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CHE 5561: Special Topics in Chemical Engineering

3.00 Credits

University of Virginia-Main Campus

Applies engineering science, design methods, and system analysis to developing areas and current problems in chemical engineering. Topics are announced at registration.

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CHE 6438: Process Control and Dynamics

3.00 Credits

University of Virginia-Main Campus

Introduction to dynamics and control of process systems, controllers, sensors, and final control elements. Development and application of time- and frequency-domain characterizations of subsystems for stability analyses of closed control loops. State-space models, principles of sampled-data analysis and digital control techniques. Elementary systems identification with emphasis on dead time, distributed parameters, and nonlinearities.

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CHE 6442: Applied Surface Chemistry

3.00 Credits

University of Virginia-Main Campus

Factors underlying interfacial phenomena, with emphasis on thermodynamics of surfaces, structural aspects, and electrical phenomena; applications such as emulsification, foaming, detergency, sedimentation, flow through porous media, fluidization, nucleation, wetting, adhesion, flotation, electrocapillarity.

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CHE 6447: Biochemical Engineering

3.00 Credits

University of Virginia-Main Campus

Introduction to properties, production, and use of biological molecules of importance to medicine and industry, such as proteins, enzymes, and antibiotics. Topics may include fermentation and cell culture processes, biological mass transfer, enzyme engineering, and implications of recent advances in molecular biology, genomics, and proteomics.

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CHE 6448: Bioseparations Engineering

3.00 Credits

University of Virginia-Main Campus

Principles of bioseparations engineering including specialized unit operations not normally covered in regular chemical engineering courses. Processing operations downstream of the initial manufacture of biotechnology products, including product recovery, separations, purification, and ancillary operations such as sterile processing, clean-in place and regulatory aspects. Bioprocess integration and design aspects.

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CHE 6449: Polymer Chemistry and Engineering

3.00 Credits

University of Virginia-Main Campus

Analyzes the mechanisms and kinetics of various polymerization reactions; relations between the molecular structure and polymer properties, and how these properties can be influenced by the polymerization process; fundamental concepts of polymer solution and melt rheology. Applications to polymer processing operations, such as extrusion, molding, and fiber spinning. Three lecture hours.

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CHE 6476: Process Design and Economics

4.00 Credits

University of Virginia-Main Campus

Factors that determine the genesis and evolution of a process. Principles of marketing and technical economics and modern process design principles and techniques, including computer simulation with optimization.

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CHE 6615: Advanced Thermodynamics

3.00 Credits

University of Virginia-Main Campus

Development of the thermodynamic laws and derived relations. Application of relations to properties of pure and multicomponent systems at equilibrium in the gaseous, liquid, and solidphases. Prediction and calculation of phase and reaction equilibria in practical systems.

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CHE 6618: Chemical Reaction Engineering

3.00 Credits

University of Virginia-Main Campus

Fundamentals of chemical reaction kinetics and mechanisms; experimental methods of determining reaction rates; introduction to heterogeneous catalysis; application of chemical kinetics, along with mass-transfer theory, fluid mechanics, and thermodynamics, to the design and operation of chemical reactors.

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CHE 6625: Transport Processes

3.00 Credits

University of Virginia-Main Campus

Integrated introduction to fluid mechanics, heat transfer, and mass transfer. Development of the basic equations of change for transport of momentum, energy, and mass in continuous media. Applications with exact solutions, consistent approaches to limiting cases and approximate solutions to formulate the relations to be solved in more complicated problems.

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