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CIE 437: Pavement Design and Materials
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: CIE 334 Corequisites: None Type: LEC Design principles of flexible and rigid pavements. Includes a study of soils and paving materials, their interaction, their behavior under various loading conditions, and their ability to perform under all ambient loading conditions. Topics include surface, base, subbase and base courses: bituminous materials, quality control, and flexible and rigid pavement design methods. Laboratory sessions on asphaltic concrete mix design.
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CIE 437 - Pavement Design and Materials
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CIE 438: Structural Design and Construction of Foundations
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: CIE 435 Corequisites: None Type: LEC Structural design and construction of foundation systems. Topics include: structural design of shallow foundations, such as single footings, strip footings, and mat foundations; deep foundations, such as piles and caissons; retaining walls; sheet piles; excavation bracings; tie backs; and anchors. An application-oriented design course that requires students to do a real-life project in groups of three from preliminary design stage to final construction phase.
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CIE 438 - Structural Design and Construction of Foundations
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CIE 439: Transportation System Analysis
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: senior standing Corequisites: None Type: LEC Introduces engineering and planning principles applicable to all types of transportation systems; concept andmethods of transportation network analysis; operation and management of transportation systems; traffic engineering elements; traffic flow theory; highway capacity analysis; design and application of traffic control devices.
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CIE 439 - Transportation System Analysis
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CIE 441: Ecological Engineering
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: MTH 306 Corequisites: None Type: LEC Focuses on the physical, chemical, and hydrodynamic processes governing pollutant fate in natural systems. Topics include mass and energy balances, mixing processes, partitioning processes (exchange with solids and air), and particle removal. Examples from natural systems address lake, river, and atmospheric pollution.
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CIE 441 - Ecological Engineering
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CIE 442: Treatment Process Engineering
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: MTH 306 Corequisites: None Type: LEC/LAB/REC Overview of environmental engineering treatment systems analysis and design. Topics include water distribution, water treatment, wastewater collection, wastewater treatment, sludge processing, and industrial waste management.
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CIE 442 - Treatment Process Engineering
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CIE 444: Hydrologic Engineering
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: CIE 343, EAS 308 Corequisites: None Type: LEC Studies the physical processes associated with the components of the hydrologic cycle. Discusses measurement and collection of data. Explores model conceptualization and data analysis for quantification of water flow for design purposes. Emphasizes analysis procedures for surface and ground water hydrology useful for design of urban facilities. Discusses and applies hydrologic design methods to engineering projects. Emphasizes watershed management concepts.
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CIE 444 - Hydrologic Engineering
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CIE 445: Groundwater Engineering
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: senior standing Corequisites: None Type: LEC Fundamentals of fluid flow and mass transport in porous media. Derives the governing mass and energy balance equations and develops several commonly applied solutions. Particular topics include groundwater flow under saturated and unsaturated conditions, well hydraulics, introduction to multiphase flow, fundamentals of solute transport, geostatistics, and remediation of contaminated aquifers.
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CIE 445 - Groundwater Engineering
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CIE 446: Water Resources Engineering
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: senior standing Corequisites: None Type: LEC Studies and applies modeling, computational analysis, and design procedures for the design of water resources projects. Design projects include stream quality and stream flow, including bridge openings and floodway determination, wastewater collection, and wastewater treatment. Relates the treatment design projects to wastewater stabilization ponds and wastewater treatment plants. Emphasizes watershed management concepts.
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CIE 446 - Water Resources Engineering
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CIE 447: Environmental Engineering Practicum
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: senior standing Corequisites: None Type: LAB Student teams conduct studies at the field, pilot, and/or bench scale for the purposes of understanding environmental processes and collection of data needed for design and management decisions. Strongly emphasizes oral and written communication of the study results.
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CIE 447 - Environmental Engineering Practicum
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CIE 448: Chemical Principles in Environmental Engineering
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: CIE 340 and senior standing Corequisites: None Type: LEC Presents fundamentals in aquatic chemistry as applied to natural waters, water treatment, and wastewater treatment. Topics include equilibrium concepts, chemical thermodynamics, acid-base reactions, precipitation and dissolution, oxidation and reduction, carbonate system chemistry, and complexation.
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CIE 448 - Chemical Principles in Environmental Engineering
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