Saying that 'some' CO2 can be injected underground for oil recovery is like saying that used vegetable oil is a good source of fuel. It may be true, but the amounts involved are limited. What do we do with the CO2 left after the oil injection? One suggestion is to run the trains on it. A 21st century version of the steam pressure design, but instead of filling up with water and coal, you drop dry ice in the 'water tank' The CO2 sublimates driving the train, and eliminating the fossil fuel required. To chill CO2 to dry ice you could use off peak tidal or whatever..

Chart 2 appears to be based on CCS starting ~10 years from now and being phased in over 20 years, is that correct?

It's surprising that biological carbon capture, using algae etc., hasn't got more attention yet. I'm not aware of any planned projects in the works, but some tests have been done in the U.S. On the surface of it it seems more scaleable and manageable than geosequestration.

Silly question, but if separating the CO2 from the flue stream is such an expense, has anyone looked at a method of emission capture that just takes everything? Obviously the volumes would be massive, but if you could hold a large volume somewhere, and CO2 being a heavier gas was left to drift to the bottom, you could then release the top portion every so often. Talking completely out of my field of expertise here, but I have to ask!

Rembrandt - thanks vey much for this post, which if correct, suggests to me that Carbon Capture has zero future. If your chart showing peak coal at 2025 is correct then no way will global society / economy be able to bare 20% of the energy produced from coal going into burying the CO2. And what would be the point?

I mentioned to you before that BP had plans to build the UK's first major CO2 capture project at Peterhead which is just up the road from where I live. Nat gas was to be conveted to H and CO2. The H burned in the existing powerplant and the CO2 injected into the offshore Miller Field - which produced sour gas and already had a high garde steel pipleine leading to it.

The project I understand has now been abandoned because of governemnt prevarication over subsidies. In other words the project was not economic with current CO2 prices.

http://www.bp.com/genericarticle.do?categoryId=2012968&contentId=7006999

http://www.bp.com/genericarticle.do?categoryId=97&contentId=7006978

On April 5th, Vattenfall started a "CO2-free" test coal power plant in Jänschwalde, Germany.

Vattenfall bet on the oxyfuel process.

They are now building a 30 MW pilot plant that is planned to go online in 2008.

http://www.vattenfall.com/www/co2_en/co2_en/index.jsp

The economic success depends on CO2 prices, which have to go up.

However, it is also true that coal plants are very unpopular because of the CO2 emissions, so they might just try to soothe the public.

links for charcoal mixed into soil a possible way of fixing carbon into earth.

http://www.dpi.nsw.gov.au/research/updates/issues/may-2007/soils-offer-n...
http://www.iaiconference.org/presentationsattendees.html

55 million years ago a plant ate all the co2 after the poles melted.

There is some work on catalysts that have lab size capacities for using off-peak power to separate water and CO2, recombining them with products of methane and oxygen.

bill.james@jpods.com
It costs less to move less

I believe that Big Coal sees CCS as 90% a stalling tactic and 10% a gamble that might just work. It helps that federal govts in major coal using countries are playing along with the charade; notice how CCS is supposed to work by 2012 the same year that various carbon cap schemes will be introduced.

A couple more clues give the game away. I last heard the yet-to-be-started FutureGen project had been narrowed down to a site in Illinois or Texas. Some urgency. Also Big Coal tells us coalbed methane needs to be tapped as it will escape. Are those the same underground formations that are supposed to store the scrubbed CO2? Note that gas domes are marine sediments and coal beds are fossil swamps so the geology is usually some distance apart.

Fortunately several TOD articles have pointed to coal peaking early even without the extra 25% CCS throughput penalty. If we can get through the next 20 years without permanently destroying the planet we'll have to find alternatives to coal.

Rembrandt,
This is a great post, thanks for writing it and making it available! It makes it pretty clear that conserving electricity is the least expensive method of CO2 sequestration, not releasing it through burning is the best and most cost effective measure.
Bob Ebersole

Two points. First, this whole business expends human energies on a scheme which only works until the coal is exhausted and/or the storage possibilities are filled. Then we are that much further behind. Second, it only works for those locations where there are places to put carbon away.

As boondoggles go, this has to rate right up there with the goofiest. Yet, our political and swivel servant group, being largely devoid of scientific training, will probably sign off on it. If you see large amounts of money going into these schemes, then it is definitely canary time.

Deployment of capital - human energies - must be directed to where we need to end up, not on stopgaps and patches. While the post is well done and interesting, it serves to illustrate why we should be looking elsewhere for places to deploy our efforts.

I used to think that necessity was the mother of invention and desperation was the mother of genius, but desperation can be the mother of futile flailing just as easily. By definition this qualifies as the latter.

Since it is highly probably that CCS will take the place of so called "clean coal" as the way to let the coal industry grow as it pleases, it is necessary to set a date soon whereby unsequestered coal is prohibited. Strategies need to be based upon the assumption that significant amounts of coal based electricity will not be available. Further, even with CCS, there will still be a significant amount of greenhouse gases associated with the inefficency of the process and all the greenhouse gases emitted from the mining and processing of coal before it gets to the plant.

Those politicians, like Obama, who are betting our future on "clean coal" or CCS are just trying to pacify the public through the next election cycle. The public, who will not be reading oil drum, will be easily pacified. After all, if one is determined to follow one's current chosen lifestyle, one will grasp at any straw or any empty promise.

The goal should be to get away from coal, or at the very least, unsequestered coal. Instead of heading straight from that goal, we, at best, will take the indirect route of carbon and/or cap and trade schemes. After putting these schemes in place, we will engage in a hope and a prayer that the market will work quickly and efficienctly enough to achieve the destired result.

