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Aker's nuclear Accelerator Driven Thorium Reactor wins prestigious Energy Award
pennenergy.com ^ | November 18, 2010

Posted on 01/07/2011 9:47:41 PM PST by Straight Vermonter

Aker Solutions' Accelerator Driven Thorium Reactor™ (ADTR) has won the prestigious Energy Award at this year's IChemE (Institution of Chemical Engineers) Innovations and Excellence Awards. The Energy Award recognizes the best project or process to demonstrate innovation in renewable energy, alternative energy sources, efficient energy use or the development of energy production methods that reduce energy and water intensity.

More about the ADTR(TM) power station

The Accelerator Driven Thorium Reactor™ (ADTR) power station is the name given by Aker Solutions for the company's new design of a nuclear power station. Given world-wide expansion in nuclear power generation, driven by many countries to combat climate change and meet growth in energy demand, the ADTRTM provides the ideal solution to use thorium as an alternative fuel to uranium.

Aker Solutions has developed the concept design of a 600MWe ADTR™ power station with Nobel Prize winner Professor Carlo Rubbia of CERN. The design is an accelerator driven, thorium fuelled, lead cooled, power producing, fast reactor. Thorium is an abundant mineral deposit; there is 3 to 5 times more thorium in the world than uranium. One tonne of mined thorium produces as much energy as 200 tonnes of mined uranium, or 3,500,000 tonnes of mined coal. Thorium has non-proliferation benefits as it does not require the expensive enrichment process often associated with military use.

The ADTR™ power station can be configured to burn radioactive wastes from current uranium fuelled reactors, thus reducing the long term waste burden and environmental risks with waste storage. The ten year fuel cycle gives the ADTR™ significant economic benefits over current uranium fuelled nuclear reactors.

A key advantage of accelerator driven, sub-critical systems over conventional nuclear reactors, is that the accelerator is the main source of reactor control; turn off the accelerator and the reaction reduces virtually instantaneously. This system also enables simple load following control capability.

"This technology offers the potential to supply even small grids from compact 600MW reactors constructed safely underground," says Gary Mandel, executive vice president of Aker Solutions' Process and Construction business.

The ADTR™ power station is targeted at the global energy market, aligning itself with fourth generation nuclear reactor concepts that will come to fruition by 2030.


TOPICS: Front Page News; News/Current Events
KEYWORDS: nuclear; nukes; thorium; thorium232
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To: Smokin' Joe
You'll still need petroleum. (Lubricants, plastics, pahrmaceuticals, etc.). In many areas electrics will not replace internal combustion engines for a very long time, if ever.

That's more than right and we should be going after every energy source available to us on a wartime basis as we speak. Aside from the fact of still having 20 - 30 years of petroleum fueled vehicles in service starting from now, there's the question of how money sent to the opeckers gets used, i.e. to fly aircraft into our taller buildings, i.e. you have to figure that into the cost.

But thorium is a spectacular possibility. It's vastly more efficient for producing energy than uranium is and totally clean, burning down to nothing as it is used. It can't be used to make bombs (which is why nobody was interested in it in previous decades), and is much more plentiful than uranium.

21 posted on 01/08/2011 6:33:00 AM PST by wendy1946
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To: Straight Vermonter

http://www.akersolutions.com/en/Global-menu/Products-and-Services/technology-segment/Energy-and-environmental/Nuclear/Novel-Thorium-Reactor/


22 posted on 01/08/2011 6:37:25 AM PST by Jordo
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To: Straight Vermonter
Aker's nuclear Accelerator Driven Thorium Reactor wins prestigious Energy Award

It's just awaiting Barry's executive order banning its use here.
23 posted on 01/08/2011 6:41:17 AM PST by aruanan
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To: RayChuang88

“And unlike uranium-based reactors, a modern thorium reactor ... generates a very tiny fraction of the nuclear waste conventional reactors do.”

How is a thorium fission reactor significantly different from a uranium reactor in the generation of radioactive waste?

The company’s blurb mentions a big reduction in actinide production, but that’s not necessarily significant in terms of overall radioactive waste.


