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Course Criteria
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3.00 Credits
Corey Wilson. tth1-2.15, 1 htba Meets RP (26) A survey of the principles and scope of biomolecular engineering. Discussion of concepts at the interface of applied mathematics, biology, biophysical chemistry, and chemical engineering that are used to develop novel molecular tools, materials, and approaches based on biological building blocks and machinery. Modeling the physicochemical properties that confer function in biological systems; low- and high-resolution protein engineering; the design of synthetic interactomes.
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3.00 Credits
Paul Van Tassel. mw 2.30-3.45 QRSc Meets RP (37) Theory and design of separation processes for multicomponent and/or multiphase mixtures via equilibrium and rate phenomena. Topics include single-stage and cascaded absorption, adsorption, extraction, distillation, partial condensation, filtration, and crystallization processes. Applications to environmental engineering (air and water pollution control), biomedical-chemical engineering (artificial organs, drug purification), food processing, and semiconductor processing. Prerequisite: ceng 300a or 315b or permission of instructor
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3.00 Credits
Yehia Khalil. w12-4 Sc Meets RP (36) Basic experiments in chemical engineering science, including interpretation, analysis, and modeling of experimental results. Typical experiments include liquid level control, convective heat transfer, electrophoresis of colloidal particles, surface tension, surface wettability measurements, particle sedimentation, micro-filtration, and flow in porous media.
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3.00 Credits
Yehia Khalil. tth 7-8.15 p.m. QR,Sc Meets RP (0) Study of the techniques for and the design of chemical processes and plants, applying the principles of chemical engineering and economics. Emphasis on flowsheet development and equipment selection, cost estimation and economic analysis, design strategy and optimization, safety and hazards analysis, and environmental and ethical considerations. Prerequisites: ceng 301b and 411a. ceng 471a or b, Independent Research. Consult the director of undergraduate studies. htba (0) Faculty-supervised individual student research and design projects. Emphasis on the integration of mathematics with basic and engineering sciences in the solution of a theoretical, experimental, and/or design problem. May be taken more than once for credit. ceng 480a, Chemical Engineering Process Control. EricAltman. tth9-10.15 QR,Sc Meets RP (22) Transient regime modeling and simulations of chemical processes. Conventional and state-space methods of analysis and control design. Applications of modern control methods in chemical engineering. Course work includes a design project. Prerequisite: enas 194a or b or permission of instructor.
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3.00 Credits
Consult the director of undergraduate studies. htba (0) Individual research and/or design project supervised by a faculty member in Chemical Engineering, or in a related field with permission of the director of undergraduate studies.
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3.00 Credits
Brian Scholl. For description see under Cognitive Science.
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3.00 Credits
AmyArnsten. For description see under Cognitive Science.
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3.00 Credits
Joshua Knobe. For description see under Philosophy.
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3.00 Credits
Robert Frank. For description see under Linguistics.
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3.00 Credits
Ian Quinn. For description see under Music.
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