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Course Criteria
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3.00 Credits
Theory and analysis of the standard methods used by environmental engineers to analyze drinking, industrial, and domestic wastewaters to control water quality and monitor efficiency of treatment. Topics may include biological oxygen demand (BOD), chemical oxygen demand (COD), coagulation, carbon absorption, ion-exchange resins, solids analysis, analysis by atomic absorption spectrometry, alkalimetry anions and determination. Laboratory intensive course. Prerequisite: CHEM 121. 3 credits. 142 College of Engineering
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3.00 Credits
Components of polluted air and air quality regulations. Control equipment material balances and process design for particulate removal. Combustion fundamentals and VOC removal. Meteorology and dispersion modelling. Automotive emissions controls. Prerequisites: CHEM 121, CEE 367, and MATH 431. ME 311 or ME 314 recommended. 3 credits.
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3.00 Credits
Solid waste collection, separation and disposal. Recycling and containment technologies. Adsorption and microbial degradation. Thermal, radiation, and solidification methods for destruction of hazardous wastes. Site remediation. Prerequisites: CHEM 121 and CEE 367. ME 311 recommended. 3 credits.
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3.00 Credits
Design principles and preliminary design of water treatment processes used for drinking water and water reuse. Topics include flocculation, sedimentation, filtration, disinfection, adsorption, ion-exchange, softening, chemical sludge dewatering, and water reuse. Three hours lecture. Corequisite: CEE 450. Prerequisites: CHEM 121, CEE 367. 3 credits.
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3.00 Credits
Studies in highway and traffic planning and principles of traffic operations. Prerequisite: CEE 362. 3 credits.
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3.00 Credits
Fundamental engineering principles in planning, location, design, and operation of airport facilities (terminals, apron areas, taxiways, and runways); ground access, drainage, aircraft characteristics and performance as they relate to airport design, aircraft noise and environmental considerations; elements of air traffic control. Prerequisite: CEE 362. 3 credits.
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3.00 Credits
Design of visible elements of highways such as horizontal and vertical alignment and cross-section in accordance with design controls derived from characteristics of vehicles, drivers, traffic, and pedestrians interacting with geometry, terrain, and environment to yield a safe roadway at design capacity. Prerequisite: CEE 362. 3 credits.
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3.00 Credits
Application of computer models, programs, and information systems in solving planning, design, and operations problems in transportation engineering. Includes geographic information systems, traffic network analysis models, transportation planning, and impact models. Prerequisites: CEE 362. 3 credits.
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3.00 Credits
Introduction to the basics of Geographic Information Systems software and hardware and their use in civil engineering. Emphasis on the application of GIS for the planning, design, operations, and maintenance of civil engineering systems. Laboratory sessions provide hands-on experience with GIS software and hardware using specific examples/case studies of GIS applications in various areas of civil engineering. Prerequisites: CEE 301, and any one of CEE 334, 362, 413, 450. 3 credits.
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3.00 Credits
Introduction to vibration theory; seismic hazards; spectra of vibrations. Application of UBC Simplified Static Method and Static Method. Introduction to design of earthquake resistant structures. Discussion of diaphragms, chords and struts. Prerequisites: CEE 334 or 432, CEE 444 or 480. 3 credits.
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