U.S. Nuclear Cleanup Carries Major Risks

Roland Piquepaille writes "New Scientist reports in this pretty alarming article that there is a 50-50 chance of a major radiation or chemical accident during the cleanup of the dirtiest nuclear site in the U.S. There are indeed lots of things to clean at the Hanford complex in Washington state: 67 tons of plutonium and 190 million liters of liquid radioactive waste stored in underground tanks. A third of them, dating from the Cold War, have already leaked 4 million liters in the environment, contaminating the groundwater and a river. Meanwhile, officials at the DOE, who'll spend $50 billion between now and 2035 on this cleanup, seem less worried than the different specialists interviewed by New Scientist. Please read this overview for selected quotes from the article and from the Hanford site. You'll also find a slide from the DOE showing the timeframe for the cleanup."

Why not compare it with coal-fired plants?

I'm pretty sure it has caused more health problems in the U.S. than nuclear power has.

Re:Why not compare it with coal-fired plants?

[Waffle+Iron]

We don't compare the Hanford site to coal-fired plants because the main use of this facility was to produce nuclear weapons materials, not electrical power generation.

Re:Why not compare it with coal-fired plants?

[networkBoy]

IAMA(nuke arms scientist)
Plutonium is far more toxic than radioactive (as far as hazards go). What I mean by that is that it takes fall less PU to kill you by poisioning than required to cook you with radiation.
-nB

Re:Why not compare it with coal-fired plants?

[AKAImBatman]

Plutonium's chemical toxicity is minor compared to its radiological abilities. IF plutonium reaches soft tissues (like your lungs), its alpha emissions will begin to systematically destroy your tissues and DNA. By the time the chemical toxicity comes into play, you'll be long dead from radiation exposure.

The key here is that Plutonium is rather hard to get into your system. In order to get it into your lungs, it has to be powderized AND airborne. Both are very difficult as Plutonium is hard and heavy. Ingestion is another possibility, but it seems that the Pu is generally passed through without ill effects. Again, it's very hard to disintegrate, so your body often fails to digest it. This makes Plutonium very dangerous on one hand, yet very, very safe on another. You could keep a piece of it in your pocket, and in general there will never be any ill effects.

Re:Why not compare it with coal-fired plants?

[Politburo]

From link (which is a 3 year old article): "See that," Berry says, pointing to the seeming nothingness pouring out of Polk's stack. "Someone can be sitting near a coal gasification plant and see nothing coming out of it. That's the goal." (In actuality, the clouds pouring from traditional plants are water vapor.

While most clouds you see coming from stacks are simply water vapor, a coal fired boiler emits a lot of particulate matter, which is harsh on the lungs, especially to those with asthma or other respiratory problems. The EPA has been focusing more on PM in the past few years. Facilities are now required to report PM emissions at 3 levels: Total PM, PM10 (PM 10 microns or smaller), and PM2.5 (PM 2.5 microns or smaller). PM2.5 emission reporting was added just this year, as it has been learned over the past 5-10 years that PM2.5 is much more harmful than less fine particulates. Current control measures for PM are in the 99% removal range, assuming the equipment is properly maintained.

Also, coal emits a lot more crap than oil or natural gas. By crap I mean trace amounts of nasty chemicals. Hydrochloric acid, hydroflouric acid, arsenic, mercury, lead, dioxins, etc. EPA's emission manual for coal combustion can be found here.

"Clean coal" may be a temporary measure as we begin to run out of natural gas and oil, but it is by no means a solution, as the CO2 problem is not solved.

It's the old ones (especially in places like China) that are the problem.

Yes, but the real problem is our reluctance to fund new energy initiatives and promote smart usage of energy. We waste outrageous amounts of energy in the USA. Research must not only be focused on new energy sources, but improved efficency in the transmission and use of that energy.

Re:Why not compare it with coal-fired plants?

[phayes]

Sorry, you're wrong. Contrary to the anti-nuke propaganda popular with the general public, the emissions of coal fueled powered plants include silicon, aluminum, iron, calcium, magnesium, titanium, sodium, potassium, arsenic, mercury, and sulfur plus small quantities of uranium and thorium. As has been pointed out for decades, Nuclear plants actually emit less radioactivity into the environment than do Coal plants. Google for coal radioactive emissions to get an education or just click here if you're too lazy.

Re:Ouch

When you compare nuclear to oil, where we have to deal with unstable people in an unstable region of the world, it is somewhat safe. Is it perfect? No, but what energy source is? Yes, some are safer/cleaner, but right now, they're also more expensive/more difficult to deploy/etc

Curses! Fooled Again!

