In sodium fast reactor designs, the fuel related inherent negative reactivity feedback is accomplished mainly through parasitic capture in U-238. However for an efficient minor actinide burning system, it is desirable to reduce or eliminate U-238 entirely to suppress further transuranic actinide generation. Consequently, reactivity feedback is accomplished by enhancing axial neutron streaming during a loss of coolant void situation. This is done by flattening “pancake” the active core geometry. Flattening the reactor also increases axial leakage which removes neutrons that could otherwise be used to destroy minor actinides. Therefore, it is important to tailor the neutron spectrum in the core for optimized feedback and minor actinide destru...
International audienceIn Fast Reactor systems the heterogeneous minor actinides transmutation is a p...
AbstractTo fulfill safety of fast sodium reactors in a beyond design-basis accident (BDBA) like unpr...
This research developed a design of an innovative sodium-cooled fast reactor (SFR) for minor actinid...
The threshold-fission (fertile) nature of Am-241 is used to destroy this minor actinide by capitaliz...
The sodium fast reactor is under consideration for consuming the transuranic waste in the spent nucl...
International audienceThe reduction of the initial excess reactivity in fast reactor cores would enh...
The primary objective of this study was to develop fuel cycle options that minimize the nuclear wast...
International audienceMinor actinides transmutation is a solution to decrease the long-term radiotox...
This paper shows that lead-cooled and sodium-cooled fast reactors (LFRs and SFRs) can preferentially...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...
A 1000 MWth commercial-scale Sodium Fast Reactor (SFR) design with a conversion ratio (CR) of 0.50 w...
Les réacteurs de IVème génération à neutrons rapides offrent la possibilité de valoriser le plutoniu...
The Systems Analysis Campaign under the Global Nuclear Energy Partnership (GNEP) has requested the f...
The effects of varying the reprocessing strategy used in the closed cycle of a Sodium Fast Reactor (...
paper 9205International audienceThe future of nuclear energy may require breeding and optimized wast...
International audienceIn Fast Reactor systems the heterogeneous minor actinides transmutation is a p...
AbstractTo fulfill safety of fast sodium reactors in a beyond design-basis accident (BDBA) like unpr...
This research developed a design of an innovative sodium-cooled fast reactor (SFR) for minor actinid...
The threshold-fission (fertile) nature of Am-241 is used to destroy this minor actinide by capitaliz...
The sodium fast reactor is under consideration for consuming the transuranic waste in the spent nucl...
International audienceThe reduction of the initial excess reactivity in fast reactor cores would enh...
The primary objective of this study was to develop fuel cycle options that minimize the nuclear wast...
International audienceMinor actinides transmutation is a solution to decrease the long-term radiotox...
This paper shows that lead-cooled and sodium-cooled fast reactors (LFRs and SFRs) can preferentially...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...
A 1000 MWth commercial-scale Sodium Fast Reactor (SFR) design with a conversion ratio (CR) of 0.50 w...
Les réacteurs de IVème génération à neutrons rapides offrent la possibilité de valoriser le plutoniu...
The Systems Analysis Campaign under the Global Nuclear Energy Partnership (GNEP) has requested the f...
The effects of varying the reprocessing strategy used in the closed cycle of a Sodium Fast Reactor (...
paper 9205International audienceThe future of nuclear energy may require breeding and optimized wast...
International audienceIn Fast Reactor systems the heterogeneous minor actinides transmutation is a p...
AbstractTo fulfill safety of fast sodium reactors in a beyond design-basis accident (BDBA) like unpr...
This research developed a design of an innovative sodium-cooled fast reactor (SFR) for minor actinid...