Wednesday, August 27, 2008

Hydrogen Extraction From Unrefined Crude Oil Is Near To Reality.

ARGONNE, Ill. (Aug. 22, 2008), A commercial-scale process to extract and reuse pure hydrogen from the hydrogen sulfide that naturally contaminates unrefined oil, including oil sands, is one step closer to reality thanks to a collaboration between the U.S. Department of Energy's Argonne National Laboratory and Kingston Process Metallurgy Inc. (KPM) of Kingston, Ontario.

Argonne and KPM researchers have invented a molten copper reactor, an innovative process technology that is more energy-efficient than existing methods, according to Gregory Krumdick, an engineer in Argonne's Energy Systems Division. Moreover, the pure hydrogen gas stream that it extracts can be used to upgrade and clean crude oil and petroleum products and aid in a number of refining processes, KPM President Boyd Davis said. Krumdick, Davis, Alain Roy, KPM's vice president of operations, and former Argonne researcher John Hryn invented the technology.

In the reactor, hydrogen sulfide gas is first separated from the crude oil stock, using technology already in place. This gas is then bubbled though molten copper, which releases pure hydrogen. The hydrogen is then captured for use as a valued product. As the sulfur reacts with the copper, the copper is gradually turned into copper sulfide.

Argonne is collaborating with KPM, a bench-scale process development firm, under a work-for-others agreement. KPM is supported in part by Natural Resources Canada (NRCan), which has provided $600,000 (Canadian) for the research over the last three years.

In addition to generating pure hydrogen, the process creates another valuable product, concentrated sulfuric acid, which is used widely in the chemical industry and which has become a valued agricultural commodity. The concentrated sulfuric acid is created when copper sulfide is reacted with air to recover the pure copper, releasing a concentrated stream of sulfur dioxide which is then reacted with water. The copper is then reused in the process with negligible losses, Krumdick said.

The reactions between the hydrogen sulfide and copper and the copper sulfide and air release energy that helps to heat the system, enabling the researchers to harvest the products efficiently, Krumdick said. The system operates at a temperature of about 1,200 degrees Celsius.

"Technologies that are in use today, including the widely used Claus process, are more energy- and capital-intensive," Krumdick said. "In addition, they also lose the hydrogen in the process. Instead of capturing the hydrogen from the hydrogen sulfide, the Claus process ends up converting it into water."

The multi-step Claus process was invented more than 100 years ago and is the most widely used method for removing the hydrogen sulfide that is present in crude oil and raw natural gas. The Claus process is also believed to be more limited than the Argonne-KPM process in terms of the other types of impurities it can handle. Costly energy-intensive modules that scrub other contaminants, such as ammonia, methane and carbon dioxide from raw oil and natural gas must be separately attached to Claus processing facilities.

Argonne computer modeling strongly indicated that the Argonne-KPM process would deal with those other impurities, a conclusion that was later experimentally proven. Contaminants such as ammonia and various hydrocarbons are reformed to their elemental constituents, providing an added benefit to the process, Krumdick said.

Argonne and KPM continue to scale up their experimental work to further test the process. "Our goal is to develop a pilot scale reactor," Krumdick said. "If a pilot plant demonstrates that the process is a major improvement over existing technology and we believe it is it will spur the interest of industries that use a process to separate hydrogen sulfide," Davis added.

"Companies will be able to retrofit their facilities with the process technology or construct new plants that incorporate it," Davis added. "In the meantime, we are working with Argonne to use the technology for other energy applications, such as gas cleanup for Integrated Gassification Combined Cycle plants."

Argonne and KPM began working on the technology in 2003 as a laboratory-directed research and development proof-of-concept project.

Kingston Process Metallurgy is an industrial process research and development company. It focuses on providing quantitative data to support the development of novel processes and explores business opportunities in collaboration with customers and partners. It has clients from around the world who use KPM's expertise in process development and laboratory experimentation.

Natural Resources Canada (NRCan) works to ensure the responsible development of Canada's natural resources, including energy, forests, minerals and metals. It has expertise in earth sciences that it uses to build and maintain an up-to-date knowledge base of Canada's landmass and resources. NRCan develops policies and programs that enhance the contribution of the natural resources sector to the economy and improve the quality of life of residents, and represents Canada at the international level to meet the country's global commitments related to natural resources.

Argonne National Laboratory brings the world's brightest scientists and engineers together to find exciting and creative new solutions to pressing national problems in science and technology. The nation's first national laboratory, Argonne conducts leading-edge basic and applied scientific research in virtually every scientific discipline. Argonne researchers work closely with researchers from hundreds of companies, universities, and federal, state and municipal agencies to help them solve their specific problems, advance America 's scientific leadership and prepare the nation for a better future. With employees from more than 60 nations, Argonne is managed by UChicago Argonne, LLC for the U.S. Department of Energy's Office of Science.

For more information, please contact Angela Hardin (630/252-5501 or ahardin@anl.gov) at Argonne.

