Butte College goes all solar


Butte Aerial 09 300x199 Butte College goes all solarCYPRESS, Calif. Using solar energy, Butte College in Oroville, Calif., plans to be one of the first colleges in the U.S. to produce more energy than it consumes. While the college has been using solar energy for three years, the board of trustees approved its Phase III solar project which is expected to be completed by May 2011. Butte College will install more than 14,000 Mitsubishi Electric solar modules capable of producing 3,481,920 kWh of clean energy per year. This 2.7 MW DC installation is an addition to the 10,000 solar panels the college already has, making the total system size 4.55 MW DC.

“We congratulate Butte College for setting an example for its students, its community and other colleges in the nation by choosing solar energy as its energy source”DI 150x150 Butte College goes all solar

“Once this solar project is completed, Butte College will provide enough clean renewable energy to cover all of our electricity needs and generate slightly more than we use—which will be a source of additional revenue for the college,” said Diana Van Der Ploeg, president of Butte College.

The solar panels will be installed by a joint venture between Chico Electric and DPR Energy which designs and installs commercial and residential solar systems in California.“We have worked with Butte College for years and are proud to facilitate this cutting-edge project for such a forward-thinking institution,” says Norm Nielsen, president of Chico Electric. The modules will be installed on the ground and on rooftops that will create covered parking areas and walkways. Mitsubishi Electric modules were used for a previous installation at the college and were chosen again due to their high-reliability and use of 100% lead-free solder. “We congratulate Butte College for setting an example for its students, its community and other colleges in the nation by choosing solar energy as its energy source,” says Gina Heng, general manager of Mitsubishi Electric & Electronics USA’s Photovoltaic Division.

The total funding for the project is $17 million with $12.65 million of this amount funded by federal Clean Renewable Energy Bonds (CREBs). The remainder, up to $4.35 million, will be funded by the college from its annual budget allocated to purchasing electricity from the grid. The college will receive almost $1 million in rebates from Pacific Gas & Electric, the California Solar Initiative and benefits from the American Recovery and Reinvestment Act/CREBs allocations. The CREBs for the project were arranged and funded by Bank of America as part of its 10-year, $20 billion business initiative to address climate change.

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Solar Bill 300x114 Butte College goes all solarLearn about: Solar Bill of Rights

10 Great Green Opportunities

By Brita Belli, Kathryn Gutlebar, Julia Hirsch, Jesica Knoblauch, Shawn Query

1193168837CS GJ Planner 150x150 Butte College goes all solarEverything’s coming up green. Across every industry, new job possibilities are emerging for those with the skills to bridge the divide between the old, fossil-fuel-based economy and the new, energy-efficient one. Corporations once demonized for their role in creating pollution and exploiting workers are being held accountable; they are partnering with nonprofits and hiring corporate social responsibility managers. They are finding that reducing their impact is as good for future profits as for the planet at large. There’s no secret to getting a job in the new green economy. It’s as basic as applying the job skills you’ve already developed (web design, sales, management) to a nonprofit or sustainable industry, or coordinating sustainable practices from within a corporate entity. Sometimes, as in green building or solar panel installing, these green jobs require a specific set of skills—and classes are organizing to fill the growing need. Other times, as in the organic food industry, ecotourism or sales and marketing of energy-efficient technology, anyone with a good work ethic can get in and create a great green career. Read on here

SunPower grows solar careers


070928 ST01green wide.hlarge 300x192 SunPower grows solar careers

SunPower Corp. today announced that SunPower world-leading solar technology has been selected for installation at several U.S. government properties, including for the Department of Energy’s National Renewable Energy Lab (NREL), the General Services Administration (GSA), the Navy and the Air Force. SunPower expects to create more than 1000 local jobs during the construction of these projects. These contracts represent a minimum of 20 megawatts (MW) of new solar projects for SunPower.