24 posted on 01/08/2011 6:45:39 AM PST by Jordo
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To: wendy1946

“But thorium is a spectacular possibility. It’s vastly more efficient for producing energy than uranium is and totally clean, burning down to nothing as it is used. It can’t be used to make bombs (which is why nobody was interested in it in previous decades), and is much more plentiful than uranium. “

Can you justify any of these assertions?

Thorium isn’t much good for bombs, but a thorium reactor generates other fissionable isotopes that are good for bombs.

Thorium-fueled reactors don’t “burn down to nothing”. What do you think becomes of the fission products, many of which are radioactive? Or does “burn down to nothing” imply that we’ve waited a few billion years for it to happen?


25 posted on 01/08/2011 6:52:51 AM PST by Jordo
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To: AdmSmith; AnonymousConservative; Arthur Wildfire! March; Berosus; bigheadfred; ColdOne; ...

Thanks Straight Vermonter.
The design is an accelerator driven, thorium fuelled, lead cooled, power producing, fast reactor. Thorium is an abundant mineral deposit; there is 3 to 5 times more thorium in the world than uranium. One tonne of mined thorium produces as much energy as 200 tonnes of mined uranium, or 3,500,000 tonnes of mined coal. Thorium has non-proliferation benefits as it does not require the expensive enrichment process often associated with military use.

26 posted on 01/08/2011 7:23:12 AM PST by SunkenCiv (The 2nd Amendment follows right behind the 1st because some people are hard of hearing.)
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To: SirKit

Nuke ping! Have you read anything about this design?


27 posted on 01/08/2011 8:07:25 AM PST by SuziQ
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To: RayChuang88

India has the largest reserves of Thorium in the world.

Second I think is Australia and third is the US / Canada.

US resources are concentrated now on the Idaho / Montana border and owned by... Thorium Energy, Inc.

I don’t understand why we can’t have this and / or the Hyperion reactor design. Like so many things, something too good to be true usually is.

There was a long term Thorium reactor project at Oak Ridge but since it didn’t produce weapons grade material it was scrapped. I think the Peanut farmer got it the same time he killed the breeder reactors.


28 posted on 01/08/2011 8:48:28 AM PST by Sequoyah101 (Half of the population is below average)
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To: Straight Vermonter
The article is actually a press release by the company so bear that in mind. They are being purchased by a US engineering company so hopefully they can bring some of that technology here to the states.

They were acquired for 5.5 billion British pounds, so there is a good chance that their design is legitimate.

29 posted on 01/08/2011 10:27:08 AM PST by Moonman62 (Half of all Americans are above average. Politicians come from the other half.)
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To: Loyal Sedition
Essentially the way the Thorium cycle works is by converting Thorium 232 to U-233. All of the Thorium which "burns" in the reactor does it by first becoming U-233.

Quantities are therefore, large.

Percentage efficiency depends on when in the cycle you take the fuel out of the reactor and reprocess to separate the U-233. Probably 20-30% conversion is possible under the right conditions.

Time is months to a few years.

Generating U-233 in a Thorium reactor is almost a no-brainer. Handling it afterwards is harder than U-235 or Plutonium, but the critical mass is less than U-235.

This threat is not just idle speculation, and anyone who says that Thorium reactors can not be used to produce weapons is dreaming...

30 posted on 01/08/2011 11:58:24 AM PST by CurlyDave
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To: CurlyDave

OK, last question.

In a “normal” cycle, is the U-233 consumed, or does it become a waste product requiring disposal?

The article seems to state that there would normally be no waste.


31 posted on 01/08/2011 2:46:50 PM PST by Loyal Sedition (Loyal Sedition, often described as "To the right of Attila The Hun"!)
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To: CurlyDave

What’s the fission cross section for U-233? IOW, will it burn up in the core along with the thorium?


32 posted on 01/08/2011 3:00:12 PM PST by stboz
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To: stboz; Loyal Sedition
Thorium itself is non-fissionable. The way it is converted to energy in the reactor is through neutron capture, after which it rapidly decays to U-233. The U-233 is fissionable and it is this fission which produces most of the energy. So the answer is, Yes, it will "burn" in the reactor. Nothing ever completely burns, and some U-233 always comes out.

If the fuel is removed before the optimum time for Thorium consumption, there is more U-233 present. It is possible to operate the reactor to optimize U-233 production, which produces a lot more U-233 than otherwise.