Tuesday, August 26, 2008

Solar Powered Communications With Ericsson

August 21, 2008, 14:29 (CET) For the first time, Ericsson (NASDAQ:ERIC) has combined a GSM base station and satellite transmission in a solar-powered site, enabling Cambodian mobile operator Star-Cell to expand its network coverage in remote areas. The solution offers affordable communications for all and is based on Ericsson's energy-optimized main-remote base-station.
The satellite transmission feature provides affordable mobile-network coverage in remote areas where other transmission solutions are unavailable. This is vital for bridging the digital divide, as about 80 percent of the Cambodian population lives outside the main urban centers. The GSM main-remote solution has a lower environmental impact than standard base stations, consuming up to 50 percent less energy, and helps lower total cost of ownership by reducing operating costs. Star-Cell has selected Ericsson's solution to expand network coverage and introduce EDGE-based applications to enable mobile health and educational services for rural communities. Denis Ryabtsev, Chief Marketing Officer at Star-Cell, says: "Ericsson's solar-powered site with satellite transmission will make a significant difference. It enables us to expand cost-effectively into rural areas, connect people for the first time, and offer affordable services that improve quality of life." Hans Karlsson, President of Ericsson Thailand and Indochina, says: "This marks an important milestone and we are proud to implement the first solar-powered solution in Cambodia. This move highlights our technical leadership, our commitment to sustainable development, and our vision of providing communication for all." This deployment follows a series of initiatives from Ericsson to optimize the energy efficiency of mobile networks by creating solutions that reduce environmental impacts and lower operator costs. These initiatives include: BTS Power Savings features that put a network in stand-by mode during off-peak hours and saves up to 15 percent of the network access energy consumption; the innovative site concept Ericsson Tower Tube; biofuel-powered telecom sites; a hybrid solution using diesel and batteries that cuts network operating costs by up to 50 percent; and the Solar Village Charger, co-developed with Sony Ericsson. Ericsson delivered its first solar-powered sites in 2000 to Maroc Telecom in Morocco, and has so far provided more than 200 sites in Africa, Southeast Asia and the Americas.

Monday, August 25, 2008

WINDPOWER 2009 Conference & Exhibition Is Coming To Windy City Chicago!

The Metropolitan Pier and Exposition Authority (MPEA) and the Chicago Convention and Tourism Bureau (CCTB) are pleased to join the American Wind Energy Association (AWEA) in announcing today that the WINDPOWER 2009 Conference & Exhibition, the world’s largest annual wind energy event, will be held in Chicago next year, at the McCormick Place Convention Center from May 4 – 7, 2009.

The WINDPOWER Conference & Exhibition has become one of the most successful and fastest-growing industry shows in the United States. Sold exhibition space for WINDPOWER 2009 already exceeds that of WINDPOWER 2008, which was 85% larger than the previous year. WINDPOWER was recently listed in Tradeshow Week magazine’s latest installment of its prestigious 50 Fastest-Growing Shows in North America.

“We are excited to be coming back to Chicago,” said AWEA Executive Director Randall Swisher. (AWEA held WINDPOWER 2004 in Chicago.) “The ‘windy city’ offers an ideal mix of hospitality and exhibition facilities in a vibrant downtown setting. We’re excited to hold this event in a state that ranked in the top 5 for new wind project construction in 2007, and where new manufacturing jobs are being created thanks to this technology’s rapid expansion.”

WINDPOWER continues to grow at a fast pace as wind energy becomes a more important part of America’s energy picture. “Following WINDPOWER 2007 and WINDPOWER 2008, we experienced an unprecedented explosion in demand for exhibition space and hotel rooms,” Swisher said. “We are grateful to officials in Chicago’s hospitality sector, as well as the office of Mayor Richard M. Daley and Governor Rod R. Blagojevich, for their efforts to accommodate the show.”

"Illinois is firmly on the path to a sustainable energy future and is proud to host the world's largest annual wind energy event next year," said Governor Rod R. Blagojevich. "By relying more on renewable energy sources like wind, we can generate the electricity we need without polluting our air or contributing to global warming, while at the same time protecting public health, saving energy and reducing our energy costs."

“The MPEA is grateful to the Governor’s Office for its assistance in bringing WINDPOWER 2009 to McCormick Place,” said Juan A. Ochoa, Chief Executive Officer of the MPEA, owner and operator of McCormick Place. “We will work to help WINDPOWER continue to grow their exhibits and attendance.”

"Thanks to Mayor Daley's vision and leadership, Chicago is a catalyst for the green meetings industry," said Tim Roby, CCTB President and CEO. "The CCTB looks forward to working with AWEA to ensure a successful conference while in Chicago."

By 2025, Illinois is expected to see $8 billion in investment in new wind projects that will generate 4,000 megawatts (MW) of power to meet the state’s growing electricity demand and its renewable electricity standard. (The state has enacted a renewable electricity standard requiring that 25% of all power for residential and small commercial customers be provided from renewable energy resources.)

Pending legislation in Illinois would extend the renewable electricity standard to larger customers, a step that would require a doubling of that investment and power generated. In addition to environmental benefits statewide, this investment would bring significant economic benefits to manufacturing towns, windy rural communities, and Chicago financial community.

New wind projects added in 2007 account for about 35% of the entire new power-producing capacity added for the year. Similar growth is taking place this year, making the U.S. the world’s largest wind power market in terms of new installations and wind energy production.

AWEA is the national trade association of America’s wind industry, with a membership that includes global leaders in wind power development, wind turbine manufacturing, and energy, as well as a broad range of component and service suppliers. More information on wind energy is available at the
AWEA Web site: www.awea.org.

General Motors To Install Largest Rooftop Solar Power Plant in Eastern USA.

