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Course Criteria
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1.00 Credits
Current topics related to nuclear and radiological engineering including ethics, contemporary issues, and commitment to life-long learning. ( OC) Grading Restriction: Satisfactory/No Credit grading only. Registration Restriction(s): Minimum student level - senior.
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3.00 Credits
Cross section measurements, diffusion properties of neutrons, shielding, dynamics and controls, alpha and beta spectroscopy, radiation fields and dosimetry. ( WC) (RE) Prerequisite(s): 304.
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3.00 Credits
Topics relative to nuclear fuel cycle including, mining, milling, fabrication, in-core management, reprocessing, waste disposal. Regulatory and radiation health issues and requirements. (RE) Prerequisite(s): 470.
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3.00 Credits
Types of radiation sources, fundamentals of gamma ray and neutron attenuation, biological effects, approximate methods of shield design, discrete ordinates, and Monte Carlo. (RE) Prerequisite(s): Physics 232.
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3.00 Credits
Fundamentals of nuclear criticality safety. Criticality accidents and safety standards. Overview of experiments, computational methods, and applications. (RE) Prerequisite(s): 301.
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3.00 Credits
External and internal dosimetry, biological effects of radiation, radiation detection, and radiation risk assessment. (RE) Prerequisite(s): 301.
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3.00 Credits
Fundamentals of reactor physics relative to cross sections. Kinematics of elastic scattering. Reactor kinetics, reactor systems, and nuclear data. Analytical and numerical methods applicable to general criticality problems, eigenvalue searches, perturbation theory, and the multigroup diffusion equations. (RE) Prerequisite(s): 301.
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4.00 Credits
First order design and analysis of a nuclear system. Interface with nonnuclear aspects of system design, including system reliability and economics. Class project. (RE) Prerequisite(s): 470.
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3.00 Credits
Probabilistic failure models and parameter estimation (maximum likelihood, Bayes techniques). Model identification and comparison, accelerated life tests, failure prediction, system reliability, preventive maintenance, and warranties. ( Same as Chemical Engineering 483; Industrial Engineering 483; Mechanical Engineering 483.) Registration Restriction(s): Minimum student level - senior.
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3.00 Credits
Principles of maintenance and reliability engineering and maintenance management. Topics include information extraction from machinery measurements, rotating machinery diagnostics, nondestructive testing, life prediction, failure models, lubrication oil analysis, establishing a predictive maintenance program, and computerized maintenance management systems. (Same as Chemical Engineering 484; Industrial Engineering 484; Materials Science and Engineering 484; Mechanical Engineering 484.) Registration Restriction(s): Minimum student level - senior. Registration Permission: Consent of instructor.
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