YouTube really should be detecting and pushing them to the bottom of search results. Downvoting doesn't appear to have much of an effect.

I've seen a few of those before.

Some were CC text from CNN articles with random "war pictures". It was surreal - like a badly done brainwashing video. It had the eerie qualities of belonging as perverse art exhibit.

I have also seen these in "alt"/neonazi/kkk politics channels. There's not much worse than showing pictures of the KKK and black people while a robotic voice throws curse words and racial epithets. There isn't much else to say other than "WAT?"

I think you're lucky a fax was not involved.

Chernobyl is still in Ukrane (near the boarder with Belarus) and not Russia (yet). At the time it was part of the Soviet Union, but Ukraine has always been a bread basket of Central Europe.

Fundamentally, Chernobyl is a much larger (order of magnitude) event with 6 tons of radioactive material burned and released. Frankly, for all the coverage Fukushima gets, it's amazing that you rarely hear about the associated tsunami and the damage it caused... 22k direct casualties with 2.5k still missing, 230k people still displaced in 2015 with ~400k structures destroyed.

This badly understates the Chernobyl response. They did remove the heavily contaminated surface soil from the immediate vicinity and clean up the rest of the site so they could continue to operate the remaining reactors. They built the Shelter Object ("sarcophagus"), instead of just pouring concrete all over the site, so that they could continue to monitor and inspect. And earlier this year, they at last covered the Shelter Object with the long-delayed New Safe Confinement, which includes cranes and other robotics intended to dismantle and decontaminate both the Shelter and the ruins of the reactor.

It's certainly true that the Soviets, and after them Belarus and Ukraine, did/do use the "just leave it alone" strategy for part of their Chernobyl response. But it's by no means the whole story.

I'm possibly nitpicking here, but Chernobyl is not in Russia.

160k is around 0.15% of Japan's population, and there's plenty of space for them to move to since the countryside is rapidly depopulating. Of course, it's not quite that easy to forcibly migrate people in practice...

That's basically what they say at the end of the article:

“I’ve been a robotic engineer for 30 years, and we’ve never faced anything as hard as this,” said Shinji Kawatsuma, director of research and development at the center. “This is a divine mission for Japan’s robot engineers.”

The article says they’ve built a $100 million research center for the purpose of building radiation hardened robots for this environment.

I’m sure as they learn techniques and technology for building these robots it will progress quicker. A small robot with a camera is the first step.

They don't have the slightest idea. It's an absolute miracle that they just managed to get a picture of the molten core after 6 years. Now probably they can start to think what to do, but my guess is that they don't have any idea at the moment.

Wow, thank you! The art is pretty good overall and the story seems well done enough. There are 39 chapters according to where I found it to read online but MyAnimeList (MAL) says 24 chapters from 3 volumes.

More info on MAL here: https://myanimelist.net/manga/61341/1F__Fukushima_Daiichi_Ge...

> I wonder what they do once the robot sees the uranium? I mean the robot itself is now heavily contaminated.

Contamination isn't as dramatic as you'd think, it's mostly superficial : you have radioactive dust sticking on the robot, and you "just" need to wash it thoroughly to remove the contamination.

People usually have a wrong vision of radioactive contamination : they think being exposed to radiations makes you radioactive in return. In fact, it doesn't : being exposed to a radioactive material (which means you get struck by gamma rays, alpha and/or beta particles) doesn't make you radioactive. You can get contaminated with radioactive dust (which is a real problem if you ingest or inhale it, since it's hard to wash there) but you don't become radioactive yourself.

The mistake didn't appear out of nowhere though : things exposed to neutrons becomes radioactive (they become activated) and neutrons are emitted by nuclear fission, which occur in a exploding atomic bomb or a working nuclear plant. But when the plant shuts down, the chain reaction stops and so does the neutron emission. All that remain is radioactivity, as fission products keep decaying.

