Air Dispersion Modeling for Environmental Management

Name: Air Dispersion Modeling for Environmental Management
Rating: 4.0 (431 reviews)

Environmental management with AERMOD Air Pollution Model by EPA

Created byAcademia de Meio Ambiente

Last updated 4/2021

English

What you'll learn

Assess the sustainability of your air emissions sources
Perform air dispersion modelling for environmental management
Use environmental pollution model in the sustainable decision-making process
What is and how to use AERMOD to perform Air Dispersion Modeling (practical training)
Understand air quality and dispersion principles and concepts
Understand and present the air pollution results
Set up and use AERMET for meteorological data preparation
Set up and use AERSURFACE and AERMAP for surface and terrain data preparation
Set up and use BPIPPRM for building downwash calculations

Course content

10 sections • 49 lectures • 4h 57m total length

AER-What?6:50
In this lecture, you will be able to understand what is the AERMOD Modeling System, why to use it and what are the benefits of an air dispersion model in air pollution prevention and environmental management.
Your First Task
Air Dispersion and Air Quality Pollution Control Glossary7:55
A glossary of words, phrases, and terms used in air pollution control and air pollution modeling.
Air Dispersion Mapping in AERMOD - Example of result0:04
Check the possible result that you can create after taking this course.

Energy Balance in Atmosphere7:26
Understand how the energy on the earth's surface interferes with air dispersion, how the land cover influences it, and what is the famous Bowen's Ratio and Albedo.
Atmospheric Stability - Part 17:10
Understand the main concepts of atmospheric conditions (Stable, Unstable, and Neutral) that influence air dispersion.
Atmospheric Stability - Part 25:09
Understand the main concepts of atmospheric conditions (Stable, Unstable, and Neutral) that influence air dispersion.
Atmospheric Layer Structure and Behaviour5:23
Understand the atmospheric Layer composition and its normal daily variation
Turbulence and Air Dispersion6:07
Understand the main sources of turbulence and their impact on pollutant dispersion and what is the famous Surface Roughness Length
Similarity Theory and Effective Parameters7:45
Understand what is similarity theory and the effective parameters
Turbulence in AERMOD7:24
Understand a few points of what AERMOD/AERMET considers about air turbulence and dispersion
Atmospheric Layers in AERMOD5:38
Understand a few points of what AERMOD/AERMET considers on different layer conditions to estimate air turbulence and dispersion
Terrain and Buildings Influence in AERMOD6:08
Understand a few points of what AERMODconsiders regarding different terrains conditions and the presence of buildings to estimate air turbulence and dispersion
Dispersion in AERMOD6:09
Understand the three components of dispersion computed by AERMOD and the five different plume types considered on the model.

Case Study: Martins Creek10:24
Explore and learn about the main characteristics of the case study area.
Explore the Area and the Characteristics of the Sources0:11
Take a look at where are the sources, what are the characteristics. Get to know them to help your understanding of the area and what should be your strategies to assess air pollution and maintain the air quality of the environment.
Get to know Martins Creek Power Station4:07
Practical Activity Guidance0:09
How to take the most of the Practical Activity, using the pocketbooks and EPA Guides

AERMET: Pocketbook3:40
Pocketbook to boost your learning during lectures
AERMET: Intro13:07
Introductory information about AERMET and its inputs
Integrated Surface Stations (Global)0:06
Explore the stations that provide Integrated Surface Dataset all over the globe with the kmz file, which can be opened on Google Earth Software.
AERMET: Set up and Run - Stage 110:24
Step by step lecture on how to prepare the input control file and run the stage 1 of AERMET
AERMET: Outputs - Stage 15:10
Learn and understand AERMET outputs generated on stage 1
AERMET: Set up and Run - Stage 27:17
Step by step lecture on how to prepare the input control file and run the stage 2 of AERMET
AERMET: Outputs - Stage 23:00
Learn and understand AERMET outputs generated on stage 2
AERMET: Set up and Run - Stage 37:38
Step by step lecture on how to prepare the input control file and run the stage 3 of AERMET
AERMET: Outputs - Stage 35:31
Learn and understand AERMET outputs generated on stage 3

Requirements

No specific prior knowledge required
Familiarity with GIS, air pollution and meteorology concepts is helpful

Description

This course explains all the requirements to perform an air dispersion modeling with AERMOD, the USEPA preferred computer model used to assess and estimate pollutant concentrations and air quality impact caused by air emissions from a variety of sources, such as industrial stacks.

This is your course if you want to take your first steps with the air dispersion model and:

You want to learn how to model atmospheric emissions and assess their impact on air quality.
You want to carry out environmental consulting in the field of air quality and atmospheric dispersion modeling.
You want to learn how to estimate pollutant concentrations in ambient air in a region and know how to define the better position of monitoring stations

In this course, you will learn the fundamentals principles and concepts of air dispersion, this will help you to understand every step needed to model using the AERMOD software package. Every processor needed for this course is free for use during and after the course, and the software package that you will learn how to use includes:

AERSURFACE (Version 20060)
AERMINUTE (Version 15272)
AERMET (Version 19191)
AERMAP (Version 18081)
BPIPPRIM (Version 04274)
AERMOD (Version 19191)
QGIS (Version 3.10.4)

Practical training is the core of this course so the lectures focus on practical activities on how to set up and run each one of the processors. Therefore, the main objectives of the course are:

Provide a step-by-step walkthrough, in order to familiarize you with the use of each processor, helping you to understand their main features and their outputs.
Prepare you with a concise and comprehensive knowledge that will allow you to perform a complete air dispersion modeling with a hands-on, real-world case study.

In the long term perspective, from this course, you get condensed valuable guidance that you can use as a pocketbook to study and review at any moment, helping you during the implementation of an air dispersion modeling or just clarifying any doubts you might have in the future.

In summary, the course presents practical explanations and examples, as well as hands-on exercises for the implementation of Air Dispersion Modeling using AERMOD.

Photo by Chris LeBoutillier on Pexels and picture from Freepik

Who this course is for:

Environmental engineers
Environmental managers
Sustainability students and professionals
Environmental technicians
Regulatory authorities
Air quality professionals

Air Dispersion Modeling for Environmental Management

What you'll learn

Explore related topics

Course content

Introduction3 lectures • 15min

Air Dispersion Fundamentals10 lectures • 1hr 4min

Intro to Practical Activities4 lectures • 15min

AERSURFACE5 lectures • 31min

AERMINUTE4 lectures • 22min

AERMET9 lectures • 56min

AERMAP4 lectures • 25min

BPIPPRM4 lectures • 20min

AERMOD4 lectures • 34min

Post-Modeling: Creating Maps2 lectures • 16min

Requirements

Description

Who this course is for: