A thousand feet off the ground, the wind blows brisk and uninterrupted. But how do you build such a tall, thin beam to support a turbine’s blades? You don’t—you float the generator in a giant helium balloon. The world’s first floating commercial wind turbine will soon be hovering over Fairbanks, Alaska.
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In 2014, we’re constantly hearing words like clean energy, solar power, fossil fuels, carbon emissions, the price of oil, and fracking. And if you’re like me, you know what some of those words mean but you’re hazy on others.
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We probably should have seen this coming. At the Ivanpah solar power plant near Las Vegas, a massive glittering field of 170,000 garage door-sized mirrors reflects sunlight. And all those mirrors are making flying near Ivanpah not so fun—or safe.
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Panasonic is looking to expand its energy presence, with the company’s head of Energy Solutions Center Hiroshi Edo Hanafusa announcing at the Cleantech Group forum that the company is on … Continue reading
It’s rare to find a designer who also knows their way around an electrical diagram, but Marjan van Aubel is one of them. The energy-minded designer is back with a new piece, Current Table, which uses dye solar cells to absorb energy and charge your devices.
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What to do with an environment-wrecking molecule like carbon dioxide? The gas behind global warming and ocean acidification enjoys a pretty rough reputation these days, but scientists have been working on ingenious ways to put carbon dioxide to good use. A little electricity, it turns out, can transform the waste gas into raw material for making plastic bottles, antifreeze, fuel, and more.
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In this week’s landscape reads, we rediscover the future of steampunk energy, we walk the radioactive shores of a manmade island in San Francisco, we climb to the top of California’s surreal palm tree economy, and we look back with both amusement and horror at pest control in communist China.
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In the matchup of wind turbine v. hurricane, our bets have traditionally been with the hurricane. But think about it this way: wind turbines are designed to suck energy out of wind. What if they could suck out so much energy that hurricanes like Katrina or Sandy never form in the first place—with the potentially destructive storm instead spun directly into electricity? That’s the win-win situation posited in a new study from Stanford and University of Delaware researchers.
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A team of Stanford scientists recently made a breakthrough. After years of trying to create a new generation of lithium-ion batteries that use energy-efficient silicon to hold a charge, they found the secret to the winning design in an unlikely place: pomegranates.
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Energy-efficient buildings can be wonderful at keeping out drafts and keeping down heating bills. But the same air-tightness, unfortunately, is also perfect for trapping humid air where toxic mold can go to party.
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This is site is run by Sascha Endlicher, M.A., during ungodly late night hours. Wanna know more about him? Connect via Social Media by jumping to about.me/sascha.endlicher.
