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Nuclear Reactors As Art
Hemos recommends the coverage over at Wired of a project to digitize nuclear reactor art. "Not all nuclear reactors are built alike. Power plant designs can vary in their fuels, coolants, and configurations, a fact beautifully illustrated by a series of reactor wall charts originally published in issues of Nuclear Engineering International during the 1970s and 1980s. Since then, the charts have been lovingly collected by Ronald Knief, a nuclear engineer at Sandia National Laboratory. Recently, he completed his collection... and began to digitize the drawings. The first eight out of more than 100 have now been permanently archived online... 'This is not a CAD/CAM-type thing,' Knief said. 'This really is art.'"
I like "Smilin' Joe Fission" - now that's art!
For you electronics geeks out there who are into this kind of thing and want some cool posters to decorate your thinking space, There's this, this, , and this which are all made by Synthesys Reasearch. They will send you a poster for free if you ask.
Oh no, he's helping the terrorists by showing them what a reactor looks like and how it works. The Iranian people can use that to build 100billion teratons of nukes to kill stuff. Hang him.
I wonder if he has a diagram of our favorite graphite-modulated open-roof model reactor. Oh wait... the open roof now has a concrete sarcophagus over it. My bad.
Wired copied this story from io9, who originally brought attention to this blog 4 days ago.
http://io9.com/5429963/know-your-nuclear-reactors-with-illustrated-wall-charts/
Lorem ipsum dolor sit amet, consectetuer adipiscing elit.
If you consider this art, chances are you were the kid that always got the cross-section books from the library in elementary school too. Good times indeed...
reminds me of her.
http://www.panoramio.com/photo/17343737
Hard-core. Lead-lined.
Is anyone else a bit frightened that the Guangdong plant picture shows what looks to be simple trusses and corrugated aluminum siding over the turbine section, where others use poured concrete and I-beams?
Did they skimp on anything else, I wonder?
Contrary to popular belief, life is not a bitch. It is far far worse.
I give this a glowing review.
When it comes to the old glow-in-the-dark I want there to be Science, real Science!
Sure, inspiration is a boon but there has to be some serious number crunching afterwards.
If God forks the Universe every time you roll a die, he'd better have a damned good memory.
two things... Why the Missile Shield only covered the top.
:( to come online... 1972 was the date in "Our Friend, the Atom", a comic book produced to educate the youth like me.
My dad worked in Nuclear Fuel Supply, and I learned how arduous the process can be, and lengthy. But I also waited with bated breath for the Midland plant
And even then, I wondered... Why they don't make them essentially the same... like the Saturn V. I still wonder.
I also wonder how many anti-nuke activists are wishing that they'd kept their mouths shut and given us a fighting chance with carbon emissions. Or how many are driving SUVs.
I think I just found what will be (part of) the setting of my next tabletop RP campaign.
I used to love these style of drawings in Reader Digest's Book's. About space pods, or sea pods. When I was small, I would imagine myself in one of these and float around. I used to make lego models of them. Am I sick, pedobear?
Starglider29a asked why they is a lack of uniformity. In the US at least there was no standard design. Each was basically as "one off" because the company that won the contract changed from reactor to reactor. A low bid contract method. This meant each reactor was a "one off".
My understanding is that in France the government commissioned a standard design which it then licensed out. This had some benefits:
1) The design allowed better project management. Everyone knew what needed to be done. This made estimation of effort easier.
2) Due to point #1, each company had a better idea of it took to build a reactor and bid accordingly.
This also helped the costs to be budgeted.
3) Lessons learned from one reactor can be incorporated into the newer, yet to be built, reactors. It is also easier to retrofit older reactors with lessons learned. In short, incremental improvement.
4) Related to pint 3, it is easier to QA a standard design. You know what to expect and if the expectations are not met something is wrong.
