Maryland Virtual High School

Stream Assimilation Capacity for Waste Material

A Maryland Virtual High School Instructional Activity


[Back] [Table of Contents] [Stream Overview] [Computer Model] [Selected Questions] [Bibliography] [Feedback]
Author: Tran Pham
Course: Chemistry (11th -12th)
Duration: Two weeks for classes meeting two successive periods daily
Last Modified: September 8, 1995
HTML Code: Chris Schultz & Matt Cowal
Last HTML Modification: January 28, 1996 by Chris Schultz

Stream Assimilation Capacity for Waste Material:
An Overview

Almost all human activities change the balance of nature. These disturbances can be planned or unplanned to nature in an unnatural manner. This computer model will examine the response of nature in a quantitative understanding of natural processes and serve as an assessment tool for the response and recovery of nature.

Unit Purpose:

By using a computer model of a dynamic system, the students can assimilate the process of biodegradable processes in nature. The students will evaluate, analyze and control the relationships among the natural and man-made factors that affect these natural processes. With laboratory experiments, the students can use the computer model to design and implement a system to control the environmental processes. The students will explore the concepts of chemical reactions, chemical equilibria, reaction rates, reaction mechanisms, catalyses, orders of reactions, reaction kenetics and chemical kenetics.

Unit Objective:

The unit objective is to develop a model which will simulate the biodegradable process of man-made waste released into a stream. The students can design, experiment, collect data, build a computer model, evaluate the model, and redesign it to produce a working model applying appropriate mathematics and chemistry concepts. The model is derived from Chemodynamics by Louis J. Thibodeaux, copyright 1979, published by Wiley-Interscience Publication, New York, NY.

Unit Overview:

The stream simulation is a STELLA model that deals with oxygen levels in a stream. the amount of a given kind of waste dumped into the stream. A factory is locat$ Then, the stream flows into a larger body of water. The factory dumps waste int$ varying amounts, and the waste affects oxygen concentration in the water throug$ biodegradable processes. When the oxygen concentration gets below a given conce$ fish in the stream begin to suffocate. The goal of the model is to find the max$ waste that can be released, without killing the stream.

Materials:

Concepts:

The model can be used to introduce students to chemical reactions, chemical equilibria, reaction rates, reaction mechanisms, catalyses, order of reactions, reaction kinetics and chemical kinetics.

Student Outcomes:

Students will gain skills in:

Student Assessments:

By adding new factors or changing the variables of the model, students will be able to form new hypothesis and contruct another model to adapt to the changes.

Acknowledgements:

The original idea and the STELLA II implementation for this Instructional Activity was conceived and constructed by Sanjit Mohapatra for his Modeling and Simulation course during the 1994-95 year at the Blair Magnet Program.

[Back] [Table of Contents] [Stream Overview] [Computer Model] [Selected Questions] [Bibliography] [Feedback]

This page last modified 22 March 1996 by cschultz@binx.mbhs.edu



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