Yes, we know it doesn’t work. Learned that in stopping the Mesaba Project:

IGCC – Pipedreams of Green and Clean

There were IGCC – coal gasification – plants proposed all over the country, and they fell, one by one.  Some not fast enough, the Kemper project, in today’s Guardian, is an example of protracted misrepresentations to keep that money coming in to fund the scam:

The best thing that came from the failed Mesaba Project was the information about the technology that hadn’t been disclosed before.  We were able to use this information all over the country to stop these plants, and stop this one before Minnesotans were utterly and hopelessly screwed as they were in Mississippi with Southern’s Kemper and Indiana with Duke’s Edwardsport. Read the rest of this entry »


There’s been change afoot as the facts of the infeasibility of CO2 capture and storage filters up to the higher regions of the cesspool, and as the financing nightmares and high capital costs of IGCC are paraded in public as the Indiana Duke IGCC project moves forward, and as, of course, the DOE’s EIS (here’s the DOE’s project page) for Excelsior Energy’s Mesaba Project drags on and on and on as the agency refuses, thankfully, to issue the Record of Decision on that… and slowly, painfully slowly, the truth about this IGCC pipedream is coming out.

A few telling tidbits, first, that they’ve given up on FutureGen IGCC, YEAAAAAAAAA:

DOE to provide $1B to revamped FutureGen

Katherine Ling, E&E reporter

The Energy Department today announced $1 billion in stimulus funding for a carbon capture and sequestration retrofit project it is labeling “FutureGen 2.0.”

The new project would retrofit a mothballed unit of an Ameren Energy Resources coal-fired power plant in Meredosia, Ill., to capture 90 percent of carbon dioxide and other pollutants using “oxy-combustion” technology, and then transport and sequester the CO2 in a regional storage site in Mattoon, Ill. The Mattoon location — the site of the original FutureGen project — would also house a training facility to teach oxy-combustion technology and retrofitting skills.

DOE is providing the $1 billion to the FutureGen Alliance, Ameren, Babcock & Wilcox and Air Liquide Process & Construction Inc. to develop the facility. The total cost of retrofitting the plant and building a “collection facility” for carbon dioxide, a training facility and CO2 pipelines will be about $1.13 billion in federal investment, with the expectation of up to $250 million in private investment, Sen. Dick Durbin (D-Ill.) told reporters. Durbin has been a strong advocate for the project and repeatedly requested appropriations for it.

The project would be a significant change from the original FutureGen clean coal project announced by President George W. Bush and DOE in 2003. The original project supported by DOE and the FutureGen Alliance — a consortium of major coal and utility companies — aimed to build a new coal power plant on 444 acres in Mattoon that would use integrated gasification combined cycle (IGCC) technology, produce hydrogen and electricity, and capture and sequester CO2. Bush and then-Energy Secretary Samuel Bodman announced in 2008 that they were walking away from the project because of skyrocketing costs (Greenwire, June 12, 2009).

“Today’s announcement will help ensure the U.S. remains competitive in a carbon-constrained economy, creating jobs while reducing greenhouse gas pollution,” Energy Secretary Steven Chu said in a statement.

“This investment in the world’s first, commercial-scale, oxy-combustion power plant will help to open up the over $300 billion market for coal unit repowering and position the country as a leader in an important part of the global clean energy economy,” Chu added.

Oxy-combustion technology utilizes oxygen and CO2 instead of air to produce a concentrated CO2 stream for safe, permanent storage, DOE said. The technology also eliminates almost all of the mercury, SOx, NOx and particulate pollutants from plant emissions and could be potentially the lowest-cost approach to clean up existing coal-fired facilities and capture CO2 for geologic storage, according to the National Energy Technology Laboratory.

“It really didn’t make any sense to prove a technology that has already been proven” and move forward with IGCC, Durbin said. “I think this is going to build way beyond the original FutureGen concept.”

Durbin said the plan is to conduct engineering and land acquisition this fall and start on construction next spring.