That being said, in practice I'm not sure the electronics in the robot is in a good enough shape to be used again …

Robots just kept dying in there all those years [1]. I reckon they are disposable, in effect.

[1]: http://mashable.com/2017/03/03/fukushima-robots-fail/

Signs forbidden the use of games like Pokemon Go are quite common across Japans. You find them at many Temples etc. Many cafes/bars/eateries have signs out the front with drawings of the Pokemon you'd find nearby with Pokemon Go.

Source. Went through Japan playing Pokemon Go.. saw many many Japanese people playing Pokemon Go. And signs.. signs with Pokemon everywhere.

Probably nowhere near as dangerous but I think its interesting. https://widerimage.reuters.com/story/in-the-shadow-of-cherno...

Could also be workers at the site on their lunch breaks.

maybe they thought they could find a genuine pokemon?

I was wondering about that. Was about to adjust my false-positive filter for YouTube click spam. I mean, if the NYT links to it...

Water sampling happens frequently at various points near the reactor, all of which showed levels at expected bounds to date.

Most of the scary charts were fake: https://www.snopes.com/photos/technology/fukushima.asp

I don't know what they did in this particular instance, but basically there are two things you can do: shield, or in the case of electronics, use larger parts.

The smaller some piece of electronics is, the smaller the charges in there are, and the easier it is to introduce errors with ionizing radiation.

"Neutron embrittlement" is a term to chase down. Generally people talk about the effects on metal, but I'm sure neutrons affect ceramics, too.

It worked for me. Anyway, here's an archived copy:

https://archive.is/jQlRG

Would you prefer for them to be referred to them as "Cosmic Rays" :) ? To be honest, "Space Particles" sounds less silly and more descriptive. It also emphasizes that they're not generating the muons themselves, but collecting them from space.

EDIT: Though I guess, now that I think of it, it's a bit unfair to refer to muons as 'exotic'. People will typically encounter thousands of them in a day [1].

[1] http://cosmic.lbl.gov/SKliewer/Cosmic_Rays/Muons.htm

[1] "Muons arrive at sea level with an average flux of about 1 muon per square centimeter per minute."

Or whatever happened in Russia within the past few weeks: https://www.theguardian.com/world/2017/nov/10/nuclear-accide...

I kinda agree with your point: terrorists already have considerable access, theoretically, to radioactive materials. In fact, the materials used for medicine and science are in many ways much more dangerous from a public health perspective given their short, energetic half-lives.

The only substantial, long-term danger from terrorists is to the financial viability of nuclear power. Nobody cares about incidents like the above. But if it were tied to terrorism somehow it would be all over the news and nuclear stocks would plummet. Similarly, for a terrorist incident involving medical use even anti-nuclear activists would have more nuanced reactions, whereas if it involved nuclear power such an incident would herald the end of the world.

You can't really say 0 deaths, because no one knows. We don't have good epidemiological models for wide-spread low-level dispersal such as was seen at Fukushima, we already know incidences of cancer and gene mutation don't scale linearly with exposure at low levels. There are also associated deaths from psychological factors of those who were evacuated, lost land / business etc. which will only become apparent in years to come.

Dams do have the potential for massive loss of life as you say, and they also suffer from the problem of massive centralisation of capacity (unlike e.g. solar or wind). On the smaller upside, the models related to fatalities are pretty well understood.

Perhaps an instant move away from nuclear may need coal, although here in the UK it's gas that has been taking up the slack while the government dilly-dally on whether to build out new nuclear or invest in renewables research (successfully doing neither).

I see over the longer term renewables coming up as nuclear is naturally retired at the end of the current plant's lifespan. Solar is now cheaper than coal to built-out in many places, there are other impediments but (generally) lack of public support isn't one of them (compared to coal/nuclear).

> Fukushima had 0 radiation deaths.

I think making that statement or even the comparison to other types of disasters is a little disingenuous. With most disasters they happen and then they're over in very short order. A nuclear disaster is very slow to unfold and the deaths from radiation related illnesses are not yet fully realized for quite some time.

