Principles underlying rates of transformations of matter and energy. Review of pertinent differential equations; effect of temperature and catalysis on chemical reaction rates; kinetic and mass transfer effects on rates; design of chemical reactors. Prerequisites: CHEM-ENG 120, 226, MATH 233 and 331. Corequisites: CHEM-ENG 325 and 330

Principles underlying rates of transformations of matter and energy. Review of pertinent differential equations; effect of temperature and catalysis on chemical reaction rates; kinetic and mass transfer effects on rates; design of chemical reactors. Prerequisites: CHEM-ENG 120, 226, MATH 233 and 331. Corequisites: CHEM-ENG 325 and 330

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This course is intended to be an introduction to many core Chemical Engineering principles, within the context of mammalian cell biology and human physiology. We will cover biological topics of cell division, DNA, receptor-ligand binding, matrix protein assembly, tissue engineering, and cell motility, using a quantitative engineering perspective. Within this biological framework, students will learn the basic principles of mass and energy balances, thermodynamics, kinetics, and transport. (Gen.Ed. BS)

This course introduces students to the energy needs and possible energy changes that will occur as we transform from a petroleum-based energy source to renewable energies. It will give students the tools and perspective to evaluate alternative technologies in energy utilization with emphasis on renewable/sustainable technologies.

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