Archive for Green

RB | December 13, 2010
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Urban Mining

Problems with Chinese supplies of rare earths have sent the Japanese in search of alternative sources, creating opportunities in what Japan refers to as urban mining. The New York Times reports that Kosaka Japan, a town of 6,000 is a leader in recycling valuable metals and minerals from the country’s huge stockpiles of used electronics like cellphones and computers. “We’ve literally discovered gold in cellphones,” Tetsuzo Fuyushiba, a former land minister and now opposition party member told the NYT.

Kosaka’s pursuits have become especially important for Japan since China recently started to block exports of all rare earths to Japan, the NYT reports. This has caused concerns at Japanese manufacturers, from Toyota to tiny electronics makers, because the raw materials are crucial to products as diverse as hybrid electric cars, wind turbines and computer display screens. In Kosaka, Dowa Holdings (OTC : DWMNF) which has mined the area from 1884 until 1990,  has built a recycling plant whose 200-foot-tall furnace renders old electronics parts into what the NYT describes as a molten stew from which valuable metals and other minerals are extracted. The salvaged parts come from around Japan and overseas, including the United States.

Dowa’s subsidiary, Kosaka Smelting and Refining, has so far successfully reclaimed gold and rare metals like indium, used in liquid-crystal display screens, and antimony, used in silicon wafers for semiconductors. The New York Times reports that the company is trying to develop ways to reclaim the harder-to-mine minerals included among the rare earths — like neodymium, a vital element in industrial batteries used in electric motors, and dysprosium, used in laser materials. The National Institute for Materials Science, a Japanese government-affiliated research group, says that used electronics in Japan hold an estimated 300,000 tons of rare earths. Though that amount is tiny compared to reserves in China, which mines 93 percent of the world’s rare earth minerals, tapping these urban mines could help reduce Japan’s dependence on its neighbor, analysts say.

Dowa has emerged as the field’s early leader. “It is important for Japan to actively tap its urban mines,” said Kohmei Harada, a managing director at the National Institute of Materials Science told the NYT.  Apart from rare metals and earths, Mr. Harada estimates that about 6,800 tons of gold, or the equivalent of about 16 percent of the total reserves in the world’s gold mines, lie in used electronics in Japan. “Japan’s economy has grown by gathering resources from around the world, and those resources are still with us, in one form or another,” he said.

But this form of recycling is an expensive and technically difficult process that is still being perfected. At Dowa’s plant, computer chips and other vital parts from electronics are hacked into two-centimeter squares. This feedstock is smelted in a furnace that reaches 1,400 degrees Celsius before various minerals are extracted. The factory processes 300 tons of materials a day, and each ton yields only about 150 grams of rare metals. Dowa has turned its attention to  developing ways to render neodymium, which is used in powerful magnets. Its extraction has proved costly. Neodymium is found only in tiny quantities in the speakers of cellphones,  making it a challenge to collect meaningful amounts, said Utaro Sekiya, the manager of Dowa’s recycling plant.  Finding enough electronics parts to recycle has also grown more difficult for Dowa, which procures used gadgets from around the world. A growing number of countries, including the United States, are recognizing the value of holding onto old electronics. And China already bans the export of used computer motherboards and other discarded electronics parts.

The global rare earth market is small by mining standards, just $1.5 billion last year, although its value is rising as prices have surged in response to Chinese restrictions on exports. The NYT says that concern over China’s hoarding of rare earths has also been spreading to the United States. In late September 2010 the House of Representatives approved  H.R. 6160, the Rare Earths and Critical Materials Revitalization Act of 2010 authorizing research to address the supply of rare earth minerals, which are vital to  applications in fields such as energy, military, electronic and manufacturing technologies.“We must take steps to recapture our technological lead in a wide range of industries critical to our economic health, our national defense, and a clean and secure energy future,” said Committee on Science and Technology Chairman Bart Gordon (D-TN).

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The late Chinese patriarch Deng Xiaoping is famously quoted, “The Middle East has oil, and China has rare earths.” While Japanese companies are the first to become painfully aware of the risks of relying so greatly on China for strategic metals, they have the advantage of history. The Japanese industry base took the oil shocks of the 1970s helped eventually make Japan a leader in fuel-efficiency technologies. Hopefully the U.S. can see the parallels with what much of the world will be facing with respect to accessing crucial oil supplies in the years ahead. As internal demand for oil in  Saudi Arabia there is less oil available for them to export. Saudi Arabian oil demand is expected to grow by 250% over the next two decades according to reports. That means less and less oil for those countries depending on exports from the Middle East. And with China aggressively locking up tens of billions of dollars of oil reserves everywhere on the globe there are going to be few opportunities to find new reserves outside of Saudi Arabia as well.

