White House Memo - TaskForce, comprehensive strategy on CCS

White House memo sent to Sec. of State, Attorney General and 12 heads of government agencies.


"SUBJECT: A Comprehensive Federal Strategy on Carbon
Capture and Storage

For decades, the coal industry has supported quality high-paying jobs for American workers, and coal has provided an important domestic source of reliable, affordable energy. At the same time, coal-fired power plants are the largest contributor to U.S. greenhouse gas emissions and coal accounts for 40 percent of global emissions. Charting a path toward clean coal is essential to achieving my Administration's goals of providing clean energy, supporting American jobs, and reducing emissions of carbon pollution. Rapid commercial development and deployment of clean coal technologies, particularly carbon capture and storage (CCS), will help position the United States as a leader in the global clean energy race....

To further this work and develop a comprehensive and coordinated Federal strategy to speed the commercial development and deployment of clean coal technologies, I hereby establish an Interagency Task Force on Carbon Capture and Storage (Task Force). You shall each designate a senior official from your respective agency to serve on the Task Force, which shall be Co Chaired by the designees from the Department of Energy and the Environmental Protection Agency.

The Task Force shall develop within 180 days of the date of this memorandum a proposed plan to overcome the barriers to the widespread, cost-effective deployment of CCS within 10 years, with a goal of bringing 5 to 10 commercial demonstration projects online by 2016. The plan should explore incentives for commercial CCS adoption and address any financial, economic, technological, legal, institutional, social, or other barriers to deployment. The Task Force should consider how best to coordinate existing administrative authorities and programs, including those that build international collaboration on CCS, as well as identify areas where additional administrative authority may be necessary. The Co Chairs shall report progress periodically to the President through the Chair of the Council on Environmental Quality."

http://www.whitehouse.gov/the-press-office/presidential-memorandum-a-comprehensive-federal-strategy-carbon-capture-and-storage

From my experience when the U.S. Government uses words like "demonstration project" or "pilot projects" you can be assured laws and regulations such as the Clean Air Act, operating permits, public hearings, public comment periods are NOT required nor need be followed. You could wake up one day soon and see a pipeline running across your land or near by. You could have a carbon capture sequestration site (and other non-filtered out pollutants like lead and mercury) under you soon. New "clean coal" power plants won't need to follow the Clean Air Act as they could be deemed part of Best Available Control Technology (BACT) under the Prevention of Significant Deterioration (PSD) program of the New Source Review program of the Clean Air Act. It is this part of the Act where the EPA will regulate GHGs. And in doing so they will be allowed to bring online CCS and clean coal, and nuclear with no discourse.

http://www.epa.gov/nsr/psd.html

The EPA has been given its charge already on the subject matter by the 'expert.'

http://www.epa.gov/air/caaac/climate/2010_02_InterimPhaseIReport.pdf

DoE (ahem) "restructured" FutureGen, in January 2008:
http://fossil.energy.gov/news/techlines/2008/08003-DOE_Announces_Restructured_FutureG.html


Senator Obama reacted immediately:
http://www.grist.org/article/obama-joins-illinois-legislators-pushing-to-revive-futuregen/


Even before President-Elect Obama had taken office, the course was clear:
http://www.futuregenalliance.org/news/releases/pr_01-08-09.stm

Soon, FutureGen was back in business:
http://www.washingtonpost.com/wp-dyn/content/article/2009/03/11/AR2009031102306.html

http://www.energy.gov/news2009/7419.htm



http://www.energy.gov/news2009/7454.htm


It's amusing to me that you would prefer to think that the Obama administration is unprincipled rather than accept that they are sincere about pursuing goals you disagree with.

as dirty coal can be burned as clean. No shock the UofIL now has the largest research grants on the subject.

Having been born and raised in IL and work for the State government, just another classic example of patronage.

http://www.columbia.edu/~jeh1/mailings/20081229_DearMichelleAndBarack.pdf

While you are a shill for the nuclear industry.

...after hydro.

:rofl:


It is hilarious that you claim that there are "wind industry" shills. First, as the nuclear proponents on this board love to point out, wind is a nascent industry with virtually no money to spend on either lobbying or propagandizing the public. In comparison, the nuclear industry is a huge contributor to our political machine - $86 million in direct lobbying of Congress in the first 9 months of 09 alone. It is also has a well organized coordinated lobbying/public relations machine that has a 50 year track record of misinforming and lying to the public. Unfortunately we have no idea how much they spend on direct public outreach via commercial public relations entities such as you work for.

Next is the nature of the word "shill".

