Add to ORKGThe Korean once-through and fast reactor cycles have been analyzed by using the dynamic analysis method. At first a once-through fuel cycle analysis was performed based on Korea’s nuclear power plant construction plan up to 2015 and a postulated nuclear demand growth rate by using a logistic model after 2015. The once-through fuel cycle calculation showed that the nuclear power demand would be 46 GWe and the total amount of accumulated spent fuel by 2100 would be ~92000 t. Second, the fuel cycle parameters of the sodium-cooled fast reactor and accelerator driven system scenarios were estimated and compared with those of the once-through fuel cycle. From the calculation results, it is shown that the fast reactor cycle can effectively reduce ...
AbstractAfter the Fukushima Dai-ichi Nuclear Power Station accident, the future role and perspective...
This master’s thesis deals with usage of burn-up (spent) nuclear fuel in nuclear power plants of nex...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...
An economic analysis has been performed to compare four nuclear fuel cycle options: a once-through c...
This study investigated mixing scenarios of the low and high conversion ratios (CRs) of fast reactor...
The primary objective of this study was to develop fuel cycle options that minimize the nuclear wast...
The paper presents the results of a case study on evaluating performance and sustainability metrics ...
Although no consensus about the best approach to manage spent fuels has been achieved, economics is ...
This paper examines the time-dependent dynamics of transitioning from a once-through fuel cycle to a...
Numerous studies have attempted to solve the problems constraining the sustainable utilization of nu...
Four European fuel cycle scenarios involving transmutation options (in coherence with PATEROS and CP...
Once-through fuel cycle systems are commercially used for the generation of nuclear power, with litt...
The purpose of this paper is to recommend a break-even point for the capital investment cost for a S...
AbstractFast Breeder Reactors drastically improve uranium resource utilization efficiency to realize...
The fuel composition of the Generation IV 600 MWth 'efficient' Gas Cooled Fast Reactor (GCFR) that r...
AbstractAfter the Fukushima Dai-ichi Nuclear Power Station accident, the future role and perspective...
This master’s thesis deals with usage of burn-up (spent) nuclear fuel in nuclear power plants of nex...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...
An economic analysis has been performed to compare four nuclear fuel cycle options: a once-through c...
This study investigated mixing scenarios of the low and high conversion ratios (CRs) of fast reactor...
The primary objective of this study was to develop fuel cycle options that minimize the nuclear wast...
The paper presents the results of a case study on evaluating performance and sustainability metrics ...
Although no consensus about the best approach to manage spent fuels has been achieved, economics is ...
This paper examines the time-dependent dynamics of transitioning from a once-through fuel cycle to a...
Numerous studies have attempted to solve the problems constraining the sustainable utilization of nu...
Four European fuel cycle scenarios involving transmutation options (in coherence with PATEROS and CP...
Once-through fuel cycle systems are commercially used for the generation of nuclear power, with litt...
The purpose of this paper is to recommend a break-even point for the capital investment cost for a S...
AbstractFast Breeder Reactors drastically improve uranium resource utilization efficiency to realize...
The fuel composition of the Generation IV 600 MWth 'efficient' Gas Cooled Fast Reactor (GCFR) that r...
AbstractAfter the Fukushima Dai-ichi Nuclear Power Station accident, the future role and perspective...
This master’s thesis deals with usage of burn-up (spent) nuclear fuel in nuclear power plants of nex...
Nuclear energy systems of the future must rise to the twin challenges of sustainable energy producti...