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THE Uranium Supply Thread pt 4 (merged)

Discussions of conventional and alternative energy production technologies.
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Re: Uranium Supply

Unread postby EnergyUnlimited » Thu 10 Jan 2008, 16:37:03

$this->bbcode_second_pass_quote('Dezakin', 'N')ow the problem with burning the 160 trillion tons of uranium and thorium in the crust in growth isn't running out of fuel, with a 1GW reactor demanding some 1 ton per year... its running out of heat dissipation capacity of the earth. If you make as much energy as the sun (say 10^16 watts?) you become dangerously close to altering the global climate without doing anything to the atmosphere at all, and your fuel resource will only last 16 million years.

You don't have to worry about these.
You will not be able to construct necessary infrastructure to utilize even small proportion of available total.
$this->bbcode_second_pass_quote('', 'I') dont think we're going to do that with nuclear reactors, partially because I expect solar will eventually become more economical and much of human industry will be space based, but its an interesting exercise.

I don't think we are going to develop solar sufficiently to cover even current level of use but there is a small chance that few percent of current consumption will be covered by that.

Nuclear will in all probabilities be used for several decades more, then uranium 235 will no longer be economical to use, MOX will run out and reactors will shut down.
Maybe several thorium breeders will be built to carry on here and there, but this is still open question.

At this time we are unlikely to see much industry left, either on Earth or in space.
Perhaps there will be some industry somewhere in space, as long as it is run by Aliens.
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Re: Uranium Supply

Unread postby Dezakin » Thu 10 Jan 2008, 16:44:28

$this->bbcode_second_pass_quote('sch_peakoiler', 'A')nd how long should a thorium breeder run on HEU till it has bred enough U233 to start a normal cycle? about 10 years I guess? Lets take 10 years as a base.

so we take 100 PWRs, 400 tons of HEU, a bunch of thorium and start the cycle.
after 10 years we are able to refill them with Th+U233, and then they will breed at optimistic 1.02, so that we have another "fuel refill" after some 35 years. effectively 200 reactors after 35 years.

Theres no way PWRs are going to breed at 1.02. The core geometry is wrong, LWR eats too many neutrons and isn't an optimal moderator. There was a light water breeder reactor designed but IIRC it wasn't like the PWRs on the market.

If I had access to say 400 billion dollars instead of invading some country I'd probably spend say 10 on the development of a molten chloride fast reactor for incinerating the plutonium and other actinides in spent fuel, and another 10 on the development of a molten fluoride reactor for meeting the global energy demands, and then spend I'd guess 2 billion each on the chloride fast reactors and about 1.5 billion on the fluoride thermal reactors.

The molten chloride incinerator reactors could run entirely on spent fuel plutonium, and we've got some 50 years of that stuff stockpiled up that we can send the uranium back to the enrichment plants for reintroduction into the market of PWRs (just basic fluoride volitility or using ANL pyroprocessing, so should be cheaper than the aqueous reprocessing methods for MOX fuel. No fuel fabrication requirement makes this cheaper also) The chloride reactors have a breeding ratio of over 1.4 IIRC (better than even LMFBR because of the xenon purging) and all the extra neutrons can go to the thorium blanket which continually strips out the U233 for marketing for the liquid flouride reactors.

The liquid flouride reactors have a breeding ratio of about 1.05, and as such really are converter reactors. They would cost less after development than a comperable PWR because of lower capital costs (running at atmospheric pressure negates the need of massive pressure vessels that can only be built by two steel foundries on the planet for a start, as well as having higher power density, smaller cores and higher thermodynamic efficiency) lower operating costs (no fuel fabrication requirement, much cheaper fuel costs, continuous revenue stream from marketable fission products like platinum metals, xenon, and radioisotopes.)

Also this would finally get people to shut up about the whole running out of energy meme when they realize how much energy is recoverable just by digging up some dirt in the backyard. (Cue in next doomy topic about overpopulation, ecological collapse, whatever. Theres allways some pessimistic horizon)

Strictly speaking, the chloride fast reactor is unnecissary. Fluoride thermal breeders can be started on enriched uranium, and the only industry demand would be for the initial fuel load. The chloride reactors are only aesthetically desirable for incineration of the spent fuel stockpile and optimal production of U233 for the market.