General Motors to Add 1.2 Megawatt Rooftop Solar Installation at Baltimore Powertrain Plant

  • Installation will be one of the largest on the East Coast
  • First GM global manufacturing plant to be landfill-free and have solar installation

Baltimore, Maryland – General Motors announced today it will add a 1.2 megawatt solar power installation to the roof of its transmission assembly plant in White Marsh, Maryland.

The system will be deployed under an agreement with SunEdison, North America’s largest solar energy services provider. Under the agreement, SunEdison will finance, install, operate and maintain the system.

When fully operational in the third quarter of 2009, the system will be one of the largest rooftop solar installations on the East Coast. The system will consist of more than 8,700 solar panels and will sit on approximately 300,000 square feet of roof space.

The installation will generate about 1.4 million kWh of clean renewable solar energy, which is equivalent to the demand of about 140-150 U.S. households with an average annual consumption of 10,000 kWh. Additionally, the installation will enable GM to displace about 20 percent of the plant’s current power purchased from the local utility with a renewable energy resource, while reducing the plant’s utility bill.

“This project will help GM reduce costs while serving as a clean, renewable energy source,” said John R. Buttermore, GM Powertrain Vice President of Global Manufacturing. “Through innovation and commitment, GM is making a significant, positive impact on the environmental issues facing our world.”

The White Marsh plant reached landfill-free status in 2007, because it no longer sends any production waste to local landfills. All the waste generated at the facility is entirely recycled or reused. The Baltimore plant is GM’s first global manufacturing facility to operate landfill-free and have a solar power installation.

The State of Maryland has made an aggressive commitment to developing and promoting renewable energy sources and the GM project has support from the highest levels of the state government.

“Maryland is quickly becoming a national leader in sustainable energy alternatives,” said Governor Martin O’Malley. “We’re proud that GM is making this clean energy pledge at their Baltimore County plant, demonstrating their commitment as responsible corporate citizens to the long-term future of the environment we share as Marylanders.”

GM currently has two of the largest solar power installations in the United States on the roofs of its Rancho Cucamonga and Fontana, California parts warehouses. Upon completion later this year, GM also will have the world’s largest rooftop solar power installation at its Zaragoza, Spain car assembly plant.

“GM is making significant progress in reducing the impact our facilities have on the environment,” said Elizabeth A. Lowery, GM vice president, Environment, Energy and Safety Policy. “Our expanding commitment to renewable energy sources, like solar power, is part of our coordinated global effort to reduce energy use, water consumption, waste and CO2 emissions.”

Additionally, GM is one of the largest corporate users of landfill gas in the U.S. Landfill gas is the natural by-product of the decomposition of solid waste in landfills. GM is one of the largest users of renewable energy as well. Last August General Motors received the Corporate Energy Management of the Year Award from the Association of Energy Engineers (AEE). The award recognizes the company’s worldwide leadership in energy efficiency and renewable energy.

The GM Powertrain Baltimore transmission plant builds the Allison A1000 six-speed automatic transmissions which are featured in the award-winning Chevrolet Silverado and GMC Sierra full-size pickups. The plant built 189,000 of Allison A1000 six-speed transmissions in 2007. It also builds the Hybrid 2 mode transmission currently used in the Chevrolet Tahoe Hybrid and GMC Yukon Hybrid.

General Motors Corp. (NYSE: GM), the world's largest automaker, has been the annual global industry sales leader for 77 years. Founded in 1908, GM today employs about 266,000 people around the world. With global headquarters in Detroit, GM manufactures its cars and trucks in 35 countries. In 2007, nearly 9.37 million GM cars and trucks were sold globally under the following brands: Buick, Cadillac, Chevrolet, GMC, GM Daewoo, Holden, HUMMER, Opel, Pontiac, Saab, Saturn, Vauxhall and Wuling. GM's OnStar subsidiary is the industry leader in vehicle safety, security and information services. More information on GM can be found at www.gm.com.


CONTACT(S):
Dan Flores
GM Corporate News Relations
work: 313-665-4629
cell: 313-418-2374
daniel.flores@gm.com

John C. Raut
GM Baltimore Communications
work: 443-425-1531
cell: 443-286-3686
john.raut@gm.com

Sunday, August 24, 2008

Solar powered QinetiQ's Zephyr Flies For 82 hours 37 minutes

Zephyr's reputation as the world's leading solar powered high-altitude long-endurance (HALE) Unmanned Aerial Vehicle (UAV) has been reinforced with a world-beating three and a half day flight at the US Army's Yuma Proving Ground in Arizona.

The solar powered plane flew for 82 hours 37 minutes, exceeding the current official world record for unmanned flight which stands at 30 hours 24 minutes set by Global Hawk in 2001 and Zephyr's previous longest flight of 54 hours achieved last year.

The UK Ministry of Defence has funded the development of Zephyr to date and has partnered with the US Department of Defense (DoD) under their Joint Capability Technology Demonstration (JCTD) Programme - which is designed to move urgently needed technologies rapidly into the hands of US forces in the field. The US DoD funded the demonstration flight under the Programme and this was the first time the two governments have participated in a joint demonstration of a HALE UAV.

JCTD projects are specially tailored to meet the needs of US combatant commands. Zephyr is supported by USCENTCOM, the combatant command with responsibility for Iraq and Afghanistan, along with the Office of Secretary of Defense (OSD) for Advanced Systems and Concepts (AS&C) and the US Army Space and Missile Defense Command (SMDC).

