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December 13, 2007

First U.S. Solar Thermal Power Manufacturing Plant Lands in Nevada

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High-capacity plant to double worldwide output, create green collar jobs

LAS VEGAS—Dec. 13, 2007—Ausra Inc., the developer of utility-scale solar thermal power, announced today it is building the first U.S. manufacturing plant for solar thermal power systems in Las Vegas. The 130,000-square-foot, highly automated manufacturing and distribution center will produce the reflectors, towers, absorber tubes, and other key components of the company's solar thermal power plants.

Solar thermal power plants use fields of mirrors to capture the sun's power to produce electricity without pollution. Ausra's innovations in mirror systems have brought the price of solar power down to the level of gas-fired power today, and will soon reach prices associated with coal-fired generation. Solar thermal power plants can store energy as heat to continue power generation at night and during cloudy periods.

"Ausra can fill four square miles with solar collectors every year from this one factory, enough to provide market-priced zero-pollution power to 500,000 homes. Americans want clean power, and are tired of the market fluctuations, price increases, and pollution from fossil power plants. With market-priced solar power, we are entering the Solar Decade, in which massive construction of solar plants will take place. We are investing now in the systems and capacity to serve that need," said Bob Fishman, president and CEO of Ausra.

In November 2007, Ausra and California utility PG&E announced a power purchase agreement for a one-square-mile, 177-megawatt power plant, enough to power over 120,000 homes, to be built in central California http://ausra.com/news/releases/071105.html. Ausra's new Las Vegas facility will manufacture the solar field equipment for the PG&E project and for other power projects throughout the American Southwest. The factory, the first of its kind in the U.S., will be capable of making over 700 megawatts (electric) of solar collectors per year. The facility is expected to employ up to 50 highly skilled manufacturing workers in the Las Vegas area.

"We are proud that Ausra has chosen southern Nevada to build its U.S. manufacturing plant, bringing economic growth and new jobs to our state," said Somer Hollingsworth, president and CEO of the Nevada Development Authority (NDA). "The business-friendly environment we enjoy here provides Ausra and other companies a wealth of benefits. Ausra's decision to locate here points to Nevada becoming a leader in building and delivering clean power to our state, to our region, and to our country. Clean energy is growing our economy and helping America secure our energy future."

The plant will begin regular operation in April 2008. "We chose to locate in Nevada because it is the center of America's solar energy future. Nevada has massive solar resources, available land and a growing demand for clean energy, with huge markets next door in California and neighboring states projected to demand many thousands of megawatts over the coming years. Nevada's business-friendly climate, excellent transportation and workforce resources, and large-scale need for clean power made it the obvious choice," said Rob Morgan, Ausra executive vice president and chief development officer.

Ausra's Compact Linear Fresnel Reflector (CLFR) solar technology utilizes the heat from the sun's rays to create steam. Solar collectors boil water at high temperature to power steam turbine generators, in much the same way as traditional fossil-fuel power plants, but without use of fuels or emissions.

About Ausra Ausra, Inc. develops and deploys utility-scale solar thermal power technology to serve global electricity needs in a dependable, market-competitive, environmentally responsible manner. Located in Palo Alto, Calif., Ausra is a privately held company funded by Khosla Ventures and Kleiner, Perkins, Caufield & Byers. To learn more about Ausra and solar thermal power in general, visit www.ausra.com.

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Ultimate Biodiesel Guide


February 2, 2007

Geotec Thermal Generators, Inc. - Providing Services for the Alternative Energy Industry Live on MN1.com - geo thermal energy


DELRAY BEACH, Fla., Feb. 1, 2007 (PRIME NEWSWIRE) (PRIMEZONE) — Bradley Ray, Chief Executive Officer for Geotec Thermal Generators, Inc. (Pink Sheets:GETC), will be featured live on Market News First (www.mn1.com) for an exclusive interview with Rich Hancock and Bob Leonard Via Webcam. The interview is scheduled for Monday, Feb. 5, 2007, at 10:30 A.M. CDT

Mr. Ray will be informing the investment community about the company and the markets it serves. The discussion will include the company's latest ventures, mentioned in recent press releases, and what it expects to accomplish within the fiscal 2007 year.

