Posts Tagged ‘led’

Solar Sunday

Sunday, February 22nd, 2009

Solar Sunday is my weekly roundup of renewable energy and energy efficiency news from around the web.

ETC goes LED

After long speculation about whether entertainment-lighting leader ETC would enter the LED market, the company has announced their acquisition of the Selador™ product line from Selador co-founders Rob Gerlach and Novella Smith.

“We didn’t want to make a ‘me too’ RGB or RGBA product that didn’t provide the kind of significant innovation in lighting we strive for,” says ETC CEO Fred Foster. “With its exclusive x7 Color System™, the Selador product line produces a far superior quality of color and light to anything that we had seen before in LEDs. We also benefit from the brainpower of Selador LED experts Novella and Rob – great people who will join our ETC team.”

The Sun turns CO2 into Fuel

Powered only by natural sunlight, an array of nanotubes is able to convert a mixture of carbon dioxide and water vapour into natural gas at unprecedented rates.

Such devices offer a new way to take carbon dioxide from the atmosphere and convert it into fuel or other chemicals to cut the effect of fossil fuel emissions on global climate, says Craig Grimes, from Pennsylvania State University, whose team came up with the device.

Although other research groups have developed methods for converting carbon dioxide into organic compounds like methane, often using titanium-dioxide nanoparticles as catalysts, they have needed ultraviolet light to power the reactions.

The researchers’ breakthrough has been to develop a method that works with the wider range of visible frequencies within sunlight.

Cell Phones Go Solar

Samsung Electronics Co. Ltd. recently unveiled its new, innovative solar powered full-touch screen phone, the “Blue Earth.” The Blue Earth phone is also part of “The Blue Earth Dream: Eco-living with SAMSUNG mobile,” an environmental initiative by the company to reduce its CO2 emissions, eliminate its use of hazardous substances and encourage cell phone recycling.

The phone is made from a recycled plastic prodct called PCM, which is made from water bottles. The packaging for Blue Earth is designed to be small and light, is made from recycled paper and comes with a 5-star energy efficient charger that uses standby power lower than 0.03W. The phone and charger are also free from harmful substances such as brominated flame retardants, beryllium and phthalates.

No Heating Required

Judd Blunk’s house is like a womb. Although the temperature outside is in the 20s, his triple-pane windows overlooking the Fox River feel warm from inside.

Because there is no furnace, the rooms are quiet. The only sound in the kitchen is the hum of a refrigerator, which along with other appliances, helps supply heat to the airtight 2,300-square-foot Batavia, Ill., home.

Blunk is part of a small movement of engineers and homeowners who are taking President Barack Obama’s vision of building energy-efficient homes to another level. They are inspired by “passive houses” in Germany that are so well-insulated and energy-efficient they eliminate the need for a conventional heating system.

Such design could be the future as Americans become more concerned with shrinking their carbon footprints and look at ways to avoid volatile energy prices.

Butterfly Effect

THE light-scattering structures that make butterfly wings so striking could be used to make cheaper, more efficient solar cells.

In dye-sensitised solar cells a dye coating on a titanium dioxide surface forms a “photoanode” that absorbs photons and pumps out electrons. To improve their efficiency, Di Zhang of Shanghai Jiao Tong University in China and colleagues borrowed the light-absorbing properties of the wings of the Paris peacock butterfly.

After soaking samples of the wing in a titanium-containing solution, they processed it to produce a titanium dioxide deposit that reproduced the wing’s honeycomb structure (Chemistry of Materials, DOI: 10.1021/cm702458p). When this was used to make a photoanode, the resulting cell’s efficiency was 10 per cent higher than normal.

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This day is brought to you by the color Red

Wednesday, October 29th, 2008

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Sunlight causes wrinkles, among other kinds of skin damage, but a different kind of light – specifically the red glow from LEDs – may help to smooth them out by altering the interactions between water and elastic proteins in the skin.

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A groundbreaking study by two University of Rochester psychologists to be published online Oct. 28 by the Journal of Personality and Social Psychology adds color—literally and figuratively—to the age-old question of what attracts men to women.

Through five psychological experiments, Andrew Elliot, professor of psychology, and Daniela Niesta, post-doctoral researcher, demonstrate that the color red makes men feel more amorous toward women. And men are unaware of the role the color plays in their attraction.

