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Course Criteria
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3.00 Credits
Guided research on a topic that has been approved as a suitable subject for an honors thesis. Please see departmental website for specific details. This course is offered during the following semesters: Spring Semester
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3.00 Credits
Research in a health or health-care related setting. Please see departmental website for specific details. Prerequisites Permission of instructor. This course is offered during the following semesters: Fall Semester Spring Semester
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3.00 Credits
First of a two-part series covering essential chemical engineering principles and applications, geared toward post-baccalaureate scientific and technical professionals who do not have an undergraduate degree in chemical engineering. This course covers applications of materials and energy balances to industrial processes; concepts and laws of classical thermodynamics; and relations among thermodynamic variables, equations of state, and thermodynamics of composition change. Prerequisites Integral and differential calculus, physics, and general and physical chemistry, or consent. This course is offered during the following semesters: Fall Semester Spring Semester
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3.00 Credits
Continuation of a two-part series covering essential chemical engineering principles and applications. This course covers essentials of transport phenomena, including fluid flow, heat transfer, and mass transfer, as well as unit operations: pumps, heat exchangers, and mass separation processes (e.g., distillation, extraction, absorption, stripping). This course is offered during the following semesters: Fall Semester Spring Semester
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3.00 Credits
Applications of conservation of mass and energy to industrial chemical processes, with emphasis on engineering units/dimensions and stoichiometric relationships. Thermodynamic concepts--first and second laws, heat, work, energy, entropy, equilibrium, reversibility, equations of state--are introduced in process contexts. Emphasis in Part II on multiphase, multicomponent, and reactive systems. Use of personal computer software required. This course is offered during the following semesters: Fall Semester
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3.00 Credits
Applications of conservation of mass and energy to industrial chemical processes, with emphasis on engineering units/dimensions and stoichiometric relationships. Thermodynamic concepts--first and second laws, heat, work, energy, entropy, equilibrium, reversibility, equations of state--are introduced in process contexts. Emphasis in Part II on multiphase, multicomponent, and reactive systems. Use of personal computer software required. Prerequisites CHBE 10 : Chemistry 31 This course is offered during the following semesters: Spring Semester
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3.00 Credits
Fundamentals of fluid mechanics and their applications to the design and understanding of flow phenomain industrial and biological processes. Steady-state and non-steady-state conduction and convective heat transfer. Applications to design of heat exchangers. Prerequisites Chemical and Biological Engineering 10, 11; Mathematics 13. This course is offered during the following semesters: Fall Semester
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3.00 Credits
Principles of heat and mass transfer. Steady-state conduction and diffusion processes. Convective transport of heat and mass in laminar and turbulent flows in conduits and over various surfaces. Applications to design of heat exchangers. Natural convection. Combined heat and mass transfer applications. Prerequisites Chemical and Biological Engineering 10, 11; Mathematics 13. This course is offered during the following semesters: Spring Semester
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3.00 Credits
Separation processes which require a rate analysis for complete understanding in contrast to equilibrium-base analyses. Problem solving is a major component of the course. Prerequisites Chemical and Biological Engineering 20, 21, 22; Mathematics 13; appropriate computer-based mathematical tools. This course is offered during the following semesters: Fall Semester
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3.00 Credits
Laboratory projects in the area of applied chemical and biological engineering processing. Students work in groups and choose one project for the whole term. Hands-on experience with practical problems of industrial concern. Training in planning and executing research projects, integration in problem solving, oral presentations, and written reports are integral parts of this laboratory course. This course is offered during the following semesters: Fall Semester Spring Semester
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