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Russia Built A Floating Nuclear Power Plant, what could go wrong

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posted on Aug, 6 2019 @ 09:32 AM
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www.newsweek.com... Many of you have been following this, wondering the risk. And this time Alaska would be in close proximity. It would open a whole world of exploration making previously hostile environments accessible, providing heat and electricity. Chernobyl is still fairly fresh in the memory of many, and at this point is decaying with no solution in sight beyond quarantine. Fukushima is still raging.. how much more interesting can it get ? Kim's missiles, Iran's "Mother of all wars", Venezuela, China.

Makes me glad to have been born halfway through the last century. It's the kids I worry about, perhaps there will be a Renaissance of thinking, or God help us, our future could be bleak.



posted on Aug, 6 2019 @ 09:54 AM
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a reply to: Plotus




It would open a whole world of exploration making previously hostile environments accessible, providing heat and electricity.


That's quite an inspiring thought . There are nuclear powered ships and subs these days , so let it roll .

As for Fukishima , and Kitahara along the coast , I'm no entirely convinced as yet that both sites haven't been entirely bulldozed after the explosion-s from nuclear fission , which no one got to see on the news , and which were quickly eradicated from yt
edit on 6-8-2019 by FieldMarshalMatt because: (no reason given)



posted on Aug, 6 2019 @ 09:56 AM
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With a population of 7.7 billion a good old fashioned nuclear war may be just what we need, to reset the planet. A quick cure for global warming.



posted on Aug, 6 2019 @ 09:57 AM
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a reply to: Plotus

Yeah, it's not like the Russians have ever had a floating nuclear reactor before.
Except for a crap load of their navy...

Now admittedly the Russians do some stupid # with their nuke programs but this is nothing out of the ordinary and being in the water greatly reduces the chances of a meltdown.



posted on Aug, 6 2019 @ 09:58 AM
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The nuclear sub power plant setup is fairly homogeneous and is in fact the reason this setup will succeed.

Thanks a lot, Rickover.



posted on Aug, 6 2019 @ 10:00 AM
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a reply to: FieldMarshalMatt


Nuclear reactors are not capable of nuclear explosion. The fuel has not been refined to high enough purity to obtain critical mass.



posted on Aug, 6 2019 @ 10:28 AM
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a reply to: Bluntone22m

That’s true. The explosions are hydrogen but the strontium and cesium is legit.



posted on Aug, 6 2019 @ 10:34 AM
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originally posted by: Nickn3
With a population of 7.7 billion a good old fashioned nuclear war may be just what we need, to reset the planet. A quick cure for global warming.


Lmao dark.

Id prefer an asteroid.



posted on Aug, 6 2019 @ 10:37 AM
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This isn't made by the same company that made their floating drydock is it?



posted on Aug, 6 2019 @ 11:25 AM
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a reply to: Bluntone22

I'm not so sure it can be that black and white ie wiki page on chernobyl explosions :

Explosions
As the scram was starting, the reactor output jumped to around 30,000 MW thermal, ten times its normal operational output, the indicated last reading on the power meter on the control panel. Some estimate the power spike may have gone ten times higher than that. It was not possible to reconstruct the precise sequence of the processes that led to the destruction of the reactor and the power unit building, but a steam explosion, like the explosion of a steam boiler from excess vapour pressure, appears to have been the next event. There is a general understanding that it was explosive steam pressure from the damaged fuel channels escaping into the reactor's exterior cooling structure that caused the explosion that destroyed the reactor casing, tearing off and blasting the upper plate, to which the entire reactor assembly is fastened, through the roof of the reactor building. This is believed to be the first explosion that many heard.[46]:366

This explosion ruptured further fuel channels, as well as severing most of the coolant lines feeding the reactor chamber, and as a result, the remaining coolant flashed to steam and escaped the reactor core. The total water loss in combination with a high positive void coefficient further increased the reactor's thermal power.

A second, more powerful explosion occurred about two or three seconds after the first; this explosion dispersed the damaged core and effectively terminated the nuclear chain reaction. This explosion also compromised more of the reactor containment vessel and ejected hot lumps of graphite moderator. The ejected graphite and the demolished channels still in the remains of the reactor vessel caught fire on exposure to air, greatly contributing to the spread of radioactive fallout and the contamination of outlying areas.[31][d]

According to observers outside Unit 4, burning lumps of material and sparks shot into the air above the reactor. Some of them fell onto the roof of the machine hall and started a fire. About 25 percent of the red-hot graphite blocks and overheated material from the fuel channels was ejected. Parts of the graphite blocks and fuel channels were out of the reactor building. As a result of the damage to the building an airflow through the core was established by the high temperature of the core. The air ignited the hot graphite and started a graphite fire.[27]:32

