Energy Inventions News Stories
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Gerald Rowley keeps his dreams in his garage. There ... he stores an aging Mazda 626 sedan [specially outfitted with a] one-gallon steel box in the trunk connected to fuel lines leading to a gasoline vaporizing device under the hood. The steel box holds one gallon of regular unleaded gasoline. The device beneath the hood is called the VFS, Vaporizing Fuel System. I came here to drive Rowley's VFS-equipped car. For years, I had spurned the invitations of homespun inventors worldwide to travel to distant points to witness first-hand machines that could deliver 100 miles per gallon or 200 miles per gallon. The claims sounded too incredible to believe -- ridiculous, in fact. If such devices really worked, really did what their inventors said they did, why would they still be sitting on shelves in anonymous workshops -- ignored by the driving public and all of the vehicle manufacturers who serve them? What automobile manufacturer in its right mind, especially with rising concerns about future oil availability and with gasoline prices escalating worldwide, would not jump at the opportunity to acquire a device that delivered 100 miles per gallon? Rowley's patented device is nothing new. It's just the latest iteration of an idea already developed by others -- the notion that you could get more miles per gallon out of a traditional gasoline engine if you pre-heated the fuel to about 350 degrees Fahrenheit, thus turning it into a vapor before it enters the combustion chamber. Vaporized fuel, when properly mixed with air, burns more efficiently, saves fuel and emits fewer tailpipe pollutants than traditional fuel-air mixtures in which gasoline is sprayed into a combustion chamber in tiny droplets and then mixed with air before burning. All car companies know this.
Note: Why won't the car manufacturers develop this amazing, proven technology? For a possible answer, click here. And for a treasure trove of exciting reports on new energy developments, click here.
On a recent run from Boston to Cape Cod, I test drove the 2008 Honda Accord, the latest version of this family favorite. The new Accord boasts an environmental first: a six-cylinder gasoline engine that's cleaner than many hybrid systems. There's only one catch: You can't actually buy this ultra-green Accord, or the four-cylinder version that also produces near-zero pollution. That is, unless you live in California, New York or six other northeast states that follow California's tougher pollution rules. Only there can you buy this Accord, or the roughly two dozen other models that meet so-called Partial Zero Emissions Vehicle standards, PZEV for short. Not only can't you buy one, but the government says it's currently illegal for automakers to sell these green cars outside of the special states. Under terms of the Clean Air Act in the kind of delicious irony only our government can pull off anyone (dealer, consumer, automaker) involved in an out-of-bounds PZEV sale could be subject to civil fines of up to $27,500. Volvo sent its dealers a memo alerting them to this fact, noting that its greenest S40 and V50 models were only for the special states. So, just how green is a PZEV machine? Well, if you just cut your lawn with a gas mower, congratulations, you just put out more pollution in one hour than these cars do in 2,000 miles of driving. Grill a single juicy burger, and you've cooked up the same hydrocarbon emissions as a three-hour drive in a Ford Focus PZEV. As the California Air Resources Board has noted, the tailpipe emissions of these cars can be cleaner than the outside air in smoggy cities. PZEV models are already available from Toyota, Ford, Honda, GM, Subaru, Volvo and VW. But chances are, you've never heard of them.
Note: For many exciting articles about new, efficient and clean energy inventions, click here.
Millions of inventions pass quietly through the U.S. patent office each year. Patent No. 7,033,406 did, too, until energy insiders spotted six words in the filing that sounded like a death knell for the internal combustion engine. An Austin-based startup called EEStor promised "technologies for replacement of electrochemical batteries," meaning a motorist could plug in a car for five minutes and drive 500 miles roundtrip between Dallas and Houston without gasoline. By contrast, some plug-in hybrids on the horizon would require motorists to charge their cars in a wall outlet overnight and promise only 50 miles of gasoline-free commute. And the popular hybrids on the road today still depend heavily on fossil fuels. "It's a paradigm shift," said Ian Clifford, chief executive of Toronto-based ZENN Motor Co., which has licensed EEStor's invention. "The Achilles' heel to the electric car industry has been energy storage. By all rights, this would make internal combustion engines unnecessary." Clifford's company bought rights to EEStor's technology in August 2005 and expects EEStor to start shipping the battery replacement later this year for use in ZENN Motor's short-range, low-speed vehicles. The technology could also help invigorate the renewable-energy sector by providing efficient, lightning-fast storage for solar power, or, on a small scale, a flash-charge for cell phones and laptops. EEStor's secret ingredient is a material sandwiched between thousands of wafer-thin metal sheets, like a series of foil-and-paper gum wrappers stacked on top of each other. Charged particles stick to the metal sheets and move quickly across EEStor's proprietary material. The result is an ultracapacitor, a battery-like device that stores and releases energy quickly.
