Monday, June 30, 2008

Record Light Conversion Efficiency Of 8.2% In Solvent-free dye-sensitized Solar Cells.

In a paper published online June 29 in the journal Nature Materials, EPFL professor Michael Graetzel, Shaik Zakeeruddin and colleagues from the Changchun Institute of Applied Chemistry at the Chinese Academy of Sciences have achieved a record light conversion efficiency of 8.2% in solvent-free dye-sensitized solar cells. This breakthrough in efficiency without the use of volatile organic solvents will make it possible to pursue large scale, outdoor practical application of lightweight, inexpensive, flexible dye-sensitized solar films that are stable over long periods of light and heat exposure.

Dye-sensitized solar cell technology, invented by Michael Grätzel at EPFL in the 1990s, shows great promise as a cheap alternative to expensive silicon solar cells. Dye-sensitized cells imitate the way that plants and certain algae convert sunlight into energy. The cells are made up of a porous film of tiny (nanometer sized) white pigment particles made out of titanium dioxide. The latter are covered with a layer of dye which is in contact with an electrolyte solution. When solar radiation hits the dye it injects a negative charge in the pigment nanoparticle and a positive charge into the electrolyte resulting in the conversion of sunlight into electrical energy. The cells are inexpensive, easy to produce and can withstand long exposure to light and heat compared with traditional silicon-based solar cells. Currently, state-of-the-art dye-sensitized cells have an overall light conversion efficiency greater than 11%, still about two times lower than silicon cell technology. A major drawback to the dye-sensitized cell technology is the electrolyte solution, which is made up of volatile organic solvents and must be carefully sealed. This, along with the fact that the solvents permeate plastics, has precluded large-scale outdoor application and integration into flexible structures.

To overcome these limitations, Grätzel and his colleagues developed a new concept -- a mixture of three solid salts as an alternative to using organic solvents as an electrolyte solution. When the three solid components are mixed together in the right proportion they turn into a melt showing excellent stability and efficiency. Grätzel is confident that further development of these types of electrolyte mixtures will lead to large-scale practical application of dye-sensitized solar cell technology, reinforcing solar energy's role as a cornerstone of alternative energy production.

For More Information;

Contact: Michael Graetzel
Michael.graetzel@epfl.ch
Ecole Polytechnique Fédérale de Lausanne

California Emerging Clean Air Technology Forum

Release date: 06/26/2008 Contact Information: Mary Simms, (415) 947-4270, simms.mary@epa.gov WHAT: The California Emerging Technology Forum is a collaborative effort of the U.S. Environmental Protection Agency, the California Air Resources Board, and the South Coast and San Joaquin Valley Air Districts to accelerate the development and implementation of technologies to achieve air quality goals. These agencies will sponsor a one-day public forum, which will focus on some of the following technologies and research areas: · Hydraulic and plug-in hybrids · Electric vehicles · Fuel-cells for vehicles and stationary sources · Solar, digester, and micro-turbine distributive energy · Air emission monitoring and remote sensing · Selective Catalytic Reduction for locomotive, and marine sources · Micro-turbines distributive generation · Architecture coatings and solvent certification WHY: To share collaborative progress and catalyze development and implementation of technologies that will help California and other parts of the country meet current and future air quality standards. WHEN: Wednesday, July 9, 8:30 a.m. through 5:00 p.m. WHERE: University of California at Merced, Lakireddy Auditorium in the "Classroom and Office" building FOR MORE INFORMATION: http://www.epa.gov/region09/air/cecat-forum/index.html REGISTRATION: Federal, state, tribal, and local air agencies, private companies, associations, and environmental and community non-profit organizations are encouraged to attend. Registration is free and is required to attend the Forum to ensure available meeting space at UC Merced. Registration closes on Thursday, July 3 at 5 p.m. PSD. This event will also be broadcast via webcast. Tags: , , ,

Tuesday, June 24, 2008

Climate Change May Severely Impact California's Unique Native Plants.

Climate change could severely impact California's unique native plants.
Big question remains: can plants migrate fast enough to escape warming's effects

Berkeley -- The native plants unique to California are so vulnerable to global climate change that two-thirds of these "endemics" could suffer more than an 80 percent reduction in geographic range by the end of the century, according to a new University of California, Berkeley, study.

Because endemic species - native species not found outside the state - make up nearly half of all California's native plants, a changing climate will have a major impact on the state's unparalleled plant diversity, the researchers warn.

