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Course Criteria
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1.00 - 9.00 Credits
Prerequisite: sophomore standing.
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3.00 Credits
Modeling and numerical methods to solve engineering, design, and scientific problems encountered in thermodynamics, transport phenomena, separation processes and reaction kinetics. Use of conservation principles in model building, dimensionless representation of problems, multiscale modeling and transient modeling. Numerical methods for solution of common problems in linear algebra, regression analysis, nonlinear algebraic equations, ordinary and partial differential equations, and boundary value problems. Use of MATLAB as a computational tool. Brief introduction to statistical techniques and Monte Carlo methods. Use of various MATLAB toolboxes. Illustrative application examples. Prerequisite: familiarization with MATLAB and spreadsheet.
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3.00 Credits
Classical thermodynamics. First and second laws, properties of pure substances, mixtures, and solutions. Phase equilibria, chemical reaction equilibria. Prerequisites: Chem 111A, Math 132, and Physics 117A.
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3.00 Credits
Chemistry and physics of engineering materials. Emphasis on atomic and molecular interpretation of physical and chemical properties, the relationships between physical and chemical properties, and performance of an engineering material. Prerequisite: Math 217, Chem 111A.
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3.00 Credits
Generation, transport, and fate of gaseous and particulate air pollutants. Meteorology and its coupling to air quality. Photochemical smog formation, visibility impairment, pollutant dispersion modeling, and source apportionment. Prerequisite: ChE 443 or permission of instructor.
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3.00 Credits
Strategies and methods for waste minimization and pollutant emission reduction. Hierarchical design strategies. Air pollution abatement: principles and technology. Waste water treatment: principles and technology. Design of mass exchange networks for waste reduction. Design of membrane based systems, adsorption and absorption equipment. Prerequisite: ChE 320 or permission of instructor.
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3.00 Credits
Introduction to the use of mathematics and methods of engineering in analysis of chemical and physical processes. Use of conservation balances and basic rate laws to describe processes with and without chemical reaction in both transient and steady state conditions. Prerequisites: Chem 112A, Math 233. Corequisites: ChE 320, Math 217.
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3.00 Credits
Stagewise and continuous mass transfer operations, including distillation, gas absorption, humidification, leaching, liquid extraction, and membrane separations. Prerequisites: Math 217, ChE 351, and ChE 320.
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3.00 Credits
Molecular motions, kinetic theory of gases, kinetic theory of dense phases, chemical kinetics. Prerequisite: ChE 320.
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3.00 Credits
Same as ChE 367
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