The fluoride reactors would consume 1/200th of a fuel thats 3 times as plentiful, produce 1/1000th of the waste that would have an average of a 30 year half life so that in 300 years the stuff is less radioactive than the ore it came from.

$this->bbcode_second_pass_quote('', 'W')ell: forget breeders completely and stick with SWU, old tails, MOX, Mining, PWR :):)

That, IMHO, is sufficient for the fuel cycle and energy demands of civilization, though not aesthetically pleasing or optimally efficient. I doubt things will play out with any breeder reactors in the future because of the initial startup risk, unless some government decides they're making a strategic decision for energy security.
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Re: Uranium Supply

Unread postby EnergyUnlimited » Thu 10 Jan 2008, 16:57:20

$this->bbcode_second_pass_quote('Dezakin', '
')If I had access to say 400 billion dollars instead of invading some country I'd probably spend say 10 on the development of a molten chloride fast reactor for incinerating the plutonium and other actinides in spent fuel, and another 10 on the development of a molten fluoride reactor for meeting the global energy demands, and then spend I'd guess 2 billion each on the chloride fast reactors and about 1.5 billion on the fluoride thermal reactors.

If one take into account current FED monetary policy, there is a good chance that within next several years $ 400 billion will buy you a box of matches :(

Anyway, $10 billion for existing business or governments is not very much.
My suspicion is that no significant work is done on molten salt breeders, because it is already concluded that these will not work economically if applied in power plants.
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Re: Uranium Supply

Unread postby Dezakin » Thu 10 Jan 2008, 17:02:00

$this->bbcode_second_pass_quote('sch_peakoiler', '')$this->bbcode_second_pass_quote('EnergyUnlimited', '
')I think, you are still a victim of exponential growth paradigm.



I think you just do not understand what I am doing. But thats Ok. My questions just do not seem to make a system, do they? they do.
I want to quantify the basics of nuclear energy. thats it. Tanada started a FISSION FAQ here. But he explained isotope basics and then had enough of this - the FAQ is unfinished big time. So there are no numbers connecting WHEN with HOW MUCH on nuclear power. Only the assurance of Dezakin that we have enough uranium in the crust and can scale up the mining to any scale needed.
So if anybody says: then we will go thorium and this is an endless supply, I want to know WHEN and HOW MUCH. just for me. To understand the basics.

I cant quantify what economics will do, or weather people will all decide that investing in panda fur purses are a better bet than uranium mines in a tight market. All we can really point to here is production numbers of mines open today, previous growth rates during demand acceleration (which I believe was substantial based on the growth of the nuclear power industry) and the energy requirements of mining. We can easily state that uranium is very energy positive in any time regime in the next several millinia because the Rossing mine data is very clear.

1 unit of energy in mining 300ppm ore from Rossing mine yields enough uranium to make 500 units of electric energy in light water reactors. With the rather crude, but reasonable estimate that energy demands of mining are inversely proportional to the ore grade, we can exploit some 1 trillion tons of uranium at an energy gain of 15-30, more than some large petrochemical projects, and thats enough to last 20000 light water reactors 250000 years. This is simple arithmetic and I have very high confidence in this.

The mine production numbers for this year, next year, next decade, I couldn't say. I'd guess that the market should respond, but maybe it wont and capital will flow towards something else, or some other political problem will get in the way, and we can argue all day about weather mines will produce x% more uranium to meet market demand. I think they will because people stand to make a lot of money if they do, but sure, they might not for a host of above ground issues seperate from engineering and energy.

But this doesnt detract from uranium having the capacity to be a resource into the distant future.
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Re: Uranium Supply

Unread postby Dezakin » Thu 10 Jan 2008, 17:12:17

$this->bbcode_second_pass_quote('EnergyUnlimited', '')$this->bbcode_second_pass_quote('Dezakin', '
')If I had access to say 400 billion dollars instead of invading some country I'd probably spend say 10 on the development of a molten chloride fast reactor for incinerating the plutonium and other actinides in spent fuel, and another 10 on the development of a molten fluoride reactor for meeting the global energy demands, and then spend I'd guess 2 billion each on the chloride fast reactors and about 1.5 billion on the fluoride thermal reactors.

