Feeds:
Posts
Comments

Archive for the ‘energy’ Category

PG&E signs deal for world’s first hybrid biofuel solar power plant

Posted in alternative energy, biofuels, energy, environment, global warming, PG&E, renewable energy, solar energy, tagged , , , , , on June 12, 2008| 9 Comments »

California utility PG&E will buy 106.8 megawatts of electricity from a hybrid biofuel solar power plant to be built by a Portuguese firm in the state’s Central Valley.

The hybrid technology will allow two 53.4 megawatt plants to tap the sun and agricultural waste produced in surrounding Fresno County to generate green energy around the clock, according to San Joaquin Solar, a subsidiary of Portugal’s Martifer Renewables. For PG&E (PCG), 107 megawatts is just enough to keep the air conditioners running for some 75,000 homes. But if the biofuel solar hybrid performs as billed and can be scaled up, it’s a win-win – recycling ag waste – a huge and expensive problem in California – into electricity.

The percentage of electricity to be produced by solar versus biofuel and other details of the project’s design are sketchy. Andrew Byrnes, an executive with Spinnaker Energy – the San Diego company developing the project for Martifer – told Fortune that such information is “confidential” as are images of what the hybrid plant will look like and the identities of the company’s U.S. investors.

Here’s what we do know: San Joaquin Solar 1 and 2 will be built on private land outside the farming town of Coalinga. They will use long arrays of curved mirrors called solar troughs to focus the sun on liquid-filled tubes to produce steam that will drive electricity-generating turbines. That’s a standard solar technology currently operating in California and elsewhere. The biomass component of the plant will use agricultural waste, green waste and livestock manure to create heat that will generate steam.

It appears the biofuel will be used to keep the plant running at night or on overcast days. “The technologies can run simultaneously,” said Byrnes in an e-mail. “And when a cloud passes overhead (and after the sun sets) the solar facility can still generate energy, since the generation process is dependent on heat rather than direct solar radiation.”

While there is a natural gas-solar hybrid power plant under development in Southern California – see Green Wombat’s “The Prius of power plants” – San Joaquin Solar 1 and 2 will apparently be the world’s first biofuel solar hybrid.

Each power plant will each need 250,000 pounds of biomass a year to operate. Finding that fuel shouldn’t be a problem: Byrnes says a study shows that Fresno County alone produces nearly 2 million tons of ag waste annually.

Read Full Post »

Google-backed solar company scores big utility deal

Posted in alternative energy, Ausra, energy, environment, eSolar, renewable energy, solar energy, solar power plants, Southern California Edison, Stirling Energy Systems, tagged , , , , , , , on June 3, 2008| 5 Comments »

eSolar, the solar energy startup founded by Idealab’s Bill Gross and backed by Google, has signed a 20-year contract to supply utility Southern California Edison with 245 megawatts of green electricity.

The solar power plant will be built in 35-megawatt modules, with the first phase set to go online in 2011. As Green Wombat reported in April, eSolar scored $130 million in funding from Google.org, Google’s (GOOG) philanthropic arm, and other investors to develop solar thermal technology that Gross claims will produce electricity as cheaply as coal-fired power plants.

Like Ausra and BrightSource Energy – which have deals with PG&E (PCG) – eSolar will use fields of mirrors to heat water to create steam that drives electricity-generating turbines. Gross says that eSolar’s software allows the company to individually control smaller sun-tracking mirrors – called heliostats – which can be cheaply manufactured and which are more efficient and take up less land than conventional mirrors. According to Gross, that means eSolar can build modular power plants near urban areas and transmission lines rather than out in the desert, lowering costs.

eSolar’s cost claims got Southern California Edison’s (EIX) attention. “It was a competitively priced proposal,” Stuart Hemphill, the utility’s VP for renewable and alternative power, told Fortune. “We found the eSolar team very competent, motivated and willing to do a deal.”

“When it comes down to different solar technologies, competitive pricing is going to be an important part of the equation,” he adds. “They do offer a unique solution.”

eSolar is keeping mum about the exact location of the power plant, only saying it will be in the Antelope Valley region of Southern California.

One potential hitch: Getting eSolar’s electricity to Southern California Edison will depend on the construction of a major new transmission line. That line, the Tehachapi Renewable Transmission Project, has been partially approved to date.

