Energy News StoriesExcerpts of Key Energy News Stories in Major Media
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Inventors who are mixing water with fuel to power engines say they're onto something big. German-born inventor Rudolf Gunnerman [believes] that one of the world's most common compounds - good old tap water - can be blended with fuel to power your car, truck or lawn mower. Gunnerman claims to have devised a means to blend water with naphtha in order to power engines in a cleaner, cheaper, more efficient way. "New ideas and better ideas are not necessarily found by universities or by large companies. New ideas and better ideas are found by people who look for them," says Gunnerman, 68. "Caterpillar" is the single word that brings a degree of credibility to Gunnerman's claims. The Peoria, Ill.-based heavy- equipment manufacturer entered a joint venture with Gunnerman in July 1994. Together, under the name Advanced Fuels, they've conducted experimental uses of the A-21 fuel - made up of 70 percent naphtha, a crude-oil byproduct, and 30 percent water. And now, Paccar Inc. is throwing its trucking weight in Gunnerman's corner. The Bellevue-based manufacturer of Kenworth and Peterbilt trucks recently sent a truck to Peoria for testing with the A-21 fuel. Paccar changed out the engine to add a Caterpillar engine and modified the cylinders and fuel injectors to handle more fluid volume. They also did a series of baseline tests of noise, cooling, drivability and fuel economy, said Jim Reichman, Paccar's technology-development manager. Back at Paccar's Mount Vernon technical center, Reichman is enthused. "We're pretty pleased with it," he said.
Note: For key reports from reliable sources on new energy developments, click here.
MIT professor Daniel G. Nocera has long been jealous of plants. He desperately wanted to do what they do--split water into hydrogen and oxygen and use the products to do work. That, he figures, is the only way we humans can solve our energy problems; enough energy pours down from the sun in one hour to power the planet's energy needs for a year. Nocera's discovery [is] a cheap and easy way to store energy that he thinks will be used to change solar power into a mainstream energy source. Plants catch light and turn it into an electric current, then use that energy to excite catalysts that split water into hydrogen and oxygen during what is called photosynthesis' light cycle. The energy is then used during the dark cycle to allow the plant to build sugars used for growth and energy storage. Nocera and Matthew Kanan, a postdoctoral fellow in Nocera's lab, focused on the water-splitting part of photosynthesis. They found cheap and simple catalysts that did a remarkably good job. They dissolved cobalt and phosphate in water and then zapped it with electricity through an electrode. The cobalt and phosphate form a thin-film catalyst around the electrode that then use electrons from the electrode to split the oxygen from water. The oxygen bubbles to the surface, leaving a proton behind. A few inches away, another catalyst, platinum, helps that bare proton become hydrogen. The hydrogen and oxygen, separated and on-hand, can be used to power a fuel cell whenever energy is needed.
Note: This amazing breakthrough resulted in a $4 million government grant for further development. For more, click here and here.
An electric sportscar finished a remarkable road trip [on November 16] on the Panamerican Highway, traveling from near the Arctic Circle in Alaska to the world's southernmost city without a single blast of carbon dioxide emissions. Developed by engineers from Imperial College London, the SRZero sportscar ran on lithium iron phosphate batteries powering two electric motors with a peak output of 400 horsepower during its 16,000-mile (26,000-kilometer) journey. Powering up was a joy at times, the team said — such as in Chena Hot Springs, Alaska, where they started their trip July 3 after charging the batteries using geothermal energy. "The SRZero was literally being charged from energy taken straight out of the earth with absolutely zero CO2 emissions," Alex Schey, a mechanical engineer who organized the trip, wrote in his blog that day. Finding places to plug in along the way became a major challenge as the team passed through 14 countries in 70 days of driving. But every time the driver hit the brakes — and there was plenty of that as the team made its way through the Rocky Mountains, Mexico and Central America and then through South America — the car recovered kinetic energy, extending its capacity to drive as much as six hours and more than 400 kilometers (250 miles) on a single charge. This was no clunky science project — all that horsepower enabled the car to reach 60 mph (96 kph) in just seven seconds and reach top controlled speeds of 124 mph (200 kph), the team said.
Note: For many reports from reliable sources on new automotive and energy technologies, click here.