[bshroyer]

I've got to start reading the submitter's name more often. Every time I click through on a story Roland's submitted, I feel I've been duped. You're welcome, RP.

Is there any way I can configure my slash options to ignore his stories altogether?

River

[cyocum]

"A third of them, dating from the Cold War, have already leaked 4 million liters in the environment, contaminating the groundwater and a river."

I do not usually comment but I would like to remind everyone that the river mentioned would be the Columbia River since Hanford is within sight of the river and a large number of fish spawn there every year.

Re:River

[forevermore]

Mod the parent up! This river is not only a major spawning ground, but supplies irrigation water to many eastern Washington and Oregon farms, and has hundreds of people living on its banks (including big cities like Portland, OR).

Hanford PR people claimed for years that it would take decades for their waste to filter into the Columbia, until some scientists pointed out that the waste had already been flowing into the Columbia for years.

Re:River

[geomon]

Yep and there are also kraft paper mills, aluminum plants, power generation facilities (hydro dams) and orchards.

That means you have dioxins, coal tar pitch, PCBs, and arsenic in the water that NEVER came from Hanford.

67 tons of Pu...

[andreMA]

...was the lifetime production of the facility, not material to be cleaned up as implied.

Re:67 tons of Pu...

[TopShelf]

Silly me - I read that as 67 tons of poo, which is about what my 3 toddlers produce in a given month...

DO the submitters actually read the articles?

[CrimsonAvenger]

There are indeed lots of things to clean at the Hanford complex in Washington state: 67 tons of plutonium

Actually, from the article, the 67 tons of Plutonium were the product of the Handford site, not a side-effect left littering the place.

Note, before anyone starts whining about nuclear power not being clean, that Hanford isn't about nuclear power, but about nuclear weapons.

Re:DO the submitters actually read the articles?

[MarkedMan]

"Note, before anyone starts whining about nuclear power not being clean, that Hanford isn't about nuclear power, but about nuclear weapons."

But its the same players. The consultants, contractors, etc, who gave the US the radioactive disaster that is Hanford are the same ones who are running reactors all over the US and the world.

I used to be pro nuclear power but after witnessing the amaturish and dishonest reaction during a crisis at the nuke plant near Rochester NY (with 1 million in the greater metropolitan area), and having a very disturbing cocktail party conversation with the head of safety for a nuke plant in Louisiana, I started to investigate more. Whatever the benefits of the technology, the culture of nuclear power is one of lies, coverup and other forms of deceit.

It's a shame, because judged only on technology nukes come out ahead.

Re:DO the submitters actually read the articles?

[Fnkmaster]

Yet another Roland Piquepaille submission. The point of the submission wasn't to inform us, but to direct people to his blog. This guy has been doing this like crazy to pimp his blog site for the last few weeks, if not longer (I've only recently noticed it). This is evidence of why we should be able to mod stories posted down - this Piquepaille guy ought to be banned from further submissions until he stops pimping his lame, theme-stolen blog site and trying to get hits on the ads he runs there.

His blog posts are usually quite uninformative and rather poorly written too. An overview with selected quotes from the article? So now he's summarizing for /.ers who are too lazy to read the article. I can't believe Hemos posted this crap submission without at least clipping out the lame blog link.

Necessary evil

[cyberzephyr]

Considering the fact that the material has to be moved, every consideration must be made to properly secure the material from accidents and theft.

DOE is more than capable of doing this and have done so for many years. Admittedly there have been a few problems but it never started a real situation of calamatious proportions.

I almost signed up to work for DOE in this team capacity after i got out of the Army as a RANGER and i was very impressed with the security, armament and professionalism these folks have at hand. I just did not like the hours.

+++Warning to any fool that thinks it's easy to steal radioactive material from one of these teams. You'll die twice before you get to pull your trigger once!+++

Cyberzephyr

So, clean it up.

[AK+Marc]

there is a 50-50 chance of a major radiation or chemical accident during the cleanup of the dirtiest nuclear site in the U.S.

And a 100% chance of a major radiation or chemical accident if they don't. So this really looks to be a non-issue.

Question...

[Xentax]

So, is this all coming from plants that were producing weapons-grade material?

What I'm getting at is, how much of this waste is comparable (in terms of which specific materials, and in what volumes) to what a nuclear powerplant would produce?

