Incredibly well quantified emissions that are in total lower than the emissions from mining uranium (except for two or three cherry picked mines which are supposed to be representative), or the emissions from building and decomissioning a nuke if you take real lifetimes and load factors.
Most uranium ore is lower energy density than low grade coal. Digging it up with diesel equipment after removing twice as much overburden with explosives in a coal powered country and then milling it with 10s to 100s of litres of sulfuric acid is incredibly dirty. All of the “representative” lifecycle studies use Ranger (which uses a specific much cleaner more expensive process on ore 30-70x as concentrated) or Cigar lake which is 1000-2500x as concentrated.
Even after that nuclear is still relatively low carbon, but about 10x a modern wind turbine.
have you seen how large wind turbines are ?
I have like 20 in visible range from my window, yes, whats your point?
how did they got there is my point. to build anything there are emissions.
Read the other comments explaining it.
Incredibly well quantified emissions that are in total lower than the emissions from mining uranium (except for two or three cherry picked mines which are supposed to be representative), or the emissions from building and decomissioning a nuke if you take real lifetimes and load factors.
wait per energy output? that seems wrong. also what about nukes?
Most uranium ore is lower energy density than low grade coal. Digging it up with diesel equipment after removing twice as much overburden with explosives in a coal powered country and then milling it with 10s to 100s of litres of sulfuric acid is incredibly dirty. All of the “representative” lifecycle studies use Ranger (which uses a specific much cleaner more expensive process on ore 30-70x as concentrated) or Cigar lake which is 1000-2500x as concentrated.
Even after that nuclear is still relatively low carbon, but about 10x a modern wind turbine.