If one take into account current FED monetary policy, there is a good chance that within next several years $ 400 billion will buy you a box of matches :(

Take it to economics forum, I dont care to argue religeon.

$this->bbcode_second_pass_quote('', 'A')nyway, $10 billion for existing business or governments is not very much.
My suspicion is that no significant work is done on molten salt breeders, because it is already concluded that these will not work economically if applied in power plants.

Nope. The reason the plug was pulled in the early 70's was because molten salts had a poor breeding ratio compared to liquid metal reactors were much more amenable to breeding plutonium.

Molten salt reactors have a much better chance of economic power production than any other breeding regime simply because it internalizes the reprocessing cost and gets rid of fuel fabrication regimes. I've seen economic analysis on molten salt reactors that show them to produce power at a lower cost than PWRs or even coal.

http://thoriumenergy.blogspot.com/
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Re: Uranium Supply

Unread postby sch_peakoiler » Thu 10 Jan 2008, 19:00:02

$this->bbcode_second_pass_quote('Dezakin', '
')Theres no way PWRs are going to breed at 1.02.



the number 1.01 comes from Tanada, the number 1.02 from EnergyUnlimited. Can you please agree with them on anything?
because it is difficult to discuss if the proponents do not agree on one number.

$this->bbcode_second_pass_quote('', '
')Also this would finally get people to shut up about the whole running out of energy meme when they realize how much energy is recoverable just by digging up some dirt in the backyard. (Cue in next doomy topic about overpopulation, ecological collapse, whatever. Theres allways some pessimistic horizon)


Yeah you have drawn a techno paradise. Looks nice. Pity that in the capitalism technolgy is suppressed by big financial interests "intertwined" with politics :( I would also support a world with large scale nuclear research and development. Because now it is stagnating... One working Fast Breeder and one being built. and this not even in a country calling itself GREAT 7. anyway.

as you correctly point out, as things are now - people tend NOT to shut up about the whole energy thing. They want facts and dont let anybody feed them with expectations.


$this->bbcode_second_pass_quote('', '
')Strictly speaking, the chloride fast reactor is unnecissary. Fluoride thermal breeders can be started on enriched uranium, and the only industry demand would be for the initial fuel load. The chloride reactors are only aesthetically desirable for incineration of the spent fuel stockpile and optimal production of U233 for the market.


As far as I get the situation, if we manage to breed and burn U238 and Th232 we will get a pretty long term supply, which would surpass thousands of years. If. We. Manage.


$this->bbcode_second_pass_quote('', 'T')hat, IMHO, is sufficient for the fuel cycle and energy demands of civilization


MHO is slightly different on this. I think that we still have to see some more progress on mining U from leaner ores.

$this->bbcode_second_pass_quote('', '
'), though not aesthetically pleasing or optimally efficient. I doubt things will play out with any breeder reactors in the future

I agree...
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Re: Uranium Supply

Unread postby sch_peakoiler » Thu 10 Jan 2008, 19:16:28

$this->bbcode_second_pass_quote('Dezakin', 'e')nergy positive in any time regime in the next several millinia because the Rossing mine data is very clear.



I understand this. Things I do not understand completely are:

how much discovered (not estimated) uranium do we have at 300 ppm?

would we possibly get a problem of scale trying to replace high grade mines which are bound to run out with low grade mines and trying to expand production at the same time?



$this->bbcode_second_pass_quote('', '
')The mine production numbers for this year, next year, next decade, I couldn't say.


you cannot. but the industry can do that,does that and fails. Thats the problem. you are not responsible for what is being said. Dont feel like I am attacking you.
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Re: Uranium Supply

Unread postby sch_peakoiler » Thu 10 Jan 2008, 19:19:58

double post, deleted.
Last edited by sch_peakoiler on Thu 10 Jan 2008, 19:36:47, edited 1 time in total.
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Re: Uranium Supply

Unread postby sch_peakoiler » Thu 10 Jan 2008, 19:34:25

double post, deleted
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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby Graeme » Thu 10 Jan 2008, 22:26:39

British and French discuss nuclear fusion

$this->bbcode_second_pass_quote('', 'T')he biggest nuclear companies in Britain and France are in "advanced talks" to create a consortium to build a new generation of reactors in the UK. British Energy and EDF may be joined by Centrica, which is considering taking an equity stake in the group in what would be a new direction for the owner of British Gas.

