| ▲ | fc417fc802 4 hours ago | |||||||||||||||||||||||||
I think it is you who hasn't bothered to do basic research before forming an opinion. I suggest at least skimming the wikipedia page on radioactive waste. [0] There's also a page documenting the various national management plans. [1] > I've never understood how people think "less" solves the issue, it's not negligible ... It just needs to be little enough that the cost of constructing long term storage space isn't cost prohibitive. The amount produced is something like 25 to 30 tons per GW per year before reprocessing; after reprocessing it's something like ~5% of that. Unfortunately I couldn't readily find numbers for the dilution rate when vitrifying the waste for geological disposal. Regardless, that amount is almost nothing when considered in terms of volume. A full size shipping container is somewhere between 75 and 108 cubic meters depending on which standard you prefer. To give a rough idea that equates to ~180 (US) tons of borosilicate glass (one of the materials commonly used to vitrify high level waste) on the low end (assuming I got the math right). There are also alternative disposal methods to consider such as breeder reactors (rather expensive at present) or horizontal drillholes. [0] https://en.wikipedia.org/wiki/Radioactive_waste [1] https://en.wikipedia.org/wiki/High-level_radioactive_waste_m... | ||||||||||||||||||||||||||
| ▲ | awesome_dude 3 hours ago | parent [-] | |||||||||||||||||||||||||
You're repeating the problem - You're saying that there is less waste to deal with which magically means it's safe. You do understand that don't you? | ||||||||||||||||||||||||||
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