Mining and Milling
Conversion
Enrichment
Contact Handled Fuel Fabrication
Module D1
- D1-1: Uranium-Based Ceramic LWR Fuel Fabrication
- D1-2: LWR Pelletized MOX Fuel Fabrication
- D1-3: Gas-Cooled Reactor Fuels: HTR TRISO
- D1-4/5: Ceramic Pelletized Sodium-Cooled Fast Reactor Fuel Fabrication Ceramic Vibrocompacted Fuel Fabrication
- D1-6: A: Contact-Handled All-U Metal or U-Metal Alloy Uranium Fuel Fabrication; B: Contact-Handled U,Pu Metal Alloy Fuel Fabrication
- D1-7: Contact-Handled Pelletized Pressurized Heavy-Water Reactor (PHWR) UOX Fuel Fabrication
- D1-8: Thorium-based Fuel: U,Th MOX (2017 version of the CBR)
- D1-9: Thorium-based Fuel: Thoria Blanket / Inert Matrix and Other Advanced Fuels (2017 version of the CBR)
Module D2
Material Storage
- E1: Wet Storage of Spent Nuclear Fuel
- E2: Dry Storage of Spent Nuclear Fuel
- E3-1a: Recycled Combined Actinide Product Storage (Stand-Alone Facility)
- E3-1b: Recycled Combined Actinide Product Storage (Co-Located Facility)
- E3-2a: Recycled PuO2 Product Storage before MOX fabrication (Stand-alone)
- E3-2b: Recycled PuO2 Product Storage before MOX fabrication (Co-Located Facility)
- E4: Managed Decay Storage of selected separated FPs
Consolidated Interim Storage
Spent Fuel Reprocessing
Waste Conditioning and Packaging
- G1-1a: High-Level Waste (HLW) Conditioning, Storage, and Packaging: Aqueous-derived HLW Conditioning, Storage, Packaging (FP+Ln)
- G1-2a: High-Level Waste (HLW) Conditioning, Storage, and Packaging: Aqueous-derived Metal Alloy (Tc)
- G1-2e: High-Level Waste (HLW) Conditioning, Storage, and Packaging: Echem-derived co-flows (hulls, etc, other metal [nobles & Ln])
- G1-3a: High-Level Waste (HLW) Conditioning, Storage, and Packaging: Cs/Sr Solidification and Packaging
- G2: SNF Conditioning and Packaging: Spent UOX Conditioning & Packaging prior to longer-term disposition
- G3-1: LLW Conditioning, Storage, and Packaging: LLW Conditioning, Storage, Packaging (solids)
- G3-2: LLW Conditioning, Storage, and Packaging: LLW Conditioning, Storage, Packaging (liquids)
- G3-3: LLW Conditioning, Storage, and Packaging: LLW Conditioning, Storage, Packaging (resins)
- G4-1a: GTCC Process Waste Conditioning, Storage, and Packaging: Aqueous-derived LLW-GTCC Offgas absorber (H3, Kr, Xe, Ru)
- G4-1e: GTCC Process Waste Conditioning, Storage, and Packaging: Echem-derived LLW-GTCC Offgas absorber (H3, Kr, Xe, Ru)
- G5: GTCC Secondary Waste Conditioning, Storage, and Packaging: GTCC Contact Handled-TRU Conditioning, Storage, and Packaging
Waste Disposal
Near Surface Disposal
Excess Uranium Conversion and Disposal
-
K1-1: Deconversion of Depleted UF6 to Depleted Uranium Oxides
K1-2: Depleted Uranium Disposition (De-converted E-plant Tails Geologic Disposal as Stable Oxide form) - K2 (2017 version of the CBR): Aqueously Reprocessed Uranium Conversion, Disposition, and Possible Recycle
- K3 (2017 version of the CBR): Electrochemically Reprocessed Uranium Conversion, Disposition and Possible Recycle
Geologic Disposal
Transportation of Radioactive Materials
Module O1
- From Reactor to Repository
- From Reactor to Central Storage Facility to Repository
Module O2
- 55-gallon drum for yellow cake
- Paducah Tiger overpack for UF6 or DUF6 cylinder
- UX-30 for EUF6
- CHT-OP-TU for DUO2, UOX or LLW
- 9975 for TRU or TRUOX
- CNS10-160B for FP
- RH-TRU 72B for TRU or FP
- MCC-4 for PWR assemblies
- SP-1,2,3 for BWR assemblies
Reactors and Transmuters
- R1: Light Water Reactors (LWRs)
- R2: Sodium-Cooled Fast Reactors
- R3: High-Temperature Gas-Cooled Reactors (HTGRs)
- R4: Small Modular Reactors (SMRs)
- R5: Pressurized Heavy Water Reactors
- R6: Accelerator-Driven Systems
- R7: Liquid-Fueled Salt-Cooled Reactors
- R8: Solid-Fueled Salt-Cooled Reactors
- R9: Fission/Fusion Hybrid Systems
- R9-1: Fission/Fusion Hybrid Systems: Magnetic Confinement D-T Fusion
- R9-2:
- Inertial Confinement F/F Hybrid (Fusion Reactor Component:Capital Cost)
- Inertial Confinement F/F Hybrid (Subcritical Fission Reactor Component:Capital Cost)
- Inertial Confinement F/F Hybrid (Fusion Reactor Component:Fixed O&M Cost)
- Inertial Confinement F/F Hybrid (Subcritical Fission Reactor Component:Fixed O&M Cost)
- Inertial Confinement F/F Hybrid (Fusion Reactor Component:Variable O&M Cost)
- Inertial Confinement F/F Hybrid (Subcritical Fission Reactor Component:Variable O&M Cost)