Student ID:__________________________ Student Name:_______________________ Adviser Name:_______________________ Catalog: 2016-2017 College Catalog Program: Nuclear Engineering Technology, A.S. Minimum Credits Required:__________________

Nuclear Engineering Technology, A.S.

Degree Code: A92

Associate in Science

Program Coordinator: James Sherrard - 860-215-9472

The Nuclear Engineering Technology program operates in cooperation with Millstone Station to produce entry-level technicians primarily for the commercial nuclear power industry. Millstone Station offers full scholarships through the college for up to 15 full-time freshman enrolling in the Nuclear Engineering Technology program. However, the program is open to all qualified students, with or without scholarship aid.
Using classroom, laboratory, and simulator instruction, students are educated in the theories underlying the actual safe operation of nuclear power generating stations. Additional “hands-on” experience may be gained through 12 weeks of summer co-op employment at Millstone Station’s nuclear power plants.
Potential job areas upon graduation include health physics, nuclear chemistry, reactor engineering and power plant operation/maintenance. The program also provides academic preparation for a career as a reactor operator. This career path involves further training by the utility and successful completion of a license examination administered by the Nuclear Regulatory Commission. For many students, the Associate Degree in Nuclear Engineering Technology is but one step in their academic career as they move on to pursue higher degrees upon graduating from Three Rivers.
 

Nuclear Engineering Technology Curriculum Requirements

Prerequisites to the Program

Course NameCredit HoursTerm TakenGradeGen Ed
MAT* K186 - Precalculus ° 4 CREDIT HOURS
PHY* K114 - Mechanics ° 4 CREDIT HOURS
COM* K173 - Public Speaking ° 3 CREDIT HOURS

Semester I

Course NameCredit HoursTerm TakenGradeGen Ed
CHE* K121 - General Chemistry I ° 4 CREDIT HOURS
  • ___________- Computer Science Elective 3-4 CREDIT HOURS +
  • ENG* K101 - Composition ° 3 CREDIT HOURS
    NUC* K100 - Introduction to Nuclear Systems 3 CREDIT HOURS

    Total: 13-14

    Semester II

    Course NameCredit HoursTerm TakenGradeGen Ed
    ENG* K202 - Technical Writing ° 3 CREDIT HOURS
    MAT* K254 - Calculus I ° 4 CREDIT HOURS
    NUC* K110 - Radiation Health Safety ° 2 CREDIT HOURS
    NUC* K111 - Radiation Health Safety Lab ° 1 CREDIT HOUR
    NUC* K117 - Atomic and Reactor Physics ° 4 CREDIT HOURS
    NUC* K118 - Nuclear Chemistry ° 1 CREDIT HOUR
    PHY* K115 - Heat Sound Light ° 4 CREDIT HOURS

    Total: 19

    Semester III

    Course NameCredit HoursTerm TakenGradeGen Ed
    EET* K144 - Fundamentals Electrical Circuits and Machines ° 3 CREDIT HOURS
    EET* K145 - Fundamentals Electrical Circuits and Machines Lab ° 1 CREDIT HOUR
    MAT* K256 - Calculus II ° 4 CREDIT HOURS
    MEC* K272 - Fluid Mechanics/Thermodynamics ° 4 CREDIT HOURS
    NUC* K250 - Reactor Theory ° 4 CREDIT HOURS
    NUC* K260 - Nuclear Materials Science ° 2 CREDIT HOURS
    NUC* K261 - Nuclear Materials Science Lab ° 1 CREDIT HOUR

    Total: 19

    Semester IV

    Course NameCredit HoursTerm TakenGradeGen Ed
    MEC* K274 - Heat Transfer ° 2 CREDIT HOURS
    MEC* K275 - Thermal Sciences Lab 1 CREDIT HOUR
    NUC* K210 - Nuclear Instruments and Control ° # 2 CREDIT HOURS
    NUC* K211 - Nuclear Instruments and Control Lab ° # 1 CREDIT HOUR
    NUC* K220 - Nuclear Simulator ° 1 CREDIT HOUR
    NUC* K221 - Nuclear Simulator Lab ° 1 CREDIT HOUR
    NUC* K230 - Nuclear Topics ° 2 CREDIT HOURS
  • __________- Humanities/Social Sciences/Fine Arts Elective 3 CREDIT HOURS
  • __________- Restricted Elective 3 CREDIT HOURS ++
  • Total: 16

    Note:

    ° Course has a prerequisite. Students should check course description.

    + Typical selections are CSA* K105 or CSC* K108 to support future employment and education.

    # Students may select another 3 credit Technology elective to replace NUC* K210/NUC* K211 to better meet their employment/ future education goals with the approval of the Program Coordinator.

    ++ An additional Humanities/Social Science/ Fine Arts Elective is recommended. Or, another course appropriate for future employment may be selected with approval of the Program Coordinator.

    * Indicates common course numbering within Connecticut Community College system.

    Students should consult with their academic advisor regarding the minimum number of credits to be taken at TRCC and limits on non-traditional credits.  25% of TRCC degree requirements must be completed with TRCC coursework.  Up to 50% of degree requirements can be fulfilled with non-traditional credit.  Non-traditional credit includes CLEP/DSST exams, Credit by Exam, APL credit, and Military credit.   

    Grand Total: 67-68

    Nuclear Engineering Technology, Associate in Science Degree Program Objectives

    Graduates of the Nuclear Engineering Technology program will:

    1. demonstrate a mastery of knowledge, skills and problem solving abilities required for entry level employment in the commercial nuclear power or health physics fields.
    2. demonstrate technical strengths in the areas of nuclear processes and operations, nuclear systems and radiological safety.
    3. adopt life long learning and intellectual growth as an integral part of a career in nuclear engineering technology due to continuing engineering and scientific reactor system technology improvements.
    4. possess a solid nuclear knowledge base for a program base for a program graduate to transfer as an entering junior into a baccalaureate degree program in nuclear engineering or health physics.

    Nuclear Engineering Technology, Associate in Science Degree Program Outcomes

    By the time of graduation, students in the Manufacturing Engineering Technology program will:

    1. apply an understanding of nuclear systems and operations
    2. apply an understanding of radiological safety and radiation protection procedures.
    3. know the applicable rules and regulations, and describe the roles of maintenance, control, performance, the human interface in the operations and quality assurance.
    4. understand, demonstrate and value the safe operation of nuclear systems.
    5. solve problems using foundation mathematics, physical sciences and nuclear technology for nuclear industry constituents served by the degree program.
    6. conduct, analyze and interpret laboratory experiments.
    7. interpret laboratory analyses that measure nuclear and radiation processes.
    8. demonstrate effective oral and written communication skills.
    9. demonstrate the use of library and on-line information sources in problem solving.
    10. serve as productive team members.
    11. recognize the need to be life long learners.
    Notes: