Solar Chimney That Saves Energy and Lives

Google+ Pinterest LinkedIn Tumblr +


  • Solar chimneys are an under-appreciated and underdeveloped passive solar heating and cooling technology.
  • A collaborative project between RMIT University and the City of Kingston has sought to reverse this state of affairs, and more power to them.
  • After all, the U.S. Department of Energy estimates 19% of the world’s energy resources are used up in heating, ventilating, and cooling. 

Solar chimneys are able reduce energy usage by up to 50%, and the particular project developed at RMIT maximises efficiency in both ventilating fresh air and sucking out smoke in the event of a fire.

“Our research demonstrates that solar chimneys offer powerful benefits for both people’s safety and the environment,” says Dr Long Shi, Australian Research Council DECRA Fellow at RMIT, who hopes the research’s dual-function findings will inspire more investment and development in solar chimneys worldwide. 

Kingston City Council is an example of one such early investor, the Council was looking for innovative ways of reducing energy consumption in building design and took a punt on the solar chimney for its new Mentone Reserve Pavilion. Kingston Mayor Georgina Oxley called it a “truly remarkable design.” 

How It Works 

Everybody knows two things about hot air, it rises, and politicians are full of it. Perhaps the former explains the latter. Regardless, it is the fact that hot air rises which a solar chimney uses to its advantage. The sun warms a heat absorbing black painted wall inside the chimney which in turn warms the air inside the chimney. Vents at the top and bottom of the chimney control the airflow for either heating or cooling of that air. When the hot air rises to the top of the chimney it is ventilated out and cool air is drawn in at the bottom, the cycle operating the cool the building naturally. 

In turn, when the temperature outside is cold, the chimney can be closed and the captured heat is then directed back down into the building. With a design so elegantly simple it is nothing short of simply elegant. And as such, it is cheap to retrofit or incorporate into a new build. 

No One Left Behind 

RMIT’s modelling shows that the solar chimney extends the safe evacuation time of a building from approximately two minutes to over 14 mintues. 14 mintues is a long time by any measure, the average YouTube video is just under 12 minutes, so if a fire broke out in your building with a solar chimney, don’t worry, watch the next video then leg it. 

Although, it should be mentioned that the 6-fold increase in safe evacuation time is a statistic specific to the Mentone Reserve Pavilion, but there is a history of research, including research performed by a team from RMIT’s School of Engineering, which attests to the ventilating and smoke exhausting capabilities of solar chimneys. 

In much the same way as the solar chimney exhales hot air, so too does it suck smoke out during a fire, ensuring better visibility, lower temperatures and reduced carbon monoxide. 

RMIT Univesity’s modelling of carbon monoxide levels approximately 16 minutes after a fire breaks out demonstrates the dramatic difference in CO with a solar chimney (top) and without (bottom).Image: RMIT University

“This will differ from building to building,” said Shi, “but we know that any extra time is precious and improves fire safety, which could ultimately help to save lives.” 

The research, entitled:‘Solar chimney for a real building considering both functions of energy saving and fire safety – a case study’, was published in Energy and Buildings

Author: Blake Matich

This article was originally published in pv magazine and is republished with permission.


Leave A Reply

About Author

Green Building Africa promotes the need for net carbon zero buildings and cities in Africa. We are fiercely independent and encourage outlying thinkers to contribute to the #netcarbonzero movement. Climate change is upon us and now is the time to react in a more diverse and broader approach to sustainability in the built environment. We challenge architects, property developers, urban planners, renewable energy professionals and green building specialists. We also challenge the funding houses and regulators and the role they play in facilitating investment into green projects. Lastly, we explore and investigate new technology and real-time data to speed up the journey in realising a net carbon zero environment for our children.

Copyright Green Building Africa 2024.