term. Concentrations of some typical outdoor pollutants, such as ozone, may also be affected. Under this context, the traditional healthy building design considering one isolated building and present climate is therefore challenged in terms of achieving a healthy indoor environment and adapting to the future climate. In this workshop, we will explore the research opportunities by providing a holistic view of connecting indoor and outdoor environment for healthy living under present and future climates.
AIMS AND SCOPE
This workshop aims to advance our understanding on the interaction of indoor and outdoor climate under the background of climate change and urbanization. The scope of the workshop includes but not limited to:
1) Climate change and indoor environmental quality
2) Urban climate and indoor environmental quality
3) Behaviour change on IEQ from climate change and urbanization
4) Multi-scale approach to address IEQ problems
PRESENTATIONS
Impact of climate change on indoor air quality
Aya Mansouri CSTB, France
Modelling framework for estimating the influence of climate change on indoor air quality
Tunga Salthammer Fraunhofer WKI
Predicting natural ventilation potential in idealised urban neighbourhoods in Shanghai, China
Xiaoxiong Xie University of Reading, UK
Evaluation of heat stress effect on health in dwellings using thermo-physiological model
Jean-Marie Alessandrin CSTB, France
A Method of Selecting Future Reference Years for Indoor Overheating Assessment
Jiwei Zou Concordia University, Canada
Impact of occupancy schedule on building anthropogenic heat emission
Yiqing Liu University of Reading, UK
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ID: 147
Workshops
Topics: 10a. Mega-trends and indoor air quality - Urbanization and the consequences for IEQ, 10b. Mega-trends and indoor air quality - Climate change and indoor climateKeywords: Climate change, urban climate, indoor air quality, healthy building
Exploring indoor-outdoor connections for healthy building design under rapid urbanization and climate change
Chair(s): Zhiwen Luo (University of Reading, United Kingdom), Wenjuan Wei (Scientific and Technical Centre for Building (CSTB), France)
Presenter(s): Aya Mansouri (Scientific and Technical Centre for Building (CSTB), France), Tunga Salthammer (Fraunhofer WKI DE, Germany), Xiaoxiong Xie (University of Reading, United Kingdom), Jean-Marie Alessandrini (Scientific and Technical Centre for Building (CSTB), France), Jiwei Zou (Concordia University, Canada), Yiping Liu (University of Reading, United Kingdom), Zhiwen Luo (University of Reading, United Kingdom)
ID: 1406
/ WS28: 2
Extended abstracts / Full papers
Oral presentation
ONSITE
Topics: 10b. Mega-trends and indoor air quality - Climate change and indoor climateKeywords: temperature, humidity, SVOC, particle, housing
Impact of climate change on indoor air quality
Aya Mansouri1, Wenjuan Wei1, Jean-Marie Alessandrini1, Corinne Mandin1, Patrice Blondeau2
1CSTB (Scientific and Technical Center for Building), France; 2LaSIE (Laboratoire es Sciences de l’Ingénieur pour l’Environnement), La Rochelle Université, France
ID: 1268
/ WS28: 3
Extended abstracts / Full papers
Oral presentation
ONSITE
Topics: 9a. Sustainable and healthy building - Energy efficiency, 10a. Mega-trends and indoor air quality - Urbanization and the consequences for IEQKeywords: Urban microclimate, natural ventilation potential, cooling energy saving
Predicting natural ventilation potential in idealised urban neighbourhoods in Shanghai, China
Xiaoxiong Xie1, Zhiwen Luo1, Sue Grimmond2, Ting Sun2, Lewis Blunn2
1School of the Built Environment, University of Reading, United Kingdom; 2Department of Meteorology, University of Reading, United Kingdom
ID: 1155
/ WS28: 4
Extended abstracts / Full papers
Oral presentation
ONSITE
Topics: 3. Thermal comfort, 9c. Sustainable and healthy building - Intelligent design and solutionsKeywords: Climate change, Building, Physiological modeling, Temperature, Heat exposure, heat stress, heat strain, health risk
Evaluation of heat stress effect on health in dwellings using thermophysiological model
Jean-Marie Alessandrini1, Wenjuan Wei1, Mohamad El Kadri1, Simon Molesin2, Thomas Dominati2, Jacques Ribéron1, Charles Pelé1, Corinne Mandin1
1cstb, France; 2RIVP, Franc
ID: 1525
/ WS28: 5
Extended abstracts / Full papers
Oral presentation
ONLINE
Topics: 10b. Mega-trends and indoor air quality - Climate change and indoor climateKeywords: Climate change, Future climate data, Overheating assessment, Reference year selection model
Assessment of Future Indoor Overheating in Three Canadian cities using a Reference Year Selection Method
Jiwei Zou1, Abhishek Gaur2, Liangzhu Wang1
1Centre for Zero Energy Building Studies, Department of Building, Civil and Environmental Engineering, Concordia University, Montreal, Canada; 2Construction Research Centre, National Research Council Canada, 1200 Montreal Road, K1A 0R6, Ottawa, Ontario, Canada
ID: 1265
/ WS28: 6
Extended abstracts / Full papers
Oral presentation
ONSITE
Topics: 10a. Mega-trends and indoor air quality - Urbanization and the consequences for IEQ, 10b. Mega-trends and indoor air quality - Climate change and indoor climateKeywords: Anthropogenic heat flux; Building heat emission; Storage heat flux; Urban surface energy balance; Building energy simulation
Impact of occupancy schedule on building anthropogenic heat emission
Yiqing Liu1, Zhiwen Luo1, Sue Grimmond2
1School of the Built Environment, University of Reading, United Kingdom; 2Department of Meteorology, University of Reading, United Kingdom
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