29th Symposium on Fusion Technology (SOFT 2016)
Contribution ID :
50145
Type :
Poster
P4.017 Feasibility study for an advanced nuclear
fusion experiment
Thursday, 8 September 2016 14:20 (1:40)
Content
Nuclear Fusion is a candidate as a long-term energy solution for developed countries. A fusion
plasma can be fuelled by different kinds of isotopes. The advantages of Deuterium-Helium-3 (DHe)
plasmas of advanced fusion reactors lie in the scarcity of neutrons (due to side DD and DT reactions),
and direct conversion of the produced energy without thermal cycle. The proposed CANDOR
DHe plasma experiment design, based on the technologies developed for Ignitor, has been recently
reviewed. The design evolution, called Candor-II, is presented: it should be able to reach fusion
conditions on a DHe plasma based on existing technologies and knowledge. The new device is
intended to be the cornerstone for studies of DHe plasmas: its dimensions are larger than Ignitor,
although still compact and based on the same operating components. Detailed investigations by
NASA show that obtaining He3 from the moon surface is technically feasible and economically
viable. The annual fuel needs for Candor-2 would amount in around 2 g of He3, that is, around 60 g
for all its operating life. Lunar mobile mining techniques, with the concept of a mobile miner, were
developed by NASA. The net annual collection rate of such a unit is 33 kg of He3. Concerning costs,
the total cost of extraction of He3, all inclusive from lunar mining down to He3 transportation to
Earth is estimated to be 1000 USD/g Therefore, the fuel cost for Candor would be around 60.000
USD in 30 years, or around 2000 USD per year. Our study on DHe compact high-magnetic field
tokamaks shows that no environmental problems arise from such devices, from the radiological point
of view. The DHe fusion cycle offers strong safety advantages and could be the ultimate response to
the environmental requirements for future nuclear power plants.
Co-author(s) :
CRUZ MALAGON, Dario Andres (DENERG, Politecnico di Torino, Torino, Italy); ZUCCHETTI, Massimo (DENERG, Politecnico di Torino, Torino, Italy); COPPI, Bruno (MIT, 77 Massachusetts Avenue, Cambridge (MA), United States)
Presenter(s) : CRUZ MALAGON, Dario Andres (DENERG)
Session Classication : P4 Poster session
Track Classication : A. Experimental Fusion Devices and Supporting Facilities