Add to ORKGThe use of first- and second-order perturbation theory is studied to optimize the design of a fusion reactor blanket region. The basis in variational and sensitivity theory is outlined with a simple model. The theory is applied to the optimization of a fusion reactor in a one-dimensional transport model, illustrated by considerations of tritium breeding and of minimizing induced activity. It is concluded that the second-order method has attractive features but must also be interpreted carefully. General trends for improving the breeding ratio by use of lithium enrichment are reported
Within the past year, major reactor design studies have been performed using Li/sub 2/O as a breeder...
The goal of the research is to significantly improve the working conditions of next-step fusion reac...
The efficiencies of blankets for fusion reactors are usually in the range of 30 to 40%, limited by t...
The commercial feasibility of the first fusion power plant generation adopting D-T plasma is strongl...
In fusion reactors, the blanket design and its characteristics have a major impact on the reactor pe...
At the present state of engineering development, the most probable fusion reactor fuel cycle will us...
The commercial feasibility of the first fusion power plant generation adopting D-T plasma is strongl...
Nuclear in-core fuel management involves all the physical aspects which allow optimal operation of t...
Affordable Robust Compact reactor is a conceptual design for a Tokamak conceived by Massachusetts In...
The goal of this dissertation is to examine the neutronic properties of a novel type of fusion react...
This dissertation develops a simulation tool capable of optimizing advanced nuclear reactors conside...
In past studies, nested optimization methods were successfully applied to design of the magnetic div...
The many possible combinations of blanket materials, tritium generation and recovery systems, and po...
The tritium production rate in a DEMO fusion-reactor blanket with Li17Pb83 liquid breeder has been c...
The feasibility of fusion reactor blankets with low residual activity is examined. Several designs a...
Within the past year, major reactor design studies have been performed using Li/sub 2/O as a breeder...
The goal of the research is to significantly improve the working conditions of next-step fusion reac...
The efficiencies of blankets for fusion reactors are usually in the range of 30 to 40%, limited by t...
The commercial feasibility of the first fusion power plant generation adopting D-T plasma is strongl...
In fusion reactors, the blanket design and its characteristics have a major impact on the reactor pe...
At the present state of engineering development, the most probable fusion reactor fuel cycle will us...
The commercial feasibility of the first fusion power plant generation adopting D-T plasma is strongl...
Nuclear in-core fuel management involves all the physical aspects which allow optimal operation of t...
Affordable Robust Compact reactor is a conceptual design for a Tokamak conceived by Massachusetts In...
The goal of this dissertation is to examine the neutronic properties of a novel type of fusion react...
This dissertation develops a simulation tool capable of optimizing advanced nuclear reactors conside...
In past studies, nested optimization methods were successfully applied to design of the magnetic div...
The many possible combinations of blanket materials, tritium generation and recovery systems, and po...
The tritium production rate in a DEMO fusion-reactor blanket with Li17Pb83 liquid breeder has been c...
The feasibility of fusion reactor blankets with low residual activity is examined. Several designs a...
Within the past year, major reactor design studies have been performed using Li/sub 2/O as a breeder...
The goal of the research is to significantly improve the working conditions of next-step fusion reac...
The efficiencies of blankets for fusion reactors are usually in the range of 30 to 40%, limited by t...