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Archive for the ‘sustainability’ category: Page 182

Dec 18, 2022

Could Twitter Be Elon Musk’s ‘Greatest Investment Ever’? Jim Cramer Isn’t Betting Against The ‘Underestimated’ Tesla CEO

Posted by in categories: Elon Musk, finance, sustainability, transportation

In April, Tesla Inc TSLA CEO Elon Musk said he was done selling Tesla shares to help finance his ongoing overhaul at Twitter.

Since then, he jettisoned more than $20 billion worth of Tesla stock and has continued the selling spree this week.

As the stock continues to skid, Jim Cramer sees an electric buying opportunity.

Dec 17, 2022

Chemist From Cameroon Makes Cleaning Products

Posted by in categories: business, sustainability

Chemist Martial Gervais Oden-Bella developed a method for recycling used cooking oil by turning it into soap! Not only is he helping the environment, but he’s made a profitable business in the process.

In Cameroon, people were tossing the used oil down the drain, which can pollute water treatment systems and the environment. When the oil ends up in the environment, it’s harmful and toxic to wildlife. Now the businesses (restaurants and hotels in the southwestern city of Douala) save the used oil to give to Oden-Bella, who turns it into soap and other cleaning products.

Continue reading “Chemist From Cameroon Makes Cleaning Products” »

Dec 17, 2022

New BladeRobots serve wind turbines ‘4 times faster’ than conventional methods

Posted by in categories: business, robotics/AI, sustainability

AI is used by the robotic solution to swiftly adapt to all types of blades used in the sector.

Danish energy solutions provider Vestas has unveiled BladeRobots as a stand-alone business with an automated robotic technology solution for the maintenance of wind turbines.

The robot performs automated blade-leading edge maintenance up to “four times faster” than traditional manual methods, according to a press release by the company published on Wednesday.

Dec 17, 2022

How do wind turbines spin during winter? The science behind frozen blades

Posted by in categories: energy, physics, science, sustainability

Building a wind power operation that can thrive in icy conditions requires a keen understanding of the underlying physics.

Winter is supposed to be the best season for wind power — the winds are more potent, and since air density increases as the temperature drops, more force is pushing on the blades. But winter also comes with a problem: freezing weather.

Continue reading “How do wind turbines spin during winter? The science behind frozen blades” »

Dec 17, 2022

This AI Paper Introduces a General-Purpose Planning Algorithm called PALMER that Combines Classical Sampling-based Planning Algorithms with Learning-based Perceptual Representations

Posted by in categories: information science, policy, robotics/AI, space, sustainability

Both animals and people use high-dimensional inputs (like eyesight) to accomplish various shifting survival-related objectives. A crucial aspect of this is learning via mistakes. A brute-force approach to trial and error by performing every action for every potential goal is intractable even in the smallest contexts. Memory-based methods for compositional thinking are motivated by the difficulty of this search. These processes include, for instance, the ability to: recall pertinent portions of prior experience; (ii) reassemble them into new counterfactual plans, and (iii) carry out such plans as part of a focused search strategy. Compared to equally sampling every action, such techniques for recycling prior successful behavior can considerably speed up trial-and-error. This is because the intrinsic compositional structure of real-world objectives and the similarity of the physical laws that control real-world settings allow the same behavior (i.e., sequence of actions) to remain valid for many purposes and situations. What guiding principles enable memory processes to retain and reassemble experience fragments? This debate is strongly connected to the idea of dynamic programming (DP), which using the principle of optimality significantly lowers the computing cost of trial-and-error. This idea may be expressed informally as considering new, complicated issues as a recomposition of previously solved, smaller subproblems.

This viewpoint has recently been used to create hierarchical reinforcement learning (RL) algorithms for goal-achieving tasks. These techniques develop edges between states in a planning graph using a distance regression model, compute the shortest pathways across it using DP-based graph search, and then use a learning-based local policy to follow the shortest paths. Their essay advances this field of study. The following is a summary of their contributions: They provide a strategy for long-term planning that acts directly on high-dimensional sensory data that an agent may see on its own (e.g., images from an onboard camera). Their solution blends traditional sampling-based planning algorithms with learning-based perceptual representations to recover and reassemble previously recorded state transitions in a replay buffer.

