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NE Graduate Courses, Corvallis Campus

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Top NE 501 RESEARCH (1-16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 503 THESIS (1-16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 505 READING AND CONFERENCE (1-16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 506 PROJECTS (1-16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 507 SEMINAR IN NUCLEAR ENGINEERING (1)  Offered in current or future terms
Lectures on current nuclear engineering topics. CROSSLISTED as RHP 407/RHP 507/RHP 607. Graded P/N. This course is repeatable for a maximum of 99 credits.

Top NE 510 INTERNSHIP (1-12)  Offered in current or future terms
Supervised technical work experience at approved organizations. Graded P/N. This course is repeatable for a maximum of 16 credits. PREREQS: Graduate standing.

Top NE 515 NUCLEAR RULES AND REGULATIONS (2)  Offered in current or future terms
An introduction to the key nuclear regulatory agencies; major nuclear legislation; current radiation protection standards and organizations responsible for their implementation. Offered alternate years. CROSSLISTED as RHP 415/RHP 515. PREREQS: NE 481 or RHP 481

Top NE 516 RADIOCHEMISTRY (4)  Offered in current or future terms
Selected methods in radiochemical analysis. Actinide chemistry, activation analysis, radionuclide solvent extraction, and microbial reactions with radionuclides. Designed for majors in chemistry, chemical engineering, nuclear engineering, and radiation health physics. Lec/lab. CROSSLISTED as CH 516 and RHP 516. PREREQS: (NE 531 or RHP 531) and RHP 536 and /or instructor approval.

Top NE 526 NUMERICAL METHODS FOR ENGINEERING ANALYSIS (3) 
Numerical solutions of linear equations, difference equations, ordinary and partial differential equations. CROSSLISTED as ME 526. PREREQS: Programming experience and previous exposure to numerical methods, or instructor approval.

Top NE 531 RADIOPHYSICS (3)  Offered in current or future terms
Expands understanding of concepts and applications of atomic and nuclear physics to enable continued study in nuclear engineering and health physics. Includes fundamental concepts of nuclear and atomic physics, atomic and nuclear shell structure, radioactive decay, radiation interactions, radiation biology, and the characteristics of fission. PREREQS: Graduate standing.

Top NE 535 NUCLEAR RADIATION SHIELDING (3)  Offered in current or future terms
Theoretical principles of shielding for neutron and gamma radiation; applications to problems of practical interest; analytical and computer solutions emphasized. Offered alternate years. CROSSLISTED as RHP 535. PREREQS: NE 581* or RHP 581* and /or instructor approval required.

Top NE 536 ADVANCED RADIATION DETECTION AND MEASUREMENT (4)  Offered in current or future terms
Principles and mechanisms underlying nuclear radiation detection and measurements; operation of nuclear electronic laboratory instrumentation; application of gas-filled, scintillation and semiconductor laboratory detectors for measurement of alpha, beta, gamma, and neutron radiation, liquid scintillation equipment; use of Bonner spheres for neutron energy profiles; experimental investigation of interactions of radiation with matter. PREREQS: NE 531 or RHP 531

Top NE 539 SELECTED TOPICS IN INTERACTION OF NUCLEAR RADIATION (1-6) 
Topics associated with interactions of nuclear radiation not covered in other graduate courses; topics may vary from year to year. Course may be repeated for credit. CROSSLISTED as RHP 539. PREREQS: Instructor approval required.

Top NE 540 NUCLEAR FUEL CYCLE AND WASTE MANAGEMENT (4)  Offered in current or future terms
Mining, milling, conversion, enrichment, fuel fabrication, reprocessing, and waste management of nuclear fuel, including disposal of low- and high-level radioactive waste.

Top NE 549 SELECTED TOPICS IN NUCLEAR FUEL CYCLE ANALYSIS (1-6) 
Topics associated with the nuclear fuel cycle not covered in other graduate courses; topics may vary from year to year. Course may be repeated for credit. CROSSLISTED as RHP 549.

Top NE 551 NEUTRONIC ANALYSIS I (3)  Offered in current or future terms
Physical models of neutronic systems; nuclear physics; steady state and transient neutronic system behavior; introductory neutron transport theory, one speed diffusion theory; numerical methods; fast and thermal spectrum calculations; multigroup methods; transmutation and burnup; reactor fuel management; reactivity control; perturbation theory; neutronic laboratory sessions. PREREQS: (MTH 256 or MTH 256H) and NE 235 and (MTH 351 or ME 373). NE 551 and NE 552 must be taken in order.

Top NE 552 NEUTRONIC ANALYSIS II (3)  Offered in current or future terms
Physical models of neutronic systems; nuclear physics; steady state and transient neutronic system behavior; introductory neutron transport theory, one speed diffusion theory; numerical methods; fast and thermal spectrum calculations; multigroup methods; transmutation and burnup; reactor fuel management; reactivity control; perturbation theory; neutronic laboratory sessions. Lec/lab. PREREQS: NE 551 and (MTH 256 or MTH 256H) and NE 235 and (MTH 351 or ME 373). (NE 551 and NE 552 must be taken in order.)

Top NE 553 ADVANCED NUCLEAR REACTOR PHYSICS (3)  Offered in current or future terms
Advanced analytic and numerical techniques for the prediction of the neutron population in nuclear reactor systems. Topics will include long characteristic neutron transport, collision probabilities, nodal methods, equivalence theory, and perturbation theory. PREREQS: NE 551 and NE 552 and computer programming experience or instructor approval.

