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Category: energy

Planes that can fold their wings to different angles while in the air have the potential to fly faster than their peers, and NASA has recently made headway into their development. The space agency has conducted a series of test flights proving that it can control the wings it designed to move into any position and that they have aerodynamic benefits. While the technology has existed for a long time, it typically requires the use of heavy hydraulic systems. NASA’s version doesn’t need that kind of machinery: it relies on the properties of a temperature-activated material called shape memory alloy instead. Upon being heated, the alloy activates a twisting motion in the tubes serving as the wings’ actuator, moving the wings’ outer portion up to 70 degrees upwards or downwards.

The foldable wings will give typical planes like commercial airliners a way to adapt to different flight conditions. They can give pilots more control over their aircraft and could even lead to more fuel efficient flights. Planes designed to fly at supersonic speeds (faster than the speed of sound), however, will get more out of this technology.

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Home builders are starting to see the advantage of incorporating solar and energy storage products directly as part of their offerings. One home builder in Australia decided to make solar arrays and Tesla Powerwalls standard in 50 “knockdown rebuild homes” and claims that ‘it’s like putting around $50,000 in your pocket’. Earlier this week, we reported on how Tesla’s giant Powerpack system in Australia made around $1 million in just a few days through the country’s wholesale electricity market. Homeowners can do the same on a smaller scale if they have a home solar array and a Powerwall, Te…

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EURELETRIC, the association representing the interests of the electricity industry in Europe, has said the region’s power companies intend to be both part of a competitive European economy and reliably powered by clean, carbon-neutral energy.”

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Neuroscientist Brie Linkenhoker believes that leaders must be better prepared for future strategic challenges by continually broadening their worldviews.

As the director of Worldview Stanford, Brie and her team produce multimedia content and immersive learning experiences to make academic research and insights accessible and useable by curious leaders. These future-focused topics are designed to help curious leaders understand the forces shaping the future.

Worldview Stanford has tackled such interdisciplinary topics as the power of minds, the science of decision-making, environmental risk and resilience, and trust and power in the age of big data.

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Some blogs and news outlets eschew long titles. Publishers want readers to scan a list of topics that fit on one-line each. But, a better title for this article would be:

“Massive electric consumption by cryptocurrency mining:
An unfortunate environmental nightmare will soon pass!
… Proof-of-Work alternatives are on the horizon”

A considerable amount of electricity is used in the process of mining Bitcoin and other cryptocurrencies. Miners are effectively distributed bookkeepers, and this use of resources is part of a system called “proof-of-work”. It keeps the books fair, honest, and without an ability for the miners to collude (In other words, they cannot ‘cook the books’).

What makes the process unique and exciting is that this “distributed consensus” does not require a trusted authority, like a bank. In fact, the whole point of the blockchain revolution is that users trust a mechanism rather than a bank, government or even each other.

But, for any network that hopes to become part of the financial fabric, it must be ubiquitous and in constant motion. Proof-of-work just doesn’t make the grade, because it doesn’t scale. The need for miners to prove that they did something complex sucks up too much power. If Bitcoin or any proof-of-work currency were to be adopted for even a small fraction of commercial and personal transactions, it would overwhelm the world’s energy services.

One reader suggests the problem will be solved by the recent boom in shale fracking and renewable, non-polluting energy. He points out that crypto mining may even drive a market for distributed, clean electric production.

Unfortunately, clean and cheap power makes the problem worse. Even if electric capacity were to rise dramatically and experience a great cost reduction, cryptocurrency networks would automatically demand all the extra electricity. It is a no-win game, because mining incentives escalate with an increase in supply or drop in cost.

Will large-scale, blockchain-based networks fail, because of enormous electric demand? Fortunately, the future is not so bad, after all. Although networks, like Bitcoin, currently use proof-of-work to ensure honesty and fairness, it is only one of many possible measurement and enforcement mechanisms. Eventually, developers and miners will swap in another proof mechanism to keep the network humming—and without creating an environmental catastrophe.

Will Change in Proof Come in Time?

The political process for changing the fairness mechanism (“forking the code”) is complex and fraught with infighting, but the problem will eventually be addressed, and it will be solved before electricity becomes a critical issue. Despite a messy voting process, the miners have too much at stake to ignore this problem much longer.

Various proof alternatives are already being used in altcoins. Since Bitcoin is perfectly free to steal these techniques (none can be protected by patent or trade secrecy), we can think of these other coins as beta-tests for Bitcoin. How so? As the first and biggest elephant in the room, Bitcoin will likely reign supreme, as long as it doesn’t wait too long before grabbing the best technology and tucking it into its quiver.

Proof-of-Work Alternatives

  • One method, already used by some altcoins, is called “proof-of-stake”. It’s a bit like getting voting rights based on how much land you own. This method does not demand lots of electricity—but some analysts feel that is not as fair, because it cedes network control to the wealthiest members.
  • Another method, called BFT Replication was developed by Marko Vukolić, at the IBM Blockchain Group in Zurich Switzerland. It might be exactly what we need.
  • Yet another method was proposed by C.V. Alkan, an amateur analyst with a passion to solve this problem. He calls it Distributed Objective Consensus.

These aren’t the only alternatives to proof-of-work. Ultimately, one or more of these fairness enforcement mechanisms will make its way into Bitcoin and other currencies and blockchain services. In my opinion, the electrical crisis is a genuine threat, but it is one that with a solution that will be implemented soon—perhaps even this year.

Related:

Philip Raymond co-chairs CRYPSA, publishes A Wild Duck and hosts the New York Bitcoin Event. He is keynote speaker at the Cryptocurrency Expo in India this month. Click Here to inquire about a presentation or consulting engagement.

  • Ketones could super-charge the body in a way that’s unlike any other source of fuel.
  • San Francisco-based startup HVMN recently launched a drink made of pure ketone ester to harness its performance-boosting qualities.
  • The company partnered with Oxford University to leverage $60 million-worth of scientific research on elite athletes.

The nutrition label on a shot-sized bottle of this clear, odorless liquid defies traditional explanation. It contains 120 calories — roughly the equivalent of a hearty slice of bread — yet it has no fat, no protein, and no carbohydrates.

Those calories instead come from ketones, an ingredient that Geoff Woo, cofounder and CEO of San Francisco-based human performance startup called HVMN (pronounced “human”)to call “the fourth macronutrient.”

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