5-030-AirshedSulphur-ModelingScenario

Brian Winkel; Brian Winkel; Brian Winkel

doi:10.25334/XCQ4-KA57

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5-030-AirshedSulphur-ModelingScenario

Author(s): Brian Winkel

SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

Keywords: sulphur pollution airshed hydrogen sulfide sulfur dioxide

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Abstract

Temperature inversions and low wind speeds trap air pollutants in a mountain valley for a period of time. Gaseous sulfur compounds are a significant air pollution problem. We offer a model for analysis to predict long-term levels of levels of polutants.

Citation

Researchers should cite this work as follows:

Winkel, B. (2022). 5-030-AirshedSulphur-ModelingScenario. SIMIODE, QUBES Educational Resources. doi:10.25334/XCQ4-KA57
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Article Context

Resource Type

Modeling Scenario

Differential Equation Type

Technique

Initial Value Problems

Qualitative Analysis

Graphical analysis

Application Area

Course

Course Level

Key Scientific Process Skills

Assessment Type

Pedagogical Approaches

Guided inquiry/investigation

Vision and Change Core Competencies - Ability

Principles of How People Learn

Bloom's Cognitive Level

Application & Analysis

Description

Temperature inversions and low wind speeds can trap air pollutants in a mountain valley for an extended period of time. Gaseous sulfur compounds are often a significant air pollution problem, but their study is complicated by their rapid oxidation. Hydrogen sulfide, H₂S, oxidizes into sulfur dioxide, SO₂, which turns into a sulfate. A model is proposed for determining the concentration x(t) and y(t) of H₂S and SO₂, respectively, in a fixed air shed.

Questions considered include:

Solve the equations and estimate the concentration levels that could be reached under prolonged air pollution.

What effect does this model show if we were to reduce the production rate of SO₂?

Does the original amount of either compound effect the long-term amount of the respective compound?

Article Files

5-030-S-AirshedSulphur-StudentVersion.pdf(PDF | 376 KB)
5-030-S-AirshedSulphur-StudentVersion.tex(TEX | 6 KB)
5-030-T-AirshedSulphur-TeacherVersion.pdf (Instructors only)(PDF | 398 KB)
5-030-T-AirshedSulphur-TeacherVersion.tex (Instructors only)(TEX | 6 KB)
5-030-T-Mma-AirshedSulpher-TeacherVersion.nb (Instructors only)(NB | 29 KB)
5-030-T-Mma-AirshedSulpher-TeacherVersion.pdf (Instructors only)(PDF | 119 KB)
MissoulaAirPic.jpg(JPG | 10 KB)
SIMIODE.cls(CLS | 7 KB)
SimiodeLogo.jpg(JPG | 271 KB)
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Authors

Author(s): Brian Winkel

SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

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Resources

5-030-AirshedSulphur-ModelingScenario

Abstract

Citation

Article Context

Resource Type

Differential Equation Type

Technique

Qualitative Analysis

Application Area

Course

Course Level

Lesson Length

Technology

Approach

Skills

Key Scientific Process Skills

Assessment Type

Pedagogical Approaches

Vision and Change Core Competencies - Ability

Principles of How People Learn

Bloom's Cognitive Level

Description

Article Files

Authors

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