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Nuclear Engineering Minor

Nuclear engineering is the field of engineering that deals with the control and use of energy and radiation released from nuclear reactions. It encompasses the development, design, and construction of power reactors, naval-propulsion reactors, nuclear fuel-cycle facilities, and radioactive-waste disposal facilities; the development and production of nuclear weapons; and the production and application of radioisotopes. The field may also include the study of nuclear fusion, medical and other applications of (generally ionizing) radiation, nuclear safety, heat/thermodynamics transport, nuclear fuel and/or other related (e.g., waste disposal) technology, nuclear proliferation, and the effect of radioactive waste or radioactivity in the environment.

Why Minor in Nuclear Engineering?

The nuclear energy industry is rapidly growing and there will soon be a shortage of nuclear engineers who are able to fill available positions. Minoring in nuclear engineering will make your engineering degree much more valuable and give you an edge in acquiring a great job when you graduate. Students planning to seek an advanced degree in engineering can also benefit from a minor in nuclear engineering.

What Do Nuclear Engineers Do?

Nuclear and radiological engineers research and develop the processes, instruments, and systems for national laboratories, private industry, and universities that derive benefits from nuclear energy and radiation for society. They devise how to use radioactive materials in manufacturing, agriculture, medicine, power generation, and many other ways. Many nuclear engineers design, develop, monitor, and operate nuclear plants used to generate power. They may work on the nuclear fuel cycle -- the production, handling, and use of nuclear fuel and the safe disposal of waste produced by the generation of nuclear energy. Others research the production of fusion energy. Some specialize in the development of nuclear power sources for spacecraft; others find industrial and medical uses for radioactive materials, as in equipment used to diagnose and treat medical problems.

Who Employs Nuclear Engineers?

According to the U.S. Bureau of Labor Statistics, nuclear engineers hold about 17,000 jobs in the United States. This represents 1% of the 1.5 million jobs held by engineers. Almost half were employed in utilities, one-quarter in professional, scientific, and technical services firms, and 14 percent in the Federal Government. Many federally employed nuclear engineers were civilian employees of the U.S. Navy, and others worked for the U.S. Department of Energy or the Nuclear Regulatory Commission. In addition to the nuclear power industry, nuclear engineers also find employment in other sectors, such as in medical equipment manufacturing, engineering and construction firms, national laboratories, research facilities, and consulting firms. Nuclear engineers may work in medical applications, focus on fission or fusion energy, and may be involved in radioactive waste management.

Requirements

To receive a minor in Nuclear Engineering, a student must complete the following courses with a grade of C or better in each:

  • NE 3301 Introduction to Nuclear Engineering
  • NE 4302 Nuclear Reactor Theory / Analysis
  • NE 4303 Reactor Thermal Hydraulics

plus any three of the following courses with a grade of C or better in each:

  • MAE 3311 Thermodynamics II
  • MAE 3309 Thermal Engineering
  • MAE 3314 Heat Transfer
  • MAE 4347 Heat Exchanger Design
  • MAE 4310 Introduction to Automatic Control
  • EE 3302 Fundamentals of Power Systems
  • EE 4314 Control Systems
  • PHYS 3446 Nuclear and Particle Physics

Advisory Committee

An Advisory Committee has been established for the Nuclear Engineering minor to allow us to tailor the program completely to nuclear industry practices.

Members of the advisory committee are:

  • Dr. Gerald Schlapper, Ph.D., PE, CHP 
    Inspector, Region IV, U.S. NRC
  • Dr. Sheldon Landsberger 
    Coordinator, Nuclear and Radiation Engineering Program, UT Austin
  • Mike Blevins 
    retired; formerly Executive Vice President and Chief Nuclear Officer, Luminant Power
  • Chris Davenport P.E.
    Principal, DP Engineering, Ltd.
  • Joseph Tapia, PE
    Licensing Manager, Mitsubishi Nuclear Energy Systems, Inc.

Contacts

Rasool Kenarangui, Ph.D.
Senior Lecturer, Department of Electrical Engineering
817-272-3423
kenarang@uta.edu

Ratan Kumar, Ph.D.
Senior Lecturer, Department of Mechanical and Aerospace Engineering
817-272-0740
ratan.kumar@uta.edu

Lynn Peterson, Ph.D.
Senior Associate Dean for Academic Affairs, College of Engineering
817-272-5503
peterson@uta.edu

Links

Scholarships / Internships

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