Phelma Formation 2022

5PMGCIR0 : Reactor kinetics & dynamics - WPMEDCD9

  • Number of hours

    • Lectures 15.0
    • Projects 0
    • Tutorials 15.0
    • Internship 0
    • Laboratory works 0

    ECTS

    ECTS 2.0

Goal(s)

This is an introductory course to the reactor kinetics and dynamics. The main objective of the course is to provide the theoretical basis to understand the neutronic behavior of a nuclear reactor: (a) during short transients as results of the normal reactor operation or accidental conditions, (b) in the medium term as results of the reactor operation.

Contact Pablo RUBIOLO

Content(s)

1) Review of reactor neutronics: important concepts of nuclear reactor physics, multiplication factor, 4 factors formula, neutron balance equation, diffusion approximation.
2) Reactor kinetics concepts: neutron mean lifetime and neutron generation time, reactor amplification factor, delayed and prompt neutrons, prompt jump, reactor period, reactivity
3) Point reactor kinetic equations: determination of the point kinetic equation, in-hour equation, resolution with the Laplace transform, feedback coefficients
4) Reactor dynamics: fuel depletion, fission products poisoning, reactivity control with boron, Doppler effect, moderator density effect, introduction to perturbation theory



Prerequisites

Neutronics, introduction to reactor physics, nuclear reactor technology.

Test

Two exams of one and half hour duration (all documents allowed). The first evaluation is focused on reactor kinetics’ topics. The second evaluation is focused on reactor dynamics topics.



Contrôle continu : CC
Examen écrit Session1 : DS1
Examen écrit Session 2 : DS2
N1 = Note finale session 1
N2 = Note finale session 2

En présentiel :
N1 = % max(TdE, CC) + % DS1
N2 = % max(TdE, CC) + % DS2

En distanciel :
N1 =
N2 =

Commentaire :

Additional Information

This course brings 1.5 ECTS to students in UE Reactors & Energy (JUAS+ESIPAP)

Course list
Curriculum->Double-Diploma Engineer/Master->Semester 9
Curriculum->Master->Semester 9

Bibliography

  • Nuclear reactor Analysis, Henry.
  • Introduction to Nuclear Engineering, Lamarsh.
  • Nuclear Reactor Analysis, Duderstadt.