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A research team at the University of Bristol has developed a way to use a type of nuclear waste to generate electricity in a nuclear-powered battery that is an actual diamond. Such a battery produces very low power, but has no moving parts, no emissions of any type including radiation, needs no maintenance, does not need to be recharged and will operate for thousands of years. The team grew a man-made diamond that, when placed in a radiation field, was able to generate a small electrical current. And the radioactive field can be produced by the diamond itself by making the diamond from radioactive carbon-14 extracted from nuclear waste. Even better, the amount of radioactivity in each diamond battery is a lot less than in a single banana. Diamonds are made from pure carbon subjected to high pressures, usually deep in the Earth’s crust. But we have been artificially making them for decades. The normal way to produce electricity is to use energy, like burning coal or capturing wind, to move a magnet through a coil of wire to generate a current. However, a diamond is able to produce a charge simply by being subjected to a radiation field. The cost to produce a diamond is a lot less than disposing of used nuclear fuel and nuclear waste. These radioactive diamond batteries would have a very specific purpose – low power and extremely long life. The ... battery would still be putting out 50% power after 5,730 years.
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Researchers at Japan's Tohoku University are making a bold claim: an entirely new state of matter. The team, led by Kosmas Prassides, says they've created what's called a Jahn-Teller metal by inserting rubidium, a strange alkali metal element, into buckyballs, a pure carbon structure which has a spherical shape from a series of interlocking polygons (think of the Epcot Center, but in microscopic size.) The researchers created a complex crystalline structure that seemed to conduct, insulate, and magnetize while acting as a metal. It goes far beyond what ordinary matter can do. So what's the big deal? Applying pressure to the compound when it's in the conductor/insulator phase turns it into the weird state of matter, and also makes it superconductive at (relatively) high temperatures. Most superconductors that we know of need to be barely above absolute zero. Understanding and then mastering high-temperature superconductors, which this weird state of matter could help researchers to do, could make all sorts of new things possible in computing, transportation, infrastructure ... sort of everything. Discoveries of superinsulators in 2008 sort of hinted that this state of matter was possible, but confirmation would be a game changer for materials science.
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A Dutch bike path designed to generate solar power has produced more power than expected in its first six months. SolaRoad has generated more than 3,000 kilowatt hours of electricity since the 70-metre-long strip officially opened in November 2014, in Krommenie, a village northwest of Amsterdam, the project reported late last week. It said that was enough to power a single-person household for a year. "We did not expect a yield as high as this so quickly," said Sten de Wit, spokesman for the public-private partnership project, in a statement that deemed the first half-year of a three-year pilot a success. Based on what it has produced so far, the bike path is expected to generate more than 70 kilowatt hours per square metre per year, close to the upper limit predicted based on lab tests. SolaRoad is made of concrete paving slabs embedded with ordinary solar panels. The solar panels are protected by a centimetre-thick layer of transparent, skid-resistant tempered safety glass that can support bicycles and vehicles. So far, more than 150,000 cyclists have zipped over the solar-generating part of the bike path. SolaRoad says they "hardly notice it is a special path."The SolaRoad project hopes to test the technology on smaller municipal roads next. Meanwhile, a similar project called Solar Roadways is underway in the U.S.
Note: For more along these lines, read about how solar power is booming, and find out about the new energy developments underway all over the world.
The Obama Administration has installed solar panels on the White House for the first time in nearly 30 years. Of course, they could eventually be taken down again, as President Jimmy Carter’s were in 1986 by President Ronald Reagan. [In] the meantime, however, they serve as a a symbol of the clean energy revolution. “Solar panels in the White House ... are a really important message that solar is here, we are doing it, we can do a lot more,” U.S. Secretary of Energy Dr. Ernest Moniz said in a White House video about the panels released [May 9]. “I am very bullish on the future of solar energy as a key part of our energy future.” “Everything from the solar components, to the inverter technology, to the labor that put the panels on the roof, was all American,” added Cyrus Waida, an assistant director of clean energy at the White House. “Every four minutes, some small business or homeowner is going solar. We’re going through a transition here and the industry is going through a transition that we’re just seeing the beginning of.”
