Recent nuclear power cost estimates – separating fact from myth

Thanks Barry for writing this blog post. It demonstrates that pro-nuclear bloggers can and do have answers to critics. Well done.

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Here’s what I suggest for South Australia; build an AP 1000 incorporating multiflash desal near Ceduna. A start should be made on an east-west HVDC cable. The benefits would be
-power the Olympic Dam expansion with less CO2
-unite the Eastern and WA grids
-relocate the unbuilt RO desal from Whyalla
-turn off the pipeline from the drying River Murray
-disperse warm saline water more easily
-retire the Playford B power station at Pt Augusta
-leave space for an adjacent Gen IV reactor.

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John, would it not make sense to build two AP1000s? The cost of HVDC is not cheap…the map gives no real indication of how long such a line is. By doubling capacity you bring unit KW price down a bit and makes the HVDC line “more worth it”. I suspect this area is relatively unpopulated, even by Aussie standards?

Also, has anyone hooked a flash desalination component to a thermal plant before?

David

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DW
the case for the east-west HVDC has been made by Neil Howes. The Norseman WA to Pt August SA section would be about 1500 km and an easement exists with the railway line. Start with the section next to the water pipeline to the mine. In terms of peaking power WA has the gas which for SA is fast depleting. Easier to shift electrons than gas.

The RO desal at Whyalla will draw I believe 35 MW and the pipeline to Olympic Dam/Roxby Downs about 285 kms. From Ceduna it might be 350 kms as it has to skirt around salt lakes, per the Google Earth ruler tool. However that region needs both more water due local aquifer depletion and more electricity for new mines (eg zircon) and fish farms. Whyalla locals want the RO desal moved further south anyway.

I suspect that there will also be ‘retro offsets’ whereby wind farms built years are suddenly credited towards a renewables target for the OD expansion
http://www.news.com.au/adelaidenow/story/0,27574,25971059-2682,00.html

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Ah…yes…true I hadn’t thought of THOSE flash distillers. I worked on some heat exchangers for on-board distillation devices during my years as a pipefitter at the Brooklyn Navy Yard. Not flash distillers, I think, but “evaps” I think.

So couldn’t the two dozen thermal plants in southern California be fitted now with such flash desals? How about the two nukes we have, 4 reactors in areas short of fresh water?

David

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“What do we know for sure? We know, for sure, that the costs of the material for an AP-1000 is is less than 1.4 billion dollars. How do we know that? Because this is what the Chinese are saying it is going to cost to built their AP-1000s, take or add $100 million or so.”

The key word here is ‘saying’. As China is a brutal dictatorship that represses its population to be the sweatshop of the world I hardly think that it is a fair comparison. Even if this is the true cost how could you check? YOu can’t get information from the Chinese government under FOI.

Unless of course you are suggesting that we change to China’s form of government the estimates for Western Democratic societies seem in line with others here.

Click to access EconomicsNP.pdf

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Regarding the remark that you wish to be spared “the hype and spin that nuclear power is somehow the expensive low-carbon energy option. It isn’t. Get over it”, I do not see any analysis (either in your post or the links) of what the cost would be to insure the reactors against accidents, what the worst (or most likely) case accident scenario is, how many would die (either immediately or in the aftermath) of various accident scenarios, what compensation would be forthcoming (to relatives, for example), and what the financial and environmental costs of this (and any subsequent clean up) may be. Since they are not mentioned, I assume these factors are not taken into account in calculating the 5c/kWh figure, but given your confidence of “Get over it”, I presume you can present such data.

I take it for granted that in purporting to show that nuclear energy is not the expensive option (as you claim), any analysis would need to address these issues and factor such costs into the final figure that is presented to Canadian consumers through their power bills.

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Partly because Yankee engineers are working all over those projects…*it’s THERE design afterall*… then in fact we do know. We know what WESTINGHOUSE/SHAW is billing the PRC, dictatorship or not. So we do know a few things and we know the material costs are very, very low.

As for Chine labor…yes, low wages, for sure. Where as I noted in the quote Barry uses that the 10 to 20 million man-hours translated into a 600 million to 1.2 billion labor charge for an AP1000, the lower wages paid to Chinese labor then runs at about 60 million to 120 million dollars.

At any rate, Stephen, the anti-nuclear forces whose only *real* weapon ARE costs, this all doesn’t bode well for them.

Let’s keep in mind that the PRC is also one the biggest builders of wind and solar alternatives (mostly for market penetration in the West…mining those subsidies, of course) and give’s ‘equal weight’ to these projects. They are into *everything* so it will be interesting to see this ‘objective’ competition between these forms of non-carbon generation. But that’s ‘interesting. More concretely the Chinese are going to build about 100 of these AP1000s, most of which will be their own larger versions. It presents a *very* scary happening for the antis everywhere.

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It would be a PR disaster for the nuclear industry if a contract was made to build an AP 1000 in Australia and it ran way over budget and time. Think the Areva EPR in Finland. Maybe it is better to wait until the Chinese are well advanced on the learning curve and get them to advise.

Meanwhile green criticsclearly see the problems with using vast amounts of fossil fuels in the Olympic Dam expansion. That is for 700 MW of extra electrical demand, 120 megalitres a day of fresh water, billions of litres of diesel and so on.

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Excellent article, Barry.

This article, published yesterday, considers the effect of the just passed Mandatory Renewable Energy Targets (MRET) on electricity generation costs, and the relative competitiveness of renewable and nuclear in Australia.

http://www.quadrant.org.au/blogs/doomed-planet/2009/08/the-costs-of-power

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We don’t need weapons David as this is not how it should be. I bring up concerns including costs. All power sources have costs. If the Chinese can build cheap nuclear power plants then hooray for them. The cost to the Chinese people is loss of freedoms that we take for granted. If your conscience can write this off for your nuclear dreams then bully for you.

Sorry…how are the two…three issues connected exactly? The low costs for Chinese nukes are based largly on the serial modular design and production of the 249 different modules. Standardized design, standardized construction. That’s it. If it’s “hooray for them”, it’s “hooray for us” as well. There were over 30,000 strikes in the PRC last year, most spontaneous, but many showing signs of organization. I work with Chinese labor organization to *encourage* this. The nuclear plants, however, help provide a *material basis* for cheap energy and a better standard of living, something no democracy, or movement for democracy can live without, IMO.

Where is Chinese nuclear waste stored? Americans are all over Saudi Arabian oil as well and cannot get any true figures as to their oil reserves. China has recently imprisoned a person they accuse of espionage. I don’t the the Yankee know-how will risk trying to get the true figures.