Launched by hand, Zephyr is an ultra-lightweight carbon-fibre aircraft. By day it flies on solar power generated by amorphous silicon solar arrays no thicker than sheets of paper that cover the aircraft's wings. By night it is powered by rechargeable lithium-sulphur batteries, supplied by SION Power Inc, which are recharged during the day using solar power.

The flight trial at Yuma took place between 28 and 31 July in the harsh conditions of the Sonoran Desert in mid summer with temperatures up to 45°C (113°F). Zephyr was flown on autopilot and via satellite communications to a maximum altitude of more than 60,000ft. The trial included a military utility assessment of a US Government communications payload.

Simon Bennett, Managing Director of QinetiQ's Applied Technologies business said: "The Yuma Proving Ground in Arizona was an appropriate setting for Zephyr's world beating flight as many landmark aviation developments have taken place there in recent years. In addition to setting a new unofficial record, the trial is a step towards the delivery of Zephyr's capability for joint, real-time, battlefield persistent surveillance and communications to forces in the field at the earliest opportunity."

Andrew Baird, Director Defence Technology and Innovation Centre, UK MoD said: "MOD is very pleased with the success of the recent trial which demonstrated the potential capability of the technologies in Zephyr. This success has also reinforced the close working relationship between the UK and US on these key technologies."

Potential applications for Zephyr include earth observation and communications relay in support of a range of defence, security and civil requirements.

Wednesday, August 20, 2008

Google.org Invests 10.25 Million On Enhanced Geothermal Systems (EGS).

Google continues to invest in renewable energy both in the corporate Google and through google.org. Google already has Solar power at its Mountain View headquarters. The latest act by Google to invest in EGS or Enhanced Geothermal Systems which expands the potential of geothermal energy by orders of magnitude. Following is the Press release.
MOUNTAIN VIEW, Calif.--(BUSINESS WIRE)--In the continuing effort to develop electricity from renewable energy cheaper than from coal, Google (NASDAQ:GOOG), through its philanthropic arm Google.org, announced $10.25 million in investments in a breakthrough energy technology called Enhanced Geothermal Systems (EGS). Today's announcement also includes funding for research on next-generation geothermal resource mapping, EGS information tools, and a policy agenda for geothermal energy.

EGS expands the potential of geothermal energy by orders of magnitude. The traditional geothermal approach relies on finding naturally occurring pockets of steam and hot water. The EGS process, by comparison, replicates these conditions by fracturing hot rock, circulating water through the system, and using the resulting steam to produce electricity in a conventional turbine.

A recent MIT report on EGS estimates that just 2% of the heat below the continental United States between 3 and 10 kilometers, depths within the range of current drilling technology, is more than 2,500 times the country's total annual energy use.

"EGS could be the 'killer app' of the energy world. It has the potential to deliver vast quantities of power 24/7 and be captured nearly anywhere on the planet. And it would be a perfect complement to intermittent sources like solar and wind," said Dan Reicher, Director of Climate and Energy Initiatives for Google.org.

Google's Renewable Energy Cheaper than Coal initiative focuses on solar thermal power, advanced wind, EGS and other potential breakthrough technologies. Google has set a goal to produce one gigawatt of renewable energy capacity, enough to power a city the size of San Francisco, in years, not decades.

To advance EGS, Google.org announced funding for two companies and a university:

  • AltaRock Energy, Inc.: $6.25 million investment to develop innovative technologies to achieve significant cost reductions and improved performance in EGS projects. For more information, please visit http://www.altarockenergy.com/.
  • Potter Drilling, Inc.: $4 million investment in two tranches, to develop new approaches to lower the cost and expand the range of deep hard rock drilling, a critical element to large-scale deployment of EGS. For more information, please visit http://www.potterdrilling.com/.
  • Southern Methodist University Geothermal Lab: $489,521 grant to improve understanding of the size and distribution of geothermal energy resources and to update geothermal mapping of North America. For more information, please visit http://www.smu.edu/geothermal/.

"Innovation is the path to massive quantities of cleaner, cheaper energy. The people we're funding today have a real shot at lowering the cost of EGS, and bringing us closer to our goal of Renewable Energy Cheaper than Coal," added Dr. Larry Brilliant, executive director of Google.org.

"EGS is critical to the clean electricity revolution we need to solve the climate crisis, but EGS hasn't received the attention it merits. That's why we're pressing for expanded support from government and increased investment from the private sector," said Reicher. "We're big believers in EGS and we're looking for more opportunities."

Ongoing Commitments

Today's announcement represents the latest step in Google's commitment to a clean energy future.

Google has been working hard on energy efficiency and making its business environmentally sustainable. To this end, the company has taken concrete steps to reduce its carbon footprint and accelerate improvements in green technology, including:

  • Developing cutting-edge energy efficiency technology to power and cool its data centers in the U.S. and around the world using 50% less energy than the industry standard
  • Generating electricity for its Mountain View campus from a 1.6 megawatt corporate solar panel installation, one of the largest in the U.S.
  • Accelerating development and adoption of plug-in electric vehicles through the RechargeIT initiative (http://www.google.org/recharge/)
  • Joining with other industry leaders to form the Climate Savers Computing Initiative, a consortium that advocates the design and use of more energy-efficient computers and servers (http://www.climatesaverscomputing.org/)
  • Working on policies that encourage renewable energy development and deployment, such as a U.S. Renewable Energy Standard.

