Tag Archives: nuclear-power

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Hybrid fusion-fission energy generation a possibility

danceWe haven’t had too much luck creating energy-producing fusion reactors, but according to researchers at the University of Texas there is a possibility of creating hybrid between a traditional nuclear fission and a fusion reactor, a sort of fusion of the two ideas, to ameliorate the problems of fission:

“Most people cite nuclear waste as the main reason they oppose nuclear fission as a source of power,” says Swadesh Mahajan, senior research scientist.

The scientists propose destroying the waste using a fusion-fission hybrid reactor, the centerpiece of which is a high power Compact Fusion Neutron Source (CFNS) made possible by a crucial invention.

One hybrid would be needed to destroy the waste produced by 10 to 15 LWRs.

99% of the really dangerous transuranic waste from the first part of the cycle is consumed in the following part, so that overall the output is less harmful and remains so for less time.

[from Physorg][image from tanakawho on flickr]

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Integral Fast Reactor technology

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nuclear_powerReading about an interesting form of nuclear power here, concerning this upcoming book. The Integral Fast Reactor design uses liquid sodium instead of water as the coolant, is passively safe, and addresses many of the concerns about nuclear proliferation, efficiency, and (in part) the long-term storage problems that beset nuclear power. From this interesting FAQ on IFR by proponent George S Stanford:

[The reactors] use liquid sodium for cooling and heat transfer, which makes the system intrinsically safer than one that uses water. That is because the molten sodium runs at atmospheric pressure, which means that there is no internal pressure to cause the type of accident that has to be carefully designed against in an LWR: a massive pipe rupture followed by “blowdown” of the coolant.

Also, sodium is not corrosive like water is.

There is a downside as well: sodium burns in air and reacts with water. As ever with nuclear technology, it seems there are downsides. However I (along with environmentalist George Monbiot) am getting the feeling that nuclear has to be part of the solution to the problems of anthropogenic climate change and peak oil.

[via The Yorkshire Ranter][image from mandj98 on flickr]

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Wind and solar better than nuclear or clean coal

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Prof Mark Jacobson of the University of Stanford believes that (for the USA) the best solution to the various problems of energy security, peak oil, and global warming lies in wind and solar thermal power:

The raw energy sources that Jacobson found to be the most promising are, in order, wind, concentrated solar (the use of mirrors to heat a fluid), geothermal, tidal, solar photovoltaics (rooftop solar panels), wave and hydroelectric.

In Prof Jacobson’s research paper he looks at how you could power every road vehicle in the USA using different methods and finds the best combination is wind power and electric battery vehicles.

[at Physorg][image from kevindooley on flickr]

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Hydrogen Dreams

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One of my bugbears is the constant implication in the popular press that the twin problems of anthropogenic global warming and peak oil will be solved by the mythical “hydrogen economy.”

Take this article in The Guardian newspaper:

The main fuels used in history form a nearly exact sequence, from ones having hydrogen_carless hydrogen to ones having more. Wood and charcoal were the earliest fuels, and have only a little hydrogen. Much of their burning is wasted in pouring out great gusts of carbon, which was needed to build up the tree from which the wood came, but doesn’t do much for the user burning that wood.

Coal has more hydrogen, and its burning can be cleaner. Oil – which dominated next – has yet more hydrogen per unit of carbon; natural gas has even more, and its burning is the cleanest and most efficient of them all. The trend line points pretty strongly to a pure hydrogen economy – but when that will occur is in the hands not of the scientists, but our wise political masters.

Hydrogen fuel cells have some promise as an energy storage medium, but you still need a source of energy in the first place: much of the commercial hydrogen produced today is actually produced from natural gas in a process which still produces carbon dioxide emissions.

Alternative methods using biological extraction have proven successful – but they still don’t tackle the nuclearfundamental problem of where the energy to extract the hydrogen comes from. With oil running out and our current industrial infrastructure reliant on dumping stored carbon dioxide into the atmosphere this is the problem that needs to be solved.

And if the basic problem is getting energy, wouldn’t it be better to concentrate on that and, once this problem is solved, use this source of hydrogen-producing energy to produce petroleum via the Fischer-Tropsch process and save £X trillions by avoiding upgrading our entire transport infrastructure to use hydrogen tanks and fuel cells?

My conclusion: every penny of research currently being poured into the hydrogen economy should be diverted into developing cleaner nuclear fission and synthetic petroleum fuel combined with hybrid electric-petrol vehicles.

Monday rant over.

[main article from The Guardian][other articles from PhysOrg][images from felixmolter and gavindjharper]

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The importance of infrastructure

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electricity-pylon-sunset It’s easy to forget how reliant we are on our technologies … until we are unexpectedly deprived of the means to use them, that is.

Deprived by … oooh, let’s say, an electricity grid fault that leads to an automatic shutdown at a nuclear power station and leaves a big chunk of Florida completely blacked out for an evening? [image by dogfrog]

[As a side note, I never knew that nuclear reactors could just be switched off. Disconnected from the grid, sure, but switched off?]

And that’s just one little hardware failure, hence quickly fixed. But imagine for a moment another highly electricity-dependent country, like the UK for example, being hit by some sort of environmental disaster to which it isn’t accustomed, which causes a large number of grid hardware problems which are hard to trace and fix in the absence of the electricity they provide …

… I think we have a potential cookie-cutter techno-thriller movie plot, folks! Now, who shall we cast as the plucky Prime Minister?