A shill is someone that pretends to be something they aren't in order to gain the confidence of the intended victims of a con artist. Upon gaining that confidence, the shill uses it to vouch for the credibility of the risk the victim is being asked to take.

That fits you to a tee.

You came on this board pretending to be a highly informed crusader for climate change. Instead, you've demonstrated a total commitment from the start to defending the nuclear industry climate change being nothing more than a convenient justification...

From day one, I've never made any representations about what I support as a solution to climate change. In my training as an energy analyst specializing in carbon management technologies, among other things I accomplished the same basic research that is contained in
Jacobson's paper on solutions to climate change and energy security, and independently I arrived at the same conclusions that he has written up.

In other words, unlike you I am honest, independent and well informed.

The physics and logistics behind CCS condemn the approach as an energy solution. Therefore the pursuit of the technology has other motivations.

However, we are dealing with a preexisting infrastructure, which is heavily dependent on coal.

We cannot replace that entire infrastructure overnight. CCS is a way to retrofit our current infrastructure to minimize its harmful effects, while we overhaul it.

http://www.ucsusa.org/news/press_release/coal-power-warming-world-0151.html

(The UCS report echo's the Hansens' letter to the Obamas.)

Just as extraction requires a dedicated infrastructure, so too does sequestration with any known technology. The retrofit idea must accompany an examination of potential reservoirs and a plan for getting it to those reservoirs. How many pounds of CO2 does one pound of coal produce?

A plant BUILT AT THE SITE of a potential reservoir avoids that problem, but then you are back to building plants that, in the end, are much less cost effective at avoiding future CO2 emissions than the same amount of money spent on renewable energy sources.

This shit is business as usual in Washington and it is not defensible.

ere: http://www.rsc.org/publishing/journals/EE/article.asp?doi=b809990c

Full article for download here: http://www.stanford.edu/group/efmh/jacobson/revsolglobwarmairpol.htm


Energy Environ. Sci., 2009, 2, 148 - 173, DOI: 10.1039/b809990c

Review of solutions to global warming, air pollution, and energy security

Mark Z. Jacobson

Abstract
This paper reviews and ranks major proposed energy-related solutions to global warming, air pollution mortality, and energy security while considering other impacts of the proposed solutions, such as on water supply, land use, wildlife, resource availability, thermal pollution, water chemical pollution, nuclear proliferation, and undernutrition.

Nine electric power sources and two liquid fuel options are considered. The electricity sources include solar-photovoltaics (PV), concentrated solar power (CSP), wind, geothermal, hydroelectric, wave, tidal, nuclear, and coal with carbon capture and storage (CCS) technology. The liquid fuel options include corn-ethanol (E85) and cellulosic-E85. To place the electric and liquid fuel sources on an equal footing, we examine their comparative abilities to address the problems mentioned by powering new-technology vehicles, including battery-electric vehicles (BEVs), hydrogen fuel cell vehicles (HFCVs), and flex-fuel vehicles run on E85.

Twelve combinations of energy source-vehicle type are considered. Upon ranking and weighting each combination with respect to each of 11 impact categories, four clear divisions of ranking, or tiers, emerge.

Tier 1 (highest-ranked) includes wind-BEVs and wind-HFCVs.
Tier 2 includes CSP-BEVs, geothermal-BEVs, PV-BEVs, tidal-BEVs, and wave-BEVs.
Tier 3 includes hydro-BEVs, nuclear-BEVs, and CCS-BEVs.
Tier 4 includes corn- and cellulosic-E85.

Wind-BEVs ranked first in seven out of 11 categories, including the two most important, mortality and climate damage reduction. Although HFCVs are much less efficient than BEVs, wind-HFCVs are still very clean and were ranked second among all combinations.

Tier 2 options provide significant benefits and are recommended.

Tier 3 options are less desirable. However, hydroelectricity, which was ranked ahead of coal-CCS and nuclear with respect to climate and health, is an excellent load balancer, thus recommended.

The Tier 4 combinations (cellulosic- and corn-E85) were ranked lowest overall and with respect to climate, air pollution, land use, wildlife damage, and chemical waste. Cellulosic-E85 ranked lower than corn-E85 overall, primarily due to its potentially larger land footprint based on new data and its higher upstream air pollution emissions than corn-E85.

Whereas cellulosic-E85 may cause the greatest average human mortality, nuclear-BEVs cause the greatest upper-limit mortality risk due to the expansion of plutonium separation and uranium enrichment in nuclear energy facilities worldwide. Wind-BEVs and CSP-BEVs cause the least mortality.

