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- FIG. 21d. Power generation for different types of reactors and groups in the BAU+–FR.png SHIROKIYD
14:04, 4 August 2020
596 × 387; 25 KB
- FIG. 21c. Power generation for different types of reactors and groups in the BAU+–FR.png SHIROKIYD
14:04, 4 August 2020
631 × 411; 35 KB
- FIG. 21b. Power generation for different types of reactors and groups in the BAU+–FR.png SHIROKIYD
14:03, 4 August 2020
665 × 428; 35 KB
- FIG. 21a. Power generation for different types of reactors and groups in the BAU+–FR.png SHIROKIYD
14:03, 4 August 2020
604 × 446; 37 KB
- FIG. 19b. Power generation for different reactor types in the BAU.png SHIROKIYD
13:57, 4 August 2020
631 × 467; 35 KB
- FIG. 19. Power generation for different reactor types in the BAU.png SHIROKIYD
13:56, 4 August 2020
652 × 483; 39 KB
- FIG. 16. GAINS scenarios for modelling nuclear power generation in the twenty-first century. IPCC — Intergovernmental Panel on Climate Change..png SHIROKIYD
13:13, 4 August 2020
762 × 551; 26 KB
- FIG. 15. Heterogeneous model with synergistic groups and specific reactor types and fuel services identified.jpg SHIROKIYD
13:11, 4 August 2020
596 × 437; 79 KB
- FIG. 14. Heterogeneous model with non-synergistic groups NG1–NG3 (3)..jpg SHIROKIYD
13:10, 4 August 2020
579 × 424; 78 KB
- FIG. 13. Selected world models for fuel cycle analysis in GAINS (3)..jpg SHIROKIYD
13:10, 4 August 2020
648 × 262; 45 KB
- FIG. 12. Comparison of predicted supply by primary resources and secondary sources with demand for the reference scenario (27)..png SHIROKIYD
12:46, 4 August 2020
428 × 304; 68 KB
- FIG. 11. Expected global supply from secondary uranium sources based on different assumptions (27)..png SHIROKIYD
12:45, 4 August 2020
474 × 248; 65 KB
- FIG. 10. Expected annual production of uranium from primary resources (27)..png SHIROKIYD
12:44, 4 August 2020
474 × 287; 75 KB
- FIG. 9. Expected annual uranium requirements for the three selected scenarios with different growth rates of nuclear power (27)..png SHIROKIYD
12:44, 4 August 2020
473 × 258; 69 KB
- FIG. 8. Scenarios for global nuclear power (27)..png SHIROKIYD
12:40, 4 August 2020
474 × 259; 57 KB
- FIG. 7. Nuclear fuel cycle of a thermal reactor with recycling of uranium and plutonium (27)..png SHIROKIYD
12:39, 4 August 2020
400 × 274; 117 KB
- FIG. 6. Resource contribution by confidence level (11). EAR — estimated additional resources; RAR — reasonable assured resource;.png SHIROKIYD
12:36, 4 August 2020
591 × 341; 120 KB
- FIG. 5. Projected annual world uranium production capability to 2035 compared with projected world uranium demand (13)..png SHIROKIYD
12:30, 4 August 2020
514 × 359; 84 KB
- FIG. 4. Historic demand and supply of uranium (13)..png SHIROKIYD
12:29, 4 August 2020
514 × 334; 73 KB
- FIG. 3. Trends in uranium exploration and development expenditures 1998–2011 (13)..png SHIROKIYD
12:24, 4 August 2020
452 × 307; 34 KB
- FIG. 2. Uranium prices in the time period 1980–2010 (13)..png SHIROKIYD
12:23, 4 August 2020
452 × 316; 64 KB
- FIG. 1. Interfaces of a nuclear energy system with the environment (1)..png SHIROKIYD
09:01, 4 August 2020
1,029 × 558; 114 KB
- FIG. 6. Proposed method for ALARP applied in sequence to all facilities (components) of a nuclear energy system (NES) or,.png SHIROKIYD
09:03, 30 July 2020
555 × 682; 50 KB
- FIG. 4. Chain of decay of 238U (g amma emitters not marked) (1)..png SHIROKIYD
13:25, 28 July 2020
544 × 278; 29 KB
- FIG. 3. Environmental performance envelopes of a current nuclear energy system (blue) and an innovative nuclear energy system.png SHIROKIYD
09:40, 28 July 2020
535 × 325; 26 KB
- FIG. 2. Flow chart of an environmental stressor analysis (adapted from Ref. (21))..png SHIROKIYD
09:17, 28 July 2020
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- FIG. 1. Interfaces of a nuclear energy system with the environment (21)..png SHIROKIYD
09:14, 28 July 2020
551 × 310; 35 KB
- FIG. 10. A NES with thermal and fast reactors and multi recycling of spent fuel.png SHIROKIYD
12:47, 27 July 2020
585 × 218; 12 KB
- FIG. 9. A NES with thermal reactors and mono recycling of plutonium.png SHIROKIYD
12:46, 27 July 2020
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- FIG. 7. Fuel production chain including waste generation for a LWR using U fuel in an open fuel cycle.png SHIROKIYD
12:12, 27 July 2020
603 × 145; 12 KB
- FIG. 5. Elements of a waste minimization strategy (55).png SHIROKIYD
09:34, 27 July 2020
592 × 406; 20 KB
- FIG.4. Timeline for the development of a geological disposal facility (32)..png SHIROKIYD
09:15, 27 July 2020
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- FIG.3. Atomic Energy of Canada Limited waste management policy for the Chalk River and Whiteshell laboratories (adapted from Ref (1))..png SHIROKIYD
09:11, 27 July 2020
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- FIG. 2. Conceptual illustration of a waste classification scheme (11)..png SHIROKIYD
09:06, 27 July 2020
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- FIG.1. Steps in radioactive waste management (adapted from Ref (10)).png SHIROKIYD
09:02, 27 July 2020
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- FIG. 4. Correlation between the frequency of accidents and dose or damage in reference NPPs and in new NESs, respectively..png SHIROKIYD
13:04, 22 July 2020
469 × 254; 10 KB
- FIG 3. Objectives Provisions Tree approach (modified from Ref (71))..png SHIROKIYD
09:48, 22 July 2020
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- FIG 2. Overview of the different tasks for definition of RD&D..png SHIROKIYD
09:47, 22 July 2020
590 × 327; 14 KB