Johnathan Goodwin walks to the back of his auto conversion shop in Wichita, Kan., and lifts up a gas nozzle connected to a huge cube-shaped container. The orange stuff he's pumping is the key to his company's mission: converting the worst gas-gulping SUVs into cleaner, meaner machines. "This is 100 percent canola oil, refined to biodiesel," Goodwin said. His well-maintained shop is a bit like a showroom for that much-maligned symbol of environmental ruin: the Hummer. The silver H-1 – which Goodwin says gets 60 miles per gallon – has already been modified to run on biodiesel, diesel, vegetable oil, gasoline, ethanol, hydrogen, natural gas and propane. On a standard gasoline-to-biodiesel conversion, Goodwin starts by taking a new nine-mile-per-gallon Hummer and removing the original gas engine. In goes an off-the-shelf GM Duramax engine that runs on diesel fuel. A few extra modifications and a tank full of biodiesel later, the Hummer – now boasting 500 horsepower and getting about 20 miles per gallon – is ready for the road. He offers a couple of lower-cost options, including a fuel vaporizer for $1,000 that he says boosts fuel economy by 30 percent, and a $500 software download that reprograms diesel engines to get up to an additional seven miles per gallon. His work has many wondering why the big automakers can't simply reconfigure their assembly lines to make their own cars run as efficiently as Goodwin does. "I don't know why GM hasn't done it," says Goodwin. "But I can tell you that all the parts that I use for the conversion – 95 percent – are all GM parts. I'm not reinventing anything."
Note: For lots more powerful and inspiring information on this breakthrough technology and kits you can order, click here. For many other revealing major media articles showing new energy inventions and breakthroughs which should be making headlines, click here.
In 2000 Jonathan Goodwin, a self-described "gearhead", bought his first Hummer, an old H1, in Denver, Colorado. "The thing did eight miles to the gallon and nought to 60 in about two days," he recalls. On his drive home to Wichita, Kansas, it broke down three times. The engine died. Rather than fix the engine, he replaced it with a new Duramax diesel and doubled the fuel economy to 20 miles per US gallon (equivalent to 24 miles per Imperial gallon), tripled the horsepower to 600 and quadrupled the torque to 1,200ft lbs. Driven by his quest for more power and less consumption he had inadvertently stumbled across a solution for America's SUV-loving masses. The byproduct of the system he installed is lower emissions - a greener output for these thirsty beasts. "Now we can have our cake and eat it," he says. "It's difficult for these huge companies. The technology is there to make cars that have vastly improved consumption figures already, but they're driven by the need to sell all the cars they currently make," Goodwin says. "If they announced they were bringing out a 100mpg car then no-one would buy the old line." Goodwin sees three stages to a process of change: converting all autos to diesel which can then run on biofuel, making the step to bio-electric and finally to hydroelectric, meaning cars will run on water.
Note: For more on this amazing man and his cool inventions, click here.
Like nearly all of the residents on this island in Penobscot Bay, Art Lindgren and his wife, Cheryl, celebrated the arrival of three giant wind turbines late last year. That was before they were turned on. “In the first 10 minutes, our jaws dropped to the ground,” Mr. Lindgren said. “Nobody in the area could believe it. They were so loud.” Now, the Lindgrens, along with a dozen or so neighbors living less than a mile from the $15 million wind facility here, say the industrial whoosh-and-whoop of the 123-foot blades is making life in this otherwise tranquil corner of the island unbearable. They are among a ... growing number of families and homeowners across the country who say they have learned the hard way that wind power ... is not without emissions of its own. Lawsuits and complaints about turbine noise, vibrations and subsequent lost property value have [been brought] in Illinois, Texas, Pennsylvania, Wisconsin and Massachusetts, among other states. “The quality of life that we came here for was quiet,” Mrs. Lindgren said. “You don’t live in a place where you have to take an hour-and-15-minute ferry ride to live next to an industrial park. And that’s where we are right now. The wind industry has long been dogged by ... complaints about turbines, [including] that they have direct physiological impacts like rapid heart beat, nausea and blurred vision caused by the ultra-low-frequency sound and vibrations from the machines.
Note: National Wind Watch is a clearinghouse for information on industrial wind energy. The Society for Wind Vigilance is an international group of physicians, engineers and other professionals who are promoting guidelines for appropriate siting of industrial wind turbines and independent third-party research to mitigate risks to public health.
