GE seeks to Clean up Fracking’s Dirty Water Problem

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GE has demonstrated technology aimed at addressing one of the biggest challenges with fracking: water pollution.

Duane Tilden‘s insight:

>Concerns about water pollution and other environmental issues related to fracking have led some places, including France and New York State, to block the process. As fracking increases in dry areas and places that lack adequate treatment and disposal options, pressure to block it could grow.

“Water-treatment technology is going to become more and more critical as the industry moves forward,” says Amy Myers Jaffe, executive director of energy and sustainability at the University of California at Davis, and a new member of a GE environmental advisory board. She says the continued use of fracking depends on the “industry getting its act together to do it in an environmentally sustainable way.”

Better water-treatment options could change the way oil and gas producers operate by making it economical to treat water at fracking sites instead of trucking it long distances to large water-treatment facilities or disposal wells. The technology is specifically targeted to places such as the Marcellus shale, one of the largest sources of shale gas in the U.S., where wastewater is far too salty for existing on-site treatment options (see “Can Fracking Be Cleaned Up?” and “Using Ozone to Clean Up Fracking”).

Each fracking well can require two to five million gallons of fresh water, which is pumped underground at high pressure to fracture rock and release trapped oil and gas. Much of that water flows back out, carrying with it the toxic chemicals used to aid the fracking process, as well as toxic materials flushed from the fractured rock.

Producers currently reuse much of that water, but that involves first storing it in artificial ponds, which can leak, and then diluting it, a step that consumes millions of gallons of fresh water. Eventually they can’t reuse the water any more so they need to ship it, often over long distances, to specialized treatment and disposal locations. Transporting the wastewater is expensive, and it comes with a risk of spills. At disposal sites, the wastewater is injected deep underground in a process that can cause earthquakes.

The new technology would make it unnecessary to dilute the wastewater, or transport it for treatment or disposal. […]<

See on www.technologyreview.com

Bloomberg predicts: Solar to add more megawatts than wind in 2013

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Bloomberg New Energy Finance predicts that for the first time more new solar power capacity — compared to wind — will be added to the world’s global energy infrastructure this year.

Duane Tilden‘s insight:

>In an BNEF’s analysts forecast 36.7GW of new photovoltaic capacity this year, compared to 33.8 GW of new onshore wind farms, and  1.7 GW of offshore wind.

In 2012, wind — onshore and offshore — added 46.6 GW, while PV added 30.5GW, record figures in both cases. But in 2013, a slowdown in the world’s two largest wind markets, China and the US, is opening the way for the rapidly growing PV market to overtake wind.

“The dramatic cost reductions in PV, combined with new incentive regimes in Japan and China, are making possible further, strong growth in volumes,” said Jenny Chase, head of solar analysis at Bloomberg New Energy Finance. “Europe is a declining market, because many countries there are rapidly moving away from incentives, but it will continue to see new PV capacity added.”<

See on www.renewableenergymagazine.com

BP battles for billions in latest Gulf Oil Spill pollution trial

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HOUSTON/LONDON (Reuters) – BP will battle to hold down fines that could hit $18 billion in a new phase of the Gulf of Mexico trial that will rule on how much oil it spilled in 2010 and judge its efforts…

Duane Tilden‘s insight:

>POLLUTION FINES

BP says 3.26 million barrels leaked from the well during the nearly three months it took to cap the blowout at the Deepwater Horizon rig; the U.S. government says it was 4.9 million. Both those totals include 810,000 barrels that were collected during clean-up and which Barbier has agreed to exclude.

This month, BP’s lawyers questioned the government’s figure. “United States experts employ unproven methods that require significant assumptions and extrapolations in lieu of … available data and other evidence,” they said in a filing.

They have also sought to convince Barbier that if the company is to be found guilty, it should amount to only “negligence” and not “gross negligence” – a crucial distinction since the latter carries much higher maximum penalties.

Under the Clean Water Act, negligence can be punished with a maximum fine of $1,100 for each barrel of oil spilled; a gross negligence verdict carries a potential $4,300 per barrel fine.

If the court judged the spill to have been 4.09 million barrels – the government estimate less oil recovered – the price of negligence could reach $4.5 billion. Gross negligence, in the costliest scenario, could run to $17.6 billion.<

See on www.reuters.com

Greening the Internet: Sustainable Web Design

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Do you know your website’s carbon footprint? Or how to lower it?

Duane Tilden‘s insight:

>A growing number of industries are trying to reduce or at least curtail carbon footprints and energy use. Emissions standards have been set for the automotive, construction, and even telecommunications industries. Yet the internet’s carbon footprint is growing out of control: a whopping 830 million tons of CO2 annually, which is bigger than that of the entire aviation industry. That amount is set to double by 2020.

It is time for web designers to join the cause.

Right now, at least 332 million tons of CO2—40 percent of the internet’s total footprint—falls at least partially under the responsibility of people who make the web. It needn’t be that large, but with our rotating carousels, high-res images, and more, we have been designing increasingly energy-demanding websites for years, […]<

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Juxtapoz Magazine – SUPERSONIC INTERVIEWS: Victo Ngai

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Victo (short for Victoria) Ngai is a Hong Kong born, currently living in New York City illustrator. Her work is filled to the brim with brilliant colo…

Duane Tilden‘s insight:

Brilliant Illustrations!

