Santamouris Honored for Lifetime in Sustainable Architecture

UNSW Sydney

The UNSW Professor is honoured for his innovative heat mitigation technologies and strategies for cities.

Scientia Professor Mat Santamouris has been awarded the prestigious 2024 PLEA Lifetime Award for "outstanding achievement in advancing the fields of architecture, urban planning, sustainability and resilience".

The Anita Lawrence Professor of High Performance Architecture at UNSW Sydney received the award at the (Re)thinking Resilience PLEA 2024 Conference held in Poland.

PLEA (Passive and Low Energy Architecture) is the leading international organisation for the development of sustainable architecture and urban design.

Professor Claire Annesley, Dean of UNSW's Faculty of Arts, Design & Architecture, said, "I congratulate Professor Santamouris on his award in recognition of his contribution to research in sustainable architecture.

"He is one of the most cited researchers in his field and is making a powerful impact on approaches to cooling cities in the face of climate change."

Prof. Santamouris said he and his colleagues had been working for more than 30 years to develop advanced technologies aiming to mitigate urban heat, decrease the energy and environmental impact of cities, protect low-income populations and improve the urban environmental quality.

"I feel proud, flattered and very emotional to receive this award from such a prestigious international organisation," said Prof. Santamouris. "To have the work recognised in this way, at the very highest level, is very special.

"I will continue my efforts and the scientific work to develop more efficient mitigation technologies to counterbalance the impact of urban overheating. The tremendous human penalty paid recently in Mecca, Pakistan and India is extremely alarming and determines our scientific and human duty to be more efficient and more helpful."

Mitigating heat in cities

Extreme urban heat is the most documented climate change phenomenon and affects more than 450 cities worldwide, increasing energy consumption needs and adversely impacting health, including heat-related illness and death.

Prof. Santamouris has undertaken large-scale mitigation projects around the world, including in Sydney and Darwin. Earlier this year, he published a study in Nature Cities, detailing a multi-faceted strategy to cool Riyadh, Saudia Arabia's capital, by up to 4.5°C.

His work includes developing thermochromic materials such as paint that changes colour with the temperature to keep places cool in summer and warm in winter; nanotechnology that gives surfaces a much lower temperature than the ambient temperature; and ultra-reflective photonic materials that absorb less heat.

He has also developed new intelligent building materials that can change the amount of heat they reflect and emit in response to air temperatures.

Green roofs can cool cities and save energy: modelling (unsw.edu.au)

Reflective materials and irrigated trees: study shows how to cool one of the world's hottest cities by 4.5°C (unsw.edu.au)

Innovative building materials help moderate temperature year-round (unsw.edu.au)

Cooling Darwin: UNSW plan to fight climate change

/Public Release. This material from the originating organization/author(s) might be of the point-in-time nature, and edited for clarity, style and length. Mirage.News does not take institutional positions or sides, and all views, positions, and conclusions expressed herein are solely those of the author(s).