The two-step method makes this possible. To determine how many timesteps it takes for an optimum policy to move from one state to the next, they first learn a latent space where the distance between two states is the measure. They know contrastive representations using goal-conditioned Q-values acquired through offline hindsight relabeling. To establish neighborhood criteria across states, the second threshold this developed latent distance metric. They go on to design sampling-based planning algorithms that scan the replay buffer for trajectory segments—previously recorded successions of transitions—whose ends are adjacent states.

Dec 16, 2022

Using quantum-inspired computing to discover an improved catalyst for clean hydrogen

Posted by in categories: computing, engineering, quantum physics, sustainability

Researchers from the University of Toronto’s Faculty of Applied Science & Engineering and Fujitsu have developed a new way of searching through ‘chemical space’ for materials with desirable properties.

The technique has resulted in a promising new catalyst material that could help lower the cost of producing clean hydrogen.

The discovery represents an important step toward more sustainable ways of storing energy, including from renewable but intermittent sources, such as solar and wind power.

Dec 16, 2022

Researchers in China create device to directly split seawater to produce hydrogen

Posted by in categories: chemistry, sustainability

The team has successfully tested a sustainable membrane-based seawater electrolyzer.

A research team in China has developed a device to split salty seawater to produce hydrogen directly. The device, a membrane-based seawater electrolyzer, helps address the side-reaction and corrosion problems of traditional methods.

Why traditional methods are not sustainable.

Continue reading “Researchers in China create device to directly split seawater to produce hydrogen” »

Dec 16, 2022

Elon Musk sells nearly $3.6 billion of Tesla stock this week

Posted by in categories: Elon Musk, finance, sustainability, transportation

Making the total amount of sold Tesla stocks nearly $40 billion over the past year.

Tesla CEO, Elon Musk, has been on a selling spree of his company’s stock this year. Earlier this week, Musk sold 22 million shares over a period of three days, a filing with the U.S. financial regulator has revealed, the BBC

Musk, who rose to the top of the world’s wealthiest people list last year riding on Tesla stock price, has spent most of 2022 dealing with this start-again-stop-again campaign to acquire Twitter. Musk, who was quite secretive about acquiring Twitter stock at the beginning of the year, shocked many by declaring his intent to buy out the social media company and take it private.

Dec 16, 2022

Magnetically stirred electrolyte puts high-density batteries in the mix

Posted by in categories: mobile phones, sustainability, transportation

Next-generation batteries could take on many forms, but one design that scientists are pinning a lot of hope on involves the use of lithium metal. The excellent energy density of this material could see batteries power smartphones for days at a time, and by designing a new electrolyte that can be controlled by an external magnetic fields, scientist in South Korea have edged them a little closer to reality.

A lithium-metal battery is one that would see this material deployed in place of the graphite and copper used in the anode of today’s lithium-ion batteries. This could make for smaller and lighter anodes with far superior energy density, which could see smartphones require far fewer charges each week or an electric vehicle travel much farther on each charge.

But one problem researchers continue to run into is the growth of tentacle-like protrusions on the anode called dendrites, which swiftly cause the battery to fail. There is no shortage of potential solutions when it comes to addressing this issue, and now a team at the Daegu Gyeongbuk Institute of Science and Technology have thrown another bright idea into the mix.

Dec 15, 2022

New Lantern Is Better Than Solar and Can Be Charged

Posted by in categories: energy, sustainability

Colombian renewable energy startup E-Dina developed a wireless lantern, called WaterLight, that converts salt water into electricity and is more reliable than solar-powered lamps, a Dezeen article explains. And it can also be charged by urine in emergency situations.

The portable device acts as a mini generator that produces light using ionization — by filling it with 500 milliliters of seawater, the salt in the water reacts with magnesium and copper plates inside the device, converting it into electrical energy.