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Urban heating and cooling to play substantial role in future energy demand under climate change

Urban heating and cooling to play substantial role in future energy demand under climate change


This graphic shows the climate-driven physical and chemical feedbacks between a warmer climate and urban heating and cooling energy use. Credit: Michael Vincent and Lei Zhao

Existing global energy projections underestimate the impact of climate change on urban heating and cooling systems by roughly 50% by 2099 if greenhouse gas emissions remain high, researchers report. This disparity could profoundly affect critical sustainable energy planning for the future.

Existing studies predominantly concentrate on chemical feedback loops, which are large-scale processes involving between energy use, and the atmosphere. However, a research group led by the University of Illinois Urbana-Champaign focuses on the often-overlooked physical interactions between and the atmosphere that can contribute to local microclimates and, ultimately, global climate.

A new study led by civil and environmental engineering professor Lei Zhao emphasizes that smaller-scale city-level waste heat from residential and commercial property heating and cooling efforts can lead to big impacts on local climates and energy use. The study findings are published in the journal Nature Climate Change.

“The heat generated from heating and cooling systems is a substantial part of the total heat generated within ,” Zhao said. “These systems generate a lot of heat that is released into the atmosphere within cities, making them hotter and further increasing the demand for indoor cooling systems, which feeds even more heat into local climates.”

This process is part of what researchers call a positive physical feedback loop between building cooling-system use and the warming of local urban environments. The authors also note that rising temperatures under climate change could potentially decrease during the colder months, a that should be considered in any temperature and energy demand projections.

A new study by University of Illinois engineers found that urban heating and cooling will play a substantial role in future energy demand under climate change. Credit: Tinou Bao

According to the study, less heating use would lead to less being released into the urban environment, inducing less urban warming than under the present climate.

“This process forms a negative physical feedback loop that may dampen the heating demand decrease,” Zhao said. “But it does not by any means cancel out the positive feedback loop effect. Instead, our model suggests that it could polarize the seasonal electricity demand, which poses its own set of problems for which careful planning is needed.”

To include these overlooked physical contributions into the larger overall picture of climate change, the team used a hybrid modeling framework that combines dynamic Earth system modeling and machine learning to examine the global urban heating and cooling energy demand under urban climate change variability and uncertainties—including the spatial and temporal challenges posed by the fact that cities vary in income, infrastructure, population density, technology and temperature tolerance.

“I think the take-home message for this study is that energy projections that integrate the effects of positive and negative physical feedback loops are needed and will lay the groundwork for more comprehensive climate impact assessment, science-based policymaking and coordination on climate-sensitive energy planning.”

Zhao’s team is already learning how variables and uncertainties like humidity, building materials and future climate-mitigating efforts will further factor into their models to improve energy-demand projections.

More information:
Xinchang ‘Cathy’ Li et al, Elevated urban energy risks due to climate-driven biophysical feedbacks, Nature Climate Change (2024). DOI: 10.1038/s41558-024-02108-w. www.nature.com/articles/s41558-024-02108-w

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Urban heating and cooling to play substantial role in future energy demand under climate change (2024, September 13)
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