HIGH-QUALITY PAPERS (16 PAGE MAXIMUM) ARE SOLICITED IN THE FOLLOWING AREAS
1. FUNDAMENTAL THERMAL HYDRAULICS | 6. LIQUID METAL THERMAL HYDRAULICS |
1a Fundamental Thermal Hydraulics | 6a Turbulent Heat Transport Modelling |
1b Two-phase Flow and Heat Transfer | 6b Fuel Assembly and Core Thermal Hydraulics |
1c Boiling and Condensation | 6c Pool Thermal Hydraulics |
1d Interfacial Area Transport | 6d Chemistry Control |
1e Natural Circulation | 6e Sloshing and gas entrainment |
1f Reactor Core & Sub-channel Thermal Hydraulics | 6f Solidification |
1g Experimental Methods and Instrumentation | 6g System Thermal Hydraulics |
1h Turbulent Heat and Mass Transfer | 6h Severe Accidents and Containment |
2. COMPUTATIONAL THERMAL HYDRAULICS | 7. ADVANCED REACTORS |
2a Thermal Hydraulics System Code Analysis | 7a Advanced Reactors General |
2b Computational Fluid Dynamics | 7b Small Modular Reactors |
2c Computational Multi-Fluid Dynamics | 7c High-Temperature Gas-Cooled Reactors |
2d Multi-scale Analysis | 7d Sals-Cooled High-Temperature Reactors |
2e Multi-physics Analysis | 7e Molten Salt Fueled Reactors |
2f Multi-species Analysis | 7f Supercritical Water Reactors |
3. VERIFICATION, VALIDATION AND UNCERTAINTY QUANTIFICATION | 8. SPECIAL TOPICS |
3a Verification & Validation | 8a Versatile Test Reactor |
3b Experiments and Databases for Validation | 8b Transformational Challenge Reactor |
3c V&V for CFD | 8c UQ Methods for CFD |
3d V&V for Thermal Hydraulics Codes | 8d DNS for Model Development |
3e Best Practice Guidelines | 8e Reduced Order Methods |
4. WATER-COOLED REACTORS OPERATION AND SAFETY | 8f CONUSAF/FONESYS |
4a LWR Operation and safety | 8g Sub-channel Code Analysis |
4b HWR Operation and safety | 8h Fluid Structure Interaction |
4c Transient and Accident Analysis | 8i Accident Tolerant Fuel |
4d Scaling Issues | 8j Machine Learning in Thermal Hydraulics |
4e BEPU Analysis and Challenges in Licensing | 8k GEMINI-collaboration |
4f Instabilities and Nonlinear Dynamics | 8l All-regime Two-Phase Flow Modelling |
4g Next Generation LWRs | 8m Post-Fukushima Daiichi Accident Forensic |
5. SEVERE ACCIDENTS | 8n Nuclear Thermal Hydraulics Program UK BEIS |
5a Severe Accidents | 8o High Performance Computin |
5b Design Features for Severe Accident Mitigation | 8p Advanced Instrumentation for TH Experiments |
5c Natural Convection | 8q Thermal Hydraulics for Fusion |
5d Debris Bed cooling | 8r Microreactor Thermal Hydraulics |
5e Fuel-Coolant Interaction | 8s IAEA CRP on Benchmark Analysis of FFTF Loss of Flow Without Scram Test |
5f Hydgrogen Management | 8t Reflood Thermal Hydraulics Benchmark: Experimental Effort and Code Validation |
5g Fission Product Behavior | 8u Reliability of Passive Systems |
5h Containment Thermal Hydraulics | 8v IPRESCA project |
Tekst | 8w Passive Autocatalytic Recombiners |
test | 8x OECD/NEA SAPIUM Project Results |
test | 8y ESNII Thermal Hydraulics |
test | 8z Thermal Hydraulic Research in NEAMS |