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For three months at the end of 2013, the luxury electric sports car the Tesla Model S and Nissan Leaf family electric car were the best-selling models among all cars sold in [Norway], beating popular and conventionally-fuelled cars including the VW Golf. The latest figures suggest that over 21,000 all-electric vehicles (EVs) are now registered in the country of 5 million people with sales running at over 1,200 a month, or over 10% of all sales. The Nordic rush for zero-emission vehicles, which have a range of just over 100 miles in the case of the Leaf, is less inspired by concern for the environment than for the chance of free commuting in the bus lane and generous incentives, says the industry. Battery-powered cars in the world's fourth richest country are not just exempt from high rates of purchase tax, and VAT, but pay no road and ferry tolls or parking fees, cost less to insure and can be charged up for free electricity from thousands of points. Local government will also subsidise the installation of charging points in homes. Research suggests the subsidies could be worth nearly Ł5,000 a year per car. "You can buy a Nissan leaf for 280,000 [Norwegian krone (Nok)] (Ł26,500) which compares with 300,000 (Ł29,400) for a VW Golf. Over 10,000 km, it costs about 1,800 Nok (Ł176) to run, but the same for a petrol car would be 8,000 Nok (Ł784). On top of that I save 35Nok (Ł3.20) a day on tolls but some people are saving far more," says Snorre Sletvold, president of the Norwegian electric vehicle association.
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French utility EDF, the world's biggest operator of nuclear plants, is pulling out of nuclear energy in the United States, bowing to the realities of a market that has been transformed by cheap shale gas. Several nuclear reactors in the US have been closed or are being shuttered as utilities baulk at the big investments needed to extend their lifetimes now that nuclear power has been so decisively undercut by electricity generated from shale gas. "The spectacular fall of the price of gas in the US, which was unimaginable a few years ago, has made this form of energy ultra competitive vis a vis all other forms of energy," EDF Chief Executive Henri Proglio told a news conference. EDF agreed with its partner Exelon on an exit from their Constellation Energy Nuclear Group (CENG) joint venture, which operates five nuclear plants in the United States with a total capacity of 3.9 gigawatts. "Circumstances for the development of nuclear in the US are not favourable at the moment," Proglio said. International Energy Agency analyst Dennis Volk said CENG's eastern US power plants were located in some of the most competitive power markets in the country, with high price competition, growing wind capacity and cheap gas. "It is simply not easy to invest in nuclear and recover your money there," Volk said. Proglio said EDF would now focus on renewable energy in the United States. EDF employs 860 people in US solar and wind, and since 2010 its generating capacity has doubled to 2.3 gigawatts.
Note: For more on encouraging energy developments, see the deeply revealing reports from reliable major media sources available here.
Since 2008, oil production in the United States has surged ... 28 percent as the controversial practice of fracking unlocks new supplies in North Dakota and Texas. At the same time, use of oil and petroleum products has fallen 4 percent, as Americans switch to more efficient cars. In theory at least, both of those factors should have pushed the price of crude down. Instead, it's gone up. Since bottoming out during the financial crisis, oil futures traded on the New York Mercantile Exchange have nearly tripled in value, climbing from $33.87 per barrel in December 2008 to roughly $95 this month. Oil still costs substantially more now than it did in 2007, before the recession began. The high price illustrates a brutal truth of today's interconnected world - oil is a global commodity, bought and sold in a global marketplace. Even while demand falls in the United States, it's growing in countries such as China and India. Critics say the price paradox undercuts the oil industry's efforts to drill in more of America's public lands and coastal waters. "It really debunks the myth of 'Drill, baby, drill,' that if we just produce more oil, prices will stay low or go lower," said Michael Marx, director of the Sierra Club's Beyond Oil campaign. Will all that extra petroleum finally mean lower prices? "It's a difficult question to answer, because there's not a one-for-one (relationship) between an increase in production and a decrease in prices," said Doug MacIntyre, director of the Energy Information Administration's office of petroleum statistics. "There are so many other factors."
Note: Though the author refers to "so many other factors," he doesn't even mention greed and corruption which almost everyone knows are rampant. When will the media focus their attention on these fundamental challenges of our world?
Chemical engineers at UC Berkeley have created a new, cleaner fuel out of an old concoction that was once used to make explosives. The fuel, which uses a century-old fermentation process to transform plant material into a propellant, could eventually replace gasoline and drastically cut down on greenhouse gas emissions, according to the team of Berkeley scientists. The discovery, published in the journal Nature, means corn, sugar cane, grasses and other fast-growing plants or trees, like eucalyptus, could be used to make the propellant, replacing oil. The research into creating a diesel substitute is part of a 10-year development program by the Energy Biosciences Institute, a collaboration among UC Berkeley, Lawrence Berkeley National Laboratory and the University of Illinois at Urbana-Champaign. The research, paid for using $50 million a year from the British oil company BP, has been going on for five years. [The researchers] extracted the acetone and butanol from the fermentation mixture [and] then created a catalyst that converted the brew into a mix of hydrocarbons similar to those in diesel fuel. The resulting substance burns as well as petroleum-based fuel and contains more energy per gallon than ethanol, according to the study. It can be produced using a variety of renewable starches and sugars that can be grown in crops. The expectation in California is that it will be used initially for niche markets, like the military, and eventually in trucks, trains and other vehicles that need more oomph than hybrid or battery power can provide.
