ENE6101 - Physique statique des réacteurs

Section outline

• Select section General

  Collapse Expand

  General

  Collapse all Expand all

  ENE6101

  • Select activity Annonces

    

    Annonces Forum
• Select section Ressources du cours

  Collapse Expand

  Ressources du cours

  • Select activity professeur

    

    professeur Page
  • Select activity livre (obligatoire)

    

    livre (obligatoire) URL
  • Select activity matière du cours ENE6101

    

    matière du cours ENE6101 Page
  • Select activity plan de cours ENE6101

    

    plan de cours ENE6101 File
  • Select activity tutoriel Matlab

    

    tutoriel Matlab File
  • Select activity tutoriel UNIX

    

    tutoriel UNIX URL
  • Select activity Site Merlin (Dragon, Donjon, Njoy, Archives)

    

    Site Merlin (Dragon, Donjon, Njoy, Archives) URL
  • Select activity papier de Nancy Larson (physique nucléaire)

    

    papier de Nancy Larson (physique nucléaire) File
  • Select activity Les réacteurs CANDU

    

    Les réacteurs CANDU File
  • Select activity SMR Research Project 1 (CNSC)

    

    SMR Research Project 1 (CNSC) File
  • Select activity SMR Research Project 2 (NRCAN)

    

    SMR Research Project 2 (NRCAN) File
  • Select activity MATLAB Basic Functions Cheat Sheet

    

    MATLAB Basic Functions Cheat Sheet File
• Select section Diaporamas

  Collapse Expand

  Diaporamas

  • Select activity Semaine 1 – Introduction

    

    Semaine 1 – Introduction File
  • Select activity Semaine 2

    

    Semaine 2 File
  • Select activity Semaine 3

    

    Semaine 3 File
  • Select activity Semaine 4

    

    Semaine 4 File
  • Select activity Semaine 5

    

    Semaine 5 File
  • Select activity Semaine 6

    

    Semaine 6 File
  • Select activity Semaine 7

    

    Semaine 7 File
  • Select activity Semaine 8

    

    Semaine 8 File
  • Select activity pij_slab_incomplete.m

    

    pij_slab_incomplete.m File

    Compléter ce script Matlab pour le projet ENE6101

  • Select activity Semaine 9

    

    Semaine 9 File
  • Select activity pij_cyl_incomplete.m

    

    pij_cyl_incomplete.m File

    Compléter ce script Matlab pour le projet ENE6101
    

  • Select activity Semaine 10

    

    Semaine 10 File
  • Select activity Semaine 11

    

    Semaine 11 File
  • Select activity Fundamental mode approximation

    

    Fundamental mode approximation File
  • Select activity Semaine 12

    

    Semaine 12 File
  • Select activity Constant power depletion

    

    Constant power depletion File
• Select section Devoirs

  Collapse Expand

  Devoirs

  • Select activity instructions

    

    instructions Page
  • Select activity Devoir 1

    

    Devoir 1 Assignment

    12 février

    numéros: 2.1, 2.3, 2.4, 2.5 et 2.6 

    20 % de la note finale
    

    Not available unless: Your Email address ends with polymtl.ca
  • Select activity Devoir 2

    

    Devoir 2 Assignment

    12 mars

    numéros: 2.7, 2.8 et 2.9

    20 % de la note finale
    

    Not available unless: Your Email address ends with polymtl.ca
  • Select activity Devoir 3 (projet)

    

    Devoir 3 (projet) Assignment

    2 avril

    numéros: 3.4, 3.5, 3.6 et 3.7

    40 % de la note finale
    

    Not available unless: Your Email address ends with polymtl.ca
  • Select activity Devoir 4

    

    Devoir 4 Assignment

    23 avril

    numéros: 4.2, 4.3, 4.4, 4.9, 4.11 (1st and 2nd editions)

    numéros: 4.2, 4.3, 4.4, 4.10, 4.12 (3th edition)
    

    20 % de la note finale

    
    

    Not available unless: Your Email address ends with polymtl.ca
• Select section Scripts Matlab utilisés par ENE6101

  Collapse Expand

  Scripts Matlab utilisés par ENE6101

  Scripts Matlab utilisés par ENE6101

  • Select activity return the Ferrer definition of the associated Leg...

    return the Ferrer definition of the associated Legendre function
  • Select activity plgndr.m

    

    plgndr.m File
  • Select activity Doppler psi and chi functions

    Doppler psi and chi functions

  • Select activity psi_doppler.m

    

    psi_doppler.m File
  • Select activity chi_doppler.m

    

    chi_doppler.m File
  • Select activity psi_voigt.m

    

    psi_voigt.m File
  • Select activity chi_voigt.m

    

    chi_voigt.m File
  • Select activity produce a Gauss-Jacobi tracking in 1D curvilinear ...

    produce a Gauss-Jacobi tracking in 1D curvilinear geometry
  • Select activity sybt1d.m

    

    sybt1d.m File
  • Select activity produce a Gauss-Jacobi tracking in 2D pincell geom...

    produce a Gauss-Jacobi tracking in 2D pincell geometry
  • Select activity sybt2d.m

    

    sybt2d.m File
  • Select activity compute the p11 component in 1D cylindrical geomet...

    compute the p11 component in 1D cylindrical geometry
  • Select activity p11_cyl.m

