Category Archives: Energy

Tidal Turbine Farms to Power 40,000 Homes

Scotland Plans World’s First Tidal Turbine Farms

Scottish Power Renewables will apply for planning permission next year to build the two farms in Northern Ireland’s seabed. The turbines will be manufactured in Scotland in an intentional boost to the country’s green-collar job market. The 98-foot structures have been tested to operate in water as deep as 328 feet, and they spin slow enough to allow marine life to avoid the 66-foot blades.
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New York City installed its first turbine for their tidal power farm earlier this month, but the Scottish plan differs in that the farms will be located in the open sea, not a river or straight.

Project aims to harness sea power

Projects on the firth could be operational by 2020… The Scottish and Irish sites would host up to 60 of the turbines – 20 at each site – generating 60 megawatts of power for up to 40,000 homes.

Seventh-grader’s Solar Cell Research

photo of William Yuan

Seventh-grader shines with solar cell research

Yuan worked on his project for the past two years with the encouragement of his science teacher Susan Duncan; support of his parents Gang Yuan and Zhiming Mei; and counsel of professional mentors Professor Chunfei Li of Portland State University’s Center for Nanofabrication and Electron Microscopy, Fred Li of Applied Materials Inc. and Professor Shaofan Li of the Department of Civil Engineering at the University of California – Berkeley.

“He is our youngest fellow in science that we’ve ever had,” Moessner said. “He is really spectacular. “His project will really make a difference in advancing the technology of solar cells. You would never know he’s 12 looking at the quality of his work.”

Beaverton boy lauded for solar cell invention

there have been many questions about the research by William Yuan. Some have even questioned whether he copied the research of others and claimed it as his own. That is far from the case. Yuan fully documented all of his sources and never tried to imply that he invented the 3D solar cell. He did create a new type of 3D solar cell that works for visible and UV light

William Yuan was awarded a 2008 Davidson Fellow award

In his project, “High Efficient 3-Dimensional Nanotube Solar Cell for Visible and UV Light,” William invented a novel solar panel that enables light absorption from visible to ultraviolet light. He designed carbon nanotubes to overcome the barriers of electron movement, doubling the light-electricity conversion efficiency. William also developed a model for solar towers and a computer program to simulate and optimize the tower parameters. His optimized design provides 500 times more light absorption than commercially-available solar cells and nine times more than the cutting-edge, three-dimensional solar cell.

15 Photovoltaics Solar Power Innovations

15 Photovoltaics Solar Power Innovations You Must See

Researchers at McMaster University (coolest name ever) have succeeded in ‘growing’ light-absorbing nanowires made of high-performance photovoltaic materials on carbon-nanotube fabric. In other words, hairy solar panels.

The aim is to produce flexible, affordable solar cells that, within five years, will achieve a conversion efficiency of 20%. Longer term, it’s theoretically possible to achieve 40% efficiency!
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while looking for a solution, researchers noticed that moths have very non-reflective eyes (“most likely an evolutionary defense against nocturnal predators”). The moth-eye process creates panels that reflect less than 2% of light. That’s a vast improvement over the 35 to 40% reflection rate seen without the anti-reflection coating layers.
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Some experts are speculating that First Solar might beat over 80 competitors to achieve manufacturing costs low enough to market solar panels at less than $1 per Watt, the target considered necessary for solar to compete with coal-burning electricity on the grid.

A Cheap And Efficient Wind Turbine

Energy Ball – A Cheap And Efficient Wind Turbine

Home Energy is a Swedish company which has designed a new wind turbine that is very silent and it’s based on six curved rotor blades attached to a rotor hub at both ends. The new and futuristic wind turbine is called Energy Ball and when it rotates it looks like a sphere and it creates a wind flow which resembles the rapids of a river – this wind flow pattern is called the Venturi effect.

Best Research University Rankings – 2008

The annual ranking of research Universities are available from Shanghai’s Jiao Tong University. The methodology values publications and faculty awards which provides a better ranking of research (rather than teaching). Results from the 2008 rankings of Top 500 Universities worldwide, country representation of the top schools:

location	Top 100	% of World Population	% of World GDP	% of top 500
USA	54	4.6%	27.2%	31.6%
United Kingdom	11	0.9	4.9	8.3
Germany	6	1.3	6.0	8.0
Japan	4	2.0	9.0	6.2
Canada	4	0.5	2.6	4.2
Sweden	4	0.1	0.8	2.2
France	3	0.8	4.6	4.6
Switzerland	3	0.1	0.8	1.6
Australia	3	0.3	1.6	3.0
Netherlands	2	0.2	1.4	2.4
Denmark	2	0.1	0.6	0.8
Finland	1	0.1	0.4	1.2
Norway	1	0.1	0.7	0.8
Israel	1	0.1	0.3	1.2
Russia	1	2.2	2.0	0.4
China		20.5	6.6	6.0
India		17.0	1.9	0.4

There is little change in most of the data from last year, which I think is a good sign, it wouldn’t make much sense to have radical shifts over a year in these rankings. Japan lost 2 schools in the top 100, France lost 1. Denmark (Aarhus University) and Australia (University of Sydney) gained 1. Last year there was a tie so there were 101 schools in the top 100.

The most dramatic data I noticed is China’s number of top 500 schools went from 14 to 30, which made me a bit skeptical of what caused that quick change. Looking more closely last year they reported the China top 500 totals as (China 14, China-Taiwan 6 and China-Hong Kong 5). That still gives them an impressive gain of 5 schools.