I'm not trying to diminish the magnitude of the mess or the impact it has on the area, but I can already see people taking this and running in the wrong direction with it - namely, that every nuclear power plant will produce this sort of mess over time. I *believe* this is the exception rather than the rule, because this site was/is producing weapons material rather than electricity, but it'd be great if someone with hard data could confirm/invalidate that...

Xentax

Re:Question...

[timothyf]

I did a short research paper on Hanford, so I think I might be able to answer this a bit.

The problems at Hanford are mainly due to one of two things: age (some of the reactors and processing plants date back to WWII, when the effects of radioactivity was still not well understood) and purpose (Hanford was designed to extract Plutonium (Pu); only one of its reactors ever produced electrical power, and that was a secondary purpose)

First off, age. Hanford was built in WWII with exceedingly great haste, and disposal of wastes was put on the back-burner as something that can wait until after the war. Then the cold-war began, and while procedures improved somewhat, proper disposal was still a secondary concern. With the reactors themselves, all except one of the reactors there are "single-pass" reactors, meaning that instead of recycling its coolant, it just pumped it in from the Columbia River, sent it through the reactor, then (after letting it cool for a little bit) sent it back to the river.

The other problem is the Plutonium processing. This generated a lot of highly radioactive and toxic chemical wastes, which were (depending on how radioactive it was) stored in leak-prone tanks (although they have since moved most of the waste to better double-shelled tanks) or dumped directly to the ground.

So, to answer your question, I would presume that a modern nuclear power plant would be much less of a problem to deal with, since it would be built to use recycled coolant. There is still the problem of the spent feul rods, however (and here I'm not so sure, because I didn't study about modern practices so much) if handled properly from the outset, they could be stored safely enough to avoid environmental contamination. Perhaps someone with knowledge on modern nuclear power plants could better answer that part, though.

Re:To the sun!

[strictnein]

I thought that would be a great idea too, until I realized how much waste there was.

67 tons of plutonium and 190 million liters of liquid radioactive waste stored in underground tanks

So, at $1000 or so a pound... well, you do the math.

Re:Ouch

[HBI]

Hanford isn't a nuclear plant, it was a nuclear weapons research facility that also mass-produced plutonium for nuclear weapons.

Moreover, Hanford was one of the places where we found out about dangerous isotopes and how to handle them. It wasn't run properly and in fact hardly could have been. Not to say that there weren't huge screwups there, but comparing this to a well run nuclear power plant is just wrong.

There is a silver lining.

I don't live anywhere near there.

FUD

[D3]

Beware the FUD that comes from articles like this. Last night on 60 minutes they ran an article about the Nevada Yucca mountain site. Totally one sided and full of FUD. At one point they interviewed a guy who said there would be 300 foot long tractor trailer trucks "the length of a football field" hauling this through people's neighborhoods. Last I checked, tractor trailers are 80 feet long. Just lots of sloppy reporting without proper fact checking.

Re:FUD

[Rorschach1]

There's a 304 foot trailer on its way to my location at the moment. I've never heard anyone suggest using a monster like this for nuclear waste, though. The shipping containers I've seen have been much smaller than that.

Re:FUD

[James+Lewis]

I saw that as well, and while I think the debate was heated and some of the people they interviewed stretched things a bit, the main points are valid. It was NOT one sided, they interviewed the DOE director and he had plenty of chance to present his side of it. He's not stupid, he KNOWS exactly why 60 minutes would be interviewing him, and that it wouldn't be favorable. His arguement was basically... well we already truck toxic waste! So trust us. Kust because we will be hauling more than ever before, doesn't mean something will happen. Right. It is going to take something like 25 years to get all of this stuff to Yucca mountain, constantly trucking it around the country. The main arguement for Yucca mountain is that it is a more "secure" place to put all this stuff, and is far away from a major population. But to GET it there, it will be made incredibly vulnerable to attack, and we'll be driving it through cities. Instead of spending all this money on one site whose solution is worse than our current problem, we should be spending it to make sure the sites we have are made more secure.

RTFA

[Spl0it]

Guys, this is a site that has spent most of its existance producing chemicals,etc.. weapons. This is not a nuclear power plant site. Please read the article and stop modding people as informative for saying nuclear power isn't clean the article is not about nuclear power.

Nuclear waste leaks

[Grym]

I'll admit, I only know a little about the storage of nuclear waste, but can someone PLEASE explain how it could possibly be so difficult to keep the stuff from leaking?

It's not like these containers are sitting outside exposed to the elements. They're, AFAIK, stored underground in secure facilities.

People make it sound like the government spends millions of dollars to develop these high-tech facilities and then just haphazardly sprays the stuff into old, rusty oil-drums. Surely this isn't the case.... right...?

