Module information on this degree can be found below, separated by year of study.

The module information below applies for the current academic year. The academic year runs from August to July; the 'current year' switches over at the end of July.

Students select optional courses subject to rules specified in the Mechanical Engineering Student Handbook,  for example at most three Design and Business courses. Please note that numbers are limited on some optional courses and selection criteria will apply.

Nuclear Thermal Hydraulics

Module aims

To provide a good working knowledge of turbulent flow and heat transfer in both single-phase and two-phase systems within nuclear reactors.

ECTS units:  7   
Contributing to Course Elements: 7 to ME4-mLCTVS Electives

Learning outcomes

On successfully completing this module, students will be able to:

  • Learning outcome 1

Module syllabus

Basics of single phase flow and heat transfer (pressure drop, regimes of heat transfer, prediction of heat transfer in smooth and rough channels etc).
Single phase heat transfer and fluid flow.  Prediction of heat transfer both within and from nuclear fuel cooled with a single phase fluid (e.g. in a Pressurised Water Reactor).
Basis of two-phase flow (regimes, models, pressure drop, critical flow etc) and two-phase heat transfer (boiling, critical heat flux, post-dryout heat transfer, reflood etc).
Application of two-phase flow and heat transfer theory to fuel design.  Critical heat flux prediction in fuel.
Typical nuclear reactor safety codes (for example TRACE).
Application of Computational Fluid Dynamics (CFD) to nuclear reactor systems.

Pre-requisites

ME3-hNUCN Introduction to Nuclear Energy

Teaching methods

  • Duration:  Autumn Term (11 weeks)
  • Lectures: 2 hrs per week.
  • Tutorials: 1 hr per week 

Summary of student timetabled hours

Autumn

Spring

Summer

Lectures

22

--

Tutorials 11 --  

Total

33 (if 11 tutorials attended)

Expected private study time

3-4 h per week plus exam revision

Assessments

Written examinations:  title, duration and rubric

Date (approx.)

Max. mark

Pass mark

Nuclear Thermal Hydraulics (3h)

A Data and Formulæ book is provided.

This is a CLOSED BOOK Examination.

April/ May

200

n/a

Module leaders

Dr Michael Bluck