Join Bradley Ray to learn more about the goals of the company, as well as its position in the stock market.

About Geotec Thermal Generators, Inc.

Geotec has 140 proteins that perform various functions to recover or increase the value of hydrocarbons, such as oil or coal. The hydrocarbons can be cleaned from contaminated soils or water to Environmental Protection Agency acceptable levels and the dangerous chemicals can be controlled or sequestered, thereby providing for cleaner air, soil and water

Geotec, over the last two years, has focused on the commercialization of 140 proteins/enzymes for the remediation and chemical transformation of waste coal in Belle Vernon, Pennsylvania to clean coal meeting NYMEX standards. The Company's bio-refinery process cleans (remediates) the coal waste sites and corrects acid mine drainage. One of Geotec's competitive advantages is that no top soil or other materials are required. This waste coal feedstock byproduct becomes top soil and the Company has demonstrated subsequent sustainable soybean growth.

Geotec has Asphaltite mines in Argentina and characteristically this material has been converted to diesel and jet fuel. 4-5 barrels of diesel/jet fuel were obtained per ton of Asphaltite. Following processing, the remaining product is very pure fixed carbon, which is probably the highest quality coking coal, with yields of 10-15% per ton of Asphaltite. Processing for Asphaltite can be maximized by utilizing high-temperature thermal desorption with the Geotec enzyme/proteins.

Geo Thermal Energy

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$500 million to fund new Bio Fuels/Alternative energy research at two top campuses announced


Thursday February 1, 12:30 pm ET

University of California Berkeley, the University of Illinois and the Lawrence Berkeley National Lab join research effort

BERKELEY, Calif., Feb. 1 /PRNewswire/ — BP today announced it has selected the University of California Berkeley and its partners the University of Illinois, Urbana-Champaign and the Lawrence Berkeley National Laboratory to join in a $500 million research program that will explore how bioscience can be used to increase energy production and reduce the impact of energy consumption on the environment.

BP Selects Strategic Partners for Energy Biosciences Institute

The Energy Biosciences Institute will perform ground-breaking research aimed at the production of new and cleaner energy, initially focusing on renewable biofuels for road transport. The EBI will also pursue bioscience- based research in three other key areas; the conversion of heavy hydrocarbons to clean fuels, improved recovery from existing oil and gas reservoirs, and carbon sequestration.

'The proposal from UC Berkeley and its partners was selected in large part because these institutions have excellent track records of delivering 'Big Science' — large and complex developments predicated on both scientific breakthroughs and engineering applications that can be deployed in the real world,' said BP Group Chief Executive John Browne. 'This program will further both basic and applied biological research relevant to energy. In short, it will create the discipline of Energy Biosciences. The Institute will be unique in both its scale and its partnership between BP, academia and others in the private sector.'

Dedicated facilities on the campuses of UC Berkeley and the University of Illinois will house EBI research laboratories and staff. The Lawrence Berkeley National Laboratory will carry out supporting research. Up to 50 BP staff located on the two campuses will work in partnership with university faculty and researchers. BP and its partners will share governance of the EBI and guidance of its research programs.

'We are delighted to welcome UC Berkeley, the University of Illinois and the Lawrence Berkeley Lab to this effort,' said Bob Malone, chairman and president of BP America Inc. 'We are joining with some of the world's best science and engineering talent to meet the world's demand for low carbon energy. As part of that effort we will be working to improve and expand the production of clean, renewable energy through the integrated development of better crops, better processing technologies, and new biofuels.'

'BP's award is a tribute to the scientific excellence of the Department of Energy's Lawrence Berkeley National Laboratory and its academic partners at the University of California, Berkeley, and the University of Illinois at Urbana-Champaign,' said U.S. Secretary of Energy Samuel W. Bodman. 'As we continue to promote alternative energy as a means to strengthen our nation's energy security, it is important that private industry join in support of research to advance President Bush's goal of making clean energy sources, like bioenergy and biofuels, commercially available.'

