iTulipers jeering at comments from people like Stephen Leeb about the manifest, historically ascertained, even quite banal reality of resource depletion seem almost childish compared to the serious glance taken at the topic of just one commodity - uranium depletion, in the article below. People making rash statements here about "doomers" are using sloppy, vague, opinionated terms like "doomertainment" while elsewhere they are talking glibly about vague unspecified "new technology" that will produce the energy we will be using in the first quarter of the 21st Century to replace petroleum estimated to amount to close to half what the world uses today. A vage reply to this is worthless. If you have a claim about nuclear energy, then debunk this author just for starters! These same easychair critics leave large unanswered questions as to what replaces petroleum in the next 25 years, while they grin and quip affably about the "foolishness" of the rest of us, who worry precisely about how terribly vague you all sound.

How many iTuliper's know in any even sketchy detail, that there are real issues with scaling Uranium production up even remotely adequately to handle what you so dreamily imagine will be mankind's replacement for oil in 25 years? Just who is it here who is demonstrating the beginnings of a grasp of the parameters of the issue? Do we have a grasp of how many BTU's we are talking of replacing in one half of today's global oil consumption? The comments alone seem so grossly simplistic. Here are people, in what presumes to be a community full of genuine skepticism and the spirit of probing curiosity - smirking and kidding around, and yet offering nothing even remotely equivalent to a quantitative reply to the simple question - it is all scoffing conjuring up 5000 notional nuclear reactors that "will get built" within 25 years to replace the equivalent of half of today's petroleum consumption.

Lots of posturing and easy jibes - and "doomertainer" has a nice sardonuic ring to it - very jaunty indeed - while no-one in this little community seems to have a clue that the replacement of all that petroleum by ANY energy - let alone URANIUM - is even assured in this short span of time. Read this brief excerpt from The Oil Drum and then cast your eyes on the pathetic response to Stephen Leeb's expression of vivid concern - which is being most rashly disparaged by people who have utterly failed to offer any detailed alternative more specific than an arm wave towards "human ingenuity". iTulipers come off looking uninformed, opinionated, reactive, even mildly spiteful in a petty fashion, towards any observer having the temerity to speak up on these issues.

Altogether a pathetic, misinformed display here - read even just this cursory overview of the gaping open questions about energy - what will or can step in to provide that 50% of current global annual petroleum consumption in a scant 25 years as 3 billion people inexorably industrialize - whether there is even sufficient Uranium to power the Jetsons future you imagine all rational people must normally envision as "just around the corner". It's easy to see from just skimming through this one article, how utterly inappropriate the smirks here have been regarding Stephen Leeb's own reference to the seriousness of these issues. Doomertainment indeed. Doubtless a real intellectual high point among all the debates on this website.

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Uranium Depletion and Nuclear Power: Are We at Peak Uranium? - Posted on The Oil Drum - on March 21, 2007 - 12:00pm - Miguel Torres

ORIGINAL ARTICLE HERE: http://www.theoildrum.com/node/2379

A ecent post by Martin Sevior has invigorated the nuclear energy debate causing over 240 comments with the most diverse opinions. I would like to further pursue this debate, as the question of whether nuclear power can provide a big part of the worlds energy needs is extremely important in the Peak Oil debate, because it is the only alternative energy source beside coal providing the type of electricity production necessary for the current electric grid model: big, base-load capable power plants. If that role is fulfilled, the current electricity production system can continue beyond Peak Oil, and even expand to provide the energy necessary for electrified transport. If it falls short, a new energy model is needed.

To anyone seeking the truth about the issues surrounding nuclear energy, the situation is extremely frustrating. There are two camps stating opposing claims. On the one hand, the environmentalists dislike everything nuclear, and on the other hand the nuclear industry paints an overly rosy picture where all problems are solvable, or non-issues at all. Whom should we believe?
Because Martin Sevior has portrayed the view of the nuclear industry, this post will explain what the other camp has to say. While I could address his post point by point, it would result in a very large article that nobody would read. So I have opted to first answer just one point, Uranium production, which I chose both because it is most similar to the PO depletion theme, readers should be familiar with some of its challenges, and because a new study sheds new light on it.

The biggest issue I have with nuclear energy proponents, including some members of TOD community, is that they just repeat what the nuclear industry sales men say. A good example is the post by Martin Sevior. It repeats their arguments without a shadow of doubt nor criticism. The same highly educated, Peak Oil literate individuals who know about OPEC resource mis-reporting, and can tell the difference between KSA reserves and Canada's, the difference between light crude oil and tar sands and know who Yergin and CERA are, believe all the arguments of the nuclear industry word by word. Why that is so, I do not know.

