• 제목/요약/키워드: Simple numerical particle model

검색결과 29건 처리시간 0.025초

입자수치모의를 통한 낙동강 하구 부유(해안)쓰레기 거동특성 (Characteristics of the Behavior of Floating Debris in the Nakdong River Estuary using a Simple Numerical Particle Model)

  • 유창일;윤한삼;김규태
    • 해양환경안전학회:학술대회논문집
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    • 해양환경안전학회 2007년도 추계학술발표회
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    • pp.23-28
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    • 2007
  • 본 연구는 낙동강 하구역에 유입되거나 발생된 부유(해안)쓰레기의 거동특성을 파악하기 위해 2003년 태풍 "매미" 내습시 하구둑 최대 방류량을 조건으로 해수유동장을 재현하고 재현된 유동장에 부유쓰레기로 대표되는 입자를 방출하여 입자들의 거동특성을 살펴보고자 하였다. 그 결과에 따르면 낙동강 하구역내 존재하는 부유쓰레기는 홍수유량시 72시간 경과시에 낙동강 하구역내 입자분포 및 거동이 안정상태에 도달하였다. 공간상으로는 진우도를 포함한 가덕도 동측 해안의 경우 초기 33시간까지는 40%까지 증가하나 그 외 주변해역의 경우 $20{\sim}40$ % 범위를 유지하였다.

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입자수치모의를 통한 낙동강 하구 해안부유쓰레기 거동 (The Behavior of Floating Debris in the Nakdong River Estuary using a Simple Numerical Particle Model)

  • 유창일;윤한삼;김규래
    • 해양환경안전학회지
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    • 제13권4호
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    • pp.9-14
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    • 2007
  • 본 연구는 낙동장 하구역에 유입되거나 발생된 해안부유쓰레기의 거동특성을 파악하기 위해 2003년 태풍 "매미" 내습시 하구둑 최대 방류량을 조건으로 수치모형을 이용하여 해수유동장을 재현하고 제현된 유동장에 부유쓰레기로 대표되는 입자를 방출하여 입자들의 거동특성을 살펴보고자 하였다. 입자수치모의실험의 결과에 따르면 낙동강 하구역내 존재하는 부유쓰레기는 홍수유량시 72시간 경과시에 낙동강 하구역내 입자 분포 및 거동이 안정상태에 도달하였다. 공간상으로는 진우도를 포함한 가덕도 동측 해안의 경우 초기 33시간까지는 40%까지 증가하나 그 외 주변해역의 경우 $20{\sim}40%$ 범위를 유지하였다.

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경계층 유동에서 입자확산의 예측을 위한 라그랑지안 확률모델 (A New Lagrangian Stochastic Model for Prediction of Particle Dispersion in Turbulent Boundary Layer Flow)

  • 김병구;이창훈
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2003년도 춘계학술대회
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    • pp.1851-1856
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    • 2003
  • A new Lagrangian stochastic dispersion model is developed by combining the GLM(generalized Langevin model) and the elliptic relaxation method. Under the physically plausible assumptions a simple analytical solution of elliptic relaxation is obtained. To compare the performance of our model with other model, the statistics of particle velocity as well as concentration are investigated. Numerical simulation results show good agreement with available experimental data.

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로그분포모형을 이용한 토양입도분포로부터의 불포화수리전도도 추정

  • 황상일
    • 한국지하수토양환경학회:학술대회논문집
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    • 한국지하수토양환경학회 2003년도 추계학술발표회
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    • pp.99-101
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    • 2003
  • Unsaturated hydraulic conductivity models have been widely used for the numerical modeling of water flow and contaminant transport in soils. In this study, a simple hydraulic conductivity model is developed by using information of particle-size distribution from the lognormal distribution model and its results are compared with those from the Kosugi-Mualem (KM) model. The accuracy of the proposed model is verified for observed data chosen from the international UNSODA database. Results showed that the proposed model produces adequate predictions of hydraulic conductivities. Performance of this model is generally better than the KM function.