Singapore has 1 in the 102-151 range. Taiwan has 1 ranked in the 152-200 range, as do Mexico, Korea and Brazil. China has 9 in the 201-302 range (including 3 in Hong Kong). India has 2 in the 303-401 range.

University of Wisconsin – Madison is 17th again 🙂 My father taught there while I grew up.
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Wireless Power

An end to spaghetti power cables by Maggie Shiels, BBC News

Mr Rattner envisaged a scenario where a laptop’s battery could be recharged when the machine gets within several feet of a transmit resonator which could be embedded in tables, work surfaces, picture frames and even behind walls.

Intel’s technology relies on an idea called magnetic induction. It is a principle similar to the way a trained singer can shatter a glass using their voice; the glass absorbs acoustic energy at its natural frequency. At the wall socket, power is put into magnetic fields at a transmitting resonator – basically an antenna. The receiving resonator is tuned to efficiently absorb energy from the magnetic field, whereas nearby objects do not.

Intel’s demonstration has built on work done originally by Marin Soljacic, a physicist at Massachusetts Institute of Technology (MIT). At the Intel Developer Forum in San Francisco, researcher Alanson Sample showed how to make a 60-watt light bulb glow from an energy source three feet away. This was achieved with relatively high efficiency, only losing a quarter of the energy it started with.

Don’t expect to see this available commercially this year, they estimate it is at least 5 years away. Though this is not university and business collaboration in the sense they are working together, it is in the sense that Intel is building upon the work MIT did. See other posts on university and business collaboration.

Google.org Invests $10 million in Geothermal Energy

Google is investing huge sums in renewable energy with the aim of cheaper than coal renewable energy. Google.org (the philanthropic arm of Google) announced $10.25 million in investments in a breakthrough energy technology called Enhanced Geothermal Systems (EGS).

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.
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University of Michigan Wins Solar Car Challenge Again

U-M wins North American Solar Challenge for the fifth time

The University of Michigan’s Solar Car Team won the North American Solar Challenge, crossing the finish line in Alberta, Canada on Tuesday after more than 50 hours of racing over nine days.
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The car averaged around 45 mph and led from the first day, besting 15 university teams that raced the 2,400-mile course from Plano, Texas to Calgary. Continuum finished about 10 hours before the second place team.
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The North American Solar Challenge normally takes place every other year in the same year as the world race, but in 2007 its previous sponsor backed out. The race’s future was in question until Toyota took over the sponsorship.

Cost Efficient Solar Dish by Students

Solar Energy Dish

Low-cost system could revolutionize global energy production

A team led by MIT students this week successfully tested a prototype of what may be the most cost-efficient solar power system in the world – one team members believe has the potential to revolutionize global energy production.

The system consists of a 12-foot-wide mirrored dish that team members have spent the last several weeks assembling. The dish, made from a lightweight frame of thin, inexpensive aluminum tubing and strips of mirror, concentrates sunlight by a factor of 1,000 – creating heat so intense it could melt a bar of steel.

To demonstrate the system’s power, Spencer Ahrens, who just received his master’s in mechanical engineering from MIT, stood in a grassy field on the edge of the campus this week holding a long plank. Slowly, he eased it into position in front of the dish. Almost instantly there was a big puff of smoke, and flames erupted from the wood. Success!

Burning sticks is not what this dish is really for, of course. Attached to the end of a 12-foot-long aluminum tube rising from the center of the dish is a black-painted coil of tubing that has water running through it. When the dish is pointing directly at the sun, the water in the coil flashes immediately into steam.

Someday soon, Ahrens hopes, the company he and his teammates have founded, called RawSolar, will produce such dishes by the thousands. They could be set up in huge arrays to provide steam for industrial processing, or for heating or cooling buildings, as well as to hook up to steam turbines and generate electricity. Once in mass production, such arrays should pay for themselves within a couple of years with the energy they produce.

“This is actually the most efficient solar collector in existence, and it was just completed,” says Doug Wood, an inventor based in Washington state who patented key parts of the dish’s design–the rights to which he has signed over to the student team.

Great job students. Good luck with RawSolar. Photo (by David Chandler): Matt Ritter shows steam coming from the return hose after passing through the coil above the solar dish.

Kudzu Biofuel Potential

Kudzu Gets Kudos as a Potential Biofuel

The kudzu vine, also known as “the plant that ate the South,” was brought from eastern Asia in 1876 and can grow more than 6.5 feet a week. Its starchy roots plunge deep into the soil, and just a fragment of the plant remaining in the ground is enough to allow it to come back next season.

“Kudzu is just a large amount of carbohydrate sitting below ground waiting for anyone to come along and dig it up,” Sage said. “The question is, is it worthwhile to dig it up?”
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The roots were by far the largest source of carbohydrate in the plant: up to 68 percent carbohydrate by dry weight, compared to a few percent in leaves and vines.

The researchers estimate that kudzu could produce 2.2 to 5.3 tons of carbohydrate per acre in much of the South, or about 270 gallons per acre of ethanol, which is comparable to the yield for corn of 210 to 320 gallons per acre. They recently published their findings in Biomass and Bioenergy.

Crucial to making the plan work would be figuring out whether kudzu could be economically harvested, especially the roots, which can be thick and grow more than six feet deep. To balance this expense, Sage said, the plant requires zero planting, fertilizer or irrigation costs.