Last week, one of the coal magnates opined that the democrats were out to destroy the coal industry because of global warming. Well, as long as they believe that, there is little to lose by going ahead and doing the job.

Many will not like what I'm going to say, but I really think this whole subject of CCS and GW will soon become academic due to the extremely pressing issues of Peak Oil (which according to the stats compiled by Khebab seems to have been 2 years ago), Peak Energy and Peak Food. So my view is that new coal-fired powerplants will be built with no CCS whatsoever.

Folks, if the electrical grid collapses then the whole societal order does. In that case, you don't care much about whether the sea level will be 3 m/10 ft higher in 100 years.

IMHO all the public fuss about GW is just a red herring to provide cover for taking measures that are really intended to mitigate the consequences of PO. Take biofuels. It's much more elegant to say "we need to start producing biodiesel in earnest in order to reduce CO2 emissions" than to say "we need to start producing biodiesel in earnest because oil production has peaked".

Carbon Dioxide Sequestration and Oil Recovery

Denbury Resources purchased a carbon dioxide reservoir in Mississippi and used the CO2 to recover oil from abandoned oil fields. The CO2 was injected at high pressure and formed a solution with the remaining oil causing an oil flow. The oil recovery process was commercially profitable. They have an agreement to buy industrial CO2 output to use in further recovery. After the CO2 was injected in an old field, they had to leave some of it in the ground after completing operations and recovered part to use in other areas. This CO2 immiscible flood process was used successfully in the Permian Basin of Texas as well.

Rembrandt,
a nice article ! Well done on the sources / accuracy !

I guess the key question raised in the article is whether we as a society should choose to pay for carbon carpture or not.

The key driver is obviously a need to reduce greenhouse gases CO2 et al. Dependant on the level of reductions we need to achieve, we may or may not need to go for CCS.

For example - stabilisation at a 450-500ppm level of CO2 in the atmosphere could be achieved with a 20% cut in CO2, world wide - Europe could deliver this through energy efficiency measures. US could too. China/India will not be able to. For Europe / US to achieve more we need to move up the creaming curve - which will mean that CCS becomes a competitive method for cutting CO2.

Therefore if we believe that we have to cut more, CO2 storage is an option. It competes against energy efficiency and renewables, however, coal + ccs / gas + ccs is likely to be beat renewables if subsidies are not included in the picture. Technical costs for both come is the same range especially if some cost reduction is considered in CCS technology - which is quite likely give maturity.

So then - is it affordable - well.......
imagine todays power prices - say €50/MWh, then add €15-20/MWh to these, this is the price we would have to pay. Now - we have actually paid these prices already - in fact every winter in some parts of Europe.

Given that CO2 quota costs are already passed though to consumers in Europe, I don't think this is actually going to be as big as suggested here - it can be done. Peak coal and peak gas will drive prices up anyway (just as peak oil will) but energy will remain affordable in both Europe and US, albeit more expensive than today - this is the price for our life styles - energy efficieny can change things here and I believe that this will result in probably offset energy bill increases, though there may be peaks as carbon prices feed through. It is true that the US will pay more for energy but perhaps this is overdue ?

The big issue will be china/india however - how will these guys afford cuts in emissions while still industrialise. I don't have an answer - it will be exceedingly difficult - however as CCS becomes more efficient - and it will - moving from the 20% losses to maybe 10% in 2020, it will also become more affordable.

Carbon taxes on goods made in China / India etc if correctly redistributed could allow/provide funds for CCS to be applied.

The is a bit of a blue eyed post - I am not sure that the world will go in this direction particularly given the Us and China's position as of today. However, CCS should not be painted as a hopeless technology yet - the odds are much better than 10/90 that something beneficial can be achieved. It is a question of time, research funding and patience. It is also a quesion of political courage to create a carbon market which actually results in net CO2 emissions reductions - this has not been demonstrated yet.

To switch to a pure renewables strategy now would be madness though, gas fired power + ccs will cost circa €50-60/MWh, whereas real expansion of wind etc will cost much more as we are way down the creaming curve for wind resource in many areas.

Our other alternative - bring on the nukes... :-/

Can't we just pump all the CO2 into massive greenhouses, spanning multiple states, filled with publicly subsidized corn? *chuckle*

mbkennel & pondlife,
In http://video.google.com.au/videoplay?docid=286000425078890061 there is an idea to cause what seem to be anoxic events that do cause the carbone to fall to the ocean floor, using fertiliser run-off from rivers to fertilise the algal bloom.
(BTW I am NOT endorsing the other ideas - "artificial trees" ??? they've got to be kidding)

Rembrandt writes:

These systems are already initially different, conventional coal plants being more efficient then IGCC systems, which explains some of the difference.

Per the IPCC report, this is exactly backwards.  IGCC is more efficient than PCC (IGCC takes two whacks at converting the heat energy to work, PCC only gets one), and this advantage is still present after carbon capture (35% representative value for IGCC vs. 33% for PCC).

The IGCC plant has better prospects for improvement; you can use a solid-oxide fuel cell topping cycle with IGCC syngas, but not with coal powder.

With either system, if biomass-derived fuel is substituted for part of the coal the system can become carbon-neutral or even carbon-negative.  This is where we need to go, pronto.

Thanks for this takedown of a stupid idea. The energetics of removing carbon dioxide are very poor from first principles and the projections on increased fuel use per unit output quantify that. Not noted is the increase in capital cost for the additional CO2 capturing and storage equipment - capital is just stored energy. Between additional fuel consumption and increase capital costs, carbon-free electricity from this route will be very expensive.

From some of the questions asked here, it is clear that few people really understand the basics and have seen behind the hype. I can say that power industry professionals have never had any hope of this working except as a new form of corporate welfare.

Thanks again for a very helpful posting.