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원통형 전기집진기의 전기유체역학적 해석에 관한 연구 (Study on Electrohydrodynamic Analysis of Cylinder Type ESP)

  • 조용수;여석준
    • 한국대기환경학회지
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    • 제12권3호
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    • pp.243-254
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    • 1996
  • The main purpose of this study is to investigate the collection efficiency characteristics of a cylindrical ESP. To do that, it is necessary to analyze the electric field, gas flow field, and mechanism of particle movement by numerical simulation based on EHD model. For a gas flow field, Navier-Stokes equation involving the electric source term was solved by SIMPLE algorithm. In case of the electric field, the current continuity and electric field equations were solved by S.O.R. method. The analysis of particle movement was performed on the basis of PSI-CELL model from the Lagrangian viewpoint. The results showed that the influence on the gas flow field by the electric field is almost negligible in a cylindrical ESP. The particle drift velocity $V_P$ toward the collection surface is increased continuously by the electrostatic force due to the rise of particle charge as the particle is moving to the flow direction and the particle size becomes larger. The collection efficiency is to quitely higher with the increase of applied voltage for the same particle size, while becomes smaller as the inlet velocity is increased.

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가스분무장치에서 열유동 특성에 관한 전산해석 (Numerical Simulation on Flow and Heat Transfer in a Gas Atomizer)

  • 이성연
    • 한국분말재료학회지
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    • 제4권1호
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    • pp.55-62
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    • 1997
  • Flow and heat transfer characteristics of gas, and trajectories and cooling characteristics of droplets/particles in a gas atomizer were investigated by a numerical simulation using FLUENT code. Among several kinds of solution method, the k-$\varepsilon$ turbulent model, power-law scheme, SIMPLE algorithm is adopted in this study. Momentum and heat exchange between a continuous phase(gas) and a dispersed phase(particle) were taken into account. Particle trajectories are simulated using the Lagrangian method, and Rosin-Rammler formula is used for the particle size distribution. Streamlines, velocities and pressures of gas, and trajectories, velocities and cooling rates of particles have been investigated for the various gas inlet conditions. Small but very intensive recirculation is found just below the melt orifice, and this recirculation seems to cause the liquid metal to spread radially. Particle trajectory depends on the particle size, the location of particle formation and the turbulent motion of gas. Small particle cools down rapidly, while large diameter particles solidify slowly, and this is mainly due to the differences in thermal inertia.

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가열 또는 냉각되는 수평웨이퍼 표면으로의 입자침착에 관한 해석 (Analysis of Particle Deposition onto a Heated or Cooled, Horizontal Free-Standing Wafer Surface)

  • 유경훈;오명도;명현국
    • 대한기계학회논문집
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    • 제19권5호
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    • pp.1319-1332
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    • 1995
  • Numerical analysis was performed to characterize the particle deposition behavior on a horizontal free-standing wafer with thermophoretic effect under the turbulent flow field. A low Reynolds number k-.epsilon. turbulence model was used to analyze the turbulent flow field around the wafer, and the temperature field for the calculation of the thermophoretic effect was predicted from the energy equation introducing the eddy diffusivity concept. The deposition mechanisms considered were convection, diffusion, sedimentation, turbulence and thermophoresis. For both the upper and lower surfaces of the wafer, the averaged particle deposition velocities and their radial distributions were calculated and compared with the laminar flow results and available experimental data. It was shown by the calculated averaged particle deposition velocities on the upper surface of the wafer that the deposition-free zone, where the deposition velocite is lower than 10$^{-5}$ cm/s, exists between 0.096 .mu.m and 1.6 .mu.m through the influence of thermophoresis with positive temperature difference of 10 K between the wafer and the ambient air. As for the calsulated local deposition velocities, for small particle sizes d$_{p}$<0.05 .mu.m, the deposition velocity is higher at the center of the wafer than at the wafer edge, whereas for particle size of d$_{p}$ = 2.0 .mu.m the deposition takes place mainly on the inside area of the wafer. Finally, an approximate model for calculating the deposition velocities was recommended and the calculated deposition velocity results were compared with the present numerical solutions, those of Schmidt et al.'s model and the experimental data of Opiolka et al.. It is shown by the comparison that the results of the recommended model agree better with the numerical solutions and Opiolka et al.'s data than those of Schmidt's simple model.

