Energy Inventions News ArticlesExcerpts of key news articles on
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Hydrogen, tested in buses from Amsterdam to Vancouver ... is a clean power that promises to break dependence on oil and gas -- at least in Iceland. With almost unlimited geothermal energy sizzling beneath its surface, Iceland has an official goal of making the country oil-free by shifting cars, buses, trucks and ships over to hydrogen by about 2050. About 70 percent of Iceland's energy needs ... are already met by geothermal or hydro-electric power. Only the transport sector is still hooked on polluting oil and gas. The world's first hydrogen filling station, run by Shell, opened in Reykjavik in April 2003. Hydrogen bus projects have also been launched in cities including Barcelona, Chicago, Hamburg, London, Madrid, Stockholm, Beijing and Perth, Australia. The efficiency of the hydrogen fuel cells will decide if the ventures take off into the wider car market. "The idea is that the buses should be twice as efficient as an internal combustion engine," said Jon Bjorn Skulason, general manager of Icelandic New Energy Ltd. Greater engine efficiency would compensate for the inefficiency of producing hydrogen. Iceland's buses, made by DaimlerChrysler, cost about 1.25 million euros ($1.67 million) each, or three to four times more than a diesel-powered bus, Skulason said. It takes about 6-10 minutes to refill a hydrogen bus, giving a range of 240 miles. [A] Reykjavik bus driver said diesel and hydrogen buses were similar to drive. "But the hydrogen bus is less noisy."
AFS Trinity Power Corporation today announced it pulled its 150 MPG plug-in hybrid SUV prototypes out of the LA Auto Show but will independently exhibit and demonstrate the super fuel-efficient vehicles on their own elsewhere in downtown LA during the show. The company's decision followed actions by the LA Auto Show to muzzle AFS Trinity from highlighting the 150 miles per gallon fuel economy of its XH150 prototype vehicles. "The suppression by the automakers of information about technologies such as this raises serious questions about the judgment, vision, intentions and capabilities of the leadership of these companies," said Edward W. Furia, Chairman and CEO of AFS Trinity. "Such conduct by the automakers, who are currently seeking tens of billions of taxpayer dollars, ostensibly to develop fuel efficient vehicle technologies, is evidence they are reluctant to embrace solutions they didn't invent." First shown at the North American International Auto Show (NAIAS) in Detroit in January, 2008, two XH150 prototypes have toured the country for the last ten months and received positive reactions from the American public, national media, public officials, governors, ... members of Congress as well as automotive fleet managers and engineers in Austin, Salt Lake City, Philadelphia, Washington D.C., Seattle, Livermore and Sacramento. Furia explained that, when AFS Trinity sought exhibition space on the main floor of the LA Auto Show, the only space that show management offered was the Kentia Hall basement.
Note: The LA Auto Show is "owned" by the Greater Los Angeles New Car Dealers Association, which, in turn, is closely associated with the major auto makers in Detroit. For lots more exciting developments in automotive and new energy technologies from reliable, verifiable sources, click here.
At a glittering Los Angeles party, an ambitious new car maker declared the electric car alive and well. The Tesla Roadster, which can go from 0 to 60 mph in 4 seconds doesn't come from Detroit, but from high tech Silicon Valley aiming to do what Detroit couldn't -- make a commercially successful car that doesn't burn gas. "Electric cars don't have to be little, pathetic commuter cars," says Martin Eberhard, CEO of Tesla Motors. "They can be quick and they can be desirable." Eberhard made millions in the computer industry, then convinced other high tech investors like Elon Musk, the founder of PayPal, to put in big money. Musk expects huge rewards if Silicon Valley can break Detroit's grip on the U.S. auto industry. "It's batteries, it's drive electronics, it's electric motors," says Musk. "Those are skills that are present in Silicon Valley and not present in Detroit." There's a quick charger for the Tesla's lithium batteries but the car can be plugged in anywhere. It'll go 250 miles on a single charge -- at a cost the company says, of just 1 cent a mile. Tesla expects to quickly sell its first 100 cars for $100,000 each. But, don't give up. The company also has plans for a car for the rest of us. Tesla promises a less expensive four-door family car within three years. For now, however, it's the rich and famous who are getting a charge out of this electric car, such as Gov. Arnold Schwarzenegger, who tried out the car and had two words to say: "Very Nice."