"Our study projects that climate change will profoundly impact the future of the native flora in California," said David Ackerly, UC Berkeley professor of integrative biology. "The magnitude and speed of climate change today is greater than during past glacial periods, and plants are in danger of getting killed off before they can adjust their distributions to keep pace."

The researchers caution that their study can't reliably predict the fate of specific species. However, the trend is clear: The researchers project that, in response to rising temperatures and altered rainfall, many plants could move northward and toward the coast, following the shifts in their preferred climate, while others, primarily in the southern part of the state and in Baja California, may move up mountains into cool but highly vulnerable refugia

Coast redwoods may range farther north, for example, while California oaks could disappear from central California in favor of cooler weather in the Klamath Mountains along the California-Oregon border. Many plants may no longer be able to survive in the northern Sierra Nevada or in the Los Angeles basin, while plants of northern Baja California will migrate north into the San Diego mountains. The Central Valley will become preferred habitat for plants of the Sonoran desert.

"Across the flora, there will be winners and losers," said first author Scott Loarie, a Ph.D. candidate at Duke University's Nicholas School for the Environment who has worked with Ackerly on the analysis for the past four years. "In nearly every scenario we explored, biodiversity suffers - especially if the flora can't disperse fast enough to keep pace with climate change."

The authors identified several "climate-change refugia" scattered around the state. These are places where large numbers of the plants hit the hardest by climate change are projected to relocate and hang on. Many of these refugia are in the foothills of coastal mountains such as the Santa Lucia Mountains along California's Central Coast, the Transverse Ranges separating the Central Valley from Los Angeles and the San Gabriel Mountains east of Los Angeles. Many of these areas are already under increasing pressure from encroaching suburban development.

"There's a real potential for sheltering a large portion of the flora in these refugia if they are kept wild and if plants can reach them in time," Loarie said. The authors argue that it's not too early to prepare for this eventuality by protecting corridors through which plants can move to such refugia, and maybe even assisting plants in reestablishing themselves in new regions.

"Part of me can't believe that California's flora will collapse over a period of 100 years," Ackerly said. "It's hard to comprehend the potential impacts of climate change. We haven't seen such drastic changes in the last 200 years of human history, since we have been cataloguing species."

Ackerly, Loarie and colleagues at UC Berkeley, Duke University in Durham, N.C., California Polytechnic State University (Cal Poly) in San Luis Obispo and Texas Tech University in Lubbock report their findings in the open-access journal PLoS ONE, which appears online June 25.

The researchers spent four years mining the data from more than 16 plant collections around the state, in particular from the University and Jepson Herbaria of UC Berkeley, to assess the climatic ranges of more than 2,000 California endemic plants. These represent almost 40 percent of the 5,500 native plants in the California Floristic Province, which includes most of the state except for the deserts and the Modoc Plateau in the northeast, and also includes parts of southern Oregon and northern Baja California. The plants assessed include individual species, as well as subspecies and varieties.

In collaboration with climate modeler Katharine Hayhoe of Texas Tech, Loarie and Ackerly then employed two different climate models - one based at the U.S. National Center for Atmospheric Research and the other at the United Kingdom Meteorological Office - that predict changes in temperature and precipitation through the year 2100 for lower and higher greenhouse gas emissions scenarios. They then projected for each model and scenario where California's endemic species would have to move in order to find the microclimate they need to survive. One set of projections assumed that plants can easily relocate, while another assumed that they cannot migrate at all by 2100, so their ranges will only shrink as climate changes.

Loarie emphasized that there are many uncertainties in the analysis - for example, in the known range of individual plants; in knowledge of the microclimate each plant prefers; in how much warming can be expected based on best- and worst-case greenhouse gas scenarios; in the direction and magnitude of changes in California rainfall; and in whether or not plants can migrate sufficiently in 100 years to discover congenial habitat.

Despite these unknowns, the researchers said they are confident in their approach, which has been used previously to predict global warming's effects on isolated species or plant families in places such as South Africa, Europe, the eastern U.S. and southern California.

"We can have confidence in the trends, if not in what happens to specific species," Loarie said. "There is a clear trend despite the uncertainty."

In the most optimistic scenario, in which global emissions of carbon dioxide return to near-1990 levels by the end of the century and plants are able to move into new habitats within a century, diversity of species in parts of California might actually increase, especially along the northwest and central coast. Nevertheless, diversity in the northern Sierra and in southern California would decrease.

However, such an optimistic outcome is far less likely than more dire ones, Ackerly said. In the higher scenario - the greatest warming, and plants unable to move in the 90- to-100-year time frame of global warming - plant diversity will decrease everywhere by as much as 25 percent, even if no species actually become extinct. Similarly, 66 percent of all endemic species will experience more than an 80 percent reduction in range.

