• 한국안전학회지
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• 제28권4호
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• pp.58-65
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• 2013

Transportation and further expansion of social infrastructure was needed along the development of urbanization and population concentration. To use the underground space due to the lack of availability of land, it is inevitable to intersect between present structure and tunnel during construction. Soil grouting is one of the ground improvement methods to reinforce weak soil around the underground structures by injection of grouting liquid. Some of central columns of an upper structure are damaged during injection of grouting liquid by injection pressure. To investigate and improve the stability of the tunnel, three dimensional analysis are performed with full construction stages which includes the construction of present underpass, damaging columns of the underpass, reinforcing the columns by H-pile and shear walls, and excavation and construct tunnel. The arrangement of grouting holes such as curtain and horizontal type affects largely to the stability of upper structure and horizontal arrangement diminish the shear forces which is the cause of damage of central columns. The liquid injection type of reinforcement for tunnel is not recommended while the presence of upper structure with columns. Wall type reinforcing is utilize for permant support of upper structures which is affected by grouting injection pressure. H-pile is utilize for temporary support, but not for permanent since the sharing of shear forces is not much to shear wall during tunnel construction.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2005년도 총회 및 춘계학술발표회
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• pp.131-134
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• 2005

Anaerobic reductive dechlorination of tetrachloroethylene(PCE) to ethylene was investigated by performing laboratory experiments using semi-continuous flow two-in-series soil columns. The columns were packed with soils obtained from TCE-contaminated site in Korea. Site ground water containing lactate(as electron donor and/or carbon source) and PCE was pumped into the soil columns. During the first operation with a period of 50 days, injected mass ratio of lactate and PCE was 620:1 and incomplete reductive dechlorination of PCE to cis-DCE was observed in the columns. However, complete dechlorination of PCE to ethylene was observed when the mass ratio increased to 5,050:1 in the second operation, suggesting that the electron donor might be limited during the first operation period. During the degradation of cis-DCE to ethylene, the concentration of hydrogen was $22{\sim}29mM$. These positive results indicate that the TCE-contaminated groundwater investigated in this study could be remediated through biological anaerobic reductive dechlorination processes.

• Geomechanics and Engineering
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• 제19권4호
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• pp.329-342
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• 2019

In this paper, the effect of a group of sand columns in the loose soil bed using triaxial tests was studied. To investigate the effect of geotextile reinforcement type on the bearing capacity of these sand columns, Vertical encased sand columns (VESCs) and horizontally reinforced sand columns (HRSCs) were used. Number of sixteen independent triaxial tests and finite element simulation were performed on specimens with a diameter of 100 mm and a height of 200 mm. Specimens were reinforced by either a single sand column or three sand columns with the same area replacement ratio (16%) to evaluate the Influence of the column arrangement. Effect the number of sand columns, the length of vertical encasement and the number of horizontal reinforcing layers were investigated, in terms of bearing capacity improvement and economy. The results indicated that the ultimate bearing capacity of the samples with three ordinary sand columns (OSCs) is eventually about 11% more than samples with an OSC. Also, comparison of the column reinforcing modes showed that four horizontal layers of geotextile achieved similar performance to a vertical encasement geotextile at the 50% of the column height, from the viewpoint of strength improvement, while from the viewpoint of economy, the geotextile needed for encasing the single column is around 2.5 times of the geotextile required for four layers.

• Geomechanics and Engineering
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• 제4권4호
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• pp.263-279
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• 2012

The present paper deals with the analysis of combined footings resting on geosynthetic reinforced granular fill overlying stone column improved poor soil. An attempt has been made to study the influence of inclusion of geosynthetic layer on the deflection of the footing. The footing has been idealized as a beam having finite flexural rigidity. Granular fill layer has been represented by Pasternak shear layer and stone columns and poor soil have been represented by nonlinear Winkler springs. Nonlinear behavior of granular fill layer, stone columns and the poor soil has been considered by means of hyperbolic stress strain relationships. Governing differential equations for the soil-foundation system have been derived and solution has been obtained employing finite difference scheme by means of iterative Gauss Elimination method. Results of a detailed parametric study have been presented, for a footing supporting typically five columns, in non-dimensional form in respect of deflection with and without geosynthetic inclusion. Geosynthetic layer has been found to significantly reduce the deflection of the footing which has been quantified by means of parametric study.

