연구동향 분석

고준위폐기물처분장 공학적방벽의 갭채움재 기술현황

이재완(Jae Owan Lee) 최영철(Young-Chul Choi) 김진섭(Jin-Seop Kim) 최희주(Heui-Joo Choi) 2014년

논문상세정보
인용/피인용
' 고준위폐기물처분장 공학적방벽의 갭채움재 기술현황' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 토목역학, 토목재료
  • backfill
  • buffer
  • engineered barrier
  • gapfill
  • high-levelwasterepository
  • 갭채움재
  • 고준위폐기물처분장
  • 공학적방벽
  • 뒷채움재
  • 완충재
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
660 0

0.0%

' 고준위폐기물처분장 공학적방벽의 갭채움재 기술현황' 의 참고문헌

  • Äspö 원형 처분장에 대한 열-수리-역학적 모델링 연구:열적 거동 해석
    이재완 터널과 지하공간 23 (5) : 372 ~ 382 [2013]
  • The influence of groundwater salinity and interfaces on the performance of potential backfilling materials
    Dixon D In Proceedings of the 6th International Workshop on Design and Construction of Final Repositories, Backfilling in Radioactive Waste Disposal [2002]
  • The Swiss concept for disposal of spent fuel and vitrified high-level waste: Example of a buffer system consisting of compacted bentonite blocks and granular bentonite pellets
    Nold, A. ESDRED Conference on Deep Geological Disposal of HLW [2006]
  • Second progress report on research and development for the geological disposal of HLW in Japan, H12: project to establish the scientific ad technical basis for HLW disposal in Japan, supporting report 2
    JNC [2000]
  • Sealing ability of Wyoming bentonite pellets foreseen as buffer material – laboratory results
    Karnland, O. Physics and Chemistry of the Earth, Parts A/B/C 33 : S472 ~ S475 [2008]
  • Placement and formulation studies on potential light backfill and gap fill materials for use in repository sealing
    Martino, J. [2007]
  • Nuclear waste management at Olkiluoto and Loviisa power plants, Review of current status and future plans for 2010-2012
    Posiva [2010]
  • NWMO APM conceptual design and cost estimate update, deep geological repository design report, crystalline rock environment
  • Korean reference HLW disposal system
    Choi, H.J. [2008]
  • KBS-3H design description 2007
    Autio, J. [2008]
  • Flow-through and wetting tests of pre-compacted backfill blocks in a quarter-scale test tunnel
    Riikonen, E. Helsinki University of Technology [2009]
  • Engineered barrier emplacement experiment in Opalinus clay for the disposal of radioactive waste in underground repositories
  • Development of sealing materials for application as engineered barriers in a deep geologic repository for used fuel disposal: filling the gaps
    Dixon D In Proceedings of Canadian Nuclear Society Waste Management, Decommissioning and Environmental Restoration for Canada’s Nuclear Activities: Current and Future Needs [2005]
  • Design and production of the KBS-3 repository
  • Demonstration of the in-situ application of an industrial clay-based backfill material
  • Deep repository –engineered barrier system. Piping and erosion in tunnel backfill. Laboratory tests to understand processes during early water uptake
    Sanden, T. [2008]
  • Deep repository – engineered barrier systems, Assessment of methods for deposition tunnels
  • Deep repository – engineered barrier system, Wetting and homogenization processes in backfill materials, Laboratory tests for evaluating modelling parameters
  • Customized bentonite pellets: manufacturing, performance and gap filling properties
  • Backfilling of deposition tunnels: use of bentonite
    Dixon D [2011]
  • Assessment of backfill design for KBS-3V repository
    Keto, P. [2009]
  • Achievements of the ESDRED project in buffer construction technology
    De Bock, C. In Proceedings of Euradwate ’08 Conference [2008]
  • A large scale in-situ demonstration test for repository sealing in an argillaceous hos rock -Reseal project Phase 1