If plants are able to disperse in time to find more suitable habitat, the researchers found that ranges will shift by an average of 150 kilometers (95 miles) under higher climate change, often with no overlap between the old and new ranges. Paradoxically, this may separate species that now live together: Substantial numbers of floral communities may be split up as some species move south and uphill while others move north and towards the coast.

Though the study did not look at the response of invasive or non-native plants to climate change, Ackerly said that they likely will expand their ranges at the expense of natives and endemics. And shifting and shrinking ranges of endemic species likely will affect animal diversity as well. Ackerly noted that range change may separate an animal from its major food source, or a pollinator from its preferred plant.

With the shifting ranges of endemic species, species conservation becomes a moving target, the researchers noted. Brent Mishler, director of the University and Jepson herberia and a professor of integrative biology, anticipates a big need for information on possible plant movement among those people protecting, managing or restoring natural areas around the state.

"They could really benefit by knowing what plants are in danger of being eliminated from their area, and maybe even more importantly, what plants to keep in mind that will be 'refugees' from other sites that will need to move into their area to avoid extinction," he said. "Planning for refugees will become a new but important concept for natural reserves to think about."

Contact: Robert Sanders
rsanders@berkeley.edu
510-643-6998
University of California - Berkeley

Monday, June 23, 2008

EPA Releases New report on ecosystems and climate change.

(Washington, D.C. – June 20, 2008) The U.S. Environmental Protection Agency has released a report that can help reduce the potential impact of climate change on estuaries, forests, wetlands, coral reefs, and other sensitive ecosystems. The report, entitled Preliminary Review of Adaptation Options for Climate-Sensitive Ecosystems and Resources, identifies strategies to protect the environment as these changes occur.

"People always say 'Don't just tell us what will happen – tell us what we can do about it,'" said Dr. George Gray, assistant administrator for EPA's Office of Research and Development. "By using the strategies outlined in this document, we can help managers protect our parks, rivers, and forests from possible future impacts of a changing climate."

To develop this assessment, scientists studied national parks, national forests, national wildlife refuges, wild and scenic rivers, national estuaries, and marine protected areas – all protected by the federal government. The report takes a unique approach by using the management goals set for each protected area to understand what strategies will increase the resilience of each ecosystem – in other words, increase the amount of change or disturbance that an ecosystem can absorb before it shifts to a different ecosystem. Using these strategies, managers can maintain the original goals set for these ecosystems under changing climatic conditions. The strategies will be useful to federal agencies and can also be broadly applied to lands and waters managed by other government or nongovernmental organizations.

The report finds that climate change can increase the impact of traditional stressors (such as pollution or habitat destruction) on ecosystems, and that many existing best management practices to reduce these stressors can also be applied to reduce the impacts of climate change. For example, current efforts to reverse habitat destruction by restoring vegetation along streams also increase ecosystem resilience to climate change impacts, such as greater amounts of pollutants and sediments from more intense rainfall. Our country's ability to adapt to climate change will depend on a variety of factors including recognizing the barriers to implementing new strategies, expanding collaboration among ecosystem managers, creatively re-examining program goals and authorities, and being flexible in setting priorities and managing for change.

The peer-reviewed report provides the best-available science to date on management adaptations for ecosystems and resources. It was developed following the guidelines developed by the U.S. Climate Change Science Program.

The Global Change Research Program in EPA's Office of Research and Development led the development of the report. It is one of 21 synthesis and assessment products commissioned by the CCSP.

The CCSP was established in 2002 to provide the Nation with science-based knowledge to manage the risks and opportunities of changes in the climate and related environmental systems. The program is responsible for coordinating and integrating the research of 13 federal agencies on climate and global change.

For more information on Preliminary Review of Adaptation Options for Climate-Sensitive Ecosystems and Resources: http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=180143

The Office of Research and Development's Global Change Research Program: http://www.epa.gov/ord/npd/globalresearch-intro.htm

The U.S. Climate Change Science Program (CCSP) http://www.climatescience.gov/

Contact: Roxanne Smith
smith.roxanne@epa.gov
202-564-4355
U.S. Environmental Protection Agency

Monday, June 16, 2008

FCX Clarity, Honda's Hydrogen Fuel Based Car On US Roads!


