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Course Criteria
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3.00 Credits
(255) (Also offered as CE 5710 .) First semester. Three credits. Prerequisite: CE 2710. Garrick, Ivan Analysis of case studies in transportation and urban planning and design. Application of transportation engineering and planning skills. Oral and written group reports, group discussions, individual written papers.
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2.00 Credits
(266) (Also offered as ENVE 4800.) Second semester. Two credits. One class period. One 2-hour Laboratory. Prerequisite CE 3120. Tests of the flow of water in pipes and open channels. Theory and calibration of flow measurement devices. Generation of flow measurement devices. Study of velocity profiles. Generation of pump performance curves. Physical hydraulic modeling and similtude.
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3.00 Credits
(267) (Also offered as ENVE 4810.) First semester. Three credits. Prerequisite: CE 3120 or (CHEG 3123 and 3124). Anagnostou, Ogden Hydrologic cycle: precipitation, interception, depression storage, infiltration, evaportranspiration, overland flow, snow hydrology, groundwater and streamflow processes. Stream hydrographs and flood routing. Hydrologic modeling and design. Computer applications. Design project.
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3.00 Credits
(265) (Also offered as ENVE 4820.) Second semester. Three credits. Prerequisite: CE 3120 or (CHEG 3123 and 3124). Anagostou, Ogden Design and analysis of water and wastewater transport systems, including pipelines, pumps, pipe networks, and open channel flow. Introduction to hydraulic structures and porous media hydraulics. Computer applications.
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3.00 Credits
(280W) Either semester. Three credits. Two 3-hour laboratory periods. Prerequisite: Departmental consent required; ENGL 1010 or 1011 or 3800. This course can be taken no sooner than the semester in which the student completes the Professional Requirements for the B.S. degree. Design of Civil Engineering Projects. Students working singly or in groups produce solutions to Civil Engineering design projects from first concepts through preliminary proposals, sketches, cost estimations, design, evaluation, oral presentation and written reports.
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3.00 Credits
(299) Either or both semesters by arrangement. Credits by arrangement, not to exceed 4 per semester. Open only with consent of supervising instructor. Course may be repeated for credit. Designed for students who wish to extend their knowledge in some specialized area of civil engineering.
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3.00 Credits
(203) First semester. Three credits. Recommended preparation: CHEM 1128 or CHEM 1125 and 1126; MATH 1122 or MATH 1132 or CSE 1100C. Application of the principles of chemistry and physics to chemical processes; units, dimensions, and process variables; material balances; equations of state (ideal and real); single component equilibria; energy balances; non reactive and reactive processes; combined mass and energy balances.
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3.00 Credits
(211) Either semester. Three credits. Three class periods and one discussion period. Recommended preparation: MATH 2110, CHEM 1128, and CHEG 2103, or consent of Chemical Engineering Program Director. CHEG 2111 and ME 2233 may not both be taken for credit. First and second law of thermodynamics; thermal and PVT properties of matter; exact differentials and thermodynamic identities; design and analysis of power cycles; analysis of refrigeration and liquefaction processes.
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4.00 Credits
(214) (Formerly offered as CHEG 212.) Either semester. Four credits. Three class periods and one discussion period. Prerequisite: MATH 2410, CHEG 2111, or consent of Chemical Engineering Program Director. Properties and phase equilibria for ideal and nonideal mixtures; design of equilibrium flash separators; phase equilibria using equations of state; chemical equilibria; optimum conditions for chemical reactions; applications include chemical, electrochemical and biochemical systems.
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3.00 Credits
(223) Either semester. Three credits. Three class periods and one discussion period. Recommended preparation: MATH 2110 and 2410, CHEM 1128, and CHEG 2103, or consent of Chemical Engineering Program Director. Overall mass, energy, and momentum balances; fluid flow phenomena; theoretical and empirical relationships for design of incompressible fluid-flow systems; conductive heat transfer; heat transfer coefficients and design of heat exchange systems.
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