b'100C 200C 300C 400C 500C 600C 700C 800C 900C 1000C 1100C 1200CVery high temperature reactorsGas-cooled fast reactorsMolten salt reactorsSupercritical water-cooled reactorsSodium-cooled fast reactorsLiquid metal cooled reactorsWater cooled reactorsDistrict heatingSeawater desalinationPulp & paper manufactureMethanol productionHeavy oil desulfurizationPetroleum re\x1fningMethane reforming hydrogen productionThermochemical hydrogen productionCoal gasi\x1fcationBlast furnace steel makingFigure 4. Temperature Ranges of Advanced Fuel Cycle possibilities toReference:Small Modular Reactor (SMR) Designsfurther improve resource utilization. IAEA Advances in Small& Corresponding Non-ElectricModular Reactor TechnologyApplications (Ref: IAEA Advances in And always, safety enhancing Small Modular Reactor Technologyfeature developments. Developments, 2020Developments, 2020) Nuclear Reactors Fuels inEnd Note:General: I am honored to have been associated When one looks at the plethora ofwith this impressive program and advanced reactor types and potentialthe wonderful and brilliant people applications it seems intuitivelythat have been, are currently, and obvious that ATF developmentswill be involved in, as it continues to with associated lab capabilities anddevelop its possibilities and contribu-computer models can have a signifi- tion to the sustainability and benefi-cant impact on our nations energycial use of nuclear energy.development needs, in areas we areFG, 2022only now beginning to explore, or dream of.18 2022|AFC ACCOMPLISHMENTS'