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Friday, March 31, 2006

Canadian Hydro (KHD) most active stock as Shaw reduces holdings

By Wojtek Dabrowski

TORONTO (Reuters) - Utility firm Canadian Hydro Developers Inc. (KHD.TO: Quote) became the most active stock on the Toronto Stock Exchange on Tuesday after one of its largest shareholders sold more than 12 million shares in two large block trades.

The first trade of 9 million shares, at C$5.65 a share, came just 27 seconds after the market opened at 9:30 a.m. (1430 GMT), according to Reuters data. Less than half a minute later, another block of 3.43 million shares moved at the same price.

Shaw Communications Inc. (SJRnvb.TO: Quote), through an investment vehicle, was the seller, according to a regulatory filing detailing the transactions.

"It had become quite material to them, they have a large capital-expenditure program coming up," Canadian Hydro chief financial officer Kent Brown said of Shaw in an interview. "They're still obviously pleased with the performance of the company and obviously leaving on very good terms."

The two trades were worth a total of C$70.23 million.

Shares of the sustainable-energy utility were down 24 Canadian cents at C$5.71 by 11:20 a.m., compared with its close on Monday of C$5.95. The stock has an average volume of about 130,000 shares, according to Reuters Knowledge data.

Reuters Knowledge listed Shaw as holding 12.43 million shares, or nearly 10.5 percent of the outstanding total, as of February 15. The shares were held through Shaw Venture Partners, an investment subsidiary. The entire stake was sold on Tuesday, according to Shaw's regulatory filing.

Shaw is a diversified communications company that provides television, high-speed Internet and telephone services.

Canaccord Adams analyst Mark Thompson said Shaw's sale doesn't affect Canadian Hydro's fundamentals.

"I don't believe there are any implications for the stock's fundamental value and it remains my favorite renewable energy stock globally," Thompson said.

Reuters Knowledge also lists CDP Capital World Markets, a part of the giant Caisse de depot et placement du Quebec pension fund, as holding about 9.4 million Canadian Hydro shares as of February 15.

Canadian Hydro operates several wind power, hydroelectricity and biomass facilities in Ontario and Western Canada.





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Friday, March 24, 2006

Ontario, Canada crawling out of the communistic world of centralized energy

Ontario's new renewable energy initiatives a major positive step

by Jesse Broehl, Editor, RenewableEnergyAccess.com

The Ontario government today unveiled a vast, new renewable energy incentive program experts predict will accelerate the use of renewable energy in the province and create a regional market with implications for the global renewable energy industries. The plan is based on a long-term Standard Offer Contract, or feed-in-laws, as they are commonly called in Europe. It's essentially the same landmark policy platform that has made European countries like Germany and Spain beacons for renewable energy use.

Ontario's Standard Offer program will offer $0.11/kWh (kilowatt-hour) to producers of wind, biomass and small hydro energy. It will offer $0.42/kWh for solar photovoltaic energy. The term of the contracts will be 20 years, and there will be an inflation adjustment. The residential retail price for electricity in Ontario is under $0.06/kWh (all figures in Canadian currency).

There is no limit to the number of projects that may apply for a contract, but the size of each project is capped at 10 MW. For comparison, the proposed Duke Point power plant on Vancouver Island (a medium-sized gas-fired power plant) would have been 260 MW in size. Ten MW of capacity is approximately sufficient to serve 10,000 homes.

The contracts are available to anyone, including homeowners, businesses and commercial energy producers. The electricity produced would be fed into the electricity grid. The contracts are expected to be available by June 2006. Many details for the implementation of the Standard Offer program will be worked out by the Ontario Power Authority and the Ontario Electricity Board.

In British Columbia and other North American jurisdictions, electricity contracts are awarded by requests for tender, with the lowest cost bids winning. The Standard Offer Contract, known in Europe as a "feed-law" or "advanced renewable tariff," offers renewable energy producers guaranteed access to the electricity grid at a price set by the regulatory authority. This gives producers the contractual certainty needed to finance renewable energy projects.

Janet Sawin, a renewable energy expert with the WorldWatch Institute hailed this as a policy that will echo the European successes and possibly help fuel a policy tipping point where this approach becomes more common in North America.

"This move could put Ontario on track to achieve success with renewables similar to that of world leaders like Germany and Spain," Sawin said. "Ontario's new policy could well become the model for North America to follow."

So far, in the U.S., there's a small pilot program in California based on this approach, also called a performance-based approach. The State of Washington recently passed a modest version based on this policy structure for small solar projects. And it's likely that California's new solar rebate plan will follow suit.

None, however, compare to the European embrace of such policies.

In Germany, adoption of the new policy has led to the development of 110,000 solar PV systems, 2,000 biomass plants, 6,000 small hydro plants, 16,500 wind turbines, and 45,000 jobs in the wind industry.

Renewable Energy Consultant Paul Gipe says the incentives for solar in this new plan are roughly half what the German incentives pay but are still more than California's new long-term rebate plan and the U.S. federal government's tax credit combined. And, he added, the solar resources in Ontario are in fact better than they are in Germany. But it's hardly just about solar, all the major renewable energy technologies will stand to benefit strongly from this policy.

"This is the most progressive renewable energy policy in North America in over two decades," Gipe said. "There's tremendous pent-up demand for wind, solar, biomass, and I would say there's a lot of small hydro potential that remains untapped up here. The proponents of renewable energy have been trying to find a mechanism that would unleash this. That's why we began this process two years ago."

These feed-in policies have come to be thought of as a primarily European policy approach but in fact they were first implemented in the U.S. Gipe says a similar policy enacted in the 1980s in California was responsible for massive amounts of wind power development, with almost 1000 MW being installed between 1984 and 1985 in the state. In the intervening decades, there was an ideological switch away from this method of supporting renewable energy in the U.S., he says. The Europeans more recently embraced the approach and have since provided the model to be lived up to.

"Europe has used this with great success," Gipe said. "But it can be used here and it will work here. And Ontario's government deserves credit for having made a strong value judgment; they made a decision on what's important to them. They have put public health at the top of their priorities and development of renewable energy follows that."

Ontario Premier Dalton McGuinty made the announcement at Photowatt Technologies in Cambridge, joined by Ontario's Minister of Energy Donna Cansfield and world-renowned scientist Dr. David Suzuki.

"Ontarians need a reliable power system that doesn't leave a legacy of economic or environmental debt," said Suzuki. "Today's announcement will revolutionize the market for clean, renewable energy in North America and lay the groundwork for a healthier, brighter future."


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Solar Energy boom compared to IT goldrush of the 1990s

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Photovoltaic Solar Energy boom compared to IT goldrush of the 1990s



by Mark Culpepper, RenewableEnergyAccess.com

As a transplant from the data communications industry, I'm often asked how that experience relates to the renewable electricity industry. In truth the similarities between the two industries are greater than the differences. From a technical standpoint, the story of the data communications market of the 90's was fundamentally about a shift from highly centralized systems, to highly distributed systems; from fundamentally "dumb" telecommunications networks, to highly intelligent, adaptive "smart" data networks; from small, inefficient private company structures, to large, heavily leveraged, capital intensive corporate entities.

Behind all these changes were two key enabling technologies, namely cheap computers and cheap hard drives - devices which effectively acted as the Internet equivalent of small distributed generation and storage systems. These technologies enabled the creation of entirely new types of service providers. Today, an equivalent set of enabling technologies - cost effective distributed generation and energy storage - is fundamentally changing the structure of the grid, and creating an entirely new type of utility provider.

All infrastructure distributes
In the early to mid 90's, traffic congestion on backbone Internet transmission links became a severe problem, with many websites becoming essentially unusable and digital commerce grounding to a virtual halt. The response of the traditional providers was to build bigger pipes in their transmission facilities, and to increase the size of their web servers. New customers, however, were joining the Internet ranks faster, and using exponentially more capacity with video and music, than the service providers could deliver. The problem was eventually addressed when a new group of service providers emerged providing a structural solution that effectively delivered services to local users via a hierarchy of cheap computers and hard drives - something akin to distributed "data generators" - spread across the Internet that replicated website content. No longer did users have to digitally travel around the globe to reach their web destination. Because computing and storage costs were relatively low, web destinations could be digitally and dynamically "moved" to the points of heaviest demand. This architecture had the effect of segmenting the market - leaving the smaller companies behind to deal with cheaper but less effective internet services. Those who had money to spend could buy their way into a better, non-congested experience for their customers, utilizing services offered by this new group of providers. This segmentation effectively established a hierarchy of communication based on access to cash - the net results has been an Internet that has become increasingly stable, reliable, and cost effective for various market segments.