Waste/Spent Nuclear Fuel. First answer: not to so flippant, but who cares? Their oldest plant is only about 30 years old. Most of their other plants came on line in the 1990s. They only have 11 plants right now. They have almost no SNF. What there is will be stored for a hundred years or so in secure dry casks, a la Francais. They are also going to recycle all their own waste. In fact they are investing in it now, even though they won’t need to use it for another 40 years or so…but they can sell any recycled fuel and, save some on looking for uranium fuel outside the PRC by doing so. They are investigating geological storage for anything left over.

As well even if the Chinese reactors come in really cheap how are you going to duplicate those conditions? The Chinese costs only apply to China not anywhere else. I don’t need any ‘weapons’ against nuclear as it is its own best weapon.

We no the *material component* costs for an AP1000 is cheap. Chinese costs, and this is the whole point, is based on my answer to point one above: it’s intrinsic to the design of the reactor. Westinghouse believes it has a realistic target of a 36 month build time. See the paper quoted by Barry from The Next Big Future. The Chinese conditions that CAN be duplicated here is the learning curve being paid for by the PRC and Shaw construction engineers; better more stream lined regulations being proposed by a Congressmen for a shortened two-track NRC commissioning (which would bring it in line with the PRC more); a national *will* to phase out coal; more and more component manufacturing infrastructure already in the works. What we can’t, no wouldn’t want from the Chinese is a destruction of our free labor movement, lower wages and no public input. I already pointed out that the savings the Chinese get for low labor is about 600 million a year. We can live with out that, thankyouverymuch. We’ll take the hit on that one.

You need ‘weapons’ kitchen sinks, anything to fight nuclear because nuclear’s popularity, at least in the US is rising and has been pretty much non-stop since climate change became a bigger issue. And I was assuming you are anti-nuclear, so it is a question of arguments against nuclear (and economics is certainly a serious immediate issue for nuclear as opposed to some other ‘issues’).

What if the reported low costs of Chinese reactors is a fraud designed to undermine other nuclear power operators and builders. If they go out of business then the Chinese will be the only ones left so we will be completely dependant on China for fuel and reactors. If the Lang plan goes ahead and we have 8 complexes of nuclear reactors built and fuelled from China how does that work with national security. We may as well become the Southern Chinese province.

No you are being silly or foolish. This is not serious, so you don’t get a serious answer. “IF they go out of business…”. OMG! Zzzzzzzzzzzzzzzz…..

Contrast that with a distributed smart renewable grid built by Australians and fuelled for free. Sure it involves some compromises as we may have to waste a bit less however at least it will be very difficult to disrupt.

Sorry…FREE???? It's only the most expensive or haven't you been paying attention. A grid is not a roof top, it's 26 GWs there and no renewable 'nameplate' capacity is going to make that up…and there is no SG is there? Oz will never get by on renewables alone. Ever. Maybe if you shut down every refinery, every mine, every industry and all become sheep herders again. You "renewable SG" is nothing more than energy starvation based on zero growth. In other words: barbarism. See Africa.

david

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The Quadrant article raises several major points. Should a percentage of Australia’s known gas reserves be quarantined from export? Former WA Premier Alan Carpenter hinted at this but is now out of the loop. Rather than feed-in tariffs would it be better if wind farm operators could bid average-cost-plus rather than marginal cost? That might work best in the 10 minute spot market.

Another issue raised (eg by Origin Energy)is that an absolute CO2 cap makes a relative renewables quota redundant. That’s perhaps a linear programming problem. More pointedly can we physically get from around 4% to 20% of the energy mix in a decade, even if cost is no object?

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Stephen, its not a question of assuaging one’s conscience. There is a political and material context to what is going on in China. Obviously, since you never mentioned it once, that the Chinese are also the biggest builder of wind and solar is OK? I detest a lot of what the Chinese gov’t does. But I support the effort of the Chinese *nation* to advance economically and develop a *progressive* physical energy basis to stymie their development of coal burning which you and I would probably agree on is simply nasty. So when the do something *right* I’m going to tout it far and wide. Nuclear is something, so far, they are doing right and BETTER than Australia or the US put together. It is *progressive* in every way imaginable.

Dry cask storage is ‘wrong’? How’s that, Stephen? It works well now, will in the future.

Reactor cost quotes. This is really to the point of the subject. No, the quotes are correct, kind of, sort of. The overnight costs…that is cost to build the reactor and turn it ‘on’, exclude all externalities (as does every quote in the US, at least, for solar and wind). We’re talking material and labor. In the US the utilities by and large have to include every single possible item including licensing fees (200 million USD!), grid access and, grid upgrades…and thousands of other little items.

In China, since they have real national planning, the new HVDC lines and other grid access items are part of a larger, more detailed electrification projects that other power generation…eventually their huge stranded wind resources as well, will tie into. (don’t ask me why, I’ve never gotten a straight answer from my contacts in south China on why the build wind turbines but don’t hook them into the grid).

So actual overnight costs are cheaper because some many items leading up to the building of the reactors are simply non-existent. One item is legal fees. A utility in the US devotes about $50 million USD to this as part of their costs since they get opposition and delays from anti-nuclear groups. Obviously, in China, they don’t have to worry about this as democracy is suppressed. So there is a ‘tie in’ to a real issue that ‘saves’ money at the expense of something I can’t defend. But it’s still cheaper.

So…yes…if the Chinese can build…and then develop their stated goal of exporting their US designed reactors (they will be somewhat larger than the US versions) it will not help US companies very much, or Aussie ones. So what? The point is to develop cheaper, abundant energy from nuclear, then I hope the Chinese are widely successful!

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Barry,
You article hasn’t done a good job of separating fact from myth.

The acts are that bids for new nuclear plant in Canada were very high: your comment
“First, $26 billion is an aggregate number that includes two reactors, turbines, transmission and distribution infrastructure (power lines or T&D), plant infrastructure, and nuclear fuel for 60 years as well as decommissioning costs.”
Is this not the case for all energy generating systems, coal -fired thermal, wind or solar energy?

The myth is that an AP1000 plant can be built in Australia, the US or Canada for the same price as in China and with a construction time of 3 years. It is also a myth that we can build wind turbines in these countries for the same price as in China(<$1000/kWH). The first AP1000 contracts were signed(Nov 2006), site construction to assemble the modules in 2009 with completion in 2013 and 2014. It is unlikely that we could do better than that 7 years in Australia as this will be the first, although we have nuclear experienced local companies like Worley Parsons.

The critical questions are;
1) if these reactors are so cheap and can be assembled in 4-5 years why is China not building 50 now and why is it wasting resources on "expensive" hydro, solar and wind power? or building coal-fired and importing coal from Australia?
2) if Australia orders an AP1000 building program what would be the costs and when would the first reactors come on line.