After the larger explosion, a number of employees at the power station went outside to get a clearer view of the extent of the damage. One such survivor, Alexander Yuvchenko, recounts that once he stepped outside and looked up towards the reactor hall, he saw a "very beautiful" laser-like beam of blue light caused by the ionized-air glow that appeared to "flood up into infinity".[49][50][51]

There were initially several hypotheses about the nature of the second explosion. One view was that the second explosion was caused by the combustion of hydrogen, which had been produced either by the overheated steam-zirconium reaction or by the reaction of red-hot graphite with steam that produced hydrogen and carbon monoxide. Another hypothesis, by Checherov, published in 1998, was that the second explosion was a thermal explosion of the reactor as a result of the uncontrollable escape of fast neutrons caused by the complete water loss in the reactor core.[52] A third hypothesis was that the second explosion was another steam explosion. According to this version, the first explosion was a more minor steam explosion in the circulating loop, causing a loss of coolant flow and pressure that in turn caused the water still in the core to flash to steam; this second explosion then caused the majority of the damage to the reactor and containment building.

Other explosion hypotheses
The force of the second explosion and the ratio of xenon radioisotopes released after the accident (a vital tool in nuclear forensics) indicated to Yuri V. Dubasov in a 2009 publication (suggested before him by Checherov in 1998), that the second explosion could have been a nuclear power transient resulting from core material melting in the absence of its water coolant and moderator. Dubasov argues that the reactor did not simply undergo a runaway delayed-supercritical exponential increase in power into the multi-gigawatt power range. That permitted a dangerous "positive feedback" runaway condition, given the lack of passive nuclear safety stops, such as Doppler broadening, when power levels began to increase above the commercial level.[53]

The evidence for this hypothesis originates at Cherepovets, Vologda Oblast, Russia, 1000 km northeast of Chernobyl. Physicists from the V.G. Khlopin Radium Institute in Leningrad measured anomalous xenon-135 — a short half-life isotope — levels at Cherepovets four days after the explosion, even as the general distribution was spreading the radiation to the north in Scandinavia. It is thought that a nuclear event in the reactor may have raised xenon to higher levels in the atmosphere than the later fire did, which moved the xenon to that location.[54]

That while this positive-feedback power excursion that increased until the reactor disassembled itself by means of its internal energy and external steam explosions[29] is the more accepted explanation for the cause of the explosions, Dubasov argues instead that a runaway prompt criticality occurred, with the internal physics being more similar to the explosion of a fizzled nuclear weapon, and that this failed/fizzle event produced the second explosion.[53]

This nuclear fizzle hypothesis, then mostly defended by Dubasov, was examined further in 2017 by retired physicist Lars-Erik De Geer in an analysis that puts the hypothesized fizzle event as the more probable cause of the first explosion.[55][56][57] The more energetic second explosion, which produced the majority of the damage, has been estimated by Dubasov in 2009 as equivalent to 40 billion joules of energy, the equivalent of about ten tons of TNT. Both the 2009 and 2017 analyses argue that the nuclear fizzle event, whether producing the second or first explosion, consisted of a prompt chain reaction (as opposed to the consensus delayed neutron mediated chain-reaction) that was limited to a small portion of the reactor core, since expected self-disassembly occurs rapidly in fizzle events.[53][55][58]

Lars-Eric De Geer comments:

"We believe that thermal neutron mediated nuclear explosions at the bottom of a number of fuel channels in the reactor caused a jet of debris to shoot upwards through the refuelling tubes. This jet then rammed the tubes' 350kg plugs, continued through the roof and travelled into the atmosphere to altitudes of 2.5-3km where the weather conditions provided a route to Cherepovets. The steam explosion which ruptured the reactor vessel occurred some 2.7 seconds later."[54]

Look for the Fukushima or Kitahara plant on google earth , without using the search bar - it's not there . But Use the search bar - it takes you to get some 2011 images



posted on Aug, 6 2019 @ 12:39 PM
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a reply to: Plotus

What do you imagine nuclear subs are?

At least cooling won't be an issue in the same manner as the problems that took down Fukushima.
edit on 6-8-2019 by andy06shake because: (no reason given)



posted on Aug, 6 2019 @ 01:24 PM
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The entire Chernobyl site now is encased in thick concrete,
under a dome. What is underneath it I'm not sure but maybe
where the active fuel is burning through. If they manage
to lift it out of where it is onto a iceberg it may temporarily
halt or contain the radioactivity coming from it it would be
a miracle. The radioctivity coming from Chernobyl still
will be very dangerous to any work crews in it's proximity.

The iceberg would be it's tomb, a final resting place.


edit on 6-8-2019 by ThatDidHappen because: (no reason given)



posted on Aug, 11 2019 @ 04:31 PM
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a reply to: ThatDidHappen

Short of shooting the entire Chernobyl site and encased concrete enclose/facility into the Sun that problem is not going to go away anytime in the next few 100,000 years.

That burning fuel and rods generate heat, putting the thing on an iceberg might not be the best of ideas, talk about a chocolate teapot solution.



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