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Course Criteria
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3.00 Credits
Application of current techniques for lake and watershed analysis and modeling using fundamentals of limnology. Approaches to restoring eutrophic lakes, land use impacts on water quality. Practical exercises using data from real lake systems.
Prerequisite:
CEE 462/FISH 434, BIOL 473, or permission of instructor
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3.00 Credits
No course description available.
Prerequisite:
Separate File
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3.00 Credits
Special topics of current importance in environmental engineering. Application of fundamental chemical and biological principles to the study of such phenomena as the behavior of aqueous colloids, corrosion processes, bacterial metabolism in chemically complex solutions, and acid precipitation. May be taken more than once for credit.
Prerequisite:
CEE 540, CEE 541
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3.00 Credits
Benjamin, Murray Physical/chemical principles controlling the fate and distribution of environmental pollutants, and use of models to apply those principles. Includes modeling of physical transport in conjunction with chemical equilibrium and reaction kinetics. Applications include acid mine drainage, acid deposition, and groundwater and lake water contamination. Offered: jointly with OCEAN 524.
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1.00 - 3.00 Credits
Charlson, Harrison Seminar for atmospheric scientists, chemists, engineers in problems associated with the chemical composition of the atmosphere. Covers wide variety of topics, ranging from the natural system to urban pollution and global atmospheric change. Faculty lectures, student participation. Offered: jointly with ATM S 525.
Prerequisite:
ATM S 301 or permission of instructor
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4.00 Credits
Offered: jointly with M E 528.
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3.00 Credits
Introduction to human biology, including physiology, epidemiology, and toxicology. Study of contemporary environmental health problems and practices as they relate to radiological health, solid-waste disposal, occupational health, biometeorology, and bioengineering.
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3.00 Credits
Control of emissions of hazardous or toxic air pollutants. Government regulations, determination of needed control efficiency. Emission control by thermal incineration, catalytic incineration, flares, condensation, carbon adsorption, and absorption (wet and dry). Hazardous waste incinerators. Case studies. Offered: jointly with CHEM E 562.
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3.00 Credits
Technical, administrative, and legal aspects of air conservation. Current case studies involving engineering analysis, air-quality modeling, and regulatory aspects at local, state, and federal governmental levels.
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3.00 Credits
Physical and chemical processes used to control gaseous air pollutants. Absorption into liquids. Aqueous spray dryer scrubbers. Adsorption beds. Control of sulfur oxide and nitrogen oxide. Case studies of control systems. Offered: jointly with CHEM E 566; even years.
Prerequisite:
CHEM E 435 or permission of instructor
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