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October's record-setting jump in gasoline prices cost Californians $320 million, and yet state officials lack some of the basic information needed to ensure that refineries aren't playing games with the fuel market. That was the testimony [on November 15] at a hearing that explored the causes of the price spike, which saw the state's average price for a gallon of regular reach $4.67. The hearing could lead to legislation. With its own specialized gasoline blends made by just a handful of refineries, California has long been prone to price spikes. But four of the most severe on record happened in 2012. The October price spike began after an electrical outage suddenly shut down an ExxonMobil refinery in Los Angeles County. Fuel supplies in California had already been strained by the Aug. 6 fire at Chevron Corp.'s Richmond refinery, as well as the closure of a crude-oil pipeline in the Central Valley. Severin Borenstein, director of the University of California Energy Institute in Berkeley, noted that the state's reliance on just a few refining companies gives those businesses significant power over the market, even if they don't conspire to raise prices. No pipelines connect California to refineries in the Midwest or on the Gulf Coast, leading many analysts to label the state an "energy island." "Unfortunately, we've created a situation in the California market where because we're an island and because it's pretty concentrated, we actually do have companies that are in a pretty strong position to raise prices by putting less (gas) on the market. There is no law against them doing that," [Borenstein said].
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A small British company has produced the first "petrol from air" using a revolutionary technology that promises to solve the energy crisis as well as to help curb global warming by removing carbon dioxide from the atmosphere. Air Fuel Synthesis in Stockton-on-Tees has produced five litres of petrol since August when it switched on a small refinery that manufactures gasoline from carbon dioxide and water vapour. The company hopes that within two years it will build a larger, commercial-scale plant capable of producing a ton of petrol a day. It also plans to produce green aviation fuel to make airline travel more carbon-neutral. "We've taken carbon dioxide from air and hydrogen from water and turned these elements into petrol," said Peter Harrison, the company's chief executive. "There's nobody else doing it in this country or indeed overseas as far as we know. It looks and smells like petrol but it's a much cleaner and clearer product than petrol derived from fossil oil," Mr Harrison told The Independent. Being able to capture carbon dioxide from the air, and effectively remove the principal industrial greenhouse gas resulting from the burning of fossil fuels such as oil and coal, has been the holy grail of the emerging green economy. Using the extracted carbon dioxide to make petrol that can be stored, transported and used as fuel for existing engines takes the idea one step further.
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Egyptian Aisha Mustafa, 19, has dazzled the physics world with a new invention that could launch spacecraft off the Earth's surface and soaring through space without any fuel. Space is filled with a billowing sea of quantum particles that jump in and out of existence, and Aisha Mustafa proposes using thin silicon panels, spaced closely together, to trap these particles and then move against them, creating a propelling force. This innovation would make space exploration lighter, safer and cheaper. Mustafa still has some design work to do, but unfortunately her research is currently limited by lack of state funding for space science departments at the university level, though her school's science club did help fund her application for a patent.
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The founder of an apparel company has given the University of Missouri $5.5 million to study new sources of clean energy. Sidney Kimmel, founder and chairman of The Jones Group — which includes brands such as Anne Klein, Nine West and Gloria Vanderbilt — donated the money through his charitable foundation. The money will be used to create the Sidney Kimmel Institute for Nuclear Renaissance, SKINR, which will involve researchers from the MU Research Reactor and physics, engineering and chemistry departments. Mostly, MU scientists will be trying to figure out why excess heat has been observed when hydrogen or deuterium interacts with materials such as palladium, nickel or platinum under extreme conditions. Researchers don’t know how the heat is created, nor can they duplicate the results on a consistent basis. “It’s a chance to turn cold confusion to real understanding and opportunity,” said Rob Duncan, MU’s vice chancellor for research. Since researchers Martin Fleischmann and Stanley Pons declared they had observed tabletop energy, scientists have been scrambling to re-create the phenomenon. Once dubbed “cold fusion,” some now refer to the process as a low-energy nuclear reaction. Some companies have even been trying to find marketplace applications for the excess heat, even though it’s not consistent. Duncan has called on the scientific community to stop trying to label the phenomenon before figuring out what causes it. The gift, he said, will let MU’s research team focus on the pure science without being distracted by trying to find uses for it.