-Grym

Re:Nuclear waste leaks

[hakioawa]

IAAHG ( I am a hydrogeologist ), or at least was an one point. People do not understand the effects of time on engineerd materials. Most engineered materails have a usefull life of a few decades or less. You new roof is water tight today, but come back in 50 years and it will leak like a sive.

The uinderground environment is a hostile one. There water continually percolating through the ground. This water may or may not be acidic, and may or may not be under perssure. Almost no rock is impervious. It may only leak a little but over 100s or 1000s or yeah a little becomes a lot.

Anything will leak. The questions are:
-At what rate
-And where will the leakage go
-What happens when some idiot archeaologist 500 years from now opens it up?

Re:Nuclear waste leaks

[cluckshot]

Having an Uncle who for some years was in charge of the cleanup at Hanford and noting that he lives in Kelso I would tend to discount the FUD a lot. (About 99.999999999% or more.) Having two other Uncles who were reactor operations officers for US Nuke Subs makes me have a bit of family based info on the topic. I just am not as worried as most people are because I know generally what the problem is and how big it is.

To be sure the mess at Hanford is a serious mess. It involves largely the chemicals used to refine the various elemements after reactor actions. The reason they liked plutonium for bombs is that it could be bred out of lesser stuff and was easily chemically isolated. This gave rise to a lot of radioactive chemical wastes which bluntly were pretty reactive stuff.

The problem was storage was at best using technology we had at the time rather than trying to deal perminanently. The problem is that many of these chemical wastes are liquid and they are stored in containers that are failing or have started to fail.

The containers in many cases were about equal to swimming pools or to 55 gallon drums. Another problem is some of these elements migrate quite easily through barriers. They form all sorts of funny deposits which if struck are prone to catch fire.

With all of this said, the whole problem is one more of time and effort than danger. The location is really pretty unlikely to see a lot of migration outside Hanford and if it does go into the Columbia River it will be diluted well below any level of concern. The river is not small. At nearly 100,000 CFS flow and shortly diluted to 200,000 CFS average flow, this stuff is gone... gone... gone.

To explain a bit more, the problem here is largely one of timing and events. Most of this waste developed right during and shortly after WW2. Shall I say that priorities and for that matter knowlege have changed in the intervening years.

Actually the biggest problem in the cleanup owes to the need not to actually create more contaminated waste than absolutely necessary while doing the clean up.

-1, Paranoid Scare Tactics

[ryanwright]

This entire article is based on a study by one person, no doubt with a political agenda.

I've lived next to Hanford since I was 3 years old, and work a couple of miles from the nuke plant. I've toured the site many times. I've followed local news, which reports on every boring little detail since they have nothing better to do, my entire life.

Are there problems? Sure. I remember when the single walled tanks started leaking, and they pumped everything into new double-wall tanks. Will there be problems in the future? Sure. Will those problems affect me? No. The accidents that take place may be major to the people working on that particular project, but are not catastrophic in the grand scheme of things.

Look: The Hanford site has been operational for decades. The number of serious accidents is tiny, and said accidents have only affected the workers directly involved with that given project, not the rest of us. Yes, there are environmental concerns. No, they aren't as horrible as this article makes them out to be. We swim in and eat fish from the river. Our water comes from the river and local groundwater. None is contaminated enough to be detectible, let alone harm somebody. And I'm right here, a fraction of a mile downstream from the site.

Even if the clean-up goes according to plan, Boldt claims there will still be 260 square kilometres of groundwater exceeding drinking water safety limits for over 10,000 years.

He's full of himself. This is nothing more than paranoid scare tactics.

Re:To the sun!

[Niles_Stonne]

How about a Space Elevator? It would still need an engine of some sort to get out of orbit, but that could be shipped up seperately.

If the space elevator fails, it would be unlikely to explode. Add a "recovery system" to the capsule that carries the radioactive material (think parachute), and potential problems would be very small.

Price could also be greatly decreased using a Space Elevator.

Re:Ouch

[Rayonic]

And everyone said nuclear power was "safe" and "efficient".

Who says this waste is from nuclear power plants? It could be leftovers from nuclear weapons/research.

Also, nuclear power plant technology has vastly improved since this particlar waste repository was first opened up.

Re:Ouch

[Jonsey]

Yeah, there's that, and the fact that a modern nuke plant produces less hard radioactive waste in a year than a coal-burning plant spews (even past modern scrubbers) into the air every year.