The Chernobyl disaster is still unfolding and even with the latest containment, NSC, having been installed. It will take hundreds of years before we're done with it.

> in practice moving away from nuclear means doubling down on coal

Is it not possible for us to build out renewable energy on a large scale? My impression was that we're reaching points where it's very cost effective to do so.

Yeah, that's an issue too, though again, breeder reactors could extend that number significantly. But the countries that possess that tech don't want to use it widely or share it. Not sure if the former is due to cost or lack of expertise. The latter is definitely due to distrust in humanity.

Also, from what I understand, they ignored the reports that recommended to put the backup generators on higher ground and to make the sea wall higher. Fukashima is the worst case for that design I think.

Sounds like life :| Those cigarettes you smoked in your early twenties? Those beers you smashed working in IT? 63 will be interesting..

Nuclear scientist's weren't like "naive" teenagers though.

Sure the design could've been better; However by your logic they had 50 years to take extra safety pre-cautions and improve the structure.

In-fact, it still absolutely amazes me it was even running at the time of the disaster and built on a coast in a country notorious for Tsunamis.

True I’d forgotten how old Fukushima was.

Expensive. The concrete can also crack in the event of an earthquake.

And radioactive. Which changes the atoms if which your containment material is made of. Which makes things much, much more difficult.

Clay would hold that wouldn't it?

That would just end up like the Marshall Islands where they did the H-Bomb tests. They are still too contaminated to live on.

The Russians handled the catastrophe better and faster. International help sender them low tech robots, Russians poured tunnels below within days/weeks with lot of human contractors. But Japan is doing little. Contaminated fluids leak into the sea that swaps to Hawaii and west coast ever since 2011. It's the local culture of loosing face that seems to be at odds with handling it and a major corruption problem. After 6 years Japan has done so little, compared to the Chernobyl Sarcophagus and all the handling inside and ever since. Why is there not more international pressure to Japan to do more and do it faster? They have to do it no matter what the costs are or if the have the resources, it doesn't matter - the rest of the world population will thank you for less pollution. https://en.wikipedia.org/wiki/Chernobyl_Nuclear_Power_Plant_...

That is an extrapolation using the unproven linear no threshold hypothesis.

Isn't that the same as attributed to burning coal in undera year world wide?

Those were also tests where the escape of massive amounts of radiation into the environment was a planned, even if indirectly, effect.

Also, as a sibling comment said, that numb is probably overstated by a large amount.

Well, just note that after Chernobyl, Western Europe did live there. The size of the smoke plume (1000s km), radioactive material released (6000kg), and wind/weather during the event affected almost every country including Spain, England, and Norway. Those 300M people arguably recieved higher doses than you would living in the evacuated Fukushima area.

https://youtu.be/MU4_bJT8W3Y

The point is that it remained contained... that's good. With prpoer monitor wells even the ground water need not be badly contaminated.

Been near there just like a week ago (Tomioka town). Opened up for resettlement this year. Lots of damage from tsunami, but new buildings are being constructed and there are several functioning hotels and convenience stores. There's massive work going on to decontaminate the remaining areas by 2020. As long as you don't go inside of the nuclear station it should be ok.

Given the choice, I would.

>> And that's with incompetence and neglect.

Yes, and rightly so. Engineers must design around human fallibility. They don't get to blame human error and claim the whole system is otherwise perfectly safe. Either the system is safe under conditions of human fallibility, or it is unsafe.

>> There's just no good reason for either Chernobyl or Fukushima

Of course there is reason. Humans are part of the system and a relatively weak part at that.

That is the fundamental problem with nuclear power. You can trust the technology but you can't trust the humans.

I work in a big city. It is polluted by cars, trucks, heating. That pollution kills 2 or 3 hundreds of people every year in that town. That scares me a lot more than the hypothetical explosion of the nuclear plant which I live 40km close...

