References
- Ambrose, M., M. James, A. Law, P. Osman, and S. White. 2013. The Evaluation of the 5-Star Energy Efficiency Standard for Residential Buildings. Canberra: CSIRO.
- Arens, E. A., and A. V. Baughman. 1996. “Indoor Humidity and Human Health: Part II – Buildings and their Systems.” ASHRAE Transactions 102 (1): 212–221.
- Arundel, A. V., E. M. Sterling, J. H. Biggin, and T. D. Sterling. 1986. “Indirect Health Effects of Relative Humidity in Indoor Environments.” Environmental Health Perspectives 65: 351–361.
- ASHRAE. 2013. ANSI/ASHRAE Standard 55-2013: Thermal Environmental Conditions for Human Occupancy. American Society of Heating and Refrigerating and Air-Conditioning Engineers, Inc.
- ASHRAE. 2017. ASHRAE Handbook – Fundamentals (SI Edition). Chapter 9 – Thermal Comfort, American Society of Heating and Refrigerating and Air-Conditioning Engineers, Inc.
- Autodesk. 2016. Autodesk Ecotect Analysis, Autodesk, Inc.
- Berglund, L. G. 1998. “Comfort and Humidity.” ASHRAE Transactions 40: 35–41.
- Causone, F. 2016. “Climatic Potential for Natural Ventilation.” Architectural Science Review 59 (3): 212–228. doi: 10.1080/00038628.2015.1043722
- CEN (Comité Européen de Normalisation). 2007. Standard EN 15251: Indoor Environmental Input Parameters for Design and Assessment of Energy Performance of Buildings Addressing Indoor Air Quality, Thermal Environment, Lighting and Acoustics. Brussels, European committee for Standardisation.
- Chen, D., and H. W. Chen. 2013. “Using the Köppen Classification to Quantify Climate Variation and Change: An Example for 1901–2010.” Environmental Development 6: 69–79. doi: 10.1016/j.envdev.2013.03.007
- Commonwealth of Australia. 2016. NatHERS Accredited Software. Accessed May 12, 2016. http://www.nathers.gov.au/.
- de Dear, R. 2006. Adaptive Thermal Comfort in Building Management and Performance Proceedings of Healthy Buildings 2006. E. d. O. Fernandes, M. G. d. Silva and J. R. Pinto. Lisbon, Portugal, 31–36.
- de Dear, R. J., and G. S. Brager. 1998. “Developing an Adaptive Model of Thermal Comfort and Preference.” ASHRAE Transactions 104 (1): 145–167.
- de Dear, R. J., and G. S. Brager. 2002. “Thermal Comfort in Naturally Ventilated Buildings: Revisions to ASHRAE Standard 55.” Energy and Buildings 34 (6): 549–561. doi: 10.1016/S0378-7788(02)00005-1
- de Schiller, S., and J. M. Evans. 1990/1991. “Bridging the gap between Climate and Design at the Urban and Building Scale: Research and Application.” Energy and Buildings 15 (1–2): 51–55. doi: 10.1016/0378-7788(90)90115-Y
- de Schiller, S., and J. M. Evans. 1996. “Training Architects and Planners to Design with Urban Microclimates.” Atmospheric Environment 30 (3): 449–454. doi: 10.1016/1352-2310(94)00139-1
- Fountain, M., E. A. Arens, T. Xu, F. Bauman, and M. Oguru. 1999. “An Investigation of Thermal Comfort at High Humidities.” ASHRAE Transactions 105 (2): 94–103.
- Givoni, B. 1976. Man, Climate and Architecture. London: Applied Science.
- Givoni, B. 1998. Climate Considerations in Building and Urban Design. New York: Van Nostrand Reinhold.
- Jing, S., B. Li, M. Tan, and H. Liu. 2013. “Impact of Relative Humidity on Thermal Comfort in a Warm Environment.” Indoor and Built Environment 22 (4): 598–607. doi: 10.1177/1420326X12447614
- Kennedy, R. 2010. Subtropical Design in South East Queensland: A Handbook for Planners, Developers and Decision Makers. Brisbane, Centre for Subtropical Design, QUT.
- Koenigsberger, O. H., T. G. Ingersoll, A. Mayhew, and S. V. Szokolay. 1974. Manual of Tropical Housing and Building – Part one: Climatic Design. London: Orient Longman Private Limited.
- Köppen, W. 1900. “Versuch einer Klassifikation der Klimate, vorzugsweise nach ihren Beziehungen zur Pflanzenwelt.” Geographische Zeitschrift 6: 657–679.
- Masterson, J., and A. Richardson. 1979. Humidex, a Method of Quantifying Human Discomfort due to Excessive Heat and Humidity. Downsview, ON: Environment Canada.
- Memmott, P. 2007. Gunyah, Goondie + Wurley: The Aboriginal Architecture of Australia. Brisbane: University of Queensland Press.
- Olgyay, V. 1963. Design with Climate: Bioclimatic Approach to Architecural Regionalism. Princeton, NJ: University Press.
- Oliver, P. 1997. Encyclopedia of Vernacular Architecture of the World. Cambridge: Cambridge University Press.
- Ooka, R. 2002. “Field Study on Sustainable Indoor Climate Design of a Japanese Traditional Folk House in Cold Climate Area.” Building and Environment 37 (3): 319–329. doi: 10.1016/S0360-1323(00)00085-8
- Rana, R., B. Kusy, R. Jurdak, J. Wall, and W. Hu. 2013. “Feasibility Analysis of Using Humidex as an Indoor Thermal Comfort Predictor.” Energy and Buildings 64: 17–25. doi: 10.1016/j.enbuild.2013.04.019
- Rasouli, M., G. Ge, C. J. Simonson, and R. W. Besant. 2014. “Optimal Control of Energy Recovery Ventilators During Cooling Season.” ASHRAE Transactions 120 (1): 386–396.
- Reardon, C., and P. Downton. 2013. Design for Climate. Your Home: Australia’s Guide to Environmentally Sustainable Homes, 90–103. Canberra: Department of Industry.
- Szokolay, S. V. 1982. Climatic Data and its Use in Design. Canberra: RAIA Education Division.
- Szokolay, S. V. 1986. “Climate Analysis Based on the Psychrometric Chart.” International Journal of Ambient Energy 7 (4): 171–182. doi: 10.1080/01430750.1986.9675499
- Szokolay, S. V. 2008. Introduction to Architectural Science: The Basis of Sustainable Design. London: Architectural Press.
- UCLA Energy Design Tools Group. 2014. Climate Consultant. Los Angeles, CA: University of California.
- Upadhyay, A. K. 2008. Climate Responsive Design Strategies for Sydney Metropolitan Region. Third International Conference of the CRC for Construction Innovation 2008. Gold Coast.
- Upadhyay, A. K., H. Yoshida, and H. B. Rijal. 2006. “Climate Responsive Building Design in the Kathmandu Valley.” Journal of Asian Architecture and Building Engineering 5 (1): 169–176. doi: 10.3130/jaabe.5.169
- Wang, F., and Y. Liu. 2002. “Thermal Environment of the Courtyard Style Cave Dwelling in Winter.” Energy and Buildings 34 (10): 985–1001. doi: 10.1016/S0378-7788(01)00145-1