Top NE 557 NUCLEAR REACTOR LABORATORY (2) 
Experimental investigation of the principles of nuclear reactor operation. Use of the OSU TRIGA Reactor and other laboratory facilities. Preparation and presentation of laboratory reports. Lec/lab. PREREQS: (NE 451 or NE 551) and (NE 452 or NE 552)

Top NE 559 SELECTED TOPICS IN NUCLEAR REACTOR ANALYSIS (1-3) 
Topics associated with nuclear reactor theory not covered in other graduate courses; topics may vary from year to year. Course may be repeated for credit. This course is repeatable for a maximum of 45 credits. PREREQS: NE 553

Top NE 561 NUCLEAR REACTOR SYSTEMS LABORATORY (3) 
Operational aspects of nuclear reactor systems; neutronic and thermal-hydraulic characterization of nuclear reactors; examination of design basis accident prevention and mitigation; loss of coolant accidents; loss of flow accidents; station blackouts. Lec/lab. PREREQS: NE 553 and NE 567

Top NE 565 APPLIED THERMAL HYDRAULICS (3)  Offered in current or future terms
Advanced topics in the computational modeling of the hydrodynamic and heat transfer phenomena of nuclear reactors. Steady-state and transient solutions of one-dimensional nuclear reactor thermal hydraulic models. Nuclear reactor behavior analysis during various accident scenarios. PREREQS: CS 151 and ME 373 and NE 467

Top NE 567 NUCLEAR REACTOR THERMAL HYDRAULICS (4)  Offered in current or future terms
Hydrodynamics and conductive, convective and radiative heat transfer in nuclear reactor systems. Core heat removal design; critical heat flux, hot spot factors, single- and two-phase flow behavior. Advanced thermal hydraulic computer codes. PREREQS: ME 332 or NE 332.

Top NE 568 NUCLEAR REACTOR SAFETY (3)  Offered in current or future terms
Probabilistic risk assessment and system reliability analysis techniques applied to nuclear reactor safety. Examination of neutronic and thermal hydraulic transients, effectiveness of emergency systems, accident prevention and mitigation, assessment of radioactive releases to the environment. PREREQS: (NE 451 or NE 551) and (NE 467 or NE 567)

Top NE 569 SELECTED TOPICS IN NUCLEAR REACTOR ENGINEERING (1-6) 
Advanced nuclear engineering design concepts, reactor systems analysis techniques and innovative nuclear engineering applications. Artificial intelligence and expert system applications to nuclear engineering problems. Topics may vary from year to year. Course may be repeated for credit. This course is repeatable for a maximum of 30 credits.

Top NE 574 NUCLEAR SYSTEMS DESIGN I (4)  Offered in current or future terms
Practical design of nuclear power systems using fundamental nuclear engineering skills. Design projects involve the integration of reactor neutronics, dynamics and control, thermal hydraulics, transient analysis, safety analysis, power production, nuclear materials, fuel management and economic optimization. Emphasis is placed on designing advanced reactor systems for power production purposes. State-of-the-art computer codes are used for design analysis and evaluation. PREREQS: NE 551 and NE 567 and (NE 332 or ME 332). NE 574 and NE 575 must be taken in order.

Top NE 575 NUCLEAR SYSTEMS DESIGN II (4)  Offered in current or future terms
Practical design of nuclear power systems using fundamental nuclear engineering skills. Design projects involve the integration of reactor neutronics, dynamics and control, thermal hydraulics, transient analysis, safety analysis, power production, nuclear materials, fuel management and economic optimization. Emphasis is placed on designing advanced reactor systems for power production purposes. State-of-the-art computer codes are used for design analysis and evaluation. CROSSLISTED as RHP 475/RHP 575. PREREQS: NE 574 and NE 552 and (NE 574 and NE 575 must be taken in order.)

Top NE 582 APPLIED RADIATION SAFETY (4)  Offered in current or future terms
Application of radiation protection as practiced in the fields of nuclear science and engineering; application of health physics principles to reduce health hazards at each of the following stages: design, prevention, assessment, and post-incident. A history of key nuclear regulatory agencies; early and current radiation protection standards and organizations responsible for their formulation; major nuclear legislation; pertinent nuclear rules and regulations and their application. Lec/lab. Offered alternate years. CROSSLISTED as RHP 582. PREREQS: NE 581 or RHP 581

Top NE 599 SPECIAL TOPICS (16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 601 RESEARCH (1-16)  Offered in current or future terms
Graded P/N. This course is repeatable for a maximum of 16 credits.

Top NE 603 THESIS (1-16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 605 READING AND CONFERENCE (1-16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 606 PROJECTS (1-16)  Offered in current or future terms
This course is repeatable for a maximum of 16 credits.

Top NE 607 SEMINAR IN NUCLEAR ENGINEERING (1)  Offered in current or future terms
Lectures on current nuclear engineering topics. CROSSLISTED as RHP 407/RHP 507/RHP 607. Graded P/N. This course is repeatable for a maximum of 99 credits.

Top NE 654 COMPUTATIONAL PARTICLE TRANSPORT (3) 
Properties of and methods for solution of the linear Boltzmann equation for nuclear reactors; spherical and double-spherical harmonics; integral equation methods; Monte Carlo methods. PREREQS: NE 551 and NE 552

Top NE 667 ADVANCED THERMAL HYDRAULICS (3)  Offered in current or future terms
Advanced topics in single- and two-phase hydrodynamics and heat transfer for nuclear reactors. Two-phase flow patterns, flow instabilities, condensation induced transients, convective boiling heat transfer, and current topics in reactor safety thermal hydraulics. Offered alternate years. PREREQS: NE 567

Top NE 699 SPECIAL TOPICS (16) 
This course is repeatable for a maximum of 16 credits.


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*
- Prereq may be taken prior to or simultaneously with this course.

 
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