“SunPower has worked with federal agencies since 1999, resulting in the installation of more than 20 MW of solar power systems at government facilities,” said Karen Butterfield, SunPower’s director of federal accounts. “As a result, SunPower has the experience and credibility to successfully navigate the federal procurement process and deliver reliable, high performance solar systems that meet agency requirements. With the addition of a U.S.-based panel manufacturing facility this year, we have also bolstered our ability to serve this growing demand.”

Recent government contracts won by SunPower include the following:

  • SunPower was selected by NREL to design and construct a 2-megawatt solar power system at the Department of Energy’s new Research Support Facility on the NREL campus in Golden, Colo. The project will be installed at three sites, including a new ultra-low energy office complex, an outdoor parking area, and a parking garage. Colorado-based SunPower Premier Dealer Namaste Solar is partnering with SunPower to install the systems. This project is being financed through the American Recovery and Reinvestment Act (ARRA) of 2009, and is expected to be complete by the end of 2011.
  • The General Services Administration (GSA) and general contractor Shiel Sexton selected SunPower solar technology for the 1.8-MW solar system that is under construction at the General Emmett Bean Federal Building in Indianapolis, Ind. The project uses the SunPower T5 Solar Roof Tile system, which integrates a high-efficiency solar panel, frame and roof-mounting system into a single pre-engineered unit. The T5 Solar Roof Tiles position the solar panels at a 5-degree tilt, for greatest energy production. Scheduled for completion in January 2011, the system will be the largest rooftop solar power system on a GSA facility. This project is being financed through ARRA.
  • SunPower was one of five solar providers awarded an indefinite delivery-indefinite quantity contract by Naval Facilities Command to deliver solar power systems to Navy and Marine Corps installations throughout the southwestern United States. Under the contract, SunPower will design, build, operate and maintain the systems, and sell the power to the Navy and Marine Corps under power purchase agreements. Projects may range in size from one to 15 MW. The Navy will have up to five years to award up to 40 MW of solar projects under this $200 million contract.
  • Earlier this month, SunPower announced an agreement with Arizona Public Service (APS) to design and construct a 15-MWac solar photovoltaic power system at Luke Air Force Base in Glendale, Arizona. The system will use SunPower solar panels with the SunPower Tracker(R) system, which follows the sun’s movement during the day, increasing sunlight capture by up to 25 percent over conventional fixed-tilt systems, while significantly reducing land use requirements. Scheduled for completion in the summer of 2011, it is expected to be the largest solar power installation at a U.S. government facility and generate the equivalent of 50 percent of the annual energy requirements for Luke Air Force

GreenRay Solar shines through


nature 300x2283 GreenRay Solar shines through

Westford, MA – Today Green Ray Solar announced the first ever certification for an AC module solar module the SunSine 200 AC, the worlds’ first solar appliance. This is quite a development because AC is safer then DC, micro inverters are build into the solar panels and installation costs will be lower.  The SunSine™200 has been certified by Intertek. Intertek performed the comprehensive safety and grid connectivity testing according to the UL 1741 standard; following the testing, the product received the ETL mark for the U.S.

“Having this important certification allows GreenRay to shift its focus and nowIMG1263 sml 150x150 GreenRay Solar shines through aggressively build our sales and partner channels and begin production of the SunSine™200 AC Module”, said Miles C. Russell, founder and CEO of GreenRay, Inc. “We expect to have product available for delivery starting in October. This has been a long development path, and we owe thanks to many partners who helped us get this far, including the Department of Energy, the MA Clean Energy Center, and our investors, 21Ventures and The Quercus Trust. ”

The SunSine™200 AC Module is the world’s first solar appliance. It is a fully-integrated plug- and-play PV system, and provides the market with a modular, scalable AC system solution for home and commercial solar installations.
In another industry first, the SunSine™200 AC Module comes with a 20-year warranty, including the integrated micro-inverter. GreenRay’s proprietary inverter is designed to match the useful life expectancy of PV modules by eliminating the weak components found in other inverters, such as electrolytic capacitors and opto-couplers.

