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Course Criteria
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3.00 Credits
Application of thermodynamics to biological systems; heat transfer with emphasis upon conduction and convection applications; introduction to diffusion mass transfer. Contact Hour Distribution: 2 hours and 1 lab. (RE) Prerequisite(s): 221.
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2.00 Credits
First course of a capstone design sequence. Review of fundamental engineering principles and design proposal generation. Design proposals will include preliminary engineering analyses, extensive documentation, and multiple individual and group presentations. ( OC) (RE) Prerequisite(s): 431 and 451. (RE) Corequisite(s): 404.
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6.00 Credits
Culmination of capstone design sequence. Intensive design experience on project chosen and approved in 401. Analysis, construction, testing, evaluation, and reporting required. Technical lectures on statistics, engineering software, and technical issues relevant to the chosen design project. Weekly oral and written reports and submission of design to external engineering design competition or display required. Contact Hour Distribution: 2-hour lecture, 2-hour recitation, 4-hour lab. (RE) Prerequisite(s): 401 and 444.
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3.00 Credits
Fundamentals and theory of engineering design and engineering project management, use of computerized project management tools, ethical responsibilities and contemporary issues in biosystems engineering, incorporation of economic considerations in engineering design, individual professional and portfolio development. (RE) Corequisite(s): 401.
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3.00 Credits
Fundamentals of power delivery systems and simple mechanisms; selection and design of mechanical, hydraulic, and tractive power transmission systems. Emphasis on off-road vehicles and bioprocessing systems. Contact Hour Distribution: 2 hours and 1 lab. (RE) Prerequisite(s): Mechanical Engineering 231 and Mechanical Engineering 321.
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3.00 Credits
An introduction to hydrology including hydrologic variability, precipitation, evapotranspiration, infiltration, runoff, erosion, water quality and non-point pollution, energy dissipation, streamflow measurement, hydrographs, routing, open channel flow, and urban hydrology. (Same as Civil Engineering 416.) (DE) Prerequisite(s): Statistics 251.
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3.00 Credits
Development of interdisciplinary bioprocess engineering; basics of biology in an engineering perspective; enzymatic reaction kinetics; metabolism and bioenergetics; cell growth kinetics and product formation; engineering principles applied to bioprocess engineering including mass balance, energy balance, and reaction kinetics; reactor design and systems; introduction to bioseparations; practical aspects of bioprocess engineers and process development. Contact Hour Distribution: 2 hours and 1 lab. (RE) Prerequisite(s): 321.
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3.00 Credits
Applications of engineering theory and design in selecting, sizing, and fabricating engineering materials, and in developing processes and systems typically used in biosystems engineering. Contact Hour Distribution: 1 hour and 2 labs. (RE) Corequisite(s): 401.
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4.00 Credits
Basic electronics with biological applications. Analog and digital electronics; sensing and controlling physical and environmental parameters; sensor selection and interfacing; signal conditioning; process control. Includes laboratory experiments and design projects. Contact Hour Distribution: 3 hours and 1 lab. Design content - 1 hour. (RE) Prerequisite(s): Electrical and Computer Engineering 301.
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1.00 - 3.00 Credits
Selection, analysis solution, and report of problem. Repeatability: May be repeated. Maximum 6 hours. Registration Permission: Consent of instructor.
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