Whether you "burn" U-235, U-233 from Thorium-232, or Plutonium-239 from U-238, there are always fission fragments -- highly radioactive light elements produced by the fission process. These are always nasty. I don't know all the details of the Thorium cycle, but anyone who tells you that there is no radioactive waste is lying, just like they are lying about no bombs.

33 posted on 01/08/2011 5:42:27 PM PST by CurlyDave
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To: CurlyDave

Do a search for Operation Teapot. Mixed-core of plutonium and U-233.


34 posted on 01/08/2011 6:11:05 PM PST by stboz
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To: CurlyDave

I know I said last question, but I want to be be clear about this.

“highly radioactive light elements”
Half-life for these?

Sorry, I never was a nuclear physicist, been out of school for decades.


35 posted on 01/08/2011 7:12:23 PM PST by Loyal Sedition (Loyal Sedition, often described as "To the right of Attila The Hun"!)
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To: Loyal Sedition
“highly radioactive light elements”

Half-life for these?

There are many of them. Probably hundreds to thousands. They all have different half-lives. I can't possibly name them all here. Some are particularly bad actors.

Longer explanation.

When anything fissions (U-235, U-233, Pu-239) it produces "fission fragments" plus a few neutrons. The neutrons are what make the fission reaction self-sustaining, the fission fragments are the "highly radioactive light elements", or more properly, the nuclei of these elements. Many of these lighter elements are produced, and each fission reaction has its own distribution of relative quantities.

When I say some are "bad actors" what I mean is that they are more biologically active than others. Anything that has a long enough half-life so that it is likely to be absorbed by a human or animal before most of it decays is biologically active. If the half-life is short enough so that a large fraction of it will decay during the lifetime of that human or animal it is going to have bad consequences. You want to minimize the amount of radioactive decay inside your body.

This is the most difficult to handle part of what is called "nuclear waste". The absolute quantity per unit energy produced of this material is very similar from any fission reactor. Now the particular mix produced in the Thorium cycle may be easier to handle than average, but that certainly doesn't mean it is "easy" or that there isn't any.

To use an analogy, would you rather have a lion, a tiger, or a cougar suddenly appear in your living room? None of these would be considered "good" but the cougar would be "less bad" than the lion or tiger.

36 posted on 01/08/2011 9:17:37 PM PST by CurlyDave
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To: Straight Vermonter

This is a big deal. At some point the economy will stabilize, and there will be venture capital coming back that will be looking to get behind thorium projects that are really “green”, although I hate to even use that term with thorium.

Let’s just say that from my view, thorium is truly the next generation of nuclear power generation and could solve a lot of problems on a lot of different levels. Couple thorium with the ongoing engineering of smaller nuclear power plants and it’s easy to see why there is so much interest in thorium.


37 posted on 02/01/2011 1:34:34 PM PST by Bean Counter (Stout Hearts...)
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To: Bean Counter
I love that many new (or recycled) idea coming to the fore. I recently read about modular nuclear power which seems like a great idea too.
38 posted on 02/01/2011 1:44:01 PM PST by Straight Vermonter (Posting from deep behind the Maple Curtain)
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To: Loyal Sedition
CO2 + 3H2 → CH3OH + H2O
39 posted on 02/01/2011 1:44:00 PM PST by SeeSac
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To: Straight Vermonter

I read an article last year about a company that is going to market mini-reactors. Essentially, they have a complete liquid sodium power module that comes from the factory ready to go, and they install it into a deep concrete pit. They maintain and operate the nuclear parts for you, and your utility company hooks up your heat exchanger and standard turbine generation sets to it, and off you go.

The concept is instead of building a single 1000MW nuclear plant that costs untold billions to build and operate; you build a bunch of smaller 20MW plants for $50 million apiece. Smaller plants mean you can spread them around closer to where people live. It’s cheaper to lease the sealed nuclear unit than it is to build an enormous reactor containment and infrastructure.

When it needs refueling in 20 years, the company comes in and replaces the old reactor with a new one, and you keep on operating. If you need more capacity, add another unit.

Some good concepts out there if we can ever get past the real hazards in the technology.


40 posted on 02/01/2011 1:50:39 PM PST by Bean Counter (Stout Hearts...)
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