Cars and trucks averaging 62 miles per gallon? Seems extraordinary now, but ... automakers could be required to build lineups like that by 2025, making today's high-mileage hybrids seem conventional and turning gas guzzlers into mere relics. By a decade and a half from now, in 2025, a carmaker's fleet of new vehicles may need to meet a standard somewhere from 47 mpg to 62 mpg, the Transportation Department and Environmental Protection Agency said. Those mileage gains that would be the equivalent of an annual decrease in carbon dioxide emissions per mile of 3 to 6 percent. The government envisions gas-electric hybrids making up about half the lineup of new vehicles under the most aggressive standards, while electrics and plug-ins would comprise about 10 percent of the fleet. After little progress during the past three decades, rules adopted earlier this year will lift the new vehicle fleet average to 35.5 mpg by 2016, an increase of more than 40 percent over current standards.Fuel efficiency standards are designed to improve gas mileage across each automaker's lineup and across the nation's entire fleet of new vehicles. Vehicles must meet differing standards based on their dimensions. Compact cars must get better mileage than sport utility vehicles, for example, but requirements for all types of vehicles will go up.
Note: Despite rampant government claims of wanting independence from foreign oil, fuel efficiency has almost always been largely determined by congressional mandates which the oil companies have consistently fought against. For more on this, click here. For lots more on new energy technologies, click here.
The White House is going solar after all - a home improvement that carries modest energy benefits but much larger symbolic importance. It isn't the first time the White House has used solar energy. President Jimmy Carter put 32 solar panels on the roof in the late 1970s, but President Ronald Reagan removed them in 1986. Two grass-roots campaigns have recently been lobbying President Obama to restore them as a sign of his commitment to renewable energy. The roof of the White House residence will get solar panels and a solar water heater, Energy Secretary Steven Chu and the White House Council on Environmental Quality's chair, Nancy Sutley. A campaign launched by Oakland, Calif.-based Sungevity called Solar on the White House and another by 350.org founder Bill McKibben tried to get Obama to reinstall solar panels. "The White House did the right thing, and for the right reasons: They listened to the Americans who asked for solar on their roof, and they listened to the scientists and engineers who told them this is the path to the future," McKibben said in a statement. "If it has anything like the effect of the White House garden, it could be a trigger for a wave of solar installations across the country and around the world," he said.
David Sandalow, the Energy Department's assistant secretary for policy and international affairs, practices what he preaches when it comes to alternative-energy vehicles. Sandalow drives a Toyota Prius converted to a plug-in electric for his 5-mile commute to work every day. He recharges at night in the carport of his Washington home. Sandalow's Prius, which was converted two years ago to allow him to recharge the battery from an electric outlet, gets more than 80 miles per gallon and lets him drive 30 miles on a single charge. He can drive up to 30 miles on a single charge, only has to fill the gas tank about twice a month, and he figures he gets about 80 miles a gallon. Including the six-hour electric plug-in a day, it works out to about 75 cents per gallon of gas. His aftermarket conversion cost about $9,000, on top of the price of the Prius. Sandalow wrote the 2007 book Freedom From Oil, and he thinks that hybrids and plug-ins are the quickest way for the country to lessen its dependence on foreign oil.
Note: For key reports from reliable sources on exciting new developments in automotive design and new energy technologies, click here.
For months, the U.S. government talked with a boot-on-the-neck toughness about BP, with the president wondering aloud about whose butt to kick. But privately, it worked hand-in-hand with the oil giant to cap the runaway Gulf well and chose to effectively be the company's banker -- allowing future drilling revenues to potentially be used as collateral for a victim compensation fund. Now, with a new round of investigative hearings set to begin [today] on BP's home turf and the disaster largely off the front pages, there's worry BP PLC could get a slap on the wrist from its behind-the-scenes partner. That could trickle down to states hurt by the spill and hoping for large fines because they may share in the pie. In the past few weeks, public messages from BP and the government have been almost in lockstep. The government even released a report — criticized by academic researchers and some lawmakers as too rosy — asserting that much of the oil released into the Gulf is gone, playing into BP's message that its unprecedented response effort is working. Rep. Darrell Issa, R-Calif., said Thursday that White House support for the oil report shows the administration's "pre-occupation with the public relations of the oil spill has superseded the realities on the ground."