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Solar Sunday

Sunday, October 12th, 2008

Solar Sunday is my weekly roundup of renewable energy and energy efficiency news from around the web.

China’s First Zero Emissions Building

Situated in Ningbo, China, the University of Nottingham’s new Centre for Sustainable Energy Technologies (CSET) is a welcome addition to the landscape as well as the air above Zhejiang province. Inspired by Chinese lanterns and traditional wooden screens, Mario Cucinella Architects packed CSET with a variety of sustainable attributes to make it the the first zero-emissions building in China.

Located in a country that relies heavily on coal power to support a population nearing 1.5 billion, CSET’s sustainable attributes are are vigorous as its environmental curriculum. The building is powered by a large array of photovoltaic cells and geothermal energy (which cools and heats the five story floor slabs). Any additional energy collected is stored in batteries that can provide up to two week’s worth of electricity for sunless days.

CSET’s double-glass skin reduces solar radiation, and the large rooftop opening creates natural ventilation while allowing daylight to illuminate the interior spaces. The building also makes extensive use of locally sourced materials in its construction and boasts an onsite rain and gray-water recycling center.

Streetlights go Solar

The latest high power LED street lights from European leader JolietTechnology, coupled with ultra efficient photovoltaic panels offers a new generation of energy efficient, pollution free solar street lighting solutions.

The advantages of cost effective LED lighting for streets, crossings, parking areas, gardens and public areas compared to conventional sodium lamps are undeniable. Adding a photovoltaic power source offers a new dimension.

The new ‘Cleanstreet’ solar LED street light from Joliet Technology is an integrated mast head fitting which employs two 130Wp photovoltaic modules and a electronic controller to charge batteries which operate the 56W LED lamp unit. The advanced system controller offers a night/day sensor for automatic switching.

The Future of Hydrogen is in Corn

The next alternative fuel in a vehicle’s tank might be nothing more than gas with a little help from corn. However, instead of the usual petroleum-based fuel, this gas will be hydrogen, and the corn will be in the form of corncob-charcoaled briquettes. To further develop this alternative fuel concept, researchers at the University of Missouri and Midwest Research Institute (MRI) were recently awarded a three-year, $1.9 million grant from the U.S. Department of Energy (DOE) to continue studying a solution to hydrogen storage in vehicles.

“Developmental hydrogen vehicles exist today but current designs require large, bulky tanks of compressed hydrogen gas to hold the fuel,” said Peter Pfeifer, professor and chair of the Department of Physics in the MU College of Arts and Science. “The tanks also have a relatively small range, only holding enough fuel to travel up to 200 miles. We will be working on reducing the size and weight of the tank and increasing the storage capacity by developing storage materials that hold hydrogen at a much lower pressure than the current high-pressure tanks. The new tanks will store hydrogen on the surface of appropriately engineered carbons.”

The Future is Organic

On a bank of the Mohawk River, a windowless industrial building of corrugated steel hides something that could make floor lamps, bedside lamps, wall sconces and nearly every other household lamp obsolete. It’s a machine that prints lights.

The size of a semitrailer, it coats an 8-inch wide plastic film with chemicals, then seals them with a layer of metal foil. Apply electric current to the resulting sheet, and it lights up with a blue-white glow.

You could tack that sheet to a wall, wrap it around a pillar or even take a translucent version and tape it to your windows. Unlike practically every other source of lighting, you wouldn’t need a lamp or conventional fixture for these sheets, though you would need to plug them into an outlet.

The sheets owe their luminance to compounds known as organic light-emitting diodes, or OLEDs. While there are plenty of problems to be worked out with the technology, it’s not the dream of a wild-eyed startup.

OLEDs are beginning to be used in TVs and cell-phone displays, and big names like Siemens and Philips are throwing their weight behind the technology to make it a lighting source as well. The OLED printer was made by General Electric Co. on its sprawling research campus here in upstate New York. It’s not far from where a GE physicist figured out a practical way to use tungsten metal as the filament in a regular light bulb. That’s still used today, nearly a century later.