• 농약과학회지
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• 제2권1호
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• pp.59-64
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• 1998

토양의 물리화학적 특성에 따른 제초제 bentazon의 용탈행적을 구명하기 위하여 3종의 토양을 soil column(내경 5 cm ${\times}$ 길이 34 cm)에 30cm 높이까지 충전하고 [$^{14}C$]bentazon을 처리한 후 벼(Oryza sativa L.)를 9주간 관행법에 따라 재배하였다. 용탈된 $^{14}C$ 방사능의 양은 벼를 재배하지 않은 경우는 토양의 물리화학적 특성에 관계없이 총처리 방사능의 약 $91{\sim}92%$이었으나 벼를 재배한 경우는 $21{\sim}50%$로서 $^{14}C$ 용탈량이 현저히 감소하였으며, pH가 높고 유기물 함량이 낮은 토양에서 더 많았다. $^{14}CO_{2}$의 발생량은 총처리방사능의 0.2% 미만으로 매우 적었고 유기물 함량이 높은 토양일수록 뿌리를 통한 지상부로의 이행율이 적었다. Soil column으로부터 모은 용탈수의 $^{14}C$ 방사능이 수상에 분포하는 양은 용탈기간과 벼의 생육에 따라 증가하였으나 토양의 이화학적 특성에 따른 영향은 나타나지 않았다. 토양결합잔류물의 양은 벼를 재배하고 유기물 함량이 높은 토양에서 증가하였다.

• Geomechanics and Engineering
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• 제35권2호
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• pp.135-147
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• 2023

Sand columns in clayey soil are considered one of the most economical and environmentally-friendly soil-improving techniques. It improves the shear strength parameters, reduces the settlement, and increases the bearing capacity of clayey soils. The aim of this paper is to study the effect of grain shape in sand columns on their performance in improving the mechanical properties of clayey soils. An intensive series of consolidated-drained triaxial tests were performed on clay specimens only and clay specimens with sand columns. The parameters examined during the experimental work were grain shape in sand columns (angular, rounded, sub-rounded) and effective confining pressure (50 kPa, 100 kPa, 200 kPa). The results indicated that there is a significant improvement in the deviatoric stress and stiffness values of specimens with sand columns. Improving deviatoric stress values in the use of angular sand grains was found to be higher than those in the use of sub-rounded and rounded sand grains. A 187%, 159%, and 153% increment in deviatoric stress values were observed for the sand columns with angular, sub-rounded, and rounded grain shapes, respectively. The specimens were observed to be more contractive as the sand column was installed, and as the angularity of grains in the sand column was increased. Sand column installation improves significantly the angle of internal friction, and the effective angle of internal friction increases as the angularity of the sand grains increases.

• Geomechanics and Engineering
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• 제34권6호
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• pp.665-681
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• 2023

Liquefaction is one of the most devastating geotechnical phenomena that severely damage vital structures and lifelines. Before constructing structures on problematic ground, it is necessary to improve the site and solve the geotechnical problem. Among ground improvement methods dealing with liquefaction, gravel drain (GD) columns and deep soil mixing (DSM) columns are popular. In this study, the results of a series of seismic experiments in a 1g environment on a structure located over liquefiable ground with different thicknesses reinforced with GD and DSM techniques were presented. The dynamic response of the reinforced ground system was investigated based on the parameters of subsidence rate, excess pore water pressure ratio, and maximum acceleration. The time history of the input acceleration was applied harmonically with an acceleration range of 0.2g and at frequencies of 1, 2, and 3 Hz. The results show that the thickness of the liquefiable layer and the frequency of the input motion have a significant impact on the effectiveness of the improvement method and all responses. Among the two techniques used, DSM in thick liquefied layers was much more efficient than GD in controlling the subsidence and rupture of the soil under the foundation. Maximum settlement values, settlement rate, and foundation rotation in the thicker liquefied layer at the 1-Hz input frequency were higher than at other frequencies. At low thicknesses, the dynamic behavior of the GD was closer to that of the DSM.

