Browse > Article

Hydraulic Characteristics of Shallow Geology in Dongrae Area, Busan Megacity  

Ryu, Sang-Hun (Division of Earth Environmental System, Pusan National University)
Hamm, Se-Yeong (Division of Earth Environmental System, Pusan National University)
Jeong, Jae-Hyeong (Geotechnical Engineering Research Department, Korea Institute of Construction Technology)
Han, Suk-Jong (Geotechnical Engineering Dept., Dong-A Geological Engineering Co., Ltd.)
Cheong, Jae-Yeol (Division of Earth Environmental System, Pusan National University)
Jang, Seong (Gyeongsangnam-Do Office, Korea Rural Community & Agriculture Corporation)
Kim, Hyoung-Su (Korea Institute of Water and Environment, Korea Water Resources Corporation)
Publication Information
The Journal of Engineering Geology / v.18, no.1, 2008 , pp. 55-68 More about this Journal
Abstract
At present underground structures such as road tunnels, railway tunnels, underground petroleum storages and radioactive waste storages are being constructed in numerous places in Korea. For the construction of underground structrues, it should be accounted for natural factors (geology, hydrogeology, soil, vegetation, topography and drainage patterns) and human-social factors (land use, urbanization, population, culture and transportation). Especially, hydrogeology should be regarded as an important factor for evaluating the safety of underground structures and their impact to groundwater system around the structures. This study aimed to recognize hydrogeological characteristics of shallow formations in the area from Dongrae crossway to Seo-Dong where 45 boreholes were drilled for the construction of Line-3 subway in Busan Megacity. Slug tests for unsaturated and saturated zones were conducted on 30 boreholes in the study area. From the result of the slug tests, it was identified that average zonal hydraulic conductivity in the unsaturated zone was higher than that in the saturated zone. Besides, the slug test result in the saturated zones may reflect hydraulic properties of the upper most part of the saturated zones.
Keywords
underground structure; hydraulic conductivity; slug test; unsaturated zone; saturated zone;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 McElwee, C.D., Bohling, G.C., and Butler, JJ.J., r., 1995b, Sensitivity analysis of slug tests. Part 2. Observation wells. J. Hydrol., 164, 69-87   DOI   ScienceOn
2 Papadopulos, I.S., Bredehoeft, J.D., and Cooper, H.H., Jr., 1973, On the analysis of "slug test" data, Water Resour. Res., 9, 1087-1089   DOI
3 U. S. Bureau of Reclamation, 1958, Earth Manual., 253p
4 Zlotnik, V., 1994, Interpretation of slug and packer tests in anisotropic aquifers, Ground Water, 32(5), 761-767   DOI   ScienceOn
5 장태우, 강필종, 박석환, 황상구, 이동우, 1983, 한국지질도 부산.가덕도폭 (1:50,000) 및 설명서, 한국동력자 원연구소, 22p
6 이기복, 1998, 지반조사법, 도서출판 과학기술, 799p
7 함세영, 김광성, 이정환, 정재열, 성익환, 장성, 2006, 부산시 사상공단지역의 지하수 수질 특성, 자원환경지질, 39(6), 753-770   과학기술학회마을
8 Bouwer. H., 1989, The Bouwer and Rice, Slug test-an update, Ground Water, 27(3), 304-309   DOI   ScienceOn
