• 한국지하수토양환경학회지:지하수토양환경
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• 제12권4호
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• pp.1-7
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• 2007

본 연구에서는 모래층(sbt-1공), 실트질 모래층(sbt-2공) 및 모래와 실트질 모래의 혼합층(sbt-3공)에서 순간충격시험이 수행되었다. 그리고, 현장시험에 의해 산정된 수리전도도와 비저류계수를 이용하여 회수시험 시 지하수위 강하구역의 공극체적을 산정하였다. 순간충격시험의 해석은 KGS 모델이 가장 적합하였으며, 주입시험과 회수시험 시 평균수리전도도는 sbt-1공 $6.65{\times}10^{-5}$m/sec, sbt-2공 $6.33{\times}10^{-6}$m/sec, sbt-3공 $3.72{\times}10^{-5}$m/sec이며, 평균비저류계수는 sbt-1공 0.0225, sbt-2공 0.0177, sbt-3공 0.0259로 산정되었다. 투수량계수, 저류계수, 시험시간 및 시험공 제원을 이용하여 무차원 시간과 무차원 우물저류계수를 산정하였다. 그리고, Cooper 등(1967)이 제시한 변수 ${\alpha}$와 ${\beta}$를 이용하여 무차원 수두강하량이 선정되었다. 산정된 무차원 시간, 무차원 우물저류계수 및 무차원 수두강하량을 이용하여 순간충격시험 시의 영향반경이 산정되었다. 주입시험과 회수시험 시 평균영향반경은 sbt-1공 1.377 m, sbt-2공 1.253 m, sbt-3공 1.558 m로 산정되었다. 그리고, 회수시험 시 더미 회수에 의한 지하수위 강하구역의 공극체적은 sbt-1공 $145,636cm^3$, sbt-2공 $71,561cm^3$, sbt-3공 $100,418cm^3$로 산정되었으며, 시험공의 부피를 제외한 지하수위 강하구의 공극체적은 sbt-1공 $145,410cm^3$, sbt-2공 $71,353cm^3$, sbt-3공 $100,192cm^3$이었다.

• 한국환경과학회지
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• 제18권3호
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• pp.315-323
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• 2009

Hydraulic gradient of the landfill soils is estimated by Devlin (2003) method, and its variation characteristics from rainfall and permeability of the aquifer material are analyzed. The study site of 18 m $\times$ 12 m is located in front of the Environment Research Center at the Pukyong National University, and core logging, slug/bail test and groundwater monitoring was performed. The sluglbail tests were performed in 9 wells (except BH9 well), and drawdown data with elapsed time for bail tests were analyzed using Bouwer-Rice and Hvorslev methods. The average hydraulic conductivity estimated in each of the test wells was ranged $1.991{\times}10^{-7}{\sim}4.714{\times}10^{-6}m/sec$, and the average hydraulic conductivity in the study site was estimated $2.376{\times}10^{-6}m/sec$ for arithmetic average, $1.655{\times}10^{-6}m/sec$ for geometric average and $9.366{\times}10^{-7}m/sec$ for harmonic average. The permeability of landfill soils was higher at the east side of the study site than at the west side. Groundwater level in 10 wells was monitored 44 times from October 2 to November 7, 2007. The groundwater level was ranged 1.187$\sim$1.610 m, and the average groundwater level range in each of the well showed 1.256$\sim$1.407 m. The groundwater level was higher at the east side than at the west side of the study site, and this distribution is identify to it of hydraulic conductivity. The hydraulie gradient and the major flow direction for 10 wells were estimated 0.0072$\sim$0.0093 and $81.7618{\sim}88.0836^{\circ}$, respectively. Also, the hydraulic gradient and the major flow direction for 9 wells were estimated 0.0102$\sim$0.0124 and $84.6822{\sim}89.1174^{\circ}$, respectively. The hydraulic gradient of the study site increased from rainfall (83.5 mm) on October 7, causing by that the groundwater level of the site with high permeability was higher. The hydraulic gradient estimated on and after October 16 was stable, due to almost no rainfall. Thus, it was confirmed that the variation of the hydraulic gradient in the landfill soils was controlled by the rainfall.