• Structural Engineering and Mechanics
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• 제49권1호
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• pp.95-110
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• 2014

The study deals with physical modeling of space frame-pile foundation and soil system using finite element models. The superstructure frame is analyzed using complete three-dimensional finite element method where the component of the frame such as slab, beam and columns are descretized using 20 node isoparametric continuum elements. Initially, the frame is analyzed assuming the fixed column bases. Later the pile foundation is worked out separately wherein the simplified models of finite elements such as beam and plate element are used for pile and pile cap, respectively. The non-linear behaviour of soil mass is incorporated by idealizing the soil as non-linear springs using p-y curve along the lines similar to that by Georgiadis et al. (1992). For analysis of pile foundation, the non-linearity of soil via p-y curve approach is incorporated using the incremental approach. The interaction analysis is conducted for the parametric study. The non-linearity of soil is further incorporated using iterative approach, i.e., secant modulus approach, in the interaction analysis. The effect the various parameters of the pile foundation such as spacing in a group and configuration of the pile group is evaluated on the response of superstructure owing to non-linearity of the soil. The response included the displacement at the top of the frame and bending moment in columns. The non-linearity of soil increases the top displacement in the range of 7.8%-16.7%. However, its effect is found very marginal on the absolute maximum moment in columns. The hogging moment decreases by 0.005% while sagging moment increases by 0.02%.

• 자원환경지질
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• 제42권5호
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• pp.435-444
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• 2009

토양 입자 표면에 형성한 토착 미생물 바이오필름에 의하여 중금속을 흡착하므로써 하부 생태계로 이동하지 않고 원위치에 고정화하는 실험을 수행하였다. 토양으로 충진한 컬럼에 초산염, 유산염, 포도당 등의 탄소원을 10일간 공급함으로써 토양에 바이오필름을 형성하였다. 바이오필름 형성 기간 중, 초산염, 유산염, 포도당을 공급한 컬럼의 유출 수량은 탈이온수를 공급한 컬럼의 유출수량에 비하여 각각 98.5%, 97.3%, 94.7%인 것으로 나타났다. 이러한 유출수량의 감소는 형성된 바이오필름에 의한 토양 공극 폐색에 의한 것으로 판단된다. 바이오필름이 형성된 토양 컬럼에 Cd, Cr(VI), Cu, Pb, Zn 용액을 주입하며 시간에 따라 유출수를 채집, 중금속을 정량하였다. 바이오필름 컬럼을 통과하여 나온 유출수 중 Cd, Cr(VI), Cu, Zn 농도는 탈이온수 컬럼에 비하여 낮았으며, 이는 토양 입자에 비하여 바이오필름에 의한 이들 중금속 흡착 효율이 높기 때문인 것으로 여겨진다. 바이오필름에 의한 중금속 제거 효율은 토착 미생물에 공급한 탄소원의 종류에 따라 다르게 나타났다. 이러한 연구 결과는 중금속으로 오염된 토양 내에 중금속을 원위치 고정화하는 기술 개발에 유용하게 적용될 수 있을 것으로 기대한다.

• 농약과학회지
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• 제3권2호
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• pp.29-36
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• 1999

물리화학적 성질이 상이한 두 종류의 토양으로 충전된 유리 column (5 cm I.D. ${\times}$ 30 cm H.)을 이용하여 bipyridylium계 제초제 paraquat의 용탈을 조사하였다. 토양 A (양토)의 벼 재배구와 무재배구에서 117 일 동안 토양 column으로부터 용탈된 $^{14}C$은 각각 총 처리량의 0.42%와 0.54%이었고, 토양 B (사양토)의 경우에는 각각 0.21%와 0.31%이었다. 벼에 흡수된 $^{14}C$은 토양 A와 B에서 각각 3.87%와 2.79%이었고 대부분이 뿌리에 분포하였다. 두 토양 모두에서 총 처리량의 96% 이상이 토양중에 남아 있었고, 특히 $0{\sim}5$ cm 부위에 대부분 존재하였다. Paraquat 토양잔류물의 물에 의한 추출율은 $6.10{\sim}9.10%$이었고 추출불가 토양잔류물의 분포비율은 humin>humic acid>fulvic acid 순이었다. 벼 무재배구의 토양 pH는 담수의 혐기적 조건때문에 용탈실험 후 증가하였으나 벼 재배구에서의 토양 pH는 벼 뿌리로부터 분비되는 삼출물에 의한 상쇄효과로 증가되지 않았다. 토양중 paraquat의 낮은 이동성은 논에 잔류되어 있는 paraquat에 의한 지하수의 오염가능성이 매우 희박함을 시사해 준다.