Low-cost, low-tech passive construction strategies are more suitable for low- and middle-income countries, say researchers. Credit: Hogar de Cristo/Wikimedia Commons (CC BY-SA 4.0)
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Painting walls in light colors,
insulating roofs, choosing medium-sized windows, and aligning buildings to the
sun's path may seem like simple choices. But they could provide powerful
defenses against climate change for millions of people in the world's most
vulnerable regions.
That's the message of a study, appearing in the journal Energy and
Buildings, which identifies low-cost, climate-smart design strategies as
crucial for future housing in Latin America's rapidly warming cities.
Researchers used computer
simulations to test how various climate-resilient building projects would
perform under current and projected climate conditions in five major cities—Rio
de Janeiro and São Paulo, in Brazil, Santiago (Chile), Bogotá (Colombia), and
Lima (Peru).
They analyzed energy performance,
costs, and carbon emissions to determine which combinations of materials and designs could best
maintain comfortable conditions indoors while minimizing energy use.
Lead author Alexandre Santana Cruz,
who has a Ph.D. in architecture from the Federal University of Rio de Janeiro,
said, "The results indicate that widely used construction systems, such as
traditional masonry, fiber cement or clay tiles, combined with expanded
polystyrene and single-pane glass, represent the ideal configurations for
climate-resilient buildings in the countries analyzed."
This is what experts call passive
architectural design, which takes advantage of natural ventilation, shading and
sunlight to keep homes comfortable without heavy reliance on air conditioning.
Because they are affordable and
sustainable, these strategies are considered well-suited for low- and
middle-income countries.
According to the study, more than a
billion people worldwide live in inadequate housing, most of them in regions
such as Latin America, Africa, and the Asia Pacific, where populations are
growing rapidly and cities are expanding.
While advanced building
technologies can offer additional climate benefits, Santana Cruz warns that
high costs and the carbon emissions resulting from their production make them
unrealistic for widespread adoption in the region.
Architect Karen Carrer Ruman de
Bortoli, a professor at the Federal Institute of São Paulo, who did not
participate in the study, agrees. She says that low-cost, low-tech passive
strategies can lessen discomfort in warm climates and reduce the need for air
conditioning.
These strategies include proper
orientation for sunlight and wind, walls that are more resistant to heat
transfer, ventilated roofs, and integration of green spaces.
"In Latin
American countries, where social housing programs face similar challenges,
these types of measures—adapted to local climate conditions—have
the potential to reduce operating costs, mitigate health impacts, and avoid
hasty renovations that end up further compromising housing resilience,"
Bortoli said.
High costs
However,
despite their promise, these solutions are often overlooked in large-scale
housing schemes.
"Quality
architectural projects are often still perceived as subjective or associated
with high costs,
which hinders their adoption in vulnerable communities," said Santana
Cruz.
"Governments
and public
institutions often respond to housing shortages with
standardized social housing prototypes, which ignore the specific climatic and
urban characteristics of a location."
This oversight
is reflected in the findings of the MORA housing research group at the Federal
University of Uberlândia, of which Bortoli is a member. Their studies found
that homes built under a federal housing program in a city with a dry, mixed
climate often lacked proper passive design features, leaving families
vulnerable, especially during heat waves.
"This
problem is further exacerbated by subsequent, often informal and costly
renovations undertaken by residents themselves in an attempt to correct the
limitations of the original design," Bertoli added.
Tools and training
To bridge the
gap, researchers propose developing a free digital tool that can generate
customized housing designs
based on local climate and urban conditions.
They also
highlight the importance of community engagement and education. Providing new
homeowners with simple, practical advice on how they can adapt their own homes
could make a major difference in comfort and energy use, according to Bortoli.
"Simple
guidelines, such as the importance of shading, cross-ventilation, roof
maintenance, and even color selection, can significantly improve the thermal
comfort and overall resilience of homes without the need for major
investments," she explained.
Bortoli's
research group is already producing renovation guides and other online
information for architects, service providers, and residents.
The architect also points to the need to train construction and renovation workers and share best practices for home adaptation through community workshops.
Source: Climate-smart housing design helps cities beat the heat
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