Draft Energy White Paper – Discussion Thread

Following.

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definately following this one. and for the record. imo the time for renewables to have prooven themselves as viable options should be very short. they have been promising without delivering for many years and billions in investments now.
deliver or get out of the way of. real solutions that do deliver the goods. (i.e. nuclear).

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“Given the long lead times…” Yes– the time to start moving on nuclear is past. Every reasonable assessment of future needs points to a need for increased energy supply. Only in some fantasy world where humans actually reduce their energy consumption might 100% renewables cover our needs. Carbon emissions are a global problem and we need to start thinking about energy solutions that include the entire world picture.

The problem is that many Greens equate energy use with harm to the environment. We need to figure out a way to illuminate the idea that abundant cheap energy is a way to preserve and restore the environment.

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“…the Gillard Government unambiguously does not support the use of nuclear energy in Australia”.

Must be the best news we could have from this government which appears to do everything it says it will not.

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From what I just recently read in the WSJ a company in Austrailia is signing up to supply Japan with huge quantities of LNG.

http://online.wsj.com/article/SB10001424052970204770404577081553996936754.html

From the article

Quote:
Inpex Corp. of Japan said Tuesday that it will sell liquefied natural gas valued at $70 billion from its Ichthys project in Australia to five Japanese utilities and expects to make a final decision on whether to begin construction within weeks.

The 15-year sales agreements will help meet Japan’s surging demand for imports of LNG, which has been driven by the closure of most of the country’s nuclear reactors as a consequence of the March earthquake and the subsequent Fukushima Daiichi radiation crisis.

Inpex said the first shipments to the buyers—Tokyo Electric Power Co., Tokyo Gas Co., Osaka Gas Co., Kyushu Electric Power Co. and Kansai Electric Power Co.—are due to begin in 2017.

Also from many articles here on BNC I understand Australia ships tons of coal offshore.

It seems somewhat hypocritical for the Australian government to be worrying about their electrical generation’s greenhouse gas emissions when the Australian continent just ships GigaTons of CO2 to be burned overseas.

Since it will get burned somewhere anyway (whether or not you have clean electricity), why not take some of the gas for yourselves and burn it in combined cycle natural gas plants.

Then use some nuclear as baseload and you have it licked.

Spending lots of effort on renewables seems like an utter waste of time and money.

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GeorgeS I couldn’t agree more. Hypocrisy is not the word for it. We are supposed to bust our nuts getting net domestic CO2 under 500 Mt by 2020 yet CO2 from exported coal alone is over 700 Mt a year and rising. The plan is to eventually export 100 Mt of LNG up from the current 20 Mt, thereby overtaking Qatar in export volumes.

The Icthys gas field off Western Australia is close to Timor thus Asia but we claimed it. The gas will be processed at Darwin in the Northern Territory which currently receives gas from the dwindling Mereenie gas field in Central Australia. Presumably when the latter runs out desert towns like Alice Springs will also get gas from the Timor Sea. Why not extend the gas line to the uranium mines in South Australia? Apparently it’s unthinkable to have nuclear power in Australia but not uranium mining. Ironically some of that LNG will probably go to replace the output of derailed Japanese capacity like Fukushima.

To put it politely energy policy in Australia is muddled, utopian, contradictory and short sighted.

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John Morgan,

Thank you for this article and for your prompt to make a submission.

Your point out that neither major political party is advocating nuclear at the moment. I’d suggest the main reasons for this are:

First, it would be electoral death for the Coalition to raise it. Labor will maintain its anti-nuclear position so it can use it in an election winning scare campaign.

Second, given the projected cost of nuclear generated electricity in Australia it is not a viable option. I suspect this situation will remain the case until someone can generate interest in investigating the reason nuclear is not an economically viable option in Australia.

BNC is a place that could get that investigation started. There are many very bright and very knowledgeable contributors. However, they have never focused on: What would Australia have to do to allow nuclear to be cost competitive with coal in Australia?

