Neutronics shielding analysis of the last mirror-beam duct system for a laser fusion power reactor
Abstract
A Monte Carlo three-dimensional neutronics analysis for the last mirror-beam duct system for the SOLASE conceptual laser-driven fusion power reactor design is presented. Detailed geometric configurations including the reactor cavity, the two last mirrors, and the three-section two-right-angle bends duct are modeled. Measurements are given of the dimensions and compositions of the reactor components, and of neutron scalar fluxes, spatial dependencies and neutron volumetric heating rates for the cases of aluminum or Boral as laser beam duct liners, and ordinary concrete or lead mortar as shield material. A three-dimensional modeling of laser-driven reactor penetrations is employed. The particle leakage is found to be excessively high for the configuration of the conceptual design considered and the advantages and disadvantages of various solutions, such as the use of Boral as a duct liner and the use of lead mortar instead of ordinary concrete as a shield material, are considered.
- Publication:
-
Nuclear Technology Fusion
- Pub Date:
- January 1981
- DOI:
- 10.13182/FST81-A19919
- Bibcode:
- 1981NucTF...1...99R
- Keywords:
-
- Fusion Reactors;
- Laser Fusion;
- Magnetic Mirrors;
- Monte Carlo Method;
- Neutron Emission;
- Radiation Shielding;
- Ducts;
- Energy Technology;
- Leakage;
- Linings;
- Particle Beams;
- Plasma Control;
- Radiation Damage;
- Radiation Hazards;
- Reactor Design;
- Reactor Materials;
- Three Dimensional Models;
- Engineering (General)