We need to stop grandfathering in old power plants of all types, step up, pay some of the up-front costs, and get some good power generation going.

For the NIMBY folks, I'll volunteer to host a PBR in my backyard.

Contrary to what a lot of places would have you believe, if we'd actually shell out some cash and stop only focusing on the very bottom line for hte first year, we've got affordable, safe, and clean nuke power available to us... and it's a shame we've not made use of it.

to grandparent poster: don't be sad you live in WA, I left 11 years ago now, and I go back every chance I get... it only goes downhill from there.

Half Right

[geomon]

The production schedule for the new Vitrification Plant is far ahead of the basic science and engineering that form the foundation for its construction. Although I do not think that they will operate it with the risks for steam explosion that the article alludes to, it is more likely that the tax payers will pay more than the estimated $7B to construct it.

You heard it right, folks - $7B.

As for the groundwater contamination, that is nothing new. A tritium plume extending from the 200 Areas (where plutonium separation was performed) to the Columbia River has been in place since production started. It has fluctuated in size according to the politics of weapons production. The facilities have been shut down since the early 90's and are in various stages of decommissioning.

The issue of iodine-129 is a sticky point. It has a long half-life and had been dumped to the soil column without too much worry about the transport properties of the nuclide. It travels at the same rate through the vadose and groundwater as nitrate. It is very mobile. The toxicity of the isotope is in come dispute. I can get a higher radiation dose from a urniary test than I can get from consuming contaminated Hanford groundwater. I can also dispose of the contamination through my municipal water treatment facility, a practice prohibited for Hanford contractors.

As for the cesium-137 and strontium-90, those isotopes bind to soils high in the vadose and rarely reach groundwater. The are confined to zones near the surface, far from the river, and will be left in place to decay to background beneath low permeability covers. This is not a practice that the USDOE is forcing on the local community, but is a treatment alternative that is accepted by the USEPA and Washington Deparment of Ecology.

why so difficult to keep the stuff from leaking

[phyruxus]

We store acids in glass beakers because the acids don't eat the glass. The problem with radioactive "waste" is that the radiation acts to wear out the container over the long term. Right now I think we mostly mix the waste in with glass, which is better than just pouring it into a metal drum because the metal drum would wear out faster (than glass).

Radioactive materials are sometimes called "hot"; they can be warm to the touch; this comes from the fact that as decay occurs particles come shooting out of the nucleus. These particles can hit other nuclei and jostle molecules around.

IIRC, the most recent containment technology is based on storing the "waste" in crystals, eg Zircon. The upswing of crystal storage is that the "hot" material in the center of the crystal degrades the inner part of the crystal, which reacts by forming a "wall" instead of cracking or oozing. Kind of like when you crumple a piece of paper, and there's a limit to how much smaller you can make it by squeezing. Okay, maybe that's a poor analogy, since the "squeezing" comes from the inside, but you get the idea.

Here's a link.

FWIW, if we had a space elevator, would anyone object to putting nuclear plants on it? It's not in anyone's backyard, and it's well placed to sling the crud into space... if we can find a target. I say Mercury.

Nuclear is one option we should pursue. We should also keep working on bio-fuelcells and wind/wave. It all comes from the sun (well, A sun...) anyway. This is all going to be moot once we bootstrap a stellar economy.. there's more methane and natural gas to be had than well, even humans could waste (okay, maybe not, but there's a lot).

"a" river?

[peacefinder]

The contaminated river in question is the Columbia. As the second-largest river (by flow) in the lower 48, and the largest to drain into the eastern Pacific ocean, I think it merits a mention by name.

But then I'm a local, so I'm biased.

Thankfully, the large flow means that the contamination is pretty dilute. The bad news, of course, is that said contamination flows through quite a few populated areas (including Portland), the river is used to irrigate and transport zillions of tons of wheat and other edibles, and lots of fish get pulled from the river and eaten.

Re:Curses! Fooled Again!

[JohnGrahamCumming]

Not only is this YARPA (Yet Another Roland Piquepaille Article) which annoys me like all the others, it fails to add any value to the original New Scientist piece, and introduces erroneous statements like (my emphasis):

Over the last 50 years nine reactors at the 1500-square-kilometre site have produced 67 tonnes of plutonium for the US nuclear weapons programme. In 2002 the US Department of Energy (DOE) embarked on a 30-year, $50 billion clean-up, which includes emptying more than 190 million litres of liquid radioactive waste from 177 underground tanks.

In this Hanford overview, the numbers are slightly smaller than the ones provided by New Scientist, but are still worrisome.