In the context of the electricity markets, the transmission congestion that plagues much of today's grid bears a striking resemblance to the problems of the data networks in the mid 90's. And in a similar way, the traditional utilities are trying to solve the problem by building bigger transmission facilities and larger power plants. However, the rules of the game are changing with the emergence of a highly distributed system of renewable generation and storage technologies located close to the point of consumption. The GE's, Evergreen's and Capstone's of the world are ensuring that the energy equivalents of the cheap CPU - distributed generation technologies such as wind, solar, or gas turbines - will be available for years to come. Just as critical are the evolutionary leaps in electricity storage technologies being delivered by companies like VRB Power, A123 and EEStor. These companies, and others like them, are providing the electrical equivalent of the cheap hard drive. Combined, these two technologies are enabling the creation of an entirely new type of type of service provider, something akin to a Utility Service Provider, delivering services that existing utilities can't or won't deliver. The end results will be a more reliable, higher quality grid with more predictable pricing and a much larger variety of differentiated offers based on quality of service and price.

The infrastructure's edge is further out than you think
When a similar transition occurred in the 90's with these new data communications providers, a key point of debate was how close to the customer should these "data generators" be moved? Said differently, where was the infrastructure's "edge"? Was it at the central office, in the customer's home, somewhere in between, or some combination of all three. The decision here was critical - move too many systems out to the edge, and infrastructure control became difficult and expensive. Keep the systems too close to the core, and end-user reliability and performance suffered. At the time, only a few service providers believed these systems would extend much beyond the central office, because the complexity of system management seemed unachievable. However, the structure that evolved was a fairly complex, hierarchical system of distributed computers, moving ever further out toward the edge of the network. As processors and storage costs continued to drop, the move finally came to rest in the TIVOs and Cable boxes resident in the living rooms of individual customers.

Amongst the more forward thinking utilities, a nearly identical debate is taking place. Should there be distributed generation at the substation? At the home? Should there be any distributed generation at all? The reality is that distributed generation is already displacing existing infrastructure, and is doing so even in the absence of market subsidies. Companies like Carmanah are finding areas of the utility grid where the marginal cost of installation and maintenance are so high that the customer is virtually forced to go with a distributed generation solution. Consider a lamppost on the edge of town. Hook it to the grid, and you need to trench. You need to hire IBEW union utility professionals to get it connected. Once it's hooked up, you need to service it and pay for the electricity to keep it running. Compare that to setting up a self powered industrial strength LED solar lamppost. Install the lamppost...come back in 5 years and change the battery. As the next generation of batteries come online, the maintenance cycle will extend out even further, making the offer that much more compelling. The economics on the edges of the traditional grid are fairly inflexible, and as utility rates continue to rise, more and more connections will simply break away to become standalone elements. As both battery performance and distributed generation technologies continue to improve, this will become more the norm than the exception.

Think locally, but act globally
As more of these elements break away from the "connected" grid, the real challenge becomes management and control. Customers aren't interested in running their own power plant. They just want the lights to go on when they hit the switch. And in this sense, the approach of the service providers in the 90's is very instructive.

The distributed infrastructure they implemented was revolutionary only in the context of public data networks - distributed systems had been considered best practice amongst network engineers for years within large private data networks. In these private networks, control of the infrastructure was completely under the engineer's purview. The revolution in the 90's was building a control infrastructure for thousands of cheap computers and hard drives across the public Internet, creating an easily and cheaply manageable "virtual" server distributed across the globe delivering highly reliable, fast service for literally hundreds of millions of end-users.

With the grid, these same challenges are being addressed with a new host of managed generation and storage solution providers. Companies like Gridpoint and Gaia Power are delivering the benefits of high quality, reliable power in a simple way by storing energy at the point of consumption, coupled with remote management of those systems. This allows these companies to sell the consumer a better energy experience, and once deployment levels reach sufficient size - say a thousand homes in a given distribution grid - to act as a "virtual" peaking power plant for utilities by drawing on the energy stored at these systems. Here again, as battery storage capacity and cycle life increases, the proposition becomes increasingly compelling. And while these customers may not know fully realize it, they are essentially joining the equivalent of a USP - or Utility Service Provider - where they enjoy the benefits of clean, green power without any of the hassles of maintenance and service. From the standpoint of these new utility service providers, a key requirement for their success can be gleaned from the experiences of the service providers in the 90's.

All network infrastructure drives to scale
When customers find something they like, they tend to want it everywhere. And for networked infrastructure, this demand tends to increase exponentially with the number of end-points, as does the value of the network itself - a rule known as Metcalfe's Rule. In other words, a phone network with fifty phones is worth 100 times as much as a phone network with five phones. These forces - consumer demand and Metcalfe's Rule - work in concert to drive the creation of infrastructure which enjoy tremendous economies of scale, but which require very high levels of capital. This was something the providers of the 90's knew intuitively, so they aggressively pursued capital, and then rapidly undertook large-scale deployments.

In regards to the grid, an end-point would be defined as a participant in the network, acting both as a provider and as a consumer of the networks product. Viewed in this context, the grid actually has a fairly limited number of end-points - basically the generators, the various T&D operators, and a few other players. Thousands of endpoints, yes. Millions of endpoints, most definitely not. With the arrival of distributed generation and storage, however, the number of end-points goes up tremendously, theoretically into the tens of millions. This has big consequences for the industry. Scale becomes absolutely critical. Those who "scale up" will be able to deliver significant peaking power to the traditional utilities, increasing their valuations relative to their competitors. Those who do not "scale up" will be either put out of business or acquired. A corollary to this is deep access to large amounts of capital.

In the United States, the early stage of this capital aggregation is already manifesting itself in the form of companies like Sun Edison, and Renewable Ventures. These emergent players understand the need for capital formation, and are beginning to impose themselves as the necessary middleman between the utility and the customers. And while it is not yet clear exactly how the domestic operations will play out over the months and years ahead, what is clear is that with regards to the domestic solar market at least, there is a high degree of inefficiency, with literally dozens if not hundreds of small operators offering installation solutions across the market spectrum. Virtually without exception, all of them are undercapitalized, without the cash needed to break away from the pack. Probably fewer than 1 in 500 offer some sort of energy storage solution, arguably the most critical piece of the puzzle. In the US market, one can count on one hand the number of installers and integrators who have seized a market segment, and leveraged their size to shape pricing options in their own favor.

The golden rule
Which brings us to the Golden Rule; he who has the gold, makes the rule. Said differently, in a fasting contest between the fat man and the skinny man, the fat man is king. These are not sayings so much as they are insurmountable rules of business, and when it came to the data communications service providers of the late 90's, all of these rules were tossed out the window. The market poured billions of dollars into data communication infrastructure contenders with truly astronomical burn rates, relatively small customer bases, and generally modest revenue growth. As the old players began to finally catch on, they found themselves in a unique position to capitalize on the markets that others had spent huge sums slowly prying open. Once the crash came, these older players were able to buy their way into these markets at a significant discount. There is a reason why the name of AT&T is still around, while virtually every other player has fallen from the national scene. A few were able to exit the market gracefully, but most simply evaporated as if they never even existed.

From the standpoint of the emergent utility service provider market there is a key lesson to take home. Ignore the old guard at your own peril - there is a reason why many utility companies were born before your parents, yet survive and in some cases thrive still today. They may be slow to act, but they have the patience, memory, and weight of an elephant. The sooner you can make them your allies, the better. As natural gas and oil prices rise, and the cost of expanding their legacy infrastructure grows, these companies will be looking for allies.

Those companies that survived the great data-communications bust managed to do so because they understood how to quickly build a world class operational system, manage their costs, maintain the discipline of market focus, and extend their value proposition to the traditional players. None of this is necessarily easy and there are no magic tricks here. But aligning a business with the existing utility providers will be a key first step.

The path comes full circle
The data communications service providers segmented into their respective markets over the course of roughly 6 years, between 1993 and 1999. The core architectural shifts that occurred then are still in place today, and likely will remain relatively unchanged for years to come. The leaders who emerged from this time period tended to be well capitalized, knew who their customers were, and had a clear vision as to where they were going. They correctly identified the impact that cheap storage and cpu technology was having in their industry. They used this fact to consistently position themselves 12 - 18 months ahead of their competitors and undercut their business models. By 2003, with exception of one provider, all were consolidated under the legacy telecommunications companies. With the re-emergence of AT&T in 2005, the clock had come full circle.

The clean energy segment finds itself in interesting times, not dissimilar at all in the structural transition that occurred with the service providers of 90's. Just as in that era, the potential for financial gain is tremendous, the window of opportunity is relatively small, and the challenges are significant. Installers, integrators and manufacturers with clear vision have a unique opportunity to align themselves with the emerging utility service
provider market, and to realize the dream of clean energy production well into the new millennium.

About the author...

Mark Culpepper is a published author and 15-year marketing and sales veteran of the data communications sector, working at industry leading firms such as Cisco, Digital Island, Cable & Wireless and Symbol Technologies. With a focus on market analysis, competitive positioning, message management, and process development, he recently left high tech to pursue opportunities in the renewable energy sector and currently works full time as a free-lance business and marketing consultant within the solar industry. A native Californian, Mark and his wife live in the San Francisco bay area.