For more information on EGS, including a 3-D model of a project in Australia, a Google Earth layer, an introductory YouTube video, and our policy brief, see http://www.google.org/egs/.

For more information on the Renewable Energy Cheaper than Coal initiative, including $30 million in investments to advance solar thermal and advanced wind technologies, see http://www.google.org/rec.html.

For broadcast-standard video and other multimedia files for the announcement, see http://www.thenewsmarket.com/google.

For more information on Google's commitment to a clean energy future, see http://www.google.com/renewableenergy.

Saturday, August 16, 2008

Conergy Completes Asia’s Largest Photovoltaic Plant .

19.6 MW project completely on the grid; expansion to 24 MW already ordered

Large projects in 2008: 81 MW realised up to now, additional 40 MW still in the worldwide project pipeline

Hamburg / Seoul, Korea – The Conergy Group has successfully completed the construction of what is currently Asia’s largest photovoltaic plant. The 90 million Euro project, with a peak power output of 19.6 MW, is located in the South Korean city of SinAn, southwest of the capital Seoul. Commissioned by the Dongyang Engineering & Construction Corporation, Conergy set up the plant as a turnkey solution and brought it on grid six months ahead of schedule. Dongyang has engaged the Hamburg-based solar energy company now with the expansion of the plant to a total of 24 MW – an add-on order valued alone at around EUR 20 million. Conergy intends to complete this on site yet by the end of the year.

Conergy’s CEO Dieter Ammer: “Just a few weeks ago we successfully sold the fourth largest photovoltaic plant in the world with “El Calaveron” in Spain. The quick completion of the photovoltaic plant in SinAn shows that despite our restructuring we can continue to book large operating successes – and the focus on our downstream core business was absolutely the right decision for our company.”

230 experts have been working around the clock since 12 May last year on the 600,000 m2 construction site in SinAn to erect this Korean lighthouse project. In the meantime, the 19.6 MW plant is completely on grid and producing 27,000 MWh yearly of clean electricity – enough energy for more than 6,000 households. At the same time SinAn is saving 20,000 tons of CO2 yearly.

Jihun Kim, CEO of Conergy Korea: “The construction of what is currently Asia’s largest photovoltaic plant is pioneering for the renewable energies industry in our country. With its completion we are ringing in a new era of Korean energy supply.” The government in Seoul had created the prerequisites for this in 2002. Since then, Korea has been seen as one of the large growth markets for renewable energies in Asia. In 2007 alone, 134 solar energy systems were connected to the public power grid – compared to 2006 a growth of 163%. In total, up to the present day more than 160 MW of solar energy has been installed in Korea, including now “SinAn” as a milestone among the large projects.

Large projects in 2008: 81 MW realised up to now, additional 40 MW still in the worldwide project pipeline

Elsewhere in the world too, the Hamburg-based solar energy company is making good progress with its large projects: In 2008 up to now the Conergy Group was able to complete photovoltaic plants worldwide with a total volume of 81 MW. Since its founding, the company has now successfully concluded large projects with a total output of in total more than 400 MW – including photovoltaic plants with an output of 160 MW and wind farms with an output of 250 MW.

Yet by the end of 2008, Conergy intends to conclude additional regenerative large projects with a total output of around 40 MW. Numerous plants are already in the worldwide project pipeline for future years, including solar projects with up to 300 MW in Germany, Italy, Spain, Greece, the US and Korea. The company continues to plan wind farms in Germany, Australia, France and Turkey. 1,000 MW alone are to be realised via the joint venture with the Australian company Macquarie Capital. In Turkey the Conergy Group submitted 3,000 MW for approval the end of April. With this the Conergy Group is one of the world’s leading companies in the development, project planning and financing of large regenerative projects.

Thursday, August 14, 2008

PG&E Signs Agreements With OPTISOLAR And SUNPOWER To Provide 800 MW Utility Scale Photovotaic Solar Power Farms.

Photo Copyright 2008 David Lena
SAN FRANCISCO – Pacific Gas and Electric Company today announced it has entered into two utility-scale, photovoltaic (PV) solar power contracts for a total of 800 megawatts (MW) of renewable energy. This significant commitment to photovoltaic technology will deliver cumulatively 1.65 billion kilowatt-hours of renewable energy annually. This would be equivalent to the amount of energy needed to serve approximately 239,000 residential homes each year.
PG&E entered into an agreement with Topaz Solar Farms LLC, a subsidiary of OptiSolar Inc., for 550 MW of thin-film PV solar power. The utility also signed a contract with High Plains Ranch II, LLC, a subsidiary of SunPower Corporation (Nasdaq: SPWR), for 250 MW of high-efficiency PV solar power.
The new Solar Projects from these agreements would provide enough Solar Energy Equivalent to the energy needs of 239,000 Californian homes. It will also fulfill state mandated need of 20% renewable energy requirement for PG&E. “These landmark agreements signal the arrival of utility-scale PV solar power that may be cost-competitive with solar thermal and wind energy,” said Jack Keenan, chief operating officer and senior vice president for PG&E. “We will continue to explore such innovative technologies as we aggressively work to increase the amount of renewable energy we provide our customers.”
Over the past six years, PG&E has entered into contracts for more than 3,600 MW of renewable power, including solar contracts that total more than 2,500 MW. PG&E now has contractual commitments for more than 24 percent of its future power deliveries from renewables, including wind, biomass and geothermal.
Utility-scale PV solar projects feature photovoltaic solar modules, which convert sunlight directly into electricity and produce the greatest amounts of power during the afternoons, when electricity demand is high. Both projects are contingent upon the extension of the federal investment tax credit for renewable energy and processes to expedite transmission needs.

