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Course Criteria
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1.00 - 3.00 Credits
Berg techniques, equipment, and underlying fundamentals in surface and colloid science. Experiments in the measurement of surface tension, adsorption, wetting and spreading, colloid properties, emulsion preparation and stability, e rophoresis, and interfacial hydrodynamics. Recommended: CHEM E 326; CHEM E 330; CHEM 461. Offered: Sp.
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3.00 Credits
Understanding of solid surfaces for research and development in microe ronics, catalysis, adhesion, biomaterials science, wear, and corrosion science. Newer methods avai e to study surfaces of materials. Electron emission spectroscopies (ESCA, Auger): ion scattering, ion spectroscopic, photon spectroscopic, and thermodynamic methods. Offered: jointly with BIOEN 492; W.
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3.00 Credits
Schwartz Explores role of thermodynamics, charge transfer kinetics, and mass transfer on behavior of electrochemical systems. Includes cell thermodynamics, faradaic and non-faradaic rate processes, ionic transport, nucleation and growth theories. Applications to chemical sensors, batteries, corrosion, thin film deposition. In- demonstrations to illustrate concepts. Offered: W.
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3.00 Credits
Environmental problems in chemical engineering. Team taught; topics vary from year to year. Includes: geo-media, flow and dispersion through porous media water flow in dry soils, chemistry of radioactive waste, in situ site cleanup, ex situ site cleanup, colloid and surface science. Offered: Sp.
Prerequisite:
CHEM E 330
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4.00 Credits
Application of principles of chemical kinetics to the design of commercial-scale chemical reactors; characterization of batch and flow reactors in homogeneous and heterogeneous systems. Offered: A.
Prerequisite:
CHEM E 326; CHEM E 340
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3.00 Credits
Baneyx Application of basic chemical engineering principles to biochemical and biological process industries such as fermentation, enzyme technology, and biological waste treatment. Rapid overview of relevant microbiology, biochemistry, and mo lar genetics. Design and analysis of biological reactors and product recovery operations. Offered: jointly with BIOEN 467; W.
Prerequisite:
CHEM E 340; either CHEM 223, CHEM 237, or CHEM 335; recommended: CHEM E 465
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3.00 Credits
Designs to control air pollutants from stationary sources. Procedures for calculating design and operating parameters. Fundamental mechanisms and processes of gaseous and particulate control equipment for absorption and adsorption of gaseous pollutants; e rostatic precipitation and filtration of particular pollutants. Actual case studies. Offered: jointly with CEE 494/M E 468; W.
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3.00 Credits
Chemical and physical properties of cellulose, lignin, hemicellulose, and extractives; wood as a raw material for the chemical industry. Offered: A.
Prerequisite:
either CHEM 220, CHEM 238, or CHEM 336
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3.00 Credits
Conversion of wood to mechanical and chemical pulps. Kraft, sulfite, and semichemical pulping processes. Chemical recovery systems. Bleaching of mechanical and chemical pulps. Offered: jointly with PSE 476; W.
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3.00 Credits
Fiber sources and properties. Secondary fibers. Stock preparation, sheet forming, water removal, finishing. Coating, lamination, and printing. Paper products. Offered: jointly with PSE 477; A.
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