Open Thread 3

I wrote this in an email to someone els this morning so I’ll post it here. Hopefully, someone might pick it up and develop it further.

“What I would like is a list of the unfair imposts on nuclear power, and what is the cost of them.

Off the top of my head here are a few:

1. Nuclear is some 10 to 100 times safer than coal per kWh, yet we demand ever more safety from nuclear and accept coal as it is. Why don’t we simply demand the same level of safety from nuclear as coal gives us? After all, we already accept the level of safety of coal because we recognise the enormous benefits of low cost electricity to society?

2. We subsidise wind by $65/MWh (correct me if I have that figure wrong) and solar PV by about a factor of 12, yet we ban nuclear. This is a case of governments picking winners; it must be just about the worst case ever.

3. Our government subsidises CCS yet balks at any contribution to assist nuclear to get started in Australia. A government contribution is essential to send the message to investors that the government also has some interest in the success of establishing nuclear here. Without some significant government involvement (such as loan guarantees) we are not going to go anywhere with nuclear in Australia (while the unlevel playing field remains in place).

4. The government has stated it will accept all the risk of leakage for CCS, but places ridiculous requirements on the storage of once-used nuclear fuel (i.e. fuel that has had only 1% to 10% of the useable energy actually used so far).

5. We don’t require any other generator technology to manage its waste and emissions (to water, air and land) to the same extent as we do for nuclear.

6. We require that a nuclear power plant must be able to withstand the highest possible earthquake and must be able to withstand impact from a fully loaded jet liner, yet we don’t require the same of all the tanks containing highly poisonous gasses that are located throughout our cities. And whereas a nuclear accident may cause a small number of early fatalities, toxic chemicals kill manny immediately. Chernobyl 31 immediate deaths, Bhopal, 6000. Many other examples. “Ah, but what about the latent fatalaties?”, I hear some scream at me. Chernobyl: projected 4000 early deaths in a population of 200 million over 70 years. That is an almost unmeasurably low rate of early deaths when compared with the early deaths from all the chemicals we emit to the environment from all our industries.

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Click to access NC-Wind-Solar.pdf

“The annual utility load was taken to be 90 billion kWh, a somewhat
more energy-efficient version of the present 125 billion kWh load … The reductions were based on the author’s data set of measured energy use in more than one hundred North Carolina homes.”

So presumably there is no industry in North Carolina? Only residential homes.

Oh, wait. Let me Google that for you, http://tinyurl.com/ybvlmfu

160 aerospace and aviation companies
160 motor vehicle parts companies
520 bioscience companies
1700 banking and finance firms
3000 IT companies
1500 textile complex facilities

Here John Blackburn, let me give you a leg-up http://tinyurl.com/leg-up

Quit lying to us!

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One more thing, 125 / 90 = 38.8% not 30%. Energy efficiency gains of 40%!

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Yeah, sorry, got that upside down. Just realised as I was riding to work it’d be the other way round and 28%. Oops. Can see why I never went to Uni.

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north carolina’s total power consumption is roughly 827 billion kwh (299 milion btu/person times 9.4 million divided by 3.41 million btus to get unit of 1000 kwhs). I think I did the math right.

presumably, we want to electrify most of this. it puts the ieer plan into perspective, which claims to budget for 90,000 billion kwhs.

That said, I don’t think the ieer piece (I have not finished it yet) takes into consideration overbuild or transmission line changes, etc. does it, alastair? (will answer my own question in time but perhaps you can save me work!)

it means to show that the basepower argument is wrong.

so it just “scales up” wind and solar based on insolation and wind data. does it look at capacity factor? if solar is to provide around 40 percent of electricity consumption (a little more than 4 gigawatts of energy given the grandiose efficiency improvements), does that mean 20 gigawatts installed capacity etc?

20 percent cf would be optimistic given that much pv use in this plan would be residential. doesn’t mackay say that affordable solar now has much lower cf?

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question for barry and peter etc:

the north carolina ieer report has this footnote, referring to Jacobson:

The authors studied hourly wind generation data
from 19 separated wind farm sites in the Midwest. Among their significant findings they noted that wind energy had a base-load equivalent of 33% to 47% as compared to coal plants. That is, in 87% of the year’s
hours (the operating hours of baseload coal plants) wind plants together were generating 33% to 47% of their average output. Another study is Troy Simonson and Bradley Stevens, Regional Wind Energy Analysis for
the Central United States, Energy and Environmental Research Center, Grand Forks, North Dakota. Ms. Hansen, cited in note 7, found the same effect in her study of three sites for North Carolina.