Note: For lots more from major media sources on corporate and government corruption, click here and here.
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.
Matt Reynolds, an assistant professor in the electrical and computer engineering department at Duke University, wears other hats, too — including that of co-founder of two companies. These days, his interest is in a real hat now in prototype: a hard hat with a tiny microprocessor and beeper that sound a warning when dangerous equipment is nearby on a construction site. What’s unusual, however, is that the hat’s beeper and microprocessor work without batteries. They use so little power that they can harvest all they need from radio waves in the air. The waves come from wireless network transmitters on backhoes and bulldozers, installed to keep track of their locations. The microprocessor monitors the strength and direction of the radio signal from the construction equipment to determine if the hat’s wearer is too close. Dr. Reynolds designed this low-power hat, called the SmartHat, with Jochen Teizer, an assistant professor in the school of civil and environmental engineering at Georgia Tech. They are among several people devising devices and systems that consume so little power that it can be drawn from ambient radio waves, reducing or even eliminating the need for batteries. Their work has been funded in part by the National Science Foundation.
Note: For exciting reports on new energy developments, click here.
One of the more controversial topics involving Nikola Tesla is what became of many of his technical and scientific papers after he died in 1943. Just before his death at the height of World War II, he claimed that he had perfected his so-called "death beam." So it was natural that the FBI and other U.S. Government agencies would be interested in any scientific ideas involving weaponry. The morning after the inventor's death, his nephew Sava Kosanovic hurried to his uncle's room at the Hotel New Yorker. By the time he arrived, Tesla's body had already been removed, and Kosanovic suspected that someone had already gone through his uncle's effects. Technical papers were missing as well as a black notebook he knew Tesla kept — a notebook with several hundred pages, some of which were marked "Government." Just after World War II, there was a renewed interest in beam weapons. Copies of Tesla's papers on particle beam weaponry were sent to Patterson Air Force Base in Dayton, Ohio. An operation code-named "Project Nick" was heavily funded and placed under the command of Brigadier General L. C. Craigie to test the feasibility of Tesla's concept. Details of the experiments were never published, and the project was apparently discontinued. But something peculiar happened. The copies of Tesla's papers disappeared and nobody knows what happened to them.
Note: For more on this amazing man, 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.
Note: For many reliable reports on government and corporate corruption, click here and here.
The Deepwater Horizon disaster is not just an industrial accident – it is a violent wound inflicted on the Earth itself. It lays bare the hubris at the heart of capitalism. This Gulf coast crisis is about many things – corruption, deregulation, the addiction to fossil fuels. But underneath it all, it's about this: our culture's excruciatingly dangerous claim to have such complete understanding and command over nature that we can radically manipulate and re-engineer it with minimal risk to the natural systems that sustain us. But as the BP disaster has revealed, nature is always more unpredictable than the most sophisticated mathematical and geological models imagine. In the arc of human history, the notion that nature is a machine for us to re-engineer at will is a relatively recent conceit. In her ground-breaking 1980 book The Death of Nature, the environmental historian Carolyn Merchant reminded readers that up until the 1600s, the Earth was alive. Europeans – like indigenous people the world over – believed the planet to be a living organism, full of life-giving powers but also wrathful tempers. There were, for this reason, strong taboos against actions that would deform and desecrate "the mother", including mining. [But] with nature now cast as a machine, devoid of mystery or divinity, its component parts [can] be dammed, extracted and remade with impunity.
Note: For illuminating insights into the nature of reality and the reality of nature, click here.
BP is accused of destroying the wildlife and coastline of America, but if you look back into history you find that BP did something even worse to America. They gave the world Ayatollah Khomeini. Back in 1951 the Anglo-Iranian Oil Company - which would later become BP - and its principal owner the British government, conspired to destroy democracy and install a western-controlled regime in Iran. The resulting anger and the repression that followed was one of the principal causes of the Iranian revolution in 1978/79 - out of which came the Islamist regime of Ayatollah Khomeini. And what's more, BP and the British government were so arrogant and bumblingly inept at handling the crisis that they had to persuade the Americans help them. They did this by pretending there was a Communist threat to Iran. The American government, led by President Eisenhower, believed them and the CIA were instructed to engineer a coup which removed the Iranian prime minister Mohamed Mossadegh. The CIA, led by Allen Dulles, ... sent the CIA's top Middle East agen, Kermit Roosevelt, to run Operation Ajax. The plan, drawn up by the British and the Americans, was to bribe the street gangs of Tehran to create chaos, and then install an army general, General Zahedi, as prime minister.
