Add to ORKGIn this work a method to collapse a 3D geometry into a mono dimensional model of a fusion reactor blanket is developed and tested. Using this model, neutron and photon uxes and its energy deposition will be obtained with a Monte Carlo code. This results will allow to calculate the TBR and the thermal power of the blanket and will be able to be integrated in the AINA code
The viability of various materials and blanket designs for use in nuclear fusion reactors can be tes...
A series of neutronics experiments with mockups relevant to solid breeder water cooled blanket at FN...
In the framework of research activities on fusion reactors a great effort is dedicated by the scient...
In this work a method to collapse a 3D geometry into a mono dimensional model of a fusion reactor b...
Any fusion reactor in the near future will be based on the deuteriumtritium fusion reaction. Since t...
At the present state of engineering development, the most probable fusion reactor fuel cycle will us...
This study gives a report an neutronic calculations which have been performed to design the blanket ...
In the frame of the studies developed for DEMO breeding blankets, a type of blanket with Pb17Li as b...
Neutronic modeling of fusion machines requires a detailed representation of their complex geometry i...
AbstractHigh energy neutrons produced in future fusion reactors will cause significant transmutation...
Calculations of the tritium breeding ratio and heating rates for two proposed blanket designs are ob...
One-dimension neutronic calculations of the DEMO blanket outboard module (Figure 1.28) have been per...
An experimental method for measuring the relative, space-dependent tritium production in a blanket m...
The space dependent energy deposition and tritium production rate for a lithium-metal fusion reactor...
One of the major requirements for a fusion power plant in the future is tritium self-sufficiency. Fo...
The viability of various materials and blanket designs for use in nuclear fusion reactors can be tes...
A series of neutronics experiments with mockups relevant to solid breeder water cooled blanket at FN...
In the framework of research activities on fusion reactors a great effort is dedicated by the scient...
In this work a method to collapse a 3D geometry into a mono dimensional model of a fusion reactor b...
Any fusion reactor in the near future will be based on the deuteriumtritium fusion reaction. Since t...
At the present state of engineering development, the most probable fusion reactor fuel cycle will us...
This study gives a report an neutronic calculations which have been performed to design the blanket ...
In the frame of the studies developed for DEMO breeding blankets, a type of blanket with Pb17Li as b...
Neutronic modeling of fusion machines requires a detailed representation of their complex geometry i...
AbstractHigh energy neutrons produced in future fusion reactors will cause significant transmutation...
Calculations of the tritium breeding ratio and heating rates for two proposed blanket designs are ob...
One-dimension neutronic calculations of the DEMO blanket outboard module (Figure 1.28) have been per...
An experimental method for measuring the relative, space-dependent tritium production in a blanket m...
The space dependent energy deposition and tritium production rate for a lithium-metal fusion reactor...
One of the major requirements for a fusion power plant in the future is tritium self-sufficiency. Fo...
The viability of various materials and blanket designs for use in nuclear fusion reactors can be tes...
A series of neutronics experiments with mockups relevant to solid breeder water cooled blanket at FN...
In the framework of research activities on fusion reactors a great effort is dedicated by the scient...