With the eSolar deal, the utility is hedging its bets. Back in 2005, Southern California Edison signed a highly publicized deal with Phoenix’s Stirling Energy Systems to buy up to 850 megawatts of solar electricity from massive solar power plants to be built in the Mojave Desert. (Around the same time, San Diego Gas & Electric (SRE) signed a power purchase agreement with Stirling for up to 900 megawatts. ) Stirling is still perfecting its technology and has yet to file a license application for its first plant. But the company received a $100 million investment earlier this year and Hemphill says Stirling is moving forward.

“We expect that Stirling will meet its contractural obligations,” he says. “Solar thermal is definitely an emerging industry. It’s too early to tell which technologies will be the winners over the long run. It’s a time to be having a portfolio of different technologies so we can figure that out.”

Read Full Post »

Abu Dhabi to invest $2 billion in solar venture

Posted in alternative energy, energy, enviro startups, environment, First Solar, renewable energy, solar energy, solar power plants, tagged , , , , , , on May 28, 2008| 15 Comments »

In the world’s single-largest investment in solar technology, the oil-rich emirate of Abu Dhabi announced Wednesday it will spend $2 billion to jumpstart a home-grown photovoltaics industry. The cash will fund what is undoubtedly the planet’s best-financed startup, Masdar PV, which will build manufacturing facilities in Germany and Abu Dhabi to produce thin-film solar modules that can be used in rooftop solar systems or solar power plants.

Masdar PV is the latest project of the Masdar Initiative, Abu Dhabi’s $15 billion renewable energy venture designed to transform the emirate into a green technology powerhouse. Masdar is best known for its plans to build Masdar City, a “zero-carbon, zero-waste” urban center.

Thin-film solar cells are essentially “printed” on glass or flexible metals, allowing them to be integrated into building materials like roofs and walls. Though thin-film solar is less efficient at converting light into electricity, it uses a fraction of the expensive silicon needed by conventional bulky solar modules and can be produced much more cheaply – provided economies of scale are achieved.

Thus Masdar PV’s big solar bet. “You have to be working at scale to drive costs out of the system,” Steve Geiger, Masdar’s director of special projects, told Fortune in a phone call from Abu Dhabi. “We have to do it at scale and we have to do it in volume in multiple markets.”

One of those markets is the United States, where Masdar PV could give established players like First Solar (FSLR) and startups such as Nanosolar, Heliovolts and Global Solar some formidable competition.

The gamble Masdar PV is taking is that it’s investing billions in an older but proven thin-film technology that may well be left in the dust by more exotic, cheaper and efficient technologies under development by a host of startups.

Masdar PV aims to have a gigawatt of annual production capacity in place by 2014. To get there, Geiger says the company has hired a management team that includes former top executives from First Solar and other thin-film industry veterans.

A leading solar technology company that Geiger declined to identify will provide the manufacturing equipment for Masdar PV’s factories. Judging from his description, the likely supplier is Applied Materials (AMAT), the world’s biggest computer-chip equipment maker that has a burgeoning business building the machines that make thin-film solar cells of the type that Masdar PV will produce.

“We usually partner with large companies that have managerial skills, technology and market access, but we were very fortune that we picked up a top management team and thought it was strong enough to do as a 100% Abu Dhabi Masdar company,” says Geiger, who will oversee Masdar’s thin-film solar venture.

Masdar PV’s first plant is scheduled to go online in Germany toward the end of 2009 with the second to begin production in Abu Dhabi by mid-2010. “Very clearly we need to look at expansion beyond those two physical facilities,” Geiger says. “We really have to look at America and the Asian markets as well.

Thin-film is just one of three solar strategies that Masdar is pursuing by funneling petrodollars into green energy startups. In March, Masdar unveiled Torresol Energy, a joint venture with a Spanish company that will build large-scale solar thermal power plants to supply electricity to utilities. Masdar has also made investments in other solar thermal companies as well as thin-film startups pursuing different technologies. Finally, Masdar wants to produce polysilicon, the basic material of conventional solar cells.

As Masdar chief Sultan Ahmed Al Jaber recently told Green Wombat, “We want to cover the whole value chain – from research to labs to manufacturing to the deployment of technologies.”

Geiger uses an analogy for Masdar’s green energy ambitions that may be more familiar to petroleum-dependent Americans – and should serve as a wake-up call to get serious about carbon-free energy. “The model might be the vertically integrated oil industry,” he says. “It clearly makes sense to have a consolidated power provider.”