The electronics recycling project is one example of the Japanese adapting. Maybe someone in the new republican US government will wake up and start a similar project.

Category: Green, Politics | Tags:
RB | November 6, 2010
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Google Searches for Power on Seabed

Google (NASDAQ: GOOG) is investing in an undersea power cable project linking offshore wind farms with energy grids along the Mid-Atlantic region.  Known as the Atlantic Wind Connection backbone, the cable will stretch 350 miles off the Atlantic coast from New Jersey to Virginia. The cable will collect power from multiple offshore wind farms and deliver it via the cables to the on-shore grid. The AWC backbone will be able to tap into 6000 megawatts of offshore generation, enough to serve about 1.9 million homes according to reports .

Google, will take a 37.5 per cent stake in the project. “We’re willing to take calculated risks on early-stage ideas and projects that can have dramatic impacts while offering attractive returns,” Rick Needham, green business operations director, wrote on the Google official blog.  Other investors in the project include U.S. based Good Energies which invests in energy projects with a 37.5 percent equity stake, Japan’s Marubeni Corporation will have a 15 percent stake. Atlantic Grid Development LLC, a company formed to develop the project whose shareholders include independent transmission company Trans-Elect, will have 10 percent.

Businessweek says the first phase of the project, which the developers aim to complete by early 2016, would run about 150 miles and cost between $1.7 billion and $1.8 billion. The second phase to complete the 350-mile line could be finished by 2020, Bob Mitchell, chief executive officer of Trans-Elect, told reporters telephone interview.  The New York Times reports the project will cost $5 billion total in total.  Reports are that Google and Good Energies’ initial investment is of about $200 million each for the first phase of the project.

The partners believe that the mid-Atlantic region’s shallow waters will make it easier to install turbines 10-15 miles offshore, almost out of sight from land. Without it, offshore wind developers would be forced to build individual radial transmission lines from each offshore wind project to the shore, Needham claimed.  “This system will act as a superhighway for clean energy,” Mr Needham wrote, adding that the proposed project could remove “a major barrier to scaling up offshore wind”. If successful, the AWC project will help to relieve grid congestion and boost transmission capacity in a key market. Google believes that the move into alternative energy is consistent with the company’s goal of promoting renewable energy.

This isn’t the first time Google has dipped its toe in the spreading pool of wind power. The search giant  agreed to buy 114 megawatts of clean energy from an Iowa wind farm to power its data centers. Google also invested nearly 40 million in two wind farms.

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Not that I really want to bet against Google, but the IEEE reports that Michigan has an offshore potential of 100 GW, nearly double that of  Virginia, Delaware, Maryland, and New Jersey. Perhaps Google co-founder and East Lansing native Larry Page remembers winters in Michigan and thinks that the moving ice sheets on the lakes could damage a tower.


Category: Electricity, Green, Michigan | Tags:
RB | October 2, 2010
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BP Oil Spill Still in the Gulf

Greenpeace has found traces of oil from the BP oil spill in the Gulf of Mexico at a depth of 3,200 feet and up to 300 miles from the spill site, according to a report from AFP.

A team of scientists aboard the Greenpeace ship Arctic Sunrise reported the results Thursday from 10 days of sampling around areas affected by the worst oil spill in history. “From the measurements we’ve taken, we see clear signs of oxygen deficiency on a large transect starting at the Macondo wellhead, all the way 300 miles to the west,” said Rainer Amon, a Texas A&M scientist who participated in the research in the AFP article. “How much of oil and gas components are still in the water is something that we need to now investigate in the laboratory.”

The expedition had four points plotted to the west of the well to investigate the main path of oil after the April accident that led to a massive release of crude oil. They concluded that the dissolved oxygen level was not as low as scientists would have expected if a greater proportion of oil and gas had dissolved in the water.

This suggests that oil has not “disappeared” some have suggested, and that as much as three to four million barrels of crude from the disaster have still not been accounted for. “Despite everything that BP and the government would like us to think, the truth is, the oil spill’s impact is not over,” said Greenpeace US research director Kert Davies. “Scientists know better, fishermen know better, the people of the Gulf and certainly the clean up crews endlessly picking up tar balls know better. The government and BP need to be honest with everyone about the extent of the damage.”