The footprint area of wind-BEVs is 2–6 orders of magnitude less than that of any other option. Because of their low footprint and pollution, wind-BEVs cause the least wildlife loss.

The largest consumer of water is corn-E85. The smallest are wind-, tidal-, and wave-BEVs.

The US could theoretically replace all 2007 onroad vehicles with BEVs powered by 73000–144000 5 MW wind turbines, less than the 300000 airplanes the US produced during World War II, reducing US CO2 by 32.5–32.7% and nearly eliminating 15000/yr vehicle-related air pollution deaths in 2020.

In sum, use of wind, CSP, geothermal, tidal, PV, wave, and hydro to provide electricity for BEVs and HFCVs and, by extension, electricity for the residential, industrial, and commercial sectors, will result in the most benefit among the options considered. The combination of these technologies should be advanced as a solution to global warming, air pollution, and energy security. Coal-CCS and nuclear offer less benefit thus represent an opportunity cost loss, and the biofuel options provide no certain benefit and the greatest negative impacts.

I don't.

For example, on page 156, he calculates the time to build a nuclear plant, including:
http://www.stanford.edu/group/efmh/jacobson/PDF%20files/ReviewSolGW09.pdf

3.5 years
2.0 years
+.5 years
6.0 years (minimum)

Well, I'm certainly no nuke booster, but that's what I call a dubious conclusion. Based on a sample size of 1, he's determined that the minimum time for the NRC to approve a site permit is 3.5 years. The minimum time to review and approve a construction permit is 2 years, and the minimum time from permit approval and issue is half a year.

Would you agree those also represent the maximum times? (The conclusion is equally valid if you ask me.)

This sort of stuff makes me question the whole report.

You are criticizing Jacobson for using the most accelerated timeline that is suggested by the nuclear industry as the minimum value in his analysis?

The process for that regulatory structure is currently underway so he used the actual elapsed time together with the time remaining as projected by those promoting this structure as being the new standard.

His sample data includes not only the current goal of the nuclear industry but the historic data regarding what has been accomplished in the past.

I can' think of a more concrete set of data that a researcher could collect. To consider that the goal now established is a maximum in the face of the actual performance data of the industry past and present is a very bizarre perception.

But at least you are honest to a point - you don't "like" the study and you want to find some way to discredit it. I suspect the motivation involved is your clear wish for hydrogen fuel cells to be a better option than batteries.

The ethanol and nuclear people don't like the study very much either, if that makes you feel any better...

i.e. "the minimum time for preconstruction approvals (and financing) is 6 yr."

Would you use the regulatory hypothetical that failed to be achieved?

Then, I would look at how much variability we might reasonably expect.

To make a comparison, do you feel it would be valid to use the approval process for "Cape Wind" to determine the minimum time for the approval of an off-shore wind farm in the US?

http://www.capewind.org/news3.htm

There is a long history of nuclear plant construction both here and around the world which goes into the time to completion values that Jacobson used. The fact that he used the MOST OPTIMISTIC TIMELINE FROM THE NUCLEAR INDUSTRY as a minimum in that range is an absolutely bizarre thing to object to.

To use Cape Wind as an illustrative example of something comparable to what he did we'd need to fit it into the matrix of thousands of competed wind projects. You could narrow that down to only those in the US, or alternatively you could look at only offshore projects to see if there is a significant difference emerging between terrestrial and offshore wind. Either way Cape Wind needs to fit into the overall picture. And, what would become evident quickly is that Cape Wind is obviously outside the norm. There are good reasons for that - the developer attempted to build a project where there was no regulatory structure in place to govern the process being first among
them - and for those reasons it would be a poor choice as a representative model of the time needed to build an offshore wind farm.

Since you specified offshore wind: More accurate data would be obtained by using 1) the historic record of projects that have been completed. Those are all European projects, so you'd need to use those projects (and any problems they've experienced) to inform 2) the Dept. of Interior MMS planning forecasts that have emerged from the nearly decade long process of policy formation for governing alternative energy development in public waters.

Now that a set of rules are in place there is a defined uniform process that can guide the development.

Knowing that we return to your original self serving bit claim - that using an outlier like Cape Wind (that initiated the mover to develop regulations for developing offshore wind in the US) is analogous to using the Dept of Energy's new regulatory regime that has been developed after 50+ years of experience with nuclear power.


No, they are not analogous.

It isn't the same.

You just don't like the Jacobson paper because it demonstrates that hydrogen technology isn't as effective as battery technology and you are willing to sacrifice your intellectual integrity on the alter of your personal preferences.

I point out that the author has overstated his case.