See on www.juxtapoz.com

Algae Biofuel Emits at Least 50% Less Carbon than Petroleum Fuels

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Algae-derived biofuel can reduce life cycle CO2 emissions by 50 to 70 percent compared to petroleum fuels, and is approaching a similar Energy Return on Investment (EROI) as conventional petroleum according to a new peer-reviewed paper published in…

Duane Tilden‘s insight:

>The study entitled Pilot-scale data provide enhanced estimates of the life cycle energy and emissions profile of algae biofuels produced via hydrothermal liquefaction (HTL) is the first to analyze data from a commercial-scale algae-to-energy farm. Researchers examined field data from Sapphire Energy facilities in Las Cruces and Columbus, New Mexico.

Researchers at the Pacific Northwest National Laboratory recently concluded that 14 percent of land in the continental United States, or the combined area of Texas and New Mexico, could be used to grow and produce algae for conversion into transportation fuels. In 2008, the U.S. Department of Energy found that for algae fuel to completely replace petroleum in the United States it would need roughly 30,000 square kilometers of land, or half the area of South Carolina, so the potential is certainly there for a massive transition from dirty oil-based transportation fuels to cleaner burning domestic green crude from algae.<

 

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U.S. Nuclear Power Closures Signal Wider Problems for Industry

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A string of plant closures, project cancellations and other setbacks has raised new doubts about the future of nuclear power in the United States, but there’s disagreement about whether the retrenchment will be limited and temporary or the…

Duane Tilden‘s insight:

>The blows to nuclear power’s prospects have come on many fronts, but it was the surprising spurt of plant closures that laid bare the industry’s worsening plight. The plant shutdowns are the first to hit the U.S. nuclear power market in 15 years, and the retirements don’t bode well for many of the nation’s 99 remaining power reactors.

Analysts say economic woes make at least 10 other plants vulnerable enough to follow suit. Almost all of those are among the nation’s 47 “merchant” nuclear plants, which, unlike regulated plants, operate in open markets and have to beat out other power suppliers to win customers and long-term supply contracts. The especially vulnerable facilities cited by analysts are at greater risk for closure because their power is too expensive to sell profitably in wholesale markets or because their output is too small or too unreliable to support rising operating and retrofit costs.<

See on insideclimatenews.org

Robotic Technologies Applied to Solar Energy Market – Installation and Maintenance

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Mountain View CA (SPX) Sep 20, 2013 – … robotic technologies deliver revolutionary installation and cleaning services at highly competitive prices … for building and maintenance of utility-scale solar plants..

Duane Tilden‘s insight:

>The typical installation process for utility-scale projects is similar to that of a small-scale, 20-panel, residential installation. Despite incremental improvements to the process, a 200,000-panel installation has retained many of the characteristics of a 20-panel installation.

They are both labor-intensive, and require repetitive bolt-tightening and glass-hauling. While these are minor flaws in a 20-panel system, they create significant inefficiencies in 20,000- or 200,000-panel systems.

Alion Energy has plugged the shortcomings of the current installation methods by changing the materials and design used in the mounting structure as well as by automating the installation. By combining robotic installation technology with established construction practices, Alion Energy has built a system twice as fast and 75 percent more labor-efficient that lowers solar electricity’s levelized cost of energy (LCOE) to compete with traditional energy sources.<

See on www.solardaily.com

World Record Solar Cell with 44.7 Percent Efficiency (news)

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Freiburg, Germany – The Fraunhofer Institute for Solar Energy Systems ISE, Soitec, CEA-Leti and the Helmholtz Center Berlin jointly announced on late Monday having achieved a new world record for the conversion of sunlight into electricity using a new solar cell structure with four solar subcells. …

Duane Tilden‘s insight:

>These solar cells are used in concentrator photovoltaics (CPV), a technology which achieves more than twice the efficiency of conventional PV power plants in sun-rich locations. The terrestrial use of so-called III-V multi-junction solar cells, which originally came from space technology, has prevailed to realize highest efficiencies for the conversion of sunlight to electricity. In this multi-junction solar cell, several cells made out of different III-V semiconductor materials are stacked on top of each other. The single subcells absorb different wavelength ranges of the solar spectrum.<

See on renewable-energy-industry.com

Solar Power distributed energy storage boldly projected to rise to 2.3 GW by 2017

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Global installations of photovoltaic (PV) storage systems for commercial use, currently the smallest part of the global solar energy storage business, are projected to expand by a factor of 700 in the coming years and become the largest market…

Duane Tilden‘s insight:

>“Just last year, commercial was the smallest market for PV storage systems, far behind the residential and utility-scale segments,” said Abigail Ward, PV analyst at IHS. “However, facing rising energy prices and the growing need for backup power supplies, commercial enterprises are turning to PV storage solutions that work in concert with their solar-power systems. This will allow commercial to surge past residential and utility to become the largest market for PV storage in just four years.”

 

The commercial solar market consists of PV systems installed in businesses, including factories, offices and other enterprises.  The major reason a commercial enterprise installs an energy storage solution is the desire to intelligently manage the use of PV energy to reduce electricity cost.

 

“Utilities increasingly are imposing both peak demand charges and time-of-use fees on their commercial customers,” Ward said. “These costs can be minimized by using a PV energy storage solution.”<

See on www.renewableenergyfocus.com