Home > Publications database > Moderne Monte Carlo Teilchentransport-Simulationsverfahren für sicherheitstechnische Anwendungen und Fragestellungen in der Beschleunigertechnik und in der Raumfahrt |
Book/Report | FZJ-2018-03791 |
1992
Forschungszentrum Jülich GmbH Zentralbibliothek, Verlag
Jülich
Please use a persistent id in citations: http://hdl.handle.net/2128/19154
Report No.: Juel-2609
Abstract: The application potential of modern particle radiation transport simulations to solve safety and radiation protection problems in accelerator technology and in sparte science and technology is presented. lt is shown to what extend Monte Carlo simulation is helpful to define safety regulations, safety standards and to determinecorresponding safety proofs. For this purpose the basic methods are described and their performance together with particular examples are assessed. The state-of-the-art of the computational methods is described together with the existing computer codes. The details of the today used 3 - dimensional geometry packages are also given. Neeessarg nuclear transport data and reaction eross sections in respect to shielding and safety protection problems are investigated. The performance and flexibility of the HERMES Monte Carlo System ($\underline{H}$igh $\underline{E}$nergy $\underline{R}$adiation $\underline{M}$onte Carlo $\underline{E}$laborate $\underline{S}$ystem) and its utiliaation solving safety protection problems is demonstrated. Examples of radiation protection and high energy source shielding for medium and high energy particle accelerators and for high surrest particle accelerator target systems are summarized. Radiation protection and shielding of sparte vehicles against cosmic ray radiation are compiled and assessed. Validations of experimental results are also given.
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