'We are extremely pleased that BP has chosen to partner with the University of California at Berkeley, Lawrence Berkeley National Laboratory and the University of Illinois at Urbana-Champaign to create the Energy Biosciences Institute,' said Dr. Robert J. Birgeneau, chancellor of UC Berkeley. 'Contributing our world-class expertise in the areas of alternative energy research and policy with BP's ambitious vision for EBI will harness the most creative science and innovative technologies to develop viable solutions to global energy challenges. We are tremendously excited at the possibility this partnership holds for solving one of the most fundamental problems that currently faces our nations and the world.'

'I can't tell you how excited I am that BP has chosen UC Berkeley and California for its new $500 Million Energy Biosciences Institute,' said California Governor Arnold Schwarzenegger. 'I'm proud that the private sector has recognized California's leadership and commitment to clean energy. This is a perfect complement to our new low-carbon fuel standard which will cut carbon emissions 10 percent from our cars by the year 2020, and with research facilities like the Energy Biosciences Institute, California will continue to be a leader in the Cleantech industry.'

'I thank BP for engaging the University of California, Berkeley and the University of Illinois at Urbana-Champaign in this noble enterprise,' said Richard Herman, chancellor of UIUC. 'This exciting venture allows two of the country's greatest public universities to work together to develop renewable energy — an initiative that will play a critical role in the success and security of our nation. Addressing the problems facing society is the business of our institution. The scientists leading this important work are continuing Illinois' rich heritage of paradigm-changing discovery and innovation.'

'We are extremely pleased that Illinois and our flagship public-research university is a part of BP's exciting new Energy Biosciences Institute, which will advance important new discoveries to protect our environment and expand our economy,' said Illinois Governor Rod Blagojevich. 'If we make these kinds of investments now in cleaner renewable biofuels like ethanol and other biodiesel, within ten years we'll be able to produce enough energy from our own natural resources to dramatically cut our dependence on foreign energy and help fight global warming. That means billions of our hard-earned dollars will stay here at home, in our economy creating more jobs, rather than leaving our country forever. As a national leader in corn and soybean production and world-class biofuels research and development, Illinois is uniquely positioned to advance the vision of this new Institute. We look forward to working together with BP and our partners in the state of California to bring even more efficient and effective renewable sources of energy to the marketplace,' Gov. Blagojevich said. 

    Notes to editors:
    * BP is of one of the world's largest energy companies, providing its
      customers with fuel for transportation, energy for heat and light,
      retail services and petrochemicals products for everyday items. It is
      the largest oil and gas producer in the U.S. and one of the largest
      refiners.  The company has operations in more than 100 countries.



* BP's decision to devote significant resources to widening the
  availability of biofuels is part of its strategy of identifying low
  carbon or renewable fuels for the future. It follows on from the
  company's announcement of BP Alternative Energy - a dedicated
  alternative energy business which is active in solar, wind, <a href="http://bizrock.wamabam.hop.clickbank.net/?tid=ALTEHYD"  class="alinks_links" onclick="return alinks_click(this);" title="hydrogen fuel cars"  style="padding-right: 13px; background: url(http://www.alternativeenergyhq.com/wp-content/plugins/alinks/images/external.png) center right no-repeat;" rel="external">hydrogen</a> and
  combined-cycle-gas-turbine (CCGT) power generation - and the
  establishment of a biofuels business within its Refining &amp; Marketing
  Business.

* BP is already a top player in the global biofuels market, blending and
  distributing 590 million gallons of ethanol and 70 million gallons of
  <a href="http://www.amazon.com/exec/obidos/redirect?link_code=ur2&amp;camp=1789&amp;tag=laketahoefun-20&amp;creative=9325&amp;path=external-search%3Fsearch-type=ss%26keyword=biodiesel%26index=books"  class="alinks_links" onclick="return alinks_click(this);"  style="padding-right: 13px; background: url(http://www.alternativeenergyhq.com/wp-content/plugins/alinks/images/external.png) center right no-repeat;" title="bio" rel="external">biodiesel</a><img class="amazon_image" src="http://www.assoc-amazon.com/e/ir?t=laketahoefun-20&amp;l=ur2&amp;o=1" width="1" height="1" border="0" alt="" style="border:none !important; margin:0px !important;" /> in 2005. In 2006 BP blended 718 million gallons of ethanol
  with gasoline -- a 25 percent increase from the previous year. With the
  blending and marketing of these products, along with other refined
  products, BP accounts for about 10 percent of the global biofuels
  market.