Note: The comment about scientists scrambling to reproduce the cold fusion research of Pons and Fleischmann is not quite the reality. The two scientists were slammed and ridiculed in a coordinated effort to suppress their amazing discoveries, which threatened the huge profits of the oil industry. For lots more reliable information on this, click here and here.
Loyd Bryant used to pump manure from his 8,640 hogs into a fetid lagoon, where it raised an unholy stink and released methane and ammonia into the air. The tons of manure excreted daily couldn't be used as fertilizer because of high nitrogen content. The solution to Bryant's hog waste problem was right under his nose - in the manure itself. A new waste-processing system - essentially a small power plant - installed on his 154-acre farm uses bacteria to digest the waste and burns methane to produce electricity. It also converts toxic ammonia into forms of nitrogen that can be used as fertilizer for more profitable crops. Waste-to-energy systems have been around for at least 15 years. But Duke University, which helped develop and pay for Bryant's system, says this one is the cleanest in existence - and virtually the only one that tackles all of the environmental problems created by animal waste. The system was built with off-the-shelf parts and simple design plans that are free for the asking. It's poised to become the standard for a cleaner waste-to-energy model that brings together farmers, utilities and private companies in an environmentally friendly effort. Bryant saves money on electricity and gets a cleaner farm. Improved air quality in his hog barns also means his pigs will have lower mortality rates and convert feed more efficiently, fattening Bryant's profits.
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Renewable sources such as solar and wind could supply up to 80 percent of the world’s energy needs by 2050 and play a significant role in fighting global warming, a top climate panel [has] concluded. But the U.N. Intergovernmental Panel on Climate Change said that to achieve that level, governments would have to spend significantly more money and introduce policies that integrate renewables into existing power grids and promote their benefits in terms of reducing air pollution and improving public health. “The report shows that it is not the availability of the resource but the public policies that will either expand or constrain renewable energy development over the coming decades,” said Ramon Pichs, who co-chaired the group tasked with producing the report. “Developing countries have an important stake in this future — this is where 1.4 billion people without access to electricity live.”
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New Zealand engineer John Fleming is part of an effort to bypass the hydrogen era and go directly to the nitrogen-hydrogen economy. Texas-based Fleming, 65, is responsible for a string of inventions that produced more efficient, cleaner-burning heating appliances and holds a number of patents. He ... is helping researchers at Texas Tech University look at the potential to power vehicles using liquid ammonia, produced by combining hydrogen and nitrogen. Fleming's most tangible contribution has been a small, cheap processing plant that converts hydrogen and nitrogen into ammonia using a compression and decompression system. It promises on-site production of hydrogen-carrying liquid fuel, solving the problem of storing and distributing (with considerable energy loss) a highly explosive gas from large and expensive centralised plants. "Ammonium can be liquefied, produces no carbon or solid deposits and can burn in internal combustion engines carrying a reasonable amount of hydrogen." Based on an electrolyser he devised for potential use in gas fireplaces, the processor offers huge cost savings in the production of hydrogen using electricity. The processor costs US$200 (compared with around $130,000 using large-scale conventional models) and is predicted to produce fuel for about US27c a litre [about $1.00/gallon] before taxes.
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Occasionally, a large solar storm can rain energy down on the earth, overpowering electrical grids. About once a century, a giant pulse can knock out worldwide power systems for months or even years. It’s been 90 years since the last super storm, but scientists say we are on the verge of another period of high solar activity. Significant storms have hit earth several times over the last 150 years, most notably in 1859 and 1921. Those occurred before the development of the modern power grid; recovering from a storm that size today would cost up to $2 trillion a year for several years. Storms don’t have to be big to do damage. [A] storm in 2003 caused a blackout in Sweden and fried 14 high-voltage transformers in South Africa. The storm was relatively weak, but by damaging transformers it put parts of the country off-line for months. That’s because high-voltage transformers ... are the most sensitive part of a grid; a strong electromagnetic pulse can easily fuse their copper wiring, damaging them beyond repair. Even worse, transformers are hard to replace. They weigh up to 100 tons, so they can’t be easily moved from the factories in Europe and Asia where most of them are made; right now, there’s already a three-year waiting list for new ones.
Note: The 1859 solar storm knocked out sturdy telegraph machines. An equivalent storm today could do unbelievable damage and conceivalby knock out the Internet for a time. For more on the 1859 storm and its implications, click here. and here.
