Today, these cultures are providing inspirations to building managers and architects who want to design buildings that stay cool without as much reliance on air conditioning.

One such method is the wind catcher, which if you fancy a drive through Andalusia’s new housing units, or the ancient Persian city of Yazd, or even past the Royal Chelsea Hospital in London, may appear like chimneys.

In reality, they are ingenious structure that make use of the desert winds, and the basic differences between the properties of hot and cold air, to cool building interiors. Stretching up from the roof, the openings in the towers catch the breeze which is channeled via a series of curved walls down into a chamber below.

Dust or debris is traditionally left by the breeze at the bottom of the tower, which would simply be a room inside the house. Then the density of the cold air, which naturally means it will sit lower than hot air which rises, disperses throughout the interior while using that density to push the hot air out through another tower.
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The traditional lattice-work marble screens, or jaali, on the windows of the Taj Mahal and other ornate Indian buildings are gorgeous to behold, and cool to stand behind. The intricately-carved lattice actually prevents around 70% of thermal energy of the sun from entering the palace rooms.

Normally carved from red sandstone or marble, it defuses lighting, provides necessary privacy, lets in breeze, but keeps out direct heat, making them ideal for façade that face the sun’s path.

Relying on simple physics, the jaali of the Mughal period are now being widely adopted today to reduce the cooling burden on air conditioning.

The Venturi effect shows that as air moves from a large space into and through a narrow space, it must not only cool, but also speed up. The holes in the jaali not only let in air, but actively cool and push it into the interior. Wooden jaali can be used in dryer climate to improve humidity in buildings. At night, air passing through the cooled holes deposits small amounts of moisture that is later expressed into the interior during the following day.

Compared to traditional petroleum-based aviation kerosene, bio jet fuel can reduce carbon emissions by up to 50% throughout the entire lifecycle.

China has strict standards for airworthiness certification, as in order to operate in the air space and runways of other countries, they must reach the same standards of safety as the other major air traffic bodies like FAA in the U.S., or EASA, in Europe.

Beforehand, experts from the Airworthiness Certification Center of the Civil Aviation Administration of China (CAAC) conducted on-site evaluations at the Refinery that covered all stages of operation, including production, quality assurance, and testing.

An incredible hybrid high-speed yacht-seaplane vehicle has completed successful flight tests and is ready now for production.

Designed for sustainable maritime travel, the fully-electric seaglider operates a few meters off the water’s surface on hydrofoils until it needs to fly.

Rhode Island-based company REGENT say it couples the high speed of an airplane with the low operating costs of a boat.

“With orders totaling over $7 billion, REGENT will commercialize seagliders for sustainable high-speed, regional mobility with first passengers boarding in 2025,” the company stated along with the announcement that they achieved an initial series of test flights of the craft.

Their test was of a 1/4 scale model, and will now focus on developing the full-scale prototype with a 65-feet wingspan to start testing flights with passengers in 2024.

“People have been attempting to make [these] vehicles viable for 60 years, and in 15 months we have gone from a drawing on a napkin to the first successful flight,” said Mike Klinker, REGENT CTO and co-founder.

Even as two million Floridians lost power during the recent Hurricane Ian, one unique community survived intact.

Despite being located around 20 miles from Fort Myers, the heart of the devastation, Babcock Ranch’s blend of solar power, native flora, and built-to-code construction has meant that apart from ripped up pool coverings, broken fence posts, and a missing shingle or two, they never even lost power.

Roughly 4,600 residents live in Babcock Ranch, billed as a storm-resilient and 100% solar-powered town.

“They were told that Babcock Ranch was built to stand up to storms—but you never really know for sure until you see how everything performs when a storm comes,” Lisa Hall, a community representative, told CBS news. “Ian put it to an extreme test.”

Built around 25-feet higher on average than surrounding communities, Babcock Ranch is beyond the reach of storm waters, and with buildings specified for Cat 4 hurricane winds of 145 mph, Babcock passed the test and how.

Built in 2018 specifically for climate resiliency, the town has its own wastewater plant and water system that penetrates deep into an underground aquifer. Drinking water wasn’t contaminated and never shut off.

A top Florida state official warned Thursday that firefighters have battled a number of fires caused by electric vehicle (EV) batteries waterlogged from Hurricane Ian.

EV batteries that have been waterlogged in the wake of the hurricane are at risk of corrosion, which could lead to unexpected fires, according to Jimmy Patronis, the state's top financial officer and fire marshal.

"There’s a ton of EVs disabled from Ian. As those batteries corrode, fires start," Patronis tweeted Thursday. "That’s a new challenge that our firefighters haven’t faced before. At least on this kind of scale."

"It takes special training and understanding of EVs to ensure these fires are put out quickly and safely," he continued in a follow-up tweet. "Thanks to [North Collier Fire Rescue] for their hard work."

aking advantage of the huge output of solar energy in places neighboring the Sahara Desert, a massive undersea power cable is coming to Europe from Egypt.

Bringing 3,000 megawatts of renewable energy, the GREGY interconnection will run from northern Egypt to Attica, Greece.

Expected to be in operation for around 8 years, one-third of the cable’s supply will power Greek heavier industry, another third will be exported via shared grids to other European countries Bulgaria and Italy.

The final third will go to the production of green hydrogen.

“By bringing 3 gigawatts of clean energy to Europe, via Greece, we are helping Europe wean itself off Russia’s fossil fuels and natural gas. Also, the green energy we will transport will be much cheaper than today’s energy prices. You understand that this will help both Greek and European consumers,” said Ioannis Karydas, CEO of Renewables, Copelouzos Group.

Notorious plastic bags and containers can finally be upcycled, thanks to a new technique for recycling polyethylene bags and food packaging into valuable starter materials for high-value plastics and chemicals.

Polyethylene plastics are used to make plastic bags, shampoo bottles, and many products that are extremely difficult to recycle. In fact, only 14 percent of all polyethylene plastic are currently able to be recycled—and, then, only for certain products such as garden furniture.

They make up about one-third of the entire plastics market worldwide—all manufactured using massive amounts of fossil fuels.

But this may be changing thanks to scientists at the University of California, Berkeley in the Lawrence Berkeley National Laboratory.

They have found a way to break the sturdy polymers into the three-carbon molecule called propylene—a valuable molecule that can then be used to make new plastics, including polypropylene, which is used in ropes, twine, tape, carpets, upholstery, clothing, and camping equipment.

Not only that, the discovery will allow them to do it with very minimal fossil fuels.