Course Descriptions

Department of Nuclear Engineering

Professors M. L. Adams, W. E. Burchill (Head), R.R. Hart, Y.A. Hassan, W. H. Marlow, J. E. Morel, K.L. Peddicord, J.W. Poston, Sr., W.D. Reece; Associate Professors F.R. Best, W. S. Charlton, J. R. Ford; Assistant Professor J. C. Ragusa; Senior Lecturer L. A. Braby

Nuclear Engineering
(NUEN)

101. Principles of Nuclear Engineering. (1-0). Credit 1. I, II

Introduction to nuclear engineering including global and national energy requirements, radioactivity, radiation protection, and fission and fusion reactor concepts.

201. Introduction to Nuclear Engineering I. (3-0). Credit 3. I

Atomic and nuclear physics discoveries that have led to the development of nuclear engineering, atomic models, relativity, x-rays, types of nuclear reactors; problem solving techniques. Prerequisites: MATH 251 or registration therein; PHYS 208.

301. Nuclear Reactor Theory. (3-0). Credit 3. I

An introduction to neutron diffusion theory, neutron moderation, conditions for criticality of nuclear reactors. Prerequisites: NUEN 302.

302. Introduction to Nuclear Engineering II. (3-0). Credit 3. II

Basic radioactivity, nuclear and neutron physics as applied to nuclear engineering. Prerequisites: NUEN 201; MATH 308 or registration therein.

303. Nuclear Detection and Isotope Technology Laboratory. (2-3). Credit 3. II

Interaction of radiation with matter; behavior of various nuclear radiation detectors studied both theoretically and experimentally in laboratory; properties of radioisotopes useful to industry considered and evaluated from engineering point of view. Prerequisites: NUEN 302; ELEN 215.

304. Nuclear Reactor Analysis. (3-0). Credit 3. II

The group diffusion method, multiregion reactors, heterogeneous reactors, reactor kinetics, changes in reactivity. Prerequisites: NUEN 301.

309. Radiological Safety. (3-0). Credit 3. I

Interactions of nuclear radiations with matter and biological systems; theory and practice of radiation dosimetry as applied to radiation protection; design and application of radiation dosimetry systems for personnel monitoring, area radiation monitoring and accident situation; includes external and internal dosimetry as well as long-term risk analysis. Prerequisite: NUEN 302. Cross-listed with SENG 309.

329. Analytical and Numerical Methods. (4-0). Credit 4. I

Introduction to use of numerical analysis and advanced analytical techniques for obtaining nuclear reactor flux distributions, temperatures and transients; use of digital computer in obtaining nuclear reactor design information. Prerequisites: NUEN 301.

405. Nuclear Engineering Experiments. (2-3). Credit 3. I

Experimental measurements of basic nuclear reactor parameters; reactor operation and reactor safety. Prerequisites: NUEN 303; NUEN 304 or senior classification.

406. Nuclear Engineering Systems and Design. (2-0). Credit 2. I

Nuclear plant systems; conventional and advanced generation power reactors, nuclear simulators, transient analysis using available software for reactor simulators; nuclear engineering design methodology; problem formulation, criteria, trade-off decisions and design optimization; case studies. Prerequisites: NUEN 304.

410. The Design of Nuclear Reactors. (4-0). Credit 4. II

Application of reactor theory and other engineering disciplines in fundamental and practical design of nuclear reactor systems for power applications; use of computer in design operations. Prerequisites: NUEN 304 and 406; MEEN 461.

417. Introduction to Fusion Engineering. (3-0). Credit 3. II

Fusion reactor requirements and fundamentals; basic plasma properties and confinement techniques; reactor design and engineering problems. Prerequisite: Senior classification in nuclear engineering or approval of instructor.

430. Computer Applications in Nuclear Engineering. (2-0). Credit 2. I

Applications of digital computers to solve nuclear engineering problems; problems in multigroup neutron diffusion, transient heat transfer, optimization and stress analysis. Prerequisite: NUEN 304.

431. Technical Communications Issues in the Nuclear Industries. (1-0). Credit 1.

Introduction to a variety of topics that present communication challenges; opportunities to learn from a variety of visiting experts concerning the nuances and challenges of, as well as successful methods for, communicating with concerned audiences about technically challenging topics. Prerequisite: Junior or senior classification or approval of instructor.

475. Environmental Nuclear Engineering. (3-0). Credit 3. I

Environmental aspects of nuclear power; natural radiation environment and the distribution of radioactivity added to the environment by human activities; evaluation of effects of radiation and radioactivity on the environment and on humans. Prerequisite: NUEN 309.

479. Radiation Protection Engineering. (2-3). Credit 3. II

Analysis of radiation hazard situations and design of nuclear facilities from a safety standpoint. Prerequisite: NUEN 475.

481. Seminar. (1-0). Credit 1. II

Designed to broaden the student's capability, performance and perspective in nuclear engineering through faculty, student and guest presentations. Prerequisite: NUEN 410 or registration therein or NUEN 479 or registration therein.

485. Directed Studies. Credit 1 to 6. I, II, S

Problems of limited scope approved on an individual basis intended to promote independent study; program enrichment for capable students; results presented in writing to staff. Prerequisites: Junior or senior classification and approval of department head.

489. Special Topics in... Credit 1 to 4.

Selected topics in an identified area of nuclear engineering. May be repeated for credit. Prerequisite: Approval of instructor.

(See Mechanics and Materials for the nuclear engineering course in applied mechanics.)