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This is where floating wind farms come into play. The world’s first floating wind farm, Hywind, opened in 2,017 almost 25 miles off the coast of Aberdeen in Scotland. The wind farm counts six floating wind turbines that are slotted in a buoyant cylinder filled with heavy ballast to make it float vertically. Because they’re only tethered to the seabed with thick mooring lines, they can operate in waters more than 3,000 feet deep.

Hywind is powering around 36,000 British homes, and it has already broken U.K. records for energy output. Wind Catching Systems launched the same year Hywind opened. It claims that one unit could power up between 80,000 and 100,000 European households. In ideal conditions, where the wind is at its strongest, one wind catcher unit could produce up to 400 gigawatt-hours of energy. By comparison, the largest, most powerful wind turbine on the market right now produces up to 80 gigawatt-hours.

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The 36th Space Symposium began with an opening ceremony honoring outstanding individuals and organizations in the space community.

Among the honorees, the team behind NASA’s Ingenuity Mars Helicopter received the John L. “Jack” Swigert, Jr. Award for Space Exploration. The annual award recognizes extraordinary accomplishments by a company, space agency, or consortium of organizations in the realm of space exploration and discovery.

Also, Bill Ingalls, a senior contract photographer at NASA received the 2021 Douglas S. Morrow Public Outreach Award. For over three decades Ingalls has been capturing NASA’s most spectacular moments through his camera lens. His iconic photos have captured Neil Armstrong’s burial at sea, Space Shuttle Endeavor’s final landing in 2,011 and the first launch of a US citizen on a Russian rocket.

The Space Symposium brings together space leaders from around the world to discuss, address and plan for the future of space. It runs from Aug. 23 to 26 in Colorado Springs, Colorado.

Continue reading “2021 Space Symposium | Opening Ceremony” | >

This is an excerpt I made from a conversation between Sergey Young and David Sinclair. Along it, they share their impressions as to how much Longevity science have progressed during the last few years.

The link to the entire conversation and the Q&As from the audience that was watching the webinar is in the description of the video.

𝗛𝗲 𝗮𝗴𝗿𝗲𝗴𝗮𝗱𝗼 𝘀𝘂𝗯𝘁𝗶́𝘁𝘂𝗹𝗼𝘀 𝗲𝗻 𝗘𝘀𝗽𝗮𝗻̃𝗼𝗹 🙂

Continue reading “David Sinclair on advances in the Longevity field during recent years (con S/T en Español)” | >

Today, wireless charging is little more than a gimmick for high-end smartphones or pricey electric toothbrushes. But a new approach that can charge devices anywhere in a room could one day allow untethered factories where machinery is powered without cables. As the number of gadgets we use has steadily grown, so too has the number of cables and chargers cluttering up our living spaces. This has spurred growing interest in wireless charging systems, but the distances they work over are very short, and they still have to be plugged into an outlet. So, ultimately, they make little difference.

This is only a prototype though, and considering the dramatic increase in efficiency between the first and second versions, this efficiency gap could be closed. A more pressing concern might be the cost and complexity of retrofitting buildings with massive aluminum plates in the walls.

Indeed, the researchers are working on both issues. “We’ve just developed a brand-new technique. Now we have to go figure out how to make it practical,” Sample told Scientific American.

Continue reading “This Room Can Wirelessly Charge Devices Anywhere Within Its Walls” | >

Earlier this year, researchers found a deposit of rare-earth minerals off the coast of Japan that could supply the world for centuries, according to a study.

The study, published in the journal Nature in April 2,018 says the deposit contains 16 million tons of the valuable metals.

Rare-earth minerals are used in everything from smartphone batteries to electric vehicles. By definition, these minerals contain one or more of 17 metallic rare-earth elements (for those familiar with the periodic table, those are on the second row from the bottom).

These elements are actually plentiful in layers of the Earth’s crust, but are typically widely dispersed. Because of that, it is rare to find any substantial amount of the elements clumped together as extractable minerals, according to the USGS.

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