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This framework, developed by Michał Maciejewski under the supervision of Emmanuele Ravaioli, provides an automated object-oriented approach for simulating superconducting magnet systems. The model uses a lumped-element dynamic electro-thermal approach, assuming a 2D design split into poles and half-poles. All properties are calculated per unit length. By utilizing the IFCL and ISCL frameworks, simulations are streamlined, requiring only a single Excel file for model definition. This eliminates the need for prior Simulink experience and allows users to focus on parameters and results, with automatic multi-parameter simulation capability.
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Automated object oriented simulation framework Michał Maciejewski TE-MPE-PE 03.03.2014 Supervisor: EmmanueleRavaioli
Superconducting Magnet Modelling Wcable lcoil hcable dstrand Then poles are split into cables. We use lumped-element dynamic electro-thermal model Magnet is assumed to be 2D and is split into poles/half-poles All properties are calculated per unit length. The model employs IFCL(x,y) and ISCL
Framework Architecture Model.netlist Black box Simulink Model • Thermal Mass • Helium Cooling • Heat Exchange • QuenchResistor • CLIQ • … Objects
Summary • Onlyone Excel file needed to define model • User canfocusonly on parametersand results • Framework does not requireanyexperience in Simulink • Automatic run of simulations with varying parameters