Read Full Post »

T. Boone Pickens’ green scheme

Posted in energy, wind power, tagged , , , , , , on May 27, 2008| 5 Comments »

NEW YORK – T. Boone Pickens dropped by Fortune’s offices last Thursday, and not surprisingly the billionaire oilman had oil on his mind as gas prices hit yet another new high.

“The only way you’re going to kill demand is with price increases,” Pickens, 80, told a group of editors and writers. “But demand is not as easy to kill as you think.”

The legendary Dallas wildcatter and corporate dealmaker believes the world is approaching “peak oil” – meaning we’ve pumped out more oil than remains in the ground – and he’s looking beyond the petroleum age by placing some big bets on wind. His $12 billion Pampa Wind Project in Texas will generate enough electricity to power some 1.3 million homes when completed in 2014. (Last week Pickens’ Mesa Power placed an order for 667 turbines with General Electric (GE) for the project’s $2 billion first phase.)

For Pickens, wind is key to weaning the U.S. from the petrol pump. “The only transportation fuel we have in the U.S. to replace oil is natural gas,” he said.

Here’s how it would work, according to Pickens. Replace the natural gas power plants that generate about a quarter of the electricity in the United States with wind farms. Use the freed-up natural gas to power cars, trucks and other vehicles. “We could reduce oil imports by 38 percent,” Pickens declared.

The U.S Department of Energy earlier this month released a report estimating that wind power could supply up to 20 percent of the nation’s electricity by 2030. Huge hurdles stand in the way of achieving that target, such as the need for a massive upgrade to the transmission system and the fact that the wind blows intermittently. And natural gas-powered cars won’t be as clean as, say, electric vehicles powered from solar.

Wind isn’t the only green energy source on Pickens’ horizon. I ask him about large-scale solar and he pulls out a map illustrating the best spots for solar power plants in the U.S. “I like it,” he says. “We’re looking at all renewable energy.”

As he put it earlier in the conversation, “I’ve been too early on a lot of things, but now I have enough money to be as early as I want.”

Read Full Post »

T. Boone Pickens’ big wind play

Posted in climate change, energy, environment, global warming, green tech, wind power, tagged , , , , , , on May 15, 2008| 1 Comment »

For some on the right coast, the current renewable energy craze seems like a rerun of that ’70s show, the province of California dreamers and pie-in-the-sky Silicon Valley techies. But increasingly it’s all about Big Business, a point driven home Thursday by a deal struck by two decidedly non-crunchy granola types: billionaire oilman T. Boone Pickens and General Electric chief Jeffrey Immelt.

Pickens’ Mesa Power placed an order for 667 GE (GE) wind turbines for the first phase of a massive 4,000-megawatt, 400,000-acre West Texas wind farm called the Pampa Wind Project. When completed in 2014, Pampa is expected to produce enough clean green energy to light up 1.3 million homes, according to Mesa. Each of those 667 turbines alone can generate 1.5 megawatts of electricity. The first phase of the project will cost $2 billion, with a good chunk of the cash going to GE.

That a legendary wildcatter like Pickens sees big money to be made from renewable energy in an oil state like Texas is just another sign that green is not a fad but the future. “You find an oilfield, it peaks and starts declining, and you’ve got to find another one to replace it,” Pickens said in a statement. “It can drive you crazy. With wind, there’s no decline curve.” (Just how much money Pickens will make off wind will depend on whether Congress extends a production tax credit that makes such projects viable.)

When it comes to energy, Texas is literally its own country, as the Lone Star State is not plugged into the national power grid and must generate nearly all its electricity within its borders. Aggressive efforts by Texas regulators and entrepreneurs to make the state energy independent by upgrading its transmission system and tapping wind power are models for the rest of the country.

Read Full Post »

Google, Big Oil invest $115 million in solar startup

Posted in BrightSource Energy, climate change, energy, enviro startups, environment, global warming, Google, green financing, green tech, PG&E, renewable energy, solar energy, solar power plants, Uncategorized, tagged , , , , , , , , , on May 14, 2008| 7 Comments »

The souring economy hasn’t dissuaded green tech investors from making big bets on renewable energy. On Wednesday, solar power plant builder BrightSource Energy announced it had raised $115 million from a group of investors that include Google.org, the search giant’s philanthropic arm, and oil giants Chevron and BP.