You feel the need to attribute that to some nefarious motive on my part.

Your critique was so blatantly baseless it begs the question of what your reason for making it was. I very clear answered your criticism TWICE and you have totally ignored the substance of my response. The MINIMUM VALUE USED BY JACOBSON IS THE BEST CASE THE NUCLEAR POWER INDUSTRY IS HOPING TO ACHIEVE.

You made an attempt to parse the use of minimum in a false and prejudicial manner, and now that the meaning was made clear you are trying to divert attention by whining that I'm picking on you.

Best case scenario would be 4 years planning + 4 years construction.

MEAG submitted COL application in 2008 for Vogtle 3 & 4. They believe first reactor (Vogtle 3) will be online in 2016 and the second (Vogtle 4) in 2017. That is 2 reactors online in 8 years including planning. Maybe they miss the deadline but that is the goal.
To state the author used what the nuclear industry is attempting to achieve is completely false. The minimum value was one chosen by him to intentonally increase time before reactors will come online (putting nuclear in bad light and these magical 2 year wind farms in good light).

10 to 19 years is a anti-nuker fantasy concocted by the author of the study.
Please prove your false claim. Show an industry source anywhere that says MINIMUM time the industry is trying to achieve is 10 to 19 years for a reactor.

If new nuclear can be built quicker then the score is improved dramatically because he includes opportunity cost of emissions due to delays (where wind gets zero).

And to date the preponderance of the evidence STRONGLY supports his analysis.

If more realistic times were given then nuclear could beat out hydro.

He assumes 80% capacity factor (vs 92% in reality). Lower capacity factor means for the purpose of study more reactors are required.

He assumes average reactor peak output will be 850 MW. Nobody even sells 850MW anymore. Ever reactor under construction or planned around the world is 1000MW+ with most being 1150MW, 1350MW, or 1600MW. Lower output means more reactors are needed to achieve goals of study.

He assumes average reactor lifespan of 40 years despite Gen II reactors being extended to 60 years and GenIII+ being rated at 60+60 (60 year lifespan plus extension of up to 60 more).

So while you are correct construction time is the most important factor he basically undercounts nuclear energy on every single possible factor.

I haven't looked at the MIT study in some time.

:puke:

(Joking.)

There is no separate site permit and construction permit.

There is simply a "combined construction and operating license" (COL).
COL is the only thing a utility needs to construct & operate an approved reactor in the United States.
That is the whole point of regulatory change in late 1990s. The standardization was designed to combat the laundry list of diverse/overlapping permits & licenses that existed before.


Now a utility has the CHOICE (but not requirement) of obtaining an "early site permit" (ESP) however this is optional. Some utilities have chosen to get one and others have not. There are 26 COL currently in approval process but only 6 ESP have been requested. Adding the completion time for ESP to total approval time is once again a way to "pad the time".

So if an ESP is optional why would utilities apply for it?
a) it allows non radiological construction to begin on site before COL is issued (laying foundation, building access roads, erecting security fences, setting up transmission lines, etc)
b) Environmental impact statement (EIS) is the same between an ESP and COL so it can speed up COL process.
c) ESP allows utility to "lock in" a site for nuclear reactors for up to 20 years without requiring a financial commitment. Many sites simply do not have the demand for additional generation at this time however having an ESP gives utility flexibility.

Still even if one "pretends" an ESP is required there is substantial overlap between the time-lines of two permits. One doesn't need an ESP to submit request for COL. So adding the times together linearly is stupid. There is also overlap between construction time-line and COL process.

Vogtle Reactor 3 & 4
ESP submitted: 08/2006
ESP issued: 08/2009
COL submitted: 03/2008
Construction Started: 04/2009
COL issued: ??? early 2012

Advanced site prep work has been going on at Vogtle for over a year now (back filling foundation) so one should subtract that time from the post COL construction time but author doesn't do that either. In essence he makes ESP mandatory, "charges" all the time/cost of ESP but doesn't reflect any of the benefit (non-radiological construction started before license issued).

Approval time-line for COL is 4 years. NRC provides time-lines updated monthly on their website which bear this out. This is just one of hundreds of "small mistakes" that he makes and they all happen to be biased against nuclear.

http://www.nrc.gov/reactors/new-reactors/col/vogtle/review-schedule.html

http://www.nrc.gov/reactors/new-reactors/col/north-anna/review-schedule.html

http://www.nrc.gov/reactors/new-reactors/col/south-texas-project/review-schedule.html

Public hearings aren't listed because NRC doesn't schedule them until all other steps are completed. Time frame for public hearings is 6 months.

