Electricity From Algae: Researchers Collect Electrons From Living Cells

April 14, 2010

Algae cultivation (and lipid extraction) has been the holy grail of the biofuels industry. Now these aquatic organisms – specifically their ability to give off tiny bursts of electrical current – could become the savior of dirty utilities as well.

The vision of huge tubs of algae consuming CO2 and nutrients from wastewater to produce biodiesel and bio-gasoline has drawn scores of scientists to experiment with the notoriously capricious plant.

The fact that algae are difficult to farm hasn’t kept the money from flowing. ExxonMobil last year poured $300 million into joint research with scientist Craig Venter’s Synthetic Genomics. Several months later, Sapphire Energy won $104.5 million in federal loan guarantees and grants from the Agricultural and Energy departments for a demonstration refinery in New Mexico. The Department of Energy earmarked another $44 million a month later in January for nationwide university and other research.

The current harvested so far is tiny, but the potential for bioelectricity from algae is compelling

Now a team of Stanford University researchers is exploring an alternative to the biofuels route. Their work is at an early stage. But its concept is startling: plant-based energy generated without the release of carbon.

The researchers, led by WonHyoung Ryu, now a professor in Korea, pierced each algae cell with a sharp nano-electrode probe made of gold. The probe collected electrons produced during photosynthesis, channeling a small current.

So far, the current from each cell is tiny, just one picoampere. (A trillion cells would be needed to equal the energy stored in a AA battery.) Still, the breakthrough is compelling.

“We believe we are the first to extract electrons out of a living plant cell,” Ryu said in a Stanford release. “This is potentially one of the cleanest energy sources for energy production.”

But it is not without difficulties. Most importantly, the cells died within one hour. Ryu theorizes they may have developed leaks where the probe punctured their membranes. They alternately may have run out of gas after their energy was stolen. The electrons transfer energy from the sun to protein inside the cells.

The research team, which published its work in the journal Nano Letters and included two members from the Carnegie Institution, hopes to change the design of the electrode to lengthen the life of the cells. It also conceives of using larger electrodes and bigger plants with larger chloroplasts, the area of the cell where photosynthesis takes place and water is split into oxygen, protons and electrons. That way, more electrons might be captured.

“We’re still in the scientific stage of the research,” says Ryu. But the potential is great. Electron harvesting has a 20 percent energy efficiency. Plants burned for fuel store only 3 to 6 percent of the sun’s solar energy.

While the work is at an early stage, perhaps it is time to coin the term “bioelectricity.”

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Posted by Mark Boslet

Smart Grid Uncertainty Persists: Financial Benefits Seen A Decade Away

March 30, 2010

One man’s smart grid isn’t necessarily another’s. That explains the uncertainty surrounding this key investment focus for modern utilities – and the hesitancy with which they predict consumer adoption.

It is no surprise then that utilities have sharply different projections for investment payback, both from consumers and the changing utility infrastructure. This divergence of opinion was evident in a survey of executives attending the DistribuTech smart grid trade show in Florida.

Smart grid budgets are on the rise, even if expectations aren't. Seventy-seven percent of utilities are spending more money.

Twenty-nine percent of the 100 utility representatives surveyed said the smart grid will take a decade to justify itself. Another 27 percent said the benefits will begin to show up in three years. In either event case, three-quarters reported their developmental budgets are on the rise.

Smart grids can be seen from many angles with differing expectations, which helps explain the lack of consensus. Perhaps with the most promising efforts are those to improve the electricity distribution infrastructure. When power can be wheeled more efficiently, effectively and incorporate intermittent renewables, utilities will reap enormous benefits. This has nothing to do with consumers, but a great deal to do with emerging gateway technologies, smart sensors and massive computer systems giving near instantaneous control to giant power grids.

On the other hand, a great deal of industry focus is presently turned toward the consumer, where it is hoped near real-time readouts of home power use and new energy management devices will give homeowners the financial incentives to adjust power use. To make this expectation work, utilities need creative, innovative thinking, the kind that has driven the consumer electronics industry through the decade-and-a-half Internet era. But the gap between knowing and doing is great. Utilities, unlike consumer electronics firms, haven’t had to reinvent themselves every three to four years and don’t know the rules.

All this creates great uncertainly about how and how much people will benefit. Consumers may suddenly have access to minute-by-minute data on home energy use, but it is unclear how they – or utilities – will put that data to use, or even the scale of the computer systems necessary to make on-the-fly, instant power system adjustments.

With the lack of clear knowledge, group thinking is taking over. According to the survey, sponsored by Comverge, investment efforts for the next year are relatively uniform. Eighty-nine percent of utilities will deploy smart meters. Another 48 will install smart home thermostats. In-home displays and smart outlets? Not yet viewed as critical infrastructure.

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Posted by Mark Boslet

Utility Beware: Only 4% Of Americans Know What A Smart Grid Is

March 23, 2010

Electric utilities have a monumental consumer education task in front of them.

