한국해양대학교

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해상 폐기물매립장에서 침투 이류 분산을 이용한 차수시스템의 지반공학적 성능 평가

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dc.contributor.advisor 김태형 -
dc.contributor.author 김향은 -
dc.date.accessioned 2019-12-16T03:12:02Z -
dc.date.available 2019-12-16T03:12:02Z -
dc.date.issued 2019 -
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/11909 -
dc.identifier.uri http://kmou.dcollection.net/common/orgView/200000182539 -
dc.description.abstract Recently, the necessity of constructing a large-scale offshore waste landfill in the city's port area is increasing instead of construction of new waste landfill inland. Due to the development of society and the intermittent occurrence of disasters induced by earthquakes and typhoons, the amount of waste generation tends to increase every year. In the case of South Korea, there is no big problem of landfill capacity at the final disposal site at present; however, new site development of the final waste landfill is still a matter of concern because of the resident’s complaints and NIMBY problem. In such a social atmosphere, it is considered as an alternative solution to build a final waste landfill at offshore. While there are no construction examples of offshore waste landfill in South Korea yet, and it is actually not provided the standards for construction of liner systems such as bottom layer and vertical barrier wall. Therefore, in this study, the parametric analysis was conducted to evaluate the optimum geotechnical performance of barrier system to prevent leakage of contaminants at the offshore waste landfill by considering seepage, advection, and dispersion. Based on overseas landfill cases, a double steel-pile and rubble mound types of revetment structures were selected as the offshore waste landfill. The analysis was conducted under steady and unsteady flows on the basic liners, bottom layer and vertical barrier wall. First, in case of steady flow, the parametric analysis was conducted to evaluate optimum geotechnical performance of barrier system on thickness and hydraulic conductivity of bottom layer both double sheet-pile and rubble mound types of revetments structures. In addition, the thickness, hydraulic conductivity, and embedment depth of double steel-pile structure were investigated to evaluate the performance of vertical barrier wall. For the rubble mound type of revetment, the parametric analysis was conducted on the length of HDPE sheet and the hydraulic conductivity of rubble mound type back-fill layer for revetment structure. Based on the study results, the minimum criteria is proposed which indicate optimal performance of barrier system on the both revetment structures. Then, the parametric analysis was performed under unsteady flow condition considering tidal fluctuation where the offshore environment waste landfill is constructed. The result was compared to the ones obtained from the steady flow condition. Moreover, the analysis was performed considering the water level fluctuation inside the landfill at the time of actual landfill management and the results were compared to the preceding results. Based on the outcomes of this study, the results obtained from the steady flow condition (where the water level in the landfill is set higher than the sea level) is much conservative comparing to the cases where the tidal fluctuation and water level is inside the landfill. Therefore, in general conditions, it is proper to consider the steady flow condition due to seepage, advection, and dispersion in the analysis of the leakage of contaminants at offshore waste landfill. -
dc.description.tableofcontents 목 차 List of Tables ⅳ List of Photo ⅴ List of Figures ⅵ Abstract ⅹⅵ 제 1 장 서 론 1.1 연구의 배경 1 1.2 연구의 목적 3 1.3 연구의 범위 4 제 2 장 해상 폐기물매립장의 현황 2.1 해상 폐기물매립장 6 2.1.1 역할 6 2.1.2 수명주기 10 2.1.3 환경 영향 12 2.2 해상 폐기물매립장의 차수공법 15 2.2.1 폐기물 매립 호안과 차수공법 15 2.2.2 차수공의 차수 성능 17 2.2.3 차수공의 분류 19 2.3 시공사례 27 2.3.1 동경만 해상 폐기물매립장 27 2.3.2 오사카만 해상 폐기물매립장 30 2.3.3 다차바나만의 해상 폐기물매립장 34 2.3.4 싱가포르 세마카우 해상 폐기물매립장 37 제 3 장 침투·이류 분산(확산)의 이론 및 해석방법 3.1 침투·이류 분산(확산)의 개념 38 3.2 침투․이류 분산 해석 이론 39 3.2.1 지배방정식 39 3.2.2 해석프로그램 41 3.3 해석모델 및 해석조건 41 3.3.1 해석모델 41 3.3.2 해석조건 46 제 4 장 정상류 하에서의 바닥 차수시스템 차수성능 평가 4.1 개요 53 4.2 2중 연직벽체 호안 54 4.2.1 투수계수의 영향 54 4.2.2 두께의 영향 63 4.2.3 소결 65 4.3 경사제식 호안 66 4.3.1 투수계수의 영향 66 4.3.2 두께의 영향 77 4.3.3 소결 77 제 5 장 정상류 하에서의 호안 차수시스템 차수성능 평가 5.1 2중 연직벽체 호안 78 5.1.1 투수계수의 영향 78 5.1.2 두께 변화에 따른 오염물 분산영향 87 5.1.3 근입깊이에 따른 오염물 분산영향 89 5.1.4 소결 98 5.2 경사제식 호안 99 5.2.1 차수시트의 연장길이에 따른 오염물 분산영향 99 5.2.2 중간보호층 투수계수 변화에 따른 오염물 분산영향 108 5.2.3 소결 111 제 6 장 조위변동 및 내수위 관리에 따른 차수시스템의 차수성능 평가 6.1 조위변동의 영향 112 6.1.1 개요 112 6.1.2 2중 연직벽체 호안 114 6.1.3 경사제식 호안 132 6.2 내수위 관리에 따른 영향 150 6.2.1 개요 150 6.2.2 2중 연직벽체 호안 150 6.2.3 경사제식 호안 157 제 7 장 결 론 7.1 결론 163 7.2 향후 연구를 위한 제언 165 -
dc.format.extent 190 -
dc.language kor -
dc.publisher 한국해양대학교 대학원 -
dc.rights 한국해양대학교 논문은 저작권에 의해 보호받습니다. -
dc.title 해상 폐기물매립장에서 침투 이류 분산을 이용한 차수시스템의 지반공학적 성능 평가 -
dc.type Dissertation -
dc.date.awarded 2019-02 -
dc.contributor.alternativeName Hyangeun Kim -
dc.contributor.department 대학원 토목환경공학과 -
dc.contributor.affiliation 한국해양대학교 대학원 토목환경공학과 -
dc.description.degree Doctor -
dc.subject.keyword 해상 폐기물매립장, 해상 폐기물처리장, offshore landfill, vertical barrier, impermeable soil layer, seepage, advection, dispersion -
dc.title.translated Geotechnical Evaluation of the Performance of Barrier Systems on Offshore Waste Landfill Using Seepage and Advection, Dispersion Analysis -
dc.contributor.specialty 토목공학 -
dc.identifier.holdings 000000001979▲200000001028▲200000182539▲ -
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해상 폐기물매립장에서 침투 이류 분산을 이용한 차수시스템의 지반공학적 성능 평가.pdf Download

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