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Drilling has begun on a massive $84M USD U.S. Department of Energy carbon sequestration project. The project and other sequestration efforts have many critics, including the IPCC and utilities, two rivals which typically disagree on climate issues but in this case are in agreement.  (Source: Wired)

The DoE project drills deeper than past U.S. sequestration projects, into sandstone of Mt. Simon, shown here. The reservoir along with similar ones in other parts of Kentucky, Indiana, and Illinois could store up to 100 billion metric tons of carbon dioxide.  (Source: Wired)
Why worry about your problems, when you can bury them away?

As the U.S. Department of Energy's first-of-its-scale project in carbon burial launches, interest in carbon burial and sequestration is at an all time high.  Many nations wish that there was an alternative to traditional emissions cuts, which can hinder growth, and could reduce their net contribution to atmospheric carbon.

Carbon sequestration could provide just such a solution.  By burying the substance in underground cavities or in carbon rich soils in swamps or other sites, the net contribution of a country to emissions can be reduced.  And while many in the environmental community no longer like the idea, pointing out that such deposits could be easily released and don't solve the overall problem, the movement to adopt carbon sequestration still has powerful supporters.

Drilling began this week in Illinois on the DoE project, which will bury one million metric tons of carbon dioxide into the ground by 2012.  The project is the first of its scale in the U.S., and while still small compared to total U.S. emissions has the potential to grow much bigger.  Illinois, Indiana, and Kentucky have enough underground space to store approximately 100 billion tons of CO2, enough to completely negate 25 years of emissions at the current rate, if fully filled.

Robert Finley, the manager of the current project states, "This is going to be a large-scale injection of 1 million metric tons, one of the largest injections to date in the U.S."

While Mr. Finley is enthusiastic about the project, others aren't.  The Bush administration last year canceled funding for an even bigger carbon sequestration project, FutureGen, citing concerns about the practice.  The Intergovernmental Panel on Climate Change, typically a strong voice in support of emissions control, has sided with the utilities for once in vocally opposing carbon burial.  It has released studies indicating 30 percent of the energy from a coal burning plant would be wasted trying to capture the carbon dioxide from the flue gas.

One thing that could give supporters of burial a boost though is new carbon-specific filtering materials produced in labs like Omar Yaghi's at UCLA and at Georgia Tech under Chris Jones.  These materials may potentially make capture much cheaper and more efficient, making storage the only remaining challenge.

John Litynski, who works in the fossil-fuel-centered National Energy Technology Laboratory's Sequestration Division, believes storage should be easy as pie for the U.S.  He states, "What we found in the U.S. with the research that we've done over the last 10 years is that there is a significant potential to store CO2 ... in these very large reservoirs that are underground."

However, many of these reservoirs are deeper underground that existing sequestration projects have reached.  That's why the deep reaching Illinois project, which drills into the Mt. Simon sandstone, is such a critical test bed.  Scientists will, for the first time, be able to observe what happens when they pump compressed carbon dioxide 6,500 feet below the surface.  Describes Mr. Litynski, "We have numbers for what we think the capacity is in the U.S., but the only way to prove that is to actually drill a well."

The Illinois project will pump carbon dioxide produced by ethanol fermentation underground.  Archer Daniels Midland provided land for the site.  Even with these concessions, the project will cost over $84M USD, thanks to the high cost of drilling.

At a recent speech Mr. Litynski was challenged by an audience member who pointed out that 10,000 projects of the scale of the Illinois one would be needed to offset current emissions.  Mr. Litynski refused to back down from his support of the concept, though, dodging the question and stating, "From my point of view as someone working in this field ... the political rhetoric gets to the point where it's all supposed to be solar or wind or coal or natural gas (versus sequestration).  The reality for the situation is that we need all of these technologies."

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RE: Carter... you idiot.
By freeagle on 2/17/2009 4:08:24 PM , Rating: 1
The idea to pump pressurized CO2 into caverns and such is a total BS, and I really can't put it differently. Do they really think millions metric tons of the gas will just sit there and do squat? That it will have no effect on the potential micro-flora/fauna in the caverns and that these micro-life systems are somehow not connected to the life on ground? Or that it one day erupts, or causes local earthquakes? Normally, I prefer solving problems with words than violence, but they really deserve a kick or two.

RE: Carter... you idiot.
By SectionEight on 2/17/2009 4:34:21 PM , Rating: 2
These are not caverns like Carlsbad Caverns. The Mt. Simon Formation is a sandstone, and doesn't form caverns like limestone does. These underground storage 'caverns' are just the pore spaces between sand grains and have rocks above that can prevent fluid flow upwards and favorable structure to prevent lateral flow. This type of 'cavern' is essentially the same concept as, and may possibly have been, an oil reservoir.

The pores aren't empty waiting to be filled up, though. They are usually filled with hypersaline water, though the deeper you get the more compaction has occurred, so minerals will start filling in. Occasionally you get good stuff like oil or gas in there. CO2 will readily dissolve in the brines that fill the pore space, but I wonder if the DoE took into account the fact that you will at some point saturate the brine, or if they ran their calculations as if the pores were filled with air.

RE: Carter... you idiot.
By freeagle on 2/17/2009 5:01:11 PM , Rating: 2
The dissolving CO2 will make the underground waters acidic. Can it have any negative effect?

RE: Carter... you idiot.
By SectionEight on 2/17/2009 7:27:09 PM , Rating: 2
Not much, the grains and the cement in the rock are both quartz (silicon dioxide), which is resistant to most acids.

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