Note: For many exciting articles about new, efficient and clean energy inventions, click here.
Richard Branson is always reaching for something, whether it's setting records in stratospheric balloon flights or racing across the Atlantic pursuits that have nearly killed him, more than once. But Branson has never done things the conventional way. He is usually striving for something just beyond his grasp and, win or lose, he always comes up smiling. But his latest venture may be his most audacious. On July 18 his and Nelson Mandela's shared birthday they announced the formation of a Council of Elders, a group of seasoned world leaders who literally will try to solve the world's problems. "You only live once," he said. "You might as well throw yourself into life and enjoy it." These days, at age 57, Branson's preoccupations seem to have more to do with saving the world than conquering it. Being in the airline and train business, Branson says he has helped contribute to environmental degradation. But now he hopes to help repair the world. "For a while, I hoped the skeptics were right. But I read a lot, and met a lot of scientists, and realized the world had a real problem," Branson said. He is offering a $25 million prize for anyone who comes up with an invention that can rid the atmosphere of carbon gases, and he has pledged to spend all the profits from his airlines that's $3 billion or so to develop earth-friendly alternative fuels. "What we're hoping to do is actually come up with an alternative fuel that will shake the very foundations of the oil companies and shake the foundations of the coal companies because if we dont shake their foundations, the world could potentially be doomed. I certainly don't feel chosen, but I feel extremely grateful," he said. "I feel I'm in a position where I can make a difference, and I'm not going to waste that position I find myself in."
Three pinstriped London investors stand outside an electric car factory in the green fields of the Norwegian countryside, waiting their turns to test-drive a stylish two-seater called the Think City. But first, Think CEO Jan-Olaf Willums takes the wheel. [He] turns the ignition, and the stub-nosed coupe silently rolls toward an open stretch of pavement. Suddenly he punches the pedal, and the car takes off like a shot, the AC motor instantaneously transferring power to the wheels. The only sound is the squealing of tires as Willums throws the little car into a tight turn and barrels back toward his startled guests. Did someone kill the electric car? You wouldn't know it on this bright May morning in Scandinavia, where the idea of a mass-produced battery-powered vehicle is being resurrected and actual cars are scheduled to begin rolling off the production line by year's end. Shuttling between Oslo and California, Willums has raised $78 million from Silicon Valley and European investors captivated by [his] vision of a carbon-neutral urban car. Willums's pitch is this: He's not just selling an electric car; he's upending a century-old automotive paradigm, aiming to change the way cars are made, sold, owned, and driven. Taking a cue from Dell, the company will sell cars online, built to order. It will forgo showrooms and seed the market through car-sharing services like Zipcar. Every car will be Internet-and Wi-Fi-enabled, becoming, according to Willums, a rolling computer that can communicate wirelessly with its driver, other Think owners, and the power grid. "The timing is right. We are on a path now toward electric cars, and there is no going back." says Ed Kjaer, an electric vehicle veteran who runs the EV program for Southern California Edison.
Note: To read about the mysterious disappearing Toyota Eco Spirit, a proven car design capable of achieving 100 mpg, click here.
A Florida man may have accidentally invented a machine that could solve the gasoline and energy crisis plaguing the U.S.. [John] Kanzius, 63, invented a machine that emits radio waves in an attempt to kill cancerous cells while leaving normal cells intact. While testing his machine, he noticed that his invention had other unexpected abilities. Filling a test tube with salt water from a canal in his back yard, Kanzius placed the tube and a paper towel in the machine and turned it on. Suddenly, the paper towel ignited. Kanzius performed the experiment without the paper towel and got the same result -- the saltwater was actually burning. [He] said he showed the experiment to a handful of scientists across the country who claim they are baffled at watching salt water ignite. Kanzius said the flame created from his machine reaches a temperature of around 3,000 [F]. He said a chemist told him that the immense heat created from the machine breaks down the hydrogen-oxygen bond in the water, igniting the hydrogen. "You could take plain salt water out of the sea, put it in containers and produce a violent flame that could heat generators that make electricity, or provide other forms of energy," Kanzius said. He said engineers are currently experimenting with him in Erie, Pa. in an attempt to harness the energy. They've built an engine that, when placed on top of the flame, chugged along for two minutes. Kanzius admits all the excitement surrounding a new possible energy source was a stroke of luck. Someone who witnessed his work on the cancer front asked him if perhaps the machine could be used for desalinization. "This was an experiment to see if I could heat salt water, and instead of heat, I got fire," Kanzius said.