Actually you cannot. They do not let anybody live near to these sites.

Ok, let's do a Fermi-like estimation.

Estimates on the number of deaths related to coal generation vary from around 13,00 to 30,000 per year in the US [1] and 500,000 per year in China [2]. The current world population is 7.6 billion, of which the US and China account for approximately 1.8 billion people. Let's round the coal-related death rate way down for easy math: 10,000 per year in the US and 100,000 per year in China. Then, multiply that rate by the world's population, and you have, let's say 450,000 coal-related deaths per year worldwide. This is a really squishy number, but we only need approximations here.

You were concerned about how many people would die every hundred years from nuclear disasters, so let's see if we can work today's 450,000 per year estimated deaths backwards for the last hundred years.

The world population was somewhere in the neighborhood of 1.8 billion people in 1917. Assuming linear growth (I know, I know) and a strong r-value correlation for population vs. coal-related deaths (arguable, but again, Fermi estimate), we have to sum .00006 * population from 1.8 billion -> 7.6 billion, and we end up with approximately 28 million people.

Which is to say, if we could gather up all the deaths, worldwide, from coal, over the last hundred years, and convert it into a single disaster, it would kill the entire city of Shanghai, and New York for the apple on top.

That would have to be one hell of a nuclear disaster.

Now, there are arguments to be made that the energy we've received from coal has also powered hospitals and technology which have saved or improved people's lives. There are also arguments to be made that the side-effects of coal (hospitalization, environmental disasters) cause the death toll to absolutely pale by comparison.

And again, I've rounded these numbers down at every stage of the calculation.

[1]: http://www.catf.us/resources/publications/files/The_Toll_fro... [pdf]; it includes its own numbers, at the 13,000 estimate, and the EPA's, at 14,000 to 36,000 range.

[2]: https://www.nextbigfuture.com/2011/03/deaths-per-twh-by-ener... (blog, but includes lots of supporting links; I'm open to alternative sources that give vastly different estimates).

"However unlikely"

This is where probabilities bite us. If the probability is small enough then the expected death toll will drop to almost zero which merits little worry, despite how horrific said event mightt be. It sounds like you're doing the natural, intuitive thing of picturing a very scary scenerio and then wanting to avoid said scenerio at all costs.

The problem is, while you're busy avoiding some almost-zero probability event, you're also nuking your ability to mitigate events with actual high expected deaths and loses.

Fossil fuels already kill on the order of millions per century [citation needed], so if you think nuclear power does the same, it means we should expect several Chernobyl level events in the next few decades. Are you sure your probabilities are well-calibrated here?

Also, some of the rough skimming I've done has me believing that cycles without possibility of medown can be built, cf. liquid salt reactors. IIRC, some of these even have really nice waste profiles with the worst stuff only having half lives in the decades and very low volume at that [citation badly needed].

Anyway, fear of nuclear power reads to me like a fear of planes over cars. Chernobyl and Fukushima were single, isolated events making them visible and viscerally scary like plane crashes. Fossil fuels, on the other hand, pick us off one by one, relentlessly, but never so loudly as to evoke that gut-level fear.

Every year it kills 100 times less than every hundred years, that’s how average works, no matter what exact period you’re worried about. Also, no nuclear disaster ever killed millions — it is barely possible even with nuclear weapons. Relocation and financial risks, yes.

Likelihood of such disaster is estimated to be too minor to not care about, say, “an asteroid kills the planet” movie scenario.

https://www.nbcnews.com/news/us-news/scientists-say-nuclear-...

http://www.ucsusa.org/nuclear-power/nuclear-waste/safer-stor...

By nuclear disaster do you mean weapons use or just a power generation accident? I've never heard of a power plant accident potentially leaving a big portion of the Earth uninhabitable for centuries, but if there is something please enlighten me!

Uninhabitable? Maybe for humans. Wildlife grows back stronger:

http://www.telegraph.co.uk/news/2016/04/23/wildlife-returns-...