Robert Llewellyn posted Thorium Remix, a 2 hour-long video on Google Plus recently and I’ve just sat down to watch it in its entirety. In it, Kirk Sorensen explains Thorium, Liquid fluoride thorium reactors (LFTR or “lifter”) and using Thorium as a fuel in addition to Uranium in existing nuclear power plants.
Apart from a few comments about solar and wind that I think are a bit dismissive, you can learn a lot from this video about the history and science of nuclear power. And you’ll wonder why we haven’t got one of these already. It is not so much a big global conspiracy that is keeping it down; the reasons for the direction the world took on nuclear power are lamer than that.
There’s also some good discussion about Fukushima Daiichi power plant. I was in Japan in October 2011 (I was originally going to be in Sendai on 11 March 2011) and there was still a lot of concern about the nuclear industry. When a radioactive source was found a few km away from me in Tokyo by a mother with a Geiger counter/dosimeter, the first reports wondered how such a strong source could have travelled 250km and what did this mean for areas closer to Fukushima. The source was bottles of Radium that had probably been it an abandoned shed since 1955. (In 1956, new laws about the safe handling and storage of Radium took effect.)
I also learnt more nuclear physics in these 2 hours than I did at years of high school and university. What’s the correlation between half-life and how radioactive a substance is? It is worth your time and effort to watch this video about a version of the future of energy.
As homework, it’s worth comparing these two terms:
- Linear no-threshold that radiation is always considered harmful with no safety threshold, and the sum of several very small exposures are considered to have the same effect as one larger exposure (response linearity)
- Radiation hormesis that low doses of ionizing radiation (within the region and just above natural background levels) are beneficial, stimulating the activation of repair mechanisms that protect against disease, that are not activated in absence of ionizing radiation.
- Geeking Out on Thorium (dotnetrocks.com)
- How thorium can burn nuclear waste and generate energy (smartplanet.com)
- Is a nuclear powered car in our future? (reviews.cnet.com)
- Uranium Is So Last Century — Enter Thorium, the New Green Nuke (wired.com)
- China Takes Lead in Race for Clean Nuclear Power (wired.com)