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Produkcija parametričnih modelov tokamaka za nevtronske simulacije
ID Gabrijel, Anže (Author), ID Gyergyek, Tomaž (Mentor) More about this mentor... This link opens in a new window, ID Čufar, Aljaž (Comentor)

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Abstract
Računalniško oblikovani modeli (CAD) imajo pomembno vlogo pri načrtovanju in obratovanju fuzijskih in fisijkskih reaktorjev. Uporabljajo se pri gradnji, nadgradnji naprav ter postavitvi komponent. Igrajo ključno vlogo pri izdelavi komponent, integraciji sistemov in različnih simulacijah, vključno s simulacijami transporta nevtronov in žarkov gama z metodo Monte Carlo. Te simulacije zagotavljajo, da naprave delujejo znotraj obratovalnih parametrov, prepoznavajo potencialne težave ter ocenjujejo ključne značilnosti reaktorja ali komponent. Priprava CAD modela reaktorja ali posameznih komponent tipično zahteva veliko uporabniškega časa, da pride do oblike primerne za uporabo. Običajno gredo modeli skozi cikličen proces izpopolnjevanja in analiz, ki je lahko časovno potraten. Tekom tega postopka se spremembe v modelu tipično zmanjšujejo, zato se je smiselno vprašati, na kateri točki je smiselno, da proces izpopolnjevanja modela opravijo kar analisti sami in kakšna orodja bi jim pri tem pomagala. Za rešitev problema smo uporabili Python knjižnico CadQuery, ki nam je omogočila modeliranje s povsem parametričnim pristopom, kot tudi avtomatizacijo tega procesa. Ukaze smo zbrali v modul imenovan STOK, katerega smo s pomočjo programov Monte Carlo tudi validirali. Rezultati analiz Monte Carlo modela STOK so pokazali rezultate primerljive tistim, ki smo jih pridobili v simulacijah z modelom pripravljenim na bolj klasičen način. Naš pristop k avtomatizaciji procesa modeliranja in optimizacije modelov smo sprva ustvarili in nato validirali. To nam daje podlago za nadaljnje raziskave in uporabo orodja na področju optimizacije fuzijskih reaktorjev z vidika nevtronike.

Language:Slovenian
Keywords:fuzija, reaktor, parametrično modeliranje, STOK, Python, CAD, CadQuery
Work type:Bachelor thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2023
PID:20.500.12556/RUL-149131 This link opens in a new window
COBISS.SI-ID:164264195 This link opens in a new window
Publication date in RUL:04.09.2023
Views:826
Downloads:230
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Secondary language

Language:English
Title:Production of parametric models of tokamak for use in neutronic simulations
Abstract:
Computer-aided design (CAD) models play an important role in fusion and fission reactor design and operation. They are used in the construction, upgrading of devices, and component placement. They play a crucial role in component manufacturing, system integration, and various simulations, including simulations of neutron and gamma ray transport using the Monte Carlo method. These simulations ensure operation within parameters, identify potential issues, and assess key features of a reactor or component. The preparation of a CAD model for a reactor or individual components typically requires a significant amount of user time to reach a usable form. Models usually undergo a cyclical process of refinement and analysis, which can be time-consuming. As changes in the model during this process are typically progressively smaller, it makes sense to consider at what point analysts themselves should perform the model refinement process and what tools would aid them in that effort. To address this problem, we utilized the Python library CadQuery, which enabled us to prepare models with a fully parametric approach and automate this process. We collected these functions into a module called STOK, which we validated using Monte Carlo programs. The results of Monte Carlo analyses of the STOK model showed comparable results to those models that were designed in a more conventional way. Our approach to automating the modeling and model optimization process was initially created and then validated, providing a foundation for further research in the field of optimisation of fusion reactor models in terms of neutronics.

Keywords:fusion, reactor, parametric modeling, STOK, Python, CAD, Cad- Query

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