The note reminds me of course of the study here made of Jacobson.

can someone translate? is this 33 to 47 % of average output referring to the average output of the wind farms or the coal plant? The reference of “their” is not clear. or is this number 33 etc percent of the capacity factor?

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V2G:

people here have commented periodically on V2G scenarios.

does anyone have some links where these scenarios are critically analyzed?

the problems here would be partly analogous to the problems of having to divert renewable energy to any kind of storage, right? and then there would be both large scale coordination problems (how to get enough cars to be storing instead of driving at the right times) and price: I never understood the idea that our plug in hybrids could be charged off peak, drawing on excess wind power at night. wouldn’t millions of cars charging at once cause a power problem? like, during hot summer nights? plus, if millions of cars are charging at once, would not off peak then become peak?

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I’m going to try and parse Blackburn’s paraphrase of Jacobson. You folks in AU are probably sleeping (what’s the time difference?)

if “their average output” refers to wind capacity factor, then following barry, that gives us 33 % to 47 % of 35% (optimistic wind cf) operating 87 percent of the time.

the thing is, if I’m correct in parsing B’s paraphrase, isn’t it highly disingenuous for Blackburn to omit capacity factor? You might have 33-47 percent of dispersed wind functioning as base power, but it’s not a lot of power. 14-16 percent of nameplate. while B expects to get about 4 GW from wind, he never says what his wind’s nameplate is.

If we apply Jacobson’s numbers (run thru barry) to the N.C. situation, with .35 CF, Blackburn’s nameplate would be 11.43 GW, 14-16 percent of which he’d get as baseload equivalent: about 1.7 GW.

okay my energy tutors. does this make sense?

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http://depletedcranium.com/why-vehicle-to-grid-is-a-horrible-idea/

following your advice, DV, I googled “vehicle to grid scam” and found a really nice entry by depleted cranium.

g

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@heavyweather0 – Yet again this is more of an Anything-but Nuclear ‘solution’.

There is no mode of transport more able to adapt to small modular nuclear power than big ships. Sealed units that only need refueling every 30 year, not only are available now, but collectively have over a million hours and more of operation at sea with several navies.

If windjammers were so good, why did the shipping industry abandon them for steam?

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Ships do not need to go fast btw.
Actually the are building/designing diesel engines to go slow now because shipping companys like to operate them slow but keep all ships at sea even when there is less demand.

Yes, but the reason they’re building slower, low-power ships is for economy in the face of high fuel prices. If they went nuclear, that would no longer be an issue. In fact, they could probably be designed to go a bit faster than the ~25 knot standard set when the fuel was cheaper.

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Hello everyone. I’ve been away for two weeks including from my computer, which I can’t use very well anyway. Very interesting catching up on this blog however. Uncle Pete – I have a car sticker now three years old which states “BE COOL WITH NUCLEAR” Barry, you’re right. We need to ignore ATC and the other anti nukes for that matter [Diesendorf, Noonan etc]. They persist in recycling 40 year old objections to nuclear power even while most countries are going “hell for leather” in developing or increasing it. On the cost comparisons of steel/concrete for wind and nuclear I note that steel rebar gets a mention. Is that the same steel rebar that was used in a huge block of apartments in Taiwan about 15 years ago? It contains Cobalt60 and that’s radioactive. It scared the hell out of the Taiwan authorities when they discovered that fact and so they set about checking the effects of the additional radiation on the residents of the apartments. Surprise, surprise. Those people had a lower incidence of cardio-vascular disease and cancer than the general population and there were fewer childhood abnormalities noted as well. Admittedly it was only a small sample [about 10,000 tested]. But scientists conducting the study concluded that low level chronic radiation seemed to act like an immunisation. Other similar studies, especially the Nuclear Shipyard Workers Study carried out by the US Dept of Health in association with Johns Hopkins University discovered similar results and in a huge sample of nuclear workers [27,000] compared with 31,000 controls. The conclusions indicated that the low level radiation exposure of the workers contributed to DNA repair and stimulation of the immune system. These findings contributed to Prof Paul Davies writing in the Adelaide Advertiser in 1998 that ” the effects of radiation have always been ludicrously exaggerated”
I’ve been to the Lucas Heights facility [three years ago] and I also visited the Chalk River nuclear research facility in Ontario in 1981. That’s one of the reasons I converted from an anti to a pro position on nuclear power. Most rational people change their minds when they know the facts. Not Diesendorf, Noonan etc though. We must not let them dictate our future energy policy. Cheers guys.