The researchers conducted a parallel study of sea lift, and obtained samples of sediment on the ocean floor at a depth of 4,20 feet, five miles from the disaster site. The article says that some of the samples contained visible amounts of oil with a strong smell, said Greenpeace in the AFP article. The samples have been sent to an independent laboratory for study and to determine the presence of chemical dispersants.

“When we’ve analyzed all the samples we’ve collected for our work and that of our colleagues, we hope to come up with a pretty good estimate of how much of the oil and gas was put into the system. Hopefully we can then come up with good ideas of where that missing oil and gas has gone” Amon says in the AFP article.

Some 205 million gallons of oil flowed into the Gulf after the April 20 explosion aboard the BP-leased Deepwater Horizon oil rig, impacting the crucial fishing and tourism industries and destroying hundreds of miles of the region’s fragile coastal ecosystems.

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The rest of us will have to live with the long-lasting impact, but not BP. Politico reports

During his time in the Senate and while running for president, Obama received a total of $77,051 from the oil giant and is the top recipient of BP PAC and individual money over the past 20 years, according to financial disclosure records.

For their $77K investment, BP is now getting special treatment according to CBS News. CBS has reported

BP and the Obama administration are discussing a possible settlement over fines for the company’s massive Gulf of Mexico oil spill in an effort to avoid a costly legal fight  ….  Rep. Steve Scalise, R-La.,  said the goal of the talks between BP PLC and the government is to reach a deal instead of having to fight it out in court.

CBS News further reports that BP faces penalties and fines under a variety of environmental protection laws, including fines of up to $1,100 under the Clean Water Act for each barrel of oil spilled. If BP were found to have committed gross negligence or willful misconduct, the fine could be up to $4,300 per barrel.  That means that based on the 4.9 million barrels released from the Macondo well, BP could face civil fines under the Clean Water Act alone of between $5.4 billion and $21.1 billion.

Any reduction in fines that BP can leverage out of the administration would give a healthy return on investment for BP and will show the value of the environment to Washington.

Category: Green, oil | Tags: , ,
RB | July 24, 2010
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Cows Can Power Your Next Server Farm

ComputerWorld reports that  HP (NYSE: HPQ) researchers presented a paper (PDF)  on using cow manure to generate power to run a data center. HP says that manure from dairy farms. cattle feedlots and other “digested farm waste” can be used to generate electricity.

HP engineers calculated in a presentation to the American Society of Mechanical Engineers Conference on Energy Sustainability that biogas from a farm of 10,000 dairy cows could power a 1 megawatt (MW) data center, about 1,000 servers or the equivalent of a small bnks computing center.  Organic matter is already used by farms to generate power through a process called anaerobic digestion that produces a methane rich biogas. HP’s paper looks at how the process could be extended to run a data center, starting with the amount of manure produced by your typical dairy cow and working up from there.

But there are some practical problems, not the least of which is connecting a data center to the cows. “What’s the reality of getting 10,000 cows in once place?” said Angie McEliece, an environmental consultant for RCM Internationall in Berkeley, CA, which makes digester systems. The average size dairy farm in the U.S. includes less than 1,000 cows; farms with 5,000 cows is quite unusual, she told ComputerWorld. Farms that now use anaerobic digestion system to generate electricity and heat typically get some funding from federal and state grants. In such cases, a payback of four years or less on the technology is likely. 10 years is the payback tome without grants, said McEliece in the ComputerWorld article.

HP insists that this just an idea sketched out on paper by a research team; no demonstration project has yet been planned. “I’ve not yet submitted a purchase order for cows,” said Tom Christian, an HP researcher, in an e-mail to ComputerWorld. “The idea of using animal waste to generate energy has been around for centuries, with manure being used every day in remote villages to generate heat for cooking. The new idea that we are presenting in this research is to create a symbiotic relationship between farms and the IT ecosystem that can benefit the farm, the data center and the environment.” say Tom Christian, principal research scientist, Sustainable IT Ecosystem Lab, HP.

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The proposal has energy independence,economic and ecological benefits.

