Note that the deaths for nuclear energy include only radiation related deaths, whereas the accidents for solar and wind include "mundane" accidents like workers falling from heights. Nuclear power plants have their own non-radioactive accidents, though, like this one:
(5 workers killed at Mihama nuclear power plant due to accidental steam release)
I have not seen any comparison that tries to sum up non-radioactive accidents for nuclear power and incorporate them in the deaths-per-TWh rate for nuclear power. The number will still be lower than anything based on combustion, but at these very low numbers it could make a meaningful difference in the relative rates.
https://ourworldindata.org/grapher/death-rates-from-energy-p...
However, be sure to dig into the methodology.
Data on death rates from solar and wind is sourced from Sovacool et al. (2016) based on a database of accidents from these sources.
We estimate deaths rates for nuclear energy based on the latest death toll figures from Chernobyl and Fukushima as described in our article here: https://ourworldindata.org/what-was-the-death-toll-from-cher...
Note that the deaths for nuclear energy include only radiation related deaths, whereas the accidents for solar and wind include "mundane" accidents like workers falling from heights. Nuclear power plants have their own non-radioactive accidents, though, like this one:
https://www.shippai.org/fkd/en/cfen/CB1011025.html
(5 workers killed at Mihama nuclear power plant due to accidental steam release)
I have not seen any comparison that tries to sum up non-radioactive accidents for nuclear power and incorporate them in the deaths-per-TWh rate for nuclear power. The number will still be lower than anything based on combustion, but at these very low numbers it could make a meaningful difference in the relative rates.