Guinness Atkinson launching clean energy mutual fund

Woodland Hills, California, March 21, 2006 – Guinness Atkinson Asset Management, Inc., today announced the upcoming launch of the no-load Guinness Atkinson Alternative Energy Fund, which will invest in companies involved in the production, distribution or storage of alternative energy, including energy conservation. The fund is designed as a vehicle for investors seeking to profit from and participate in the shift from conventional fuels to alternative energy sources.

The fund will invest primarily in companies that produce 50 percent or more of revenues from alternative energy and will be managed with an emphasis on value. Lead manager of the fund will be Tim Guinness, Chief Investment Officer of Guinness Atkinson, who also manages the Guinness Atkinson Global Energy Fund.

"Increasing global energy demands, coupled with limiting supplies, will continue to force prices for energy higher and, in turn, accelerate the development of alternative energy sources," Mr. Guinness said. "We believe that the shift from conventional fuels to alternative forms of energy provides a new opportunity for investors," he added.

Mr. Guinness also cautioned about risks associated with investing in alternative energy sector. "Many of these companies are small and thinly traded and by some measures more than fairly valued at the moment," he said. "As optimistic as we are about the prospects for the alternative energy sector, we expect it to be volatile. An investment in it should be considered for the long-term", he added.

Guinness Atkinson has produced an in-depth, eight page research report called the Alternative Energy Revolution. This report provides an analysis of various alternative energy technologies and includes a discussion of the shift underway from conventional to alternative energy.

The anticipated launch date for the Fund is March 31. Investors wishing to learn more can request a prospectus and a copy of the Alternative Energy Revolution by calling 800 915-6565 or by visiting www.gafunds.com/lp11.asp.

The Guinness Atkinson family of funds, which includes the Guinness Atkinson Global Energy Fund, China & Hong Kong Fund, the Asia Focus Fund, and the Global Innovators Fund, is designed to help investors capitalize on innovation and profound change, including long term global trends such as the development of emerging Asian markets, the transformation of the manufacturing economy to a New Economy and the long-term rise in energy prices.

The information in this communication is not complete and may be changed. We may not sell these securities until the registration statement filed with the Securities and Exchange Commission is effective. This communication is not an offer to sell these securities and is not soliciting an offer to buy these securities in any state where the offer or sale is not permitted.

The Fund’s investment objectives, risks and expenses must be considered carefully before investing. The prospectus contains this and other important information about the Fund and may be obtained by calling (800) 915-6566 or visiting the Fund’s website at www.gafunds.com. Please read it carefully before investing.

Please refer to the prospectus for risks associated with investing in the Guinness Atkinson Funds, including, but not limited to, risks involved with investments in foreign securities and smaller companies. The Funds are non-diversified meaning they concentrate their assets in fewer holdings than diversified funds. Therefore, these Funds are more exposed to individual stock volatility than diversified funds.

While the fund is no-load, management and other expenses still apply. Please refer to the prospectus for further details.

Thursday, March 23, 2006

Ontario, Canada begins to abandon communistic energy policies

Note from Yuya: Ontario seems to be finally abandoning the communistic energy policies, now if we could just get rid of the anachronistic plans for more heavily centralized and ludicrously subsidized nuclear power plants, we will have this province on the road back to world-class competitivness.

Ontario to pay premium for solar power; Wind, biomass also get break


TYLER HAMILTON, TECHNOLOGY REPORTER, theStar.com


Vern Sherwood's business just got a major energy boost and he didn't have to lift a finger.

The president and founder of Excess Energy Inc., a Mississauga-based supplier and installer of solar power systems, was overjoyed yesterday after the Ontario government confirmed it will pay 42 cents for every kilowatt-hour of electricity that comes from small solar electricity systems.

The generous rate — a seven- to eight-fold increase over what we see on our hydro bills today — is expected to make high-cost solar projects more appealing to early adopters of the technology, who can now earn back more of their investment by selling clean power to the province at a premium.

"This is totally wonderful news," Sherwood said. "We want to build this into a bigger company, and this means more work for us."

The premium rate for solar is part of the government's so-called standard offer program, a European-style approach to boosting small-scale deployment of renewable energy projects.

The province's interest in such a program was first reported in the Toronto Star last August, when former Energy Minister Dwight Duncan instructed the Ontario Power Authority to establish special pricing.

In addition to paying 42 cents per kilowatt-hour for solar electricity, the province announced it will pay 11 cents for clean electricity that comes from wind, biomass and small hydro systems that don't exceed 10 megawatts in size.

The program, which offers simple 20-year contracts and is expected to begin in June, is open to any business, organization, co-op and homeowner that can connect their project to the grid. Any system built after Jan.1, 2000, qualifies, meaning found money for those who have already invested the capital. "That's sure made a lot of my past customers happy," said Sherwood.

The government hopes the program will attract 1,000 megawatts of clean power over 10 years, or enough to supply electricity to 250,000 homes. But renewable energy experts say the potential is significantly higher if Ontario can gather the same momentum as Germany and Denmark, where similar programs have led to massive investment and created thousands of jobs in the solar and wind industries.

"It's historic for Canada. This is the most progressive renewable energy policy in North America," said Paul Gipe, a U.S.-based wind expert who, as acting executive director of the Ontario Sustainable Energy Association, played a pivotal role in nudging the province forward.

Well-known environmentalist David Suzuki, who joined Premier Dalton McGuinty in making the announcement, praised the province for setting an example for the rest of North America, even leaping ahead of progressive jurisdictions such as California.

"It puts Ontario at the absolute forefront of North America," said Suzuki, speaking from the manufacturing floor of Cambridge-based solar module maker Photowatt Technologies Inc.

"I think (Ontario is) going to force the rest of this continent to follow."

McGuinty said the simplicity of the program makes it possible for anyone to participate. He gave the example of farmers who could use vast land holdings to put up wind turbines or build biomass facilities.

"You've got a farm income challenge? You've got land? We need clean electricity," he said. "Let's make a deal, and forget that ... complicated process we have for bigger projects."

David Cooke, president and founder of True North Power Systems, a supplier of small wind turbine systems based in Lions Head, Ont., said the standard offer program makes sense for co-ops, municipalities and businesses, but he doubted it would have much impact on homeowners, who would have to wait 20 years or more for a return on renewable energy systems costing anywhere from $15,000 to $30,000.

The best and easiest solution for homeowners, said Cooke, would be tax incentives for purchases of equipment, or purchase rebates.

But the Canadian Solar Industries Association estimates the program will lead to the installation of 15,000 residential solar systems over the next five years.

Thursday, March 16, 2006

Eternal Energy Based Electro-Hydrogen economy evolving globally

Los Angeles, California [RenewableEnergyAccess.com] This week the hydrogen energy industry convened in Los Angeles for its annual trade show and conference. A wide range of companies were on hand, from small manufacturers offering pressurized tanks all the way up to the world's leading automakers showing their latest hydrogen fuel cell vehicles. There's an unquestionable buzz and optimism surrounding this industry, yet a different one, arguably less hyped-up, than was in play a few years ago when President George W. Bush announced his support for hydrogen in his 2003 state of the Union Address. No, the veritable explosion of interest from companies, investors and entrepreneurs has mellowed out a bit since then. And it just might be a good thing.

"There's a reality check going on, and not just this year but last year as well," said Steve Szymanski, Manager of Business Development for Proton Energy Systems, which specializes in hydrogen fuel cell backup systems for premium power markets like the telecomm industry. "There's a bit of a shakeout. The interest is here, the enthusiasm is here, but a lot of people don't have the luxury of a current, commercial product."

Szymanski's comment gets to the heart of one of the major challenges to the hydrogen energy industry. Its greatest strength and business opportunities lie predominantly in the longer-term play of a hydrogen economy, when hydrogen could become the dominant energy carrier -- particularly in the transportation sector.

That situation doesn't bother Jaun Avila, spokesman for Honda Motors, one bit.

"This is somewhat like the dotcom industry," Avila said. "Those who have a real product are still in the game and we are by no means done with the game."

Avila explained that while Honda is clearly a vast and profitable car company, it's a technology company at heart and will strive to explore and advance new technologies like this. The company is already on its third generation fuel cell car and he assures the company will be introducing some new breakthroughs in the next version.

For now, Honda's focus with respect to clean transportation is with its hybrid electric cars but Avila says they're looking ahead in stages including some of the nearer-term offerings such as natural gas powered vehicles and hybrid natural gas vehicles. These, Avila said, are likely to reach commercialization sooner than hydrogen fuel cell vehicles.

The very same hype and excitement that bubbled up three years ago following the President's announcement of his hydrogen energy initiatives was somewhat of a two-edged sword. It buoyed the industry like it had never seen but it also raised a lot of expectations for a technology that still has to battle the reality of being a long-term play.

"I don't think it was healthy to have people so excited," said Giorgio Zoia, Hydrogen Business Development Manager for BP. "It's not always a good thing to have everyone so excited or else people think it won't work."

Some of this hype, that reached its zenith in 2003, has led to heightened expectations in the general public that just can't be met. The typical consumer doesn't have the same patience for a hydrogen economy as the industry folks who still see its vast attainable potential, even if it's a longer-term situation.

