Water technology could combat extreme Sydney heat and cut death rates

8 December 2017

Could a fountain save a life? Groundbreaking research from UNSW Sydney and Sydney Water has found that installing more water features including public fountains, ponds and mist in western Sydney could reduce the mortality rate during heatwaves by almost 50%.

Bound between the Blue Mountains and the CBD, Sydney's west receives little relief from cool sea breezes, with summer temperatures six to 10 degrees higher than in the east. The west also has up to three times as many heat-related deaths compared to the east during periods of extreme temperatures.

Mat Santamouris, Professor of High Performance Architecture in UNSW Built Environment and lead researcher on the Cooling Western Sydney study, says water technology, cool tiling and pavement materials, and more canopies are crucial to providing relief from the urban heat island effect.

“The solution is not just about planting trees, which seems to be the commonly held view,” Professor Santamouris says. “We must take a multi-faceted approach that includes using water technology and high solar reflectance, or albedo, on roofs, building facades and pavements."

By implementing these technologies, the study shows that the peak ambient temperature in Sydney's west could be reduced by 2.5 degrees and peak electricity demand could drop by almost 5%, which equals almost one million tons of avoided CO2 emissions, the equivalent of removing more than 200,000 average sized cars from the roads each year.

The study, in collaboration with the CRC for Low Carbon Living (CRCLCL), examined eight sites in the west from 2014 to 2017, including Penrith, Canterbury, Liverpool, Bankstown, Fairfield, Campbelltown, Hawkesbury and Parramatta.

It found that installing water systems such as pools, sprinklers, fountains, evaporative wind towers and water curtains in combination with high-reflective materials such as infrared reflective tiles and white cool roofs can significantly lower the ambient temperature.

The research found that in the far west, this could lead to reducing the cumulative heat-related deaths from 14 to 7.5 per 100,000 people.  

Energy savings from installing these technologies would save 1726 gigawatt hours (GWh) per year or 1.726 billion kilowatt hours, Professor Santamouris says. The average Australian house uses 6,570 kilowatt hours (KWh) per year. This saving is the equivalent used to power around 262,000 homes for a year.

"This means that we can’t rely solely on urban green spaces as a means of cooling the city in extreme temperatures. When trees are subjected to extreme heat stress, they go into survival mode to conserve water to keep themselves cool,” he said.

CEO of the CRCLCL, Professor Deo Prasad AO, said the issue of resilience and extreme heat mitigation in the built environment is just one of the areas the CRCLCL is focusing on.

“The CRCLCL is researching the connection between design, development and planning and how they can work together to better deal with urban heat mitigation, including developing precinct guidelines that will provide sound evidence for planning policy innovation.”

Read the full report here