I think we should start that process of starting a nuclear program, but should not be under any delusions that we will be generating nuclear power much before 2020, or will be able to complete more than one reactor every 2 years, or that it will not require very large Federal government support. To develop a similar amount of solar energy(1-2GW peak) would also require very considerable government support and probably a similar time period as nuclear. Both should be perused, after 2020 we can consider costs to expand these beyond 3-4% of our energy mix. Our economy will not be crippled if we pay a higher rate for 4%-8% of our electricity. Industries requiring $10/MWh are doomed in any future scenario.

Meanwhile over the next 10 years we can build a lot of wind energy (up to 15% of electricity use) using REC support and can calculate the maximum costs for the government and the economy.
Wind power is very profitable at $95/MWh with wind farm costs being recovered in <15 years amortization using market financing costs not government assisted financing rates.
If we do not continue to support wind energy now the only way to reduce CO2 emissions to the same extent before 2020 is to replace 50% of coal-fired energy with NG to give the same CO2 savings of using 20% REC.
If we are lucky both will happen, and we will reduce CO2 emissions much greater than present 2020 targets. Nuclear and or solar could then replace the other 50% coal-fired power from 2020 to 2040. High NG capacity doesn't have to lock in high NG consumption, it can be used only for peak demand when wind, solar or nuclear are not providing adequate peak.

It would seem that nuclear, solar and wind energy costs are going to decline with NG costs increasing. No coal CCS is going to be available until after 2030-35, so coal costs are not relevant for the next 25 years.

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On the question raised about why the PRC is not building 50 reactors. They are. Their plan is to build out to 100 of the AP1000 ‘type’ reactors by 2030. About half that by 2020.

But more specifically, only some of these reactors are going to be actual AP1000s…they Chinese have a license to build their own version, up rated to about 1250 and 1400MWs. The Chinese have two constraints that I’ve talked about here before: component manufacturing and training. They are addressing both. If they could build 50 *right now* they would. Plus, as part of ‘training’ (not only engineering/operating staff but construction skilled trades) the line of construction seems to fit perfectly for a kind of exponential growth of nuclear energy…to the detriment of coal expansion, of course.

@Stephen. China will likely never have more wind that coal. Your “100GWs” translates into about 24GWs of *available* power, way smaller than what is planned for nuclear. But the Chinese see value for a variety of reason to build wind…and solar…and geothermal…and hydro, etc. They want in on everything so they can *sell* everything on the world market.

The other issue with wind (less with solar) is that about 1/3 of their wind capacity right now is stranded, feeding into remote loads off the grid. They are trying to address this problem as well, planning new wind farms to tap into the large HVDC lines spreading out from Three Gorges Dam and their various nuclear ‘nuplexes’. Should be interesting to watch.

David

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Kropotkin. The insurance costs are mere decimal dust.

http://nucleargreen.blogspot.com/2009/06/congressional-budget-office-cost-of.html

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I’m not sure if you will find this as utterly hilarious as I do, but: the journalist who wrote this article is on record as writing this, when reporting on the (much higher) costs of wind power:

The message here is that we shouldn’t be afraid of rising electricity rates. Indeed, we should encourage it. By doing so, we motivate our communities to become more efficient, competitive and productive, and we end up achieving a level of energy savings that counteracts the higher costs we impose on ourselves. It also reduces the need for new power plants, translating into additional cost savings.

Toronto Star: Nobody wants to pay the price of going green

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The point in my post #35 was not well made. It is that the cost of nuclear could be much lower than it is at the moment.

The first reactor was built in 18 months. That was 65 years ago. If we could do that then, imagine what we could do now, if the enormous bureaucracies were not delaying progress and massively increasing the costs.

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@36. Peter, what I see is this sort of blind spot. The sun and wind advocates always talk about the ‘lowering’ of prices for their favorite boutique power source arguing that “prices for industrial scale storage will come down” (they’ve never, ever, quote the *cost of pump storage retrofits are, BTW) as it…that has happened, which, it hasn’t, actually. But when we prove that nukes can be built on time and on schedule, as they have, as if the AP1000 was some sort of unique 1970s era-clunker and the technology never changed or the construction methods..well…you see the ‘blind spot’ they are in.

@37. Soylent. All good points. In fact the whole idea of having to insure a nuclear disaster way out and above even Chernobyl was institutionalized for nuclear…and ONLY nuclear…because of *politics* not standard insurance procedures. Oh, and every nuclear plant in the U.S. it should be noted DOES have industrial disaster insurance, paid by the nuclear operator, not Congress, out to 300 million USD.

If you change the law and put P&A in a realistic insurance frame then you wouldn’t even need P&A. BTW…now that 9/11, the air line industry has the SAME kind of P&A insurance that Congress has. Coal companies do not have to have this. Hydro, as you noted, which has been far more expensive in *its* disasters don’t have to have this nor do chemical refineries. All get away without having to be libel for made up ‘worst case’ disasters.

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“The greatest minds in nuclear science have been searching for a solution to the radioactive waste problem for 60 years, and they’ve finally found it: haul it down a dirt road and dump it on an Indian reservation.” — Native American environmental leader Winona LaDuke.

Either that or burn it in non-existent reactors.

Nuclear advocates have a responsibility to try to ameliorate the adverse impacts of your nuclear advocacy. For example, you ought to speak out against Ferguson’s racist plans for nuclear waste dumping in the NT. He is using legislation which allows the imposition of a dump with no consultation with or consent from Traditional Owners. Needless to say they are angry and upset, needless to say they have problems enough without having Lucas Heights reactor waste foisted on them. They are asking for support. More info at no-waste.org

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Kropotkin, I believe you are wrong on every point. That PA is not a subsidy since no money changes hands except that the the operators have to pay into a fund to pay for the insurance. As I noted, now airlines have a PA. The guidelines for private insurance in the US dictate the *ability* to pay off a claim. The ‘claims’ are totally arbitrary as to how much it would be if there was an ‘accident’. Thus they made a totally made up worst case scenario and forced both the industry and insurance companies to abide by the ‘scenario’. Your numbers for such a scenario are as bogus as other anti-nukes: made up.

Dams are not, were not and never will be built to the exacting specs of nuclear. The fact is that hydro has killed more people than commercial nuclear. Again, they are not subject to the liability requirements of nuclear. Only the US has such nonsense.

On subsidies, please note that none o the 104 operating nukes in the US get subsidies…nore needs them since they make a lot of money. It is why some European gov’ts want to tax MORE nuclear energy…because they can pay for ‘renewables’. Both Finland and Belgium are considering this.

The subsidies for nuclear in the 2005 act were written in thusly:

EPAct offers a 1.8 cents/kWh production tax credit for up to 6,000 MW of new nuclear facilities constructed during the first eight years of operation. There is also “standby support” being offered to the first six reactors constructed, should certain types of delays occur. The first two reactors constructed are eligible for 100 percent coverage of eligible costs, up to $500 million. The next four reactors are eligible for 50 percent coverage up to $250 million for delays in excess of 180 days. Eligible costs include those costs that occur for project delays caused either by litigation or by the failure of the Nuclear Regulatory Commission (NRC) to meet schedules. Covered costs include principal and interest on construction debt and the difference between the contract cost of the nuclear facility power and the fair market value of replacement power purchased.