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Roger Clifton, @ 14 December 2011 at 9:28 AM:

What could be done immediately, is an acceleration of nuclear education in Australia.

I agree. If the government could just get that started it would be a very important step.

I would ask that a large part of the focus of research should be on addressing the question: what would Australia need to to to remove the impediments in our energy system that are preventing nuclear being cost competitive with fossil fuels in Australia

As all BNC regulars know, I am strongly opposed to raising the cost of energy through government intervention, such as a CO2 tax and ETS, while:
1. there is no international agreement on how to price emissions, and
2. we have not removed all the impediments to a level playing field for electricity generation, transmission and distribution.

I believe my opposition ot CO2 tax and ETS is widespread and rational.

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Thanks for the introduction John. The discussion of nuclear seems to be a step forward from the last energy white paper in 2004 – it’s a reminder of how slow these things move.

Australia has large resources of energy, such as gas, hydro, wind uranium and solar, which have lower emissions intensities than coal….(but) impediments exist to the use of some of these sources. … Australia’s large-scale hydro potential is largely exploited, with little scope for expansion. Wind and solar are intermittent, which will limit their penetration in the longer term unless affordable electricity storage becomes available. Use of uranium reserves raises cost, safety and waste disposal issues in power generation. While industrialised countries on average generate 24 per cent of electricity from nuclear power (IEA 2002 b), Australia is not contemplating the domestic use of nuclear power. Other potential low-emission electricity sources, like electricity produced using ‘hot dry rocks’ or fossil fuel generation with capture and storage of emissions, are yet to be commercially demonstrated.

page 135

http://www.efa.com.au/Library/CthEnergyWhitePaper.pdf

I doubt anyone seriously believed the ALP would move onto the front foot with this – with nearly half the ALP delegates voting against permitting uranium exports to India, it seems a lot of delegates live in a parallel universe – but it at least provides a good opportunity to get get some public debate.

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A related issue, given Ferguson’s ‘coming out’ about nuclear power if renewables don’t deliver – I have an op-ed published in The Australian on the paper I published here titled Cutting Australia’s carbon abatement costs with nuclear power

You can find the op-ed here:

http://www.theaustralian.com.au/national-affairs/opinion/nuclear-power-can-save-billions/story-e6frgd0x-1226221274342

Some very interesting comments posted on the Oz site. I suspect they have been moderated. No green death threats :).

For those that don’t have access to The Australian online material, I have loaded the op-ed up on my website:

http://www.energyinachangingclimate.info/eiacc%202010_048.htm

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Ferguson says,

But if we get to the end of this debate some years in the future ..

The main thing I want to know is, how do we know when this debate has ended, and therefore must act?

Obviously the debate itself will never end, as must be obvious to anyone who has followed some of the determined discussions on this site. There will always be someone wanting to offer contention.

So the question must be, when must debate end, and a commitment to action be made? A difficult question, when the answer is really decades ago.

Maybe its best to address this in the terms of the white paper itself, using its own assumptions. The timeframe the report identifies as requiring emissions reduction from clean energy technology is from 2025 on. And it identifies a lead time of 10-15 years to develop a nuclear power capability. Lets give our decision makers the benefit of the doubt at the expense of the planet and say:

Our drop dead date for action is 2015. At that point, we act on the clean energy option that is available to us at that time, no matter what it is.

“Available” must mean we can sign a contract with a supplier on December 31st 2015, pay cash money and build a clean energy generator that we can connect to our grid.

It must be at a scale that moves the needle on our CO2 emissions – no 50 MW technology demonstrations please. The resulting grid must meet an acceptable level of service (reliability). And the cost must be viable.

So the trick is to get the government to commit to buy, say, 1 GW of clean energy in 2015, without specifying the technology. If solar thermal fits the bill, so be it. If not there’s always the nuclear contingency if it doesn’t. But a commitment of this sort would put a desperately needed closure date on the debate.