Physical challenges at the Hanford Site include more than 50 million gallons of high-level liquid waste in 177 underground storage tanks,

Let's Ask Google Calculator. Oh. 50m gallons is 190m litres.

John.

Do something now, and something better later

[DumbSwede]

The biggest problem with nuclear waste is the insistence on a perfect solution before anything is done. We've debated and studied for decades the merits of burying the stuff at Yucca Mountain, but in the mean time leave it sitting close to population centers in rusting storage drums.

Anti Nuke groups actually love this situation because it insures to keep the crisis mounting, and discourages any future nuclear development. Then if and when a nuclear waste incident occurs they can point and say "I told you so."

Why not go for better storage now, and keep looking for storage/disposal/reprocessing solutions to use later?

Re:Ouch

...if the reactors in question were nuclear plants, then so was the small research reactor at the Univ. of Washington.

The link in one of the parents was trying to relate the activities at Hanford (creation of nuclear materials for weapons and research) vs those of a commercial power-generating nuclear reactor.
The parent article to yours was dismissing this link, and then you try to casually deconstruct it and say, essentially, that any nuclear reactor is a nuclear plant.

FWIW, Cobalt-60 is probably even more dangerous than Pu-238, as are any number of non-nuclear chemicals. A drop of some organophosphates on the back of your hand can kill you within 10 minutes.
Malathion is a mild organophosphate. It is much easier to buy Malathion than it is plutonium.

While it is fine to worry a bit about this, it is probably safe to say that the concentration of naturally occuring radioactives in coal fly ash is probably a bigger, much more widespread deal.

Hanford's problems look sexy and dangerous, but are they really? Is the population of the Tri-cities, Portland, Kelso and Longview suddenly at a huge risk of getting various forms of cancer compared to all the other existing environmental factors?

The US Government managed to clean up the Rocky Mountain Arsenal and Rocky Flats, in Colorado...

Besides, the DOE has been worrying and trying to figure out this problem for at least 20 years. A former boss of mine's father used to punch test and monitoring wells all over the area, long before I knew him. A former girlfriend worked on a research program to help figure out a way to monitor the most notorious tank.

a big problem is that they simply do not know what they are dealing with in the tanks. It's toxic, it's radioactive, a couple of them vent hydrogen, but they do not even know if the mere act of taking samples at various depths in the tanks might disturb them enough to cause problems...

Coal-fired plants release radiation....

[tiger99]

Very interesting point, and you may, or may not, be surprised to hear that in fact coal-burning industry, mostly power plants nowadays, has released far more uranium, thorium and radium (plus others?)into the atmosphere than the entire nuclear industry, and they continue to do so.

This is because coal contains trace amounts of these elements, which are not in the form of particles, but are more likely distributed as individual atoms in individual molecules, maybe combined with carbon, certainly oxygen, and other elements. No known technology can take individual molecules of, say, uranium oxide, out of a chimney.

Now this release of radionucleides has been going on since serious use of coal began around 1600-1700.

Interestingly enough, in the UK there is often controversy over so-called leukaemia clusters, now these cases are tragic, but it is alleged that they are due to the nuclear industry, however close inspection shows that every single such cluster, with one exception, is in an area close to or downwind of a large coal-burning plant which either still exists, or was in use relatively recently. Some of these plants were lead smelters, which adds more uranium and other toxic elements. The one exception that I know of, where no industrial presence can be seen, is in Cornwall, around the village of Tintagel, and it is hardly surprising, because the local children no doubt play on their nice beach, and behind the beach are sea caves, with uranium compounds leaching out of the rocks. There will also be a high concentration of radon gas in such places, it mainly causes lung cancer by depositing daughter products in the lungs, but some of the daughter products may indeed cause leukaemia, and may be ingested in other ways.

At a guess, I would say that similar conditions of radiation release due to coal burning, and the extraction of certain other minerals, will be found worldwide, as presumably volcanic activity had released lots of radionucleides into the atmosphere during the carbiniferous era, which would eventually have found their way into the vegetation, and hence the coal.

In one particular part of the UK, when germanium transistors were in fashion, soot from factory chimneys was collected because it was rich in germanium, I think you will find that other elements (certainly selenium, which is toxic and carcinogenic, and also cadmium) can be found in significant quantities in some geographic regions.

So, coal burning will release radioactive, toxic and carcinogenic substances, fortunately not plutonium of course, although in theory an occasional atom might be formed by natural processes. After all, there are these odd atoms of uranium embedded in the moderator, coal instead of pure graphite, so there is the remote chance that a neutron from a fissioning uranium atom might be slowed by the coal, and captured by another uranium atom. But the yield would be incredibly low.