Please notice the limit of $6 billion. I think this was raised to $8 billion. Then it ends. So, basically, only the first ~5 reactors get a subsidy, one that equals, EXACTLY, the unlimited subsidies wind and solar get: 1.8 cents a kwHr.

Every nuclear plant runs without subsidies now, Kropotkin. NO wind farm or solar farm can *ever* run without them. Lastly, and most importantly, who gives a damn about ‘market’ endorsement? (that billions are going into expanding nuclear component infrastructure…unsubsidized…doesn’t count?). If you raise this in this forum you are going to be slammed since NEVER have renewable advocates ever seems to realize that they *exist* soley based on feed in tarrifs and production tax credits. Get back to us when solar and wind are built, run and otherwise promoted soley on the issue of ‘The Market’. But I will repeat, no big civil engineering project has EVER been built according to malevolent ‘market’ rules. Thank god.

david

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Just to make the point on hydro …

Russian Hydro disaster

67 dead, lots of environmental spillage of oil from the plant …

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@Fran, hi, you were (or are) a big advocate of 2nd and 3rd gen bio fuels. Since it is not something that we talk about here, it seems, perhaps you can provide some good links on it for everyone, maybe send them to Barry?

David

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PA is not a subsidy…even indirectly because the *criteria* for it is so bogus. But if you want to call it an “indirect” one, fine…it’s not skin off the reason nuclear can, and will be, the future. Especially as compared to the ridiculously ‘for ever’ subsidy renewables gets…which is why nonrenewables can’t stand on their ‘own’ in the market.

I’m also not against subsidies, I’m for out right nationalization of energy resources. It’s another discussion but I pointed out, did I not, that no large scale engineering project like…electricity, was ever built without direct or indirect gov’t sponsorship. My whole point is that nuclear is cheaper than wind or solar which is why current installed wind and solar plants need ongoing subsidies and nuclear doe not.

Now….the ‘historic subsidies’. Interesting. You quote the “even the popular press”. There’s a source! Ha! Please…”since 1947″ is correct, when 100% was *military* subsidy and sponsorship. Right through around 1958 or so. That the military built reators one can argue is unfortunate. But *currently* existing nukes receive no subsidy outside of standard industrial tax benefits. It’s like “A gov’t project in 1920 started the TVA and thus every thing EVER built by it can be tagged with ‘subsidy'”. 90% of the subsidies given nuclear in that date were given up to 1964 or so and then basically was a dribble of support, mostly R&D some of it still military (for fast reactors, as it happens). Saying it, or quoting the CBO on this matter shows that they are STILL basically arguing that the money going into marine reactors for projects like the Nautilus is why the 104 nuclear reactors still get an ‘indirect’ subsidy.

First, BILLIONs of dollars are going into nuclear. It’s yet another myth you are perpetrating. What makes you think “no private capital” is going into nuclear? Huh? It’s basically a lie. 95% of the R&D for the AP1000, the ABWR, EPR etc are private capital or, gov’t capital with an expected return.

Lastly, as 90% of the worlds generation is state owned, state distributed, why again is the ‘market’ so important to you? How it that Wall Street and The City which has screwed up the worlds economy SO BAD is such a good guage of this issue? Why do you think 100% of the renewables in the world today wouldn’t exist without ongoing subsidies and grants? Get real: the state has and will have an important role in financing and regulation. Nuclear is the LEAST problematical because ITS return is so great.

David

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Kropotkin – I am not sure why you insist that someone provide a source for an assertion that any “subsidies” provided to nuclear energy before 1954 should be eliminated from the discussion of commercial subsidies. In the United States during the period starting in 1945 until the passage of the Atomic Energy Act of 1954, there was a strong law against any commercial activity in nuclear energy. The US government had declared all nuclear knowledge to be a property of the US government and essentially all information about industrial applications was classified as secret.

Under those conditions, how could the government be “subsidizing” commercial nuclear power?

If you want a reliable source of information that details the energy subsidies per unit power output, here is a link to a page supplied by the US Energy Information Agency.

http://tonto.eia.doe.gov/energy_in_brief/energy_subsidies.cfm

Rod Adams
Publisher, Atomic Insights
Host and producer, The Atomic Show Podcast

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@Kropotkin – Perhaps I just do not understand your rules for debate. Why do you require a link to something that is a matter of history? However, since you insist, you can read about the Atomic Energy Act of 1946 on Wikipedia, which includes a link to the original text.

http://en.wikipedia.org/wiki/Atomic_Energy_Act_of_1946

You can also find out more about the Atomic Energy Act of 1954, which was passed after President Eisenhower gave his famous Atoms For Peace speech to the United Nations in December, 1953.

Here is a link to the full text of that amended act. Notice that the first part of the act recognizes that atomic energy has applications for civilian as well as military uses – this was a new concept with that amendment.

Click to access ml022200075-vol1.pdf

With regard to the link I provided about energy subsidies – I recognize that nuclear power research received subsidies in 2007. If you follow through and read the associated links on that page you can find the methodology and the items included in that figure. None of the subsidy was provided to operating nuclear power plants, it went to advanced reactor research, university programs, and some support for demonstration licensing efforts to test the one step licensing at the NRC.

The main point of the link was to show that the other renewables that you continue to tout as receiving massive private investments received far larger subsidies. It is much easier to convince investors on Wall Street to put in some money if they know that much of that money is being matched by the taxpayers. If you have been following the news in the US you will know that Wall Street is a huge believer in government participation in industry through monetary gifts – they just do not like it if the government then expects results or tries to govern the use of the money by limiting executive pay.

In other words, arguments that rest on the behavior and decision process of Wall Street bankers do not do much to convince me of the merit or demerit of any particular energy supply technology. For the most part, it is safe to say that Wall Street invests in businesses that offer the opportunity for quick returns or big bonuses for bankers, not in businesses that offer long term, steady returns, good jobs, and valuable products that enable general wealth creation.

The current structure of the energy subsidies for wind and solar offer the opportunity for quick returns for the bankers, often leaving others stuck with the non-performing assets.

No, no links for that assertion. You can find a lot more detail on Atomic Insights, but it takes time to read and learn a subject in depth. It is hard to summarize with a simple link and it is often the bane of critical thinking that it is hard to find a source that supplies all of the dots in a connected fashion.

