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Course Criteria
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3.00 Credits
Ratner 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 592; W.
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3.00 Credits
Stuve The physics, chemistry, and engineering aspects of thin film deposition and technology. Vapor phase deposition emphasized. Topics include reactor types, vapor phase transport and hydrodynamics, surface and mass transport limited kinetics, nucleation and growth, homoepitaxy, heteroepitaxy, and thin film characterization. Offered: jointly with MSE 559.
Prerequisite:
permission of instructor
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3.00 Credits
Fundamental studies of adsorption systems and reactions that occur at surfaces with application toward heterogeneous catalysis, e rochemistry, etching, and corrosion. Analysis of reaction poisons and promoters, acid-base theory of metal surfaces, jellium theory of metals, and water and ion adsorption, plus other topics of current interest. Recommended: CHEM E 558 or CHEM 560.
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3.00 Credits
Stuve Properties of e rons at solid surfaces and their role in surface chemical reactions pertaining to electrochemistry, corrosion/etching, and catalysis. Topics include the jellium model of surfaces, surface electronic structure, work function, surface electric fields, reactions involving electrons, ions, and net charge transfer, and relationships between catalysis and electrochemistry.
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3.00 Credits
Control of emission of hazardous or toxic air pollutants. Government regulations, determination of needed control efficiency. Emission control by thermal incineration, catalytic incineration, flares, condensation, carbon adsorption, and adsorption (wet and dry). Hazardous waste incinerators. Case studies. Offered: jointly with CEE 556; W.
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3.00 Credits
Fast reactions and highly energetic reactions with applications to combustion, explosions, and lasers. Coupling of transport processes and reaction rates, photochemical kinetics, intermo lar energy transfer, free radical, and chain reaction kinetics. Rate plasmas, flames, and biological systems.
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3.00 Credits
Finlayson, Krieger, Stuve Homogeneous and heterogeneous systems with emphasis on chemical engineering principles applied to industrial reactor design. Offered: W.
Prerequisite:
CHEM E 525
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3.00 Credits
Pilat Physical and chemical processes used to control gaseous air pollutants. Absorption into liquids. Aqueous spray dryer scrubbers. Adsorption beds. Control of sulfur oxide and nitrogen oxide. Case studies of control systems. Offered: jointly with CEE 558; even years; Sp.
Prerequisite:
CHEM E 435 or CHEM E 468 or permission of instructor
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3.00 Credits
Pilat Processes used to control emissions of particulate air pollutants. Use of settling chambers, cyclones, fabric filters, wet scrubbers, and e rostatic precipitators to control aerosol particles. Case studies of particulate air-pollutant control systems. Offered: jointly with CEE 559; odd years; A.
Prerequisite:
CHEM E 468 or permission of instructor
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3.00 Credits
Allan Fundamentals of high polymer chemistry, including kinetics of addition and condensation polymerization, the determination of average mo lar weights and chain length distributions, solution properties and the relationship between molecular structure and plastic film and fiber properties of various polymers. Offered: W.
Prerequisite:
an undergraduate sequence in organic chemistry
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