* With current production technology, only a fraction of the oil contained
  in most reservoirs is ever recovered. Depending on reservoir quality,
  recovery rates can vary from 20 to 70 percent.   The EBI will explore
  the possibility of using biological methods to improve recovery rates.

* Plants and other organisms can remove CO2 from the atmosphere and
  transfer it to the soil or ocean. The EBI will work on techniques to
  enhance this process.

Source: BP BioFuels

Alternative Energy HQ was in the house when this announcement was made this week. We bring you this release in its entirety for background on the effort. If you would like our take on this deal check out this page.

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January 24, 2007

Bush Calls for using less gas in the next 10 years


In his State of the union address President Bush included his new initiatives for reducing energy dependence on foreign oil. Now the row around the country is whether his plans can work. Democrats and environmentalists seem to think it will not.

The President’s energy proposal would increase the scope of the current Renewable Fuel Standard, expanding it to an Alternative Fuel Standard. Bush wants Congress to set a mandatory fuels standard to require 35 billion gallons of renewable and alternative fuels - from fuels like corn ethanol, cellulosic ethanol, biodiesel, methanol, butanol, and hydrogen - by 2017. That’s nearly five times the current target. He also called for reforming fuel economy standards for cars which could save 8.5 billion gallons of gasoline in 2017, according to The White House. Under current law, fuel blenders must use 7.5 billion gallons of renewable fuels in 2012.

The Renewable Fuels Association seems to think it will:

RFA President Bob Dinneen: “Recognizing the potential of our nation’s ethanol industry, President Bush used the unique forum of the State of the Union Address to elevate the significance of ethanol and renewable fuels to our nation’s energy future by calling for 35 billion gallons of alternative fuel use by 2017. With consistent and focused policies, this is an eminently achievable goal. It will stimulate new investment in cellulosic ethanol technologies and drive market opportunities for ethanol beyond existing blend levels. It is a goal that makes sense for America.

Here is how the Daily Grist summed it up:

"Bush State of the Union address offers tepid energy initiatives"

The New York Times version

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October 24, 2006

Hydrogen fuel cells payoff, a ways down the road?


Source:Chicago Tribune
CHICAGO –Imagine a world in which oil barons are forced to peddle sand because the U.S. no longer buys their oil to make gas. And imagine a world where you can take a deep breath without inhaling waste or having to look north to see whether the former polar ice cap is about to wash you away.

But ending the country's reliance on foreign oil is going to take more than imagination.

It will take a substitute.

Bob Stempel, chairman and CEO of Energy Conversion Devices Inc., sees that alternative in hydrogen.

Stempel got into alt fuels and battery technology after being ousted as chairman of financially ailing General Motors in 1992.

He still bleeds GM blue, but differs from its approach to hydrogen. GM plans to wait until a fuel cell, which uses hydrogen to produce electricity to power a car, is ready for the mass market. Stempel favors starting with a hydrogen/electric hybrid.

"We want automakers to use hybrids as a transition to hydrogen fuel cells and to introduce hydrogen power to increase consumer awareness. With more awareness comes more demand and with more demand, more companies will be willing to accelerate plans to add hydrogen pumps. Hydrogen stations are the key to this," Stempel said in an interview.

That's where Stempel's Energy Conversion Devices comes in. It adapts any vehicle to hydrogen power. And he wants to persuade GM, Ford and Chrysler to use his conversion in a limited number of vehicles to acclimate the public to hydrogen.

"The more cars they offer that run on hydrogen, the more demand there will be," Stempel said.

A hydrogen/electric is similar to the gas/electric that's been on the market for several years. The vehicle starts with battery power, hydrogen or gas takes over to get it up to cruising and, when a boost is needed to pass or climb, the battery pack lends a hand.

But there's a major difference, as we found in testing a gas/electric Toyota Prius Stempel converted to hydrogen/electric.

The hydrogen/electric Prius isn't ready for prime time. Not one station in Bloomingdale, where we had the test, pumps hydrogen. Ditto nearby Oak Brook and Schaumburg or elsewhere in the Chicago area.

