"Nuclear waste generally is over 90% uranium. Thus, the spent fuel (waste) still contains 90% usable fuel! It can be chemically processed and placed in other reactors to close the fuel cycle. A closed fuel cycle means much less nuclear waste and much more energy extracted from the raw ore. Additionally, this process allows you to convert your waste into chemical forms that are totally immobilized.
France currently recycles their spent fuel. They put the remaining good nuclear fuel back in their reactors in the form of MOX fuel and immobilize the remaining waste in vitrified borosilicate glass.
The US had a recycling program featuring the use of advanced fast reactors (which have not been deployed on any major scale yet) that was shut down because it created Plutonium, which could be used to make a nuclear weapon. Were some plutonium diverted in the recycling process, a non-nuclear entity could be one step close to building a bomb. However, under programs such as the (now stalled) GNEP [wikipedia], where only countries who already have nuclear weapons recycle, proliferation-free waste recycling can exist. Since the many of the largest energy users are already nuclear weapons states, a massive expansion of nuclear could be done there with no additional proliferation concerns whatsoever.
If all the electricity use of the USA was distributed evenly among its population, and all of it came from nuclear power, then the amount of nuclear waste each person would generate per year would be 39.5 grams. That’s the weight of seven U. S. quarters of waste, per year! A detailed description of this result can be found here. If we got all our electricity from coal and natural gas, expect to have over 10,000 kilograms of CO2/yr attributed to each person, not to mention other poisonous emissions directly to the biosphere (based on EIA emissions data).
If you want raw numbers: in 2018, there were just over 80,000 metric tonnes of high-level waste in the USA. Between 1971 and 2018, nuclear reactors in the USA generated 3000 GW-years of electricity to make this waste.
For comparison, in 2007 alone the US burned 948,000,000 metric tonnes of coal. This means that coal plants made 32 times more waste every single day than the US nuclear fleet has made in the past 45 years! Granted, coal made a higher fraction of the country’s electricity, but the numbers are still crazy impressive for nuclear."
Interesting: "2018 Nobel Prize for Physics-winner Gérard Mourou has proposed using Chirped pulse amplification to generate high-energy and low-duration laser pulses to transmute highly radioactive material (contained in a target) to significantly reduce its half-life, from thousands of years to only a few minutes."
---
I do not think nuclear waste and proliferation are a problem. Consider ITER, for example:
"Fusion reactors, unlike fission reactors, produce no high activity/long life radioactive waste. The "burnt" fuel in a fusion reactor is helium, an inert gas. Activation produced in the material surfaces by the fast neutrons will produce waste that is classified as very low, low, or medium activity waste. All waste materials (such as components removed by remote handling during operation) will be treated, packaged, and stored on site."
"Because the half-life of most radioisotopes contained in this waste is lower than ten years, within 100 years the radioactivity of the materials will have diminished in such a significant way that the materials can be recycled for use in other fusion plants. This timetable of 100 years could possibly be reduced for future devices through the continued development of 'low activation' materials, which is an important part of fusion research and development today."
Or to put it briefly: "No long-lived radioactive waste: Nuclear fusion reactors produce no high activity, long-lived nuclear waste. The activation of components in a fusion reactor is low enough for the materials to be recycled or reused within 100 years.".
Proliferation: "Limited risk of proliferation: Fusion doesn't employ fissile materials like uranium and plutonium. (Radioactive tritium is neither a fissile nor a fissionable material.) There are no enriched materials in a fusion reactor like ITER that could be exploited to make nuclear weapons."
To repeat: waste is not much of an issue CURRENTLY, and in the future we will have ITER and the like, i.e. fusion reactors instead of fission reactors that solve the nuclear waste and the proliferation problem. It is sad how many people are misinformed about nuclear (other comments). There is no higher electricity consumption without nuclear, like... just forget about it. But then again, the future, that is fusion reactors, are pretty damn great. Just check out the last link in this comment.
France currently recycles their spent fuel. They put the remaining good nuclear fuel back in their reactors in the form of MOX fuel and immobilize the remaining waste in vitrified borosilicate glass.
The US had a recycling program featuring the use of advanced fast reactors (which have not been deployed on any major scale yet) that was shut down because it created Plutonium, which could be used to make a nuclear weapon. Were some plutonium diverted in the recycling process, a non-nuclear entity could be one step close to building a bomb. However, under programs such as the (now stalled) GNEP [wikipedia], where only countries who already have nuclear weapons recycle, proliferation-free waste recycling can exist. Since the many of the largest energy users are already nuclear weapons states, a massive expansion of nuclear could be done there with no additional proliferation concerns whatsoever.
If all the electricity use of the USA was distributed evenly among its population, and all of it came from nuclear power, then the amount of nuclear waste each person would generate per year would be 39.5 grams. That’s the weight of seven U. S. quarters of waste, per year! A detailed description of this result can be found here. If we got all our electricity from coal and natural gas, expect to have over 10,000 kilograms of CO2/yr attributed to each person, not to mention other poisonous emissions directly to the biosphere (based on EIA emissions data).
If you want raw numbers: in 2018, there were just over 80,000 metric tonnes of high-level waste in the USA. Between 1971 and 2018, nuclear reactors in the USA generated 3000 GW-years of electricity to make this waste.
For comparison, in 2007 alone the US burned 948,000,000 metric tonnes of coal. This means that coal plants made 32 times more waste every single day than the US nuclear fleet has made in the past 45 years! Granted, coal made a higher fraction of the country’s electricity, but the numbers are still crazy impressive for nuclear."
Source: https://whatisnuclear.com/waste.html
---
Interesting: "2018 Nobel Prize for Physics-winner Gérard Mourou has proposed using Chirped pulse amplification to generate high-energy and low-duration laser pulses to transmute highly radioactive material (contained in a target) to significantly reduce its half-life, from thousands of years to only a few minutes."
---
I do not think nuclear waste and proliferation are a problem. Consider ITER, for example:
"Fusion reactors, unlike fission reactors, produce no high activity/long life radioactive waste. The "burnt" fuel in a fusion reactor is helium, an inert gas. Activation produced in the material surfaces by the fast neutrons will produce waste that is classified as very low, low, or medium activity waste. All waste materials (such as components removed by remote handling during operation) will be treated, packaged, and stored on site."
"Because the half-life of most radioisotopes contained in this waste is lower than ten years, within 100 years the radioactivity of the materials will have diminished in such a significant way that the materials can be recycled for use in other fusion plants. This timetable of 100 years could possibly be reduced for future devices through the continued development of 'low activation' materials, which is an important part of fusion research and development today."
Or to put it briefly: "No long-lived radioactive waste: Nuclear fusion reactors produce no high activity, long-lived nuclear waste. The activation of components in a fusion reactor is low enough for the materials to be recycled or reused within 100 years.".
Proliferation: "Limited risk of proliferation: Fusion doesn't employ fissile materials like uranium and plutonium. (Radioactive tritium is neither a fissile nor a fissionable material.) There are no enriched materials in a fusion reactor like ITER that could be exploited to make nuclear weapons."
Source: https://www.iter.org/mach/safety and https://www.iter.org/sci/Fusion
---
To repeat: waste is not much of an issue CURRENTLY, and in the future we will have ITER and the like, i.e. fusion reactors instead of fission reactors that solve the nuclear waste and the proliferation problem. It is sad how many people are misinformed about nuclear (other comments). There is no higher electricity consumption without nuclear, like... just forget about it. But then again, the future, that is fusion reactors, are pretty damn great. Just check out the last link in this comment.