'Clean Coal' - Fact Or Fiction

IS 'CLEAN COAL' JUST A FANTASY?
By Kathy Helms
Dine Bureau
Gallup Independent

ATT: NNadir

http://nativeunity.blogspot.com

There is no dirtier fuel on the planet. Moreover, it's dirty from beginning to end; it pollutes the water table with heavy metals like mercury, kills wildlife, makes the area unstable, and continues to pollute at every step of the extraction process.

Even if they can develop a method to sequester CO2 (they are doing a pilot project now) dumped into the atmosphere mining coal is a disaster and coal ash is massively toxic.

In order for there to be clean coal, you would need to sequester the CO2, come up with ways to get rid of all the ash, and find a way to mine it that doesn't leave ecological disasters everywhere.

Until I can see some way of dealing with all the problems of coal, from mining to ash to CO2, it is a fantasy.

We have made coal cleaner in the past. We can continue to make it cleaner in the future.

It will never be absolutely clean..

Honestly, this debate reminds me of BushCo:
http://georgewbush-whitehouse.archives.gov/news/releases/2004/08/20040807.html

Under this view, we will asymptotically approach "safe" always getting "safer," but never being "safe." The question should be, "When are we safe enough?"

James Hansen, and a whole host of environmental organizations believe we should be researching "Carbon Capture" and "Sequestration." Why? Because we're not going to stop burning coal overnight. We just aren't. Whether you're pro-nuke or anti-nuke, this is a simple fact that you've got to recognize.

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

http://www.ucsusa.org/assets/documents/clean_energy/Coal-power-in-a-warming-world.pdf

The term clean coal is simply dishonest.

Carbon is only one of many problems that coal plants have.

Yes, it gives a false impression, through over-simplification.

Of course, this is also true of the way "Nuclear Power" is presented:

http://www.whitehouse.gov/the-press-office/remarks-president-state-union-address

Fans of nuclear power are wont to point out that a relatively small mass of fuel is used, producing a relatively small amount of waste, compared to coal.

Uranium (like coal) is mined. Unlike coal (however) uranium is generally found in very low concentrations, so to recover those small amounts of fuel, very high volumes of ore must be mined, and similar mining methods are used, and the mined ore must be processed, resulting in large amounts of waste/tailings.
http://www.gjem.energy.gov/moab/

"Nuclear Power" is not as dirty as some of its opponents suggest, but to call it "clean" is well... "simply dishonest." High-level waste is only one of the many problems nuclear power has.

Don't get me wrong. In my opinion, the sooner we stop burning coal, the better. However, I'm not crazy about burning uranium either.

A modern nuclear reactor gets about 60GWd/MTU (60 Gigawatt days per Metric Ton of Uranium).

A GWd is simply 24 GWh (just makes the numbers more manageable).
So 1440 GWh per metric ton. Of course that is thermal energy. Turbines in nuclear plant are about 35% efficient at converting thermal energy into electrical energy. So roughly 500 GWh e per ton. The energy density is off the chart it isn't even in the same league as fossil fuels. So lets work backwards from that.

Now the 500GWh is enriched uranium. Usually to 3%-5%. We will use the high end to be conservative. So 1 ton of LEU fuel requires 7 tons of natural uranium. Now enrichment isn't perfect. not all of U-235 is transfered to LEU thus more uranium is required. enrichment material losses are small (about 10%-20%). For the sake of argument lets say they are 30%. Thus is requires 10 tons of uranium ore to get 1 ton of 5% LEU.

Most dedicated uranium mines have 10% to 28% yield. Mines with less than 10% uranium are not economical by themselves. Uranium is often sound mixed in seams of other metals. All the metals are mined (gold, copper, rare earth elementS) and uranium seperated out. If it wasn't used as reactor fuel it would simply be radioactive waste rock. Since I don't have a global "average yield" lets use the most conservative number, 10%. To get the 10 tons of Uranium metal requires removal of roughly 10 tons rock containing uranium ore.

So working all the way backwards 1 Metric Ton of LEU = roughly 70 tons of rock. 500GWh (from above) per 100 tons of rock mined. You get roughly 5Gwh of energy per ton of rock mined.

Lets compare that to coal.


http://en.wikipedia.org/wiki/Coal#Energy_density

2 kWh per kg = 2000 kWh per ton = 2 MWh per ton. Lets also pretend there is no waste rock in a coal mine (once again to be as conservative as possible).

Net result:
1 ton of coal/rock = 2 Mwh electrical power
1 ton of uranium/rock = 5,000 MWh electrical power

Now say you don't like my numbers (I went borderline stupid in conservative values), you could reduce it 10%, 20%, even 50% and uranium is a magnitude higher energy density than coal. They aren't even in the same league. It is like comparing a baby lifting a rattle and an Olympic weight lifter breaking the world record. They both "lift stuff". The scale isn't comparable. If uranium had an energy density that was 2x, 5x, even 100x that of coal we wouldn't be even talking about this.

So while both require mining to put them in the same category is a logical flaw. Is disregards scale.

Mining will exist (in some form for some resource) for next thousand years. The usable energy density of uranium based fission is roughly 2000:1 compared to coal. If all coal mining (for electrical power) was replaced 100% with uranium mining it would result in a 99.95% reduction in total mining.

This also ignores future reactor designs with higher burnup, reprocessing, and/or more effective enrichment.