9 Fetter, C.W., 2001, Applied Hydrogeology, 4th ed., Prentice Hall
10 Hvorslev, M.L., 1951, Time lag and soil permeability in groundwater observations. Bull. 36, Waterways Experiment Station Corps of Engineers. U. S. Army. Vicksburg, Mississippi, 50 p
11 Hinsby, K., Bjerg, P., Andersen, L.J., Skov. B., and Clausen, E.V., 1992, A mini slug test for determination of a local hydraulic conductivity of an unconfined sandy aquifer. J. Hydrol., 136, 87-106   DOI   ScienceOn
12 Butler, J.J., Jr., 1996, Slug tests: Some practical considerations, Kansas Geological Survey Open-File Rept. 94-16
13 건설교통부, 한국수자원공사, 2003, 부산지역 지하수 기초조사 보고서, 10-23
14 류상훈, 함세영, 차용훈, 장성, 정재형, 손문, 김기석, 2007, 부산광역시 도심부 수리지질특성과 지하지질 발 달상태의 관련성, 지질공학, 17(3), 367-379   과학기술학회마을
15 함세영, 김문수, 성익환, 이병대, 김광성, 2001, 순간충격 시험에 의한 화강암지역의 수리적 매개변수 산출, 지질공학, 11(1), 63-79
16 조병욱, 2001, 부산지역의 지하수자원의 수리지질학적 특징, 경북대학교 일반대학원 이학박사 학위논문, 164p
17 Hamm, S.-Y., Kim, M.S., Cheong, J.-Y., Kim, J.-Y., Son, M., and Kim, T.-W., 2007, Relationship between hydraulic conductivity and fracture properties estimated from packer tests and borehole data in a fractured granite, Eng. Geol., 92, 73-87   DOI   ScienceOn
18 Nguyen, V. and Pinder, G.F., 1984, Direct calculation of aquifer parameters in slug test analysis, In Groundwater Hydraulics, J. Rosenshein and G. D. Bennett( eds.), American Geophysical Union Water Resour. Monogr. 9, 222-239
19 손치무, 이상만, 김영기, 김상욱, 김형식, 1978, 한국지질도 동래.월래도폭 (1:50,000) 및 설명서, 자원개발연구소, 27p
20 Bouwer. H. and Rice, R.C., 1976, A slug test for determining hydraulic conductivity of unconfined aquifers with completely or partially penetrating wells, Water Resour. Res., 12(3), 423-428   DOI
21 Zieger. T., 1976. Determination of rock mass permeability. U. S. Army Engineers Waterways Experiment Station, Technical Report S-76-2, Vicksburg, Mississippi, 88p
22 Freeze, R.A. and Cherry, J.A., 1979, Groundwater, Prentice- Hall, Inc., 604p
23 Butler, J.J., Jr., 1998, The design, performance, and analysis of slug tests, Lewis Publishers, 252p
24 Hyder, Z, Bulter, Jr., C.D. McElwee and W.Liu, 1994. Slug tests in partially penetrating wells, Water Resources Research, 30(11), 2945-2957   DOI   ScienceOn
25 McElwee, C.D., Bohling, G.C., and Butler, JJ.J., r., 1995a, Sensitivity analysis of slug tests. Part 1. The slugged well, J. Hydrol., 164, 53-67   DOI   ScienceOn
26 Cooper, H.H., Jr., J.D. Bredehoeft, and I.S. Papadopulos., 1967, Respose to a finite diameter well to an instantaneous charge of water. Water Resour. Res., 3, 263-269   DOI
27 Butler, J.J., Jr. and Hyder, Z., 1994, An assessment of the Nguyen and Pinder method for slug test analysis, Ground Water Monitoring and Remediation, 14(4), 124-131   DOI   ScienceOn
28 함세영, 차용훈, 정재열, 2005, 부산 도심지역 미고결층과 기반암의 수리지질 특성, 지질공학, 15(4), 407-421   과학기술학회마을
29 성익환, 조병욱, 이병대, 지세정, 류충렬, 김통권, 윤욱, 이봉주, 임현철, 이종철, 이병태, 김경구, 성기성, 이인 호, 추창오, 김정숙, 김문수, 최경국, 함세영, 최광선, 김인수, 조명희, 심형수, 원지훈, 정상용, 박희영, 강동 환, 심병완, 김병우, 1999, 지하수 오염방지 및 음용화 기술연구(부산지역), 한국자원연구소, 541p
30 손문, 이선갑, 김종선, 김인수, 이건, 2007, 부산시 도심 지의 지하 지질구조와 단층손상과 관련된 지질위험도 분석, 자원환경지질, 40(1), 87-101   과학기술학회마을