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본 사례연구에서는 사용후핵연료 처분장 건설을 위한 굴착손상영역(EDZ) 평가 및 국내외 실증연구사례를 정리하고 조사하였다. 굴착손상영역은 사용후핵연료 처분장의 성능평가에 중요한 요소로 간주되며, 국내외 여러 국가에서 지하 연구시설 현장 및 실험실 시험을 통해 굴착손상영역의 특성 파악 및 그 범위를 정량적으로 판단하고자 하는 연구들이 수행되어왔다. 굴착손상영역에 대한 이해를 위하여 굴착손상영역의 정의, 역사를 시작으로 굴착손상영역에 영향을 주는 요인과 굴착손상영역으로 인한 영향을 정리하였다. 다음으로 굴착손상영역과 암반 특성에 관한 분석을 수행하였으며, 선행연구를 통해 도출한 일반화된 요약과 한계점, 향후 연구 방향을 제시하였다.

In this case study, detailed survey of the Excavation Damaged Zone (EDZ) evaluation for the deep geological repository for high level nuclear waste was conducted. Oversea and Domestic case studies were compiled and investigated. EDZ is considered a crucial factor in the performance assessment of spent fuel disposal, leading to numerous studies worldwide aiming to understand the characteristics of the EDZ and quantitatively assessment of its extent through field and laboratory tests at Underground Research Laboratory (URL) sites. To enhance the understanding of EDZ, this study begins with defining and exploring the history of EDZ, compiling factors influencing EDZ, and summarizing the impacts caused by EDZ. Subsequently, an analysis of EDZ and rock properties is performed, followed by presenting generalized outcomes, limitations drawn from previous research, and proposing future research directions.

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기사명 저자명 페이지 원문 목차
무인 이동체를 이용한 폐광산 갱도 및 수몰 갱도의 3차원 형상화 위한 적용성 평가 = Evaluation of applicability for 3D scanning of abandoned or flooded mine sites using unmanned mobility 김수로, 박관인, 김상욱, 백승한 p. 1-14

사용후핵연료 심층 처분장을 위한 국내외 굴착손상영역 사례연구 = Oversea & domestic case studies on excavation damaged zone for deep geological repository for spent nuclear fuel 윤정환, 민기복, 권상기, 송명규, 이승원, 고태영, 정호영, 신영진, 정재훈, 임주휘 p. 15-27

국내 심부 지질특성 연구를 통한 고준위방사성폐기물 심층처분 후보 암종 선행연구 = Preliminary study on candidate host rocks for deep geological disposal of HLW based on deep geological characteristics 천대성, 진광민, 신중호, 김유홍, 전석원 p. 28-53

노천채굴적 내 광미 적치 시나리오 구축 및 천반 수평필러 안정성 분석 = Establishment of tailing disposal scenario in open-pit and surface pillar stability analysis 강일석, 송재준, Thomas Pabst p. 54-70

대전 화강암의 투수계수에 미치는 구속압, 온도, 공극률의 영향 = Effect of confining pressure, temperature, and porosity on permeability of Daejeon granite : experimental study : 실험적 연구 이동길, 전석원 p. 71-87