Note: Why aren't millions of dollars being channeled to explore this exciting field further? To watch a video clip of this exciting machine igniting sea water, click here.
A Florida man with no medical training has invented a machine that he believes may lead to a cure for cancer. John Kanzius ... wondered if his background in physics and radio could come in handy in treating the disease from which he suffers himself. After 24 rounds of chemotherapy, the former broadcaster decided that he did not want to see others suffer trying to cure the disease. Kanzius said it was watching kids being treated that affected him the most. "Particularly, young children walk in with smiles, and then you'd see them three weeks later and their smiles had disappeared. I said to myself, 'We're in a barbaric type of medicine." Kanzius said his machine basically makes cells act like antennae to pick up a signal and self-destruct. Unlike current cancer treatment, Kanzius' machine does not use radiation, and unlike today's radio-frequency treatments, it's noninvasive. Now, some of the nation's most prominent doctors and scientists are using Kanzius' machines in their research. In January, researchers said they performed a breakthrough at the M. D. Anderson Cancer Center in Houston. "The complete killing of pancreatic cells in laboratory conditions is encouraging," Dr. Steve Curley said. Kanzius explained that his machine uses a solution filled with nanoparticles, which measure no more than one-billionth of a meter. A test subject would be injected with either gold or carbon nanoparticles, which would make their way through the body and attach to the cancerous cells. The test subject would then enter the machine and receive a dose of radio frequency waves, theoretically heating and killing the cancerous cells in moments and leaving nearby cells untouched.
Note: For more on this exciting machine and the man behind it, click here. For other major media articles relating potential cancer cures, click here.
Power cables and even batteries might become a thing of the past using a new technique that can transmit power wirelessly. Scientists lit a 60-watt light bulb from a power source 7 feet (2 meters) away with their new technique, with no physical connection between the source and the appliance. The researchers have dubbed their concept "WiTricity," as in "wireless electricity." MIT physicist Marin Soljacic began thinking years ago about how to transmit power wirelessly so his cell phone could recharge without ever being plugged in. Scientists have pursued wireless power transmission for years notably, eccentric genius Nikola Tesla, who devoted much energy toward it roughly a century ago. Soljacic and his colleagues devised WiTricity based off the notion of resonance. One well-known example of resonance can be seen when an opera singer hits the right note to cause a champagne glass to resonate and shatter. Two objects resonating at the same frequency tend to exchange energy efficiently, while interacting weakly with objects not resonating at the same frequency. Instead of sound, the MIT physicists focused on magnetic fields. Most common materials interact only very weakly with magnetic fields, so little power would get wasted on unintended targets. In their latest work, the scientists designed two copper coils roughly 20 inches (50 centimeters) in diameter that were specially designed to resonate together. One was attached to the power source, the other to a light bulb. The practical demonstration of their earlier theoretical work managed to power the light bulb even when obstacles blocked direct line of sight between the source and device.
Note: For more on Nikola Tesla's amazing inventions from a century ago, and how they were suppressed, click here. For lots of additional information on new energy sources and inventions, click here.
Indias largest automaker is set to start producing the worlds first commercial air-powered vehicle. The Air Car, developed by ex-Formula One engineer Guy Ngre for Luxembourg-based MDI, uses compressed air, as opposed to the gas-and-oxygen explosions of internal-combustion models, to push its engines pistons. Some 6000 zero-emissions Air Cars are scheduled to hit Indian streets in August of 2008. Barring any last-minute design changes on the way to production, the Air Car should be surprisingly practical. The $12,700 CityCAT, one of a handful of planned Air Car models, can hit 68 mph and has a range of 125 miles. It will take only a few minutes for the CityCAT to refuel at gas stations equipped with custom air compressor units; MDI says it should cost around $2 to fill the cars carbon-fiber tanks with 340 liters of air at 4350 psi. Drivers also will be able to plug into the electrical grid and use the cars built-in compressor to refill the tanks in about 4 hours. Of course, the Air Car will likely never hit American shores, especially considering its all-glue construction. But that doesnt mean the major automakers can write it off as a bizarre Indian experiment MDI has signed deals to bring its design to 12 more countries, including Germany, Israel and South Africa.