The invention of the incandescent bulb created the pattern for home lighting: Our light sources are small and bright. Maybe there are a few in the center of the ceiling, and a few in the corners of the room. Because they’re too bright to look at, they need to be reflected and diffused with lamp shades and frosted glass.

OLEDs could overturn all that, with broad, diffuse light sources bathing rooms in a gentle glow. Photographers go to great lengths to diffuse the illumination they use when shooting portraits, because they know we look our best in soft light.

The big glowing sheets could also make light sources out of everyday things. GE imagines putting OLEDs on the inside of window blinds – pull them down, light them up, and you have light streaming from the window, even at night. You could even make OLED wallpaper, since the material is flexible.

Paris Triangulates Green Architecture

Recently Herzog & de Meuron revealed Le Project Triangle, an incredible structure that will rise 200 meters from the Porte de Versailles in Paris. The stunning skyscraper will feature a profile so slim that it casts virtually no shadow, and its orientation will be optimized to take advantage of both solar and wind power. Paris’ new pyramid will be the first high-rise to be approved for construction is the city’s center since 1977, thanks to the recent lifting of a 31-year-old ban established by the previous Mayor of paris, Jacques Chirac.

The Real Cost of Renewables

As utility costs mount ever higher, Americans now have real options to take home energy matters into their own hands with “green” systems that can pay for themselves in as little as a few years.

Among the choices: wind, solar, geothermal and a “microhydro” option that is potentially cheaper than a year’s tuition at many state colleges.

Choosing the do-it-yourself route can offer the freedom of going partially or totally off the grid. And, if the energy generated exceeds your actual usage, you can even sell the excess juice to your utility company. But none of this is free.

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Solar Sunday

Sunday, May 18th, 2008

Solar Sunday is my weekly roundup of renewable energy and energy efficiency news from around the web.

Germany goes Solar

This sad stretch of eastern Germany, with its deserted coal mines and corroded factories, epitomizes post-industrial gloom. It is a place where even the clouds rarely seem to part.

A solar cell is checked on the assembly line at Q-Cells in Thalheim, Germany. More than 40,000 people work in the photovoltaic industry in Germany, helping to revive once-blighted areas.

Yet the sun was shining here the other day — and nowhere more brightly than at Q-Cells, a German company that surpassed Sharp last year to become the world’s largest maker of photovoltaic solar cells. Q-Cells is the main tenant among a flowering cluster of solar start-ups here in an area known as Solar Valley.

Thanks to its aggressive push into renewable energies, cloud-wreathed Germany has become an unlikely leader in the race to harness the sun’s energy. It has by far the largest market for photovoltaic systems, which convert sunlight into electricity, with roughly half of the world’s total installations. And it is the third-largest producer of solar cells and modules, after China and Japan.

LEDs light up the club scene

American DJ has unveiled a revolutionary new kind of intelligent moving head powered by a mega-watt LED. The company’s new X-Move LED utilizes one super-size 20-watt white LED to create a brawny beam that’s powerful enough to project gobo patterns and colors across floors, walls and ceilings.

Comparable to a 250W halogen lamp in output, the X-Move LED’s whopper LED beam shines through the fixture’s color and gobo wheels to create stunning images and patterns that look like they were produced by a traditional halogen or discharge effect. Yet, although the X-Move LED’s effects are indistinguishable from a conventional moving head to the eye, the unit offers the benefits and ease of LED technology, such as a long 50,000-hour rated lamp life and a low power draw. At a mere 44W, it consumes just a fraction of the energy of a traditional 250W effect! In addition to saving energy, this lets you hook up more units on a single electrical circuit.

A windy future

The U.S Department of Energy (DOE) today released a first-of-its kind report that examines the technical feasibility of harnessing wind power to provide up to 20 percent of the nation’s total electricity needs by 2030. Entitled “20 Percent Wind Energy by 2030”, the report identifies requirements to achieve this goal including reducing the cost of wind technologies, citing new transmission infrastructure, and enhancing domestic manufacturing capability.