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@John Morgan

So the trick is to get the government to commit to buy, say, 1 GW of clean energy in 2015, without specifying the technology.

Also need to specify what “clean” is. Less than 100 grams CO2/kWh perhaps? This is not only a question of emissions reduction (eg coal to gas), most importantly it’s a question of genuinely low emission technology.

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Peter Lang, I don’t think the debate will ever end, as a debate. (Are we in a debate? Do we need a political leader to fire the starting gun? If we weren’t before, I think Martin Ferguson just pulled the trigger.)

We know that this debate will run forever. I’m looking for a way to short circuit that “debate” by asking, when must we make a decision?

A subtle point about the White Paper’s separated nuclear policy box is that it shares the same assumptions as the rest of the document. Its not as if the nuclear policy is offered in case other assumptions are wrong, or other arguments are invalid. It sits comfortably within the logical framework of the document. It is correct in itself and consistent with the rest of the document.

Nuclear power is separated from the rest of the document by a line of ink on a page, not by substantive reasons. The insubstantial reason it is separate is because “the Gillard Government unambiguously does not support the use of nuclear energy in Australia”. And this is an axiomatic input, not a derived position, which sits uncomfortably with the rest of the text.

Therefore I think the White Paper can be challenged on its own logic. In fact, I’m pretty sure that is what the Minister wants to happen.

At the point in time where events overtake talk, I think your methodology is a good one for determining technology pathways for the future.

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An excellent reading of the Minister’s intent with this White Paper comes from Katherine Murphy of The Age. A choice quote:

When you put a concrete, near-term timeframe on potential nuclear power generation, it sounds less like contingency planning and more like a road map.

And the strategy?

Ferguson’s intention is clear – fresh from his victory persuading the PM and the Labor conference on the merits of uranium exports to India (another banned policy), he’s not in the business of closing off any options. He is a realist on nuclear power.

And just as it was for Howard, putting a price on carbon is the policy game-changer that makes nuclear – once too expensive to contemplate – economically viable down the track ..

Ferguson chose to delay the white paper until the government sorted out the detail of the clean energy package. Now, the country can have a debate.

Listen. What you hear is a call to arms.

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John Morgan @ 14 December 2011 at 10:03 PM

I don’t understand your reply to my comment. Perhaps you misunderstood my comment? The word “debate” was in the quote from your comment – the second sentence of your comment at 14 December 2011 at 4:14 PM. I used it as the question you wanted answered and then offered some suggestions to address it.

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I notice Ferguson kept his job in the ministerial reshuffle, having had the same job since being appointed by Rudd. I think Ferguson had his fingers burnt with CCS and geothermal. I understand those boondoggles got hundreds of millions of dollars of Federal help under his watch with so far nothing to show. I seem to recall Ferguson arguing the case for gas as a partial oil import replacement but that is downplayed in this white paper.

It must be strange being an energy minister. One day solar lobbyists want more subsidies the next day the lobbyists for the nuclear industry just want their industry to be legal.

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@Tom Blees, on 15 December 2011 at 11:29 AM:

Electricity privatisation can be a good thing, provided that it is done correctly. The first thing is to recognise that an electricity market does not function like a normal free market – it must have a guaranteed supply to meet demand – there is no option to simply not contribute any power if a generator is allowed to operate as a scheduled generator. The other issue is that ancillary services like frequency control, reactive power management and voltage regulation need to be provided, where as a free market would not necessarily be bale to provide these services effectively.

I would suggest therefore that privatisation similar to what has happened in Australia and in particular Victoria is the way to go if it is to be pursued. Private companies own, construct and manage assets, but the ‘market’ is managed by an independent operator that also handles some long-term planning functions.
In addition, there is a separate, government regulator to enforce rules. This means that an Enron-style event is much less likely to occur- there is a significant amount of oversight within the National Electricity Market. Enron was allowed to do what it did because the deregulation was poorly done – no long-term contracts could be made and retail prices were semi-fixed under the California system. See: http://en.wikipedia.org/wiki/California_electricity_crisis

However, I am still of the view that privatisation is unnecessary for electricity grids, and can be a detriment to long term planning (which is sorely needed at present with the need to decarbonise electricity generation) without government intervention.