Note: For a cornucopia of exciting articles on new automobile designs and energy inventions, click here.
A Purdue University engineer and National Medal of Technology winner says he's ready and able to start a revolution in clean energy. Professor Jerry Woodall and students have invented a way to use an aluminum alloy to extract hydrogen from water a process that he thinks could replace gasoline as well as its pollutants and emissions tied to global warming. But Woodall says there's one big hitch: "Egos" at the U.S. Department of Energy, a key funding source for energy research, "are holding up the revolution. The hydrogen is generated on demand, so you only produce as much as you need when you need it," he said in a statement released by Purdue this week. So instead of having to fill up at a station, hydrogen would be made inside vehicles in tanks about the same size as today's gasoline tanks. An internal reaction in those tanks would create hydrogen from water and 350 pounds worth of special pellets. The hydrogen would then power an internal combustion engine or a fuel cell stack. "It's a simple matter to convert ordinary internal combustion engines to run on hydrogen," Woodall said. "All you have to do is replace the gasoline fuel injector with a hydrogen injector." "The egos of program managers at DOE are holding up the revolution," he told MSNBC.com. "Remember that Einstein was a patent examiner and had no funding for his 1905 miracle year," Woodall added. "He did it on his own time. If he had been a professor at a university in the U.S. today and put in a proposal to develop the theory of special relativity it would have been summarily rejected."
Note: For a treasure trove of reliable information on clean, new energy sources, click here.
Retired TV station owner and broadcast engineer, John Kanzius, wasn't looking for an answer to the energy crisis. He was looking for a cure for cancer. Four years ago, inspiration struck in the middle of the night. Kanzius decided to try using radio waves to kill the cancer cells. His wife Marianne heard the noise and found her husband inventing a radio frequency generator with her pie pans. "I got up immediately, and thought he had lost it." Here are the basics of John's idea: Radio-waves will heat certain metals. Tiny bits of certain metal are injected into a cancer patient. Those nano-particals are attracted to the abnormalities of the cancer cells and ignore the healthy cells. The patient is then exposed to radio waves and only the bad cells heat up and die. But John also came across yet another extrordinary breakthrough. His machine could actually make saltwater burn. John Kanzius discovered that his radio frequency generator could release the oxygen and hydrogen from saltwater and create an incredibly intense flame. "If that was in a car cylinder you could see the amount of fire that would be in the cylinder." The APV Company Laboratory in Akron has checked out John's ... invention. They were amazed. "That could be a steam engine, a steam turbine. That could be a car engine if you wanted it to be." Imagine the possibilities. Saltwater as the ultimate clean fuel. A happy byproduct of one man searching for the cure for cancer.
Note: Though this exciting breakthrough was reported in dozens of local media, not one major news outlet found it worthy of mention. To verify this yourself, click here.
Many respected engineers have been trying for years to bring a compressed air car to market, believing strongly that compressed air can power a viable "zero pollution" car. Now the first commercial compressed air car is on the verge of production and beginning to attract a lot of attention, and with a recently signed partnership with Tata, India's largest automotive manufacturer, the prospects of very cost-effective mass production are now a distinct possibility. The MiniC.A.T is a simple, light urban car. How does it work? 90m3 of compressed air is stored in fibre tanks. The expansion of this air pushes the pistons and creates movement. It is incredibly cost-efficient to run according to the designers, it costs less than one Euro per 100Km (about a tenth that of a petrol car). Its mileage is about double that of the most advanced electric car (200 to 300 km or 10 hours of driving), a factor which makes a perfect choice in cities where the 80% of motorists drive at less than 60Km. The car has a top speed of 68 mph. Refilling the car will ... take place at adapted petrol stations to administer compressed air. In two or three minutes, and at a cost of approximately [US$2] the car will be ready to go another 200-300 kilometres. As a viable alternative, the car carries a small compressor which can ... refill the tank in 3-4 hours. At the moment, four models have been made: a car, a taxi (5 passengers), a Pick-Up truck and a van. The final selling price will be approximately [US$11,000]. "Moteur Development International" (MDI) ... has researched and developed the Air Car over 10 years.