Imagine a siege of hydrocarbons spewing from deep below ground, polluting water and air, sickening animals and threatening the health of unsuspecting Americans. And no one knows how long it will last. No, we’re not talking about BP’s gulf oil spill. We’re talking about hydraulic fracturing of natural gas deposits. Fracking, as the practice is also known, may be coming to a drinking well or a water system near you. It involves blasting water, sand and chemicals, many of them toxic, into underground rock to extract oil or gas. "Gasland," a compelling documentary on HBO ..., traces hydraulic fracturing across 34 states from California to Louisiana to Pennsylvania. The exposé by filmmaker Josh Fox, alternately chilling and darkly humorous, won the 2010 Sundance Film Festival’s special jury prize for documentary. It details how former Vice President Dick Cheney, in partnership with the energy industry and drilling companies such as his former employer, Halliburton Corp., successfully pressured Congress in 2005 to exempt fracking from the Safe Drinking Water Act, the Clean Air Act and other environmental laws. Each well requires the high-pressure injection of a cocktail of nearly 600 chemicals, including known carcinogens and neurotoxins, diluted in 1 million to 7 million gallons of water. Some 450,000 wells have been drilled nationwide.
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Trees and algae have been turning CO2 into fuel since the dawn of time, unlocking the chemical energy within this molecule to power metabolic processes. With a little ingenuity, it is already possible to transform CO2 into anything from petrol to natural gas. Any conversion processes will take a lot of energy. The question is, can these processes be refined to ensure that less energy is used to create this fuel than is provided by it? The key challenge is to convert CO2 into carbon monoxide (CO), by removing one of its oxygen atoms. Once you have CO, the process of creating hydrocarbon fuels such as petrol is easy. It's achieved through a reaction known as the Fischer-Tropsch process – most commonly used to synthesise liquid fuel from coal. But getting from CO2 to CO requires ... a lot of energy. The US Government's Sandia National Laboratories, in Albuquerque, New Mexico, have opted for ... a system that takes its energy source from concentrated solar power. As Green Futures goes to press, researchers from Bristol and Bath Universities in the UK have also announced plans for solar-powered CO2-to-fuel conversion.
Note: If plants are able to convert CO2 to energy and have been doing this for billions of years, why can't scientists figure out a way to do this for human use?
Once upon a time, you needed a crystal ball to see the future. Now all you need is a powerpoint. This week in Japan, Nissan unveiled the future of motoring, the production-ready, plug-in, electric family car. Called the Leaf, this spacious five-door hatch promises to usher in a new paradigm of motoring. Its name was chosen to indicate clean air, or, as the company said, because it "purifies air by taking emissions out of the driving experience." It's not a far-off dream of engineers, either. The Leaf will be on the roads in Japan and the US next year. And Nissan has two more EVs (electric vehicles) that are "imminent," as one senior company executive [said]. Simple in concept yet sophisticated in its execution, the car plugs into regular powerpoints to charge its onboard batteries. Unlike hybrids such as Toyota's Prius, Honda's Insight and the forthcoming Holden Volt, the Leaf doesn't require any petrol. It's 100 per cent electric. So far, Nissan, in its alliance with Renault (the two companies share the one chief executive but have separate boards), has signed understandings or agreements with 27 governments around the world to bring in electric cars. For consumers, though, the biggest hurdle will be its price. Rival Mitsubishi has its first all-electric car, the iMiEV, on the cusp of entering Japanese showrooms but, contrary to its diminutive size, it carries a big price tag there -- nearly $60,000 [Australian]. But Nissan is working on the financing details of the Leaf so it costs less to own and run than a comparable petrol car. It's Nissan's EV strategy to take the technology to the masses.
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Chinese leaders have adopted a plan aimed at turning the country into one of the leading producers of hybrid and all-electric vehicles within three years, and making it the world leader in electric cars and buses after that. The goal, which radiates from the very top of the Chinese government, suggests that Detroit’s Big Three, already struggling to stay alive, will face even stiffer foreign competition on the next field of automotive technology than they do today. To some extent, China is making a virtue of a liability. It is behind the United States, Japan and other countries when it comes to making gas-powered vehicles, but by skipping the current technology, China hopes to get a jump on the next. The United States has been a laggard in alternative vehicles. G.M.’s plug-in hybrid Chevrolet Volt is scheduled to go on sale next year, and will be assembled in Michigan using rechargeable batteries imported from LG in South Korea. China’s intention, in addition to creating a world-leading industry that will produce jobs and exports, is to reduce urban pollution and decrease its dependence on oil, which comes from the Mideast and travels over sea routes controlled by the United States Navy. Beyond manufacturing, subsidies of up to $8,800 are being offered to taxi fleets and local government agencies in 13 Chinese cities for each hybrid or all-electric vehicle they purchase. China wants to raise its annual production capacity to 500,000 hybrid or all-electric cars and buses by the end of 2011, from 2,100 last year.
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