At the event's ride and drive, there were some sleek and rather peppy fuel cell cars from most of the major automobile manufacturers, but they're all the products of multi-million dollar research programs and hardly an available, commercial product a consumer could go out and buy. And if they could, there would still be precious few places to fill them up with hydrogen.

Experts at the event acknowledged that the market is deciding right now on hybrid electric vehicles but they're optimistic that the day of the mass-marketable hydrogen fuel cell car is down the road, and maybe not that far.

"Sure, the hype has decreased but now we're focused on making the rubber meet the road," said Patrick Serfass, Technical & Program Development Manager for the National Hydrogen Association, the industry group that put on the conference. "Now you see companies meeting targets towards commercialization. "There's a lot of progress being made out here. The reality is starting to meet the level of the hype."

Serfass, and other experts at the show, said the hydrogen industry is moving forward in three major directions, each with different timetables for commercialization. Small portable power applications are the first avenue and Serfass says they're already commercial with numerous products available and selling. Next will be home or business power units, such as backup systems. Those are commercial as well, but still cater to the premium power markets. Transportation will be the last.

"I think a lot of companies are struggling to become profitable," Serfass said. "For some companies, it's great that they'll have a ready product in three to five years, but they want to be around in three to five years. They've got to make sure they're smart about how they develop products in the right sequence to meet market demand."

It may seem like the auto manufacturers, with all their vast cash and resources, are best poised to weather the gradual market ramp-up, but Serfass says it's a real challenge for them to convince their investors to hang in there as the market slowly develops.

"How do you, as a large public company, convince your shareholders when the market may not be ready for years down the road," Serfass said. "But it is worth it, that's where they need to come together. It's worth the investment now."

Another theme that was evident at the conference was that hydrogen encompasses a vast, malleable range of technologies, applications and energy pathways. In two extreme cases, hydrogen can be cracked out of water through the energy from a solar panel or wind turbine, or harvested on a massive commercial scale from the waste products of a gasoline refinery, as BP is planning to do at one of its Los Angeles refineries.

Both examples, of course, highlight two very different pathways to the production and use of hydrogen. The solar approach is pure and clean, it could be said, yet the reality is that it's not very efficient or affordable if you need a lot of hydrogen. The BP process, on the other hand, is "less clean" by conventional reasoning, but a more cost-effective approach, and one that uses an existing waste product. This new facility BP is planning would generate enough hydrogen to run a 500 MW power plant.

Where hydrogen comes from has been perhaps the most contentious and hotly debated topic among those who follow the industry. Renewable energy advocates have grumbled, with some legitimacy, over claims of clean, emissions-free hydrogen, when sourcing that hydrogen is done through a process that does create emissions and pollution. Almost all hydrogen today is produced from a process of steam reforming natural gas.

In one of the more contentious examples of hydrogen's variability in terms of its source, there's considerable debate and planning at the U.S. Department of Energy about using a new breed of nuclear reactors to create hydrogen in the future. Whether for hydrogen or not, nuclear technologies spark great schisms between energy experts, politicians, environmentalists and others.

This concern was perhaps best exemplified when some good-natured, slightly devious Honda staff were witnessed photographing a "GO NUCLEAR" bumper sticker they had placed on fuel cell vehicles from rivals Toyota and General Motors.

All the car companies' fuel cell teams actually work quite closely, cooperatively and congenially together through the California Fuel Cell Partnership (CaFCP), where teams share workspace and work bays within the same facility.

The CaFCP is a collaboration of 32 member companies that are working together to promote the commercialization of hydrogen fuel cell vehicles. All the major automobile manufacturers with current research and development of fuel cell vehicles are involved in this collaboration, which is largely responsible for the 22nd hydrogen fueling station opening up just in time for the conference. Like other advanced energy technologies such as solar and wind, California, through the CaFCP will be a major test-bed technology incubator for the hydrogen economy. The Governor himself has been a very strong proponent. In fact, he meant to be there as a headlining speaker but instead had to settle for a live satellite teleconference as he was tied up wrangling with state lawmakers over his major infrastructure proposals.

One Californian who can take a lot of credit for advancing the hydrogen industry and fuel cell vehicles in California and beyond is Alan Lloyd, Secretary of the State's Environmental Protection Agency Secretary, and a speaker at the event. He had his own unique view of the some of the current debate over hydrogen, which he steadfastly believes will play a central role in the country's energy future.

"A lot of people tend to knock hydrogen these days," Lloyd said. "And it's a clear sign it's progressing. It's typical for people to knock the alternatives to oil and gas. I look at this as a sign of some success. It's very important to keep our eyes on where we need to go. There's a jump right now to the technology of the hour. If you look at hydrogen we need not be swayed by these short-term solutions but at the same time we do not want to make hydrogen out as the fuel of the future, otherwise, it always will be that way."

Wednesday, March 15, 2006

How can Africa benefit from renewable energy, solar power?

Q&A with Scott of RenewableEnergyAccess.com

Q: How can I convince our country of Tanzania, which is blessed with sunshine almost 365 days a year, to go for renewable energy -- especially solar power? It is shameful to see that we don't use the renewable good energy we have free from God. Nyinisaeli G., Kigoma Tanzania

A: Thanks for your kind words and insights, Nyinisaeli. The best way to convince anyone about new technologies and practices is to show them what their friends and neighbors are doing - and many countries on the African continent have been carrying out important and cutting-edge programs for decades.

Look at the Solar Electric Light Fund's (SELF) web site (www.self.org) for examples such as one in your own country. The Jane Goodall Institute in Tanzania, located on the shores of Lake Tanganyika, is 30 years old but has never had reliable electricity until now. SELF spearheaded a project to bring reliable, sustainable, and clean solar electricity to provide light, run computers, and power a water pump for a tree farm and a refrigerator for storing precious research samples, vaccines, and snake anti-venom.

And in Senegal...in consultation with the Government's Rural Electrification Agency, the village of Thide Nganado in Louga Region has a population of 1,268, has no electricity, and has similar education, health, water supply, and economic challenges as found in most rural villages. To address the most pressing concerns of the village, they are installing solar pumps for a reliable source of water that unlike diesel pumps, are maintenance free and require no fuel. They will be used to supply water taps throughout the village for a healthier and more convenient source of water and they will supply water during the dry season for the initiation of a pilot micro-irrigation program where families will be able, for the first time, to grow crops during the driest half of the year.

Nigeria.The Jigawa State Governor Ibrahim Siminu Turaki began a dialogue in 2001 concerning the possibility of using small wind and solar-electricity (photovoltaics) to power essential services in the far-flung villages of Jigawa State. Governor Turaki is a firm believer in using modern technology to jump-start development in his remote and economically challenged state. As a result of numerous meetings with enthusiastic villagers, a very ambitious project goal developed to demonstrate the comprehensive use of solar-generated electricity in a village setting to improve education, water supply, health, agriculture, commerce, security and women's opportunities - starting in three villages where over 7,500 people would benefit from the results

Another way to convince anyone about renewable energy is to show them what industrialized nations are doing. The national programs in Germany, Japan, Spain are real models, as are the ambitious State programs in the United States including California, Illinois, Pennsylvania, Massachusetts, New Jersey, New York and many others. RE Access has numerous articles on these programs.

Recently, in the President's State of the Union, President Bush articulated the national security benefits of clean energy. And years back, former President George H. Bush extolled the economic benefits of renewable energy as he renamed and upgraded then SERI to national laboratory status as the National Renewable Energy Laboratory (that his son as President visited last week). And President Bill Clinton and Vice President Gore highlighted the environmental benefits of renewable energy - from clean air and water to significantly reducing emissions changing our global climate.

So, I would approach professors and researchers at the colleges and universities in Tanzania and ask them to draft some economic, security and environmental briefs on the benefits of more widespread utilization of renewable energy for transportation fuels, electricity, as well as for heating and cooling - the benefits will surely be profound.

In my dealings with developing nation governments, I always ask "do you want to wait for decades for electric grids, clean water and telecommunications -- or do you want to start now? If the answer is 'now', providing distributed renewable energy focused on social and wealth-building applications is the smartest way to go.

And finally, The World Bank Group, including the International Finance Corporation and the Global Environmental Facility are looking for willing governments and smart projects to invest in - so when a program is articulated, don't hesitate to advise the government or businesses to access these programs composed of low interest loans and grants. And there are many non-profit organizations like SELF committed to sustainable development and clean energy applications in Africa.

Good luck - Scott


Reader comment:

-- Gerry Wolff, March 15, 2006
I have prepared a web page about 'concentrating solar power' (CSP) and its enormous potential at
http://www.mng.org.uk/green_house/renewable_energy/csp.htm .

As described on that web page, CSP offers many benefits for hot countries in addition to inexhaustible, plentiful and pollution-free electricity.