The point is to not waste money on dead-end technologies when time is running out.

Even the most promising sequestration scenario assumes we have someplace to put 30 billion tons of calcium carbonate every year.

It doesn't matter whether you want to build a fleet of nuclear plants, 1,000's of wind farms, 1,000's of square miles of solar collectors or some combination of these and other technologies. We will continue to burn coal for several years.

Take that as a given.

Now, the question is, do you want to pump all of the resulting emissions straight into the air? Or would you prefer to capture it and sequester it somehow?

http://www.edf.org/page.cfm?tagID=51027

"EDF - We partner with businesses, governments, and communities to find practical environmental solutions."

Who's EDF's #1 partner? You got it - business. What kind of environmental solutions do they search for? Practical ones - ones that don't cost business too much money, ones that might very well be ineffective but have a marvelous green sheen to them.

Geological sequestration is preposterous on so many levels it makes Yucca Mountain look like kid stuff.

Just like the Union of Concerned Scientists, just like the Obama administration

Anyone who disagrees with you is obviously on the take.

http://www.wwf.org.au/news/wwf-joins-worlds-leading-environment-proponents-in-ccs-call/

:rofl:

Exxon-Mobil is spending $30M/year on lobbying, and that kind of money buys a lot of "truth". WWF has bought into the hype, and if you read your own link you'll see they're still trying to determine "whether it will play a role in the world's response to climate change".

There's nothing even on the horizon. Too late.

http://www.ipcc.ch/publications_and_data/ar4/wg3/en/ch4s4-3-6.html

http://www.ipcc.ch/pdf/special-reports/srccs/srccs_wholereport.pdf


But, then, any "climate change skeptic" could have told me the IPCC is on the take...

and don't even read what they post, i.e. "Uncertainties relate to proving the technologies".

Have any of those uncertainties been resolved in the last five years? Hmm?

(To resolve remaining uncertainties.)

Or, we could just do nothing...

https://publicaffairs.llnl.gov/news/news_releases/2009/NR-09-11-02.html

There have been no uncertainties resolved with CCS.

There is one huge problem with sequestration, about which there's been very little discussion, and that is what will happen realistically when companies are required to go through the expensive, energy-intensive process of capturing, then piping CO2 to suitable locations for storage.

What will happen is this: they will turn those big pipes to the sky and dump that CO2 into the atmosphere, and charge the public to do it. There will be no trace, no viable way to check compliance.

CCS is a non-starter.

Realistic estimates show that without some sort of Carbon Capture (in addition to other efforts) we're screwed:

http://e360.yale.edu/content/feature.msp?id=2200

http://pubs.giss.nasa.gov/abstracts/2008/Hansen_etal.html

Forestry and agricultural practices can help put on the brakes, but as a long-term solution his position is that there should be no new coal plants built without 100% CCS (in other words, none).

And there should be an unwavering commitment to 3rd- and 4th-gen nuclear.

He advocates research on 4^th generation nuclear power and CCS in the same breath.

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

In Storms of My Grandchildren (11/2009) his tone his far less encouraging on CCS (my copy is on loan so I don't have an exact quote).

And even Hansen doesn't address the "cheat factor".

http://www.stormsofmygrandchildren.com/climate_catastrophe_solutions.html

If his view is as firm as this suggests, it is certainly quite an about-face in a very short period of time. (About a year.)

http://climatetasmania.com.au/2010/03/13/hansen-interview/

His argument appears to be financial.

"CCS is worth investigating," but it's too expensive for coal.

My guess is that if an inexpensive enough solution was presented, he'd be in favor it of.

I also know that his policy has been opposition to coal plants that do not employ CCS but not to CCS itself, except to the extent that governments use CCS research as an excuse (cough, cough, Bush, cough...)

http://www.columbia.edu/~jeh1/mailings/2009/20090713_Strategies.pdf

I think that his "opposition" to Coal-CSS stems from his belief that it simply cannot be "phased in" soon enough. It'd be cheaper and faster to build other energy sources than to attempt sequestering CO2.

I read it as an economic argument, Coal + CCS = higher price than alternatives.

If it were a time argument I don't buy it. Which could you do faster, retrofit an existing coal burner, build a new nuclear plant, or erect the corresponding wind/solar farm? (I'm guessing it'd be the first.)

Mark Schiavoni has no idea what he's talking about.

Coal gasification occurs before combustion, and has no effect on the amount of CO2 produced.

http://nativeunity.blogspot.com/
(I believe he was referring to reduced emissions as a result of burning "natural gas" instead of coal.)

"It's not just the carbon that's being captured in the gasification process."

:silly:

It's quite possible the author of the article does not.

http://en.wikipedia.org/wiki/Integrated_gasification_combined_cycle

Give up, OKIIJM

That's hardly clean and often fatal, as we sadly learned this week.

It should have been called 'cleaner coal.'

Personally, I'd rather have no new coal plants built. Realistically, I don't think politics will line up to build nuclear plants as quickly as needed.

And while I love the alternatives (solar, wind, etc...) I do not believe they are going to be technically sufficient any time soon. (I'm a big fan of building as much as we can, but the numbers aren't adding up well.)

So, to fill in the gap, we're likely to build more coal and NG plants. Each one, even if it is 'cleaner,' will be a further nail in our civilizations coffin.

But we, as a species, seem incapable of doing better.