News of the consortium talks, following the Government go-ahead for Britain to build the new power plants, suggests that companies wanting a slice of Britain's nuclear future have been involved in lengthy behind-the-scenes negotiations. Bill Coley, chief executive of British Energy, said yesterday that he hoped to unveil his consortium in March.


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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby Graeme » Thu 10 Jan 2008, 23:05:51

New generation of nuclear reactors promises ‘greener and safer’ energy

$this->bbcode_second_pass_quote('', 'E')nergy companies building the next generation of nuclear power stations will choose between four models, the manufacturers of which have already applied to have their designs approved for use in Britain.

The four reactor types were all accepted into a “prelicensing process” in July. This will assess their safety and efficiency before any orders are placed or sites chosen.

This year the Nuclear Installations Inspectorate, the Health and Safety Executive and the Environment Agency are expected to select three models to be examined in detail over the next three years. The successful candidates would then be awarded a generic design assessment certificate, allowing their construction provided that suitable sites are proposed.

The licensing and planning could be complete by about 2012, and the quickest practical contruction time is generally considered to be about four years. John Hutton, the Business Secretary, said yesterday that he hoped the first new reactors would be generating electricity by 2018.


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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby TonyPrep » Fri 11 Jan 2008, 06:11:06

$this->bbcode_second_pass_quote('threadbear', 'T')he government believes that renewing Britain's civil nuclear power programme is the most effective way of guaranteeing security of supply while tackling climate change.
Security of supply? How much uranium ore is mined in the UK? Apparently an independent energy "source" is a reason for France's build up to 80% of electricity generation. But France imports all of its uranium.
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Re: Uranium Supply

Unread postby EnergyUnlimited » Fri 11 Jan 2008, 06:25:01

$this->bbcode_second_pass_quote('sch_peakoiler', '')$this->bbcode_second_pass_quote('Dezakin', '
')Theres no way PWRs are going to breed at 1.02.



the number 1.01 comes from Tanada, the number 1.02 from EnergyUnlimited. Can you please agree with them on anything?
because it is difficult to discuss if the proponents do not agree on one number.

1.01 came from first shot experiment on commercial reactor, as described by Tanada.
I suspect that 1.02 could be achieved with some more "fiddling" but we are not there yet and there was no interest in developing this technology further.

Dezakin think, it is not possible due to reactor geometry.
I think, that with some engineering efforts it may be possible to get there.
It is very rare that firs experiment ever run delivers the best possible result.
Usually there is some room for improvement.

I have noted that you are stating that we have one running commercial fast breeder.
Unfortunately it is not breeding fast breeder (in Russia).
Fast breeder which doesn't breed cannot help.
I think, fast breeders are working well only as ~50MW military installations, very expensive to run.

I doubt that we will ever succeed in adapting them to commercial electricity production.
Superphoenics was a spectacular failure.
Japanese installation is haunted with problems related to leaks of molten sodium, causing fires and it was not demonstrated to breed either.
Russian project does not breed, but otherwise is probably the best.
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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby TonyPrep » Fri 11 Jan 2008, 06:27:16

$this->bbcode_second_pass_quote('Starvid', 'A') reasonable average world level might be 50-70 % nuclear (the current level is 15 %). A developed country can go from 0 % nuclear to 50-70 % in 10-15 years.
Would that be including economic growth, or would that be, at current GDP levels, with the percentage going down over time?

By the way, this story from the BBC includes the sentence: $this->bbcode_second_pass_quote('', 'T')he nuclear industry believes it can get the first new plant on-stream by 2017.
implying that 10 years is the minimum to get the UK its first new plant. Do you really think a significantly sized country could go to 50%-70% in that time frame?
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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby fluffy » Fri 11 Jan 2008, 06:40:57

$this->bbcode_second_pass_quote('Starvid', '
')We can't be 100 % nuclear because of grid technical issues. France is 80 % nuclear, but that requires using the flexibility of the grids of neighbouring countries and also quite a bit of fiddling with the output of the reactors, something which represents a suboptimal economic mode of operation, as the fixed costs of nuclear are so very high and the non fixed costs are so very low (=you want to run full blast 24/7 for best economics). Still, France has among the cheapest power in Europe, considerably so compared to its neighbours.