Alternative renewable power technology to continue to fuel economy, stock markets

Clean Energy's Long Boom

by Ron Pernick, Clean Edge

Back in 2001, when we launched Clean Edge, recognition of clean energy among corporations, investors, governments, and the media was barely palpable. The signs of a coming boom were there -- with governments like Japan and Germany, corporations such as Sharp and BP, and a handful of venture capitalists making strategic investments -- but we had to look long and hard at the road ahead to uncover the trends.

Today, things couldn't be more different.

As we note in our fifth annual Clean Energy Trends 2006 report (see link below) the clean-energy tipping point is nigh. For the first time in modern history, clean- energy technologies are becoming cost-competitive with their "dirtier" counterparts. While oil and natural gas prices increase dramatically, wind and solar continue their near- relentless downward trend. Biofuels (ethanol and biodiesel) are growing at double digit rates and now represent a larger global market than either solar or wind.

At a time when the U.S. economy struggles to gain traction and faces unprecedented challenges from volatile energy prices, depleted natural resources, unreliable sources of foreign oil, record deficits, and new environmental and security challenges, we believe clean energy offers the promise to be the next big driver of business and economic growth.

But opportunity is a double-edged sword; those who miss it could well lose out to those who take advantage. Evidence is mounting that businesses, regions, and nations that move to and embrace clean energy are indeed pulling ahead of their competitors in the global marketplace.

Witness the hybrid vehicle market. Toyota now dominates the industry, having shipped more than 200,000 hybrids in 2005. Toyota was the only major automaker to increase its year-to-year U.S. sales when gasoline prices hit record highs in last October. By early next decade, the company plans to have at least 10 hybrid models on the road and is targeting annual global sales of one million hybrid vehicles. Toyota now has a market capitalization ten times that of General Motors.

General Electric is taking note as well. GE, the world's largest diversified manufacturer, last spring launched an "Ecomagination" business strategy in which it committed to doubling its investments in clean technologies by 2010. Revenues from the company's wind energy division now exceed $2 billion annually and the company is targeting up to $1 billion in yearly revenue from its solar division by the end of the decade. "Ecomagination is GE's commitment to address challenges such as the need for cleaner, more efficient sources of energy, reduced emissions and abundant sources of clean water," says GE CEO Jeffrey Immelt. "And we plan to make money doing it. Increasingly for business, 'green' is green."

And in Brazil, nothing short of an automotive revolution is taking shape. The nation now represents nearly half of global ethanol production -- pumping out more than 4 billion gallons of sugar-cane based fuel in 2005. Flex fuel vehicles capable of running on E85 (a blend of 85 percent ethanol and 15 percent petrol gasoline) have grown from just 6 percent of Brazil's new car market in 2003 to an impressive 70 percent plus of the new car market in 2005.

The clean-energy "long boom" knows no geographical boundaries. The U.S. has a choice to either embrace and lead in this brave new world of clean energy and clean tech innovation, like it has done in many earlier tech revolutions, or fall behind a host of competitors in Europe, Asia, and beyond.

As we point out in this year's report, the growth of some technologies has been nothing short of astounding -- expansion rates akin to the personal computer revolution during its more than 20- year growth heyday. Back in 2000, the markets for solar photovoltaics (PV) and wind power represented annual global revenues of $2.5 billion and $4 billion, respectively. Both have quadrupled to more than $11 billion annually today.

In this year's Clean Energy Trends publication, Clean Edge reports that ethanol and biodiesel hit $15.7 billion globally in 2005 and are projected to grow to $52.5 billion by 2015. We project that markets for solar photovoltaics (modules, system components, and installations) will grow from $11.2 billion in 2005 to $51.1 billion by 2015; wind power installations will expand from $11.8 billion last year to $48.5 billion in 2015; and fuel cells and distributed hydrogen will grow from $1.2 billion in 2005 to $15.1 billion by 2015.

Clean Edge, in collaboration with Nth Power, a leading energy-tech venture firm, also released Nth Power's annual energy-tech venture data. This year's findings show that venture capital investors poured $917 million, an increase of approximately 28 percent from 2004, into more than 80 private companies. These investments, primarily in distributed energy, energy intelligence, power reliability, advanced materials and nanotechnology, and related services, represented more than 4 percent of the $21.7 billion U.S. venture capital market, up from less than 1 percent of the venture market in 1999.

Global electricity and transportation fuels represent multi-trillion dollar markets -- two of the largest industries on the planet. Combine that with significant technological advances in solar, wind and biofuels; China and India's insatiable appetite for expansion; large corporate and venture investments; and the instability of foreign-based fossil fuel supplies (to name just a few key drivers), and we believe we are positioned for a long boom in clean-energy technologies.

It won't be an easy road ahead. Change never is. But for those that heed the call and can discern the signposts, untold opportunities await.

Ron Pernick is Co-founder and Principal of Clean Edge, Inc. He is currently writing a book on the clean-tech revolution with co-author Clint Wilder, to be published by HarperCollins Business.





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Friday, March 10, 2006

NZ Geothermal electric generating station expanding to 94 megs!

Mokai, New Zealand [RenewableEnergyAccess.com] With the recent opening of the Tuaropaki Power Company (TPC) for the Mokai Geothermal Power Station extension, accompanied by congratulations from the New Zealand Geothermal Association, TPC's Mokai becomes the sixth largest electricity generator in New Zealand, with the ability to generate almost 2% of New Zealand's total electricity requirements. The 39 MW extension brings the total Mokai output up to 94 MW, placing it among New Zealand's top 15 stations in terms of annual output.

10 year target to be as high as 400 MW of geothermal power

The station is based around what is known as binary cycle technology. While geothermal steam does pass directly through a steam turbine, geothermal heat from steam and water is passed to a second "organic" working fluid that drives other turbines. Large banks of air-cooled heat exchangers are another feature of the station. The station was designed and built by Ormat of Israel and is similar to the Rotokawa station near Taupo, or to other designs internationally. The overall result is an efficient geothermal power station, providing a reliable base load of generation that is independent of rainfall or wind.

The heat exchanger arrangements around the station mean that there is normally no direct release of geothermal steam at the surface. A small amount of carbon dioxide comes with the geothermal fluid and is vented above the cooling towers. The carbon dioxide emissions are about one sixth of that of a gas-fired combined cycle power station of the same MW output. Geothermal water and condensate are reinjected into the Mokai reservoir.

The station is normally quiet and is not expected to disturb either the local farm workers or farming operations. It has a low profile, sitting on farmland surrounded by low-lying hills and is not directly visible from main roads out of Taupo.

The Tuaropaki Power Company (TPC) was wholly owned by the Tuaropaki Trust, which administers 2,700 hectares (ha) of Maori lands that overlie most of the Mokai geothermal field. The Trust runs a successful pastoral farming operation and has an interest in a large geothermally heated glass house on its land.

Due to the long-term relationship between TPC and state-owned generator Mighty River Power, Mighty River Power has an agreement to operate and manage the Mokai power station, having bought a 25% equity holding in TPC in 2003.

Many other geothermal fields in New Zealand are currently untapped or underdeveloped, and could potentially be developed assuming access and consent is achieved. Today 450 MW of installed geothermal capacity is in New Zealand, and geothermal stations supply 6-7% of the nation's electricity demand.

Geothermal energy is expected to make an even greater contribution to supplying New Zealand's increasing demand for electricity. Some developers have spoken of 400 MW of geothermal power stations over the next 10 years.

Washington State Legislature passes bill promoting alternative fuels biodiesel, ethanol

Bellingham, Washington [RenewableEnergyAccess.com] Bipartisan cooperation for a major new energy policy can be hard to come by, but not when both parties agree on calling for new energy independence strategies. In legislative session, Senate Bill 6508 calling for a minimum renewable energy standard passed the Washington State Senate and is off to the Governor for an expected signature into law.

Senate Bill 6508 mandates fuel dealers to sell 2 percent biodiesel out of their total diesel sales and 2 percent ethanol out of total gasoline sales. This new state biofuels standard makes Washington a leader among other states that are moving in the direction of supporting renewable energy. It also complements a similar Federal law called the Renewable Fuels Standard (RFS) that mandates the US reach 7.5 billion gallons of biofuel use by 2012.

These figures also act as a baseline as the law is designed to increase biofuel use as the state's capacity to grow and produce biofuels increases. The standards start at 2%, and ramp up to 5% for biodiesel and 10% for ethanol. State vehicles will use higher percentages of biodiesel. The state also has a huge potential to produce advanced biofuels, like ethanol from wheat straw, that can provide major reductions in fossil fuel use and global warming pollution in the future.

In addition to establishing market access for ethanol and biodiesel, and a variety of incentives for in-state fuel crops and production facilities, the RFS will open a new market for biofuels in Washington State, attract jobs, provide farm income and relieve concerns about oil prices and global warming, say supporters of the bill.

"This is truly a bill the entire state can be proud of. We're talking about new jobs, cleaner air, and more independence from oil," said 13th District Rep. Janea Holmquist, R-Moses Lake. "That's a win-win for all citizens of Washington." Rep. Holmquist is also a member of the House Economic Development, Agriculture and Trade Committee and sponsored a similar House Bill 2738. She has been recognized as a leading proponent of biofuels legislation in the state. Earlier calls from Governor Christine Gregoire helped to drive the legislative effort.

