House Indoor Thermal and Health Conditions with Different Passive Designs
According to the Auckland climate, building passive
design more focus on improving winter indoor thermal and health
conditions. Based on field study data of indoor air temperature and
relative humidity close to ceiling and floor of an insulated Auckland
townhouse with and without a whole home mechanical ventilation
system, this study is to analysis variation of indoor microclimate data
of an Auckland townhouse using or not using the mechanical
ventilation system to evaluate winter indoor thermal and health
conditions for the future house design with a mechanical ventilation
system.
[1] WHO, "Air quality guidelines for Europe 2000 - Second Edition WHO
Regional Publications", European Series, N91, 2000.
[2] J. Sateru, "Finnish Society of Indoor Air Quality and Climate (2004)
Performance Criteria of Buildings for Health and Comfort", CIB Task
Group TG42, published by CIB secretariat, No 292
[3] DBH, "Compliance Document for New Zealand Building Code - Clause
G5 Interior Environment," Wellington, New Zealand: Department of
Building and Housing, 2001.
[4] SANZ, "New Zealand Standard 4303-1990 Ventilation for Acceptable
Indoor Air Quality," Wellington, New Zealand: Standards Association
of New Zealand, 1990.
[5] Su, B. (2002). "A field study of mould growth and indoor health
conditions in Auckland dwellings." Architectural Science Review, vol.
45, no. 4, pp. 275-284, Dec. 2002.
[6] B. Su, "Prevention of winter mould growth in housing," Architectural
Science Review, vol. 49, no. 4, pp. 385-390, Dec. 2006.
[1] WHO, "Air quality guidelines for Europe 2000 - Second Edition WHO
Regional Publications", European Series, N91, 2000.
[2] J. Sateru, "Finnish Society of Indoor Air Quality and Climate (2004)
Performance Criteria of Buildings for Health and Comfort", CIB Task
Group TG42, published by CIB secretariat, No 292
[3] DBH, "Compliance Document for New Zealand Building Code - Clause
G5 Interior Environment," Wellington, New Zealand: Department of
Building and Housing, 2001.
[4] SANZ, "New Zealand Standard 4303-1990 Ventilation for Acceptable
Indoor Air Quality," Wellington, New Zealand: Standards Association
of New Zealand, 1990.
[5] Su, B. (2002). "A field study of mould growth and indoor health
conditions in Auckland dwellings." Architectural Science Review, vol.
45, no. 4, pp. 275-284, Dec. 2002.
[6] B. Su, "Prevention of winter mould growth in housing," Architectural
Science Review, vol. 49, no. 4, pp. 385-390, Dec. 2006.
@article{"International Journal of Architectural, Civil and Construction Sciences:57817", author = "Bin Su", title = "House Indoor Thermal and Health Conditions with Different Passive Designs", abstract = "According to the Auckland climate, building passive
design more focus on improving winter indoor thermal and health
conditions. Based on field study data of indoor air temperature and
relative humidity close to ceiling and floor of an insulated Auckland
townhouse with and without a whole home mechanical ventilation
system, this study is to analysis variation of indoor microclimate data
of an Auckland townhouse using or not using the mechanical
ventilation system to evaluate winter indoor thermal and health
conditions for the future house design with a mechanical ventilation
system.", keywords = "House ventilation, indoor thermal condition, indoor
health condition, passive design.", volume = "6", number = "6", pages = "396-4", }