Honda's latest addition to the fleet, a four-door sedan, called the FCX Clarity, runs on electricity generated from a fuel cell battery that is powered by hydrogen. The cat itself produce only Steam (read H2O or water) as byproduct no CO or CO2 or other bad stuff. But current technology producing Hydrogen uses non renewable energy and it is not widely available either.
According to Honda, the FCX Clarity can get a combined (city and highway driving) fuel efficiency of about 72 miles per kg of H2 which, according to Honda's own estimates, is the equivalent of getting about 74 mpg on a gas-powered car. The car can be driven for about 280 miles before needing to be refueled.
Many Other car makers are testing or having prototypes of Hydrogen based vehicles but only Honda so far come out with a production model!
Now Someone figure out how to create Hydrogen from renewable energy sources. I remember creating Hydrogen from water in the high school lab but as I remember the transformer provided DC, Direct Current was plugged on the lab's electricity supply!.
You can learn more about FCX Clarity here.

Friday, June 06, 2008

Senate Republicans Kill The Global Warming Bill, Climate Security Act of 2008!

I guess Lobbyists are better armed with money and resources than activists. With the state of economy and other data it is evident what stupid politicians could do to a country and the world! With all the evidence and data and activities, lobbying and big monies with the selp of Senate Republicans, have defectively killed the Climate Security Act of 2008!.

Senate Republicans today effectively killed a global warming bill that would have required the United States to make major cuts in greenhouse gas emissions in the coming decades.

The bill, which had bipartisan support, fell a dozen votes short of the 60-vote threshold it needed to overcome a GOP filibuster and move to final consideration. The 48-36 vote for the climate bill came after bitter debate in which opponents charged that it would damage the U.S. economy and drive up gasoline and other energy prices. Democratic supporters of the measure accused Republicans of spreading misinformation about it.

President Bush had vowed to veto the bill, known as the Climate Security Act of 2008, even if Congress had approved it.

Today's vote left Senate Majority Leader Harry M. Reid (D-Nev.) with no choice but to withdraw the bill, a spokesman said. Reconsideration of the proposed legislation thus appeared likely to be postponed until next year after a new Congress and president take office.

The bill, sponsored by Sen. Joseph I. Lieberman (I-Conn.) and Sen. John W. Warner (R-Va.), would have introduced a cap-and-trade system for greenhouse gases as part of provisions to cut emissions linked to global warming nearly 70 percent by 2050.

Read the two page report at Washington Post.

3M, EPA Reaches Agreement On Clean-air Violations.

No. 08-OPA103


CHICAGO (June 6, 2008) - U.S. Environmental Protection Agency Region 5 has reached an agreement with 3M Co. on alleged clean-air violations at the company's Abrasive Systems Division at 10746 Innovation Road, Cottage Grove, Minn.

The agreement, which includes a $30,000 penalty, resolves EPA allegations that 3M violated monitoring and record keeping requirements for systems to control particulate matter emissions from its calciners and dryers.

The alleged violations were discovered during an EPA inspection in October 2006. EPA said 3M has since demonstrated compliance with these requirements.

Inhaling high concentrations of particulates can affect children, the elderly and people with heart and lung diseases the most.

Information about EPA Region 5's air enforcement program is at http://www.epa.gov/region5/air/enforce/index.html. Potential environmental violations may be reported at http://www.epa.gov/compliance/complaints.

Wednesday, June 04, 2008

Sharp Solar Goes On HSBC's Tallest Corporate Headquarter Building In Europe

HSBC's Canary Wharf office tower is the tallest corporate headquarter building in Europe to feature solar panels. Covering 617 square metres of the roof of the building, it is also the largest installation of photovoltaic panels on a corporate office in London.

HSBC's energy saving measure illustrates the bank's latest commitment to reducing its impact on the environment since it became carbon neutral in 2005.

At 213 metres (700 feet) high, building engineers developed fixing techniques for the 422 solar panels to withstand wind speeds of up to 140 mph.

The panels - manufactured by Sharp Solar in the UK - will generate approximately 1,550,000 kilowatt hours of green electricity over the building's lease - enough energy to power 20 average UK homes per year. Since 2004, HSBC has decreased its energy consumption at the headquarter office building by seven per cent, or 20 per cent per full time employee - a significant reduction for a corporate building of its size.

"This installation showcases innovation and demonstrates that renewable technologies of this scale can be delivered successfully. If every headquarter building around the world invested in solar panels, it would significantly accelerate the transition towards a low carbon economy and we hope to become a catalyst for this," says Simon Martin, Head of Group Corporate Sustainability, HSBC Holdings Plc.

HSBC expects to save a further 3 per cent (1,750,000 kilowatt hours) of its total energy consumption in its global headquarter building over the next two years through energy efficient measures. This includes improving the efficiency of the buildings air conditioning system.