However, freeing up capital for governments by selling off these assets is rather enticing for some politicians, particularly in times of fiscal restraint. If a market is well operated there are much fewer problems – as with most of these things, the devil is in the detail.

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Let’s be realistic. Many people are not yet persuaded that GHG emissions, or indeed a small increase in mean global temperature, is a major problem. Their main concerns are:

1. energy security
2. energy reliability
3. energy quality (voltage and frequency)
4. low cost energy
5. health consequences of energy production, distribution and use

Therefore, to meet the requirements of these people and also meet the requirements of those who want to deep cuts to GHG emissions, we need to implement energy supply that meets both requirements.

To do that we need to remove the impediments that are making low emissions electricity generation higher cost than fossil fuels. In practical terms what this really means is we need to remove the impediments to low cost nuclear.

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Will, while the caveats you offer about successful privatisation have their merits, ultimately it’s somewhat academic since you too see that privatisation is not only unnecessary but possibly (I would say certainly) detrimental. Freeing up capital by selling off publicly-owned assets is a temptation for many governments, as we’ve seen all too often in the USA, “particularly in times of fiscal restraint,” as you say. Meaning that when cities or states are having trouble meeting their budgets they try to take the easy way out by heading to the pawn shop. States have sold highway systems (toll roads, with ever-rising tolls), cities have sold their parking meters, water systems, etc. In most cases it’s been either a mostly negative experience or a complete fiasco. In every case the citizens got screwed. They paid for the infrastructure up front with their taxes and were now benefitting from its utilization, only to have their leaders agree to their long-term exploitation for short-term political gain. So why sell out and then have to create a separate regulatory structure that you HOPE will keep the new owners from screwing everyone too badly? This is free market lunacy.

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That figure 6 graph in the post above: Note that it shows nuclear as being the vast majority of baseload backup in 2045. Since no actual experience to date has demonstrated even a glimmer of hope that wind and solar can act as baseload (in long calm periods in winter), does that mean that we’d have sufficient nuclear power to meet peak demand? If so, and if that nuclear is predominantly IFRs (with essentially free fuel), then I would submit that the green portion (wind and solar) will be a fraction of what it shows there, simply because it will be unnecessary. With peak capacity being about 3X average demand, why muck about with wind and solar if you’ve got free fuel for your 24/7 peak capacity nuclear system?

There are many many graphs of future energy supply that hopefully (for all our sakes) will be proven laughably wrong come 2040 or 2050. They come from the IEA, the OECD, national governments, etc. Virtually none reflect the game changing nature of modular economical nuclear power systems.

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Tom Blees,

Low-cost modular nuclear power will then be demonstrated in a way that will be mighty hard to ignore.

We’ve been “IFing” like this for at least 20 years. But we still show no interest in trying to define what are the impediments to low cost nuclear in Australia – like investor risk premium for example.

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Peter, I arrived at the 2015 date by backing out what the white paper implies we need to do. If I started by asking how soon we could consider nuclear, I might arrive at your 2021 date. Therein lies the cognitive, and credibility, gap with this white paper.

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John I fully agree with you (and the EWP).

Unlike other countries, Australia does not need nuclear for energy security. We have plenty of coal and gas to last probably well into the next century.

Australia will only ever go nuclear because of GHG emissions. The irony is that the greatest supporter of lowering GHG emissions to 80 per cent below 2000 levels by 2050 is the Greens and they will be the biggest barrier to nuclear – as we see in Germany. This means they will need some convincing that renewables can’t deliver in time or are so expensive that nuclear is clearly a better choice.

We have a long challenge ahead.

