Tag Archive for Green

| April 11, 2011
Comments Off on Earth Worth $4,800 Trillion

Earth Worth $4,800 Trillion

SEarth Worth $4,800 Trillionome people believe – everything in this world has a price. Now the world has a price as well. Earth is worth $4,800 trillion according to UC-Santa Cruz Astrophysicist Greg Laughlin. Professor Laughlin developed the value for NASA to evaluate the discoveries made by NASA’s planet-hunting Kepler spacecraft. He came up with the figure by calculating the sum of the planet’s age, size, temperature, mass and other vital statistics.

What planets are worth studying

Professor Laughlin told the UK’s Daily Mail , “I’ve just always thought that the concept of an ‘Earth-like planet in the habitable zone’ was pretty vaguely defined, and I wanted a metric that I could plug a planet into to see whether its value was high enough to warrant media hype.” The professor’s equation shows whether planets are worth studying, anything worth less than $97 million just isn’t worth the hassle. The astrophysicist told the Daily Mail, “The formula makes you realize just how precious Earth is and I hope it will help us as a society safeguard what we have.”

Earth’s competition

There are about 1,235 known similar planets in the universe. Most planets weren’t given a high price tag because of their inhospitable climates. The Daily Mail says Mars is worth only $16,361 and Venus is worth less than a penny. Prior to Dr. Laughlin’s work, the most Earth-like world known to scientists, was the exoplanet Gilese 581 c. However, the professor’s equation valued it at just $160.

The next Earth-ly object, KOI 326.01 is worth $223,099.93 (KOI stands for “Kepler Object of Interest”). “This is just a way for me to be able to quantify how excited I should be about any particular planet,” he told TechEye.

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I wonder if the professor discounted the value of planet Earth as damaged goods as British Petroleum destroys the Gulf of Mexico and nuclear reactors melt-down in Japan, etc..

What do you think?

How do you value planet Earth?

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers and anything else that catches his attention since 2005. You can follow him at LinkedInFacebook and Twitter. Email the Bach Seat here.

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| December 27, 2010
Comments Off on GM Recycles BP Gulf Oil Spill Waste Into Volt

GM Recycles BP Gulf Oil Spill Waste Into Volt

General MotorsGM Recycles BP Gulf Oil Spill Waste Into Volt (NYSE: GM) has intercepted 100 miles of used oil control booms from the BP Gulf of Mexico mega oil spill, (which I wrote about here, here, here, and here) preventing them from going into landfills. Instead, TheDetroitBureau.com reports that oil-soaked booms are transformed into plastic parts for the Chevy Volt.

chevy_volt_logoMike Robinson, GM vice president of Environment, Energy and Safety policy explained to TheDetroitBureau that the automaker has been able to recycle the polypropylene plastics used in the oil booms set out to contain and capture the oil spilled by a runaway British Petroleum (BP) well. GM and its suppliers are turning the recycled material into plastic parts used in the Volt, such as a shroud for the radiator according to GM. “Creative recycling is one extension of GM’s overall strategy to reduce its environmental impact,” Mr. Robinson said, the Detroit-based automaker already finds ways to cut landfilling at 76 of its facilities. The recycling of Gulf oil booms, he added, “is a good example of using this expertise and applying it to a greater magnitude.”

In the article, Chris Miller vice president of sales and market for GDC Inc. says the old booms are mixed with other recycled material, including used tires, and processed to yield a plastic resin which can be shaped into a variety of plastic parts. “The recycled resin is a lot less expensive than virgin resin,” he said. In fact, GM’s Robinson described the overall process as “cost-neutral,” meaning the final parts and components cost the same as those produced by more conventional processes.

Recycling the booms will result in the production of more than 100,000 pounds of plastic resin for the vehicle components,” said John Bradburn, manager of GM’s waste-reduction efforts, eliminating an equal amount of waste that would otherwise have been incinerated or sent to landfills. “This was purely a matter of helping out,”  Mr. Bradburn told TheDetroitBureau. “If sent to a landfill, these materials would have taken hundreds of years to begin to break down, and we didn’t want to see the spill further impact the environment. We knew we could identify a beneficial reuse of this material given our experience” Mr. Bradburn added.

bp_oil_spill_booms

GM’s Bradburn says the project demonstrates the booms, which are also widely used around construction projects and limited spills, don’t have to be buried or burned but can be recycled. He also noted it should encourage the manufacturers of the booms to make them easier to recycle.