Most notably, the report identifies opportunities for 7.6 cumulative gigatons of CO2 to be avoided by 2030, saving 825 million metric tons in 2030 and every year thereafter if wind energy achieves 20 percent of the nation’s electricity mix

Royal Renewables

HSH Prince Albert II of Monaco has been a long time supporter of the green cause too. Famed son of Grace Kelly, and head of Monaco, that little tiny tax-free haven falling into the sea, his foundation has done some serious, ground breaking work on global warming; renewable energies; loss of biodiversity; improving access to water and fighting desertification. In recognition, he has now been named Europe’s “Champion of the Earth” by the United Nations Environmental Programme. On receiving the award, he said: “We can’t go on as business as usual. Those who haven’t realised that yet will be sorry in a few years”. He pledged to “carry out missions to raise the alarm and heighten awareness in the field. The world is facing an unprecedented threat. We must assume our responsibilities without delay and rise to the challenge that history has placed upon our path”.

From oil to renewables

One of the world’s largest oil producers has begun construction on the first zero-carbon city, powered entirely by renewable energy.

Officials from Abu Dhabi, the capital of the United Arab Emirates, touted plans for a $22 billion development known as the Masdar Initiative at the Massachusetts Institute of Technology (MIT), in Cambridge, US, on 5 May.

“This is going to create huge business and research opportunities to get beyond where we are today,” says Khaled Awad, of the government-owned Abu Dhabi Future Energy Company.

UAE is the third-largest oil exporting country in the world and sits on 10% of the planet’s known oil reserves. Awad, however, sees the city, which will house an alternative energy research institute, as an investment in alternative energies that will eventually replace oil.

Electric is Glamourous

As he pulled one of the sleek new automobiles down a side street Thursday and put the pedal to the metal, its lithium-ion battery-powered engine didn’t give off sparks. It just emitted a powerful hum, something like a much quieter version of a jet taking off.

“Accelerate pretty good?” asked Snyder, head of client services for Tesla, who knew the answer.

“I call it a turbine sound,” he said of the sound. “Because it’s an electric motor it’s got 100 percent torque all the time. So it just pulls you like when you’re taking off in an airplane.”

After several years of development, the Roadster – with sleek lines like a Ferrari or Porsche and a sticker price of $109,000 – officially moves from the drawing boards to the market next week when Tesla’s first store opens. It’s near the University of California, Los Angeles, in the city’s toney Westwood neighborhood where Beverly Hills, Brentwood and Hollywood practically intersect.

“Because it’s Hollywood and glamorous, this is the flagship store,” Snyder said.

The next store is to open in a couple months near Tesla’s headquarters in the Silicon Valley city of San Carlos, where the car was developed with venture capital of more than $40 million from such investors as Google Inc. founders Larry Page and Sergey Brin. More stores are planned for Chicago, New York and other cities by early next year.

Although a fully loaded model can set a buyer back as much as $124,000, that’s still cheap compared with a high-end Ferrari. And its 6,831-cell lithium-ion battery pack gives off no emissions.

The car goes from 0 to 60 mph in just under four seconds and tops out at 125 mph. It goes 225 miles on one charge and can be fully recharged in 3.5 hours, which Tesla officials say should allow most people to drive it to work and back and recharge it at night like a cell phone.

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Solar Sunday

Sunday, January 27th, 2008

Solar Sunday is my weekly roundup of renewable energy and energy efficient lighting news from around the web. It’s quite exciting this week!

Whole City Goes LED

We haven’t been giving Ann Arbor, Michigan enough attention and the city deserves it! Last year Ann Arbor joined forces with LED manufacturer Cree, Inc, on an ever-expanding citywide LED initiative to save energy and reduce greenhouse gas emissions. With a recent retrofit contract signed with Lumecon, Ann Arbor is on its way to being the first U.S. city to light up its downtown with 100% LED technology!

The city strung its holiday cheer with about 114,000 LED lights and plans to convert all of its downtown public lighting starting with more than 1,000 LED streetlights. The effort is aligned with other North American cities like Raleigh, N.C., and Toronto, which have both started similar energy-saving efforts.

When Ann Arbor reaches its ambitious goal, city officials expect to see energy use for public lighting cut in half and a reduction of 2,425 tons CO2 annually. The city also expects a short payback of 3.8 years on its investment, which was funded in part with a $630,000 grant from the Ann Arbor Downtown Development Authority.

