All Issue

2020 Vol.57, Issue 2 Preview Page

Technical Report


April 2020. pp. 215-233
Abstract


References
2 
Barton, N., Lien, R., and Lunde J., 1974. Engineering classification of rock masses for the design of tunnel support, Rock. Mech., 6, p.189-236.
10.1007/BF01239496
3 
Bieniawski, Z.T., 1989. Engineering rock mass classifications: a complete manual for engineers and geologists in mining, civil, and petroleum engineering, John Wiley, New York, 251p.
4 
Choi, J., Chae, B.-G., Kihm, Y.-H., Park, E.-S., Hyun, S., Kim, H.C., Nahm, W.-H., Jeon, J.S., and Suk, H., 2017. Suggestion of site investigation method for HLW disposal facility, Journal of the Korean Society of Mineral and Energy Resources Engineers, 54(4), p.303-318.
10.12972/ksmer.2017.54.4.303
5 
Deere, D.U. and Miller, R.P., 1966. Engineering classification and index properties for intact rock, Technical Report AFNL-TR-65-116, Air Force Weapons Laboratory, Kirtland Air Force Base, New Mexico, 324p.
6 
Hobbs, B.E., Means, W.D., and Williams, P.E., 1976. An Outline of Structural Geology, John Wiley and Sons, New York, 571p.
7 
IAEA, 1994. Siting of Geological Disposal Facilities, Safety Series No. 111-G-4.1, Vienna, 48p.
8 
ISRM, 2020.03.18., www.isrm.net/gca/?id=177.
9 
Jaeger, J.G., Cook, N.G.W., and Zimmerman, R.W., 2007. Fundamentals of rock mechanics (4th Ed.), Blackwell Publishing, Singapore, 488p.
10 
Jang, H.-S., Jang, B.-A., and Kim, Y., 2005. Estimation of joint roughness coefficient(JRC) using modified divider method, Eng. Geol., 15(3), p.269-280.
11 
KAERI, 2010. Operation and Analysis on the Monitoring System of Strain at Tunnel Wall and Temperature Variation for KURT using Optical Fiber Sensor Cable, KAERI/ TR-4076/2010, Daejeon, Korea, 31p.
12 
KAERI, 2016. A Safety Case of the Conceptual Diposal System for Pyro-processing High-Level Waste Based on the KURT Site(AKRS-16): II. Site Description, KAERI/ TR-6728/2016, Daejeon, Korea, 192p.
13 
KIGAM, 2016. Development of regional geological survey methodology for disposal of spent nuclear fuel, IP2015-020-2016(1), Daejeon, Korea, 487p.
14 
KIGAM, 2019. Development of nationwide geoenvironmental maps for HLW geological disposal, GP2017-009-2019, Daejeon, Korea, 603p.
15 
Kim, G.Y., Koh, Y.K., Choi, B.-Y., Shin, S.H., and Kim, D.H., 2008. Geochemical characteristics of the gyeongju LILW repository II. rock and mineral, J. Nuel. Fuel Cycle Waste Technol., 6(4), p.307-327.
16 
Kim, K.-S., 2006. Soil characteristics according to the geological condition of soil slopes in landslide area, Eng. Geol., 16(4), p.359-371.
17 
Kim, S.K., Lee, J.M., and Kim, J.K., 2001. Maximum probable earthquakes in the Korean peninsula, J. Geol. Soc. Korea, 37(1), p.107-114.
18 
Kulatilake, P.H.S.W., Shou, G., Huang, T.H., and Morgan, R.M., 1995. New peak shear strength criteria for anisotropic rock joints, Int. J. Rock. Mech. Min., 32(7), p.673-697.
10.1016/0148-9062(95)00022-9
19 
Lee, C.-H., Shin, H.-S., Chung, K.-H., Cho, Y.-H., and Lee, C.-W., 2003. Isolation and characterization of humic acids present in the soils at the vicinity of domestic atomic power plants(NPPs), J. Radiat., 28(3), p.165-172.
20 
Lee, K.H., Lee, J.H., and Kyung, J.B., 1998. A statistical analysis of the seismicity of the yangsan fault system, Eng. Geol., 8(2), p.99-114.
21 
Lee, S.Y., Baik, M.H., Roh, Y., and Oh, J.M., 2010. The effects of Fe-bearing minerals on the interaction between underground dissimilatory metal-reducing bacteria and dissolved uranium, J. Geol. Soc. Korea, 46(4), p.357-366.
23 
Nagra, 2016. The Nagra Research, Development and Demonstration (RD&D) Plan for the Disposal of Radioactive Waste in Switzerland, Technical Report 16-02, Switzerland, 336p.
24 
NUMO, 2004. Evaluating Site suitability for a HLW Repository, NUMO-TR-04-04, Japan, 74p.
25 
Park, C.-K., Baik, M.-H., and Choi, J.-W., 2007. Current status and tasks of contaminants migration experiments using underground research laboratory, Tunn. Undergr. Space, 17(1), p.17-25.
26 
Park, K.-W. and Bae, D.-S., 2005. Analysis of correlation between hydraulic conductivity and fracture characteristics observed by Televiewer logging, J. Geol. Soc. Korea, 41(2), p.269-285.
27 
Park, K.-W., Kim, K.-S., Koh, Y.-K., Jo, Y., and Ji, S.-H., 2017. Review of site characterization methodology for deep geological disposal of radioactive waste, J. Nuel. Fuel Cycle Waste Technol., 15(3), p.239-256.
10.7733/jnfcwt.2017.15.3.239
28 
Posiva, 1999. Final disposal of spent nuclear fuel in Finnish bedrock - Olkiluoto site report, POSIVA 99-08, Finland, 179p.
29 
Posiva, 2000. The site selection process for a spent fuel repository in Finland - Summary report, POSIVA 2000-15, Finland, 225p.
30 
SKB, 1990. Solute transport in fractured rock - applications to radionuclide waste repositories, SKB-TR-90-38, Sweden, 109p.
31 
SKB, 1998. Parameters of importance to determine during geoscientific site investigation, TR 98-02, Sweden, 130p.
32 
Trudgill, B. and Cartwright, J., 1994. Relay-ramp forms and normal-fault linkages, Canyonlands National Park, Utah, Geol. Soc. Am. Bull., 106, p.1143-1157.
10.1130/0016-7606(1994)106<1143:RRFANF>2.3.CO;2
33 
Ulusay, R., 2014. The ISRM Suggested Methods for Rock Characterization, Testing and Monitoring: 2007-2014, Springer, Germany, 293p.
10.1007/978-3-319-07713-0
34 
USGS, 2020.03.12, www.usgs.gov/media/images/volcanic- explosivity-index-vei-a-numeric-scale-me asures-t.
35 
Yun, S.W., Kim, Y.S., Kim, D.H., Kim, H.C., Shin, M.C., Park, J.Y., Kim, H., and Lee, J.-Y., 2013. Comparative study on waterlevel fluctuation and recharge characteristic in groundwaters of urban and rural areas in Gangwon Province, J. Geol. Soc. Korea, 49(4), p.503-516.
Information
  • Publisher :The Korean Society of Mineral and Energy Resources Engineers
  • Publisher(Ko) :한국자원공학회
  • Journal Title :Journal of the Korean Society of Mineral and Energy Resources Engineers
  • Journal Title(Ko) :한국자원공학회지
  • Volume : 57
  • No :2
  • Pages :215-233
  • Received Date :2020. 04. 01
  • Revised Date :2020. 04. 22
  • Accepted Date : 2020. 04. 24