The investment in the Oakland, Calif.-based startup is Google’s (GOOG) second big solar energy play in the past two months. In April, Google.org joined a $130 million round for eSolar, a Pasadena solar power plant company whose chairman is Idealab founder Bill Gross.

BrightSource Energy, started by American-Israeli solar pioneer Arnold Goldman, has contracts to supply California utility PG&E (PCG) with up to 900 megawatts of solar electricity from power plants to be built in the Mojave Desert on the California-Nevada border. BrightSource has developed a new solar technology, dubbed distributed power tower, that focuses fields of sun-tracking mirrors called heliostats on a tower containing a water-filled boiler. The sun’s rays superheat the water and the resulting steam drives an electricity-generating turbine. (Artist rendering of BrightSource’s planned Ivanpah plant above.)

Given that a 500-megawatt solar power plant can cost more than $1 billion to build, $115 million is but a drop in the bucket. But it will allow BrightSource, which previously raised $45 million, to proceed with the development of its technology as it seeks project financing for construction of its first power plants.

And it can’t hurt to have such high-profile backers when you negotiate power purchase agreements with utilities. Besides Google, BP Alternative Energy (BP) and Chevron Technology Ventures (CVX), previous investors participating in the new round include Morgan Stanley (MS), VantagePoint Venture Partners, Draper Fisher Jurvetson and DBL Investors.

Another new BrightSource investor is Norweigan oil and gas behemoth StatoilHydro (STO). Apparently, even Big Oil has seen the light when it comes to hedging its bets with green energy.

Read Full Post »

PG&E chief’s green crusade

Posted in Ausra, BrightSource Energy, climate change, corporate green, corporate sustainability, endangered species, energy, energy efficiency, environment, global warming, green policy, nuclear energy, PG&E, renewable energy, solar energy, solar power plants, Southern California Edison, Tesla Motors, Think Global, wave power, wind power, tagged , , , , , , , , , , on May 1, 2008| 6 Comments »

“Years ago we came to the conclusion that global warming was a problem, it was an urgent problem and the need for action is now. The problem appears to be worse and more imminent today, and the need to take action sooner and take more significant action is greater than ever before” — PG&E Chairman and CEO Peter Darbee

The head of one of the nation’s largest utilities seemed to be channeling Al Gore on Tuesday when he met with a half-dozen environmental business writers, including Green Wombat, in the PG&E (PCG) boardroom in downtown San Francisco. While a lot of top executives talk green these days, for Darbee green has become the business model, one that represents the future of the utility industry in a carbon-constrained age.

As Katherine Ellison wrote in a feature story on PG&E that appeared in the final issue of Business 2.0 magazine last September, California’s large utilities — including Southern California Edison (EIX) and San Diego Gas & Electric (SRE) — are uniquely positioned to make the transition to renewable energy and profit from green power.

First of all, they have no choice. State regulators have mandated that California’s investor-owned utilities obtain 20 percent of their electricity from renewable sources by 2010 with a 33 percent target by 2020. Regulators have also prohibited the utilities from signing long-term contracts for dirty power – i.e. with the out-of-state coal-fired plants that currently supply 20 percent of California’s electricity. Second, PG&E and other California utilities profit when they sells less energy and thus emit fewer greenhouse gases. That’s because California regulators “decouple” utility profits from sales, setting their rate of return based on things like how well they encourage energy efficiency or promote green power.

Still, few utility CEOs have made green a corporate crusade like Darbee has since taking the top job in 2005. And the idea of a staid regulated monopoly embracing technological change and collaborating with the likes of Google (GOOG) and electric car company Tesla Motors on green tech initiatives still seems strange, if not slightly suspicious, to some Northern Californians, especially in left-leaning San Francisco where PG&E-bashing is local sport.

In a wide-ranging conversation, Darbee, 54, sketched sketched a future where being a successful utility is less about building big centralized power plants that sit idle until demand spikes and more about data management – tapping diverse sources of energy — from solar, wind and waves to electric cars — and balancing supply and demand through a smart grid that monitors everything from your home appliances to where you plugged in your car. “I love change, I love innovation,” says Darbee, who came to PG&E after a career in telecommunications and investment banking.