OptiSolar’s Topaz Solar Farm

The 550 MW Topaz Solar Farm project» would utilize relatively low-cost, thin-film PV panels designed and manufactured by OptiSolar in Hayward and Sacramento. Located in San Luis Obispo County, California, the project would deliver an average of 1,100,000 megawatt-hours annually of renewable electricity. The project is expected to begin power delivery in 2011 and be fully operational by 2013.

“We are very happy to be working with PG&E to help meet California’s requirements for clean, renewable energy and are committed to working closely with the local community as this project moves forward,” said Randy Goldstein, chief executive officer of OptiSolar. “Our solar farms are quiet and emission-free, with solar panels mounted near ground level to minimize visual impact. Implementing cost-competitive solar power on this scale establishes thin-film photovoltaic generation as an important contributor to global sustainability.”

SunPower’s California Valley Solar Ranch

SunPower’s planned 250 MW solar ranch, would be located in San Luis Obispo County’s California Valley and will deliver an average of 550,000 megawatt-hours of clean electricity annually. The project is expected to begin power delivery in 2010 and be fully operational in 2012. The ranch would employ SunPower’s proprietary crystalline PV solar cells, which generate up to 50 percent more power than conventional crystalline cells. The company would install its patented SunPower® Tracker solar tracking systems at the site, which tilt toward the sun as it moves across the sky, increasing energy capture by up to 30 percent over fixed systems, while reducing land-use requirements.

“Today, high-efficiency photovoltaic technology is a competitively-priced component of utility-scale peak power generation,” said Tom Werner, chief executive officer of SunPower. “Our experience constructing more than 350 megawatts of solar systems on three continents allows us to deliver utility-scale systems quickly and at a scale of hundreds of kilowatts to hundreds of megawatts. We design our solar systems to maximize energy harvest while adapting to the natural topography of the site and serving the needs of the community.”



The Oregon Department of Transportation Going Solar!

The Oregon Department of Transportation is an agency on the move – to renewable energy. It takes 45 million kilowatt-hours of electricity annually to run Oregon’s state transportation system, energy used for signals, illumination, buildings, ramp metering and more, at a cost last year of more than $4 million. Today this energy comes from mostly non-renewable sources, but change is coming. Most highways and free ways could easily utilized to generate solar energy as they are access to large amount of real estate that mostly receive Solar light through out the year. We reported earlier, Venezuela lighting up street lights with Solar energy.




On Feb. 21, 2008, the Oregon Transportation Commission directed ODOT’s Office of Innovative Partnerships to develop a procurement for up to 2 megawatts of solar energy on ODOT properties, including along the state highway right of way and the interstate system. Leading the way will be the Oregon Solar Highway demonstration project, a public-private partnership with Portland General Electric and US Bank, to build the first-in-the-nation solar array in a freeway interchange. Groundbreaking took place Aug. 7, 2008. Physical construction is expected to begin in mid-September.

The National Renewable Energy Laboratory Achieves 40.8 % Efficiency With An Inverted Metamorphic Triple-junction Solar Cell, A World Record.

Scientists at the U.S. Department of Energy's National Renewable Energy Laboratory (NREL) have set a world record in solar cell efficiency with a photovoltaic device that converts 40.8 percent of the light that hits it into electricity. This is the highest confirmed efficiency of any photovoltaic device to date.

The inverted metamorphic triple-junction solar cell was designed, fabricated and independently measured at NREL. The 40.8 percent efficiency was measured under concentrated light of 326 suns. One sun is about the amount of light that typically hits Earth on a sunny day. The new cell is a natural candidate for the space satellite market and for terrestrial concentrated photovoltaic arrays, which use lenses or mirrors to focus sunlight onto the solar cells.

The new solar cell differs significantly from the previous record holder – also based on a NREL design. Instead of using a germanium wafer as the bottom junction of the device, the new design uses compositions of gallium indium phosphide and gallium indium arsenide to split the solar spectrum into three equal parts that are absorbed by each of the cell's three junctions for higher potential efficiencies. This is accomplished by growing the solar cell on a gallium arsenide wafer, flipping it over, then removing the wafer. The resulting device is extremely thin and light and represents a new class of solar cells with advantages in performance, design, operation and cost.

NREL's Mark Wanlass invented the original inverted cell, which recently won a R&D 100 award. His design was modified by a team led by John Geisz that further optimized the junction energies by making the middle junction metamorphic as well as the bottom junction. Metamorphic junctions are lattice mismatched – their atoms don't line up. The material properties of the mismatched semiconductors allows for greater potential conversion of sunlight.

NREL is the U.S. Department of Energy's primary national laboratory for renewable energy and energy efficiency research and development. NREL is operated for DOE by Midwest Research Institute and Battelle.

For further information contact NREL Public Relations at (303) 275-4090.

National Renewable Energy Laboratory Achieves 40.8 % Efficiency With An Inverted Metamorphic Triple-junction Solar Cell, A World Record.

Tuesday, August 12, 2008

U.S. leads world in wind energy generation but expiring tax credit may slow down the growth.