A year ago, hundreds of people flocked to a 100,000-square-foot former factory building in Wauseon's industrial area where a Napoleon, Ohio, inventor promised to begin building engines that would travel more than 110 miles on a gallon of E85 gasoline. But time and the economy have not been kind to Doug Pelmear's plan to revolutionize the American automobile. The factory today is largely dark and empty, Mr. Pelmear's dreams of putting northwest Ohioans back to work are still constrained within two file drawers full of job applications, and his hopes of mass-producing his HP2g engine have fallen victim to a lack of funding. "We can't get the banks to look at us," Mr. Pelmear said yesterday. Mr. Pelmear said he hasn't sought money from more traditional capital sources such as investors, selling stock or bonded indebtedness, because such sources would likely cost him control of HP2g LLC - something he's unwilling to provide. A partnership Mr. Pelmear forged with Revenge Designs Inc., a Decatur, Ind. specialty carmaker that had planned to use his engine in its upcoming "Verde" supercar, dissolved this spring.
Note: For a treasure trove of exciting reports on new automotive and new energy technologies, click here.
Its superfast, supersecret oil trading software was called the Hammer. And if the Commodity Futures Trading Commission is right, the name fit well with an intricate scheme that allowed commodity traders in Chicago working for Optiver, a little-known company based in Amsterdam, to put their orders first in line and subtly manipulate the price of oil to the company’s advantage. Transcripts and taped conversations of actions that took place in 2007 ... reveal the secretive workings of high-frequency trading, a fast-growing Wall Street business. Critics say this high-speed form of computerized trading, which is used in a wide range of financial markets, enables its practitioners to profit at other investors’ expense. Traders in the Chicago office of Optiver openly talked among themselves of “whacking” and “bullying up” the price of oil. But when called to account by officials of the New York Mercantile Exchange, they described their actions as just “providing liquidity.” In July 2008, the commission charged Optiver with manipulating the price of oil; negotiations over a settlement continue. The Securities and Exchange Commission has opened up an investigation into high-speed-trading practices, in particular the ability of some of the most powerful computers to jump to the head of the trading queue and — in a fraction of a millisecond — capture the evanescent trading spread before the rest of the market does.
Note: This and other reports likely show only the tip of the iceberg of how prices of key stocks and commodities are manipulated. For a great collection of reports from major media sources on the schemes and tricks used by financial corporations, click here.
Chris Paine´s documentary film "Who Killed the Electric Car?" argues convincingly that there was indeed a market for the cars — and a devoted one, ... but that GM [General Motors] squashed the EV1 because, quite simply, it threatened the livelihood of the entire automotive industry. The car used no gasoline, no oil and no mufflers, and it required only sporadic brake maintenance. Each of these components represents billions of dollars in profits for the industry. GM, the oil companies and various government agencies argued that the car wasn´t practical, didn´t have enough range for consumers and was less promising than the apparently imminent hydrogen technology. The reality was exactly the opposite, Paine´s film suggests — the viability of hydrogen as an automotive fuel source alone is in fact almost comically optimistic. The whisper-quiet EV1 was designed by [an] aviation pioneer, Paul MacCready of AeroVironment. In the 1970s, MacCready built the only successful human-powered aircraft, the Gossamer Condor and the Gossamer Albatross. His solar-powered electric car Sunraycer, built for GM, won the 1987 World Solar Challenge Race in Australia. His corporate mantra is "do more with less" — that is, focus on creating vehicles that require less energy to operate, not on finding ways to pump more power into inefficient systems. His team´s battery-powered EV1 was a triumph of engineering and a joy to operate.
Note: For lots more on key suppressed automotive and energy inventions, click here.
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?
Important Note: Explore our full index to revealing excerpts of key major media news stories on several dozen engaging topics. And don't miss amazing excerpts from 20 of the most revealing news articles ever published.