CFD simulation of near-field pollutant dispersion in the urban environment: A review of current modeling techniques

Tominaga, Yoshihide; Stathopoulos, T.

doi:10.1016/j.atmosenv.2013.07.028

Cited by 420 publications

(204 citation statements)

References 196 publications

(224 reference statements)

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“…[62,63]). In the past 50 years, CFD has developed into a powerful tool for studies in urban physics and building aerodynamics [64], including natural ventilation in buildings, as demonstrated by review and overview papers [30,[64][65][66][67][68][69][70][71]. In this paper, the coupled approach (e.g.…”

Section: Introductionmentioning

confidence: 99%

CFD analysis of cross-ventilation of a generic isolated building with asymmetric opening positions: Impact of roof angle and opening location

Perén

Hooff

Leite

et al. 2015

Building and Environment

159

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Section: Introductionmentioning

confidence: 99%

CFD analysis of cross-ventilation of a generic isolated building with asymmetric opening positions: Impact of roof angle and opening location

Perén

Hooff

Leite

et al. 2015

Building and Environment

159

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“…[5][6][7][8][9][10][11][12][13]) and review papers on topics of particular interest such as dispersion of pollutants (e.g. [14][15][16][17][18]). In two recent contributions, Tominaga and Stathopoulos [16] and Di Sabatino et al [17] address the possibilities and limitations of Reynolds-Averaged Navier-Stokes (RANS) simulations versus Large Eddy Simulation.…”

Section: Introductionmentioning

confidence: 99%

Near-field pollutant dispersion in an actual urban area: Analysis of the mass transport mechanism by high-resolution Large Eddy Simulations

et al. 2015

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Graphical abstractHighlights -Pollutant dispersion in downtown Montreal is studied with high-resolution LES.-The contribution of the sub-grid scales to turbulent mass transport is minor in this case.-The results of this applied case are linked to those obtained for a generic isolated building.-The counter gradient mechanism of turbulent mass transport is observed.-With RANS, the turbulent flux model used should be able to reproduce this mechanism. AbstractLarge-Eddy Simulation of near-field pollutant dispersion from stacks on the roof of a low-rise building in downtown Montreal is performed. Two wind directions are considered, with different wind-flow patterns and plume behavior. The computed mean concentration field is analyzed by means of the convective and turbulent (including subgrid-scale) mass fluxes. This decomposition provides insight into the dispersion process and allows an evaluation of common turbulent transport models used with the Reynolds-Averaged Navier-Stokes approach, such as the standard gradient-diffusion hypothesis. Despite the specific character of the flow and dispersion patterns due to the complex geometry of the urban area under study, some similarities are found with the generic case of dispersion around an isolated simple building. Moreover, the analysis of dispersion in downtown Montreal is facilitated by the physical insight gained by the study of the generic case. In this sense, the present study supports the use of generic, simplified cases to investigate and understand environmental processes as they occur in real and more complex situations. Reciprocally, the results of this applied study show the influence on the dispersion process of the rooftop structures and of the orientation of the emitting building with respect to the incoming wind flow, providing directions for further research on generic cases.

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“…도시 내의 고층 건물의 밀도, 건물의 다양한 형태와 크기는 복잡한 대기 흐름과 오염 물질 확산을 유발한다 (Hanna et al, 2006;Vardoulakis et al, 2007;Rakowsk et al, 2014). Pontiggia et al, 2011;Tominaga and Stathopoulos, 2013). 또한 CFD 모델을 이용한 도시 지역 대기 흐름과 오염물질 확산 연구를 위해서는 상세 한 지형과 건물 정보가 필요하다.…”

Section: 서 론unclassified

Study on Detailed Air Flows in Urban Areas Using GIS Data in a Vector Format and a CFD Model

Kwon

kim

2014

Korean Journal of Remote Sensing

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:In this study, detailed air flow characteristics in an urban areas were analyzed using GIS data and a Computational Fluid Dynamics (CFD) model. For this, a building construction algorithm optimized for Geographic Information System (GIS) data with a vector format (Los Angeles region imagery acquisition consortium 2 geographic information system, LARIAC2 GIS) was used. In the LARIAC2 GIS data, building vertices were expressed as latitude and longitude. Using the model buildings constructed by the algorithm as the surface boundary data in the CFD model, we performed numerical simulations for two building-congested areas in Los Angeles using inflow information provided by California Air Resources Board. Comparing with the inflow, there was a marked difference in wind speed and direction within the target areas, which was mainly caused by the secondarily induced local circulations such as street-canyon vortices, horse-shoe vortices, and recirculation zones. In street canyons parallel to the inflow direction, wind speed increased due to a channeling effect and, in street canyons perpendicular to the inflow direction, vertically well developed vortices were induced. In front of a building, a horse-shoe vortex was developed near the surface and, behind a building, a recirculation zone was developed. Near the surface in the areas where the secondarily induced local circulations, wind speed remarkably increased. Overall, wind direction little (largely) changed at the areas where wind speed largely increased (decreased).

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CFD simulation of near-field pollutant dispersion in the urban environment: A review of current modeling techniques

Cited by 420 publications

References 196 publications

CFD analysis of cross-ventilation of a generic isolated building with asymmetric opening positions: Impact of roof angle and opening location

CFD analysis of cross-ventilation of a generic isolated building with asymmetric opening positions: Impact of roof angle and opening location

Near-field pollutant dispersion in an actual urban area: Analysis of the mass transport mechanism by high-resolution Large Eddy Simulations

Study on Detailed Air Flows in Urban Areas Using GIS Data in a Vector Format and a CFD Model

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