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Course Criteria
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3.00 Credits
Formation, structure, and properties of polymers. Thermoplastic and thermosetting polymers; stereospecific structures; polymer solutions and solvent resistance; chain conformation; molecular weight; morphology; transitions; condensation polymerization; free radical and nonradical addition polymerization; copolymerization; rubber elasticity; viscous flow; viscoelasticity. Lecture/laboratory. Prerequisite: ES 231, or permission of instructor Martin
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3.00 Credits
Principal chemical processes in environmental engineering for wastewater treatment, air pollution control, and solid waste management. Chemical, physical, and mathematical principles used in defining, quantifying, and measuring environmental quality. Engineering fundamentals governing the operation and design of pollution control devices. Lecture/Problem Solving. Prerequisite: Permission of instructor Tavakoli
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3.00 Credits
Introduction to prokaryotic and eukaryotic cells, cell metabolism, and genetic engineering. Mathematical modeling of enzyme kinetics and its importance in reactor design. Large- scale fermentation, such as bioreactor design and scale-up, cellular and membrane transport processes, growth media development, sterilization procedures, and protein purification. Lecture/recitation/ laboratory. Prerequisite: CHE 311; Chemistry 221, or permission of instructor Piergiovanni
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3.00 Credits
An introduction to the concept of environmentally conscious process development and the application of green engineering principles to the chemical process industry. Students are challenged to rethink the classical chemical process in order to satisfy regulatory and policy issues, balance process economics and environmental performance, and develop a refined sense of sustainability with respect to the wider chemical industry. Prerequisite: Chemistry 121 and Chemistry 122 or permission of instructor Staff
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3.00 Credits
Chemistry, physics, and engineering of nanoscopic systems dominated by interfacial behavior. Equilibrium interfacial thermodynamics, capillary interactions, and surface forces in disperse systems. Electrical double layer and electrokinetic phenomena. Emerging applications including bionanotechnology and smart materials illustrated using seminars in current literature and laboratory experiences. Lecture/Seminar/Laboratory Prerequisite: Mathematics 161; Chemistry 121; or permission of instructor Staff
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3.00 Credits
An opportunity for selected students to undertake a project during the junior and/or senior year. Before registering, a proposal for the work must be submitted to a faculty member who serves as the adviser and to the department head for approval. Each student is required to submit and orally defend a paper embodying the results of the project. Staff
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3.00 Credits
Unit operations of chemical engineering pertaining to mass transfer and separations processes. Staged and continuous equilibrium separations including multi-component distillation, gas absorption/stripping and liquid extraction. Rate-based separations such as chromatography and membrane systems. Lecture/Problem Solving. Prerequisite: CHE 321 and 323 Offered: Fall semester Staff
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3.00 Credits
Principles of separation processes, mass transfer, reaction kinetics in developed and emerging applications illustrated by multi-scale laboratory experiments. Emphasis on analysis of safe practices, hazards analysis, kinetic data, computer simulation, technical writing, and oral presentation. Lecture/Laboratory. Corequisite: CHE 411, 413 Offered: Fall semester Staff
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3.00 Credits
The kinetics of reacting systems and the design of chemical reactors. Analysis of rate data; multistep reaction mechanisms, enzymatic reactions, catalysis and heterogeneous processes; design of single phase isothermal reactors, multiple-phase reactors, non-isothermal reactors, and nonideal reactors. Lecture/recitation. Prerequisite: CHE 323 Offered: Fall semester Staff
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3.00 Credits
Quantitative study of current processes. Analysis and flowsheet layout of typical systems; safety, health, environmental, quality control, and ethical concerns in design; economic factors in estimation, design, construction, and operation of process equipment. Lecture/recitation. Prerequisite: CHE 324 Corequisite: CHE 411 and 413 Offered: Fall semester Staff
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