You can hear an interview that QuestPoint N The Mix had with founder Miles Russell earlier this year where he talks about why the SunSine is such a breakthrough and the solar industry in general. Listen here

You’ve got the power

Egypt plans multi mega watt solar power plant


old seven wonders of the world pyramid of giza 300x222 Egypt plans multi mega watt solar power plant

The Egyptian Electricity Ministry has unveiled plans to build a new $700m 100MW solar power plant between 2012 and 2017 that should further establish the country as one of the leading developers of utility-scale solar plants.

According to reports in the local Al-Ahram newspaper, the solar power project at Kom Ombo, near the Aswan High Dam hydro-electric plant, will be financed by a number of international institutions, including the African Development Fund and the World Bank. Additional finance is also expected to be provided through the UN’s Clean Development Mechanism (CDM) carbon offsetting scheme.

The project is part of a five-year plan running from 2012-2017 designed to establish the Egypt as one of the top generators of solar energy in North Africa, electricity ministry undersecretary Aktham Abou el-Ella told news agency Reuters.

The project will be the nation’s second large scale solar power project following the country’s first solar plant at El-Koraymat, south of Cairo, which is expected to be finished later this year and will produce 20MW of solar power alongside 120MW of conventional natural gas power.

The vast majority of Egypt’s power is currently provided by natural gas-fired power stations, with a small percentage coming from large scale hydroelectric plants on the Nile delta.

However, the country’s government has pledged to generate 20 per cent of its power from renewable sources by 2020, which it hopes to achieve largely through wind and solar expansion. It is also eyeing the potential to export solar energy to southern Europe as part of the high profile Desertec initiative.

Northern Africa has been touted as a potential hub for solar energy generation given its low levels of rain and year-round sun, but uptake of the technology has been slow, largely because of high capital costs.

Egypt will need to dramatically accelerate the rate at which it deploys solar technologies if it is to meet its ambitious renewable energy targets. Electricity
generation is currently growing at a rates of seven to eight per cent a year, due to a growing economy and increasing use of air conditioning units, and a government-sponsored report last year estimated the country will need to have at least 1GW of solar capacity alongside 7.2GW of wind capacity to meet its 2020 renewables target while satisfying the growing demand for power.

The government also has a long way to go to meet its wind energy target. There has been large scale wind farm development along Egypt’s eastern Red Sea coast, but even with huge new wind farms at Zafarana and Hurghada having recently come online the country’s total installed capacity currently stands at just 430 MW.

However, plenty of new projects are in the pipeline and last month the World Bank awarded Egypt a $220m loan to support the Wind Power Development Project, which aims to develop the infrastructure and business models needed to scale up wind power in the country.

The initiative will include the funding of new transmission lines to connect Egypt’s largest wind farm, the 250MW Gabal el-Zait project, to the national grid.

“Some of the world’s best wind power resources are in Egypt, especially in the areas of the Gulf of Suez, where at least 7.2GW could be potentially developed by 2022, with further 3GW on the west and east banks of the Nile,” the World Bank said in a statement at the time. guardian.co.uk © Guardian News and Media Limited 2010

Bringing solar power home


eagle kp09 big 292x300 Bringing solar power homeThe era of personalized energy systems — in which individual homes and small businesses produce their own energy for heating, cooling and powering cars — took another step toward reality today as scientists reported discovery of a powerful new catalyst that is a key element in such a system. They described the advance, which could help free homes and businesses from dependence on the electric company and the corner gasoline station, at the 240th National Meeting of the American Chemical Society, being held here this week.

“Our goal is to make each home its own power station,” said study leader Daniel Nocera, Ph.D. “We’re working toward development of ‘personalized’ energy units that can be manufactured, distributed and installed inexpensively. There certainly are major obstacles to be overcome — existing fuel cells and solar cells must be improved, for instance. Nevertheless, one can envision villages in India and Africa not long from now purchasing an affordable basic system.”

