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Effects of Meteorological and Reclaiming Conditions on the Reduction of Suspended Particles

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한국환경과학회지 (Journal of Environmental Science International)
한국환경과학회 (The Korean Environmental Sciences Society)
초록

The effects of meteorological and reclaiming conditions on the reduction of suspended particles are investigated using a computational fluid dynamics (CFD) model with the k-ε turbulence closure scheme based on the renormalization group (RNG) theory. Twelve numerical experiments with different meteorological and reclaiming conditions are performed. For identifying the meteorological characteristics of the target area and providing the inflow conditions of the CFD model, the observed data from the automatic weather station (AWS) near the target area is analyzed. Complicated flow patterns such as flow distortion, horse-shoe vortex, recirculation zone, and channeling flow appeared due to the topography and buildings in the domain. Specially, the flow characteristics around the reclamation area are affected by the reclaiming height, reclaiming size and windbreak height. Reclaiming height affected the wind speed above the reclaiming area. Windbreak induces more complicated flow patterns around the reclaiming area as well as within the reclaiming area. In front of the windbreak, flow is distorted as it impinges on the windbreak. As a result, upward flow is generated there. Behind the windbreak, a secondary circulation, so called, a recirculation zone is generated and flow is reattached at the end of the recirculation zone (reattachment point). At the lower part of the recirculation zone, there is a reverse flow toward the windbreak. Flow passing to the reattachment point starts to be recovered. Total amounts of suspended particles are calculated using the frictional and threshold frictional velocities, erosion potential function, and the number of surface disturbance. In the case of a 10 m-reclaiming and northerly wind, the amount of suspended particles is largest. In the presence of 5 m windbreak, the friction velocity above the reclaiming area is largely reduced. As a result, the total amount of the suspended particles largely decreases, compared to the case with the same reclaiming and meteorological conditions except for the windbreak The calculated suspended particle amounts are used as the emission rate of the dispersion model simulations and the dispersion characteristics of the suspended particles are analyzed.

목차
Abstract
 1. 서 론
 2. 대상 지역 현황
 3. 수치실험 설계
  3.1. 대상 지역
  3.2. 수치모델 실험 설계
 4. 결과 및 고찰
  4.1. 바람장 특성 분석
  4.2. 석탄회 비산량 추정 방법
  4.3. 매립회 비산 확산 특성 분석
 5. 결 론
 참 고 문 헌
저자
  • 최재원(부경대학교 환경대기과학과) | Jae-Won Choi (Department of Environmental Atmospheric Science, Pukyong National University)
  • 이영수(부경대학교 환경대기과학과) | Young-Su Lee (Department of Environmental Atmospheric Science, Pukyong National University)
  • 김재진(부경대학교 환경대기과학과) | Jae-Jin Kim (Department of Environmental Atmospheric Science, Pukyong National University) Corresponding Author