Scheduled to take effect in 2008, after an advisory group helps the Department of Agriculture develop rules for implementation, the RFS, which industry experts anticipate will attract substantial investment in growing biofuel feedstocks and producing the fuel, is said to be one of the first in the nation.

The Washington State Apollo Alliance of Washington made the renewable fuel standard a priority this year, and the Washington State Labor Council, Washington's environmental community, Washington Agriculture, Washington Farm Bureau all endorsed the measure.

Alternative Energy Investing: China to bring renewable clean power firms to market through 2006 IPOs

Clean Energy: Peering Down China's IPO Pipeline

by Catherine Lacoursiere, RenewableEnergyAccess.com


The Chinese IPO boom appears to be building on strong momentum. Reuters reports that 42 percent of Chinese companies are planning stock issues and over 50 have received approval and plan to go public in 2006. This is good news for clean energy. While investors have devoured shares of Chinese solar gear maker Suntech Power Holdings (NYSE: STP), clean technology IPOs out of China have been sparse.

It is easy to see the attraction to China cleantech. Domestically, renewable energy consumption is growing in excess of 25 percent. Globally, companies like Suntech Power, which exports 90 percent of its production, are enjoying an export boom. Chinese exports are growing at close to 30 percent a year.

Investors will soon see their growing appetite for China new energy satiated. Recent changes in China's capital markets will make it easier for Chinese companies to gain access to financing, both at home and abroad. Up until 2002, the process for a Chinese company to issue an IPO was difficult and required the approval of the China Securities Regulatory Commission (CSRC). Additionally, last year, China halted domestic IPO issuance amidst growing concerns over corporate governance practices. The move also provided a more captive market for the floatation of over $200 billion in shares of Chinese privatized, state-owned companies.

As a result, global exchanges have witnessed an invasion of Chinese IPOs. In 2005, 80 percent of all IPOs on the Hong Kong Stock Exchange were Chinese H-shares. Following Suntech, the New York Stock Exchange now hosts 25 Chinese companies. A few weeks ago, China announced that it is making it easier for small and medium-sized technology enterprises to gain access to domestic capital. Measures to be taken include easing restrictions on the IPO registration process and allowing SMEs to issue bonds. And plans are in the works for a separate stock exchange for smaller companies, similar to London's Alternative Investment Market (AIM).

Don Ye, Director of the Beijing-based China Environment Fund, the leading sustainable investment fund in China, emphasizes that many of the Chinese companies receiving positive receptions on foreign exchanges have a large foreign export base. China benefits from a manufacturing advantage that includes both lower costs and human capital, "Chinese talent," says Ye. The China Environment Fund's second fund, which closed in November, is focusing on renewable energy and energy efficiency technologies.

Investor preference for concrete sales abroad also reflects the murky accounting that was a characteristic of the last Chinese IPO boom in 2001. One such practice involved shell companies acquiring privatized state assets and prepping the new company for sale. Moreover, according to Reuters, Chinese valuations are more in line with expectations today, dropping to 20 times earnings from 60 in 2001.

Going forward, CEF's Ye expects to see more solar issues as clean technology IPO issues from China pickup. "One reason the solar PV market is going well is because the government has given it lots of subsidies." Chinese wind technology, such as advanced blades, is another market benefiting from subsidies and expected to "quickly" pick up over the next couple of years. In addition to large export opportunities, demand in the domestic market is increasing as GDP growth continues to outpace the rest of the world. So far, one CEF portfolio company, Dongjiang Environmental (HKSE: 8230), a hazardous waste company that recovers metals from electronic waste, has gone public. Net profits of China's leading hazardous waste company are increasing at a CAGR of 18 percent a year, according to First Shanghai Securities.

Investors also will follow the momentum -- solar plays in the US market and water purification in Singapore, for instance. With hundreds of Chinese cities facing water shortages, Asian companies with wastewater treatment technology have been flooding the market with IPOs in recent years, particularly the Singapore Exchange due to its higher price-to-earnings ratios. Hyflux (SGX: HYFL.SI), a leading Asian maker of water purification and treatment systems, was the first company to list on the Singapore Stock Exchange in 2001. More recently, the issue of Asia Water Technology, a Chinese water treatment company now headquartered in Singapore, was almost eight times oversubscribed.

As China lifts its 10-month moratorium on domestic IPOs, however, foreign exchanges will not only have to compete harder for China's new issues but also domestic IPOs if China follows through with its intention to launch Chinese depositary receipts (CDRs). Either way, with plans to also open the floodgates to more foreign institutional investors, there will be more investment pipelines to China's clean technologies.

Catherine Lacoursiere is a financial journalist who has covered corporate and personal finance and the energy and environment markets from New York and Silicon Valley for Investor's Business Daily, and publications of the Economist Group and McGraw-Hill Companies. Catherine writes columns and blogs on nanotechnology and clean energy investing for InvestorIdeas.com, the Cleantech Venture Network, and RenewableEnergyStocks.com. Her articles are occasionally published here through special arrangement with RenewableEnergyStocks.com

Thursday, March 09, 2006

58 MW Hybrid California power project combines wind energy, ocean currents and biofuels for clean electricity

Eureka, California [RenewableEnergyAccess.com] Plans are underway in northern California for a project that would combine three renewable energy resources -- one wind power, one biomass and one ocean energy project -- all into one interconnected project.

The public was given an opportunity to identify issues to be addressed as the project develops in a public forum hosted last month by the Redwood Coast Energy Authority (RCEA) on the proposed Fairhaven Tri-Renewable Energy Park project, recently announced by the CEO of DG Energy Solutions CEO Steve Mueller.

This project, which Mueller said is the first in the world to combine three renewable energy technologies in one location, is hoped to augment an existing 18 megawatts (MW) of biomass-fueled electrical generating capacity at the DG Fairhaven biomass plant on the Samoa Peninsula by adding 20 MW of wind-generated energy and 20 MW of wave generated energy. DG Energy is the parent company of the DG Fairhaven biomass plant, which has been producing local renewable energy since 1986.

According to DG Energy Solutions, this project will include a field of Ocean Power Technology power buoys tethered to the ocean floor approximately 4,500 feet offshore from its Fairhaven facility. Each power buoy will produce up to 500 kilowatt hours (kWh) of electricity in average ocean conditions. The project will also include ten 2 MW wind turbines located on the Fairhaven property and adjacent parcels. The energy produced by this project will interconnect with PG&E transmission lines using existing substations on the peninsula.

"The prospect of locally producing upwards of 58 MW of clean, sustainable, renewable energy is very exciting," said David Boyd, RCEA's Executive Director. The Draft Energy Element recently prepared for the County by RCEA identified the need for Humboldt County to increase its local renewable energy capacity in order to meet future energy demand. According to Boyd, peak electricity demand in Humboldt County is about 158 MW, so this project could meet more than one third of Humboldt's present power needs.

"As promising as the Tri-Renewable project appears, considering its possible impacts to the coastal environment, it deserves a careful review," said Boyd. To further dialogue on this project, RCEA invited key stakeholders from public agencies, community groups, and environmental organizations to the forum.

Bermuda to tap enrgy from ocean currents with underwater turbines

Hamilton, Bermuda [RenewableEnergyAccess.com] In a move anticipated to meet the electricity needs of Bermuda over the next 20 years, the Bermuda Electric Light Company Limited (BELCO) plans to purchase renewable energy to be generated from its own ocean currents. The agreement, between BELCO and Current to Current Bermuda Ltd., is for up to 20 megawatts (MW) of power, with the first 10 MW scheduled to be available by the end of 2007.

Current to Current Bermuda Ltd., a subsidiary of Current to Current Corp. based in Burlington, Massachusetts, will bring its patented ocean current technology -- a large submersible, similar to a submarine, operating within a cylindrical unit that captures the energy of ocean currents to power generators. It incorporates a gearbox allowing it to provide large volume electricity production, suitable for commercial use, and differentiating it from other ocean current applications. This is to be the first deployment of the Submersible Power Generators (SPG).

The technology was developed in the U.S. by a team of scientists and technologists led by Dr. Manfred Kuehnle, who has registered several hundred inventions, including satellite technology and machine-readable technology for credit cards, stated the release.

"We have looked closely at offshore wind generation. While it is viable, wind provides only intermittent power and would not replace the need for fuel oil based generation to cover the times when wind would not provide adequate supply," said Garry A. Madeiros, BELCO president and chief executive officer. "Conversely, Current to Current's technology has been designed to provide a continuous source of energy that would replace the need for fuel-powered generation."

Although a specific site for placement of the submersible unit has not yet been determined, Helen Manich, Current to Current's chief marketing officer, said it would be located south of the Island.

"The Bermuda Biological Station for Research (BBSR) will be conducting current-flow testing at the end of next month and that information will be used to help determine the best location," Manich said. "The submersible unit will be constructed in the United States and barged to Bermuda. Once it is in place, the unit can be remotely controlled and monitored by the U.S. company, the Bermuda company and BELCO."

