SMITER
1.6
Table of Contents
1. Introduction
2. Tutorials
3. Thermal modelling
3.1. Background
3.2. ITER First Wall thermal model
3.3. Tutorials
3.4. EHF Finger With Constant Plasma Heat Flux
3.5. Elmer NF55
3.6. Calculation of Heat Transfer in 3D Pipe
4. HOWTOs
5. SMITER module description
6. Additional resources
SMITER
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3. Thermal modelling
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3. Thermal modelling
ΒΆ
3.1. Background
3.1.1. Heat Transfer in Solids
3.1.2. Finite Element Method Formulation
3.1.3. Galerkin Method
3.2. ITER First Wall thermal model
3.2.1. Mesh files
3.2.1.1. File mesh.header
3.2.1.2. File mesh.node
3.2.1.3. File mesh.element
3.2.1.4. File mesh.boundary
3.2.2. File SIF
3.2.2.1. Header
3.2.2.2. Simulation
3.2.2.3. Constants
3.2.2.4. Body and Material Definition
3.2.2.5. Equation and Solver Definition
3.2.2.6. Boundary Condition Definition
3.2.3. Model Preparation
3.2.3.1. Enhanced Heat Flux Panel
3.2.3.2. Normal Heat Flux Panel
3.2.3.3. Boundary conditions
3.2.4. Benchmark study
3.2.4.1. 2D comparison
3.2.5. Transformation of panel
3.2.5.1. VTK file structure
3.2.5.2. Euler-Rodrigues Formula
3.2.6. Interpolation of Heat Fluxes
3.2.7. Results
3.2.7.1. Panel 18
3.2.7.2. Panel 12
3.2.7.3. Panel 1
3.2.7.4. Panel 7
3.2.7.5. Panel 4
3.3. Tutorials
3.4. EHF Finger With Constant Plasma Heat Flux
3.4.1. Importing BREP file into SMITER GUI
3.4.2. Defining Subsections
3.4.3. Meshing the CAD model
3.4.4. Defining The Model Properties
3.4.4.1. Defining The Solver
3.4.4.2. Defining Material Properties
3.4.4.3. Defining Boundary Conditions
3.4.4.4. Assigning Properties To Sections
3.4.4.5. Store case to ELMER Study
3.4.4.6. Running the Computation
3.4.4.7. Viewing the result
3.5. Elmer NF55
3.5.1. Result
3.6. Calculation of Heat Transfer in 3D Pipe
3.6.1. Examine model in the GEOQ and MESH module