These energy efficient initiatives are part of the bank's US$90 million Global Environmental Efficiency Programme, launched last year, to introduce renewable energy technology, water and waste reduction programmes and employee participation across its 10,000 offices around the world.

For further press information or photography, please contact: Jennifer Storemski 020 7992 5786 or Jennifer.r.storemski@hsbc.com

Mentarix Pte Ltd, a Singapore-based solar photovoltaic component startup gets first round of funding from BAF Spectrum Pte Ltd

Technology to Increase Solar Panel Efficiency by 20% Through Quantum Dot Nanotechnology

Singapore, June 4, 2008: Singapore-based seed fund BAF Spectrum Pte Ltd today announced taking a 30 percent stake in Mentarix Pte Ltd, a Singapore-based solar photovoltaic component startup. The investment reflects BAF Spectrum’s strategy to invest in early-stage clean technology companies that provide new and innovative solutions.

By utilizing quantum dot nanotechnology and photonic technology, Mentarix plans to design and manufacture products that can increase solar photovoltaic cell operating efficiency by at least 20% from their relative baseline. The technology is applicable to both traditional crystalline silicon cells as well as thin film cells based on cadmium telluride/cadmium sulfide (CdTe/CdS), copper indium gallium selenide (CIGS) and amorphous silicon.

The products will come in the form of a thin film that is attached on to the existing solar cells to change the incoming sunlight characteristics that is more easily absorbed by the existing solar panels.

Mentarix has a strong founder team with proven track records in delivering large-scale infrastructure projects. The company is working with the Nanyang Polytechnic in Singapore where a team of experts from both Singapore and abroad will assist in developing and commercializing the products.

Investment lead and Managing Director of BAF Spectrum, Mr. Francis Chua commented: “For the coming years, we want to aggressively fund technology companies that can increase the viability of alternative energy.” Mentarix is the second company in the field of clean technologies funded by BAF Spectrum. Anacle Systems, an energy-profiling software company, received its first round of financing from the fund last year. “We believe in the technology of Mentarix and also the talents behind these proprietary solar photovoltaic efficiency enhancement products.” added Mr., Chua who will take a seat on the Mentarix Board of Directors.

“BAF Spectrum shares our long-term vision in building a vertical solar-hydrogen industry business to power the world energy need. I admire their commitment and willingness to take risk at the current prototyping stage. Our current alliance and good working relationship with BAF Spectrum will help us realize our common dream of a solar-hydrogen economy”, said Mr. Chee Khar Chit, Founder and CEO of Mentarix.

Mr. Francis Chua added: “I am heartened and encouraged to note that Mr. Chee Khar Chit is giving up a well-paying job in Malaysia to relocate to Singapore to start this project on a full-time basis. The Singapore government’s recent financial incentives and the existing eco-infrastructure to nurture start-up technology companies through SPRING and other agencies are clearly important pull factors.”

The market size for the efficiency enhancement component industry is forecasted to be Euro 500 million by 2020. With the current urgency in finding an economical alternative energy source, solar power companies worldwide are striving to deliver lower cost & higher efficiency solutions. Both industry and governments play critical roles in shaping the success of mass deployment of solar power. Technologies enabling higher efficiency and lower cost solar electric generation are crucial components to realize this goal. Mentarix aims to deliver a series of products improving the operating efficiency of any photovoltaic cell with minimum disruption to their existing production process. Mentarix has removed the need to equip the system with any extra mechanical structures. The photovoltaic efficiency enhancement component market is currently a green field segment in the solar energy industry of which Mentarix will be working towards taking significant market share with its first mover advantage.
BAF Spectrum Pte Ltd
Mentarix Pte Ltd

Tuesday, June 03, 2008

2007 Annual Report On U.S. Wind Power Installation, Cost, and Performance Trends From Department Of Energy.


Click w or on the image above to download the complete report
3.9 MB PDF file

Among all the alternative energy sources wind power has been active, in the back ground for years. I have involved with large and small wind power projects over last 20 years! yes since while attending high school.
My first wind power project was to provide wind powered water pumps to poor villagers in developing countries in Africa and Asia. They were very simple water pumps to bring ground water to surface so that villagers had enough clean water to drink, for small plot farming etc. I have since gone into larger ideas.
But if you are even a little interested in wind energy, this report should fill up a lot of gaps in your knowledge or enhance the knowledge you already have. For instance did you know that in 2007, the US wind energy took a 46% surge with 5329 MW added to the system.