TheDetroitBureau says besides GDC, GM worked with several partners throughout the recovery and development processes. Heritage Environmental managed the collection of boom materials along the Louisiana coast. Mobile Fluid Recovery stepped in next, using a massive high-speed drum that spun the booms until dry and eliminated all the absorbed oil and wastewater. Lucent Polymers used its process to then manipulate the material into the physical state necessary for plastic die-mold production.

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Hmm- something must be changing at GM, when I worked at the GM tech center in the 1990s there were not many green efforts. Even if this is a marketing ploy to beef up the Volt’s green-cred’s, it is a good step. Let’s hope they keep up the imaginative thinking.

Related articles

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| December 13, 2010
Comments Off on Urban Mining

Urban Mining

Urban MiningProblems with Chinese supplies of rare earths have sent the Japanese in search of alternative sources. The search has created 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 urban mining. Urban mining is 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 told the NYT.

Why urban mining

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. The raw materials are crucial to products as diverse as hybrid electric cars, wind turbines, and computer display screens. In Kosaka, Dowa Holdings (DWMNF) which has mined the area from 1884 until 1990, has built a recycling plant. The 200-foot-tall recycling furnace renders old electronics parts into what the NYT describes as a molten stew. From the stew, 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. They have recovered 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.

The hard to mine minerals include 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, says that used electronics in Japan hold an estimated 300,000 tons of rare earths. That amount is tiny compared to reserves in China. China 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.

Expensive and technically difficult

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. It 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. Each ton yields only about 150 grams of rare metals.

Urban mining cell phone speakers

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 in tiny quantities in the speakers of cellphones. That makes 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.

China’s hoarding of rare earths

The global rare earth market is small by mining standards, just $1.5 billion in 2009. However, their 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.

The bill authorized 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).

Rare Metals Perodic Table

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The late Chinese patriarch Deng Xiaoping is famously quoted as, “The Middle East has oil, and China has rare earths.”  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 global demand for oil in Saudi Arabia grows, 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 U.S. government will wake up and start a similar project.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| November 6, 2010
Comments Off on Google Searches for Power on Seabed

Google Searches for Power on Seabed

Google Searches for Power on Seabed Google (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.

Atlantic Wind Connection backboneGoogle, will take a 37.5% 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% equity stake, Japan’s Marubeni Corporation will have a 15% stake. Atlantic Grid Development LLC, a company formed to develop the project whose shareholders include independent transmission company Trans-Elect, will have 10%.

Project cots Google billions

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 about $200 million each for the first phase of the project.

Google logoThe 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.

Spray towers over the 57-foot-tall Ludington Lighthouse in Michigan as a storm packing winds of up to 81 mph howled across the Midwest and South on Tuesday, Oct. 26. Jeff Kiessel, Ludington Daily News

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.

Michigan Offshore Wind Speeds

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| July 24, 2010
Comments Off on Cows Can Power Your Next Server Farm

Cows Can Power Your Next Server Farm

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

HPHP presented the idea to the American Society of Mechanical Engineers Conference on Energy Sustainability, The researchers believe that biogas from a farm of 10,000 dairy cows could power a 1 megawatt (MW) data center, about 1,000 servers. That is the equivalent of a small bank’s computer center.

Organic matter is already used by farms to generate power. Farmers use a process called anaerobic digestion that produces 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.

Connecting a data center to cows

But there are some practical problems. The first problem is connecting a data center to the cows. “What’s the reality of getting 10,000 cows in one place?” said Angie McEliece, an environmental consultant for RCM International in Berkeley, CA, which makes digester systems. She told ComputerWorld the average size dairy farm in the U.S. includes less than 1,000 cows. farms with 5,000 cows are quite unusual. Farms that now use anaerobic digestion systems 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 to me without grants, said Ms. McEliece in the ComputerWorld article.

Cows Can Power Your Next Server Farm

HP insists that this is 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. The new tech can benefit the farm, the data center, and the environment according to 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.  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 dairy 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.

Economic benefits

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 within the first two years. They could earn roughly $2 million annually from selling the power to data center customers. Michael Kanellos, at Greentech Media, 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.”

Another trend that makes this idea workable is the move to build facilities in rural locations. In areas where high-speed networks are available, they can benefit from the cost advantages of rural areas. Many agricultural areas are also ideal for wind farms. Leading to a second clean energy source that 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. For example the U.S.s’ 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 are also environmental benefits. A system that extracts biogas from manure would cut the hefty environmental impact of animal waste. The HP paper says methane is 21 times more damaging to the environment than carbon dioxide. Additionally, farmers will benefit from carbon offsets. They could be eligible to receive credits for capturing and reusing methane under any future cap-and-trade emissions legislation.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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