Along with the
Price–Anderson Nuclear Industries Indemnity Act, in the debate over the use of nuclear power, I rarely if ever here this interesting angle.
An increasing number of former industry and non-industry experts are saying that at best nuclear power releases slightly fewer greenhouse gases to the atmosphere than if the fossil fuels embodied in it had been burned to make electricity directly.
In his 2002 book, Asleep at the Geiger Counter, p. 107-118, Sidney Goodman, (giving the industry the benefit of the doubt on a number of fronts and assuming no serious accidents or terrorism), concludes that the net output of the typical nuclear power plant would be only 4% more than if the fossil fuels embodied in it had been uses directly to produce electricity. This means, best-case scenario, replacing direct fossil fuel generated electricity with nuclear generated electricity will only reduce the carbon dioxide released per unit of electricity produced by 4%. Goodman is a long practicing licensed Professional Engineer with a Masters Degree in Mechanical Engineering.
Other experts believe that nuclear power will produce about the same amount of energy as was, is, and will be consumed to create, operate and deal with its aftermath. This case was made in an article published in Pergamon Journals Ltd. Vol.13, No. 1, 1988, P. 139, titled “The Net Energy Yield of Nuclear Power.” In their article the authors concluded that even without including the energy that has or would be consumed to mitigate past or future serious radioactive releases, nuclear power is only “the re-embodiment of the energy that went into creating it.”
In its July/August 2006 edition, The Ecologist Magazine, a respected British publication, featured a16-page analysis of nuclear power.
One of the conclusions was that nuclear power does not even produce enough electricity to make up for the fossil fuels consumed just to mine, mill and otherwise process uranium ore into nuclear fuel, much less all the other energy inputs required This is not surprising given that typical U-235 ore concentrations of .01% to .02%, require mining, crushing and processing a ton of ore to end up with 1/2 oz to 1 oz of nuclear reactor fuel.
SOURCE:
http://www.counterpunch.org/bell10242008.html