Conceptual Car saves energy and makes the streets safer

Ross Lovegrove’s Car on a Stick concept takes multi-tasking to extremes. The latest idea from the former Apple and Sony designer, who has quite a penchant for solar-powered thingies is a solar-powered transport pod that can carry up to four people, plus shopping bags, that can be stored in an ingenious fashion.

A telescopic pole beneath the vehicle enables the car on a stick to be raised when not in use, keeping it off the road and transforming it into a street light. Sat-nav equipped, the bubble cars respond to voice commands and gather energy via a solar canopy on the roof.

Air Tree – Eat CO2 and Generate clean power

Choose the right LEDs with simple web app

Future Lighting Solutions (www.futurelightingsolutions.com), a division of Future Electronics, today launched the industry’s first web-based tool specifically designed to enable faster, easier integration of high power LUXEON® LEDs into new lighting systems. The LED Light Engine Selector Web Tool™ brings users to within just five easy steps of a solid-state lighting system by offering a broad range of off-the-shelf LUXEON LED light engines.

This Selector Web Tool allows users to specify fundamental parameters of their solution – such as color, form factor, optics, power and accessories – through simple menu options. The tool then guides the user through the selection process for a light engine and associated parts, providing a summary report with items and quantities, photos, datasheets, and a link directly to the Future Electronics Component Super Store to simplify on-line ordering.

Europe Leads Climate Change

Plans which would make Europe a world leader in tackling climate change and renewable energy policy were released by the European Commission on Wednesday.

The proposal describes how the European Union can reduce its greenhouse gas emissions to 20% below 1990 levels by 2020.

The package has been called “brave” by the Dutch environment agency and has been welcomed by the UK government, which says the package will give industry the secure framework it needs to build a low-carbon economy.

World’s Greenest Office Building

The home of the Eiffel Tower is getting a new architectural innovation- and a green one at that. The Energy Plus office building, to be located outside of Paris, is designed to consume no electricity other than that which it creates itself. This zero-energy building, according to the designers, will be the greenest office building ever created.

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Holiday Lighting

Tuesday, December 11th, 2007

Save money and save the environment.

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Smarter Lighting for the Empire

Saturday, April 21st, 2007

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Before most of Manhattan could shake itself out of bed, the great Empire State Building light-show smackdown — an eerily silent rainbow of shifting color high above the city that continued for 71 predawn minutes yesterday — had its finale an hour before sunrise.

Tests early on Friday compared three methods of illuminating the Empire State Building. On the building’s left face were its existing lights; in the center, the light-emitting diodes of Color Kinetics; on the right face, those of Philips.

At stake was a $5 million contract to bring 21st-century illumination to the city’s tallest skyscraper. And so, four blocks away from the building that jutted into the clear night sky, in a command center 28 floors above depopulated streets, walkie-talkies squawked as the building’s management witnessed a Kong vs. Godzilla face-off between two lighting behemoths.

“Now that’s a red,” said James T. Connors, the general manager of the Empire State Building Company, observing solid test-pattern blocks of color as they bathed nine floors in light. Primary hues soon yielded to vibrant stripes, spectrum cascades, strobe effects and programmed sequences called “Fourth of July,” “New Year’s Eve” and “Fireworks.”

Above, on the narrow 72nd floor parapet of the skyscraper at Fifth Avenue and West 34th Street — which is ordinarily dark after midnight — the two contenders, Color Kinetics Inc. and Philips Electronics, had installed test stands of high-brightness light-emitting diodes, or L.E.D.’s.

The test marked the beginning of a high-tech future for the landmark skyscraper. For more than a quarter century, the color of the floodlights has been changed by teams of maintenance workers. More than 200 times a year, the workers brave the elements for six hours to install, by hand, colored plastic lenses on 208 10,000-watt upward-facing floodlights on the 72nd and 81st floors, and more lights in the spire.

In the future, the building will be flooded in “intelligent illumination,” employing a new generation of computer-controlled L.E.D.’s capable of producing millions of colors and an infinity of patterns.

Yesterday’s test began at 3:58 a.m. Floors 72 to 81 on the western face were illuminated: Color Kinetics on the northern portion of the face, and Philips to the south.

The competition demonstrates “nothing less than the digitalization of an entire major industry, replacing archaic mechanical illumination with smarter lighting,”

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