Such a system would consist of rooftop solar energy panels to produce electricity for heating, cooking, lighting, and to charge the batteries on the homeowners’ electric cars. Surplus electricity would go to an “electrolyzer,” a device that breaks down ordinary water into its two components, hydrogen and oxygen. Both would be stored in tanks. In the dark of night, when the solar panels cease production, the system would shift gears, feeding the stored hydrogen and oxygen into a fuel cell that produces electricity (and clean drinking water as a byproduct). Such a system would produce clean electricity 24 hours a day, seven days a week — even when the sun isn’t shining.

Nocera’s report focused on the electrolyzer, which needs catalysts — materials that jumpstart chemical reactions like the ones that break water up into hydrogen and oxygen. He is with the Massachusetts Institute of Technology in Cambridge, Mass. Good catalysts already are available for the part of the electrolyzer that produces hydrogen. Lacking, however, have been inexpensive, long-lasting catalysts for the production of oxygen. The new catalyst fills that gap and boosts oxygen production by 200-fold. It eliminates the need for expensive platinum catalysts and potentially toxic chemicals used in making them.

The new catalyst has been licensed to Sun Catalytix, which envisions developing safe, super-efficient versions of the electrolyzer, suitable for homes and small businesses, within two years.

The National Science Foundation and the Chesonis Family Foundation provided funding for this study. Nocera did the research with post-doctoral researcher Mircea Dinca and doctoral candidate Yogesh Surendranath. The U.S. Department of Energy’s Advanced Research Projects Agency has recently awarded the team with a grant, which it plans to use to search for related compounds that can further increase the efficiency of its electrolyzer technology. The team hopes that nickel-borate belongs to a family of compounds that can be optimized for super-efficient, long-term energy storage technologies.– by The American Chemical Society. A non-profit organization chartered by the U.S. Congress. With more than 161,000 members, ACS is the world’s largest scientific society.

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Nobel winner says solar and wind will lead


Walter Kohn Nobel winner says solar and wind will leadLOS ANGELES, Aug. 24 (Xinhua) – Solar and wind will become Earth’s dominant contributor of energy due to continuous research and development of alternative energy, a Nobel-prize winning scientist said on Tuesday.
Total oil and natural gas production, which today provides about 60 percent of global energy consumption, is expected to peak about 10 to 30 years from now, followed by a rapid decline, said Walter Kohn, Ph.D., who is with the University of California, Santa Barbara.
“These trends have created two unprecedented global challenges,” said Kohn who shared the 1998 Nobel Prize in Chemistry. “One is the threatened global shortage of acceptable energy. The other is the unacceptable, imminent danger of global warming and its consequences.”
Kohn noted that these challenges require a variety of responses. “The most obvious is continuing scientific and technical progress providing abundant and affordable alternative energies, safe, clean and carbon-free,” he said at a special symposium at the American Chemical Society’s 240th National Meeting in Boston.
Because the challenges are global in nature, the scientific and technical work should enjoy a maximum of international cooperation, which fortunately is beginning to evolve, he said.
The global photovoltaic energy production increased by a factor of about 90 and wind energy by a factor of about 10 over the last decade.

Kohn expects vigorous growth of these two effectively inexhaustible energies to continue during the next decade and beyond, thereby leading to a new era, the SOL/WIND era, in human history, in which solar and wind energy will become the earth’s dominant energy sources.
Another important issue, incumbent primarily on developed countries, whose population has pretty much leveled off, is reduction in per capita energy consumption, Kohn said.
“A striking example is the U.S. per capita consumption of gasoline, approximately five times higher than the global average,” he said. “The less developed world, understandably, aims to bring their standard of living to a level similar to that of the highly developed countries; in return they should stabilize their growing populations.”
Kohn noted that he is impressed by students on his campus who spent their own collective funds to fully solarize an athletic building. “When it comes to providing leadership by young people in the area of energy conservation and energy efficiency and global warming – they are fantastic,” he said. “It is a major social commitment for our times.” Source English.news.cn

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