Uranium fission provides reliable heat from reactions that are six orders of magnitude (powers of ten) more energy dense than the combustion reactions used to produce energy from coal, oil and natural gas.
Not exact matches
Meitner and Frisch were able to
provide an explanation for what he saw that would revolutionize the field of nuclear physics: A
uranium nucleus could split in half — or
fission, as they called it — producing two new nuclei, called
fission fragments.
However, there are materials which could be used, such as thorium, that not only to mitigates the super long half - life of the products of
fission but also
provides a cheap alternative to
uranium.
The hypothetical reactor would
provide those neutrons, as would any
fissioning material (such as
uranium or thorium) near the 3He's 4,000 - mile upward path.
We both talked about how nuclear power especially Thorium - based nuclear power could be a solution for future power needs that would
provide a stable base electrical grid while at the same time having far fewer problems than the current
fission products based on
uranium and plutonium.