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Course Criteria
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2.00 Credits
(2-0) 2 credits. Prerequisites: CHE/ENVE 217, completion of or concurrent registration in MATH 321. Course topics address theory and application of principles of heat transfer by conduction, convection and radiation. Completion of ENVE 315 will not meet the requirement for completion of CHE 317 for a B.S. in Chemical Engineering. This course is cross-listed with CHE 317.
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3.00 Credits
(3-0) 3 credits. Prerequisites: CHE 217, concurrent registration in MATH 321. The third course on the theory and practice of chemical engineering with emphasis on heat transfer. Heat transfer by conduction, convection, and radiation is studied. This course is cross-listed with CHE 317.
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3.00 Credits
(3-0) 3 credits. Prerequisite: CHE 317 or ENVE 315 or permission of instructor. The fourth course on the theory and practice of chemical engineering with emphasis on molecular diffusion, membranes, convective mass transfer, drying, humidification, and continuous gas-liquid separation processes. This course is cross-listed with CHE 318.
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4.00 Credits
(4-0) 4 credits. Prerequisites: PHYS 211, CHEM 114, MATH 125. The principles of chemical thermodynamics and their application to metallurgical engineering processes. Topics covered include the zeroth, first, and second laws of thermodynamics, the fundamental equations of state for open and closed systems, criterion of equilibrium, heat capacities, reaction equilibrium constants and their dependence upon temperature and pressure, chemical potential, standard and reference states, stability diagrams, and solution thermodynamics. This course is cross-listed with MET 320.
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4.00 Credits
(3-1) 4 credits. Prerequisite: MET 320. Thermodynamic principles involved in the winning of metals. Areas covered include calcination, oxidation, reduction processes, smelting, high -temperature refining, electrorefining, slags, and slag-metal interactions. This course is cross-listed with MET 321/321L.
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3.00 Credits
(2-1) 3 credits. Prerequisites GEOL 201 and GEOL 201L, or GEOE 221; and GEOL 341. A study of the character and genesis of large-scale and small-scale deformational structures and their patterns in the earth's crust. Laboratory work includes various trigonometric, geometric, and stereographic methods applicable to structural analysis and presents open-ended problems in geologic, structure contour, and isopach map interpretation, as well as engineering design problems including drilling exploration projects. This course is cross-listed with GEOE 322/322L.
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3.00 Credits
(2-1) 3 credits. Prerequisites MATH 125 and PHYS 213. Application of the more commonly used methods of geophysical prospecting in mineral exploration, petroleum exploration, and engineering construction. Includes field design and interpretation of surveys using the engineering seismograph, gravity meter, electrical resistivity equipment, scintillometers, and magnetometers. Extensive use of computers is made in the laboratory work. This course is cross-listed with GEOE 324/324L.
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3.00 Credits
(3-0) 3 credits. Prerequisites: CHEM 114 and junior standing. As the first course in the theory and practice of environmental engineering, emphases are on the acquisition of introductory knowledge pertaining to natural and engineered environmental engineering systems, identification and mitigation of societal impacts upon the Earth, and application of environmental engineering principles in the design and analysis of systems for water and wastewater treatment and solid/hazardous waste management. This course is cross-listed with CHE 326.
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3.00 Credits
(2-1) 3 credits. Prerequisite or corequisite: CEE 284 or CHE 250 and one of the following: EM 328, EM 331, CHE 218 or ME 331. As the second course in the theory and practice of Environmental Engineering, emphasis is on application of material balance concepts in environmental analysis and design with consideration of water chemistry, environmental process kinetics, ideal and non-ideal reactors, and biological process fundamentals. These fundamental principles are applied in selected natural and engineered environmental contexts spanning air, water and land systems and the effects of society on environmental systems. Laboratory exercises will be completed and reports with computer-generated text, tables and figures will be written. This course is cross-listed with CEE 327/327L.
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3.00 Credits
(2-1) 3 credits. Prerequisites: GEOL 201 and GEOL 201L, or GEOE 221, or permission of instructor. The principles of correlation and sediment analysis are discussed. A background in sedimentary source materials, depositional environments, nomenclature and classification of stratigraphic units, and the interpretation of stratigraphic units will be presented. Emphasis is placed on modern depositional systems and their ancient counterparts. Laboratory exercises stress field trips to local sections, facies descriptions, rock analysis, and interpretation of an exploration prospect. This course is cross-listed with GEOL 331/331L.
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