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Course Criteria
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3.00 Credits
Theory of Mixtures. (3-0). Credit 3. Basic relations of statistical thermodynamics, intermolecular forces, liquid state, theory of mixtures, critical state, theory of conformal solutions, orientational effects, theorem of corresponding states and applications to distillation and extraction. Prerequisite: CHEN 623 or approval of instructor.
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3.00 Credits
Multiphase Reactors. (3-0). Credit 3. Laboratory reactors; mixing phenomena in multiphase reactors; tracer techniques in chemical reactor characterization; trickle bed reactors; two phase and three phase fluidized bed reactors; bubble columns; slurry reactors. Prerequisite: CHEN 624 or approval of instructor.
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3.00 Credits
Rheology. (3-0). Credit 3. Principles of stress, deformation and flow; vector and tensor equations of fluid mechanics. Behavior of Newtonian, non-Newtonian and viscoelastic fluids. Prerequisite: MATH 601 or approval of instructor.
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3.00 Credits
Polymer Engineering. (3-0). Credit 3. Principles and practice of polymer structure, synthesis, reaction mechanisms and kinetics; polymer characterization, chemical and physical properties degradation and recycling, melt and solid mechanical and rheological properties. Technology of production and processing operations. Prerequisite: Graduate classification.
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3.00 Credits
Colloidal and Interfacial Systems. (3-0). Credit 3. Fundamental principles related to interactions, dynamic, and structure in colloidal and interfacial systems. Concepts covered include hydrodynamics, brownian motion, diffusion sedimentation, electrophoresis, colloidal forces, surface forces, polymeric forces, aggregation, deposition, equilibrium phase behavior, rheology, and experimental methods. Prerequisites: None.
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3.00 Credits
Applied Statistical Mechanics of Fluids. (3-0). Credit 3. Application of molecular theories and computer simulation techniques to describe the thermodynamics and transport properties of fluids and fluid mixtures. Prerequisite: CHEN 623 or approval of instructor.
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3.00 Credits
Introduction to Microfabrication and Microfluidics Technology. (3-0). Credit 3. Micro Electro Mechanical Systems (MEMS Technology). To study the fundamentals of fluidics, heat and mass transfer, surface chemistry, and electrochemical interactions. Prerequisite: None.
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3.00 Credits
Biochemical Engineering. (3-0). Credit 3. Integration of principles of engineering, biochemistry and microbiology; application to the design, development and improvement of industrial processes that employ biological materials. Engineering discipline directed toward creative application of interdisciplinary information to the economic processing of biological and related materials. Prerequisite: Approval of instructor.
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3.00 Credits
Process Safety Engineering. (3-0). Credit 3. Applications of engineering principles to process hazards analysis including source and dispersion modeling, emergency relief systems, fire and explosion prevention and mitigation, hazard identification, risk assessment, process safety management, etc. Prerequisite: Approval of instructor. Cross-listed with SENG 655.
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3.00 Credits
Fundamentals of Environmental Remediation Processes. (3-0). Credit 3. Fundamental approach to various remediation technologies, topics in environmental thermodynamics and mass transfer, adsorption, desorption, ion exchange, air stripping, extraction, chemical oxidation, biodegration. Prerequisite: Graduate classification in engineering.
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