> "As of early September 2022, 32 of France's 56 nuclear reactors were shut down"
This is cherry picking. Look at the 10 years, or even lifetime, average availability. It's 90 or 95%. The reason for this bad number is because of delayed maintenance due to COVID.
> "serious consequences for power plant cooling systems, as the drought reduced the amount of river water available for cooling."
The reduction of power output of French nuclear was something like 0.30%. You read that right. So I would call "serious consequences" a blatant lie.
That's also wrong. Please share numbers. Nuclear has a load factor of 95% and its down time can be scheduled (maintenance). Wind has a load factor of 30-40% (and output is unpredictable), solar has a load factor of 20%, hydro requires mountains.
> the government wants to simplify control organism and laws around building new plants
When controls are too tight, nuclear is too slow ; when controls are too loose, nuclear is dangerous. Face je gagne, pile tu perds.
The goal is less CO2, and for that any low carbon energy source is good.
Nice auto pilot! Very basic, but works well enough.
In the real world, you would derive physics equations (acceleration -> velocity -> position), add constraints and then solve everything to obtain an optimal trajectory (mostly in term of fuel, but you can add other constraints too, for ex due to radar-ground or Antenna-Earth visibility). I wrote a blog post about Apollo's algorithm: https://blog.nodraak.fr/2020/12/aerospace-sim-2-guidance-law... (Described in the second section ; the first section is about a naive algorithm similar to yours that in the end did not work as well as I wanted).
Also, thanks for the code, I wanted to do the same, but lost motivation when I could not really expose in a satisfying way the internal state out of these JS modules (it's not complicated in the end, but I'm simply not a frontend dev ; and I wanted to avoid forking and monkey patching everything and simply adding some JS code throught the console or something).
It is not exactly increasing enrichment capacity, it seems it's more complicated than than. From https://twitter.com/TristanKamin/status/1579828412474351616, "UTS" is basically a tradeoff between enriching at the same level more uranium VS enriching to a higher level the same amount of uranium.
About your "fun fact": I don't claim that everything is perfect, but except from going back to the stone age, nuclear is by any measure the least worst option.
> because of massive defects or barely producing due to a lack of cooling water
This is false, and not the reason for the (currently) low load factor of nuclear.
Most reactors are off for maintenance, like they are each year in autumn, in order to be ready for the peak demand that winter is. This year might be slightly worse, but it's not unusual at all.
There is also no lack of cooling water. There is only a law that was set many years ago that can be changed without any impact on the safety of the reactors, and this law is limiting only for a few reactors a few days each year. Very anecdotal.
First, you are cherry picking: you should look at the yearly load factor, not a random day and time of the year when it supports your argument. And you will find that nuclear has the highest load factor of all, 80-90%, while solar/PV will never be above 30-40% (because of physics, you can not change that).
Second, and since I just demonstrated that on a yearly timeframe nuclear works very well, the right question to ask is: why are there so many nuclear plants offline right now? The answer is quite simple, and is due to one of the advantage of nuclear: you can choose when to switch it on or off, for ex to perform maintenance. So, when is the best time to perform maintenance? Answer: just before the peak load, which happens in winter (Mondays around 8 AM in January, to be more precise), so you switch nuclear off in autumn, ie now. It's actually a good news that the load factor of nuclear is so low right now, it means that nuclear will be ready and will work well in a couple of months when we will need it the most.
> Currently Germany is exporting lots and lots of energy
Again, cherry picking, show me the yearly stat. But actually the only comment I will make here is about the criteria you are using: is exporting a lot of energy a good thing? I would say it depends. High variability is bad, it makes the grid unstable. I would rather have low and steady import/export rather than big swings. Exercise for the reader: what allows you to have steady production of electricity (nuclear, hydro, solar, wind, ...)?
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We need more nuclear. Simply because that's the only low carbon, controllable option that currently exists (hydro needs mountains, fossils are high carbon, solar/wind are intermittent)
This is cherry picking. Look at the 10 years, or even lifetime, average availability. It's 90 or 95%. The reason for this bad number is because of delayed maintenance due to COVID.
> "serious consequences for power plant cooling systems, as the drought reduced the amount of river water available for cooling."
The reduction of power output of French nuclear was something like 0.30%. You read that right. So I would call "serious consequences" a blatant lie.