A Simple Lagrangian PDF Model for Wall-Bounded Turbulent Flows

  • Lee, Chang-Hoon;Kim, Byung-Gu;Kim, Nam-Hyun
    • Journal of Mechanical Science and Technology
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    • 제14권8호
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    • pp.900-911
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    • 2000
  • A simple Lagrangian pdf model is proposed with a new numerical algorithm for application in wall-bounded turbulent flows. To investigate the performance of the Lagrangian model, we minimize model's dependence on empirical constants by selecting the simplest model for turbulent dissipation rate. The effect of viscosity is also included by adding a Brownian random walk calculate the position of a particle. For the no-slip condition at the wall and correct nearwall behavior of velocity, we develop a new boundary treatment for the particles that strike the wall. By applying the model to a fully developed turbulent channel flow at low Reynolds number, we investigate the model's performance through comparison with direct numerical simulation result.

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이상적인 중립 대기경계층에서 라그랑지안 단일입자 모델의 평가 (Evaluation of One-particle Stochastic Lagrangian Models in Horizontally - homogeneous Neutrally - stratified Atmospheric Surface Layer)

  • 김석철
    • 한국대기환경학회지
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    • 제19권4호
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    • pp.397-414
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    • 2003
  • The performance of one-particle stochastic Lagrangian models for passive tracer dispersion are evaluated against measurements in horizontally-homogeneous neutrally-stratified atmospheric surface layer. State-of-the-technology models as well as classical Langevin models, all in class of well mixed models are numerically implemented for inter-model comparison study. Model results (far-downstream asymptotic behavior and vertical profiles of the time averaged concentrations, concentration fluxes, and concentration fluctuations) are compared with the reported measurements. The results are: 1) the far-downstream asymptotic trends of all models except Reynolds model agree well with Garger and Zhukov's measurements. 2) profiles of the average concentrations and vertical concentration fluxes by all models except Reynolds model show good agreement with Raupach and Legg's experimental data. Reynolds model produces horizontal concentration flux profiles most close to measurements, yet all other models fail severely. 3) With temporally correlated emissions, one-particle models seems to simulate fairly the concentration fluctuations induced by plume meandering, when the statistical random noises are removed from the calculated concentration fluctuations. Analytical expression for the statistical random noise of one-particle model is presented. This study finds no indication that recent models of most delicate theoretical background are superior to the simple Langevin model in accuracy and numerical performance at well.

유체-구조 상호연성 해석을 위한 입자법 시뮬레이션 기술 개발 (Development of Particle Simulation Method for Analysis of Fluid-Structure Interaction Problems)

  • 황성철;박종천;송창용;김영훈
    • 한국해양공학회지
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    • 제27권2호
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    • pp.53-58
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    • 2013
  • Recently, some fluid-structure interaction (FSI) problems involving the fluid impact loads interacting with structures, such as sloshing, slamming, green-water, etc., have been considered, especially in the ocean engineering field. The governing equations for both an elastic solid model and flow model were originally derived from similar continuum mechanics principles. In this study, an elastic model based on a particle method, the MPS method, was developed for simulating the FSI problems. The developed model was first applied to a simple cantilever deflection problem for verification. Then, the model was coupled with the fluid flow model, the PNU (Pusan National University modified)-MPS method, and applied to the numerical investigation of the coupling effects between a cantilever and a mass of water, which has variable density, free-falling to the end of the cantilever.