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Terry Krieg, are you able to provide links to those studies? I’d really like to see.

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Just came across this page on the IFR:

http://www.appropedia.org/Integral_fast_reactor

This is a really clearly written and referenced description of the entire technology stack – a great all-in-one-place what-its-all-about write up.

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I’m under the impression that the ANSTO/OPAL tour is locked in for 31/03. This is my working assumption as I check with my colleagues on potential attendance.

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I BEG (Peter Lang: if you help me out, I’ll never raise non energy issues again) someone to help me out with the following. I really need the information. The IEER author of the recent piece on North Carolina cites Jacobson’s wind studies as a model. The author says:

The authors studied hourly wind generation data from 19 separated wind farm sites in the Midwest. Among their significant findings they noted that wind energy had a base-load equivalent of 33% to 47% as compared to coal plants. That is, in 87% of the year’s hours (the operating hours of baseload coal plants) wind plants together were generating 33% to 47% of their average output. Another study is Troy Simonson and Bradley Stevens, Regional Wind Energy Analysis for the Central United States, Energy and Environmental Research Center, Grand Forks, North Dakota. Ms. Hansen, cited in note 7, found the same effect in her study of three sites for North Carolina.

Now I don’t know if this is the exact study Barry critiqued, but it’s similar enough. Blackburn’s language is slightly different and so I was wondering whether he meant what Jacobson meant (based on your parsing).

If “their average output” refers to wind capacity factor, then following barry, that gives us 33 % to 47 % of 35% (optimistic wind cf) operating 87 percent of the time. You might have 33-47 percent of average wind output as base power, but it’s not a lot of power. 14-16 percent of nameplate. While Blackburn expects to get about 4 GW from wind, he never says what his wind’s nameplate is.

If we apply Jacobson’s numbers (run thru barry) to the N.C. situation, with .35 CF, Blackburn’s nameplate would be 11.43 GW, 14-16 percent of which he’d get as baseload equivalent: about 1.7 GW.

Or: does 33-47% of average output refer to the average output of the coal plants? (not too clear to the layman from the quote) that would be an entirely different number. For every GW of coal, .33-.47 gw of wind?

Such a number would be much more favorable to IEER case and I wonder if he misreads Jacobson.

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heavyweather, if we can’t afford to build the nukes, we can’t afford to build the more expensive renewable alternatives. There’s unlikely to be a mix of a cheaper solution which works with more expensive ‘solutions’ which don’t.

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Adam B,
Sorry Adam. Can’t send links to the studies but if you give me your postal address I’ll send you some hard copy stuff which may help.Cheers

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This site contains a wealth of indofmation on radiation hormesis:

http://a-place-to-stand.blogspot.com/search/label/Hormesis

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Hi Finrod, Peter Lang, and anyone else interested in touring ANSTO on Wed 31st March (next week),

Can you please email me at john.d.p.morgan at gmail.com ?

I will need to get the following ID details from you this week in order to book in:

Anyone UNDER 18 Years of AGE: Name, Address and AGE ONLY.

Anyone OVER 18 years of AGE: Name, Address and either a Driver’s Licence, Passport or RTA Proof of Age Card. If the tour participant is OVER 60 years of age and does not have any of the previous 3 forms of identification, a Pension Card No. will be accepted.

Finrod, please pass that on to your friends. I’ll probably bring some colleagues along too.

I’m awaiting confirmation that the programme will run through10:30-13:45. ANSTO have kindly offered to shout us lunch, too.

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“I’ll quote the author’s conclusions here….”

The usual ‘anything but nuclear’ list that betrays the real agenda of the author.

Note that in points 2&8 it is implied that there needs to be bridging with carbon-based fuels. Where have we heard this line before?

The usual sop to energy efficiency without any real indication just how this can happen.

Brine does not make a good working fluid for pumped storage hydro unless you are a glutton for punishment.

“A comprehensive modelling approach could be used to minimise the cost rather than the current piecemeal, politically based, ad hoc system.” Just buzzing that means absolutely nothing when you examine it up close.

Name dropping biofuels while describing a synfuel process, because ‘bio’ is more PC than ‘syn’ these days.

Jesus weeps

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It sounds like Nottingham should look into Kitegen.

Floating 230m diameter turbines vs. floating 150-500m² kites.
The kites would still be cheaper and need less storage.

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John Lennon’s Opinion on Over Population.

The problem of balance also applies to energy.

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Come to think of it, after watching Heavywheather’s linked video, it’s not clear what Lennon actually meant by ‘balance’ in relation to population growth anyway.

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