Tall, chimney-like towers rise from centuries-old adobe houses in Iran's desert city of Yazd, drawing in a pleasant breeze for residents of one of the hottest cities on earth.
The wind catchers, called badgirs in Persian, are just one of the engineering marvels inhabitants have developed in this ancient city in central Iran -- where temperatures reach well over 40 degrees celsius (104 Fahrenheit) in the summer.
And, unlike energy-guzzling air-conditioners, they're cost and carbon-free.
 A view of wind-catchers ("badir" in Persian). AFPÂ
"For centuries, before we had electricity, they made it possible to cool dwellings," said Abdolmajid Shakeri, the provincial deputy of Iran's cultural heritage and tourism ministry.
The oldest of the city's 700 wind catchers dates back to the 14th century, but the architectural feature is believed to date back as far as 2,500 years when the Persian Empire ruled over much of the Middle East.
"The badgirs played a key role in the city's prosperity," said Shakeri about the desert city that was a caravan stop on the ancient Silk Road.
 A guide leads tourists at the Dowlat Abad Garden in Iran's central city of Yazd. AFP
"Thanks to them, people lived at ease," he added, describing how the wind catchers pull fresh air into buildings and allow hot air to ventilate out through large vertical slots.
Majid Oloumi, the head of Dowlatabad garden, home to a towering 33-metre (100 foot) wind catcher -- one of the tallest in the world -- described the cooling method as "totally clean because it uses neither electricity nor polluting materials".
UNESCO listed Yazd as a World Heritage Site in 2017, describing the city as a "living testimony to intelligent use of limited available resources in the desert for survival".
Simplicity
The bioclimatic architecture which provides thermal comfort for the people of Yazd has attracted interest elsewhere on a heating planet.
 People visit the Safavid-era (1501–1736) Bagh Gandom Ab-Anbar (cistern) in Iran. AFP
"Badgirs demonstrate that simplicity can be an essential attribute to sustainability," said Paris-based architect Roland Dehghan Kamaraji, who has studied Iran's wind catchers.
"It goes against the common misconception that sustainable solutions need to be complex or high-tech."
At a sustainable urban community called Masdar city in the United Arab Emirates, buildings have been "designed to make use of the natural ventilation for cooling, like badgirs," he said.
However, Yazd's unique architectural traditions have largely been abandoned at their birthplace.
 People visit the Qanat (underground aqueduct) of Zarch hanging at the site in Iran's central city of Yazd.Â
"Unfortunately, our ancestral heritage has been forgotten," especially since the emergence of air conditioners, said Oloumi.
Yazd's old town is a labyrinth of narrow streets and roofed alleyways. Its centuries-old edifices made of clay, mud-brick and adobe all provide insulation against the torrid heat.
Old but effective
Another sustainable architectural feature of Yazd is its system of underground aqueducts called qanats, which transport water from underground wells, aquifers or the mountains.
"These underground aqueducts have great utility," said Zohreh Montazer, an expert on the water system. "They constitute a source of water supply and make it possible to cool the dwellings and to preserve food at an ideal temperature."
  A view of a hallway at the Safavid-era (1501–1736) Bagh Gandom Ab-Anbar (cistern) in Iran. AFP
Iran is estimated to have around 33,000 operational qanats today, a significant drop from the 50,000 in use in the mid-20th century.
UNESCO says the decline in qanats is driven in part by the drying up of underground water sources due to overconsumption.
Iranian authorities have in recent years sought to rehabilitate the qanat of Zarch -- considered the longest and oldest, dating to some 3,000 years ago.
The water network -- which stretches over 70 kilometres across Yazd, and runs at a depth of around 30 metres -- stands as a reminder for Yazd's residents of the challenges ahead.
"The day when fossil fuels run out," said Montazer, "we will have to return to these methods."
Agence France-Presse