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Simulating Microscale Urban Airflow and Pollutant Distributions Based on Computational Fluid Dynamics Model: A Review

Qian Liang, Yucong Miao, Gen Zhang, Shuhua Liu

2023Toxics11 citationsDOIOpen Access PDF

Abstract

Urban surfaces exert profound influences on local wind patterns, turbulence dynamics, and the dispersion of air pollutants, underscoring the critical need for a thorough understanding of these processes in the realms of urban planning, design, construction, and air quality management. The advent of advanced computational capabilities has propelled the computational fluid dynamics model (CFD) into becoming a mature and widely adopted tool to investigate microscale meteorological phenomena in urban settings. This review provides a comprehensive overview of the current state of CFD-based microscale meteorological simulations, offering insights into their applications, influential factors, and challenges. Significant variables such as the aspect ratio of street canyons, building geometries, ambient wind directions, atmospheric boundary layer stabilities, and street tree configurations play crucial roles in influencing microscale physical processes and the dispersion of air pollutants. The integration of CFD with mesoscale meteorological models and cutting-edge machine learning techniques empowers high-resolution, precise simulations of urban meteorology, establishing a robust scientific basis for sustainable urban development, the mitigation of air pollution, and emergency response planning for hazardous substances. Nonetheless, the broader application of CFD in this domain introduces challenges in grid optimization, enhancing integration with mesoscale models, addressing data limitations, and simulating diverse weather conditions.

Topics & Concepts

Microscale chemistryMesoscale meteorologyComputational fluid dynamicsAir quality indexEnvironmental scienceMeteorologyTurbulenceAirflowAtmospheric dispersion modelingComputer scienceAir pollutionAerospace engineeringEngineeringGeographyMechanical engineeringOrganic chemistryMathematics educationMathematicsChemistryWind and Air Flow StudiesUrban Heat Island MitigationNoise Effects and Management
Simulating Microscale Urban Airflow and Pollutant Distributions Based on Computational Fluid Dynamics Model: A Review | Litcius