Note: Why aren't U.S. automakers interested in this breakthrough technology? For abundance of reliable information on the exciting new developments in auto design for super-efficient mileage, click here.
We couldn't pass up mention of the winner of last week's Eco-marathon Americas, a fuel-economy challenge sponsored by Shell Oil Co. A team from Cal Poly San Luis Obispo won the $10,000 grand prize by achieving the equivalent of 1,902.7 miles per gallon on regular gasoline in a student-built vehicle. Granted, the students didn't win in someone's mom's Dodge minivan. Their "car" is a one-occupant streamliner built of carbon fiber composite. At a measly 98 pounds, it weighed less than the driver. And that was 98 pounds including the car's 50-cubic-centimeter Honda engine. "The main reason we do this is because it's a way to encourage students to focus on technical innovation for potential future careers," said David Sexton, president of Shell Oil Products. But there is a practical side to the competition, said Cal Poly team manager Tom Heckel, a junior mechanical engineering major. "Any publicity we can get makes people aware that the 20 mpg or so they're averaging in their cars can be improved on a lot." The event, held April 14 at the California Speedway in Fontana, was the first time that Shell had brought its 25-year-old Eco-marathon competition to the U.S. The event drew 20 university, college and high school teams from around the U.S. and Canada. Rules called for each vehicle to complete seven 1.45-mile laps around the speedway's inner track, averaging at least 15 mph. Fuel consumption was measured after each attempt and adjusted for ambient temperature and other factors in a complex formula that ends up giving an extrapolation of miles per gallon.
Note: Why would the president of Shell Oil Products state the main reason for this competition is about careers and not finding ways to improve gas mileage? The world record is over 10,000 mpg. How is it that the average car gets only 22 mpg when the Ford Model T got 25 mpg almost 100 years ago? For more, click here.
Off the western coast of Scotland, on the Isle of Islay, science teacher Ray Husthwaite turns on the light in his classroom. The electricity comes from a power cable that runs to the mainland. But it also comes from the ocean. A few miles from the school, wave action compresses and decompresses air in a chamber. The moving air powers a turbine, which generates electricity. "It is pleasant ... to sit beside the gray, concrete structure and listen to the rising and falling of the waves, driving air through the turbines like the breath of a great sea monster," Husthwaite said. "It seems insane to me to be investing in nuclear power stations and gas turbines when there are endless, free energy resources in the rivers, oceans and the wind." Ocean power gradually is joining the ranks of wind and solar power as a source of renewable energy. Islay's wave-power converter, the Limpet 500, has been operating since 2000. In Hawaii, the Navy has been churning up electrons with the help of a floating buoy. And in Portugal, engineers are installing snakelike tubes designed to convert the sea's motion into electricity. Some designs, like the Limpet, use waves to push air through a column. Others convert the sea's up-and-down motion into mechanical energy. One wave-power company executive told a congressional committee last year that several hundred square miles off the California coast could supply the electrical needs of all of the homes in the state.
Note: To learn about an abundance of other new energy technologies which could replace oil, click here.
Though the 100 mpg car sounds like a myth, it turns out that such vehicles do exist -- only they're built in your neighbor's garage, not a giant production plant. Known as plug-in hybrid-electric vehicles ... theyre basically Priuses or similar hybrids that have been equipped with extra batteries, so that they rarely use their gasoline engines at all. "People are salivating for plug-ins," says Bradley Berman, editor of the site HybridCars.com. A hybrid vehicle today like a Prius has both a gasoline engine and a battery, which is fed by the braking energy produced by the car. It cant be plugged in. A plug-in hybrid keeps those components, but essentially gets an extra fuel tank, in the form of an added battery bank ... that allows the car to run exclusively off battery power for most driving. Felix Kramer, founder of the California Cars Initiative, a nonprofit group that promotes the use of high-efficiency, low-emission cars, owns the first consumer plug-in in North America. Not surprisingly, he loves it. "Many days I use no gasoline, because I go at neighborhood speeds for under 30 miles, and Im just all-electric all day," he says. And the mileage? "At highway speeds, you can easily get over 100 mpg." Other plug-in owners offer up similar results. "I used to fill up every 400 miles or so," he says ... "and now I fill up every 800 miles or so." Advocates estimate that it costs less than $1 per gallon to replenish a plug-in hybrid. "Our goal is to have a $3,000 kit," CalCars' Kramer says. (That number, coincidentally, is also what many plug-in evangelists think that the technology would cost for Toyota to add to its hybrids.)
