I agree but one could say the exact same thing about the Soviet Union running tests at 2 in the morning at Chernobyl. So if you're willing to discount one it's only fair to discount the other no?
The Banqiao dam suffered from major flaws then from decades of a fair amount of diverse very adverse conditions and absence of proper maintenance... and it kept up. Then it took a typhoon to finally destroy it. The grotesquely bad handling continued during the crisis which followed.
A few hours of improper use were sufficient to trigger a disaster at the Chernobyl's reactor, then the authorities' reaction (evacuation, liquidators...), albeit imperfect, was way better than at Banqiao.
Chernobyl was of a flawed design with a very serious bug which was known (but classified), and it took a terrible very poorly coordinated drill to cause it to actually meltdown.
A more accurate comparison would be Fukushima, where the design was wrong (backup generators in the basement, in a flood prone zone) that survived a 9 on the Richter scale earthquake and was only damaged by the resulting tsunami (but only because the operator had ignored all the warnings about the placement and protection of backup power).
The design flaw (every equipment has some...) did not condemn it: this Chernobyl's reactor was a RBMK, many RBMKs ran for decades after the disaster, and some do run right now:
https://en.wikipedia.org/wiki/RBMK#List_of_RBMK_reactors
A non-maintained flawed huge dam copes with decades of major problems then a typhoon breaks it, while a nuclear plant missing a few bricks exposed to a huge tide breaks havoc in a few hours.
The flaws in the RBMKs which were known before Chernobyl were fixed afterwards (with changes that had been proposed before Chernobyl) in the other reactors that were kept running, though. Not claiming that the RBMKs were flawless after the fact, but the specific flaw that led to the disaster was fixed.
> The flaws in the RBMKs which were known before Chernobyl were fixed afterwards
Indeed, and it shows that the design wasn't flawed to the point of condemning it: a fix was possible. Implication: even a non-major flaw can trigger a disaster.
> (with changes that had been proposed before Chernobyl)
Indeed, and it shows that even detected problems sometimes aren't fixed. This is not reserved to the USSR: Fukushima also showed it (it was well-known that the seawall/levee wasn't high enough, as recalled in my previous post here the nearby Onagawa plant had an adequate levee).
There were 2203 deaths in the evacuation. Nobody died of radiation. If you had an oil plant with an inadequate levee you’d have had to evacuate too. This is at best tangential.
Officially: 2202 deaths (attributed to the nuclear disaster) from evacuation, and 1 death from radiation.
Technically: determining the health impact of radiation is difficult and the methods are disputed. Moreover every specialist agrees that waiting at least 15 years is necessary because most induced ailments have a non-neglectable latency. Solid cancers, for example, develop in up to 15 years.
> Technically: determining the health impact of radiation is difficult and the methods are disputed. Moreover every specialist agrees that waiting at least 15 years is necessary because most induced ailments have a non-neglectable latency. Solid cancers, for example, develop in up to 15 years.
This is hand-waving and scaremongering. We have models. The models we use are the most pessimistic (linear no-threshold). The dispute is about whether we should use the more optimistic models (threshold). There's a whole debate, but rest assured, we're incredibly pessimistic.
You can of course say the same thing about cancer caused by particulate emissions, etc. You know what's radioactive and blown around everywhere? Coal fly ash. It's full of uranium and thorium. The question I have for you is over the life of Fukushima, how many people were saved as a result of not burning coal or oil?
Let's run the numbers. Nameplate capacity 5300MW for 32 years (1979 to 2011). That's a grand total of almost 1500TWh. Remember, coal kills 25 people per TWh, so it saved 37,500 people. Sorry, 37,499.
In my opinion, the deaths from the evacuation are attributable to the tsunami, not to the power plant. But even if you factor them in, that's still 35,298 folks alive today because of Fukushima Daiichi.
Even at 2202 deaths is 1.4 deaths per TWh, which is 1.4% as many as a brown coal plant would have killed, ~5% as many as a coal or oil plant would have killed, 35% as many as a natural gas plant would have killed - and exactly as many as a hydroelectric plant would have killed. Only 3X as many as rooftop solar. Even Fukushima alone makes nuclear one of the safest forms of energy on the planet. The second-worst nuclear disaster in history - in isolation - is still one of the safest power plants we have.
These plants save lives. Don't fear the spicy rocks.
I mean, Bangqiao wiped out numerous settlements. On the other hand you know the remaining RBMK reactors at Chernobyl continued to operate for years after the incident, the last one closing in 2000, and only after the international community conditioned funding for the New Safe Containment installation on it. There's still a few RBMK reactors operating - after the safety retrofits of course.
> remaining RBMK reactors at Chernobyl continued to operate for years
Many reactors did continue to operate, in many sites. It shows that the design wasn't flawed to the point of condemning it: a fix was possible. Implication: even a non-major flaw can trigger a disaster.
Ok? But the bigger point is that’s not at all unique to nuclear. It’s common to a whole ton of things we do. And they can all have just as big an impact. Planes for instance. We iterate and improve, we don’t run back to the Stone Age.
Also the positive void coefficient was clearly a major flaw lol
A few hours of improper use were sufficient to trigger a disaster at the Chernobyl's reactor, then the authorities' reaction (evacuation, liquidators...), albeit imperfect, was way better than at Banqiao.