"BELCO's planning forecast anticipates that we will need to add generating capacity to our system by 2010," said Madeiros. "The timing of this project is excellent, as it allows us to adjust our plans going forward based on the actual performance and future potential of the Current to Current system."

PowerGen Renewable Energy Conference, online registration

Attend the third annual POWER-GEN Renewable Energy & Fuels, America’s premier all-renewables conference and exhibition designed to move renewables into the mainstream of the energy sector. Met with tremendous success in 2005 with 100% growth in exhibitors and 60% growth in attendees, POWER-GEN Renewable Energy & Fuels is the industry’s must-attend event of the year for bringing end users and suppliers together for an educational and interactive event.


Event highlights:

– Over 2,000 industry professionals in attendance
– 120 of the industry's top speakers in a 7-track conference program
– 3 days of valuable networking opportunities, including receptions, delegate lunches, technical tours and co-located events
– Multiple international and technology exhibit floor pavilions
– More than 135 companies exhibiting
– In-depth pre-conference workshops
– More than 50 major media outlets invited to attend
– Numerous on-site product launches planned



For continual program updates and information, visit www.power-gengreen.com.

US$100 mil of Solar Generating Stations and other alternative energy technologies to be funded by Renewable Ventures LLC

Renewable Ventures to Fund up to $100 Million of Solar Electric Power Plants

from SolarBuzz.com

Renewable Ventures, LLC has announced that, in partnership with its institutional investors, it is ready to fund $100 million of solar energy and other renewable energy projects nationwide.

A specialist in the financing and management of renewable energy projects, Renewable Ventures works with project developers, installation companies and energy customers to commission onsite power plants that deliver predictably priced, clean energy without burdening the customer with purchase costs and ongoing system maintenance responsibilities.

This first round of institutional funding will be used to finance Renewable Ventures' growing pipeline of investment-grade solar photovoltaic projects.

"Although solar energy is soaring in popularity, the upfront cost of installing a system is still a major obstacle for potential customers. Our financing solutions remove that economic barrier of entry, giving electricity consumers easy access to stable power rates and helping solar developers make the sale," said Matt Cheney, CEO of Renewable Ventures. "Just like car leases and home loans make those products accessible to consumers, the advent of third-party financing in this sector moves clean energy into the mainstream."

Renewable Ventures' says its third-party finance model presents an ideal solar energy solution for organizations with large facilities and substantial electricity needs including, schools, factories, business parks, office buildings, wineries, bottlers, chilled warehouses, airports, and municipal sites.

Under the third-party finance model, Renewable Ventures owns, operates, and maintains each generation facility and sells the power to the site host under the terms of a power purchase agreement (PPA). Leveraging economic incentives and deep industry knowledge, Renewable Ventures can optimize renewable energy projects to deliver power at rates that are often at or below current brown power utility rates.

Renewable Ventures draws capital for its financing solutions from numerous institutional investment partners enabling it to deliver lowest cost solutions tailored to individual projects. Committed to ensuring reliable investment opportunities, Renewable Ventures carefully selects its projects based on a thorough evaluation of the customers, the developers, the equipment and other key success factors.

Alternative Energy: New Battery technologies, Fuel Cell advances

“Given the massive resources being applied to the task, one way or another portable fuel cells will soon be powering electronic devices.” — Catherine Lacoursière, Clean Technology Correspondent


POINT ROBERTS, Washington www.RenewableEnergyStocks.com (RES), an investor and industry news portal for the renewable energy sector, presents the most recent “Global Renewable Energy Insights” column written by Catherine Lacoursière, clean technology correspondent. This week’s column provides perspectives on advancements in fuel cells and advanced batteries as they work to satisfy the needs of the portable power market. According to Research & Markets, forecasted sales for micro fuel cells are anticipated to reach $510 million by 2008, reaching approximately $111 billion by 2013.

RenewableEnergyStocks.com - "Global Renewable Energy Insights" Examines the Portable Power Market for Fuel Cells and Advanced Batteries


Column Excerpt: Fuel Cells and Advanced Batteries Vie for Portable Power Market

By Catherine Lacoursiere


Fuel cells, advanced battery technologies and hybrid technologies all hope to supplant and/or complement the lithium ion battery. The major competition in portable fuel cells is between hydrogen and direct methanol fuel cell technology. Direct methanol fuel cells (DMFC) are an earlier stage technology with a number of technical issues still to be ironed out, including low power density and efficiency. DMFC’s require a more active and expensive catalyst to prevent corrosion, such as platinum.

Nonetheless, it is a proven technology in portable applications and a very active area of research. The DMFC can convert cheap liquid fuels directly to hydrogen, dispensing of the reforming unit, which also provides the potential for smaller footprints. The stock price of Polyfuel (LSE: PYF.L), a maker of membranes used in DMFCs, has been climbing steadily since its IPO last year.

To Read the Column in Full:

http://www.renewableenergystocks.com/CL/News/Portable_Power_Market.asp

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XsunX, Inc (OTCBB: XSNX) is the developer of Power Glass™ - an innovative thin film solar technology that allows glass windows to produce electricity from the power of the sun. This proprietary process is intended to allow manufacturers to apply a transparent and photovoltaic glazing to glass and other transparent substrates.
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Legend Investment Corp. (OTC.PK: LVCP) is dedicated to the acquisition and development of solar energy companies. LVCP owns 51% of GiraSolar BV, which provides them with access to the GiraSolar Group of companies within the solar arena. The GiraSolar group is an umbrella organization for subsidiaries, partners and affiliated entities active in the field of solar energy product development, production and application with $12,000,000 USD generated in revenue last fiscal year. For More Info: http://www.renewableenergystocks.com/CO/LVCP/Default.asp

SmartCool Systems, Inc. (OTC.PK: SSCFF; TSX VENTURE: SSC), a marketer of advanced energy saving technologies which reduce the electricity consumption (Kwh) and maximum demand (Kw/KVA) of refrigeration and air conditioning compressors. As a distributor of the Abbotly System 4000 Energy Savings Module (ESM)®; a system of micro-computer digital optimization modules which work with existing compressor equipment and controls, SmartCool enables businesses to reduce the electricity usage of refrigeration and air conditioning compressors by 10% to 20% while maintaining temperature performance. For More Info:

www.renewableenergystocks.com/CO/SSC/Default.asp

RenewableEnergyStocks.com provides a variety of renewable and clean energy content through: Global Renewable Energy Insights, by Catherine Lacoursiere, clean technology correspondent, as well as Renewable Energy Blogs, all available at: http://www.renewableenergystocks.com or become a ‘priority’ member of the InvestorIdeas.com investor and industry research resource portals and be at the top of our list to be the first to know what is happening in industry and sector trends. http://investorideas.com/membership/

RES also includes one of the most comprehensive free renewable energy stock lists in the investment industry:
http://www.renewableenergystocks.com/Companies/RenewableEnergy/Stock_List.asp

Sunday, March 05, 2006

Northern Ireland to invest in a renewable energy future

£100m fund for renewable energy


by Robin Morton, belfasttelegraph.co.uk


A £100m private equity fund is being set up in Northern Ireland to tap into the potential for renewable energy on both sides of the border, it was disclosed yesterday.

The move, which was announced by the NI Energy Authority (Ofreg), comes hot on the heels of Secretary of State Peter Hain's announcement of a £59m renewable energy fund which was unveiled on Monday.

Ofreg said it was vital that Northern Ireland benefited as much as possible from the opportunity created by Peter Hain's initiative.

As a first step, it said, the renewable equity fund (REF) is to receive an investment of £10m from NI Energy Holdings, the mutual company that owns the Moyle Interconnector.

Ofreg said it had approved NIEH's request to commit £10m to the fund, and said the money would be drawn down as and when good quality projects were developed.

It added: "It is envisaged that the fund will be sold once the portfolio of projects has been constructed and commissioned, and are fully operational.

"This should happen between five and 10 years after the establishment of the fund."

The £10m being put up by NIEH is part of the £30m rebate the company received as a result of a restructuring of the electricity trading system in Britain.

The issue was raised in a discussion paper put out by Ofreg inviting views as to what the best use would be for the £30m.

Ofreg listed a number of options, ranging from the acquisition of part of Northern Ireland Electricity's asset base to financing an energy efficiency programme.

Last month, NIEH announced that it was subscribing £12.4m of accumulated profits to help offset this year's NIE's tariff increase.

The company, which insists its primary aim is to bring long-term benefits to energy consumers, has resisted demands from NIE calls for the rest of the cash to be handed over.

A spokesman for NIEH said they would study Ofreg's report closely and make a response.

"We have a track record of managing energy assets at the lowest possible cost to the consumer," he added.

"We welcome this consultation paper, and the approval it contains for our £10m investment in the REF."

Robin Greer of NIE said: "We believe that full consideration should be given to ensuring customers get the best deal from Moyle's £30m windfall financial surplus.

