| 1. | |
introduction | introduction to global energy, primary energy sources, and issues with fossil fuels |  |
| 2. | |
thermal nuclear reactors | current light water thermal reactor systems, their design and operational parameters | |
| 3. | |
high temperature reactors, GEN IV Reactors | hydrogen and as energy carrier, hydrogen economy, nuclear heat and electrical driven hydrogen generation systems | |
| 4. | |
hydrogen economy, nuclear hydrogen system | nuclear power plant heat source, decay heat, reactor heat transport systems, power conversion, intermediate heat exchanger, process heat exchangers | |
| 5. | |
nuclear reactor heat source, IHX | hydrogen production with steam methane reformation, water shift reactor, process parameters, conversion efficiency | |
| 6. | |
hydrogen generation via steam reformation process | high temperature thermochemical based hydrogen generation, various chemical intermediates, electrochemical processes | |
| 7. | |
thermochemical cycles overview | sulfur based thermochemical process, sulfur iodine cycle, Westinghouse hybrid cycle, process flow sheets, operating conditions and reaction details | |
| 8. | |
SI cycle, HyS cycle | non-sulfur thermochemical cycles, university of Tokyo cycle, calcium chloride, calcium bromide cycle, high temperature electrolysis | |
| 9. | |
UT-3, High Temp. Electrolysis | nuclear reactor heat coupling to hydrogen production schemes, heat and temperature matching to thermochemical process conditions thermal efficiency | |
| 10. | |
H2 production Processes Heat matching, efficiency | nuclear hydrogen system schemes, heat and temperature matching to thermochemical process conditions, thermal efficiency | |
| 11. | |
IHX Systems nuclear H2 R&D projects | nuclear hydrogen system schemes, intermediate heat exchanger, process heat exchanger, design parameters, global programs in nuclear hydrogen | |
| 12. | |
prismatic HTGR, PBMR | high temperature gas cooled reactors, pebble bed modular reactor, prismatic pebble bed, design and operating parameters | |
| 13. | |
VHTR, GFR, LFR | very high temperature reactor, gas cooled fast reactor, liquid metal cooled fast reactor design and operating conditions | |
| 14. | |
MSR, SCWR | molten salt cooled reactor, supercritical water reactor, design and operating parameters | |
| 15. | |
Kinetics model-point kinetic model | neutronic model for nuclear reactor core, neutron transport equation, point kinetics model | |
| 16. | |
neutronic kinetic codes | reactor physics codes, reactor kinetics models, regulatory and commercial code structure, 2-D and 3-D neutronic codes, PARCS | |
| 17. | |
mid-term exam | review of nuclear hydrogen system, high temperature reactors, thermochemical hydrogen generation methods and key cycles | |
| 18. | |
thermal-hydraulics analysis, 3-D TH codes | nuclear reactor cooling, thermal hydraulics analysis, codes, 3-D and 1-D thermal analysis codes, RELAP5, THERMIX | |
| 19. | |
safety analysis | Reactor safety, defense in depth, safety philosophy, analysis methods | |
| 20. | |
HTR fuels and performance | high reactor fuels, TRISO fuel, fuel performance | |
| 21. | |
HTR materials issues, advanced materials | high temperature reactor vessel, core and other component materials and issues, advanced materials for high temperature and radiation environment | |
| 22. | |
energy conversion systems-Brayton Cycle | high temperature reactor energy conversion systems, Brayton Cycle, cycle efficiency | |
| 23. | |
ECS control system | high temperature reactor energy conversion control system, coolant inventory, coolant bypass methods | |
| 24. | coupled HTR and hydrogen plant-simplified models | coupled high temperature reactor and hydrogen plant, models for HTGR neutronic and thermal hydraulics, and hydrogen plant chemical models-simplified models | ||
| 25. | coupled HTR-H2plant dynamics | dynamic analysis of coupled HTR and hydrogen plant, accident analysis | ||
| 26. | Holiday | |||
| 27. | Safety in a process heat HTR | high temperature reactor safety, heat transfer through process heat exchanger | ||
| 28. | HTR licensing issues, PIRT | phenomena identification and ranking table, HTR licensing issues | ||
| 29. | Holiday | |||
| 30. | Market potential, review for final exam | nuclear hydrogen commercialization | ||
| 31. | Project I | nuclear hydrogen system components, design projects | ||
| 32. | Project II | nuclear hydrogen system components, design projects, models, reviews | ||
| 33. | Project III | nuclear hydrogen system, components safety, analysis |
대구광역시 동구 동내로 64(동내동 1119) 우)41061
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