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Course Criteria
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3.00 Credits
(3-0) 3 credits. Prerequisites: MET 320, or CHE 222 or ME 211 or permission of instructor. Initially, the thermodynamics of electrochemical processes are covered; use of the Nernst equation and Pourbaix diagram is presented in this material. Fundamentals of electrode kinetics are then discussed with special emphasis on the derivation of the Butler-Volmer equation and application of the Evan's diagram. Following presentation of these fundamental concepts, phenomena observed in corrosion and oxidation such as uniform attack, pitting, stress corrosion cracking, and corrosion fatigue are discussed. Finally, selection of materials for site specific applications is covered. Students enrolled in CHE 545 will be held to a higher standard than those enrolled in CHE 445. This course is cross-listed with ENVE 445/545 and MET 445/545.
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2.00 - 3.00 Credits
2 to 3 credits. Prerequisite or corequisites: CHE 417, CHE 433, or permission of instructor. The development of mathematical models for dynamic and steady state chemical engineering systems; simulation of these complex systems using computers and software, such as AspenPlus; estimation of physical and equilibrium properties; and analysis of results. Students enrolled in CHE 550 will be held to a higher standard than those enrolled in CHE 450. This course is cross-listed with CBE 450/550.
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3.00 Credits
(3-0) 3 credits. Prerequisites: CHE 218, CHE 317, and CHE 417, or equivalent, or permission of instructor. The study of the industrial sources of and treatment of air, water, and land pollutants. The chemical and physical phenomena operating in pollution control equipment and the design of pollution control equipment will be examined. Waste minimization and pollution prevention strategies will be considered. Students enrolled in CHE 555 will be held to a higher standard than those enrolled in CHE 455. This course is crosslisted with ENVE 455/555.
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1.00 Credits
(0-1) 1 credit. Prerequisite: CHE 318. Laboratory experiments on mass transfer.
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4.00 Credits
(4-0) 4 credits. Prerequisites: CHE 317, CHE 318. A comprehensive treatment of problems involved in the design of a chemical process plant. The design of plant equipment with emphasis upon the selection of materials and the elements of cost. Overall plant design with consideration of economics, political, and personnel factors.
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3.00 Credits
(3-0) 3 credits. Prerequisite: CHE 464. A continuation of CHE 464.
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2.00 - 3.00 Credits
2 to 3 credits. Prerequisite: Senior standing or permission of instructor. A study of the engineering aspects of polymer synthesis and reactor design, polymer testing, polymer characterization, rheology, macro-properties, and fabrication. Students may enroll for two (2) or three (3) credits, depending upon the particular level of course matter that matches their interest. Students taking two (2) credits will take twothirds of the course material. The instructor, in conjunction with the department chair, will monitor student credit hours. Course is not repeatable for credit. Students enrolled in CHE 574 will be held to a higher standard than students enrolled in CHE 474.
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1.00 Credits
(0-1) 1 credit. Prerequisite or corequisite: CHE 474 or 574. Laboratory experiments in polymer synthesis, chemical and mechanical property testing, extrusion, and modeling. Students enrolled in CHE 574L will be held to a higher standard than students enrolled in CHE 474L.
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1.00 Credits
(1-0) 1 credit. Prerequisite: Senior standing or permission of instructor. An introduction to the engineering and science aspects of siliconeorganic polymer chemistry from an industrial viewpoint. The course covers basic silicone nomenclature, monomer and polymerization reactions, curing, reinforcement, general applications, and hands-on laboratory exercises, which includes making things like elastomeric (bouncy) putty and hi-bouncing balls. The course is held during a one week period. Students enrolled in CHE 576 will be held to a higher standard than students enrolled in CHE 476.
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3.00 Credits
(3-0) 3 credits. Prerequisite: CHE 343 and BIOL 231 or BIOL 341. An introduction to the characterization of microorganisms, fermentation pathways, unit processes in fermentation, biochemical kinetics, and batch and continuous fermentation. The basic engineering concepts of fermentation, separation, control, and operations will be discussed. Students enrolled in CHE 584 will be held to a higher standard than those enrolled in CHE 484. This course is cross-listed with CBE 484/584.
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