NE 724 Reactor Heat Transfer
3 Credit Hours
Consideration of heat transfer and fluid flow in nuclear power reactors. Topics include derivation of the of time dependent flow equations used in simulation of reactor systems, numerical solutions to single and two phase flow problems in flow networks.
Prerequisite
NE 402/502 Reactor Engineering and either NE 401 Reactor Analysis and Design or NE 520 Radiation and Reactor Fundamentals.
Course Objectives
At the completion of the course, the student is expected to:
- Numerically solve multi-dimensional partial differential equations governing reactor heat transfer and fluid flow
- Model single and two phase flow network problems
- Formulate and derive consistent sets of multi-phase flow equations
Course Requirements
HOMEWORK: 5 to 8 assignments over the course of the semester
EXAMINATIONS: None
PROJECTS: Two computational semester projects
SOFTWARE REQUIREMENTS: Access to a high level programming language (e.g. FORTRAN), access to mathematical and scientific software such as Mathcad, Maple, or Matlab. Many of these applications are available for free download to NCSU engineering students at: http://www.eos.ncsu.edu/soc/software/free_software_and_downloads
Textbook
None. Course notes distributed by the instructor