Rod Adams
Publisher, Atomic Insights

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Kropotkin, I can’t show you a negative. I can’t give you a “link” to a document that shows “no subsidies”. Evidence doesn’t proceed like that. It’s up to you to show that ANY money from the US DofE, the US DofD or any other gov’t agency provided subsidies to the: EPR (which is absurd it since it’s a French gov’t entity but I *couldn’t* prove it) or the AP1000 or any other approved reactor…in any form whatsoever. You need to show where this money comes from, where it goes and why it’s a ‘subsidy’.

You are repeating the half-truth about gov’t R&D massive subsidies into military technology. The US poured BILLIONS into this technology in the 1950s (and onward). But it was the civilian side of the his is an *benefit* from a seemingly malevolent investment by the US gov’t in the 1950s. 90% of those “hundreds of billions” of dollars went into *military* nuclear technology. Does every nuclear reactor *since* this period of time get pegged with the infamous ‘subsidy’ label? Those subsidies are no longer there except what is *currently* subsidized through the PTC: $8 billion based on a 1.8 cents/kwhr output and the $18 billion dollar loan guarantee (which I dont consider a ‘subsidty’ since it MEANS NOT MONEY CHANGES HANDS. I wonder: do you consider Hoover dam to be a ‘subsidy’? I don’t. It was an outright ownership and built by the US gov’t. More than a subsidy. Save with almost EVERY hydro project we all know and love. Could it stand on it’s own economically in the free market? Most can and would do well. Could you BUILD one, even today, without help from the gov’t? Nope. Just like there is not a single renewable project out there that can’t be built and implemented without massive gov’t subsidies (way more than nuclear based on REAL power: MWhrs output).

But your criteria seems to be “profitability”. No large scale civil engineering product has ever been built solely by private funds. In noted this before but you ignored it. I note it again here.

So the loan guarantees make financing cheaper. Perhaps they should make it more expansive? Of course this makes power the plant produces cheaper. The gov’t *decides* interest rates. If the law was changed that said all industrial financing is prime rate plus 1% is that a ‘subsidy’? Is the US Treasury or Fed actually making the loan?

Finance capitalists only finance things they can make a quick buck on. Investments out to 10 years simply don’t play. Investments out to 5 years usually don’t play either. Ergo the quote from the energy finance company noted is probably true. I don’t doubt it. But the US *imposed* the “loss” criteria as hundreds of billions of dollars. This is not the insurance companies doing. So if the law stated a limited 1 billion dollar loss “in the event of a disaster” companies would be flocking to to get $50 million a year in insurance payments. *BUt they are not allowed* to.

Secondly, “trusts for decommissioning”…is paid for by the utilities, not the gov’t (or the rate payers to be exact). The nuclear industry pays almost it entire own way and you haven’t shown, only ‘stated’ that it doesn’t.

When you state: “The evidence that nuclear power attracted no new private venture capital in 2006 and 2007” that may be true…excect all the R&D for those reactors, including the 10s of millions of dollars required for reactor certification are paid for 100% by the engineering companies submitting them. Except that for 2008 and 2009 Grumman, B&W Nuclear group, GE and Westinghouse have all put in hundreds of millions of dollars for the components for their reactor designs. Real money, not ‘subsidized’ monies.

This kind of discussion is only relevant for the United States. No other country for *any* form of energy. This is because in no other country (OK, maybe the UK, but there it’s also ‘different’) prioritizes energy projects for “profit” and has to assure no public monies goes into it.

Basically, statistically, the current fleet of operating plants gets “no subsidies”. The price you pay for power from the US fleet is unsubsidized. No energy project in the US due to it’s arcane financing laws, regulatory laws (we’re getting wind projects now going on 7 years waiting to be built because of this) and private ownership, will all *need* public support in one form. What are those forms?

1. Special low interest rates from the non-existent “Clean Energy Bank”.
2. PTC (very important for renewables or there won’t be any). These are direct subsidies since they come off the bottom line.
3. Loan Guarantees associated with the CEB or separate.
4. R&D from the DofE and DofD.

My point is that current nuclear gets ‘no subsidies’ statistically speaking. ALL renewables do. I view both as ‘investments’ with some sort of payoff: reliable, cheap power, clean and w/little or no statistically relevant CO2.

In my view, nuclear should be 100% ‘subsidized’, built under TVA style public conglomerates (publicly owned power in the US is, 16% cheaper on average than investor owned utilities).

To gauge the *economic viability* of anything based on Wall Street is a disaster waiting to happen. It *means nothing*. It could mean, however, no money, right? Thus the loan guarantees to avoid the predatory lending of the Wall Street. GOOD. I prefer the way the rest of the world does it: just build ’em.

David

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One analysis (from a nuclear proponent) citing the government’s own figures indicates the nuclear power industry has received almost $100 billion in subsidies since 1948, and as I noted before, the 2005 US Energy Policy Act provides for $13 billion in subsidies (see http://climateprogress.org/2008/05/09/nuclear-subsidies-enough-is-enough/).

Fist, climate progress is hardly a disinterested party, but anyway… the quote above which you pulled from the site has already been dealt with as ‘historical’ subsidies, and it’s NOT break it down. The actual report IT links to is here:
http://ncseonline.org/NLE/CRSreports/energy/eng-29.cfm this is NOT about nuclear but simply states that the above amount of money was for “nuclear” and is left completely unexplained as to what that money went to. In fact this report is a break down of *renewable* subsidies in passing. It makes an interesting note:

From FY1973 through FY1996, in 1999 constant dollars, the federal government spent $43.2 billion for nuclear, $21.1 billion for fossil, $11.7 billion for renewables, and $8 billion for energy efficiency.

.

Interesting. So, for this “subsidy”, we get 104 nuclear power plants producing power at a cost of 1.7 cents a KWhr (NEI figures) at a real availability of over 90%, same as coal, and for renewables, excluding hydro, we get…? A little.

But again, the breakdown is not there so we don’t know how much went to military and how much went to *commercial* nuclear energy.

The Forbes quote is…like quoting Greenpeace. They are famous in the business community for oppositition to nuclear energy, preferring as they do… fossil fuel. You might as well quote the Oil and Gas Assn. and their obviously anti-nuclear POV.

If nuclear power is as inexpensive as claimed, it should have no trouble attracting new private capital. In 2006 and 2007 renewable energies attracted $56 billion and $71 billion respectively in new private risk capital, yet nuclear attracted none.

The reason for this is because of politics, and oppositionists, who threaten to drive up the costs. It is not based on the economics of nuclear energy, per se. I’ve already dealt with this nonsense in my last post, anyway.

Kroptkin…if I were to say, solar is not CO2 free, what would you say? The fact is that it’s not CO2 free…no energy system in that some fossil is used to produce the equipment and haul it, etc. It’s statistically irrelevant. Based on this, solar is in fact CO2 free, as is wind, as is nuclear. There are CO2 costs of course, but essentially it’s CO2 free. The same is true with nuclear “subsidies”. “Subsidies” that have MORE than been paid back in taxes, and cheap power.

