Thermally uncomfortable outdoor environments can significantly affect liveability of cities. Australia is likely to experience between 0.6 °C and 3.8 °C increase in temperature by the end of the 21st century. In warmer climates, increased demand for indoor air-conditioning results in higher energy demand and greater waste heat production. Anthropogenic heat production in the built...

Heatwaves are Australia’s most deadly natural hazard and the principle driver of peak electricity demand in South Australia. The disproportionately high peak demand increases electricity prices, causes occasional blackouts and exacerbates energy poverty, all of which limit the use of air-conditioning. Meanwhile, the desire for more energy efficient homes may decrease their heat stress resistance...

The report was undertaken as part of a PhD research, funded by the CRC for Low Carbon Living Ltd. supported by the Cooperative Research Centres program, an Australian Government initiative and a research student scholarship granted from the Australian Building Codes Board.

This study assesses the daily excess morbidity, energy demand and consumption, and water supply in the Adelaide metropolitan region during heatwaves, between January 2008 and March 2014.

Distributed electrical energy storage can help reduce the CO2 emissions associated with the use of electrical energy, better enabling distributed generation of energy from sources such as rooftop photovoltaic (PV) systems. However, electricity distribution systems were not designed to allow power to flow from consumers to the grid, limiting how much power can be exported...