세계에너지시장정보 통합검색
정책동향보고서
| 제목 | 글로벌) 핵연료 사이클 화학 진전 상황에 관한 최신 보고서 | ||
|---|---|---|---|
| 국가 | [글로벌] | 출처 | NEA |
| 산업구분 | [원자력발전] | 등록일 | 2026.04.15 |
본 보고서는 지난 10년간 핵연료 사이클 화학 분야의 연구·기술 발전 현황을 종합적으로 검토하여, 핵연료의 처리·재활용·폐기 과정에서의 최신 성과와 과제를 분석하고 향후 연구 방향을 제시한 보고서이다. 원문 제목 및 목차
제목 :
State-of-the-Art Report on the Progress of Nuclear Fuel Cycle Chemistry 원문목차 :
List of abbreviations and acronyms ..........................................................................................13 Executive summary ......................................................................................................................19 1. Introduction ...............................................................................................................................23 2. Progress of separation technology and current achievements ........................................25 2.1. Head-end processing ..........................................................................................................25 2.2. Hydrometallurgy .................................................................................................................45 2.3. Pyrochemical processess .................................................................................................140 3. Process criteria ........................................................................................................................227 3.1. Introduction .......................................................................................................................227 3.2. Feeds to the recycling plant(s) ........................................................................................227 3.3. Products required from the recycling plant(s) ..............................................................229 3.4. Performance criteria required from the recycling plant(s) .........................................231 3.5. Constraints placed on the recycling plant(s) ................................................................231 3.6. Nonproliferation requirements for recycling components of spent nuclear fuel (SNF) ...233 3.7. Choice of separation process ..........................................................................................238 3.8. Conclusions .......................................................................................................................238 4. Comparison of chemical processes .....................................................................................241 4.1. Introduction .......................................................................................................................241 4.2. Head-end processes ..........................................................................................................243 4.3. Aqueous processes ...........................................................................................................248 4.4. Pyrochemical processes ...................................................................................................271 4.5. Conclusions .......................................................................................................................277 5. Perspectives for future R&D ..................................................................................................281 5.1. France .................................................................................................................................281 5.2. Japan ...................................................................................................................................282 5.3. Korea ...................................................................................................................................283 5.4. Russia ..................................................................................................................................284 5.5. United Kingdom ................................................................................................................286 5.6. United States .....................................................................................................................288 6. Conclusions ..............................................................................................................................293 List of Contributors .....................................................................................................................297
※ 본 정보는 게시일로부터 수정/변경될 수 있으므로, 정확한 내용은 아래 출처의 링크를 통해 확인하시기 바랍니다.
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| 원문 링크 |
https://www.oecd-nea.org/jcms/pl_14970/state-of-the-art-report-on-the-progress-of-nuclear-fuel-cycle-chemistry
* 이 링크를 클릭하면 외부 사이트로 연결됩니다. |
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