Renewable energy

“On renewable energy what we’ve seen is the market is thin,” says Darbee. “Demand just from ourselves is greater than supply in terms of reliable, well-funded companies that can provide the service.”

PG&E so far has signed power purchase agreements with three solar startups — Ausra, BrightSource Energy and Solel — for up to 1.6 gigawatts of electricity to be produced by massive solar power plants. Each company is deploying a different solar thermal technology and uncertainty over whether the billion-dollar solar power stations will ultimately be built has prompted PG&E to consider jumping into the Big Solar game itself.

“We’re looking hard at the question of whether we can get into the business ourselves in order to do solar and other forms of renewables on a larger scale,” Darbee says. “Let’s take some of the work that’s been done around solar thermal and see if we can partner with one of the vendors and own larger solar installations on a farm rather than on a rooftop.”

“I like the idea of bringing the balance sheet of a utility, $35 billion in assets, to bear on this problem,” he adds.

It’s an approach taken by the renewable energy arm of Florida-based utility FPL (FPL), which has applied to build a 250-megawatt solar power plant on the edge of the Mojave Desert in California.

For now, PG&E is placing its biggest green bets on solar and wind. The utility has also signed a 2-megawatt deal with Finavera Renewables for a pilot wave energy project off the Northern California coast. Given the power unleashed by the ocean 24/7, wave energy holds great promise, Darbee noted, but the technology is in its infancy. “How does this technology hold up against the tremendous power of the of the Pacific Ocean?”

Electric cars

Darbee is an auto enthusiast and is especially enthusiastic about electric vehicles and their potential to change the business models of both the utility and car industries. (At Fortune’s recent Brainstorm Green conference, Darbee took Think Global’s all-electric Think City coupe for a spin and participated in panels on solar energy and the electric car.)

California utilities look at electric cars and plug-in hybrids as mobile generators whose batteries can be tapped to supply electricity during peak demand to avoid firing up expensive and carbon-spewing power plants. If thousands of electric cars are charged at night they also offer a possible solution to the conundrum of wind power in California, where the breeze blows most strongly in the late evenings when electricity demand falls, leaving electrons twisting in the wind as it were.

“If these cars are plugged in we would be able to shift the load from wind at night to using wind energy during the day through batteries in the car,” Darbee says.

The car owner, in other words, uses wind power to “fill up” at night and then plugs back into the grid during the day at work so PG&E can tap the battery when temperatures rise and everyone cranks up their air conditioners.

Darbee envisions an electricity auction market emerging when demand spikes. “You might plug your car in and say, ‘I’m available and I’m watching the market and you bid me on the spot-market and I’ll punch in I’m ready to sell at 17 cents a kilowatt-hour,” he says. “PG&E would take all the information into its computers and then as temperatures come up there would be a type of Dutch auction and we start to draw upon the power that is most economical.”

That presents a tremendous data management challenge, of course, as every car would need a unique ID so it can be tracked and the driver appropriately charged or credited wherever the vehicle is plugged in. Which is one reason PG&E is working with Google on vehicle-to-grid technology.

“One of the beneficiaries of really having substantial numbers of plug-in hybrid cars is that the cost for electric utility users could go down,” says Darbee. “We have a lot of plants out there standing by for much of the year, sort of like the Maytag repairman, waiting to be called on for those super peak days. And so it’s a large investment of fixed capital not being utilized.” In other words, more electric and plug-in cars on the road mean fewer fossil-fuel peaking power plants would need to be built. (And to answer a question that always comes up, studies show that California currently has electric generating capacity to charge millions of electric cars.)

Nuclear power

Nuclear power is one of the hotter hot-button issues in the global warming debate. Left for dead following the Three Mile Island and Chernobyl disasters, the nuclear power industry got a new lease on life as proponents pushed its ability to produce huge amounts of carbon-free electricity.

“The most pressing problem that we have in the United States and across the globe is global warming and I think for the United States as a whole, nuclear needs to be on the table to be evaluated,” says Darbee.

That’s unlikely to happen, however in California. The state in the late 1970s banned new nuclear power plant construction until a solution to the disposal of radioactive waste is found. PG&E operates the Diablo Canyon nuclear plant, a project that was mired in controversy for years in the ’70s as the anti-nuke movement protested its location near several earthquake faults.

