The US produces less than half the volume of an Olympic-sized swimming pool of nuclear waste per year in total, so it’s not exactly hard to manage. Wind and even solar take up a lot more space than nuclear for the same energy, even if we were to consider decades worth of nuclear waste storage. Nuclear power production has about 130x higher density than wind, and needs 34x less space than solar PV.
I should say up to 90-96%. It depends on the methods and the type of fuel you use. Currently widely used nuclear technology is more like 30-50% recyclable. That number is able to be increased by using more recyclable fuel technology, which is available.
French nuclear waste in total is 0.0018 km³ (three olympic swimming pools) after 8 decades of using nuclear and primarily using nuclear for 4 decades, so I’m not so sure how you imply that the “state of nuclear waste” is bad. Even with the “inefficient” ways of using/recycling nuclear, there’s not a lot of waste produced in the first place.
Only ~10% of French waste is actually long-lived too, meaning after a few decades to 3 centuries, 90% of it will no longer have abnormal radioactivity. Meaning the radioactiveness of the waste just goes away on its own after a moderately short period of time and it basically just turns into a big rock.
And recycling is an abusive terminology for nuclear waste, since reusing waste creates again nuclear waste, waiting for “valorisation ultérieure” i.e. stored.
The US produces less than half the volume of an Olympic-sized swimming pool of nuclear waste per year in total, so it’s not exactly hard to manage. Wind and even solar take up a lot more space than nuclear for the same energy, even if we were to consider decades worth of nuclear waste storage. Nuclear power production has about 130x higher density than wind, and needs 34x less space than solar PV.
I am very well aware of the state of nuclear waste in France, and it’s not 96% recycled. This is absolutely laughable.
I should say up to 90-96%. It depends on the methods and the type of fuel you use. Currently widely used nuclear technology is more like 30-50% recyclable. That number is able to be increased by using more recyclable fuel technology, which is available.
French nuclear waste in total is 0.0018 km³ (three olympic swimming pools) after 8 decades of using nuclear and primarily using nuclear for 4 decades, so I’m not so sure how you imply that the “state of nuclear waste” is bad. Even with the “inefficient” ways of using/recycling nuclear, there’s not a lot of waste produced in the first place.
Only ~10% of French waste is actually long-lived too, meaning after a few decades to 3 centuries, 90% of it will no longer have abnormal radioactivity. Meaning the radioactiveness of the waste just goes away on its own after a moderately short period of time and it basically just turns into a big rock.
0.0018 km3 is an enormous volume for something so dangerous. And that doesn’t taken into account the waste created during extraction and transformation of nuclear fuel. Map of nuclear waste storage here https://reporterre.net/CARTE-EXCLUSIVE-Les-dechets-radioactifs-s-entassent-partout-en-France
And recycling is an abusive terminology for nuclear waste, since reusing waste creates again nuclear waste, waiting for “valorisation ultérieure” i.e. stored.
See source in Frenc https://inventaire.andra.fr/sites/default/files/documents/pdf/fr/andra_essentiels_2021_in_web.pdf
Right, and I am up to 90% made of Mars dust.
Storing and monitoring that waste for 100’000 years is too expensive, even if we manage to do it.
Nuclear power is simply not cost-effective.