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Peter Lang has said:

“We need to figure out why Nuclear is so high cost in Australia”

I think the numbers are wrong on Nuclear in Australia.

Seems to me the Chinese are getting their PV’s from Korea from a company that specializes in huge steel ocean ships and also PV’s (Hitachi??).

Australia and Korea are fairly close so you would have an advantage in that dept because of lower shipping costs. If the report is using US numbers than this would help correct inaccuracies.

Your labor costs are another issue of course.

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From an advocacy point of view, you guys down under need to come up with more concrete, and specific plans. And I would focus directly on the need to phase out coal.

At nuclearinfo.net, the state:

Electrical Power is a fundamental requirement of a modern technology society. Australia has enjoyed cheap and reliable electrical power for many years. However our energy needs are forecast to grow by 2% per year for the next 15 years to 2020. Meeting this demand requires building 1 GW of new generating plants every year until 2020. If Australia does not build this capacity we will suffer large scale blackouts if demand grows as it has historically. Our previous strategy of employing coal-fired Power Stations will increase our Greenhouse Gas emissions which contribute to global warming. Substantial investments in energy efficiency can mitigate this energy growth but it will require aggressive intervention on the part of the Australian Government. The cost of investing in this energy efficiency is comparible to the cost of building state-of-the-art Nuclear Power plants.

Nuclear Power is the cheapest form of non-Greenhouse Gas emitting electrical power production and when used at the world’s Best Practice, supplies safe, cheap and environmentally clean energy

Let’s use this. Not leave it up to the gov’t. Lets propose using currently existing Gen III technology the 1 to 1 replacement of coal with nuclear? Along with a plan to phase in Gen IV reactors.

The key is that this should be gov’t policy not some sort of mythical private investor who can see their way to invest billions wihtout a return on that investment for more than 10 years.

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In a 2005 speech delivered several times, reaching about 2000 people in total, including Engineers Australia [SA Branch], I called for, among other things, Australia to develop two schools of nuclear science/engineering, one at Lucas Heights, the other in Adelaide which I labelled the uranium capital of the world. I suggested that BHPBilliton and the Government might work on it together through a PPP arrangement. I sent a copy of my speech to BHPBilliton and was replied to by Mr Roger Higgins at the request of Mr Chip Goodyear, the then CEO. In the current SACOME journal [Dec2011/Jan2012] I read today that: “The University of Adelaide and BHP Billiton have signed a memorandum of understanding [MOU] to establish a long term education,research and development alliance. Included in this MOU, the university will consider establishing a new chair in nuclear science and engineering. That’s very positive even if it’s taken six years to reach that point.

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And the 1520 MWe GE ESBWR is expected to be certified within a few months, with a 36-month construction schedule.

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(Comment deleted as requested)

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(Deleted attack on Moderator’s decision.)

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(Comment deleted as requested.)

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(Deleted attack on Moderator’s decision)

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I have just been apprised of a most useful unit of measure – the a href=”http://en.wikipedia.org/wiki/Friedman_(unit)”>Friedman unit.

The Friedman unit is defined as the timeframe for “any event or “critical period” which is repeatedly expected to happen in the near future, but repeatedly fails to occur”.

The term derives from

Thomas Friedman’s repeated use of “the next six months” as the period in which, according to Friedman, “we’re going to find out…whether a decent outcome is possible” in the Iraq War. .. Friedman had been making such six-month predictions for a period of two and a half years, on at least fourteen different occasions ..

As different events may be expected to occur in different timeframes, we should perhaps refer to the “Friedman period” for a particular outcome. And the Friedman Index would be the ratio of the actual time for the event to occur to the Friedman period. In the example above Friedman himself sustained a Friedman Index of at least 5 on the Iraq question.

So I could pose my original question as, “what is the Friedman period for developing confidence in a renewables only solution to our energy and climate problems?”

And for extra credit, what is the current value of the Friedman Index for this question?