Note: Don't be surprised if this technology inexplicably disappears as so many others have, like the once heralded 100 MPG Toyota Eco Spirit back in 2002. For lots more reliable information on the suppression of new energy inventions, see http://www.WantToKnow.info/newenergyinformation.
The above link is not a news article, but rather a fascinating 12-minute video demonstrating inspiring new energy technologies. I have seen the longer, full video, which is one of the best videos available covering this exciting field. For more on the full video, see http://www.WantToKnow.info/resources#free. For an excellent two-page summary of the new energy field, see http://www.WantToKnow.info/newenergysources.
Note: The Guardian also had an article on this amazing technology last year. See the link below:
http://www.guardian.co.uk/uk_news/story/0,,1481009,00.html
The military has a long history of funding research into topics that seem straight out of science fiction, even occultism. These range from "psychic" spying to "antimatter"-propelled aircraft and rockets to strange new types of superbombs. In recent years, many physicists have become excited about a phenomenon called "quantum teleportation," which works only with infinitesimally tiny particles. Davis, who has a doctorate in astrophysics from the University of Arizona, has worked on NASA robotic missions. His 79-page Air Force study seriously explored a series of possibilities, ranging from "Star Trek"-style travel to transportation via so-called wormholes in the fabric of space to psychic travel through solid walls. Davis expressed great enthusiasm for research allegedly conducted by Chinese scientists who, he says, have conducted "psychic" experiments in which humans used mental powers to teleport matter through solid walls. He claims their research shows "gifted children were able to cause the apparent teleportation of small objects" (radio micro-transmitters, photosensitive paper, mechanical watches, horseflies, other insects, etc.). If the Chinese experiments are valid and could be repeated by American scientists, Davis told The Chronicle in a phone interview Thursday, then, in principle, the military might some day develop a way to teleport soldiers and weapons.
The main limitation of solar power right now is cost, because the crystalline silicon used to make most solar photovoltaic (PV) cells is very expensive. One approach to overcoming this cost factor is to concentrate light from the sun using mirrors or lenses. But traditional light concentrators are bulky and unattractive. Now Prism Solar Technologies...has developed a proof-of-concept solar module that uses holograms to concentrate light, possibly cutting the cost of solar modules by as much as 75 percent, making them competitive with electricity generated from fossil fuels. The panels, says Rick Lewandowski, the company's president and CEO, are a "more elegant solution" to traditional concentrators, and can be installed on rooftops -- or even incorporated into windows and glass doors. A layer of holograms...directs light into a layer of glass where it continues to reflect off the inside surface of the glass until it finds its way to one of the strips of PV silicon. Reducing the PV material needed could bring down costs from about $4 per watt to $1.50 for crystalline silicon panels. The company is expecting to...start manufacturing its first-generation modules by the end of the year, selling them at about $2.40 per watt. CEO Lewandowski says the holographic modules will cost about $1.50 per watt in a few years, using their second-generation technology. At that price, they'll start to compete with fossil fuel-generated electricity, which now costs almost three times less than conventional solar electricity.
The U.S. Department of Energy (DOE) is quitting the hydropower and geothermal power research business -- if Congress will let it. Declaring them "mature technologies" that need no further funding, the Bush administration in its FY 2007 budget request eliminates hydropower and geothermal research. "What we do well is research and funding of new, novel technologies," says Craig Stevens, chief spokesman for the DOE. "I'm just astonished the department would zero out these very small existing budgets for geothermal and hydro," says V. John White, executive director of the Center for Energy Efficiency and Renewable Technologies. "These are very important resources for our energy future that could replace the need for a lot of coal-fired power plants." Indeed, the costs of lost opportunities from dropping such research could be enormous in the long run. Geothermal holds vast potential -- at least 30,000 megawatts of identified resources developable by 2050. Meanwhile, the more than 5,400 potential "small hydro" power projects could produce about 20,000 megawatts of power, a DOE study in January found. And most would require no new dams at all, shunting a portion of a small river's flow to one side to make electricity. Others would add turbines to dams that don't have them yet. Together, high-tech hydropower and geothermal resources could contribute at least enough power to replace more than 100 medium-size coal-fired power plants with emissions-free electricity.