참고문헌 (45건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
1 Andersson, J.C., 2007, Äspö pillar stability experiment: final report: rock mass response to coupled mechanical thermal loading, SKB TR-07-01, Svensk Kärnbränslehantering AB, Stockholm. 미소장
2 Autio, J., 1996, Characterization of the excavation disturbance caused by boring of the experimental full scale deposition holes in the research tunnel at Olkilouto. Posiva-96-09, Posiva, Helsinki. 미소장
3 Autio, J., Gribi, P., Johnson, L., and Marschall, P., 2006, Effect of excavation damaged zone on gas migration in a KBS3H type repository at Olkilouto, Physics and Chemistry of the Earth, 31, 649-653. 미소장
4 Autio, J., Hjerpe, T., and Siitai-Kauppi, M., 2005, Porosity, diffusivity and permeability of EDZ in crystaline rock and effect on the migration in a KBS-3 type repository. In EU, 200, Impact of excavation distubed or damaged zone (EDZ) on the performance of radioactive waste geological repositories, Proc. European Commission Cluster Conference and Workshop, pp. 149-155. 미소장
5 Bäckblom, G. and Martin, C.D., 1999, Recent experiments in hard rocks to study the excavation response: Implications for the performance of a nuclear waste geological reposito-ry, Tunn. Undergr. Space Technol., 14(3), 377-394. 미소장
6 Bäckblom, G., 2008, Excavation damage and disturbance in crystalline rock - Results from experiments and analyses, SKB TR08-08, Svensk Kärnbränslehantering AB, Stockholm. 미소장
7 Bossart, P., Meier, P.M., Moeri, A., Tric, T., and Mayor, J., 2002, Geological and hydraulic characterisation of the excavation disturbed zone in Opalinus Clay of the Mont Terri Rock Laboratory, Eng. Geol., 66, 19-38. 미소장
8 Bossart, P., Tric, T., Meier, P.M., and Mayor, J., 2004, Structural and hydrogeological characterisation of the excavation-disturbed zone in the Opalinus Clay (Mont Terri Project, Switzerland), Appl. Clay Sci., 26, 429-448. 미소장
9 Chandler, N.A., Cournut, A., Dixon, D.A., Fairhurst, C., Hansen, F., Gray, M., Hara, K., Ishijima, Y., Kozak, E., Martino, J., Matsumito, K., McCrank, G., Sugita, Y., Thompson, P., Tillerson, J., and Vignal, B., 2002, The five-year report of the Tunnel Sealing Experiment: An international project of AECL, JNC, ANDRA and WIPP, Atomic Energy of Canada Limited Report AECL-12727, ChalkRiver, Canada 미소장
10 Chandler, N.A., Kozak, E.T., and Martin, C.D., 1996, Connected pathways in the EDZ and the potential for flow along tunnels. In:Martino, J. B., Martin, C. D., (Eds), Proceedings of Canadian Nuclear Society. 미소장
11 Cho, W.J., Kim, J.S., and Kim, G.Y., 2019, Effects of excavation damaged zone on thermal analysis of multi-layer geological repository, J. Nucl. Fuel Cycle Waste Technol., 17(1), 75-94. 미소장
12 Eitzenberger, A., 2012, Wave Propagation in Rock and the Influence of Discontinuities. PhD Thesis. Luleå tekniska universitet, Luleå, Sweden. 미소장
13 Emsley, S., Olsson, O., Stenberg, L., Alheid, H.J., and Falls, S., 1997, ZEDEX – a study of damage and disturbance from tun-nel excavation by blasting and tunnel boring, SKB TR 97-30, Svensk Kärnbränslehantering AB, Stockholm. 미소장
14 Enescu, N., Cosma, C., and Crawford, J., 2014, ONKALO 3D tunnel seismic investigations, Olkiluoto 2013, POSIVA-WR-14-49, Posiva Oy. 미소장
15 Fairhurst, C., 1999, Rock mechanics and nuclear waste repositories, Proceedings of the International Workshop on the Rock Mechanics of Nuclear Waste Repositories, American Rock Mechanics Association, pp 1-44. 미소장
16 Fairhurst, C., Gera, F., Gnirk, P., Gray, M., and Stillborg, B., 1993, OECD/NEA International Stripa Project 1980-1992. Overview Volume I, Executive Summary, Svensk Kärnbränslehantering AB, Stockholm. 미소장
17 Gray, M., 1993, OECD/NEA International Stripa Project 1980-1992, Overview III, Engineered Barriers, Svensk Kärnbränslehantering AB, Stockholm. 미소장
18 Hansen, F.D,, 2003, The Disturbed Rock Zone at the Waste Isolation Pilot Plant, SAND2003-3407, Sandia National Laboratories, Albuquerque NM USA. 미소장
19 Hoek, E. and Diederichs, M.S., 2006, Empirical estimation of rock mass modulus, Int. J. Rock Mech. Min. Sci., 43(2), 203-215. 미소장
20 Hudson, J.A. and Harrison, J.P., 2000, Engineering rock mechanics: an introduction to the principles, Elsevier. 미소장
21 Hudson, J.A., Bäckström, A., Rutqvist, J., Jing, L., Backers, T., Chijimatsu, M., Christiansson, R., Feng, X.T., Kobayashi, A., Koyama, T., Lee, H.S., Neretnieks, I., Pan, P.Z., Rinne, M., and Shen, B.T., 2009, Characterising and modelling the excavation damaged zone in crystalline rock in the context of radioactive waste disposal, Environ. Geol., 57(6), 1275-1297. 미소장
22 Kim, D. and Jeong, S., 2021, Estimation of the excavation damage zone in TBM tunnel using large deformation FE analysis, Geomech. Eng., 24(4), 323-335. 미소장