The PTC IS a subsidy. But, since you are lawyering this, I can say no nuclear has received a dime of this 1.8 cents kw/hr because the gov’t hasn’t paid it out yet and you have to be on line. So, IN FACT, nuclear receives no PTC. But that’s lawyering nonsense as the industry has been granted this in the form the $8 billion dollars for the first few plants that come on line. The industry wants it, without a doubt. Everyone wants free money. But nuclear pays back way and above what ever is invested in it. They are, more often than not, the biggest cash earners for any utility. No one is losing any money investing in nuclear.

The CBO knows this too. The problem with the CBO report is that it’s based *entirely* on the 1970s methodology and uses only past history as the determining factor. It even ignored that the ‘first of a kind’ reactors they use to criticize the potential losses of new nuclear (50%) are part of a completely different production model of standardized reactors. It was written by lawyers and accountants, unfortunately, not engineers.

At any rate, you have never answered the question about overall energy subsidies. Why don’t you give us your view on the *massive* feed in tariffs for wind and solar in Europe or the PTC in the US and that NO renewables that I’m aware of can exist with continual subsidies? Your turn.

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One last thing…

Nuke can’t be introduced here unless both parties agree to it. It really has to be a bi-partisan effort.

David says:

Finance capitalists only finance things they can make a quick buck on. Investments out to 10 years simply don’t play. Investments out to 5 years usually don’t play either.

This isn’t entirely true David. There are lots of examples of projects or deals done with expected long term payoffs. Although the Macquarie model is basically dead in the water in terms of putting together satellite funds. A semblance of that model will most probably survive particularly in the non-listed sector capturing large pension fund investment where they are crying out for a regulated monopoly like returns with a very long life.

In fact my prediction is that unlisted or listed structures that offer regulated returns which basically protect against inflation and are hard assets would be a raging success in the next year or so as people begin to whiff inflation. Imagine owning a large asset with a growing/regulated income stream that has monopoly position that goes up in value as a result of inflation? It would replace bonds and it will sell amazingly well.

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JC, you said

“In fact my prediction is that unlisted or listed structures that offer regulated returns which basically protect against inflation and are hard assets would be a raging success in the next year or so as people begin to whiff inflation. Imagine owning a large asset with a growing/regulated income stream that has monopoly position that goes up in value as a result of inflation? It would replace bonds and it will sell amazingly well.”

I wish I could invest a proportion of what is left of my super balance in something like that right now.

If both parties would support nuclear, and we could get long term stable returns from investments like you suggest, I’d invest i it tomorrow. Because I am confident it is the secure, long term future.

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Two reports of potential interest (guessing many in this thread already know about one or both)

First – the 2009 Revised MIT Study (full:PDF)’The Future of Nuclear Power’.

Click to access nuclearpower-full.pdf

Second, and possibly even more relevant to this thread, is MIT’s 2009 ‘Update on the costs of Nuclear Power’.

Click to access nfc-108.pdf

Finally, a comment to Kropotkin’s post #47.

You’ve gone back pretty far (>5 years) for most if not all of your media reports / quotes. I note that, in particular, the Economist has since come out quite positively about nuclear power’s role in future energy production.

Why not read what the Economist said today about advances in nuclear waste handling technology

http://www.economist.com/search/displaystory.cfm?story_id=14299664&CFID=78769515&CFTOKEN=72966571

Or the below article from April – ‘Greenstanding’ where renewables are highlighted as – not only receiving economic stimulus money – but also worrying, as an industry, about nuclear technology deployment

“One fear shared by many enthusiasts of renewables, says Andrew Simms, policy director of the NEF, is that the government is simply losing interest in them. It has moved speedily to revive the nuclear-power industry, by contrast. From a position of cordial dislike in 2003…”

http://www.economist.com/world/britain/displaystory.cfm?story_id=13416083

Several reports in March on nuclear safety and non-proliferation (both important aspects of ongoing technology expansion. And that’s just how they are reported.

http://www.economist.com/world/international/displaystory.cfm?story_id=13325552

http://www.economist.com/world/international/displaystory.cfm?story_id=13325544

And so it goes. In September 2007, nuclear power scored the cover page of the Economist with several related features inside. It is now premium content (account required), but the cover page photo is linked below.

http://nuclearaustralia.blogspot.com/2007/09/one-take-on-renaissance.html

I’ve read some nuclear blogs critical of The Economist, but I find their reporting to be, by and large, balanced. Consider their recent report on clean coal, ‘The Illusion of Clean Coal’. Not much left to the imagination there.

http://www.economist.com/opinion/displaystory.cfm?story_id=13235041

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Phew! some conversation on nuclear costs etc!!. If nuclear is so costly, dirty, dangerous etc would someone explain to me why there are an additional 20 countries over and above the 33 already generating it who are building reactors as I write. On waste, South Australia has the best of just a few suitable sites identified by the IAEA for deep geological burial. It’s the Officer Basin in the western desert of SA. My brother wrote and mapped the geology of the SA section 35 years ago. When Rudd goes to Copenhagen in December, he should offer the world that site for its waste and at the same time assure the world that Australia will continue to provide nuclear fuel feed stock for power generation. Olympic Dam 300km east of the Officer Basin has enough uranium using the developing fast neutron reactors to power the planet for between 3000 and 4000 years. Why would a government wanting secure energy, water and hydrogen supplies not want to develop such resources for their own and the planet’s good? It’s now 10 years since I first posed this question. Want more nuclear info? Contact me on [08] 86821571 email: patez1@yahoo.com

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Terry Krieg,

Great comment. Great to have school teachers involved. Especially teachers with some knowledge and experience of nuclear energy gained overseas, and knowledge of geology as well.

May I add to what you said? Australia has by far the best conditions of anywhere in the world for nuclear waste disposal. I should preface my comments by saying that, from my perspecive, nuclear waste is a down-in-the-weeds problem from a technical perspective, but I recognise it is highly contentious from a public perception and political perspective.

Why is Australia ideal?

Large areas of inland drainage, low rainfall and low topographic relief. The importance of inland drainage and low rainfall are obvious. But why is low topographic relief important? Low topographinc relief means ground water moves slowly. So if radioactive materials did ever escape from the containent it would move at a very slow rate. However, in reality it is irrelevant because we know from geologic studies that any radionuclides that were released would move about 5m before getting absorbed by the minerals on the surfaces of the rock fractures.

Of course before it could get out in the first place, four barriers have to be breached.

And even if the material did get out, how bad is it, when compared with the toxic materials spewed from the smoke stacks of fossil fuel power stations, released in the water during the various processes along the fuel and combustion chain, and in the solid wastes?

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Finrod, #69,

True. My brain is still stuck back in the Canadian Nuclear Fuel Waste Management Program days of the 1980’s. Have patience, I’ll catch up.