U.S. now leads world in wind energy generation but delay in extending federal tax credit places 2009 project pipeline on hold, discourages manufacturing investment

U.S. wind farms now generate more electricity than any other nation in the world and are on track to expand by over 45% this year, but the expiration of the federal production tax credit (PTC) less than five months from now threatens this spectacular progress, the American Wind Energy Association (AWEA) said today in its second quarter market report.

“The U.S. is now the world’s largest wind energy producer, with wind development sparking job creation and economic opportunity in a troubled economy,” said AWEA Executive Director Randall Swisher. “But the current figures hide a dire reality: the pipeline of investment for 2009 has been on hold for months, with escalating risks and costs for the industry, because of the uncertainty about the production tax credit. At a time when unemployment is at a 4-year high and the economy needs every stimulus it can get, a rapid extension of the credit should be on any economic priority list for Congress.”

The U.S. is now the world leader in wind electricity generation. While Germany still has more generating capacity installed (about 23,000 megawatts), the U.S. is producing more electricity from wind because of its much stronger winds.

Total U.S. installed wind power capacity now stands at 19,549 megawatts (MW). The industry installed 1,194 MW in the second quarter, down from 1,532 MW during the first. This brings the year’s new capacity to 2,725 MW, more than was installed in any year except 2007. More is under construction for completion either by the end of this year or the beginning of next year, depending on when the PTC is extended. Uncertainty regarding the PTC is causing a rush to complete projects by the end of the year, with increased risks and costs for the industry and eventually for customers. Under the best-case scenario for the industry, Congress will move quickly in September to extend the credit and the pressure will be eased for immediate project completion while reopening the pipeline for 2009. Under that scenario, AWEA projects at least 7,500 MW of new capacity to be added in 2008.

AWEA also reports a strong increase in domestic investment in wind turbine and wind turbine component manufacturing facilities over the past year and a half. At least 41 facilities have been announced, opened, or expanded over that period of time. These facilities will create over 9,000 jobs when they are at full capacity. Uncertainty about the PTC threatens that level of investment as well.

“It’s clear that wind power is not only a major technology with which to fight climate change, but also one of the most promising and dynamic economic engines we have today,” said Swisher. “The nation needs an ambitious plan to promote the deployment of wind and other renewable energy technologies—and the urgent first step it must take is to rapidly extend the expiring renewable energy credits, which are the primary incentive that the nation provides for these technologies today.”

The report is available on the AWEA Web site at www.awea.org/publications/reports/2Q08.pdf

Thursday, August 07, 2008

The City of Hiawatha Goes Green With The Help From Alliant Energy and MidAmerican Energy.

CEDAR RAPIDS, Iowa – August 5, 2008 – The City of Hiawatha replaced its 58-year-old city hall with not only a newer, but a “greener” facility. The building went through an energy-efficient design process provided by the Commercial New Construction program offered through Alliant Energy and MidAmerican Energy Company. Representatives from both utilities will present rebate checks totaling $29,646 to city officials during a brief ceremony at the city hall on Wednesday, August 6 at 10:00 a.m.
“The City of Hiawatha has a responsibility to our residents and to our environment. With the construction of our new building, we were committed to making Hiawatha City Hall energy-efficient,” said Dave Van Dee, Hiawatha City Administrator. “During the design process, we met with Alliant Energy and MidAmerican Energy to learn more about making City Hall energy efficient and reducing our energy costs. The energy conservation strategies provide an annual energy cost savings that will be beneficial for years to come.”
By partnering with local utility representations and evaluating the building’s energy efficiency potential before construction began, the City is expected to save more than $15,000 each year on its energy bills. These operational savings result from the City lowering its expected energy usage by an estimated 179,616 kilowatt-hours of electricity and 4,314 therms of natural gas each year. These savings earn the City a total incentive of $29,646, with Alliant Energy awarding a $25,146 energy-efficiency rebate for the electric savings, and MidAmerican Energy providing a $4,500 incentive for the gas savings.

“We evaluated several potential energy conservation strategies the City of Hiawatha could consider in building City Hall,” said Sam Page- Strategic Account Manager, Alliant Energy. “Hiawatha city officials were willing to commit to energy-efficiency on the front end allowing us to achieve much greater fiscal and environmental results.”

Interstate Power and Light Company (IPL), an Alliant Energy Company, and MidAmerican Energy offer Commercial New Construction Programs to assist owners and design teams in evaluating potential energy conservation strategies for new and renovated building projects. From the start of the conceptual design phase, the customer, project design team, and utility personnel work together using building performance simulation modeling to identify and implement cost-effective energy efficiency approaches that improve the overall energy efficiency of a building. A minimum energy savings of 5 percent greater than the State of Iowa building code is required.

The Commercial New Construction program can be utilized for new commercial buildings and building renovation projects. It is available to Alliant Energy and MidAmerican Energy retail electric and/or gas customers located in their respective Iowa service territories. For more information on Alliant Energy’s Commercial New Construction program, visit www.alliantenergy.com/newconstruction or call 1-866-ALLIANT (1-866-255-4268). For more information on MidAmerican Energy’s Commercial New Construction program, visit www.midamericanenergy.com/cnc or call 1-800-292-6448.
News Source


Wednesday, August 06, 2008

Sanyo Commisions New Shiga Factory for HIT Solar Cell Modules Production.