Turning corn into fuel is all the rage these days as America attempts to reduce its oil dependency. But a team of Metro Detroit researchers has identified a potentially cheaper and more Earth-friendly fuel source: peat, that half-rotted vegetation that covers a considerable chunk of Michigan. The scientists, from University of Detroit Mercy and Wayne State University, are working to develop what they call "pethanol" to run small, fuel-cell-powered vehicles such as golf carts and riding mowers. Because peat forms naturally and requires no fertilization, it's a benefit over corn, the researchers say. "Corn's biggest problem is that you only get one crop a year," said John Shewchun, an adjunct chemistry and engineering professor at Wayne State. "Peat is dirt cheap (to harvest), and with it you've got something that is easily replenished." In lab tests, the pethanol has also powered a fuel cell without the use of hydrogen, which eliminates the need for hydrogen storage tanks in fuel-cell vehicles. Benvenuto, principal investigator on the project, said if peat works as a fuel, the researchers will look at duplicating its success with other hearty native Michigan plants. He said the answer is likely not one plant, but a variety of sources. "None of the three of us think this will solve America's energy dependence," Benvenuto said. "But it will help."
A team of engineering students from The University of British Columbia has built a vehicle so efficient that it could travel from Vancouver to Halifax on a gallon of gasoline. The futuristic-looking, single-occupancy vehicle won top prize at a recent international competition, marking the UBC team's fourth win in as many years. The Society of Automotive Engineers (SAE) Supermileage Competition took place June 9 in Marshall, Michigan. Forty teams from Canada, the U.S. and India competed in designing and building the most fuel-efficient vehicle. 'We achieved this level of efficiency by optimizing many aspects of the vehicle design, including: aerodynamics, light-weight construction, a small displacement engine (54 cc), and conservative driving habits,' says Team Captain Kevin Li. The UBC design...achieved 3,145 miles per US gallon. Supermileage...is an annual student competition that challenges students to design, build, and drive a single person vehicle (powered solely by a gasoline engine) to achieve the best fuel mileage possible. The vehicle must be powered by only an internal combustion engine, with no assistance from electric motors or human propulsion.
Note: Why don't we see articles like this in the mainstream media? Even if this vehicle is ultra lightweight and has a top speed of only 30 mph, why can't we design heavier, faster cars which get just 10% of what this car got? For answers to this question, see http://www.WantToKnow.info/050711carmileageaveragempg
It's a dream that's been pursued for years: Mass-producing affordable hydrogen-powered cars that spew just clean water from their tailpipes. So Shanghai's Horizon Fuel Cell Technologies decided to start small. Really small. This month, it will begin sales of a tiny hydrogen fuel-cell car, complete with its own miniature solar-powered refueling station. The toy is a step toward introducing the technology to the public and making it commercially viable. Though prototype hydrogen cars exist, they're far from practical or affordable. Horizon's H-Racer and fueling station solve those problems on a very small scale. The price: $80 for the set. The toy's fuel cell, like those envisioned for real cars, relies on an electrochemical reaction...that powers the gadget's electric motor. The only byproducts are electricity, heat and water. The fuel is supplied by its alarm clock-sized refueling station. A small electric current, generated by the solar cells, extracts hydrogen from water. With the flip of a switch, the car takes off and runs for 4 minutes on a full tank. At Horizon's headquarters...Wankewycz and former Eastman Chemical Co. colleague George Gu demonstrated prototypes of a hydrogen-powered electric bicycle and a golf caddy they are converting from lead acid batteries to hydrogen power. "We're working on the smaller things until the infrastructure is ready," he says. On the Net: Horizon Fuel Cell Technologies: http://www.horizonfuelcell.com
Note: If governments and car companies poured millions into researching this technology, rapid progress could be made. For why this cutting-edge company is located in Shanghai and why they have only $3 million to work with, take a look at http://www.WantToKnow.info/newenergysources