"In our view options include providing immediate relief against rising international fuel costs, and ensuring customers are protected against the burden of expected future deficits incurred by the Moyle Interconnector."



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End of Solar and Clean Power links section

Canadian singer Yuya records for Africa, Ethiopia and all humanity

Toronto-based singer-songwriter Yuya Joseph is a conscious performer who sings songs about frredom, justice, deep green ecology and international peace.

This morning I heard homeslice Prince on the radio, Let’s Go Crazy, and just wanna say:

Everybody knows Prince for his singing, writing and performing skills, but I feel he is also one of the greatest guitarists of our generation!!! ALWAYS feelin’ it!!!




Getting back to that other Toronto singer-writer, Yuya (who is actually one day older than Prince …), having been compared to Elvis Costello and The Clash, what could make this relatively unknown Canadian recording act be lauded as such? Well, Yuya sings for Africa, for Ethiopia, for bees, trees, frogs and frivolity, if u believe that Itopian dreams are so.



Blue Pie is doing a great job for the acts on the label; if you like rock (and reggae!) music, please check Yuya’s tunes sometime:


Download Yuya songs at the UK music site StayAround.com

Yuya songs for sale via download at Music.MSN.com


Find Yuya tunes for sale from cd Give U Everything, at music.yahoo.com



and search for Yuya on iTunes!



To help out the New Orleans area, buy and download songs from the Hurricane Healing music for charity CD, to benefit the victims of the Katrina hurricane damage affecting Louisiana, Mississippi, Alabama and region. 50% of all revenue goes to Salvation Army efforts in New Orleans and Caribbean / Central American region:

HurricaneHealing.us


Songs from Blue Pie recording artists are available on the HurricaneHealing.us cd, available by download, which via Salvation Army benefits New Orleans, Louisiana, Mississippi, Alabama, Haiti, Guatemala, Honduras, Nicaragua and more.

More Blue Pie independent recording artists:


Supermodel Imogen Bailey



Imogen is a hardworking animal rights advocate / activist and also has a track on the HurricaneHealing.us music for charity Katrina relief cd!


EricBibb.com


Janice-Marie.com


BillyLofton.com


Trishaa.com



Blue Pie Productions singer Trishaa featured on her cd cover.




BarryCrocker.net


Sahra.com.au





Blue Pie recording artist Sahra!


SlimeyThings.com


GordonWaller.com



Plus, coming to Blue Pie in Spring 2006:


ErikSimins.com




Erik Simins, writer / performer of Parent's House and The Way I See It, Click Here for songs and photos of Canada's Erik Simins


Presenting St’ Kitt’s’ pride and Toronto’s own rockin' reggae artist Trevor Jones:



Trevor Jones !!!




Yuya is back 2 songwriting, preparing for his next cd, and is looking forward to writing and recording again with Michael St. Clair, and is also hoping to write or record with Teresa Morales, Erik Simins and other emerging world-class talents!





In January 2005 she recorded another track with UK-based David Hearn as producer. Teresa's US-recorded tracks caught a lot of interest from some of the major labels in the US and presently Teresa is working for new tracks suitable for the US market. To her assistance is top-producers in both US and Europe with recent top-hits produced for artists like Britney Spears, Jennifer Lopez, Celine Dion to mention a few. In June 2005 Teresa reached a new milestone by getting an ASIA PACIFIC EXCELLENCE AWARD!


Philippine beauty and singing sensation Teresa Morales




The beautiful and talented Teresa Morales!


Stay tuned to to the Blue Pie Artists Blog for more info on Yuya, Hurricane Healing, Blue Pie Productions, Erik Simins, Trevor Jones, Teresa Morales and much more!




Blue Pie / Hurricane Healing artist Yuya has songs featured on iTunes, msn.music.com, Rhapsody, AOL, Yahoo Music and on StayAround.com:

StayAround.com Yuya Music

Wednesday, March 01, 2006

New windpower projects up over 40% in 2005

Record year for wind energy: Global wind power market increased by 43% in 2005

from EWEA.org

Continued political efforts can give even stronger impetus for 2006.

The global wind energy sector experienced another record year in 2005. According to the figures released today by the Global Wind Energy Council (GWEC), the year saw the installation of 11,769 megawatts (MW), which represents a 43.4% increase in annual additions to the global market, up from 8,207 MW in the previous year. The total value of new generating equipment installed was over €12 billion, or US$14 billion.

The total installed wind power capacity now stands at 59,322 MW worldwide, an increase of 25% compared to 2004.

“The overall picture confirms that the right political framework is crucial to sustain the growth of wind power around the world and to open new markets. Some 48 governments have already introduced laws and regulations to support the development of renewable energies, but this effort needs to be increased if the benefits of wind energy are to be reaped around the world,” said Arthouros Zervos, Chairman of GWEC.

The countries with the highest total installed capacity are Germany (18,428 MW), Spain (10,027 MW), the USA (9,149 MW), India (4,430 MW) and Denmark (3,122). India has thereby overtaken Denmark as the fourth largest wind market in the world. A number of other countries, including Italy, the UK, the Netherlands, China, Japan and Portugal have reached the 1,000 MW mark of installed capacity.

In terms of new installed capacity in 2005, the US was clearly leading with 2,431 MW, followed by Germany (1,808 MW), Spain (1,764 MW), India (1,430 MW), Portugal (500 MW) and China (498 MW). This development shows that new players such as Portugal and China are gaining ground.

Europe is still leading the market with over 40,500 MW of installed capacity at the end of 2005, representing 69% of the global total. In 2005, the European wind capacity grew by 18%, providing nearly 3% of the EU’s electricity consumption in an average wind year.

“The European market has already reached the 2010 target set by the European Commission of 40,000 MW five years ahead of time,” said Christian Kjaer, the European Wind Energy Association’s (EWEA) Policy Director. Moreover, growth is now happening in a greater number of countries, including new markets such as Portugal and France. By 2010, wind energy alone will save enough greenhouse gas emissions to meet one third of the European Union's Kyoto obligation.”

Despite the continuing growth in Europe, the general trend shows that the sector is gradually becoming less reliant on a few key markets, and other regions are starting to catch up with Europe. The growth in the European market in 2005 only accounted for about half of the total new capacity, down from nearly three quarters in 2004.

Nearly a quarter of new capacity was installed in North America, where the total capacity increased by 37% in 2005, gaining momentum in both the US and Canada. The US wind energy industry broke earlier annual records of installed capacity with installing nearly 2,500 MW, which makes it the country with the most new wind power.

According to the American Wind Energy Association (AWEA), this is largely due to the current threeyear window of stability in the federal incentive for wind energy, the production tax credit (PCT). “Thanks to the Congress’s extending the wind energy production credit before it expired for the first time in the credit’s history, the wind industry is looking forward to several recordbreaking years in a row,” said AWEA’s Executive Director Randall Swisher. Previous years had seen a constant up and down of the market, depending on whether the PTC had been renewed in time to create investor confidence.

The Canadian wind capacity increased by a staggering 53%. “Canada’s wind energy industry is growing by leaps and bounds – and that’s great news for Canadians who research shows are strongly in favour of wind energy,” said Robert Hornung, President of the Canadian Wind Energy Association (CanWEA). “2005 will be remembered as the year Canada first started to seriously exploit its massive wind energy potential.”

Asia has also experienced strong growth of over 49% of installed capacity, bringing the continent up to a total of over 7,135 MW. In 2005, the continent accounted for 20% of new installations. The strongest market here remains India with over 1,430 MW of new installed capacity, which takes its total figure up to 4,430 MW.

The Chinese market has been boosted in anticipation of the country’s new Renewable Energy Law, which entered into force on 1 January 2006. As a result, nearly 500 MW of new capacity was installed in 2005, more than double the 2004 figure. This brings China up to 1,260 MW of capacity, thereby passing the 1,000 MW mark which is often deemed critical for sustained market growth.

“Thanks to the Renewable Energy law, the Chinese market has grown substantially in 2005. According to the list of approved projects and those under construction, 2,000 MW of wind capacity could be installed by the end of 2006. The goal for wind power in China by the end of 2010 is 5,000 MW,” said Li Junfeng of the Chinese Renewable Energy Industry Association (CREIA).

The Australian market nearly doubled in 2005 with 328 MW of new installed capacity, bringing the total up to 708 MW. “The 2007 implementation of a state based market mechanism and a commitment by state governments to establish an emissions trading scheme will provide financial incentives to continue this growth,” said Dominique Lafontaine, CEO of AusWind.

The relatively young African market saw a steady continuation of its growth, with an installation figure double that of 2004. The main countries experiencing growth are Egypt (230 MW, up from 145 MW) and Morocco (64 MW, up from 54 MW).

“Wind energy offers more that just power: it has the potential to support economic development, improve the security of energy supply, mitigate hydrocarbon price volatility, create jobs and contribute to substantial CO2 reductions. Without political support, however, wind energy remains at a competitive disadvantage due to distortions in the world’s electricity markets created by decades of massive financial, political and structural support to conventional technologies,” said Arthouros Zervos.

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