“It’s a treasure for the state of California – It’s producing electricity at about 4 cents a kilowatt hour,” Darbee says of Diablo Canyon. “I have concerns about the lack of consensus in California around nuclear and therefore even if the California Energy Commission said, `Okay, we feel nuclear should play a role,’ I’m not sure we ought to move ahead. I’d rather push on energy efficiency and renewables in California.”

The utility industry

No surprise that Darbee’s peers among coal-dependent utilities haven’t quite embraced the green way. “I spent Saturday in Chicago meeting with utility executives from around the country and we’re trying to see if we can come to consensus on this very issue,” he says diplomatically. “There’s a genuine concern on the part of the industry about this issue but there are undoubtedly different views about how to proceed and what time frames to proceed on.”

For Darbee one of the keys to reducing utility carbon emissions is not so much green technology as green policy that replicates the California approach of decoupling utility profits from sales. “If you’re a utility CEO you’ve got to deliver earnings per share and you’ve got to grow them,” he says. “But if selling less energy is contradictory to that you’re not going to get a lot of performance on energy efficiency out of utilities.”

“This is a war,” Darbee adds, “In fact, some people describe [global warming] as the greatest challenge mankind has ever faced — therefore what we ought to do is look at what are the most cost-effective solutions.”

Read Full Post »

Brazil to produce biodiesel from sugarcane

Posted in alternative energy, biofuels, climate change, energy, enviro startups, environment, tagged , , , , , , , on April 25, 2008| 14 Comments »

California startup Amyris engineers microbes to transform them into molecular oil refineries, digesting sugar to produce low-carbon equivalents of gasoline, diesel and jet fuel. Now in a bid to commercialize its technology, Amryis has struck a deal to create a joint venture with Brazilian ethanol giant Crystalev to produce biodiesel from sugarcane.

Some three-quarters of Brazil’s cars run on ethanol made from domestic sugarcane but the country imports diesel. “This is a game changer,” Amyris co-founder Jack Newman told Green Wombat this week at Fortune’s Brainstorm Green conference in Pasadena. “It gives us the ability to make a difference in terms of scale by tapping into existing agricultural land and Brazil’s ethanol infrastructure. It’s a great step forward for Amyris, and Brazil gets the option of producing ethanol or diesel from same resources.”

Most biodiesel today is made from soybeans or recycled vegetable oil and does not offer the same performance as petroleum-based diesel. The biodiesel produced by Amyris’ custom-designed microbes matches that performance and can be used in existing engines while cutting greenhouse-gas emissions by 80 percent, according to Newman, a microbiologist who is Amyris’ senior vice president of research.

If Amyris, an Emeryville-based company backed by marquee venture capitalists Khosla Ventures and Kleiner Perkins Caufield & Byers, can replicate its laboratory success in the field the environmental benefits could substantial.

For Brazil to become self-sufficient in diesel it would otherwise have to plant more soy, which means cutting down more of the Amazon rainforest that already is being destroyed to plant soy destined for North American dinner tables. Sugarcane grown on reclaimed pasture land and distilled with Amyris technology can produce ten times as much diesel per acre as soy. “You won’t have to displace crops into the rainforest area,” Newman says.

Production of the Brazilian biodiesel is expected to begin in 2010 if all goes according to plan and the necessary regulatory approvals are obtained.

“One of the reasons Brazil is so excited about the technology is that this gives them a biodiesel option with this great infrasture they already have,” Newman says. “It could provide them with 90 billion gallons a year without having to reclaim new land.”

Read Full Post »

California utility to turn roofs into solar power plants

Posted in energy, enviro capitalism, environment, global warming, PG&E, solar energy, Southern California Edison on March 27, 2008| 42 Comments »

img_2698.jpg

Southern California Edison plans to install 250 megawatts’ worth of solar panels on commercial rooftops, generating enough electricity to power 162,000 homes.

It’s a potentially game-changing move, one that could lower the cost of solar cells as manufacturers ramp up production to meet the utility’s schedule of installing a megawatt-a-week of arrays until it reaches the 250-megawatt target. That alone is more than United States’ entire production of solar cells in 2006 and will generate as much electricity as a small coal-fired power plant, albeit with no greenhouse gas emissions. “This project will turn two square miles of unused commercial rooftops into advanced solar generating stations,” said John Bryson, CEO of the utility’s parent company, Edison International (EIX), in a statement Wednesday night.