The construction of the pipelines, facilities and retrofit will create about 900 jobs in southern Illinois and another 1,000 jobs at suppliers across the state, according to DOE.

This study was released last June, which shows that leakage of CO2 is a major problem, and which makes sequestration not feasible:

Long-term Effectiveness and Consequences of Carbon Dioxide Sequestration – Shaffer

Can’t have information like that getting out, so USA Today, of course, plays it with the following headline — DUH, of course critics pan the study — and this is the best they could come up with and it took two months!

Critics question carbon storage study

Worries about leaks from buried greenhouse gasses unearthed in a recent climate study look overblown, say critics.

Carbon sequestration, burying carbon dioxide in underground reservoirs, has emerged in recent years as one option for continuing to burn coal and other fossil fuels from power plants while addressing global warming. A 2004 Science journal report by Princeton researchers, for example, pointed to carbon sequestration as one strategy, among many, for humanity dodging the climate consequences of pumping global warming gases into the atmosphere.

A June Nature Geoscience report by Gary Shaffer of the Danish Center for Earth System Science, however found such carbon dioxide reservoirs would have to leak less than 1% per millennium to help the climate. “The dangers of carbon sequestration are real and the development of (carbon sequestration) should not be used as a way of justifying continued high fossil fuel emissions,” Shaffer said in a statement, alluding to a debate over whether “clean coal” power plants, which would store their greenhouse gas emissions underground, are a worthwhile goal for addressing climate change.

The study made news in climate circles, but some have since pointed out problems with Shaffer’s study. “I feel that this calculation adds little to the question of whether we should use carbon capture and storage,” wrote Nature assistant news editor Richard Van Noorden, suggesting that researchers need to figure out whether carbon can be safely pumped underground in the first place before worrying about 20,000 years from now, an end point of the study.

This month, an Energy Department analysis from the Pacific Northwest National Laboratory (PNNL) of the study found “two deeply flawed assumptions which combine to grossly overstate the impacts associated with society using carbon dioxide capture and storage.”

First, the Nature Geoscience analysis suggested that carbon sequestration would be used to bury enough greenhouse gas to stave off all future climate warming. At best, carbon sequestration could store only about half of the carbon dioxide emissions responsible for global warming, notes the PNNL critique, and likely much less. And those carbon dioxide emissions are only partly responsible for projected future average surface temperature increases (anywhere from 2 to 11 degrees Fahrenheit depending on actual emissions, according to March National Research Council reports) alongside deforestation, and other greenhouse gasses:

“The assumption that (sequestration) is the only mitigation technology available is therefore highly questionable as a simplifying assumption as it leads to a dramatic overestimation of the amount of CO2 required to be sequestered. This significant overestimation of CO2 stored leads directly to the enormous volume of leakage and the resulting harm from imperfect retention reported by Shaffer.”

Second, the whole point of carbon sequestration underground is that the carbon dioxide would chemically bind to the rock layers there, preventing it from leaking, over decades and centuries.

“My study was not meant to propose if and how much (sequestration) to use but rather to look for the first time at the long term consequences of any leakage back to the atmosphere of any CO2 sequestered,” Shaffer says, by email. “My results show that high emissions with (sequestration) is not the same as low emissions without (sequestration) because of the leakage and its consequences.”

But the amount of sequestration contemplated in the study is “off by at least two orders of magnitude,” says MIT’s Ruben Juanes. “I’m as skeptical of carbon sequestration as anyone — the energy penalty it incurs is substantial — but the assumptions made in this (Nature Geoscience) paper are very hard to justify.”

Princeton’s Michael Celia, another sequestration researcher, notes that research already shows that 95% of any carbon injected into a reservoir would become trapped within 1,000 years. “In general I agree with the PNNL comments,” Celia says, by email.

Carbon sequestration critics often make over-sized assumptions about the technology to write it off, Juanes adds, such as objecting to the amount of pipe needed to immediately equip every existing power plant in the nation with it, making a one-time purchase out of an economic process that would play out over decades. “No single technology can immediately bridge the gaps in climate,” Juanes says.

By Dan Vergano