Manuel Salinas, a 39-year-old inventor, claims he has built a machine that has extraordinary capabilities for finding buried objects. And now that university lab tests seem to confirm that his robot works, mining and oil corporations are flooding him with business plans. How this machine functions is still an "industrial secret," Salinas said. But ask him for proof that it works and he'll hand you a pile of press clippings on the device, called Geo-Radar or Arturito (a play on the name of Star Wars robot R2-D2). In September 2005 Salinas announced that he had found gold and buried treasure on the Juan FernĖndez Islands...off the coast of Chile. Recently, Salinas asked a Chilean university to study the machine and put the questions surrounding it to rest. In early May the results came in, and the Geo-Radar jumped back into local headlines. University investigators announced laboratory and field tests indicating that the Geo-Radar technology is capable of quickly finding copper deposits, petroleum, and gold bullion at depths of up to 600 feet (283 meters). "This reduces the time of exploration from three months to one day," said engineering professor Ricardo Neira Navarro at a press conference in Santiago, the national capital. "I built this machine to find buried antipersonnel mines," explained Salinas. When he finished building the machine in 2004 and ran field tests, Salinas says, the machine surprised him with its abilities to find water, petroleum, and buried metals.
A much-shrouded idea could give portable power a real charge, for a change -- and change, well, everything. Imagine the day when cellphones charge up in seconds, laptop batteries never degrade, and electric cars have the same power, driving range and purchase price as their gas-powered cousins. Such a battery -- a superbattery -- doesn't exist today, but a tiny company out of Austin, Texas, is getting remarkably close, and the possibilities have caught the attention of the U.S. army, the former vice-chairman of Dell Computer, and one of the most respected venture capital firms in North America. Among EEStor's claims is that its "electrical energy storage unit" could pack nearly 10 times the energy punch of a lead-acid battery of similar weight and, under mass production, would cost half as much. It also says its technology more than doubles the energy density of lithium-ion batteries in most portable computer and mobile gadgets today, but could be produced at one-eighth the cost. The company...is weeks away from seeking independent verification of the product's performance. Adding more intrigue to the story is the fact that Colin Powell, the former U.S. secretary of state, joined Kleiner Perkins last summer as a strategic partner.
In the quest for oil-free power, a handful of small companies are staking claims on the boundless energy of the rising and ebbing sea. The technology that would draw energy from ocean tides...is largely untested, but several newly-minted companies are reserving tracts of water from Alaska's Cook Inlet to Manhattan's East River in the belief that such sites could become profitable sources of electricity. The site that is furthest along in testing lies in New York's East River, between Manhattan and Queens, where Verdant Power plans to install two underwater turbines this month. If all goes well, New York-based Verdant could have up to 300 turbines in the river by 2008. The turbines would produce as much as 10 megawatts of power, or enough electricity for 8,000 homes. With 12,380 miles of coastline, the U.S. may seem like a wide-open frontier for the fledgling industry, but experts say interest will focus on only a few. Government and the private sector in Europe, Canada and Asia have moved faster than their U.S. counterparts to support tidal energy research. As of June 2006, there were small facilities in Russia, Nova Scotia and China, as well as a 30-year-old plant in France, according to a report by EPRI. Tidal power proponents liken the technology to little wind turbines on steroids. Water's greater density means fewer and smaller turbines are needed to produce the same amount of electricity as wind turbines. Wave energy technology is less advanced than tidal and will need more government subsidies...however, the number of good wave sites far exceeds that of tidal. But a few companies are working aggressively to usher wave power into the energy industry.
Note: To understand why the U.S. is moving slowly, see http://www.WantToKnow.info/newenergysources.
Important Note: Explore our full index to revealing excerpts of key major media news articles on several dozen engaging topics. And don't miss amazing excerpts from 20 of the most revealing news articles ever published.