A reasonable average world level might be 50-70 % nuclear (the current level is 15 %). A developed country can go from 0 % nuclear to 50-70 % in 10-15 years.


Well, IF you used off peak electricity in variable-load plants - for instance, to turn waste paper/cardboard/wood into Methanol for a liquid fuel, then you could indeed have a 100% nuclear grid. Add electric cars into the mix and you are looking towards a fossil-fuel free economy.

Interestingly for the 'UK has no Uranium' people:

http://www.cornwall.gov.uk/index.cfm?articleid=2686

http://www.mineralsuk.com/britmin/miner ... mar_07.pdf

Second link is quite an interesting general read; certainly if commodity prices remain high, then the Cornish mining industry could produce significant Uranium alongside Tin, Copper, Gold and other minerals there. And there is always seawater Uranium - the UK has some good potential extraction sites with decent currents.
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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby Tanada » Fri 11 Jan 2008, 08:52:01

$this->bbcode_second_pass_quote('TonyPrep', '')$this->bbcode_second_pass_quote('Starvid', 'A') reasonable average world level might be 50-70 % nuclear (the current level is 15 %). A developed country can go from 0 % nuclear to 50-70 % in 10-15 years.
Would that be including economic growth, or would that be, at current GDP levels, with the percentage going down over time?

By the way, this story from the BBC includes the sentence: $this->bbcode_second_pass_quote('', 'T')he nuclear industry believes it can get the first new plant on-stream by 2017.
implying that 10 years is the minimum to get the UK its first new plant. Do you really think a significantly sized country could go to 50%-70% in that time frame?


That would be replacing the current 10 reactor fleet in the UK which averages 300 Mwe each with new much more efficient units producing an average 1550 Mwe each. If the current fleet is 15% then the new fleet would be 77.5%
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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby EnergyUnlimited » Fri 11 Jan 2008, 09:32:39

In any case, if we *are* going to keep any sort of integrated grid at all, it is going to be based on nuclear electricity run grossly on thorium.
I just don't see viable, long term alternatives to provide baseload supply.
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Re: Uranium Supply

Unread postby sch_peakoiler » Fri 11 Jan 2008, 10:32:07

$this->bbcode_second_pass_quote('EnergyUnlimited', '
')Dezakin think, it is not possible due to reactor geometry.
I think, that with some engineering efforts it may be possible to get there.


I think you three should either agree on something :):):)or agree on something:):)

because otherwise if I cite numbers from you or Tanada I get an "its impossible" from Dezakin:) and vice versa.
That way the discussion is a stalemate.


$this->bbcode_second_pass_quote('', '
')I have noted that you are stating that we have one running commercial fast breeder.
Unfortunately it is not breeding fast breeder (in Russia).


I know. it runs with HEU. So to say it is running in the eternal ignition mode (similar to what we discussed with igniting thorium). To make it breed one would have to reprocess the waste and make a "breeder load".

I called it a running breeder because

a) it is a breeder by design.

b) it runs

c) according to its project assessment documentation it has been confirmed to breed at some 1.3.

this breeder cannot help because even if you start building things like it tomorrow, you will have to wait 50 to 100 years before getting a substantial amount of them run. Build time+ignition breed+first reprocessing: all takes time.
So we can forget FBRs for the scope of our lifetimes. They are loosing it in our timeframe.

It looks like the same is true for almost every advanced nuclear tech out there. Fusion, FBRs, you name it.
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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby clv101 » Fri 11 Jan 2008, 13:02:14

$this->bbcode_second_pass_quote('', 'O')n Thursday 10th January 2008 Business Secretary John Hutton announced to MPs that he was giving the green light for new nuclear build in the UK. He is inviting energy companies to bring forward plans to build and operate new nuclear power plants. However considering the nuclear cliff, has the decision come too late to maintain the nuclear contribution?


Image

Hutton says we can have new nuclear before 2020, as early as 2018 he says. I think this is because he needs new nuclear by then rather than the results of an analysis looking at how long it would realistically take.

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Re: Brown solution to peak money, peak oil= NUKES!

Unread postby MSimon » Fri 11 Jan 2008, 16:12:33

Well Brits are wasting their money on ITER. This is a better deal:

WB-7 First Plasma
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