The U.S. solar energy industry had a banner year in 2010 with the industry's total market value growing 67 percent from $3.6 billion in 2009 to $6.0 billion in 2010, according to the U.S. Solar Market InsightTM: Year-in-Review 2010 released today by the Solar Energy Industries Association® (SEIA®) and GTM Research. Solar was a bright spot in the U.S. economy last year as the fastest growing energy sector, contrasting overall U.S. GDP growth of less than 3 percent. In total, 878 megawatts (MW) of photovoltaic (PV) capacity and 78 MW of concentrating solar power (CSP) were installed in the U.S. in 2010, enough to power roughly 200,000 homes. In addition, more than 65,000 homes and businesses added solar water heating (SWH) or solar pool heating (SPH) systems. The U.S. PV market made the most significant strides in 2010, more than doubling installation totals from 2009 according to the latest U.S. Solar Market InsightTM report. This expansion was driven by the Federal section 1603 Treasury program, completion of significant utility-scale projects, expansion of new state markets and declining technology costs. The section 1603 Treasury program helped fourth-quarter installations surge to a record 359 MW and was critical in allowing the solar industry to employ more than 93,000 Americans in 2010. Originally set to expire at the end of 2010, the 1603 Treasury program was ultimately extended through 2011. In addition, market diversification was a distinguishing characteristic of U.S. solar energy development in 2010. Sixteen states each installed more than 10 MW of PV in 2010, up from only four in 2007. The top 10 states for PV installation in 2010 were: California, New Jersey, Nevada, Arizona, Colorado, Pennsylvania, New Mexico, Florida, North Carolina and Texas.
Japan's massive earthquake, tsunami, and now nuclear disaster, is starting to shine a spotlight on just how important the country is in terms of clean energy technology, from solar to electric cars. In these early days, two initial assessments have emerged. The supply of materials and parts for solar and EVs could face serious interruptions in the short term. At the same time, the focus on Japan's partially melting nuclear reactors could also bolster solar and other renewable energy development as policymakers and investors reconsider their support of nuclear power. Japan is both a large producer and user of solar energy equipment. The country accounted for more than a fifth of the world's chip production in 2010, according to IHS iSuppli, and many of the same Japanese firms that make chips and electronic gadgets also make solar energy equipment. While factories for making the final products may not suffer serious long-term damage, they might find it difficult to get raw materials and parts in the near term, the market research firm said.
Americans' concerns over nuclear power have spiked in the wake of Japan's ongoing nuclear crisis, but how the events will affect the long-term discussion over sources of energy is still unclear. In a USA Today/Gallup poll conducted with 1,004 adults last week, about 70 percent of American's said that they are now more concerned with a nuclear disaster occurring in the U.S. In that same poll, 47 percent of respondents said they oppose construction of nuclear power plants in the U.S, compared to 44 percent who favor it. A survey done before the Japanese earthquake and tsunami found that 57 percent either strongly or somewhat supported "the use of nuclear energy as one of the ways to provide electricity for the U.S.," with 38 percent strongly or somewhat opposed. Support for nuclear energy peaked last year, with 62 percent voicing support. Overall, support has been over 50 percent for most of the last decade and is higher now than it was a decade ago. In its analysis, Gallup said that short-term worries over nuclear disasters may not affect Americans' support for nuclear energy over the long term. Still, a look at the media coverage and discussion during the crisis shows that the incidents have served as an unhappy reminder of the risks of nuclear energy, which will likely cause regulatory reviews of nuclear safety at a number of U.S. plants. The nuclear crisis also appears to have rekindled people's awareness of radiation and the sources of the country's energy, all of which have trade-offs.
There’s a lot of reasons why most homes in America do not have their own wind turbines — high costs, permitting issues, and just plain aesthetics. But there’s a wave of entrepreneurs trying to change that, including James Post, who has developed the SmartWind RidgeBlaster and submitted the concept to GE’s Ecomagination challenge. Watch the video (complete with music that would make the Techno Viking proud) below for a comprehensive description of the idea. It’s a wind turbine that stretches horizontally across the ridge of a gable roof, and has a diameter of 22 inches. The wind is meant to sweep up the roof through the turbines and the design is supposed to be able to utilize wind at any angle. According to GE’s materials on the concept, the customer would pay around $4,000 for a 1.8 kW, plus the cost of a 3 kW grid-tied inverter.
The world will see a significant increase in the use of geothermal as an energy source between now and 2020. That's according to a report released this week by Pike Research. The research analyst constructed several scenarios based on an estimated 10.7 gigawatts of geothermal capacity in existence throughout the world in 2010. That 10.7 gigawatts equates to about 67 terawatt-hours (TWh) of electricity, with the U.S., which currently possesses 3.1 gigawatts of installed geothermal systems, as the world's leading user. In fact, 88 percent of the world's geothermal energy systems currently in operation are used in only eight countries, according to the report. Peter Asmus, the senior analyst on the report, emphasized that geothermal is currently one of the world's least-tapped opportunities for alternative energy. In the report's high-growth forecast, geothermal capacity increases 134 percent to 25.1 gigawatts. In the report's most conservative forecast, Pike estimated that world geothermal capacity will grow to 14.3 gigawatts by 2020.