Re:you have to do something about them

[david_reese]

France does plutonium reprocessing, in fact they reprocess HUGE amounts of waste. It's our current policy of "no reprocessing == minimized proliferation" that is causing this waste nightmare. More about this on this PBS frontline special.

A lot of scary sh1t out at Hanford

[Aexia]

I worked on a congressional race in the Tri-Cities a few years back and went on a day-long tour of the Hanford facilities with the candidate, got presentations on how they were handling the many different kinds of nuclear waste.

I don't know what was my favourite. Was it the nuclear waste that was being stored in what amounted to two coffee cans? The containment tubes rated to last 10-20 years that had been holding waste for 50?

I'm thinking I'll have to go with the underground spillover tanks. There'd be a bunch of series of 5 tanks. When tank 1 fills up, waste spills over into tank 2. Tank 2 fills up, spills into tank 3. So on and so forth until you get to tank 5 where when it fills up, the waste apparently just spills out into the ground. Naturally, they weren't meant to last this long either.

So in addition to the nuclear waste, you have to deal with all the contaminated soil and whatnot too. US Gov't really clusterfucked the area. Fortunately, the state gov't(led by AG Gregoire) nailed their balls to an agreement to clean up all this shit.

That being said, it's a neat facility and everyone was friendly and eager to show what they were doing. There are a lot of interesting plume diagrams showing how the contamination is making its way to the Columbia River.

Facts about the Hanford clean-up:

[Futurepower(R)]

It is important to realize some facts about the Hanford clean-up:

• First, the problems they are talking about happened very early in nuclear power plant research, in the 50s and earlier. They are not so sloppy now in the storage of nuclear waste. Back then, they made extremely severe problems for themselves, which are very difficult to correct.

• Second, there is a huge amount of government fraud, apparently. My uncle was the head of one of the groups at Battelle studying the problems. The way they talk now about the cleanup is exactly the way they were talking in the 70s. Apparently nothing has been done, but they continue to milk the issue for money.

There are tanks at the Hanford site that constantly boil, and have boiled for more than 40 years, because of the heat from radioactivity. They have made devices to examine the boiling. Back in the late 60s they decided they would try to stabilize the tanks by "glassifying" them. The wanted to turn the entire radioactive mass inside a tank into a solid mass of glass.

They are talking about this now, too, and they are giving the same completion date, "15 to 30 years from now". That's why I say that apparently nothing has been done, even though they have spent many, many billions.

What is apparently happening in this story is that they are trying to scare the public so that they can get even more money.

Here's more about U.S. government corruption: Unprecedented Corruption: A guide to conflict of interest in the U.S. government.

Re:Facts about the Hanford clean-up:

[ryanwright]

They are talking about this now, too, and they are giving the same completion date, "15 to 30 years from now". That's why I say that apparently nothing has been done, even though they have spent many, many billions.

The glassification plant is being built right now. Construction started about a year ago.

Re:Ouch

[Rei]

Another good post by an AC. Coal kills many, many people each year.

A study by Abt Associates estimated that coal power plants *in the US alone* kill 24,000 people *per year*. That's just the deaths; there were also 38,000 non-fatal heart attacks, 554,000 asthma attacks, and 3 million lost workdays. On the other hand, deaths due to nuclear power plant radiation *in the whole world* (almost exclusively from Chernobyl, which was a patently stupid event from a horribly archaic design) range from the low thousands to the low tens of thousands, and between the upper tens of thousands to the low millions of related diseases - in the 50 years since the world's first nuclear power plant. In the US, nuclear power plant-related casualties are hard to estimate because they're so low. Yes, we use more coal power than nuclear - but nowhere close to the scale of health and environmental damage coal causes compared to nuclear.

At the very least, nuclear power is *as safe* as coal power. At best, it puts coal power to shame. And then there's the national security interests of nuclear: some of the most concentrated uranium deposits in the world are in our neighbor to the north, Canada. The world's largest deposits are in another ally, Australia.

War Emergency

[Detritus]

The operation at Hanford, and much of the early U.S. nuclear weapons program, was run on a "War Emergency" basis. That means that production was considered critical to the national security of the United States. If the plant was producing too much radioactive waste, or had other problems, too bad, we'll deal with it later. If we didn't produce enough nuclear weapons to counter Soviet aggression and expansionism, pollution was going to be the least of our problems.

Re:Ouch-Nuclear terror.

