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14:06, 25 August 2020 File:Fig. 12. Back end synergistic case in the global scenario..png58 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:06, 25 August 2020 File:Fig. 13. Long term storages of LWR SNF in NG1 (synergistic case).png64 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:06, 25 August 2020 File:Fig. 14. Levelized fuel cycle unit costs..png41 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:06, 25 August 2020 File:Fig. 15. The value of reprocessed uranium as a function of the cost of natural uranium, with fabrication costs held fixed.png121 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:Fig. 16. The minimum required averted disposal costs of HLW for each storage duration and REPU enrichment..png106 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:Fig. 17. Reduction of minor actinides (MA) in the waste and increase of the inventory of minor actinides in the fuel cycle in scenarios with transmutation of minor actinides..png174 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:Fig. 18. Pu and MA inventories in disposal facilities at the end of scenario cycle..png83 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG.1. 5th Meeting of the INPRO Collaborative Project GAINS, 27 May 2010..jpg73 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 2. Set of reactor and fuel types with deployment time frames..jpg66 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 3. GAINS scenarios for modelling nuclear power generation (GWa values show actual electric power produced annually, not installed capacity)..png149 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 4. Heterogeneous models for future global nuclear fuel cycles..png71 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 5..png69 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 6. Variation in technical maturity for reactor designs in the GAINS database.png81 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 7. Flow chart for a combined once-through cycle and fast reactor closed fuel cycle system.png98 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 8. Power production growth for BAU (a) and BAU&FR systems (b)..png71 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 9. Cumulative natural uranium demand in BAU (a) and BAU&FR (b) systems for the high GAINS scenario..png104 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 10. Cumulative amounts of spent fuel in BAU(a) and BAU&FR (b) systems for the high GAINS scenario..png103 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:07, 25 August 2020 File:FIG. 11. Potential for fast reactor deployment..png47 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:FIG. 12. Plutonium in short-term cooled SNF for the moderate GAINS scenario..png76 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:FIG. 13. Pay-back period for R&D cost for the innovative nuclear energy system for different installed capacities..png114 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:KIND.Unnamed.png12 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 1. Scope (a) and schematics (b) of multi-criteria decision analysis..png73 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 2. Schematics of MAVT..png27 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 3. Flowchart of MCDA application..png38 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 4. Schematics of the objectives tree..png42 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 5. Inputs of KIND-ET (example)..png36 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 6. Outputs of KIND-ET (example)..png37 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 7. Structure of the objectives tree in the case study from Romania..png72 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 8. High level objectives (HLO) scores for- (a) case 1; (b) case 2; (c) case 3..png83 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 9. Ranking results for comparative evaluation of an NES and a CPP (base case)..png83 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 10. Sensitivity analysis for NES and CPP performed by varying the acceptability weighting factor..png102 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 11. Ranking of the NES deployment scenarios..png49 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:Fig. 12. Performance and ranking results for advanced NFC options..png66 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:08, 25 August 2020 File:KIND. Unnamed 2.png15 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 7. Gas centrifuge process..png31 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:UO3.png8 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 6. Flowchart of uranium refining and conversion..png53 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 8. Conventional PUREX process..png35 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 25. Fuel production chain for a light water reactor using uranium fuel in an open fuel cycle..jpg98 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 22. Cumulative uranium consumption for the non-synergistic heterogeneous scenario BAU+–FR for the high case . ktHM — kilotonnes of heavy metal..png155 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 21d. Power generation for different types of reactors and groups in the BAU+–FR.png86 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 21c. Power generation for different types of reactors and groups in the BAU+–FR.png86 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:10, 25 August 2020 File:FIG. 21b. Power generation for different types of reactors and groups in the BAU+–FR.png86 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:11, 25 August 2020 File:FIG. 21a. Power generation for different types of reactors and groups in the BAU+–FR.png86 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:11, 25 August 2020 File:FIG. 20b. Total global uranium usage for the BAU+–FR scenario in a homogeneous world (high case on the left, moderate case on the right). ktHM — kilotonnes of heavy metal..png178 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:11, 25 August 2020 File:FIG. 20. Total global uranium usage for the BAU+–FR scenario in a homogeneous world (high case on the left, moderate case on the right). ktHM — kilotonnes of heavy metal..png178 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:11, 25 August 2020 File:FIG. 19b. Power generation for different reactor types in the BAU.png65 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:11, 25 August 2020 File:FIG. 19. Power generation for different reactor types in the BAU.png64 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:11, 25 August 2020 File:FIG. 18b. Total global uranium usage for the BAU+ scenario in a homogeneous world (high case on the left, moderate case on the right). ktHM — kilotonnes of heavy metal..png174 bytes infinite SHIROKIYD (talk | contribs) fully protected  
14:11, 25 August 2020 File:FIG. 18. Total global uranium usage for the BAU+ scenario in a homogeneous world (high case on the left, moderate case on the right). ktHM — kilotonnes of heavy metal..png173 bytes infinite SHIROKIYD (talk | contribs) fully protected  
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