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Course List

Undergraduate Courses

CVEEN 3700, Nuclear Fact or Fiction (3)

Satisfies Physical/Life Science Exploration (SF), Credit for a BS, Prerequisites: MATH 1050.The course is designed to introduce nuclear engineering to everyone. The fundamentals of radiation and nuclear power will be taught. Emphasis will be placed on learning the specialized language used by nuclear engineers and health physicist and the basic mathematical relationships used to quantify radioactivity. Students will be taught how radiation affects human health and discuss on-going epidemiology studies. Other applications of radioactivity that affects the economy and standard of living will be discussed. At the end of the course the students will be able to distinguish between fact and fiction when they come across articles, reports and news releases that deal with nuclear phenomenon. The students will leave the class with the tools to make informed decisions regarding legislation, public policy, risks and benefits of nuclear technology. We can take responsibility for our nuclear heritage and develop the promise nuclear technology holds for the future.

CVEEN 5700, Nuclear Engineering I with laboratory (4)

Cross-listed as CHEN 5657, Meets with CVEEN 5700/CHEN 6657, Prerequisites: MATH 2250 & PHYS 2210. Fundamentals of nuclear engineering and science; nuclear reactions, radioactive decay, neutron diffusion, kinetics, energy removal, shielding, health physics, and system design. Includes Laboratory.

CVEEN 5710, Applied Nuclear Engineering I with laboratory (4)

Meets with CVEEN 6710, Prerequisites: CVEEN 6700. Analysis, control, and design of nuclear systems; radioactive waste management, environmental restoration and disposal. Includes laboratory.

CVEEN 5720, Health Physics (3)

Prerequisites: CVEEN 5700 or CHEN 5657. The course begins with a definition of dosimetry and introduces the student to the complexities of determining radiation dose to a human from measured quantities. The measured quantities are found using a variety of dosimeters, biomarkers, and detectors. The students will be taught the basics of some of the detectors and dosimeters. Once the students learn how the instrumentation works, they will learn how to apply that data to accepted models and methods to assign a dose. Additional lectures will focus on safety guidelines and protective measures.

CVEEN 5730, Survey of Nuclear Power (2)

Prerequisites: Intermediate Engineering Status.  Nuclear power is a necessity to meet the global need for power. The U.S. has fallen behind in state of the art power generation, distribution and reliability. The course is designed to familiarize the student with nuclear power plants. Power generation begins with either a fission or fusion reaction. The thermal energy from the nuclear reaction is used to generate electricity. The thermal energy that captured the electricity is generated identically to more traditional forms of power plants: coal, natural gas, wood. The course focuses on systems and procedures unique to nuclear power plants, types of nuclear power plants including the GEN IV reactors, fuel loading, coolant, loss of coolant, severe accidents, reprocessing and spent fuel.

Graduate Courses

CVEEN 6700, Nuclear Engineering II with laboratory (4)

Cross-listed as CHEN 6657, Meets with CVEEN 5700/CHEN 5657, Prerequisites: MATH 2250 & PHYS 2210. Fundamentals of nuclear engineering and science; nuclear reactions, radioactive decay, neutron diffusion, kinetics, energy removal, shielding, health physics, and system design. Includes Laboratory.

CVEEN 6710, Applied Nuclear Engineering II with laboratory (4)

Meets with CVEEN 5710, Prerequisites: CVEEN 6700. Analysis, control, and design of nuclear systems; radioactive waste management, environmental restoration and disposal. Includes laboratory.

CVEEN 6720, Nuclear Reactor Physics with Laboratory (4)

Prerequisites: CVEEN 6700 & 6710.   Contains neutron transport theory, multigroup diffusion, heterogeneous systems, kinetics reactivity changes, moderation age theory, and nuclear physics. Includes laboratory.

CVEEN 6730, Health Physics and Radiation Protection with Laboratory (4)

Prerequisites: CVEEN 6700 & 6710.   Covers topics in internal and external radiation dosimetry and protection including radiation quantities and units, legal guidelines and regulations, derivations of external dosimetry calculations, source and facility shielding, pathways and bioassays, and contamination control. Includes laboratory.

CVEEN 6740, Nuclear Environmental Engineering With Laboratory (4)

Prerequisites: CVEEN 6700 & 6710.   Introduces scientific and engineering aspects of the management of spent fuel, reprocessed high-level waste, uranium mill tailings, low-level wastes, and decommissioning wastes. Fundamental processes and governing equations of radiation and radionuclide transport. Design principles and evaluation methods for waste disposal systems. Shielding and dose calculations, interim storage, processing, and transportation technologies. Review of nuclear waste management regulation. Includes laboratory.

CVEEN 6750, Nuclear Chemical Engineering with Laboratory (4)

Prerequisites: CVEEN 6700 & 6710.   An overview of chemical and radiochemical dynamics. Principles of chemical and physical separation processes. Technologies for the production of nuclear fuel, moderator, and structural materials. Management of radioactive wastes and spent fuel, including chemical processing and disposal. Safety and nuclear safeguards. Chemistry of fission products and actinides. Includes laboratory.

CVEEN 6760, Linear Acceleration Physics with Laboratory (4)

Prerequisites: CVEEN 6700 & 6710.   Introduction to pulsed RF electron linear acceleration, waveguide and microwave theory, relativistic and scattering effects of high energy electrons, electron and photon dosimetry. Includes laboratory with L-band accelerator located at Little Mountain.

CVEEN 7710, Advanced Nuclear Engineering Design (3)

Prerequisites: At least 4 courses from CVEEN 6720, 6730, 6740, 6750, & 6760. Practice in creative engineering design and problem solving emphasizing in-depth design of laboratory, pilot plan, and commercial-scale processes associated with radionuclides. Content tailored to individual interests.

CVEEN 7720, Advanced In Advanced Nuclear Phenomena (3)

Prerequisites: At least 4 courses from CVEEN 6720, 6730, 6740, 6750, & 6760. Modeling and predicting advanced nuclear phenomena in nuclear engineering and health physics using advanced analytical and numerical methods.