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Anonymous1769267210
01-24 16:33
Model Name
tokamak fusion reactor 3d model
Tags
machine
simulation
realistic
Prompt
Create a highly detailed, realistic 3D CAD model of a Nuclear Fusion Power Reactor based on a Tokamak magnetic confinement design, suitable for engineering visualization, academic presentation, and technical demonstration. The model must include the following components arranged concentrically and logically, with clear separation of systems and accurate proportions. 1. Overall Structure: - Donut-shaped (toroidal) reactor vessel as the central structure - Vertical cylindrical support structure beneath the reactor - Industrial-scale proportions (large reactor hall concept) - Clean, modern, high-tech appearance 2. Vacuum Vessel (Fusion Chamber): - Toroidal stainless-steel vacuum chamber - Thick walls designed to withstand high temperature and vacuum - Inner surface labeled as “First Wall” - Include access ports around the torus for diagnostics and heating 3. Plasma Core: - Bright glowing plasma ring inside the vacuum vessel - Plasma shown as ionized gas (bluish-purple glow) - Floating without touching the walls - Label: “Deuterium–Tritium Plasma (150 million °C)” 4. First Wall: - Thin inner lining on vacuum vessel - Material appearance: tungsten and beryllium - Heat-resistant textured surface - Positioned directly facing plasma 5. Superconducting Magnet System: - Large toroidal field coils evenly spaced around the reactor - Coils shaped like tall curved loops around the torus - Material appearance: metallic with cryogenic insulation - Label coils as “Superconducting Toroidal Field Magnets” - Add poloidal field coils above and below the torus 6. Cryogenic Cooling System: - Pipes connected to magnets - Label: “Liquid Helium Cooling System (–269 °C)” - Pipes should look insulated and metallic 7. Heating Systems: - Neutral Beam Injectors mounted radially - Long cylindrical injectors pointing toward plasma - Label: “Neutral Beam Injection System” - Indicate Ohmic heating via plasma current path 8. Breeding Blanket and Cooling Jacket: - Thick outer layer surrounding vacuum vessel - Filled with pressurized water and lithium compound - Label: “Lithium Blanket & Neutron Shield” - Show arrows indicating neutron energy absorption - Include internal coolant channels 9. Primary Cooling Loop: - Large high-pressure water pipes exiting blanket - Label: “Primary Coolant Loop (Heat Extraction)” - Pipes lead to steam generator 10. Steam Generator (Heat Exchanger): - Large cylindrical vessel outside reactor - Primary hot water pipes entering - Secondary water loop inside converting to steam - Label clearly as “Steam Generator” 11. Steam Turbine System: - Multi-stage steam turbine connected to generator - Turbine blades visible in cutaway view - Label: “High-Pressure Steam Turbine” 12. Electrical Generator: - Cylindrical generator connected to turbine shaft - Label: “Electric Generator” - Show electricity output cables 13. Condenser and Cooling Tower: - Condenser unit after turbine - Steam converted back to water - Closed-loop water cycle pipes returning to steam generator - Label: “Condenser – Rankine Cycle” 14. Tritium Handling System: - Small sealed pipes from blanket to storage tanks - Label: “Tritium Extraction & Recycling System” - Storage tanks shown shielded and isolated 15. Safety and Shielding: - Thick concrete biological shield around reactor core - Label: “Radiation Shielding” - Emergency shutdown and monitoring units 16. Labels and Annotations: - All major components labeled clearly - Use clean engineering font - Optional arrows showing energy flow: Fusion → Heat → Steam → Turbine → Electricity 17. Visual Style: - Semi-realistic industrial CAD style - Mix of solid view and cutaway sections - Neutral metallic colors with glowing plasma - Educational and professional appearance
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Anonymous1769267210
Anonymous1769267210