22.39 Reactor Design , Operation, and Safety
Fast Reactor Materials Issues & Their Implications for Design
Professor R. G. Ballinger
Department of Nuclear Science & Engineering Department of Materials Science and Engineering
Massachusetts Institute of Technology
LWR Applications - 1
22.39 Reactor Design , Operation, and Safety
Extension of LWR Conditions to FR Conditions
• Key Differences
– Flux Distribution
» (Energy )
– Total Dose
» LWR/Thermal-~ 50 dpa max, F R > 100 dpa
– Temperature
» 300 C (>300 for SCW) LWR/Thermal, FR > 500 C
– Fuel Type
» UO 2 ( M OX), UC/UCO LWR/Thermal , UC, UN, ( C ermet, Cer-Cer, etc) F R
» Expos u re (Burnup)
– Cladding Type
» Zr Alloy LWR, SS, Fe-Based, Ceramic (SiC/SiC), etc. FR
» Dose
– Operating Environment
» LWR/”Thermal- Water , He, SCW, FR SC-CO 2 , He,
LWR Applications - 2
22.39 Reactor Design , Operation, and Safety
Design Implications
• Flux Distribution
– Ra diation Damage
» Temperature, Energy Distribution
• Total Dose
– Ra diation Effects
» Swellin g, He Embritt lement , Creep
• Temperature
– Cree p, Cree p-F a tigue, Microstructural Stability
• Fuel Type
– Fast Reactor “legacy” Data
– Swelling, FGR
• Cladding Type
– Fluence
• Operating Environment
– Corrosion
– Stabilit y (Micr ostructural)
LWR Applications - 3