[ttfkam]

To produce enough electricity to power the United States, you would need a little more than the area of Connecticut and Delaware in solar panels (Solar advocate stats, not mine). Only a handful of states could sustain themselves on wind. And if you think one state making most of the power for another is a good idea, I have one word for you: Enron. Hydroelectric never gave anyone thyroid cancer, but it has caused no end of ecological disruption in exchange for insufficient amounts of electricity. Tidal is a bad idea due to the fact that >95% of all life on this planet lives at a coastline; Getting energy from the tides means taking energy from those ecosystems.

Let's take California. Look at the number of hydroelectric. Look at the number of wind. How many nuclear? Hard to tell on that map. Just two. Two. Two nuclear plants supply about 20% of all electricity to the state. Two nuclear plants have had less impact on the environment than all other forms of mass electricity production in the state.

And for the record, it is possible to reduce waste dramatically. This can be done with breeder-burner reactors. My personal favorites are IFR/AFR designs. Breeder-burners process the long-lived waste into shorter-lived isotopes while producing electricity.

Now then, on to your other points one by one:

The residents of Nevada are protesting the inturment of the nations nuclear waste in their backyard.

No, not all residents. There are many who aren't in opposition to the internment of the waste.

Questions for you: Do you believe that the current storage pools are safer than Yucca Mountain? Do you have an answer for the existing waste that doesn't involve Yucca? If a method could be found to greatly reduce the volume and threat of existing nuclear waste, wouldn't you be in favor of it?

Breeder-burners can use the spent fuel currently sitting idle in storage pools as well as weapons material that awaits decommissioning. I am against using Yucca for long-term storage but not for the same reasons as you I think. I think Yucca should be a short-term waystation to get the material out of storage pools until breeder-burners are online. My personal favorite is the IRF/AFR model.

And there's tons of this stuff which is going to be criss-crossing the nation via rail, and truck, terrorist opportunities abound.

And how many accidents have there been? In France where the vast majority of the electricity comes from nuclear power, how many terrorist attacks have succeeded against the rail and trucks that have criss-crossed that nation for decades? What terrorist opportunities? Please enumerate them.

You mentioned hydroelectric. Look back at that energy map of California. What do you think would happen if terrorists attacked those dams, flooding the valleys in front of them, drowning the residents, and washing away homes, businesses, and communities? Or did you think hydroelectric was warm and fuzzy since you can't get thyroid cancer from it?

Nuclear may be safe? But with a loose definition of safe.

Yes, it's a loose definition. That's what large-scale electricity generation entails. No form, not green, not nuclear, not fossil fuel-based is 100% safe when producing large amounts of energy on a municipal level.

And it will never be as safe as the green alternatives.

You're right. It's hard to be safer than an alternative that can't run at the same capacity. 104 nuclear facilities are licensed in the US -- many of them share a physical location. Only 102 of them are actually running. 20% of all US electricity comes from nuclear. How many nuclear accidents have occurred in US history? Now look at the number of injuries and fatalities both of workers and people in

Unnecessarily evil.

[LordPixie]

DOE is more than capable of doing this and have done so for many years. Admittedly there have been a few problems but it never started a real situation of calamatious proportions.

Last I checked, the DoE ran the Pantex nuclear weapons plant. The same site with some obscene safety issues. Accidentally drilling into the core of a nuclear device resulted in the evacuation of the entire plant. Securing a warhead with duct tape increased the chances of a flat out nuclear explosion. And that's ignoring the clichéd "OMG THREE MILE ISLAND" commentary.

+++Warning to any fool that thinks it's easy to steal radioactive material from one of these teams. You'll die twice before you get to pull your trigger once!+++

Perhaps you reached this conclusion because the security teams were cheating during their security drills ? Cheating. for twenty years. It's not too hard to look impenetrable when you know the exact building and wall where an attack will take place. A DoE whistleblower admitted to a 50% success rate for security tests. Special forces teams were able to penetrate Los Alamos and wander off with enough material to create a nuclear bomb. Even an freakin' journalist was able to sneak into Los Alamos. There are plenty of other issues raised over at the Project On Governmental Oversight. Again, that's ignoring all the major security issues with CREM's going on over the last month.

Now, you're absolutely right in the fact that we need to get that waste cleaned up. But thinking that the DoE, NNSA, or the US government on the whole is "more than capable" is bullshit. We're flirting with disaster. If we take the outlook that everything is fine and dandy, we're going to quickly hit the point where someone will cause a situation of calamatious proportions.


--LordPixie