Journal ArticleDOI
Numerical simulation of sea breezes over the auckland region, new zealand - air quality implications
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In this paper, the authors investigated the air pollution meteorology of a typical sea breeze day using the Colorado State University Mcsoscale Model and revealed a complex wind field characterised by migratory sea breeze convergence zones.Abstract:
The air pollution meteorology of a typical sea breeze day is investigated using the Colorado State University Mcsoscale Model. Results are qualitatively compared with observations and reveal a complex wind field characterised by migratory sea breeze convergence zones. Associated with these features, the model predicts enhanced upward vertical velocities and ‘doming’ of the planetary boundary layer (PBL). The diurnal variation in PBL depth is shown to vary markedly at different locations and is dependent on position in relation to the migratory convergence zones. These complex spatial and temporal variations in the wind and PBL depth have important implications for air quality in Auckland and confirm that simple Gaussian or box trajectory approaches are inappropriate for air quality assessment in such environments. The inclusion in the model of variable surface properties, a dynamic synoptic state and improved PBL parameterisations, as well as coupling with a Lagrangian particle model, are recommended if the model is to be used as a tool for further air quality studies in the Auckland area.read more
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Synoptic and mesoscale weather conditions during air pollution episodes in athens, greece
TL;DR: In this paper, the air pollution episodes observed in Athens during the period 1983-1990 were analyzed and classified based on regular climatological and air quality data from the Greater Athens Area (GAA).
Journal ArticleDOI
Comparative analysis of meteorological performance of coupled chemistry-meteorology models in the context of AQMEII phase 2
Dominik Brunner,Nicholas Savage,Oriol Jorba,Brian K. Eder,Lea Giordano,Alba Badia,Alessandra Balzarini,Rocío Baró,Roberto Bianconi,Charles Chemel,Gabriele Curci,Renate Forkel,Pedro Jiménez-Guerrero,Marcus Hirtl,Alma Hodzic,Luka Honzak,Ulas Im,Christoph Knote,Paul A. Makar,Astrid Manders-Groot,Erik van Meijgaard,Lucy Neal,Juan L. Pérez,Guido Pirovano,Roberto San José,W. Schröder,Ranjeet S. Sokhi,Dimiter Syrakov,Alfreida Torian,Paolo Tuccella,Johannes Werhahn,Ralf Wolke,Khairunnisa Yahya,Rahela Zabkar,Yang Zhang,Christian Hogrefe,Stefano Galmarini +36 more
TL;DR: In phase 2 of the AQMEII-2, thirteen modeling groups from Europe and four groups from North America operating eight different regional coupled chemistry and meteorology models participated in a coordinated model evaluation exercise as mentioned in this paper.
Journal ArticleDOI
Mesoscale and local climates in New Zealand
TL;DR: In this paper, the mesoscale and local climate of New Zealand has been studied using energy budgets of varying surface types to assess the thermal effects on the atmospheric boundary layer and airflow.
Journal ArticleDOI
Dust plume formation in the free troposphere and aerosol size distribution during the Saharan Mineral Dust Experiment in North Africa
TL;DR: In this paper, the authors used the Weather Research Forecast model coupled with the Chemistry/Aerosol module (WRF-Chem) to reproduce the meteorological environment and spatial and size distributions of dust.
Journal ArticleDOI
Modification of dry deposition in a developing sea-breeze circulation—A numerical case study
K. Heinke Schlünzen,Silke Pahl +1 more
TL;DR: In this article, a numerical mesoscale model is used to study the temporal and spatial changes in the dry deposition of pollutants (particularly SO2) at a coastline with mudflats in the North Sea region during a developing sea-breeze situation.
References
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Journal ArticleDOI
Three-dimensional numerical study of the height and mean structure of a heated planetary boundary layer
TL;DR: In this article, a three-dimensional model using 64000 grid points within a volume 5 km on a side and 2 km deep was used to study the heated boundary layer for DAY 33 of the Wangara data of southeast Australia.
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A Three-Dimensional Numerical Model of the Sea Breezes Over South Florida
TL;DR: In this paper, an eight-level three-dimensional primitive equation model was used to describe the initiation and evolution of sea-breeze convergence patterns over south Florida as a function of the surface heat and momentum fluxes and of the large-scale synoptic forcing.
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Numerical Simulation of Hydrostatic Mountain Waves
Joseph B. Klemp,Douglas K. Lilly +1 more
TL;DR: In this paper, a numerical model for simulating the flow of stably stratified nonrotating air over finite-amplitude, two-dimensional mountain ranges is developed for accurate treatment of internal dissipation and formulation of an upper boundary region and lateral boundary conditions which allow upward and lateral propagation of wave energy out of the model.
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Mixing Depths, Wind Speeds and Air Pollution Potential for Selected Locations in the United States
TL;DR: In this article, daily estimates of mixing depths and average wind speeds through the mixing layers were calculated and summarized for seven locations in several climatic regions of the contiguous United States, and the frequency of occurrence of various combinations of mixing depth and wind speed classes were used in an urban diffusion model to calculate theoretical values of relative pollutant concentration for four major cities.
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The Effects of Topography on Sea and Land Breezes in a Two-Dimensional Numerical Model
Ytzuaq Mahrer,Roger A. Pielke +1 more
TL;DR: In this article, a mathematical two-dimensional hydrostatic model was employed for the study of mesoscale circulations which developed over a mountain barrier, a flat coastline and a mountainous coastline when the prevailing flow is zero.