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Course Criteria
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3.00 Credits
Linear and non-linear optimization. Introduction to optimization technique and concepts.
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3.00 Credits
An introduction to the various intermolecular and inter-particle interactions in solutions and in colloidal systems: van der Waals, electrostatic, hydrophobic. Polymers in solutions, surfactants in solutions, colloidal systems in electrolyte environment, with surfactants and with polymers. Surfaces and interfaces: surface energy, surface tension, wetting, biological surfaces and cell membranes, and how polymers interact with cell membrane.
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3.00 Credits
Young-Dupre approach to wetting and the relation between Marangoni Effect and the spreading coefficient. Covers the concept of complete wetting, partial wetting, and non-wetting systems. Follows some experimental methods related to wetting.
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3.00 Credits
Material and energy-balance relationships are reviewed for multicomponent fractionation equipment and for batch stills. Various plate designs are presented from the standpoint of two-phase hydraulics and mass-transfer efficiency.
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3.00 Credits
Emphasis is placed on complex reactor design, Attention is devoted to chemical kinetics and catalysis as well as to the engineering aspects of both homogeneous and heterogeneous reactors. Mixing problems in terms of residence, time distribution. The importance of temperature effects is stressed.
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3.00 Credits
Chemical transfer rates between air and water, water and soil/sediment, as well as air and soil. Intraphase pollutant processes in atmosphere, surface water, and ground water. Description of the dispersion model and the meterological effects on pollutant transport. Discussion of partition to biomass and exposure pathways.
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3.00 Credits
This course examines the scientific basis and technology details of sustainability, defined as minimization of the effect of entropy on society. Emphasizes the interface among engineering, environment, and economics. Incorporates the ideas of sustainability into chemical engineering fields such as process and product design, manufacturing, and value chain management for the purpose of minimizing both resource utilization and adverse environmental impact.
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3.00 Credits
Practical applications of sustainability to topics including environmental research, pollution, prevention, plant safety/abnormality management and control, process optimization, renewable energy, innovative material, and biotechnology to support the sustainability of our environment, society and industry. Prerequisite: CHEN 6345
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3.00 Credits
Derivation of thermodynamic laws and application to physical chemical phenomena. Development of ideal and non-ideal gas, liquid, and solid solution behaviors for physical and chemical equilibria. Course credit in chemistry is optional.
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3.00 Credits
The course covers the fundamentals and numerical techniques for Linear Systems of Equations, Nonlinear Systems of Equations, Numerical ifferentiation/Integration, Regression Analysis, Systems of Ordinary Differential Equations, and Partial Differential Equations, for modeling and analysis of chemical engineering systems.
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