    

    p11_cyl.m File
  • Select activity compute the p11 component in 1D spherical geometry

    compute the p11 component in 1D spherical geometry
  • Select activity p11_sphere.m

    

    p11_sphere.m File
  • Select activity exponential function of order n

    exponential function of order n
  • Select activity taben.m

    

    taben.m File
  • Select activity Bickley function of order n

    Bickley function of order n
  • Select activity alkin.m

    

    alkin.m File
  • Select activity find the fondamental eigenvalue and corresponding ...

    find the fondamental eigenvalue and corresponding eigenvector of equation (a-eval*b)*evect=0 using the inverse power method
  • Select activity al1eig.m

    

    al1eig.m File
  • Select activity coefficients used with the collision probability m...

    coefficients used with the collision probability method in 1D slab geometry
  • Select activity rij_f.m

    

    rij_f.m File
  • Select activity rii_f.m

    

    rii_f.m File
  • Select activity coefficients used with the collision probability m...

    coefficients used with the collision probability method in 1D cylindrical geometry
  • Select activity cij_f.m

    

    cij_f.m File
  • Select activity di_f.m

    

    di_f.m File
  • Select activity ei_f.m

    

    ei_f.m File
  • Select activity scripts related to the method of characteristics (...

    scripts related to the method of characteristics (MOC)
  • Select activity free.m

    

    free.m File
  • Select activity lmcd.m

    

    lmcd.m File
  • Select activity mcgpii.m

    

    mcgpii.m File
  • Select activity mcgsis.m

    

    mcgsis.m File
  • Select activity mcgaca.m

    

    mcgaca.m File
  • Select activity set the coefficients of the Chebyshev Rational App...

    set the coefficients of the Chebyshev Rational Approximation Method (CRAM) for exponentials

  • Select activity cram_coeffs.m

    

    cram_coeffs.m File
• Select section Workshops Njoy-Dragon–Donjon

  Collapse Expand

  Workshops Njoy-Dragon–Donjon

  • Select activity Workshop 1

    

    Workshop 1 Poly video

    Le langage de commande UNIX pour Dragon, Njoy et Serpent2
    
  • Select activity Diaporama 1

    

    Diaporama 1 File
  • Select activity Workshop 2

    

    Workshop 2 Poly video

    Le langage de commande CLE-2000
    
  • Select activity Diaporama 2

    

    Diaporama 2 File
  • Select activity Workshop 3

    

    Workshop 3 Poly video

    Le code de réseau DRAGON5
    
  • Select activity Diaporama 3

    

    Diaporama 3 File
  • Select activity Workshop 4

    

    Workshop 4 Poly video

    Le code de sections efficaces NJOY-2012
    
  • Select activity Diaporama 4

    

    Diaporama 4 File
  • Select activity Workshop 5

    

    Workshop 5 Poly video

    L'environnement Python3 pour Dragon5 et Donjon5
  • Select activity Diaporama 5

    

    Diaporama 5 File
  • Select activity Workshop 6

    

    Workshop 6 Poly video

    Production de sections efficaces électroatomiques multigroupes avec NJOY
    

  • Select activity Diaporama 6

    

    Diaporama 6 File
  • Select activity Workshop 7

    

    Workshop 7 Poly video

    La méthode d'expansion nodale et le code BRISINGR
  • Select activity Diaporama 7

    

    Diaporama 7 File
  • Select activity Workshop 8

    

    Workshop 8 Poly video

    Les géométries du calcul de réseau
  • Select activity Diaporama 8

    

    Diaporama 8 File
• Select section Cours théoriques (distanciels)

  Collapse Expand

  Cours théoriques (distanciels)

  • Select activity Cours 1 asynchrone

    

    Cours 1 asynchrone Poly video

    Introduction générale et présentation du cours
    

  • Select activity Cours 2 asynchrone

    

    Cours 2 asynchrone Poly video

    Fondamentaux mathématiques
    

  • Select activity Cours 3 asynchrone

    

    Cours 3 asynchrone Poly video

    Dynamique d'une réaction de scattering
    

  • Select activity Cours 4 asynchrone

    

    Cours 4 asynchrone Poly video

    Sections efficaces (1ère partie)
    

  • Select activity Cours 5 asynchrone

    

    Cours 5 asynchrone Poly video

    Sections efficaces (2ème partie)
    

  • Select activity Cours 6 asynchrone

    

    Cours 6 asynchrone Poly video

    Le flux neutronique (1ère partie)
    

  • Select activity Cours 7 asynchrone

    

    Cours 7 asynchrone Poly video

    Le flux neutronique (2ème partie)
    

  • Select activity Cours 8 asynchrone

    

    Cours 8 asynchrone Poly video

    La méthode des probabilités de collision (1ère partie)
    

  • Select activity Cours 9 asynchrone

    

    Cours 9 asynchrone Poly video

    La méthode des probabilités de collision (2ème partie)
    

  • Select activity Cours 10 asynchrone

    

    Cours 10 asynchrone Poly video

    Ralentissement des neutrons et autoprotection des résonances
    

  • Select activity Cours 11 asynchrone

    

    Cours 11 asynchrone Poly video

    Le calcul de fuites
    

  • Select activity Cours 12 asynchrone

    

    Cours 12 asynchrone Poly video

    Évolution isotopique