The $875 million initiative also marks the first big foray into so-called distributed energy by a major utility. Instead of building a centralized power station and the expensive transmission system needed to transmit electricity to the power grid, Edison will connect clusters of solar arrays into existing neighborhood circuits. A significant hurdle for the massive megawatt solar power plants planned for California’s Mojave Desert is the need in some cases to build multi billion-dollar transmission systems through environmentally sensitive lands to bring the electricity to coastal metropolises.

Solar arrays of course only generate electricity when the sun is shining, but they produce the most power during the hottest part of the day when Southern Californians crank up their air conditioners. The arrays could help spare Edison from having to fire up a fossil-fuel power plant when demand peaks.

Edison spokesman Gil Alexander told Green Wombat that the utility expects the project’s scale to allow arrays to be placed on roofs at half the cost of a typical installation. Edison’s ambitions could prove a boon for solar cell makers like SunPower (SPWR) and Suntech (STP) as well as solar installation companies such as Akeena (AKNS). One unknown is whether the demand created by Edison will drive up costs in the short term, given ongoing shortages of polysilicon, the base material of solar cells. The Edison project could also help jump-start the market for thin-film solar panels, which typically use far less silicon than conventional solar cells.

Alexander says Edison is already negotiating with solar panel makers and installers. Needless to say, the project will up local hiring of green collar workers.

Here’s how the solar roofs initiative will work: Edison will lease 65 million square feet of warehouse rooftop space from building owners. (The target area is the fast-growing “Inland Empire” of Riverside and San Bernardino counties.) The utility will contract for the installation of the arrays and will retain ownership of the solar systems. California regulators appear inclined to approve the project, which will be financed by a hike in utility rates.

“This will be a utility-scale solar power plant, if one thinks of the 100 or so buildings on which the two square miles of solar panels will be installed,” Alexander wrote in an e-mail. “One advantage of this project is that we will tap unused rooftop real estate directly in areas we serve where demand is growing rather than securing a major plat of land in a remote area and then building transmission lines to bring the power to those areas of rising demand.”

Anyone who has driven through Los Angeles can attest to the endless acres of big-box stores, warehouses and strip malls and thus the potential to generate green power from sun-baked suburban sprawl.

Edison’s solar roof ramp up is likely to put pressure on California’s other big utilities, PG&E (PCG) and San Diego Gas & Electric (SRE), to follow suit. Like Edison, they face a state mandate to obtain 20 percent of their electricity from renewable sources by 2010 and 33 percent by 2020. California’s global warming law requires the state’s greenhouse gas emissions to be rolled back to 1990 levels by 2020.

The Governator himself gave a not-so-subtle nudge to Edison’s competitors. “These are the kinds of big ideas we need to meet California’s long-term energy and climate change goals,” said Gov. Arnold Schwarzenegger in a statement. “I urge others to follow in their footsteps. If commercial buildings statewide partnered with utilities to put this solar technology on their rooftops, it would set off a huge wave of renewable energy growth.”

Read Full Post »

Report: Energy Use to Grow 57 percent by 2030

Posted in energy on May 21, 2007| 31 Comments »

Oil_refinery photo: urbanraven
Global energy use is projected to soar 57 percent between 2004 and 2030, according to a U.S. Department of Energy report released today. China, India and the United States alone will account for half of the growth in worldwide oil consumption. The report from the U.S. Energy Information Administration predicts consumption of planet-warming coal will grow 2.2 percent a year with China, India and the U.S. responsible for 86 percent of the spike in demand. Needless, to say that means greenhouse gas emissions would jump nearly 60 percent by 2030. But here’s the rub: the projections are based on current energy policies and assume no new limits on greenhouse gas emissions will be imposed by 2030.  Of course, such figures only increase the likelihood Congress will pass global warming legislation this year. Meanwhile, on Monday Republican governors Governor Arnold Schwarzenegger of California and Jodi Rell of Connecticut slammed the Bush administration for "inaction and denial" on global warming. The governator kept the pressure on the administration by also signing an agreement today with Utah that calls for the state to join Arizona, California, New Mexico, Oregon and Washington in imposing a regional cap on greenhouse gas emissions as well as developing a carbon trading market.

Read Full Post »

« Newer Posts - Older Posts »

Design a site like this with WordPress.com
Get started