23 Kwon, S. and Cho, W.J., 2008, The influence of an excavation damaged zone on the thermal-mechanical and hydro- mechanical behaviors of an underground excavation, Eng. Geol., 101, 110-123. 미소장
24 Lee, C.S., Kwon, S.K., Choi, J.W., and Jeon, S,. 2011, An estimation of the excavation damaged zone at the KAERI underground research tunnel, Tunnel & Underground Space, 21(5), 359-369. 미소장
25 Malmgren, L., Saiang, D., Töyrä, J., and Bodare, A., 2007, The ex-cavation disturbed zone (EDZ) at Kiirunavaara mine, Eng. Geol., 61, 1-15. 미소장
26 Marschall, P., Fein, E., Kull, H., Lanyon, G.W., Liedtke, L., Müller-Lyda, H., Shao, 1999, Conclusions of the Tunnel Near-Field Programme (CTN), Nagra TR 99-07, Nagra, Wettingen, Switzerland. 미소장
27 Martin, C.D., Kaiser, P.K., and McCreath, D.R., 1999, Hoek-Brown parameters for predicting the depth of brittle failure around tunnels, Can. Geotech. J., 36(1), 136-151. 미소장
28 Martino, J.B. and Chandler, N.A., 2004, Excavation-induced damage studies at the underground research laboratory, Int. J. Rock Mech. Min. Sci., 41(8), 1413-1426. 미소장
29 Matsui, H., Kurikami, H., Kunimaru, T., Morioka, H., and Hatanaka, K., 2007, Horonobe URL project – present status and future plans. In: Eberhardt, E., Stead, D., Morrison, T. (Eds.), Rock Mechanics: Meeting Society’s Challenges and Demands, Taylor & Francis Group, London, pp. 1193-1201. 미소장
30 Matsui, H., Sato, T., Sugihara, K., and Kikuchi, T., 1998, Overview of the EDE(Excavation Disturbance Experiment)-II at Kamaishi mine, Kamaishi Int. Workshop Proc., 24-25 Aug. 1998. PNCTN7413 98-023. JNC, Tokyo. 미소장
31 Matsui, H., Sugihara, K., and Sato, T., 2003, In-situ experiments on excavation disturbance in JNC’s Geoscientific Research Programme. Impact of the excavation disturbed or damaged zone (EDZ) on the performance of radioactive waste geological repositories, Proceedings Euopean Commission CLUSTER Conference and Workshop on EDZ in Radioactive Waste Geological Repositories, ENRESA 미소장
32 Minaeian, B. and Ahangari, K., 2013, Estimation of uniaxial compressive strength based on P-wave and Schmidt hammer rebound using statistical method, Arab. J. Geosci., 6, 1925-1931. 미소장
33 Olsson, M., Markstroem, I., Pettersson, A., and Straeng, M., 2009, Examination of the Excavation Damaged Zone in the TASS tunnel, Aespoe HRL, SKB TR-09-39, Svensk Kärnbränslehantering AB, Stockholm. 미소장
34 Olsson, O.L. and Winberg, A., 1996, Current understanding of extent and properties of the excavation disturbed zone and its dependence of excavation method. In: Martino, J. B., Martin, C.D. (Eds.), Proceedings of the International Conference on Deep Geological Disposal of Radioactive Waste, pp. 101-112. 미소장
35 Park, S. and Kwon, S., 2017, Status of researches of excavation damaged zone in foreign underground research laboratories constructed for developing high-level radioactive waste disposal techniques, Explosives and Blasting, 35(3), 31-54. 미소장
36 Perras, M.A. and Diederichs, M.S., 2016, Predicting excavation damage zone depths in brittle rocks, J. Rock Mech. and Geotech. Eng., 8, 60-74. 미소장
37 Read, R.S. and Martin, C.D., 1996, Technical summary of AECL’s Mine-By Experiment. Phase 1: Excavation Responses, AECL-11311, CoG-95-171. AECL, Pinawa, Canada. 미소장
38 Saiang, D., 2011, Blast-Induced Damaged Zone Studies Final Report to Trafikverket, Division of Mining and Geotechnical Engineering Luleå University of Technology Sweden. 미소장
39 Sato, T., Kikuchi, T., and Sugihara, K., 2000, In-situ experiments on an excavation disturbed zone induced by mechanical excavation in Neogene sedimentary rock at Tono mine, central Japan, Eng. Geol., 56, 97-108. 미소장
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41 SKB, 1999, SR 97 - Deep repository for spent nuclear fuel, SR 97 - Post-closure safety. Main report - Vol. I, Vol. II and Summary, SKB TR-99-06, Svensk Kärnbränslehantering AB, Stockholm. 미소장
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43 Sugihara, K., Yoshioka, H., Matsui, H., and Sato, T., 1993, Preliminary results of a study on the responses of sedimentary rocks to shaft excavation, Eng. Geol., 35, 223-228. 미소장
44 Tsang, C.F., Bernier, F., and Davies, C, 2005, Geohydromechanical processes in the excavation damaged zone in crystalline rock, rock salt, and indurated and plastic clays in the context of radioactive waste disposal, Int. J. Rock Mech. Min. Sci., 42(1), 109-125. 미소장
45 Wang, J., Chen, L., Su, R., and Zhao, X., 2018, The Beishan underground research laboratory for geological disposal of high-level radioactive waste in China: Planning, site selection, site characterization and in situ tests, J. Rock Mech. and Geotech. Eng., 10, 411-435. 미소장

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