Simulating the Atmospheric Fate and Transport of Air Toxics with the NOAA HYSPLIT Model (with Particular Attention to Dioxin and Mercury) Mark Cohen NOAA.

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Presentation transcript:

Simulating the Atmospheric Fate and Transport of Air Toxics with the NOAA HYSPLIT Model (with Particular Attention to Dioxin and Mercury) Mark Cohen NOAA Air Resources Laboratory Silver Spring, Maryland, USA Transport and Fate Modeling of Air Toxics in Mexico August 19: Hotel Radisson Paraíso, Cuspide 53, Room “Paraíso A” August 24–27, 2009: CECAL SEMARNAT, Av. San Jerónimo 458 Paul Bartlett City University of New York (CUNY) & Saint Peter's College, Jersey City, New Jersey, USA

Organization of Course INTRODUCTION 1.Course overview 2.Air Toxics overview 3.HYSPLIT overview HYSPLIT Theory and Practice 4.Meteorology 5.Back Trajectories 6.Concentrations / Deposition 7.HYSPLIT-SV for semivolatiles (e.g, PCDD/F) 8.HYSPLIT-HG for mercury Overall Project Issues & Examples 9.Emissions Inventories 10.Source-Receptor Post- Processing 11.Source-Attribution for Deposition 12.Model Evaluation 13.Model Intercomparison 14.Collaboration Possibilities

Understanding Air Toxics Recognizing and dealing with uncertainties Measurements vs. Models Policy Relevance -- Source-Attribution HYSPLIT Modeling Theory Nuts and Bolts Hints and Tips Strengths and Limitations “still a work in progress” General Themes and Objectives

 Roland Draxler, NOAA Air Resources Laboratory (ARL), the “father of HYSPLIT”  Glenn Rolph, Barbara Stunder, Nick Heffter, Ariel Stein and other HYSPLIT colleagues at ARL  Barry Commoner & colleagues at the Center for the Biology of Natural Systems (CBNS) at Queens College  Commission of Environmental Cooperation and all the organizers of this meeting Acknowledgements

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