In this study we investigated the air pollutants dispersion around depressed road using commercial FLUENT CFD code. In order to find optimal turbulence model which simulates air pollution dispersion around. depressed road, we used the realizable k-ε model, the RNG k-ε model, and the Shear-Stress Transport k-⍵turbulence model in FLUENT CFD code. The results were compared with the wind tunnel experiments. Realizable k-ε turbulence model provided the best prediction for the surface concentrations and concentration profiles of selected downwind positions of the depressed road. It was found that a noise barrier, which positioned around the depressed road, decrease the horizontal impact distance lower 0.46~0.81 times and change the vertical air pollution impact distance larger 0.95~1.47 times than those of no barrier case. It was also found that two or three noise barriers increase 1.33-1.42 times the vertical air pollution impact distance. It contributes the decrease of horizontal air pollution impact distance 0.44~0.60 times compare with no barrier case.

현재 각 관리 주체별로 절토사면에 대한 유지관리를 시행하고 있으나 평가항목 및 평가모형이 다양하고 접근방법이 상호보완적이지 못하므로 보편성 및 객관성이 부족한 실정이다. 따라서, 본 연구는 기존 절토사면 평가기법에 대한 분석을 통하여 합리적인 모형개발을 위한 접근을 시도하고 붕괴사례 분석을 통하여 붕괴 주요원인 및 인자를 발굴하고 이를 계층분석기법(AHP)을 이용하여 기존 절토사면의 조사․평가단계에서 조사우선순위를 결정하기 위한 평가표를 작성하였다.