Comments on: Thorium as a Nuclear Fuel http://www.dailyreckoning.com.au/thorium/2008/07/02/ An independent perspective on the Australian and global investment markets Sat, 21 Nov 2009 17:27:32 -0600 http://wordpress.org/?v=2.8 hourly 1 By: charlesH http://www.dailyreckoning.com.au/thorium/2008/07/02/comment-page-1/#comment-30858 charlesH Thu, 17 Jul 2008 05:01:48 +0000 http://www.dailyreckoning.com.au/?p=2899#comment-30858 If you combine thorium in a liquid fluoride thorium reactor (LFTR)you get results frankly too good to be true. Results much better than just putting thorium in a uranium reactor. We need to move in this direction. For those of you concerned about nuclear safety and waste products there is a much better alternative. Thorium based (rather than uranium based) nuclear power. This technology was demonstrate in the 50's and 60's but was abandoned because it was much harder to produce weapons grade material (compared to uranium). The military considerations favored the uranium fuel cycle. More specifically LFTR (liquid fluoride thorium reactors) compared to uranium reactors burn fuel 100x more efficiently without reprocessing, result in ~100x less waste and are inherently safer and should cost less to build. In addition, since LFTR is a high temp low pressure process it can use water or air cooling. Thus where water is scarce, it could replace coal fired plants with low cost, clean thorium power plants. Much more cost effective and reliable than wind and solar plant. Comparison: Uranium vs Thorium Based Nuclear Power Uranium LWR : Thorium LFTR Fuel Reserves (relative) __________________ 1 : 100 Fuel Mining Waste Volume (relative) ____ 1000 : 1 Fuel Burning Efficiency _______________ ~1% : >95% Radioactive Waste Volume (relative) ______ 40 : 1 Radioactive Waste Isolation Period __10000yrs : 80% 10yrs, 20% 300yrs Plant Cost (relative) _____________________ 1 : <1 Plant Thermal Efficiency _____________ ~33% : ~50% Cooling Requirements _______________ Water : Water or Air Plant Safety _______________________ Good : Very Good Weapons Grade Material Production ____ Yes : No(very hard) Burn Existing Nuclear Waste ___________ No : Yes Development Status _______ Commercial Now : Demonstrated for more info see www.energyfromthorium.com/ www.energyfromthorium.com/ppt/thoriumVsUranium.ppt charlesH (BS Physics) Orem, Utah If you combine thorium in a liquid fluoride thorium reactor (LFTR)you get results frankly too good to be true. Results much better than just putting thorium in a uranium reactor. We need to move in this direction.

For those of you concerned about nuclear safety and waste products there is a much better alternative. Thorium based (rather than uranium based) nuclear power. This technology was demonstrate in the 50's and 60's but was abandoned because it was much harder to produce weapons grade material (compared to uranium). The military considerations favored the uranium fuel cycle.

More specifically LFTR (liquid fluoride thorium reactors) compared to uranium reactors burn fuel 100x more efficiently without reprocessing, result in ~100x less waste and are inherently safer and should cost less to build.

In addition, since LFTR is a high temp low pressure process it can use water or air cooling. Thus where water is scarce, it could replace coal fired plants with low cost, clean thorium power plants. Much more cost effective and reliable than wind and solar plant.

Comparison: Uranium vs Thorium Based Nuclear Power

Uranium LWR : Thorium LFTR

Fuel Reserves (relative) __________________ 1 : 100
Fuel Mining Waste Volume (relative) ____ 1000 : 1
Fuel Burning Efficiency _______________ ~1% : >95%
Radioactive Waste Volume (relative) ______ 40 : 1
Radioactive Waste Isolation Period __10000yrs : 80% 10yrs, 20% 300yrs

Plant Cost (relative) _____________________ 1 : <1
Plant Thermal Efficiency _____________ ~33% : ~50%
Cooling Requirements _______________ Water : Water or Air
Plant Safety _______________________ Good : Very Good
Weapons Grade Material Production ____ Yes : No(very hard)
Burn Existing Nuclear Waste ___________ No : Yes
Development Status _______ Commercial Now : Demonstrated

for more info see

http://www.energyfromthorium.com/

http://www.energyfromthorium.com/ppt/thoriumVsUranium.ppt

charlesH (BS Physics)
Orem, Utah

]]> By: Ken http://www.dailyreckoning.com.au/thorium/2008/07/02/comment-page-1/#comment-28874 Ken Wed, 02 Jul 2008 11:54:40 +0000 http://www.dailyreckoning.com.au/?p=2899#comment-28874 THPW's fuel design is purported to be compatible with Westinghouse's AP1000 reactor and Westinghouse has published a positive assessment of the technology. THPW's fuel design is purported to be compatible with Westinghouse's AP1000 reactor and Westinghouse has published a positive assessment of the technology.

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