Lecture Notes

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Supplemental

• Software:
  • Bash tutorial
  • Cantera installation
  • Python-Anaconda
  • Scientific Python summary

Class 1

• Combustion overview slides
• Stoichiometry:
  • stoichiometry notes , stoichiometry.ipynb
  • streams.py (right click save as)
  • gri30.yaml
• Mixture fraction notes
  • Jupyter notebook
• Adiabatic flame temperature profiles notes
  • Jupyter notebook

Class 2

• Software summary (see supplemental above)
• Equilibrium criteria
• Element potential method notes
  • Jupyter notebook
  • simple.yaml
• STANJAN
• Pope 2004 Gibbs function continuation for the stable calculation of chemical equilibrium
• Coal thermodynamics and equilibrium

Class 3

• Simple reactors notes
  • Jupyter notebook
• Cantera reactors notes
  • Jupyter notebook
• PSR code on github, full S-curve
• Notes
• Cantera reactor documentation
• Cantera reactor examples

Class 4

• Chemkin premix manual
• Flamelets slides
• Peters Combustion Theory book

Class 5

• Transport equations

Class 6

• Stress
  • More stress
• Index notation
  • Vorticity transport equation
• Discretization
  • Numerical derivatives from ChEn 541
• Notes: Euler equations
• Simple 1-D compressible flow solver (Matlab)

Class 7

• Notes: Pressure
• Notes: Low Mach variable density
• Unsteady, variable density, low Mach algorithm, Saad et al. (2018)
• CFD from scratch
• Notes from ChEn 541: Grid to matrix
  • These notes are for an unsteady elliptic problem. Without the time term, we have a Poisson equation. The BTCS section is relevant for setting up an Ax=b system for a PDE on a two-dimensional grid.

Class 8

• StarCCM+
  • Simple model, with combustion
  • Simple jet, flow only
  • User guide
  • Tutorials
  • Class Video
  • 17 species mechanism
• Colormaps

Class 9

• StarCCM+ Simple model 2
• TNF Workshop
• Model friendly jet flame
• Ethylene wall flame
• FDS
  • See the FDS Validation Guide
    • FM burner experiments
    • Sandia methane burner
  • Youtube video
  • FDS install links
  • FDS on github has the full code and all scripts.
    • Use this to get the scripts in <code>Utilities/Python/scrips</code>
      • get_var_slice.ipynb
      • slread.py
      • plot_slice.ipynb
    • User guides are also available here.
  • FDS example problem: fire on a slope

Class 10

• Turbulence slides
• Turbulence notes
• RANS/Favre

Class 11

• Turbulence closures
• Dynamic Smagorinsky model (LES)

Class 1s

• Presumed PDF
  • Additional summary and mixf/variance tranport
• beta PDF
• Heat loss linear

Class 14

• SLFM presumed pdf model
• EDC notes
• Magnussen 1977
• Gran 1996

Class 15: CMC, transported PDF

• notes
• Klimenko 1999: Conditional moment closure for turbulent combustion
• Haworth 2010: Progress in probability density function methods for turbulent reacting flows
• Pope 1985, PDF methods for turbulent reactive flows

Class 16: Mixing models

• notes
• pmsr notes
• pmsr.py
• HiPS
• Kerstein 2013: HiPS
• Kerstein 2014: HiPS
• See Pope Turbulent Flows Chapter 12
• See Fox Computational Models for Turbulent Reacting Flows Chapter 6

Class 17: ODT

• ODT
• Lignell 2018: ODT
• ODTresearch.com

Class 18: Radiation

• Notes
• Blackbody radiation (Wikipedia)
• Internet question on blackbody cavity

Class 19: Radiation 2

• Radlib
• Notes
• Slides
• Solovjov 2017
• Solovjov 2020
• Bordbar 2014
• Bordbar 2020

Class 20: Soot

• notes
• Sootlib
• Method of moments
• MOM with interpolative closure
• MOM particle growth term
• QMOM, see bottom