Of course the author also concludes construction time is a decade also despite numerous reactors built in the last decade averaging 4 to 6 years from concrete pour to criticality.

(Sigh...)

OK, it takes 10 years to build a nuclear reactor. Let's build one and see, shall we?

We know damn sure that some wind farms are going in to their second decade of planning...

According to the report, "Thus, the overall time between planning and operation of a large wind farm is 2–5 yr."

...that no longer exists. It's just pulled out of his ass.

Message removed by moderator. Click here to review the message board rules.

66 T. Van de Wekken, Doing it right: The four seasons of wind farm
development, 2008, http://www.renewableenergyworld.com/rea/news/reworld/story?id=52021

I don't see any cite there anywhere.

http://www.accessmylibrary.com/coms2/summary_0286-34745234_ITM

It's nonsense. T. Van de Wekken is a wind energy engineer, not a scientist. It's not a peer reviewed claim by any means.

I did my own search for the largest wind farms and up to 1/3rd of them take more than 5 years to complete due to conflicts with locals. It was not robust however, so I didn't make a post about it. If I make a more robust search I may do so.

Do a study of the time to complete for wind. If it's good, it would be welcomed and probably have a good chance of getting published in a decent journal. Hell, I'd even consider collaborating on it if you were serious about doing a good job.

But be sure its good; I imagine you are still tasting those black feathers from when you set out to prove a point about electric rates.

I find it interesting you try and belittle this guy on wind, yet you routine accept unsubstantiated and outrageous claims by nuclear proponents here as if they were the gospel truth....




http://www.leonardo-energy.org/node/1477


But he is "not a scientist" according to you...

Also, it is funny how the people you disagree with are so often stripped of the credit for their life's work by you. I suspect you've never accomplished much yourself in the way of personal development.

And just so we're clear here, my point was proved with electric rates and my very robust analysis that followed daily demand.

Poor people are shafted under new metering methods.

You've omitted a couple of things - by accident, I'm sure.

An early site permit is what had been applied for at the time the paper was written. There have now been 4 issued (including Vogtle) and Vogtle is the exception, not the rule (see below).

Now, what is an Early Site Permit? It allows a company to apply for a permit without committing to building a reactor. It is the core of the Nuclear Industry plan that removes oversite of the process from influence in the public realm. No particular plant design need be submitted. No challenges can be posed to the plant for the 20 year duration of the permit. There is no recourse to problems with public safety issues except through the NRC and its incestuous relationship with the industry. I invite readers to imagine where the line between prudent business decisions and public safety would be drawn by this bureaucracy under the leadership of another administration in the Bush/Cheney mold...

So, while the ESP deprives the public of any control of the process once the permit is issued, does it actually speed up the process?

You tout the fact that they've started construction at Vogtle, but what about at the sites that received the other 3 permits? How are they doing?

At the time the article was written, the Clinton project is the one that Jacobson must have been looking at, not the Vogtle project.
http://www.nrc.gov/reactors/new-reactors/esp/clinton.html
Rcvd permit application: 9/25/03
Permit issued 3/15/07

Since we have Grand Gulf:
Rcvd permit application: 10/21/03
Permit issued: 3/27/07


North Anna site:
Rcvd permit application: 9/25/03
Permit issues: 11/20/07

Vogle:
Rcvd permit application: 8/15/06
Permit issued: 8/26/09

Clinton is in a state that won't allow new nuclear, so it the permit applied for in 03 has not resulted in anything to date - 7 years and counting.
Grand Gulf (in user friendly Mississippi) submitted an application for a Combined Operating License on February 27, 2008. but by the end of the year they had withdrawn their application.
The North Anna reactor was was also applied for in 03, and it too has yet to break ground due to having to clear state hurdles at the state level in NC and VA. 6.5 yrs and counting.

In addition to the ESP, plants also must obtain a design certification permit for the reactor and a COL. Neither of which is actually factored into your claims related to time to completion.

So, your critique of Jacobson rings pretty hollow when the projects and the totality of circumstances are reviewed.


Jacobson's actual text:


Now lets look at your timeline:ESP submitted: 08/2006
ESP issued: 08/2009
COL submitted: 03/2008
Construction Started: 04/2009
COL issued: ??? early 2012

WIKI:

It would be self-evident. Instead you insist on poor logic and disinformation.

You assume that the only way to sequester carbon is by pumping it underground.

Calera's solution fixes the carbon chemically.
http://www.calera.com/index.php/technology/

Now, they suggest selling the product off for building material (as a financial incentive.) However, you could, just as well, landfill it.