March 17, 2014

ALSTOM VIES FOR DOE MONEY TO SCALE UP CHEMICAL LOOPING PILOT

By ExchangeMonitor

Tamar Hallerman
GHG Monitor
7/3/13

Alstom is vying for additional Department of Energy funding to scale up its chemical looping pilot plant in Connecticut. The French technology company said it recently applied for National Energy Technology Laboratory funding under the second round of the lab’s advanced oxy-combustion R&D program, hoping to win multiple years of grant money to help support the technology Alstom says can “significantly” reduce the levelized cost of electricity generated from such facilities. Alstom’s chemical looping technology “really looks like it has the potential to be somewhere between a 10 and 30 percent—and we think closer to 10 percent—increase in the cost of electricity, which means that we’d come in under DOE’s goal of 30 percent and maybe toward the ultimate prize of 10 percent,” said Bob Hilton, Vice President for Power Technologies for Government Affairs at Alstom Power. “It’s an exciting step forward.”

Hilton said in a recent interview that Alstom has submitted a proposal for additional NETL funding to scale up its 3 MW pilot unit in Windsor, Conn., to a 15-to-20 MW facility for another multi-year demonstration period. The company received a $1 million grant from NETL last summer under the first round of its oxy-combustion R&D program to test the unit, which utilizes a calcium sulfate-based system as an oxygen carrier in circulating fluidized bed ash instead of the metals-based systems that others are testing elsewhere. “We see significant advantages to the calcium-based system economically. It’s a very cheap and readily available free agent … when you look at metals like copper, they’re very expensive and much more difficult to handle, so we think this is clearly the best route that will be successful,” he said. To date, the 3 MW pilot has operated for 350 hours, including 45 hours under autothermal operation, the first facility of its kind in the world to do so, according to Alstom. “By demonstrating autothermal operations, we’ve showed that [such a facility] can ignite and maintain itself without external influences,” Hilton said. “That’s a huge step forward.”

DOE Accepts Bids for Second Round Funding

Alstom was one of eight teams working on oxy-combustion capture technologies to receive a slice of $47 million worth of round one funding from NETL last summer, which focused on engineering and economic analyses of the technologies. DOE has said, though, that the second round of the program would center more on moving the technologies toward commercialization. An NETL spokeswoman confirmed that the lab recently received applications from technology developers vying to move into a second phase, but would not provide further details on the procurement’s size or value.

DOE has been pursuing chemical looping technology for the better part of the last decade, frequently listing the technology as one of the most promising of the “second generation” of carbon capture technologies, especially since it does not require an air separation unit. This week, chemical looping was listed as eligible for a slice of up to $8 billion in new loan guarantee authority under DOE’s new draft solicitation for advanced fossil fuel-based technologies.

Chemical looping is considered a form of advanced oxy-combustion technology since it aims to combust fuel in a pure oxygen environment, producing a flue gas which largely contains just CO2 and water vapor. But while oxy-combustion typically uses an expensive air separation unit—which carries a large energy penalty of 15 to 20 percent of the power plant in addition to another 6 to 7 percent energy penalty for CO2 compression—chemical looping ditches the separation unit and instead uses two circulating fluidized bed reactors, one for air and one for fuel. The first reactor loop reacts the coal with a solid oxygen carrier—either a metal oxide like iron, nickel or copper, or an alkali such as calcium sulfate—at high temperatures to make CO2 directly. Meanwhile, the second reactor regenerates the solid oxygen carrier, which has been depleted of its oxygen, by a reaction with the air and then transports it back to the fuel reactor so that the process can be run again, leaving pure CO2 that is essentially ready for sequestration or processing. The process gives off heat, which can generate steam that can turn a turbine and generate electric power.

The technology, though, is still in its fairly early stages of R&D and will take years of more thorough testing and scale up before it can be seen as a real option for CO2 capture, experts say. But Hilton said that early pilot testing in Connecticut has made Alstom all the more excited about chemical looping technology. “We’re very enthusiastic and we see this as a really leading second-generation technology. It allows us to burn coal in essentially a zero-emission platform without the post-combustion or IGCC technologies that have become expensive,” Hilton said. “It looks like this has the economics we really need for new plants going forward.”

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NEW: Via public records request, I’ve been able to confirm reporting today that a warrant has been issued for DOE deputy asst. secretary of spent fuel and waste disposition Sam Brinton for another luggage theft, this time at Las Vegas’s Harry Reid airport. (cc: @EMPublications)

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by @BenjaminSWeiss, confirming today's reports with warrant from Las Vegas Metro PD.

Waste has been Emplaced! 🚮

We have finally begun emplacing defense-related transuranic (TRU) waste in Panel 8 of #WIPP.

Read more about the waste emplacement here: https://wipp.energy.gov/wipp_news_20221123-2.asp

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