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Bacon, M (2014) Occupancy analytics: a new basis for low-energy?low-carbon hospital design and operation in the UK. Architectural Engineering and Design Management, 10(01), 146-63.

Christina, S, Dainty, A, Daniels, K and Waterson, P (2014) How organisational behaviour and attitudes can impact building energy use in the UK retail environment: a theoretical framework. Architectural Engineering and Design Management, 10(01), 164-79.

Gram-Hanssen, K (2014) New needs for better understanding of household's energy consumption ? behaviour, lifestyle or practices?. Architectural Engineering and Design Management, 10(01), 91-107.

Kaluarachchi, Y and Jones, K (2014) Promoting low-carbon home adaptations and behavioural change in the older community. Architectural Engineering and Design Management, 10(01), 131-45.

Mokhtar Azizi, N S, Wilkinson, S and Fassman, E (2014) Management practice to achieve energy-efficient performance of green buildings in New Zealand. Architectural Engineering and Design Management, 10(01), 25-39.

Mulville, M, Jones, K and Huebner, G (2014) The potential for energy reduction in UK commercial offices through effective management and behaviour change. Architectural Engineering and Design Management, 10(01), 79-90.

Palmer, J, Bennetts, H, Pullen, S, Zuo, J, Ma, T and Chileshe, N (2014) The effect of dwelling occupants on energy consumption: the case of heat waves in Australia. Architectural Engineering and Design Management, 10(01), 40-59.

• Type: Journal Article
• Keywords:
• ISBN/ISSN: 1745-2007
• URL: https://doi.org/10.1080/17452007.2013.837247
• Abstract:
  Climate change predictions indicate more extremes in weather conditions in the coming decades with more frequent and severe heat waves in certain locations including Australia. It is likely that the more vulnerable members of the community will be at risk during heat waves in the future from both health and financial perspectives. The trend towards fully air conditioned larger homes has already seen very large peaks in electricity demand during past heat waves. Electricity prices have increased substantially in recent years and will increase further due to greater peak demand and environmental levies. To manage the risks to dwelling occupants during heat waves, research has been carried out to determine methods of promoting adaptive behaviours through residential design. This paper describes the concept of a cool retreat within a dwelling which can provide comfort conditions with minimal cooling costs during heat wave periods. The cool retreat concept is shown to have its origins in the past in a number of locations around the world subject to hot conditions. Various cool retreat configurations have been analysed for thermal performance, demonstrating the viability of this approach for dealing with extreme conditions in the future.

Spataru, C and Gauthier, S (2014) How to monitor people ?smartly? to help reducing energy consumption in buildings?. Architectural Engineering and Design Management, 10(01), 60-78.

Tweed, C, Dixon, D, Hinton, E and Bickerstaff, K (2014) Thermal comfort practices in the home and their impact on energy consumption. Architectural Engineering and Design Management, 10(01), 1-24.

Zeiler, W, Vissers, D, Maaijen, R and Boxem, G (2014) Occupants? behavioural impact on energy consumption: ?human-in-the-loop? comfort process control. Architectural Engineering and Design Management, 10(01), 108-30.