TODers should know that even though Canada now has greater stated reserves than KSA, tar sands will never reach OPEC production volumes. Reserves, and R/P ratio is not the same as a production profile, which produces a peak well before complete exhaustion. Uranium, like any other resource, can't be mined at any desired rate, nor every last drop or ounce of the resource can be mined. No matter the technology, at some point it is just not worth it to mine lower grade ores. While energy balance analysis are complicated and a discussion about it would only bring controversy, another way of putting it is more easily grasped. For any mined ore, the lower the grade, the higher the material throughput you need to process. There is always a limit. And despite what the nuclear industry might tell you, for Uranium too.

The materials throughput (not unrelated to the energy needed) is inversely proportional to the ore grade for any mined material: To extract 1 kg of uranium out of 1% ore containing material needs the processing of 100 kg. Extracting the same amount from 0.01% ore needs the processing of 10,000 kg. You can easily see that even if, for the sake of the argument we assume that the EROEI of nuclear energy for all ore grades is positive, there are physical limits to the production throughput Uranium production can ever reach. So what should be done is not just to list possible Uranium reserves, but also to analyze the maximum throughput attainable by the mining industry. That is: The Uranium production profile for the world.

The recently formed Energy Working Group has recently published a paper titled URANIUM RESOURCES AND NUCLEAR ENERGY. I will now explain their work. All figures and quotations are taken from this paper.

About the Energy Watch Group
SUMMARY I won't discuss the first point here (you may read the whole study, if you so wish) and I will concentrate on the Uranium supply.

Uranium Supply

This study uses the same data as the post by Martin Sevior. What he labels "Additional recovarable Uranium" is in reality "undiscovered resources prognosticated" and "undiscovered resources speculative". They are very unreliable data, considered by the study too speculative and with a very low probability of ever being brought into production. While some quantity in that category will be eventually mined, it wouldn't matter much in the time-frame considered.


Figure 1: Reasonably assured (RAR), inferred (IR) and already produced uranium resources It will surely be interesting for TODers to have a look at the depletion curve for uranium in France. It clearly shows that uranium does deplete in a manner not entirely dissimilar to oil.

Figure A-3: Uranium production in France According to the latest NEA statistics the "inferred resources between 80 and 130 $/kgU" still amount to about 11 kt. Now, the interesting thing is that "reasonably assured" and "estimated" resources estimates were increasing as long production was increasing, but as peak was reached, resource estimates were significantly downgraded.

While the USA is not nearly completely depleted like France is, the analysis of historical resource reports reveals similar patterns like the ones shown for France before. Shortly after reaching the production peak, in 1983 the "reasonably assured and inferred resources" where downgraded by 85%, a decline of almost 1,000 kt. The implication is that the reserve reporting practices are not "transparent" and "understated" as the nuclear industry will tell you.Back to the big picture. At present, of the current uranium demand of 67 kt/yr only 42 kt/yr are supplied by new production, the rest of about 25 kt/yr is drawn from stockpiles which were accumulated before 1980.But as any Peak Oiler knows, ultimate reserve exhaustion is not the only important thing. Throughput is as important. Uranium production lends itself to a bottom-up approach to production forecasts probably better than oil.







Figure 6: History and forecast of uranium production based on reported resources. The smallest area covers 1,900 kt uranium which have the status of proved reserves while the data uncertainty increases towards the largest area based on 4,700 kt uranium which represents possible reserves.
So it looks like Peak Uranium for this reserve estimates arises before 2040 at the latest, even though reserves will still be available beyond 2100.

In Annex 9 we find a Country by Country Assessment of Future Production Profiles Based on Resource Restriction (According to NEA 2006). Essentially the same as before but with individual countries represented.








On a closing note, Raise The Hammer has posted an interview with Richard Heinberg, known for The Oil Depletion Protocol and his books The Party's Over and Powerdown, where he gives a hint about the second study of the Energy Working Group. Apparently they consider coal reserves to be as overestimated as Oil and Uranium reserves. Heinberg also states that he is tracking an independent Dutch study-in-progress reaching the same conclusions (for coal).Miquel Torres has a degree in Physics from the University of Valencia, he currently lives in Germany and works in secondary education and in the field of energy investment.