Introduction to Modeling Part I
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Transcript of Introduction to Modeling Part I
Cr i s t i na Gonza lez -MadduxCr i s t i na Gonza lez -MadduxITEP , Resea rch Spec ia l i s t
INTRODUCTION TO MODELING PART I
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WHY MODEL?
• To answer questions• A source is emitting 250 tons/year of PM2.5 5
miles west of the reservation: effect on air we breathe?• What if same source was built on my
reservation?• Or 10 miles north?• What if it emits 500 tons/year of PM2.5 ?
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WHY MODEL?
• To answer questions (cont.)• Where does pollution come from?• About pollution emitted by facility on or near
my reservation• What kind and how much?• Once emitted, where does it go?• Where should I locate monitors?
• Where is regional haze on my reservation coming from?
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PRACTICAL APPLICATIONS
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WHY MODEL? (CONT.)
• To Predict Future• Need to “calibrate” with reality• Check against data collected in field
• To Interpret• Study system and/or organize field data• Does not require calibration, but “reality checks” always
useful
• Develop air pollution control plans• Assess environmental impacts• Project future AQ trends
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WHY MODEL? (CONT.)
• Because EPA recommends it• New Source Review (NSR) Permits• PSD - estimate effects on increments• Non-attainment - Choose strategies to reduce pollution to
attain NAAQS• Minor Sources
• TIP Development• To understand a complex system• Weather• Air pollution
• Ex: Trans-boundary (interstate) transport (CAA, Section 126 and/or 110(a)(2)(D)(i) – TAS?)
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WHAT IS A MODEL?
• Any approximation of a field situation • A hypothesis!• Empirical model• Derived from information gained from
observations or experiments
• Mathematical (or numerical) model • Simulates field situation indirectly using equations
• Workshop focuses on mathematical and empirical models
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WHAT IS A MODEL? (CONT.)
• Mathematical models have• Governing equation – represents physical processes
occurring in system• Boundary equations (conditions)• Initial conditions (for time-dependent problems)
X = Q * K * V * D * exp[-0.5 * (y/ Φ y)2 ] /
(2 * Β * us * Φ y * Φ z)
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MATHEMATICAL MODELS – ITERATIVE PROCESS
Schematic Courtesey:Dr. Gerda de VriesAssistant ProfessorDepartment of Mathematical Sciences -University of Alberta
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WHAT IS A COMPUTER MODEL?
• Set of commands used to solve mathematical or empirical model on computer• Computer programs are generic – written
once• Model is designed each time you enter a set
of boundary and initial conditions, and site- specific values, into computer program
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COMPUTER MODELS
• Commercial modeling programs• Make it easier for users to communicate with
computer code and enter data
• Often have graphical user interfaces (GUI) – What is that and how is it helpful?
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GRAPHICAL USER INTERFACE
• Ease of data entry• Pre-processors and pathways• Easy visualization of
modeling results• Alternative – developing
code and manually building input files
• AERMOD, CALUPUFF, WRPLOT, Emissions View
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COMPUTER MODELS (CONT.)
• Graphics packages – Picture instead of number grid
5 10 50 10 105 11 21 11 65 8 10 8 45 6 6 4 25 3 3 2 1
40-50
30-40
20-30
10-20
0-10
PM10 Concentrations
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COMPUTER MODEL – DANGERS
• Modern modeling programs and graphics packages easy to use, produce impressive pictures and graphs• Model only as good as site-specific data, initial
and boundary conditions you enter• Garbage IN = Garbage OUT
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WHAT TYPE OF MODEL SHOULD YOU USE?
• Step One: Establish your purpose!• Make predictions? Interpret and better
understand what’s going on?
• What do you want to learn? What questions do you want to answer?
• Is modeling the best way to answer your questions?
• Step Two: What type of model should you use?
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MODELS – TWO OPINIONS
• Models are worthless• Too expensive to run, require too much data• Real world too complex• Can never be proven “correct”
• Models are essential for complex analyses• Combines human judgment with computer
power• Provide framework for analyzing large data
sets• Good way to make informed analysis or
prediction
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SUMMARY
• Know why you want to use a model• Research: What kind of model
will answer the questions you have?• Gather good information to
use in your model• Use EPA preferred models if
necessary