Note: If people are doing this in their garage, why aren't the auto makers already producing them? In fact, a similar vehicle was produced to be marketed in 2002, but then pulled off the market. To find why average car mileage has remained virtually unchanged for 100 years, click here.
Toyota Prius owners tend to be a proud lot since they drive the fuel-efficient hybrid gas-electric car that's ... one of the hottest-selling vehicles in America. A few, however, felt that good was not good enough. They've made "improvements" even though the modifications voided parts of their warranties. Why? Five words: one hundred miles per gallon. "We took the hybrid car to its logical conclusion," [Felix] Kramer says, by adding more batteries and the ability to recharge by plugging into a regular electrical socket at night. Compared with the Prius' fuel efficiency of 50 mpg, plug-in hybrids use half as much gasoline by running more on cleaner, cheaper, domestic electricity. These trendsetters monkeyed with the car ... to make a point: If they could make a plug-in hybrid, the major car companies could, too. Kramer ... and a cadre of volunteers formed the California Cars Initiative (online at calcars.org). They added inexpensive lead-acid batteries ... giving the car over 100 mpg in local driving and 50 to 80 mpg on the highway. The cost of conversion is about $5,000 for a do-it-yourselfer. Several small companies like EnergyCS ... started doing small numbers of conversions for fleets and government agencies using longer-lasting, more energy-dense lithium-ion batteries. Kramer hired EnergyCS to convert his Prius and reported on a typical day of driving. Compared with driving his Prius before the conversion, he ... spewed out two-thirds less greenhouse gases at a total cost of $1.76 for electricity and gasoline, instead of the $3.17 it would have required on gasoline alone. People want plug-in hybrids but can't get them. Dealers don't sell them yet, and the few conversion services cater to fleets.
Note: For a video and educational package to guide those who want to build a 100 mpg car, see www.eaa-phev.org. For why the car companies with their massive budgets haven't developed cars like this, click here.
Venture capitalists are pouring hundreds of millions of dollars into [Silicon] Valley solar startups pursuing technological breakthroughs to make sun power as cheap as fossil fuel. Three of the largest tech IPOs of 2005 were for solar companies. The world's largest chip-equipment maker will begin producing machines to manufacture solar wafers, laying the groundwork for an industrial infrastructure that should lower the cost of producing solar cells. Solar energy has just the sort of oversize potential that the titans of tech saw in computing: a free and practically inexhaustible power source. California is also committing $3.2 billion to fund a drive to install solar panels on a million rooftops by 2018, and a November ballot initiative ... would tax Big Oil to provide $4 billion in funding for alternative-energy research, programs, and startups. Perhaps no startup has benefited more from the solar gold rush than Nanosolar. The Palo Alto company ... has racked up more than $100 million in funding so far. Nanosolar is pursuing a technology that produces solar cells on a film that's a 100th the thickness of conventional silicon wafers. Its ultimate goal: integrating thin-film cells directly into building materials. A skyscraper's glass windows, for instance, could be embedded with thin-film cells, giving them energy-producing capabilities. Nanosolar plans to build a manufacturing facility next year ... that will eventually produce 430 megawatts' worth of solar cells per year. That would nearly triple the nation's manufacturing capacity and make Nanosolar one of the world's largest solar producers. Thanks to aggressive government subsidies, Germany and Japan are currently the global leaders in solar production.
Note: With all of its talk about energy independence, why isn't the U.S. aggressively supporting research into solar power like Japan and Germany? For reliable, verifiable information which answers this question, click here.
From a plug-in hybrid car to the sexy electric Tesla Roadster, celebrities wanting to make a green statement on the way to the red carpet of the Oscars will have plenty of environment-friendly rides. Global Green USA has lined up 30 cars to shuttle the likes of Leonardo DiCaprio and Davis Guggenheim, director of the Oscar-nominated documentary on global warming "An Inconvenient Truth," to the star-studded ceremony in Hollywood. The environmental group began the green limousine campaign five years ago at the Oscars to raise awareness among the tens of millions of viewers worldwide about alternative fuel cars, energy independence and solutions to global warming. On a Hollywood parking lot ahead of Wednesday's Global Green USA celebrity party, Steve Schneider showed off his tiny $10,000 ZAP (Zero Air Pollution) cars made in California. One was a mini pick-up and the other a three-wheeler. "It is the first time that common people can be introduced to this type of technology," said Schneider. "We are trying to have mass appeal. This vehicle operates at a cost of a penny a mile." But it is the two-seat, scarlet-colored prototype of the Tesla Roadster, invented and financed in Silicon Valley, that will be the coveted car pulling up to the red carpet. Already 330 celebrities, including George Clooney, have signed up to buy the electric car that goes from 0 to 60 mph (0 to 100 kph) in four seconds. Production will begin later this year and the base price is $92,000, although the company also is working on a sedan that will cost between $50,000 and $65,000.
Note: If the above link fails, click here. Why has the media given so little attention to these breakthrough vehicles? For a possible answer, click here.
The Plasma Converter ... can consume nearly any type of wastefrom dirty diapers to chemical weaponsby annihilating toxic materials in a process ... called plasma gasification. A 650-volt current passing between two electrodes rips electrons from the air, converting the gas into plasma. The plasma arc is so powerful, it disintegrates trash into its constituent elements by tearing apart molecular bonds. The system is capable of breaking down pretty much anything except nuclear waste. The only by-products are an obsidian-like glass [and] a mixture of primarily hydrogen and carbon monoxide that can be converted into a variety of marketable fuels, including ethanol, natural gas and hydrogen. Perhaps the most amazing part of the process is that its self-sustaining. Once the cycle is under way, the 2,200F syngas is fed into a cooling system, generating steam that drives turbines to produce electricity. About two thirds of the power is siphoned off to run the converter; the rest can be used on-site for heating or electricity, or sold back to the utility grid. Even a blackout would not stop the operation of the facility. New York City is already paying an astronomical $90 a ton to get rid of its trash. According to Startech, a few 2,000-ton-per-day plasma-gasification plants could do it for $36. Sell the syngas and surplus electricity, and youd actually net $15 a ton. But the decision-making bureaucracy can be slow, and it is hamstrung by the politically well-connected waste-disposal industry. Startech isnt the only company using plasma to turn waste into a source of clean energy. A handful of start-upsGeoplasma, Recovered Energy, PyroGenesis, EnviroArc and Plasco Energy, among othershave entered the market in the past decade.
Note: Why hasn't this amazing, proven machine and technology made front page headlines? Read the exciting article at the link above to find how it is already being used. For why you don't know about it, read this excellent article on how such inventions are suppressed.
Within five years, solar power will be cheap enough to compete with carbon-generated electricity. In a decade, the cost may have fallen so dramatically that solar cells could undercut oil, gas, coal and nuclear power by up to half. Anil Sethi, the chief executive of the Swiss start-up company Flisom, says he looks forward to the day - not so far off - when entire cities in America and Europe generate their heating, lighting and air-conditioning needs from solar films on buildings with enough left over to feed a surplus back into the grid. The secret? A piece of dark polymer foil, as thin a sheet of paper. It is so light it can be stuck to the sides of buildings. It can be mass-produced in cheap rolls like packaging - in any colour. The "tipping point" will arrive when the capital cost of solar power falls below $1 (51p) per watt, roughly the cost of carbon power. The best options today vary from $3 to $4 per watt - down from $100 in the late 1970s. Mr Sethi believes his product will cut the cost to 80 cents per watt within five years, and 50 cents in a decade. "We don't need subsidies, we just need governments to get out of the way and do no harm," he said. Solar use [has] increased dramatically in Japan and above all Germany, where Berlin's green energy law passed in 2004 forces the grid to buy surplus electricity from households at a fat premium. The tipping point in Germany and Japan came once households [understood] that they could undercut their unloved utilities. Credit Lyonnais believes the rest of the world will soon join the stampede. Needless to say, electricity utilities are watching the solar revolution with horror.
Note: Why is this inspiring, important news getting so little press coverage? And why not more solar subsidies? For a possible answer, click here. And for an amazing new energy source not yet reported in the major media which could make even solar energy obsolete, click here.
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