Today, nuclear power is not usually considered among the “sustainable” alternatives to fossil fuels and, since it relies upon uranium as a fuel, of which a finite supply exists on Earth, is classified as “non-renewable” and hence not viable as a long-term energy source. But what do you mean “long-term”, anyway? Eventually, the Sun will burn out, after all, so even solar isn’t forever. Will ten thousand years or so do for now, until we can think of something better?

Energy “experts” scoff at the long-term prospects for nuclear fission power, observing that known worldwide reserves of uranium, used in present-day reactor designs, would suffice for only on the order of a century if nuclear power were to replace all primary power generation sources presently in use. But is this correct? In fact, this conclusion stems not from science and technology, but stupidity and timidity, and nuclear fission is a “bird in the hand” solution to the world’s energy problems awaiting only the courage and will to deploy it.

That is the conclusion by the authors of a paper with the same title as this post, “Nuclear Fission Fuel is Inexhaustible 45” [PDF, 8 pages], presented at the IEEE EIC Climate Change Conference in Ottawa, Canada in May 2006. Here is the abstract:

Nuclear fission energy is as inexhaustible as those energies usually termed “renewable”, such as hydro, wind, solar, and biomass. But, unlike the sum of these energies, nuclear fission energy has sufficient capacity to replace fossil fuels as they become scarce. Replacement of the current thermal variety of nuclear fission reactors with nuclear fission fast reactors, which are 100 times more fuel efficient, can dramatically extend nuclear fuel reserves. The contribution of uranium price to the cost of electricity generated by fast reactors, even if its price were the same as that of gold at US$14,000/kg, would be US$0.003/kWh of electricity generated. At that price, economically viable uranium reserves would be, for all practical purposes, inexhaustible. Uranium could power the world as far into the future as we are today from the dawn of civilization—more than 10,000 years ago. Fast reactors have distinct advantages in siting of plants, product transport and management of waste.