Michigan had 335,000 cows in 2007 and according to the HP researchers, the manure that one dairy cow produces in a day can generate 3.0 kilowatt-hours (kWh) of electrical energy. Michigan diary cows could produce enough methane to move 366.825 MWh off the grid under this plan. That would be enough electrical power to move all of Facebook’s estimated 30,000 servers off of the grid.

There are economic benefits as well. Data center operators would have access to a reliable source of clean energy, presumably at a competitive if not lower cost than what’s on the market. Dairy farmers would make money selling electricity to data center customers. HP estimates that dairy farmers would break even in costs within the first two years of using this  system and then earn roughly $2 million annually from selling the power to data center customers.Michael Kanellos, editor in chief at Greentech Media, a research and publishing firm told the New York  Times that there was some convenient overlap between data centers and biogas generation. “Computing equipment produces a lot of heat as a waste product, and the systems needed to create biogas require heat. So, there is a virtuous cycle of sorts possible.” he says.

Another trend that makes the idea of turning organic waste into usable power for data centers is the move to build facilities in rural locations, where high-speed networks allow them to take advantage of the cost advantages of such areas. Since many agricultural areas are also ideal for wind farms, a second clean energy source is available and could lead to some economic revival in the U.S.

Alternate energy sources such as these can help prepare for a new round of regulation and taxes, such as the United States’ Waxman Markey bill. Carbon taxes or cap-and-trade systems both in the U.S. and abroad will force companies to measure and report greenhouse gas emissions. Farmers will benefit from the proposed system by accumulating carbon offsets for capturing and reusing methane.

There’s also environmental benefits: A system that extracts biogas from manure would cut the hefty environmental impact of animal waste. The HP papers says methane is 21 times more damaging to the environment than carbon dioxide. Additionally, farmers will benefit from carbon offsets they could receive for capturing and reusing methane under any future cap-and-trade emissions legislation.

Category: Electricity, Green | Tags: , ,
RB | July 17, 2010
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Going Green on the Solar Roadway

Power Systems Design has an interview with Scott Brusaw, an Idaho based inventor whose firm Solar Roadways believes it can make the U.S. energy independent by revamping the U.S. road system to collect and route energy intelligently along the U.S. highways.

Brusaw’s plan is to replace the existing asphalt and concrete road-surfaces with solar panels. The inventor has worked with experts at the top U.S. universities and has established that glass can be made cost-effectively with the optical and all the necessary traction capabilities comparable to asphalt required for a tough, durable, cost-competitive roadway system that can collect and route energy from the sun to industry and households alike.

When asked in the article, how much power can be expected from one-mile of road,th inventor explained, “One mile = 5280 feet. Our Solar Road Panels are 12 feet by 12 feet (3.66 x 3.66m). Therefore, it will take 5280/12 = 440 panels to create one mile (one lane, 12 feet wide). Each panel is expected to produce 7600Wh of electricity daily based on 15% efficiency and four hours of sunlight per day. He continues that, 440 x 7600Wh = 3.344MWhr per lane per mile. So a typical four lane highway will produce 13.376MWhr per mile, based on four hours of sunlight per day.

Brusaw extrapolates that 428 typical U.S. homes could go off-grid  for every mile of 4-lane Solar Roadway. “According to a 2007 study by the U.S. Energy Information Administration, the average American home used 936kWh per month. Dividing this number by 30 will give an average need of 31.2kWh per day. Dividing this number into the 13.376MWhr per mile, gives us approximately 428. That’s how many American homes can go “off-grid” for every mile of 4-lane Solar Roadway.”

The Solar Roadways website predicts that replacing all the roadways in the lower 48 U.S. states with their product could product 13,961 billion Kilowatt-hours annually, which is slightly less than the 2003 global electrical consumption of 14,768 billion Kilowatt-hours which the firm predicts could cut half of the greenhouse gases being produced.

Solar Roadways claims all of this can be had for roughly the same cost of the current systems (roads and fossil fuel burning electricity generation plants) according to the web-site and unlike the current system, the Solar Roadways can pay for itself over time.


Rb-

If the technology really works, in the northern half of the country as they claim (they are developing in Idaho) it seems like a good idea. We all know what happens to good ideas in Washington, so lets count the big lobbying interests (and their bribes campaign donations ) this would piss-off in DC

  1. Coal
  2. Oil
  3. Telecom
  4. Concrete
  5. Asphalt

While the green factor and the energy independence are important off-shoots of this product, the result of this technology will be the end of shoveling my driveway.


Category: Green, oil, Politics | Tags: , ,
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