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Course Criteria
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3.00 Credits
An introduction to numerical methods for ordinary and partial differential equations arising in chemical engineering, bioengineering, and environmental engineering applications. Topics include finite difference and finite element methods; other numerical and analytical methods if time permits.
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3.00 Credits
An introduction to modern optimization techniques having applications in engineering economics, data analysis, process design and dynamics; methods such as Fibonacci, Partan, steep ascent, geometric, mathematical and dynamic programming.
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3.00 Credits
Organization and planning of research. Introduction to the philosophy and management of scientific research, particularly issues related to ethics, plagiarism, ownership of intellectual properties, research techniques, technical presentations and time management. The course will address these issues by integrating with case studies. (Co-listed with IDE 425, Civ Eng 485, Env Eng 485, Elec Eng 481, Comp Eng 481)
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3.00 Credits
Fundamentals of Newtonian flow, non-Newtonian flow, flow through packed beds, two phase flow, flow around submerged objects and other related topics. Fundamentals of statistical theory of turbulence, turbulence modeling for transport processes. Theories of turbulent diffusion associated with mixing.
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3.00 Credits
Course is concerned with all aspects of transport phenomena. Complete expressions for heat, mass and momentum transfer in all three coordinate systems are applied under both laminar and turbulent conditions.
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3.00 Credits
This course will introduce graduate students to a broad array of topics in biomaterials, including ceramic, metallic, and polymeric biomaterials for in vivo use, basic concepts related to cells and tissues, host reactions to biomaterials, biomaterials-tissue compatibility, and degradation of biomaterials. A term paper and oral presentation are required. Prerequisite: Graduate Standing. (Co-listed with Cer Eng 440, Bio Sci 440, Met Eng 440)
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3.00 Credits
Introduction of the fundamentals of nanomaterials and recent developments on nanomaterials. Topics include physical and chemical properties, synthesis, processing, and applications of nanomaterials. Example nanomaterials include nanoparticles, nanotubes, and nanowires. Students will need to complete a project related to nanomaterials. Prerequisite: Graduate Standing. (Co-listed with MS&E 443)
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3.00 Credits
Extension of thermodynamic principles as applied to nonideal systems. Use of existing thermodynamic data and correlations with emphasis on applications of chemical engineering problems in energy, mass and momentum transfer.
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3.00 Credits
Study of molecular-based modeling and simulation methodologies and their connections with each other and to multiscale modeling and other engineering approaches. Molecular Dynamics, Monte Carlo, Brownian Dynamics, statistical mechanics, and application cases in engineering and science are included. Prerequisite: Chem Eng 445.
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3.00 Credits
Fundamental aspects of polymer formation in plasma (weakly ionized gas), and properties of polymers formed by such a process are studied. Prerequisite: Chem Eng 375.
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