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Terry Krieg,

Have you been here:

http://www.world-nuclear.org/ecsgallery/imageDisplay.aspx?id=10584&Page=19

Can you see where you lived in the suburbs in the background?

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To Peter Lang,
Yes Peter. It was the Pickering power station which I visited in 1981. Stood 5 metres from the open reactor which was about to be recharged with new fuel rods. Peered into storage ponds where spent fuel rods were suspended under a few metres of water. Depended on power from this station for the whole year while in Ontario. Also went down a couple of mines. The mine foreman gave me a small sample bag of yellowcake which I brought back to Australia and which I have used many times in the 20 or so pro nuclear power speeches I’ve made over the past 4 years in South Australia. Also visited the nuclear research centre at Chalk River when I went with a large group of other teachers on a mining tour courtesy of the Ontario mining Industry Council.Walked across the top of an operating reactor.All of this direct nuclear experience cured me of my former nuclear paranoia. Back here in SA while still teaching at Port Lincoln High School, I took my 41 [yes41] year 12 geology students on our annual geology field study to the Flinders Ranges. We included a day at Olympic Dam on the way and we all drove around in a 25 seater for an hour and a half 500 metres below the surface. It was an impressive operation then. Re the Officer Basin mentioned in my first piece. It’s an old [Palaeozoic mostly] 5 km thick pile of stable sedimentary rock, essentially flat lying with various fine grained sediment layers eminently suitable to store nuclear waste.The whole basin slopes gently from north to south, it’s arid and therefore there’s not much water to move radionuclides around.Anyway my brother who wrote and mapped the geology assures me that the only use that the little ground water present could be put to would be for pickling cucumbers.It is demonstrably the best site on the planet to dispose of all of the worlds nuclear waste. And it’s about 300km west of Olympic Dam which has the biggest single uranium deposit on earth. We’ve got the biggest U deposit and the best waste site juxtaposed here in SA. I’ve been trying to get through to governments etc just what potential that offers for Australia’s energy, water and for that matter, hydrogen future.Have been in touch with Paul Howes and Bob Hawke who both understand how big this could be for Australia. I’ve been pushing it now for 12 years. I live in hope of seeing nuclear power etc in Australia within the next 10-15 years. I’ve told Olympic Dam EIS that they should can their desal plant at Whyalla and build one at/near Ceduna and also that they should produce their own nuclear power using a couple of Pebble Bed Modular Reactors or one of the medium sized [600MW] reactors which Hitachi/GE are developing. Building time for them is 34 months. Must fly. Off to the Flinders Ranges tomorrow.

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Yes Peter Lang’ you are correct. There’s a lot more U to be discovered. However, any future discoveries will have to be gigantic to surpass the 2.2 million tonnes U at Olympic Dam. On waste again I sometimes wonder what people are thinking when they say “What about earthquakes?” They must think that the earth will open up from burial level to the surface, throw the drums of solid ceramic waste out onto the surface where they then explode. That’s about as silly a proposition as Helen Caldicott’s “one pound of plutonium delivered speck by speck to the world population is sufficient to wipe out every single one of us” What sort of “fictional nonsense” is that? Caldicott and the other big noise anti nukes like Nader, Toynbee etc are thankfully being ignored by energy authorities and governments around the world and getting on with greatly increasing nuclear power generation. We have to shorten the debate here in Australia and start to use the experience of the 33 soon to be 53 countries on the planet who are planning to or are generating nuclear power. Time is short to be fiddling around with the part time power sources like solar and wind, which by the way, may be renewable but they as sure as hell are NOT green How come? 1000KW nuclear power station needs about 1km2 space. Same capacity solar needs 200km2 and wind 500km2. Wind, solar green? Come off it.

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Many here will appreciate

Interview: Dieter Helm
http://blogs.nature.com/climatefeedback/2009/09/interview_dieter_helm_1.html

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On another thread Neil Howes asked:

Any idea of the date when Australia could replace the last coal-fired power plant(ie keeping existing hydro, OCGT and wind power), assuming we start on the “nuclear vision” after the next Federal election?

Luke replied:

One can make guesses from other countries’ experience. How hard to you want to try? The fastest rate the French managed was 3.4 GW/year, which would give you Oz’s 25 Gw average load in under eight years. France’s population is twice yours, but techniques have improved over the last 25 years. Say five years to get organised and ramp up, slow down at the end, 15 years from committing 100% to the goal. Of course, opponents will get the lawyers in and it will take 50 years instead!

I’d like to take look at this more closely and look at a fast rate of implementation – the sort of rate that might apply if there was overwhelming public support to get moving.

The figures below are based on the current Gen III and Gen III+ reactors and on current build rates (see https://bravenewclimate.com/2009/08/23/recent-nuclear-power-cost-estimates-separating-fact-from-myth/#comment-24824). The build rate may be musch faster, and may accelerate much faster, if the small Gen IV reactors prove viable and economic duing this time.

Program:

1. 5-years to implement the nuclear regulatior framework and the site selection process (2015)

2. 5-years (in parallel with 1,) establish the nuclear education faclilities (2015)

3. 5-years to construct and commission the first reactor (2020)

4. 5-years to complete and commission the next 10 reactors (2025)

5. 5-years to complete and commission the next 20 reactors (2030)

6. Progressively commission 12GW pumped hydro (2020 to 2030)

So, by 2030 we could have reliable, low-cost, low-emissions electricity from the NEM.

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Furthermore, again, to post #80 and #81, even in a Business as Usual situation, most of the coal fired power stations would be replaced during the period between now and 2030. So most of the $130 billion cost of the nuclear build would have to be committed on new coal fired power stations (or baseload gas, or renewables if viable) if it is not spent on nuclear.

The additional cost of nuclear (settled down costs) over coal (in Australia) may be around 25% in today’s dollars. So the additional cost of nuclear, compared with replacing the retiring coal with new coal, would be around $34 billion – and that would be spread over 20 years.

Again, to give perspective, this ($34 billion) would represent about 10% of the new federal government debt we have just committed to in the past year.

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Neil,

Starting 10 reactors at once from 2020.

We wouldn’t start 10 reactors in 2020. We’d start them in five states in multiple power stations in stages from 2015.

…would be using 20% of today’s world-wide nuclear build-out capacity …

The international build rate stalled in the 1980’s due to various factors (some similar to what has been preventing Australia getting started). If it is important to do so, we can and will achieve the build rate. France achieved abuild rate of 3.4GW per year and that was with the old Gen II, and it was 30 to 40 years ago. If we want to, we can and will. (see post #43)

I would look at what Canada managed in last 40 years( a non-nuclear weapons state)

Please explain what does ‘nuclear weapons state’ have to do with civil nuclear power. (on second thoughts, don’t bother, it’s a waste of energy.) BTW, Japan is a non-nuclear weapons state, as is South Korea.