Tokyo, August 5, 2008 ---- SANYO Electric Co., Ltd. (SANYO) announces that it has completed construction of the Shiga Plant at its Shiga facilities (Ohtsu City, Shiga Prefecture) which was constructed for the assembly of HIT solar cell modules as part of continuing plans to expand and develop its Solar business.
The Shiga Plant will have an initial production capacity of 40 MW, and SANYO will consider expanding the production capacity of the factory upon further review of market trends and demand.
SANYO currently produces HIT solar cells at two factories, a t the Nishikinohama Factory (Kaizuka City, Osaka) and Shimane SANYO Electric Co. (Unnan City, Shimane Prefecture). The modules, or panels, are then assembled at two domestic facilities (Nishikinohama Factory and the Tokyo Plant) and two overseas facilities (Hungary and Monterrey (Mexico) Factories). With the new operation at the Shiga Plant which will be one of the major bases for module production, SANYO will respond to domestic market demands, including increases in demand in the future.

HIT (Heterojunction with Intrinsic Thin-layer) hybrid solar cells are created by combining amorphous silicon and crystalline silicon and using an intrinsic semiconductor.

SANYO Commences Operation of the New Shiga Factory for Solar Module Production


Monday, August 04, 2008

Toxic Alberta (North American Oil Scraping Has Drastic Effect On Environment, WIld Life and Atmospheric CO2 Levels.)

I was watching a video series that was made a quite some time ago about Alberta's oil sands and the extraction of the oil contained within Boreal forests. then I read the news item today by WWF. It is one thing or the other for the Oil companies and the politicians. The only out come so far is planet suffers. I will have these information arranged in a proper manner soon.

Link to down load 52 Page report Unconventional Oil - Scraping the bottom of the barrel? at the end of this news item.

29 Jul 2008-Exploitation of North America’s shale and tar-sand oil reserves could increase atmospheric CO2 levels by up to 15%, a new report from WWF-UK and the major UK financial group Co-Operative Financial Services (CFS) has warned.

Extraction of the projected 1,115 billion barrels of recoverable oil from unconventional fuel sources such as Alberta’s oil sands and Colorado’s oil shale, which involve much more energy intensive procedures for extraction than traditional oil reserves, would significantly increase global risks of dangerous climate change, the report said.

Unconventional Oil: Scraping the bottom of the barrel reported that companies including Shell, ExxonMobil and BP have announced over $CAN 125 billion worth of development in Canada’s oil sands by 2015. Increasing oil prices are also increasing interest in unconventional oil sources has been given added impetus by rising oil prices.

“The extraordinary lengths some oil and gas companies go to in attempting to make the climate-hostile fuels somewhat less so should be re-directed to bringing forward low-carbon energy,” said Ian Jones, head of Responsible Investment at Co-Operative Investments, part of the CFS group.

“Most oil companies have hardly begun to factor in the externalities that are currently imposed on the environment.”

These externalities include mass deforestation, such as Alberta’s Boreal forests, which lie above 140,000 square kilometres of oil sands, and are now crisscrossed with seismic lines and open-cast mines.

This region, identified as a “life support system for the planet,” is home to 11% of global terrestrial carbon sinks, themselves necessary for mitigating the climate change.

Production of oil sands is also extremely water intensive, requiring three barrels of water to produce each barrel of oil. This is threatening the ecosystem of the Athabasca river by reducing flows to dangerous levels.

Canada’s indigenous communities are also concerned with water quality in former wetlands now featuring tailings ponds up to 50 square kilometres in size which can be seen from outer space. Only 5-10% of waste water is judged sufficiently non-toxic to be returned to waterways

Risks to investors

Scraping the bottom of the barrel outlines potential risks to investors from the high capital costs of sand and shale to oil projects, looming regulatory restrictions, the likelihood of litigation, environmental liabilities from tailing ponds and restoration requirements and reliance on unproven technologies such as carbon capture and storage. Investors could end up with stranded assets,

The authors of the report themselves call for tighter regulations such as the Emissions Standards in place in California that, by prohibiting sales of fuels with high lifecycle emissions, would effectively outlaw fuel extracted from tar sands and oil shale.

“Companies and investors claim to recognise the need to tackle climate change and support international efforts such as Kyoto. In oil sands we have an activity that is going against this imperative…it is time for investors to challenge this strategy” said James Leaton, WWF-UK’s senior oil and gas adviser.

“Shareholders should challenge those oil companies that fail to steward investment responsibly.” added Jones.
Unconventional Oil - Scraping the bottom of the barrel? PDF Report

Saturday, August 02, 2008

A Lamborghini Goes On A 6,500-mile Round Trip, Qatar - Britain - Qatar For A Oil Change. And You Ask Where The Morons Are?

The oil price madness does not stop oil rich sheikh, in my eyes a moron, sending his Lamborghini on a 6,500-mile round trip to Britain for a service from Qatar.
The £190,000 supercar was put on a scheduled flight from Qatar to Heathrow – then flown BACK after the oil check according to The Sun. Yes they have photos to prove it as well.

This moron (I do not like to put people down but this guy is way beyond down) may have spent around £20,000-23000 ($39000-45000) for his oil change but I doubt he would have ever thought about global warming or carbon footprints. An airport worker said: “This car doesn’t have a carbon footprint – more of a crater.”

Yes I have some choice words in my mouth to describe this person but this is a public website. So I refrain. I think Lamborghini at least could have advised the brainless that it could have been done in Qatar.

Here is the link to the Sun article.