Vendors such as GE and IBM form an alliance to reach the 79 percent of Americans who don't know what smart grids and smart meters are

Only 4 percent of Americans really know what smart grids are. An additional 17 percent say they are “somewhat familiar” with the term, but the remainder are basically in the dark, according to a survey sponsored by GE.

The survey points to a challenge that so far has not made the global-warming radar. Smart grids, of course, have several definitions. But one thing is for sure. They are critical energy-conservation and management tools in the fight for the planet’s health.

And before they can be used, utilities are going to need to teach people what they are.

By definition, smart grids have two roles. In the first, they are information conduits between consumers and utilities, providing energy-use data that will let people make smarter decisions about how and when to buy electricity. As daytime power becomes more expensive, the smart grid will help consumers shift use to off-peak hours.

They also have a backroom role, aiding utilities in managing a more complex power flow. Renewables such as solar and wind don’t produce power in steady streams. Managing the ups and downs will require a more intelligent infrastructure – and this will only increase as more consumers put solar on their roofs and sell unused power to the grid.

Unfortunately, much of this goes over the heads of average Americans. On Tuesday, a handful of industry vendors took a first step toward changing this. Companies such as GE, IBM, Silver Spring Networks, Control4 and the GridWise Alliance formed the Smart Grid Consumer Collaborative to promote consumer eduction.

The good news from the survey is that among those who do understand smart grids, 72 percent believe they will save them money and 63 percent believe they will create new energy jobs.

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Posted by Mark Boslet

Smart Grid Is More Than Smart Meters: Think Synchronized Phasor

March 12, 2010

Mention smart grid to most energy industry observers and smart meters come to mind. But for many utilities, smart meters are the least of it.

The real challenges to building intelligent networks to monitor and manage electric power lie far from the communications-enabled meters going in at many residences and businesses. Vast new data streams from the electric grid itself and substations scattered across suburbia are poised to overwhelm even the best-prepared utility.

Southern California Edison's Paul De Martini anticipates 10 million devices on his smart grid network in 10 years. "I don't know how to handle the information."

This technology hurdle is creating hesitancy among of the industry’s biggest players. According to a survey sponsored by Microsoft and released Wednesday, more than half of world’s utilities haven’t begun smart-grid projects in their home territories, while only 37 percent have.

In explanation, 63 percent of firms in North America say their information technology isn’t up to task. About 44 percent of companies in Asia Pacific and Europe agree.

The difficulties are compounded for energy generators and distributors in California and the western U.S., which are facing a massive rollout of smart-grid synchronized phasors. The western U.S. is leading the world in the installation of these electric-grid monitoring devices, and utility executives haven’t yet figured out how to make sense of the vast increase in instantaneous information they will receive.

“Synchro phasors” will stream information about power supplies into central data centers every 30th of a second. Today’s sensors provide information from the grid every 4 seconds.

Southern California Edison is one utility flummoxed by the challenge. The company is allocating $1.5 billion to build a smart grid and anticipates its synchro-phasor rollout will be the largest of any utility in the U.S.

“We’re trying to plan ahead,” says Paul De Martini, vice president of advanced technology. But “I don’t know how to handle the information.” By 2020, De Martini anticipates 10 million devices will be on his network, only 5 million of which will be meters.

The company isn’t alone. In two to three years, utilities from Washington to Arizona and Colorado will begin collecting this same stream of information, says Jim Detmers, vice president of operations, at California ISO, the agency in charge of running California’s electric transmission gird. “We’re up to the limits of the machines in place today.”

Despite the coming IT challenge, one thing is for sure. When companies such as Southern California Edison figure it out how to manage the smart grid, their solution will be “the template for how it could be rolled out across the country,” says Detmers. In the meantime, executives will be smart to cross their fingers.

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Posted by Mark Boslet

Thin-Film Solar Company Approaching Cost Of Fossil Fuels, CEO Says

December 17, 2008

SoloPower has big ambitions. The San Jose company hopes to see utility-scale projects using the flexible, lightweight solar cells it makes by electroplating material on a sheet of tin foil.

SoloPower expects sample products expected in the first quarter, says Homayoun Talieh

SoloPower expects sample products expected in the first quarter, says Homayoun Talieh

Homayoun Talieh, CEO, says the company will have samples of its thin-film cells available in the first quarter of 2009 to demonstrate the reliability of its manufacturing.

The technology also “will be at a $1 a watt in the near future,” making it more attractive for generating electricity than fossil fuels, he said Tuesday. Talieh claims his copper indium gallium selenide technology (CIGS thin film is known for its high efficient) will even do better than products from thin-film competitor Solyndra.

The advantage of electroplating its that no raw material is left over after the coating is done, he says.

Talieh declined to discuss the expected efficiency of his solar cells.

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Posted by Mark Boslet

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