Back in 2004, Danish wind turbine technologist, Vestas, launched its first Skyrocket sailing vessel, in an attempt to break the Outright World Speed Sailing Record. As part of this mission, the Sailrocket team has just launched its second-generation speed sailing boat from East Cowes on the Isle of Wight. According to the company, SailRocket 2 is designed to be "significantly faster than its predecessor". Over the last 15 months, Vest'as Sailrocket team has been focused on building a better, safer and - above all - faster boat at Vestas Technology R&D's facilities on the Isle of Wight. The culmination of this work was yesterday's launch of Sailrocket 2. "Since we started pursuing the Outright World Speed Sailing Record 9 years ago, the record has been raised by exactly 9 knots. The current record holders, the kite surfers, have taken it out of the reach of all the previous contenders and it is going to take a very special boat to get it back. Vestas Sailrocket 2 is a boat that aims high. The only satisfactory outcome for us is the outright record," Paul Larsen, pilot and project leader from the Sailrocket 2 team says. With the record raised to the current level, the ambitious team behind Sailrocket is even more eager to develop a boat to break the Outright World Speed Sailing Record (average speed of a craft between two points set 500 metres apart). In order to do that, conventional design has been left behind and everything is pushed to the limit.
The game is on. We will know in 2015 if the industry is likely to narrow down to one clear winning design, or whether there remain many routes to the same destination.
We reached out to companies from across the industry for a peak at some of the new products that will be showcased this year. Below is a compilation of some great new products that should be an interest to you.
Generally Dual-axis trackers are more accurate in pointing directly at the sun which is usually the brightest spot in the sky, however, Dual axis comes at the price of higher complexity and lower reliability ( more down time and more maintenance) than single axis.
The "Smart Energy System" is a SANYO energy management system that includes clean, renewable energy generation, energy storage using lithium-ion batteries, smart & energy efficient appliances, cooling systems, and an energy management system that uses the energy generated and stored efficiently.
Recent Energy Report by Denver Metro Economic Development Corporation Highlights Significant Achievements for Colorado
The role of fossil fuels and renewables will begin to meld into an acceptable state of necessary coexistence and development simply because the economics and math dictate such an outcome. But the inability to excise coal from the equation will drive the innovation cycle to make it better.
Batteries made of lithium metal are preferred over lithium ion technology, but because lithium metal reacts with water. But it hasn't really made any sense to try to use it until now. One California-based company called PolyPlus created a lithium-water battery that is making quite a splash. The underlying technology is a bit counter-intuitive, considering lithium reacts violently with water. To get around this though, PolyPlus found a way to protect the lithium metal with a membrane, so the ions could slip through and maintain a charge. ARPA-E director Arun Mjumdar describes the new water battery technology as.. a fish in a glass tank. For demonstration purposes at the ARPA-E conference, PolyPlus put the membrane-covered lithium pack into a glass of water and showed that it could produce enough energy to make an LED light glow. The technology works like this: The battery reacts with the oxygen that is dissolved in water. And you know what? The water battery can produce 1,300 watt-hours per kilogram of electricity, according to Scientific American.
Better Place, which offers battery service for electric vehicles, opened today its first European retail station in Copenhagen, Denmark. Better Place stations offer battery swaps for electric vehicles as an alternative to waiting to recharge the batteries. Commercial stations are already running in Israel and Japan. Until now, though, Better Place had only been testing pilot stations in the U.S. and Europe. Most of the stations offer fast-charging plug-in spots for EVs, as well as battery swaps for subscribing members. The battery swap is a convenience for drivers because it takes only a minute to make the switch, according to Better Place. The swapped batteries are then recharged and used in other cars. It takes 15 to 30 minutes to recharge an EV battery pack to 80 percent capacity from a rapid-charging station depending on the vehicle.
Ocean Power Technologies, Inc. a leading wave energy technology company,announced the completion of the first of its new generation utility-scale PowerBuoy® device, the PB150. The PB150 PowerBuoy is the largest and most powerful wave power device designed by OPT to date, and builds on the Company's 15 years' innovation and in-ocean development experience of producing such systems. With a peak-rated power output of 150 kilowatts - equivalent to the energy consumption of approximately 150 homes - the PB150 is designed for use in arrays for grid-connected power generation projects worldwide. The development of the device, built and assembled at Invergordon, Scotland, has utilized the skills of local firms and represents a multi-million pound sterling investment in the region. It is currently being prepared for ocean trials at a site approximately 33 nautical miles from Invergordon, off Scotland's northeast coast. The sea trials are expected to commence as soon as weather conditions permit. The Company is seeking additional financing for the commercial utilization of the buoy after the trial phase is completed including its possible deployment at various potential sites. A second PB150 is already under construction in the US for a proposed utility-scale project in Oregon, and the Company is involved in other planned projects in Australia, Japan and Europe that may utilize the PB150.
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Our batteries have Xtreme thick plates with (XC Diamond Plate Technology) added to them. They have been designed for hours of heavy discharge each day, followed by a fast recharge during the daylight hours. Very few batteries can take the grueling deep discharge-recharge cycle every day for long periods of time. U.S. Battery has proven time and time again that our solar battery line can stand up to this type of battery torture day in and day out for years to come. When you demand reliable energy storage count on U.S. Battery every time!