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Well, my remarks about the Friedman Index certainly put a bee in someone’s bonnet:

http://k.lenz.name/LB/?p=5832

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The term “fossil nukes” is interesting – and as a term of abuse it packs a double punch.

Fossil nukes are probably on the payroll of fossil fuel vendors (as well as living in the past) and certainly nuke supporters (probably including nuclear weapons!). Sounds like the “energy from the desert” debate may be heading for the lowest common denominator.

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http://www.sciencedaily.com/releases/2008/02/080220224901.htm

In a 2008 analysis by director of the UC (U Calif) energy institute, S. Borenstein notes that:

the discounted net present value (a financial tool to calculate the value of a dollar in the future compared to its value now) of power produced by a 10 kilowatt solar photovoltaic system and then compared that to the cost of installing and operating such a system over its lifetime. He found the cost for an installation ranges from nearly $86,000 to $91,000, while the value of the power produced ranges from $19,000 to $51,000.

These costs resemble what I found above.

I figure some of this stuff should go elsewhere but John Morgan posted the Friedman thing and then the eloquent Lenz riposte.

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I’ve looked at the solar data in Germany in the winter.

I’ve routinely found daily CFs of ~ 1 percent.

But according to the Grist article, it’s sooo cheap, that even with shit CF annually, you only spend 700 dollars (factory cost) for the silicon–even if this translates into 8 grand per installed kw with no CF in winter.

To get back to the Friedman, it is clear to me that this solar cost is plummeting meme will not go away and will somehow reconcile the data “right in front of their eyes” with their fantasy. No problem.

and of course that’s the problem.

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And to answer my earlier question, “What is the Friedman Index for renewable energy?”, I’m obliged to observe that many advocates believe that it is already proven and available, and that we can be confident today that they are a pathway to a carbon free society.

Therefore, the Friedman period is zero. This view has also been advanced for some time, Amory Lovins being one concrete example should one be needed. So it follows that the Friedman Index for renewable energy is infinite – divergent, undefined.

We can now identify this as the Friedman Singularity, a point where the normal laws of physics and even causality break down. Forever hidden behind an event horizon from which no information can ever emerge, it may provide a wormhole to an alternate universe, perhaps a better place for those unwilling to engage with our present physical realities.

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As Gregory says the “solar cost is plummeting” meme will not go away easily.

Unfortunately John, if solar became free and we started asking about the cost of storage, the meme would transfer to the cost of storage. This would be fuelled by some reductions in storage costs over time (which are probably inevitable).

History suggests that such cost reductions take much longer than anticipated. Meanwhile, we need to switch to cost competitive low-emission energy ASAP. We know for baseload this is nuclear power – even at the high prices being paid in some locations. The Chinese and Indians seem to understand this even if Lenz’s birthplace doesn’t.

Perhaps we need to start our own nuclear power meme.

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Crikey are running a competition in conjunction with OurSay.org to come up with a question that will be put in Question Time in the Australian Federal House of Representatives by ‘a mystery MP’. I hadn’t checked for a few days, but apparently the question I put up is (as of today) running second. The question I nominated is essentially that posed by John Morgan above, as follows:

My question is to the Minister for Energy. The recent Draft Energy White Paper contained the following statement: “The best case supporting future consideration of nuclear power would be the failure to commercialise new low‐emissions baseload energy or energy storage technologies within the timeframe that economic analysis suggests is necessary to meet long‐term global and national emissions reduction objectives (from 2025 onwards)”. My question to the Minister, then, is: What is that timeframe? How long do renewable energy technologies have to prove themselves capable of supporting a low-carbon energy future for Australia, and what is the standard of that proof?

The idea with OurSay is that you head to http://oursay.org/the-people-s-question and vote for the question put by hitting the ‘agree’ icon. Note you have 7 votes to play with. While the current front-runner is undoubtedly a worthy issue, I nevertheless invite BNC readers to deposit as many votes with my question as they see fit, and see if we can’t get it asked of Martin Ferguson in Federal Parliament.

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