Also, the international build rate to date has been dependent on the rate of demand growth. If we want to convert from coal to nuclear, we’ll do it. You seem to be implying that because we only built at this rate in the past, we can’t accelerate in the future. Yet at the same time you see the imperative. And you also seem to think you can meet the challenge with renewables. To me that is totally illogical.

The question I was answering was ‘what could we do if we really had to?’. If we really have to, the answer will be nuclear, not wind and solar with their requirements for massive transmission line capacity and massive chemical storage capacity.

Importantly, while we continue to focue our attention on renewables instead of nuclear, as we have been doing for at least the past 20 years, we waste most of our effort on a non solution and therefore do not have the resources to focus on a genuine solution. I hoe this BNC web site will help to persuade people to get off researching renewables. The amount of absolute nonsense being generated by our universities on this non solution is a gross waste of our resources. We’ve lost 20 years already. How much longer do you want to keep this going?

If we are lucky, electricity demand will not have increased by 10GW from 2009 to 2030 so nuclear may contribute to 25-30% of total electricity demand. If the rest is CCGT that’s still a lot of CO2, but a reduction in todays emissions. If we meet the 2020 target for 20% renewable(5GW average) and build another 5GW(average) from 2020 to 2030 that could mean only 50% power from CCGT.

We seem to be going around the buoy on this, repeatedly.

First, wind power backed up by gas generation does not avoid much CO2 emissions.

Second, OCGT, not CCGT, is needed (mostly) to back up for wind power

Third, if we are mandated to build wind generators, then we must build OCGT for back up. So wind plus OCGT will be built instead of CCGT between now and 2020, as and when new baseload capacity is required. Since OCGT emits about 75% of what coal emits, we are not saving much with wind plus OCGT instead of CCGT. Barry wrote a very good summary about this point on another thread.

Neil, I do not understand why you are so attached to the renewables dream. They are no more renewable than nuclear on an LCA basis.

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First, it is quite silly to use today’s build out capacity as a judge for what it will be in 10 1/2 years from now.

If there is ONE area that is going through an absolute “Boom” it’s in the construction of component factories around the world, even the USA.

There have been recent articles about this if you know where to look, including recently on the WNA.

A more extensive article at the ‘other NEI’ (Nuclear Engineering International) shows that component manufacturing, and heart and sole of any atomic Renaissance, is growing *exponentially*:

http://www.neimagazine.com/story.asp?sectionCode=147&storyCode=2052302

The biggest hindrance then is setting up the infrastructure (commissions, training, staffs, oversight, etc etc) which is something even the Chinese have now moved up the checklist of bottlenecks for the steroidal nuclear program.

David

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Terry K
it’s good to hear a local agreeing that Eyre Peninsula-Bight-east Nullarbor could be a low carbon powerhouse. I’ve stayed with relatives in these areas. Neil H has already proposed a 1500km HVDC cable linking WA gas power to the east Australian grid. Various kinds of low carbon generation could tack onto this new national grid if the economics were right.

I see the Whyalla scuba diving fraternity want to move the RO desal down the coast to Cowleds Landing near where a small uranium ISL is planned. That would make the desal to Roxby distance about the same as Ceduna, where of course the desal could be the more efficient flash distillation using nuclear waste heat.

On nuclear waste disposal the Federal government has already bought Arcoona Station near Woomera.
I assume that is sedimentary layers overlying granite. When OD goes open cut the underground equipment could be moved to a suitable site to enable cask storage in tunnels accessed by deep shafts. In time that whole region would become wealthy.

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Neil Howes,

Did you see my question at the end of post 187 here: https://bravenewclimate.com/2009/09/10/solar-realities-and-transmission-costs-addendum/

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John Newlands. Thanks for your support. I’ve been promoting the Officer Basin for waste storage for 10 years. Debated Prof John Veevers on Phillip Adams LNL in March 2003!!! My contention was that earnings through taxes and royalties from user countries would generate $2.5billion every year. They are Access Economics figures. I said that we could use that money to rationalize the irrigation effort throughout the Murray basin by about 60% [The late Prof peter Cullen later agreed with me] and redeploy the displaced irrigators in a massive revegetation scheme of the entire basin. Veevers argument? ” Yes, but we could make as much money going into wholesale Heroin production” I’m not kidding. Ask Phillip Adams. That was 6 years ago by the way. And what about the current state of the Murray?? It’s as good as stuffed. Nuclear power, waste disposal etc could save the Murray, keep people in jobs and create thousands more jobs and make SA an economic powerhouse. But we have leaders who persist with claims that nuclear power is too dirty, too dangerous too costly, too slow etc. The anti nuclear zealots sure have a lot to answer for. They’ve sucked our leaders in well and truly with their half truths and downright lies.it’s time for our leaders to ignore the antis and get on with developing nuclear power like the rest of the world.

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Yes John Newlands. We’re on the same page for sure.I’ve actually written a second piece for the SA Chamber of Mines and Energy on my vision for development over the the next 25 years in SA. They printed my first piece on nuclear waste disposal but seem reluctant to print the “vision ” statement. I shall try to put some pressure on them soon. Essentially the vision is for:
1. International high level nuclear waste dump in Officer Basin as first step. Rudd needs to get to Copenhagen and assure the world that Oz will make the site available for nuclear countries which have signed up to NPT.
2. A nuclear desal plant at Ceduna [not Whyalla] The threat to giant cuttlefish is big enough to make Whyalla the wrong site. That desal plant provides Eyre Peninsula water and Olympic Dam expansion needs. You suggest turning off the Morgan-Whyalla pipeline. Excellent idea John. BHP Billiton takes leading role in that desal plant.Some of that water can be used by the other mines developing in the NW of SA.
3. BHP Billiton develops its own nuclear power station on site at Olympic Dam [a couple of Pebble Bed Modular Reactors or one of Hitachi/GE’S medium sized reactors [400-600MW]with a 34 month build time would do.]That negates a 275Kv gas fired power line from Pt. Augusta. Gas is a fossil fuel which the gas lovers seem to forget.[40% emissions of coal]
4. Phase out the coal fired power station at Pt. Augusta and build a nuclear power station.
5 Develop nuclear fuel manufacturing and reprocessing plants at Whyalla.
That should take about 20 years once our governments wake up and grow up and join the rest of the world in the rapid expansion of nuclear generation currently occurring. There would be tens of thousands of new jobs and hundreds of billions if not a trillion dollars of investment in all of that over coming decades. Australia becomes a/the world leader in future energy supply and use. Why would a government pass up an opportunity like this? I’ve been asking myself this question now for 12 years. Oh well, I’ll keep on trying to get them to see the potential nuclear offers Australia.Are there any others out there who could help get the message out to the politicians??

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