With the only stations in California, New York or Arizona and with Prius range at 200 miles, it would mean a refill would be about a 1,000 to 2,000 mile flight away.

If airlines refuse to let you on board with a cigarette lighter, chances of carrying on a 5-gallon can of hydrogen are nil.

"There's a few stations in California, New York and Arizona," Stempel said. "California is working to develop a hydrogen highway with stations every 50 miles from Sacramento to San Diego."

Not much help here.

Another problem is that a Prius starts at about $22,000, but the hydrogen conversion swells that to about $40,000.

Spending $40,000 to avoid having to buy gas makes sense only if gas is running about $498 a gallon more than it is now.

Stempel said enlisting automakers to do the conversions reduces that cost substantially, but he wouldn't provide an estimate.

Once those problems are solved, there's the matter of the tank that holds the hydrogen gas and associated hardware adding about 500 pounds to the Prius' weight of 2,890 pounds.

The 1.5-liter, 4-cylinder in Prius develops about 110 horsepower with gasoline. Hydrogen gas doesn't have as much energy as even liquid hydrogen, which requires more hardware, and develops only about 28 hp in the hybrid. So it requires a turbocharger for the power boost needed to roam the roads.

At the 28 hp without a turbo, you might as well stick a blade under the Prius and cut your lawn.

With what amounts to a 500-pound anchor onboard, you can hear the turbo whine as you build speed. This is basic get-there-and-back transportation. Don't expect to make spirited lane-to-lane moves with only the fingertips on the wheel because the added weight and underpowered engine rule out pinpoint handling. The added weight also means don't expect either cushy ride or short-distance stops when approaching the light.

Stempel is looking at ways to cut weight by at least 30 percent to soften ride and make handling less cumbersome.

The test car came with two fuel tanks holding a combined 3 kilograms of hydrogen in powder form, equal to about 3 { gallons of gas, or enough for 200 miles of driving.

The challenge here is to develop two tanks that can deliver 300 miles, a range the Department of Energy says most folks would accept.

Range, of course, depends on how much hydrogen you can store.

Stempel's system stores the powder version in the pockets and crevices of what is best described as a sponge, which reduces the amount of space needed. When the tank is heated with a small electric motor, the hydrogen becomes a gas to power the car.

The heat creates another problem because you must cool the tank before refilling it so the powder adheres to the sponge.

To fill the tank, open the fuel door and find one coupling to attach the hydrogen pump, and two couplings to attach hoses, one hose to circulate 75 gallons of cool water over the tank, the other to bring the water back into the holding tank. So you need both hydrogen and water tanks at the station.

And to keep the water from freezing in the winter, ethylene glycol _ you know it as anti-freeze _ is added.

It takes about eight minutes to fill up with 3 kilograms of hydrogen while circilating the 75 gallons of water.

"We'd like to get it down to five minutes," Stempel said. That's still longer than the less than three minutes to refill with gasoline.

While a kilogram of hydrogen delivers about the same mileage as a gallon of gas, it runs about $5 to $6 per, Stempel said. Higher usage would lower that, but it's a matter of how quickly and by how much.

Hard to believe many folks who had to choose between food and gas at $3 a gallon are going to welcome $5 to $6 hydrogen.

Stempel realizes a hydrogen hybrid needs lots of fine-tuning: reducing the weight and price and increasing driving range and fuel availability.

He says he's not pushing hydrogen cars but rather hydrogen systems to get people talking about an alternative fuel to not only replace gasoline, but also to reduce vehicle emissions to water droplets.

The only way to prove hydrogen is the fuel of the future is to solve the problems now so consumers will make the switch.

Cost and availability are major roadblocks.

TOYOTA PRIUS HYDROGEN CONVERSION

Wheelbase: 106.3 inches

Length: 175 inches

Engine: 1.5-liter, 130-h.p. 4-cylinder hydrogen engine teamed with and electric motor powered by a nickel-metal-hydride batteries

Transmission: Continuously variable

Fuel economy: 60 mpg city/51 mpg highway

Price as tested: About $40,000

The sticker

$22,000 Base for Prius

Pluses: No gasoline.

No pollution.

Minuses:

Price and weight of conversion.

Price and availability of hydrogen.

Driving range.

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