Making every reactor a "one off" is crazy. I googled +ISO +"nuclear reactor design" and came up without a comprehensive spec. Having a standard might be a good idea.
putting the 'B' in LGBTQ+
What might be another example of "Reactor Art", or at least "Nuclear Fuel Cycle" art, is the AREVA Funky Town ad:
http://www.youtube.com/watch?v=GgZsamFWyBI
More broadly, Royskopp used this sort of "Engineering Diagram art" in their "Remind Me" video:
http://www.youtube.com/watch?v=lBvaHZIrt0o
Both were done by the same company, H5
The Fulton plant shows two HTGR's. Alas HTGR construction ended with the Ft St Vrain plant in Colorado, so the Fulton plant was not built.
A Shadeless room is a brighter room.
While nucleate boiling does occur in pressurized water reactors, they are referred to as "Pressurized Water Reactors" or PWRs while reactors that employ lower pressure single coolant loops where steam is generated directly from the bulk-boiling of the coolant are referred to as "Boiling Water Reactors" or BWRs. While this might not seem to be a clear separation, among nuclear engineers it is almost universally understood what one means by BWR as opposed to a PWR. A nuclear engineer, nor most people even remotely associated with nuclear power and reactors, would refer to a PWR as a "boiling water reactor" as that would give the impression that they were talking about a very different reactor design and probably make them look foolish. Still, we tend to do it accidentally from time to time.
Also, departure from nucleate boiling is a term that is mostly referred to with regards to PWRs as opposed to BWRs. In a BWR, normal operation requires you move well past nucleate boiling. If you did not then the you would run into a lot of problems. Since the steam that is meant to pass through the turbines is that which is generated by boiling the water flowing through the reactor, you are going to have difficulty producing sufficient steam volume with only nucleate boiling. You also want to get a much higher exit quality (percent steam) in your center channel than you could through nucleate boiling. These two things are important to produce power efficiently and to protect the steam turbines. While steam dryers and separators can do a great job with 10+% saturated steam, but high velocity flows of "wetter" steam could overwhelm them and allow excessive amounts of water droplets into the turbines. Too many water droplets in the turbines equals multi-million dollar blade replacements much sooner. This is why departure from nucleate boiling is not really mentioned much when discussing BWRs. While the transition through the appropriate boiling regimes must be considered when calculating the thermal profile of a reactor, the phrase just doesn't come up. What it is used for is in the discussion of safety limits and accident conditions for PWRs. The maximum DNBR (departure from nuclear boiling ratio) is one of the key thermal limits one imposes on the operation of PWR. It is not however an item of concern when setting those limits for a BWR.
I can't believe that there's no Chernobyl reactor as art! I think that in its current state it has a very Dali-melted-watch look to it with a bit of Picasso thrown in.
The Overrated mod is for reversing inappropriate, positive mods, not for voicing disagreement with a post.
But I didn't see any links to a project where I could really look at the digitized images. Am I just missing something? Will these eventually end up on wikipedia or something like that?
“Common sense is not so common.” — Voltaire
Thank you very much. Resized JPegs of schematics where you can't read the print are just irritating. What you provided was much better than the Wired article.
These posts express my own personal views, not those of my employer
Isn't this one of those things which, while not difficult to acquire with greased palms, might be best kept low-key? No, they're not blueprints. But the information certainly poses
Kinda along the lines of why the NSA doesn't have network diagrams of their internal networks made available - even if they're just illustrated with cute penguins, flying Windows, and hostnames.
~/ssh slashdot.org ssh: connect to host slashdot.org port 22: too many beers
Most of this was published a long time ago. It has been available information in any major university library for decades. There's no turning back.
please call
This reminds me of a recent feature in The Guardian, which calls for the preservation of a nuclear power plant in Snowdonia, Wales since it was designed by the British modernist architect Sir Basil Spence. Linky.
This is why Nuke plants are so expensive. Each plant is a one off.
Better to have one, or just a few designs, approved and immunized against lawsuits challenging their safety. Components could then be manufactured in factories, providing better quality control and reduced costs.
They could even save costs on the posters!
When Fascism comes to America, it will call itself Anti-Fascism, and tell you to give up your guns.
Here you go http://en.wikipedia.org/wiki/BWR#List_of_BWRs
Time for a little Tom Lehrer - Who's Next. http://www.youtube.com/watch?v=oRLON3ddZIw