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Course Criteria
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4.00 Credits
Identification of sustainability indicators, identification and design of sustainable technologies associated with water and energy management for urban buildings, and sites, and acceptance evaluation of sustainable technologies from technical, economic, and social perspectives using life cycle analysis. Sustainable technology applications to water reuse, storm water management, alternative energy, energy conservation, and new building approaches and materials, Design teams work together on homework assignments and final design project proposing a sustainable redevelopment strategy for an urban building and the surrounding site. Prerequisite: CHEM 104 and MATH 231.
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3.00 Credits
Fundamental theory underlying the unit processes utilized in the treatment of water for domestic and industrial usage, and in the treatment of domestic and industrial wastewaters. Prerequisite: CEE 330; credit or concurrent registration in TAM 335.
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3.00 Credits
Investigation of the regulatory and technical issues affecting solid and hazardous waste management, with an emphasis on the principles governing the transport, fate, and remediation of solid and hazardous waste in the subsurface, including advection, dispersion, sorption, interphase mass transfer, and transformation reactions. Prerequisite: CEE 330.
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3.00 Credits
Analysis of the physical principles which form the basis of many water and air quality-control operations; sedimentation, filtration, inertial separations, flocculation, mixing, and principles of reactor design. Prerequisite: CEE 437.
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4.00 Credits
Application of principles of chemical equilibrium and chemical kinetics to air and water quality. Thermodynamics, kinetics, acid-base chemistry, complexation, precipitation, dissolution, and oxidation-reduction. Applications. Prerequisite: CEE 437.
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3.00 Credits
Application of principles of biochemistry and microbiology to air and water quality, wastes, and their engineering management; biological mediated changes in water and in domestic and industrial wastewater. Prerequisite: CEE 443.
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3.00 Credits
Overview of practical and advanced approaches to air pollution modeling, including aspects of pollutant transport, transformation, and loss. Models considered include: Gaussian plume, chemical mass balance, chemical reaction, grid and trajectory. Evaluation of models and the development of efficient control strategies. Same as ATMS 425. Prerequisite: CEE 330 and credit or concurrent registration in TAM 335; or ATMS 302.
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3.00 Credits
Description and application of chemical and physical principles related to air pollutants, aerosol mechanics, attenuation of light in the atmosphere, air quality regulation, generation of air pollutants, methods to remove gaseous and particulate pollutants from gas streams, and atmospheric dispersion. Prerequisite: CEE 330; credit or concurrent registration in TAM 335.
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3.00 Credits
Biochemical cycles of atmospheric trace gases, their interactions on global and regional scales, and their significance for the chemistry in the atmosphere. Important fundamental concepts central to understanding air pollutants, e.g., the formation of aerosols and the transformation and removal of species in the atmosphere. Same as ATMS 420 and ENVS 450. Prerequisite: CHEM 102; ATMS 201 or CEE 330.
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4.00 Credits
Same as ABE 476. See ABE 476.
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